diff --git a/reports/anvil-production/README.md b/reports/anvil-production/README.md
index ef189c0b5..23d453904 100644
--- a/reports/anvil-production/README.md
+++ b/reports/anvil-production/README.md
@@ -13,4 +13,4 @@ After each successful deployment, automated tool tests are also run against the
 
 Latest tool tests for each chunk:
 
-<table id="anviltools"><thead><tr><th>Chunk ID</th><th>Tool List</th><th>Latest report</th><th>Previous report</th></tr></thead><tbody><tr><td>0</td><td><a href="https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-09-00-34-1/tools.yml">Toolset</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-09-00-34-1/results.html">Mon Sep 09 00:49:24 2024</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-02-00-33-1/results.html">Mon Sep 02 00:49:36 2024</a></td></tr><tr><td>1</td><td><a href="https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-09-12-34-1/tools.yml">Toolset</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-09-12-34-1/results.html">Mon Sep 09 12:50:13 2024</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-02-12-34-1/results.html">Mon Sep 02 12:49:25 2024</a></td></tr><tr><td>2</td><td><a href="https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-10-00-32-1/tools.yml">Toolset</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-10-00-32-1/results.html">Tue Sep 10 00:48:20 2024</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-03-00-32-1/results.html">Tue Sep 03 00:47:25 2024</a></td></tr><tr><td>3</td><td><a href="https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-10-12-35-1/tools.yml">Toolset</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-10-12-35-1/results.html">Tue Sep 10 12:51:55 2024</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-03-12-33-1/results.html">Tue Sep 03 12:49:09 2024</a></td></tr><tr><td>4</td><td><a href="https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-04-00-32-1/tools.yml">Toolset</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-04-00-32-1/results.html">Wed Sep 04 00:47:35 2024</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-08-28-00-31-1/results.html">Wed Aug 28 00:47:17 2024</a></td></tr><tr><td>5</td><td><a href="https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-11-12-34-1/tools.yml">Toolset</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-11-12-34-1/results.html">Wed Sep 11 12:50:17 2024</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-04-12-34-1/results.html">Wed Sep 04 12:49:18 2024</a></td></tr><tr><td>6</td><td><a href="https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-12-00-32-1/tools.yml">Toolset</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-12-00-32-1/results.html">Thu Sep 12 00:49:13 2024</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-05-00-32-1/results.html">Thu Sep 05 00:47:53 2024</a></td></tr><tr><td>7</td><td><a href="https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-12-12-33-1/tools.yml">Toolset</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-12-12-33-1/results.html">Thu Sep 12 12:49:05 2024</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-08-29-12-33-1/results.html">Thu Aug 29 12:48:26 2024</a></td></tr><tr><td>8</td><td><a href="https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-13-00-32-1/tools.yml">Toolset</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-13-00-32-1/results.html">Fri Sep 13 00:47:48 2024</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-06-00-32-1/results.html">Fri Sep 06 00:47:43 2024</a></td></tr><tr><td>9</td><td><a href="https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-13-12-33-1/tools.yml">Toolset</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-13-12-33-1/results.html">Fri Sep 13 12:48:35 2024</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-06-12-32-1/results.html">Fri Sep 06 12:48:21 2024</a></td></tr><tr><td>10</td><td><a href="https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-14-00-32-1/tools.yml">Toolset</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-14-00-32-1/results.html">Sat Sep 14 00:47:35 2024</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-07-00-31-1/results.html">Sat Sep 07 00:54:23 2024</a></td></tr><tr><td>11</td><td><a href="https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-14-12-31-1/tools.yml">Toolset</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-14-12-31-1/results.html">Sat Sep 14 12:48:11 2024</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-07-12-30-1/results.html">Sat Sep 07 12:45:43 2024</a></td></tr><tr><td>12</td><td><a href="https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-15-00-37-1/tools.yml">Toolset</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-15-00-37-1/results.html">Sun Sep 15 00:52:44 2024</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-08-00-36-1/results.html">Sun Sep 08 00:51:47 2024</a></td></tr><tr><td>13</td><td><a href="https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-08-12-30-1/tools.yml">Toolset</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-08-12-30-1/results.html">Sun Sep 08 12:46:16 2024</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-01-12-30-1/results.html">Sun Sep 01 12:46:15 2024</a></td></tr></tbody></table>
+<table id="anviltools"><thead><tr><th>Chunk ID</th><th>Tool List</th><th>Latest report</th><th>Previous report</th></tr></thead><tbody><tr><td>0</td><td><a href="https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-09-00-34-1/tools.yml">Toolset</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-09-00-34-1/results.html">Mon Sep 09 00:49:24 2024</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-02-00-33-1/results.html">Mon Sep 02 00:49:36 2024</a></td></tr><tr><td>1</td><td><a href="https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-09-12-34-1/tools.yml">Toolset</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-09-12-34-1/results.html">Mon Sep 09 12:50:13 2024</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-02-12-34-1/results.html">Mon Sep 02 12:49:25 2024</a></td></tr><tr><td>2</td><td><a href="https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-10-00-32-1/tools.yml">Toolset</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-10-00-32-1/results.html">Tue Sep 10 00:48:20 2024</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-03-00-32-1/results.html">Tue Sep 03 00:47:25 2024</a></td></tr><tr><td>3</td><td><a href="https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-10-12-35-1/tools.yml">Toolset</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-10-12-35-1/results.html">Tue Sep 10 12:51:55 2024</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-03-12-33-1/results.html">Tue Sep 03 12:49:09 2024</a></td></tr><tr><td>4</td><td><a href="https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-04-00-32-1/tools.yml">Toolset</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-04-00-32-1/results.html">Wed Sep 04 00:47:35 2024</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-08-28-00-31-1/results.html">Wed Aug 28 00:47:17 2024</a></td></tr><tr><td>5</td><td><a href="https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-11-12-34-1/tools.yml">Toolset</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-11-12-34-1/results.html">Wed Sep 11 12:50:17 2024</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-04-12-34-1/results.html">Wed Sep 04 12:49:18 2024</a></td></tr><tr><td>6</td><td><a href="https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-12-00-32-1/tools.yml">Toolset</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-12-00-32-1/results.html">Thu Sep 12 00:49:13 2024</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-05-00-32-1/results.html">Thu Sep 05 00:47:53 2024</a></td></tr><tr><td>7</td><td><a href="https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-12-12-33-1/tools.yml">Toolset</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-12-12-33-1/results.html">Thu Sep 12 12:49:05 2024</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-08-29-12-33-1/results.html">Thu Aug 29 12:48:26 2024</a></td></tr><tr><td>8</td><td><a href="https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-13-00-32-1/tools.yml">Toolset</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-13-00-32-1/results.html">Fri Sep 13 00:47:48 2024</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-06-00-32-1/results.html">Fri Sep 06 00:47:43 2024</a></td></tr><tr><td>9</td><td><a href="https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-13-12-33-1/tools.yml">Toolset</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-13-12-33-1/results.html">Fri Sep 13 12:48:35 2024</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-06-12-32-1/results.html">Fri Sep 06 12:48:21 2024</a></td></tr><tr><td>10</td><td><a href="https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-14-00-32-1/tools.yml">Toolset</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-14-00-32-1/results.html">Sat Sep 14 00:47:35 2024</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-07-00-31-1/results.html">Sat Sep 07 00:54:23 2024</a></td></tr><tr><td>11</td><td><a href="https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-14-12-31-1/tools.yml">Toolset</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-14-12-31-1/results.html">Sat Sep 14 12:48:11 2024</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-07-12-30-1/results.html">Sat Sep 07 12:45:43 2024</a></td></tr><tr><td>12</td><td><a href="https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-15-00-37-1/tools.yml">Toolset</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-15-00-37-1/results.html">Sun Sep 15 00:52:44 2024</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-08-00-36-1/results.html">Sun Sep 08 00:51:47 2024</a></td></tr><tr><td>13</td><td><a href="https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/tools.yml">Toolset</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/results.html">Sun Sep 15 12:47:00 2024</a></td><td><a href="https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-08-12-30-1/results.html">Sun Sep 08 12:46:16 2024</a></td></tr></tbody></table>
diff --git a/reports/anvil-production/tool-tests/chunks.json b/reports/anvil-production/tool-tests/chunks.json
index 85cbcbdb3..d33c9fc0f 100644
--- a/reports/anvil-production/tool-tests/chunks.json
+++ b/reports/anvil-production/tool-tests/chunks.json
@@ -56,11 +56,11 @@
         "date2": "Fri Sep 06 12:48:21 2024"
     },
     "13": {
-        "run1": "https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-08-12-30-1/results.html",
-        "date1": "Sun Sep 08 12:46:16 2024",
-        "tools": "https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-08-12-30-1/tools.yml",
-        "run2": "https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-01-12-30-1/results.html",
-        "date2": "Sun Sep 01 12:46:15 2024"
+        "run1": "https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/results.html",
+        "date1": "Sun Sep 15 12:47:00 2024",
+        "tools": "https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/tools.yml",
+        "run2": "https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-08-12-30-1/results.html",
+        "date2": "Sun Sep 08 12:46:16 2024"
     },
     "4": {
         "run1": "https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-04-00-32-1/results.html",
diff --git a/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/chunk.json b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/chunk.json
new file mode 100644
index 000000000..0506464c0
--- /dev/null
+++ b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/chunk.json
@@ -0,0 +1,7 @@
+{
+    "13": {
+        "run1": "https://htmlpreview.github.io/?https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/results.html",
+        "date1": "Sun Sep 15 12:47:00 2024",
+        "tools": "https://github.com/anvilproject/galaxy-tests/blob/main/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/tools.yml"
+    }
+}
\ No newline at end of file
diff --git a/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/chunk.txt b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/chunk.txt
new file mode 100644
index 000000000..f0043bff8
--- /dev/null
+++ b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/chunk.txt
@@ -0,0 +1,15 @@
+-t table_compute --tool-version 60ff16842fcd
+-t cutadapt --tool-version 093678460093
+-t qualimap_bamqc --tool-version 19ece8afbaab
+-t samtools_stats --tool-version 145f6d74ff5e
+-t filter_on_md --tool-version ac70bfaf1224
+-t bcftools_plugin_mendelian --tool-version bf235558f2cf
+-t bcftools_csq --tool-version fdd127bd4a32
+-t vcfcommonsamples --tool-version f1852ecef841
+-t vcfdistance --tool-version c506b8275b1a
+-t poretools_yield_plot --tool-version ca22d8497db5
+-t deeptools_bigwig_compare --tool-version 26e7304d6737
+-t bowtie2 --tool-version 09b2cdb7ace5
+-t snpsift_genesets --tool-version d12a810c837e
+-t deseq2 --tool-version 6a3a025714d3
+-t mummer_mummer --tool-version 48823c9635a4
diff --git a/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/2635ab551e682228.json b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/2635ab551e682228.json
new file mode 100644
index 000000000..79f2ef3da
--- /dev/null
+++ b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/2635ab551e682228.json
@@ -0,0 +1,62 @@
+{
+    "model_class": "Job",
+    "id": "2635ab551e682228",
+    "state": "error",
+    "exit_code": null,
+    "update_time": "2024-09-15T13:44:50.517363",
+    "create_time": "2024-09-15T13:44:45.042805",
+    "galaxy_version": "23.1",
+    "command_version": null,
+    "copied_from_job_id": null,
+    "tool_id": "toolshed.g2.bx.psu.edu/repos/devteam/bowtie2/bowtie2/2.5.3+galaxy1",
+    "history_id": "8dc7d2120e767ce3",
+    "external_id": "gxy-mk5tj",
+    "command_line": "set -o | grep -q pipefail && set -o pipefail; bowtie2-build --threads ${GALAXY_SLOTS:-4} '/galaxy/server/database/objects/6/f/7/dataset_6f78e9ec-445a-4de9-90ea-a13dcbe1a601.dat' genome && ln -s -f '/galaxy/server/database/objects/6/f/7/dataset_6f78e9ec-445a-4de9-90ea-a13dcbe1a601.dat' genome.fa &&   ln -f -s '/galaxy/server/database/objects/5/d/a/dataset_5da73379-d0c8-4a47-85c9-aaa7fac211b5.dat' input_f.fasta &&  ln -f -s '/galaxy/server/database/objects/7/d/b/dataset_7db72cdb-0344-4e93-b88d-5eb90723be22.dat' input_r.fasta &&   THREADS=${GALAXY_SLOTS:-4} && if [ \"$THREADS\" -gt 1 ]; then (( THREADS-- )); fi &&   bowtie2  -p \"$THREADS\"  -x 'genome'  -f  -1 'input_f.fasta' -2 'input_r.fasta'                 | samtools sort -l 0 -T \"${TMPDIR:-.}\" -O bam | samtools view --no-PG -O bam -@ ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/e/9/d/dataset_e9d0bce6-6d4a-4fee-94e6-82baadac50b0.dat'",
+    "traceback": null,
+    "params": {
+        "__input_ext": "\"input\"",
+        "dbkey": "\"?\"",
+        "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"",
+        "save_mapping_stats": "false",
+        "sam_options": "{\"__current_case__\": 1, \"sam_options_selector\": \"no\"}",
+        "analysis_type": "{\"__current_case__\": 0, \"analysis_type_selector\": \"simple\", \"presets\": \"no_presets\"}",
+        "rg": "{\"__current_case__\": 3, \"rg_selector\": \"do_not_set\"}",
+        "reference_genome": "{\"__current_case__\": 1, \"own_file\": {\"values\": [{\"id\": 387, \"src\": \"hda\"}]}, \"source\": \"history\"}",
+        "library": "{\"__current_case__\": 1, \"aligned_file\": false, \"input_1\": {\"values\": [{\"id\": 385, \"src\": \"hda\"}]}, \"input_2\": {\"values\": [{\"id\": 386, \"src\": \"hda\"}]}, \"paired_options\": {\"__current_case__\": 1, \"paired_options_selector\": \"no\"}, \"type\": \"paired\", \"unaligned_file\": false}"
+    },
+    "inputs": {
+        "library|input_1": {
+            "id": "6c90f6313f69bf03",
+            "src": "hda",
+            "uuid": "5da73379-d0c8-4a47-85c9-aaa7fac211b5"
+        },
+        "library|input_2": {
+            "id": "d4ed341c5293401e",
+            "src": "hda",
+            "uuid": "7db72cdb-0344-4e93-b88d-5eb90723be22"
+        },
+        "reference_genome|own_file": {
+            "id": "52986156949892f4",
+            "src": "hda",
+            "uuid": "6f78e9ec-445a-4de9-90ea-a13dcbe1a601"
+        }
+    },
+    "outputs": {
+        "output": {
+            "id": "11fb8b6d7e0f63ee",
+            "src": "hda",
+            "uuid": "e9d0bce6-6d4a-4fee-94e6-82baadac50b0"
+        }
+    },
+    "output_collections": {},
+    "tool_stdout": "",
+    "tool_stderr": "",
+    "job_stdout": null,
+    "job_stderr": null,
+    "stderr": "",
+    "stdout": "",
+    "job_messages": null,
+    "dependencies": [],
+    "user_email": "tests@fake.org",
+    "job_metrics": []
+}
diff --git a/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/286e9de4b25d1b9a.json b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/286e9de4b25d1b9a.json
new file mode 100644
index 000000000..02e3a19c8
--- /dev/null
+++ b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/286e9de4b25d1b9a.json
@@ -0,0 +1,44 @@
+{
+    "model_class": "Job",
+    "id": "286e9de4b25d1b9a",
+    "state": "error",
+    "exit_code": null,
+    "update_time": "2024-09-15T13:42:56.443687",
+    "create_time": "2024-09-15T13:42:46.833989",
+    "galaxy_version": "23.1",
+    "command_version": null,
+    "copied_from_job_id": null,
+    "tool_id": "upload1",
+    "history_id": "8dc7d2120e767ce3",
+    "external_id": "gxy-hmddw",
+    "command_line": "python '/galaxy/server/database/tools/data_source/upload.py' '/galaxy/server' '/galaxy/server/database/jobs_directory/000/274/registry.xml' '/galaxy/server/database/jobs_directory/000/274/upload_params.json' '373:/galaxy/server/database/objects/d/c/d/dataset_dcdec254-7133-433d-88d4-168078a0f77e_files:/galaxy/server/database/objects/d/c/d/dataset_dcdec254-7133-433d-88d4-168078a0f77e.dat'",
+    "traceback": null,
+    "params": {
+        "paramfile": "\"/galaxy/server/database/tmp/upload_params_katrlide\"",
+        "files_metadata": "{\"__current_case__\": 677, \"file_type\": \"auto\"}",
+        "dbkey": "\"?\"",
+        "force_composite": "\"false\"",
+        "files": "[{\"NAME\": \"bowtie2-ref.fasta\", \"__index__\": 0, \"auto_decompress\": \"Yes\", \"dbkey\": \"\", \"file_data\": \"/galaxy/server/database/tmp/upload_file_data_yekj72w_\", \"file_type\": \"\", \"ftp_files\": null, \"space_to_tab\": null, \"to_posix_lines\": \"Yes\", \"url_paste\": null, \"uuid\": null}]",
+        "file_count": "\"auto\"",
+        "file_type": "\"auto\""
+    },
+    "inputs": {},
+    "outputs": {
+        "output0": {
+            "id": "c85aa3d1580e0f85",
+            "src": "hda",
+            "uuid": "dcdec254-7133-433d-88d4-168078a0f77e"
+        }
+    },
+    "output_collections": {},
+    "tool_stdout": "",
+    "tool_stderr": "",
+    "job_stdout": null,
+    "job_stderr": null,
+    "stderr": "",
+    "stdout": "",
+    "job_messages": null,
+    "dependencies": [],
+    "user_email": "tests@fake.org",
+    "job_metrics": []
+}
diff --git a/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/3eb9767de510deb5.json b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/3eb9767de510deb5.json
new file mode 100644
index 000000000..243013dc1
--- /dev/null
+++ b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/3eb9767de510deb5.json
@@ -0,0 +1,106 @@
+{
+    "model_class": "Job",
+    "id": "3eb9767de510deb5",
+    "state": "error",
+    "exit_code": 1,
+    "update_time": "2024-09-15T13:27:00.634844",
+    "create_time": "2024-09-15T13:26:49.511959",
+    "galaxy_version": "23.1",
+    "command_version": "4.9",
+    "copied_from_job_id": null,
+    "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1",
+    "history_id": "8dc7d2120e767ce3",
+    "external_id": "gxy-9pzt5",
+    "command_line": "ln -f -s '/galaxy/server/database/objects/2/f/2/dataset_2f2a788d-2833-4171-badc-a3ae9df0a6e4.dat' 'bwa-mem-fastq1_fq_gz.fq.gz' && ln -f -s '/galaxy/server/database/objects/9/5/3/dataset_9532760e-5c81-4d94-b8f4-4a144be8258c.dat' 'bwa-mem-fastq_mispaired2_fq_gz.fq.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'    -A 'AGATCGGAAGAGC'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      -o 'out1.fq.gz' -p 'out2.fq.gz'  'bwa-mem-fastq1_fq_gz.fq.gz' 'bwa-mem-fastq_mispaired2_fq_gz.fq.gz'",
+    "traceback": null,
+    "params": {
+        "__input_ext": "\"input\"",
+        "dbkey": "\"?\"",
+        "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"",
+        "output_selector": null,
+        "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}",
+        "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}",
+        "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}",
+        "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}",
+        "library": "{\"__current_case__\": 1, \"input_1\": {\"values\": [{\"id\": 213, \"src\": \"hda\"}]}, \"input_2\": {\"values\": [{\"id\": 214, \"src\": \"hda\"}]}, \"pair_adapters\": false, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGATCGGAAGAGC\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"r2\": {\"adapters2\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGATCGGAAGAGC\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters2\": [], \"front_adapters2\": []}, \"type\": \"paired\"}"
+    },
+    "inputs": {
+        "library|input_1": {
+            "id": "0b93eba5cf3093cd",
+            "src": "hda",
+            "uuid": "2f2a788d-2833-4171-badc-a3ae9df0a6e4"
+        },
+        "library|input_2": {
+            "id": "0c498463f03571c8",
+            "src": "hda",
+            "uuid": "9532760e-5c81-4d94-b8f4-4a144be8258c"
+        }
+    },
+    "outputs": {
+        "out1": {
+            "id": "b90049f0a9909974",
+            "src": "hda",
+            "uuid": "c8173c4d-e6bf-4b2f-abe0-a838ef15f4c2"
+        },
+        "out2": {
+            "id": "5847934dd1a02478",
+            "src": "hda",
+            "uuid": "d0f3f085-15fa-4879-84af-75817fe8555b"
+        }
+    },
+    "output_collections": {},
+    "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC -A AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_fq_gz.fq.gz bwa-mem-fastq_mispaired2_fq_gz.fq.gz\nProcessing paired-end reads on 5 cores ...\n",
+    "tool_stderr": "Error in sequence file at unknown line: Reads are improperly paired. Read name 'M01368:8:000000000-A3GHV:1:1101:6911:8255/1' in file 1 does not match 'M01368:8:000000000-A3GHV:1:1101:14518:9998/2' in file 2.\n",
+    "job_stdout": "",
+    "job_stderr": "",
+    "stderr": "Error in sequence file at unknown line: Reads are improperly paired. Read name 'M01368:8:000000000-A3GHV:1:1101:6911:8255/1' in file 1 does not match 'M01368:8:000000000-A3GHV:1:1101:14518:9998/2' in file 2.\n",
+    "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC -A AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_fq_gz.fq.gz bwa-mem-fastq_mispaired2_fq_gz.fq.gz\nProcessing paired-end reads on 5 cores ...\n",
+    "job_messages": [
+        {
+            "code_desc": "",
+            "desc": "Fatal error: Exit code 1 ()",
+            "error_level": 3,
+            "exit_code": 1,
+            "type": "exit_code"
+        }
+    ],
+    "dependencies": [],
+    "user_email": "tests@fake.org",
+    "job_metrics": [
+        {
+            "title": "Job Runtime (Wall Clock)",
+            "value": "1 second",
+            "plugin": "core",
+            "name": "runtime_seconds",
+            "raw_value": "1.0000000"
+        },
+        {
+            "title": "Job End Time",
+            "value": "2024-09-15 13:26:52",
+            "plugin": "core",
+            "name": "end_epoch",
+            "raw_value": "1726406812.0000000"
+        },
+        {
+            "title": "Job Start Time",
+            "value": "2024-09-15 13:26:51",
+            "plugin": "core",
+            "name": "start_epoch",
+            "raw_value": "1726406811.0000000"
+        },
+        {
+            "title": "Memory Allocated (MB)",
+            "value": "20401",
+            "plugin": "core",
+            "name": "galaxy_memory_mb",
+            "raw_value": "20401.0000000"
+        },
+        {
+            "title": "Cores Allocated",
+            "value": "5",
+            "plugin": "core",
+            "name": "galaxy_slots",
+            "raw_value": "5.0000000"
+        }
+    ]
+}
diff --git a/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/5f9f44d67cda1375.json b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/5f9f44d67cda1375.json
new file mode 100644
index 000000000..e9a56a016
--- /dev/null
+++ b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/5f9f44d67cda1375.json
@@ -0,0 +1,66 @@
+{
+    "model_class": "Job",
+    "id": "5f9f44d67cda1375",
+    "state": "error",
+    "exit_code": null,
+    "update_time": "2024-09-15T13:31:38.656773",
+    "create_time": "2024-09-15T13:31:33.360216",
+    "galaxy_version": "23.1",
+    "command_version": null,
+    "copied_from_job_id": null,
+    "tool_id": "toolshed.g2.bx.psu.edu/repos/devteam/samtools_stats/samtools_stats/2.0.5",
+    "history_id": "8dc7d2120e767ce3",
+    "external_id": "gxy-gdc89",
+    "command_line": "addthreads=${GALAXY_SLOTS:-1} && (( addthreads-- )) &&   ln -s '/galaxy/server/database/objects/3/6/5/dataset_3653046f-956b-4f37-8fcd-a59499819d32.dat' infile &&      reffa=\"reference.fa\" && ln -s '/galaxy/server/database/objects/0/5/8/dataset_0582d9ad-0e16-455b-95e2-4ef32bdd03ad.dat' $reffa && samtools faidx $reffa && reffai=$reffa.fai &&  samtools stats  --insert-size 0  --ref-seq \"$reffa\"     -@ $addthreads infile   > '/galaxy/server/database/objects/9/4/6/dataset_946e5c7e-b0e6-4396-92b0-2e52a3c0ec0e.dat'",
+    "traceback": null,
+    "params": {
+        "__input_ext": "\"input\"",
+        "dbkey": "\"?\"",
+        "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"",
+        "cov_threshold": "\"\"",
+        "remove_overlaps": "false",
+        "sparse": "false",
+        "cond_region": "{\"__current_case__\": 0, \"select_region\": \"no\"}",
+        "addref_cond": "{\"__current_case__\": 1, \"addref_select\": \"history\", \"ref\": {\"values\": [{\"id\": 305, \"src\": \"hda\"}]}}",
+        "trim_quality": "\"\"",
+        "most_inserts": "\"\"",
+        "read_length": "\"\"",
+        "read_group": null,
+        "insert_size": "\"0\"",
+        "gc_depth": "\"\"",
+        "filter_by_flags": "{\"__current_case__\": 1, \"filter_flags\": \"nofilter\"}",
+        "split_output_cond": "{\"__current_case__\": 0, \"split_output_selector\": \"no\"}",
+        "remove_dups": "false",
+        "coverage_cond": "{\"__current_case__\": 0, \"coverage_select\": \"no\"}"
+    },
+    "inputs": {
+        "input": {
+            "id": "4676469627fdcfe8",
+            "src": "hda",
+            "uuid": "3653046f-956b-4f37-8fcd-a59499819d32"
+        },
+        "addref_cond|ref": {
+            "id": "80dbf36c1afde1c7",
+            "src": "hda",
+            "uuid": "0582d9ad-0e16-455b-95e2-4ef32bdd03ad"
+        }
+    },
+    "outputs": {
+        "output": {
+            "id": "edc9d7b6bfb001c9",
+            "src": "hda",
+            "uuid": "946e5c7e-b0e6-4396-92b0-2e52a3c0ec0e"
+        }
+    },
+    "output_collections": {},
+    "tool_stdout": "",
+    "tool_stderr": "",
+    "job_stdout": null,
+    "job_stderr": null,
+    "stderr": "",
+    "stdout": "",
+    "job_messages": null,
+    "dependencies": [],
+    "user_email": "tests@fake.org",
+    "job_metrics": []
+}
diff --git a/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/671cfe54a939492d.json b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/671cfe54a939492d.json
new file mode 100644
index 000000000..7f1790951
--- /dev/null
+++ b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/671cfe54a939492d.json
@@ -0,0 +1,44 @@
+{
+    "model_class": "Job",
+    "id": "671cfe54a939492d",
+    "state": "error",
+    "exit_code": null,
+    "update_time": "2024-09-15T13:23:54.610738",
+    "create_time": "2024-09-15T13:23:46.632216",
+    "galaxy_version": "23.1",
+    "command_version": null,
+    "copied_from_job_id": null,
+    "tool_id": "upload1",
+    "history_id": "8dc7d2120e767ce3",
+    "external_id": "gxy-wxtxs",
+    "command_line": "python '/galaxy/server/database/tools/data_source/upload.py' '/galaxy/server' '/galaxy/server/database/jobs_directory/000/174/registry.xml' '/galaxy/server/database/jobs_directory/000/174/upload_params.json' '198:/galaxy/server/database/objects/8/3/3/dataset_833f3488-1807-402b-8208-6f28ad4eea29_files:/galaxy/server/database/objects/8/3/3/dataset_833f3488-1807-402b-8208-6f28ad4eea29.dat'",
+    "traceback": null,
+    "params": {
+        "paramfile": "\"/galaxy/server/database/tmp/upload_params_fa4lnl28\"",
+        "files_metadata": "{\"__current_case__\": 75, \"file_type\": \"fasta\"}",
+        "dbkey": "\"?\"",
+        "force_composite": "\"false\"",
+        "files": "[{\"NAME\": \"polya.1.fasta\", \"__index__\": 0, \"auto_decompress\": \"Yes\", \"dbkey\": \"\", \"file_data\": \"/galaxy/server/database/tmp/upload_file_data_2s7g189h\", \"file_type\": \"\", \"ftp_files\": null, \"space_to_tab\": null, \"to_posix_lines\": \"Yes\", \"url_paste\": null, \"uuid\": null}]",
+        "file_count": "\"auto\"",
+        "file_type": "\"fasta\""
+    },
+    "inputs": {},
+    "outputs": {
+        "output0": {
+            "id": "490b136d2fa5088e",
+            "src": "hda",
+            "uuid": "833f3488-1807-402b-8208-6f28ad4eea29"
+        }
+    },
+    "output_collections": {},
+    "tool_stdout": "",
+    "tool_stderr": "",
+    "job_stdout": null,
+    "job_stderr": null,
+    "stderr": "",
+    "stdout": "",
+    "job_messages": null,
+    "dependencies": [],
+    "user_email": "tests@fake.org",
+    "job_metrics": []
+}
diff --git a/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/702e1a363999cf3d.json b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/702e1a363999cf3d.json
new file mode 100644
index 000000000..72dac347d
--- /dev/null
+++ b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/702e1a363999cf3d.json
@@ -0,0 +1,44 @@
+{
+    "model_class": "Job",
+    "id": "702e1a363999cf3d",
+    "state": "error",
+    "exit_code": null,
+    "update_time": "2024-09-15T13:50:29.157367",
+    "create_time": "2024-09-15T13:50:20.242376",
+    "galaxy_version": "23.1",
+    "command_version": null,
+    "copied_from_job_id": null,
+    "tool_id": "upload1",
+    "history_id": "8dc7d2120e767ce3",
+    "external_id": "gxy-8qd5b",
+    "command_line": "python '/galaxy/server/database/tools/data_source/upload.py' '/galaxy/server' '/galaxy/server/database/jobs_directory/000/334/registry.xml' '/galaxy/server/database/jobs_directory/000/334/upload_params.json' '440:/galaxy/server/database/objects/e/8/0/dataset_e80bfc92-0ee5-40f8-ac15-d721d49a1114_files:/galaxy/server/database/objects/e/8/0/dataset_e80bfc92-0ee5-40f8-ac15-d721d49a1114.dat'",
+    "traceback": null,
+    "params": {
+        "paramfile": "\"/galaxy/server/database/tmp/upload_params_7x0yyi5r\"",
+        "files_metadata": "{\"__current_case__\": 677, \"file_type\": \"auto\"}",
+        "dbkey": "\"?\"",
+        "force_composite": "\"false\"",
+        "files": "[{\"NAME\": \"sailfish_quant.sf4.tab\", \"__index__\": 0, \"auto_decompress\": \"Yes\", \"dbkey\": \"\", \"file_data\": \"/galaxy/server/database/tmp/upload_file_data_tlkj4ejp\", \"file_type\": \"\", \"ftp_files\": null, \"space_to_tab\": null, \"to_posix_lines\": \"Yes\", \"url_paste\": null, \"uuid\": null}]",
+        "file_count": "\"auto\"",
+        "file_type": "\"auto\""
+    },
+    "inputs": {},
+    "outputs": {
+        "output0": {
+            "id": "d7ef839768d31a83",
+            "src": "hda",
+            "uuid": "e80bfc92-0ee5-40f8-ac15-d721d49a1114"
+        }
+    },
+    "output_collections": {},
+    "tool_stdout": "",
+    "tool_stderr": "",
+    "job_stdout": null,
+    "job_stderr": null,
+    "stderr": "",
+    "stdout": "",
+    "job_messages": null,
+    "dependencies": [],
+    "user_email": "tests@fake.org",
+    "job_metrics": []
+}
diff --git a/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/78aa595b9acf0875.json b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/78aa595b9acf0875.json
new file mode 100644
index 000000000..a4b03f3d1
--- /dev/null
+++ b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/78aa595b9acf0875.json
@@ -0,0 +1,49 @@
+{
+    "model_class": "Job",
+    "id": "78aa595b9acf0875",
+    "state": "error",
+    "exit_code": null,
+    "update_time": "2024-09-15T13:04:20.152673",
+    "create_time": "2024-09-15T13:04:14.431007",
+    "galaxy_version": "23.1",
+    "command_version": null,
+    "copied_from_job_id": null,
+    "tool_id": "toolshed.g2.bx.psu.edu/repos/iuc/table_compute/table_compute/1.2.4+galaxy0",
+    "history_id": "8dc7d2120e767ce3",
+    "external_id": "gxy-4v727",
+    "command_line": "cp '/galaxy/server/database/jobs_directory/000/75/configs/tmpdh0t93_6' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py",
+    "traceback": null,
+    "params": {
+        "__input_ext": "\"tabular\"",
+        "dbkey": "\"?\"",
+        "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"",
+        "precision": "\"6\"",
+        "out_opts": "[\"ignore_nas\", \"output_headers_col\", \"output_headers_row\"]",
+        "singtabop": "{\"__current_case__\": 0, \"adv\": {\"header\": \"\", \"nrows\": \"\", \"skip_blank_lines\": true, \"skipfooter\": \"\"}, \"col_row_names\": [\"has_col_names\", \"has_row_names\"], \"input\": {\"values\": [{\"id\": 74, \"src\": \"hda\"}]}, \"use_type\": \"single\", \"user\": {\"__current_case__\": 5, \"elem_val\": {\"__current_case__\": 7, \"element_op\": \"rowcol\", \"inclusive_selection\": true, \"select_cols_wanted\": \"2\", \"select_rows_wanted\": \"2,4\"}, \"element\": {\"__current_case__\": 0, \"mode\": \"replace\", \"replace_value\": \"chr{elem:.0f}\"}, \"mode\": \"element\"}}"
+    },
+    "inputs": {
+        "singtabop|input": {
+            "id": "da88823f2092602a",
+            "src": "hda",
+            "uuid": "c3097c97-9ab6-4617-beaf-c7af1d452c48"
+        }
+    },
+    "outputs": {
+        "table": {
+            "id": "78aa595b9acf0875",
+            "src": "hda",
+            "uuid": "3abb2a5a-056a-405d-9feb-15738b0ce146"
+        }
+    },
+    "output_collections": {},
+    "tool_stdout": "",
+    "tool_stderr": "",
+    "job_stdout": null,
+    "job_stderr": null,
+    "stderr": "",
+    "stdout": "",
+    "job_messages": null,
+    "dependencies": [],
+    "user_email": "tests@fake.org",
+    "job_metrics": []
+}
diff --git a/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/81a385fe80546354.json b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/81a385fe80546354.json
new file mode 100644
index 000000000..12f4730d4
--- /dev/null
+++ b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/81a385fe80546354.json
@@ -0,0 +1,44 @@
+{
+    "model_class": "Job",
+    "id": "81a385fe80546354",
+    "state": "error",
+    "exit_code": null,
+    "update_time": "2024-09-15T13:42:55.163902",
+    "create_time": "2024-09-15T13:42:46.148414",
+    "galaxy_version": "23.1",
+    "command_version": null,
+    "copied_from_job_id": null,
+    "tool_id": "upload1",
+    "history_id": "8dc7d2120e767ce3",
+    "external_id": "gxy-qkd6s",
+    "command_line": "python '/galaxy/server/database/tools/data_source/upload.py' '/galaxy/server' '/galaxy/server/database/jobs_directory/000/272/registry.xml' '/galaxy/server/database/jobs_directory/000/272/upload_params.json' '371:/galaxy/server/database/objects/7/c/6/dataset_7c6ff3c1-408d-4224-b909-907bb7bf92a5_files:/galaxy/server/database/objects/7/c/6/dataset_7c6ff3c1-408d-4224-b909-907bb7bf92a5.dat'",
+    "traceback": null,
+    "params": {
+        "paramfile": "\"/galaxy/server/database/tmp/upload_params_58ncp08a\"",
+        "files_metadata": "{\"__current_case__\": 81, \"file_type\": \"fastqsanger\"}",
+        "dbkey": "\"?\"",
+        "force_composite": "\"false\"",
+        "files": "[{\"NAME\": \"bowtie2-fq1.fq\", \"__index__\": 0, \"auto_decompress\": \"Yes\", \"dbkey\": \"\", \"file_data\": \"/galaxy/server/database/tmp/upload_file_data_97xlevsw\", \"file_type\": \"\", \"ftp_files\": null, \"space_to_tab\": null, \"to_posix_lines\": \"Yes\", \"url_paste\": null, \"uuid\": null}]",
+        "file_count": "\"auto\"",
+        "file_type": "\"fastqsanger\""
+    },
+    "inputs": {},
+    "outputs": {
+        "output0": {
+            "id": "873c366be2dadb12",
+            "src": "hda",
+            "uuid": "7c6ff3c1-408d-4224-b909-907bb7bf92a5"
+        }
+    },
+    "output_collections": {},
+    "tool_stdout": "",
+    "tool_stderr": "",
+    "job_stdout": null,
+    "job_stderr": null,
+    "stderr": "",
+    "stdout": "",
+    "job_messages": null,
+    "dependencies": [],
+    "user_email": "tests@fake.org",
+    "job_metrics": []
+}
diff --git a/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/90055d72f53a0ad1.json b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/90055d72f53a0ad1.json
new file mode 100644
index 000000000..c589d274b
--- /dev/null
+++ b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/90055d72f53a0ad1.json
@@ -0,0 +1,59 @@
+{
+    "model_class": "Job",
+    "id": "90055d72f53a0ad1",
+    "state": "error",
+    "exit_code": null,
+    "update_time": "2024-09-15T13:01:34.516574",
+    "create_time": "2024-09-15T13:01:28.593411",
+    "galaxy_version": "23.1",
+    "command_version": null,
+    "copied_from_job_id": null,
+    "tool_id": "toolshed.g2.bx.psu.edu/repos/iuc/table_compute/table_compute/1.2.4+galaxy0",
+    "history_id": "8dc7d2120e767ce3",
+    "external_id": "gxy-cnxjb",
+    "command_line": "cp '/galaxy/server/database/jobs_directory/000/62/configs/tmph8jli5_k' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py",
+    "traceback": null,
+    "params": {
+        "__input_ext": "\"tabular\"",
+        "dbkey": "\"?\"",
+        "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"",
+        "precision": "\"6\"",
+        "out_opts": "[\"ignore_nas\", \"output_headers_col\", \"output_headers_row\"]",
+        "singtabop": "{\"__current_case__\": 1, \"fulltable_custom_expr\": \"table1 / min(np.max(np.max(table2)), np.max(np.max(table3)))\", \"tables\": [{\"__index__\": 0, \"adv\": {\"header\": \"\", \"nrows\": \"\", \"skip_blank_lines\": true, \"skipfooter\": \"\"}, \"col_row_names\": [\"has_col_names\", \"has_row_names\"], \"input\": {\"values\": [{\"id\": 59, \"src\": \"hda\"}]}}, {\"__index__\": 1, \"adv\": {\"header\": \"\", \"nrows\": \"\", \"skip_blank_lines\": true, \"skipfooter\": \"\"}, \"col_row_names\": [\"has_col_names\", \"has_row_names\"], \"input\": {\"values\": [{\"id\": 60, \"src\": \"hda\"}]}}, {\"__index__\": 2, \"adv\": {\"header\": \"\", \"nrows\": \"\", \"skip_blank_lines\": true, \"skipfooter\": \"\"}, \"col_row_names\": [\"has_col_names\", \"has_row_names\"], \"input\": {\"values\": [{\"id\": 61, \"src\": \"hda\"}]}}], \"use_type\": \"multiple\"}"
+    },
+    "inputs": {
+        "singtabop|tables_0|input": {
+            "id": "db3844b6bbac6537",
+            "src": "hda",
+            "uuid": "e4c13511-31cb-465b-8d1a-db872ba739dd"
+        },
+        "singtabop|tables_1|input": {
+            "id": "84ffbccb5d17b489",
+            "src": "hda",
+            "uuid": "5b21c48e-91ca-4091-a6b8-0e76d9f7a9a1"
+        },
+        "singtabop|tables_2|input": {
+            "id": "357c4e331d0d0584",
+            "src": "hda",
+            "uuid": "01f63da6-05fe-4a6d-8c57-ca1f6a864033"
+        }
+    },
+    "outputs": {
+        "table": {
+            "id": "90055d72f53a0ad1",
+            "src": "hda",
+            "uuid": "a94d0d27-a786-4dba-ae8d-3651eb7f208d"
+        }
+    },
+    "output_collections": {},
+    "tool_stdout": "",
+    "tool_stderr": "",
+    "job_stdout": null,
+    "job_stderr": null,
+    "stderr": "",
+    "stdout": "",
+    "job_messages": null,
+    "dependencies": [],
+    "user_email": "tests@fake.org",
+    "job_metrics": []
+}
diff --git a/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/9adad6bbf9168310.json b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/9adad6bbf9168310.json
new file mode 100644
index 000000000..e0978ab93
--- /dev/null
+++ b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/9adad6bbf9168310.json
@@ -0,0 +1,44 @@
+{
+    "model_class": "Job",
+    "id": "9adad6bbf9168310",
+    "state": "error",
+    "exit_code": null,
+    "update_time": "2024-09-15T13:39:51.276475",
+    "create_time": "2024-09-15T13:39:41.738993",
+    "galaxy_version": "23.1",
+    "command_version": null,
+    "copied_from_job_id": null,
+    "tool_id": "upload1",
+    "history_id": "8dc7d2120e767ce3",
+    "external_id": "gxy-r62qw",
+    "command_line": "python '/galaxy/server/database/tools/data_source/upload.py' '/galaxy/server' '/galaxy/server/database/jobs_directory/000/255/registry.xml' '/galaxy/server/database/jobs_directory/000/255/upload_params.json' '352:/galaxy/server/database/objects/b/f/7/dataset_bf7f9e91-95ab-470b-9d68-55b7adc452ec_files:/galaxy/server/database/objects/b/f/7/dataset_bf7f9e91-95ab-470b-9d68-55b7adc452ec.dat'",
+    "traceback": null,
+    "params": {
+        "paramfile": "\"/galaxy/server/database/tmp/upload_params_uw1d7mk_\"",
+        "files_metadata": "{\"__current_case__\": 240, \"file_type\": \"fast5.tar\"}",
+        "dbkey": "\"?\"",
+        "force_composite": "\"false\"",
+        "files": "[{\"NAME\": \"poretools-in1.tar.bz2\", \"__index__\": 0, \"auto_decompress\": \"Yes\", \"dbkey\": \"\", \"file_data\": \"/galaxy/server/database/tmp/upload_file_data_kl08bdu9\", \"file_type\": \"\", \"ftp_files\": null, \"space_to_tab\": null, \"to_posix_lines\": \"Yes\", \"url_paste\": null, \"uuid\": null}]",
+        "file_count": "\"auto\"",
+        "file_type": "\"fast5.tar\""
+    },
+    "inputs": {},
+    "outputs": {
+        "output0": {
+            "id": "0c79101194bcdad3",
+            "src": "hda",
+            "uuid": "bf7f9e91-95ab-470b-9d68-55b7adc452ec"
+        }
+    },
+    "output_collections": {},
+    "tool_stdout": "",
+    "tool_stderr": "",
+    "job_stdout": null,
+    "job_stderr": null,
+    "stderr": "",
+    "stdout": "",
+    "job_messages": null,
+    "dependencies": [],
+    "user_email": "tests@fake.org",
+    "job_metrics": []
+}
diff --git a/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/ad202db2434a09dd.json b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/ad202db2434a09dd.json
new file mode 100644
index 000000000..a35f6481c
--- /dev/null
+++ b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/ad202db2434a09dd.json
@@ -0,0 +1,44 @@
+{
+    "model_class": "Job",
+    "id": "ad202db2434a09dd",
+    "state": "error",
+    "exit_code": null,
+    "update_time": "2024-09-15T12:57:10.495110",
+    "create_time": "2024-09-15T12:57:01.761774",
+    "galaxy_version": "23.1",
+    "command_version": null,
+    "copied_from_job_id": null,
+    "tool_id": "upload1",
+    "history_id": "8dc7d2120e767ce3",
+    "external_id": "gxy-r8ff4",
+    "command_line": "python '/galaxy/server/database/tools/data_source/upload.py' '/galaxy/server' '/galaxy/server/database/jobs_directory/000/40/registry.xml' '/galaxy/server/database/jobs_directory/000/40/upload_params.json' '40:/galaxy/server/database/objects/6/d/3/dataset_6d3acd59-6f6a-4bd0-aa1b-91f50e67d56a_files:/galaxy/server/database/objects/6/d/3/dataset_6d3acd59-6f6a-4bd0-aa1b-91f50e67d56a.dat'",
+    "traceback": null,
+    "params": {
+        "paramfile": "\"/galaxy/server/database/tmp/upload_params_eixjkdhf\"",
+        "files_metadata": "{\"__current_case__\": 677, \"file_type\": \"auto\"}",
+        "dbkey": "\"?\"",
+        "force_composite": "\"false\"",
+        "files": "[{\"NAME\": \"small.tsv\", \"__index__\": 0, \"auto_decompress\": \"Yes\", \"dbkey\": \"\", \"file_data\": \"/galaxy/server/database/tmp/upload_file_data_77tm8bht\", \"file_type\": \"\", \"ftp_files\": null, \"space_to_tab\": null, \"to_posix_lines\": \"Yes\", \"url_paste\": null, \"uuid\": null}]",
+        "file_count": "\"auto\"",
+        "file_type": "\"auto\""
+    },
+    "inputs": {},
+    "outputs": {
+        "output0": {
+            "id": "ad202db2434a09dd",
+            "src": "hda",
+            "uuid": "6d3acd59-6f6a-4bd0-aa1b-91f50e67d56a"
+        }
+    },
+    "output_collections": {},
+    "tool_stdout": "",
+    "tool_stderr": "",
+    "job_stdout": null,
+    "job_stderr": null,
+    "stderr": "",
+    "stdout": "",
+    "job_messages": null,
+    "dependencies": [],
+    "user_email": "tests@fake.org",
+    "job_metrics": []
+}
diff --git a/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/c6fe59ebdf0ff9d5.json b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/c6fe59ebdf0ff9d5.json
new file mode 100644
index 000000000..2436090d7
--- /dev/null
+++ b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/c6fe59ebdf0ff9d5.json
@@ -0,0 +1,49 @@
+{
+    "model_class": "Job",
+    "id": "c6fe59ebdf0ff9d5",
+    "state": "error",
+    "exit_code": null,
+    "update_time": "2024-09-15T12:53:10.837957",
+    "create_time": "2024-09-15T12:53:04.849624",
+    "galaxy_version": "23.1",
+    "command_version": null,
+    "copied_from_job_id": null,
+    "tool_id": "toolshed.g2.bx.psu.edu/repos/iuc/table_compute/table_compute/1.2.4+galaxy0",
+    "history_id": "8dc7d2120e767ce3",
+    "external_id": "gxy-hwb9r",
+    "command_line": "cp '/galaxy/server/database/jobs_directory/000/22/configs/tmph_e1e58w' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py",
+    "traceback": null,
+    "params": {
+        "__input_ext": "\"tabular\"",
+        "dbkey": "\"?\"",
+        "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"",
+        "precision": "\"2\"",
+        "out_opts": "[\"ignore_nas\", \"output_headers_col\", \"output_headers_row\"]",
+        "singtabop": "{\"__current_case__\": 0, \"adv\": {\"header\": \"\", \"nrows\": \"\", \"skip_blank_lines\": true, \"skipfooter\": \"\"}, \"col_row_names\": [\"has_col_names\", \"has_row_names\"], \"input\": {\"values\": [{\"id\": 21, \"src\": \"hda\"}]}, \"use_type\": \"single\", \"user\": {\"__current_case__\": 5, \"elem_val\": {\"__current_case__\": 0, \"element_op\": \"None\"}, \"element\": {\"__current_case__\": 2, \"mode\": \"scale\", \"scale_op\": \"mod\", \"scale_value\": \"5.0\"}, \"mode\": \"element\"}}"
+    },
+    "inputs": {
+        "singtabop|input": {
+            "id": "4002afb287d289fb",
+            "src": "hda",
+            "uuid": "c951c424-6104-455b-9cd8-b930ae0e1a21"
+        }
+    },
+    "outputs": {
+        "table": {
+            "id": "c6fe59ebdf0ff9d5",
+            "src": "hda",
+            "uuid": "a2808ca0-19fe-4a5f-99ce-532c57596eb5"
+        }
+    },
+    "output_collections": {},
+    "tool_stdout": "",
+    "tool_stderr": "",
+    "job_stdout": null,
+    "job_stderr": null,
+    "stderr": "",
+    "stdout": "",
+    "job_messages": null,
+    "dependencies": [],
+    "user_email": "tests@fake.org",
+    "job_metrics": []
+}
diff --git a/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/dcd411dcf16d2d3d.json b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/dcd411dcf16d2d3d.json
new file mode 100644
index 000000000..a8a0401c2
--- /dev/null
+++ b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/dcd411dcf16d2d3d.json
@@ -0,0 +1,120 @@
+{
+    "model_class": "Job",
+    "id": "dcd411dcf16d2d3d",
+    "state": "error",
+    "exit_code": null,
+    "update_time": "2024-09-15T13:28:08.036248",
+    "create_time": "2024-09-15T13:27:17.242381",
+    "galaxy_version": "23.1",
+    "command_version": null,
+    "copied_from_job_id": null,
+    "tool_id": "toolshed.g2.bx.psu.edu/repos/iuc/qualimap_bamqc/qualimap_bamqc/2.3+galaxy0",
+    "history_id": "8dc7d2120e767ce3",
+    "external_id": "gxy-fzmws",
+    "command_line": "export JAVA_OPTS=\"-Djava.awt.headless=true -Xmx${GALAXY_MEMORY_MB:-1024}m\" &&    ln -s '/galaxy/server/database/objects/2/d/b/dataset_2db83314-7499-4f75-8104-39f283401004.dat' 'test_mapped_reads_bam' &&  qualimap bamqc -bam 'test_mapped_reads_bam' -outdir results -outformat html --collect-overlap-pairs -nw 400 --paint-chromosome-limits -hm 3  --skip-duplicated --skip-dup-mode 0 -nt ${GALAXY_SLOTS:-1} &&   sed 's|images_qualimapReport/||g;s|css/||g' results/qualimapReport.html > '/galaxy/server/database/objects/2/6/0/dataset_260807f4-a047-4d2e-b870-c72d8bb914e9.dat' && mkdir '/galaxy/server/database/objects/2/6/0/dataset_260807f4-a047-4d2e-b870-c72d8bb914e9_files' && mv results/css/*.css '/galaxy/server/database/objects/2/6/0/dataset_260807f4-a047-4d2e-b870-c72d8bb914e9_files' && mv results/css/*.png '/galaxy/server/database/objects/2/6/0/dataset_260807f4-a047-4d2e-b870-c72d8bb914e9_files' && if [ -d results/images_qualimapReport ]; then mv results/images_qualimapReport/* '/galaxy/server/database/objects/2/6/0/dataset_260807f4-a047-4d2e-b870-c72d8bb914e9_files' && for file in $(ls -A results/raw_data_qualimapReport); do mv \"results/raw_data_qualimapReport/$file\" `echo \"results/$file\" | sed 's/(//;s/)//'`; done fi && mv results/genome_results.txt results/summary_report.txt",
+    "traceback": null,
+    "params": {
+        "__input_ext": "\"input\"",
+        "dbkey": "\"?\"",
+        "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"",
+        "plot_specific": "{\"genome_gc_distr\": null, \"homopolymer_size\": \"3\", \"n_bins\": \"400\", \"paint_chromosome_limits\": true}",
+        "duplicate_skipping": "\"0\"",
+        "per_base_coverage": "false",
+        "stats_regions": "{\"__current_case__\": 0, \"region_select\": \"all\"}"
+    },
+    "inputs": {
+        "input1": {
+            "id": "1f07485a978ccd9f",
+            "src": "hda",
+            "uuid": "2db83314-7499-4f75-8104-39f283401004"
+        }
+    },
+    "outputs": {
+        "raw_data|__part__|homopolymer_indels": {
+            "id": "4c5adca9293d8c1d",
+            "src": "hda",
+            "uuid": "41cffebf-fd2a-4d66-a4c1-c4512ca255a6"
+        },
+        "raw_data|__part__|mapped_reads_nucleotide_content": {
+            "id": "68f2c448211e97c0",
+            "src": "hda",
+            "uuid": "ad9ae930-46c2-40fe-9030-59ed345847af"
+        },
+        "raw_data|__part__|mapping_quality_histogram": {
+            "id": "19a2aae1c786513c",
+            "src": "hda",
+            "uuid": "f8a90a8c-bec8-495b-8b02-83c13e8700f0"
+        },
+        "raw_data|__part__|duplication_rate_histogram": {
+            "id": "df046ffaf5c29b24",
+            "src": "hda",
+            "uuid": "a6e69819-0712-43c7-9807-62d26be7634c"
+        },
+        "raw_data|__part__|genome_results": {
+            "id": "e5070d675615cf68",
+            "src": "hda",
+            "uuid": "996b2f2e-6e68-424f-ba69-eb684589c3aa"
+        },
+        "raw_data|__part__|coverage_across_reference": {
+            "id": "01d9f81d81c0d49a",
+            "src": "hda",
+            "uuid": "d2eb71ed-45c6-4054-ae0c-eb03a8b13f84"
+        },
+        "raw_data|__part__|coverage_histogram": {
+            "id": "397a2ea17fba8a88",
+            "src": "hda",
+            "uuid": "b123e199-2e0e-4f36-8ede-699c3e50bd19"
+        },
+        "raw_data|__part__|genome_fraction_coverage": {
+            "id": "3bf97ccf4441dff2",
+            "src": "hda",
+            "uuid": "2b1006e1-8ea5-4e84-878a-4df546f797bf"
+        },
+        "raw_data|__part__|insert_size_across_reference": {
+            "id": "d492b576a5242295",
+            "src": "hda",
+            "uuid": "fc70d301-d5a4-4794-8d85-0bd05295ec1f"
+        },
+        "raw_data|__part__|insert_size_histogram": {
+            "id": "24542a6acde3511f",
+            "src": "hda",
+            "uuid": "f199c3f8-cb12-4242-bb20-905b4dec3cd5"
+        },
+        "raw_data|__part__|mapped_reads_clipping_profile": {
+            "id": "eef40f486f049173",
+            "src": "hda",
+            "uuid": "b751667e-40c6-4ab3-a84d-f0134574e2f7"
+        },
+        "raw_data|__part__|mapped_reads_gc-content_distribution": {
+            "id": "f1530dbb4cc388c1",
+            "src": "hda",
+            "uuid": "72b1786c-b7b8-441a-87e3-27d8c1e237b7"
+        },
+        "raw_data|__part__|mapping_quality_across_reference": {
+            "id": "2b51f4a70a0f0102",
+            "src": "hda",
+            "uuid": "45722dfc-ab38-4502-99e7-0f4ae889499e"
+        },
+        "output_html": {
+            "id": "f6f6ba539128c5ec",
+            "src": "hda",
+            "uuid": "260807f4-a047-4d2e-b870-c72d8bb914e9"
+        }
+    },
+    "output_collections": {
+        "raw_data": {
+            "id": "f852116c2cb8bf75",
+            "src": "hdca"
+        }
+    },
+    "tool_stdout": "",
+    "tool_stderr": "",
+    "job_stdout": null,
+    "job_stderr": null,
+    "stderr": "",
+    "stdout": "",
+    "job_messages": null,
+    "dependencies": [],
+    "user_email": "tests@fake.org",
+    "job_metrics": []
+}
diff --git a/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/e045c82e7d4d6759.json b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/e045c82e7d4d6759.json
new file mode 100644
index 000000000..491b079fa
--- /dev/null
+++ b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/e045c82e7d4d6759.json
@@ -0,0 +1,44 @@
+{
+    "model_class": "Job",
+    "id": "e045c82e7d4d6759",
+    "state": "error",
+    "exit_code": null,
+    "update_time": "2024-09-15T13:03:04.836171",
+    "create_time": "2024-09-15T13:02:55.768849",
+    "galaxy_version": "23.1",
+    "command_version": null,
+    "copied_from_job_id": null,
+    "tool_id": "upload1",
+    "history_id": "8dc7d2120e767ce3",
+    "external_id": "gxy-gtk92",
+    "command_line": "python '/galaxy/server/database/tools/data_source/upload.py' '/galaxy/server' '/galaxy/server/database/jobs_directory/000/69/registry.xml' '/galaxy/server/database/jobs_directory/000/69/upload_params.json' '69:/galaxy/server/database/objects/a/3/2/dataset_a32d3633-3acd-40ec-882d-c514b741f316_files:/galaxy/server/database/objects/a/3/2/dataset_a32d3633-3acd-40ec-882d-c514b741f316.dat'",
+    "traceback": null,
+    "params": {
+        "paramfile": "\"/galaxy/server/database/tmp/upload_params_blxrni66\"",
+        "files_metadata": "{\"__current_case__\": 677, \"file_type\": \"auto\"}",
+        "dbkey": "\"?\"",
+        "force_composite": "\"false\"",
+        "files": "[{\"NAME\": \"examples.1.tsv\", \"__index__\": 0, \"auto_decompress\": \"Yes\", \"dbkey\": \"\", \"file_data\": \"/galaxy/server/database/tmp/upload_file_data_tx3wr2je\", \"file_type\": \"\", \"ftp_files\": null, \"space_to_tab\": null, \"to_posix_lines\": \"Yes\", \"url_paste\": null, \"uuid\": null}]",
+        "file_count": "\"auto\"",
+        "file_type": "\"auto\""
+    },
+    "inputs": {},
+    "outputs": {
+        "output0": {
+            "id": "e045c82e7d4d6759",
+            "src": "hda",
+            "uuid": "a32d3633-3acd-40ec-882d-c514b741f316"
+        }
+    },
+    "output_collections": {},
+    "tool_stdout": "",
+    "tool_stderr": "",
+    "job_stdout": null,
+    "job_stderr": null,
+    "stderr": "",
+    "stdout": "",
+    "job_messages": null,
+    "dependencies": [],
+    "user_email": "tests@fake.org",
+    "job_metrics": []
+}
diff --git a/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/edc9d7b6bfb001c9.json b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/edc9d7b6bfb001c9.json
new file mode 100644
index 000000000..aba4ac6ae
--- /dev/null
+++ b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/errors/edc9d7b6bfb001c9.json
@@ -0,0 +1,44 @@
+{
+    "model_class": "Job",
+    "id": "edc9d7b6bfb001c9",
+    "state": "error",
+    "exit_code": null,
+    "update_time": "2024-09-15T13:47:40.500196",
+    "create_time": "2024-09-15T13:47:29.879705",
+    "galaxy_version": "23.1",
+    "command_version": null,
+    "copied_from_job_id": null,
+    "tool_id": "upload1",
+    "history_id": "8dc7d2120e767ce3",
+    "external_id": "gxy-jr85d",
+    "command_line": "python '/galaxy/server/database/tools/data_source/upload.py' '/galaxy/server' '/galaxy/server/database/jobs_directory/000/306/registry.xml' '/galaxy/server/database/jobs_directory/000/306/upload_params.json' '408:/galaxy/server/database/objects/1/6/9/dataset_16945f3e-7521-4c28-aa63-6c7c6883c497_files:/galaxy/server/database/objects/1/6/9/dataset_16945f3e-7521-4c28-aa63-6c7c6883c497.dat'",
+    "traceback": null,
+    "params": {
+        "paramfile": "\"/galaxy/server/database/tmp/upload_params_j9fb_t0f\"",
+        "files_metadata": "{\"__current_case__\": 677, \"file_type\": \"auto\"}",
+        "dbkey": "\"?\"",
+        "force_composite": "\"false\"",
+        "files": "[{\"NAME\": \"GSM461179_treat_single.counts\", \"__index__\": 0, \"auto_decompress\": \"Yes\", \"dbkey\": \"\", \"file_data\": \"/galaxy/server/database/tmp/upload_file_data_y28ulk_p\", \"file_type\": \"\", \"ftp_files\": null, \"space_to_tab\": null, \"to_posix_lines\": \"Yes\", \"url_paste\": null, \"uuid\": null}]",
+        "file_count": "\"auto\"",
+        "file_type": "\"auto\""
+    },
+    "inputs": {},
+    "outputs": {
+        "output0": {
+            "id": "20f2ecca72ae36e7",
+            "src": "hda",
+            "uuid": "16945f3e-7521-4c28-aa63-6c7c6883c497"
+        }
+    },
+    "output_collections": {},
+    "tool_stdout": "",
+    "tool_stderr": "",
+    "job_stdout": null,
+    "job_stderr": null,
+    "stderr": "",
+    "stdout": "",
+    "job_messages": null,
+    "dependencies": [],
+    "user_email": "tests@fake.org",
+    "job_metrics": []
+}
diff --git a/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/job-metrics.csv b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/job-metrics.csv
new file mode 100644
index 000000000..f3dfe306a
--- /dev/null
+++ b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/job-metrics.csv
@@ -0,0 +1,414 @@
+id,history_id,history_name,state,tool_id,invocation_id,workflow_id,cpuacct.usage,galaxy_memory_mb,galaxy_slots,memory.limit_in_bytes,memory.peak,memory.soft_limit_in_bytes,memtotal,processor_count,runtime_seconds
+20e00e80366142be,8dc7d2120e767ce3,anvil-test-2024-09-15-12-47,ok,mummer_mummer/4.0.0rc1+galaxy3,,,,4080.0000000,1.0000000,,,,,,1.0000000
+1b903d385b79eea8,8dc7d2120e767ce3,anvil-test-2024-09-15-12-47,ok,upload1,,,,4080.0000000,1.0000000,,,,,,4.0000000
+b79cc5fc1db6974d,8dc7d2120e767ce3,anvil-test-2024-09-15-12-47,ok,upload1,,,,4080.0000000,1.0000000,,,,,,4.0000000
+f2939d506dfa4d21,8dc7d2120e767ce3,anvil-test-2024-09-15-12-47,ok,deseq2/2.11.40.8+galaxy0,,,,8589.0000000,1.0000000,,,,,,15.0000000
+20f2ecca72ae36e7,8dc7d2120e767ce3,anvil-test-2024-09-15-12-47,ok,upload1,,,,4080.0000000,1.0000000,,,,,,4.0000000
+6656f3034d87ce8c,8dc7d2120e767ce3,anvil-test-2024-09-15-12-47,ok,upload1,,,,4080.0000000,1.0000000,,,,,,4.0000000
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+3f0f46cf6aa5ae75,8dc7d2120e767ce3,anvil-test-2024-09-15-12-47,ok,upload1,,,,4080.0000000,1.0000000,,,,,,5.0000000
+5b7e68f2c3bef39e,8dc7d2120e767ce3,anvil-test-2024-09-15-12-47,ok,deseq2/2.11.40.8+galaxy0,,,,8589.0000000,1.0000000,,,,,,20.0000000
+691b69622446ec69,8dc7d2120e767ce3,anvil-test-2024-09-15-12-47,ok,upload1,,,,4080.0000000,1.0000000,,,,,,4.0000000
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+411aacabea8a8471,8dc7d2120e767ce3,anvil-test-2024-09-15-12-47,ok,deseq2/2.11.40.8+galaxy0,,,,8589.0000000,1.0000000,,,,,,19.0000000
+83fb07df0b3ac603,8dc7d2120e767ce3,anvil-test-2024-09-15-12-47,ok,upload1,,,,4080.0000000,1.0000000,,,,,,5.0000000
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+1d21718167927561,8dc7d2120e767ce3,anvil-test-2024-09-15-12-47,ok,upload1,,,,4080.0000000,1.0000000,,,,,,5.0000000
+5fa36b6703cd9acc,8dc7d2120e767ce3,anvil-test-2024-09-15-12-47,ok,upload1,,,,4080.0000000,1.0000000,,,,,,5.0000000
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+52986156949892f4,8dc7d2120e767ce3,anvil-test-2024-09-15-12-47,ok,upload1,,,,4080.0000000,1.0000000,,,,,,5.0000000
+11fb8b6d7e0f63ee,8dc7d2120e767ce3,anvil-test-2024-09-15-12-47,ok,upload1,,,,4080.0000000,1.0000000,,,,,,5.0000000
+d4ed341c5293401e,8dc7d2120e767ce3,anvil-test-2024-09-15-12-47,ok,upload1,,,,4080.0000000,1.0000000,,,,,,5.0000000
+6c90f6313f69bf03,8dc7d2120e767ce3,anvil-test-2024-09-15-12-47,ok,deseq2/2.11.40.8+galaxy0,,,,8589.0000000,1.0000000,,,,,,20.0000000
+76156766549f258c,8dc7d2120e767ce3,anvil-test-2024-09-15-12-47,ok,upload1,,,,4080.0000000,1.0000000,,,,,,4.0000000
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+d00fc5f12efe398b,8dc7d2120e767ce3,anvil-test-2024-09-15-12-47,ok,deseq2/2.11.40.8+galaxy0,,,,8589.0000000,1.0000000,,,,,,20.0000000
+e67db6c3c1875ff7,8dc7d2120e767ce3,anvil-test-2024-09-15-12-47,ok,upload1,,,,4080.0000000,1.0000000,,,,,,4.0000000
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+873c366be2dadb12,8dc7d2120e767ce3,anvil-test-2024-09-15-12-47,ok,upload1,,,,4080.0000000,1.0000000,,,,,,4.0000000
+cdcf7e19b4a4e272,8dc7d2120e767ce3,anvil-test-2024-09-15-12-47,ok,deseq2/2.11.40.8+galaxy0,,,,8589.0000000,1.0000000,,,,,,15.0000000
+97e69ecfa6231887,8dc7d2120e767ce3,anvil-test-2024-09-15-12-47,ok,upload1,,,,4080.0000000,1.0000000,,,,,,4.0000000
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+8b4797df8fc056a4,8dc7d2120e767ce3,anvil-test-2024-09-15-12-47,ok,upload1,,,,4080.0000000,1.0000000,,,,,,4.0000000
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+4dcb5af1bf564eb0,8dc7d2120e767ce3,anvil-test-2024-09-15-12-47,ok,deseq2/2.11.40.8+galaxy0,,,,8589.0000000,1.0000000,,,,,,15.0000000
+479c168455fe508b,8dc7d2120e767ce3,anvil-test-2024-09-15-12-47,ok,upload1,,,,4080.0000000,1.0000000,,,,,,5.0000000
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diff --git a/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/jobs.txt b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/jobs.txt
new file mode 100644
index 000000000..645e355c4
--- /dev/null
+++ b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/jobs.txt
@@ -0,0 +1,413 @@
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+    <style>/* bootstrap custom style stuff - taken from demo template. */
+/*
+ * Base structure
+ */
+
+/* Move down content because we have a fixed navbar that is 50px tall */
+body {
+  padding-top: 50px;
+}
+
+
+/*
+ * Global add-ons
+ */
+
+.sub-header {
+  padding-bottom: 10px;
+  border-bottom: 1px solid #eee;
+}
+
+/*
+ * Top navigation
+ * Hide default border to remove 1px line.
+ */
+.navbar-fixed-top {
+  border: 0;
+}
+
+/*
+ * Sidebar
+ */
+
+/* Hide for mobile, show later */
+.sidebar {
+  display: none;
+}
+@media (min-width: 768px) {
+  .sidebar {
+    position: fixed;
+    top: 51px;
+    bottom: 0;
+    left: 0;
+    z-index: 1000;
+    display: block;
+    padding: 20px;
+    overflow-x: hidden;
+    overflow-y: auto; /* Scrollable contents if viewport is shorter than content. */
+    background-color: #f5f5f5;
+    border-right: 1px solid #eee;
+  }
+}
+
+/* Sidebar navigation */
+.nav-sidebar {
+  margin-right: -21px; /* 20px padding + 1px border */
+  margin-bottom: 20px;
+  margin-left: -20px;
+}
+.nav-sidebar > li > a {
+  padding-right: 20px;
+  padding-left: 20px;
+}
+.nav-sidebar > .active > a,
+.nav-sidebar > .active > a:hover,
+.nav-sidebar > .active > a:focus {
+  color: #fff;
+  background-color: #428bca;
+}
+
+/* Table in github markdown style (https://gist.github.com/andyferra/2554919#file-github-css-L154) */
+table {
+  padding: 0;
+  margin-bottom: 10px;
+}
+table tr {
+  border-top: 1px solid #cccccc;
+  background-color: white;
+  margin: 0;
+  padding: 0;
+}
+table tr:nth-child(2n) {
+  background-color: #f8f8f8;
+}
+table tr th {
+  font-weight: bold;
+  border: 1px solid #cccccc;
+  text-align: left;
+  margin: 0;
+  padding: 6px 13px;
+}
+table tr td {
+  border: 1px solid #cccccc;
+  text-align: left;
+  margin: 0;
+  padding: 6px 13px;
+}
+table tr th :first-child, table tr td :first-child {
+  margin-top: 0;
+}
+table tr th :last-child, table tr td :last-child {
+  margin-bottom: 1;
+}
+
+
+/*
+ * Main content
+ */
+
+.main {
+  padding: 20px;
+}
+@media (min-width: 768px) {
+  .main {
+    padding-right: 40px;
+    padding-left: 40px;
+  }
+}
+.main .page-header {
+  margin-top: 0;
+}
+
+summary {
+  display: revert;
+}
+
+ul {
+  list-style-type: none;
+  padding-left: 10px;
+}
+
+li {
+  padding: 2px;
+}
+
+pre {
+  max-height: 500px;
+  overflow: auto
+}
+
+.rcorners {
+  border-radius: 10px;
+  padding: 0px;
+  border-style: solid;
+}
+
+.light-green {
+  border: 2px transparent #73AD21;
+  border-color: #dff0d8;
+}
+
+summary.light-green {
+  background-color: #dff0d8
+}
+
+.light-red {
+  /*  */
+  border: 2px transparent #f2dede;
+  border-color: #f2dede;
+}
+
+summary.light-red {
+  background-color: #f2dede;
+}
+
+.padded {
+  background-color: #fff;
+  margin: 10px;
+}
+
+.tooltip .tooltiptext {
+  visibility: hidden;
+  width: 120px;
+  background-color: black;
+  color: #fff;
+  text-align: center;
+  border-radius: 6px;
+  padding: 5px 0;
+
+  /* Position the tooltip */
+  position: absolute;
+  z-index: 1;
+}
+
+.tooltip:hover .tooltiptext {
+  visibility: visible;
+}
+
+/*
+ * Placeholder dashboard ideas
+ */
+
+.placeholders {
+  margin-bottom: 30px;
+  text-align: center;
+}
+.placeholders h4 {
+  margin-bottom: 0;
+}
+.placeholder {
+  margin-bottom: 20px;
+}
+.placeholder img {
+  display: inline-block;
+  border-radius: 50%;
+}
+
+.text-success-custom{
+    color: rgba(6, 108, 8, 1);
+}
+.text-danger-custom{
+    font-weight: bold;
+    color: rgba(213, 24, 20, 1);
+}
+.panel-danger-custom .panel-title{
+    font-weight: bold;
+    color: rgba(213, 24, 20, 1);
+}t status
+
+.panel-success-custom .panel-title{
+    color: rgba(6, 108, 8, 1);
+}t status
+</style>
+
+  </head>
+  <body>
+
+    <nav class="navbar navbar-inverse navbar-fixed-top" role="navigation">
+      <div class="container-fluid">
+        <div class="navbar-header">
+
+          <button type="button" class="navbar-toggle collapsed" data-toggle="collapse" data-target="#navbar" aria-expanded="false" aria-controls="navbar">
+            <span class="sr-only">Toggle navigation</span>
+            <span class="icon-bar"></span>
+            <span class="icon-bar"></span>
+            <span class="icon-bar"></span>
+          </button>
+          <a class="navbar-brand" href="#">Test Results (powered by Planemo)</a>
+        </div>
+        <div id="navbar" class="navbar-collapse collapse">
+          <ul class="nav navbar-nav navbar-right">
+            <li><a href="https://galaxyproject.org">Galaxy</a></li>
+            <li><a href="https://planemo.readthedocs.org">Planemo</a></li>
+          </ul>
+          <div class="navbar-form navbar-right">
+          </div>
+        </div>
+      </div>
+    </nav>
+
+    <div class="container-fluid">
+      <div id="overview-content" class="row col-md-offset-1 col-md-10">
+      </div>
+    </div>
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strict";r.exports={options:{html:!1,xhtmlOut:!1,breaks:!1,langPrefix:"language-",linkify:!1,typographer:!1,quotes:"\u201c\u201d\u2018\u2019",highlight:null,maxNesting:20},components:{core:{rules:["normalize","block","inline"]},block:{rules:["paragraph"]},inline:{rules:["text"],rules2:["balance_pairs","text_collapse"]}}}},{}],16:[function(e,r,t){"use strict";var n=e("./common/utils").assign,s=e("./common/utils").unescapeAll,o=e("./common/utils").escapeHtml,i={};function a(){this.rules=n({},i)}i.code_inline=function(e,r,t,n,s){var i=e[r];return"<code"+s.renderAttrs(i)+">"+o(e[r].content)+"</code>"},i.code_block=function(e,r,t,n,s){var i=e[r];return"<pre"+s.renderAttrs(i)+"><code>"+o(e[r].content)+"</code></pre>\n"},i.fence=function(e,r,t,n,i){var a,c,l,u,p=e[r],h=p.info?s(p.info).trim():"",f="";return h&&(f=h.split(/\s+/g)[0]),0===(a=t.highlight&&t.highlight(p.content,f)||o(p.content)).indexOf("<pre")?a+"\n":h?(c=p.attrIndex("class"),l=p.attrs?p.attrs.slice():[],c<0?l.push(["class",t.langPrefix+f]):l[c][1]+=" "+t.langPrefix+f,u={attrs:l},"<pre><code"+i.renderAttrs(u)+">"+a+"</code></pre>\n"):"<pre><code"+i.renderAttrs(p)+">"+a+"</code></pre>\n"},i.image=function(e,r,t,n,s){var o=e[r];return o.attrs[o.attrIndex("alt")][1]=s.renderInlineAsText(o.children,t,n),s.renderToken(e,r,t)},i.hardbreak=function(e,r,t){return t.xhtmlOut?"<br />\n":"<br>\n"},i.softbreak=function(e,r,t){return t.breaks?t.xhtmlOut?"<br />\n":"<br>\n":"\n"},i.text=function(e,r){return o(e[r].content)},i.html_block=function(e,r){return e[r].content},i.html_inline=function(e,r){return e[r].content},a.prototype.renderAttrs=function(e){var r,t,n;if(!e.attrs)return"";for(n="",r=0,t=e.attrs.length;r<t;r++)n+=" "+o(e.attrs[r][0])+'="'+o(e.attrs[r][1])+'"';return n},a.prototype.renderToken=function(e,r,t){var n,s="",o=!1,i=e[r];return i.hidden?"":(i.block&&-1!==i.nesting&&r&&e[r-1].hidden&&(s+="\n"),s+=(-1===i.nesting?"</":"<")+i.tag,s+=this.renderAttrs(i),0===i.nesting&&t.xhtmlOut&&(s+=" /"),i.block&&(o=!0,1===i.nesting&&r+1<e.length&&("inline"===(n=e[r+1]).type||n.hidden||-1===n.nesting&&n.tag===i.tag)&&(o=!1)),s+=o?">\n":">")},a.prototype.renderInline=function(e,r,t){for(var n,s="",o=this.rules,i=0,a=e.length;i<a;i++)void 0!==o[n=e[i].type]?s+=o[n](e,i,r,t,this):s+=this.renderToken(e,i,r);return s},a.prototype.renderInlineAsText=function(e,r,t){for(var n="",s=0,o=e.length;s<o;s++)"text"===e[s].type?n+=e[s].content:"image"===e[s].type&&(n+=this.renderInlineAsText(e[s].children,r,t));return n},a.prototype.render=function(e,r,t){var n,s,o,i="",a=this.rules;for(n=0,s=e.length;n<s;n++)"inline"===(o=e[n].type)?i+=this.renderInline(e[n].children,r,t):void 0!==a[o]?i+=a[e[n].type](e,n,r,t,this):i+=this.renderToken(e,n,r,t);return i},r.exports=a},{"./common/utils":4}],17:[function(e,r,t){"use 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rule not found: "+e);this.__rules__.splice(s+1,0,{name:r,enabled:!0,fn:t,alt:o.alt||[]}),this.__cache__=null},n.prototype.push=function(e,r,t){var n=t||{};this.__rules__.push({name:e,enabled:!0,fn:r,alt:n.alt||[]}),this.__cache__=null},n.prototype.enable=function(e,r){Array.isArray(e)||(e=[e]);var t=[];return e.forEach((function(e){var n=this.__find__(e);if(n<0){if(r)return;throw new Error("Rules manager: invalid rule name "+e)}this.__rules__[n].enabled=!0,t.push(e)}),this),this.__cache__=null,t},n.prototype.enableOnly=function(e,r){Array.isArray(e)||(e=[e]),this.__rules__.forEach((function(e){e.enabled=!1})),this.enable(e,r)},n.prototype.disable=function(e,r){Array.isArray(e)||(e=[e]);var t=[];return e.forEach((function(e){var n=this.__find__(e);if(n<0){if(r)return;throw new Error("Rules manager: invalid rule name "+e)}this.__rules__[n].enabled=!1,t.push(e)}),this),this.__cache__=null,t},n.prototype.getRules=function(e){return null===this.__cache__&&this.__compile__(),this.__cache__[e]||[]},r.exports=n},{}],18:[function(e,r,t){"use strict";var n=e("../common/utils").isSpace;r.exports=function(e,r,t,s){var o,i,a,c,l,u,p,h,f,d,m,_,g,k,b,v,y,C,x,A,w=e.lineMax,D=e.bMarks[r]+e.tShift[r],E=e.eMarks[r];if(e.sCount[r]-e.blkIndent>=4)return!1;if(62!==e.src.charCodeAt(D++))return!1;if(s)return!0;for(c=f=e.sCount[r]+D-(e.bMarks[r]+e.tShift[r]),32===e.src.charCodeAt(D)?(D++,c++,f++,o=!1,v=!0):9===e.src.charCodeAt(D)?(v=!0,(e.bsCount[r]+f)%4==3?(D++,c++,f++,o=!1):o=!0):v=!1,d=[e.bMarks[r]],e.bMarks[r]=D;D<E&&(i=e.src.charCodeAt(D),n(i));)9===i?f+=4-(f+e.bsCount[r]+(o?1:0))%4:f++,D++;for(m=[e.bsCount[r]],e.bsCount[r]=e.sCount[r]+1+(v?1:0),u=D>=E,k=[e.sCount[r]],e.sCount[r]=f-c,b=[e.tShift[r]],e.tShift[r]=D-e.bMarks[r],C=e.md.block.ruler.getRules("blockquote"),g=e.parentType,e.parentType="blockquote",A=!1,h=r+1;h<t&&(e.sCount[h]<e.blkIndent&&(A=!0),!((D=e.bMarks[h]+e.tShift[h])>=(E=e.eMarks[h])));h++)if(62!==e.src.charCodeAt(D++)||A){if(u)break;for(y=!1,a=0,l=C.length;a<l;a++)if(C[a](e,h,t,!0)){y=!0;break}if(y){e.lineMax=h,0!==e.blkIndent&&(d.push(e.bMarks[h]),m.push(e.bsCount[h]),b.push(e.tShift[h]),k.push(e.sCount[h]),e.sCount[h]-=e.blkIndent);break}d.push(e.bMarks[h]),m.push(e.bsCount[h]),b.push(e.tShift[h]),k.push(e.sCount[h]),e.sCount[h]=-1}else{for(c=f=e.sCount[h]+D-(e.bMarks[h]+e.tShift[h]),32===e.src.charCodeAt(D)?(D++,c++,f++,o=!1,v=!0):9===e.src.charCodeAt(D)?(v=!0,(e.bsCount[h]+f)%4==3?(D++,c++,f++,o=!1):o=!0):v=!1,d.push(e.bMarks[h]),e.bMarks[h]=D;D<E&&(i=e.src.charCodeAt(D),n(i));)9===i?f+=4-(f+e.bsCount[h]+(o?1:0))%4:f++,D++;u=D>=E,m.push(e.bsCount[h]),e.bsCount[h]=e.sCount[h]+1+(v?1:0),k.push(e.sCount[h]),e.sCount[h]=f-c,b.push(e.tShift[h]),e.tShift[h]=D-e.bMarks[h]}for(_=e.blkIndent,e.blkIndent=0,(x=e.push("blockquote_open","blockquote",1)).markup=">",x.map=p=[r,0],e.md.block.tokenize(e,r,h),(x=e.push("blockquote_close","blockquote",-1)).markup=">",e.lineMax=w,e.parentType=g,p[1]=e.line,a=0;a<b.length;a++)e.bMarks[a+r]=d[a],e.tShift[a+r]=b[a],e.sCount[a+r]=k[a],e.bsCount[a+r]=m[a];return e.blkIndent=_,!0}},{"../common/utils":4}],19:[function(e,r,t){"use strict";r.exports=function(e,r,t){var n,s,o;if(e.sCount[r]-e.blkIndent<4)return!1;for(s=n=r+1;n<t;)if(e.isEmpty(n))n++;else{if(!(e.sCount[n]-e.blkIndent>=4))break;s=++n}return e.line=s,(o=e.push("code_block","code",0)).content=e.getLines(r,s,4+e.blkIndent,!0),o.map=[r,e.line],!0}},{}],20:[function(e,r,t){"use strict";r.exports=function(e,r,t,n){var s,o,i,a,c,l,u,p=!1,h=e.bMarks[r]+e.tShift[r],f=e.eMarks[r];if(e.sCount[r]-e.blkIndent>=4)return!1;if(h+3>f)return!1;if(126!==(s=e.src.charCodeAt(h))&&96!==s)return!1;if(c=h,(o=(h=e.skipChars(h,s))-c)<3)return!1;if(u=e.src.slice(c,h),i=e.src.slice(h,f),96===s&&i.indexOf(String.fromCharCode(s))>=0)return!1;if(n)return!0;for(a=r;!(++a>=t)&&!((h=c=e.bMarks[a]+e.tShift[a])<(f=e.eMarks[a])&&e.sCount[a]<e.blkIndent);)if(e.src.charCodeAt(h)===s&&!(e.sCount[a]-e.blkIndent>=4||(h=e.skipChars(h,s))-c<o||(h=e.skipSpaces(h))<f)){p=!0;break}return o=e.sCount[r],e.line=a+(p?1:0),(l=e.push("fence","code",0)).info=i,l.content=e.getLines(r+1,a,o,!0),l.markup=u,l.map=[r,e.line],!0}},{}],21:[function(e,r,t){"use strict";var n=e("../common/utils").isSpace;r.exports=function(e,r,t,s){var o,i,a,c,l=e.bMarks[r]+e.tShift[r],u=e.eMarks[r];if(e.sCount[r]-e.blkIndent>=4)return!1;if(35!==(o=e.src.charCodeAt(l))||l>=u)return!1;for(i=1,o=e.src.charCodeAt(++l);35===o&&l<u&&i<=6;)i++,o=e.src.charCodeAt(++l);return!(i>6||l<u&&!n(o))&&(s||(u=e.skipSpacesBack(u,l),(a=e.skipCharsBack(u,35,l))>l&&n(e.src.charCodeAt(a-1))&&(u=a),e.line=r+1,(c=e.push("heading_open","h"+String(i),1)).markup="########".slice(0,i),c.map=[r,e.line],(c=e.push("inline","",0)).content=e.src.slice(l,u).trim(),c.map=[r,e.line],c.children=[],(c=e.push("heading_close","h"+String(i),-1)).markup="########".slice(0,i)),!0)}},{"../common/utils":4}],22:[function(e,r,t){"use strict";var n=e("../common/utils").isSpace;r.exports=function(e,r,t,s){var o,i,a,c,l=e.bMarks[r]+e.tShift[r],u=e.eMarks[r];if(e.sCount[r]-e.blkIndent>=4)return!1;if(42!==(o=e.src.charCodeAt(l++))&&45!==o&&95!==o)return!1;for(i=1;l<u;){if((a=e.src.charCodeAt(l++))!==o&&!n(a))return!1;a===o&&i++}return!(i<3)&&(s||(e.line=r+1,(c=e.push("hr","hr",0)).map=[r,e.line],c.markup=Array(i+1).join(String.fromCharCode(o))),!0)}},{"../common/utils":4}],23:[function(e,r,t){"use strict";var n=e("../common/html_blocks"),s=e("../common/html_re").HTML_OPEN_CLOSE_TAG_RE,o=[[/^<(script|pre|style)(?=(\s|>|$))/i,/<\/(script|pre|style)>/i,!0],[/^<!--/,/-->/,!0],[/^<\?/,/\?>/,!0],[/^<![A-Z]/,/>/,!0],[/^<!\[CDATA\[/,/\]\]>/,!0],[new RegExp("^</?("+n.join("|")+")(?=(\\s|/?>|$))","i"),/^$/,!0],[new RegExp(s.source+"\\s*$"),/^$/,!1]];r.exports=function(e,r,t,n){var s,i,a,c,l=e.bMarks[r]+e.tShift[r],u=e.eMarks[r];if(e.sCount[r]-e.blkIndent>=4)return!1;if(!e.md.options.html)return!1;if(60!==e.src.charCodeAt(l))return!1;for(c=e.src.slice(l,u),s=0;s<o.length&&!o[s][0].test(c);s++);if(s===o.length)return!1;if(n)return o[s][2];if(i=r+1,!o[s][1].test(c))for(;i<t&&!(e.sCount[i]<e.blkIndent);i++)if(l=e.bMarks[i]+e.tShift[i],u=e.eMarks[i],c=e.src.slice(l,u),o[s][1].test(c)){0!==c.length&&i++;break}return e.line=i,(a=e.push("html_block","",0)).map=[r,i],a.content=e.getLines(r,i,e.blkIndent,!0),!0}},{"../common/html_blocks":2,"../common/html_re":3}],24:[function(e,r,t){"use strict";r.exports=function(e,r,t){var n,s,o,i,a,c,l,u,p,h,f=r+1,d=e.md.block.ruler.getRules("paragraph");if(e.sCount[r]-e.blkIndent>=4)return!1;for(h=e.parentType,e.parentType="paragraph";f<t&&!e.isEmpty(f);f++)if(!(e.sCount[f]-e.blkIndent>3)){if(e.sCount[f]>=e.blkIndent&&(c=e.bMarks[f]+e.tShift[f])<(l=e.eMarks[f])&&(45===(p=e.src.charCodeAt(c))||61===p)&&(c=e.skipChars(c,p),(c=e.skipSpaces(c))>=l)){u=61===p?1:2;break}if(!(e.sCount[f]<0)){for(s=!1,o=0,i=d.length;o<i;o++)if(d[o](e,f,t,!0)){s=!0;break}if(s)break}}return!!u&&(n=e.getLines(r,f,e.blkIndent,!1).trim(),e.line=f+1,(a=e.push("heading_open","h"+String(u),1)).markup=String.fromCharCode(p),a.map=[r,e.line],(a=e.push("inline","",0)).content=n,a.map=[r,e.line-1],a.children=[],(a=e.push("heading_close","h"+String(u),-1)).markup=String.fromCharCode(p),e.parentType=h,!0)}},{}],25:[function(e,r,t){"use strict";var n=e("../common/utils").isSpace;function s(e,r){var t,s,o,i;return s=e.bMarks[r]+e.tShift[r],o=e.eMarks[r],42!==(t=e.src.charCodeAt(s++))&&45!==t&&43!==t||s<o&&(i=e.src.charCodeAt(s),!n(i))?-1:s}function o(e,r){var t,s=e.bMarks[r]+e.tShift[r],o=s,i=e.eMarks[r];if(o+1>=i)return-1;if((t=e.src.charCodeAt(o++))<48||t>57)return-1;for(;;){if(o>=i)return-1;if(!((t=e.src.charCodeAt(o++))>=48&&t<=57)){if(41===t||46===t)break;return-1}if(o-s>=10)return-1}return o<i&&(t=e.src.charCodeAt(o),!n(t))?-1:o}r.exports=function(e,r,t,n){var i,a,c,l,u,p,h,f,d,m,_,g,k,b,v,y,C,x,A,w,D,E,q,F,S,L,z,T,I=!1,R=!0;if(e.sCount[r]-e.blkIndent>=4)return!1;if(e.listIndent>=0&&e.sCount[r]-e.listIndent>=4&&e.sCount[r]<e.blkIndent)return!1;if(n&&"paragraph"===e.parentType&&e.tShift[r]>=e.blkIndent&&(I=!0),(q=o(e,r))>=0){if(h=!0,S=e.bMarks[r]+e.tShift[r],k=Number(e.src.substr(S,q-S-1)),I&&1!==k)return!1}else{if(!((q=s(e,r))>=0))return!1;h=!1}if(I&&e.skipSpaces(q)>=e.eMarks[r])return!1;if(g=e.src.charCodeAt(q-1),n)return!0;for(_=e.tokens.length,h?(T=e.push("ordered_list_open","ol",1),1!==k&&(T.attrs=[["start",k]])):T=e.push("bullet_list_open","ul",1),T.map=m=[r,0],T.markup=String.fromCharCode(g),v=r,F=!1,z=e.md.block.ruler.getRules("list"),x=e.parentType,e.parentType="list";v<t;){for(E=q,b=e.eMarks[v],p=y=e.sCount[v]+q-(e.bMarks[r]+e.tShift[r]);E<b;){if(9===(i=e.src.charCodeAt(E)))y+=4-(y+e.bsCount[v])%4;else{if(32!==i)break;y++}E++}if((u=(a=E)>=b?1:y-p)>4&&(u=1),l=p+u,(T=e.push("list_item_open","li",1)).markup=String.fromCharCode(g),T.map=f=[r,0],D=e.tight,w=e.tShift[r],A=e.sCount[r],C=e.listIndent,e.listIndent=e.blkIndent,e.blkIndent=l,e.tight=!0,e.tShift[r]=a-e.bMarks[r],e.sCount[r]=y,a>=b&&e.isEmpty(r+1)?e.line=Math.min(e.line+2,t):e.md.block.tokenize(e,r,t,!0),e.tight&&!F||(R=!1),F=e.line-r>1&&e.isEmpty(e.line-1),e.blkIndent=e.listIndent,e.listIndent=C,e.tShift[r]=w,e.sCount[r]=A,e.tight=D,(T=e.push("list_item_close","li",-1)).markup=String.fromCharCode(g),v=r=e.line,f[1]=v,a=e.bMarks[r],v>=t)break;if(e.sCount[v]<e.blkIndent)break;if(e.sCount[r]-e.blkIndent>=4)break;for(L=!1,c=0,d=z.length;c<d;c++)if(z[c](e,v,t,!0)){L=!0;break}if(L)break;if(h){if((q=o(e,v))<0)break}else if((q=s(e,v))<0)break;if(g!==e.src.charCodeAt(q-1))break}return(T=h?e.push("ordered_list_close","ol",-1):e.push("bullet_list_close","ul",-1)).markup=String.fromCharCode(g),m[1]=v,e.line=v,e.parentType=x,R&&function(e,r){var t,n,s=e.level+2;for(t=r+2,n=e.tokens.length-2;t<n;t++)e.tokens[t].level===s&&"paragraph_open"===e.tokens[t].type&&(e.tokens[t+2].hidden=!0,e.tokens[t].hidden=!0,t+=2)}(e,_),!0}},{"../common/utils":4}],26:[function(e,r,t){"use strict";r.exports=function(e,r){var t,n,s,o,i,a,c=r+1,l=e.md.block.ruler.getRules("paragraph"),u=e.lineMax;for(a=e.parentType,e.parentType="paragraph";c<u&&!e.isEmpty(c);c++)if(!(e.sCount[c]-e.blkIndent>3||e.sCount[c]<0)){for(n=!1,s=0,o=l.length;s<o;s++)if(l[s](e,c,u,!0)){n=!0;break}if(n)break}return t=e.getLines(r,c,e.blkIndent,!1).trim(),e.line=c,(i=e.push("paragraph_open","p",1)).map=[r,e.line],(i=e.push("inline","",0)).content=t,i.map=[r,e.line],i.children=[],i=e.push("paragraph_close","p",-1),e.parentType=a,!0}},{}],27:[function(e,r,t){"use strict";var n=e("../common/utils").normalizeReference,s=e("../common/utils").isSpace;r.exports=function(e,r,t,o){var i,a,c,l,u,p,h,f,d,m,_,g,k,b,v,y,C=0,x=e.bMarks[r]+e.tShift[r],A=e.eMarks[r],w=r+1;if(e.sCount[r]-e.blkIndent>=4)return!1;if(91!==e.src.charCodeAt(x))return!1;for(;++x<A;)if(93===e.src.charCodeAt(x)&&92!==e.src.charCodeAt(x-1)){if(x+1===A)return!1;if(58!==e.src.charCodeAt(x+1))return!1;break}for(l=e.lineMax,v=e.md.block.ruler.getRules("reference"),m=e.parentType,e.parentType="reference";w<l&&!e.isEmpty(w);w++)if(!(e.sCount[w]-e.blkIndent>3||e.sCount[w]<0)){for(b=!1,p=0,h=v.length;p<h;p++)if(v[p](e,w,l,!0)){b=!0;break}if(b)break}for(A=(k=e.getLines(r,w,e.blkIndent,!1).trim()).length,x=1;x<A;x++){if(91===(i=k.charCodeAt(x)))return!1;if(93===i){d=x;break}(10===i||92===i&&++x<A&&10===k.charCodeAt(x))&&C++}if(d<0||58!==k.charCodeAt(d+1))return!1;for(x=d+2;x<A;x++)if(10===(i=k.charCodeAt(x)))C++;else if(!s(i))break;if(!(_=e.md.helpers.parseLinkDestination(k,x,A)).ok)return!1;if(u=e.md.normalizeLink(_.str),!e.md.validateLink(u))return!1;for(a=x=_.pos,c=C+=_.lines,g=x;x<A;x++)if(10===(i=k.charCodeAt(x)))C++;else if(!s(i))break;for(_=e.md.helpers.parseLinkTitle(k,x,A),x<A&&g!==x&&_.ok?(y=_.str,x=_.pos,C+=_.lines):(y="",x=a,C=c);x<A&&(i=k.charCodeAt(x),s(i));)x++;if(x<A&&10!==k.charCodeAt(x)&&y)for(y="",x=a,C=c;x<A&&(i=k.charCodeAt(x),s(i));)x++;return!(x<A&&10!==k.charCodeAt(x))&&(!!(f=n(k.slice(1,d)))&&(o||(void 0===e.env.references&&(e.env.references={}),void 0===e.env.references[f]&&(e.env.references[f]={title:y,href:u}),e.parentType=m,e.line=r+C+1),!0))}},{"../common/utils":4}],28:[function(e,r,t){"use strict";var n=e("../token"),s=e("../common/utils").isSpace;function o(e,r,t,n){var o,i,a,c,l,u,p,h;for(this.src=e,this.md=r,this.env=t,this.tokens=n,this.bMarks=[],this.eMarks=[],this.tShift=[],this.sCount=[],this.bsCount=[],this.blkIndent=0,this.line=0,this.lineMax=0,this.tight=!1,this.ddIndent=-1,this.listIndent=-1,this.parentType="root",this.level=0,this.result="",h=!1,a=c=u=p=0,l=(i=this.src).length;c<l;c++){if(o=i.charCodeAt(c),!h){if(s(o)){u++,9===o?p+=4-p%4:p++;continue}h=!0}10!==o&&c!==l-1||(10!==o&&c++,this.bMarks.push(a),this.eMarks.push(c),this.tShift.push(u),this.sCount.push(p),this.bsCount.push(0),h=!1,u=0,p=0,a=c+1)}this.bMarks.push(i.length),this.eMarks.push(i.length),this.tShift.push(0),this.sCount.push(0),this.bsCount.push(0),this.lineMax=this.bMarks.length-1}o.prototype.push=function(e,r,t){var s=new n(e,r,t);return s.block=!0,t<0&&this.level--,s.level=this.level,t>0&&this.level++,this.tokens.push(s),s},o.prototype.isEmpty=function(e){return this.bMarks[e]+this.tShift[e]>=this.eMarks[e]},o.prototype.skipEmptyLines=function(e){for(var r=this.lineMax;e<r&&!(this.bMarks[e]+this.tShift[e]<this.eMarks[e]);e++);return e},o.prototype.skipSpaces=function(e){for(var r,t=this.src.length;e<t&&(r=this.src.charCodeAt(e),s(r));e++);return e},o.prototype.skipSpacesBack=function(e,r){if(e<=r)return e;for(;e>r;)if(!s(this.src.charCodeAt(--e)))return e+1;return e},o.prototype.skipChars=function(e,r){for(var t=this.src.length;e<t&&this.src.charCodeAt(e)===r;e++);return e},o.prototype.skipCharsBack=function(e,r,t){if(e<=t)return e;for(;e>t;)if(r!==this.src.charCodeAt(--e))return e+1;return e},o.prototype.getLines=function(e,r,t,n){var o,i,a,c,l,u,p,h=e;if(e>=r)return"";for(u=new Array(r-e),o=0;h<r;h++,o++){for(i=0,p=c=this.bMarks[h],l=h+1<r||n?this.eMarks[h]+1:this.eMarks[h];c<l&&i<t;){if(a=this.src.charCodeAt(c),s(a))9===a?i+=4-(i+this.bsCount[h])%4:i++;else{if(!(c-p<this.tShift[h]))break;i++}c++}u[o]=i>t?new Array(i-t+1).join(" ")+this.src.slice(c,l):this.src.slice(c,l)}return u.join("")},o.prototype.Token=n,r.exports=o},{"../common/utils":4,"../token":51}],29:[function(e,r,t){"use strict";var n=e("../common/utils").isSpace;function s(e,r){var t=e.bMarks[r]+e.blkIndent,n=e.eMarks[r];return e.src.substr(t,n-t)}function o(e){var r,t=[],n=0,s=e.length,o=0,i=0,a=!1,c=0;for(r=e.charCodeAt(n);n<s;)96===r?a?(a=!1,c=n):o%2==0&&(a=!0,c=n):124!==r||o%2!=0||a||(t.push(e.substring(i,n)),i=n+1),92===r?o++:o=0,++n===s&&a&&(a=!1,n=c+1),r=e.charCodeAt(n);return t.push(e.substring(i)),t}r.exports=function(e,r,t,i){var a,c,l,u,p,h,f,d,m,_,g,k;if(r+2>t)return!1;if(p=r+1,e.sCount[p]<e.blkIndent)return!1;if(e.sCount[p]-e.blkIndent>=4)return!1;if((l=e.bMarks[p]+e.tShift[p])>=e.eMarks[p])return!1;if(124!==(a=e.src.charCodeAt(l++))&&45!==a&&58!==a)return!1;for(;l<e.eMarks[p];){if(124!==(a=e.src.charCodeAt(l))&&45!==a&&58!==a&&!n(a))return!1;l++}for(h=(c=s(e,r+1)).split("|"),m=[],u=0;u<h.length;u++){if(!(_=h[u].trim())){if(0===u||u===h.length-1)continue;return!1}if(!/^:?-+:?$/.test(_))return!1;58===_.charCodeAt(_.length-1)?m.push(58===_.charCodeAt(0)?"center":"right"):58===_.charCodeAt(0)?m.push("left"):m.push("")}if(-1===(c=s(e,r).trim()).indexOf("|"))return!1;if(e.sCount[r]-e.blkIndent>=4)return!1;if((f=(h=o(c.replace(/^\||\|$/g,""))).length)>m.length)return!1;if(i)return!0;for((d=e.push("table_open","table",1)).map=g=[r,0],(d=e.push("thead_open","thead",1)).map=[r,r+1],(d=e.push("tr_open","tr",1)).map=[r,r+1],u=0;u<h.length;u++)(d=e.push("th_open","th",1)).map=[r,r+1],m[u]&&(d.attrs=[["style","text-align:"+m[u]]]),(d=e.push("inline","",0)).content=h[u].trim(),d.map=[r,r+1],d.children=[],d=e.push("th_close","th",-1);for(d=e.push("tr_close","tr",-1),d=e.push("thead_close","thead",-1),(d=e.push("tbody_open","tbody",1)).map=k=[r+2,0],p=r+2;p<t&&!(e.sCount[p]<e.blkIndent)&&-1!==(c=s(e,p).trim()).indexOf("|")&&!(e.sCount[p]-e.blkIndent>=4);p++){for(h=o(c.replace(/^\||\|$/g,"")),d=e.push("tr_open","tr",1),u=0;u<f;u++)d=e.push("td_open","td",1),m[u]&&(d.attrs=[["style","text-align:"+m[u]]]),(d=e.push("inline","",0)).content=h[u]?h[u].trim():"",d.children=[],d=e.push("td_close","td",-1);d=e.push("tr_close","tr",-1)}return d=e.push("tbody_close","tbody",-1),d=e.push("table_close","table",-1),g[1]=k[1]=p,e.line=p,!0}},{"../common/utils":4}],30:[function(e,r,t){"use strict";r.exports=function(e){var r;e.inlineMode?((r=new e.Token("inline","",0)).content=e.src,r.map=[0,1],r.children=[],e.tokens.push(r)):e.md.block.parse(e.src,e.md,e.env,e.tokens)}},{}],31:[function(e,r,t){"use strict";r.exports=function(e){var r,t,n,s=e.tokens;for(t=0,n=s.length;t<n;t++)"inline"===(r=s[t]).type&&e.md.inline.parse(r.content,e.md,e.env,r.children)}},{}],32:[function(e,r,t){"use strict";var n=e("../common/utils").arrayReplaceAt;function s(e){return/^<\/a\s*>/i.test(e)}r.exports=function(e){var r,t,o,i,a,c,l,u,p,h,f,d,m,_,g,k,b,v,y=e.tokens;if(e.md.options.linkify)for(t=0,o=y.length;t<o;t++)if("inline"===y[t].type&&e.md.linkify.pretest(y[t].content))for(m=0,r=(i=y[t].children).length-1;r>=0;r--)if("link_close"!==(c=i[r]).type){if("html_inline"===c.type&&(v=c.content,/^<a[>\s]/i.test(v)&&m>0&&m--,s(c.content)&&m++),!(m>0)&&"text"===c.type&&e.md.linkify.test(c.content)){for(p=c.content,b=e.md.linkify.match(p),l=[],d=c.level,f=0,u=0;u<b.length;u++)_=b[u].url,g=e.md.normalizeLink(_),e.md.validateLink(g)&&(k=b[u].text,k=b[u].schema?"mailto:"!==b[u].schema||/^mailto:/i.test(k)?e.md.normalizeLinkText(k):e.md.normalizeLinkText("mailto:"+k).replace(/^mailto:/,""):e.md.normalizeLinkText("http://"+k).replace(/^http:\/\//,""),(h=b[u].index)>f&&((a=new e.Token("text","",0)).content=p.slice(f,h),a.level=d,l.push(a)),(a=new e.Token("link_open","a",1)).attrs=[["href",g]],a.level=d++,a.markup="linkify",a.info="auto",l.push(a),(a=new e.Token("text","",0)).content=k,a.level=d,l.push(a),(a=new e.Token("link_close","a",-1)).level=--d,a.markup="linkify",a.info="auto",l.push(a),f=b[u].lastIndex);f<p.length&&((a=new e.Token("text","",0)).content=p.slice(f),a.level=d,l.push(a)),y[t].children=i=n(i,r,l)}}else for(r--;i[r].level!==c.level&&"link_open"!==i[r].type;)r--}},{"../common/utils":4}],33:[function(e,r,t){"use strict";var n=/\r\n?|\n/g,s=/\0/g;r.exports=function(e){var r;r=(r=e.src.replace(n,"\n")).replace(s,"\ufffd"),e.src=r}},{}],34:[function(e,r,t){"use strict";var n=/\+-|\.\.|\?\?\?\?|!!!!|,,|--/,s=/\((c|tm|r|p)\)/i,o=/\((c|tm|r|p)\)/gi,i={c:"\xa9",r:"\xae",p:"\xa7",tm:"\u2122"};function a(e,r){return i[r.toLowerCase()]}function c(e){var r,t,n=0;for(r=e.length-1;r>=0;r--)"text"!==(t=e[r]).type||n||(t.content=t.content.replace(o,a)),"link_open"===t.type&&"auto"===t.info&&n--,"link_close"===t.type&&"auto"===t.info&&n++}function l(e){var r,t,s=0;for(r=e.length-1;r>=0;r--)"text"!==(t=e[r]).type||s||n.test(t.content)&&(t.content=t.content.replace(/\+-/g,"\xb1").replace(/\.{2,}/g,"\u2026").replace(/([?!])\u2026/g,"$1..").replace(/([?!]){4,}/g,"$1$1$1").replace(/,{2,}/g,",").replace(/(^|[^-])---(?=[^-]|$)/gm,"$1\u2014").replace(/(^|\s)--(?=\s|$)/gm,"$1\u2013").replace(/(^|[^-\s])--(?=[^-\s]|$)/gm,"$1\u2013")),"link_open"===t.type&&"auto"===t.info&&s--,"link_close"===t.type&&"auto"===t.info&&s++}r.exports=function(e){var r;if(e.md.options.typographer)for(r=e.tokens.length-1;r>=0;r--)"inline"===e.tokens[r].type&&(s.test(e.tokens[r].content)&&c(e.tokens[r].children),n.test(e.tokens[r].content)&&l(e.tokens[r].children))}},{}],35:[function(e,r,t){"use strict";var n=e("../common/utils").isWhiteSpace,s=e("../common/utils").isPunctChar,o=e("../common/utils").isMdAsciiPunct,i=/['"]/,a=/['"]/g;function c(e,r,t){return e.substr(0,r)+t+e.substr(r+1)}function l(e,r){var t,i,l,u,p,h,f,d,m,_,g,k,b,v,y,C,x,A,w,D,E;for(w=[],t=0;t<e.length;t++){for(i=e[t],f=e[t].level,x=w.length-1;x>=0&&!(w[x].level<=f);x--);if(w.length=x+1,"text"===i.type){p=0,h=(l=i.content).length;e:for(;p<h&&(a.lastIndex=p,u=a.exec(l));){if(y=C=!0,p=u.index+1,A="'"===u[0],m=32,u.index-1>=0)m=l.charCodeAt(u.index-1);else for(x=t-1;x>=0&&("softbreak"!==e[x].type&&"hardbreak"!==e[x].type);x--)if("text"===e[x].type){m=e[x].content.charCodeAt(e[x].content.length-1);break}if(_=32,p<h)_=l.charCodeAt(p);else for(x=t+1;x<e.length&&("softbreak"!==e[x].type&&"hardbreak"!==e[x].type);x++)if("text"===e[x].type){_=e[x].content.charCodeAt(0);break}if(g=o(m)||s(String.fromCharCode(m)),k=o(_)||s(String.fromCharCode(_)),b=n(m),(v=n(_))?y=!1:k&&(b||g||(y=!1)),b?C=!1:g&&(v||k||(C=!1)),34===_&&'"'===u[0]&&m>=48&&m<=57&&(C=y=!1),y&&C&&(y=g,C=k),y||C){if(C)for(x=w.length-1;x>=0&&(d=w[x],!(w[x].level<f));x--)if(d.single===A&&w[x].level===f){d=w[x],A?(D=r.md.options.quotes[2],E=r.md.options.quotes[3]):(D=r.md.options.quotes[0],E=r.md.options.quotes[1]),i.content=c(i.content,u.index,E),e[d.token].content=c(e[d.token].content,d.pos,D),p+=E.length-1,d.token===t&&(p+=D.length-1),h=(l=i.content).length,w.length=x;continue e}y?w.push({token:t,pos:u.index,single:A,level:f}):C&&A&&(i.content=c(i.content,u.index,"\u2019"))}else A&&(i.content=c(i.content,u.index,"\u2019"))}}}}r.exports=function(e){var r;if(e.md.options.typographer)for(r=e.tokens.length-1;r>=0;r--)"inline"===e.tokens[r].type&&i.test(e.tokens[r].content)&&l(e.tokens[r].children,e)}},{"../common/utils":4}],36:[function(e,r,t){"use strict";var n=e("../token");function s(e,r,t){this.src=e,this.env=t,this.tokens=[],this.inlineMode=!1,this.md=r}s.prototype.Token=n,r.exports=s},{"../token":51}],37:[function(e,r,t){"use strict";var n=/^<([a-zA-Z0-9.!#$%&'*+\/=?^_`{|}~-]+@[a-zA-Z0-9](?:[a-zA-Z0-9-]{0,61}[a-zA-Z0-9])?(?:\.[a-zA-Z0-9](?:[a-zA-Z0-9-]{0,61}[a-zA-Z0-9])?)*)>/,s=/^<([a-zA-Z][a-zA-Z0-9+.\-]{1,31}):([^<>\x00-\x20]*)>/;r.exports=function(e,r){var t,o,i,a,c,l,u=e.pos;return 60===e.src.charCodeAt(u)&&(!((t=e.src.slice(u)).indexOf(">")<0)&&(s.test(t)?(a=(o=t.match(s))[0].slice(1,-1),c=e.md.normalizeLink(a),!!e.md.validateLink(c)&&(r||((l=e.push("link_open","a",1)).attrs=[["href",c]],l.markup="autolink",l.info="auto",(l=e.push("text","",0)).content=e.md.normalizeLinkText(a),(l=e.push("link_close","a",-1)).markup="autolink",l.info="auto"),e.pos+=o[0].length,!0)):!!n.test(t)&&(a=(i=t.match(n))[0].slice(1,-1),c=e.md.normalizeLink("mailto:"+a),!!e.md.validateLink(c)&&(r||((l=e.push("link_open","a",1)).attrs=[["href",c]],l.markup="autolink",l.info="auto",(l=e.push("text","",0)).content=e.md.normalizeLinkText(a),(l=e.push("link_close","a",-1)).markup="autolink",l.info="auto"),e.pos+=i[0].length,!0))))}},{}],38:[function(e,r,t){"use strict";r.exports=function(e,r){var t,n,s,o,i,a,c=e.pos;if(96!==e.src.charCodeAt(c))return!1;for(t=c,c++,n=e.posMax;c<n&&96===e.src.charCodeAt(c);)c++;for(s=e.src.slice(t,c),o=i=c;-1!==(o=e.src.indexOf("`",i));){for(i=o+1;i<n&&96===e.src.charCodeAt(i);)i++;if(i-o===s.length)return r||((a=e.push("code_inline","code",0)).markup=s,a.content=e.src.slice(c,o).replace(/\n/g," ").replace(/^ (.+) $/,"$1")),e.pos=i,!0}return r||(e.pending+=s),e.pos+=s.length,!0}},{}],39:[function(e,r,t){"use strict";function n(e,r){var t,n,s,o,i,a,c,l,u={},p=r.length;for(t=0;t<p;t++)if((s=r[t]).length=s.length||0,s.close){for(u.hasOwnProperty(s.marker)||(u[s.marker]=[-1,-1,-1]),i=u[s.marker][s.length%3],a=-1,n=t-s.jump-1;n>i;n-=o.jump+1)if((o=r[n]).marker===s.marker&&(-1===a&&(a=n),o.open&&o.end<0&&o.level===s.level&&(c=!1,(o.close||s.open)&&(o.length+s.length)%3==0&&(o.length%3==0&&s.length%3==0||(c=!0)),!c))){l=n>0&&!r[n-1].open?r[n-1].jump+1:0,s.jump=t-n+l,s.open=!1,o.end=t,o.jump=l,o.close=!1,a=-1;break}-1!==a&&(u[s.marker][(s.length||0)%3]=a)}}r.exports=function(e){var r,t=e.tokens_meta,s=e.tokens_meta.length;for(n(0,e.delimiters),r=0;r<s;r++)t[r]&&t[r].delimiters&&n(0,t[r].delimiters)}},{}],40:[function(e,r,t){"use strict";function n(e,r){var t,n,s,o,i,a;for(t=r.length-1;t>=0;t--)95!==(n=r[t]).marker&&42!==n.marker||-1!==n.end&&(s=r[n.end],a=t>0&&r[t-1].end===n.end+1&&r[t-1].token===n.token-1&&r[n.end+1].token===s.token+1&&r[t-1].marker===n.marker,i=String.fromCharCode(n.marker),(o=e.tokens[n.token]).type=a?"strong_open":"em_open",o.tag=a?"strong":"em",o.nesting=1,o.markup=a?i+i:i,o.content="",(o=e.tokens[s.token]).type=a?"strong_close":"em_close",o.tag=a?"strong":"em",o.nesting=-1,o.markup=a?i+i:i,o.content="",a&&(e.tokens[r[t-1].token].content="",e.tokens[r[n.end+1].token].content="",t--))}r.exports.tokenize=function(e,r){var t,n,s=e.pos,o=e.src.charCodeAt(s);if(r)return!1;if(95!==o&&42!==o)return!1;for(n=e.scanDelims(e.pos,42===o),t=0;t<n.length;t++)e.push("text","",0).content=String.fromCharCode(o),e.delimiters.push({marker:o,length:n.length,jump:t,token:e.tokens.length-1,end:-1,open:n.can_open,close:n.can_close});return e.pos+=n.length,!0},r.exports.postProcess=function(e){var r,t=e.tokens_meta,s=e.tokens_meta.length;for(n(e,e.delimiters),r=0;r<s;r++)t[r]&&t[r].delimiters&&n(e,t[r].delimiters)}},{}],41:[function(e,r,t){"use strict";var n=e("../common/entities"),s=e("../common/utils").has,o=e("../common/utils").isValidEntityCode,i=e("../common/utils").fromCodePoint,a=/^&#((?:x[a-f0-9]{1,6}|[0-9]{1,7}));/i,c=/^&([a-z][a-z0-9]{1,31});/i;r.exports=function(e,r){var t,l,u=e.pos,p=e.posMax;if(38!==e.src.charCodeAt(u))return!1;if(u+1<p)if(35===e.src.charCodeAt(u+1)){if(l=e.src.slice(u).match(a))return r||(t="x"===l[1][0].toLowerCase()?parseInt(l[1].slice(1),16):parseInt(l[1],10),e.pending+=o(t)?i(t):i(65533)),e.pos+=l[0].length,!0}else if((l=e.src.slice(u).match(c))&&s(n,l[1]))return r||(e.pending+=n[l[1]]),e.pos+=l[0].length,!0;return r||(e.pending+="&"),e.pos++,!0}},{"../common/entities":1,"../common/utils":4}],42:[function(e,r,t){"use strict";for(var n=e("../common/utils").isSpace,s=[],o=0;o<256;o++)s.push(0);"\\!\"#$%&'()*+,./:;<=>?@[]^_`{|}~-".split("").forEach((function(e){s[e.charCodeAt(0)]=1})),r.exports=function(e,r){var t,o=e.pos,i=e.posMax;if(92!==e.src.charCodeAt(o))return!1;if(++o<i){if((t=e.src.charCodeAt(o))<256&&0!==s[t])return r||(e.pending+=e.src[o]),e.pos+=2,!0;if(10===t){for(r||e.push("hardbreak","br",0),o++;o<i&&(t=e.src.charCodeAt(o),n(t));)o++;return e.pos=o,!0}}return r||(e.pending+="\\"),e.pos++,!0}},{"../common/utils":4}],43:[function(e,r,t){"use strict";var n=e("../common/html_re").HTML_TAG_RE;r.exports=function(e,r){var t,s,o,i=e.pos;return!!e.md.options.html&&(o=e.posMax,!(60!==e.src.charCodeAt(i)||i+2>=o)&&(!(33!==(t=e.src.charCodeAt(i+1))&&63!==t&&47!==t&&!function(e){var r=32|e;return r>=97&&r<=122}(t))&&(!!(s=e.src.slice(i).match(n))&&(r||(e.push("html_inline","",0).content=e.src.slice(i,i+s[0].length)),e.pos+=s[0].length,!0))))}},{"../common/html_re":3}],44:[function(e,r,t){"use strict";var n=e("../common/utils").normalizeReference,s=e("../common/utils").isSpace;r.exports=function(e,r){var t,o,i,a,c,l,u,p,h,f,d,m,_,g="",k=e.pos,b=e.posMax;if(33!==e.src.charCodeAt(e.pos))return!1;if(91!==e.src.charCodeAt(e.pos+1))return!1;if(l=e.pos+2,(c=e.md.helpers.parseLinkLabel(e,e.pos+1,!1))<0)return!1;if((u=c+1)<b&&40===e.src.charCodeAt(u)){for(u++;u<b&&(o=e.src.charCodeAt(u),s(o)||10===o);u++);if(u>=b)return!1;for(_=u,(h=e.md.helpers.parseLinkDestination(e.src,u,e.posMax)).ok&&(g=e.md.normalizeLink(h.str),e.md.validateLink(g)?u=h.pos:g=""),_=u;u<b&&(o=e.src.charCodeAt(u),s(o)||10===o);u++);if(h=e.md.helpers.parseLinkTitle(e.src,u,e.posMax),u<b&&_!==u&&h.ok)for(f=h.str,u=h.pos;u<b&&(o=e.src.charCodeAt(u),s(o)||10===o);u++);else f="";if(u>=b||41!==e.src.charCodeAt(u))return e.pos=k,!1;u++}else{if(void 0===e.env.references)return!1;if(u<b&&91===e.src.charCodeAt(u)?(_=u+1,(u=e.md.helpers.parseLinkLabel(e,u))>=0?a=e.src.slice(_,u++):u=c+1):u=c+1,a||(a=e.src.slice(l,c)),!(p=e.env.references[n(a)]))return e.pos=k,!1;g=p.href,f=p.title}return r||(i=e.src.slice(l,c),e.md.inline.parse(i,e.md,e.env,m=[]),(d=e.push("image","img",0)).attrs=t=[["src",g],["alt",""]],d.children=m,d.content=i,f&&t.push(["title",f])),e.pos=u,e.posMax=b,!0}},{"../common/utils":4}],45:[function(e,r,t){"use strict";var n=e("../common/utils").normalizeReference,s=e("../common/utils").isSpace;r.exports=function(e,r){var t,o,i,a,c,l,u,p,h,f="",d=e.pos,m=e.posMax,_=e.pos,g=!0;if(91!==e.src.charCodeAt(e.pos))return!1;if(c=e.pos+1,(a=e.md.helpers.parseLinkLabel(e,e.pos,!0))<0)return!1;if((l=a+1)<m&&40===e.src.charCodeAt(l)){for(g=!1,l++;l<m&&(o=e.src.charCodeAt(l),s(o)||10===o);l++);if(l>=m)return!1;for(_=l,(u=e.md.helpers.parseLinkDestination(e.src,l,e.posMax)).ok&&(f=e.md.normalizeLink(u.str),e.md.validateLink(f)?l=u.pos:f=""),_=l;l<m&&(o=e.src.charCodeAt(l),s(o)||10===o);l++);if(u=e.md.helpers.parseLinkTitle(e.src,l,e.posMax),l<m&&_!==l&&u.ok)for(h=u.str,l=u.pos;l<m&&(o=e.src.charCodeAt(l),s(o)||10===o);l++);else h="";(l>=m||41!==e.src.charCodeAt(l))&&(g=!0),l++}if(g){if(void 0===e.env.references)return!1;if(l<m&&91===e.src.charCodeAt(l)?(_=l+1,(l=e.md.helpers.parseLinkLabel(e,l))>=0?i=e.src.slice(_,l++):l=a+1):l=a+1,i||(i=e.src.slice(c,a)),!(p=e.env.references[n(i)]))return e.pos=d,!1;f=p.href,h=p.title}return r||(e.pos=c,e.posMax=a,e.push("link_open","a",1).attrs=t=[["href",f]],h&&t.push(["title",h]),e.md.inline.tokenize(e),e.push("link_close","a",-1)),e.pos=l,e.posMax=m,!0}},{"../common/utils":4}],46:[function(e,r,t){"use strict";var n=e("../common/utils").isSpace;r.exports=function(e,r){var t,s,o=e.pos;if(10!==e.src.charCodeAt(o))return!1;for(t=e.pending.length-1,s=e.posMax,r||(t>=0&&32===e.pending.charCodeAt(t)?t>=1&&32===e.pending.charCodeAt(t-1)?(e.pending=e.pending.replace(/ +$/,""),e.push("hardbreak","br",0)):(e.pending=e.pending.slice(0,-1),e.push("softbreak","br",0)):e.push("softbreak","br",0)),o++;o<s&&n(e.src.charCodeAt(o));)o++;return e.pos=o,!0}},{"../common/utils":4}],47:[function(e,r,t){"use strict";var n=e("../token"),s=e("../common/utils").isWhiteSpace,o=e("../common/utils").isPunctChar,i=e("../common/utils").isMdAsciiPunct;function a(e,r,t,n){this.src=e,this.env=t,this.md=r,this.tokens=n,this.tokens_meta=Array(n.length),this.pos=0,this.posMax=this.src.length,this.level=0,this.pending="",this.pendingLevel=0,this.cache={},this.delimiters=[],this._prev_delimiters=[]}a.prototype.pushPending=function(){var e=new n("text","",0);return e.content=this.pending,e.level=this.pendingLevel,this.tokens.push(e),this.pending="",e},a.prototype.push=function(e,r,t){this.pending&&this.pushPending();var s=new n(e,r,t),o=null;return t<0&&(this.level--,this.delimiters=this._prev_delimiters.pop()),s.level=this.level,t>0&&(this.level++,this._prev_delimiters.push(this.delimiters),this.delimiters=[],o={delimiters:this.delimiters}),this.pendingLevel=this.level,this.tokens.push(s),this.tokens_meta.push(o),s},a.prototype.scanDelims=function(e,r){var t,n,a,c,l,u,p,h,f,d=e,m=!0,_=!0,g=this.posMax,k=this.src.charCodeAt(e);for(t=e>0?this.src.charCodeAt(e-1):32;d<g&&this.src.charCodeAt(d)===k;)d++;return a=d-e,n=d<g?this.src.charCodeAt(d):32,p=i(t)||o(String.fromCharCode(t)),f=i(n)||o(String.fromCharCode(n)),u=s(t),(h=s(n))?m=!1:f&&(u||p||(m=!1)),u?_=!1:p&&(h||f||(_=!1)),r?(c=m,l=_):(c=m&&(!_||p),l=_&&(!m||f)),{can_open:c,can_close:l,length:a}},a.prototype.Token=n,r.exports=a},{"../common/utils":4,"../token":51}],48:[function(e,r,t){"use strict";function n(e,r){var t,n,s,o,i,a=[],c=r.length;for(t=0;t<c;t++)126===(s=r[t]).marker&&-1!==s.end&&(o=r[s.end],(i=e.tokens[s.token]).type="s_open",i.tag="s",i.nesting=1,i.markup="~~",i.content="",(i=e.tokens[o.token]).type="s_close",i.tag="s",i.nesting=-1,i.markup="~~",i.content="","text"===e.tokens[o.token-1].type&&"~"===e.tokens[o.token-1].content&&a.push(o.token-1));for(;a.length;){for(n=(t=a.pop())+1;n<e.tokens.length&&"s_close"===e.tokens[n].type;)n++;t!==--n&&(i=e.tokens[n],e.tokens[n]=e.tokens[t],e.tokens[t]=i)}}r.exports.tokenize=function(e,r){var t,n,s,o,i=e.pos,a=e.src.charCodeAt(i);if(r)return!1;if(126!==a)return!1;if(s=(n=e.scanDelims(e.pos,!0)).length,o=String.fromCharCode(a),s<2)return!1;for(s%2&&(e.push("text","",0).content=o,s--),t=0;t<s;t+=2)e.push("text","",0).content=o+o,e.delimiters.push({marker:a,length:0,jump:t,token:e.tokens.length-1,end:-1,open:n.can_open,close:n.can_close});return e.pos+=n.length,!0},r.exports.postProcess=function(e){var r,t=e.tokens_meta,s=e.tokens_meta.length;for(n(e,e.delimiters),r=0;r<s;r++)t[r]&&t[r].delimiters&&n(e,t[r].delimiters)}},{}],49:[function(e,r,t){"use strict";function n(e){switch(e){case 10:case 33:case 35:case 36:case 37:case 38:case 42:case 43:case 45:case 58:case 60:case 61:case 62:case 64:case 91:case 92:case 93:case 94:case 95:case 96:case 123:case 125:case 126:return!0;default:return!1}}r.exports=function(e,r){for(var t=e.pos;t<e.posMax&&!n(e.src.charCodeAt(t));)t++;return t!==e.pos&&(r||(e.pending+=e.src.slice(e.pos,t)),e.pos=t,!0)}},{}],50:[function(e,r,t){"use strict";r.exports=function(e){var r,t,n=0,s=e.tokens,o=e.tokens.length;for(r=t=0;r<o;r++)s[r].nesting<0&&n--,s[r].level=n,s[r].nesting>0&&n++,"text"===s[r].type&&r+1<o&&"text"===s[r+1].type?s[r+1].content=s[r].content+s[r+1].content:(r!==t&&(s[t]=s[r]),t++);r!==t&&(s.length=t)}},{}],51:[function(e,r,t){"use strict";function n(e,r,t){this.type=e,this.tag=r,this.attrs=null,this.map=null,this.nesting=t,this.level=0,this.children=null,this.content="",this.markup="",this.info="",this.meta=null,this.block=!1,this.hidden=!1}n.prototype.attrIndex=function(e){var r,t,n;if(!this.attrs)return-1;for(t=0,n=(r=this.attrs).length;t<n;t++)if(r[t][0]===e)return t;return-1},n.prototype.attrPush=function(e){this.attrs?this.attrs.push(e):this.attrs=[e]},n.prototype.attrSet=function(e,r){var t=this.attrIndex(e),n=[e,r];t<0?this.attrPush(n):this.attrs[t]=n},n.prototype.attrGet=function(e){var r=this.attrIndex(e),t=null;return r>=0&&(t=this.attrs[r][1]),t},n.prototype.attrJoin=function(e,r){var t=this.attrIndex(e);t<0?this.attrPush([e,r]):this.attrs[t][1]=this.attrs[t][1]+" "+r},r.exports=n},{}],52:[function(e,r,t){r.exports={Aacute:"\xc1",aacute:"\xe1",Abreve:"\u0102",abreve:"\u0103",ac:"\u223e",acd:"\u223f",acE:"\u223e\u0333",Acirc:"\xc2",acirc:"\xe2",acute:"\xb4",Acy:"\u0410",acy:"\u0430",AElig:"\xc6",aelig:"\xe6",af:"\u2061",Afr:"\ud835\udd04",afr:"\ud835\udd1e",Agrave:"\xc0",agrave:"\xe0",alefsym:"\u2135",aleph:"\u2135",Alpha:"\u0391",alpha:"\u03b1",Amacr:"\u0100",amacr:"\u0101",amalg:"\u2a3f",amp:"&",AMP:"&",andand:"\u2a55",And:"\u2a53",and:"\u2227",andd:"\u2a5c",andslope:"\u2a58",andv:"\u2a5a",ang:"\u2220",ange:"\u29a4",angle:"\u2220",angmsdaa:"\u29a8",angmsdab:"\u29a9",angmsdac:"\u29aa",angmsdad:"\u29ab",angmsdae:"\u29ac",angmsdaf:"\u29ad",angmsdag:"\u29ae",angmsdah:"\u29af",angmsd:"\u2221",angrt:"\u221f",angrtvb:"\u22be",angrtvbd:"\u299d",angsph:"\u2222",angst:"\xc5",angzarr:"\u237c",Aogon:"\u0104",aogon:"\u0105",Aopf:"\ud835\udd38",aopf:"\ud835\udd52",apacir:"\u2a6f",ap:"\u2248",apE:"\u2a70",ape:"\u224a",apid:"\u224b",apos:"'",ApplyFunction:"\u2061",approx:"\u2248",approxeq:"\u224a",Aring:"\xc5",aring:"\xe5",Ascr:"\ud835\udc9c",ascr:"\ud835\udcb6",Assign:"\u2254",ast:"*",asymp:"\u2248",asympeq:"\u224d",Atilde:"\xc3",atilde:"\xe3",Auml:"\xc4",auml:"\xe4",awconint:"\u2233",awint:"\u2a11",backcong:"\u224c",backepsilon:"\u03f6",backprime:"\u2035",backsim:"\u223d",backsimeq:"\u22cd",Backslash:"\u2216",Barv:"\u2ae7",barvee:"\u22bd",barwed:"\u2305",Barwed:"\u2306",barwedge:"\u2305",bbrk:"\u23b5",bbrktbrk:"\u23b6",bcong:"\u224c",Bcy:"\u0411",bcy:"\u0431",bdquo:"\u201e",becaus:"\u2235",because:"\u2235",Because:"\u2235",bemptyv:"\u29b0",bepsi:"\u03f6",bernou:"\u212c",Bernoullis:"\u212c",Beta:"\u0392",beta:"\u03b2",beth:"\u2136",between:"\u226c",Bfr:"\ud835\udd05",bfr:"\ud835\udd1f",bigcap:"\u22c2",bigcirc:"\u25ef",bigcup:"\u22c3",bigodot:"\u2a00",bigoplus:"\u2a01",bigotimes:"\u2a02",bigsqcup:"\u2a06",bigstar:"\u2605",bigtriangledown:"\u25bd",bigtriangleup:"\u25b3",biguplus:"\u2a04",bigvee:"\u22c1",bigwedge:"\u22c0",bkarow:"\u290d",blacklozenge:"\u29eb",blacksquare:"\u25aa",blacktriangle:"\u25b4",blacktriangledown:"\u25be",blacktriangleleft:"\u25c2",blacktriangleright:"\u25b8",blank:"\u2423",blk12:"\u2592",blk14:"\u2591",blk34:"\u2593",block:"\u2588",bne:"=\u20e5",bnequiv:"\u2261\u20e5",bNot:"\u2aed",bnot:"\u2310",Bopf:"\ud835\udd39",bopf:"\ud835\udd53",bot:"\u22a5",bottom:"\u22a5",bowtie:"\u22c8",boxbox:"\u29c9",boxdl:"\u2510",boxdL:"\u2555",boxDl:"\u2556",boxDL:"\u2557",boxdr:"\u250c",boxdR:"\u2552",boxDr:"\u2553",boxDR:"\u2554",boxh:"\u2500",boxH:"\u2550",boxhd:"\u252c",boxHd:"\u2564",boxhD:"\u2565",boxHD:"\u2566",boxhu:"\u2534",boxHu:"\u2567",boxhU:"\u2568",boxHU:"\u2569",boxminus:"\u229f",boxplus:"\u229e",boxtimes:"\u22a0",boxul:"\u2518",boxuL:"\u255b",boxUl:"\u255c",boxUL:"\u255d",boxur:"\u2514",boxuR:"\u2558",boxUr:"\u2559",boxUR:"\u255a",boxv:"\u2502",boxV:"\u2551",boxvh:"\u253c",boxvH:"\u256a",boxVh:"\u256b",boxVH:"\u256c",boxvl:"\u2524",boxvL:"\u2561",boxVl:"\u2562",boxVL:"\u2563",boxvr:"\u251c",boxvR:"\u255e",boxVr:"\u255f",boxVR:"\u2560",bprime:"\u2035",breve:"\u02d8",Breve:"\u02d8",brvbar:"\xa6",bscr:"\ud835\udcb7",Bscr:"\u212c",bsemi:"\u204f",bsim:"\u223d",bsime:"\u22cd",bsolb:"\u29c5",bsol:"\\",bsolhsub:"\u27c8",bull:"\u2022",bullet:"\u2022",bump:"\u224e",bumpE:"\u2aae",bumpe:"\u224f",Bumpeq:"\u224e",bumpeq:"\u224f",Cacute:"\u0106",cacute:"\u0107",capand:"\u2a44",capbrcup:"\u2a49",capcap:"\u2a4b",cap:"\u2229",Cap:"\u22d2",capcup:"\u2a47",capdot:"\u2a40",CapitalDifferentialD:"\u2145",caps:"\u2229\ufe00",caret:"\u2041",caron:"\u02c7",Cayleys:"\u212d",ccaps:"\u2a4d",Ccaron:"\u010c",ccaron:"\u010d",Ccedil:"\xc7",ccedil:"\xe7",Ccirc:"\u0108",ccirc:"\u0109",Cconint:"\u2230",ccups:"\u2a4c",ccupssm:"\u2a50",Cdot:"\u010a",cdot:"\u010b",cedil:"\xb8",Cedilla:"\xb8",cemptyv:"\u29b2",cent:"\xa2",centerdot:"\xb7",CenterDot:"\xb7",cfr:"\ud835\udd20",Cfr:"\u212d",CHcy:"\u0427",chcy:"\u0447",check:"\u2713",checkmark:"\u2713",Chi:"\u03a7",chi:"\u03c7",circ:"\u02c6",circeq:"\u2257",circlearrowleft:"\u21ba",circlearrowright:"\u21bb",circledast:"\u229b",circledcirc:"\u229a",circleddash:"\u229d",CircleDot:"\u2299",circledR:"\xae",circledS:"\u24c8",CircleMinus:"\u2296",CirclePlus:"\u2295",CircleTimes:"\u2297",cir:"\u25cb",cirE:"\u29c3",cire:"\u2257",cirfnint:"\u2a10",cirmid:"\u2aef",cirscir:"\u29c2",ClockwiseContourIntegral:"\u2232",CloseCurlyDoubleQuote:"\u201d",CloseCurlyQuote:"\u2019",clubs:"\u2663",clubsuit:"\u2663",colon:":",Colon:"\u2237",Colone:"\u2a74",colone:"\u2254",coloneq:"\u2254",comma:",",commat:"@",comp:"\u2201",compfn:"\u2218",complement:"\u2201",complexes:"\u2102",cong:"\u2245",congdot:"\u2a6d",Congruent:"\u2261",conint:"\u222e",Conint:"\u222f",ContourIntegral:"\u222e",copf:"\ud835\udd54",Copf:"\u2102",coprod:"\u2210",Coproduct:"\u2210",copy:"\xa9",COPY:"\xa9",copysr:"\u2117",CounterClockwiseContourIntegral:"\u2233",crarr:"\u21b5",cross:"\u2717",Cross:"\u2a2f",Cscr:"\ud835\udc9e",cscr:"\ud835\udcb8",csub:"\u2acf",csube:"\u2ad1",csup:"\u2ad0",csupe:"\u2ad2",ctdot:"\u22ef",cudarrl:"\u2938",cudarrr:"\u2935",cuepr:"\u22de",cuesc:"\u22df",cularr:"\u21b6",cularrp:"\u293d",cupbrcap:"\u2a48",cupcap:"\u2a46",CupCap:"\u224d",cup:"\u222a",Cup:"\u22d3",cupcup:"\u2a4a",cupdot:"\u228d",cupor:"\u2a45",cups:"\u222a\ufe00",curarr:"\u21b7",curarrm:"\u293c",curlyeqprec:"\u22de",curlyeqsucc:"\u22df",curlyvee:"\u22ce",curlywedge:"\u22cf",curren:"\xa4",curvearrowleft:"\u21b6",curvearrowright:"\u21b7",cuvee:"\u22ce",cuwed:"\u22cf",cwconint:"\u2232",cwint:"\u2231",cylcty:"\u232d",dagger:"\u2020",Dagger:"\u2021",daleth:"\u2138",darr:"\u2193",Darr:"\u21a1",dArr:"\u21d3",dash:"\u2010",Dashv:"\u2ae4",dashv:"\u22a3",dbkarow:"\u290f",dblac:"\u02dd",Dcaron:"\u010e",dcaron:"\u010f",Dcy:"\u0414",dcy:"\u0434",ddagger:"\u2021",ddarr:"\u21ca",DD:"\u2145",dd:"\u2146",DDotrahd:"\u2911",ddotseq:"\u2a77",deg:"\xb0",Del:"\u2207",Delta:"\u0394",delta:"\u03b4",demptyv:"\u29b1",dfisht:"\u297f",Dfr:"\ud835\udd07",dfr:"\ud835\udd21",dHar:"\u2965",dharl:"\u21c3",dharr:"\u21c2",DiacriticalAcute:"\xb4",DiacriticalDot:"\u02d9",DiacriticalDoubleAcute:"\u02dd",DiacriticalGrave:"`",DiacriticalTilde:"\u02dc",diam:"\u22c4",diamond:"\u22c4",Diamond:"\u22c4",diamondsuit:"\u2666",diams:"\u2666",die:"\xa8",DifferentialD:"\u2146",digamma:"\u03dd",disin:"\u22f2",div:"\xf7",divide:"\xf7",divideontimes:"\u22c7",divonx:"\u22c7",DJcy:"\u0402",djcy:"\u0452",dlcorn:"\u231e",dlcrop:"\u230d",dollar:"$",Dopf:"\ud835\udd3b",dopf:"\ud835\udd55",Dot:"\xa8",dot:"\u02d9",DotDot:"\u20dc",doteq:"\u2250",doteqdot:"\u2251",DotEqual:"\u2250",dotminus:"\u2238",dotplus:"\u2214",dotsquare:"\u22a1",doublebarwedge:"\u2306",DoubleContourIntegral:"\u222f",DoubleDot:"\xa8",DoubleDownArrow:"\u21d3",DoubleLeftArrow:"\u21d0",DoubleLeftRightArrow:"\u21d4",DoubleLeftTee:"\u2ae4",DoubleLongLeftArrow:"\u27f8",DoubleLongLeftRightArrow:"\u27fa",DoubleLongRightArrow:"\u27f9",DoubleRightArrow:"\u21d2",DoubleRightTee:"\u22a8",DoubleUpArrow:"\u21d1",DoubleUpDownArrow:"\u21d5",DoubleVerticalBar:"\u2225",DownArrowBar:"\u2913",downarrow:"\u2193",DownArrow:"\u2193",Downarrow:"\u21d3",DownArrowUpArrow:"\u21f5",DownBreve:"\u0311",downdownarrows:"\u21ca",downharpoonleft:"\u21c3",downharpoonright:"\u21c2",DownLeftRightVector:"\u2950",DownLeftTeeVector:"\u295e",DownLeftVectorBar:"\u2956",DownLeftVector:"\u21bd",DownRightTeeVector:"\u295f",DownRightVectorBar:"\u2957",DownRightVector:"\u21c1",DownTeeArrow:"\u21a7",DownTee:"\u22a4",drbkarow:"\u2910",drcorn:"\u231f",drcrop:"\u230c",Dscr:"\ud835\udc9f",dscr:"\ud835\udcb9",DScy:"\u0405",dscy:"\u0455",dsol:"\u29f6",Dstrok:"\u0110",dstrok:"\u0111",dtdot:"\u22f1",dtri:"\u25bf",dtrif:"\u25be",duarr:"\u21f5",duhar:"\u296f",dwangle:"\u29a6",DZcy:"\u040f",dzcy:"\u045f",dzigrarr:"\u27ff",Eacute:"\xc9",eacute:"\xe9",easter:"\u2a6e",Ecaron:"\u011a",ecaron:"\u011b",Ecirc:"\xca",ecirc:"\xea",ecir:"\u2256",ecolon:"\u2255",Ecy:"\u042d",ecy:"\u044d",eDDot:"\u2a77",Edot:"\u0116",edot:"\u0117",eDot:"\u2251",ee:"\u2147",efDot:"\u2252",Efr:"\ud835\udd08",efr:"\ud835\udd22",eg:"\u2a9a",Egrave:"\xc8",egrave:"\xe8",egs:"\u2a96",egsdot:"\u2a98",el:"\u2a99",Element:"\u2208",elinters:"\u23e7",ell:"\u2113",els:"\u2a95",elsdot:"\u2a97",Emacr:"\u0112",emacr:"\u0113",empty:"\u2205",emptyset:"\u2205",EmptySmallSquare:"\u25fb",emptyv:"\u2205",EmptyVerySmallSquare:"\u25ab",emsp13:"\u2004",emsp14:"\u2005",emsp:"\u2003",ENG:"\u014a",eng:"\u014b",ensp:"\u2002",Eogon:"\u0118",eogon:"\u0119",Eopf:"\ud835\udd3c",eopf:"\ud835\udd56",epar:"\u22d5",eparsl:"\u29e3",eplus:"\u2a71",epsi:"\u03b5",Epsilon:"\u0395",epsilon:"\u03b5",epsiv:"\u03f5",eqcirc:"\u2256",eqcolon:"\u2255",eqsim:"\u2242",eqslantgtr:"\u2a96",eqslantless:"\u2a95",Equal:"\u2a75",equals:"=",EqualTilde:"\u2242",equest:"\u225f",Equilibrium:"\u21cc",equiv:"\u2261",equivDD:"\u2a78",eqvparsl:"\u29e5",erarr:"\u2971",erDot:"\u2253",escr:"\u212f",Escr:"\u2130",esdot:"\u2250",Esim:"\u2a73",esim:"\u2242",Eta:"\u0397",eta:"\u03b7",ETH:"\xd0",eth:"\xf0",Euml:"\xcb",euml:"\xeb",euro:"\u20ac",excl:"!",exist:"\u2203",Exists:"\u2203",expectation:"\u2130",exponentiale:"\u2147",ExponentialE:"\u2147",fallingdotseq:"\u2252",Fcy:"\u0424",fcy:"\u0444",female:"\u2640",ffilig:"\ufb03",fflig:"\ufb00",ffllig:"\ufb04",Ffr:"\ud835\udd09",ffr:"\ud835\udd23",filig:"\ufb01",FilledSmallSquare:"\u25fc",FilledVerySmallSquare:"\u25aa",fjlig:"fj",flat:"\u266d",fllig:"\ufb02",fltns:"\u25b1",fnof:"\u0192",Fopf:"\ud835\udd3d",fopf:"\ud835\udd57",forall:"\u2200",ForAll:"\u2200",fork:"\u22d4",forkv:"\u2ad9",Fouriertrf:"\u2131",fpartint:"\u2a0d",frac12:"\xbd",frac13:"\u2153",frac14:"\xbc",frac15:"\u2155",frac16:"\u2159",frac18:"\u215b",frac23:"\u2154",frac25:"\u2156",frac34:"\xbe",frac35:"\u2157",frac38:"\u215c",frac45:"\u2158",frac56:"\u215a",frac58:"\u215d",frac78:"\u215e",frasl:"\u2044",frown:"\u2322",fscr:"\ud835\udcbb",Fscr:"\u2131",gacute:"\u01f5",Gamma:"\u0393",gamma:"\u03b3",Gammad:"\u03dc",gammad:"\u03dd",gap:"\u2a86",Gbreve:"\u011e",gbreve:"\u011f",Gcedil:"\u0122",Gcirc:"\u011c",gcirc:"\u011d",Gcy:"\u0413",gcy:"\u0433",Gdot:"\u0120",gdot:"\u0121",ge:"\u2265",gE:"\u2267",gEl:"\u2a8c",gel:"\u22db",geq:"\u2265",geqq:"\u2267",geqslant:"\u2a7e",gescc:"\u2aa9",ges:"\u2a7e",gesdot:"\u2a80",gesdoto:"\u2a82",gesdotol:"\u2a84",gesl:"\u22db\ufe00",gesles:"\u2a94",Gfr:"\ud835\udd0a",gfr:"\ud835\udd24",gg:"\u226b",Gg:"\u22d9",ggg:"\u22d9",gimel:"\u2137",GJcy:"\u0403",gjcy:"\u0453",gla:"\u2aa5",gl:"\u2277",glE:"\u2a92",glj:"\u2aa4",gnap:"\u2a8a",gnapprox:"\u2a8a",gne:"\u2a88",gnE:"\u2269",gneq:"\u2a88",gneqq:"\u2269",gnsim:"\u22e7",Gopf:"\ud835\udd3e",gopf:"\ud835\udd58",grave:"`",GreaterEqual:"\u2265",GreaterEqualLess:"\u22db",GreaterFullEqual:"\u2267",GreaterGreater:"\u2aa2",GreaterLess:"\u2277",GreaterSlantEqual:"\u2a7e",GreaterTilde:"\u2273",Gscr:"\ud835\udca2",gscr:"\u210a",gsim:"\u2273",gsime:"\u2a8e",gsiml:"\u2a90",gtcc:"\u2aa7",gtcir:"\u2a7a",gt:">",GT:">",Gt:"\u226b",gtdot:"\u22d7",gtlPar:"\u2995",gtquest:"\u2a7c",gtrapprox:"\u2a86",gtrarr:"\u2978",gtrdot:"\u22d7",gtreqless:"\u22db",gtreqqless:"\u2a8c",gtrless:"\u2277",gtrsim:"\u2273",gvertneqq:"\u2269\ufe00",gvnE:"\u2269\ufe00",Hacek:"\u02c7",hairsp:"\u200a",half:"\xbd",hamilt:"\u210b",HARDcy:"\u042a",hardcy:"\u044a",harrcir:"\u2948",harr:"\u2194",hArr:"\u21d4",harrw:"\u21ad",Hat:"^",hbar:"\u210f",Hcirc:"\u0124",hcirc:"\u0125",hearts:"\u2665",heartsuit:"\u2665",hellip:"\u2026",hercon:"\u22b9",hfr:"\ud835\udd25",Hfr:"\u210c",HilbertSpace:"\u210b",hksearow:"\u2925",hkswarow:"\u2926",hoarr:"\u21ff",homtht:"\u223b",hookleftarrow:"\u21a9",hookrightarrow:"\u21aa",hopf:"\ud835\udd59",Hopf:"\u210d",horbar:"\u2015",HorizontalLine:"\u2500",hscr:"\ud835\udcbd",Hscr:"\u210b",hslash:"\u210f",Hstrok:"\u0126",hstrok:"\u0127",HumpDownHump:"\u224e",HumpEqual:"\u224f",hybull:"\u2043",hyphen:"\u2010",Iacute:"\xcd",iacute:"\xed",ic:"\u2063",Icirc:"\xce",icirc:"\xee",Icy:"\u0418",icy:"\u0438",Idot:"\u0130",IEcy:"\u0415",iecy:"\u0435",iexcl:"\xa1",iff:"\u21d4",ifr:"\ud835\udd26",Ifr:"\u2111",Igrave:"\xcc",igrave:"\xec",ii:"\u2148",iiiint:"\u2a0c",iiint:"\u222d",iinfin:"\u29dc",iiota:"\u2129",IJlig:"\u0132",ijlig:"\u0133",Imacr:"\u012a",imacr:"\u012b",image:"\u2111",ImaginaryI:"\u2148",imagline:"\u2110",imagpart:"\u2111",imath:"\u0131",Im:"\u2111",imof:"\u22b7",imped:"\u01b5",Implies:"\u21d2",incare:"\u2105",in:"\u2208",infin:"\u221e",infintie:"\u29dd",inodot:"\u0131",intcal:"\u22ba",int:"\u222b",Int:"\u222c",integers:"\u2124",Integral:"\u222b",intercal:"\u22ba",Intersection:"\u22c2",intlarhk:"\u2a17",intprod:"\u2a3c",InvisibleComma:"\u2063",InvisibleTimes:"\u2062",IOcy:"\u0401",iocy:"\u0451",Iogon:"\u012e",iogon:"\u012f",Iopf:"\ud835\udd40",iopf:"\ud835\udd5a",Iota:"\u0399",iota:"\u03b9",iprod:"\u2a3c",iquest:"\xbf",iscr:"\ud835\udcbe",Iscr:"\u2110",isin:"\u2208",isindot:"\u22f5",isinE:"\u22f9",isins:"\u22f4",isinsv:"\u22f3",isinv:"\u2208",it:"\u2062",Itilde:"\u0128",itilde:"\u0129",Iukcy:"\u0406",iukcy:"\u0456",Iuml:"\xcf",iuml:"\xef",Jcirc:"\u0134",jcirc:"\u0135",Jcy:"\u0419",jcy:"\u0439",Jfr:"\ud835\udd0d",jfr:"\ud835\udd27",jmath:"\u0237",Jopf:"\ud835\udd41",jopf:"\ud835\udd5b",Jscr:"\ud835\udca5",jscr:"\ud835\udcbf",Jsercy:"\u0408",jsercy:"\u0458",Jukcy:"\u0404",jukcy:"\u0454",Kappa:"\u039a",kappa:"\u03ba",kappav:"\u03f0",Kcedil:"\u0136",kcedil:"\u0137",Kcy:"\u041a",kcy:"\u043a",Kfr:"\ud835\udd0e",kfr:"\ud835\udd28",kgreen:"\u0138",KHcy:"\u0425",khcy:"\u0445",KJcy:"\u040c",kjcy:"\u045c",Kopf:"\ud835\udd42",kopf:"\ud835\udd5c",Kscr:"\ud835\udca6",kscr:"\ud835\udcc0",lAarr:"\u21da",Lacute:"\u0139",lacute:"\u013a",laemptyv:"\u29b4",lagran:"\u2112",Lambda:"\u039b",lambda:"\u03bb",lang:"\u27e8",Lang:"\u27ea",langd:"\u2991",langle:"\u27e8",lap:"\u2a85",Laplacetrf:"\u2112",laquo:"\xab",larrb:"\u21e4",larrbfs:"\u291f",larr:"\u2190",Larr:"\u219e",lArr:"\u21d0",larrfs:"\u291d",larrhk:"\u21a9",larrlp:"\u21ab",larrpl:"\u2939",larrsim:"\u2973",larrtl:"\u21a2",latail:"\u2919",lAtail:"\u291b",lat:"\u2aab",late:"\u2aad",lates:"\u2aad\ufe00",lbarr:"\u290c",lBarr:"\u290e",lbbrk:"\u2772",lbrace:"{",lbrack:"[",lbrke:"\u298b",lbrksld:"\u298f",lbrkslu:"\u298d",Lcaron:"\u013d",lcaron:"\u013e",Lcedil:"\u013b",lcedil:"\u013c",lceil:"\u2308",lcub:"{",Lcy:"\u041b",lcy:"\u043b",ldca:"\u2936",ldquo:"\u201c",ldquor:"\u201e",ldrdhar:"\u2967",ldrushar:"\u294b",ldsh:"\u21b2",le:"\u2264",lE:"\u2266",LeftAngleBracket:"\u27e8",LeftArrowBar:"\u21e4",leftarrow:"\u2190",LeftArrow:"\u2190",Leftarrow:"\u21d0",LeftArrowRightArrow:"\u21c6",leftarrowtail:"\u21a2",LeftCeiling:"\u2308",LeftDoubleBracket:"\u27e6",LeftDownTeeVector:"\u2961",LeftDownVectorBar:"\u2959",LeftDownVector:"\u21c3",LeftFloor:"\u230a",leftharpoondown:"\u21bd",leftharpoonup:"\u21bc",leftleftarrows:"\u21c7",leftrightarrow:"\u2194",LeftRightArrow:"\u2194",Leftrightarrow:"\u21d4",leftrightarrows:"\u21c6",leftrightharpoons:"\u21cb",leftrightsquigarrow:"\u21ad",LeftRightVector:"\u294e",LeftTeeArrow:"\u21a4",LeftTee:"\u22a3",LeftTeeVector:"\u295a",leftthreetimes:"\u22cb",LeftTriangleBar:"\u29cf",LeftTriangle:"\u22b2",LeftTriangleEqual:"\u22b4",LeftUpDownVector:"\u2951",LeftUpTeeVector:"\u2960",LeftUpVectorBar:"\u2958",LeftUpVector:"\u21bf",LeftVectorBar:"\u2952",LeftVector:"\u21bc",lEg:"\u2a8b",leg:"\u22da",leq:"\u2264",leqq:"\u2266",leqslant:"\u2a7d",lescc:"\u2aa8",les:"\u2a7d",lesdot:"\u2a7f",lesdoto:"\u2a81",lesdotor:"\u2a83",lesg:"\u22da\ufe00",lesges:"\u2a93",lessapprox:"\u2a85",lessdot:"\u22d6",lesseqgtr:"\u22da",lesseqqgtr:"\u2a8b",LessEqualGreater:"\u22da",LessFullEqual:"\u2266",LessGreater:"\u2276",lessgtr:"\u2276",LessLess:"\u2aa1",lesssim:"\u2272",LessSlantEqual:"\u2a7d",LessTilde:"\u2272",lfisht:"\u297c",lfloor:"\u230a",Lfr:"\ud835\udd0f",lfr:"\ud835\udd29",lg:"\u2276",lgE:"\u2a91",lHar:"\u2962",lhard:"\u21bd",lharu:"\u21bc",lharul:"\u296a",lhblk:"\u2584",LJcy:"\u0409",ljcy:"\u0459",llarr:"\u21c7",ll:"\u226a",Ll:"\u22d8",llcorner:"\u231e",Lleftarrow:"\u21da",llhard:"\u296b",lltri:"\u25fa",Lmidot:"\u013f",lmidot:"\u0140",lmoustache:"\u23b0",lmoust:"\u23b0",lnap:"\u2a89",lnapprox:"\u2a89",lne:"\u2a87",lnE:"\u2268",lneq:"\u2a87",lneqq:"\u2268",lnsim:"\u22e6",loang:"\u27ec",loarr:"\u21fd",lobrk:"\u27e6",longleftarrow:"\u27f5",LongLeftArrow:"\u27f5",Longleftarrow:"\u27f8",longleftrightarrow:"\u27f7",LongLeftRightArrow:"\u27f7",Longleftrightarrow:"\u27fa",longmapsto:"\u27fc",longrightarrow:"\u27f6",LongRightArrow:"\u27f6",Longrightarrow:"\u27f9",looparrowleft:"\u21ab",looparrowright:"\u21ac",lopar:"\u2985",Lopf:"\ud835\udd43",lopf:"\ud835\udd5d",loplus:"\u2a2d",lotimes:"\u2a34",lowast:"\u2217",lowbar:"_",LowerLeftArrow:"\u2199",LowerRightArrow:"\u2198",loz:"\u25ca",lozenge:"\u25ca",lozf:"\u29eb",lpar:"(",lparlt:"\u2993",lrarr:"\u21c6",lrcorner:"\u231f",lrhar:"\u21cb",lrhard:"\u296d",lrm:"\u200e",lrtri:"\u22bf",lsaquo:"\u2039",lscr:"\ud835\udcc1",Lscr:"\u2112",lsh:"\u21b0",Lsh:"\u21b0",lsim:"\u2272",lsime:"\u2a8d",lsimg:"\u2a8f",lsqb:"[",lsquo:"\u2018",lsquor:"\u201a",Lstrok:"\u0141",lstrok:"\u0142",ltcc:"\u2aa6",ltcir:"\u2a79",lt:"<",LT:"<",Lt:"\u226a",ltdot:"\u22d6",lthree:"\u22cb",ltimes:"\u22c9",ltlarr:"\u2976",ltquest:"\u2a7b",ltri:"\u25c3",ltrie:"\u22b4",ltrif:"\u25c2",ltrPar:"\u2996",lurdshar:"\u294a",luruhar:"\u2966",lvertneqq:"\u2268\ufe00",lvnE:"\u2268\ufe00",macr:"\xaf",male:"\u2642",malt:"\u2720",maltese:"\u2720",Map:"\u2905",map:"\u21a6",mapsto:"\u21a6",mapstodown:"\u21a7",mapstoleft:"\u21a4",mapstoup:"\u21a5",marker:"\u25ae",mcomma:"\u2a29",Mcy:"\u041c",mcy:"\u043c",mdash:"\u2014",mDDot:"\u223a",measuredangle:"\u2221",MediumSpace:"\u205f",Mellintrf:"\u2133",Mfr:"\ud835\udd10",mfr:"\ud835\udd2a",mho:"\u2127",micro:"\xb5",midast:"*",midcir:"\u2af0",mid:"\u2223",middot:"\xb7",minusb:"\u229f",minus:"\u2212",minusd:"\u2238",minusdu:"\u2a2a",MinusPlus:"\u2213",mlcp:"\u2adb",mldr:"\u2026",mnplus:"\u2213",models:"\u22a7",Mopf:"\ud835\udd44",mopf:"\ud835\udd5e",mp:"\u2213",mscr:"\ud835\udcc2",Mscr:"\u2133",mstpos:"\u223e",Mu:"\u039c",mu:"\u03bc",multimap:"\u22b8",mumap:"\u22b8",nabla:"\u2207",Nacute:"\u0143",nacute:"\u0144",nang:"\u2220\u20d2",nap:"\u2249",napE:"\u2a70\u0338",napid:"\u224b\u0338",napos:"\u0149",napprox:"\u2249",natural:"\u266e",naturals:"\u2115",natur:"\u266e",nbsp:"\xa0",nbump:"\u224e\u0338",nbumpe:"\u224f\u0338",ncap:"\u2a43",Ncaron:"\u0147",ncaron:"\u0148",Ncedil:"\u0145",ncedil:"\u0146",ncong:"\u2247",ncongdot:"\u2a6d\u0338",ncup:"\u2a42",Ncy:"\u041d",ncy:"\u043d",ndash:"\u2013",nearhk:"\u2924",nearr:"\u2197",neArr:"\u21d7",nearrow:"\u2197",ne:"\u2260",nedot:"\u2250\u0338",NegativeMediumSpace:"\u200b",NegativeThickSpace:"\u200b",NegativeThinSpace:"\u200b",NegativeVeryThinSpace:"\u200b",nequiv:"\u2262",nesear:"\u2928",nesim:"\u2242\u0338",NestedGreaterGreater:"\u226b",NestedLessLess:"\u226a",NewLine:"\n",nexist:"\u2204",nexists:"\u2204",Nfr:"\ud835\udd11",nfr:"\ud835\udd2b",ngE:"\u2267\u0338",nge:"\u2271",ngeq:"\u2271",ngeqq:"\u2267\u0338",ngeqslant:"\u2a7e\u0338",nges:"\u2a7e\u0338",nGg:"\u22d9\u0338",ngsim:"\u2275",nGt:"\u226b\u20d2",ngt:"\u226f",ngtr:"\u226f",nGtv:"\u226b\u0338",nharr:"\u21ae",nhArr:"\u21ce",nhpar:"\u2af2",ni:"\u220b",nis:"\u22fc",nisd:"\u22fa",niv:"\u220b",NJcy:"\u040a",njcy:"\u045a",nlarr:"\u219a",nlArr:"\u21cd",nldr:"\u2025",nlE:"\u2266\u0338",nle:"\u2270",nleftarrow:"\u219a",nLeftarrow:"\u21cd",nleftrightarrow:"\u21ae",nLeftrightarrow:"\u21ce",nleq:"\u2270",nleqq:"\u2266\u0338",nleqslant:"\u2a7d\u0338",nles:"\u2a7d\u0338",nless:"\u226e",nLl:"\u22d8\u0338",nlsim:"\u2274",nLt:"\u226a\u20d2",nlt:"\u226e",nltri:"\u22ea",nltrie:"\u22ec",nLtv:"\u226a\u0338",nmid:"\u2224",NoBreak:"\u2060",NonBreakingSpace:"\xa0",nopf:"\ud835\udd5f",Nopf:"\u2115",Not:"\u2aec",not:"\xac",NotCongruent:"\u2262",NotCupCap:"\u226d",NotDoubleVerticalBar:"\u2226",NotElement:"\u2209",NotEqual:"\u2260",NotEqualTilde:"\u2242\u0338",NotExists:"\u2204",NotGreater:"\u226f",NotGreaterEqual:"\u2271",NotGreaterFullEqual:"\u2267\u0338",NotGreaterGreater:"\u226b\u0338",NotGreaterLess:"\u2279",NotGreaterSlantEqual:"\u2a7e\u0338",NotGreaterTilde:"\u2275",NotHumpDownHump:"\u224e\u0338",NotHumpEqual:"\u224f\u0338",notin:"\u2209",notindot:"\u22f5\u0338",notinE:"\u22f9\u0338",notinva:"\u2209",notinvb:"\u22f7",notinvc:"\u22f6",NotLeftTriangleBar:"\u29cf\u0338",NotLeftTriangle:"\u22ea",NotLeftTriangleEqual:"\u22ec",NotLess:"\u226e",NotLessEqual:"\u2270",NotLessGreater:"\u2278",NotLessLess:"\u226a\u0338",NotLessSlantEqual:"\u2a7d\u0338",NotLessTilde:"\u2274",NotNestedGreaterGreater:"\u2aa2\u0338",NotNestedLessLess:"\u2aa1\u0338",notni:"\u220c",notniva:"\u220c",notnivb:"\u22fe",notnivc:"\u22fd",NotPrecedes:"\u2280",NotPrecedesEqual:"\u2aaf\u0338",NotPrecedesSlantEqual:"\u22e0",NotReverseElement:"\u220c",NotRightTriangleBar:"\u29d0\u0338",NotRightTriangle:"\u22eb",NotRightTriangleEqual:"\u22ed",NotSquareSubset:"\u228f\u0338",NotSquareSubsetEqual:"\u22e2",NotSquareSuperset:"\u2290\u0338",NotSquareSupersetEqual:"\u22e3",NotSubset:"\u2282\u20d2",NotSubsetEqual:"\u2288",NotSucceeds:"\u2281",NotSucceedsEqual:"\u2ab0\u0338",NotSucceedsSlantEqual:"\u22e1",NotSucceedsTilde:"\u227f\u0338",NotSuperset:"\u2283\u20d2",NotSupersetEqual:"\u2289",NotTilde:"\u2241",NotTildeEqual:"\u2244",NotTildeFullEqual:"\u2247",NotTildeTilde:"\u2249",NotVerticalBar:"\u2224",nparallel:"\u2226",npar:"\u2226",nparsl:"\u2afd\u20e5",npart:"\u2202\u0338",npolint:"\u2a14",npr:"\u2280",nprcue:"\u22e0",nprec:"\u2280",npreceq:"\u2aaf\u0338",npre:"\u2aaf\u0338",nrarrc:"\u2933\u0338",nrarr:"\u219b",nrArr:"\u21cf",nrarrw:"\u219d\u0338",nrightarrow:"\u219b",nRightarrow:"\u21cf",nrtri:"\u22eb",nrtrie:"\u22ed",nsc:"\u2281",nsccue:"\u22e1",nsce:"\u2ab0\u0338",Nscr:"\ud835\udca9",nscr:"\ud835\udcc3",nshortmid:"\u2224",nshortparallel:"\u2226",nsim:"\u2241",nsime:"\u2244",nsimeq:"\u2244",nsmid:"\u2224",nspar:"\u2226",nsqsube:"\u22e2",nsqsupe:"\u22e3",nsub:"\u2284",nsubE:"\u2ac5\u0338",nsube:"\u2288",nsubset:"\u2282\u20d2",nsubseteq:"\u2288",nsubseteqq:"\u2ac5\u0338",nsucc:"\u2281",nsucceq:"\u2ab0\u0338",nsup:"\u2285",nsupE:"\u2ac6\u0338",nsupe:"\u2289",nsupset:"\u2283\u20d2",nsupseteq:"\u2289",nsupseteqq:"\u2ac6\u0338",ntgl:"\u2279",Ntilde:"\xd1",ntilde:"\xf1",ntlg:"\u2278",ntriangleleft:"\u22ea",ntrianglelefteq:"\u22ec",ntriangleright:"\u22eb",ntrianglerighteq:"\u22ed",Nu:"\u039d",nu:"\u03bd",num:"#",numero:"\u2116",numsp:"\u2007",nvap:"\u224d\u20d2",nvdash:"\u22ac",nvDash:"\u22ad",nVdash:"\u22ae",nVDash:"\u22af",nvge:"\u2265\u20d2",nvgt:">\u20d2",nvHarr:"\u2904",nvinfin:"\u29de",nvlArr:"\u2902",nvle:"\u2264\u20d2",nvlt:"<\u20d2",nvltrie:"\u22b4\u20d2",nvrArr:"\u2903",nvrtrie:"\u22b5\u20d2",nvsim:"\u223c\u20d2",nwarhk:"\u2923",nwarr:"\u2196",nwArr:"\u21d6",nwarrow:"\u2196",nwnear:"\u2927",Oacute:"\xd3",oacute:"\xf3",oast:"\u229b",Ocirc:"\xd4",ocirc:"\xf4",ocir:"\u229a",Ocy:"\u041e",ocy:"\u043e",odash:"\u229d",Odblac:"\u0150",odblac:"\u0151",odiv:"\u2a38",odot:"\u2299",odsold:"\u29bc",OElig:"\u0152",oelig:"\u0153",ofcir:"\u29bf",Ofr:"\ud835\udd12",ofr:"\ud835\udd2c",ogon:"\u02db",Ograve:"\xd2",ograve:"\xf2",ogt:"\u29c1",ohbar:"\u29b5",ohm:"\u03a9",oint:"\u222e",olarr:"\u21ba",olcir:"\u29be",olcross:"\u29bb",oline:"\u203e",olt:"\u29c0",Omacr:"\u014c",omacr:"\u014d",Omega:"\u03a9",omega:"\u03c9",Omicron:"\u039f",omicron:"\u03bf",omid:"\u29b6",ominus:"\u2296",Oopf:"\ud835\udd46",oopf:"\ud835\udd60",opar:"\u29b7",OpenCurlyDoubleQuote:"\u201c",OpenCurlyQuote:"\u2018",operp:"\u29b9",oplus:"\u2295",orarr:"\u21bb",Or:"\u2a54",or:"\u2228",ord:"\u2a5d",order:"\u2134",orderof:"\u2134",ordf:"\xaa",ordm:"\xba",origof:"\u22b6",oror:"\u2a56",orslope:"\u2a57",orv:"\u2a5b",oS:"\u24c8",Oscr:"\ud835\udcaa",oscr:"\u2134",Oslash:"\xd8",oslash:"\xf8",osol:"\u2298",Otilde:"\xd5",otilde:"\xf5",otimesas:"\u2a36",Otimes:"\u2a37",otimes:"\u2297",Ouml:"\xd6",ouml:"\xf6",ovbar:"\u233d",OverBar:"\u203e",OverBrace:"\u23de",OverBracket:"\u23b4",OverParenthesis:"\u23dc",para:"\xb6",parallel:"\u2225",par:"\u2225",parsim:"\u2af3",parsl:"\u2afd",part:"\u2202",PartialD:"\u2202",Pcy:"\u041f",pcy:"\u043f",percnt:"%",period:".",permil:"\u2030",perp:"\u22a5",pertenk:"\u2031",Pfr:"\ud835\udd13",pfr:"\ud835\udd2d",Phi:"\u03a6",phi:"\u03c6",phiv:"\u03d5",phmmat:"\u2133",phone:"\u260e",Pi:"\u03a0",pi:"\u03c0",pitchfork:"\u22d4",piv:"\u03d6",planck:"\u210f",planckh:"\u210e",plankv:"\u210f",plusacir:"\u2a23",plusb:"\u229e",pluscir:"\u2a22",plus:"+",plusdo:"\u2214",plusdu:"\u2a25",pluse:"\u2a72",PlusMinus:"\xb1",plusmn:"\xb1",plussim:"\u2a26",plustwo:"\u2a27",pm:"\xb1",Poincareplane:"\u210c",pointint:"\u2a15",popf:"\ud835\udd61",Popf:"\u2119",pound:"\xa3",prap:"\u2ab7",Pr:"\u2abb",pr:"\u227a",prcue:"\u227c",precapprox:"\u2ab7",prec:"\u227a",preccurlyeq:"\u227c",Precedes:"\u227a",PrecedesEqual:"\u2aaf",PrecedesSlantEqual:"\u227c",PrecedesTilde:"\u227e",preceq:"\u2aaf",precnapprox:"\u2ab9",precneqq:"\u2ab5",precnsim:"\u22e8",pre:"\u2aaf",prE:"\u2ab3",precsim:"\u227e",prime:"\u2032",Prime:"\u2033",primes:"\u2119",prnap:"\u2ab9",prnE:"\u2ab5",prnsim:"\u22e8",prod:"\u220f",Product:"\u220f",profalar:"\u232e",profline:"\u2312",profsurf:"\u2313",prop:"\u221d",Proportional:"\u221d",Proportion:"\u2237",propto:"\u221d",prsim:"\u227e",prurel:"\u22b0",Pscr:"\ud835\udcab",pscr:"\ud835\udcc5",Psi:"\u03a8",psi:"\u03c8",puncsp:"\u2008",Qfr:"\ud835\udd14",qfr:"\ud835\udd2e",qint:"\u2a0c",qopf:"\ud835\udd62",Qopf:"\u211a",qprime:"\u2057",Qscr:"\ud835\udcac",qscr:"\ud835\udcc6",quaternions:"\u210d",quatint:"\u2a16",quest:"?",questeq:"\u225f",quot:'"',QUOT:'"',rAarr:"\u21db",race:"\u223d\u0331",Racute:"\u0154",racute:"\u0155",radic:"\u221a",raemptyv:"\u29b3",rang:"\u27e9",Rang:"\u27eb",rangd:"\u2992",range:"\u29a5",rangle:"\u27e9",raquo:"\xbb",rarrap:"\u2975",rarrb:"\u21e5",rarrbfs:"\u2920",rarrc:"\u2933",rarr:"\u2192",Rarr:"\u21a0",rArr:"\u21d2",rarrfs:"\u291e",rarrhk:"\u21aa",rarrlp:"\u21ac",rarrpl:"\u2945",rarrsim:"\u2974",Rarrtl:"\u2916",rarrtl:"\u21a3",rarrw:"\u219d",ratail:"\u291a",rAtail:"\u291c",ratio:"\u2236",rationals:"\u211a",rbarr:"\u290d",rBarr:"\u290f",RBarr:"\u2910",rbbrk:"\u2773",rbrace:"}",rbrack:"]",rbrke:"\u298c",rbrksld:"\u298e",rbrkslu:"\u2990",Rcaron:"\u0158",rcaron:"\u0159",Rcedil:"\u0156",rcedil:"\u0157",rceil:"\u2309",rcub:"}",Rcy:"\u0420",rcy:"\u0440",rdca:"\u2937",rdldhar:"\u2969",rdquo:"\u201d",rdquor:"\u201d",rdsh:"\u21b3",real:"\u211c",realine:"\u211b",realpart:"\u211c",reals:"\u211d",Re:"\u211c",rect:"\u25ad",reg:"\xae",REG:"\xae",ReverseElement:"\u220b",ReverseEquilibrium:"\u21cb",ReverseUpEquilibrium:"\u296f",rfisht:"\u297d",rfloor:"\u230b",rfr:"\ud835\udd2f",Rfr:"\u211c",rHar:"\u2964",rhard:"\u21c1",rharu:"\u21c0",rharul:"\u296c",Rho:"\u03a1",rho:"\u03c1",rhov:"\u03f1",RightAngleBracket:"\u27e9",RightArrowBar:"\u21e5",rightarrow:"\u2192",RightArrow:"\u2192",Rightarrow:"\u21d2",RightArrowLeftArrow:"\u21c4",rightarrowtail:"\u21a3",RightCeiling:"\u2309",RightDoubleBracket:"\u27e7",RightDownTeeVector:"\u295d",RightDownVectorBar:"\u2955",RightDownVector:"\u21c2",RightFloor:"\u230b",rightharpoondown:"\u21c1",rightharpoonup:"\u21c0",rightleftarrows:"\u21c4",rightleftharpoons:"\u21cc",rightrightarrows:"\u21c9",rightsquigarrow:"\u219d",RightTeeArrow:"\u21a6",RightTee:"\u22a2",RightTeeVector:"\u295b",rightthreetimes:"\u22cc",RightTriangleBar:"\u29d0",RightTriangle:"\u22b3",RightTriangleEqual:"\u22b5",RightUpDownVector:"\u294f",RightUpTeeVector:"\u295c",RightUpVectorBar:"\u2954",RightUpVector:"\u21be",RightVectorBar:"\u2953",RightVector:"\u21c0",ring:"\u02da",risingdotseq:"\u2253",rlarr:"\u21c4",rlhar:"\u21cc",rlm:"\u200f",rmoustache:"\u23b1",rmoust:"\u23b1",rnmid:"\u2aee",roang:"\u27ed",roarr:"\u21fe",robrk:"\u27e7",ropar:"\u2986",ropf:"\ud835\udd63",Ropf:"\u211d",roplus:"\u2a2e",rotimes:"\u2a35",RoundImplies:"\u2970",rpar:")",rpargt:"\u2994",rppolint:"\u2a12",rrarr:"\u21c9",Rrightarrow:"\u21db",rsaquo:"\u203a",rscr:"\ud835\udcc7",Rscr:"\u211b",rsh:"\u21b1",Rsh:"\u21b1",rsqb:"]",rsquo:"\u2019",rsquor:"\u2019",rthree:"\u22cc",rtimes:"\u22ca",rtri:"\u25b9",rtrie:"\u22b5",rtrif:"\u25b8",rtriltri:"\u29ce",RuleDelayed:"\u29f4",ruluhar:"\u2968",rx:"\u211e",Sacute:"\u015a",sacute:"\u015b",sbquo:"\u201a",scap:"\u2ab8",Scaron:"\u0160",scaron:"\u0161",Sc:"\u2abc",sc:"\u227b",sccue:"\u227d",sce:"\u2ab0",scE:"\u2ab4",Scedil:"\u015e",scedil:"\u015f",Scirc:"\u015c",scirc:"\u015d",scnap:"\u2aba",scnE:"\u2ab6",scnsim:"\u22e9",scpolint:"\u2a13",scsim:"\u227f",Scy:"\u0421",scy:"\u0441",sdotb:"\u22a1",sdot:"\u22c5",sdote:"\u2a66",searhk:"\u2925",searr:"\u2198",seArr:"\u21d8",searrow:"\u2198",sect:"\xa7",semi:";",seswar:"\u2929",setminus:"\u2216",setmn:"\u2216",sext:"\u2736",Sfr:"\ud835\udd16",sfr:"\ud835\udd30",sfrown:"\u2322",sharp:"\u266f",SHCHcy:"\u0429",shchcy:"\u0449",SHcy:"\u0428",shcy:"\u0448",ShortDownArrow:"\u2193",ShortLeftArrow:"\u2190",shortmid:"\u2223",shortparallel:"\u2225",ShortRightArrow:"\u2192",ShortUpArrow:"\u2191",shy:"\xad",Sigma:"\u03a3",sigma:"\u03c3",sigmaf:"\u03c2",sigmav:"\u03c2",sim:"\u223c",simdot:"\u2a6a",sime:"\u2243",simeq:"\u2243",simg:"\u2a9e",simgE:"\u2aa0",siml:"\u2a9d",simlE:"\u2a9f",simne:"\u2246",simplus:"\u2a24",simrarr:"\u2972",slarr:"\u2190",SmallCircle:"\u2218",smallsetminus:"\u2216",smashp:"\u2a33",smeparsl:"\u29e4",smid:"\u2223",smile:"\u2323",smt:"\u2aaa",smte:"\u2aac",smtes:"\u2aac\ufe00",SOFTcy:"\u042c",softcy:"\u044c",solbar:"\u233f",solb:"\u29c4",sol:"/",Sopf:"\ud835\udd4a",sopf:"\ud835\udd64",spades:"\u2660",spadesuit:"\u2660",spar:"\u2225",sqcap:"\u2293",sqcaps:"\u2293\ufe00",sqcup:"\u2294",sqcups:"\u2294\ufe00",Sqrt:"\u221a",sqsub:"\u228f",sqsube:"\u2291",sqsubset:"\u228f",sqsubseteq:"\u2291",sqsup:"\u2290",sqsupe:"\u2292",sqsupset:"\u2290",sqsupseteq:"\u2292",square:"\u25a1",Square:"\u25a1",SquareIntersection:"\u2293",SquareSubset:"\u228f",SquareSubsetEqual:"\u2291",SquareSuperset:"\u2290",SquareSupersetEqual:"\u2292",SquareUnion:"\u2294",squarf:"\u25aa",squ:"\u25a1",squf:"\u25aa",srarr:"\u2192",Sscr:"\ud835\udcae",sscr:"\ud835\udcc8",ssetmn:"\u2216",ssmile:"\u2323",sstarf:"\u22c6",Star:"\u22c6",star:"\u2606",starf:"\u2605",straightepsilon:"\u03f5",straightphi:"\u03d5",strns:"\xaf",sub:"\u2282",Sub:"\u22d0",subdot:"\u2abd",subE:"\u2ac5",sube:"\u2286",subedot:"\u2ac3",submult:"\u2ac1",subnE:"\u2acb",subne:"\u228a",subplus:"\u2abf",subrarr:"\u2979",subset:"\u2282",Subset:"\u22d0",subseteq:"\u2286",subseteqq:"\u2ac5",SubsetEqual:"\u2286",subsetneq:"\u228a",subsetneqq:"\u2acb",subsim:"\u2ac7",subsub:"\u2ad5",subsup:"\u2ad3",succapprox:"\u2ab8",succ:"\u227b",succcurlyeq:"\u227d",Succeeds:"\u227b",SucceedsEqual:"\u2ab0",SucceedsSlantEqual:"\u227d",SucceedsTilde:"\u227f",succeq:"\u2ab0",succnapprox:"\u2aba",succneqq:"\u2ab6",succnsim:"\u22e9",succsim:"\u227f",SuchThat:"\u220b",sum:"\u2211",Sum:"\u2211",sung:"\u266a",sup1:"\xb9",sup2:"\xb2",sup3:"\xb3",sup:"\u2283",Sup:"\u22d1",supdot:"\u2abe",supdsub:"\u2ad8",supE:"\u2ac6",supe:"\u2287",supedot:"\u2ac4",Superset:"\u2283",SupersetEqual:"\u2287",suphsol:"\u27c9",suphsub:"\u2ad7",suplarr:"\u297b",supmult:"\u2ac2",supnE:"\u2acc",supne:"\u228b",supplus:"\u2ac0",supset:"\u2283",Supset:"\u22d1",supseteq:"\u2287",supseteqq:"\u2ac6",supsetneq:"\u228b",supsetneqq:"\u2acc",supsim:"\u2ac8",supsub:"\u2ad4",supsup:"\u2ad6",swarhk:"\u2926",swarr:"\u2199",swArr:"\u21d9",swarrow:"\u2199",swnwar:"\u292a",szlig:"\xdf",Tab:"\t",target:"\u2316",Tau:"\u03a4",tau:"\u03c4",tbrk:"\u23b4",Tcaron:"\u0164",tcaron:"\u0165",Tcedil:"\u0162",tcedil:"\u0163",Tcy:"\u0422",tcy:"\u0442",tdot:"\u20db",telrec:"\u2315",Tfr:"\ud835\udd17",tfr:"\ud835\udd31",there4:"\u2234",therefore:"\u2234",Therefore:"\u2234",Theta:"\u0398",theta:"\u03b8",thetasym:"\u03d1",thetav:"\u03d1",thickapprox:"\u2248",thicksim:"\u223c",ThickSpace:"\u205f\u200a",ThinSpace:"\u2009",thinsp:"\u2009",thkap:"\u2248",thksim:"\u223c",THORN:"\xde",thorn:"\xfe",tilde:"\u02dc",Tilde:"\u223c",TildeEqual:"\u2243",TildeFullEqual:"\u2245",TildeTilde:"\u2248",timesbar:"\u2a31",timesb:"\u22a0",times:"\xd7",timesd:"\u2a30",tint:"\u222d",toea:"\u2928",topbot:"\u2336",topcir:"\u2af1",top:"\u22a4",Topf:"\ud835\udd4b",topf:"\ud835\udd65",topfork:"\u2ada",tosa:"\u2929",tprime:"\u2034",trade:"\u2122",TRADE:"\u2122",triangle:"\u25b5",triangledown:"\u25bf",triangleleft:"\u25c3",trianglelefteq:"\u22b4",triangleq:"\u225c",triangleright:"\u25b9",trianglerighteq:"\u22b5",tridot:"\u25ec",trie:"\u225c",triminus:"\u2a3a",TripleDot:"\u20db",triplus:"\u2a39",trisb:"\u29cd",tritime:"\u2a3b",trpezium:"\u23e2",Tscr:"\ud835\udcaf",tscr:"\ud835\udcc9",TScy:"\u0426",tscy:"\u0446",TSHcy:"\u040b",tshcy:"\u045b",Tstrok:"\u0166",tstrok:"\u0167",twixt:"\u226c",twoheadleftarrow:"\u219e",twoheadrightarrow:"\u21a0",Uacute:"\xda",uacute:"\xfa",uarr:"\u2191",Uarr:"\u219f",uArr:"\u21d1",Uarrocir:"\u2949",Ubrcy:"\u040e",ubrcy:"\u045e",Ubreve:"\u016c",ubreve:"\u016d",Ucirc:"\xdb",ucirc:"\xfb",Ucy:"\u0423",ucy:"\u0443",udarr:"\u21c5",Udblac:"\u0170",udblac:"\u0171",udhar:"\u296e",ufisht:"\u297e",Ufr:"\ud835\udd18",ufr:"\ud835\udd32",Ugrave:"\xd9",ugrave:"\xf9",uHar:"\u2963",uharl:"\u21bf",uharr:"\u21be",uhblk:"\u2580",ulcorn:"\u231c",ulcorner:"\u231c",ulcrop:"\u230f",ultri:"\u25f8",Umacr:"\u016a",umacr:"\u016b",uml:"\xa8",UnderBar:"_",UnderBrace:"\u23df",UnderBracket:"\u23b5",UnderParenthesis:"\u23dd",Union:"\u22c3",UnionPlus:"\u228e",Uogon:"\u0172",uogon:"\u0173",Uopf:"\ud835\udd4c",uopf:"\ud835\udd66",UpArrowBar:"\u2912",uparrow:"\u2191",UpArrow:"\u2191",Uparrow:"\u21d1",UpArrowDownArrow:"\u21c5",updownarrow:"\u2195",UpDownArrow:"\u2195",Updownarrow:"\u21d5",UpEquilibrium:"\u296e",upharpoonleft:"\u21bf",upharpoonright:"\u21be",uplus:"\u228e",UpperLeftArrow:"\u2196",UpperRightArrow:"\u2197",upsi:"\u03c5",Upsi:"\u03d2",upsih:"\u03d2",Upsilon:"\u03a5",upsilon:"\u03c5",UpTeeArrow:"\u21a5",UpTee:"\u22a5",upuparrows:"\u21c8",urcorn:"\u231d",urcorner:"\u231d",urcrop:"\u230e",Uring:"\u016e",uring:"\u016f",urtri:"\u25f9",Uscr:"\ud835\udcb0",uscr:"\ud835\udcca",utdot:"\u22f0",Utilde:"\u0168",utilde:"\u0169",utri:"\u25b5",utrif:"\u25b4",uuarr:"\u21c8",Uuml:"\xdc",uuml:"\xfc",uwangle:"\u29a7",vangrt:"\u299c",varepsilon:"\u03f5",varkappa:"\u03f0",varnothing:"\u2205",varphi:"\u03d5",varpi:"\u03d6",varpropto:"\u221d",varr:"\u2195",vArr:"\u21d5",varrho:"\u03f1",varsigma:"\u03c2",varsubsetneq:"\u228a\ufe00",varsubsetneqq:"\u2acb\ufe00",varsupsetneq:"\u228b\ufe00",varsupsetneqq:"\u2acc\ufe00",vartheta:"\u03d1",vartriangleleft:"\u22b2",vartriangleright:"\u22b3",vBar:"\u2ae8",Vbar:"\u2aeb",vBarv:"\u2ae9",Vcy:"\u0412",vcy:"\u0432",vdash:"\u22a2",vDash:"\u22a8",Vdash:"\u22a9",VDash:"\u22ab",Vdashl:"\u2ae6",veebar:"\u22bb",vee:"\u2228",Vee:"\u22c1",veeeq:"\u225a",vellip:"\u22ee",verbar:"|",Verbar:"\u2016",vert:"|",Vert:"\u2016",VerticalBar:"\u2223",VerticalLine:"|",VerticalSeparator:"\u2758",VerticalTilde:"\u2240",VeryThinSpace:"\u200a",Vfr:"\ud835\udd19",vfr:"\ud835\udd33",vltri:"\u22b2",vnsub:"\u2282\u20d2",vnsup:"\u2283\u20d2",Vopf:"\ud835\udd4d",vopf:"\ud835\udd67",vprop:"\u221d",vrtri:"\u22b3",Vscr:"\ud835\udcb1",vscr:"\ud835\udccb",vsubnE:"\u2acb\ufe00",vsubne:"\u228a\ufe00",vsupnE:"\u2acc\ufe00",vsupne:"\u228b\ufe00",Vvdash:"\u22aa",vzigzag:"\u299a",Wcirc:"\u0174",wcirc:"\u0175",wedbar:"\u2a5f",wedge:"\u2227",Wedge:"\u22c0",wedgeq:"\u2259",weierp:"\u2118",Wfr:"\ud835\udd1a",wfr:"\ud835\udd34",Wopf:"\ud835\udd4e",wopf:"\ud835\udd68",wp:"\u2118",wr:"\u2240",wreath:"\u2240",Wscr:"\ud835\udcb2",wscr:"\ud835\udccc",xcap:"\u22c2",xcirc:"\u25ef",xcup:"\u22c3",xdtri:"\u25bd",Xfr:"\ud835\udd1b",xfr:"\ud835\udd35",xharr:"\u27f7",xhArr:"\u27fa",Xi:"\u039e",xi:"\u03be",xlarr:"\u27f5",xlArr:"\u27f8",xmap:"\u27fc",xnis:"\u22fb",xodot:"\u2a00",Xopf:"\ud835\udd4f",xopf:"\ud835\udd69",xoplus:"\u2a01",xotime:"\u2a02",xrarr:"\u27f6",xrArr:"\u27f9",Xscr:"\ud835\udcb3",xscr:"\ud835\udccd",xsqcup:"\u2a06",xuplus:"\u2a04",xutri:"\u25b3",xvee:"\u22c1",xwedge:"\u22c0",Yacute:"\xdd",yacute:"\xfd",YAcy:"\u042f",yacy:"\u044f",Ycirc:"\u0176",ycirc:"\u0177",Ycy:"\u042b",ycy:"\u044b",yen:"\xa5",Yfr:"\ud835\udd1c",yfr:"\ud835\udd36",YIcy:"\u0407",yicy:"\u0457",Yopf:"\ud835\udd50",yopf:"\ud835\udd6a",Yscr:"\ud835\udcb4",yscr:"\ud835\udcce",YUcy:"\u042e",yucy:"\u044e",yuml:"\xff",Yuml:"\u0178",Zacute:"\u0179",zacute:"\u017a",Zcaron:"\u017d",zcaron:"\u017e",Zcy:"\u0417",zcy:"\u0437",Zdot:"\u017b",zdot:"\u017c",zeetrf:"\u2128",ZeroWidthSpace:"\u200b",Zeta:"\u0396",zeta:"\u03b6",zfr:"\ud835\udd37",Zfr:"\u2128",ZHcy:"\u0416",zhcy:"\u0436",zigrarr:"\u21dd",zopf:"\ud835\udd6b",Zopf:"\u2124",Zscr:"\ud835\udcb5",zscr:"\ud835\udccf",zwj:"\u200d",zwnj:"\u200c"}},{}],53:[function(e,r,t){"use 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+</script>
+    <script>
+        var target = document.getElementById('overview-content');
+        var md = window.markdownit({
+          html: true,
+        });
+        target.innerHTML = md.render(atob('## Test Summary

<div class="progress">
  <div class="progress-bar progress-bar-success" style="width: 91.0958904109589%" aria-valuenow="133" aria-valuemin="0" aria-valuemax="146" data-toggle="tooltip" title="133 Passed">
  </div>
  <div class="progress-bar progress-bar-warning" style="width: 0.0%" aria-valuenow="0" aria-valuemin="0" aria-valuemax="146" data-toggle="tooltip" title="0 Skipped">
  </div>
  <div class="progress-bar progress-bar-danger" style="width: 8.904109589041095%" aria-valuenow="13" aria-valuemin="0" aria-valuemax="146" title="13 Failed or Errored">
  </div>
</div>

| Test State | Count |
| ---------- | ----- |
| Total      | 146 |
| Passed     | 133 |
| Error      | 7 |
| Failure    | 6 |
| Skipped    | 0 |


<details open><summary>Errored Tests</summary>

* <details class="rcorners light-red"><summary class="light-red">&#10060; bowtie2 (Test # 4)</summary><div class="padded">

    **Execution Problem:**
    * ```
      Input staging problem: Job in error state.. tool_id: upload1, exit_code: None, stderr: .
      ```

    </div></details>


* <details class="rcorners light-red"><summary class="light-red">&#10060; cutadapt (Test # 41)</summary><div class="padded">

    **Execution Problem:**
    * ```
      Input staging problem: Job in error state.. tool_id: upload1, exit_code: None, stderr: .
      ```

    </div></details>


* <details class="rcorners light-red"><summary class="light-red">&#10060; deseq2 (Test # 2)</summary><div class="padded">

    **Execution Problem:**
    * ```
      Input staging problem: Job in error state.. tool_id: upload1, exit_code: None, stderr: .
      ```

    </div></details>


* <details class="rcorners light-red"><summary class="light-red">&#10060; deseq2 (Test # 5)</summary><div class="padded">

    **Execution Problem:**
    * ```
      Input staging problem: Job in error state.. tool_id: upload1, exit_code: None, stderr: .
      ```

    </div></details>


* <details class="rcorners light-red"><summary class="light-red">&#10060; poretools_yield_plot (Test # 2)</summary><div class="padded">

    **Execution Problem:**
    * ```
      Input staging problem: Job in error state.. tool_id: upload1, exit_code: None, stderr: .
      ```

    </div></details>


* <details class="rcorners light-red"><summary class="light-red">&#10060; table_compute (Test # 21)</summary><div class="padded">

    **Execution Problem:**
    * ```
      Input staging problem: Job in error state.. tool_id: upload1, exit_code: None, stderr: .
      ```

    </div></details>


* <details class="rcorners light-red"><summary class="light-red">&#10060; table_compute (Test # 35)</summary><div class="padded">

    **Execution Problem:**
    * ```
      Input staging problem: Job in error state.. tool_id: upload1, exit_code: None, stderr: .
      ```

    </div></details>


</details>
<details open><summary>Failed Tests</summary>

* <details class="rcorners light-red"><summary class="light-red">&#10060; bowtie2 (Test # 8)</summary><div class="padded">

    **Problems**:
    * ```
      Job in error state.. tool_id: toolshed.g2.bx.psu.edu/repos/devteam/bowtie2/bowtie2/2.5.3+galaxy1, exit_code: None, stderr: .
      ```
    * ```
      Job in error state.. tool_id: toolshed.g2.bx.psu.edu/repos/devteam/bowtie2/bowtie2/2.5.3+galaxy1, exit_code: None, stderr: .
      ```
    **Command Line:**

    * ```console
      set -o | grep -q pipefail && set -o pipefail; bowtie2-build --threads ${GALAXY_SLOTS:-4} '/galaxy/server/database/objects/6/f/7/dataset_6f78e9ec-445a-4de9-90ea-a13dcbe1a601.dat' genome && ln -s -f '/galaxy/server/database/objects/6/f/7/dataset_6f78e9ec-445a-4de9-90ea-a13dcbe1a601.dat' genome.fa &&   ln -f -s '/galaxy/server/database/objects/5/d/a/dataset_5da73379-d0c8-4a47-85c9-aaa7fac211b5.dat' input_f.fasta &&  ln -f -s '/galaxy/server/database/objects/7/d/b/dataset_7db72cdb-0344-4e93-b88d-5eb90723be22.dat' input_r.fasta &&   THREADS=${GALAXY_SLOTS:-4} && if [ "$THREADS" -gt 1 ]; then (( THREADS-- )); fi &&   bowtie2  -p "$THREADS"  -x 'genome'  -f  -1 'input_f.fasta' -2 'input_r.fasta'                 | samtools sort -l 0 -T "${TMPDIR:-.}" -O bam | samtools view --no-PG -O bam -@ ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/e/9/d/dataset_e9d0bce6-6d4a-4fee-94e6-82baadac50b0.dat'
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | save\_mapping\_stats | ` false ` |
       | sam\_options | ` {"__current_case__": 1, "sam_options_selector": "no"} ` |
       | analysis\_type | ` {"__current_case__": 0, "analysis_type_selector": "simple", "presets": "no_presets"} ` |
       | rg | ` {"__current_case__": 3, "rg_selector": "do_not_set"} ` |
       | reference\_genome | ` {"__current_case__": 1, "own_file": {"values": [{"id": 387, "src": "hda"}]}, "source": "history"} ` |
       | library | ` {"__current_case__": 1, "aligned_file": false, "input_1": {"values": [{"id": 385, "src": "hda"}]}, "input_2": {"values": [{"id": 386, "src": "hda"}]}, "paired_options": {"__current_case__": 1, "paired_options_selector": "no"}, "type": "paired", "unaligned_file": false} ` |



    </div></details>


* <details class="rcorners light-red"><summary class="light-red">&#10060; qualimap_bamqc (Test # 1)</summary><div class="padded">

    **Problems**:
    * ```
      Job in error state.. tool_id: toolshed.g2.bx.psu.edu/repos/iuc/qualimap_bamqc/qualimap_bamqc/2.3+galaxy0, exit_code: None, stderr: .
      ```
    * ```
      Job in error state.. tool_id: toolshed.g2.bx.psu.edu/repos/iuc/qualimap_bamqc/qualimap_bamqc/2.3+galaxy0, exit_code: None, stderr: .
      ```
    **Command Line:**

    * ```console
      export JAVA_OPTS="-Djava.awt.headless=true -Xmx${GALAXY_MEMORY_MB:-1024}m" &&    ln -s '/galaxy/server/database/objects/2/d/b/dataset_2db83314-7499-4f75-8104-39f283401004.dat' 'test_mapped_reads_bam' &&  qualimap bamqc -bam 'test_mapped_reads_bam' -outdir results -outformat html --collect-overlap-pairs -nw 400 --paint-chromosome-limits -hm 3  --skip-duplicated --skip-dup-mode 0 -nt ${GALAXY_SLOTS:-1} &&   sed 's|images_qualimapReport/||g;s|css/||g' results/qualimapReport.html > '/galaxy/server/database/objects/2/6/0/dataset_260807f4-a047-4d2e-b870-c72d8bb914e9.dat' && mkdir '/galaxy/server/database/objects/2/6/0/dataset_260807f4-a047-4d2e-b870-c72d8bb914e9_files' && mv results/css/*.css '/galaxy/server/database/objects/2/6/0/dataset_260807f4-a047-4d2e-b870-c72d8bb914e9_files' && mv results/css/*.png '/galaxy/server/database/objects/2/6/0/dataset_260807f4-a047-4d2e-b870-c72d8bb914e9_files' && if [ -d results/images_qualimapReport ]; then mv results/images_qualimapReport/* '/galaxy/server/database/objects/2/6/0/dataset_260807f4-a047-4d2e-b870-c72d8bb914e9_files' && for file in $(ls -A results/raw_data_qualimapReport); do mv "results/raw_data_qualimapReport/$file" `echo "results/$file" | sed 's/(//;s/)//'`; done fi && mv results/genome_results.txt results/summary_report.txt
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | plot\_specific | ` {"genome_gc_distr": null, "homopolymer_size": "3", "n_bins": "400", "paint_chromosome_limits": true} ` |
       | duplicate\_skipping | ` "0" ` |
       | per\_base\_coverage | ` false ` |
       | stats\_regions | ` {"__current_case__": 0, "region_select": "all"} ` |



    </div></details>


* <details class="rcorners light-red"><summary class="light-red">&#10060; samtools_stats (Test # 3)</summary><div class="padded">

    **Problems**:
    * ```
      Job in error state.. tool_id: toolshed.g2.bx.psu.edu/repos/devteam/samtools_stats/samtools_stats/2.0.5, exit_code: None, stderr: .
      ```
    * ```
      Job in error state.. tool_id: toolshed.g2.bx.psu.edu/repos/devteam/samtools_stats/samtools_stats/2.0.5, exit_code: None, stderr: .
      ```
    **Command Line:**

    * ```console
      addthreads=${GALAXY_SLOTS:-1} && (( addthreads-- )) &&   ln -s '/galaxy/server/database/objects/3/6/5/dataset_3653046f-956b-4f37-8fcd-a59499819d32.dat' infile &&      reffa="reference.fa" && ln -s '/galaxy/server/database/objects/0/5/8/dataset_0582d9ad-0e16-455b-95e2-4ef32bdd03ad.dat' $reffa && samtools faidx $reffa && reffai=$reffa.fai &&  samtools stats  --insert-size 0  --ref-seq "$reffa"     -@ $addthreads infile   > '/galaxy/server/database/objects/9/4/6/dataset_946e5c7e-b0e6-4396-92b0-2e52a3c0ec0e.dat'
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | cov\_threshold | ` "" ` |
       | remove\_overlaps | ` false ` |
       | sparse | ` false ` |
       | cond\_region | ` {"__current_case__": 0, "select_region": "no"} ` |
       | addref\_cond | ` {"__current_case__": 1, "addref_select": "history", "ref": {"values": [{"id": 305, "src": "hda"}]}} ` |
       | trim\_quality | ` "" ` |
       | most\_inserts | ` "" ` |
       | read\_length | ` "" ` |
       | read\_group | ` None ` |
       | insert\_size | ` "0" ` |
       | gc\_depth | ` "" ` |
       | filter\_by\_flags | ` {"__current_case__": 1, "filter_flags": "nofilter"} ` |
       | split\_output\_cond | ` {"__current_case__": 0, "split_output_selector": "no"} ` |
       | remove\_dups | ` false ` |
       | coverage\_cond | ` {"__current_case__": 0, "coverage_select": "no"} ` |



    </div></details>


* <details class="rcorners light-red"><summary class="light-red">&#10060; table_compute (Test # 11)</summary><div class="padded">

    **Problems**:
    * ```
      Job in error state.. tool_id: toolshed.g2.bx.psu.edu/repos/iuc/table_compute/table_compute/1.2.4+galaxy0, exit_code: None, stderr: .
      ```
    * ```
      Job in error state.. tool_id: toolshed.g2.bx.psu.edu/repos/iuc/table_compute/table_compute/1.2.4+galaxy0, exit_code: None, stderr: .
      ```
    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/22/configs/tmph_e1e58w' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "2" ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 21, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 5, "elem_val": {"__current_case__": 0, "element_op": "None"}, "element": {"__current_case__": 2, "mode": "scale", "scale_op": "mod", "scale_value": "5.0"}, "mode": "element"}} ` |



    </div></details>


* <details class="rcorners light-red"><summary class="light-red">&#10060; table_compute (Test # 31)</summary><div class="padded">

    **Problems**:
    * ```
      Job in error state.. tool_id: toolshed.g2.bx.psu.edu/repos/iuc/table_compute/table_compute/1.2.4+galaxy0, exit_code: None, stderr: .
      ```
    * ```
      Job in error state.. tool_id: toolshed.g2.bx.psu.edu/repos/iuc/table_compute/table_compute/1.2.4+galaxy0, exit_code: None, stderr: .
      ```
    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/62/configs/tmph8jli5_k' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "6" ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | singtabop | ` {"__current_case__": 1, "fulltable_custom_expr": "table1 / min(np.max(np.max(table2)), np.max(np.max(table3)))", "tables": [{"__index__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 59, "src": "hda"}]}}, {"__index__": 1, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 60, "src": "hda"}]}}, {"__index__": 2, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 61, "src": "hda"}]}}], "use_type": "multiple"} ` |



    </div></details>


* <details class="rcorners light-red"><summary class="light-red">&#10060; table_compute (Test # 38)</summary><div class="padded">

    **Problems**:
    * ```
      Job in error state.. tool_id: toolshed.g2.bx.psu.edu/repos/iuc/table_compute/table_compute/1.2.4+galaxy0, exit_code: None, stderr: .
      ```
    * ```
      Job in error state.. tool_id: toolshed.g2.bx.psu.edu/repos/iuc/table_compute/table_compute/1.2.4+galaxy0, exit_code: None, stderr: .
      ```
    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/75/configs/tmpdh0t93_6' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "6" ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 74, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 5, "elem_val": {"__current_case__": 7, "element_op": "rowcol", "inclusive_selection": true, "select_cols_wanted": "2", "select_rows_wanted": "2,4"}, "element": {"__current_case__": 0, "mode": "replace", "replace_value": "chr{elem:.0f}"}, "mode": "element"}} ` |



    </div></details>


</details>
<details ><summary>Passed Tests</summary>

* <details class="rcorners light-green"><summary class="light-green">&#9989; bcftools_csq (Test # 1)</summary><div class="padded">

    **Command Line:**

    * ```console
      export BCFTOOLS_PLUGINS=`which bcftools | sed 's,bin/bcftools,libexec/bcftools,'`;     bgzip -c '/galaxy/server/database/objects/4/4/2/dataset_44297641-c509-4060-ad84-2c3358f3526f.dat' > input.vcf.gz && bcftools index input.vcf.gz &&     ln -s '/galaxy/server/database/objects/c/3/2/dataset_c32eabbe-5f0d-4319-91ab-90b021c62dc8.dat' ref.fa && samtools faidx ref.fa &&             bcftools csq   --fasta-ref ref.fa  --gff-annot '/galaxy/server/database/objects/9/7/4/dataset_9742c8b6-b8e1-4275-bb7c-972a29b424f1.dat'  --ncsq 16                     --output-type 'v'    input.vcf.gz  > '/galaxy/server/database/objects/2/0/8/dataset_208dc4cf-808c-4b73-a8c4-77470f41ea8b.dat'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Error:**

    * ```console
      Parsing /galaxy/server/database/objects/9/7/4/dataset_9742c8b6-b8e1-4275-bb7c-972a29b424f1.dat ...
      Indexed 4 transcripts, 10 exons, 10 CDSs, 6 UTRs
      Calling...

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_type | ` "v" ` |
       | sec\_subset | ` {"invert_samples": false, "invert_samples_file": false, "samples": "", "samples_file": null} ` |
       | sec\_restrict | ` {"exclude": null, "include": null, "regions": {"__current_case__": 0, "regions_src": "__none__"}, "regions_overlap": null, "targets": {"__current_case__": 0, "targets_src": "__none__"}, "targets_overlap": null} ` |
       | sec\_csq\_opts | ` {"custom_tag": "", "local_csq": false, "ncsq": "16", "phase": null, "trim_protein_seq": ""} ` |
       | sec\_required | ` {"gff_annot": {"values": [{"id": 343, "src": "hda"}]}, "reference_source": {"__current_case__": 1, "fasta_ref": {"values": [{"id": 342, "src": "hda"}]}, "reference_source_selector": "history"}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; bcftools_plugin_mendelian (Test # 1)</summary><div class="padded">

    **Command Line:**

    * ```console
      export BCFTOOLS_PLUGINS=`which bcftools | sed 's,bin/bcftools,libexec/bcftools,'`;     bgzip -c '/galaxy/server/database/objects/b/5/a/dataset_b5a44147-3279-4a42-930b-563402709626.dat' > input.vcf.gz && bcftools index input.vcf.gz &&            bcftools plugin mendelian                 --output-type 'v'    input.vcf.gz   --trio "NA00001,NA00002,NA00006" --delete 2> tmp_stderr > '/galaxy/server/database/objects/9/8/0/dataset_98081187-29d1-487d-8369-638062f28fc7.dat' && cat tmp_stderr
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      Warning: -d will be deprecated, please use `-m d` instead.

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_type | ` "v" ` |
       | sec\_plugin | ` {"mode": "delete", "trios": {"__current_case__": 0, "child": "NA00006", "father": "NA00002", "mother": "NA00001", "trios_src": "trio"}} ` |
       | sec\_restrict | ` {"exclude": null, "include": null, "regions": {"__current_case__": 0, "regions_src": "__none__"}, "regions_overlap": null, "targets": {"__current_case__": 0, "targets_src": "__none__"}, "targets_overlap": null} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; bcftools_plugin_mendelian (Test # 2)</summary><div class="padded">

    **Command Line:**

    * ```console
      export BCFTOOLS_PLUGINS=`which bcftools | sed 's,bin/bcftools,libexec/bcftools,'`;     bgzip -c '/galaxy/server/database/objects/8/2/9/dataset_8290d7b4-98ff-41ec-b7b1-578c28c0f308.dat' > input.vcf.gz && bcftools index input.vcf.gz &&            bcftools plugin mendelian                 --output-type 'v'    input.vcf.gz   --trio "NA00001,NA00002,NA00006" --list x 2> tmp_stderr > '/galaxy/server/database/objects/1/c/4/dataset_1c4b20f9-814c-4a99-ba5e-195a36db6083.dat' && cat tmp_stderr
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      Warning: -l will be deprecated, please use -m instead.

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_type | ` "v" ` |
       | sec\_plugin | ` {"mode": "x", "trios": {"__current_case__": 0, "child": "NA00006", "father": "NA00002", "mother": "NA00001", "trios_src": "trio"}} ` |
       | sec\_restrict | ` {"exclude": null, "include": null, "regions": {"__current_case__": 0, "regions_src": "__none__"}, "regions_overlap": null, "targets": {"__current_case__": 0, "targets_src": "__none__"}, "targets_overlap": null} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; bowtie2 (Test # 1)</summary><div class="padded">

    **Command Line:**

    * ```console
      set -o | grep -q pipefail && set -o pipefail; bowtie2-build --threads ${GALAXY_SLOTS:-4} '/galaxy/server/database/objects/6/7/5/dataset_6752f686-56c2-44e9-97a1-682be34b7f97.dat' genome && ln -s -f '/galaxy/server/database/objects/6/7/5/dataset_6752f686-56c2-44e9-97a1-682be34b7f97.dat' genome.fa &&   ln -f -s '/galaxy/server/database/objects/f/4/6/dataset_f46b4dc4-225c-4825-b0c1-bda913445934.dat' input_f.fastq &&  ln -f -s '/galaxy/server/database/objects/1/f/7/dataset_1f729945-3720-48c7-93ff-bd1193c4ab7b.dat' input_r.fastq &&   THREADS=${GALAXY_SLOTS:-4} && if [ "$THREADS" -gt 1 ]; then (( THREADS-- )); fi &&   bowtie2  -p "$THREADS"  -x 'genome'   -1 'input_f.fastq' -2 'input_r.fastq'                 | samtools sort -l 0 -T "${TMPDIR:-.}" -O bam | samtools view --no-PG -O bam -@ ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/c/b/3/dataset_cb3f552b-c78c-45d7-b0ae-dd74d483094a.dat'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Error:**

    * ```console
      Building a SMALL index
      Renaming genome.3.bt2.tmp to genome.3.bt2
      Renaming genome.4.bt2.tmp to genome.4.bt2
      Renaming genome.1.bt2.tmp to genome.1.bt2
      Renaming genome.2.bt2.tmp to genome.2.bt2
      Renaming genome.rev.1.bt2.tmp to genome.rev.1.bt2
      Renaming genome.rev.2.bt2.tmp to genome.rev.2.bt2
      100 reads; of these:
        100 (100.00%) were paired; of these:
          97 (97.00%) aligned concordantly 0 times
          3 (3.00%) aligned concordantly exactly 1 time
          0 (0.00%) aligned concordantly >1 times
          ----
          97 pairs aligned concordantly 0 times; of these:
            8 (8.25%) aligned discordantly 1 time
          ----
          89 pairs aligned 0 times concordantly or discordantly; of these:
            178 mates make up the pairs; of these:
              153 (85.96%) aligned 0 times
              25 (14.04%) aligned exactly 1 time
              0 (0.00%) aligned >1 times
      23.50% overall alignment rate

      ```
    **Standard Output:**

    * ```console
      Settings:
        Output files: "genome.*.bt2"
        Line rate: 6 (line is 64 bytes)
        Lines per side: 1 (side is 64 bytes)
        Offset rate: 4 (one in 16)
        FTable chars: 10
        Strings: unpacked
        Max bucket size: default
        Max bucket size, sqrt multiplier: default
        Max bucket size, len divisor: 32
        Difference-cover sample period: 1024
        Endianness: little
        Actual local endianness: little
        Sanity checking: disabled
        Assertions: disabled
        Random seed: 0
        Sizeofs: void*:8, int:4, long:8, size_t:8
      Input files DNA, FASTA:
        /galaxy/server/database/objects/6/7/5/dataset_6752f686-56c2-44e9-97a1-682be34b7f97.dat
      Reading reference sizes
        Time reading reference sizes: 00:00:00
      Calculating joined length
      Writing header
      Reserving space for joined string
      Joining reference sequences
        Time to join reference sequences: 00:00:00
      bmax according to bmaxDivN setting: 517
      Using parameters --bmax 388 --dcv 1024
        Doing ahead-of-time memory usage test
        Passed!  Constructing with these parameters: --bmax 388 --dcv 1024
      Constructing suffix-array element generator
      Building DifferenceCoverSample
        Building sPrime
        Building sPrimeOrder
        V-Sorting samples
        V-Sorting samples time: 00:00:00
        Allocating rank array
        Ranking v-sort output
        Ranking v-sort output time: 00:00:00
        Invoking Larsson-Sadakane on ranks
        Invoking Larsson-Sadakane on ranks time: 00:00:00
        Sanity-checking and returning
      Building samples
      Reserving space for 86 sample suffixes
      Generating random suffixes
      QSorting 86 sample offsets, eliminating duplicates
      QSorting sample offsets, eliminating duplicates time: 00:00:00
      Multikey QSorting 86 samples
        (Using difference cover)
        Multikey QSorting samples time: 00:00:00
      Calculating bucket sizes
      Splitting and merging
        Splitting and merging time: 00:00:00
      Split 12, merged 41; iterating...
      Splitting and merging
        Splitting and merging time: 00:00:00
      Split 6, merged 6; iterating...
      Splitting and merging
        Splitting and merging time: 00:00:00
      Split 5, merged 3; iterating...
      Splitting and merging
        Splitting and merging time: 00:00:00
      Split 3, merged 3; iterating...
      Splitting and merging
        Splitting and merging time: 00:00:00
      Avg bucket size: 284.672 (target: 387)
      Converting suffix-array elements to index image
      Allocating ftab, absorbFtab
      Entering Ebwt loop
      Getting block 1 of 58
        Reserving size (388) for bucket 1
      Getting block 2 of 58
      Getting block 3 of 58
      Getting block 4 of 58
        Calculating Z arrays for bucket 1
        Reserving size (388) for bucket 2
        Reserving size (388) for bucket 3
        Reserving size (388) for bucket 4
        Calculating Z arrays for bucket 2
        Calculating Z arrays for bucket 3
      Getting block 5 of 58
      Getting block 6 of 58
        Entering block accumulator loop for bucket 1:
        Calculating Z arrays for bucket 4
        Entering block accumulator loop for bucket 2:
        Entering block accumulator loop for bucket 3:
        Reserving size (388) for bucket 5
        Reserving size (388) for bucket 6
      Getting block 7 of 58
        Entering block accumulator loop for bucket 4:
        Calculating Z arrays for bucket 5
        Calculating Z arrays for bucket 6
        Reserving size (388) for bucket 7
        bucket 1: 10%
        Calculating Z arrays for bucket 7
        bucket 2: 10%
        Entering block accumulator loop for bucket 6:
        bucket 3: 10%
        Entering block accumulator loop for bucket 5:
        Entering block accumulator loop for bucket 7:
        bucket 1: 20%
        bucket 4: 10%
        bucket 2: 20%
        bucket 3: 20%
        bucket 6: 10%
        bucket 5: 10%
        bucket 1: 30%
        bucket 7: 10%
        bucket 2: 30%
        bucket 3: 30%
        bucket 4: 20%
        bucket 6: 20%
        bucket 1: 40%
        bucket 5: 20%
        bucket 2: 40%
        bucket 3: 40%
        bucket 7: 20%
        bucket 4: 30%
        bucket 1: 50%
        bucket 6: 30%
        bucket 2: 50%
        bucket 5: 30%
        bucket 3: 50%
        bucket 7: 30%
        bucket 4: 40%
        bucket 1: 60%
        bucket 6: 40%
        bucket 2: 60%
        bucket 5: 40%
        bucket 3: 60%
        bucket 1: 70%
        bucket 4: 50%
        bucket 6: 50%
        bucket 2: 70%
        bucket 5: 50%
        bucket 7: 40%
        bucket 3: 70%
        bucket 4: 60%
        bucket 2: 80%
        bucket 1: 80%
        bucket 6: 60%
        bucket 5: 60%
        bucket 7: 50%
        bucket 3: 80%
        bucket 1: 90%
        bucket 2: 90%
        bucket 5: 70%
        bucket 6: 70%
        bucket 4: 70%
        bucket 7: 60%
        bucket 3: 90%
        bucket 1: 100%
        bucket 2: 100%
        Sorting block of length 355 for bucket 1
        (Using difference cover)
        Sorting block of length 165 for bucket 2
        (Using difference cover)
        bucket 5: 80%
        bucket 6: 80%
        bucket 7: 70%
        bucket 3: 100%
        bucket 4: 80%
        Sorting block of length 370 for bucket 3
        (Using difference cover)
        bucket 5: 90%
        bucket 7: 80%
        bucket 4: 90%
        bucket 6: 90%
        bucket 4: 100%
        Sorting block of length 328 for bucket 4
        (Using difference cover)
        bucket 7: 90%
        bucket 5: 100%
        Sorting block of length 203 for bucket 5
        (Using difference cover)
        bucket 6: 100%
        Sorting block of length 339 for bucket 6
        (Using difference cover)
        bucket 7: 100%
        Sorting block of length 368 for bucket 7
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 356 for bucket 1
        Sorting block time: 00:00:00
      Returning block of 369 for bucket 7
        Sorting block time: 00:00:00
      Returning block of 166 for bucket 2
        Sorting block time: 00:00:00
      Returning block of 204 for bucket 5
        Sorting block time: 00:00:00
      Returning block of 329 for bucket 4
        Sorting block time: 00:00:00
      Returning block of 340 for bucket 6
        Sorting block time: 00:00:00
      Returning block of 371 for bucket 3
      Getting block 8 of 58
        Reserving size (388) for bucket 8
        Calculating Z arrays for bucket 8
        Entering block accumulator loop for bucket 8:
        bucket 8: 10%
        bucket 8: 20%
      Getting block 9 of 58
        Reserving size (388) for bucket 9
        Calculating Z arrays for bucket 9
        bucket 8: 30%
        Entering block accumulator loop for bucket 9:
        bucket 8: 40%
        bucket 9: 10%
        bucket 8: 50%
      Getting block 10 of 58
        Reserving size (388) for bucket 10
        Calculating Z arrays for bucket 10
        bucket 8: 60%
        bucket 9: 20%
        Entering block accumulator loop for bucket 10:
        bucket 8: 70%
        bucket 9: 30%
        bucket 10: 10%
        bucket 8: 80%
        bucket 9: 40%
        bucket 8: 90%
        bucket 10: 20%
        bucket 8: 100%
        Sorting block of length 171 for bucket 8
        (Using difference cover)
        bucket 9: 50%
        bucket 10: 30%
        bucket 10: 40%
        bucket 9: 60%
        bucket 10: 50%
        bucket 9: 70%
        Sorting block time: 00:00:00
      Returning block of 172 for bucket 8
        bucket 10: 60%
        bucket 9: 80%
        bucket 10: 70%
        bucket 9: 90%
        bucket 10: 80%
        bucket 9: 100%
        Sorting block of length 339 for bucket 9
        (Using difference cover)
        bucket 10: 90%
        bucket 10: 100%
        Sorting block of length 357 for bucket 10
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 340 for bucket 9
        Sorting block time: 00:00:00
      Returning block of 358 for bucket 10
      Getting block 11 of 58
        Reserving size (388) for bucket 11
        Calculating Z arrays for bucket 11
        Entering block accumulator loop for bucket 11:
      Getting block 12 of 58
        Reserving size (388) for bucket 12
        Calculating Z arrays for bucket 12
        bucket 11: 10%
        Entering block accumulator loop for bucket 12:
        bucket 12: 10%
        bucket 11: 20%
        bucket 12: 20%
        bucket 11: 30%
        bucket 12: 30%
        bucket 11: 40%
        bucket 12: 40%
        bucket 11: 50%
        bucket 12: 50%
        bucket 11: 60%
        bucket 12: 60%
        bucket 12: 70%
        bucket 11: 70%
        bucket 12: 80%
        bucket 11: 80%
        bucket 12: 90%
        bucket 11: 90%
        bucket 12: 100%
        Sorting block of length 185 for bucket 12
        (Using difference cover)
        bucket 11: 100%
        Sorting block of length 305 for bucket 11
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 186 for bucket 12
        Sorting block time: 00:00:00
      Returning block of 306 for bucket 11
      Getting block 13 of 58
        Reserving size (388) for bucket 13
        Calculating Z arrays for bucket 13
        Entering block accumulator loop for bucket 13:
        bucket 13: 10%
      Getting block 14 of 58
        Reserving size (388) for bucket 14
        Calculating Z arrays for bucket 14
        bucket 13: 20%
        Entering block accumulator loop for bucket 14:
        bucket 13: 30%
        bucket 14: 10%
        bucket 13: 40%
        bucket 13: 50%
        bucket 14: 20%
        bucket 13: 60%
        bucket 14: 30%
        bucket 13: 70%
        bucket 14: 40%
        bucket 13: 80%
        bucket 14: 50%
        bucket 13: 90%
        bucket 14: 60%
        bucket 13: 100%
        Sorting block of length 282 for bucket 13
        (Using difference cover)
        bucket 14: 70%
        bucket 14: 80%
        bucket 14: 90%
        Sorting block time: 00:00:00
        bucket 14: 100%
      Returning block of 283 for bucket 13
        Sorting block of length 339 for bucket 14
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 340 for bucket 14
      Getting block 15 of 58
        Reserving size (388) for bucket 15
        Calculating Z arrays for bucket 15
        Entering block accumulator loop for bucket 15:
        bucket 15: 10%
      Getting block 16 of 58
        bucket 15: 20%
        Reserving size (388) for bucket 16
        Calculating Z arrays for bucket 16
        bucket 15: 30%
        Entering block accumulator loop for bucket 16:
        bucket 15: 40%
        bucket 16: 10%
        bucket 15: 50%
        bucket 16: 20%
        bucket 15: 60%
        bucket 15: 70%
        bucket 16: 30%
        bucket 15: 80%
        bucket 16: 40%
        bucket 15: 90%
        bucket 16: 50%
        bucket 15: 100%
        Sorting block of length 241 for bucket 15
        (Using difference cover)
        bucket 16: 60%
        bucket 16: 70%
        bucket 16: 80%
        bucket 16: 90%
        Sorting block time: 00:00:00
      Returning block of 242 for bucket 15
        bucket 16: 100%
        Sorting block of length 379 for bucket 16
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 380 for bucket 16
      Getting block 17 of 58
        Reserving size (388) for bucket 17
      Getting block 18 of 58
        Calculating Z arrays for bucket 17
        Reserving size (388) for bucket 18
        Calculating Z arrays for bucket 18
        Entering block accumulator loop for bucket 18:
        Entering block accumulator loop for bucket 17:
        bucket 18: 10%
        bucket 18: 20%
        bucket 17: 10%
        bucket 18: 30%
        bucket 17: 20%
        bucket 18: 40%
        bucket 18: 50%
        bucket 17: 30%
        bucket 18: 60%
        bucket 17: 40%
        bucket 18: 70%
        bucket 17: 50%
        bucket 18: 80%
        bucket 18: 90%
        bucket 17: 60%
        bucket 18: 100%
        Sorting block of length 378 for bucket 18
        (Using difference cover)
        bucket 17: 70%
        bucket 17: 80%
        bucket 17: 90%
        bucket 17: 100%
        Sorting block of length 215 for bucket 17
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 379 for bucket 18
        Sorting block time: 00:00:00
      Returning block of 216 for bucket 17
      Getting block 19 of 58
        Reserving size (388) for bucket 19
        Calculating Z arrays for bucket 19
        Entering block accumulator loop for bucket 19:
        bucket 19: 10%
        bucket 19: 20%
      Getting block 20 of 58
        bucket 19: 30%
        Reserving size (388) for bucket 20
        Calculating Z arrays for bucket 20
        Entering block accumulator loop for bucket 20:
        bucket 19: 40%
        bucket 20: 10%
        bucket 19: 50%
        bucket 20: 20%
        bucket 19: 60%
        bucket 20: 30%
        bucket 19: 70%
        bucket 20: 40%
        bucket 19: 80%
        bucket 20: 50%
        bucket 20: 60%
        bucket 19: 90%
        bucket 20: 70%
        bucket 19: 100%
        Sorting block of length 334 for bucket 19
        (Using difference cover)
        bucket 20: 80%
        bucket 20: 90%
        bucket 20: 100%
        Sorting block of length 313 for bucket 20
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 335 for bucket 19
        Sorting block time: 00:00:00
      Returning block of 314 for bucket 20
      Getting block 21 of 58
        Reserving size (388) for bucket 21
        Calculating Z arrays for bucket 21
        Entering block accumulator loop for bucket 21:
        bucket 21: 10%
        bucket 21: 20%
        bucket 21: 30%
        bucket 21: 40%
        bucket 21: 50%
        bucket 21: 60%
        bucket 21: 70%
        bucket 21: 80%
        bucket 21: 90%
        bucket 21: 100%
        Sorting block of length 210 for bucket 21
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 211 for bucket 21
      Getting block 22 of 58
        Reserving size (388) for bucket 22
      Getting block 23 of 58
        Calculating Z arrays for bucket 22
        Reserving size (388) for bucket 23
        Calculating Z arrays for bucket 23
        Entering block accumulator loop for bucket 22:
        Entering block accumulator loop for bucket 23:
        bucket 22: 10%
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      Getting block 24 of 58
        Reserving size (388) for bucket 24
        Calculating Z arrays for bucket 24
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        Entering block accumulator loop for bucket 24:
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        Sorting block of length 351 for bucket 24
        (Using difference cover)
        bucket 23: 100%
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        Sorting block of length 238 for bucket 23
        (Using difference cover)
        Sorting block of length 386 for bucket 22
        (Using difference cover)
        Sorting block time: 00:00:00
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        Sorting block time: 00:00:00
      Returning block of 239 for bucket 23
        Sorting block time: 00:00:00
      Returning block of 387 for bucket 22
      Getting block 25 of 58
        Reserving size (388) for bucket 25
      Getting block 26 of 58
        Calculating Z arrays for bucket 25
        Reserving size (388) for bucket 26
        Calculating Z arrays for bucket 26
        Entering block accumulator loop for bucket 26:
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        bucket 25: 10%
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        Sorting block of length 354 for bucket 26
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        Sorting block time: 00:00:00
      Returning block of 106 for bucket 25
        Sorting block time: 00:00:00
      Returning block of 355 for bucket 26
      Getting block 27 of 58
        Reserving size (388) for bucket 27
        Calculating Z arrays for bucket 27
        Entering block accumulator loop for bucket 27:
      Getting block 28 of 58
        Reserving size (388) for bucket 28
        Calculating Z arrays for bucket 28
        bucket 27: 10%
        Entering block accumulator loop for bucket 28:
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        (Using difference cover)
        bucket 28: 90%
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        Sorting block of length 253 for bucket 28
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 335 for bucket 27
        Sorting block time: 00:00:00
      Returning block of 254 for bucket 28
      Getting block 29 of 58
        Reserving size (388) for bucket 29
        Calculating Z arrays for bucket 29
        Entering block accumulator loop for bucket 29:
        bucket 29: 10%
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      Getting block 30 of 58
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        Reserving size (388) for bucket 30
        Calculating Z arrays for bucket 30
        Entering block accumulator loop for bucket 30:
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        Sorting block time: 00:00:00
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        bucket 30: 80%
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        Sorting block of length 345 for bucket 30
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 346 for bucket 30
      Getting block 31 of 58
        Reserving size (388) for bucket 31
      Getting block 32 of 58
      Getting block 33 of 58
        Calculating Z arrays for bucket 31
        Reserving size (388) for bucket 32
        Reserving size (388) for bucket 33
        Calculating Z arrays for bucket 32
        Calculating Z arrays for bucket 33
        Entering block accumulator loop for bucket 31:
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        bucket 31: 10%
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        bucket 33:
      ..
      0:00
      Returning block of 350 for bucket 23
      Getting block 24 of 57
        Reserving size (388) for bucket 24
        Calculating Z arrays for bucket 24
        Entering block accumulator loop for bucket 24:
        bucket 24: 10%
        bucket 24: 20%
      Getting block 25 of 57
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        Reserving size (388) for bucket 25
        Calculating Z arrays for bucket 25
        Entering block accumulator loop for bucket 25:
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        Sorting block time: 00:00:00
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        Sorting block time: 00:00:00
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      Getting block 26 of 57
        Reserving size (388) for bucket 26
      Getting block 27 of 57
        Calculating Z arrays for bucket 26
        Reserving size (388) for bucket 27
        Calculating Z arrays for bucket 27
        Entering block accumulator loop for bucket 26:
        Entering block accumulator loop for bucket 27:
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      Returning block of 360 for bucket 27
      Getting block 28 of 57
        Reserving size (388) for bucket 28
        Calculating Z arrays for bucket 28
      Getting block 29 of 57
        Entering block accumulator loop for bucket 28:
        Reserving size (388) for bucket 29
        Calculating Z arrays for bucket 29
      Getting block 30 of 57
        Entering block accumulator loop for bucket 29:
        Reserving size (388) for bucket 30
        bucket 28: 10%
        Calculating Z arrays for bucket 30
        Entering block accumulator loop for bucket 30:
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        Sorting block of length 387 for bucket 28
        (Using difference cover)
        bucket 30: 80%
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        (Using difference cover)
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      Returning block of 388 for bucket 28
        Sorting block of length 195 for bucket 29
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 258 for bucket 30
        Sorting block time: 00:00:00
      Returning block of 196 for bucket 29
      Getting block 31 of 57
        Reserving size (388) for bucket 31
        Calculating Z arrays for bucket 31
        Entering block accumulator loop for bucket 31:
        bucket 31: 10%
        bucket 31: 20%
      Getting block 32 of 57
        Reserving size (388) for bucket 32
        Calculating Z arrays for bucket 32
        bucket 31: 30%
        Entering block accumulator loop for bucket 32:
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        Sorting block of length 310 for bucket 31
        (Using difference cover)
        bucket 32: 80%
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        Sorting block of length 219 for bucket 32
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 311 for bucket 31
        Sorting block time: 00:00:00
      Returning block of 220 for bucket 32
      Getting block 33 of 57
        Reserving size (388) for bucket 33
        Calculating Z arrays for bucket 33
        Entering block accumulator loop for bucket 33:
      Getting block 34 of 57
        bucket 33: 10%
        Reserving size (388) for bucket 34
        Calculating Z arrays for bucket 34
        Entering block accumulator loop for bucket 34:
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        Sorting block of length 387 for bucket 33
        (Using difference cover)
        bucket 34: 80%
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        Sorting block of length 275 for bucket 34
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 388 for bucket 33
        Sorting block time: 00:00:00
      Returning block of 276 for bucket 34
      Getting block 35 of 57
        Reserving size (388) for bucket 35
        Calculating Z arrays for bucket 35
        Entering block accumulator loop for bucket 35:
        bucket 35: 10%
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      Getting block 36 of 57
        bucket 35: 40%
        Reserving size (388) for bucket 36
        Calculating Z arrays for bucket 36
        Entering block accumulator loop for bucket 36:
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        Sorting block of length 350 for bucket 35
        (Using difference cover)
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        Sorting block time: 00:00:00
      Returning block of 351 for bucket 35
        bucket 36: 70%
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        Sorting block of length 150 for bucket 36
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 151 for bucket 36
      Getting block 37 of 57
        Reserving size (388) for bucket 37
        Calculating Z arrays for bucket 37
        Entering block accumulator loop for bucket 37:
        bucket 37: 10%
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        Sorting block of length 267 for bucket 37
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 268 for bucket 37
      Getting block 38 of 57
        Reserving size (388) for bucket 38
        Calculating Z arrays for bucket 38
        Entering block accumulator loop for bucket 38:
        bucket 38: 10%
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      Getting block 39 of 57
        Reserving size (388) for bucket 39
        Calculating Z arrays for bucket 39
        bucket 38: 40%
        Entering block accumulator loop for bucket 39:
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        Sorting block of length 337 for bucket 38
        (Using difference cover)
        bucket 39: 50%
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        Sorting block time: 00:00:00
      Returning block of 338 for bucket 38
        bucket 39: 70%
        bucket 39: 80%
        bucket 39: 90%
        bucket 39: 100%
        Sorting block of length 387 for bucket 39
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 388 for bucket 39
      Getting block 40 of 57
        Reserving size (388) for bucket 40
        Calculating Z arrays for bucket 40
      Getting block 41 of 57
        Entering block accumulator loop for bucket 40:
        Reserving size (388) for bucket 41
        Calculating Z arrays for bucket 41
        Entering block accumulator loop for bucket 41:
        bucket 40: 10%
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        Sorting block of length 330 for bucket 41
        (Using difference cover)
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        Sorting block of length 379 for bucket 40
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 380 for bucket 40
        Sorting block time: 00:00:00
      Returning block of 331 for bucket 41
      Getting block 42 of 57
        Reserving size (388) for bucket 42
        Calculating Z arrays for bucket 42
        Entering block accumulator loop for bucket 42:
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        Sorting block of length 188 for bucket 42
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 189 for bucket 42
      Getting block 43 of 57
        Reserving size (388) for bucket 43
        Calculating Z arrays for bucket 43
        Entering block accumulator loop for bucket 43:
        bucket 43: 10%
      Getting block 44 of 57
        Reserving size (388) for bucket 44
        Calculating Z arrays for bucket 44
        bucket 43: 20%
        Entering block accumulator loop for bucket 44:
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        Sorting block of length 321 for bucket 43
        (Using difference cover)
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        Sorting block of length 366 for bucket 44
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 322 for bucket 43
        Sorting block time: 00:00:00
      Returning block of 367 for bucket 44
      Getting block 45 of 57
        Reserving size (388) for bucket 45
        Calculating Z arrays for bucket 45
        Entering block accumulator loop for bucket 45:
        bucket 45: 10%
        bucket 45: 20%
      Getting block 46 of 57
        Reserving size (388) for bucket 46
        Calculating Z arrays for bucket 46
        Entering block accumulator loop for bucket 46:
        bucket 45: 30%
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        Sorting block of length 365 for bucket 45
        (Using difference cover)
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        Sorting block of length 253 for bucket 46
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 366 for bucket 45
        Sorting block time: 00:00:00
      Returning block of 254 for bucket 46
      Getting block 47 of 57
        Reserving size (388) for bucket 47
        Calculating Z arrays for bucket 47
        Entering block accumulator loop for bucket 47:
        bucket 47: 10%
      Getting block 48 of 57
        Reserving size (388) for bucket 48
        Calculating Z arrays for bucket 48
      Getting block 49 of 57
        bucket 47: 20%
        Entering block accumulator loop for bucket 48:
        Reserving size (388) for bucket 49
        Calculating Z arrays for bucket 49
        Entering block accumulator loop for bucket 49:
        bucket 47: 30%
        bucket 48: 10%
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        Sorting block of length 112 for bucket 49
        (Using difference cover)
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        (Using difference cover)
        bucket 48: 80%
        bucket 48: 90%
        bucket 48: 100%
        Sorting block of length 384 for bucket 48
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 113 for bucket 49
        Sorting block time: 00:00:00
      Returning block of 218 for bucket 47
        Sorting block time: 00:00:00
      Returning block of 385 for bucket 48
      Getting block 50 of 57
        Reserving size (388) for bucket 50
        Calculating Z arrays for bucket 50
        Entering block accumulator loop for bucket 50:
        bucket 50: 10%
      Getting block 51 of 57
        Reserving size (388) for bucket 51
        Calculating Z arrays for bucket 51
        bucket 50: 20%
        Entering block accumulator loop for bucket 51:
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        Sorting block of length 275 for bucket 50
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        bucket 51: 80%
        bucket 51: 90%
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        Sorting block of length 350 for bucket 51
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 276 for bucket 50
        Sorting block time: 00:00:00
      Returning block of 351 for bucket 51
      Getting block 52 of 57
        Reserving size (388) for bucket 52
        Calculating Z arrays for bucket 52
      Getting block 53 of 57
        Entering block accumulator loop for bucket 52:
        Reserving size (388) for bucket 53
        Calculating Z arrays for bucket 53
        Entering block accumulator loop for bucket 53:
        bucket 52: 10%
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        Sorting block of length 370 for bucket 53
        (Using difference cover)
        bucket 52: 90%
        bucket 52: 100%
        Sorting block of length 378 for bucket 52
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 371 for bucket 53
        Sorting block time: 00:00:00
      Returning block of 379 for bucket 52
      Getting block 54 of 57
        Reserving size (388) for bucket 54
        Calculating Z arrays for bucket 54
        Entering block accumulator loop for bucket 54:
      Getting block 55 of 57
        Reserving size (388) for bucket 55
        Calculating Z arrays for bucket 55
        Entering block accumulator loop for bucket 55:
        bucket 54: 10%
        bucket 55: 10%
        bucket 54: 20%
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        bucket 54: 30%
        bucket 55: 30%
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        bucket 54: 100%
        Sorting block of length 237 for bucket 54
        (Using difference cover)
        bucket 55: 90%
        bucket 55: 100%
        Sorting block of length 344 for bucket 55
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 238 for bucket 54
        Sorting block time: 00:00:00
      Returning block of 345 for bucket 55
      Getting block 56 of 57
        Reserving size (388) for bucket 56
        Calculating Z arrays for bucket 56
        Entering block accumulator loop for bucket 56:
        bucket 56: 10%
        bucket 56: 20%
      Getting block 57 of 57
        bucket 56: 30%
        Reserving size (388) for bucket 57
        Calculating Z arrays for bucket 57
        Entering block accumulator loop for bucket 57:
        bucket 56: 40%
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        Sorting block of length 270 for bucket 56
        (Using difference cover)
        bucket 57: 90%
        bucket 57: 100%
        Sorting block of length 132 for bucket 57
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 271 for bucket 56
        Sorting block time: 00:00:00
      Returning block of 133 for bucket 57
      Exited Ebwt loop
      fchr[A]: 0
      fchr[C]: 5124
      fchr[G]: 10305
      fchr[T]: 12474
      fchr[$]: 16568
      Exiting Ebwt::buildToDisk()
      Returning from initFromVector
      Wrote 4200050 bytes to primary EBWT file: genome.rev.1.bt2.tmp
      Wrote 4148 bytes to secondary EBWT file: genome.rev.2.bt2.tmp
      Re-opening _in1 and _in2 as input streams
      Returning from Ebwt constructor
      Headers:
          len: 16568
          bwtLen: 16569
          sz: 4142
          bwtSz: 4143
          lineRate: 6
          offRate: 4
          offMask: 0xfffffff0
          ftabChars: 10
          eftabLen: 20
          eftabSz: 80
          ftabLen: 1048577
          ftabSz: 4194308
          offsLen: 1036
          offsSz: 4144
          lineSz: 64
          sideSz: 64
          sideBwtSz: 48
          sideBwtLen: 192
          numSides: 87
          numLines: 87
          ebwtTotLen: 5568
          ebwtTotSz: 5568
          color: 0
          reverse: 1
      Total time for backward call to driver() for mirror index: 00:00:00

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | save\_mapping\_stats | ` false ` |
       | sam\_options | ` {"__current_case__": 1, "sam_options_selector": "no"} ` |
       | analysis\_type | ` {"__current_case__": 0, "analysis_type_selector": "simple", "presets": "no_presets"} ` |
       | rg | ` {"__current_case__": 3, "rg_selector": "do_not_set"} ` |
       | reference\_genome | ` {"__current_case__": 1, "own_file": {"values": [{"id": 359, "src": "hda"}]}, "source": "history"} ` |
       | library | ` {"__current_case__": 1, "aligned_file": false, "input_1": {"values": [{"id": 357, "src": "hda"}]}, "input_2": {"values": [{"id": 358, "src": "hda"}]}, "paired_options": {"__current_case__": 1, "paired_options_selector": "no"}, "type": "paired", "unaligned_file": false} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; bowtie2 (Test # 2)</summary><div class="padded">

    **Command Line:**

    * ```console
      set -o | grep -q pipefail && set -o pipefail; bowtie2-build --threads ${GALAXY_SLOTS:-4} '/galaxy/server/database/objects/e/4/d/dataset_e4dbf02b-3963-4a5f-96a9-cf0840765165.dat' genome && ln -s -f '/galaxy/server/database/objects/e/4/d/dataset_e4dbf02b-3963-4a5f-96a9-cf0840765165.dat' genome.fa &&   ln -f -s '/galaxy/server/database/objects/3/d/b/dataset_3db3efc3-bb97-465b-895b-a1a04a5002f3.dat' input_f.fastq &&  ln -f -s '/galaxy/server/database/objects/a/4/4/dataset_a442cbcb-544e-44a3-8ada-494ff30f22a7.dat' input_r.fastq &&    THREADS=${GALAXY_SLOTS:-4} && if [ "$THREADS" -gt 1 ]; then (( THREADS-- )); fi &&   bowtie2  -p "$THREADS"  -x 'genome'   -1 'input_f.fastq' -2 'input_r.fastq' --un-conc '/galaxy/server/database/objects/c/a/f/dataset_cafaf4f8-7a0a-4fa1-9fc1-47b406389ecb.dat'                 | samtools sort -l 0 -T "${TMPDIR:-.}" -O bam | samtools view --no-PG -O bam -@ ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/3/0/a/dataset_30a5a5e3-b529-498b-afed-4b67b3a33e55.dat'  && mv '/galaxy/server/database/objects/c/a/f/dataset_cafaf4f8-7a0a-4fa1-9fc1-47b406389ecb.1.dat' '/galaxy/server/database/objects/c/a/f/dataset_cafaf4f8-7a0a-4fa1-9fc1-47b406389ecb.dat' && mv '/galaxy/server/database/objects/c/a/f/dataset_cafaf4f8-7a0a-4fa1-9fc1-47b406389ecb.2.dat' '/galaxy/server/database/objects/a/8/d/dataset_a8d59795-ce23-4b8b-9046-21a480c1bf10.dat'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Error:**

    * ```console
      Building a SMALL index
      Renaming genome.3.bt2.tmp to genome.3.bt2
      Renaming genome.4.bt2.tmp to genome.4.bt2
      Renaming genome.1.bt2.tmp to genome.1.bt2
      Renaming genome.2.bt2.tmp to genome.2.bt2
      Renaming genome.rev.1.bt2.tmp to genome.rev.1.bt2
      Renaming genome.rev.2.bt2.tmp to genome.rev.2.bt2
      100 reads; of these:
        100 (100.00%) were paired; of these:
          97 (97.00%) aligned concordantly 0 times
          3 (3.00%) aligned concordantly exactly 1 time
          0 (0.00%) aligned concordantly >1 times
          ----
          97 pairs aligned concordantly 0 times; of these:
            8 (8.25%) aligned discordantly 1 time
          ----
          89 pairs aligned 0 times concordantly or discordantly; of these:
            178 mates make up the pairs; of these:
              153 (85.96%) aligned 0 times
              25 (14.04%) aligned exactly 1 time
              0 (0.00%) aligned >1 times
      23.50% overall alignment rate

      ```
    **Standard Output:**

    * ```console
      Settings:
        Output files: "genome.*.bt2"
        Line rate: 6 (line is 64 bytes)
        Lines per side: 1 (side is 64 bytes)
        Offset rate: 4 (one in 16)
        FTable chars: 10
        Strings: unpacked
        Max bucket size: default
        Max bucket size, sqrt multiplier: default
        Max bucket size, len divisor: 32
        Difference-cover sample period: 1024
        Endianness: little
        Actual local endianness: little
        Sanity checking: disabled
        Assertions: disabled
        Random seed: 0
        Sizeofs: void*:8, int:4, long:8, size_t:8
      Input files DNA, FASTA:
        /galaxy/server/database/objects/e/4/d/dataset_e4dbf02b-3963-4a5f-96a9-cf0840765165.dat
      Reading reference sizes
        Time reading reference sizes: 00:00:00
      Calculating joined length
      Writing header
      Reserving space for joined string
      Joining reference sequences
        Time to join reference sequences: 00:00:00
      bmax according to bmaxDivN setting: 517
      Using parameters --bmax 388 --dcv 1024
        Doing ahead-of-time memory usage test
        Passed!  Constructing with these parameters: --bmax 388 --dcv 1024
      Constructing suffix-array element generator
      Building DifferenceCoverSample
        Building sPrime
        Building sPrimeOrder
        V-Sorting samples
        V-Sorting samples time: 00:00:00
        Allocating rank array
        Ranking v-sort output
        Ranking v-sort output time: 00:00:00
        Invoking Larsson-Sadakane on ranks
        Invoking Larsson-Sadakane on ranks time: 00:00:00
        Sanity-checking and returning
      Building samples
      Reserving space for 86 sample suffixes
      Generating random suffixes
      QSorting 86 sample offsets, eliminating duplicates
      QSorting sample offsets, eliminating duplicates time: 00:00:00
      Multikey QSorting 86 samples
        (Using difference cover)
        Multikey QSorting samples time: 00:00:00
      Calculating bucket sizes
      Splitting and merging
        Splitting and merging time: 00:00:00
      Split 12, merged 41; iterating...
      Splitting and merging
        Splitting and merging time: 00:00:00
      Split 6, merged 6; iterating...
      Splitting and merging
        Splitting and merging time: 00:00:00
      Split 5, merged 3; iterating...
      Splitting and merging
        Splitting and merging time: 00:00:00
      Split 3, merged 3; iterating...
      Splitting and merging
        Splitting and merging time: 00:00:00
      Avg bucket size: 284.672 (target: 387)
      Converting suffix-array elements to index image
      Allocating ftab, absorbFtab
      Entering Ebwt loop
      Getting block 1 of 58
        Reserving size (388) for bucket 1
      Getting block 2 of 58
      Getting block 3 of 58
      Getting block 4 of 58
      Getting block 5 of 58
        Calculating Z arrays for bucket 1
        Reserving size (388) for bucket 2
        Reserving size (388) for bucket 3
        Reserving size (388) for bucket 4
        Reserving size (388) for bucket 5
      Getting block 6 of 58
      Getting block 7 of 58
        Calculating Z arrays for bucket 2
        Entering block accumulator loop for bucket 1:
        Calculating Z arrays for bucket 3
        Calculating Z arrays for bucket 4
        Calculating Z arrays for bucket 5
        Reserving size (388) for bucket 6
        Reserving size (388) for bucket 7
        Entering block accumulator loop for bucket 2:
        Calculating Z arrays for bucket 6
        Calculating Z arrays for bucket 7
        Entering block accumulator loop for bucket 3:
        Entering block accumulator loop for bucket 4:
        Entering block accumulator loop for bucket 5:
        Entering block accumulator loop for bucket 6:
        bucket 1: 10%
        Entering block accumulator loop for bucket 7:
        bucket 2: 10%
        bucket 3: 10%
        bucket 4: 10%
        bucket 1: 20%
        bucket 5: 10%
        bucket 6: 10%
        bucket 7: 10%
        bucket 2: 20%
        bucket 3: 20%
        bucket 1: 30%
        bucket 4: 20%
        bucket 2: 30%
        bucket 5: 20%
        bucket 6: 20%
        bucket 7: 20%
        bucket 1: 40%
        bucket 3: 30%
        bucket 2: 40%
        bucket 4: 30%
        bucket 6: 30%
        bucket 5: 30%
        bucket 1: 50%
        bucket 3: 40%
        bucket 7: 30%
        bucket 2: 50%
        bucket 6: 40%
        bucket 4: 40%
        bucket 1: 60%
        bucket 5: 40%
        bucket 2: 60%
        bucket 3: 50%
        bucket 7: 40%
        bucket 6: 50%
        bucket 2: 70%
        bucket 1: 70%
        bucket 4: 50%
        bucket 5: 50%
        bucket 6: 60%
        bucket 2: 80%
        bucket 3: 60%
        bucket 1: 80%
        bucket 7: 50%
        bucket 4: 60%
        bucket 5: 60%
        bucket 2: 90%
        bucket 6: 70%
        bucket 1: 90%
        bucket 3: 70%
        bucket 2: 100%
        bucket 7: 60%
        bucket 4: 70%
        bucket 5: 70%
        Sorting block of length 165 for bucket 2
        (Using difference cover)
        bucket 6: 80%
        bucket 1: 100%
        Sorting block of length 355 for bucket 1
        (Using difference cover)
        bucket 3: 80%
        bucket 5: 80%
        bucket 4: 80%
        bucket 6: 90%
        bucket 7: 70%
        bucket 3: 90%
        bucket 5: 90%
        bucket 6: 100%
        bucket 4: 90%
        bucket 7: 80%
        Sorting block of length 339 for bucket 6
        (Using difference cover)
        bucket 3: 100%
        Sorting block of length 370 for bucket 3
        (Using difference cover)
        bucket 5: 100%
        Sorting block of length 203 for bucket 5
        (Using difference cover)
        bucket 4: 100%
        Sorting block of length 328 for bucket 4
        (Using difference cover)
        bucket 7: 90%
        bucket 7: 100%
        Sorting block of length 368 for bucket 7
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 204 for bucket 5
        Sorting block time: 00:00:00
      Returning block of 329 for bucket 4
        Sorting block time: 00:00:00
      Returning block of 356 for bucket 1
        Sorting block time: 00:00:00
      Returning block of 369 for bucket 7
        Sorting block time: 00:00:00
      Returning block of 166 for bucket 2
        Sorting block time: 00:00:00
      Returning block of 340 for bucket 6
        Sorting block time: 00:00:00
      Returning block of 371 for bucket 3
      Getting block 8 of 58
        Reserving size (388) for bucket 8
        Calculating Z arrays for bucket 8
      Getting block 9 of 58
        Entering block accumulator loop for bucket 8:
        Reserving size (388) for bucket 9
        Calculating Z arrays for bucket 9
        Entering block accumulator loop for bucket 9:
        bucket 8: 10%
      Getting block 10 of 58
        bucket 9: 10%
        bucket 8: 20%
        Reserving size (388) for bucket 10
        Calculating Z arrays for bucket 10
        Entering block accumulator loop for bucket 10:
        bucket 9: 20%
        bucket 8: 30%
        bucket 8: 40%
        bucket 9: 30%
        bucket 10: 10%
        bucket 8: 50%
        bucket 9: 40%
        bucket 10: 20%
        bucket 8: 60%
        bucket 9: 50%
        bucket 10: 30%
        bucket 8: 70%
        bucket 9: 60%
        bucket 10: 40%
        bucket 8: 80%
        bucket 9: 70%
        bucket 8: 90%
        bucket 9: 80%
        bucket 10: 50%
        bucket 8: 100%
        Sorting block of length 171 for bucket 8
        (Using difference cover)
        bucket 10: 60%
        bucket 9: 90%
        bucket 9: 100%
        Sorting block of length 339 for bucket 9
        (Using difference cover)
        bucket 10: 70%
        Sorting block time: 00:00:00
      Returning block of 172 for bucket 8
        bucket 10: 80%
        bucket 10: 90%
        bucket 10: 100%
        Sorting block of length 357 for bucket 10
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 340 for bucket 9
        Sorting block time: 00:00:00
      Returning block of 358 for bucket 10
      Getting block 11 of 58
        Reserving size (388) for bucket 11
      Getting block 12 of 58
        Calculating Z arrays for bucket 11
        Reserving size (388) for bucket 12
        Calculating Z arrays for bucket 12
        Entering block accumulator loop for bucket 12:
        Entering block accumulator loop for bucket 11:
        bucket 12: 10%
        bucket 11: 10%
        bucket 12: 20%
      Getting block 13 of 58
        bucket 12: 30%
        bucket 11: 20%
        Reserving size (388) for bucket 13
        Calculating Z arrays for bucket 13
        bucket 12: 40%
        bucket 11: 30%
        Entering block accumulator loop for bucket 13:
        bucket 12: 50%
        bucket 11: 40%
        bucket 13: 10%
        bucket 12: 60%
        bucket 11: 50%
        bucket 12: 70%
        bucket 13: 20%
        bucket 11: 60%
        bucket 12: 80%
        bucket 11: 70%
        bucket 13: 30%
        bucket 12: 90%
        bucket 11: 80%
        bucket 13: 40%
        bucket 12: 100%
        Sorting block of length 185 for bucket 12
        (Using difference cover)
        bucket 11: 90%
        bucket 13: 50%
        bucket 11: 100%
        Sorting block of length 305 for bucket 11
        (Using difference cover)
        bucket 13: 60%
        Sorting block time: 00:00:00
      Returning block of 186 for bucket 12
        bucket 13: 70%
        bucket 13: 80%
        bucket 13: 90%
        bucket 13: 100%
        Sorting block of length 282 for bucket 13
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 306 for bucket 11
        Sorting block time: 00:00:00
      Returning block of 283 for bucket 13
      Getting block 14 of 58
        Reserving size (388) for bucket 14
        Calculating Z arrays for bucket 14
        Entering block accumulator loop for bucket 14:
        bucket 14: 10%
        bucket 14: 20%
        bucket 14: 30%
      Getting block 15 of 58
        Reserving size (388) for bucket 15
        Calculating Z arrays for bucket 15
        bucket 14: 40%
        Entering block accumulator loop for bucket 15:
        bucket 14: 50%
        bucket 15: 10%
        bucket 14: 60%
        bucket 15: 20%
        bucket 14: 70%
        bucket 15: 30%
        bucket 14: 80%
        bucket 15: 40%
        bucket 14: 90%
        bucket 15: 50%
        bucket 14: 100%
        bucket 15: 60%
        Sorting block of length 339 for bucket 14
        (Using difference cover)
        bucket 15: 70%
        bucket 15: 80%
        bucket 15: 90%
        Sorting block time: 00:00:00
      Returning block of 340 for bucket 14
        bucket 15: 100%
        Sorting block of length 241 for bucket 15
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 242 for bucket 15
      Getting block 16 of 58
        Reserving size (388) for bucket 16
        Calculating Z arrays for bucket 16
        Entering block accumulator loop for bucket 16:
        bucket 16: 10%
        bucket 16: 20%
        bucket 16: 30%
      Getting block 17 of 58
        Reserving size (388) for bucket 17
        Calculating Z arrays for bucket 17
        bucket 16: 40%
        Entering block accumulator loop for bucket 17:
        bucket 16: 50%
        bucket 17: 10%
        bucket 16: 60%
        bucket 17: 20%
        bucket 16: 70%
        bucket 17: 30%
        bucket 16: 80%
        bucket 17: 40%
        bucket 16: 90%
        bucket 17: 50%
        bucket 16: 100%
        Sorting block of length 379 for bucket 16
        (Using difference cover)
        bucket 17: 60%
        bucket 17: 70%
        bucket 17: 80%
        bucket 17: 90%
        Sorting block time: 00:00:00
      Returning block of 380 for bucket 16
        bucket 17: 100%
        Sorting block of length 215 for bucket 17
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 216 for bucket 17
      Getting block 18 of 58
        Reserving size (388) for bucket 18
        Calculating Z arrays for bucket 18
        Entering block accumulator loop for bucket 18:
      Getting block 19 of 58
        Reserving size (388) for bucket 19
        Calculating Z arrays for bucket 19
        Entering block accumulator loop for bucket 19:
        bucket 18: 10%
        bucket 19: 10%
        bucket 18: 20%
        bucket 19: 20%
        bucket 18: 30%
        bucket 19: 30%
        bucket 18: 40%
        bucket 19: 40%
        bucket 18: 50%
        bucket 19: 50%
        bucket 18: 60%
        bucket 19: 60%
        bucket 19: 70%
        bucket 18: 70%
        bucket 19: 80%
        bucket 18: 80%
        bucket 19: 90%
        bucket 18: 90%
        bucket 19: 100%
        Sorting block of length 334 for bucket 19
        (Using difference cover)
        bucket 18: 100%
        Sorting block of length 378 for bucket 18
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 379 for bucket 18
        Sorting block time: 00:00:00
      Returning block of 335 for bucket 19
      Getting block 20 of 58
        Reserving size (388) for bucket 20
        Calculating Z arrays for bucket 20
        Entering block accumulator loop for bucket 20:
        bucket 20: 10%
        bucket 20: 20%
        bucket 20: 30%
        bucket 20: 40%
        bucket 20: 50%
        bucket 20: 60%
        bucket 20: 70%
        bucket 20: 80%
        bucket 20: 90%
        bucket 20: 100%
        Sorting block of length 313 for bucket 20
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 314 for bucket 20
      Getting block 21 of 58
        Reserving size (388) for bucket 21
      Getting block 22 of 58
        Calculating Z arrays for bucket 21
        Reserving size (388) for bucket 22
        Calculating Z arrays for bucket 22
        Entering block accumulator loop for bucket 21:
        Entering block accumulator loop for bucket 22:
        bucket 22: 10%
        bucket 21: 10%
        bucket 22: 20%
        bucket 21: 20%
        bucket 22: 30%
        bucket 21: 30%
        bucket 22: 40%
        bucket 21: 40%
        bucket 22: 50%
        bucket 21: 50%
        bucket 22: 60%
        bucket 21: 60%
        bucket 22: 70%
        bucket 21: 70%
        bucket 22: 80%
        bucket 21: 80%
        bucket 22: 90%
        bucket 21: 90%
        bucket 21: 100%
        bucket 22: 100%
        Sorting block of length 210 for bucket 21
        (Using difference cover)
        Sorting block of length 386 for bucket 22
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 387 for bucket 22
        Sorting block time: 00:00:00
      Returning block of 211 for bucket 21
      Getting block 23 of 58
        Reserving size (388) for bucket 23
      Getting block 24 of 58
        Calculating Z arrays for bucket 23
        Reserving size (388) for bucket 24
        Calculating Z arrays for bucket 24
        Entering block accumulator loop for bucket 24:
        Entering block accumulator loop for bucket 23:
        bucket 23: 10%
        bucket 24: 10%
        bucket 24: 20%
        bucket 23: 20%
        bucket 24: 30%
        bucket 23: 30%
        bucket 23: 40%
        bucket 23: 50%
        bucket 23: 60%
        bucket 24: 40%
        bucket 23: 70%
        bucket 24: 50%
        bucket 23: 80%
        bucket 24: 60%
        bucket 24: 70%
        bucket 23: 90%
        bucket 24: 80%
        bucket 23: 100%
        Sorting block of length 238 for bucket 23
        (Using difference cover)
        bucket 24: 90%
        bucket 24: 100%
        Sorting block of length 351 for bucket 24
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 239 for bucket 23
        Sorting block time: 00:00:00
      Returning block of 352 for bucket 24
      Getting block 25 of 58
        Reserving size (388) for bucket 25
      Getting block 26 of 58
        Calculating Z arrays for bucket 25
        Reserving size (388) for bucket 26
        Calculating Z arrays for bucket 26
        Entering block accumulator loop for bucket 25:
        Entering block accumulator loop for bucket 26:
        bucket 25: 10%
        bucket 26: 10%
        bucket 25: 20%
        bucket 26: 20%
        bucket 25: 30%
        bucket 26: 30%
        bucket 25: 40%
        bucket 25: 50%
        bucket 26: 40%
        bucket 25: 60%
        bucket 26: 50%
        bucket 25: 70%
        bucket 25: 80%
        bucket 26: 60%
        bucket 25: 90%
        bucket 26: 70%
        bucket 25: 100%
        Sorting block of length 105 for bucket 25
        (Using difference cover)
        bucket 26: 80%
        bucket 26: 90%
        Sorting block time: 00:00:00
      Returning block of 106 for bucket 25
        bucket 26: 100%
        Sorting block of length 354 for bucket 26
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 355 for bucket 26
      Getting block 27 of 58
        Reserving size (388) for bucket 27
        Calculating Z arrays for bucket 27
        Entering block accumulator loop for bucket 27:
        bucket 27: 10%
        bucket 27: 20%
        bucket 27: 30%
        bucket 27: 40%
        bucket 27: 50%
        bucket 27: 60%
        bucket 27: 70%
        bucket 27: 80%
        bucket 27: 90%
        bucket 27: 100%
        Sorting block of length 334 for bucket 27
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 335 for bucket 27
      Getting block 28 of 58
        Reserving size (388) for bucket 28
        Calculating Z arrays for bucket 28
      Getting block 29 of 58
        Entering block accumulator loop for bucket 28:
        Reserving size (388) for bucket 29
        Calculating Z arrays for bucket 29
        Entering block accumulator loop for bucket 29:
        bucket 28: 10%
        bucket 28: 20%
        bucket 29: 10%
        bucket 28: 30%
        bucket 28: 40%
        bucket 29: 20%
      Getting block 30 of 58
        bucket 28: 50%
        Reserving size (388) for bucket 30
        Calculating Z arrays for bucket 30
        bucket 29: 30%
        Entering block accumulator loop for bucket 30:
        bucket 28: 60%
        bucket 29: 40%
        bucket 30: 10%
        bucket 28: 70%
        bucket 29: 50%
        bucket 30: 20%
        bucket 28: 80%
        bucket 28: 90%
        bucket 29: 60%
        bucket 30: 30%
        bucket 28: 100%
        Sorting block of length 253 for bucket 28
        (Using difference cover)
        bucket 29: 70%
        bucket 30: 40%
        bucket 29: 80%
        bucket 30: 50%
        bucket 29: 90%
        bucket 30: 60%
        Sorting block time: 00:00:00
      Returning block of 254 for bucket 28
        bucket 29: 100%
        Sorting block of length 289 for bucket 29
        (Using difference cover)
        bucket 30: 70%
        bucket 30: 80%
        bucket 30: 90%
        Sorting block time: 00:00:00
      Returning block of 290 for bucket 29
        bucket 30: 100%
        Sorting block of length 345 for bucket 30
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 346 for bucket 30
      Getting block 31 of 58
        Reserving size (388) for bucket 31
        Calculating Z arrays for bucket 31
        Entering block accumulator loop for bucket 31:
        bucket 31: 10%
      Getting block 32 of 58
        Reserving size (388) for bucket 32
        bucket 31: 20%
        Calculating Z arrays for bucket 32
        Entering block accumulator loop for bucket 32:
        bucket 31: 30%
        bucket 31: 40%
        bucket 32: 10%
        bucket 31: 50%
        bucket 32: 20%
        bucket 31: 60%
        bucket 32: 30%
        bucket 31: 70%
        bucket 32: 40%
        bucket 31: 80%
        bucket 31: 90%
        bucket 32: 50%
        bucket 31: 100%
        Sorting block of le
      ..
      0:00
      Returning block of 350 for bucket 23
      Getting block 24 of 57
        Reserving size (388) for bucket 24
        Calculating Z arrays for bucket 24
        Entering block accumulator loop for bucket 24:
      Getting block 25 of 57
        bucket 24: 10%
        Reserving size (388) for bucket 25
        Calculating Z arrays for bucket 25
        Entering block accumulator loop for bucket 25:
        bucket 24: 20%
      Getting block 26 of 57
        bucket 25: 10%
        bucket 24: 30%
        Reserving size (388) for bucket 26
        Calculating Z arrays for bucket 26
        Entering block accumulator loop for bucket 26:
        bucket 25: 20%
        bucket 24: 40%
        bucket 25: 30%
        bucket 26: 10%
        bucket 24: 50%
        bucket 25: 40%
        bucket 26: 20%
        bucket 24: 60%
        bucket 25: 50%
        bucket 26: 30%
        bucket 25: 60%
        bucket 24: 70%
        bucket 25: 70%
        bucket 26: 40%
        bucket 24: 80%
        bucket 25: 80%
        bucket 26: 50%
        bucket 25: 90%
        bucket 24: 90%
        bucket 26: 60%
        bucket 25: 100%
        bucket 26: 70%
        bucket 24: 100%
        Sorting block of length 286 for bucket 25
        (Using difference cover)
        Sorting block of length 245 for bucket 24
        (Using difference cover)
        bucket 26: 80%
        bucket 26: 90%
        bucket 26: 100%
        Sorting block of length 384 for bucket 26
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 246 for bucket 24
        Sorting block time: 00:00:00
      Returning block of 287 for bucket 25
        Sorting block time: 00:00:00
      Returning block of 385 for bucket 26
      Getting block 27 of 57
        Reserving size (388) for bucket 27
      Getting block 28 of 57
        Calculating Z arrays for bucket 27
        Reserving size (388) for bucket 28
        Calculating Z arrays for bucket 28
        Entering block accumulator loop for bucket 27:
        Entering block accumulator loop for bucket 28:
        bucket 28: 10%
        bucket 27: 10%
        bucket 28: 20%
        bucket 27: 20%
        bucket 27: 30%
        bucket 28: 30%
        bucket 27: 40%
        bucket 28: 40%
        bucket 27: 50%
        bucket 28: 50%
        bucket 27: 60%
        bucket 28: 60%
        bucket 27: 70%
        bucket 28: 70%
        bucket 27: 80%
        bucket 28: 80%
        bucket 27: 90%
        bucket 28: 90%
        bucket 27: 100%
        Sorting block of length 359 for bucket 27
        (Using difference cover)
        bucket 28: 100%
        Sorting block of length 387 for bucket 28
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 360 for bucket 27
        Sorting block time: 00:00:00
      Returning block of 388 for bucket 28
      Getting block 29 of 57
        Reserving size (388) for bucket 29
        Calculating Z arrays for bucket 29
        Entering block accumulator loop for bucket 29:
        bucket 29: 10%
        bucket 29: 20%
        bucket 29: 30%
        bucket 29: 40%
        bucket 29: 50%
        bucket 29: 60%
        bucket 29: 70%
        bucket 29: 80%
        bucket 29: 90%
        bucket 29: 100%
        Sorting block of length 195 for bucket 29
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 196 for bucket 29
      Getting block 30 of 57
        Reserving size (388) for bucket 30
        Calculating Z arrays for bucket 30
        Entering block accumulator loop for bucket 30:
        bucket 30: 10%
      Getting block 31 of 57
        bucket 30: 20%
        Reserving size (388) for bucket 31
        Calculating Z arrays for bucket 31
        Entering block accumulator loop for bucket 31:
        bucket 30: 30%
        bucket 30: 40%
        bucket 31: 10%
        bucket 30: 50%
        bucket 31: 20%
        bucket 30: 60%
        bucket 31: 30%
        bucket 30: 70%
        bucket 30: 80%
        bucket 31: 40%
        bucket 30: 90%
        bucket 31: 50%
        bucket 30: 100%
        Sorting block of length 257 for bucket 30
        (Using difference cover)
        bucket 31: 60%
        bucket 31: 70%
        bucket 31: 80%
        Sorting block time: 00:00:00
      Returning block of 258 for bucket 30
        bucket 31: 90%
        bucket 31: 100%
        Sorting block of length 310 for bucket 31
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 311 for bucket 31
      Getting block 32 of 57
        Reserving size (388) for bucket 32
        Calculating Z arrays for bucket 32
        Entering block accumulator loop for bucket 32:
        bucket 32: 10%
        bucket 32: 20%
      Getting block 33 of 57
        bucket 32: 30%
        Reserving size (388) for bucket 33
        Calculating Z arrays for bucket 33
        Entering block accumulator loop for bucket 33:
        bucket 32: 40%
        bucket 33: 10%
        bucket 32: 50%
        bucket 33: 20%
        bucket 32: 60%
        bucket 33: 30%
        bucket 32: 70%
        bucket 32: 80%
        bucket 33: 40%
        bucket 33: 50%
        bucket 32: 90%
        bucket 33: 60%
        bucket 32: 100%
        Sorting block of length 219 for bucket 32
        (Using difference cover)
        bucket 33: 70%
        bucket 33: 80%
        bucket 33: 90%
        Sorting block time: 00:00:00
      Returning block of 220 for bucket 32
        bucket 33: 100%
        Sorting block of length 387 for bucket 33
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 388 for bucket 33
      Getting block 34 of 57
        Reserving size (388) for bucket 34
      Getting block 35 of 57
        Calculating Z arrays for bucket 34
        Reserving size (388) for bucket 35
        Calculating Z arrays for bucket 35
        Entering block accumulator loop for bucket 34:
        Entering block accumulator loop for bucket 35:
        bucket 35: 10%
        bucket 34: 10%
        bucket 35: 20%
        bucket 34: 20%
        bucket 35: 30%
        bucket 34: 30%
        bucket 35: 40%
        bucket 34: 40%
        bucket 35: 50%
        bucket 35: 60%
        bucket 34: 50%
        bucket 35: 70%
        bucket 34: 60%
        bucket 35: 80%
        bucket 34: 70%
        bucket 35: 90%
        bucket 34: 80%
        bucket 35: 100%
        Sorting block of length 350 for bucket 35
        (Using difference cover)
        bucket 34: 90%
        bucket 34: 100%
        Sorting block of length 275 for bucket 34
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 351 for bucket 35
        Sorting block time: 00:00:00
      Returning block of 276 for bucket 34
      Getting block 37 of 57
      Getting block 36 of 57
        Reserving size (388) for bucket 37
        Reserving size (388) for bucket 36
        Calculating Z arrays for bucket 37
        Calculating Z arrays for bucket 36
      Getting block 38 of 57
        Entering block accumulator loop for bucket 37:
        Entering block accumulator loop for bucket 36:
        Reserving size (388) for bucket 38
        Calculating Z arrays for bucket 38
        Entering block accumulator loop for bucket 38:
        bucket 38: 10%
        bucket 37: 10%
        bucket 36: 10%
        bucket 38: 20%
        bucket 37: 20%
        bucket 38: 30%
        bucket 37: 30%
        bucket 36: 20%
        bucket 38: 40%
        bucket 37: 40%
        bucket 36: 30%
        bucket 38: 50%
        bucket 38: 60%
        bucket 37: 50%
        bucket 36: 40%
        bucket 38: 70%
        bucket 37: 60%
        bucket 36: 50%
        bucket 38: 80%
        bucket 38: 90%
        bucket 37: 70%
        bucket 36: 60%
        bucket 38: 100%
        Sorting block of length 337 for bucket 38
        (Using difference cover)
        bucket 37: 80%
        bucket 36: 70%
        bucket 37: 90%
        bucket 36: 80%
        bucket 37: 100%
        bucket 36: 90%
        Sorting block of length 267 for bucket 37
        (Using difference cover)
        bucket 36: 100%
        Sorting block of length 150 for bucket 36
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 338 for bucket 38
        Sorting block time: 00:00:00
      Returning block of 151 for bucket 36
        Sorting block time: 00:00:00
      Returning block of 268 for bucket 37
      Getting block 39 of 57
        Reserving size (388) for bucket 39
        Calculating Z arrays for bucket 39
        Entering block accumulator loop for bucket 39:
        bucket 39: 10%
        bucket 39: 20%
        bucket 39: 30%
        bucket 39: 40%
        bucket 39: 50%
        bucket 39: 60%
        bucket 39: 70%
        bucket 39: 80%
        bucket 39: 90%
        bucket 39: 100%
        Sorting block of length 387 for bucket 39
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 388 for bucket 39
      Getting block 40 of 57
        Reserving size (388) for bucket 40
      Getting block 41 of 57
        Calculating Z arrays for bucket 40
        Reserving size (388) for bucket 41
        Calculating Z arrays for bucket 41
      Getting block 42 of 57
        Entering block accumulator loop for bucket 40:
        Entering block accumulator loop for bucket 41:
        Reserving size (388) for bucket 42
        Calculating Z arrays for bucket 42
        Entering block accumulator loop for bucket 42:
        bucket 41: 10%
        bucket 40: 10%
        bucket 42: 10%
        bucket 41: 20%
        bucket 40: 20%
        bucket 42: 20%
        bucket 41: 30%
        bucket 40: 30%
        bucket 42: 30%
        bucket 41: 40%
        bucket 40: 40%
        bucket 42: 40%
        bucket 41: 50%
        bucket 40: 50%
        bucket 42: 50%
        bucket 40: 60%
        bucket 41: 60%
        bucket 42: 60%
        bucket 41: 70%
        bucket 42: 70%
        bucket 41: 80%
        bucket 42: 80%
        bucket 41: 90%
        bucket 40: 70%
        bucket 42: 90%
        bucket 41: 100%
        Sorting block of length 330 for bucket 41
        (Using difference cover)
        bucket 42: 100%
        Sorting block of length 188 for bucket 42
        (Using difference cover)
        bucket 40: 80%
        bucket 40: 90%
        bucket 40: 100%
        Sorting block of length 379 for bucket 40
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 189 for bucket 42
        Sorting block time: 00:00:00
      Returning block of 331 for bucket 41
        Sorting block time: 00:00:00
      Returning block of 380 for bucket 40
      Getting block 43 of 57
        Reserving size (388) for bucket 43
        Calculating Z arrays for bucket 43
        Entering block accumulator loop for bucket 43:
      Getting block 44 of 57
        Reserving size (388) for bucket 44
        bucket 43: 10%
        Calculating Z arrays for bucket 44
        Entering block accumulator loop for bucket 44:
        bucket 43: 20%
        bucket 44: 10%
        bucket 43: 30%
        bucket 43: 40%
        bucket 44: 20%
        bucket 43: 50%
        bucket 44: 30%
        bucket 44: 40%
        bucket 43: 60%
        bucket 43: 70%
        bucket 44: 50%
        bucket 44: 60%
        bucket 43: 80%
        bucket 44: 70%
        bucket 43: 90%
        bucket 43: 100%
        Sorting block of length 321 for bucket 43
        (Using difference cover)
        bucket 44: 80%
        bucket 44: 90%
        bucket 44: 100%
        Sorting block of length 366 for bucket 44
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 322 for bucket 43
        Sorting block time: 00:00:00
      Returning block of 367 for bucket 44
      Getting block 45 of 57
        Reserving size (388) for bucket 45
        Calculating Z arrays for bucket 45
      Getting block 46 of 57
        Entering block accumulator loop for bucket 45:
        Reserving size (388) for bucket 46
        Calculating Z arrays for bucket 46
        Entering block accumulator loop for bucket 46:
        bucket 45: 10%
        bucket 46: 10%
        bucket 46: 20%
        bucket 45: 20%
        bucket 46: 30%
        bucket 45: 30%
        bucket 46: 40%
        bucket 45: 40%
        bucket 45: 50%
        bucket 46: 50%
        bucket 46: 60%
        bucket 45: 60%
        bucket 45: 70%
        bucket 46: 70%
        bucket 45: 80%
        bucket 46: 80%
        bucket 45: 90%
        bucket 46: 90%
        bucket 45: 100%
        Sorting block of length 365 for bucket 45
        (Using difference cover)
        bucket 46: 100%
        Sorting block of length 253 for bucket 46
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 366 for bucket 45
        Sorting block time: 00:00:00
      Returning block of 254 for bucket 46
      Getting block 47 of 57
        Reserving size (388) for bucket 47
        Calculating Z arrays for bucket 47
      Getting block 48 of 57
        Entering block accumulator loop for bucket 47:
        Reserving size (388) for bucket 48
        Calculating Z arrays for bucket 48
        Entering block accumulator loop for bucket 48:
        bucket 47: 10%
        bucket 48: 10%
        bucket 47: 20%
        bucket 48: 20%
        bucket 47: 30%
        bucket 48: 30%
        bucket 47: 40%
        bucket 48: 40%
        bucket 47: 50%
        bucket 48: 50%
        bucket 47: 60%
        bucket 48: 60%
        bucket 47: 70%
        bucket 48: 70%
        bucket 47: 80%
        bucket 48: 80%
        bucket 47: 90%
        bucket 48: 90%
        bucket 47: 100%
        Sorting block of length 217 for bucket 47
        (Using difference cover)
        bucket 48: 100%
        Sorting block of length 384 for bucket 48
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 385 for bucket 48
        Sorting block time: 00:00:00
      Returning block of 218 for bucket 47
      Getting block 49 of 57
        Reserving size (388) for bucket 49
        Calculating Z arrays for bucket 49
        Entering block accumulator loop for bucket 49:
      Getting block 50 of 57
        Reserving size (388) for bucket 50
        Calculating Z arrays for bucket 50
        bucket 49: 10%
        Entering block accumulator loop for bucket 50:
        bucket 49: 20%
        bucket 50: 10%
        bucket 49: 30%
      Getting block 51 of 57
        Reserving size (388) for bucket 51
        bucket 49: 40%
        bucket 50: 20%
        Calculating Z arrays for bucket 51
        Entering block accumulator loop for bucket 51:
        bucket 49: 50%
        bucket 50: 30%
        bucket 49: 60%
        bucket 51: 10%
        bucket 49: 70%
        bucket 50: 40%
        bucket 51: 20%
        bucket 51: 30%
        bucket 49: 80%
        bucket 50: 50%
        bucket 51: 40%
        bucket 49: 90%
        bucket 49: 100%
        bucket 51: 50%
        bucket 50: 60%
        Sorting block of length 112 for bucket 49
        (Using difference cover)
        bucket 51: 60%
        bucket 51: 70%
        bucket 50: 70%
        bucket 51: 80%
        bucket 50: 80%
        Sorting block time: 00:00:00
      Returning block of 113 for bucket 49
        bucket 51: 90%
        bucket 50: 90%
        bucket 51: 100%
        Sorting block of length 350 for bucket 51
        (Using difference cover)
        bucket 50: 100%
        Sorting block of length 275 for bucket 50
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 351 for bucket 51
        Sorting block time: 00:00:00
      Returning block of 276 for bucket 50
      Getting block 52 of 57
        Reserving size (388) for bucket 52
        Calculating Z arrays for bucket 52
        Entering block accumulator loop for bucket 52:
      Getting block 53 of 57
        bucket 52: 10%
        Reserving size (388) for bucket 53
        Calculating Z arrays for bucket 53
        Entering block accumulator loop for bucket 53:
        bucket 52: 20%
        bucket 53: 10%
        bucket 52: 30%
        bucket 53: 20%
        bucket 52: 40%
        bucket 53: 30%
        bucket 52: 50%
        bucket 53: 40%
        bucket 52: 60%
        bucket 53: 50%
        bucket 52: 70%
        bucket 53: 60%
        bucket 53: 70%
        bucket 52: 80%
        bucket 52: 90%
        bucket 53: 80%
        bucket 52: 100%
        Sorting block of length 378 for bucket 52
        (Using difference cover)
        bucket 53: 90%
        bucket 53: 100%
        Sorting block of length 370 for bucket 53
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 379 for bucket 52
        Sorting block time: 00:00:00
      Returning block of 371 for bucket 53
      Getting block 54 of 57
        Reserving size (388) for bucket 54
        Calculating Z arrays for bucket 54
        Entering block accumulator loop for bucket 54:
      Getting block 55 of 57
        Reserving size (388) for bucket 55
        Calculating Z arrays for bucket 55
        bucket 54: 10%
        Entering block accumulator loop for bucket 55:
        bucket 54: 20%
        bucket 55: 10%
        bucket 54: 30%
        bucket 55: 20%
        bucket 55: 30%
        bucket 54: 40%
        bucket 55: 40%
        bucket 54: 50%
        bucket 54: 60%
        bucket 55: 50%
        bucket 54: 70%
        bucket 55: 60%
        bucket 54: 80%
        bucket 55: 70%
        bucket 54: 90%
        bucket 55: 80%
        bucket 54: 100%
        Sorting block of length 237 for bucket 54
        (Using difference cover)
        bucket 55: 90%
        bucket 55: 100%
        Sorting block of length 344 for bucket 55
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 238 for bucket 54
        Sorting block time: 00:00:00
      Returning block of 345 for bucket 55
      Getting block 56 of 57
        Reserving size (388) for bucket 56
        Calculating Z arrays for bucket 56
        Entering block accumulator loop for bucket 56:
        bucket 56: 10%
        bucket 56: 20%
        bucket 56: 30%
        bucket 56: 40%
        bucket 56: 50%
        bucket 56: 60%
        bucket 56: 70%
        bucket 56: 80%
        bucket 56: 90%
        bucket 56: 100%
        Sorting block of length 270 for bucket 56
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 271 for bucket 56
      Getting block 57 of 57
        Reserving size (388) for bucket 57
        Calculating Z arrays for bucket 57
        Entering block accumulator loop for bucket 57:
        bucket 57: 10%
        bucket 57: 20%
        bucket 57: 30%
        bucket 57: 40%
        bucket 57: 50%
        bucket 57: 60%
        bucket 57: 70%
        bucket 57: 80%
        bucket 57: 90%
        bucket 57: 100%
        Sorting block of length 132 for bucket 57
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 133 for bucket 57
      Exited Ebwt loop
      fchr[A]: 0
      fchr[C]: 5124
      fchr[G]: 10305
      fchr[T]: 12474
      fchr[$]: 16568
      Exiting Ebwt::buildToDisk()
      Returning from initFromVector
      Wrote 4200050 bytes to primary EBWT file: genome.rev.1.bt2.tmp
      Wrote 4148 bytes to secondary EBWT file: genome.rev.2.bt2.tmp
      Re-opening _in1 and _in2 as input streams
      Returning from Ebwt constructor
      Headers:
          len: 16568
          bwtLen: 16569
          sz: 4142
          bwtSz: 4143
          lineRate: 6
          offRate: 4
          offMask: 0xfffffff0
          ftabChars: 10
          eftabLen: 20
          eftabSz: 80
          ftabLen: 1048577
          ftabSz: 4194308
          offsLen: 1036
          offsSz: 4144
          lineSz: 64
          sideSz: 64
          sideBwtSz: 48
          sideBwtLen: 192
          numSides: 87
          numLines: 87
          ebwtTotLen: 5568
          ebwtTotSz: 5568
          color: 0
          reverse: 1
      Total time for backward call to driver() for mirror index: 00:00:01

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | save\_mapping\_stats | ` false ` |
       | sam\_options | ` {"__current_case__": 1, "sam_options_selector": "no"} ` |
       | analysis\_type | ` {"__current_case__": 0, "analysis_type_selector": "simple", "presets": "no_presets"} ` |
       | rg | ` {"__current_case__": 3, "rg_selector": "do_not_set"} ` |
       | reference\_genome | ` {"__current_case__": 1, "own_file": {"values": [{"id": 363, "src": "hda"}]}, "source": "history"} ` |
       | library | ` {"__current_case__": 2, "aligned_file": false, "input_1": {"values": [{"id": 17, "src": "hdca"}]}, "paired_options": {"__current_case__": 1, "paired_options_selector": "no"}, "type": "paired_collection", "unaligned_file": true} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; bowtie2 (Test # 3)</summary><div class="padded">

    **Command Line:**

    * ```console
      set -o | grep -q pipefail && set -o pipefail; bowtie2-build --threads ${GALAXY_SLOTS:-4} '/galaxy/server/database/objects/5/0/e/dataset_50e15f15-357b-45f3-aa3c-f2ce8ea4047f.dat' genome && ln -s -f '/galaxy/server/database/objects/5/0/e/dataset_50e15f15-357b-45f3-aa3c-f2ce8ea4047f.dat' genome.fa &&   ln -f -s '/galaxy/server/database/objects/c/f/4/dataset_cf4d0cba-973e-41ca-a885-b0687729c39f.dat' input_f.fastq &&  ln -f -s '/galaxy/server/database/objects/1/b/5/dataset_1b57fcf6-fac2-4bdb-af5b-5360715e92a6.dat' input_r.fastq &&   THREADS=${GALAXY_SLOTS:-4} && if [ "$THREADS" -gt 1 ]; then (( THREADS-- )); fi &&   bowtie2  -p "$THREADS"  -x 'genome'   -1 'input_f.fastq' -2 'input_r.fastq'                        --rg-id "rg1"  --rg "PL:CAPILLARY"              | samtools sort -l 0 -T "${TMPDIR:-.}" -O bam | samtools view --no-PG -O bam -@ ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/e/6/d/dataset_e6d997a2-4dd4-40ab-a512-1e140c6f16ae.dat'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Error:**

    * ```console
      Building a SMALL index
      Renaming genome.3.bt2.tmp to genome.3.bt2
      Renaming genome.4.bt2.tmp to genome.4.bt2
      Renaming genome.1.bt2.tmp to genome.1.bt2
      Renaming genome.2.bt2.tmp to genome.2.bt2
      Renaming genome.rev.1.bt2.tmp to genome.rev.1.bt2
      Renaming genome.rev.2.bt2.tmp to genome.rev.2.bt2
      100 reads; of these:
        100 (100.00%) were paired; of these:
          97 (97.00%) aligned concordantly 0 times
          3 (3.00%) aligned concordantly exactly 1 time
          0 (0.00%) aligned concordantly >1 times
          ----
          97 pairs aligned concordantly 0 times; of these:
            8 (8.25%) aligned discordantly 1 time
          ----
          89 pairs aligned 0 times concordantly or discordantly; of these:
            178 mates make up the pairs; of these:
              153 (85.96%) aligned 0 times
              25 (14.04%) aligned exactly 1 time
              0 (0.00%) aligned >1 times
      23.50% overall alignment rate

      ```
    **Standard Output:**

    * ```console
      Settings:
        Output files: "genome.*.bt2"
        Line rate: 6 (line is 64 bytes)
        Lines per side: 1 (side is 64 bytes)
        Offset rate: 4 (one in 16)
        FTable chars: 10
        Strings: unpacked
        Max bucket size: default
        Max bucket size, sqrt multiplier: default
        Max bucket size, len divisor: 32
        Difference-cover sample period: 1024
        Endianness: little
        Actual local endianness: little
        Sanity checking: disabled
        Assertions: disabled
        Random seed: 0
        Sizeofs: void*:8, int:4, long:8, size_t:8
      Input files DNA, FASTA:
        /galaxy/server/database/objects/5/0/e/dataset_50e15f15-357b-45f3-aa3c-f2ce8ea4047f.dat
      Reading reference sizes
        Time reading reference sizes: 00:00:00
      Calculating joined length
      Writing header
      Reserving space for joined string
      Joining reference sequences
        Time to join reference sequences: 00:00:00
      bmax according to bmaxDivN setting: 517
      Using parameters --bmax 388 --dcv 1024
        Doing ahead-of-time memory usage test
        Passed!  Constructing with these parameters: --bmax 388 --dcv 1024
      Constructing suffix-array element generator
      Building DifferenceCoverSample
        Building sPrime
        Building sPrimeOrder
        V-Sorting samples
        V-Sorting samples time: 00:00:00
        Allocating rank array
        Ranking v-sort output
        Ranking v-sort output time: 00:00:00
        Invoking Larsson-Sadakane on ranks
        Invoking Larsson-Sadakane on ranks time: 00:00:00
        Sanity-checking and returning
      Building samples
      Reserving space for 86 sample suffixes
      Generating random suffixes
      QSorting 86 sample offsets, eliminating duplicates
      QSorting sample offsets, eliminating duplicates time: 00:00:00
      Multikey QSorting 86 samples
        (Using difference cover)
        Multikey QSorting samples time: 00:00:00
      Calculating bucket sizes
      Splitting and merging
        Splitting and merging time: 00:00:00
      Split 12, merged 41; iterating...
      Splitting and merging
        Splitting and merging time: 00:00:00
      Split 6, merged 6; iterating...
      Splitting and merging
        Splitting and merging time: 00:00:00
      Split 5, merged 3; iterating...
      Splitting and merging
        Splitting and merging time: 00:00:00
      Split 3, merged 3; iterating...
      Splitting and merging
        Splitting and merging time: 00:00:00
      Avg bucket size: 284.672 (target: 387)
      Converting suffix-array elements to index image
      Allocating ftab, absorbFtab
      Entering Ebwt loop
      Getting block 1 of 58
        Reserving size (388) for bucket 1
      Getting block 2 of 58
      Getting block 4 of 58
      Getting block 3 of 58
      Getting block 5 of 58
      Getting block 6 of 58
      Getting block 7 of 58
        Calculating Z arrays for bucket 1
        Reserving size (388) for bucket 2
        Reserving size (388) for bucket 4
        Reserving size (388) for bucket 3
        Reserving size (388) for bucket 5
        Reserving size (388) for bucket 6
        Reserving size (388) for bucket 7
        Calculating Z arrays for bucket 2
        Calculating Z arrays for bucket 4
        Entering block accumulator loop for bucket 1:
        Calculating Z arrays for bucket 3
        Calculating Z arrays for bucket 5
        Calculating Z arrays for bucket 6
        Calculating Z arrays for bucket 7
        Entering block accumulator loop for bucket 2:
        Entering block accumulator loop for bucket 4:
        Entering block accumulator loop for bucket 5:
        Entering block accumulator loop for bucket 3:
        Entering block accumulator loop for bucket 6:
        Entering block accumulator loop for bucket 7:
        bucket 1: 10%
        bucket 2: 10%
        bucket 5: 10%
        bucket 4: 10%
        bucket 1: 20%
        bucket 6: 10%
        bucket 2: 20%
        bucket 3: 10%
        bucket 5: 20%
        bucket 4: 20%
        bucket 7: 10%
        bucket 1: 30%
        bucket 2: 30%
        bucket 6: 20%
        bucket 4: 30%
        bucket 5: 30%
        bucket 1: 40%
        bucket 2: 40%
        bucket 3: 20%
        bucket 7: 20%
        bucket 4: 40%
        bucket 1: 50%
        bucket 2: 50%
        bucket 6: 30%
        bucket 5: 40%
        bucket 4: 50%
        bucket 3: 30%
        bucket 1: 60%
        bucket 2: 60%
        bucket 7: 30%
        bucket 6: 40%
        bucket 5: 50%
        bucket 4: 60%
        bucket 1: 70%
        bucket 2: 70%
        bucket 3: 40%
        bucket 4: 70%
        bucket 7: 40%
        bucket 1: 80%
        bucket 6: 50%
        bucket 2: 80%
        bucket 5: 60%
        bucket 4: 80%
        bucket 3: 50%
        bucket 2: 90%
        bucket 1: 90%
        bucket 7: 50%
        bucket 6: 60%
        bucket 4: 90%
        bucket 5: 70%
        bucket 2: 100%
        bucket 3: 60%
        Sorting block of length 165 for bucket 2
        (Using difference cover)
        bucket 1: 100%
        Sorting block of length 355 for bucket 1
        (Using difference cover)
        bucket 4: 100%
        bucket 6: 70%
        bucket 5: 80%
        bucket 7: 60%
        bucket 3: 70%
        Sorting block of length 328 for bucket 4
        (Using difference cover)
        bucket 6: 80%
        bucket 5: 90%
        bucket 7: 70%
        bucket 3: 80%
        bucket 6: 90%
        bucket 5: 100%
        Sorting block of length 203 for bucket 5
        (Using difference cover)
        bucket 7: 80%
        bucket 3: 90%
        bucket 6: 100%
        Sorting block of length 339 for bucket 6
        (Using difference cover)
        bucket 3: 100%
        bucket 7: 90%
        Sorting block of length 370 for bucket 3
        (Using difference cover)
        bucket 7: 100%
        Sorting block of length 368 for bucket 7
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 340 for bucket 6
        Sorting block time: 00:00:00
      Returning block of 369 for bucket 7
        Sorting block time: 00:00:00
      Returning block of 166 for bucket 2
        Sorting block time: 00:00:00
      Returning block of 204 for bucket 5
        Sorting block time: 00:00:00
      Returning block of 329 for bucket 4
        Sorting block time: 00:00:00
      Returning block of 356 for bucket 1
        Sorting block time: 00:00:00
      Returning block of 371 for bucket 3
      Getting block 8 of 58
        Reserving size (388) for bucket 8
        Calculating Z arrays for bucket 8
        Entering block accumulator loop for bucket 8:
        bucket 8: 10%
        bucket 8: 20%
        bucket 8: 30%
        bucket 8: 40%
        bucket 8: 50%
      Getting block 9 of 58
        bucket 8: 60%
        Reserving size (388) for bucket 9
        Calculating Z arrays for bucket 9
      Getting block 10 of 58
        bucket 8: 70%
        Entering block accumulator loop for bucket 9:
        Reserving size (388) for bucket 10
        Calculating Z arrays for bucket 10
        bucket 8: 80%
        Entering block accumulator loop for bucket 10:
        bucket 9: 10%
        bucket 8: 90%
        bucket 8: 100%
        Sorting block of length 171 for bucket 8
        (Using difference cover)
        bucket 9: 20%
        bucket 10: 10%
        bucket 9: 30%
        bucket 10: 20%
        bucket 9: 40%
        bucket 10: 30%
        bucket 9: 50%
        bucket 9: 60%
        Sorting block time: 00:00:00
        bucket 10: 40%
      Returning block of 172 for bucket 8
        bucket 9: 70%
        bucket 10: 50%
        bucket 9: 80%
        bucket 10: 60%
        bucket 9: 90%
        bucket 10: 70%
        bucket 9: 100%
        Sorting block of length 339 for bucket 9
        (Using difference cover)
        bucket 10: 80%
        bucket 10: 90%
        bucket 10: 100%
        Sorting block of length 357 for bucket 10
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 340 for bucket 9
        Sorting block time: 00:00:00
      Returning block of 358 for bucket 10
      Getting block 11 of 58
        Reserving size (388) for bucket 11
      Getting block 12 of 58
        Calculating Z arrays for bucket 11
        Reserving size (388) for bucket 12
        Entering block accumulator loop for bucket 11:
        Calculating Z arrays for bucket 12
        Entering block accumulator loop for bucket 12:
        bucket 11: 10%
      Getting block 13 of 58
        bucket 12: 10%
        bucket 11: 20%
        Reserving size (388) for bucket 13
        Calculating Z arrays for bucket 13
        bucket 12: 20%
        bucket 11: 30%
        Entering block accumulator loop for bucket 13:
        bucket 12: 30%
        bucket 11: 40%
        bucket 13: 10%
        bucket 12: 40%
        bucket 11: 50%
        bucket 13: 20%
        bucket 12: 50%
        bucket 11: 60%
        bucket 13: 30%
        bucket 11: 70%
        bucket 12: 60%
        bucket 11: 80%
        bucket 12: 70%
        bucket 13: 40%
        bucket 11: 90%
        bucket 12: 80%
        bucket 13: 50%
        bucket 11: 100%
        Sorting block of length 305 for bucket 11
        (Using difference cover)
        bucket 12: 90%
        bucket 13: 60%
        bucket 12: 100%
        Sorting block of length 185 for bucket 12
        (Using difference cover)
        bucket 13: 70%
        bucket 13: 80%
        bucket 13: 90%
        bucket 13: 100%
        Sorting block of length 282 for bucket 13
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 186 for bucket 12
        Sorting block time: 00:00:00
      Returning block of 306 for bucket 11
        Sorting block time: 00:00:00
      Returning block of 283 for bucket 13
      Getting block 14 of 58
        Reserving size (388) for bucket 14
        Calculating Z arrays for bucket 14
        Entering block accumulator loop for bucket 14:
        bucket 14: 10%
        bucket 14: 20%
        bucket 14: 30%
        bucket 14: 40%
        bucket 14: 50%
        bucket 14: 60%
        bucket 14: 70%
        bucket 14: 80%
        bucket 14: 90%
        bucket 14: 100%
        Sorting block of length 339 for bucket 14
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 340 for bucket 14
      Getting block 15 of 58
        Reserving size (388) for bucket 15
        Calculating Z arrays for bucket 15
        Entering block accumulator loop for bucket 15:
        bucket 15: 10%
        bucket 15: 20%
        bucket 15: 30%
      Getting block 16 of 58
        Reserving size (388) for bucket 16
        Calculating Z arrays for bucket 16
        bucket 15: 40%
        Entering block accumulator loop for bucket 16:
        bucket 15: 50%
        bucket 16: 10%
        bucket 16: 20%
        bucket 15: 60%
        bucket 16: 30%
        bucket 15: 70%
        bucket 16: 40%
        bucket 15: 80%
        bucket 16: 50%
        bucket 16: 60%
        bucket 15: 90%
        bucket 16: 70%
        bucket 15: 100%
        Sorting block of length 241 for bucket 15
        (Using difference cover)
        bucket 16: 80%
        bucket 16: 90%
        bucket 16: 100%
        Sorting block of length 379 for bucket 16
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 242 for bucket 15
        Sorting block time: 00:00:00
      Returning block of 380 for bucket 16
      Getting block 17 of 58
        Reserving size (388) for bucket 17
        Calculating Z arrays for bucket 17
        Entering block accumulator loop for bucket 17:
        bucket 17: 10%
        bucket 17: 20%
        bucket 17: 30%
      Getting block 18 of 58
        bucket 17: 40%
        Reserving size (388) for bucket 18
      Getting block 19 of 58
        Calculating Z arrays for bucket 18
        bucket 17: 50%
        Reserving size (388) for bucket 19
        Calculating Z arrays for bucket 19
        Entering block accumulator loop for bucket 18:
        bucket 17: 60%
        Entering block accumulator loop for bucket 19:
        bucket 18: 10%
        bucket 19: 10%
        bucket 17: 70%
        bucket 18: 20%
        bucket 19: 20%
        bucket 17: 80%
        bucket 19: 30%
        bucket 17: 90%
        bucket 18: 30%
        bucket 17: 100%
        bucket 19: 40%
        Sorting block of length 215 for bucket 17
        (Using difference cover)
        bucket 18: 40%
        bucket 19: 50%
        bucket 19: 60%
        bucket 18: 50%
        bucket 19: 70%
        bucket 18: 60%
        bucket 19: 80%
        bucket 19: 90%
        bucket 18: 70%
        Sorting block time: 00:00:00
      Returning block of 216 for bucket 17
        bucket 19: 100%
        Sorting block of length 334 for bucket 19
        (Using difference cover)
        bucket 18: 80%
        bucket 18: 90%
        bucket 18: 100%
        Sorting block time: 00:00:00
        Sorting block of length 378 for bucket 18
        (Using difference cover)
      Returning block of 335 for bucket 19
        Sorting block time: 00:00:00
      Returning block of 379 for bucket 18
      Getting block 20 of 58
        Reserving size (388) for bucket 20
      Getting block 21 of 58
        Calculating Z arrays for bucket 20
        Reserving size (388) for bucket 21
        Calculating Z arrays for bucket 21
        Entering block accumulator loop for bucket 20:
        Entering block accumulator loop for bucket 21:
        bucket 20: 10%
        bucket 21: 10%
        bucket 20: 20%
        bucket 21: 20%
        bucket 20: 30%
        bucket 21: 30%
        bucket 21: 40%
        bucket 20: 40%
        bucket 21: 50%
        bucket 20: 50%
        bucket 20: 60%
        bucket 21: 60%
        bucket 20: 70%
        bucket 21: 70%
        bucket 20: 80%
        bucket 21: 80%
        bucket 20: 90%
        bucket 21: 90%
        bucket 20: 100%
        Sorting block of length 313 for bucket 20
        (Using difference cover)
        bucket 21: 100%
        Sorting block of length 210 for bucket 21
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 211 for bucket 21
        Sorting block time: 00:00:00
      Returning block of 314 for bucket 20
      Getting block 22 of 58
        Reserving size (388) for bucket 22
        Calculating Z arrays for bucket 22
        Entering block accumulator loop for bucket 22:
        bucket 22: 10%
        bucket 22: 20%
        bucket 22: 30%
      Getting block 23 of 58
        bucket 22: 40%
        Reserving size (388) for bucket 23
        Calculating Z arrays for bucket 23
        bucket 22: 50%
        Entering block accumulator loop for bucket 23:
        bucket 22: 60%
        bucket 23: 10%
        bucket 22: 70%
        bucket 23: 20%
        bucket 22: 80%
        bucket 22: 90%
        bucket 22: 100%
        bucket 23: 30%
        Sorting block of length 386 for bucket 22
        (Using difference cover)
        bucket 23: 40%
        bucket 23: 50%
        Sorting block time: 00:00:00
        bucket 23: 60%
      Returning block of 387 for bucket 22
        bucket 23: 70%
        bucket 23: 80%
        bucket 23: 90%
        bucket 23: 100%
        Sorting block of length 238 for bucket 23
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 239 for bucket 23
      Getting block 24 of 58
        Reserving size (388) for bucket 24
      Getting block 25 of 58
        Calculating Z arrays for bucket 24
        Reserving size (388) for bucket 25
        Calculating Z arrays for bucket 25
        Entering block accumulator loop for bucket 24:
        Entering block accumulator loop for bucket 25:
        bucket 24: 10%
        bucket 25: 10%
        bucket 24: 20%
        bucket 25: 20%
        bucket 24: 30%
        bucket 24: 40%
        bucket 25: 30%
        bucket 24: 50%
        bucket 25: 40%
        bucket 24: 60%
        bucket 24: 70%
        bucket 25: 50%
        bucket 24: 80%
        bucket 25: 60%
        bucket 24: 90%
        bucket 24: 100%
        bucket 25: 70%
        Sorting block of length 351 for bucket 24
        (Using difference cover)
        bucket 25: 80%
        bucket 25: 90%
        bucket 25: 100%
        Sorting block of length 105 for bucket 25
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 352 for bucket 24
        Sorting block time: 00:00:00
      Returning block of 106 for bucket 25
      Getting block 26 of 58
        Reserving size (388) for bucket 26
        Calculating Z arrays for bucket 26
        Entering block accumulator loop for bucket 26:
        bucket 26: 10%
        bucket 26: 20%
      Getting block 27 of 58
        bucket 26: 30%
        Reserving size (388) for bucket 27
        Calculating Z arrays for bucket 27
        Entering block accumulator loop for bucket 27:
        bucket 27: 10%
        bucket 26: 40%
        bucket 27: 20%
        bucket 27: 30%
        bucket 26: 50%
        bucket 27: 40%
        bucket 26: 60%
        bucket 27: 50%
        bucket 27: 60%
        bucket 26: 70%
        bucket 27: 70%
        bucket 27: 80%
        bucket 26: 80%
        bucket 27: 90%
        bucket 27: 100%
        Sorting block of length 334 for bucket 27
        (Using difference cover)
        bucket 26: 90%
        bucket 26: 100%
        Sorting block of length 354 for bucket 26
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 335 for bucket 27
        Sorting block time: 00:00:00
      Returning block of 355 for bucket 26
      Getting block 28 of 58
        Reserving size (388) for bucket 28
        Calculating Z arrays for bucket 28
      Getting block 29 of 58
        Reserving size (388) for bucket 29
        Calculating Z arrays for bucket 29
        Entering block accumulator loop for bucket 28:
        Entering block accumulator loop for bucket 29:
      Getting block 30 of 58
        Reserving size (388) for bucket 30
        Calculating Z arrays for bucket 30
        bucket 29: 10%
        bucket 28: 10%
        Entering block accumulator loop for bucket 30:
        bucket 29: 20%
        bucket 28: 20%
        bucket 30: 10%
        bucket 29: 30%
        bucket 28: 30%
        bucket 30: 20%
        bucket 29: 40%
        bucket 30: 30%
        bucket 28: 40%
        bucket 29: 50%
        bucket 30: 40%
        bucket 28: 50%
        bucket 30: 50%
        bucket 28: 60%
        bucket 29: 60%
        bucket 30: 60%
        bucket 28: 70%
        bucket 29: 70%
        bucket 30: 70%
        bucket 28: 80%
        bucket 29: 80%
        bucket 30: 80%
        bucket 28: 90%
        bucket 30: 90%
        bucket 29: 90%
        bucket 28: 100%
        Sorting block of length 253 for bucket 28
        (Using difference cover)
        bucket 30: 100%
        Sorting block of length 345 for bucket 30
        (Using difference cover)
        bucket 29: 100%
        Sorting block of length 289 for bucket 29
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 346 for bucket 30
        Sorting block time: 00:00:00
      Returning block of 290 for bucket 29
        Sorting block time: 00:00:00
      Returning block of 254 for bucket 28
      Getting block 31 of 58
        Reserving size (388) for bucket 31
        Calculating Z arrays for bucket 31
        Entering block accumulator loop for bucket 31:
        bucket 31: 10%
        bucket 31: 20%
        bucket 31: 30%
        bucket 31: 40%
        bucket 31: 50%
        bucket 31: 60%
        bucket 31: 70%
        bucket 31: 80%
        bucket 31: 90%
        bucket 31: 100%
        Sorting block of length 377 for bucket 31
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 378 for bucket 31
      Getting block 32 of 58
        Reserving size (388) for bucket 32
      Getting block 33 of 58
        Calculating Z arrays for buc
      ..
      ucket 23: 50%
        bucket 23: 60%
        bucket 24: 40%
        bucket 23: 70%
        bucket 23: 80%
        bucket 24: 50%
        bucket 23: 90%
        bucket 24: 60%
        bucket 23: 100%
        Sorting block of length 349 for bucket 23
        (Using difference cover)
        bucket 24: 70%
        bucket 24: 80%
        bucket 24: 90%
        Sorting block time: 00:00:00
      Returning block of 350 for bucket 23
        bucket 24: 100%
        Sorting block of length 245 for bucket 24
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 246 for bucket 24
      Getting block 25 of 57
        Reserving size (388) for bucket 25
        Calculating Z arrays for bucket 25
        Entering block accumulator loop for bucket 25:
        bucket 25: 10%
        bucket 25: 20%
        bucket 25: 30%
      Getting block 26 of 57
        bucket 25: 40%
        Reserving size (388) for bucket 26
        Calculating Z arrays for bucket 26
        Entering block accumulator loop for bucket 26:
        bucket 25: 50%
        bucket 26: 10%
        bucket 25: 60%
        bucket 26: 20%
        bucket 25: 70%
        bucket 26: 30%
        bucket 25: 80%
        bucket 26: 40%
        bucket 26: 50%
        bucket 25: 90%
        bucket 26: 60%
        bucket 25: 100%
        Sorting block of length 286 for bucket 25
        (Using difference cover)
        bucket 26: 70%
        bucket 26: 80%
        bucket 26: 90%
        Sorting block time: 00:00:00
      Returning block of 287 for bucket 25
        bucket 26: 100%
        Sorting block of length 384 for bucket 26
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 385 for bucket 26
      Getting block 27 of 57
        Reserving size (388) for bucket 27
        Calculating Z arrays for bucket 27
        Entering block accumulator loop for bucket 27:
        bucket 27: 10%
        bucket 27: 20%
        bucket 27: 30%
        bucket 27: 40%
      Getting block 28 of 57
        bucket 27: 50%
        Reserving size (388) for bucket 28
        Calculating Z arrays for bucket 28
        bucket 27: 60%
        Entering block accumulator loop for bucket 28:
        bucket 27: 70%
        bucket 28: 10%
        bucket 27: 80%
        bucket 27: 90%
        bucket 28: 20%
        bucket 27: 100%
        Sorting block of length 359 for bucket 27
        (Using difference cover)
        bucket 28: 30%
        bucket 28: 40%
        bucket 28: 50%
        Sorting block time: 00:00:00
      Returning block of 360 for bucket 27
        bucket 28: 60%
        bucket 28: 70%
        bucket 28: 80%
        bucket 28: 90%
        bucket 28: 100%
        Sorting block of length 387 for bucket 28
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 388 for bucket 28
      Getting block 29 of 57
        Reserving size (388) for bucket 29
        Calculating Z arrays for bucket 29
      Getting block 30 of 57
        Entering block accumulator loop for bucket 29:
        Reserving size (388) for bucket 30
        Calculating Z arrays for bucket 30
      Getting block 31 of 57
        Entering block accumulator loop for bucket 30:
        Reserving size (388) for bucket 31
        Calculating Z arrays for bucket 31
        bucket 29: 10%
        Entering block accumulator loop for bucket 31:
        bucket 30: 10%
        bucket 29: 20%
        bucket 31: 10%
        bucket 30: 20%
        bucket 29: 30%
        bucket 31: 20%
        bucket 30: 30%
        bucket 29: 40%
        bucket 31: 30%
        bucket 30: 40%
        bucket 29: 50%
        bucket 31: 40%
        bucket 29: 60%
        bucket 30: 50%
        bucket 31: 50%
        bucket 29: 70%
        bucket 31: 60%
        bucket 30: 60%
        bucket 29: 80%
        bucket 31: 70%
        bucket 30: 70%
        bucket 29: 90%
        bucket 31: 80%
        bucket 29: 100%
        bucket 30: 80%
        Sorting block of length 195 for bucket 29
        (Using difference cover)
        bucket 31: 90%
        bucket 30: 90%
        bucket 31: 100%
        Sorting block of length 310 for bucket 31
        (Using difference cover)
        bucket 30: 100%
        Sorting block of length 257 for bucket 30
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 196 for bucket 29
        Sorting block time: 00:00:00
      Returning block of 311 for bucket 31
        Sorting block time: 00:00:00
      Returning block of 258 for bucket 30
      Getting block 32 of 57
        Reserving size (388) for bucket 32
        Calculating Z arrays for bucket 32
      Getting block 33 of 57
        Entering block accumulator loop for bucket 32:
        Reserving size (388) for bucket 33
        Calculating Z arrays for bucket 33
        Entering block accumulator loop for bucket 33:
        bucket 32: 10%
        bucket 33: 10%
        bucket 32: 20%
        bucket 33: 20%
        bucket 32: 30%
        bucket 33: 30%
        bucket 32: 40%
        bucket 33: 40%
        bucket 32: 50%
        bucket 33: 50%
        bucket 32: 60%
        bucket 33: 60%
        bucket 32: 70%
        bucket 33: 70%
        bucket 32: 80%
        bucket 32: 90%
        bucket 33: 80%
        bucket 32: 100%
        bucket 33: 90%
        Sorting block of length 219 for bucket 32
        (Using difference cover)
        bucket 33: 100%
        Sorting block of length 387 for bucket 33
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 220 for bucket 32
        Sorting block time: 00:00:00
      Returning block of 388 for bucket 33
      Getting block 34 of 57
        Reserving size (388) for bucket 34
      Getting block 35 of 57
        Calculating Z arrays for bucket 34
        Reserving size (388) for bucket 35
        Calculating Z arrays for bucket 35
        Entering block accumulator loop for bucket 35:
        Entering block accumulator loop for bucket 34:
        bucket 35: 10%
        bucket 34: 10%
        bucket 35: 20%
        bucket 34: 20%
        bucket 34: 30%
        bucket 35: 30%
        bucket 34: 40%
        bucket 35: 40%
        bucket 34: 50%
        bucket 35: 50%
        bucket 35: 60%
        bucket 34: 60%
        bucket 35: 70%
        bucket 34: 70%
        bucket 35: 80%
        bucket 34: 80%
        bucket 35: 90%
        bucket 34: 90%
        bucket 35: 100%
        Sorting block of length 350 for bucket 35
        (Using difference cover)
        bucket 34: 100%
        Sorting block of length 275 for bucket 34
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 351 for bucket 35
        Sorting block time: 00:00:00
      Returning block of 276 for bucket 34
      Getting block 36 of 57
        Reserving size (388) for bucket 36
        Calculating Z arrays for bucket 36
        Entering block accumulator loop for bucket 36:
        bucket 36: 10%
        bucket 36: 20%
      Getting block 37 of 57
        Reserving size (388) for bucket 37
        Calculating Z arrays for bucket 37
        bucket 36: 30%
        Entering block accumulator loop for bucket 37:
        bucket 36: 40%
        bucket 37: 10%
        bucket 36: 50%
        bucket 37: 20%
        bucket 36: 60%
        bucket 36: 70%
        bucket 37: 30%
        bucket 36: 80%
        bucket 37: 40%
        bucket 36: 90%
        bucket 37: 50%
        bucket 36: 100%
        bucket 37: 60%
        Sorting block of length 150 for bucket 36
        (Using difference cover)
        bucket 37: 70%
        bucket 37: 80%
        bucket 37: 90%
        bucket 37: 100%
        Sorting block of length 267 for bucket 37
        Sorting block time: 00:00:00
        (Using difference cover)
      Returning block of 151 for bucket 36
        Sorting block time: 00:00:00
      Returning block of 268 for bucket 37
      Getting block 38 of 57
        Reserving size (388) for bucket 38
        Calculating Z arrays for bucket 38
        Entering block accumulator loop for bucket 38:
        bucket 38: 10%
        bucket 38: 20%
        bucket 38: 30%
        bucket 38: 40%
        bucket 38: 50%
        bucket 38: 60%
        bucket 38: 70%
        bucket 38: 80%
        bucket 38: 90%
        bucket 38: 100%
        Sorting block of length 337 for bucket 38
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 338 for bucket 38
      Getting block 39 of 57
        Reserving size (388) for bucket 39
        Calculating Z arrays for bucket 39
        Entering block accumulator loop for bucket 39:
        bucket 39: 10%
        bucket 39: 20%
      Getting block 40 of 57
        bucket 39: 30%
        Reserving size (388) for bucket 40
        Calculating Z arrays for bucket 40
      Getting block 41 of 57
        bucket 39: 40%
        Entering block accumulator loop for bucket 40:
        Reserving size (388) for bucket 41
        Calculating Z arrays for bucket 41
        bucket 39: 50%
        Entering block accumulator loop for bucket 41:
        bucket 40: 10%
        bucket 39: 60%
        bucket 41: 10%
        bucket 39: 70%
        bucket 40: 20%
        bucket 39: 80%
        bucket 41: 20%
        bucket 39: 90%
        bucket 40: 30%
        bucket 41: 30%
        bucket 39: 100%
        Sorting block of length 387 for bucket 39
        (Using difference cover)
        bucket 40: 40%
        bucket 41: 40%
        bucket 40: 50%
        bucket 40: 60%
        bucket 41: 50%
        bucket 40: 70%
        bucket 41: 60%
        bucket 40: 80%
        Sorting block time: 00:00:00
      Returning block of 388 for bucket 39
        bucket 41: 70%
        bucket 40: 90%
        bucket 41: 80%
        bucket 40: 100%
        Sorting block of length 379 for bucket 40
        (Using difference cover)
        bucket 41: 90%
        bucket 41: 100%
        Sorting block of length 330 for bucket 41
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 380 for bucket 40
        Sorting block time: 00:00:00
      Returning block of 331 for bucket 41
      Getting block 42 of 57
        Reserving size (388) for bucket 42
        Calculating Z arrays for bucket 42
        Entering block accumulator loop for bucket 42:
        bucket 42: 10%
        bucket 42: 20%
        bucket 42: 30%
        bucket 42: 40%
        bucket 42: 50%
        bucket 42: 60%
        bucket 42: 70%
        bucket 42: 80%
        bucket 42: 90%
        bucket 42: 100%
        Sorting block of length 188 for bucket 42
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 189 for bucket 42
      Getting block 43 of 57
        Reserving size (388) for bucket 43
        Calculating Z arrays for bucket 43
        Entering block accumulator loop for bucket 43:
        bucket 43: 10%
        bucket 43: 20%
        bucket 43: 30%
        bucket 43: 40%
      Getting block 44 of 57
        Reserving size (388) for bucket 44
        Calculating Z arrays for bucket 44
        bucket 43: 50%
        Entering block accumulator loop for bucket 44:
        bucket 43: 60%
        bucket 43: 70%
        bucket 44: 10%
        bucket 43: 80%
        bucket 43: 90%
        bucket 44: 20%
        bucket 43: 100%
        Sorting block of length 321 for bucket 43
        (Using difference cover)
        bucket 44: 30%
        bucket 44: 40%
        bucket 44: 50%
        Sorting block time: 00:00:00
      Returning block of 322 for bucket 43
        bucket 44: 60%
        bucket 44: 70%
        bucket 44: 80%
        bucket 44: 90%
        bucket 44: 100%
        Sorting block of length 366 for bucket 44
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 367 for bucket 44
      Getting block 45 of 57
        Reserving size (388) for bucket 45
        Calculating Z arrays for bucket 45
        Entering block accumulator loop for bucket 45:
        bucket 45: 10%
        bucket 45: 20%
        bucket 45: 30%
      Getting block 46 of 57
        bucket 45: 40%
        Reserving size (388) for bucket 46
        Calculating Z arrays for bucket 46
        Entering block accumulator loop for bucket 46:
        bucket 45: 50%
        bucket 46: 10%
        bucket 45: 60%
        bucket 46: 20%
        bucket 45: 70%
        bucket 46: 30%
        bucket 45: 80%
        bucket 46: 40%
        bucket 45: 90%
        bucket 46: 50%
        bucket 45: 100%
        Sorting block of length 365 for bucket 45
        (Using difference cover)
        bucket 46: 60%
        bucket 46: 70%
        bucket 46: 80%
        bucket 46: 90%
        Sorting block time: 00:00:00
      Returning block of 366 for bucket 45
        bucket 46: 100%
        Sorting block of length 253 for bucket 46
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 254 for bucket 46
      Getting block 47 of 57
        Reserving size (388) for bucket 47
        Calculating Z arrays for bucket 47
        Entering block accumulator loop for bucket 47:
        bucket 47: 10%
        bucket 47: 20%
      Getting block 48 of 57
        Reserving size (388) for bucket 48
        Calculating Z arrays for bucket 48
        bucket 47: 30%
        Entering block accumulator loop for bucket 48:
        bucket 47: 40%
        bucket 48: 10%
        bucket 48: 20%
        bucket 47: 50%
        bucket 48: 30%
        bucket 47: 60%
        bucket 48: 40%
        bucket 47: 70%
        bucket 48: 50%
        bucket 47: 80%
        bucket 48: 60%
        bucket 47: 90%
        bucket 48: 70%
        bucket 48: 80%
        bucket 47: 100%
        Sorting block of length 217 for bucket 47
        (Using difference cover)
        bucket 48: 90%
        bucket 48: 100%
        Sorting block of length 384 for bucket 48
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 218 for bucket 47
        Sorting block time: 00:00:00
      Returning block of 385 for bucket 48
      Getting block 49 of 57
        Reserving size (388) for bucket 49
        Calculating Z arrays for bucket 49
        Entering block accumulator loop for bucket 49:
        bucket 49: 10%
        bucket 49: 20%
        bucket 49: 30%
        bucket 49: 40%
        bucket 49: 50%
        bucket 49: 60%
        bucket 49: 70%
        bucket 49: 80%
        bucket 49: 90%
        bucket 49: 100%
        Sorting block of length 112 for bucket 49
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 113 for bucket 49
      Getting block 50 of 57
        Reserving size (388) for bucket 50
        Calculating Z arrays for bucket 50
        Entering block accumulator loop for bucket 50:
        bucket 50: 10%
        bucket 50: 20%
      Getting block 51 of 57
        Reserving size (388) for bucket 51
        Calculating Z arrays for bucket 51
        bucket 50: 30%
        Entering block accumulator loop for bucket 51:
        bucket 51: 10%
        bucket 50: 40%
        bucket 51: 20%
        bucket 50: 50%
        bucket 51: 30%
        bucket 51: 40%
        bucket 50: 60%
        bucket 51: 50%
        bucket 50: 70%
        bucket 51: 60%
        bucket 51: 70%
        bucket 50: 80%
        bucket 51: 80%
        bucket 51: 90%
        bucket 50: 90%
        bucket 51: 100%
        Sorting block of length 350 for bucket 51
        (Using difference cover)
        bucket 50: 100%
        Sorting block of length 275 for bucket 50
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 351 for bucket 51
        Sorting block time: 00:00:00
      Returning block of 276 for bucket 50
      Getting block 52 of 57
        Reserving size (388) for bucket 52
        Calculating Z arrays for bucket 52
      Getting block 53 of 57
        Entering block accumulator loop for bucket 52:
        Reserving size (388) for bucket 53
        Calculating Z arrays for bucket 53
        Entering block accumulator loop for bucket 53:
        bucket 52: 10%
        bucket 53: 10%
        bucket 52: 20%
        bucket 53: 20%
        bucket 52: 30%
        bucket 53: 30%
        bucket 52: 40%
        bucket 53: 40%
        bucket 52: 50%
        bucket 53: 50%
        bucket 52: 60%
        bucket 53: 60%
        bucket 52: 70%
        bucket 53: 70%
        bucket 52: 80%
        bucket 53: 80%
        bucket 52: 90%
        bucket 53: 90%
        bucket 52: 100%
        Sorting block of length 378 for bucket 52
        (Using difference cover)
        bucket 53: 100%
        Sorting block of length 370 for bucket 53
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 379 for bucket 52
        Sorting block time: 00:00:00
      Returning block of 371 for bucket 53
      Getting block 54 of 57
        Reserving size (388) for bucket 54
        Calculating Z arrays for bucket 54
        Entering block accumulator loop for bucket 54:
        bucket 54: 10%
        bucket 54: 20%
        bucket 54: 30%
      Getting block 55 of 57
        bucket 54: 40%
        Reserving size (388) for bucket 55
        Calculating Z arrays for bucket 55
        Entering block accumulator loop for bucket 55:
        bucket 54: 50%
        bucket 54: 60%
        bucket 55: 10%
        bucket 54: 70%
        bucket 55: 20%
        bucket 54: 80%
        bucket 55: 30%
        bucket 54: 90%
        bucket 54: 100%
        bucket 55: 40%
        Sorting block of length 237 for bucket 54
        (Using difference cover)
        bucket 55: 50%
        bucket 55: 60%
        bucket 55: 70%
        bucket 55: 80%
        Sorting block time: 00:00:00
      Returning block of 238 for bucket 54
        bucket 55: 90%
        bucket 55: 100%
        Sorting block of length 344 for bucket 55
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 345 for bucket 55
      Getting block 56 of 57
        Reserving size (388) for bucket 56
        Calculating Z arrays for bucket 56
        Entering block accumulator loop for bucket 56:
        bucket 56: 10%
        bucket 56: 20%
      Getting block 57 of 57
        Reserving size (388) for bucket 57
        Calculating Z arrays for bucket 57
        Entering block accumulator loop for bucket 57:
        bucket 56: 30%
        bucket 57: 10%
        bucket 57: 20%
        bucket 56: 40%
        bucket 57: 30%
        bucket 57: 40%
        bucket 57: 50%
        bucket 57: 60%
        bucket 56: 50%
        bucket 57: 70%
        bucket 57: 80%
        bucket 56: 60%
        bucket 57: 90%
        bucket 56: 70%
        bucket 57: 100%
        Sorting block of length 132 for bucket 57
        (Using difference cover)
        bucket 56: 80%
        bucket 56: 90%
        bucket 56: 100%
        Sorting block time: 00:00:00
        Sorting block of length 270 for bucket 56
        (Using difference cover)
      Returning block of 133 for bucket 57
        Sorting block time: 00:00:00
      Returning block of 271 for bucket 56
      Exited Ebwt loop
      fchr[A]: 0
      fchr[C]: 5124
      fchr[G]: 10305
      fchr[T]: 12474
      fchr[$]: 16568
      Exiting Ebwt::buildToDisk()
      Returning from initFromVector
      Wrote 4200050 bytes to primary EBWT file: genome.rev.1.bt2.tmp
      Wrote 4148 bytes to secondary EBWT file: genome.rev.2.bt2.tmp
      Re-opening _in1 and _in2 as input streams
      Returning from Ebwt constructor
      Headers:
          len: 16568
          bwtLen: 16569
          sz: 4142
          bwtSz: 4143
          lineRate: 6
          offRate: 4
          offMask: 0xfffffff0
          ftabChars: 10
          eftabLen: 20
          eftabSz: 80
          ftabLen: 1048577
          ftabSz: 4194308
          offsLen: 1036
          offsSz: 4144
          lineSz: 64
          sideSz: 64
          sideBwtSz: 48
          sideBwtLen: 192
          numSides: 87
          numLines: 87
          ebwtTotLen: 5568
          ebwtTotSz: 5568
          color: 0
          reverse: 1
      Total time for backward call to driver() for mirror index: 00:00:00

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | save\_mapping\_stats | ` false ` |
       | sam\_options | ` {"__current_case__": 1, "sam_options_selector": "no"} ` |
       | analysis\_type | ` {"__current_case__": 0, "analysis_type_selector": "simple", "presets": "no_presets"} ` |
       | rg | ` {"CN": null, "DS": null, "DT": null, "FO": null, "KS": null, "PG": null, "PI": "", "PL": "CAPILLARY", "PU": null, "__current_case__": 1, "read_group_id_conditional": {"ID": "rg1", "__current_case__": 1, "do_auto_name": false}, "read_group_lb_conditional": {"LB": null, "__current_case__": 1, "do_auto_name": false}, "read_group_sm_conditional": {"SM": "", "__current_case__": 1, "do_auto_name": false}, "rg_selector": "set"} ` |
       | reference\_genome | ` {"__current_case__": 1, "own_file": {"values": [{"id": 369, "src": "hda"}]}, "source": "history"} ` |
       | library | ` {"__current_case__": 1, "aligned_file": false, "input_1": {"values": [{"id": 367, "src": "hda"}]}, "input_2": {"values": [{"id": 368, "src": "hda"}]}, "paired_options": {"__current_case__": 1, "paired_options_selector": "no"}, "type": "paired", "unaligned_file": false} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; bowtie2 (Test # 5)</summary><div class="padded">

    **Command Line:**

    * ```console
      set -o | grep -q pipefail && set -o pipefail; bowtie2-build --threads ${GALAXY_SLOTS:-4} '/galaxy/server/database/objects/7/c/8/dataset_7c8dceb1-ea9d-41e2-913d-808e065b1678.dat' genome && ln -s -f '/galaxy/server/database/objects/7/c/8/dataset_7c8dceb1-ea9d-41e2-913d-808e065b1678.dat' genome.fa &&   ln -f -s '/galaxy/server/database/objects/a/7/4/dataset_a746139d-74b5-4685-8116-d7c7f1073c0d.dat' input_il.fastq &&   THREADS=${GALAXY_SLOTS:-4} && if [ "$THREADS" -gt 1 ]; then (( THREADS-- )); fi &&   bowtie2  -p "$THREADS"  -x 'genome'   --interleaved 'input_il.fastq'                        --rg-id "rg1"  --rg "PL:CAPILLARY"              | samtools sort -l 0 -T "${TMPDIR:-.}" -O bam | samtools view --no-PG -O bam -@ ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/4/a/c/dataset_4ac21a6d-5ab9-4f9c-ac38-46fb4fe1c938.dat'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Error:**

    * ```console
      Building a SMALL index
      Renaming genome.3.bt2.tmp to genome.3.bt2
      Renaming genome.4.bt2.tmp to genome.4.bt2
      Renaming genome.1.bt2.tmp to genome.1.bt2
      Renaming genome.2.bt2.tmp to genome.2.bt2
      Renaming genome.rev.1.bt2.tmp to genome.rev.1.bt2
      Renaming genome.rev.2.bt2.tmp to genome.rev.2.bt2
      3 reads; of these:
        3 (100.00%) were paired; of these:
          2 (66.67%) aligned concordantly 0 times
          1 (33.33%) aligned concordantly exactly 1 time
          0 (0.00%) aligned concordantly >1 times
          ----
          2 pairs aligned concordantly 0 times; of these:
            0 (0.00%) aligned discordantly 1 time
          ----
          2 pairs aligned 0 times concordantly or discordantly; of these:
            4 mates make up the pairs; of these:
              3 (75.00%) aligned 0 times
              1 (25.00%) aligned exactly 1 time
              0 (0.00%) aligned >1 times
      50.00% overall alignment rate

      ```
    **Standard Output:**

    * ```console
      Settings:
        Output files: "genome.*.bt2"
        Line rate: 6 (line is 64 bytes)
        Lines per side: 1 (side is 64 bytes)
        Offset rate: 4 (one in 16)
        FTable chars: 10
        Strings: unpacked
        Max bucket size: default
        Max bucket size, sqrt multiplier: default
        Max bucket size, len divisor: 32
        Difference-cover sample period: 1024
        Endianness: little
        Actual local endianness: little
        Sanity checking: disabled
        Assertions: disabled
        Random seed: 0
        Sizeofs: void*:8, int:4, long:8, size_t:8
      Input files DNA, FASTA:
        /galaxy/server/database/objects/7/c/8/dataset_7c8dceb1-ea9d-41e2-913d-808e065b1678.dat
      Reading reference sizes
        Time reading reference sizes: 00:00:00
      Calculating joined length
      Writing header
      Reserving space for joined string
      Joining reference sequences
        Time to join reference sequences: 00:00:00
      bmax according to bmaxDivN setting: 517
      Using parameters --bmax 388 --dcv 1024
        Doing ahead-of-time memory usage test
        Passed!  Constructing with these parameters: --bmax 388 --dcv 1024
      Constructing suffix-array element generator
      Building DifferenceCoverSample
        Building sPrime
        Building sPrimeOrder
        V-Sorting samples
        V-Sorting samples time: 00:00:00
        Allocating rank array
        Ranking v-sort output
        Ranking v-sort output time: 00:00:00
        Invoking Larsson-Sadakane on ranks
        Invoking Larsson-Sadakane on ranks time: 00:00:00
        Sanity-checking and returning
      Building samples
      Reserving space for 86 sample suffixes
      Generating random suffixes
      QSorting 86 sample offsets, eliminating duplicates
      QSorting sample offsets, eliminating duplicates time: 00:00:00
      Multikey QSorting 86 samples
        (Using difference cover)
        Multikey QSorting samples time: 00:00:00
      Calculating bucket sizes
      Splitting and merging
        Splitting and merging time: 00:00:00
      Split 12, merged 41; iterating...
      Splitting and merging
        Splitting and merging time: 00:00:00
      Split 6, merged 6; iterating...
      Splitting and merging
        Splitting and merging time: 00:00:00
      Split 5, merged 3; iterating...
      Splitting and merging
        Splitting and merging time: 00:00:00
      Split 3, merged 3; iterating...
      Splitting and merging
        Splitting and merging time: 00:00:00
      Avg bucket size: 284.672 (target: 387)
      Converting suffix-array elements to index image
      Allocating ftab, absorbFtab
      Entering Ebwt loop
      Getting block 1 of 58
        Reserving size (388) for bucket 1
      Getting block 2 of 58
      Getting block 3 of 58
      Getting block 4 of 58
      Getting block 5 of 58
        Calculating Z arrays for bucket 1
        Reserving size (388) for bucket 2
        Reserving size (388) for bucket 3
        Reserving size (388) for bucket 4
        Reserving size (388) for bucket 5
      Getting block 6 of 58
      Getting block 7 of 58
        Calculating Z arrays for bucket 2
        Entering block accumulator loop for bucket 1:
        Calculating Z arrays for bucket 3
        Calculating Z arrays for bucket 4
        Calculating Z arrays for bucket 5
        Reserving size (388) for bucket 6
        Reserving size (388) for bucket 7
        Calculating Z arrays for bucket 6
        Calculating Z arrays for bucket 7
        Entering block accumulator loop for bucket 3:
        Entering block accumulator loop for bucket 4:
        Entering block accumulator loop for bucket 2:
        Entering block accumulator loop for bucket 5:
        bucket 1: 10%
        Entering block accumulator loop for bucket 7:
        Entering block accumulator loop for bucket 6:
        bucket 1: 20%
        bucket 5: 10%
        bucket 4: 10%
        bucket 3: 10%
        bucket 1: 30%
        bucket 2: 10%
        bucket 7: 10%
        bucket 6: 10%
        bucket 1: 40%
        bucket 5: 20%
        bucket 3: 20%
        bucket 4: 20%
        bucket 1: 50%
        bucket 7: 20%
        bucket 2: 20%
        bucket 5: 30%
        bucket 6: 20%
        bucket 1: 60%
        bucket 3: 30%
        bucket 7: 30%
        bucket 4: 30%
        bucket 1: 70%
        bucket 2: 30%
        bucket 5: 40%
        bucket 1: 80%
        bucket 3: 40%
        bucket 6: 30%
        bucket 7: 40%
        bucket 4: 40%
        bucket 1: 90%
        bucket 2: 40%
        bucket 5: 50%
        bucket 1: 100%
        bucket 3: 50%
        bucket 7: 50%
        bucket 4: 50%
        Sorting block of length 355 for bucket 1
        (Using difference cover)
        bucket 6: 40%
        bucket 2: 50%
        bucket 5: 60%
        bucket 3: 60%
        bucket 7: 60%
        bucket 4: 60%
        bucket 5: 70%
        bucket 2: 60%
        bucket 6: 50%
        bucket 3: 70%
        bucket 7: 70%
        bucket 4: 70%
        bucket 5: 80%
        bucket 2: 70%
        bucket 3: 80%
        bucket 7: 80%
        bucket 4: 80%
        bucket 6: 60%
        bucket 5: 90%
        bucket 2: 80%
        bucket 3: 90%
        bucket 7: 90%
        bucket 4: 90%
        bucket 6: 70%
        bucket 5: 100%
        Sorting block of length 203 for bucket 5
        (Using difference cover)
        bucket 3: 100%
        bucket 2: 90%
        Sorting block of length 370 for bucket 3
        Sorting block time: 00:00:00
        (Using difference cover)
        bucket 7: 100%
        bucket 4: 100%
      Returning block of 356 for bucket 1
        Sorting block of length 368 for bucket 7
        (Using difference cover)
        Sorting block of length 328 for bucket 4
        (Using difference cover)
        bucket 6: 80%
        bucket 2: 100%
        Sorting block of length 165 for bucket 2
        (Using difference cover)
        bucket 6: 90%
        bucket 6: 100%
        Sorting block of length 339 for bucket 6
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 369 for bucket 7
        Sorting block time: 00:00:00
      Returning block of 329 for bucket 4
        Sorting block time: 00:00:00
      Returning block of 340 for bucket 6
        Sorting block time: 00:00:00
      Returning block of 204 for bucket 5
        Sorting block time: 00:00:00
      Returning block of 371 for bucket 3
        Sorting block time: 00:00:00
      Returning block of 166 for bucket 2
      Getting block 8 of 58
        Reserving size (388) for bucket 8
        Calculating Z arrays for bucket 8
        Entering block accumulator loop for bucket 8:
        bucket 8: 10%
      Getting block 9 of 58
        Reserving size (388) for bucket 9
        bucket 8: 20%
        Calculating Z arrays for bucket 9
      Getting block 10 of 58
        Entering block accumulator loop for bucket 9:
        bucket 8: 30%
        Reserving size (388) for bucket 10
        Calculating Z arrays for bucket 10
        bucket 8: 40%
        Entering block accumulator loop for bucket 10:
        bucket 9: 10%
        bucket 8: 50%
        bucket 9: 20%
        bucket 10: 10%
        bucket 9: 30%
        bucket 8: 60%
        bucket 10: 20%
        bucket 9: 40%
        bucket 8: 70%
        bucket 10: 30%
        bucket 9: 50%
        bucket 8: 80%
        bucket 8: 90%
        bucket 9: 60%
        bucket 10: 40%
        bucket 8: 100%
        Sorting block of length 171 for bucket 8
        (Using difference cover)
        bucket 9: 70%
        bucket 10: 50%
        bucket 9: 80%
        bucket 10: 60%
        bucket 9: 90%
        bucket 9: 100%
        Sorting block of length 339 for bucket 9
        (Using difference cover)
        bucket 10: 70%
        Sorting block time: 00:00:00
      Returning block of 172 for bucket 8
        bucket 10: 80%
        bucket 10: 90%
        Sorting block time: 00:00:00
        bucket 10: 100%
      Returning block of 340 for bucket 9
        Sorting block of length 357 for bucket 10
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 358 for bucket 10
      Getting block 11 of 58
        Reserving size (388) for bucket 11
      Getting block 12 of 58
        Calculating Z arrays for bucket 11
        Reserving size (388) for bucket 12
        Calculating Z arrays for bucket 12
        Entering block accumulator loop for bucket 11:
      Getting block 13 of 58
        Entering block accumulator loop for bucket 12:
        Reserving size (388) for bucket 13
        bucket 11: 10%
        Calculating Z arrays for bucket 13
        Entering block accumulator loop for bucket 13:
        bucket 11: 20%
        bucket 12: 10%
        bucket 11: 30%
        bucket 13: 10%
        bucket 12: 20%
        bucket 11: 40%
        bucket 13: 20%
        bucket 12: 30%
        bucket 11: 50%
        bucket 13: 30%
        bucket 11: 60%
        bucket 12: 40%
        bucket 11: 70%
        bucket 13: 40%
        bucket 12: 50%
        bucket 11: 80%
        bucket 13: 50%
        bucket 12: 60%
        bucket 11: 90%
        bucket 13: 60%
        bucket 12: 70%
        bucket 11: 100%
        Sorting block of length 305 for bucket 11
        (Using difference cover)
        bucket 13: 70%
        bucket 12: 80%
        bucket 13: 80%
        bucket 13: 90%
        bucket 12: 90%
        bucket 13: 100%
        bucket 12: 100%
        Sorting block of length 282 for bucket 13
        (Using difference cover)
        Sorting block time: 00:00:00
        Sorting block of length 185 for bucket 12
        (Using difference cover)
      Returning block of 306 for bucket 11
        Sorting block time: 00:00:00
      Returning block of 186 for bucket 12
        Sorting block time: 00:00:00
      Returning block of 283 for bucket 13
      Getting block 14 of 58
        Reserving size (388) for bucket 14
        Calculating Z arrays for bucket 14
        Entering block accumulator loop for bucket 14:
        bucket 14: 10%
        bucket 14: 20%
        bucket 14: 30%
      Getting block 15 of 58
        bucket 14: 40%
        Reserving size (388) for bucket 15
        Calculating Z arrays for bucket 15
        Entering block accumulator loop for bucket 15:
        bucket 14: 50%
        bucket 15: 10%
        bucket 14: 60%
        bucket 15: 20%
        bucket 14: 70%
        bucket 15: 30%
        bucket 14: 80%
        bucket 15: 40%
        bucket 15: 50%
        bucket 14: 90%
        bucket 15: 60%
        bucket 14: 100%
        Sorting block of length 339 for bucket 14
        (Using difference cover)
        bucket 15: 70%
        bucket 15: 80%
        bucket 15: 90%
        bucket 15: 100%
        Sorting block of length 241 for bucket 15
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 340 for bucket 14
        Sorting block time: 00:00:00
      Returning block of 242 for bucket 15
      Getting block 16 of 58
        Reserving size (388) for bucket 16
        Calculating Z arrays for bucket 16
      Getting block 17 of 58
        Entering block accumulator loop for bucket 16:
        Reserving size (388) for bucket 17
        Calculating Z arrays for bucket 17
        Entering block accumulator loop for bucket 17:
        bucket 16: 10%
        bucket 17: 10%
        bucket 17: 20%
        bucket 16: 20%
        bucket 17: 30%
        bucket 16: 30%
        bucket 17: 40%
        bucket 16: 40%
        bucket 17: 50%
        bucket 17: 60%
        bucket 16: 50%
        bucket 17: 70%
        bucket 16: 60%
        bucket 17: 80%
        bucket 16: 70%
        bucket 17: 90%
        bucket 16: 80%
        bucket 17: 100%
        Sorting block of length 215 for bucket 17
        (Using difference cover)
        bucket 16: 90%
        bucket 16: 100%
        Sorting block of length 379 for bucket 16
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 216 for bucket 17
        Sorting block time: 00:00:00
      Returning block of 380 for bucket 16
      Getting block 18 of 58
        Reserving size (388) for bucket 18
        Calculating Z arrays for bucket 18
        Entering block accumulator loop for bucket 18:
        bucket 18: 10%
        bucket 18: 20%
        bucket 18: 30%
      Getting block 19 of 58
        bucket 18: 40%
        Reserving size (388) for bucket 19
      Getting block 20 of 58
        Calculating Z arrays for bucket 19
        Reserving size (388) for bucket 20
        bucket 18: 50%
        Calculating Z arrays for bucket 20
        Entering block accumulator loop for bucket 19:
        Entering block accumulator loop for bucket 20:
        bucket 18: 60%
        bucket 20: 10%
        bucket 19: 10%
        bucket 20: 20%
        bucket 18: 70%
        bucket 19: 20%
        bucket 20: 30%
        bucket 19: 30%
        bucket 18: 80%
        bucket 20: 40%
        bucket 19: 40%
        bucket 18: 90%
        bucket 20: 50%
        bucket 19: 50%
        bucket 18: 100%
        Sorting block of length 378 for bucket 18
        (Using difference cover)
        bucket 20: 60%
        bucket 19: 60%
        bucket 20: 70%
        bucket 19: 70%
        bucket 20: 80%
        bucket 20: 90%
        bucket 19: 80%
        bucket 20: 100%
        Sorting block of length 313 for bucket 20
        (Using difference cover)
        bucket 19: 90%
        bucket 19: 100%
        Sorting block of length 334 for bucket 19
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 379 for bucket 18
        Sorting block time: 00:00:00
      Returning block of 335 for bucket 19
        Sorting block time: 00:00:00
      Returning block of 314 for bucket 20
      Getting block 21 of 58
        Reserving size (388) for bucket 21
        Calculating Z arrays for bucket 21
      Getting block 22 of 58
        Reserving size (388) for bucket 22
        Calculating Z arrays for bucket 22
        Entering block accumulator loop for bucket 21:
        bucket 21: 10%
        Entering block accumulator loop for bucket 22:
        bucket 21: 20%
        bucket 22: 10%
        bucket 22: 20%
        bucket 21: 30%
        bucket 22: 30%
        bucket 21: 40%
        bucket 22: 40%
        bucket 21: 50%
        bucket 22: 50%
        bucket 21: 60%
        bucket 22: 60%
        bucket 22: 70%
        bucket 21: 70%
        bucket 22: 80%
        bucket 21: 80%
        bucket 22: 90%
        bucket 21: 90%
        bucket 22: 100%
        Sorting block of length 386 for bucket 22
        (Using difference cover)
        bucket 21: 100%
        Sorting block of length 210 for bucket 21
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 211 for bucket 21
        Sorting block time: 00:00:00
      Returning block of 387 for bucket 22
      Getting block 23 of 58
        Reserving size (388) for bucket 23
        Calculating Z arrays for bucket 23
      Getting block 24 of 58
        Entering block accumulator loop for bucket 23:
        Reserving size (388) for bucket 24
        Calculating Z arrays for bucket 24
        Entering block accumulator loop for bucket 24:
        bucket 23: 10%
        bucket 24: 10%
        bucket 24: 20%
        bucket 23: 20%
        bucket 24: 30%
        bucket 23: 30%
        bucket 24: 40%
        bucket 24: 50%
        bucket 23: 40%
        bucket 24: 60%
        bucket 23: 50%
        bucket 24: 70%
        bucket 23: 60%
        bucket 24: 80%
        bucket 23: 70%
        bucket 24: 90%
        bucket 24: 100%
        bucket 23: 80%
        Sorting block of length 351 for bucket 24
        (Using difference cover)
        bucket 23: 90%
        bucket 23: 100%
        Sorting block of length 238 for bucket 23
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 352 for bucket 24
        Sorting block time: 00:00:00
      Returning block of 239 for bucket 23
      Getting block 25 of 58
        Reserving size (388) for bucket 25
        Calculating Z arrays for bucket 25
        Entering block accumulator loop for bucket 25:
        bucket 25: 10%
        bucket 25: 20%
        bucket 25: 30%
        bucket 25: 40%
        bucket 25: 50%
      Getting block 26 of 58
        Reserving size (388) for bucket 26
        Calculating Z arrays for bucket 26
        bucket 25: 60%
        Entering block accumulator loop for bucket 26:
        bucket 25: 70%
        bucket 26: 10%
        bucket 25: 80%
        bucket 25: 90%
        bucket 26: 20%
        bucket 25: 100%
        Sorting block of length 105 for bucket 25
        (Using difference cover)
        bucket 26: 30%
        bucket 26: 40%
        bucket 26: 50%
        Sorting block time: 00:00:00
      Returning block of 106 for bucket 25
        bucket 26: 60%
        bucket 26: 70%
        bucket 26: 80%
        bucket 26: 90%
        bucket 26: 100%
        Sorting block of length 354 for bucket 26
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 355 for bucket 26
      Getting block 27 of 58
        Reserving size (388) for bucket 27
        Calculating Z arrays for bucket 27
        Entering block accumulator loop for bucket 27:
        bucket 27: 10%
        bucket 27: 20%
        bucket 27: 30%
      Getting block 28 of 58
        Reserving size (388) for bucket 28
        Calculating Z arrays for bucket 28
        bucket 27: 40%
        Entering block accumulator loop for bucket 28:
        bucket 27: 50%
        bucket 28: 10%
        bucket 27: 60%
        bucket 28: 20%
        bucket 27: 70%
        bucket 27: 80%
        bucket 28: 30%
        bucket 27: 90%
        bucket 28: 40%
        bucket 27: 100%
        Sorting block of length 334 for bucket 27
        (Using difference cover)
        bucket 28: 50%
        bucket 28: 60%
        Sorting block time: 00:00:00
      Returning block of 335 for bucket 27
        bucket 28: 70%
        bucket 28: 80%
        bucket 28: 90%
        bucket 28: 100%
        Sorting block of length 253 for bucket 28
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 254 for bucket 28
      Getting block 29 of 58
        Reserving size (388) for bucket 29
        Calculating Z arrays for bucket 29
      Getting block 30 of 58
        Reserving size (388) for bucket 30
        Entering block accumulator loop for bucket 29:
        Calculating Z arrays for bucket 30
        Entering block accumulator loop for bucket 30:
        bucket 29: 10%
      Getting block 31 of 58
        bucket 30: 10%
        bucket 29: 20%
        Reserving size (388) for bucket 31
        Calculating Z arrays for bucket 31
        Entering block accumulator loop for bucket 31:
        bucket 29: 30%
        bucket 30: 20%
        bucket 31: 10%
        bucket 29: 40%
        bucket 30: 30%
        bucket 31: 20%
        bucket 29: 50%
        bucket 30: 40%
        bucket 29: 60%
        bucket 30: 50%
        bucket 31: 30%
        bucket 29: 70%
        bucket 30: 60%
        bucket 29: 80%
        bucket 30: 70%
        bucket 31: 40%
        bucket 30: 80%
        bucket 29: 90%
        bucket 30: 90%
        bucket 31: 50%
        bucket 30: 100%
        bucket 29: 100%
        Sorting block of length 345 for bucket 30
        (Using difference cover)
        bucket 31: 60%
        Sorting block of length 289 for bucket 29
        (Using difference cover)
        bucket 31: 70%
        bucket 31: 80%
        bucket 31: 90%
        bucket 31: 100%
        Sorting block of length 377 for bucket 31
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 346 for bucket 30
        Sorting block time: 00:00:00
      Returning block of 290 for bucket 29
        Sorting block time: 00:00:00
      Returning block of 378 for bucket 31
      Getting block 32 of 58
        Reserving size (388) for bucket 32
        Calculating Z arrays for bucket 32
        Entering block
      ..
      0:00
      Returning block of 372 for bucket 22
      Getting block 24 of 57
        Reserving size (388) for bucket 24
        Calculating Z arrays for bucket 24
      Getting block 25 of 57
        Entering block accumulator loop for bucket 24:
        Reserving size (388) for bucket 25
        Calculating Z arrays for bucket 25
        Entering block accumulator loop for bucket 25:
        bucket 24: 10%
        bucket 25: 10%
        bucket 24: 20%
        bucket 24: 30%
        bucket 25: 20%
        bucket 24: 40%
        bucket 25: 30%
      Getting block 26 of 57
        Reserving size (388) for bucket 26
        Calculating Z arrays for bucket 26
        Entering block accumulator loop for bucket 26:
        bucket 25: 40%
        bucket 24: 50%
        bucket 26: 10%
        bucket 25: 50%
        bucket 24: 60%
        bucket 26: 20%
        bucket 25: 60%
        bucket 26: 30%
        bucket 25: 70%
        bucket 24: 70%
        bucket 26: 40%
        bucket 25: 80%
        bucket 24: 80%
        bucket 26: 50%
        bucket 25: 90%
        bucket 26: 60%
        bucket 25: 100%
        Sorting block of length 286 for bucket 25
        (Using difference cover)
        bucket 24: 90%
        bucket 26: 70%
        bucket 26: 80%
        bucket 24: 100%
        Sorting block of length 245 for bucket 24
        (Using difference cover)
        bucket 26: 90%
        Sorting block time: 00:00:00
      Returning block of 287 for bucket 25
        bucket 26: 100%
        Sorting block of length 384 for bucket 26
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 246 for bucket 24
        Sorting block time: 00:00:00
      Returning block of 385 for bucket 26
      Getting block 27 of 57
        Reserving size (388) for bucket 27
        Calculating Z arrays for bucket 27
        Entering block accumulator loop for bucket 27:
        bucket 27: 10%
        bucket 27: 20%
        bucket 27: 30%
      Getting block 28 of 57
        bucket 27: 40%
        Reserving size (388) for bucket 28
        Calculating Z arrays for bucket 28
        bucket 27: 50%
        Entering block accumulator loop for bucket 28:
        bucket 27: 60%
        bucket 28: 10%
        bucket 27: 70%
        bucket 27: 80%
        bucket 28: 20%
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        bucket 28: 30%
        bucket 27: 100%
        Sorting block of length 359 for bucket 27
        (Using difference cover)
        bucket 28: 40%
        bucket 28: 50%
        bucket 28: 60%
        Sorting block time: 00:00:00
      Returning block of 360 for bucket 27
        bucket 28: 70%
        bucket 28: 80%
        bucket 28: 90%
        bucket 28: 100%
        Sorting block of length 387 for bucket 28
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 388 for bucket 28
      Getting block 29 of 57
        Reserving size (388) for bucket 29
      Getting block 30 of 57
        Calculating Z arrays for bucket 29
        Reserving size (388) for bucket 30
        Calculating Z arrays for bucket 30
        Entering block accumulator loop for bucket 29:
        Entering block accumulator loop for bucket 30:
        bucket 29: 10%
        bucket 30: 10%
        bucket 29: 20%
        bucket 29: 30%
        bucket 30: 20%
        bucket 29: 40%
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        bucket 29: 70%
        bucket 30: 40%
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        bucket 30: 60%
        bucket 29: 100%
        Sorting block of length 195 for bucket 29
        (Using difference cover)
        bucket 30: 70%
        bucket 30: 80%
        Sorting block time: 00:00:00
      Returning block of 196 for bucket 29
        bucket 30: 90%
        bucket 30: 100%
        Sorting block of length 257 for bucket 30
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 258 for bucket 30
      Getting block 31 of 57
        Reserving size (388) for bucket 31
        Calculating Z arrays for bucket 31
        Entering block accumulator loop for bucket 31:
        bucket 31: 10%
      Getting block 32 of 57
        Reserving size (388) for bucket 32
        bucket 31: 20%
        Calculating Z arrays for bucket 32
        Entering block accumulator loop for bucket 32:
        bucket 31: 30%
        bucket 31: 40%
        bucket 32: 10%
        bucket 31: 50%
        bucket 32: 20%
        bucket 32: 30%
        bucket 31: 60%
        bucket 32: 40%
        bucket 31: 70%
        bucket 32: 50%
        bucket 31: 80%
        bucket 32: 60%
        bucket 32: 70%
        bucket 31: 90%
        bucket 32: 80%
        bucket 31: 100%
        Sorting block of length 310 for bucket 31
        (Using difference cover)
        bucket 32: 90%
        bucket 32: 100%
        Sorting block of length 219 for bucket 32
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 311 for bucket 31
        Sorting block time: 00:00:00
      Returning block of 220 for bucket 32
      Getting block 33 of 57
        Reserving size (388) for bucket 33
        Calculating Z arrays for bucket 33
        Entering block accumulator loop for bucket 33:
        bucket 33: 10%
      Getting block 34 of 57
        bucket 33: 20%
        Reserving size (388) for bucket 34
        Calculating Z arrays for bucket 34
        Entering block accumulator loop for bucket 34:
        bucket 33: 30%
        bucket 34: 10%
        bucket 33: 40%
        bucket 34: 20%
        bucket 33: 50%
        bucket 34: 30%
        bucket 34: 40%
        bucket 33: 60%
        bucket 34: 50%
        bucket 33: 70%
        bucket 34: 60%
        bucket 33: 80%
        bucket 34: 70%
        bucket 33: 90%
        bucket 34: 80%
        bucket 33: 100%
        Sorting block of length 387 for bucket 33
        (Using difference cover)
        bucket 34: 90%
        bucket 34: 100%
        Sorting block of length 275 for bucket 34
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 388 for bucket 33
        Sorting block time: 00:00:00
      Returning block of 276 for bucket 34
      Getting block 35 of 57
        Reserving size (388) for bucket 35
      Getting block 36 of 57
        Calculating Z arrays for bucket 35
        Reserving size (388) for bucket 36
        Calculating Z arrays for bucket 36
        Entering block accumulator loop for bucket 35:
        Entering block accumulator loop for bucket 36:
        bucket 36: 10%
        bucket 35: 10%
        bucket 36: 20%
        bucket 35: 20%
        bucket 36: 30%
        bucket 35: 30%
        bucket 36: 40%
        bucket 35: 40%
        bucket 36: 50%
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        bucket 36: 60%
        bucket 35: 60%
        bucket 36: 70%
        bucket 35: 70%
        bucket 36: 80%
        bucket 35: 80%
        bucket 36: 90%
        bucket 35: 90%
        bucket 35: 100%
        bucket 36: 100%
        Sorting block of length 350 for bucket 35
        (Using difference cover)
        Sorting block of length 150 for bucket 36
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 151 for bucket 36
        Sorting block time: 00:00:00
      Returning block of 351 for bucket 35
      Getting block 37 of 57
        Reserving size (388) for bucket 37
        Calculating Z arrays for bucket 37
        Entering block accumulator loop for bucket 37:
        bucket 37: 10%
      Getting block 38 of 57
        Reserving size (388) for bucket 38
        Calculating Z arrays for bucket 38
        Entering block accumulator loop for bucket 38:
        bucket 37: 20%
        bucket 37: 30%
        bucket 38: 10%
        bucket 37: 40%
        bucket 38: 20%
        bucket 37: 50%
        bucket 38: 30%
        bucket 37: 60%
        bucket 38: 40%
      Getting block 39 of 57
        Reserving size (388) for bucket 39
        bucket 38: 50%
        Calculating Z arrays for bucket 39
        bucket 37: 70%
        Entering block accumulator loop for bucket 39:
        bucket 39: 10%
        bucket 37: 80%
        bucket 38: 60%
        bucket 39: 20%
        bucket 38: 70%
        bucket 39: 30%
        bucket 38: 80%
        bucket 37: 90%
        bucket 39: 40%
        bucket 38: 90%
        bucket 37: 100%
        Sorting block of length 267 for bucket 37
        (Using difference cover)
        bucket 39: 50%
        bucket 38: 100%
        Sorting block of length 337 for bucket 38
        (Using difference cover)
        bucket 39: 60%
        bucket 39: 70%
        bucket 39: 80%
        bucket 39: 90%
        bucket 39: 100%
        Sorting block of length 387 for bucket 39
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 268 for bucket 37
        Sorting block time: 00:00:00
      Returning block of 338 for bucket 38
        Sorting block time: 00:00:00
      Returning block of 388 for bucket 39
      Getting block 40 of 57
        Reserving size (388) for bucket 40
        Calculating Z arrays for bucket 40
        Entering block accumulator loop for bucket 40:
      Getting block 41 of 57
        bucket 40: 10%
        Reserving size (388) for bucket 41
        Calculating Z arrays for bucket 41
        Entering block accumulator loop for bucket 41:
        bucket 40: 20%
        bucket 40: 30%
        bucket 41: 10%
        bucket 40: 40%
        bucket 41: 20%
        bucket 41: 30%
        bucket 40: 50%
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        bucket 40: 60%
        bucket 41: 50%
        bucket 40: 70%
        bucket 41: 60%
        bucket 41: 70%
        bucket 40: 80%
        bucket 41: 80%
        bucket 40: 90%
        bucket 41: 90%
        bucket 40: 100%
        Sorting block of length 379 for bucket 40
        (Using difference cover)
        bucket 41: 100%
        Sorting block of length 330 for bucket 41
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 331 for bucket 41
        Sorting block time: 00:00:00
      Returning block of 380 for bucket 40
      Getting block 42 of 57
        Reserving size (388) for bucket 42
      Getting block 43 of 57
        Calculating Z arrays for bucket 42
        Reserving size (388) for bucket 43
        Calculating Z arrays for bucket 43
        Entering block accumulator loop for bucket 42:
        Entering block accumulator loop for bucket 43:
        bucket 43: 10%
        bucket 42: 10%
        bucket 43: 20%
        bucket 42: 20%
        bucket 43: 30%
        bucket 42: 30%
        bucket 43: 40%
        bucket 42: 40%
        bucket 43: 50%
        bucket 42: 50%
        bucket 43: 60%
        bucket 42: 60%
        bucket 43: 70%
        bucket 43: 80%
        bucket 42: 70%
        bucket 43: 90%
        bucket 42: 80%
        bucket 43: 100%
        bucket 42: 90%
        Sorting block of length 321 for bucket 43
        (Using difference cover)
        bucket 42: 100%
        Sorting block of length 188 for bucket 42
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 322 for bucket 43
        Sorting block time: 00:00:00
      Returning block of 189 for bucket 42
      Getting block 44 of 57
        Reserving size (388) for bucket 44
        Calculating Z arrays for bucket 44
        Entering block accumulator loop for bucket 44:
        bucket 44: 10%
      Getting block 45 of 57
        bucket 44: 20%
        Reserving size (388) for bucket 45
        Calculating Z arrays for bucket 45
      Getting block 46 of 57
        Reserving size (388) for bucket 46
        Calculating Z arrays for bucket 46
        Entering block accumulator loop for bucket 45:
        Entering block accumulator loop for bucket 46:
        bucket 44: 30%
        bucket 45: 10%
        bucket 45: 20%
        bucket 46: 10%
        bucket 44: 40%
        bucket 45: 30%
        bucket 45: 40%
        bucket 46: 20%
        bucket 44: 50%
        bucket 45: 50%
        bucket 46: 30%
        bucket 45: 60%
        bucket 44: 60%
        bucket 45: 70%
        bucket 46: 40%
        bucket 44: 70%
        bucket 45: 80%
        bucket 46: 50%
        bucket 45: 90%
        bucket 44: 80%
        bucket 45: 100%
        bucket 46: 60%
        Sorting block of length 365 for bucket 45
        (Using difference cover)
        bucket 44: 90%
        bucket 46: 70%
        bucket 44: 100%
        Sorting block of length 366 for bucket 44
        (Using difference cover)
        bucket 46: 80%
        Sorting block time: 00:00:00
      Returning block of 366 for bucket 45
        bucket 46: 90%
        bucket 46: 100%
        Sorting block of length 253 for bucket 46
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 367 for bucket 44
        Sorting block time: 00:00:00
      Returning block of 254 for bucket 46
      Getting block 47 of 57
        Reserving size (388) for bucket 47
        Calculating Z arrays for bucket 47
        Entering block accumulator loop for bucket 47:
        bucket 47: 10%
        bucket 47: 20%
        bucket 47: 30%
        bucket 47: 40%
        bucket 47: 50%
        bucket 47: 60%
        bucket 47: 70%
        bucket 47: 80%
        bucket 47: 90%
        bucket 47: 100%
        Sorting block of length 217 for bucket 47
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 218 for bucket 47
      Getting block 48 of 57
        Reserving size (388) for bucket 48
        Calculating Z arrays for bucket 48
      Getting block 49 of 57
        Reserving size (388) for bucket 49
        Calculating Z arrays for bucket 49
        Entering block accumulator loop for bucket 48:
        Entering block accumulator loop for bucket 49:
        bucket 48: 10%
        bucket 49: 10%
        bucket 49: 20%
        bucket 48: 20%
        bucket 49: 30%
        bucket 48: 30%
        bucket 49: 40%
        bucket 48: 40%
      Getting block 50 of 57
        Reserving size (388) for bucket 50
        Calculating Z arrays for bucket 50
        bucket 49: 50%
        Entering block accumulator loop for bucket 50:
        bucket 49: 60%
        bucket 48: 50%
        bucket 49: 70%
        bucket 50: 10%
        bucket 48: 60%
        bucket 49: 80%
        bucket 49: 90%
        bucket 50: 20%
        bucket 48: 70%
        bucket 49: 100%
        Sorting block of length 112 for bucket 49
        (Using difference cover)
        bucket 48: 80%
        bucket 50: 30%
        bucket 48: 90%
        bucket 50: 40%
        Sorting block time: 00:00:00
      Returning block of 113 for bucket 49
        bucket 50: 50%
        bucket 48: 100%
        Sorting block of length 384 for bucket 48
        (Using difference cover)
        bucket 50: 60%
        bucket 50: 70%
        bucket 50: 80%
        Sorting block time: 00:00:00
      Returning block of 385 for bucket 48
        bucket 50: 90%
        bucket 50: 100%
        Sorting block of length 275 for bucket 50
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 276 for bucket 50
      Getting block 51 of 57
        Reserving size (388) for bucket 51
        Calculating Z arrays for bucket 51
        Entering block accumulator loop for bucket 51:
        bucket 51: 10%
        bucket 51: 20%
      Getting block 52 of 57
        bucket 51: 30%
        Reserving size (388) for bucket 52
        Calculating Z arrays for bucket 52
        Entering block accumulator loop for bucket 52:
        bucket 51: 40%
        bucket 52: 10%
        bucket 51: 50%
        bucket 52: 20%
        bucket 51: 60%
        bucket 52: 30%
        bucket 51: 70%
        bucket 52: 40%
        bucket 51: 80%
        bucket 51: 90%
        bucket 52: 50%
        bucket 51: 100%
        bucket 52: 60%
        Sorting block of length 350 for bucket 51
        (Using difference cover)
        bucket 52: 70%
        bucket 52: 80%
        bucket 52: 90%
        Sorting block time: 00:00:00
      Returning block of 351 for bucket 51
        bucket 52: 100%
        Sorting block of length 378 for bucket 52
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 379 for bucket 52
      Getting block 53 of 57
        Reserving size (388) for bucket 53
      Getting block 54 of 57
        Calculating Z arrays for bucket 53
        Reserving size (388) for bucket 54
        Calculating Z arrays for bucket 54
        Entering block accumulator loop for bucket 53:
        Entering block accumulator loop for bucket 54:
        bucket 53: 10%
        bucket 53: 20%
        bucket 54: 10%
        bucket 53: 30%
        bucket 54: 20%
        bucket 53: 40%
        bucket 54: 30%
        bucket 53: 50%
        bucket 53: 60%
        bucket 54: 40%
        bucket 53: 70%
        bucket 54: 50%
        bucket 53: 80%
        bucket 54: 60%
        bucket 53: 90%
        bucket 54: 70%
        bucket 53: 100%
        Sorting block of length 370 for bucket 53
        (Using difference cover)
        bucket 54: 80%
        bucket 54: 90%
        bucket 54: 100%
        Sorting block of length 237 for bucket 54
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 371 for bucket 53
        Sorting block time: 00:00:00
      Returning block of 238 for bucket 54
      Getting block 55 of 57
        Reserving size (388) for bucket 55
        Calculating Z arrays for bucket 55
        Entering block accumulator loop for bucket 55:
      Getting block 56 of 57
        bucket 55: 10%
        Reserving size (388) for bucket 56
        Calculating Z arrays for bucket 56
        Entering block accumulator loop for bucket 56:
        bucket 55: 20%
        bucket 55: 30%
        bucket 56: 10%
        bucket 56: 20%
        bucket 55: 40%
        bucket 56: 30%
        bucket 55: 50%
        bucket 56: 40%
        bucket 56: 50%
        bucket 55: 60%
        bucket 56: 60%
        bucket 55: 70%
        bucket 56: 70%
        bucket 55: 80%
        bucket 56: 80%
        bucket 55: 90%
        bucket 56: 90%
        bucket 56: 100%
        bucket 55: 100%
        Sorting block of length 270 for bucket 56
        (Using difference cover)
        Sorting block of length 344 for bucket 55
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 345 for bucket 55
        Sorting block time: 00:00:00
      Returning block of 271 for bucket 56
      Getting block 57 of 57
        Reserving size (388) for bucket 57
        Calculating Z arrays for bucket 57
        Entering block accumulator loop for bucket 57:
        bucket 57: 10%
        bucket 57: 20%
        bucket 57: 30%
        bucket 57: 40%
        bucket 57: 50%
        bucket 57: 60%
        bucket 57: 70%
        bucket 57: 80%
        bucket 57: 90%
        bucket 57: 100%
        Sorting block of length 132 for bucket 57
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 133 for bucket 57
      Exited Ebwt loop
      fchr[A]: 0
      fchr[C]: 5124
      fchr[G]: 10305
      fchr[T]: 12474
      fchr[$]: 16568
      Exiting Ebwt::buildToDisk()
      Returning from initFromVector
      Wrote 4200050 bytes to primary EBWT file: genome.rev.1.bt2.tmp
      Wrote 4148 bytes to secondary EBWT file: genome.rev.2.bt2.tmp
      Re-opening _in1 and _in2 as input streams
      Returning from Ebwt constructor
      Headers:
          len: 16568
          bwtLen: 16569
          sz: 4142
          bwtSz: 4143
          lineRate: 6
          offRate: 4
          offMask: 0xfffffff0
          ftabChars: 10
          eftabLen: 20
          eftabSz: 80
          ftabLen: 1048577
          ftabSz: 4194308
          offsLen: 1036
          offsSz: 4144
          lineSz: 64
          sideSz: 64
          sideBwtSz: 48
          sideBwtLen: 192
          numSides: 87
          numLines: 87
          ebwtTotLen: 5568
          ebwtTotSz: 5568
          color: 0
          reverse: 1
      Total time for backward call to driver() for mirror index: 00:00:00

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | save\_mapping\_stats | ` false ` |
       | sam\_options | ` {"__current_case__": 1, "sam_options_selector": "no"} ` |
       | analysis\_type | ` {"__current_case__": 0, "analysis_type_selector": "simple", "presets": "no_presets"} ` |
       | rg | ` {"CN": null, "DS": null, "DT": null, "FO": null, "KS": null, "PG": null, "PI": "", "PL": "CAPILLARY", "PU": null, "__current_case__": 1, "read_group_id_conditional": {"ID": "rg1", "__current_case__": 1, "do_auto_name": false}, "read_group_lb_conditional": {"LB": null, "__current_case__": 1, "do_auto_name": false}, "read_group_sm_conditional": {"SM": "", "__current_case__": 1, "do_auto_name": false}, "rg_selector": "set"} ` |
       | reference\_genome | ` {"__current_case__": 1, "own_file": {"values": [{"id": 375, "src": "hda"}]}, "source": "history"} ` |
       | library | ` {"__current_case__": 3, "aligned_file": false, "input_1": {"values": [{"id": 374, "src": "hda"}]}, "paired_options": {"__current_case__": 1, "paired_options_selector": "no"}, "type": "paired_interleaved", "unaligned_file": false} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; bowtie2 (Test # 6)</summary><div class="padded">

    **Command Line:**

    * ```console
      set -o | grep -q pipefail && set -o pipefail; bowtie2-build --threads ${GALAXY_SLOTS:-4} '/galaxy/server/database/objects/8/4/9/dataset_8490a077-834e-4c42-b25b-f5626749319a.dat' genome && ln -s -f '/galaxy/server/database/objects/8/4/9/dataset_8490a077-834e-4c42-b25b-f5626749319a.dat' genome.fa &&   ln -f -s '/galaxy/server/database/objects/b/c/1/dataset_bc1ed726-7a3a-4c2d-b53d-20a234619d08.dat' input_f.fastq.gz &&  ln -f -s '/galaxy/server/database/objects/5/2/5/dataset_525b317a-6a3f-48fe-b3f3-b2b2b83da69a.dat' input_r.fastq.gz &&   THREADS=${GALAXY_SLOTS:-4} && if [ "$THREADS" -gt 1 ]; then (( THREADS-- )); fi &&   bowtie2  -p "$THREADS"  -x 'genome'   -1 'input_f.fastq.gz' -2 'input_r.fastq.gz'                 | samtools sort -l 0 -T "${TMPDIR:-.}" -O bam | samtools view --no-PG -O bam -@ ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/6/c/d/dataset_6cda100d-5382-4e4c-a6d7-ba6cba8700d5.dat'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Error:**

    * ```console
      Building a SMALL index
      Renaming genome.3.bt2.tmp to genome.3.bt2
      Renaming genome.4.bt2.tmp to genome.4.bt2
      Renaming genome.1.bt2.tmp to genome.1.bt2
      Renaming genome.2.bt2.tmp to genome.2.bt2
      Renaming genome.rev.1.bt2.tmp to genome.rev.1.bt2
      Renaming genome.rev.2.bt2.tmp to genome.rev.2.bt2
      100 reads; of these:
        100 (100.00%) were paired; of these:
          97 (97.00%) aligned concordantly 0 times
          3 (3.00%) aligned concordantly exactly 1 time
          0 (0.00%) aligned concordantly >1 times
          ----
          97 pairs aligned concordantly 0 times; of these:
            8 (8.25%) aligned discordantly 1 time
          ----
          89 pairs aligned 0 times concordantly or discordantly; of these:
            178 mates make up the pairs; of these:
              153 (85.96%) aligned 0 times
              25 (14.04%) aligned exactly 1 time
              0 (0.00%) aligned >1 times
      23.50% overall alignment rate

      ```
    **Standard Output:**

    * ```console
      Settings:
        Output files: "genome.*.bt2"
        Line rate: 6 (line is 64 bytes)
        Lines per side: 1 (side is 64 bytes)
        Offset rate: 4 (one in 16)
        FTable chars: 10
        Strings: unpacked
        Max bucket size: default
        Max bucket size, sqrt multiplier: default
        Max bucket size, len divisor: 32
        Difference-cover sample period: 1024
        Endianness: little
        Actual local endianness: little
        Sanity checking: disabled
        Assertions: disabled
        Random seed: 0
        Sizeofs: void*:8, int:4, long:8, size_t:8
      Input files DNA, FASTA:
        /galaxy/server/database/objects/8/4/9/dataset_8490a077-834e-4c42-b25b-f5626749319a.dat
      Reading reference sizes
        Time reading reference sizes: 00:00:00
      Calculating joined length
      Writing header
      Reserving space for joined string
      Joining reference sequences
        Time to join reference sequences: 00:00:00
      bmax according to bmaxDivN setting: 517
      Using parameters --bmax 388 --dcv 1024
        Doing ahead-of-time memory usage test
        Passed!  Constructing with these parameters: --bmax 388 --dcv 1024
      Constructing suffix-array element generator
      Building DifferenceCoverSample
        Building sPrime
        Building sPrimeOrder
        V-Sorting samples
        V-Sorting samples time: 00:00:00
        Allocating rank array
        Ranking v-sort output
        Ranking v-sort output time: 00:00:00
        Invoking Larsson-Sadakane on ranks
        Invoking Larsson-Sadakane on ranks time: 00:00:00
        Sanity-checking and returning
      Building samples
      Reserving space for 86 sample suffixes
      Generating random suffixes
      QSorting 86 sample offsets, eliminating duplicates
      QSorting sample offsets, eliminating duplicates time: 00:00:00
      Multikey QSorting 86 samples
        (Using difference cover)
        Multikey QSorting samples time: 00:00:00
      Calculating bucket sizes
      Splitting and merging
        Splitting and merging time: 00:00:00
      Split 12, merged 41; iterating...
      Splitting and merging
        Splitting and merging time: 00:00:00
      Split 6, merged 6; iterating...
      Splitting and merging
        Splitting and merging time: 00:00:00
      Split 5, merged 3; iterating...
      Splitting and merging
        Splitting and merging time: 00:00:00
      Split 3, merged 3; iterating...
      Splitting and merging
        Splitting and merging time: 00:00:00
      Avg bucket size: 284.672 (target: 387)
      Converting suffix-array elements to index image
      Allocating ftab, absorbFtab
      Entering Ebwt loop
      Getting block 1 of 58
        Reserving size (388) for bucket 1
      Getting block 2 of 58
      Getting block 3 of 58
        Calculating Z arrays for bucket 1
        Reserving size (388) for bucket 2
        Reserving size (388) for bucket 3
      Getting block 4 of 58
      Getting block 5 of 58
      Getting block 6 of 58
      Getting block 7 of 58
        Calculating Z arrays for bucket 2
        Entering block accumulator loop for bucket 1:
        Calculating Z arrays for bucket 3
        Reserving size (388) for bucket 4
        Reserving size (388) for bucket 5
        Reserving size (388) for bucket 6
        Reserving size (388) for bucket 7
        Calculating Z arrays for bucket 4
        Calculating Z arrays for bucket 5
        Entering block accumulator loop for bucket 2:
        Calculating Z arrays for bucket 6
        Entering block accumulator loop for bucket 3:
        Calculating Z arrays for bucket 7
        bucket 1: 10%
        Entering block accumulator loop for bucket 4:
        Entering block accumulator loop for bucket 5:
        Entering block accumulator loop for bucket 6:
        bucket 2: 10%
        Entering block accumulator loop for bucket 7:
        bucket 1: 20%
        bucket 3: 10%
        bucket 5: 10%
        bucket 2: 20%
        bucket 1: 30%
        bucket 4: 10%
        bucket 6: 10%
        bucket 3: 20%
        bucket 7: 10%
        bucket 2: 30%
        bucket 1: 40%
        bucket 5: 20%
        bucket 2: 40%
        bucket 6: 20%
        bucket 3: 30%
        bucket 1: 50%
        bucket 4: 20%
        bucket 7: 20%
        bucket 2: 50%
        bucket 1: 60%
        bucket 5: 30%
        bucket 3: 40%
        bucket 6: 30%
        bucket 2: 60%
        bucket 4: 30%
        bucket 1: 70%
        bucket 7: 30%
        bucket 3: 50%
        bucket 2: 70%
        bucket 5: 40%
        bucket 1: 80%
        bucket 6: 40%
        bucket 2: 80%
        bucket 4: 40%
        bucket 3: 60%
        bucket 5: 50%
        bucket 7: 40%
        bucket 1: 90%
        bucket 2: 90%
        bucket 6: 50%
        bucket 3: 70%
        bucket 1: 100%
        bucket 4: 50%
        bucket 2: 100%
        bucket 5: 60%
        bucket 7: 50%
        bucket 6: 60%
        bucket 3: 80%
        Sorting block of length 355 for bucket 1
        (Using difference cover)
        Sorting block of length 165 for bucket 2
        (Using difference cover)
        bucket 4: 60%
        bucket 5: 70%
        bucket 7: 60%
        bucket 6: 70%
        bucket 3: 90%
        bucket 4: 70%
        bucket 5: 80%
        bucket 7: 70%
        bucket 3: 100%
        bucket 6: 80%
        Sorting block of length 370 for bucket 3
        (Using difference cover)
        bucket 4: 80%
        bucket 7: 80%
        bucket 5: 90%
        bucket 6: 90%
        bucket 4: 90%
        bucket 5: 100%
        bucket 7: 90%
        bucket 6: 100%
        Sorting block of length 203 for bucket 5
        (Using difference cover)
        Sorting block of length 339 for bucket 6
        (Using difference cover)
        bucket 4: 100%
        Sorting block of length 328 for bucket 4
        (Using difference cover)
        bucket 7: 100%
        Sorting block of length 368 for bucket 7
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 356 for bucket 1
        Sorting block time: 00:00:00
      Returning block of 329 for bucket 4
        Sorting block time: 00:00:00
      Returning block of 204 for bucket 5
        Sorting block time: 00:00:00
      Returning block of 166 for bucket 2
        Sorting block time: 00:00:00
      Returning block of 371 for bucket 3
        Sorting block time: 00:00:00
      Returning block of 340 for bucket 6
        Sorting block time: 00:00:00
      Returning block of 369 for bucket 7
      Getting block 8 of 58
        Reserving size (388) for bucket 8
        Calculating Z arrays for bucket 8
        Entering block accumulator loop for bucket 8:
        bucket 8: 10%
        bucket 8: 20%
        bucket 8: 30%
      Getting block 9 of 58
        bucket 8: 40%
        Reserving size (388) for bucket 9
        Calculating Z arrays for bucket 9
        bucket 8: 50%
        Entering block accumulator loop for bucket 9:
        bucket 9: 10%
        bucket 8: 60%
        bucket 9: 20%
        bucket 8: 70%
        bucket 9: 30%
        bucket 8: 80%
        bucket 8: 90%
        bucket 9: 40%
        bucket 8: 100%
        Sorting block of length 171 for bucket 8
        (Using difference cover)
        bucket 9: 50%
        bucket 9: 60%
        bucket 9: 70%
        bucket 9: 80%
        Sorting block time: 00:00:00
        bucket 9: 90%
      Returning block of 172 for bucket 8
        bucket 9: 100%
        Sorting block of length 339 for bucket 9
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 340 for bucket 9
      Getting block 10 of 58
        Reserving size (388) for bucket 10
      Getting block 11 of 58
        Calculating Z arrays for bucket 10
        Reserving size (388) for bucket 11
        Calculating Z arrays for bucket 11
        Entering block accumulator loop for bucket 10:
        Entering block accumulator loop for bucket 11:
        bucket 11: 10%
        bucket 10: 10%
        bucket 11: 20%
        bucket 10: 20%
        bucket 11: 30%
        bucket 10: 30%
        bucket 11: 40%
        bucket 11: 50%
        bucket 10: 40%
        bucket 10: 50%
        bucket 11: 60%
        bucket 10: 60%
        bucket 11: 70%
      Getting block 12 of 58
        bucket 10: 70%
        bucket 11: 80%
        Reserving size (388) for bucket 12
      Getting block 13 of 58
        bucket 11: 90%
        Calculating Z arrays for bucket 12
        Reserving size (388) for bucket 13
        bucket 10: 80%
        Calculating Z arrays for bucket 13
        bucket 11: 100%
      Getting block 14 of 58
        Sorting block of length 305 for bucket 11
        (Using difference cover)
        Entering block accumulator loop for bucket 12:
        Reserving size (388) for bucket 14
        Entering block accumulator loop for bucket 13:
        bucket 10: 90%
        Calculating Z arrays for bucket 14
        Entering block accumulator loop for bucket 14:
        bucket 12: 10%
        bucket 10: 100%
        Sorting block of length 357 for bucket 10
        (Using difference cover)
        bucket 13: 10%
        bucket 14: 10%
        bucket 12: 20%
        bucket 14: 20%
        bucket 13: 20%
        bucket 12: 30%
        bucket 14: 30%
        bucket 12: 40%
        bucket 14: 40%
        bucket 13: 30%
        bucket 12: 50%
        bucket 14: 50%
        Sorting block time: 00:00:00
      Returning block of 306 for bucket 11
        bucket 13: 40%
        bucket 14: 60%
        bucket 12: 60%
        bucket 13: 50%
        bucket 14: 70%
        bucket 12: 70%
        Sorting block time: 00:00:00
      Returning block of 358 for bucket 10
        bucket 14: 80%
        bucket 13: 60%
        bucket 12: 80%
        bucket 14: 90%
        bucket 13: 70%
        bucket 12: 90%
        bucket 14: 100%
        Sorting block of length 339 for bucket 14
        (Using difference cover)
        bucket 13: 80%
        bucket 12: 100%
        Sorting block of length 185 for bucket 12
        (Using difference cover)
        bucket 13: 90%
        bucket 13: 100%
        Sorting block of length 282 for bucket 13
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 340 for bucket 14
        Sorting block time: 00:00:00
      Returning block of 186 for bucket 12
        Sorting block time: 00:00:00
      Returning block of 283 for bucket 13
      Getting block 15 of 58
        Reserving size (388) for bucket 15
        Calculating Z arrays for bucket 15
        Entering block accumulator loop for bucket 15:
        bucket 15: 10%
      Getting block 16 of 58
        Reserving size (388) for bucket 16
        Calculating Z arrays for bucket 16
        Entering block accumulator loop for bucket 16:
        bucket 15: 20%
        bucket 15: 30%
        bucket 16: 10%
        bucket 15: 40%
        bucket 16: 20%
        bucket 15: 50%
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        bucket 15: 80%
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        bucket 16: 60%
        bucket 15: 100%
        Sorting block of length 241 for bucket 15
        (Using difference cover)
        bucket 16: 70%
        bucket 16: 80%
        bucket 16: 90%
        Sorting block time: 00:00:00
      Returning block of 242 for bucket 15
        bucket 16: 100%
        Sorting block of length 379 for bucket 16
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 380 for bucket 16
      Getting block 17 of 58
        Reserving size (388) for bucket 17
      Getting block 18 of 58
        Calculating Z arrays for bucket 17
        Reserving size (388) for bucket 18
        Calculating Z arrays for bucket 18
        Entering block accumulator loop for bucket 18:
        Entering block accumulator loop for bucket 17:
        bucket 18: 10%
        bucket 17: 10%
        bucket 18: 20%
        bucket 17: 20%
        bucket 18: 30%
        bucket 17: 30%
        bucket 18: 40%
        bucket 18: 50%
        bucket 17: 40%
        bucket 18: 60%
        bucket 17: 50%
        bucket 18: 70%
        bucket 18: 80%
        bucket 17: 60%
        bucket 18: 90%
        bucket 17: 70%
        bucket 18: 100%
        Sorting block of length 378 for bucket 18
        (Using difference cover)
        bucket 17: 80%
        bucket 17: 90%
        bucket 17: 100%
        Sorting block of length 215 for bucket 17
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 379 for bucket 18
        Sorting block time: 00:00:00
      Returning block of 216 for bucket 17
      Getting block 19 of 58
        Reserving size (388) for bucket 19
      Getting block 20 of 58
        Calculating Z arrays for bucket 19
        Reserving size (388) for bucket 20
        Calculating Z arrays for bucket 20
        Entering block accumulator loop for bucket 19:
        Entering block accumulator loop for bucket 20:
        bucket 19: 10%
        bucket 20: 10%
        bucket 19: 20%
        bucket 20: 20%
        bucket 20: 30%
        bucket 19: 30%
        bucket 19: 40%
        bucket 20: 40%
        bucket 19: 50%
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        bucket 20: 60%
        bucket 19: 60%
        bucket 19: 70%
        bucket 20: 70%
        bucket 19: 80%
        bucket 20: 80%
        bucket 19: 90%
        bucket 20: 90%
        bucket 19: 100%
        bucket 20: 100%
        Sorting block of length 334 for bucket 19
        (Using difference cover)
        Sorting block of length 313 for bucket 20
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 335 for bucket 19
        Sorting block time: 00:00:00
      Returning block of 314 for bucket 20
      Getting block 21 of 58
        Reserving size (388) for bucket 21
        Calculating Z arrays for bucket 21
        Entering block accumulator loop for bucket 21:
        bucket 21: 10%
        bucket 21: 20%
        bucket 21: 30%
        bucket 21: 40%
        bucket 21: 50%
        bucket 21: 60%
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        bucket 21: 80%
        bucket 21: 90%
        bucket 21: 100%
        Sorting block of length 210 for bucket 21
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 211 for bucket 21
      Getting block 22 of 58
        Reserving size (388) for bucket 22
        Calculating Z arrays for bucket 22
        Entering block accumulator loop for bucket 22:
      Getting block 23 of 58
        bucket 22: 10%
        Reserving size (388) for bucket 23
        Calculating Z arrays for bucket 23
        Entering block accumulator loop for bucket 23:
        bucket 22: 20%
        bucket 22: 30%
        bucket 23: 10%
        bucket 22: 40%
        bucket 23: 20%
        bucket 22: 50%
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        bucket 23: 60%
        bucket 22: 80%
        bucket 23: 70%
        bucket 22: 90%
        bucket 23: 80%
        bucket 22: 100%
        Sorting block of length 386 for bucket 22
        (Using difference cover)
        bucket 23: 90%
        bucket 23: 100%
        Sorting block of length 238 for bucket 23
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 387 for bucket 22
        Sorting block time: 00:00:00
      Returning block of 239 for bucket 23
      Getting block 24 of 58
        Reserving size (388) for bucket 24
      Getting block 25 of 58
        Calculating Z arrays for bucket 24
        Reserving size (388) for bucket 25
        Calculating Z arrays for bucket 25
        Entering block accumulator loop for bucket 24:
        Entering block accumulator loop for bucket 25:
        bucket 24: 10%
        bucket 25: 10%
        bucket 24: 20%
        bucket 24: 30%
        bucket 25: 20%
        bucket 24: 40%
        bucket 25: 30%
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        bucket 25: 50%
        bucket 24: 70%
        bucket 24: 80%
        bucket 25: 60%
        bucket 24: 90%
        bucket 25: 70%
        bucket 24: 100%
        Sorting block of length 351 for bucket 24
        (Using difference cover)
        bucket 25: 80%
        bucket 25: 90%
        bucket 25: 100%
        Sorting block of length 105 for bucket 25
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 352 for bucket 24
        Sorting block time: 00:00:00
      Returning block of 106 for bucket 25
      Getting block 26 of 58
        Reserving size (388) for bucket 26
        Calculating Z arrays for bucket 26
        Entering block accumulator loop for bucket 26:
        bucket 26: 10%
        bucket 26: 20%
        bucket 26: 30%
        bucket 26: 40%
      Getting block 27 of 58
        bucket 26: 50%
        Reserving size (388) for bucket 27
        Calculating Z arrays for bucket 27
        Entering block accumulator loop for bucket 27:
        bucket 26: 60%
        bucket 26: 70%
        bucket 27: 10%
        bucket 26: 80%
        bucket 27: 20%
        bucket 26: 90%
        bucket 27: 30%
        bucket 26: 100%
        Sorting block of length 354 for bucket 26
        (Using difference cover)
        bucket 27: 40%
        bucket 27: 50%
        bucket 27: 60%
        bucket 27: 70%
        Sorting block time: 00:00:00
      Returning block of 355 for bucket 26
        bucket 27: 80%
        bucket 27: 90%
        bucket 27: 100%
        Sorting block of length 334 for bucket 27
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 335 for bucket 27
      Getting block 28 of 58
        Reserving size (388) for bucket 28
      Getting block 29 of 58
        Calculating Z arrays for bucket 28
        Reserving size (388) for bucket 29
        Calculating Z arrays for bucket 29
        Entering block accumulator loop for bucket 28:
        Entering block accumulator loop for bucket 29:
        bucket 29: 10%
        bucket 28: 10%
        bucket 29: 20%
        bucket 28: 20%
        bucket 29: 30%
        bucket 28: 30%
        bucket 29: 40%
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        bucket 29: 60%
        bucket 28: 70%
        bucket 29: 70%
        bucket 28: 80%
        bucket 29: 80%
        bucket 28: 90%
        bucket 29: 90%
        bucket 28: 100%
        Sorting block of length 253 for bucket 28
        (Using difference cover)
        bucket 29: 100%
        Sorting block of length 289 for bucket 29
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 254 for bucket 28
        Sorting block time: 00:00:00
      Returning block of 290 for bucket 29
      Getting block 30 of 58
        Reserving size (388) for bucket 30
        Calculating Z arrays for bucket 30
        Entering block accumulator loop for bucket 30:
        bucket 30: 10%
        bucket 30: 20%
      Getting block 31 of 58
        bucket 30: 30%
        Reserving size (388) for bucket 31
        Calculating Z arrays for bucket 31
        bucket 30: 40%
        bucket 30: 50%
        Entering block accumulator loop for bucket 31:
        bucket 30: 60%
        bucket 31: 10%
        bucket 30: 70%
        bucket 31: 20%
        bucket 30: 80%
        bucket 31: 30%
      Getting block 32 of 58
        bucket 30: 90%
        Reserving size (388) for bucket 32
        bucket 31: 40%
        Calculating Z arrays for bucket 32
        Entering block accumulator loop for bucket 32:
        bucket 30: 100%
        Sorting block of length 345 for bucket 30
        (Using difference cover)
        bucket 31: 50%
        bucket 32: 10%
        bucket 31: 60%
        bucket 32: 20%
        bucket 31: 70%
        bucket 32: 30%
        bucket 31: 80%
        Sorting block time: 00:00:00
      Returning block of 346 for bucket 30
        bucket 32: 40%
        bucket 31: 90%
        bucket 32: 50%
        bucket 31: 100%
        Sorting block of le
      ..
      0:00
      Returning block of 350 for bucket 23
      Getting block 24 of 57
        Reserving size (388) for bucket 24
        Calculating Z arrays for bucket 24
        Entering block accumulator loop for bucket 24:
        bucket 24: 10%
        bucket 24: 20%
      Getting block 25 of 57
        bucket 24: 30%
        Reserving size (388) for bucket 25
        Calculating Z arrays for bucket 25
      Getting block 26 of 57
        Entering block accumulator loop for bucket 25:
        bucket 24: 40%
        Reserving size (388) for bucket 26
        Calculating Z arrays for bucket 26
        Entering block accumulator loop for bucket 26:
        bucket 24: 50%
        bucket 25: 10%
        bucket 24: 60%
        bucket 25: 20%
        bucket 26: 10%
        bucket 24: 70%
        bucket 26: 20%
        bucket 24: 80%
        bucket 25: 30%
        bucket 26: 30%
        bucket 24: 90%
        bucket 25: 40%
        bucket 26: 40%
        bucket 25: 50%
        bucket 24: 100%
        Sorting block of length 245 for bucket 24
        (Using difference cover)
        bucket 26: 50%
        bucket 25: 60%
        bucket 26: 60%
        bucket 25: 70%
        bucket 26: 70%
        bucket 25: 80%
        bucket 26: 80%
        bucket 25: 90%
        Sorting block time: 00:00:00
      Returning block of 246 for bucket 24
        bucket 26: 90%
        bucket 25: 100%
        Sorting block of length 286 for bucket 25
        (Using difference cover)
        bucket 26: 100%
        Sorting block of length 384 for bucket 26
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 287 for bucket 25
        Sorting block time: 00:00:00
      Returning block of 385 for bucket 26
      Getting block 27 of 57
        Reserving size (388) for bucket 27
        Calculating Z arrays for bucket 27
        Entering block accumulator loop for bucket 27:
        bucket 27: 10%
        bucket 27: 20%
        bucket 27: 30%
      Getting block 28 of 57
        bucket 27: 40%
        Reserving size (388) for bucket 28
        Calculating Z arrays for bucket 28
        Entering block accumulator loop for bucket 28:
        bucket 27: 50%
        bucket 28: 10%
        bucket 27: 60%
        bucket 27: 70%
        bucket 28: 20%
        bucket 27: 80%
        bucket 28: 30%
        bucket 27: 90%
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        bucket 27: 100%
        bucket 28: 50%
        Sorting block of length 359 for bucket 27
        (Using difference cover)
        bucket 28: 60%
        bucket 28: 70%
        bucket 28: 80%
        bucket 28: 90%
        bucket 28: 100%
        Sorting block of length 387 for bucket 28
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 360 for bucket 27
        Sorting block time: 00:00:00
      Returning block of 388 for bucket 28
      Getting block 29 of 57
        Reserving size (388) for bucket 29
      Getting block 30 of 57
        Calculating Z arrays for bucket 29
        Reserving size (388) for bucket 30
        Calculating Z arrays for bucket 30
        Entering block accumulator loop for bucket 29:
        Entering block accumulator loop for bucket 30:
        bucket 29: 10%
        bucket 30: 10%
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        bucket 30: 20%
        bucket 29: 40%
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        bucket 30: 40%
        bucket 29: 70%
        bucket 30: 50%
        bucket 29: 80%
        bucket 29: 90%
        bucket 30: 60%
        bucket 29: 100%
        Sorting block of length 195 for bucket 29
        (Using difference cover)
        bucket 30: 70%
        bucket 30: 80%
        bucket 30: 90%
        bucket 30: 100%
        Sorting block of length 257 for bucket 30
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 196 for bucket 29
        Sorting block time: 00:00:00
      Returning block of 258 for bucket 30
      Getting block 31 of 57
        Reserving size (388) for bucket 31
        Calculating Z arrays for bucket 31
        Entering block accumulator loop for bucket 31:
        bucket 31: 10%
        bucket 31: 20%
        bucket 31: 30%
        bucket 31: 40%
        bucket 31: 50%
      Getting block 32 of 57
        bucket 31: 60%
        Reserving size (388) for bucket 32
        Calculating Z arrays for bucket 32
        Entering block accumulator loop for bucket 32:
        bucket 31: 70%
        bucket 32: 10%
        bucket 31: 80%
        bucket 32: 20%
        bucket 31: 90%
        bucket 32: 30%
        bucket 31: 100%
        Sorting block of length 310 for bucket 31
        (Using difference cover)
        bucket 32: 40%
        bucket 32: 50%
        bucket 32: 60%
        bucket 32: 70%
        bucket 32: 80%
        Sorting block time: 00:00:00
      Returning block of 311 for bucket 31
        bucket 32: 90%
        bucket 32: 100%
        Sorting block of length 219 for bucket 32
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 220 for bucket 32
      Getting block 33 of 57
        Reserving size (388) for bucket 33
      Getting block 34 of 57
        Calculating Z arrays for bucket 33
        Reserving size (388) for bucket 34
        Calculating Z arrays for bucket 34
        Entering block accumulator loop for bucket 33:
        Entering block accumulator loop for bucket 34:
        bucket 34: 10%
        bucket 33: 10%
        bucket 34: 20%
        bucket 33: 20%
        bucket 34: 30%
        bucket 33: 30%
        bucket 34: 40%
        bucket 33: 40%
        bucket 34: 50%
        bucket 33: 50%
        bucket 34: 60%
        bucket 33: 60%
        bucket 34: 70%
        bucket 33: 70%
        bucket 34: 80%
        bucket 34: 90%
        bucket 33: 80%
        bucket 34: 100%
        Sorting block of length 275 for bucket 34
        (Using difference cover)
        bucket 33: 90%
        bucket 33: 100%
        Sorting block of length 387 for bucket 33
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 388 for bucket 33
        Sorting block time: 00:00:00
      Returning block of 276 for bucket 34
      Getting block 35 of 57
        Reserving size (388) for bucket 35
        Calculating Z arrays for bucket 35
        Entering block accumulator loop for bucket 35:
        bucket 35: 10%
        bucket 35: 20%
      Getting block 36 of 57
        bucket 35: 30%
        Reserving size (388) for bucket 36
        Calculating Z arrays for bucket 36
        Entering block accumulator loop for bucket 36:
        bucket 35: 40%
        bucket 35: 50%
        bucket 36: 10%
        bucket 35: 60%
        bucket 36: 20%
        bucket 35: 70%
        bucket 36: 30%
        bucket 36: 40%
        bucket 35: 80%
        bucket 36: 50%
        bucket 36: 60%
        bucket 35: 90%
        bucket 36: 70%
        bucket 35: 100%
        Sorting block of length 350 for bucket 35
        (Using difference cover)
        bucket 36: 80%
        bucket 36: 90%
        bucket 36: 100%
        Sorting block of length 150 for bucket 36
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 351 for bucket 35
        Sorting block time: 00:00:00
      Returning block of 151 for bucket 36
      Getting block 37 of 57
        Reserving size (388) for bucket 37
      Getting block 38 of 57
        Calculating Z arrays for bucket 37
        Reserving size (388) for bucket 38
        Calculating Z arrays for bucket 38
        Entering block accumulator loop for bucket 38:
        Entering block accumulator loop for bucket 37:
        bucket 37: 10%
        bucket 38: 10%
        bucket 37: 20%
        bucket 38: 20%
        bucket 37: 30%
        bucket 38: 30%
        bucket 37: 40%
        bucket 38: 40%
        bucket 37: 50%
        bucket 38: 50%
        bucket 37: 60%
        bucket 38: 60%
        bucket 38: 70%
        bucket 37: 70%
        bucket 38: 80%
        bucket 37: 80%
        bucket 38: 90%
        bucket 37: 90%
        bucket 38: 100%
        Sorting block of length 337 for bucket 38
        (Using difference cover)
        bucket 37: 100%
        Sorting block of length 267 for bucket 37
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 338 for bucket 38
        Sorting block time: 00:00:00
      Returning block of 268 for bucket 37
      Getting block 39 of 57
        Reserving size (388) for bucket 39
      Getting block 40 of 57
        Calculating Z arrays for bucket 39
        Reserving size (388) for bucket 40
        Calculating Z arrays for bucket 40
        Entering block accumulator loop for bucket 39:
        Entering block accumulator loop for bucket 40:
        bucket 40: 10%
        bucket 39: 10%
        bucket 40: 20%
        bucket 39: 20%
        bucket 40: 30%
        bucket 40: 40%
        bucket 39: 30%
        bucket 40: 50%
        bucket 39: 40%
        bucket 40: 60%
        bucket 40: 70%
        bucket 39: 50%
        bucket 40: 80%
        bucket 39: 60%
        bucket 40: 90%
        bucket 39: 70%
        bucket 40: 100%
        Sorting block of length 379 for bucket 40
        (Using difference cover)
        bucket 39: 80%
        bucket 39: 90%
        bucket 39: 100%
        Sorting block of length 387 for bucket 39
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 380 for bucket 40
        Sorting block time: 00:00:00
      Returning block of 388 for bucket 39
      Getting block 41 of 57
        Reserving size (388) for bucket 41
        Calculating Z arrays for bucket 41
        Entering block accumulator loop for bucket 41:
        bucket 41: 10%
        bucket 41: 20%
        bucket 41: 30%
        bucket 41: 40%
        bucket 41: 50%
        bucket 41: 60%
        bucket 41: 70%
        bucket 41: 80%
        bucket 41: 90%
        bucket 41: 100%
        Sorting block of length 330 for bucket 41
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 331 for bucket 41
      Getting block 42 of 57
        Reserving size (388) for bucket 42
        Calculating Z arrays for bucket 42
        Entering block accumulator loop for bucket 42:
        bucket 42: 10%
        bucket 42: 20%
      Getting block 43 of 57
        bucket 42: 30%
        Reserving size (388) for bucket 43
        Calculating Z arrays for bucket 43
        Entering block accumulator loop for bucket 43:
        bucket 42: 40%
        bucket 43: 10%
        bucket 42: 50%
        bucket 43: 20%
        bucket 43: 30%
        bucket 42: 60%
        bucket 43: 40%
        bucket 42: 70%
        bucket 43: 50%
        bucket 42: 80%
        bucket 43: 60%
        bucket 42: 90%
        bucket 43: 70%
        bucket 43: 80%
        bucket 42: 100%
        Sorting block of length 188 for bucket 42
        (Using difference cover)
        bucket 43: 90%
        bucket 43: 100%
        Sorting block of length 321 for bucket 43
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 189 for bucket 42
        Sorting block time: 00:00:00
      Returning block of 322 for bucket 43
      Getting block 44 of 57
        Reserving size (388) for bucket 44
      Getting block 45 of 57
        Calculating Z arrays for bucket 44
        Reserving size (388) for bucket 45
        Calculating Z arrays for bucket 45
        Entering block accumulator loop for bucket 44:
        Entering block accumulator loop for bucket 45:
        bucket 44: 10%
        bucket 45: 10%
        bucket 44: 20%
        bucket 45: 20%
        bucket 44: 30%
        bucket 45: 30%
        bucket 44: 40%
        bucket 45: 40%
        bucket 44: 50%
        bucket 45: 50%
        bucket 44: 60%
        bucket 44: 70%
        bucket 45: 60%
        bucket 44: 80%
        bucket 45: 70%
        bucket 44: 90%
        bucket 45: 80%
        bucket 44: 100%
        Sorting block of length 366 for bucket 44
        (Using difference cover)
        bucket 45: 90%
        bucket 45: 100%
        Sorting block of length 365 for bucket 45
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 367 for bucket 44
        Sorting block time: 00:00:00
      Returning block of 366 for bucket 45
      Getting block 46 of 57
        Reserving size (388) for bucket 46
        Calculating Z arrays for bucket 46
        Entering block accumulator loop for bucket 46:
        bucket 46: 10%
        bucket 46: 20%
        bucket 46: 30%
      Getting block 47 of 57
        Reserving size (388) for bucket 47
        Calculating Z arrays for bucket 47
        bucket 46: 40%
        Entering block accumulator loop for bucket 47:
        bucket 46: 50%
        bucket 47: 10%
        bucket 46: 60%
        bucket 47: 20%
        bucket 46: 70%
        bucket 47: 30%
        bucket 46: 80%
      Getting block 48 of 57
        bucket 46: 90%
        bucket 47: 40%
        Reserving size (388) for bucket 48
        Calculating Z arrays for bucket 48
        bucket 46: 100%
        Sorting block of length 253 for bucket 46
        (Using difference cover)
        Entering block accumulator loop for bucket 48:
        bucket 47: 50%
        bucket 48: 10%
        bucket 47: 60%
        bucket 48: 20%
        bucket 48: 30%
        bucket 48: 40%
        bucket 47: 70%
        bucket 48: 50%
        bucket 47: 80%
        bucket 48: 60%
        Sorting block time: 00:00:00
      Returning block of 254 for bucket 46
        bucket 47: 90%
        bucket 48: 70%
        bucket 47: 100%
        Sorting block of length 217 for bucket 47
        (Using difference cover)
        bucket 48: 80%
        bucket 48: 90%
        bucket 48: 100%
        Sorting block of length 384 for bucket 48
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 218 for bucket 47
        Sorting block time: 00:00:00
      Returning block of 385 for bucket 48
      Getting block 49 of 57
        Reserving size (388) for bucket 49
      Getting block 50 of 57
        Calculating Z arrays for bucket 49
        Reserving size (388) for bucket 50
        Calculating Z arrays for bucket 50
        Entering block accumulator loop for bucket 49:
        Entering block accumulator loop for bucket 50:
        bucket 49: 10%
        bucket 49: 20%
        bucket 50: 10%
        bucket 49: 30%
        bucket 50: 20%
        bucket 49: 40%
        bucket 50: 30%
        bucket 49: 50%
        bucket 50: 40%
        bucket 49: 60%
        bucket 50: 50%
        bucket 50: 60%
        bucket 49: 70%
        bucket 50: 70%
        bucket 49: 80%
        bucket 50: 80%
        bucket 50: 90%
        bucket 49: 90%
        bucket 50: 100%
        Sorting block of length 275 for bucket 50
        (Using difference cover)
        bucket 49: 100%
        Sorting block of length 112 for bucket 49
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 276 for bucket 50
        Sorting block time: 00:00:00
      Returning block of 113 for bucket 49
      Getting block 51 of 57
        Reserving size (388) for bucket 51
      Getting block 52 of 57
        Calculating Z arrays for bucket 51
        Reserving size (388) for bucket 52
        Calculating Z arrays for bucket 52
        Entering block accumulator loop for bucket 51:
        Entering block accumulator loop for bucket 52:
        bucket 51: 10%
        bucket 52: 10%
        bucket 51: 20%
        bucket 52: 20%
        bucket 51: 30%
        bucket 52: 30%
        bucket 51: 40%
        bucket 52: 40%
        bucket 51: 50%
        bucket 52: 50%
        bucket 51: 60%
        bucket 52: 60%
        bucket 51: 70%
        bucket 52: 70%
        bucket 51: 80%
        bucket 51: 90%
        bucket 52: 80%
        bucket 51: 100%
        Sorting block of length 350 for bucket 51
        (Using difference cover)
        bucket 52: 90%
        bucket 52: 100%
        Sorting block of length 378 for bucket 52
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 351 for bucket 51
        Sorting block time: 00:00:00
      Returning block of 379 for bucket 52
      Getting block 53 of 57
        Reserving size (388) for bucket 53
        Calculating Z arrays for bucket 53
        Entering block accumulator loop for bucket 53:
      Getting block 54 of 57
        Reserving size (388) for bucket 54
        bucket 53: 10%
        Calculating Z arrays for bucket 54
        Entering block accumulator loop for bucket 54:
        bucket 53: 20%
        bucket 53: 30%
        bucket 54: 10%
        bucket 53: 40%
        bucket 54: 20%
        bucket 53: 50%
        bucket 54: 30%
        bucket 53: 60%
        bucket 54: 40%
        bucket 53: 70%
        bucket 54: 50%
        bucket 53: 80%
        bucket 54: 60%
        bucket 53: 90%
        bucket 54: 70%
        bucket 54: 80%
        bucket 53: 100%
        Sorting block of length 370 for bucket 53
        bucket 54: 90%
        (Using difference cover)
        bucket 54: 100%
        Sorting block of length 237 for bucket 54
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 238 for bucket 54
        Sorting block time: 00:00:00
      Returning block of 371 for bucket 53
      Getting block 55 of 57
        Reserving size (388) for bucket 55
        Calculating Z arrays for bucket 55
        Entering block accumulator loop for bucket 55:
        bucket 55: 10%
        bucket 55: 20%
        bucket 55: 30%
      Getting block 56 of 57
        bucket 55: 40%
        Reserving size (388) for bucket 56
        Calculating Z arrays for bucket 56
        bucket 55: 50%
        bucket 55: 60%
        bucket 55: 70%
        Entering block accumulator loop for bucket 56:
        bucket 55: 80%
        bucket 55: 90%
        bucket 56: 10%
        bucket 55: 100%
        Sorting block of length 344 for bucket 55
        (Using difference cover)
        bucket 56: 20%
        bucket 56: 30%
        bucket 56: 40%
        bucket 56: 50%
        bucket 56: 60%
        bucket 56: 70%
        bucket 56: 80%
        Sorting block time: 00:00:00
      Returning block of 345 for bucket 55
        bucket 56: 90%
        bucket 56: 100%
        Sorting block of length 270 for bucket 56
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 271 for bucket 56
      Getting block 57 of 57
        Reserving size (388) for bucket 57
        Calculating Z arrays for bucket 57
        Entering block accumulator loop for bucket 57:
        bucket 57: 10%
        bucket 57: 20%
        bucket 57: 30%
        bucket 57: 40%
        bucket 57: 50%
        bucket 57: 60%
        bucket 57: 70%
        bucket 57: 80%
        bucket 57: 90%
        bucket 57: 100%
        Sorting block of length 132 for bucket 57
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 133 for bucket 57
      Exited Ebwt loop
      fchr[A]: 0
      fchr[C]: 5124
      fchr[G]: 10305
      fchr[T]: 12474
      fchr[$]: 16568
      Exiting Ebwt::buildToDisk()
      Returning from initFromVector
      Wrote 4200050 bytes to primary EBWT file: genome.rev.1.bt2.tmp
      Wrote 4148 bytes to secondary EBWT file: genome.rev.2.bt2.tmp
      Re-opening _in1 and _in2 as input streams
      Returning from Ebwt constructor
      Headers:
          len: 16568
          bwtLen: 16569
          sz: 4142
          bwtSz: 4143
          lineRate: 6
          offRate: 4
          offMask: 0xfffffff0
          ftabChars: 10
          eftabLen: 20
          eftabSz: 80
          ftabLen: 1048577
          ftabSz: 4194308
          offsLen: 1036
          offsSz: 4144
          lineSz: 64
          sideSz: 64
          sideBwtSz: 48
          sideBwtLen: 192
          numSides: 87
          numLines: 87
          ebwtTotLen: 5568
          ebwtTotSz: 5568
          color: 0
          reverse: 1
      Total time for backward call to driver() for mirror index: 00:00:01

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | save\_mapping\_stats | ` false ` |
       | sam\_options | ` {"__current_case__": 1, "sam_options_selector": "no"} ` |
       | analysis\_type | ` {"__current_case__": 0, "analysis_type_selector": "simple", "presets": "no_presets"} ` |
       | rg | ` {"__current_case__": 3, "rg_selector": "do_not_set"} ` |
       | reference\_genome | ` {"__current_case__": 1, "own_file": {"values": [{"id": 379, "src": "hda"}]}, "source": "history"} ` |
       | library | ` {"__current_case__": 1, "aligned_file": false, "input_1": {"values": [{"id": 377, "src": "hda"}]}, "input_2": {"values": [{"id": 378, "src": "hda"}]}, "paired_options": {"__current_case__": 1, "paired_options_selector": "no"}, "type": "paired", "unaligned_file": false} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; bowtie2 (Test # 7)</summary><div class="padded">

    **Command Line:**

    * ```console
      set -o | grep -q pipefail && set -o pipefail; bowtie2-build --threads ${GALAXY_SLOTS:-4} '/galaxy/server/database/objects/d/7/e/dataset_d7e4698b-8974-47ea-9629-48cc1da72d18.dat' genome && ln -s -f '/galaxy/server/database/objects/d/7/e/dataset_d7e4698b-8974-47ea-9629-48cc1da72d18.dat' genome.fa &&   ln -f -s '/galaxy/server/database/objects/a/6/1/dataset_a6186901-2c15-4a87-94e0-5321384c7024.dat' input_f.fastq.bz2 &&  ln -f -s '/galaxy/server/database/objects/6/7/0/dataset_670689d5-822d-4fc0-bf95-a98da3b7b208.dat' input_r.fastq.bz2 &&   THREADS=${GALAXY_SLOTS:-4} && if [ "$THREADS" -gt 1 ]; then (( THREADS-- )); fi &&   bowtie2  -p "$THREADS"  -x 'genome'   -1 'input_f.fastq.bz2' -2 'input_r.fastq.bz2'                 | samtools sort -l 0 -T "${TMPDIR:-.}" -O bam | samtools view --no-PG -O bam -@ ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/6/f/1/dataset_6f1b9857-ece1-4b73-89f7-0064f81a737f.dat'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Error:**

    * ```console
      Building a SMALL index
      Renaming genome.3.bt2.tmp to genome.3.bt2
      Renaming genome.4.bt2.tmp to genome.4.bt2
      Renaming genome.1.bt2.tmp to genome.1.bt2
      Renaming genome.2.bt2.tmp to genome.2.bt2
      Renaming genome.rev.1.bt2.tmp to genome.rev.1.bt2
      Renaming genome.rev.2.bt2.tmp to genome.rev.2.bt2
      100 reads; of these:
        100 (100.00%) were paired; of these:
          97 (97.00%) aligned concordantly 0 times
          3 (3.00%) aligned concordantly exactly 1 time
          0 (0.00%) aligned concordantly >1 times
          ----
          97 pairs aligned concordantly 0 times; of these:
            8 (8.25%) aligned discordantly 1 time
          ----
          89 pairs aligned 0 times concordantly or discordantly; of these:
            178 mates make up the pairs; of these:
              153 (85.96%) aligned 0 times
              25 (14.04%) aligned exactly 1 time
              0 (0.00%) aligned >1 times
      23.50% overall alignment rate

      ```
    **Standard Output:**

    * ```console
      Settings:
        Output files: "genome.*.bt2"
        Line rate: 6 (line is 64 bytes)
        Lines per side: 1 (side is 64 bytes)
        Offset rate: 4 (one in 16)
        FTable chars: 10
        Strings: unpacked
        Max bucket size: default
        Max bucket size, sqrt multiplier: default
        Max bucket size, len divisor: 32
        Difference-cover sample period: 1024
        Endianness: little
        Actual local endianness: little
        Sanity checking: disabled
        Assertions: disabled
        Random seed: 0
        Sizeofs: void*:8, int:4, long:8, size_t:8
      Input files DNA, FASTA:
        /galaxy/server/database/objects/d/7/e/dataset_d7e4698b-8974-47ea-9629-48cc1da72d18.dat
      Reading reference sizes
        Time reading reference sizes: 00:00:00
      Calculating joined length
      Writing header
      Reserving space for joined string
      Joining reference sequences
        Time to join reference sequences: 00:00:00
      bmax according to bmaxDivN setting: 517
      Using parameters --bmax 388 --dcv 1024
        Doing ahead-of-time memory usage test
        Passed!  Constructing with these parameters: --bmax 388 --dcv 1024
      Constructing suffix-array element generator
      Building DifferenceCoverSample
        Building sPrime
        Building sPrimeOrder
        V-Sorting samples
        V-Sorting samples time: 00:00:00
        Allocating rank array
        Ranking v-sort output
        Ranking v-sort output time: 00:00:00
        Invoking Larsson-Sadakane on ranks
        Invoking Larsson-Sadakane on ranks time: 00:00:00
        Sanity-checking and returning
      Building samples
      Reserving space for 86 sample suffixes
      Generating random suffixes
      QSorting 86 sample offsets, eliminating duplicates
      QSorting sample offsets, eliminating duplicates time: 00:00:00
      Multikey QSorting 86 samples
        (Using difference cover)
        Multikey QSorting samples time: 00:00:00
      Calculating bucket sizes
      Splitting and merging
        Splitting and merging time: 00:00:00
      Split 12, merged 41; iterating...
      Splitting and merging
        Splitting and merging time: 00:00:00
      Split 6, merged 6; iterating...
      Splitting and merging
        Splitting and merging time: 00:00:00
      Split 5, merged 3; iterating...
      Splitting and merging
        Splitting and merging time: 00:00:00
      Split 3, merged 3; iterating...
      Splitting and merging
        Splitting and merging time: 00:00:00
      Avg bucket size: 284.672 (target: 387)
      Converting suffix-array elements to index image
      Allocating ftab, absorbFtab
      Entering Ebwt loop
      Getting block 1 of 58
        Reserving size (388) for bucket 1
      Getting block 2 of 58
      Getting block 3 of 58
      Getting block 4 of 58
      Getting block 5 of 58
      Getting block 6 of 58
      Getting block 7 of 58
        Calculating Z arrays for bucket 1
        Reserving size (388) for bucket 2
        Reserving size (388) for bucket 3
        Reserving size (388) for bucket 4
        Reserving size (388) for bucket 5
        Reserving size (388) for bucket 6
        Reserving size (388) for bucket 7
        Calculating Z arrays for bucket 2
        Entering block accumulator loop for bucket 1:
        Calculating Z arrays for bucket 3
        Calculating Z arrays for bucket 4
        Calculating Z arrays for bucket 5
        Calculating Z arrays for bucket 6
        Calculating Z arrays for bucket 7
        Entering block accumulator loop for bucket 2:
        Entering block accumulator loop for bucket 3:
        Entering block accumulator loop for bucket 4:
        Entering block accumulator loop for bucket 5:
        Entering block accumulator loop for bucket 6:
        Entering block accumulator loop for bucket 7:
        bucket 1: 10%
        bucket 2: 10%
        bucket 3: 10%
        bucket 5: 10%
        bucket 4: 10%
        bucket 1: 20%
        bucket 2: 20%
        bucket 7: 10%
        bucket 3: 20%
        bucket 5: 20%
        bucket 6: 10%
        bucket 2: 30%
        bucket 1: 30%
        bucket 4: 20%
        bucket 3: 30%
        bucket 5: 30%
        bucket 7: 20%
        bucket 2: 40%
        bucket 1: 40%
        bucket 6: 20%
        bucket 4: 30%
        bucket 3: 40%
        bucket 5: 40%
        bucket 2: 50%
        bucket 1: 50%
        bucket 7: 30%
        bucket 6: 30%
        bucket 3: 50%
        bucket 2: 60%
        bucket 5: 50%
        bucket 4: 40%
        bucket 1: 60%
        bucket 7: 40%
        bucket 6: 40%
        bucket 3: 60%
        bucket 2: 70%
        bucket 5: 60%
        bucket 1: 70%
        bucket 4: 50%
        bucket 3: 70%
        bucket 7: 50%
        bucket 6: 50%
        bucket 2: 80%
        bucket 5: 70%
        bucket 1: 80%
        bucket 3: 80%
        bucket 5: 80%
        bucket 6: 60%
        bucket 2: 90%
        bucket 1: 90%
        bucket 7: 60%
        bucket 3: 90%
        bucket 5: 90%
        bucket 1: 100%
        bucket 2: 100%
        Sorting block of length 355 for bucket 1
        (Using difference cover)
        bucket 6: 70%
        Sorting block of length 165 for bucket 2
        (Using difference cover)
        bucket 3: 100%
        bucket 4: 60%
        bucket 7: 70%
        Sorting block of length 370 for bucket 3
        (Using difference cover)
        bucket 5: 100%
        bucket 6: 80%
        bucket 4: 70%
        bucket 7: 80%
        Sorting block of length 203 for bucket 5
        (Using difference cover)
        bucket 4: 80%
        bucket 6: 90%
        bucket 7: 90%
        bucket 4: 90%
        bucket 7: 100%
        bucket 6: 100%
        bucket 4: 100%
        Sorting block of length 368 for bucket 7
        (Using difference cover)
        Sorting block of length 339 for bucket 6
        (Using difference cover)
        Sorting block of length 328 for bucket 4
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 371 for bucket 3
        Sorting block time: 00:00:00
      Returning block of 166 for bucket 2
        Sorting block time: 00:00:00
      Returning block of 356 for bucket 1
        Sorting block time: 00:00:00
      Returning block of 204 for bucket 5
        Sorting block time: 00:00:00
      Returning block of 329 for bucket 4
        Sorting block time: 00:00:00
      Returning block of 340 for bucket 6
        Sorting block time: 00:00:00
      Returning block of 369 for bucket 7
      Getting block 8 of 58
        Reserving size (388) for bucket 8
        Calculating Z arrays for bucket 8
        Entering block accumulator loop for bucket 8:
      Getting block 9 of 58
        Reserving size (388) for bucket 9
        Calculating Z arrays for bucket 9
        bucket 8: 10%
        Entering block accumulator loop for bucket 9:
        bucket 8: 20%
        bucket 9: 10%
      Getting block 10 of 58
        bucket 8: 30%
        bucket 9: 20%
        Reserving size (388) for bucket 10
        Calculating Z arrays for bucket 10
        bucket 9: 30%
        Entering block accumulator loop for bucket 10:
        bucket 9: 40%
        bucket 10: 10%
        bucket 8: 40%
        bucket 9: 50%
        bucket 10: 20%
        bucket 8: 50%
        bucket 9: 60%
        bucket 10: 30%
        bucket 8: 60%
        bucket 9: 70%
        bucket 10: 40%
        bucket 8: 70%
        bucket 9: 80%
        bucket 8: 80%
        bucket 10: 50%
        bucket 9: 90%
        bucket 8: 90%
        bucket 10: 60%
        bucket 9: 100%
        Sorting block of length 339 for bucket 9
        (Using difference cover)
        bucket 8: 100%
        Sorting block of length 171 for bucket 8
        (Using difference cover)
        bucket 10: 70%
        bucket 10: 80%
        bucket 10: 90%
        bucket 10: 100%
        Sorting block of length 357 for bucket 10
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 172 for bucket 8
        Sorting block time: 00:00:00
      Returning block of 340 for bucket 9
        Sorting block time: 00:00:00
      Returning block of 358 for bucket 10
      Getting block 11 of 58
        Reserving size (388) for bucket 11
        Calculating Z arrays for bucket 11
        Entering block accumulator loop for bucket 11:
        bucket 11: 10%
        bucket 11: 20%
      Getting block 12 of 58
        Reserving size (388) for bucket 12
        Calculating Z arrays for bucket 12
        bucket 11: 30%
        Entering block accumulator loop for bucket 12:
      Getting block 13 of 58
        bucket 11: 40%
        Reserving size (388) for bucket 13
        bucket 12: 10%
        Calculating Z arrays for bucket 13
        Entering block accumulator loop for bucket 13:
        bucket 12: 20%
        bucket 11: 50%
        bucket 12: 30%
        bucket 11: 60%
        bucket 13: 10%
        bucket 12: 40%
        bucket 11: 70%
        bucket 13: 20%
        bucket 12: 50%
        bucket 12: 60%
        bucket 13: 30%
        bucket 11: 80%
        bucket 12: 70%
        bucket 13: 40%
        bucket 11: 90%
        bucket 12: 80%
        bucket 13: 50%
        bucket 11: 100%
        Sorting block of length 305 for bucket 11
        (Using difference cover)
        bucket 12: 90%
        bucket 13: 60%
        bucket 13: 70%
        bucket 12: 100%
        Sorting block of length 185 for bucket 12
        (Using difference cover)
        bucket 13: 80%
        bucket 13: 90%
        bucket 13: 100%
        Sorting block of length 282 for bucket 13
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 306 for bucket 11
        Sorting block time: 00:00:00
      Returning block of 186 for bucket 12
        Sorting block time: 00:00:00
      Returning block of 283 for bucket 13
      Getting block 15 of 58
      Getting block 14 of 58
        Reserving size (388) for bucket 15
        Reserving size (388) for bucket 14
        Calculating Z arrays for bucket 15
        Calculating Z arrays for bucket 14
        Entering block accumulator loop for bucket 14:
        Entering block accumulator loop for bucket 15:
        bucket 15: 10%
        bucket 14: 10%
        bucket 15: 20%
        bucket 14: 20%
        bucket 15: 30%
        bucket 14: 30%
        bucket 15: 40%
        bucket 14: 40%
        bucket 15: 50%
        bucket 15: 60%
        bucket 14: 50%
        bucket 15: 70%
        bucket 14: 60%
        bucket 15: 80%
        bucket 14: 70%
        bucket 15: 90%
        bucket 15: 100%
        Sorting block of length 241 for bucket 15
        (Using difference cover)
        bucket 14: 80%
        bucket 14: 90%
        bucket 14: 100%
        Sorting block of length 339 for bucket 14
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 242 for bucket 15
        Sorting block time: 00:00:00
      Returning block of 340 for bucket 14
      Getting block 16 of 58
        Reserving size (388) for bucket 16
      Getting block 17 of 58
        Calculating Z arrays for bucket 16
        Reserving size (388) for bucket 17
        Calculating Z arrays for bucket 17
        Entering block accumulator loop for bucket 17:
        Entering block accumulator loop for bucket 16:
        bucket 17: 10%
        bucket 16: 10%
        bucket 16: 20%
        bucket 17: 20%
        bucket 16: 30%
        bucket 17: 30%
        bucket 17: 40%
        bucket 16: 40%
        bucket 16: 50%
        bucket 17: 50%
        bucket 16: 60%
        bucket 17: 60%
        bucket 16: 70%
        bucket 17: 70%
        bucket 17: 80%
        bucket 16: 80%
        bucket 16: 90%
        bucket 17: 90%
        bucket 16: 100%
        Sorting block of length 379 for bucket 16
        (Using difference cover)
        bucket 17: 100%
        Sorting block of length 215 for bucket 17
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 216 for bucket 17
        Sorting block time: 00:00:00
      Returning block of 380 for bucket 16
      Getting block 18 of 58
        Reserving size (388) for bucket 18
        Calculating Z arrays for bucket 18
        Entering block accumulator loop for bucket 18:
        bucket 18: 10%
        bucket 18: 20%
      Getting block 19 of 58
        Reserving size (388) for bucket 19
      Getting block 20 of 58
        Calculating Z arrays for bucket 19
        bucket 18: 30%
        Reserving size (388) for bucket 20
        Calculating Z arrays for bucket 20
        Entering block accumulator loop for bucket 19:
        Entering block accumulator loop for bucket 20:
        bucket 18: 40%
        bucket 20: 10%
        bucket 19: 10%
        bucket 18: 50%
        bucket 20: 20%
        bucket 19: 20%
        bucket 18: 60%
        bucket 20: 30%
        bucket 19: 30%
        bucket 20: 40%
        bucket 18: 70%
        bucket 20: 50%
        bucket 19: 40%
        bucket 18: 80%
        bucket 20: 60%
        bucket 19: 50%
        bucket 18: 90%
        bucket 20: 70%
        bucket 19: 60%
        bucket 18: 100%
        Sorting block of length 378 for bucket 18
        (Using difference cover)
        bucket 20: 80%
        bucket 19: 70%
        bucket 20: 90%
        bucket 19: 80%
        bucket 19: 90%
        bucket 20: 100%
        Sorting block of length 313 for bucket 20
        (Using difference cover)
        bucket 19: 100%
        Sorting block of length 334 for bucket 19
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 379 for bucket 18
        Sorting block time: 00:00:00
      Returning block of 314 for bucket 20
        Sorting block time: 00:00:00
      Returning block of 335 for bucket 19
      Getting block 21 of 58
        Reserving size (388) for bucket 21
        Calculating Z arrays for bucket 21
        Entering block accumulator loop for bucket 21:
        bucket 21: 10%
      Getting block 22 of 58
        Reserving size (388) for bucket 22
        Calculating Z arrays for bucket 22
        Entering block accumulator loop for bucket 22:
        bucket 21: 20%
        bucket 22: 10%
        bucket 21: 30%
        bucket 22: 20%
        bucket 21: 40%
        bucket 22: 30%
        bucket 21: 50%
        bucket 21: 60%
        bucket 22: 40%
        bucket 21: 70%
        bucket 22: 50%
        bucket 21: 80%
        bucket 22: 60%
        bucket 22: 70%
        bucket 21: 90%
        bucket 22: 80%
        bucket 21: 100%
        Sorting block of length 210 for bucket 21
        (Using difference cover)
        bucket 22: 90%
        bucket 22: 100%
        Sorting block of length 386 for bucket 22
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 211 for bucket 21
        Sorting block time: 00:00:00
      Returning block of 387 for bucket 22
      Getting block 23 of 58
        Reserving size (388) for bucket 23
      Getting block 24 of 58
        Calculating Z arrays for bucket 23
        Reserving size (388) for bucket 24
        Calculating Z arrays for bucket 24
        Entering block accumulator loop for bucket 24:
        Entering block accumulator loop for bucket 23:
        bucket 24: 10%
        bucket 23: 10%
        bucket 24: 20%
        bucket 24: 30%
        bucket 23: 20%
        bucket 24: 40%
        bucket 23: 30%
        bucket 23: 40%
        bucket 24: 50%
        bucket 23: 50%
        bucket 24: 60%
        bucket 23: 60%
        bucket 24: 70%
        bucket 23: 70%
        bucket 24: 80%
        bucket 23: 80%
        bucket 24: 90%
        bucket 23: 90%
        bucket 24: 100%
        Sorting block of length 351 for bucket 24
        (Using difference cover)
        bucket 23: 100%
        Sorting block of length 238 for bucket 23
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 239 for bucket 23
        Sorting block time: 00:00:00
      Returning block of 352 for bucket 24
      Getting block 25 of 58
        Reserving size (388) for bucket 25
      Getting block 26 of 58
        Calculating Z arrays for bucket 25
        Reserving size (388) for bucket 26
        Calculating Z arrays for bucket 26
        Entering block accumulator loop for bucket 26:
        bucket 26: 10%
        Entering block accumulator loop for bucket 25:
        bucket 26: 20%
      Getting block 27 of 58
        bucket 25: 10%
        bucket 26: 30%
        Reserving size (388) for bucket 27
        Calculating Z arrays for bucket 27
        Entering block accumulator loop for bucket 27:
        bucket 25: 20%
        bucket 26: 40%
        bucket 25: 30%
        bucket 26: 50%
        bucket 27: 10%
        bucket 26: 60%
        bucket 26: 70%
        bucket 25: 40%
        bucket 27: 20%
        bucket 26: 80%
        bucket 25: 50%
        bucket 26: 90%
        bucket 25: 60%
        bucket 27: 30%
        bucket 25: 70%
        bucket 26: 100%
        Sorting block of length 354 for bucket 26
        (Using difference cover)
        bucket 27: 40%
        bucket 25: 80%
        bucket 25: 90%
        bucket 27: 50%
        bucket 25: 100%
        Sorting block of length 105 for bucket 25
        (Using difference cover)
        bucket 27: 60%
        Sorting block time: 00:00:00
      Returning block of 355 for bucket 26
        bucket 27: 70%
        Sorting block time: 00:00:00
      Returning block of 106 for bucket 25
        bucket 27: 80%
        bucket 27: 90%
        bucket 27: 100%
        Sorting block of length 334 for bucket 27
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 335 for bucket 27
      Getting block 28 of 58
        Reserving size (388) for bucket 28
        Calculating Z arrays for bucket 28
        Entering block accumulator loop for bucket 28:
      Getting block 29 of 58
        Reserving size (388) for bucket 29
      Getting block 30 of 58
        bucket 28: 10%
        Calculating Z arrays for bucket 29
        Reserving size (388) for bucket 30
        Calculating Z arrays for bucket 30
        Entering block accumulator loop for bucket 29:
        Entering block accumulator loop for bucket 30:
        bucket 28: 20%
        bucket 29: 10%
        bucket 30: 10%
        bucket 28: 30%
        bucket 29: 20%
        bucket 30: 20%
        bucket 28: 40%
        bucket 29: 30%
        bucket 28: 50%
        bucket 30: 30%
        bucket 29: 40%
        bucket 28: 60%
        bucket 30: 40%
        bucket 29: 50%
        bucket 28: 70%
        bucket 30: 50%
        bucket 29: 60%
        bucket 28: 80%
        bucket 30: 60%
        bucket 29: 70%
        bucket 28: 90%
        bucket 30: 70%
        bucket 29: 80%
        bucket 28: 100%
        Sorting block of length 253 for bucket 28
        (Using difference cover)
        bucket 30: 80%
        bucket 29: 90%
        bucket 30: 90%
        bucket 29: 100%
        Sorting block of length 289 for bucket 29
        (Using difference cover)
        bucket 30: 100%
        Sorting block of length 345 for bucket 30
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 254 for bucket 28
        Sorting block time: 00:00:00
      Returning block of 290 for bucket 29
        Sorting block time: 00:00:00
      Returning block of 346 for bucket 30
      Getting block 31 of 58
        Reserving size (388) for bucket 31
        Calculating Z arrays for bucket 31
        Entering block accumulator loop for bucket 31:
        bucket 31: 10%
        bucket 31: 20%
      Getting block 32 of 58
        bucket 31: 30%
        Reserving size (388) for bucket 32
        Calculating Z arrays for bucket 32
        Entering block accumulator loop for bucket 32:
        bucket 31: 40%
        bucket 32: 10%
        bucket 32: 20%
        bucket 31: 50%
        bucket 32: 30%
        bucket 32: 40%
        bucket 31: 60%
        bucket 32: 50%
        bucket 31: 70%
        bucket 32: 60%
        bucket 31: 80%
        bucket 32: 70%
        bucket 32: 80%
        buc
      ..
      0:00
      Returning block of 350 for bucket 23
      Getting block 24 of 57
        Reserving size (388) for bucket 24
      Getting block 25 of 57
        Calculating Z arrays for bucket 24
        Reserving size (388) for bucket 25
        Calculating Z arrays for bucket 25
        Entering block accumulator loop for bucket 25:
        Entering block accumulator loop for bucket 24:
        bucket 25: 10%
        bucket 24: 10%
        bucket 25: 20%
        bucket 24: 20%
        bucket 24: 30%
        bucket 24: 40%
        bucket 25: 30%
        bucket 24: 50%
        bucket 25: 40%
        bucket 24: 60%
        bucket 25: 50%
        bucket 25: 60%
        bucket 24: 70%
        bucket 25: 70%
        bucket 24: 80%
        bucket 25: 80%
        bucket 24: 90%
        bucket 24: 100%
        Sorting block of length 245 for bucket 24
        (Using difference cover)
        bucket 25: 90%
        bucket 25: 100%
        Sorting block of length 286 for bucket 25
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 246 for bucket 24
        Sorting block time: 00:00:00
      Returning block of 287 for bucket 25
      Getting block 26 of 57
        Reserving size (388) for bucket 26
        Calculating Z arrays for bucket 26
        Entering block accumulator loop for bucket 26:
        bucket 26: 10%
        bucket 26: 20%
        bucket 26: 30%
        bucket 26: 40%
        bucket 26: 50%
      Getting block 27 of 57
        bucket 26: 60%
        Reserving size (388) for bucket 27
        Calculating Z arrays for bucket 27
        Entering block accumulator loop for bucket 27:
        bucket 26: 70%
        bucket 26: 80%
        bucket 27: 10%
        bucket 26: 90%
        bucket 27: 20%
        bucket 26: 100%
        Sorting block of length 384 for bucket 26
        (Using difference cover)
        bucket 27: 30%
        bucket 27: 40%
        bucket 27: 50%
        bucket 27: 60%
        Sorting block time: 00:00:00
      Returning block of 385 for bucket 26
        bucket 27: 70%
        bucket 27: 80%
        bucket 27: 90%
        bucket 27: 100%
        Sorting block of length 359 for bucket 27
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 360 for bucket 27
      Getting block 28 of 57
        Reserving size (388) for bucket 28
        Calculating Z arrays for bucket 28
        Entering block accumulator loop for bucket 28:
        bucket 28: 10%
        bucket 28: 20%
        bucket 28: 30%
        bucket 28: 40%
        bucket 28: 50%
        bucket 28: 60%
        bucket 28: 70%
        bucket 28: 80%
        bucket 28: 90%
        bucket 28: 100%
        Sorting block of length 387 for bucket 28
        (Using difference cover)
      Getting block 29 of 57
        Reserving size (388) for bucket 29
        Calculating Z arrays for bucket 29
        Entering block accumulator loop for bucket 29:
        bucket 29: 10%
        bucket 29: 20%
        Sorting block time: 00:00:00
      Returning block of 388 for bucket 28
        bucket 29: 30%
        bucket 29: 40%
        bucket 29: 50%
        bucket 29: 60%
        bucket 29: 70%
        bucket 29: 80%
        bucket 29: 90%
        bucket 29: 100%
        Sorting block of length 195 for bucket 29
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 196 for bucket 29
      Getting block 30 of 57
        Reserving size (388) for bucket 30
        Calculating Z arrays for bucket 30
        Entering block accumulator loop for bucket 30:
        bucket 30: 10%
        bucket 30: 20%
        bucket 30: 30%
        bucket 30: 40%
        bucket 30: 50%
        bucket 30: 60%
        bucket 30: 70%
        bucket 30: 80%
        bucket 30: 90%
        bucket 30: 100%
        Sorting block of length 257 for bucket 30
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 258 for bucket 30
      Getting block 31 of 57
        Reserving size (388) for bucket 31
        Calculating Z arrays for bucket 31
        Entering block accumulator loop for bucket 31:
      Getting block 32 of 57
        Reserving size (388) for bucket 32
        Calculating Z arrays for bucket 32
        bucket 31: 10%
        Entering block accumulator loop for bucket 32:
      Getting block 33 of 57
        Reserving size (388) for bucket 33
        Calculating Z arrays for bucket 33
        bucket 31: 20%
        bucket 32: 10%
        Entering block accumulator loop for bucket 33:
        bucket 31: 30%
        bucket 32: 20%
        bucket 31: 40%
        bucket 32: 30%
        bucket 33: 10%
        bucket 31: 50%
        bucket 32: 40%
        bucket 33: 20%
        bucket 31: 60%
        bucket 32: 50%
        bucket 33: 30%
        bucket 31: 70%
        bucket 32: 60%
        bucket 33: 40%
        bucket 32: 70%
        bucket 33: 50%
        bucket 31: 80%
        bucket 32: 80%
        bucket 33: 60%
        bucket 31: 90%
        bucket 33: 70%
        bucket 32: 90%
        bucket 31: 100%
        Sorting block of length 310 for bucket 31
        (Using difference cover)
        bucket 33: 80%
        bucket 32: 100%
        Sorting block of length 219 for bucket 32
        (Using difference cover)
        bucket 33: 90%
        bucket 33: 100%
        Sorting block of length 387 for bucket 33
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 311 for bucket 31
        Sorting block time: 00:00:00
      Returning block of 220 for bucket 32
        Sorting block time: 00:00:00
      Returning block of 388 for bucket 33
      Getting block 34 of 57
        Reserving size (388) for bucket 34
        Calculating Z arrays for bucket 34
        Entering block accumulator loop for bucket 34:
        bucket 34: 10%
        bucket 34: 20%
        bucket 34: 30%
        bucket 34: 40%
        bucket 34: 50%
        bucket 34: 60%
        bucket 34: 70%
        bucket 34: 80%
        bucket 34: 90%
        bucket 34: 100%
        Sorting block of length 275 for bucket 34
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 276 for bucket 34
      Getting block 35 of 57
      Getting block 36 of 57
        Reserving size (388) for bucket 35
        Reserving size (388) for bucket 36
        Calculating Z arrays for bucket 35
        Calculating Z arrays for bucket 36
        Entering block accumulator loop for bucket 35:
        Entering block accumulator loop for bucket 36:
        bucket 35: 10%
        bucket 36: 10%
        bucket 35: 20%
        bucket 36: 20%
        bucket 35: 30%
        bucket 36: 30%
        bucket 35: 40%
        bucket 36: 40%
        bucket 35: 50%
        bucket 36: 50%
        bucket 35: 60%
        bucket 36: 60%
        bucket 35: 70%
        bucket 36: 70%
        bucket 35: 80%
        bucket 36: 80%
        bucket 35: 90%
        bucket 36: 90%
        bucket 35: 100%
        Sorting block of length 350 for bucket 35
        (Using difference cover)
        bucket 36: 100%
        Sorting block of length 150 for bucket 36
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 151 for bucket 36
        Sorting block time: 00:00:00
      Returning block of 351 for bucket 35
      Getting block 37 of 57
        Reserving size (388) for bucket 37
        Calculating Z arrays for bucket 37
        Entering block accumulator loop for bucket 37:
        bucket 37: 10%
        bucket 37: 20%
        bucket 37: 30%
        bucket 37: 40%
        bucket 37: 50%
        bucket 37: 60%
        bucket 37: 70%
        bucket 37: 80%
        bucket 37: 90%
        bucket 37: 100%
        Sorting block of length 267 for bucket 37
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 268 for bucket 37
      Getting block 38 of 57
        Reserving size (388) for bucket 38
        Calculating Z arrays for bucket 38
        Entering block accumulator loop for bucket 38:
        bucket 38: 10%
        bucket 38: 20%
        bucket 38: 30%
        bucket 38: 40%
      Getting block 39 of 57
        Reserving size (388) for bucket 39
        Calculating Z arrays for bucket 39
        Entering block accumulator loop for bucket 39:
        bucket 38: 50%
        bucket 38: 60%
        bucket 39: 10%
        bucket 38: 70%
        bucket 39: 20%
        bucket 38: 80%
        bucket 38: 90%
        bucket 39: 30%
        bucket 38: 100%
        Sorting block of length 337 for bucket 38
        (Using difference cover)
        bucket 39: 40%
        bucket 39: 50%
        bucket 39: 60%
        Sorting block time: 00:00:00
      Returning block of 338 for bucket 38
        bucket 39: 70%
        bucket 39: 80%
        bucket 39: 90%
        bucket 39: 100%
        Sorting block of length 387 for bucket 39
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 388 for bucket 39
      Getting block 40 of 57
        Reserving size (388) for bucket 40
      Getting block 41 of 57
        Calculating Z arrays for bucket 40
        Reserving size (388) for bucket 41
        Calculating Z arrays for bucket 41
        Entering block accumulator loop for bucket 40:
        Entering block accumulator loop for bucket 41:
        bucket 40: 10%
        bucket 41: 10%
        bucket 40: 20%
        bucket 41: 20%
        bucket 40: 30%
        bucket 41: 30%
        bucket 40: 40%
        bucket 41: 40%
        bucket 40: 50%
        bucket 41: 50%
        bucket 40: 60%
        bucket 41: 60%
        bucket 40: 70%
        bucket 41: 70%
        bucket 41: 80%
        bucket 40: 80%
        bucket 41: 90%
        bucket 40: 90%
        bucket 41: 100%
        Sorting block of length 330 for bucket 41
        (Using difference cover)
        bucket 40: 100%
        Sorting block of length 379 for bucket 40
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 331 for bucket 41
        Sorting block time: 00:00:00
      Returning block of 380 for bucket 40
      Getting block 42 of 57
        Reserving size (388) for bucket 42
        Calculating Z arrays for bucket 42
        Entering block accumulator loop for bucket 42:
        bucket 42: 10%
        bucket 42: 20%
      Getting block 43 of 57
        Reserving size (388) for bucket 43
        Calculating Z arrays for bucket 43
        Entering block accumulator loop for bucket 43:
        bucket 42: 30%
        bucket 43: 10%
        bucket 42: 40%
        bucket 43: 20%
        bucket 42: 50%
        bucket 43: 30%
        bucket 42: 60%
        bucket 43: 40%
        bucket 42: 70%
        bucket 42: 80%
        bucket 43: 50%
        bucket 42: 90%
        bucket 43: 60%
        bucket 42: 100%
        bucket 43: 70%
        Sorting block of length 188 for bucket 42
        (Using difference cover)
        bucket 43: 80%
        bucket 43: 90%
        bucket 43: 100%
        Sorting block of length 321 for bucket 43
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 189 for bucket 42
        Sorting block time: 00:00:00
      Returning block of 322 for bucket 43
      Getting block 44 of 57
        Reserving size (388) for bucket 44
      Getting block 45 of 57
        Calculating Z arrays for bucket 44
        Reserving size (388) for bucket 45
        Calculating Z arrays for bucket 45
        Entering block accumulator loop for bucket 44:
        Entering block accumulator loop for bucket 45:
        bucket 44: 10%
        bucket 45: 10%
        bucket 44: 20%
        bucket 45: 20%
        bucket 44: 30%
        bucket 45: 30%
        bucket 44: 40%
        bucket 44: 50%
        bucket 45: 40%
        bucket 44: 60%
        bucket 45: 50%
        bucket 44: 70%
        bucket 44: 80%
        bucket 45: 60%
        bucket 44: 90%
        bucket 45: 70%
        bucket 44: 100%
        Sorting block of length 366 for bucket 44
        (Using difference cover)
        bucket 45: 80%
        bucket 45: 90%
        bucket 45: 100%
        Sorting block of length 365 for bucket 45
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 367 for bucket 44
        Sorting block time: 00:00:00
      Returning block of 366 for bucket 45
      Getting block 46 of 57
        Reserving size (388) for bucket 46
        Calculating Z arrays for bucket 46
        Entering block accumulator loop for bucket 46:
        bucket 46: 10%
        bucket 46: 20%
        bucket 46: 30%
      Getting block 47 of 57
        Reserving size (388) for bucket 47
        Calculating Z arrays for bucket 47
        bucket 46: 40%
        Entering block accumulator loop for bucket 47:
        bucket 46: 50%
        bucket 47: 10%
        bucket 46: 60%
        bucket 47: 20%
        bucket 46: 70%
        bucket 47: 30%
        bucket 46: 80%
        bucket 47: 40%
        bucket 46: 90%
        bucket 47: 50%
        bucket 47: 60%
        bucket 46: 100%
        Sorting block of length 253 for bucket 46
        (Using difference cover)
        bucket 47: 70%
        bucket 47: 80%
        bucket 47: 90%
        Sorting block time: 00:00:00
      Returning block of 254 for bucket 46
        bucket 47: 100%
        Sorting block of length 217 for bucket 47
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 218 for bucket 47
      Getting block 48 of 57
        Reserving size (388) for bucket 48
        Calculating Z arrays for bucket 48
      Getting block 49 of 57
        Entering block accumulator loop for bucket 48:
        Reserving size (388) for bucket 49
        Calculating Z arrays for bucket 49
        Entering block accumulator loop for bucket 49:
        bucket 48: 10%
        bucket 49: 10%
        bucket 48: 20%
        bucket 48: 30%
        bucket 49: 20%
        bucket 48: 40%
        bucket 49: 30%
        bucket 49: 40%
        bucket 48: 50%
        bucket 49: 50%
        bucket 49: 60%
        bucket 48: 60%
        bucket 49: 70%
        bucket 48: 70%
        bucket 49: 80%
        bucket 48: 80%
        bucket 49: 90%
        bucket 49: 100%
        Sorting block of length 112 for bucket 49
        (Using difference cover)
        bucket 48: 90%
        bucket 48: 100%
        Sorting block of length 384 for bucket 48
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 113 for bucket 49
        Sorting block time: 00:00:00
      Returning block of 385 for bucket 48
      Getting block 50 of 57
        Reserving size (388) for bucket 50
        Calculating Z arrays for bucket 50
        Entering block accumulator loop for bucket 50:
      Getting block 51 of 57
        Reserving size (388) for bucket 51
        Calculating Z arrays for bucket 51
        Entering block accumulator loop for bucket 51:
        bucket 50: 10%
        bucket 51: 10%
        bucket 50: 20%
        bucket 51: 20%
        bucket 50: 30%
        bucket 51: 30%
        bucket 51: 40%
        bucket 50: 40%
        bucket 51: 50%
        bucket 50: 50%
        bucket 51: 60%
        bucket 50: 60%
        bucket 51: 70%
        bucket 51: 80%
        bucket 50: 70%
        bucket 51: 90%
        bucket 50: 80%
        bucket 51: 100%
        Sorting block of length 350 for bucket 51
        (Using difference cover)
        bucket 50: 90%
        bucket 50: 100%
        Sorting block of length 275 for bucket 50
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 351 for bucket 51
        Sorting block time: 00:00:00
      Returning block of 276 for bucket 50
      Getting block 52 of 57
        Reserving size (388) for bucket 52
      Getting block 53 of 57
        Calculating Z arrays for bucket 52
        Reserving size (388) for bucket 53
        Calculating Z arrays for bucket 53
        Entering block accumulator loop for bucket 52:
        Entering block accumulator loop for bucket 53:
        bucket 52: 10%
        bucket 53: 10%
        bucket 52: 20%
        bucket 53: 20%
        bucket 52: 30%
        bucket 53: 30%
        bucket 52: 40%
        bucket 53: 40%
        bucket 52: 50%
        bucket 53: 50%
        bucket 52: 60%
        bucket 53: 60%
        bucket 52: 70%
        bucket 53: 70%
        bucket 52: 80%
        bucket 53: 80%
        bucket 52: 90%
        bucket 53: 90%
        bucket 52: 100%
        Sorting block of length 378 for bucket 52
        (Using difference cover)
        bucket 53: 100%
        Sorting block of length 370 for bucket 53
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 379 for bucket 52
        Sorting block time: 00:00:00
      Returning block of 371 for bucket 53
      Getting block 54 of 57
        Reserving size (388) for bucket 54
        Calculating Z arrays for bucket 54
        Entering block accumulator loop for bucket 54:
        bucket 54: 10%
        bucket 54: 20%
      Getting block 55 of 57
        Reserving size (388) for bucket 55
        bucket 54: 30%
        Calculating Z arrays for bucket 55
        Entering block accumulator loop for bucket 55:
        bucket 54: 40%
        bucket 55: 10%
        bucket 54: 50%
        bucket 55: 20%
        bucket 54: 60%
        bucket 55: 30%
        bucket 55: 40%
        bucket 54: 70%
        bucket 55: 50%
        bucket 54: 80%
        bucket 55: 60%
        bucket 54: 90%
        bucket 54: 100%
        bucket 55: 70%
        Sorting block of length 237 for bucket 54
        (Using difference cover)
        bucket 55: 80%
        bucket 55: 90%
        bucket 55: 100%
        Sorting block of length 344 for bucket 55
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 238 for bucket 54
        Sorting block time: 00:00:00
      Returning block of 345 for bucket 55
      Getting block 56 of 57
        Reserving size (388) for bucket 56
        Calculating Z arrays for bucket 56
        Entering block accumulator loop for bucket 56:
      Getting block 57 of 57
        Reserving size (388) for bucket 57
        Calculating Z arrays for bucket 57
        bucket 56: 10%
        Entering block accumulator loop for bucket 57:
        bucket 57: 10%
        bucket 56: 20%
        bucket 57: 20%
        bucket 56: 30%
        bucket 56: 40%
        bucket 56: 50%
        bucket 57: 30%
        bucket 57: 40%
        bucket 56: 60%
        bucket 57: 50%
        bucket 57: 60%
        bucket 56: 70%
        bucket 57: 70%
        bucket 57: 80%
        bucket 57: 90%
        bucket 56: 80%
        bucket 57: 100%
        Sorting block of length 132 for bucket 57
        (Using difference cover)
        bucket 56: 90%
        bucket 56: 100%
        Sorting block of length 270 for bucket 56
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 133 for bucket 57
        Sorting block time: 00:00:00
      Returning block of 271 for bucket 56
      Exited Ebwt loop
      fchr[A]: 0
      fchr[C]: 5124
      fchr[G]: 10305
      fchr[T]: 12474
      fchr[$]: 16568
      Exiting Ebwt::buildToDisk()
      Returning from initFromVector
      Wrote 4200050 bytes to primary EBWT file: genome.rev.1.bt2.tmp
      Wrote 4148 bytes to secondary EBWT file: genome.rev.2.bt2.tmp
      Re-opening _in1 and _in2 as input streams
      Returning from Ebwt constructor
      Headers:
          len: 16568
          bwtLen: 16569
          sz: 4142
          bwtSz: 4143
          lineRate: 6
          offRate: 4
          offMask: 0xfffffff0
          ftabChars: 10
          eftabLen: 20
          eftabSz: 80
          ftabLen: 1048577
          ftabSz: 4194308
          offsLen: 1036
          offsSz: 4144
          lineSz: 64
          sideSz: 64
          sideBwtSz: 48
          sideBwtLen: 192
          numSides: 87
          numLines: 87
          ebwtTotLen: 5568
          ebwtTotSz: 5568
          color: 0
          reverse: 1
      Total time for backward call to driver() for mirror index: 00:00:00

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | save\_mapping\_stats | ` false ` |
       | sam\_options | ` {"__current_case__": 1, "sam_options_selector": "no"} ` |
       | analysis\_type | ` {"__current_case__": 0, "analysis_type_selector": "simple", "presets": "no_presets"} ` |
       | rg | ` {"__current_case__": 3, "rg_selector": "do_not_set"} ` |
       | reference\_genome | ` {"__current_case__": 1, "own_file": {"values": [{"id": 383, "src": "hda"}]}, "source": "history"} ` |
       | library | ` {"__current_case__": 1, "aligned_file": false, "input_1": {"values": [{"id": 381, "src": "hda"}]}, "input_2": {"values": [{"id": 382, "src": "hda"}]}, "paired_options": {"__current_case__": 1, "paired_options_selector": "no"}, "type": "paired", "unaligned_file": false} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; bowtie2 (Test # 9)</summary><div class="padded">

    **Command Line:**

    * ```console
      set -o | grep -q pipefail && set -o pipefail; bowtie2-build --threads ${GALAXY_SLOTS:-4} '/galaxy/server/database/objects/e/5/6/dataset_e56534b6-e48f-4ed7-99c1-674ee2b63377.dat' genome && ln -s -f '/galaxy/server/database/objects/e/5/6/dataset_e56534b6-e48f-4ed7-99c1-674ee2b63377.dat' genome.fa &&   ln -f -s '/galaxy/server/database/objects/f/d/c/dataset_fdc9b2b7-8427-43af-95b7-65a41ecfdeaa.dat' input_f.fasta &&  ln -f -s '/galaxy/server/database/objects/a/7/f/dataset_a7ff4606-0586-43e1-82ab-47c44716142b.dat' input_r.fasta &&   THREADS=${GALAXY_SLOTS:-4} && if [ "$THREADS" -gt 1 ]; then (( THREADS-- )); fi &&   bowtie2  -p "$THREADS"  -x 'genome'  -f  -1 'input_f.fasta' -2 'input_r.fasta'                    --reorder   | samtools view --no-PG -b -o '/galaxy/server/database/objects/e/6/d/dataset_e6d8b601-869a-458e-a06d-8a1803f85024.dat'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Error:**

    * ```console
      Building a SMALL index
      Renaming genome.3.bt2.tmp to genome.3.bt2
      Renaming genome.4.bt2.tmp to genome.4.bt2
      Renaming genome.1.bt2.tmp to genome.1.bt2
      Renaming genome.2.bt2.tmp to genome.2.bt2
      Renaming genome.rev.1.bt2.tmp to genome.rev.1.bt2
      Renaming genome.rev.2.bt2.tmp to genome.rev.2.bt2
      100 reads; of these:
        100 (100.00%) were paired; of these:
          97 (97.00%) aligned concordantly 0 times
          3 (3.00%) aligned concordantly exactly 1 time
          0 (0.00%) aligned concordantly >1 times
          ----
          97 pairs aligned concordantly 0 times; of these:
            7 (7.22%) aligned discordantly 1 time
          ----
          90 pairs aligned 0 times concordantly or discordantly; of these:
            180 mates make up the pairs; of these:
              156 (86.67%) aligned 0 times
              24 (13.33%) aligned exactly 1 time
              0 (0.00%) aligned >1 times
      22.00% overall alignment rate

      ```
    **Standard Output:**

    * ```console
      Settings:
        Output files: "genome.*.bt2"
        Line rate: 6 (line is 64 bytes)
        Lines per side: 1 (side is 64 bytes)
        Offset rate: 4 (one in 16)
        FTable chars: 10
        Strings: unpacked
        Max bucket size: default
        Max bucket size, sqrt multiplier: default
        Max bucket size, len divisor: 32
        Difference-cover sample period: 1024
        Endianness: little
        Actual local endianness: little
        Sanity checking: disabled
        Assertions: disabled
        Random seed: 0
        Sizeofs: void*:8, int:4, long:8, size_t:8
      Input files DNA, FASTA:
        /galaxy/server/database/objects/e/5/6/dataset_e56534b6-e48f-4ed7-99c1-674ee2b63377.dat
      Reading reference sizes
        Time reading reference sizes: 00:00:00
      Calculating joined length
      Writing header
      Reserving space for joined string
      Joining reference sequences
        Time to join reference sequences: 00:00:00
      bmax according to bmaxDivN setting: 517
      Using parameters --bmax 388 --dcv 1024
        Doing ahead-of-time memory usage test
        Passed!  Constructing with these parameters: --bmax 388 --dcv 1024
      Constructing suffix-array element generator
      Building DifferenceCoverSample
        Building sPrime
        Building sPrimeOrder
        V-Sorting samples
        V-Sorting samples time: 00:00:00
        Allocating rank array
        Ranking v-sort output
        Ranking v-sort output time: 00:00:00
        Invoking Larsson-Sadakane on ranks
        Invoking Larsson-Sadakane on ranks time: 00:00:00
        Sanity-checking and returning
      Building samples
      Reserving space for 86 sample suffixes
      Generating random suffixes
      QSorting 86 sample offsets, eliminating duplicates
      QSorting sample offsets, eliminating duplicates time: 00:00:00
      Multikey QSorting 86 samples
        (Using difference cover)
        Multikey QSorting samples time: 00:00:00
      Calculating bucket sizes
      Splitting and merging
        Splitting and merging time: 00:00:00
      Split 12, merged 41; iterating...
      Splitting and merging
        Splitting and merging time: 00:00:00
      Split 6, merged 6; iterating...
      Splitting and merging
        Splitting and merging time: 00:00:00
      Split 5, merged 3; iterating...
      Splitting and merging
        Splitting and merging time: 00:00:00
      Split 3, merged 3; iterating...
      Splitting and merging
        Splitting and merging time: 00:00:00
      Avg bucket size: 284.672 (target: 387)
      Converting suffix-array elements to index image
      Allocating ftab, absorbFtab
      Entering Ebwt loop
      Getting block 1 of 58
        Reserving size (388) for bucket 1
      Getting block 2 of 58
      Getting block 3 of 58
      Getting block 4 of 58
        Calculating Z arrays for bucket 1
        Reserving size (388) for bucket 2
        Reserving size (388) for bucket 3
        Reserving size (388) for bucket 4
      Getting block 5 of 58
      Getting block 6 of 58
        Calculating Z arrays for bucket 2
      Getting block 7 of 58
        Entering block accumulator loop for bucket 1:
        Calculating Z arrays for bucket 3
        Calculating Z arrays for bucket 4
        Reserving size (388) for bucket 5
        Reserving size (388) for bucket 6
        Reserving size (388) for bucket 7
        Entering block accumulator loop for bucket 2:
        Calculating Z arrays for bucket 5
        Entering block accumulator loop for bucket 3:
        Calculating Z arrays for bucket 6
        Calculating Z arrays for bucket 7
        Entering block accumulator loop for bucket 4:
        bucket 1: 10%
        Entering block accumulator loop for bucket 5:
        Entering block accumulator loop for bucket 6:
        Entering block accumulator loop for bucket 7:
        bucket 2: 10%
        bucket 1: 20%
        bucket 4: 10%
        bucket 3: 10%
        bucket 5: 10%
        bucket 1: 30%
        bucket 2: 20%
        bucket 6: 10%
        bucket 4: 20%
        bucket 1: 40%
        bucket 7: 10%
        bucket 2: 30%
        bucket 3: 20%
        bucket 5: 20%
        bucket 1: 50%
        bucket 6: 20%
        bucket 4: 30%
        bucket 2: 40%
        bucket 3: 30%
        bucket 1: 60%
        bucket 7: 20%
        bucket 2: 50%
        bucket 4: 40%
        bucket 5: 30%
        bucket 6: 30%
        bucket 1: 70%
        bucket 3: 40%
        bucket 2: 60%
        bucket 7: 30%
        bucket 4: 50%
        bucket 1: 80%
        bucket 6: 40%
        bucket 3: 50%
        bucket 5: 40%
        bucket 2: 70%
        bucket 4: 60%
        bucket 1: 90%
        bucket 7: 40%
        bucket 2: 80%
        bucket 4: 70%
        bucket 5: 50%
        bucket 6: 50%
        bucket 3: 60%
        bucket 1: 100%
        Sorting block of length 355 for bucket 1
        (Using difference cover)
        bucket 2: 90%
        bucket 4: 80%
        bucket 7: 50%
        bucket 5: 60%
        bucket 3: 70%
        bucket 6: 60%
        bucket 2: 100%
        bucket 4: 90%
        Sorting block of length 165 for bucket 2
        (Using difference cover)
        bucket 3: 80%
        bucket 7: 60%
        bucket 5: 70%
        bucket 4: 100%
        bucket 6: 70%
        Sorting block of length 328 for bucket 4
        (Using difference cover)
        bucket 3: 90%
        bucket 7: 70%
        bucket 6: 80%
        bucket 5: 80%
        bucket 3: 100%
        Sorting block of length 370 for bucket 3
        (Using difference cover)
        bucket 6: 90%
        bucket 7: 80%
        bucket 5: 90%
        bucket 6: 100%
        bucket 5: 100%
        Sorting block of length 339 for bucket 6
        (Using difference cover)
        bucket 7: 90%
        Sorting block of length 203 for bucket 5
        (Using difference cover)
        bucket 7: 100%
        Sorting block of length 368 for bucket 7
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 356 for bucket 1
        Sorting block time: 00:00:00
      Returning block of 369 for bucket 7
        Sorting block time: 00:00:00
      Returning block of 329 for bucket 4
        Sorting block time: 00:00:00
      Returning block of 166 for bucket 2
        Sorting block time: 00:00:00
      Returning block of 371 for bucket 3
        Sorting block time: 00:00:00
      Returning block of 340 for bucket 6
        Sorting block time: 00:00:00
      Returning block of 204 for bucket 5
      Getting block 8 of 58
        Reserving size (388) for bucket 8
        Calculating Z arrays for bucket 8
        Entering block accumulator loop for bucket 8:
        bucket 8: 10%
        bucket 8: 20%
        bucket 8: 30%
        bucket 8: 40%
      Getting block 9 of 58
        bucket 8: 50%
        Reserving size (388) for bucket 9
        Calculating Z arrays for bucket 9
      Getting block 10 of 58
        bucket 8: 60%
        Entering block accumulator loop for bucket 9:
        Reserving size (388) for bucket 10
        Calculating Z arrays for bucket 10
        bucket 8: 70%
        Entering block accumulator loop for bucket 10:
        bucket 8: 80%
        bucket 9: 10%
        bucket 10: 10%
        bucket 8: 90%
        bucket 9: 20%
        bucket 10: 20%
        bucket 8: 100%
        Sorting block of length 171 for bucket 8
        (Using difference cover)
        bucket 9: 30%
        bucket 10: 30%
        bucket 10: 40%
        bucket 9: 40%
        bucket 10: 50%
        bucket 9: 50%
        bucket 10: 60%
        bucket 9: 60%
        bucket 10: 70%
        Sorting block time: 00:00:00
      Returning block of 172 for bucket 8
        bucket 9: 70%
        bucket 10: 80%
        bucket 9: 80%
        bucket 10: 90%
        bucket 9: 90%
        bucket 10: 100%
        Sorting block of length 357 for bucket 10
        (Using difference cover)
        bucket 9: 100%
        Sorting block of length 339 for bucket 9
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 340 for bucket 9
        Sorting block time: 00:00:00
      Returning block of 358 for bucket 10
      Getting block 11 of 58
        Reserving size (388) for bucket 11
        Calculating Z arrays for bucket 11
      Getting block 12 of 58
        Entering block accumulator loop for bucket 11:
        Reserving size (388) for bucket 12
        Calculating Z arrays for bucket 12
        Entering block accumulator loop for bucket 12:
        bucket 11: 10%
        bucket 12: 10%
        bucket 11: 20%
        bucket 12: 20%
        bucket 11: 30%
        bucket 12: 30%
        bucket 11: 40%
        bucket 12: 40%
        bucket 11: 50%
        bucket 12: 50%
        bucket 11: 60%
        bucket 12: 60%
        bucket 11: 70%
        bucket 12: 70%
      Getting block 13 of 58
      Getting block 14 of 58
        Reserving size (388) for bucket 13
        Reserving size (388) for bucket 14
        bucket 12: 80%
        Calculating Z arrays for bucket 13
        Calculating Z arrays for bucket 14
        bucket 11: 80%
        Entering block accumulator loop for bucket 14:
        Entering block accumulator loop for bucket 13:
        bucket 12: 90%
        bucket 14: 10%
        bucket 11: 90%
        bucket 12: 100%
        Sorting block of length 185 for bucket 12
        (Using difference cover)
        bucket 13: 10%
        bucket 14: 20%
        bucket 11: 100%
        bucket 14: 30%
        Sorting block of length 305 for bucket 11
        (Using difference cover)
        bucket 13: 20%
        bucket 14: 40%
        bucket 13: 30%
        bucket 14: 50%
        bucket 13: 40%
        Sorting block time: 00:00:00
        bucket 14: 60%
      Returning block of 186 for bucket 12
        bucket 13: 50%
        bucket 14: 70%
        bucket 14: 80%
        bucket 13: 60%
        bucket 14: 90%
        bucket 13: 70%
        bucket 14: 100%
        Sorting block of length 339 for bucket 14
        (Using difference cover)
        Sorting block time: 00:00:00
        bucket 13: 80%
      Returning block of 306 for bucket 11
        bucket 13: 90%
        bucket 13: 100%
        Sorting block of length 282 for bucket 13
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 340 for bucket 14
        Sorting block time: 00:00:00
      Returning block of 283 for bucket 13
      Getting block 15 of 58
        Reserving size (388) for bucket 15
        Calculating Z arrays for bucket 15
        Entering block accumulator loop for bucket 15:
        bucket 15: 10%
        bucket 15: 20%
        bucket 15: 30%
        bucket 15: 40%
        bucket 15: 50%
        bucket 15: 60%
        bucket 15: 70%
        bucket 15: 80%
        bucket 15: 90%
        bucket 15: 100%
        Sorting block of length 241 for bucket 15
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 242 for bucket 15
      Getting block 16 of 58
        Reserving size (388) for bucket 16
        Calculating Z arrays for bucket 16
        Entering block accumulator loop for bucket 16:
      Getting block 17 of 58
        Reserving size (388) for bucket 17
        bucket 16: 10%
        Calculating Z arrays for bucket 17
        bucket 16: 20%
        Entering block accumulator loop for bucket 17:
        bucket 16: 30%
        bucket 17: 10%
        bucket 16: 40%
        bucket 16: 50%
        bucket 17: 20%
        bucket 16: 60%
        bucket 17: 30%
        bucket 16: 70%
        bucket 17: 40%
        bucket 16: 80%
        bucket 17: 50%
        bucket 16: 90%
        bucket 16: 100%
        bucket 17: 60%
        Sorting block of length 379 for bucket 16
        (Using difference cover)
        bucket 17: 70%
        bucket 17: 80%
        bucket 17: 90%
        bucket 17: 100%
        Sorting block of length 215 for bucket 17
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 380 for bucket 16
        Sorting block time: 00:00:00
      Returning block of 216 for bucket 17
      Getting block 18 of 58
        Reserving size (388) for bucket 18
      Getting block 19 of 58
        Calculating Z arrays for bucket 18
        Reserving size (388) for bucket 19
        Calculating Z arrays for bucket 19
        Entering block accumulator loop for bucket 18:
        Entering block accumulator loop for bucket 19:
        bucket 19: 10%
        bucket 18: 10%
        bucket 19: 20%
        bucket 18: 20%
        bucket 18: 30%
        bucket 19: 30%
        bucket 19: 40%
        bucket 18: 40%
        bucket 19: 50%
        bucket 18: 50%
        bucket 19: 60%
        bucket 18: 60%
        bucket 19: 70%
        bucket 18: 70%
        bucket 19: 80%
        bucket 18: 80%
        bucket 19: 90%
        bucket 18: 90%
        bucket 19: 100%
        Sorting block of length 334 for bucket 19
        (Using difference cover)
        bucket 18: 100%
        Sorting block of length 378 for bucket 18
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 335 for bucket 19
        Sorting block time: 00:00:00
      Returning block of 379 for bucket 18
      Getting block 20 of 58
        Reserving size (388) for bucket 20
        Calculating Z arrays for bucket 20
        Entering block accumulator loop for bucket 20:
        bucket 20: 10%
      Getting block 21 of 58
        Reserving size (388) for bucket 21
        Calculating Z arrays for bucket 21
        bucket 20: 20%
        Entering block accumulator loop for bucket 21:
        bucket 20: 30%
      Getting block 22 of 58
        bucket 21: 10%
        Reserving size (388) for bucket 22
        Calculating Z arrays for bucket 22
        bucket 20: 40%
        Entering block accumulator loop for bucket 22:
        bucket 21: 20%
        bucket 20: 50%
        bucket 22: 10%
        bucket 21: 30%
        bucket 20: 60%
        bucket 22: 20%
        bucket 22: 30%
        bucket 21: 40%
        bucket 20: 70%
        bucket 22: 40%
        bucket 20: 80%
        bucket 21: 50%
        bucket 22: 50%
        bucket 20: 90%
        bucket 21: 60%
        bucket 22: 60%
        bucket 20: 100%
        Sorting block of length 313 for bucket 20
        (Using difference cover)
        bucket 22: 70%
        bucket 21: 70%
        bucket 22: 80%
        bucket 21: 80%
        bucket 22: 90%
        bucket 22: 100%
        Sorting block of length 386 for bucket 22
        (Using difference cover)
        bucket 21: 90%
        Sorting block time: 00:00:00
      Returning block of 314 for bucket 20
        bucket 21: 100%
        Sorting block of length 210 for bucket 21
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 387 for bucket 22
        Sorting block time: 00:00:00
      Returning block of 211 for bucket 21
      Getting block 23 of 58
        Reserving size (388) for bucket 23
        Calculating Z arrays for bucket 23
        Entering block accumulator loop for bucket 23:
      Getting block 24 of 58
        Reserving size (388) for bucket 24
        Calculating Z arrays for bucket 24
        Entering block accumulator loop for bucket 24:
        bucket 24: 10%
        bucket 23: 10%
        bucket 24: 20%
        bucket 23: 20%
        bucket 24: 30%
        bucket 23: 30%
        bucket 23: 40%
        bucket 24: 40%
        bucket 24: 50%
        bucket 23: 50%
        bucket 24: 60%
        bucket 23: 60%
        bucket 24: 70%
        bucket 23: 70%
        bucket 24: 80%
        bucket 23: 80%
        bucket 24: 90%
        bucket 23: 90%
        bucket 24: 100%
        bucket 23: 100%
        Sorting block of length 351 for bucket 24
        (Using difference cover)
        Sorting block of length 238 for bucket 23
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 239 for bucket 23
        Sorting block time: 00:00:00
      Returning block of 352 for bucket 24
      Getting block 25 of 58
        Reserving size (388) for bucket 25
        Calculating Z arrays for bucket 25
        Entering block accumulator loop for bucket 25:
        bucket 25: 10%
      Getting block 26 of 58
        bucket 25: 20%
        Reserving size (388) for bucket 26
      Getting block 27 of 58
        Calculating Z arrays for bucket 26
        bucket 25: 30%
        Reserving size (388) for bucket 27
        Calculating Z arrays for bucket 27
        Entering block accumulator loop for bucket 26:
        Entering block accumulator loop for bucket 27:
        bucket 25: 40%
        bucket 25: 50%
        bucket 27: 10%
        bucket 26: 10%
        bucket 25: 60%
        bucket 27: 20%
        bucket 26: 20%
        bucket 25: 70%
        bucket 25: 80%
        bucket 27: 30%
        bucket 26: 30%
        bucket 25: 90%
        bucket 27: 40%
        bucket 26: 40%
        bucket 25: 100%
        bucket 27: 50%
        Sorting block of length 105 for bucket 25
        (Using difference cover)
        bucket 26: 50%
        bucket 27: 60%
        bucket 26: 60%
        bucket 27: 70%
        bucket 26: 70%
        bucket 27: 80%
        bucket 26: 80%
        Sorting block time: 00:00:00
      Returning block of 106 for bucket 25
        bucket 27: 90%
        bucket 26: 90%
        bucket 27: 100%
        Sorting block of length 334 for bucket 27
        (Using difference cover)
        bucket 26: 100%
        Sorting block of length 354 for bucket 26
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 355 for bucket 26
        Sorting block time: 00:00:00
      Returning block of 335 for bucket 27
      Getting block 28 of 58
        Reserving size (388) for bucket 28
        Calculating Z arrays for bucket 28
      Getting block 29 of 58
        Entering block accumulator loop for bucket 28:
        Reserving size (388) for bucket 29
        Calculating Z arrays for bucket 29
        Entering block accumulator loop for bucket 29:
        bucket 28: 10%
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        (Using difference cover)
        bucket 29: 70%
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        Sorting block time: 00:00:00
      Returning block of 254 for bucket 28
        bucket 29: 100%
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        (Using difference cover)
        Sorting block time: 00:00:00
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      Getting block 30 of 58
        Reserving size (388) for bucket 30
        Calculating Z arrays for bucket 30
        Entering block accumulator loop for bucket 30:
        bucket 30: 10%
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        Reserving size (388) for bucket 31
        Calculating Z arrays for bucket 31
        Entering block accumulator loop for bucket 31:
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        (Using difference cover)
        bucket 31: 70%
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        bucket 31: 90%
        bucket 31: 100%
        Sorting block of length 377 for bucket 31
        (Using difference cover)
        Sorting block time: 00:00:00
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        Sorting block time: 00:00:00
      Returning block of 378 for bucket 31
      Getting block 32 of 58
        Reserving size (388) for bucket 32
      Getting block 33 of 58
        Calculating Z arrays for buc
      ..
      : 00:00:00
      Returning block of 344 for bucket 21
        bucket 22: 80%
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        Sorting block time: 00:00:00
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        bucket 23: 90%
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        Sorting block of length 371 for bucket 22
        (Using difference cover)
        bucket 23: 100%
        Sorting block of length 349 for bucket 23
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      Returning block of 350 for bucket 23
        Sorting block time: 00:00:00
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      Getting block 25 of 57
        Reserving size (388) for bucket 25
        Calculating Z arrays for bucket 25
        Entering block accumulator loop for bucket 25:
        bucket 25: 10%
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        Sorting block of length 286 for bucket 25
        (Using difference cover)
        Sorting block time: 00:00:00
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        Reserving size (388) for bucket 26
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        Entering block accumulator loop for bucket 26:
        bucket 26: 10%
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        Sorting block time: 00:00:00
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        bucket 27: 90%
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        (Using difference cover)
        Sorting block time: 00:00:00
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        Entering block accumulator loop for bucket 28:
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        Sorting block time: 00:00:00
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        Entering block accumulator loop for bucket 29:
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        Calculating Z arrays for bucket 32
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        Reserving size (388) for bucket 33
        Calculating Z arrays for bucket 33
        Entering block accumulator loop for bucket 33:
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        Calculating Z arrays for bucket 35
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        bucket 35: 90%
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        (Using difference cover)
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      Returning block of 276 for bucket 34
        Sorting block time: 00:00:00
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      Getting block 36 of 57
        Reserving size (388) for bucket 36
        Calculating Z arrays for bucket 36
        Entering block accumulator loop for bucket 36:
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        Reserving size (388) for bucket 37
        Calculating Z arrays for bucket 37
        bucket 36: 10%
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      Getting block 38 of 57
        Reserving size (388) for bucket 38
        Calculating Z arrays for bucket 38
        Entering block accumulator loop for bucket 38:
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        Calculating Z arrays for bucket 39
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        Sorting block time: 00:00:00
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        bucket 39: 90%
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        Sorting block of length 387 for bucket 39
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 388 for bucket 39
      Getting block 40 of 57
        Reserving size (388) for bucket 40
        Calculating Z arrays for bucket 40
        Entering block accumulator loop for bucket 40:
        bucket 40: 10%
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        Reserving size (388) for bucket 41
        Calculating Z arrays for bucket 41
        Entering block accumulator loop for bucket 41:
        bucket 40: 20%
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        Reserving size (388) for bucket 42
        Calculating Z arrays for bucket 42
        Entering block accumulator loop for bucket 42:
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        Sorting block of length 379 for bucket 40
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        (Using difference cover)
        bucket 42: 70%
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        Sorting block time: 00:00:00
      Returning block of 380 for bucket 40
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        Sorting block of length 188 for bucket 42
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 331 for bucket 41
        Sorting block time: 00:00:00
      Returning block of 189 for bucket 42
      Getting block 43 of 57
        Reserving size (388) for bucket 43
        Calculating Z arrays for bucket 43
        Entering block accumulator loop for bucket 43:
        bucket 43: 10%
      Getting block 44 of 57
        Reserving size (388) for bucket 44
        Calculating Z arrays for bucket 44
        bucket 43: 20%
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        (Using difference cover)
        bucket 44: 90%
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        Sorting block of length 366 for bucket 44
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 367 for bucket 44
        Sorting block time: 00:00:00
      Returning block of 322 for bucket 43
      Getting block 45 of 57
        Reserving size (388) for bucket 45
        Calculating Z arrays for bucket 45
        Entering block accumulator loop for bucket 45:
        bucket 45: 10%
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      Getting block 46 of 57
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        Reserving size (388) for bucket 46
        Calculating Z arrays for bucket 46
        Entering block accumulator loop for bucket 46:
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        Sorting block of length 365 for bucket 45
        (Using difference cover)
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        Sorting block of length 253 for bucket 46
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 366 for bucket 45
        Sorting block time: 00:00:00
      Returning block of 254 for bucket 46
      Getting block 47 of 57
        Reserving size (388) for bucket 47
      Getting block 48 of 57
        Calculating Z arrays for bucket 47
        Reserving size (388) for bucket 48
        Calculating Z arrays for bucket 48
        Entering block accumulator loop for bucket 47:
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        Sorting block of length 384 for bucket 48
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        Sorting block time: 00:00:00
      Returning block of 385 for bucket 48
        bucket 47: 100%
        Sorting block of length 217 for bucket 47
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 218 for bucket 47
      Getting block 49 of 57
        Reserving size (388) for bucket 49
        Calculating Z arrays for bucket 49
      Getting block 50 of 57
        Reserving size (388) for bucket 50
        Calculating Z arrays for bucket 50
        Entering block accumulator loop for bucket 49:
      Getting block 51 of 57
        Entering block accumulator loop for bucket 50:
        Reserving size (388) for bucket 51
        Calculating Z arrays for bucket 51
        Entering block accumulator loop for bucket 51:
        bucket 50: 10%
        bucket 49: 10%
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        Sorting block of length 275 for bucket 50
        (Using difference cover)
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        Sorting block of length 350 for bucket 51
        (Using difference cover)
        bucket 49: 100%
        Sorting block of length 112 for bucket 49
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 276 for bucket 50
        Sorting block time: 00:00:00
      Returning block of 351 for bucket 51
        Sorting block time: 00:00:00
      Returning block of 113 for bucket 49
      Getting block 52 of 57
        Reserving size (388) for bucket 52
        Calculating Z arrays for bucket 52
        Entering block accumulator loop for bucket 52:
        bucket 52: 10%
      Getting block 53 of 57
        Reserving size (388) for bucket 53
        Calculating Z arrays for bucket 53
        Entering block accumulator loop for bucket 53:
        bucket 52: 20%
        bucket 52: 30%
        bucket 53: 10%
      Getting block 54 of 57
        Reserving size (388) for bucket 54
        Calculating Z arrays for bucket 54
        Entering block accumulator loop for bucket 54:
        bucket 53: 20%
        bucket 52: 40%
        bucket 54: 10%
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        Sorting block of length 237 for bucket 54
        (Using difference cover)
        bucket 53: 70%
        bucket 52: 90%
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        Sorting block time: 00:00:00
        Sorting block of length 378 for bucket 52
        (Using difference cover)
      Returning block of 238 for bucket 54
        bucket 53: 90%
        bucket 53: 100%
        Sorting block of length 370 for bucket 53
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 379 for bucket 52
        Sorting block time: 00:00:00
      Returning block of 371 for bucket 53
      Getting block 55 of 57
        Reserving size (388) for bucket 55
        Calculating Z arrays for bucket 55
        Entering block accumulator loop for bucket 55:
        bucket 55: 10%
      Getting block 56 of 57
        bucket 55: 20%
        Reserving size (388) for bucket 56
        Calculating Z arrays for bucket 56
        Entering block accumulator loop for bucket 56:
        bucket 55: 30%
        bucket 56: 10%
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        Sorting block of length 270 for bucket 56
        (Using difference cover)
        bucket 55: 90%
        bucket 55: 100%
        Sorting block of length 344 for bucket 55
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 271 for bucket 56
        Sorting block time: 00:00:00
      Returning block of 345 for bucket 55
      Getting block 57 of 57
        Reserving size (388) for bucket 57
        Calculating Z arrays for bucket 57
        Entering block accumulator loop for bucket 57:
        bucket 57: 10%
        bucket 57: 20%
        bucket 57: 30%
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        bucket 57: 50%
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        bucket 57: 100%
        Sorting block of length 132 for bucket 57
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 133 for bucket 57
      Exited Ebwt loop
      fchr[A]: 0
      fchr[C]: 5124
      fchr[G]: 10305
      fchr[T]: 12474
      fchr[$]: 16568
      Exiting Ebwt::buildToDisk()
      Returning from initFromVector
      Wrote 4200050 bytes to primary EBWT file: genome.rev.1.bt2.tmp
      Wrote 4148 bytes to secondary EBWT file: genome.rev.2.bt2.tmp
      Re-opening _in1 and _in2 as input streams
      Returning from Ebwt constructor
      Headers:
          len: 16568
          bwtLen: 16569
          sz: 4142
          bwtSz: 4143
          lineRate: 6
          offRate: 4
          offMask: 0xfffffff0
          ftabChars: 10
          eftabLen: 20
          eftabSz: 80
          ftabLen: 1048577
          ftabSz: 4194308
          offsLen: 1036
          offsSz: 4144
          lineSz: 64
          sideSz: 64
          sideBwtSz: 48
          sideBwtLen: 192
          numSides: 87
          numLines: 87
          ebwtTotLen: 5568
          ebwtTotSz: 5568
          color: 0
          reverse: 1
      Total time for backward call to driver() for mirror index: 00:00:00

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | save\_mapping\_stats | ` false ` |
       | sam\_options | ` {"__current_case__": 0, "no_unal": false, "omit_sec_seq": false, "reorder": true, "sam_no_qname_trunc": false, "sam_opt": false, "sam_options_selector": "yes", "soft_clipped_unmapped_tlen": false, "xeq": false} ` |
       | analysis\_type | ` {"__current_case__": 0, "analysis_type_selector": "simple", "presets": "no_presets"} ` |
       | rg | ` {"__current_case__": 3, "rg_selector": "do_not_set"} ` |
       | reference\_genome | ` {"__current_case__": 1, "own_file": {"values": [{"id": 391, "src": "hda"}]}, "source": "history"} ` |
       | library | ` {"__current_case__": 1, "aligned_file": false, "input_1": {"values": [{"id": 389, "src": "hda"}]}, "input_2": {"values": [{"id": 390, "src": "hda"}]}, "paired_options": {"__current_case__": 1, "paired_options_selector": "no"}, "type": "paired", "unaligned_file": false} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; bowtie2 (Test # 10)</summary><div class="padded">

    **Command Line:**

    * ```console
      set -o | grep -q pipefail && set -o pipefail; bowtie2-build --threads ${GALAXY_SLOTS:-4} '/galaxy/server/database/objects/8/1/c/dataset_81c9fef2-0331-42e0-b7e6-0a880024f65f.dat' genome && ln -s -f '/galaxy/server/database/objects/8/1/c/dataset_81c9fef2-0331-42e0-b7e6-0a880024f65f.dat' genome.fa &&   ln -f -s '/galaxy/server/database/objects/8/e/c/dataset_8ecc6dfb-974f-435c-96ca-9fb08b7215c1.dat' input_f.fasta &&  ln -f -s '/galaxy/server/database/objects/3/1/d/dataset_31d312b2-b637-4169-aa55-56ad2a633792.dat' input_r.fasta &&   THREADS=${GALAXY_SLOTS:-4} && if [ "$THREADS" -gt 1 ]; then (( THREADS-- )); fi &&   bowtie2  -p "$THREADS"  -x 'genome'  -f  -1 'input_f.fasta' -2 'input_r.fasta'                       > '/galaxy/server/database/objects/3/c/4/dataset_3c47ab5e-30a5-43fe-bd0e-cf4dfc8c9afd.dat'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Error:**

    * ```console
      Building a SMALL index
      Renaming genome.3.bt2.tmp to genome.3.bt2
      Renaming genome.4.bt2.tmp to genome.4.bt2
      Renaming genome.1.bt2.tmp to genome.1.bt2
      Renaming genome.2.bt2.tmp to genome.2.bt2
      Renaming genome.rev.1.bt2.tmp to genome.rev.1.bt2
      Renaming genome.rev.2.bt2.tmp to genome.rev.2.bt2
      100 reads; of these:
        100 (100.00%) were paired; of these:
          97 (97.00%) aligned concordantly 0 times
          3 (3.00%) aligned concordantly exactly 1 time
          0 (0.00%) aligned concordantly >1 times
          ----
          97 pairs aligned concordantly 0 times; of these:
            7 (7.22%) aligned discordantly 1 time
          ----
          90 pairs aligned 0 times concordantly or discordantly; of these:
            180 mates make up the pairs; of these:
              156 (86.67%) aligned 0 times
              24 (13.33%) aligned exactly 1 time
              0 (0.00%) aligned >1 times
      22.00% overall alignment rate

      ```
    **Standard Output:**

    * ```console
      Settings:
        Output files: "genome.*.bt2"
        Line rate: 6 (line is 64 bytes)
        Lines per side: 1 (side is 64 bytes)
        Offset rate: 4 (one in 16)
        FTable chars: 10
        Strings: unpacked
        Max bucket size: default
        Max bucket size, sqrt multiplier: default
        Max bucket size, len divisor: 32
        Difference-cover sample period: 1024
        Endianness: little
        Actual local endianness: little
        Sanity checking: disabled
        Assertions: disabled
        Random seed: 0
        Sizeofs: void*:8, int:4, long:8, size_t:8
      Input files DNA, FASTA:
        /galaxy/server/database/objects/8/1/c/dataset_81c9fef2-0331-42e0-b7e6-0a880024f65f.dat
      Reading reference sizes
        Time reading reference sizes: 00:00:00
      Calculating joined length
      Writing header
      Reserving space for joined string
      Joining reference sequences
        Time to join reference sequences: 00:00:00
      bmax according to bmaxDivN setting: 517
      Using parameters --bmax 388 --dcv 1024
        Doing ahead-of-time memory usage test
        Passed!  Constructing with these parameters: --bmax 388 --dcv 1024
      Constructing suffix-array element generator
      Building DifferenceCoverSample
        Building sPrime
        Building sPrimeOrder
        V-Sorting samples
        V-Sorting samples time: 00:00:00
        Allocating rank array
        Ranking v-sort output
        Ranking v-sort output time: 00:00:00
        Invoking Larsson-Sadakane on ranks
        Invoking Larsson-Sadakane on ranks time: 00:00:00
        Sanity-checking and returning
      Building samples
      Reserving space for 86 sample suffixes
      Generating random suffixes
      QSorting 86 sample offsets, eliminating duplicates
      QSorting sample offsets, eliminating duplicates time: 00:00:00
      Multikey QSorting 86 samples
        (Using difference cover)
        Multikey QSorting samples time: 00:00:00
      Calculating bucket sizes
      Splitting and merging
        Splitting and merging time: 00:00:00
      Split 12, merged 41; iterating...
      Splitting and merging
        Splitting and merging time: 00:00:00
      Split 6, merged 6; iterating...
      Splitting and merging
        Splitting and merging time: 00:00:00
      Split 5, merged 3; iterating...
      Splitting and merging
        Splitting and merging time: 00:00:00
      Split 3, merged 3; iterating...
      Splitting and merging
        Splitting and merging time: 00:00:00
      Avg bucket size: 284.672 (target: 387)
      Converting suffix-array elements to index image
      Allocating ftab, absorbFtab
      Entering Ebwt loop
      Getting block 1 of 58
        Reserving size (388) for bucket 1
      Getting block 2 of 58
      Getting block 3 of 58
      Getting block 4 of 58
      Getting block 5 of 58
      Getting block 6 of 58
        Calculating Z arrays for bucket 1
        Reserving size (388) for bucket 2
        Reserving size (388) for bucket 3
      Getting block 7 of 58
        Reserving size (388) for bucket 4
        Reserving size (388) for bucket 5
        Reserving size (388) for bucket 6
        Calculating Z arrays for bucket 2
        Calculating Z arrays for bucket 3
        Entering block accumulator loop for bucket 1:
        Reserving size (388) for bucket 7
        Calculating Z arrays for bucket 4
        Calculating Z arrays for bucket 5
        Calculating Z arrays for bucket 6
        Entering block accumulator loop for bucket 2:
        Calculating Z arrays for bucket 7
        Entering block accumulator loop for bucket 3:
        Entering block accumulator loop for bucket 5:
        Entering block accumulator loop for bucket 6:
        Entering block accumulator loop for bucket 4:
        bucket 1: 10%
        Entering block accumulator loop for bucket 7:
        bucket 2: 10%
        bucket 3: 10%
        bucket 5: 10%
        bucket 1: 20%
        bucket 2: 20%
        bucket 4: 10%
        bucket 7: 10%
        bucket 6: 10%
        bucket 1: 30%
        bucket 2: 30%
        bucket 3: 20%
        bucket 5: 20%
        bucket 4: 20%
        bucket 7: 20%
        bucket 1: 40%
        bucket 6: 20%
        bucket 2: 40%
        bucket 3: 30%
        bucket 4: 30%
        bucket 1: 50%
        bucket 5: 30%
        bucket 7: 30%
        bucket 2: 50%
        bucket 6: 30%
        bucket 1: 60%
        bucket 3: 40%
        bucket 4: 40%
        bucket 5: 40%
        bucket 2: 60%
        bucket 6: 40%
        bucket 7: 40%
        bucket 1: 70%
        bucket 4: 50%
        bucket 3: 50%
        bucket 2: 70%
        bucket 5: 50%
        bucket 1: 80%
        bucket 6: 50%
        bucket 7: 50%
        bucket 4: 60%
        bucket 2: 80%
        bucket 3: 60%
        bucket 1: 90%
        bucket 5: 60%
        bucket 6: 60%
        bucket 7: 60%
        bucket 4: 70%
        bucket 2: 90%
        bucket 1: 100%
        bucket 3: 70%
        Sorting block of length 355 for bucket 1
        (Using difference cover)
        bucket 5: 70%
        bucket 6: 70%
        bucket 4: 80%
        bucket 7: 70%
        bucket 2: 100%
        bucket 3: 80%
        Sorting block of length 165 for bucket 2
        (Using difference cover)
        bucket 5: 80%
        bucket 4: 90%
        bucket 6: 80%
        bucket 7: 80%
        bucket 3: 90%
        bucket 4: 100%
        bucket 5: 90%
        Sorting block of length 328 for bucket 4
        bucket 6: 90%
        (Using difference cover)
        bucket 7: 90%
        bucket 3: 100%
        bucket 5: 100%
        bucket 6: 100%
        Sorting block of length 370 for bucket 3
        Sorting block of length 203 for bucket 5
        (Using difference cover)
        (Using difference cover)
        Sorting block of length 339 for bucket 6
        (Using difference cover)
        bucket 7: 100%
        Sorting block of length 368 for bucket 7
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 329 for bucket 4
        Sorting block time: 00:00:00
      Returning block of 356 for bucket 1
        Sorting block time: 00:00:00
      Returning block of 369 for bucket 7
        Sorting block time: 00:00:00
      Returning block of 166 for bucket 2
        Sorting block time: 00:00:00
      Returning block of 340 for bucket 6
        Sorting block time: 00:00:00
      Returning block of 371 for bucket 3
        Sorting block time: 00:00:00
      Returning block of 204 for bucket 5
      Getting block 8 of 58
        Reserving size (388) for bucket 8
      Getting block 9 of 58
        Calculating Z arrays for bucket 8
        Reserving size (388) for bucket 9
        Calculating Z arrays for bucket 9
        Entering block accumulator loop for bucket 8:
        Entering block accumulator loop for bucket 9:
        bucket 8: 10%
        bucket 9: 10%
        bucket 8: 20%
      Getting block 10 of 58
        bucket 9: 20%
        bucket 8: 30%
        Reserving size (388) for bucket 10
        Calculating Z arrays for bucket 10
        Entering block accumulator loop for bucket 10:
        bucket 9: 30%
        bucket 8: 40%
        bucket 10: 10%
        bucket 9: 40%
        bucket 10: 20%
        bucket 8: 50%
        bucket 9: 50%
        bucket 10: 30%
        bucket 8: 60%
        bucket 9: 60%
        bucket 10: 40%
        bucket 10: 50%
        bucket 8: 70%
        bucket 9: 70%
        bucket 10: 60%
        bucket 8: 80%
        bucket 9: 80%
        bucket 10: 70%
        bucket 8: 90%
        bucket 10: 80%
        bucket 9: 90%
        bucket 10: 90%
        bucket 8: 100%
        bucket 9: 100%
        bucket 10: 100%
        Sorting block of length 171 for bucket 8
        (Using difference cover)
        Sorting block of length 339 for bucket 9
        (Using difference cover)
        Sorting block of length 357 for bucket 10
        (Using difference cover)
        Sorting block time: 00:00:01
      Returning block of 172 for bucket 8
        Sorting block time: 00:00:01
      Returning block of 358 for bucket 10
        Sorting block time: 00:00:01
      Returning block of 340 for bucket 9
      Getting block 11 of 58
        Reserving size (388) for bucket 11
        Calculating Z arrays for bucket 11
        Entering block accumulator loop for bucket 11:
        bucket 11: 10%
        bucket 11: 20%
        bucket 11: 30%
        bucket 11: 40%
      Getting block 12 of 58
      Getting block 13 of 58
        Reserving size (388) for bucket 12
        bucket 11: 50%
        Reserving size (388) for bucket 13
        Calculating Z arrays for bucket 12
        Calculating Z arrays for bucket 13
        Entering block accumulator loop for bucket 13:
        Entering block accumulator loop for bucket 12:
        bucket 11: 60%
        bucket 13: 10%
        bucket 12: 10%
        bucket 11: 70%
        bucket 13: 20%
        bucket 12: 20%
        bucket 11: 80%
        bucket 13: 30%
        bucket 13: 40%
        bucket 12: 30%
        bucket 11: 90%
        bucket 13: 50%
        bucket 12: 40%
        bucket 13: 60%
        bucket 11: 100%
        Sorting block of length 305 for bucket 11
        (Using difference cover)
        bucket 12: 50%
        bucket 13: 70%
        bucket 13: 80%
        bucket 12: 60%
        bucket 13: 90%
        bucket 12: 70%
        bucket 13: 100%
        bucket 12: 80%
        Sorting block of length 282 for bucket 13
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 306 for bucket 11
        bucket 12: 90%
        bucket 12: 100%
        Sorting block of length 185 for bucket 12
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 283 for bucket 13
        Sorting block time: 00:00:00
      Returning block of 186 for bucket 12
      Getting block 14 of 58
        Reserving size (388) for bucket 14
        Calculating Z arrays for bucket 14
        Entering block accumulator loop for bucket 14:
        bucket 14: 10%
        bucket 14: 20%
        bucket 14: 30%
        bucket 14: 40%
        bucket 14: 50%
        bucket 14: 60%
        bucket 14: 70%
        bucket 14: 80%
        bucket 14: 90%
        bucket 14: 100%
        Sorting block of length 339 for bucket 14
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 340 for bucket 14
      Getting block 15 of 58
        Reserving size (388) for bucket 15
        Calculating Z arrays for bucket 15
        Entering block accumulator loop for bucket 15:
        bucket 15: 10%
        bucket 15: 20%
        bucket 15: 30%
        bucket 15: 40%
      Getting block 16 of 58
        Reserving size (388) for bucket 16
        Calculating Z arrays for bucket 16
        bucket 15: 50%
        Entering block accumulator loop for bucket 16:
        bucket 16: 10%
        bucket 15: 60%
      Getting block 17 of 58
        Reserving size (388) for bucket 17
        bucket 16: 20%
        Calculating Z arrays for bucket 17
        bucket 15: 70%
        Entering block accumulator loop for bucket 17:
        bucket 15: 80%
        bucket 16: 30%
        bucket 15: 90%
        bucket 16: 40%
        bucket 17: 10%
        bucket 15: 100%
        Sorting block of length 241 for bucket 15
        (Using difference cover)
        bucket 16: 50%
        bucket 17: 20%
        bucket 16: 60%
        bucket 17: 30%
        bucket 16: 70%
        bucket 17: 40%
        bucket 16: 80%
        bucket 17: 50%
        Sorting block time: 00:00:00
      Returning block of 242 for bucket 15
        bucket 16: 90%
        bucket 17: 60%
        bucket 16: 100%
        Sorting block of length 379 for bucket 16
        (Using difference cover)
        bucket 17: 70%
        bucket 17: 80%
        bucket 17: 90%
        bucket 17: 100%
        Sorting block of length 215 for bucket 17
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 380 for bucket 16
        Sorting block time: 00:00:00
      Returning block of 216 for bucket 17
      Getting block 18 of 58
        Reserving size (388) for bucket 18
        Calculating Z arrays for bucket 18
        Entering block accumulator loop for bucket 18:
        bucket 18: 10%
        bucket 18: 20%
        bucket 18: 30%
        bucket 18: 40%
        bucket 18: 50%
        bucket 18: 60%
        bucket 18: 70%
        bucket 18: 80%
        bucket 18: 90%
        bucket 18: 100%
        Sorting block of length 378 for bucket 18
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 379 for bucket 18
      Getting block 19 of 58
        Reserving size (388) for bucket 19
      Getting block 20 of 58
        Calculating Z arrays for bucket 19
        Reserving size (388) for bucket 20
        Calculating Z arrays for bucket 20
      Getting block 21 of 58
        Reserving size (388) for bucket 21
        Calculating Z arrays for bucket 21
        Entering block accumulator loop for bucket 19:
        Entering block accumulator loop for bucket 20:
        Entering block accumulator loop for bucket 21:
        bucket 21: 10%
        bucket 20: 10%
        bucket 19: 10%
        bucket 21: 20%
        bucket 20: 20%
        bucket 19: 20%
        bucket 21: 30%
        bucket 20: 30%
        bucket 19: 30%
        bucket 21: 40%
        bucket 21: 50%
        bucket 20: 40%
        bucket 19: 40%
        bucket 21: 60%
        bucket 20: 50%
        bucket 19: 50%
        bucket 21: 70%
        bucket 20: 60%
        bucket 19: 60%
        bucket 21: 80%
        bucket 20: 70%
        bucket 21: 90%
        bucket 19: 70%
        bucket 21: 100%
        bucket 20: 80%
        bucket 19: 80%
        Sorting block of length 210 for bucket 21
        (Using difference cover)
        bucket 20: 90%
        bucket 19: 90%
        bucket 19: 100%
        bucket 20: 100%
        Sorting block of length 334 for bucket 19
        (Using difference cover)
        Sorting block of length 313 for bucket 20
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 314 for bucket 20
        Sorting block time: 00:00:00
      Returning block of 335 for bucket 19
        Sorting block time: 00:00:00
      Returning block of 211 for bucket 21
      Getting block 22 of 58
      Getting block 23 of 58
        Reserving size (388) for bucket 22
        Reserving size (388) for bucket 23
        Calculating Z arrays for bucket 22
        Calculating Z arrays for bucket 23
        Entering block accumulator loop for bucket 23:
      Getting block 24 of 58
        Entering block accumulator loop for bucket 22:
        Reserving size (388) for bucket 24
        bucket 23: 10%
        Calculating Z arrays for bucket 24
        Entering block accumulator loop for bucket 24:
        bucket 23: 20%
        bucket 24: 10%
        bucket 22: 10%
        bucket 23: 30%
        bucket 24: 20%
        bucket 22: 20%
        bucket 24: 30%
        bucket 23: 40%
        bucket 22: 30%
        bucket 24: 40%
        bucket 23: 50%
        bucket 22: 40%
        bucket 24: 50%
        bucket 24: 60%
        bucket 23: 60%
        bucket 22: 50%
        bucket 24: 70%
        bucket 23: 70%
        bucket 22: 60%
        bucket 24: 80%
        bucket 23: 80%
        bucket 22: 70%
        bucket 24: 90%
        bucket 24: 100%
        Sorting block of length 351 for bucket 24
        (Using difference cover)
        bucket 23: 90%
        bucket 22: 80%
        bucket 23: 100%
        bucket 22: 90%
        Sorting block of length 238 for bucket 23
        (Using difference cover)
        bucket 22: 100%
        Sorting block of length 386 for bucket 22
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 352 for bucket 24
        Sorting block time: 00:00:00
      Returning block of 239 for bucket 23
        Sorting block time: 00:00:00
      Returning block of 387 for bucket 22
      Getting block 25 of 58
        Reserving size (388) for bucket 25
        Calculating Z arrays for bucket 25
        Entering block accumulator loop for bucket 25:
        bucket 25: 10%
        bucket 25: 20%
        bucket 25: 30%
      Getting block 26 of 58
        bucket 25: 40%
        Reserving size (388) for bucket 26
        Calculating Z arrays for bucket 26
        Entering block accumulator loop for bucket 26:
        bucket 25: 50%
        bucket 26: 10%
        bucket 25: 60%
        bucket 26: 20%
        bucket 25: 70%
        bucket 26: 30%
        bucket 25: 80%
        bucket 26: 40%
        bucket 25: 90%
        bucket 26: 50%
        bucket 25: 100%
        Sorting block of length 105 for bucket 25
        (Using difference cover)
        bucket 26: 60%
        bucket 26: 70%
        bucket 26: 80%
        Sorting block time: 00:00:00
      Returning block of 106 for bucket 25
        bucket 26: 90%
        bucket 26: 100%
        Sorting block of length 354 for bucket 26
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 355 for bucket 26
      Getting block 27 of 58
        Reserving size (388) for bucket 27
        Calculating Z arrays for bucket 27
        Entering block accumulator loop for bucket 27:
        bucket 27: 10%
      Getting block 28 of 58
        bucket 27: 20%
        Reserving size (388) for bucket 28
        Calculating Z arrays for bucket 28
        bucket 27: 30%
        Entering block accumulator loop for bucket 28:
        bucket 27: 40%
        bucket 28: 10%
        bucket 27: 50%
        bucket 28: 20%
        bucket 27: 60%
        bucket 28: 30%
        bucket 27: 70%
        bucket 27: 80%
        bucket 28: 40%
        bucket 27: 90%
        bucket 28: 50%
        bucket 27: 100%
        Sorting block of length 334 for bucket 27
        (Using difference cover)
        bucket 28: 60%
        bucket 28: 70%
        bucket 28: 80%
        Sorting block time: 00:00:00
      Returning block of 335 for bucket 27
        bucket 28: 90%
        bucket 28: 100%
        Sorting block of length 253 for bucket 28
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 254 for bucket 28
      Getting block 29 of 58
        Reserving size (388) for bucket 29
      Getting block 30 of 58
        Calculating Z arrays for bucket 29
        Reserving size (388) for bucket 30
        Calculating Z arrays for bucket 30
        Entering block accumulator loop for bucket 29:
        Entering block accumulator loop for bucket 30:
        bucket 29: 10%
        bucket 30: 10%
        bucket 29: 20%
        bucket 30: 20%
        bucket 29: 30%
        bucket 29: 40%
        bucket 30: 30%
        bucket 29: 50%
        bucket 30: 40%
        bucket 29: 60%
        bucket 30: 50%
        bucket 29: 70%
        bucket 29: 80%
        bucket 30: 60%
        bucket 29: 90%
        bucket 30: 70%
        bucket 29: 100%
        bucket 30: 80%
        Sorting block of length 289 for bucket 29
        (Using difference cover)
        bucket 30: 90%
        bucket 30: 100%
        Sorting block of length 345 for bucket 30
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 290 for bucket 29
        Sorting block time: 00:00:00
      Returning block of 346 for bucket 30
      Getting block 31 of 58
        Reserving size (388) for bucket 31
        Calculating Z arrays for bucket 31
        Entering block accumulator loop for bucket 31:
      Getting block 32 of 58
        Reserving size (388) for bucket 32
        Calculating Z arrays for bucket 32
        Entering block accumulator loop for bucket 32:
        bucket 31: 10%
        bucket 32: 10%
        bucket 32: 20%
        bucket 31: 20%
        bucket 32: 30%
        bucket 32: 40%
        bucket 31: 30%
        bucket 32: 50%
        bucket 31: 40%
        bucket 32: 60%
        bucket 31: 50%
        bucket 32: 70%
        bucket 32: 80%
        bucket 31: 60%
        bucket 32: 90%
        bucket 32: 100%
        bu
      ..
      ucket 23: 100%
        Sorting block of length 349 for bucket 23
        (Using difference cover)
        bucket 24: 70%
        bucket 24: 80%
        bucket 24: 90%
        Sorting block time: 00:00:00
      Returning block of 344 for bucket 21
        bucket 24: 100%
        Sorting block of length 245 for bucket 24
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 372 for bucket 22
        Sorting block time: 00:00:00
      Returning block of 350 for bucket 23
        Sorting block time: 00:00:00
      Returning block of 246 for bucket 24
      Getting block 25 of 57
        Reserving size (388) for bucket 25
        Calculating Z arrays for bucket 25
        Entering block accumulator loop for bucket 25:
      Getting block 26 of 57
        bucket 25: 10%
        Reserving size (388) for bucket 26
        Calculating Z arrays for bucket 26
        Entering block accumulator loop for bucket 26:
        bucket 25: 20%
        bucket 26: 10%
        bucket 25: 30%
        bucket 26: 20%
        bucket 25: 40%
        bucket 26: 30%
        bucket 25: 50%
        bucket 25: 60%
        bucket 26: 40%
        bucket 25: 70%
        bucket 26: 50%
        bucket 26: 60%
        bucket 26: 70%
        bucket 25: 80%
        bucket 26: 80%
        bucket 25: 90%
        bucket 26: 90%
        bucket 25: 100%
        Sorting block of length 286 for bucket 25
        (Using difference cover)
        bucket 26: 100%
        Sorting block of length 384 for bucket 26
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 287 for bucket 25
        Sorting block time: 00:00:00
      Returning block of 385 for bucket 26
      Getting block 27 of 57
        Reserving size (388) for bucket 27
        Calculating Z arrays for bucket 27
        Entering block accumulator loop for bucket 27:
        bucket 27: 10%
        bucket 27: 20%
        bucket 27: 30%
      Getting block 28 of 57
        Reserving size (388) for bucket 28
        Calculating Z arrays for bucket 28
        bucket 27: 40%
        Entering block accumulator loop for bucket 28:
        bucket 27: 50%
        bucket 28: 10%
        bucket 27: 60%
        bucket 28: 20%
        bucket 27: 70%
        bucket 28: 30%
        bucket 27: 80%
        bucket 28: 40%
        bucket 27: 90%
        bucket 28: 50%
        bucket 27: 100%
        Sorting block of length 359 for bucket 27
        (Using difference cover)
        bucket 28: 60%
        bucket 28: 70%
        bucket 28: 80%
        bucket 28: 90%
        bucket 28: 100%
        Sorting block of length 387 for bucket 28
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 360 for bucket 27
        Sorting block time: 00:00:00
      Returning block of 388 for bucket 28
      Getting block 29 of 57
        Reserving size (388) for bucket 29
        Calculating Z arrays for bucket 29
        Entering block accumulator loop for bucket 29:
        bucket 29: 10%
      Getting block 30 of 57
        bucket 29: 20%
        Reserving size (388) for bucket 30
        Calculating Z arrays for bucket 30
        Entering block accumulator loop for bucket 30:
        bucket 29: 30%
      Getting block 31 of 57
        bucket 29: 40%
        bucket 30: 10%
        Reserving size (388) for bucket 31
        Calculating Z arrays for bucket 31
        Entering block accumulator loop for bucket 31:
        bucket 29: 50%
        bucket 30: 20%
        bucket 29: 60%
        bucket 31: 10%
        bucket 30: 30%
        bucket 29: 70%
        bucket 31: 20%
        bucket 29: 80%
        bucket 30: 40%
        bucket 31: 30%
        bucket 29: 90%
        bucket 30: 50%
        bucket 31: 40%
        bucket 29: 100%
        Sorting block of length 195 for bucket 29
        (Using difference cover)
        bucket 30: 60%
        bucket 31: 50%
        bucket 30: 70%
        bucket 30: 80%
        bucket 31: 60%
        bucket 30: 90%
        bucket 31: 70%
        bucket 30: 100%
        Sorting block of length 257 for bucket 30
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 196 for bucket 29
        bucket 31: 80%
        bucket 31: 90%
        bucket 31: 100%
        Sorting block of length 310 for bucket 31
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 258 for bucket 30
        Sorting block time: 00:00:00
      Returning block of 311 for bucket 31
      Getting block 32 of 57
        Reserving size (388) for bucket 32
        Calculating Z arrays for bucket 32
        Entering block accumulator loop for bucket 32:
        bucket 32: 10%
        bucket 32: 20%
        bucket 32: 30%
      Getting block 33 of 57
        bucket 32: 40%
        Reserving size (388) for bucket 33
        Calculating Z arrays for bucket 33
        Entering block accumulator loop for bucket 33:
        bucket 32: 50%
        bucket 33: 10%
        bucket 32: 60%
        bucket 33: 20%
        bucket 32: 70%
        bucket 33: 30%
        bucket 32: 80%
        bucket 33: 40%
        bucket 32: 90%
        bucket 33: 50%
        bucket 32: 100%
        Sorting block of length 219 for bucket 32
        (Using difference cover)
        bucket 33: 60%
        bucket 33: 70%
        bucket 33: 80%
        Sorting block time: 00:00:00
      Returning block of 220 for bucket 32
        bucket 33: 90%
        bucket 33: 100%
        Sorting block of length 387 for bucket 33
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 388 for bucket 33
      Getting block 34 of 57
        Reserving size (388) for bucket 34
        Calculating Z arrays for bucket 34
        Entering block accumulator loop for bucket 34:
        bucket 34: 10%
        bucket 34: 20%
        bucket 34: 30%
      Getting block 35 of 57
        Reserving size (388) for bucket 35
        Calculating Z arrays for bucket 35
        bucket 34: 40%
        Entering block accumulator loop for bucket 35:
        bucket 34: 50%
        bucket 34: 60%
        bucket 35: 10%
        bucket 34: 70%
        bucket 35: 20%
        bucket 34: 80%
        bucket 35: 30%
        bucket 34: 90%
        bucket 35: 40%
        bucket 34: 100%
        Sorting block of length 275 for bucket 34
        (Using difference cover)
        bucket 35: 50%
        bucket 35: 60%
        bucket 35: 70%
        bucket 35: 80%
        Sorting block time: 00:00:00
      Returning block of 276 for bucket 34
        bucket 35: 90%
        bucket 35: 100%
        Sorting block of length 350 for bucket 35
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 351 for bucket 35
      Getting block 36 of 57
        Reserving size (388) for bucket 36
        Calculating Z arrays for bucket 36
        Entering block accumulator loop for bucket 36:
        bucket 36: 10%
        bucket 36: 20%
        bucket 36: 30%
        bucket 36: 40%
        bucket 36: 50%
        bucket 36: 60%
        bucket 36: 70%
        bucket 36: 80%
        bucket 36: 90%
        bucket 36: 100%
        Sorting block of length 150 for bucket 36
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 151 for bucket 36
      Getting block 37 of 57
        Reserving size (388) for bucket 37
      Getting block 38 of 57
      Getting block 39 of 57
        Calculating Z arrays for bucket 37
        Reserving size (388) for bucket 38
        Reserving size (388) for bucket 39
        Calculating Z arrays for bucket 38
        Calculating Z arrays for bucket 39
        Entering block accumulator loop for bucket 37:
        Entering block accumulator loop for bucket 38:
        Entering block accumulator loop for bucket 39:
        bucket 39: 10%
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        bucket 37: 60%
        bucket 39: 90%
        bucket 38: 80%
        bucket 37: 70%
        bucket 39: 100%
        bucket 37: 80%
        Sorting block of length 387 for bucket 39
        (Using difference cover)
        bucket 38: 90%
        bucket 37: 90%
        bucket 38: 100%
        Sorting block of length 337 for bucket 38
        (Using difference cover)
        bucket 37: 100%
        Sorting block of length 267 for bucket 37
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 338 for bucket 38
        Sorting block time: 00:00:00
      Returning block of 268 for bucket 37
        Sorting block time: 00:00:00
      Returning block of 388 for bucket 39
      Getting block 40 of 57
        Reserving size (388) for bucket 40
        Calculating Z arrays for bucket 40
        Entering block accumulator loop for bucket 40:
        bucket 40: 10%
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        Sorting block of length 379 for bucket 40
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 380 for bucket 40
      Getting block 41 of 57
        Reserving size (388) for bucket 41
        Calculating Z arrays for bucket 41
        Entering block accumulator loop for bucket 41:
        bucket 41: 10%
      Getting block 42 of 57
        Reserving size (388) for bucket 42
        Calculating Z arrays for bucket 42
      Getting block 43 of 57
        bucket 41: 20%
        Entering block accumulator loop for bucket 42:
        Reserving size (388) for bucket 43
        Calculating Z arrays for bucket 43
        Entering block accumulator loop for bucket 43:
        bucket 42: 10%
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        Sorting block of length 188 for bucket 42
        (Using difference cover)
        bucket 43: 60%
        bucket 41: 100%
        Sorting block of length 330 for bucket 41
        (Using difference cover)
        bucket 43: 70%
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        Sorting block time: 00:00:00
      Returning block of 189 for bucket 42
        bucket 43: 90%
        bucket 43: 100%
        Sorting block of length 321 for bucket 43
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 331 for bucket 41
        Sorting block time: 00:00:00
      Returning block of 322 for bucket 43
      Getting block 44 of 57
        Reserving size (388) for bucket 44
        Calculating Z arrays for bucket 44
        Entering block accumulator loop for bucket 44:
      Getting block 45 of 57
        Reserving size (388) for bucket 45
        Calculating Z arrays for bucket 45
        bucket 44: 10%
        Entering block accumulator loop for bucket 45:
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        bucket 44: 20%
        Reserving size (388) for bucket 46
        bucket 45: 10%
        Calculating Z arrays for bucket 46
        Entering block accumulator loop for bucket 46:
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        Sorting block of length 366 for bucket 44
        (Using difference cover)
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        (Using difference cover)
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        (Using difference cover)
        Sorting block time: 00:00:00
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        Sorting block time: 00:00:00
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        Sorting block time: 00:00:00
      Returning block of 254 for bucket 46
      Getting block 47 of 57
        Reserving size (388) for bucket 47
        Calculating Z arrays for bucket 47
        Entering block accumulator loop for bucket 47:
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        Sorting block of length 217 for bucket 47
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 218 for bucket 47
      Getting block 48 of 57
        Reserving size (388) for bucket 48
      Getting block 49 of 57
        Calculating Z arrays for bucket 48
        Reserving size (388) for bucket 49
        Calculating Z arrays for bucket 49
        Entering block accumulator loop for bucket 48:
        Entering block accumulator loop for bucket 49:
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        Sorting block of length 384 for bucket 48
        (Using difference cover)
        bucket 49: 90%
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        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 385 for bucket 48
        Sorting block time: 00:00:00
      Returning block of 113 for bucket 49
      Getting block 50 of 57
        Reserving size (388) for bucket 50
        Calculating Z arrays for bucket 50
      Getting block 51 of 57
        Entering block accumulator loop for bucket 50:
        Reserving size (388) for bucket 51
        Calculating Z arrays for bucket 51
        Entering block accumulator loop for bucket 51:
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        Sorting block of length 275 for bucket 50
        (Using difference cover)
        Sorting block of length 350 for bucket 51
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 276 for bucket 50
        Sorting block time: 00:00:00
      Returning block of 351 for bucket 51
      Getting block 52 of 57
        Reserving size (388) for bucket 52
      Getting block 53 of 57
        Calculating Z arrays for bucket 52
        Reserving size (388) for bucket 53
        Calculating Z arrays for bucket 53
        Entering block accumulator loop for bucket 52:
        Entering block accumulator loop for bucket 53:
        bucket 53: 10%
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        (Using difference cover)
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        Sorting block of length 378 for bucket 52
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 371 for bucket 53
        Sorting block time: 00:00:00
      Returning block of 379 for bucket 52
      Getting block 54 of 57
        Reserving size (388) for bucket 54
        Calculating Z arrays for bucket 54
        Entering block accumulator loop for bucket 54:
        bucket 54: 10%
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        Sorting block of length 237 for bucket 54
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 238 for bucket 54
      Getting block 55 of 57
        Reserving size (388) for bucket 55
      Getting block 56 of 57
        Calculating Z arrays for bucket 55
        Reserving size (388) for bucket 56
        Calculating Z arrays for bucket 56
        Entering block accumulator loop for bucket 55:
        Entering block accumulator loop for bucket 56:
        bucket 55: 10%
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        Sorting block of length 344 for bucket 55
        (Using difference cover)
        bucket 56: 90%
        bucket 56: 100%
        Sorting block of length 270 for bucket 56
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 345 for bucket 55
        Sorting block time: 00:00:00
      Returning block of 271 for bucket 56
      Getting block 57 of 57
        Reserving size (388) for bucket 57
        Calculating Z arrays for bucket 57
        Entering block accumulator loop for bucket 57:
        bucket 57: 10%
        bucket 57: 20%
        bucket 57: 30%
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        bucket 57: 50%
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        bucket 57: 100%
        Sorting block of length 132 for bucket 57
        (Using difference cover)
        Sorting block time: 00:00:00
      Returning block of 133 for bucket 57
      Exited Ebwt loop
      fchr[A]: 0
      fchr[C]: 5124
      fchr[G]: 10305
      fchr[T]: 12474
      fchr[$]: 16568
      Exiting Ebwt::buildToDisk()
      Returning from initFromVector
      Wrote 4200050 bytes to primary EBWT file: genome.rev.1.bt2.tmp
      Wrote 4148 bytes to secondary EBWT file: genome.rev.2.bt2.tmp
      Re-opening _in1 and _in2 as input streams
      Returning from Ebwt constructor
      Headers:
          len: 16568
          bwtLen: 16569
          sz: 4142
          bwtSz: 4143
          lineRate: 6
          offRate: 4
          offMask: 0xfffffff0
          ftabChars: 10
          eftabLen: 20
          eftabSz: 80
          ftabLen: 1048577
          ftabSz: 4194308
          offsLen: 1036
          offsSz: 4144
          lineSz: 64
          sideSz: 64
          sideBwtSz: 48
          sideBwtLen: 192
          numSides: 87
          numLines: 87
          ebwtTotLen: 5568
          ebwtTotSz: 5568
          color: 0
          reverse: 1
      Total time for backward call to driver() for mirror index: 00:00:00

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | save\_mapping\_stats | ` false ` |
       | sam\_options | ` {"__current_case__": 0, "no_unal": false, "omit_sec_seq": false, "reorder": false, "sam_no_qname_trunc": false, "sam_opt": true, "sam_options_selector": "yes", "soft_clipped_unmapped_tlen": false, "xeq": false} ` |
       | analysis\_type | ` {"__current_case__": 0, "analysis_type_selector": "simple", "presets": "no_presets"} ` |
       | rg | ` {"__current_case__": 3, "rg_selector": "do_not_set"} ` |
       | reference\_genome | ` {"__current_case__": 1, "own_file": {"values": [{"id": 395, "src": "hda"}]}, "source": "history"} ` |
       | library | ` {"__current_case__": 1, "aligned_file": false, "input_1": {"values": [{"id": 393, "src": "hda"}]}, "input_2": {"values": [{"id": 394, "src": "hda"}]}, "paired_options": {"__current_case__": 1, "paired_options_selector": "no"}, "type": "paired", "unaligned_file": false} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 1)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/8/1/c/dataset_81c6cabf-6de4-4136-a694-5f55a2976c2d.dat' 'cutadapt_small_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      -o 'out1.fq'  'cutadapt_small_fastq.fq'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq cutadapt_small_fastq.fq
      Processing single-end reads on 5 cores ...
      Finished in 0.044 s (14710.029 µs/read; 0.00 M reads/minute).

      === Summary ===

      Total reads processed:                       3
      Reads with adapters:                         0 (0.0%)

      == Read fate breakdown ==
      Reads that were too short:                   0 (0.0%)
      Reads written (passing filters):             3 (100.0%)

      Total basepairs processed:           102 bp
      Total written (filtered):            102 bp (100.0%)

      === Adapter 1 ===

      Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 0 times

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 0, "input_1": {"values": [{"id": 85, "src": "hda"}]}, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AGATCGGAAGAGC", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "type": "single"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 2)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/3/9/f/dataset_39fb2f15-3feb-4181-8e8b-24c3969ac65b.dat' 'bwa-mem-fastq1_fq_gz.fq.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      -o 'out1.fq.gz'  'bwa-mem-fastq1_fq_gz.fq.gz'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq.gz bwa-mem-fastq1_fq_gz.fq.gz
      Processing single-end reads on 5 cores ...
      Finished in 0.100 s (1011.721 µs/read; 0.06 M reads/minute).

      === Summary ===

      Total reads processed:                      99
      Reads with adapters:                         2 (2.0%)

      == Read fate breakdown ==
      Reads that were too short:                   0 (0.0%)
      Reads written (passing filters):            99 (100.0%)

      Total basepairs processed:        24,849 bp
      Total written (filtered):         24,843 bp (100.0%)

      === Adapter 1 ===

      Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10-13 bp: 1

      Bases preceding removed adapters:
        A: 0.0%
        C: 50.0%
        G: 50.0%
        T: 0.0%
        none/other: 0.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      3	2	1.5	0	2

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 0, "input_1": {"values": [{"id": 87, "src": "hda"}]}, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AGATCGGAAGAGC", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "type": "single"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 11)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/4/5/c/dataset_45c67355-744d-421d-b114-a09e788b6998.dat' 'cutadapt_in_split_fastq.fq' && mkdir split &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -g 'A1'='^GTCGGTAA'   -g 'A2'='^AGGTCACT'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      -o 'split/{name}.fastq'  'cutadapt_in_split_fastq.fq'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -g A1=^GTCGGTAA -g A2=^AGGTCACT --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o split/{name}.fastq cutadapt_in_split_fastq.fq
      Processing single-end reads on 5 cores ...
      Finished in 0.071 s (6430.734 µs/read; 0.01 M reads/minute).

      === Summary ===

      Total reads processed:                      11
      Reads with adapters:                        10 (90.9%)

      == Read fate breakdown ==
      Reads that were too short:                   0 (0.0%)
      Reads discarded as untrimmed:                0 (0.0%)
      Reads written (passing filters):            11 (100.0%)

      Total basepairs processed:         1,210 bp
      Total written (filtered):          1,130 bp (93.4%)

      === Adapter A1 ===

      Sequence: GTCGGTAA; Type: anchored 5'; Length: 8; Trimmed: 5 times

      No. of allowed errors: 0

      Overview of removed sequences
      length	count	expect	max.err	error counts
      8	5	0.0	0	5


      === Adapter A2 ===

      Sequence: AGGTCACT; Type: anchored 5'; Length: 8; Trimmed: 5 times

      No. of allowed errors: 0

      Overview of removed sequences
      length	count	expect	max.err	error counts
      8	5	0.0	0	5

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` "multiple_output" ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 0, "input_1": {"values": [{"id": 113, "src": "hda"}]}, "r1": {"adapters": [], "anywhere_adapters": [], "front_adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "^GTCGGTAA", "adapter_name": "A1", "adapter_source_list": "user"}, "single_noindels": false}, {"__index__": 1, "adapter_source": {"__current_case__": 0, "adapter": "^AGGTCACT", "adapter_name": "A2", "adapter_source_list": "user"}, "single_noindels": false}]}, "type": "single"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 12)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/b/a/c/dataset_bac81e95-8b99-4128-83aa-f989bdeed0f8.dat' 'cutadapt_in_split_fastq_gz.fq.gz' && mkdir split &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -g file:'/galaxy/server/database/objects/3/8/0/dataset_380b14ee-18a8-4e2c-add3-5acff7dac874.dat'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      -o 'split/{name}.fastq.gz'  'cutadapt_in_split_fastq_gz.fq.gz'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -g file:/galaxy/server/database/objects/3/8/0/dataset_380b14ee-18a8-4e2c-add3-5acff7dac874.dat --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o split/{name}.fastq.gz cutadapt_in_split_fastq_gz.fq.gz
      Processing single-end reads on 5 cores ...
      Finished in 0.235 s (21344.922 µs/read; 0.00 M reads/minute).

      === Summary ===

      Total reads processed:                      11
      Reads with adapters:                        10 (90.9%)

      == Read fate breakdown ==
      Reads that were too short:                   0 (0.0%)
      Reads discarded as untrimmed:                0 (0.0%)
      Reads written (passing filters):            11 (100.0%)

      Total basepairs processed:         1,210 bp
      Total written (filtered):          1,130 bp (93.4%)

      === Adapter A2 ===

      Sequence: AGGTCACT; Type: anchored 5'; Length: 8; Trimmed: 5 times

      No. of allowed errors: 0

      Overview of removed sequences
      length	count	expect	max.err	error counts
      8	5	0.0	0	5


      === Adapter A1 ===

      Sequence: GTCGGTAA; Type: anchored 5'; Length: 8; Trimmed: 5 times

      No. of allowed errors: 0

      Overview of removed sequences
      length	count	expect	max.err	error counts
      8	5	0.0	0	5

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` "multiple_output" ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 0, "input_1": {"values": [{"id": 117, "src": "hda"}]}, "r1": {"adapters": [], "anywhere_adapters": [], "front_adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 2, "adapter_file": {"values": [{"id": 118, "src": "hda"}]}, "adapter_source_list": "file"}, "single_noindels": false}]}, "type": "single"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 13)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/b/7/7/dataset_b77a6dc5-fb17-497b-a693-ceb783b18ea9.dat' 'cutadapt_small_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AAAT'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      --untrimmed-output='untrimmed_output.fq' -o 'out1.fq'  'cutadapt_small_fastq.fq'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a AAAT --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 --untrimmed-output=untrimmed_output.fq -o out1.fq cutadapt_small_fastq.fq
      Processing single-end reads on 5 cores ...
      Finished in 0.051 s (16953.548 µs/read; 0.00 M reads/minute).

      === Summary ===

      Total reads processed:                       3
      Reads with adapters:                         1 (33.3%)

      == Read fate breakdown ==
      Reads that were too short:                   0 (0.0%)
      Reads written (passing filters):             1 (33.3%)

      Total basepairs processed:           102 bp
      Total written (filtered):             30 bp (29.4%)

      === Adapter 1 ===

      Sequence: AAAT; Type: regular 3'; Length: 4; Trimmed: 1 times

      Minimum overlap: 3
      No. of allowed errors:
      1-4 bp: 0

      Bases preceding removed adapters:
        A: 0.0%
        C: 100.0%
        G: 0.0%
        T: 0.0%
        none/other: 0.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      4	1	0.0	0	1

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` "untrimmed_file" ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 0, "input_1": {"values": [{"id": 122, "src": "hda"}]}, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AAAT", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "type": "single"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 14)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/5/2/9/dataset_5296c5ac-18ba-4789-8c7f-31e2d5b3be72.dat' 'bwa-mem-fastq1_fq_gz.fq.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      --untrimmed-output='untrimmed_output.fq.gz' -o 'out1.fq.gz'  'bwa-mem-fastq1_fq_gz.fq.gz'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 --untrimmed-output=untrimmed_output.fq.gz -o out1.fq.gz bwa-mem-fastq1_fq_gz.fq.gz
      Processing single-end reads on 5 cores ...
      Finished in 0.161 s (1626.253 µs/read; 0.04 M reads/minute).

      === Summary ===

      Total reads processed:                      99
      Reads with adapters:                         2 (2.0%)

      == Read fate breakdown ==
      Reads that were too short:                   0 (0.0%)
      Reads written (passing filters):             2 (2.0%)

      Total basepairs processed:        24,849 bp
      Total written (filtered):            496 bp (2.0%)

      === Adapter 1 ===

      Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10-13 bp: 1

      Bases preceding removed adapters:
        A: 0.0%
        C: 50.0%
        G: 50.0%
        T: 0.0%
        none/other: 0.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      3	2	1.5	0	2

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` "untrimmed_file" ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 0, "input_1": {"values": [{"id": 125, "src": "hda"}]}, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AGATCGGAAGAGC", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "type": "single"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 15)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/4/2/7/dataset_427a3a03-6423-4ad7-ba7c-99ea09cf90f9.dat' 'bwa-mem-fastq1_fq_gz.fq.gz' && ln -f -s '/galaxy/server/database/objects/c/f/d/dataset_cfdafaad-10c6-4a43-9654-59c761b11a4e.dat' 'bwa-mem-fastq2_fq_gz.fq.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'     --error-rate=0.1 --times=1 --overlap=3    --action=trim       --discard-untrimmed  --minimum-length=1 --maximum-length=1000 --max-n=0.0  --pair-filter=both     -o 'out1.fq.gz' -p 'out2.fq.gz'  'bwa-mem-fastq1_fq_gz.fq.gz' 'bwa-mem-fastq2_fq_gz.fq.gz'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --discard-untrimmed --minimum-length=1 --maximum-length=1000 --max-n=0.0 --pair-filter=both -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_fq_gz.fq.gz bwa-mem-fastq2_fq_gz.fq.gz
      Processing paired-end reads on 5 cores ...
      Finished in 0.167 s (1684.940 µs/read; 0.04 M reads/minute).

      === Summary ===

      Total read pairs processed:                 99
        Read 1 with adapter:                       2 (2.0%)

      == Read fate breakdown ==
      Pairs that were too short:                   0 (0.0%)
      Pairs that were too long:                    0 (0.0%)
      Pairs with too many N:                       0 (0.0%)
      Pairs written (passing filters):             2 (2.0%)

      Total basepairs processed:        49,698 bp
        Read 1:        24,849 bp
        Read 2:        24,849 bp
      Total written (filtered):            998 bp (2.0%)
        Read 1:           496 bp
        Read 2:           502 bp

      === First read: Adapter 1 ===

      Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10-13 bp: 1

      Bases preceding removed adapters:
        A: 0.0%
        C: 50.0%
        G: 50.0%
        T: 0.0%
        none/other: 0.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      3	2	1.5	0	2

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": true, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "0.0", "maximum_length": "1000", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "both"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 1, "input_1": {"values": [{"id": 128, "src": "hda"}]}, "input_2": {"values": [{"id": 129, "src": "hda"}]}, "pair_adapters": false, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AGATCGGAAGAGC", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "r2": {"adapters2": [], "anywhere_adapters2": [], "front_adapters2": []}, "type": "paired"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 16)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/a/b/0/dataset_ab02a4f6-6cda-4671-bdf5-1c6149c95c97.dat' 'cutadapt_small_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'    --error-rate=0.1 --times=1 --overlap=3    --action=trim   --cut=5       --minimum-length=1      -o 'out1.fq'  'cutadapt_small_fastq.fq'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --cut=5 --minimum-length=1 -o out1.fq cutadapt_small_fastq.fq
      Processing single-end reads on 5 cores ...
      Finished in 0.051 s (17052.094 µs/read; 0.00 M reads/minute).

      === Summary ===

      Total reads processed:                       3
      Reads with adapters:                         0 (0.0%)

      == Read fate breakdown ==
      Reads that were too short:                   0 (0.0%)
      Reads written (passing filters):             3 (100.0%)

      Total basepairs processed:           102 bp
      Total written (filtered):             87 bp (85.3%)

      === Adapter 1 ===

      Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 0 times

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "5", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 0, "input_1": {"values": [{"id": 132, "src": "hda"}]}, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AGATCGGAAGAGC", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "type": "single"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 17)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/d/f/0/dataset_df0116a3-1865-4152-9750-e0de09605272.dat' 'cutadapt_small_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'    --error-rate=0.1 --times=1 --overlap=3    --action=trim   --cut=5       --minimum-length=1    --rename='{id} barcode={cut_prefix}'   -o 'out1.fq'  'cutadapt_small_fastq.fq'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --cut=5 --minimum-length=1 --rename={id} barcode={cut_prefix} -o out1.fq cutadapt_small_fastq.fq
      Processing single-end reads on 5 cores ...
      Finished in 0.047 s (15596.310 µs/read; 0.00 M reads/minute).

      === Summary ===

      Total reads processed:                       3
      Reads with adapters:                         0 (0.0%)

      == Read fate breakdown ==
      Reads that were too short:                   0 (0.0%)
      Reads written (passing filters):             3 (100.0%)

      Total basepairs processed:           102 bp
      Total written (filtered):             87 bp (85.3%)

      === Adapter 1 ===

      Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 0 times

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": "{id} barcode={cut_prefix}", "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "5", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 0, "input_1": {"values": [{"id": 134, "src": "hda"}]}, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AGATCGGAAGAGC", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "type": "single"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 18)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/b/e/d/dataset_bedc6a59-d388-498c-9d86-5b80faaf52c7.dat' 'cutadapt_small_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'CGTCCGAANTAG'    --error-rate=0.1 --times=1 --overlap=3    --action=retain         --minimum-length=1      -o 'out1.fq'  'cutadapt_small_fastq.fq'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a CGTCCGAANTAG --error-rate=0.1 --times=1 --overlap=3 --action=retain --minimum-length=1 -o out1.fq cutadapt_small_fastq.fq
      Processing single-end reads on 5 cores ...
      Finished in 0.043 s (14316.559 µs/read; 0.00 M reads/minute).

      === Summary ===

      Total reads processed:                       3
      Reads with adapters:                         1 (33.3%)

      == Read fate breakdown ==
      Reads that were too short:                   0 (0.0%)
      Reads written (passing filters):             3 (100.0%)

      Total basepairs processed:           102 bp
      Total written (filtered):             80 bp (78.4%)

      === Adapter 1 ===

      Sequence: CGTCCGAANTAG; Type: regular 3'; Length: 12; Trimmed: 1 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10-11 bp: 1

      Bases preceding removed adapters:
        A: 0.0%
        C: 0.0%
        G: 0.0%
        T: 0.0%
        none/other: 100.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      34	1	0.0	1	1

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "retain", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 0, "input_1": {"values": [{"id": 136, "src": "hda"}]}, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "CGTCCGAANTAG", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "type": "single"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 19)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/0/2/5/dataset_025fcaeb-2b3b-47c8-8415-4045992d5de1.dat' 'cutadapt_small_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'CGTCCGAANTAG'    --error-rate=0.1 --times=1 --overlap=3    --action=mask         --minimum-length=1      -o 'out1.fq'  'cutadapt_small_fastq.fq'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a CGTCCGAANTAG --error-rate=0.1 --times=1 --overlap=3 --action=mask --minimum-length=1 -o out1.fq cutadapt_small_fastq.fq
      Processing single-end reads on 5 cores ...
      Finished in 0.044 s (14817.635 µs/read; 0.00 M reads/minute).

      === Summary ===

      Total reads processed:                       3
      Reads with adapters:                         1 (33.3%)

      == Read fate breakdown ==
      Reads that were too short:                   0 (0.0%)
      Reads written (passing filters):             3 (100.0%)

      Total basepairs processed:           102 bp
      Total written (filtered):            102 bp (100.0%)

      === Adapter 1 ===

      Sequence: CGTCCGAANTAG; Type: regular 3'; Length: 12; Trimmed: 1 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10-11 bp: 1

      Bases preceding removed adapters:
        A: 0.0%
        C: 0.0%
        G: 0.0%
        T: 0.0%
        none/other: 100.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      34	1	0.0	1	1

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "mask", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 0, "input_1": {"values": [{"id": 138, "src": "hda"}]}, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "CGTCCGAANTAG", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "type": "single"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 20)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/5/f/3/dataset_5f335f38-6d35-445e-982a-6bdf4bc4a834.dat' 'cutadapt_small_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'CGTCCGAANTAG'    --error-rate=0.1 --times=1 --overlap=3    --action=lowercase         --minimum-length=1      -o 'out1.fq'  'cutadapt_small_fastq.fq'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a CGTCCGAANTAG --error-rate=0.1 --times=1 --overlap=3 --action=lowercase --minimum-length=1 -o out1.fq cutadapt_small_fastq.fq
      Processing single-end reads on 5 cores ...
      Finished in 0.046 s (15481.631 µs/read; 0.00 M reads/minute).

      === Summary ===

      Total reads processed:                       3
      Reads with adapters:                         1 (33.3%)

      == Read fate breakdown ==
      Reads that were too short:                   0 (0.0%)
      Reads written (passing filters):             3 (100.0%)

      Total basepairs processed:           102 bp
      Total written (filtered):            102 bp (100.0%)

      === Adapter 1 ===

      Sequence: CGTCCGAANTAG; Type: regular 3'; Length: 12; Trimmed: 1 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10-11 bp: 1

      Bases preceding removed adapters:
        A: 0.0%
        C: 0.0%
        G: 0.0%
        T: 0.0%
        none/other: 100.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      34	1	0.0	1	1

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "lowercase", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 0, "input_1": {"values": [{"id": 140, "src": "hda"}]}, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "CGTCCGAANTAG", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "type": "single"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 3)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/5/a/f/dataset_5af6df1b-bd04-4e3d-a439-7d2f1bc691ab.dat' 'bwa-mem-fastq1_fq_gz.fq.gz' && ln -f -s '/galaxy/server/database/objects/6/b/4/dataset_6b4bfcb9-28e2-4145-b4c0-2ce35cdbaaa4.dat' 'bwa-mem-fastq2_fq_gz.fq.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'    -A 'AGATCGGAAGAGC'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      -o 'out1.fq.gz' -p 'out2.fq.gz'  'bwa-mem-fastq1_fq_gz.fq.gz' 'bwa-mem-fastq2_fq_gz.fq.gz'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a AGATCGGAAGAGC -A AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_fq_gz.fq.gz bwa-mem-fastq2_fq_gz.fq.gz
      Processing paired-end reads on 5 cores ...
      Finished in 0.170 s (1718.410 µs/read; 0.03 M reads/minute).

      === Summary ===

      Total read pairs processed:                 99
        Read 1 with adapter:                       2 (2.0%)
        Read 2 with adapter:                       4 (4.0%)

      == Read fate breakdown ==
      Pairs that were too short:                   0 (0.0%)
      Pairs written (passing filters):            99 (100.0%)

      Total basepairs processed:        49,698 bp
        Read 1:        24,849 bp
        Read 2:        24,849 bp
      Total written (filtered):         49,677 bp (100.0%)
        Read 1:        24,843 bp
        Read 2:        24,834 bp

      === First read: Adapter 1 ===

      Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10-13 bp: 1

      Bases preceding removed adapters:
        A: 0.0%
        C: 50.0%
        G: 50.0%
        T: 0.0%
        none/other: 0.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      3	2	1.5	0	2


      === Second read: Adapter 2 ===

      Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 4 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10-13 bp: 1

      Bases preceding removed adapters:
        A: 0.0%
        C: 0.0%
        G: 50.0%
        T: 50.0%
        none/other: 0.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      3	2	1.5	0	2
      4	1	0.4	0	1
      5	1	0.1	0	1

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 1, "input_1": {"values": [{"id": 89, "src": "hda"}]}, "input_2": {"values": [{"id": 90, "src": "hda"}]}, "pair_adapters": false, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AGATCGGAAGAGC", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "r2": {"adapters2": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AGATCGGAAGAGC", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters2": [], "front_adapters2": []}, "type": "paired"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 21)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/3/7/f/dataset_37fe1a28-ea04-4571-b85c-b44009abe665.dat' 'cutadapt_small_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'CGTCCGAANTAG'    --error-rate=0.1 --times=1 --overlap=3    --action=crop         --minimum-length=1      -o 'out1.fq'  'cutadapt_small_fastq.fq'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a CGTCCGAANTAG --error-rate=0.1 --times=1 --overlap=3 --action=crop --minimum-length=1 -o out1.fq cutadapt_small_fastq.fq
      Processing single-end reads on 5 cores ...
      Finished in 0.043 s (14228.026 µs/read; 0.00 M reads/minute).

      === Summary ===

      Total reads processed:                       3
      Reads with adapters:                         1 (33.3%)

      == Read fate breakdown ==
      Reads that were too short:                   0 (0.0%)
      Reads written (passing filters):             3 (100.0%)

      Total basepairs processed:           102 bp
      Total written (filtered):             80 bp (78.4%)

      === Adapter 1 ===

      Sequence: CGTCCGAANTAG; Type: regular 3'; Length: 12; Trimmed: 1 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10-11 bp: 1

      Bases preceding removed adapters:
        A: 0.0%
        C: 0.0%
        G: 0.0%
        T: 0.0%
        none/other: 100.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      34	1	0.0	1	1

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "crop", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 0, "input_1": {"values": [{"id": 142, "src": "hda"}]}, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "CGTCCGAANTAG", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "type": "single"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 22)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/e/e/8/dataset_ee8f4078-700c-4d23-8c73-1a2518ddbbcd.dat' 'cutadapt_small_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'CGTCCGAANTAG'    --error-rate=0.1 --times=1 --overlap=3    --action=none         --minimum-length=1      -o 'out1.fq'  'cutadapt_small_fastq.fq'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a CGTCCGAANTAG --error-rate=0.1 --times=1 --overlap=3 --action=none --minimum-length=1 -o out1.fq cutadapt_small_fastq.fq
      Processing single-end reads on 5 cores ...
      Finished in 0.044 s (14768.918 µs/read; 0.00 M reads/minute).

      === Summary ===

      Total reads processed:                       3
      Reads with adapters:                         1 (33.3%)

      == Read fate breakdown ==
      Reads that were too short:                   0 (0.0%)
      Reads written (passing filters):             3 (100.0%)

      Total basepairs processed:           102 bp
      Total written (filtered):            102 bp (100.0%)

      === Adapter 1 ===

      Sequence: CGTCCGAANTAG; Type: regular 3'; Length: 12; Trimmed: 1 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10-11 bp: 1

      Bases preceding removed adapters:
        A: 0.0%
        C: 0.0%
        G: 0.0%
        T: 0.0%
        none/other: 100.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      34	1	0.0	1	1

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "none", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 0, "input_1": {"values": [{"id": 144, "src": "hda"}]}, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "CGTCCGAANTAG", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "type": "single"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 23)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/f/2/1/dataset_f21cd349-b053-4f2e-96a6-a1efaa3bfada.dat' 'cutadapt_small_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'TAAACAGATTAGT'    --error-rate=0.1 --times=1 --overlap=3    --action=trim --rc        --minimum-length=1      -o 'out1.fq'  'cutadapt_small_fastq.fq'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a TAAACAGATTAGT --error-rate=0.1 --times=1 --overlap=3 --action=trim --rc --minimum-length=1 -o out1.fq cutadapt_small_fastq.fq
      Processing single-end reads on 5 cores ...
      Finished in 0.043 s (14419.794 µs/read; 0.00 M reads/minute).

      === Summary ===

      Total reads processed:                       3
      Reads with adapters:                         1 (33.3%)
      Reverse-complemented:                        0 (0.0%)

      == Read fate breakdown ==
      Reads that were too short:                   0 (0.0%)
      Reads written (passing filters):             3 (100.0%)

      Total basepairs processed:           102 bp
      Total written (filtered):             97 bp (95.1%)

      === Adapter 1 ===

      Sequence: TAAACAGATTAGT; Type: regular 3'; Length: 13; Trimmed: 1 times; Reverse-complemented: 0 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10-13 bp: 1

      Bases preceding removed adapters:
        A: 0.0%
        C: 0.0%
        G: 0.0%
        T: 100.0%
        none/other: 0.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      5	1	0.0	0	1

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": true, "times": "1"} ` |
       | library | ` {"__current_case__": 0, "input_1": {"values": [{"id": 146, "src": "hda"}]}, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "TAAACAGATTAGT", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "type": "single"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 24)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/a/f/e/dataset_afe9cd0a-7571-40e6-9144-d67d3b814a54.dat' 'bwa-mem-fastq1_assimetric_fq_gz.fq.gz' && ln -f -s '/galaxy/server/database/objects/d/d/8/dataset_dd87ce32-7fce-4e27-b03d-a5d7b9ead40c.dat' 'bwa-mem-fastq2_assimetric_fq_gz.fq.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'ATCTGGTTCC'    -A 'CTACAAG'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=30:10  --pair-filter=both     -o 'out1.fq.gz' -p 'out2.fq.gz'  'bwa-mem-fastq1_assimetric_fq_gz.fq.gz' 'bwa-mem-fastq2_assimetric_fq_gz.fq.gz'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a ATCTGGTTCC -A CTACAAG --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=30:10 --pair-filter=both -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_assimetric_fq_gz.fq.gz bwa-mem-fastq2_assimetric_fq_gz.fq.gz
      Processing paired-end reads on 5 cores ...
      Finished in 0.175 s (1769.401 µs/read; 0.03 M reads/minute).

      === Summary ===

      Total read pairs processed:                 99
        Read 1 with adapter:                      32 (32.3%)
        Read 2 with adapter:                      15 (15.2%)

      == Read fate breakdown ==
      Pairs that were too short:                   3 (3.0%)
      Pairs written (passing filters):            96 (97.0%)

      Total basepairs processed:        48,291 bp
        Read 1:        24,147 bp
        Read 2:        24,144 bp
      Total written (filtered):         38,492 bp (79.7%)
        Read 1:        17,741 bp
        Read 2:        20,751 bp

      === First read: Adapter 1 ===

      Sequence: ATCTGGTTCC; Type: regular 3'; Length: 10; Trimmed: 32 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10 bp: 1

      Bases preceding removed adapters:
        A: 0.0%
        C: 90.6%
        G: 3.1%
        T: 0.0%
        none/other: 6.2%
      WARNING:
          The adapter is preceded by 'C' extremely often.
          The provided adapter sequence could be incomplete at its 5' end.
          Ignore this warning when trimming primers.

      Overview of removed sequences
      length	count	expect	max.err	error counts
      3	2	1.5	0	2
      13	1	0.0	1	1
      14	1	0.0	1	1
      201	1	0.0	1	1
      203	1	0.0	1	1
      208	2	0.0	1	2
      209	1	0.0	1	1
      211	1	0.0	1	1
      214	2	0.0	1	2
      217	2	0.0	1	2
      218	1	0.0	1	1
      222	1	0.0	1	1
      226	1	0.0	1	1
      227	2	0.0	1	2
      228	1	0.0	1	1
      229	1	0.0	1	1
      232	2	0.0	1	2
      238	1	0.0	1	1
      242	7	0.0	1	7
      251	1	0.0	1	0 1


      === Second read: Adapter 2 ===

      Sequence: CTACAAG; Type: regular 3'; Length: 7; Trimmed: 15 times

      Minimum overlap: 3
      No. of allowed errors:
      1-7 bp: 0

      Bases preceding removed adapters:
        A: 0.0%
        C: 73.3%
        G: 0.0%
        T: 0.0%
        none/other: 26.7%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      8	1	0.0	0	1
      228	2	0.0	0	2
      229	1	0.0	0	1
      238	3	0.0	0	3
      241	1	0.0	0	1
      243	1	0.0	0	1
      246	1	0.0	0	1
      248	1	0.0	0	1
      250	1	0.0	0	1
      251	3	0.0	0	3


      WARNING:
          One or more of your adapter sequences may be incomplete.
          Please see the detailed output above.

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "30", "minimum_length2": "10", "pair_filter": "both"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 1, "input_1": {"values": [{"id": 148, "src": "hda"}]}, "input_2": {"values": [{"id": 149, "src": "hda"}]}, "pair_adapters": false, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "ATCTGGTTCC", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "r2": {"adapters2": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "CTACAAG", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters2": [], "front_adapters2": []}, "type": "paired"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 25)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/0/e/6/dataset_0e62fc39-0927-4cbe-8247-1eeb4ffcdc12.dat' 'bwa-mem-fastq1_assimetric_fq_gz.fq.gz' && ln -f -s '/galaxy/server/database/objects/2/6/c/dataset_26cb2d5e-2881-48d8-8d68-ba4e67a0b60c.dat' 'bwa-mem-fastq2_assimetric_fq_gz.fq.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'    -A 'AGATCGGAAGAGC'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1 --maximum-length=50:30  --pair-filter=both     -o 'out1.fq.gz' -p 'out2.fq.gz'  'bwa-mem-fastq1_assimetric_fq_gz.fq.gz' 'bwa-mem-fastq2_assimetric_fq_gz.fq.gz'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a AGATCGGAAGAGC -A AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 --maximum-length=50:30 --pair-filter=both -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_assimetric_fq_gz.fq.gz bwa-mem-fastq2_assimetric_fq_gz.fq.gz
      Processing paired-end reads on 5 cores ...
      Finished in 0.173 s (1747.052 µs/read; 0.03 M reads/minute).

      === Summary ===

      Total read pairs processed:                 99
        Read 1 with adapter:                       2 (2.0%)
        Read 2 with adapter:                       4 (4.0%)

      == Read fate breakdown ==
      Pairs that were too short:                   0 (0.0%)
      Pairs that were too long:                   96 (97.0%)
      Pairs written (passing filters):             3 (3.0%)

      Total basepairs processed:        48,291 bp
        Read 1:        24,147 bp
        Read 2:        24,144 bp
      Total written (filtered):             99 bp (0.2%)
        Read 1:            51 bp
        Read 2:            48 bp

      === First read: Adapter 1 ===

      Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10-13 bp: 1

      Bases preceding removed adapters:
        A: 0.0%
        C: 50.0%
        G: 50.0%
        T: 0.0%
        none/other: 0.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      3	2	1.5	0	2


      === Second read: Adapter 2 ===

      Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 4 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10-13 bp: 1

      Bases preceding removed adapters:
        A: 0.0%
        C: 0.0%
        G: 50.0%
        T: 50.0%
        none/other: 0.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      3	2	1.5	0	2
      4	1	0.4	0	1
      5	1	0.1	0	1

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "50", "maximum_length2": "30", "minimum_length": "1", "minimum_length2": "", "pair_filter": "both"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 1, "input_1": {"values": [{"id": 152, "src": "hda"}]}, "input_2": {"values": [{"id": 153, "src": "hda"}]}, "pair_adapters": false, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AGATCGGAAGAGC", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "r2": {"adapters2": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AGATCGGAAGAGC", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters2": [], "front_adapters2": []}, "type": "paired"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 26)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/c/1/a/dataset_c1a1aef6-b29d-4d47-aaee-e8bb508d8106.dat' 'bwa-mem-fastq1_assimetric_fq_gz.fq.gz' && ln -f -s '/galaxy/server/database/objects/f/b/0/dataset_fb0f008f-07d4-4e01-80f1-94c1ce5b35e7.dat' 'bwa-mem-fastq2_assimetric_fq_gz.fq.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'     --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=10 --maximum-length=50:30  --pair-filter=both     -o 'out1.fq.gz' -p 'out2.fq.gz'  'bwa-mem-fastq1_assimetric_fq_gz.fq.gz' 'bwa-mem-fastq2_assimetric_fq_gz.fq.gz'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=10 --maximum-length=50:30 --pair-filter=both -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_assimetric_fq_gz.fq.gz bwa-mem-fastq2_assimetric_fq_gz.fq.gz
      Processing paired-end reads on 5 cores ...
      Finished in 0.159 s (1608.278 µs/read; 0.04 M reads/minute).

      === Summary ===

      Total read pairs processed:                 99
        Read 1 with adapter:                       2 (2.0%)

      == Read fate breakdown ==
      Pairs that were too short:                   0 (0.0%)
      Pairs that were too long:                   96 (97.0%)
      Pairs written (passing filters):             3 (3.0%)

      Total basepairs processed:        48,291 bp
        Read 1:        24,147 bp
        Read 2:        24,144 bp
      Total written (filtered):             99 bp (0.2%)
        Read 1:            51 bp
        Read 2:            48 bp

      === First read: Adapter 1 ===

      Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10-13 bp: 1

      Bases preceding removed adapters:
        A: 0.0%
        C: 50.0%
        G: 50.0%
        T: 0.0%
        none/other: 0.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      3	2	1.5	0	2

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "50", "maximum_length2": "30", "minimum_length": "10", "minimum_length2": "", "pair_filter": "both"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 1, "input_1": {"values": [{"id": 156, "src": "hda"}]}, "input_2": {"values": [{"id": 157, "src": "hda"}]}, "pair_adapters": false, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AGATCGGAAGAGC", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "r2": {"adapters2": [], "anywhere_adapters2": [], "front_adapters2": []}, "type": "paired"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 27)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/4/8/2/dataset_4820c4dd-9e4e-4af6-8a85-c774dd89c82d.dat' 'bwa-mem-fastq1_assimetric_fq_gz.fq.gz' && ln -f -s '/galaxy/server/database/objects/1/3/5/dataset_1352bf4f-2fc5-4000-bc94-425d8a98401d.dat' 'bwa-mem-fastq2_assimetric_fq_gz.fq.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'     --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=10:10 --maximum-length=50  --pair-filter=both     -o 'out1.fq.gz' -p 'out2.fq.gz'  'bwa-mem-fastq1_assimetric_fq_gz.fq.gz' 'bwa-mem-fastq2_assimetric_fq_gz.fq.gz'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=10:10 --maximum-length=50 --pair-filter=both -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_assimetric_fq_gz.fq.gz bwa-mem-fastq2_assimetric_fq_gz.fq.gz
      Processing paired-end reads on 5 cores ...
      Finished in 0.162 s (1638.846 µs/read; 0.04 M reads/minute).

      === Summary ===

      Total read pairs processed:                 99
        Read 1 with adapter:                       2 (2.0%)

      == Read fate breakdown ==
      Pairs that were too short:                   0 (0.0%)
      Pairs that were too long:                   96 (97.0%)
      Pairs written (passing filters):             3 (3.0%)

      Total basepairs processed:        48,291 bp
        Read 1:        24,147 bp
        Read 2:        24,144 bp
      Total written (filtered):             99 bp (0.2%)
        Read 1:            51 bp
        Read 2:            48 bp

      === First read: Adapter 1 ===

      Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10-13 bp: 1

      Bases preceding removed adapters:
        A: 0.0%
        C: 50.0%
        G: 50.0%
        T: 0.0%
        none/other: 0.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      3	2	1.5	0	2

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "50", "maximum_length2": "", "minimum_length": "10", "minimum_length2": "10", "pair_filter": "both"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 1, "input_1": {"values": [{"id": 160, "src": "hda"}]}, "input_2": {"values": [{"id": 161, "src": "hda"}]}, "pair_adapters": false, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AGATCGGAAGAGC", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "r2": {"adapters2": [], "anywhere_adapters2": [], "front_adapters2": []}, "type": "paired"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 28)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/0/0/6/dataset_006c6c85-4c89-4714-b475-18a33d4c6970.dat' 'cutadapt_small_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGCCGCTANGACG'    --error-rate=0.1 --times=1 --overlap=3    --action=trim     --length=10          -o 'out1.fq'  'cutadapt_small_fastq.fq'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a AGCCGCTANGACG --error-rate=0.1 --times=1 --overlap=3 --action=trim --length=10 -o out1.fq cutadapt_small_fastq.fq
      Processing single-end reads on 5 cores ...
      Finished in 0.041 s (13507.843 µs/read; 0.00 M reads/minute).

      === Summary ===

      Total reads processed:                       3
      Reads with adapters:                         1 (33.3%)
      Reads written (passing filters):             3 (100.0%)

      Total basepairs processed:           102 bp
      Total written (filtered):             20 bp (19.6%)

      === Adapter 1 ===

      Sequence: AGCCGCTANGACG; Type: regular 3'; Length: 13; Trimmed: 1 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10-12 bp: 1

      Bases preceding removed adapters:
        A: 0.0%
        C: 0.0%
        G: 0.0%
        T: 0.0%
        none/other: 100.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      34	1	0.0	1	1

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "0", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 0, "length": "10", "shorten_end": "3prime", "shorten_values": "True"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 0, "input_1": {"values": [{"id": 164, "src": "hda"}]}, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AGCCGCTANGACG", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "type": "single"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 29)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/a/d/8/dataset_ad837fb8-7e8a-45df-af36-68d7ceb66290.dat' 'cutadapt_small_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGCCGCTANGACG'    --error-rate=0.1 --times=1 --overlap=3    --action=trim     --length=-10          -o 'out1.fq'  'cutadapt_small_fastq.fq'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a AGCCGCTANGACG --error-rate=0.1 --times=1 --overlap=3 --action=trim --length=-10 -o out1.fq cutadapt_small_fastq.fq
      Processing single-end reads on 5 cores ...
      Finished in 0.044 s (14674.187 µs/read; 0.00 M reads/minute).

      === Summary ===

      Total reads processed:                       3
      Reads with adapters:                         1 (33.3%)
      Reads written (passing filters):             3 (100.0%)

      Total basepairs processed:           102 bp
      Total written (filtered):             20 bp (19.6%)

      === Adapter 1 ===

      Sequence: AGCCGCTANGACG; Type: regular 3'; Length: 13; Trimmed: 1 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10-12 bp: 1

      Bases preceding removed adapters:
        A: 0.0%
        C: 0.0%
        G: 0.0%
        T: 0.0%
        none/other: 100.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      34	1	0.0	1	1

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "0", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 0, "length": "10", "shorten_end": "5prime", "shorten_values": "True"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 0, "input_1": {"values": [{"id": 166, "src": "hda"}]}, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AGCCGCTANGACG", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "type": "single"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 30)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/c/b/8/dataset_cb82816a-d3f7-4c68-844a-e9e4708cf36d.dat' 'cutadapt_small_fastq_1.fq' && ln -f -s '/galaxy/server/database/objects/c/b/8/dataset_cb82816a-d3f7-4c68-844a-e9e4708cf36d.dat' 'cutadapt_small_fastq_2.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGCCGCTANGACG'    -A 'AGCCGCTANGACG'    --error-rate=0.1 --times=1 --overlap=3    --action=trim     --length=10 -L -10          -o 'out1.fq' -p 'out2.fq'  'cutadapt_small_fastq_1.fq' 'cutadapt_small_fastq_2.fq'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a AGCCGCTANGACG -A AGCCGCTANGACG --error-rate=0.1 --times=1 --overlap=3 --action=trim --length=10 -L -10 -o out1.fq -p out2.fq cutadapt_small_fastq_1.fq cutadapt_small_fastq_2.fq
      Processing paired-end reads on 5 cores ...
      Finished in 0.064 s (21483.978 µs/read; 0.00 M reads/minute).

      === Summary ===

      Total read pairs processed:                  3
        Read 1 with adapter:                       1 (33.3%)
        Read 2 with adapter:                       1 (33.3%)
      Pairs written (passing filters):             3 (100.0%)

      Total basepairs processed:           204 bp
        Read 1:           102 bp
        Read 2:           102 bp
      Total written (filtered):             40 bp (19.6%)
        Read 1:            20 bp
        Read 2:            20 bp

      === First read: Adapter 1 ===

      Sequence: AGCCGCTANGACG; Type: regular 3'; Length: 13; Trimmed: 1 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10-12 bp: 1

      Bases preceding removed adapters:
        A: 0.0%
        C: 0.0%
        G: 0.0%
        T: 0.0%
        none/other: 100.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      34	1	0.0	1	1


      === Second read: Adapter 2 ===

      Sequence: AGCCGCTANGACG; Type: regular 3'; Length: 13; Trimmed: 1 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10-12 bp: 1

      Bases preceding removed adapters:
        A: 0.0%
        C: 0.0%
        G: 0.0%
        T: 0.0%
        none/other: 100.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      34	1	0.0	1	1

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "0", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 0, "length": "10", "shorten_end": "3prime", "shorten_values": "True"}, "shorten_options_r2": {"__current_case__": 0, "length2": "10", "shorten_end_r2": "5prime", "shorten_values_r2": "True"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 1, "input_1": {"values": [{"id": 168, "src": "hda"}]}, "input_2": {"values": [{"id": 168, "src": "hda"}]}, "pair_adapters": false, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AGCCGCTANGACG", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "r2": {"adapters2": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AGCCGCTANGACG", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters2": [], "front_adapters2": []}, "type": "paired"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 4)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/2/7/1/dataset_2717c06f-f103-488c-a24e-df20da6a85d3.dat' 'Unnamed Collection_1.fq.gz' && ln -f -s '/galaxy/server/database/objects/4/6/7/dataset_467cfcd9-2718-4654-aaf8-2f294550bb71.dat' 'Unnamed Collection_2.fq.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'    -A 'AGATCGGAAGAGC'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      -o 'out1.fq.gz' -p 'out2.fq.gz'  'Unnamed Collection_1.fq.gz' 'Unnamed Collection_2.fq.gz'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a AGATCGGAAGAGC -A AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq.gz -p out2.fq.gz Unnamed Collection_1.fq.gz Unnamed Collection_2.fq.gz
      Processing paired-end reads on 5 cores ...
      Finished in 0.173 s (1752.121 µs/read; 0.03 M reads/minute).

      === Summary ===

      Total read pairs processed:                 99
        Read 1 with adapter:                       2 (2.0%)
        Read 2 with adapter:                       4 (4.0%)

      == Read fate breakdown ==
      Pairs that were too short:                   0 (0.0%)
      Pairs written (passing filters):            99 (100.0%)

      Total basepairs processed:        49,698 bp
        Read 1:        24,849 bp
        Read 2:        24,849 bp
      Total written (filtered):         49,677 bp (100.0%)
        Read 1:        24,843 bp
        Read 2:        24,834 bp

      === First read: Adapter 1 ===

      Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10-13 bp: 1

      Bases preceding removed adapters:
        A: 0.0%
        C: 50.0%
        G: 50.0%
        T: 0.0%
        none/other: 0.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      3	2	1.5	0	2


      === Second read: Adapter 2 ===

      Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 4 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10-13 bp: 1

      Bases preceding removed adapters:
        A: 0.0%
        C: 0.0%
        G: 50.0%
        T: 50.0%
        none/other: 0.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      3	2	1.5	0	2
      4	1	0.4	0	1
      5	1	0.1	0	1

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 2, "input_1": {"values": [{"id": 1, "src": "hdca"}]}, "pair_adapters": false, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AGATCGGAAGAGC", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "r2": {"adapters2": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AGATCGGAAGAGC", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters2": [], "front_adapters2": []}, "type": "paired_collection"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 31)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/3/6/8/dataset_368a85e5-b499-4cd7-aa30-f28cedd8f078.dat' 'cutadapt_small_fastq_1.fq' && ln -f -s '/galaxy/server/database/objects/3/6/8/dataset_368a85e5-b499-4cd7-aa30-f28cedd8f078.dat' 'cutadapt_small_fastq_2.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}    -A 'AGCCGCTANGACG'    --error-rate=0.1 --times=1 --overlap=3    --action=trim     -L 10          -o 'out1.fq' -p 'out2.fq'  'cutadapt_small_fastq_1.fq' 'cutadapt_small_fastq_2.fq'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -A AGCCGCTANGACG --error-rate=0.1 --times=1 --overlap=3 --action=trim -L 10 -o out1.fq -p out2.fq cutadapt_small_fastq_1.fq cutadapt_small_fastq_2.fq
      Processing paired-end reads on 5 cores ...
      Finished in 0.052 s (17269.293 µs/read; 0.00 M reads/minute).

      === Summary ===

      Total read pairs processed:                  3
        Read 2 with adapter:                       1 (33.3%)
      Pairs written (passing filters):             3 (100.0%)

      Total basepairs processed:           204 bp
        Read 1:           102 bp
        Read 2:           102 bp
      Total written (filtered):            122 bp (59.8%)
        Read 1:           102 bp
        Read 2:            20 bp

      === Second read: Adapter 1 ===

      Sequence: AGCCGCTANGACG; Type: regular 3'; Length: 13; Trimmed: 1 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10-12 bp: 1

      Bases preceding removed adapters:
        A: 0.0%
        C: 0.0%
        G: 0.0%
        T: 0.0%
        none/other: 100.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      34	1	0.0	1	1

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "0", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 0, "length2": "10", "shorten_end_r2": "3prime", "shorten_values_r2": "True"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 1, "input_1": {"values": [{"id": 171, "src": "hda"}]}, "input_2": {"values": [{"id": 171, "src": "hda"}]}, "pair_adapters": false, "r1": {"adapters": [], "anywhere_adapters": [], "front_adapters": []}, "r2": {"adapters2": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AGCCGCTANGACG", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters2": [], "front_adapters2": []}, "type": "paired"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 32)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/8/f/8/dataset_8f867a09-6b67-4475-8c38-8ea4cea8d346.dat' 'cutadapt_small_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGCGGCTTAGACG'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1 --max-ee=10.0      -o 'out1.fq'  'cutadapt_small_fastq.fq'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a AGCGGCTTAGACG --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 --max-ee=10.0 -o out1.fq cutadapt_small_fastq.fq
      Processing single-end reads on 5 cores ...
      Finished in 0.047 s (15507.778 µs/read; 0.00 M reads/minute).

      === Summary ===

      Total reads processed:                       3
      Reads with adapters:                         0 (0.0%)

      == Read fate breakdown ==
      Reads that were too short:                   0 (0.0%)
      Reads with too many exp. errors:             0 (0.0%)
      Reads written (passing filters):             3 (100.0%)

      Total basepairs processed:           102 bp
      Total written (filtered):            102 bp (100.0%)

      === Adapter 1 ===

      Sequence: AGCGGCTTAGACG; Type: regular 3'; Length: 13; Trimmed: 0 times

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "10.0", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 0, "input_1": {"values": [{"id": 174, "src": "hda"}]}, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AGCGGCTTAGACG", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "type": "single"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 33)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/0/b/e/dataset_0bef92a6-467e-4ebe-b53e-8f7bae9122ff.dat' 'cutadapt_small_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'GAANTAGCTACCACX'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      -o 'out1.fq'  'cutadapt_small_fastq.fq'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a GAANTAGCTACCACX --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq cutadapt_small_fastq.fq
      Processing single-end reads on 5 cores ...
      Finished in 0.044 s (14742.057 µs/read; 0.00 M reads/minute).

      === Summary ===

      Total reads processed:                       3
      Reads with adapters:                         0 (0.0%)

      == Read fate breakdown ==
      Reads that were too short:                   0 (0.0%)
      Reads written (passing filters):             3 (100.0%)

      Total basepairs processed:           102 bp
      Total written (filtered):            102 bp (100.0%)

      === Adapter 1 ===

      Sequence: GAANTAGCTACCAC; Type: non-internal 3'; Length: 14; Trimmed: 0 times

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 0, "input_1": {"values": [{"id": 176, "src": "hda"}]}, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "GAANTAGCTACCACX", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "type": "single"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 34)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/5/8/a/dataset_58af03cc-043f-47ce-bc2b-c64e9b56c31d.dat' 'bwa-mem-fastq1_assimetric_fq_gz.fq.gz' && ln -f -s '/galaxy/server/database/objects/7/4/e/dataset_74e5163f-3039-4a7f-9525-139179b600aa.dat' 'bwa-mem-fastq2_assimetric_fq_gz.fq.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGCX'    -A 'AGATCGGAAGAGCX'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      -o 'out1.fq.gz' -p 'out2.fq.gz'  'bwa-mem-fastq1_assimetric_fq_gz.fq.gz' 'bwa-mem-fastq2_assimetric_fq_gz.fq.gz'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a AGATCGGAAGAGCX -A AGATCGGAAGAGCX --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_assimetric_fq_gz.fq.gz bwa-mem-fastq2_assimetric_fq_gz.fq.gz
      Processing paired-end reads on 5 cores ...
      Finished in 0.178 s (1794.716 µs/read; 0.03 M reads/minute).

      === Summary ===

      Total read pairs processed:                 99
        Read 1 with adapter:                       2 (2.0%)
        Read 2 with adapter:                       4 (4.0%)

      == Read fate breakdown ==
      Pairs that were too short:                   0 (0.0%)
      Pairs written (passing filters):            99 (100.0%)

      Total basepairs processed:        48,291 bp
        Read 1:        24,147 bp
        Read 2:        24,144 bp
      Total written (filtered):         48,270 bp (100.0%)
        Read 1:        24,141 bp
        Read 2:        24,129 bp

      === First read: Adapter 1 ===

      Sequence: AGATCGGAAGAGC; Type: non-internal 3'; Length: 13; Trimmed: 2 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10-13 bp: 1

      Bases preceding removed adapters:
        A: 0.0%
        C: 50.0%
        G: 50.0%
        T: 0.0%
        none/other: 0.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      3	2	1.5	0	2


      === Second read: Adapter 2 ===

      Sequence: AGATCGGAAGAGC; Type: non-internal 3'; Length: 13; Trimmed: 4 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10-13 bp: 1

      Bases preceding removed adapters:
        A: 0.0%
        C: 0.0%
        G: 50.0%
        T: 50.0%
        none/other: 0.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      3	2	1.5	0	2
      4	1	0.4	0	1
      5	1	0.1	0	1

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 1, "input_1": {"values": [{"id": 178, "src": "hda"}]}, "input_2": {"values": [{"id": 179, "src": "hda"}]}, "pair_adapters": false, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AGATCGGAAGAGCX", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "r2": {"adapters2": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AGATCGGAAGAGCX", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters2": [], "front_adapters2": []}, "type": "paired"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 36)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/a/d/f/dataset_adfcbbf6-6309-4a73-b83b-5ebc9b9d43b1.dat' 'Unnamed Collection_1.fq.gz' && ln -f -s '/galaxy/server/database/objects/5/d/e/dataset_5deeff1a-9bf5-4840-b8b0-d40d76dde5ab.dat' 'Unnamed Collection_2.fq.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC;noindels'    -A 'AGATCGGAAGAGC;noindels'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      -o 'out1.fq.gz' -p 'out2.fq.gz'  'Unnamed Collection_1.fq.gz' 'Unnamed Collection_2.fq.gz'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a AGATCGGAAGAGC;noindels -A AGATCGGAAGAGC;noindels --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq.gz -p out2.fq.gz Unnamed Collection_1.fq.gz Unnamed Collection_2.fq.gz
      Processing paired-end reads on 5 cores ...
      Finished in 0.176 s (1774.894 µs/read; 0.03 M reads/minute).

      === Summary ===

      Total read pairs processed:                 99
        Read 1 with adapter:                       2 (2.0%)
        Read 2 with adapter:                       4 (4.0%)

      == Read fate breakdown ==
      Pairs that were too short:                   0 (0.0%)
      Pairs written (passing filters):            99 (100.0%)

      Total basepairs processed:        49,698 bp
        Read 1:        24,849 bp
        Read 2:        24,849 bp
      Total written (filtered):         49,677 bp (100.0%)
        Read 1:        24,843 bp
        Read 2:        24,834 bp

      === First read: Adapter 1 ===

      Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10-13 bp: 1

      Bases preceding removed adapters:
        A: 0.0%
        C: 50.0%
        G: 50.0%
        T: 0.0%
        none/other: 0.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      3	2	1.5	0	2


      === Second read: Adapter 2 ===

      Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 4 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10-13 bp: 1

      Bases preceding removed adapters:
        A: 0.0%
        C: 0.0%
        G: 50.0%
        T: 50.0%
        none/other: 0.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      3	2	1.5	0	2
      4	1	0.4	0	1
      5	1	0.1	0	1

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 2, "input_1": {"values": [{"id": 5, "src": "hdca"}]}, "pair_adapters": false, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AGATCGGAAGAGC", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": true}], "anywhere_adapters": [], "front_adapters": []}, "r2": {"adapters2": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AGATCGGAAGAGC", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": true}], "anywhere_adapters2": [], "front_adapters2": []}, "type": "paired_collection"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 37)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/7/8/4/dataset_7849c32b-ef1c-4035-a6e3-f60aa72ba356.dat' 'Unnamed Collection_1.fq.gz' && ln -f -s '/galaxy/server/database/objects/f/3/1/dataset_f31863ad-71c8-4a51-b230-4fc73f4155ab.dat' 'Unnamed Collection_2.fq.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'    -A 'AGATCGGAAGAGC'    --error-rate=0.1 --times=1 --overlap=3    --action=trim   --quality-cutoff=5 -Q 15,20       --minimum-length=1      -o 'out1.fq.gz' -p 'out2.fq.gz'  'Unnamed Collection_1.fq.gz' 'Unnamed Collection_2.fq.gz'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a AGATCGGAAGAGC -A AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --quality-cutoff=5 -Q 15,20 --minimum-length=1 -o out1.fq.gz -p out2.fq.gz Unnamed Collection_1.fq.gz Unnamed Collection_2.fq.gz
      Processing paired-end reads on 5 cores ...
      Finished in 0.171 s (1725.406 µs/read; 0.03 M reads/minute).

      === Summary ===

      Total read pairs processed:                 99
        Read 1 with adapter:                       2 (2.0%)
        Read 2 with adapter:                       2 (2.0%)

      == Read fate breakdown ==
      Pairs that were too short:                   0 (0.0%)
      Pairs written (passing filters):            99 (100.0%)

      Total basepairs processed:        49,698 bp
        Read 1:        24,849 bp
        Read 2:        24,849 bp
      Quality-trimmed:                     747 bp (1.5%)
        Read 1:             0 bp
        Read 2:           747 bp
      Total written (filtered):         48,938 bp (98.5%)
        Read 1:        24,843 bp
        Read 2:        24,095 bp

      === First read: Adapter 1 ===

      Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10-13 bp: 1

      Bases preceding removed adapters:
        A: 0.0%
        C: 50.0%
        G: 50.0%
        T: 0.0%
        none/other: 0.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      3	2	1.5	0	2


      === Second read: Adapter 2 ===

      Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10-13 bp: 1

      Bases preceding removed adapters:
        A: 0.0%
        C: 0.0%
        G: 100.0%
        T: 0.0%
        none/other: 0.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      3	1	1.5	0	1
      4	1	0.4	0	1

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "5", "quality_cutoff2": "15,20", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 2, "input_1": {"values": [{"id": 7, "src": "hdca"}]}, "pair_adapters": false, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AGATCGGAAGAGC", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "r2": {"adapters2": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AGATCGGAAGAGC", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters2": [], "front_adapters2": []}, "type": "paired_collection"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 38)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/5/2/8/dataset_52897957-3a98-4c7a-b182-eca5eca2b4ae.dat' 'Unnamed Collection_1.fa' && ln -f -s '/galaxy/server/database/objects/0/d/1/dataset_0d1bced5-e2c2-4180-a051-5671b33bd56d.dat' 'Unnamed Collection_2.fa' &&  cutadapt  -j=${GALAXY_SLOTS:-4}     --error-rate=0.1 --times=1 --overlap=3    --action=trim    --poly-a     --minimum-length=1      -o 'out1.fa' -p 'out2.fa'  'Unnamed Collection_1.fa' 'Unnamed Collection_2.fa'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 --error-rate=0.1 --times=1 --overlap=3 --action=trim --poly-a --minimum-length=1 -o out1.fa -p out2.fa Unnamed Collection_1.fa Unnamed Collection_2.fa
      Processing paired-end reads on 5 cores ...
      Finished in 0.048 s (11992.455 µs/read; 0.01 M reads/minute).

      === Summary ===

      Total read pairs processed:                  4

      == Read fate breakdown ==
      Pairs that were too short:                   0 (0.0%)
      Pairs written (passing filters):             4 (100.0%)

      Total basepairs processed:           369 bp
        Read 1:           194 bp
        Read 2:           175 bp
      Poly-A-trimmed:                      168 bp (45.5%)
        Read 1:            84 bp
        Read 2:            84 bp
      Total written (filtered):            201 bp (54.5%)
        Read 1:           110 bp
        Read 2:            91 bp

      === R1 poly-A trimmed ===

      length	count
      0	1
      21	2
      42	1


      === R2 poly-A trimmed ===

      length	count
      0	1
      21	2
      42	1

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": true, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 2, "input_1": {"values": [{"id": 9, "src": "hdca"}]}, "pair_adapters": false, "r1": {"adapters": [], "anywhere_adapters": [], "front_adapters": []}, "r2": {"adapters2": [], "anywhere_adapters2": [], "front_adapters2": []}, "type": "paired_collection"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 39)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/4/e/f/dataset_4ef597a6-1b77-4616-9702-687d0484fcdf.dat' 'polya_1_fasta.fa' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA'    --error-rate=0.1 --times=1 --overlap=10    --action=trim         --minimum-length=1      -o 'out1.fa'  'polya_1_fasta.fa'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA --error-rate=0.1 --times=1 --overlap=10 --action=trim --minimum-length=1 -o out1.fa polya_1_fasta.fa
      Processing single-end reads on 5 cores ...
      Finished in 0.044 s (11109.889 µs/read; 0.01 M reads/minute).

      === Summary ===

      Total reads processed:                       4
      Reads with adapters:                         3 (75.0%)

      == Read fate breakdown ==
      Reads that were too short:                   0 (0.0%)
      Reads written (passing filters):             4 (100.0%)

      Total basepairs processed:           194 bp
      Total written (filtered):             96 bp (49.5%)

      === Adapter 1 ===

      Sequence: AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA; Type: regular 3'; Length: 35; Trimmed: 3 times

      Minimum overlap: 10
      No. of allowed errors:
      1-9 bp: 0; 10-19 bp: 1; 20-29 bp: 2; 30-35 bp: 3

      Bases preceding removed adapters:
        A: 0.0%
        C: 33.3%
        G: 66.7%
        T: 0.0%
        none/other: 0.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      26	1	0.0	2	0 0 1
      30	1	0.0	3	0 0 0 1
      42	1	0.0	3	0 1

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "10", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 0, "input_1": {"values": [{"id": 194, "src": "hda"}]}, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "type": "single"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 40)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/6/e/0/dataset_6e0c0ef8-41d2-47ec-846d-b59377e10a05.dat' 'polya_1_fasta.fa' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'A{35}'    --error-rate=0.1 --times=1 --overlap=10    --action=trim         --minimum-length=1      -o 'out1.fa'  'polya_1_fasta.fa'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a A{35} --error-rate=0.1 --times=1 --overlap=10 --action=trim --minimum-length=1 -o out1.fa polya_1_fasta.fa
      Processing single-end reads on 5 cores ...
      Finished in 0.044 s (11053.383 µs/read; 0.01 M reads/minute).

      === Summary ===

      Total reads processed:                       4
      Reads with adapters:                         3 (75.0%)

      == Read fate breakdown ==
      Reads that were too short:                   0 (0.0%)
      Reads written (passing filters):             4 (100.0%)

      Total basepairs processed:           194 bp
      Total written (filtered):             96 bp (49.5%)

      === Adapter 1 ===

      Sequence: AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA; Type: regular 3'; Length: 35; Trimmed: 3 times

      Minimum overlap: 10
      No. of allowed errors:
      1-9 bp: 0; 10-19 bp: 1; 20-29 bp: 2; 30-35 bp: 3

      Bases preceding removed adapters:
        A: 0.0%
        C: 33.3%
        G: 66.7%
        T: 0.0%
        none/other: 0.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      26	1	0.0	2	0 0 1
      30	1	0.0	3	0 0 0 1
      42	1	0.0	3	0 1

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "10", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 0, "input_1": {"values": [{"id": 196, "src": "hda"}]}, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "A{35}", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "type": "single"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 42)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/c/e/4/dataset_ce48601e-dc56-4669-9096-46d7c06e406b.dat' 'simple_fasta_gz.fa.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      -o 'out1.fa.gz'  'simple_fasta_gz.fa.gz'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fa.gz simple_fasta_gz.fa.gz
      Processing single-end reads on 5 cores ...
      Finished in 0.088 s (43947.816 µs/read; 0.00 M reads/minute).

      === Summary ===

      Total reads processed:                       2

      == Read fate breakdown ==
      Reads that were too short:                   0 (0.0%)
      Reads written (passing filters):             2 (100.0%)

      Total basepairs processed:            18 bp
      Total written (filtered):             18 bp (100.0%)

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 0, "input_1": {"values": [{"id": 199, "src": "hda"}]}, "r1": {"adapters": [], "anywhere_adapters": [], "front_adapters": []}, "type": "single"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 43)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/a/f/6/dataset_af66e35c-4e7e-4996-bf63-f2738a6344a1.dat' 'illumina64_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'XXXXXX'    --error-rate=0.1 --times=1 --overlap=3    --action=trim   --quality-cutoff=10         --quality-base=64    -o 'out1.fq'  'illumina64_fastq.fq'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a XXXXXX --error-rate=0.1 --times=1 --overlap=3 --action=trim --quality-cutoff=10 --quality-base=64 -o out1.fq illumina64_fastq.fq
      Processing single-end reads on 5 cores ...
      Finished in 0.043 s (2168.584 µs/read; 0.03 M reads/minute).

      === Summary ===

      Total reads processed:                      20
      Reads with adapters:                         0 (0.0%)
      Reads written (passing filters):            20 (100.0%)

      Total basepairs processed:         1,900 bp
      Quality-trimmed:                   1,021 bp (53.7%)
      Total written (filtered):            879 bp (46.3%)

      === Adapter 1 ===

      Sequence: XXXXXX; Type: regular 3'; Length: 6; Trimmed: 0 times

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "0", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "10", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 0, "input_1": {"values": [{"id": 201, "src": "hda"}]}, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "XXXXXX", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "type": "single"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 44)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/d/6/3/dataset_d63a0859-5129-43f0-985e-95ec287d2e65.dat' 'illumina64_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}    --error-rate=0.1 --times=1 --overlap=3    --action=trim   --quality-cutoff=10         --quality-base=64    -o 'out1.fq'  'illumina64_fastq.fq'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 --error-rate=0.1 --times=1 --overlap=3 --action=trim --quality-cutoff=10 --quality-base=64 -o out1.fq illumina64_fastq.fq
      Processing single-end reads on 5 cores ...
      Finished in 0.033 s (1657.796 µs/read; 0.04 M reads/minute).

      === Summary ===

      Total reads processed:                      20
      Reads written (passing filters):            20 (100.0%)

      Total basepairs processed:         1,900 bp
      Quality-trimmed:                   1,021 bp (53.7%)
      Total written (filtered):            879 bp (46.3%)

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "0", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "10", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 0, "input_1": {"values": [{"id": 203, "src": "hda"}]}, "r1": {"adapters": [], "anywhere_adapters": [], "front_adapters": []}, "type": "single"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 45)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/0/6/d/dataset_06dd982d-e779-4239-a3dc-b8bfc5a6596d.dat' 'maxee_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --max-ee=0.9   --quality-base=64    --info-file='/galaxy/server/database/objects/b/7/4/dataset_b742e173-0b43-4c5e-bf3e-a7380e51815f.dat' -o 'out1.fq'  'maxee_fastq.fq'  > report.txt
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` ["report", "info_file"] ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "0.9", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "0", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 0, "input_1": {"values": [{"id": 205, "src": "hda"}]}, "r1": {"adapters": [], "anywhere_adapters": [], "front_adapters": []}, "type": "single"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 46)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/7/1/7/dataset_717d6644-d1f7-41c9-a75d-5e575e95b343.dat' 'wildcard_fa.fa' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -b 'ACGTACGT'    --error-rate=0.1 --times=1 --overlap=3  --match-read-wildcards  --action=trim         --minimum-length=1      -o 'out1.fa'  'wildcard_fa.fa'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -b ACGTACGT --error-rate=0.1 --times=1 --overlap=3 --match-read-wildcards --action=trim --minimum-length=1 -o out1.fa wildcard_fa.fa
      Processing single-end reads on 5 cores ...
      Finished in 0.044 s (21938.562 µs/read; 0.00 M reads/minute).

      === Summary ===

      Total reads processed:                       2
      Reads with adapters:                         2 (100.0%)

      == Read fate breakdown ==
      Reads that were too short:                   0 (0.0%)
      Reads written (passing filters):             2 (100.0%)

      Total basepairs processed:            32 bp
      Total written (filtered):             16 bp (50.0%)

      === Adapter 1 ===

      Sequence: ACGTACGT; Type: variable 5'/3'; Length: 8; Trimmed: 2 times
      2 times, it overlapped the 5' end of a read
      0 times, it overlapped the 3' end or was within the read

      Minimum overlap: 3
      No. of allowed errors:
      1-8 bp: 0

      Overview of removed sequences (5')
      length	count	expect	max.err	error counts
      8	2	0.0	0	2



      Overview of removed sequences (3' or within)
      length	count	expect	max.err	error counts

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": true, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 0, "input_1": {"values": [{"id": 209, "src": "hda"}]}, "r1": {"adapters": [], "anywhere_adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "ACGTACGT", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "front_adapters": []}, "type": "single"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 47)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/7/8/e/dataset_78ea4785-5241-48c5-9831-58263c95f7bc.dat' 'wildcardN_fa.fa' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'GGGGGGG'    --error-rate=0.0 --times=1 --overlap=3  --match-read-wildcards  --action=trim         --minimum-length=1      -o 'out1.fa'  'wildcardN_fa.fa'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a GGGGGGG --error-rate=0.0 --times=1 --overlap=3 --match-read-wildcards --action=trim --minimum-length=1 -o out1.fa wildcardN_fa.fa
      Processing single-end reads on 5 cores ...
      Finished in 0.043 s (14258.623 µs/read; 0.00 M reads/minute).

      === Summary ===

      Total reads processed:                       3
      Reads with adapters:                         2 (66.7%)

      == Read fate breakdown ==
      Reads that were too short:                   0 (0.0%)
      Reads written (passing filters):             3 (100.0%)

      Total basepairs processed:            30 bp
      Total written (filtered):             16 bp (53.3%)

      === Adapter 1 ===

      Sequence: GGGGGGG; Type: regular 3'; Length: 7; Trimmed: 2 times

      Minimum overlap: 3
      No. of allowed errors:
      1-7 bp: 0

      Bases preceding removed adapters:
        A: 0.0%
        C: 0.0%
        G: 0.0%
        T: 100.0%
        none/other: 0.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      7	2	0.0	0	2

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.0", "match_read_wildcards": true, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 0, "input_1": {"values": [{"id": 211, "src": "hda"}]}, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "GGGGGGG", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "type": "single"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 48)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/2/f/2/dataset_2f2a788d-2833-4171-badc-a3ae9df0a6e4.dat' 'bwa-mem-fastq1_fq_gz.fq.gz' && ln -f -s '/galaxy/server/database/objects/9/5/3/dataset_9532760e-5c81-4d94-b8f4-4a144be8258c.dat' 'bwa-mem-fastq_mispaired2_fq_gz.fq.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'    -A 'AGATCGGAAGAGC'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      -o 'out1.fq.gz' -p 'out2.fq.gz'  'bwa-mem-fastq1_fq_gz.fq.gz' 'bwa-mem-fastq_mispaired2_fq_gz.fq.gz'
      ```
    **Exit Code:**

    * ```console
      1
      ```
    **Standard Error:**

    * ```console
      Error in sequence file at unknown line: Reads are improperly paired. Read name 'M01368:8:000000000-A3GHV:1:1101:6911:8255/1' in file 1 does not match 'M01368:8:000000000-A3GHV:1:1101:14518:9998/2' in file 2.

      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a AGATCGGAAGAGC -A AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_fq_gz.fq.gz bwa-mem-fastq_mispaired2_fq_gz.fq.gz
      Processing paired-end reads on 5 cores ...

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 1, "input_1": {"values": [{"id": 213, "src": "hda"}]}, "input_2": {"values": [{"id": 214, "src": "hda"}]}, "pair_adapters": false, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AGATCGGAAGAGC", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "r2": {"adapters2": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AGATCGGAAGAGC", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters2": [], "front_adapters2": []}, "type": "paired"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 6)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/e/4/9/dataset_e4998ce6-b566-471f-ba2a-70ccbf2cb5aa.dat' 'cutadapt_small_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'TTAGACATATCTCCGTCG'    --error-rate=0.1 --times=1 --overlap=3    --action=trim      --discard-trimmed   --minimum-length=1      -o 'out1.fq'  'cutadapt_small_fastq.fq'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a TTAGACATATCTCCGTCG --error-rate=0.1 --times=1 --overlap=3 --action=trim --discard-trimmed --minimum-length=1 -o out1.fq cutadapt_small_fastq.fq
      Processing single-end reads on 5 cores ...
      Finished in 0.043 s (14401.118 µs/read; 0.00 M reads/minute).

      === Summary ===

      Total reads processed:                       3
      Reads with adapters:                         2 (66.7%)

      == Read fate breakdown ==
      Reads that were too short:                   0 (0.0%)
      Reads written (passing filters):             1 (33.3%)

      Total basepairs processed:           102 bp
      Total written (filtered):             34 bp (33.3%)

      === Adapter 1 ===

      Sequence: TTAGACATATCTCCGTCG; Type: regular 3'; Length: 18; Trimmed: 2 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10-18 bp: 1

      Bases preceding removed adapters:
        A: 50.0%
        C: 50.0%
        G: 0.0%
        T: 0.0%
        none/other: 0.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      10	1	0.0	1	0 1
      12	1	0.0	1	0 1

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": true, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 0, "input_1": {"values": [{"id": 97, "src": "hda"}]}, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "TTAGACATATCTCCGTCG", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "type": "single"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 7)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/7/9/3/dataset_7930b634-fe6d-4d06-bdbb-46ada02b86d0.dat' 'bwa-mem-fastq1_fq_gz.fq.gz' && ln -f -s '/galaxy/server/database/objects/6/e/3/dataset_6e3d3e35-75d1-4821-b935-37b92df8beb2.dat' 'bwa-mem-fastq2_fq_gz.fq.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'    -A 'AGATCGGAAGAGC'  --pair-adapters  --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      -o 'out1.fq.gz' -p 'out2.fq.gz'  'bwa-mem-fastq1_fq_gz.fq.gz' 'bwa-mem-fastq2_fq_gz.fq.gz'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a AGATCGGAAGAGC -A AGATCGGAAGAGC --pair-adapters --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_fq_gz.fq.gz bwa-mem-fastq2_fq_gz.fq.gz
      Processing paired-end reads on 5 cores ...
      Finished in 0.177 s (1785.652 µs/read; 0.03 M reads/minute).

      === Summary ===

      Total read pairs processed:                 99
        Read 1 with adapter:                       1 (1.0%)
        Read 2 with adapter:                       1 (1.0%)

      == Read fate breakdown ==
      Pairs that were too short:                   0 (0.0%)
      Pairs written (passing filters):            99 (100.0%)

      Total basepairs processed:        49,698 bp
        Read 1:        24,849 bp
        Read 2:        24,849 bp
      Total written (filtered):         49,692 bp (100.0%)
        Read 1:        24,846 bp
        Read 2:        24,846 bp

      === First read: Adapter 1 ===

      Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 1 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10-13 bp: 1

      Bases preceding removed adapters:
        A: 0.0%
        C: 100.0%
        G: 0.0%
        T: 0.0%
        none/other: 0.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      3	1	1.5	0	1


      === Second read: Adapter 2 ===

      Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 1 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10-13 bp: 1

      Bases preceding removed adapters:
        A: 0.0%
        C: 0.0%
        G: 0.0%
        T: 100.0%
        none/other: 0.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      3	1	1.5	0	1

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 1, "input_1": {"values": [{"id": 99, "src": "hda"}]}, "input_2": {"values": [{"id": 100, "src": "hda"}]}, "pair_adapters": true, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AGATCGGAAGAGC", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "r2": {"adapters2": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AGATCGGAAGAGC", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters2": [], "front_adapters2": []}, "type": "paired"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 8)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/3/6/d/dataset_36d84d82-7219-4a6f-bf52-4d122638104d.dat' 'cutadapt_rest_fa.fa' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AAAGATG'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      --json=stats.json -r='rest_output.fa' -o 'out1.fa'  'cutadapt_rest_fa.fa'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a AAAGATG --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 --json=stats.json -r=rest_output.fa -o out1.fa cutadapt_rest_fa.fa
      Processing single-end reads on 5 cores ...
      Finished in 0.052 s (10400.581 µs/read; 0.01 M reads/minute).

      === Summary ===

      Total reads processed:                       5
      Reads with adapters:                         5 (100.0%)

      == Read fate breakdown ==
      Reads that were too short:                   0 (0.0%)
      Reads written (passing filters):             5 (100.0%)

      Total basepairs processed:            97 bp
      Total written (filtered):             35 bp (36.1%)

      === Adapter 1 ===

      Sequence: AAAGATG; Type: regular 3'; Length: 7; Trimmed: 5 times

      Minimum overlap: 3
      No. of allowed errors:
      1-7 bp: 0

      Bases preceding removed adapters:
        A: 0.0%
        C: 0.0%
        G: 100.0%
        T: 0.0%
        none/other: 0.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      7	1	0.0	0	1
      12	1	0.0	0	1
      14	2	0.0	0	2
      15	1	0.0	0	1

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` ["rest_file", "json_stats"] ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 0, "input_1": {"values": [{"id": 103, "src": "hda"}]}, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AAAGATG", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "type": "single"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 9)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/9/5/e/dataset_95ece960-77e1-4923-8d57-af1c58eea328.dat' 'bwa-mem-fastq1_fq_gz.fq.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'    --error-rate=0.1 --times=1 --overlap=3    --action=trim   --nextseq-trim=20       --minimum-length=1      -o 'out1.fq.gz'  'bwa-mem-fastq1_fq_gz.fq.gz'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      This is cutadapt 4.9 with Python 3.12.5
      Command line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --nextseq-trim=20 --minimum-length=1 -o out1.fq.gz bwa-mem-fastq1_fq_gz.fq.gz
      Processing single-end reads on 5 cores ...
      Finished in 0.101 s (1021.624 µs/read; 0.06 M reads/minute).

      === Summary ===

      Total reads processed:                      99
      Reads with adapters:                         4 (4.0%)

      == Read fate breakdown ==
      Reads that were too short:                   0 (0.0%)
      Reads written (passing filters):            99 (100.0%)

      Total basepairs processed:        24,849 bp
      Quality-trimmed:                     286 bp (1.2%)
      Total written (filtered):         24,550 bp (98.8%)

      === Adapter 1 ===

      Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 4 times

      Minimum overlap: 3
      No. of allowed errors:
      1-9 bp: 0; 10-13 bp: 1

      Bases preceding removed adapters:
        A: 0.0%
        C: 75.0%
        G: 25.0%
        T: 0.0%
        none/other: 0.0%

      Overview of removed sequences
      length	count	expect	max.err	error counts
      3	3	1.5	0	3
      4	1	0.4	0	1

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` None ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "20", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 0, "input_1": {"values": [{"id": 107, "src": "hda"}]}, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AGATCGGAAGAGC", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "type": "single"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; cutadapt (Test # 10)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -f -s '/galaxy/server/database/objects/b/2/8/dataset_b2804edd-8cd7-4764-aec0-f6792efc01c1.dat' 'cutadapt_small_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      --info-file='/galaxy/server/database/objects/3/4/d/dataset_34dd2bba-e1fc-46b2-96cd-933cf0e31b8d.dat' -o 'out1.fq'  'cutadapt_small_fastq.fq'  > report.txt
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_selector | ` ["report", "info_file"] ` |
       | read\_mod\_options | ` {"length_tag": null, "rename": null, "strip_suffix": null, "zero_cap": false} ` |
       | filter\_options | ` {"discard_casava": false, "discard_trimmed": false, "discard_untrimmed": false, "max_average_error_rate": "", "max_expected_errors": "", "max_n": "", "maximum_length": "", "maximum_length2": "", "minimum_length": "1", "minimum_length2": "", "pair_filter": "any"} ` |
       | other\_trimming\_options | ` {"cut": "0", "cut2": "0", "nextseq_trim": "0", "poly_a": false, "quality_cutoff": "0", "quality_cutoff2": "", "shorten_options": {"__current_case__": 1, "shorten_values": "False"}, "shorten_options_r2": {"__current_case__": 1, "shorten_values_r2": "False"}, "trim_n": false} ` |
       | adapter\_options | ` {"action": "trim", "error_rate": "0.1", "match_read_wildcards": false, "no_indels": false, "no_match_adapter_wildcards": true, "overlap": "3", "revcomp": false, "times": "1"} ` |
       | library | ` {"__current_case__": 0, "input_1": {"values": [{"id": 109, "src": "hda"}]}, "r1": {"adapters": [{"__index__": 0, "adapter_source": {"__current_case__": 0, "adapter": "AGATCGGAAGAGC", "adapter_name": "", "adapter_source_list": "user"}, "single_noindels": false}], "anywhere_adapters": [], "front_adapters": []}, "type": "single"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; deeptools_bigwig_compare (Test # 1)</summary><div class="padded">

    **Command Line:**

    * ```console
      bigwigCompare --numberOfProcessors "${GALAXY_SLOTS:-4}" --bigwig1 '/galaxy/server/database/objects/0/8/a/dataset_08a274d3-0ac3-4bf0-8bc7-aaa52edf189f.dat' --bigwig2 '/galaxy/server/database/objects/0/8/a/dataset_08a274d3-0ac3-4bf0-8bc7-aaa52edf189f.dat'  --outFileName '/galaxy/server/database/objects/8/0/d/dataset_80d83bc3-699e-4c58-8c3a-0550cdbd4b55.dat' --outFileFormat 'bigwig'  --operation ratio  --pseudocount 1 1
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | advancedOpt | ` {"__current_case__": 0, "showAdvancedOpt": "no"} ` |
       | region | ` "" ` |
       | outFileFormat | ` "bigwig" ` |
       | comparison | ` {"__current_case__": 1, "comparison_select": "ratio", "pseudocount": "1 1"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; deeptools_bigwig_compare (Test # 2)</summary><div class="padded">

    **Command Line:**

    * ```console
      bigwigCompare --numberOfProcessors "${GALAXY_SLOTS:-4}" --bigwig1 '/galaxy/server/database/objects/0/d/8/dataset_0d84a39d-5d8b-4a5e-a622-1f0163d056bf.dat' --bigwig2 '/galaxy/server/database/objects/0/d/8/dataset_0d84a39d-5d8b-4a5e-a622-1f0163d056bf.dat'  --outFileName '/galaxy/server/database/objects/8/0/e/dataset_80e975d8-5bf7-4093-8e42-d40237aeb593.dat' --outFileFormat 'bedgraph'  --operation ratio  --pseudocount 1 1
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | advancedOpt | ` {"__current_case__": 0, "showAdvancedOpt": "no"} ` |
       | region | ` "" ` |
       | outFileFormat | ` "bedgraph" ` |
       | comparison | ` {"__current_case__": 1, "comparison_select": "ratio", "pseudocount": "1 1"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; deseq2 (Test # 1)</summary><div class="padded">

    **Command Line:**

    * ```console
      cat '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/get_deseq_dataset.R' > /dev/null &&  Rscript '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/deseq2.R' --cores ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/8/c/7/dataset_8c7a9d22-03de-4bc9-bd8a-79f388fe6ea4.dat' -A 0.1 -n '/galaxy/server/database/objects/8/d/9/dataset_8d9213fd-cb93-4484-853b-43e0e0fc493b.dat' -r '/galaxy/server/database/objects/a/e/9/dataset_ae929fd9-70e8-462c-80aa-78987e6767ab.dat' -v '/galaxy/server/database/objects/f/b/0/dataset_fb0ad0c7-b068-4a0e-85cc-c6afe48be0c7.dat'                    -H  -f '[["Treatment", [{"Untreated": ["/galaxy/server/database/objects/7/0/0/dataset_700522bf-2c9c-4255-a640-44f2ac3714d3.dat", "/galaxy/server/database/objects/0/5/5/dataset_055aa6c5-b4cc-45af-9822-6144059aef27.dat", "/galaxy/server/database/objects/6/6/9/dataset_669de77f-fbe0-4e0b-9c57-02d3a2a2977d.dat", "/galaxy/server/database/objects/4/4/0/dataset_4405895b-1bef-4197-8355-778fab2267e0.dat"]}, {"Treated": ["/galaxy/server/database/objects/4/7/7/dataset_4778650a-b2ba-45eb-9926-6ecb7453f9d4.dat", "/galaxy/server/database/objects/e/2/2/dataset_e226f10f-f420-42ec-aa1c-1733f16f34cb.dat", "/galaxy/server/database/objects/b/f/2/dataset_bf25304b-80a4-42bc-a309-0b2d2b30646f.dat"]}]]]' -l '{"dataset_4778650a-b2ba-45eb-9926-6ecb7453f9d4.dat": "GSM461179_treat_single.counts", "dataset_e226f10f-f420-42ec-aa1c-1733f16f34cb.dat": "GSM461180_treat_paired.counts", "dataset_bf25304b-80a4-42bc-a309-0b2d2b30646f.dat": "GSM461181_treat_paired.counts", "dataset_700522bf-2c9c-4255-a640-44f2ac3714d3.dat": "GSM461176_untreat_single.counts", "dataset_055aa6c5-b4cc-45af-9822-6144059aef27.dat": "GSM461177_untreat_paired.counts", "dataset_669de77f-fbe0-4e0b-9c57-02d3a2a2977d.dat": "GSM461178_untreat_paired.counts", "dataset_4405895b-1bef-4197-8355-778fab2267e0.dat": "GSM461182_untreat_single.counts"}' -t 1     -d
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Error:**

    * ```console
      estimating size factors
      estimating dispersions
      gene-wise dispersion estimates
      mean-dispersion relationship
      final dispersion estimates
      fitting model and testing

      ```
    **Standard Output:**

    * ```console
      primary factor: Treatment 

      ---------------------
      No size factor was used
      DESeq2 run information

      sample table:
                                      Treatment
      GSM461176_untreat_single.counts Untreated
      GSM461177_untreat_paired.counts Untreated
      GSM461178_untreat_paired.counts Untreated
      GSM461182_untreat_single.counts Untreated
      GSM461179_treat_single.counts     Treated
      GSM461180_treat_paired.counts     Treated
      GSM461181_treat_paired.counts     Treated

      design formula:
      ~Treatment


      7 samples with counts over 3999 genes
      [1] "use_beta_prior is set to TRUE"
      using disperion fit type: parametric 
      summary of results
      Treatment: Treated vs Untreated

      out of 3429 with nonzero total read count
      adjusted p-value < 0.1
      LFC > 0 (up)       : 148, 4.3%
      LFC < 0 (down)     : 152, 4.4%
      outliers [1]       : 2, 0.058%
      low counts [2]     : 659, 19%
      (mean count < 3)
      [1] see 'cooksCutoff' argument of ?results
      [2] see 'independentFiltering' argument of ?results

      NULL
      Session information:

      R version 4.3.1 (2023-06-16)
      Platform: x86_64-conda-linux-gnu (64-bit)
      Running under: Debian GNU/Linux 10 (buster)

      Matrix products: default
      BLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0

      locale:
       [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       
       [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   
       [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          
      [10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   

      time zone: NA
      tzcode source: system (glibc)

      attached base packages:
      [1] stats4    tools     stats     graphics  grDevices utils     datasets 
      [8] methods   base     

      other attached packages:
       [1] rjson_0.2.21                gplots_3.1.3               
       [3] RColorBrewer_1.1-3          DESeq2_1.40.2              
       [5] SummarizedExperiment_1.30.2 Biobase_2.60.0             
       [7] MatrixGenerics_1.12.2       matrixStats_1.0.0          
       [9] GenomicRanges_1.52.0        GenomeInfoDb_1.36.1        
      [11] IRanges_2.34.1              S4Vectors_0.38.1           
      [13] BiocGenerics_0.46.0         getopt_1.20.3              

      loaded via a namespace (and not attached):
       [1] utf8_1.2.3              generics_0.1.3          bitops_1.0-7           
       [4] KernSmooth_2.23-22      gtools_3.9.4            lattice_0.21-8         
       [7] caTools_1.18.2          magrittr_2.0.3          grid_4.3.1             
      [10] Matrix_1.6-0            fansi_1.0.4             scales_1.2.1           
      [13] codetools_0.2-19        cli_3.6.1               rlang_1.1.1            
      [16] crayon_1.5.2            XVector_0.40.0          munsell_0.5.0          
      [19] DelayedArray_0.26.6     S4Arrays_1.0.4          parallel_4.3.1         
      [22] BiocParallel_1.34.2     dplyr_1.1.2             colorspace_2.1-0       
      [25] ggplot2_3.4.2           locfit_1.5-9.8          GenomeInfoDbData_1.2.10
      [28] vctrs_0.6.3             R6_2.5.1                lifecycle_1.0.3        
      [31] zlibbioc_1.46.0         pkgconfig_2.0.3         pillar_1.9.0           
      [34] gtable_0.3.3            glue_1.6.2              Rcpp_1.0.11            
      [37] tibble_3.2.1            tidyselect_1.2.0        compiler_4.3.1         
      [40] RCurl_1.98-1.12        

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_options | ` {"alpha_ma": "0.1", "output_selector": ["normCounts", "normRLog", "normVST"]} ` |
       | advanced\_options | ` {"auto_mean_filter_off": false, "esf_cond": {"__current_case__": 0, "esf": ""}, "fit_type": "1", "outlier_filter_off": false, "outlier_replace_off": false, "prefilter_conditional": {"__current_case__": 1, "prefilter": ""}, "use_beta_priors": true} ` |
       | tximport | ` {"__current_case__": 1, "tximport_selector": "count"} ` |
       | header | ` true ` |
       | batch\_factors | ` None ` |
       | select\_data | ` {"__current_case__": 1, "how": "datasets_per_level", "rep_factorName": [{"__index__": 0, "factorName": "Treatment", "rep_factorLevel": [{"__index__": 0, "countsFile": {"values": [{"id": 397, "src": "hda"}, {"id": 398, "src": "hda"}, {"id": 399, "src": "hda"}]}, "factorLevel": "Treated"}, {"__index__": 1, "countsFile": {"values": [{"id": 400, "src": "hda"}, {"id": 401, "src": "hda"}, {"id": 402, "src": "hda"}, {"id": 403, "src": "hda"}]}, "factorLevel": "Untreated"}]}]} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; deseq2 (Test # 11)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -s '/galaxy/server/database/objects/7/1/e/dataset_71e809fb-5aed-4a09-8c54-06a763f4a3e9.dat' mapping.gff &&  cat '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/get_deseq_dataset.R' > /dev/null &&  Rscript '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/deseq2.R' --cores ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/9/8/d/dataset_98dbc7f0-e3e4-4a3b-809f-528d66586f91.dat' -A 0.05 -F '/galaxy/server/database/objects/9/5/c/dataset_95c3f475-48bc-4d64-bdb0-ba146757c33e.dat'                  -H  -f '[["Treatment", [{"Untreated": ["/galaxy/server/database/objects/1/1/c/dataset_11c5b96e-21e9-4127-99b3-947a5c4338e7.dat", "/galaxy/server/database/objects/3/4/2/dataset_342d4b5b-6875-422a-8508-1d0695becab0.dat", "/galaxy/server/database/objects/7/c/3/dataset_7c31e6e9-ae6c-487c-b5f2-bdfbab342403.dat"]}, {"Treated": ["/galaxy/server/database/objects/7/f/3/dataset_7f303454-073c-43d1-964a-7356afa63021.dat", "/galaxy/server/database/objects/1/9/0/dataset_1903b37f-578e-42ac-848d-bad53cf27ecf.dat", "/galaxy/server/database/objects/e/7/b/dataset_e7b53a1d-425c-4b5b-a28d-82cf8d73335c.dat"]}]]]' -l '{"dataset_7f303454-073c-43d1-964a-7356afa63021.dat": "sailfish_quant.sf1.tab", "dataset_1903b37f-578e-42ac-848d-bad53cf27ecf.dat": "sailfish_quant.sf2.tab", "dataset_e7b53a1d-425c-4b5b-a28d-82cf8d73335c.dat": "sailfish_quant.sf3.tab", "dataset_11c5b96e-21e9-4127-99b3-947a5c4338e7.dat": "sailfish_quant.sf4.tab", "dataset_342d4b5b-6875-422a-8508-1d0695becab0.dat": "sailfish_quant.sf5.tab", "dataset_7c31e6e9-ae6c-487c-b5f2-bdfbab342403.dat": "sailfish_quant.sf6.tab"}' -t 1       -i -y sailfish -x mapping.gff
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Error:**

    * ```console
      Import genomic features from the file as a GRanges object ... OK
      Prepare the 'metadata' data frame ... OK
      Make the TxDb object ... OK
      'select()' returned 1:1 mapping between keys and columns
      reading in files with read.delim (install 'readr' package for speed up)
      1 2 3 4 5 6 
      reading in files with read.delim (install 'readr' package for speed up)
      1 2 3 4 5 6 
      summarizing abundance
      summarizing counts
      summarizing length
      using counts and average transcript lengths from tximport
      Warning message:
      In .get_cds_IDX(mcols0$type, mcols0$phase) :
        The "phase" metadata column contains non-NA values for features of type
        stop_codon. This information was ignored.
      estimating size factors
      using 'avgTxLength' from assays(dds), correcting for library size
      estimating dispersions
      gene-wise dispersion estimates
      mean-dispersion relationship
      -- note: fitType='parametric', but the dispersion trend was not well captured by the
         function: y = a/x + b, and a local regression fit was automatically substituted.
         specify fitType='local' or 'mean' to avoid this message next time.
      final dispersion estimates
      fitting model and testing
      Warning message:
      In lfproc(x, y, weights = weights, cens = cens, base = base, geth = geth,  :
        Estimated rdf < 1.0; not estimating variance

      ```
    **Standard Output:**

    * ```console
      primary factor: Treatment 

      ---------------------
      No size factor was used

      size factors for samples: taking tximport data into account
      DESeq2 run information

      sample table:
                             Treatment
      sailfish_quant.sf4.tab Untreated
      sailfish_quant.sf5.tab Untreated
      sailfish_quant.sf6.tab Untreated
      sailfish_quant.sf1.tab   Treated
      sailfish_quant.sf2.tab   Treated
      sailfish_quant.sf3.tab   Treated

      design formula:
      ~Treatment


      6 samples with counts over 11 genes
      Applied default - beta prior off
      [1] "use_beta_prior is set to FALSE"
      using disperion fit type: parametric 
      summary of results
      Treatment: Treated vs Untreated

      out of 9 with nonzero total read count
      adjusted p-value < 0.1
      LFC > 0 (up)       : 0, 0%
      LFC < 0 (down)     : 0, 0%
      outliers [1]       : 0, 0%
      low counts [2]     : 0, 0%
      (mean count < 0)
      [1] see 'cooksCutoff' argument of ?results
      [2] see 'independentFiltering' argument of ?results

      NULL
      Session information:

      R version 4.3.1 (2023-06-16)
      Platform: x86_64-conda-linux-gnu (64-bit)
      Running under: Debian GNU/Linux 10 (buster)

      Matrix products: default
      BLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0

      locale:
       [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       
       [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   
       [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          
      [10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   

      time zone: NA
      tzcode source: system (glibc)

      attached base packages:
      [1] stats4    tools     stats     graphics  grDevices utils     datasets 
      [8] methods   base     

      other attached packages:
       [1] GenomicFeatures_1.52.1      AnnotationDbi_1.62.2       
       [3] tximport_1.28.0             rjson_0.2.21               
       [5] gplots_3.1.3                RColorBrewer_1.1-3         
       [7] DESeq2_1.40.2               SummarizedExperiment_1.30.2
       [9] Biobase_2.60.0              MatrixGenerics_1.12.2      
      [11] matrixStats_1.0.0           GenomicRanges_1.52.0       
      [13] GenomeInfoDb_1.36.1         IRanges_2.34.1             
      [15] S4Vectors_0.38.1            BiocGenerics_0.46.0        
      [17] getopt_1.20.3              

      loaded via a namespace (and not attached):
       [1] tidyselect_1.2.0         dplyr_1.1.2              blob_1.2.4              
       [4] filelock_1.0.2           Biostrings_2.68.1        bitops_1.0-7            
       [7] fastmap_1.1.1            RCurl_1.98-1.12          BiocFileCache_2.8.0     
      [10] GenomicAlignments_1.36.0 XML_3.99-0.14            digest_0.6.33           
      [13] lifecycle_1.0.3          KEGGREST_1.40.0          RSQLite_2.3.1           
      [16] magrittr_2.0.3           compiler_4.3.1           rlang_1.1.1             
      [19] progress_1.2.2           yaml_2.3.7               utf8_1.2.3              
      [22] rtracklayer_1.60.0       prettyunits_1.1.1        S4Arrays_1.0.4          
      [25] bit_4.0.5                curl_5.0.1               DelayedArray_0.26.6     
      [28] xml2_1.3.5               BiocParallel_1.34.2      KernSmooth_2.23-22      
      [31] grid_4.3.1               fansi_1.0.4              caTools_1.18.2          
      [34] colorspace_2.1-0         ggplot2_3.4.2            scales_1.2.1            
      [37] gtools_3.9.4             biomaRt_2.56.1           cli_3.6.1               
      [40] crayon_1.5.2             generics_0.1.3           httr_1.4.6              
      [43] DBI_1.1.3                cachem_1.0.8             stringr_1.5.0           
      [46] zlibbioc_1.46.0          parallel_4.3.1           restfulr_0.0.15         
      [49] XVector_0.40.0           vctrs_0.6.3              Matrix_1.6-0            
      [52] jsonlite_1.8.7           hms_1.1.3                bit64_4.0.5             
      [55] locfit_1.5-9.8           glue_1.6.2               codetools_0.2-19        
      [58] stringi_1.7.12           gtable_0.3.3             BiocIO_1.10.0           
      [61] munsell_0.5.0            tibble_3.2.1             pillar_1.9.0            
      [64] rappdirs_0.3.3           GenomeInfoDbData_1.2.10  R6_2.5.1                
      [67] dbplyr_2.3.3             lattice_0.21-8           Rsamtools_2.16.0        
      [70] png_0.1-8                memoise_2.0.1            Rcpp_1.0.11             
      [73] pkgconfig_2.0.3         

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_options | ` {"alpha_ma": "0.05", "output_selector": "sizefactors"} ` |
       | advanced\_options | ` {"auto_mean_filter_off": false, "esf_cond": {"__current_case__": 0, "esf": ""}, "fit_type": "1", "outlier_filter_off": false, "outlier_replace_off": false, "prefilter_conditional": {"__current_case__": 1, "prefilter": ""}, "use_beta_priors": false} ` |
       | tximport | ` {"__current_case__": 0, "mapping_format": {"__current_case__": 0, "gtf_file": {"values": [{"id": 490, "src": "hda"}]}, "mapping_format_selector": "gtf"}, "tximport_selector": "tximport", "txtype": "sailfish"} ` |
       | header | ` true ` |
       | batch\_factors | ` None ` |
       | select\_data | ` {"__current_case__": 1, "how": "datasets_per_level", "rep_factorName": [{"__index__": 0, "factorName": "Treatment", "rep_factorLevel": [{"__index__": 0, "countsFile": {"values": [{"id": 484, "src": "hda"}, {"id": 485, "src": "hda"}, {"id": 486, "src": "hda"}]}, "factorLevel": "Treated"}, {"__index__": 1, "countsFile": {"values": [{"id": 487, "src": "hda"}, {"id": 488, "src": "hda"}, {"id": 489, "src": "hda"}]}, "factorLevel": "Untreated"}]}]} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; deseq2 (Test # 12)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -s '/galaxy/server/database/objects/e/7/b/dataset_e7b9d871-4edf-4ea2-a9f1-7415dcf9a13b.dat' mapping.gff &&  cat '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/get_deseq_dataset.R' > /dev/null &&  Rscript '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/deseq2.R' --cores ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/0/c/f/dataset_0cfb1404-ad7f-432d-ba42-b14e4509ffd7.dat' -A 0.05                  -H  -f '[["Treatment", [{"Untreated": ["/galaxy/server/database/objects/2/9/c/dataset_29c9bc48-f1d9-475b-adf2-9388b289c121.dat", "/galaxy/server/database/objects/0/1/5/dataset_0153192b-0098-4908-976b-9554994caa3c.dat", "/galaxy/server/database/objects/1/e/c/dataset_1eceec53-2fa5-4600-9d15-3d7714cce791.dat"]}, {"Treated": ["/galaxy/server/database/objects/6/7/c/dataset_67c60695-f593-4a74-b7e8-0c2332f6518e.dat", "/galaxy/server/database/objects/4/7/3/dataset_473157b9-27aa-4549-946f-016995879e8c.dat", "/galaxy/server/database/objects/d/c/1/dataset_dc1b2d75-4dd5-46e1-a844-7e485135dceb.dat"]}]]]' -l '{"dataset_67c60695-f593-4a74-b7e8-0c2332f6518e.dat": "sailfish_quant.sf1.tab", "dataset_473157b9-27aa-4549-946f-016995879e8c.dat": "sailfish_quant.sf2.tab", "dataset_dc1b2d75-4dd5-46e1-a844-7e485135dceb.dat": "sailfish_quant.sf3.tab", "dataset_29c9bc48-f1d9-475b-adf2-9388b289c121.dat": "sailfish_quant.sf4.tab", "dataset_0153192b-0098-4908-976b-9554994caa3c.dat": "sailfish_quant.sf5.tab", "dataset_1eceec53-2fa5-4600-9d15-3d7714cce791.dat": "sailfish_quant.sf6.tab"}' -e /galaxy/server/database/objects/9/f/e/dataset_9fe9e1be-9627-4ac2-a8be-e0c9a4d488d5.dat -t 1     -d  -i -y sailfish -x mapping.gff
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Error:**

    * ```console
      Import genomic features from the file as a GRanges object ... OK
      Prepare the 'metadata' data frame ... OK
      Make the TxDb object ... OK
      'select()' returned 1:1 mapping between keys and columns
      reading in files with read.delim (install 'readr' package for speed up)
      1 2 3 4 5 6 
      reading in files with read.delim (install 'readr' package for speed up)
      1 2 3 4 5 6 
      summarizing abundance
      summarizing counts
      summarizing length
      using counts and average transcript lengths from tximport
      Warning message:
      In .get_cds_IDX(mcols0$type, mcols0$phase) :
        The "phase" metadata column contains non-NA values for features of type
        stop_codon. This information was ignored.
      using pre-existing size factors
      estimating dispersions
      gene-wise dispersion estimates
      mean-dispersion relationship
      -- note: fitType='parametric', but the dispersion trend was not well captured by the
         function: y = a/x + b, and a local regression fit was automatically substituted.
         specify fitType='local' or 'mean' to avoid this message next time.
      final dispersion estimates
      fitting model and testing
      Warning message:
      In lfproc(x, y, weights = weights, cens = cens, base = base, geth = geth,  :
        Estimated rdf < 1.0; not estimating variance

      ```
    **Standard Output:**

    * ```console
      primary factor: Treatment 

      ---------------------
      Using user-provided size factors:
      [1] 0.8480069 1.1079079 1.2131952 1.1906159 0.7122038 1.0346425
      DESeq2 run information

      sample table:
                             Treatment
      sailfish_quant.sf4.tab Untreated
      sailfish_quant.sf5.tab Untreated
      sailfish_quant.sf6.tab Untreated
      sailfish_quant.sf1.tab   Treated
      sailfish_quant.sf2.tab   Treated
      sailfish_quant.sf3.tab   Treated

      design formula:
      ~Treatment


      6 samples with counts over 11 genes
      [1] "use_beta_prior is set to TRUE"
      using disperion fit type: parametric 
      summary of results
      Treatment: Treated vs Untreated

      out of 9 with nonzero total read count
      adjusted p-value < 0.1
      LFC > 0 (up)       : 0, 0%
      LFC < 0 (down)     : 0, 0%
      outliers [1]       : 0, 0%
      low counts [2]     : 0, 0%
      (mean count < 0)
      [1] see 'cooksCutoff' argument of ?results
      [2] see 'independentFiltering' argument of ?results

      NULL
      Session information:

      R version 4.3.1 (2023-06-16)
      Platform: x86_64-conda-linux-gnu (64-bit)
      Running under: Debian GNU/Linux 10 (buster)

      Matrix products: default
      BLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0

      locale:
       [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       
       [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   
       [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          
      [10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   

      time zone: NA
      tzcode source: system (glibc)

      attached base packages:
      [1] stats4    tools     stats     graphics  grDevices utils     datasets 
      [8] methods   base     

      other attached packages:
       [1] GenomicFeatures_1.52.1      AnnotationDbi_1.62.2       
       [3] tximport_1.28.0             rjson_0.2.21               
       [5] gplots_3.1.3                RColorBrewer_1.1-3         
       [7] DESeq2_1.40.2               SummarizedExperiment_1.30.2
       [9] Biobase_2.60.0              MatrixGenerics_1.12.2      
      [11] matrixStats_1.0.0           GenomicRanges_1.52.0       
      [13] GenomeInfoDb_1.36.1         IRanges_2.34.1             
      [15] S4Vectors_0.38.1            BiocGenerics_0.46.0        
      [17] getopt_1.20.3              

      loaded via a namespace (and not attached):
       [1] tidyselect_1.2.0         dplyr_1.1.2              blob_1.2.4              
       [4] filelock_1.0.2           Biostrings_2.68.1        bitops_1.0-7            
       [7] fastmap_1.1.1            RCurl_1.98-1.12          BiocFileCache_2.8.0     
      [10] GenomicAlignments_1.36.0 XML_3.99-0.14            digest_0.6.33           
      [13] lifecycle_1.0.3          KEGGREST_1.40.0          RSQLite_2.3.1           
      [16] magrittr_2.0.3           compiler_4.3.1           rlang_1.1.1             
      [19] progress_1.2.2           yaml_2.3.7               utf8_1.2.3              
      [22] rtracklayer_1.60.0       prettyunits_1.1.1        S4Arrays_1.0.4          
      [25] bit_4.0.5                curl_5.0.1               DelayedArray_0.26.6     
      [28] xml2_1.3.5               BiocParallel_1.34.2      KernSmooth_2.23-22      
      [31] grid_4.3.1               fansi_1.0.4              caTools_1.18.2          
      [34] colorspace_2.1-0         ggplot2_3.4.2            scales_1.2.1            
      [37] gtools_3.9.4             biomaRt_2.56.1           cli_3.6.1               
      [40] crayon_1.5.2             generics_0.1.3           httr_1.4.6              
      [43] DBI_1.1.3                cachem_1.0.8             stringr_1.5.0           
      [46] zlibbioc_1.46.0          parallel_4.3.1           restfulr_0.0.15         
      [49] XVector_0.40.0           vctrs_0.6.3              Matrix_1.6-0            
      [52] jsonlite_1.8.7           hms_1.1.3                bit64_4.0.5             
      [55] locfit_1.5-9.8           glue_1.6.2               codetools_0.2-19        
      [58] stringi_1.7.12           gtable_0.3.3             BiocIO_1.10.0           
      [61] munsell_0.5.0            tibble_3.2.1             pillar_1.9.0            
      [64] rappdirs_0.3.3           GenomeInfoDbData_1.2.10  R6_2.5.1                
      [67] dbplyr_2.3.3             lattice_0.21-8           Rsamtools_2.16.0        
      [70] png_0.1-8                memoise_2.0.1            Rcpp_1.0.11             
      [73] pkgconfig_2.0.3         

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_options | ` {"alpha_ma": "0.05", "output_selector": []} ` |
       | advanced\_options | ` {"auto_mean_filter_off": false, "esf_cond": {"__current_case__": 4, "esf": "user", "size_factor_input": {"values": [{"id": 500, "src": "hda"}]}}, "fit_type": "1", "outlier_filter_off": false, "outlier_replace_off": false, "prefilter_conditional": {"__current_case__": 1, "prefilter": ""}, "use_beta_priors": true} ` |
       | tximport | ` {"__current_case__": 0, "mapping_format": {"__current_case__": 0, "gtf_file": {"values": [{"id": 499, "src": "hda"}]}, "mapping_format_selector": "gtf"}, "tximport_selector": "tximport", "txtype": "sailfish"} ` |
       | header | ` true ` |
       | batch\_factors | ` None ` |
       | select\_data | ` {"__current_case__": 1, "how": "datasets_per_level", "rep_factorName": [{"__index__": 0, "factorName": "Treatment", "rep_factorLevel": [{"__index__": 0, "countsFile": {"values": [{"id": 493, "src": "hda"}, {"id": 494, "src": "hda"}, {"id": 495, "src": "hda"}]}, "factorLevel": "Treated"}, {"__index__": 1, "countsFile": {"values": [{"id": 496, "src": "hda"}, {"id": 497, "src": "hda"}, {"id": 498, "src": "hda"}]}, "factorLevel": "Untreated"}]}]} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; deseq2 (Test # 13)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -s '/galaxy/server/database/objects/e/b/c/dataset_ebcc0412-efac-4c9c-b817-c6f57a48a285.dat' mapping.gff &&  cat '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/get_deseq_dataset.R' > /dev/null &&  Rscript '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/deseq2.R' --cores ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/2/d/4/dataset_2d48cf9c-8f79-4e76-8d71-1493d3f59e4e.dat' -A 0.05 -F '/galaxy/server/database/objects/7/5/8/dataset_758726c5-aa43-48c5-9133-284999da8ddc.dat'                  -H  -f '[["Treatment", [{"Untreated": ["/galaxy/server/database/objects/4/b/9/dataset_4b9efa67-b0ee-4486-b93e-5ed3ef231d41.dat", "/galaxy/server/database/objects/4/5/2/dataset_4523f974-dc49-4a62-a5fa-1200f8f411d8.dat", "/galaxy/server/database/objects/1/7/a/dataset_17a373b6-7da6-4caa-8ee0-14c07d946f81.dat"]}, {"Treated": ["/galaxy/server/database/objects/e/9/6/dataset_e9618273-f558-4aef-abe3-b7f8ad6f58e6.dat", "/galaxy/server/database/objects/1/d/6/dataset_1d658aba-d631-497f-82f7-4468df03c1c6.dat", "/galaxy/server/database/objects/c/7/c/dataset_c7c06b68-ec2f-42e3-beb5-0c57a4cb9096.dat"]}]]]' -l '{"dataset_e9618273-f558-4aef-abe3-b7f8ad6f58e6.dat": "sailfish_quant.sf1.tab", "dataset_1d658aba-d631-497f-82f7-4468df03c1c6.dat": "sailfish_quant.sf2.tab", "dataset_c7c06b68-ec2f-42e3-beb5-0c57a4cb9096.dat": "sailfish_quant.sf3.tab", "dataset_4b9efa67-b0ee-4486-b93e-5ed3ef231d41.dat": "sailfish_quant.sf4.tab", "dataset_4523f974-dc49-4a62-a5fa-1200f8f411d8.dat": "sailfish_quant.sf5.tab", "dataset_17a373b6-7da6-4caa-8ee0-14c07d946f81.dat": "sailfish_quant.sf6.tab"}' -t 1       -i -y sailfish -x mapping.gff
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Error:**

    * ```console
      Import genomic features from the file as a GRanges object ... OK
      Prepare the 'metadata' data frame ... OK
      Make the TxDb object ... OK
      'select()' returned 1:1 mapping between keys and columns
      reading in files with read.delim (install 'readr' package for speed up)
      1 2 3 4 5 6 
      reading in files with read.delim (install 'readr' package for speed up)
      1 2 3 4 5 6 
      summarizing abundance
      summarizing counts
      summarizing length
      using counts and average transcript lengths from tximport
      Warning message:
      In .get_cds_IDX(mcols0$type, mcols0$phase) :
        The "phase" metadata column contains non-NA values for features of type
        stop_codon. This information was ignored.
      estimating size factors
      using 'avgTxLength' from assays(dds), correcting for library size
      estimating dispersions
      gene-wise dispersion estimates
      mean-dispersion relationship
      -- note: fitType='parametric', but the dispersion trend was not well captured by the
         function: y = a/x + b, and a local regression fit was automatically substituted.
         specify fitType='local' or 'mean' to avoid this message next time.
      final dispersion estimates
      fitting model and testing
      Warning message:
      In lfproc(x, y, weights = weights, cens = cens, base = base, geth = geth,  :
        Estimated rdf < 1.0; not estimating variance

      ```
    **Standard Output:**

    * ```console
      primary factor: Treatment 

      ---------------------
      No size factor was used

      size factors for samples: taking tximport data into account
      DESeq2 run information

      sample table:
                             Treatment
      sailfish_quant.sf4.tab Untreated
      sailfish_quant.sf5.tab Untreated
      sailfish_quant.sf6.tab Untreated
      sailfish_quant.sf1.tab   Treated
      sailfish_quant.sf2.tab   Treated
      sailfish_quant.sf3.tab   Treated

      design formula:
      ~Treatment


      6 samples with counts over 11 genes
      Applied default - beta prior off
      [1] "use_beta_prior is set to FALSE"
      using disperion fit type: parametric 
      summary of results
      Treatment: Treated vs Untreated

      out of 9 with nonzero total read count
      adjusted p-value < 0.1
      LFC > 0 (up)       : 0, 0%
      LFC < 0 (down)     : 0, 0%
      outliers [1]       : 0, 0%
      low counts [2]     : 0, 0%
      (mean count < 0)
      [1] see 'cooksCutoff' argument of ?results
      [2] see 'independentFiltering' argument of ?results

      NULL
      Session information:

      R version 4.3.1 (2023-06-16)
      Platform: x86_64-conda-linux-gnu (64-bit)
      Running under: Debian GNU/Linux 10 (buster)

      Matrix products: default
      BLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0

      locale:
       [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       
       [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   
       [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          
      [10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   

      time zone: NA
      tzcode source: system (glibc)

      attached base packages:
      [1] stats4    tools     stats     graphics  grDevices utils     datasets 
      [8] methods   base     

      other attached packages:
       [1] GenomicFeatures_1.52.1      AnnotationDbi_1.62.2       
       [3] tximport_1.28.0             rjson_0.2.21               
       [5] gplots_3.1.3                RColorBrewer_1.1-3         
       [7] DESeq2_1.40.2               SummarizedExperiment_1.30.2
       [9] Biobase_2.60.0              MatrixGenerics_1.12.2      
      [11] matrixStats_1.0.0           GenomicRanges_1.52.0       
      [13] GenomeInfoDb_1.36.1         IRanges_2.34.1             
      [15] S4Vectors_0.38.1            BiocGenerics_0.46.0        
      [17] getopt_1.20.3              

      loaded via a namespace (and not attached):
       [1] tidyselect_1.2.0         dplyr_1.1.2              blob_1.2.4              
       [4] filelock_1.0.2           Biostrings_2.68.1        bitops_1.0-7            
       [7] fastmap_1.1.1            RCurl_1.98-1.12          BiocFileCache_2.8.0     
      [10] GenomicAlignments_1.36.0 XML_3.99-0.14            digest_0.6.33           
      [13] lifecycle_1.0.3          KEGGREST_1.40.0          RSQLite_2.3.1           
      [16] magrittr_2.0.3           compiler_4.3.1           rlang_1.1.1             
      [19] progress_1.2.2           yaml_2.3.7               utf8_1.2.3              
      [22] rtracklayer_1.60.0       prettyunits_1.1.1        S4Arrays_1.0.4          
      [25] bit_4.0.5                curl_5.0.1               DelayedArray_0.26.6     
      [28] xml2_1.3.5               BiocParallel_1.34.2      KernSmooth_2.23-22      
      [31] grid_4.3.1               fansi_1.0.4              caTools_1.18.2          
      [34] colorspace_2.1-0         ggplot2_3.4.2            scales_1.2.1            
      [37] gtools_3.9.4             biomaRt_2.56.1           cli_3.6.1               
      [40] crayon_1.5.2             generics_0.1.3           httr_1.4.6              
      [43] DBI_1.1.3                cachem_1.0.8             stringr_1.5.0           
      [46] zlibbioc_1.46.0          parallel_4.3.1           restfulr_0.0.15         
      [49] XVector_0.40.0           vctrs_0.6.3              Matrix_1.6-0            
      [52] jsonlite_1.8.7           hms_1.1.3                bit64_4.0.5             
      [55] locfit_1.5-9.8           glue_1.6.2               codetools_0.2-19        
      [58] stringi_1.7.12           gtable_0.3.3             BiocIO_1.10.0           
      [61] munsell_0.5.0            tibble_3.2.1             pillar_1.9.0            
      [64] rappdirs_0.3.3           GenomeInfoDbData_1.2.10  R6_2.5.1                
      [67] dbplyr_2.3.3             lattice_0.21-8           Rsamtools_2.16.0        
      [70] png_0.1-8                memoise_2.0.1            Rcpp_1.0.11             
      [73] pkgconfig_2.0.3         

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_options | ` {"alpha_ma": "0.05", "output_selector": "sizefactors"} ` |
       | advanced\_options | ` {"auto_mean_filter_off": false, "esf_cond": {"__current_case__": 0, "esf": ""}, "fit_type": "1", "outlier_filter_off": false, "outlier_replace_off": false, "prefilter_conditional": {"__current_case__": 1, "prefilter": ""}, "use_beta_priors": false} ` |
       | tximport | ` {"__current_case__": 0, "mapping_format": {"__current_case__": 0, "gtf_file": {"values": [{"id": 508, "src": "hda"}]}, "mapping_format_selector": "gtf"}, "tximport_selector": "tximport", "txtype": "sailfish"} ` |
       | header | ` true ` |
       | batch\_factors | ` None ` |
       | select\_data | ` {"__current_case__": 1, "how": "datasets_per_level", "rep_factorName": [{"__index__": 0, "factorName": "Treatment", "rep_factorLevel": [{"__index__": 0, "countsFile": {"values": [{"id": 502, "src": "hda"}, {"id": 503, "src": "hda"}, {"id": 504, "src": "hda"}]}, "factorLevel": "Treated"}, {"__index__": 1, "countsFile": {"values": [{"id": 505, "src": "hda"}, {"id": 506, "src": "hda"}, {"id": 507, "src": "hda"}]}, "factorLevel": "Untreated"}]}]} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; deseq2 (Test # 14)</summary><div class="padded">

    **Command Line:**

    * ```console
      cat '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/get_deseq_dataset.R' > /dev/null &&  Rscript '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/deseq2.R' --cores ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/c/f/d/dataset_cfd75380-abba-49f4-bbf0-fa86ca49a6ba.dat' -A 0.1 -n '/galaxy/server/database/objects/6/b/4/dataset_6b401bba-8c1f-40e5-94bd-b1081bd287af.dat'                    -H  -f '[["Treatment", [{"Untreated": ["/galaxy/server/database/objects/7/8/b/dataset_78b7cfca-c90e-4958-85da-815a587446e0.dat", "/galaxy/server/database/objects/9/e/0/dataset_9e08c5e9-81ce-40e2-904d-37b02da2578a.dat", "/galaxy/server/database/objects/9/7/4/dataset_97421ab0-45c6-42d4-9242-acfb813378d9.dat", "/galaxy/server/database/objects/9/d/e/dataset_9de4a5bb-b575-459a-a407-9b88e62eddb8.dat"]}, {"Treated": ["/galaxy/server/database/objects/a/c/6/dataset_ac62bebb-ad77-429d-a680-d9cbe01e1ae5.dat", "/galaxy/server/database/objects/d/7/b/dataset_d7b2a38b-db0c-43cb-87c5-221b45d73bcb.dat", "/galaxy/server/database/objects/a/0/6/dataset_a06d0df7-203c-4c05-8936-5881f1a6440d.dat"]}]]]' -l '{"dataset_ac62bebb-ad77-429d-a680-d9cbe01e1ae5.dat": "GSM461179_treat_single.counts", "dataset_d7b2a38b-db0c-43cb-87c5-221b45d73bcb.dat": "GSM461180_treat_paired.counts", "dataset_a06d0df7-203c-4c05-8936-5881f1a6440d.dat": "GSM461181_treat_paired.counts", "dataset_78b7cfca-c90e-4958-85da-815a587446e0.dat": "GSM461176_untreat_single.counts", "dataset_9e08c5e9-81ce-40e2-904d-37b02da2578a.dat": "GSM461177_untreat_paired.counts", "dataset_97421ab0-45c6-42d4-9242-acfb813378d9.dat": "GSM461178_untreat_paired.counts", "dataset_9de4a5bb-b575-459a-a407-9b88e62eddb8.dat": "GSM461182_untreat_single.counts"}' -t 1 -P -V 10
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Error:**

    * ```console
      estimating size factors
      estimating dispersions
      gene-wise dispersion estimates
      mean-dispersion relationship
      final dispersion estimates
      fitting model and testing

      ```
    **Standard Output:**

    * ```console
      primary factor: Treatment 

      ---------------------
      No size factor was used
      DESeq2 run information

      sample table:
                                      Treatment
      GSM461176_untreat_single.counts Untreated
      GSM461177_untreat_paired.counts Untreated
      GSM461178_untreat_paired.counts Untreated
      GSM461182_untreat_single.counts Untreated
      GSM461179_treat_single.counts     Treated
      GSM461180_treat_paired.counts     Treated
      GSM461181_treat_paired.counts     Treated

      design formula:
      ~Treatment


      7 samples with counts over 3999 genes
      Applied default - beta prior off
      [1] "use_beta_prior is set to FALSE"
      using disperion fit type: parametric 
      summary of results
      Treatment: Treated vs Untreated

      out of 2921 with nonzero total read count
      adjusted p-value < 0.1
      LFC > 0 (up)       : 149, 5.1%
      LFC < 0 (down)     : 155, 5.3%
      outliers [1]       : 2, 0.068%
      low counts [2]     : 170, 5.8%
      (mean count < 3)
      [1] see 'cooksCutoff' argument of ?results
      [2] see 'independentFiltering' argument of ?results

      NULL
      Session information:

      R version 4.3.1 (2023-06-16)
      Platform: x86_64-conda-linux-gnu (64-bit)
      Running under: Debian GNU/Linux 10 (buster)

      Matrix products: default
      BLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0

      locale:
       [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       
       [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   
       [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          
      [10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   

      time zone: NA
      tzcode source: system (glibc)

      attached base packages:
      [1] stats4    tools     stats     graphics  grDevices utils     datasets 
      [8] methods   base     

      other attached packages:
       [1] rjson_0.2.21                gplots_3.1.3               
       [3] RColorBrewer_1.1-3          DESeq2_1.40.2              
       [5] SummarizedExperiment_1.30.2 Biobase_2.60.0             
       [7] MatrixGenerics_1.12.2       matrixStats_1.0.0          
       [9] GenomicRanges_1.52.0        GenomeInfoDb_1.36.1        
      [11] IRanges_2.34.1              S4Vectors_0.38.1           
      [13] BiocGenerics_0.46.0         getopt_1.20.3              

      loaded via a namespace (and not attached):
       [1] utf8_1.2.3              generics_0.1.3          bitops_1.0-7           
       [4] KernSmooth_2.23-22      gtools_3.9.4            lattice_0.21-8         
       [7] caTools_1.18.2          magrittr_2.0.3          grid_4.3.1             
      [10] Matrix_1.6-0            fansi_1.0.4             scales_1.2.1           
      [13] codetools_0.2-19        cli_3.6.1               rlang_1.1.1            
      [16] crayon_1.5.2            XVector_0.40.0          munsell_0.5.0          
      [19] DelayedArray_0.26.6     S4Arrays_1.0.4          parallel_4.3.1         
      [22] BiocParallel_1.34.2     dplyr_1.1.2             colorspace_2.1-0       
      [25] ggplot2_3.4.2           locfit_1.5-9.8          GenomeInfoDbData_1.2.10
      [28] vctrs_0.6.3             R6_2.5.1                lifecycle_1.0.3        
      [31] zlibbioc_1.46.0         pkgconfig_2.0.3         pillar_1.9.0           
      [34] gtable_0.3.3            glue_1.6.2              Rcpp_1.0.11            
      [37] tibble_3.2.1            tidyselect_1.2.0        compiler_4.3.1         
      [40] RCurl_1.98-1.12        

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_options | ` {"alpha_ma": "0.1", "output_selector": "normCounts"} ` |
       | advanced\_options | ` {"auto_mean_filter_off": false, "esf_cond": {"__current_case__": 0, "esf": ""}, "fit_type": "1", "outlier_filter_off": false, "outlier_replace_off": false, "prefilter_conditional": {"__current_case__": 0, "prefilter": "-P", "prefilter_value": "10"}, "use_beta_priors": false} ` |
       | tximport | ` {"__current_case__": 1, "tximport_selector": "count"} ` |
       | header | ` true ` |
       | batch\_factors | ` None ` |
       | select\_data | ` {"__current_case__": 1, "how": "datasets_per_level", "rep_factorName": [{"__index__": 0, "factorName": "Treatment", "rep_factorLevel": [{"__index__": 0, "countsFile": {"values": [{"id": 511, "src": "hda"}, {"id": 512, "src": "hda"}, {"id": 513, "src": "hda"}]}, "factorLevel": "Treated"}, {"__index__": 1, "countsFile": {"values": [{"id": 514, "src": "hda"}, {"id": 515, "src": "hda"}, {"id": 516, "src": "hda"}, {"id": 517, "src": "hda"}]}, "factorLevel": "Untreated"}]}]} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; deseq2 (Test # 3)</summary><div class="padded">

    **Command Line:**

    * ```console
      cat '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/get_deseq_dataset.R' > /dev/null &&  Rscript '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/deseq2.R' --cores ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/d/f/d/dataset_dfdcadb0-8dd9-4614-bad4-0a3f8198e3a9.dat' -A 0.1 -n '/galaxy/server/database/objects/8/2/d/dataset_82dbcdb1-e5f6-4a4a-8919-1983d4375e59.dat'                    -H  -f '[["Treatment", [{"Untreated": ["/galaxy/server/database/objects/8/8/c/dataset_88c35138-c69d-48d3-a820-002963a79b60.dat", "/galaxy/server/database/objects/4/5/d/dataset_45dbf69b-440d-42e5-8962-1c3570f5faef.dat", "/galaxy/server/database/objects/7/1/d/dataset_71d7d7ee-e0fc-4721-909c-7e31064a20b7.dat", "/galaxy/server/database/objects/e/6/9/dataset_e69687e9-5b4f-4f21-a072-503bc166cd54.dat"]}, {"Treated": ["/galaxy/server/database/objects/b/1/4/dataset_b14ca11d-1629-419f-ae74-4b7c8ac2ab8c.dat", "/galaxy/server/database/objects/3/4/0/dataset_340813dc-852b-4181-9335-9817874f0c38.dat", "/galaxy/server/database/objects/a/6/f/dataset_a6f23a2d-7f43-41c5-86e6-01ce7c9281f9.dat"]}]]]' -l '{"dataset_b14ca11d-1629-419f-ae74-4b7c8ac2ab8c.dat": "GSM461179_treat_single.counts", "dataset_340813dc-852b-4181-9335-9817874f0c38.dat": "GSM461180_treat_paired.counts", "dataset_a6f23a2d-7f43-41c5-86e6-01ce7c9281f9.dat": "GSM461181_treat_paired.counts", "dataset_88c35138-c69d-48d3-a820-002963a79b60.dat": "GSM461176_untreat_single.counts", "dataset_45dbf69b-440d-42e5-8962-1c3570f5faef.dat": "GSM461177_untreat_paired.counts", "dataset_71d7d7ee-e0fc-4721-909c-7e31064a20b7.dat": "GSM461178_untreat_paired.counts", "dataset_e69687e9-5b4f-4f21-a072-503bc166cd54.dat": "GSM461182_untreat_single.counts"}' -t 1 --batch_factors '/galaxy/server/database/objects/3/1/7/dataset_317558a8-aae5-41b5-921d-3afa7d0365cc.dat'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Error:**

    * ```console
      estimating size factors
      estimating dispersions
      gene-wise dispersion estimates
      mean-dispersion relationship
      final dispersion estimates
      fitting model and testing

      ```
    **Standard Output:**

    * ```console
      primary factor: Treatment 

      ---------------------
      No size factor was used
      DESeq2 run information

      sample table:
                                      Treatment
      GSM461176_untreat_single.counts Untreated
      GSM461177_untreat_paired.counts Untreated
      GSM461178_untreat_paired.counts Untreated
      GSM461182_untreat_single.counts Untreated
      GSM461179_treat_single.counts     Treated
      GSM461180_treat_paired.counts     Treated
      GSM461181_treat_paired.counts     Treated

      design formula:
      ~W_1 + Treatment


      7 samples with counts over 3999 genes
      Applied default - beta prior off
      [1] "use_beta_prior is set to FALSE"
      using disperion fit type: parametric 
      summary of results
      Treatment: Treated vs Untreated

      out of 3429 with nonzero total read count
      adjusted p-value < 0.1
      LFC > 0 (up)       : 177, 5.2%
      LFC < 0 (down)     : 206, 6%
      outliers [1]       : 0, 0%
      low counts [2]     : 725, 21%
      (mean count < 4)
      [1] see 'cooksCutoff' argument of ?results
      [2] see 'independentFiltering' argument of ?results

      NULL
      Session information:

      R version 4.3.1 (2023-06-16)
      Platform: x86_64-conda-linux-gnu (64-bit)
      Running under: Debian GNU/Linux 10 (buster)

      Matrix products: default
      BLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0

      locale:
       [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       
       [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   
       [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          
      [10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   

      time zone: NA
      tzcode source: system (glibc)

      attached base packages:
      [1] stats4    tools     stats     graphics  grDevices utils     datasets 
      [8] methods   base     

      other attached packages:
       [1] rjson_0.2.21                gplots_3.1.3               
       [3] RColorBrewer_1.1-3          DESeq2_1.40.2              
       [5] SummarizedExperiment_1.30.2 Biobase_2.60.0             
       [7] MatrixGenerics_1.12.2       matrixStats_1.0.0          
       [9] GenomicRanges_1.52.0        GenomeInfoDb_1.36.1        
      [11] IRanges_2.34.1              S4Vectors_0.38.1           
      [13] BiocGenerics_0.46.0         getopt_1.20.3              

      loaded via a namespace (and not attached):
       [1] utf8_1.2.3              generics_0.1.3          bitops_1.0-7           
       [4] KernSmooth_2.23-22      gtools_3.9.4            lattice_0.21-8         
       [7] caTools_1.18.2          magrittr_2.0.3          grid_4.3.1             
      [10] Matrix_1.6-0            fansi_1.0.4             scales_1.2.1           
      [13] codetools_0.2-19        cli_3.6.1               rlang_1.1.1            
      [16] crayon_1.5.2            XVector_0.40.0          munsell_0.5.0          
      [19] DelayedArray_0.26.6     S4Arrays_1.0.4          parallel_4.3.1         
      [22] BiocParallel_1.34.2     dplyr_1.1.2             colorspace_2.1-0       
      [25] ggplot2_3.4.2           locfit_1.5-9.8          GenomeInfoDbData_1.2.10
      [28] vctrs_0.6.3             R6_2.5.1                lifecycle_1.0.3        
      [31] zlibbioc_1.46.0         pkgconfig_2.0.3         pillar_1.9.0           
      [34] gtable_0.3.3            glue_1.6.2              Rcpp_1.0.11            
      [37] tibble_3.2.1            tidyselect_1.2.0        compiler_4.3.1         
      [40] RCurl_1.98-1.12        

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_options | ` {"alpha_ma": "0.1", "output_selector": "normCounts"} ` |
       | advanced\_options | ` {"auto_mean_filter_off": false, "esf_cond": {"__current_case__": 0, "esf": ""}, "fit_type": "1", "outlier_filter_off": false, "outlier_replace_off": false, "prefilter_conditional": {"__current_case__": 1, "prefilter": ""}, "use_beta_priors": false} ` |
       | tximport | ` {"__current_case__": 1, "tximport_selector": "count"} ` |
       | header | ` true ` |
       | select\_data | ` {"__current_case__": 1, "how": "datasets_per_level", "rep_factorName": [{"__index__": 0, "factorName": "Treatment", "rep_factorLevel": [{"__index__": 0, "countsFile": {"values": [{"id": 416, "src": "hda"}, {"id": 417, "src": "hda"}, {"id": 418, "src": "hda"}]}, "factorLevel": "Treated"}, {"__index__": 1, "countsFile": {"values": [{"id": 419, "src": "hda"}, {"id": 420, "src": "hda"}, {"id": 421, "src": "hda"}, {"id": 422, "src": "hda"}]}, "factorLevel": "Untreated"}]}]} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; deseq2 (Test # 4)</summary><div class="padded">

    **Command Line:**

    * ```console
      cat '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/get_deseq_dataset.R' > /dev/null &&  Rscript '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/deseq2.R' --cores ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/3/d/a/dataset_3dac9d97-ef81-4424-8956-3b86dea1c587.dat' -A 0.1 -n '/galaxy/server/database/objects/c/f/8/dataset_cf8e9ef3-f1d1-433c-89e4-e3c54502345b.dat' -r '/galaxy/server/database/objects/0/9/4/dataset_0942d00b-b605-4fd2-954f-e3ae5e387cb3.dat' -v '/galaxy/server/database/objects/8/f/b/dataset_8fba7a27-39e7-49ad-9dbf-81a98ed22307.dat'                      -f '[["Treatment", [{"Untreated": ["/galaxy/server/database/objects/9/9/5/dataset_995f7fa0-0664-41df-8bb3-3d939624cec7.dat", "/galaxy/server/database/objects/5/3/0/dataset_530f7eae-6608-49b9-825a-9ee69358c7bc.dat", "/galaxy/server/database/objects/2/a/d/dataset_2ad51104-704f-40af-b6b2-52ac6f1008e6.dat", "/galaxy/server/database/objects/5/c/9/dataset_5c9c38f4-33c6-4c95-923c-99f6947efc0f.dat"]}, {"Treated": ["/galaxy/server/database/objects/9/6/b/dataset_96b892a0-67d5-4726-9ca5-f0a402c407f5.dat", "/galaxy/server/database/objects/8/b/3/dataset_8b3a5e4f-2395-4e85-8f48-c578b14a5d9f.dat", "/galaxy/server/database/objects/d/c/4/dataset_dc46b44a-d080-4c85-8f69-f364cdbe05ac.dat"]}]]]' -l '{"dataset_96b892a0-67d5-4726-9ca5-f0a402c407f5.dat": "GSM461179_treat_single.counts.noheader", "dataset_8b3a5e4f-2395-4e85-8f48-c578b14a5d9f.dat": "GSM461180_treat_paired.counts.noheader", "dataset_dc46b44a-d080-4c85-8f69-f364cdbe05ac.dat": "GSM461181_treat_paired.counts.noheader", "dataset_995f7fa0-0664-41df-8bb3-3d939624cec7.dat": "GSM461176_untreat_single.counts.noheader", "dataset_530f7eae-6608-49b9-825a-9ee69358c7bc.dat": "GSM461177_untreat_paired.counts.noheader", "dataset_2ad51104-704f-40af-b6b2-52ac6f1008e6.dat": "GSM461178_untreat_paired.counts.noheader", "dataset_5c9c38f4-33c6-4c95-923c-99f6947efc0f.dat": "GSM461182_untreat_single.counts.noheader"}' -t 1     -d
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Error:**

    * ```console
      estimating size factors
      estimating dispersions
      gene-wise dispersion estimates
      mean-dispersion relationship
      final dispersion estimates
      fitting model and testing

      ```
    **Standard Output:**

    * ```console
      primary factor: Treatment 

      ---------------------
      No size factor was used
      DESeq2 run information

      sample table:
                                               Treatment
      GSM461176_untreat_single.counts.noheader Untreated
      GSM461177_untreat_paired.counts.noheader Untreated
      GSM461178_untreat_paired.counts.noheader Untreated
      GSM461182_untreat_single.counts.noheader Untreated
      GSM461179_treat_single.counts.noheader     Treated
      GSM461180_treat_paired.counts.noheader     Treated
      GSM461181_treat_paired.counts.noheader     Treated

      design formula:
      ~Treatment


      7 samples with counts over 3999 genes
      [1] "use_beta_prior is set to TRUE"
      using disperion fit type: parametric 
      summary of results
      Treatment: Treated vs Untreated

      out of 3429 with nonzero total read count
      adjusted p-value < 0.1
      LFC > 0 (up)       : 148, 4.3%
      LFC < 0 (down)     : 152, 4.4%
      outliers [1]       : 2, 0.058%
      low counts [2]     : 659, 19%
      (mean count < 3)
      [1] see 'cooksCutoff' argument of ?results
      [2] see 'independentFiltering' argument of ?results

      NULL
      Session information:

      R version 4.3.1 (2023-06-16)
      Platform: x86_64-conda-linux-gnu (64-bit)
      Running under: Debian GNU/Linux 10 (buster)

      Matrix products: default
      BLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0

      locale:
       [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       
       [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   
       [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          
      [10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   

      time zone: NA
      tzcode source: system (glibc)

      attached base packages:
      [1] stats4    tools     stats     graphics  grDevices utils     datasets 
      [8] methods   base     

      other attached packages:
       [1] rjson_0.2.21                gplots_3.1.3               
       [3] RColorBrewer_1.1-3          DESeq2_1.40.2              
       [5] SummarizedExperiment_1.30.2 Biobase_2.60.0             
       [7] MatrixGenerics_1.12.2       matrixStats_1.0.0          
       [9] GenomicRanges_1.52.0        GenomeInfoDb_1.36.1        
      [11] IRanges_2.34.1              S4Vectors_0.38.1           
      [13] BiocGenerics_0.46.0         getopt_1.20.3              

      loaded via a namespace (and not attached):
       [1] utf8_1.2.3              generics_0.1.3          bitops_1.0-7           
       [4] KernSmooth_2.23-22      gtools_3.9.4            lattice_0.21-8         
       [7] caTools_1.18.2          magrittr_2.0.3          grid_4.3.1             
      [10] Matrix_1.6-0            fansi_1.0.4             scales_1.2.1           
      [13] codetools_0.2-19        cli_3.6.1               rlang_1.1.1            
      [16] crayon_1.5.2            XVector_0.40.0          munsell_0.5.0          
      [19] DelayedArray_0.26.6     S4Arrays_1.0.4          parallel_4.3.1         
      [22] BiocParallel_1.34.2     dplyr_1.1.2             colorspace_2.1-0       
      [25] ggplot2_3.4.2           locfit_1.5-9.8          GenomeInfoDbData_1.2.10
      [28] vctrs_0.6.3             R6_2.5.1                lifecycle_1.0.3        
      [31] zlibbioc_1.46.0         pkgconfig_2.0.3         pillar_1.9.0           
      [34] gtable_0.3.3            glue_1.6.2              Rcpp_1.0.11            
      [37] tibble_3.2.1            tidyselect_1.2.0        compiler_4.3.1         
      [40] RCurl_1.98-1.12        

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_options | ` {"alpha_ma": "0.1", "output_selector": ["normCounts", "normRLog", "normVST"]} ` |
       | advanced\_options | ` {"auto_mean_filter_off": false, "esf_cond": {"__current_case__": 0, "esf": ""}, "fit_type": "1", "outlier_filter_off": false, "outlier_replace_off": false, "prefilter_conditional": {"__current_case__": 1, "prefilter": ""}, "use_beta_priors": true} ` |
       | tximport | ` {"__current_case__": 1, "tximport_selector": "count"} ` |
       | header | ` false ` |
       | batch\_factors | ` None ` |
       | select\_data | ` {"__current_case__": 1, "how": "datasets_per_level", "rep_factorName": [{"__index__": 0, "factorName": "Treatment", "rep_factorLevel": [{"__index__": 0, "countsFile": {"values": [{"id": 426, "src": "hda"}, {"id": 427, "src": "hda"}, {"id": 428, "src": "hda"}]}, "factorLevel": "Treated"}, {"__index__": 1, "countsFile": {"values": [{"id": 429, "src": "hda"}, {"id": 430, "src": "hda"}, {"id": 431, "src": "hda"}, {"id": 432, "src": "hda"}]}, "factorLevel": "Untreated"}]}]} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; deseq2 (Test # 6)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -s '/galaxy/server/database/objects/4/5/4/dataset_4549c69d-781f-48cb-8028-436b0b186f19.dat' mapping.gff &&  cat '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/get_deseq_dataset.R' > /dev/null &&  Rscript '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/deseq2.R' --cores ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/c/2/d/dataset_c2d2ca0e-5a50-452a-af99-62babf4b1ef6.dat' -A 0.1                  -H  -f '[["Treatment", [{"Untreated": ["/galaxy/server/database/objects/7/4/7/dataset_74735254-f0bd-45e1-ab52-6b414ee9580e.dat", "/galaxy/server/database/objects/5/e/e/dataset_5ee1e78f-5487-4448-8846-dc5934fd9bcc.dat", "/galaxy/server/database/objects/d/b/c/dataset_dbca0a53-17b7-4c10-b6d9-453d65054d30.dat"]}, {"Treated": ["/galaxy/server/database/objects/f/3/8/dataset_f38f092d-4987-46e2-a894-f77a39261a2a.dat", "/galaxy/server/database/objects/8/c/d/dataset_8cdeece2-e983-4a3c-a4f6-8abc10d95166.dat", "/galaxy/server/database/objects/e/a/3/dataset_ea38585e-714e-4396-a098-93f2d272d79b.dat"]}]]]' -l '{"dataset_f38f092d-4987-46e2-a894-f77a39261a2a.dat": "sailfish_quant.sf1.tab", "dataset_8cdeece2-e983-4a3c-a4f6-8abc10d95166.dat": "sailfish_quant.sf2.tab", "dataset_ea38585e-714e-4396-a098-93f2d272d79b.dat": "sailfish_quant.sf3.tab", "dataset_74735254-f0bd-45e1-ab52-6b414ee9580e.dat": "sailfish_quant.sf4.tab", "dataset_5ee1e78f-5487-4448-8846-dc5934fd9bcc.dat": "sailfish_quant.sf5.tab", "dataset_dbca0a53-17b7-4c10-b6d9-453d65054d30.dat": "sailfish_quant.sf6.tab"}' -t 1     -d  -i -y sailfish -x mapping.gff
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Error:**

    * ```console
      Import genomic features from the file as a GRanges object ... OK
      Prepare the 'metadata' data frame ... OK
      Make the TxDb object ... OK
      'select()' returned 1:1 mapping between keys and columns
      reading in files with read.delim (install 'readr' package for speed up)
      1 2 3 4 5 6 
      reading in files with read.delim (install 'readr' package for speed up)
      1 2 3 4 5 6 
      summarizing abundance
      summarizing counts
      summarizing length
      using counts and average transcript lengths from tximport
      estimating size factors
      using 'avgTxLength' from assays(dds), correcting for library size
      estimating dispersions
      gene-wise dispersion estimates
      mean-dispersion relationship
      -- note: fitType='parametric', but the dispersion trend was not well captured by the
         function: y = a/x + b, and a local regression fit was automatically substituted.
         specify fitType='local' or 'mean' to avoid this message next time.
      final dispersion estimates
      fitting model and testing
      Warning message:
      In lfproc(x, y, weights = weights, cens = cens, base = base, geth = geth,  :
        Estimated rdf < 1.0; not estimating variance

      ```
    **Standard Output:**

    * ```console
      primary factor: Treatment 

      ---------------------
      No size factor was used
      DESeq2 run information

      sample table:
                             Treatment
      sailfish_quant.sf4.tab Untreated
      sailfish_quant.sf5.tab Untreated
      sailfish_quant.sf6.tab Untreated
      sailfish_quant.sf1.tab   Treated
      sailfish_quant.sf2.tab   Treated
      sailfish_quant.sf3.tab   Treated

      design formula:
      ~Treatment


      6 samples with counts over 10 genes
      [1] "use_beta_prior is set to TRUE"
      using disperion fit type: parametric 
      summary of results
      Treatment: Treated vs Untreated

      out of 8 with nonzero total read count
      adjusted p-value < 0.1
      LFC > 0 (up)       : 0, 0%
      LFC < 0 (down)     : 0, 0%
      outliers [1]       : 0, 0%
      low counts [2]     : 0, 0%
      (mean count < 0)
      [1] see 'cooksCutoff' argument of ?results
      [2] see 'independentFiltering' argument of ?results

      NULL
      Session information:

      R version 4.3.1 (2023-06-16)
      Platform: x86_64-conda-linux-gnu (64-bit)
      Running under: Debian GNU/Linux 10 (buster)

      Matrix products: default
      BLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0

      locale:
       [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       
       [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   
       [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          
      [10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   

      time zone: NA
      tzcode source: system (glibc)

      attached base packages:
      [1] stats4    tools     stats     graphics  grDevices utils     datasets 
      [8] methods   base     

      other attached packages:
       [1] GenomicFeatures_1.52.1      AnnotationDbi_1.62.2       
       [3] tximport_1.28.0             rjson_0.2.21               
       [5] gplots_3.1.3                RColorBrewer_1.1-3         
       [7] DESeq2_1.40.2               SummarizedExperiment_1.30.2
       [9] Biobase_2.60.0              MatrixGenerics_1.12.2      
      [11] matrixStats_1.0.0           GenomicRanges_1.52.0       
      [13] GenomeInfoDb_1.36.1         IRanges_2.34.1             
      [15] S4Vectors_0.38.1            BiocGenerics_0.46.0        
      [17] getopt_1.20.3              

      loaded via a namespace (and not attached):
       [1] tidyselect_1.2.0         dplyr_1.1.2              blob_1.2.4              
       [4] filelock_1.0.2           Biostrings_2.68.1        bitops_1.0-7            
       [7] fastmap_1.1.1            RCurl_1.98-1.12          BiocFileCache_2.8.0     
      [10] GenomicAlignments_1.36.0 XML_3.99-0.14            digest_0.6.33           
      [13] lifecycle_1.0.3          KEGGREST_1.40.0          RSQLite_2.3.1           
      [16] magrittr_2.0.3           compiler_4.3.1           rlang_1.1.1             
      [19] progress_1.2.2           yaml_2.3.7               utf8_1.2.3              
      [22] rtracklayer_1.60.0       prettyunits_1.1.1        S4Arrays_1.0.4          
      [25] bit_4.0.5                curl_5.0.1               DelayedArray_0.26.6     
      [28] xml2_1.3.5               BiocParallel_1.34.2      KernSmooth_2.23-22      
      [31] grid_4.3.1               fansi_1.0.4              caTools_1.18.2          
      [34] colorspace_2.1-0         ggplot2_3.4.2            scales_1.2.1            
      [37] gtools_3.9.4             biomaRt_2.56.1           cli_3.6.1               
      [40] crayon_1.5.2             generics_0.1.3           httr_1.4.6              
      [43] DBI_1.1.3                cachem_1.0.8             stringr_1.5.0           
      [46] zlibbioc_1.46.0          parallel_4.3.1           restfulr_0.0.15         
      [49] XVector_0.40.0           vctrs_0.6.3              Matrix_1.6-0            
      [52] jsonlite_1.8.7           hms_1.1.3                bit64_4.0.5             
      [55] locfit_1.5-9.8           glue_1.6.2               codetools_0.2-19        
      [58] stringi_1.7.12           gtable_0.3.3             BiocIO_1.10.0           
      [61] munsell_0.5.0            tibble_3.2.1             pillar_1.9.0            
      [64] rappdirs_0.3.3           GenomeInfoDbData_1.2.10  R6_2.5.1                
      [67] dbplyr_2.3.3             lattice_0.21-8           Rsamtools_2.16.0        
      [70] png_0.1-8                memoise_2.0.1            Rcpp_1.0.11             
      [73] pkgconfig_2.0.3         

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_options | ` {"alpha_ma": "0.1", "output_selector": []} ` |
       | advanced\_options | ` {"auto_mean_filter_off": false, "esf_cond": {"__current_case__": 0, "esf": ""}, "fit_type": "1", "outlier_filter_off": false, "outlier_replace_off": false, "prefilter_conditional": {"__current_case__": 1, "prefilter": ""}, "use_beta_priors": true} ` |
       | tximport | ` {"__current_case__": 0, "mapping_format": {"__current_case__": 0, "gtf_file": {"values": [{"id": 450, "src": "hda"}]}, "mapping_format_selector": "gtf"}, "tximport_selector": "tximport", "txtype": "sailfish"} ` |
       | header | ` true ` |
       | batch\_factors | ` None ` |
       | select\_data | ` {"__current_case__": 1, "how": "datasets_per_level", "rep_factorName": [{"__index__": 0, "factorName": "Treatment", "rep_factorLevel": [{"__index__": 0, "countsFile": {"values": [{"id": 444, "src": "hda"}, {"id": 445, "src": "hda"}, {"id": 446, "src": "hda"}]}, "factorLevel": "Treated"}, {"__index__": 1, "countsFile": {"values": [{"id": 447, "src": "hda"}, {"id": 448, "src": "hda"}, {"id": 449, "src": "hda"}]}, "factorLevel": "Untreated"}]}]} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; deseq2 (Test # 7)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -s '/galaxy/server/database/objects/5/c/8/dataset_5c88456d-ab83-44c2-ae8b-674a5b61b21d.dat' mapping.gff &&  cat '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/get_deseq_dataset.R' > /dev/null &&  Rscript '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/deseq2.R' --cores ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/1/7/4/dataset_1741baff-cdf8-4754-a2a7-8f170ac925e0.dat' -A 0.1                  -H  -f '[["Treatment", [{"Untreated": ["/galaxy/server/database/objects/3/6/a/dataset_36a071cb-edd9-450e-a245-a39607f2a642.dat", "/galaxy/server/database/objects/3/0/7/dataset_30709da4-0782-400b-9584-6d9e6332f299.dat", "/galaxy/server/database/objects/5/7/a/dataset_57ae1024-8b12-41ab-8db1-38d09f33db0e.dat"]}, {"Treated": ["/galaxy/server/database/objects/9/5/d/dataset_95dd781d-f944-41a4-b982-127bfbe070c0.dat", "/galaxy/server/database/objects/a/c/f/dataset_acf01a47-69e0-4d9d-9588-92dd21e6f9c0.dat", "/galaxy/server/database/objects/a/c/9/dataset_ac9a0a8f-77aa-46fd-9d5e-cca368b62f24.dat"]}]]]' -l '{"dataset_95dd781d-f944-41a4-b982-127bfbe070c0.dat": "sailfish_quant.sf1.tab", "dataset_acf01a47-69e0-4d9d-9588-92dd21e6f9c0.dat": "sailfish_quant.sf2.tab", "dataset_ac9a0a8f-77aa-46fd-9d5e-cca368b62f24.dat": "sailfish_quant.sf3.tab", "dataset_36a071cb-edd9-450e-a245-a39607f2a642.dat": "sailfish_quant.sf4.tab", "dataset_30709da4-0782-400b-9584-6d9e6332f299.dat": "sailfish_quant.sf5.tab", "dataset_57ae1024-8b12-41ab-8db1-38d09f33db0e.dat": "sailfish_quant.sf6.tab"}' -t 1     -d  -i -y sailfish -x mapping.gff
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Error:**

    * ```console
      Import genomic features from the file as a GRanges object ... OK
      Prepare the 'metadata' data frame ... OK
      Make the TxDb object ... OK
      'select()' returned 1:1 mapping between keys and columns
      reading in files with read.delim (install 'readr' package for speed up)
      1 2 3 4 5 6 
      reading in files with read.delim (install 'readr' package for speed up)
      1 2 3 4 5 6 
      summarizing abundance
      summarizing counts
      summarizing length
      using counts and average transcript lengths from tximport
      Warning message:
      In .get_cds_IDX(mcols0$type, mcols0$phase) :
        The "phase" metadata column contains non-NA values for features of type
        stop_codon. This information was ignored.
      estimating size factors
      using 'avgTxLength' from assays(dds), correcting for library size
      estimating dispersions
      gene-wise dispersion estimates
      mean-dispersion relationship
      -- note: fitType='parametric', but the dispersion trend was not well captured by the
         function: y = a/x + b, and a local regression fit was automatically substituted.
         specify fitType='local' or 'mean' to avoid this message next time.
      final dispersion estimates
      fitting model and testing
      Warning message:
      In lfproc(x, y, weights = weights, cens = cens, base = base, geth = geth,  :
        Estimated rdf < 1.0; not estimating variance

      ```
    **Standard Output:**

    * ```console
      primary factor: Treatment 

      ---------------------
      No size factor was used
      DESeq2 run information

      sample table:
                             Treatment
      sailfish_quant.sf4.tab Untreated
      sailfish_quant.sf5.tab Untreated
      sailfish_quant.sf6.tab Untreated
      sailfish_quant.sf1.tab   Treated
      sailfish_quant.sf2.tab   Treated
      sailfish_quant.sf3.tab   Treated

      design formula:
      ~Treatment


      6 samples with counts over 11 genes
      [1] "use_beta_prior is set to TRUE"
      using disperion fit type: parametric 
      summary of results
      Treatment: Treated vs Untreated

      out of 9 with nonzero total read count
      adjusted p-value < 0.1
      LFC > 0 (up)       : 0, 0%
      LFC < 0 (down)     : 0, 0%
      outliers [1]       : 0, 0%
      low counts [2]     : 0, 0%
      (mean count < 0)
      [1] see 'cooksCutoff' argument of ?results
      [2] see 'independentFiltering' argument of ?results

      NULL
      Session information:

      R version 4.3.1 (2023-06-16)
      Platform: x86_64-conda-linux-gnu (64-bit)
      Running under: Debian GNU/Linux 10 (buster)

      Matrix products: default
      BLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0

      locale:
       [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       
       [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   
       [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          
      [10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   

      time zone: NA
      tzcode source: system (glibc)

      attached base packages:
      [1] stats4    tools     stats     graphics  grDevices utils     datasets 
      [8] methods   base     

      other attached packages:
       [1] GenomicFeatures_1.52.1      AnnotationDbi_1.62.2       
       [3] tximport_1.28.0             rjson_0.2.21               
       [5] gplots_3.1.3                RColorBrewer_1.1-3         
       [7] DESeq2_1.40.2               SummarizedExperiment_1.30.2
       [9] Biobase_2.60.0              MatrixGenerics_1.12.2      
      [11] matrixStats_1.0.0           GenomicRanges_1.52.0       
      [13] GenomeInfoDb_1.36.1         IRanges_2.34.1             
      [15] S4Vectors_0.38.1            BiocGenerics_0.46.0        
      [17] getopt_1.20.3              

      loaded via a namespace (and not attached):
       [1] tidyselect_1.2.0         dplyr_1.1.2              blob_1.2.4              
       [4] filelock_1.0.2           Biostrings_2.68.1        bitops_1.0-7            
       [7] fastmap_1.1.1            RCurl_1.98-1.12          BiocFileCache_2.8.0     
      [10] GenomicAlignments_1.36.0 XML_3.99-0.14            digest_0.6.33           
      [13] lifecycle_1.0.3          KEGGREST_1.40.0          RSQLite_2.3.1           
      [16] magrittr_2.0.3           compiler_4.3.1           rlang_1.1.1             
      [19] progress_1.2.2           yaml_2.3.7               utf8_1.2.3              
      [22] rtracklayer_1.60.0       prettyunits_1.1.1        S4Arrays_1.0.4          
      [25] bit_4.0.5                curl_5.0.1               DelayedArray_0.26.6     
      [28] xml2_1.3.5               BiocParallel_1.34.2      KernSmooth_2.23-22      
      [31] grid_4.3.1               fansi_1.0.4              caTools_1.18.2          
      [34] colorspace_2.1-0         ggplot2_3.4.2            scales_1.2.1            
      [37] gtools_3.9.4             biomaRt_2.56.1           cli_3.6.1               
      [40] crayon_1.5.2             generics_0.1.3           httr_1.4.6              
      [43] DBI_1.1.3                cachem_1.0.8             stringr_1.5.0           
      [46] zlibbioc_1.46.0          parallel_4.3.1           restfulr_0.0.15         
      [49] XVector_0.40.0           vctrs_0.6.3              Matrix_1.6-0            
      [52] jsonlite_1.8.7           hms_1.1.3                bit64_4.0.5             
      [55] locfit_1.5-9.8           glue_1.6.2               codetools_0.2-19        
      [58] stringi_1.7.12           gtable_0.3.3             BiocIO_1.10.0           
      [61] munsell_0.5.0            tibble_3.2.1             pillar_1.9.0            
      [64] rappdirs_0.3.3           GenomeInfoDbData_1.2.10  R6_2.5.1                
      [67] dbplyr_2.3.3             lattice_0.21-8           Rsamtools_2.16.0        
      [70] png_0.1-8                memoise_2.0.1            Rcpp_1.0.11             
      [73] pkgconfig_2.0.3         

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_options | ` {"alpha_ma": "0.1", "output_selector": []} ` |
       | advanced\_options | ` {"auto_mean_filter_off": false, "esf_cond": {"__current_case__": 0, "esf": ""}, "fit_type": "1", "outlier_filter_off": false, "outlier_replace_off": false, "prefilter_conditional": {"__current_case__": 1, "prefilter": ""}, "use_beta_priors": true} ` |
       | tximport | ` {"__current_case__": 0, "mapping_format": {"__current_case__": 0, "gtf_file": {"values": [{"id": 458, "src": "hda"}]}, "mapping_format_selector": "gtf"}, "tximport_selector": "tximport", "txtype": "sailfish"} ` |
       | header | ` true ` |
       | batch\_factors | ` None ` |
       | select\_data | ` {"__current_case__": 1, "how": "datasets_per_level", "rep_factorName": [{"__index__": 0, "factorName": "Treatment", "rep_factorLevel": [{"__index__": 0, "countsFile": {"values": [{"id": 452, "src": "hda"}, {"id": 453, "src": "hda"}, {"id": 454, "src": "hda"}]}, "factorLevel": "Treated"}, {"__index__": 1, "countsFile": {"values": [{"id": 455, "src": "hda"}, {"id": 456, "src": "hda"}, {"id": 457, "src": "hda"}]}, "factorLevel": "Untreated"}]}]} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; deseq2 (Test # 8)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -s '/galaxy/server/database/objects/1/e/3/dataset_1e301175-e28b-4485-8244-b5b752646828.dat' mapping.txt &&  cat '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/get_deseq_dataset.R' > /dev/null &&  Rscript '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/deseq2.R' --cores ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/d/f/5/dataset_df5b2e2f-ca3e-4bac-bfaa-afd0b163a302.dat' -A 0.1                  -H  -f '[["Treatment", [{"Untreated": ["/galaxy/server/database/objects/b/6/5/dataset_b65b4bcd-a086-4db1-8d69-f260d383a1d0.dat", "/galaxy/server/database/objects/c/0/4/dataset_c04946c8-b2bc-4b60-9a1c-a8b89126d2ad.dat", "/galaxy/server/database/objects/4/8/9/dataset_48941af8-016e-413b-88ba-d8e2c622e158.dat"]}, {"Treated": ["/galaxy/server/database/objects/0/0/7/dataset_007a9bd1-a94c-4dec-8a58-7a017a18b01a.dat", "/galaxy/server/database/objects/d/3/1/dataset_d316912a-c228-4bd7-91b7-38fcd4176ac4.dat", "/galaxy/server/database/objects/a/4/0/dataset_a409f178-6a48-47f3-afec-f8e23edd2f50.dat"]}]]]' -l '{"dataset_007a9bd1-a94c-4dec-8a58-7a017a18b01a.dat": "1", "dataset_d316912a-c228-4bd7-91b7-38fcd4176ac4.dat": "2", "dataset_a409f178-6a48-47f3-afec-f8e23edd2f50.dat": "3", "dataset_b65b4bcd-a086-4db1-8d69-f260d383a1d0.dat": "4", "dataset_c04946c8-b2bc-4b60-9a1c-a8b89126d2ad.dat": "5", "dataset_48941af8-016e-413b-88ba-d8e2c622e158.dat": "6"}' -t 1     -d  -i -y sailfish -x mapping.txt
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Error:**

    * ```console
      reading in files with read.delim (install 'readr' package for speed up)
      1 2 3 4 5 6 
      summarizing abundance
      summarizing counts
      summarizing length
      using counts and average transcript lengths from tximport
      estimating size factors
      using 'avgTxLength' from assays(dds), correcting for library size
      estimating dispersions
      gene-wise dispersion estimates
      mean-dispersion relationship
      -- note: fitType='parametric', but the dispersion trend was not well captured by the
         function: y = a/x + b, and a local regression fit was automatically substituted.
         specify fitType='local' or 'mean' to avoid this message next time.
      final dispersion estimates
      fitting model and testing
      Warning message:
      In lfproc(x, y, weights = weights, cens = cens, base = base, geth = geth,  :
        Estimated rdf < 1.0; not estimating variance

      ```
    **Standard Output:**

    * ```console
      primary factor: Treatment 

      ---------------------
      No size factor was used
      DESeq2 run information

      sample table:
        Treatment
      4 Untreated
      5 Untreated
      6 Untreated
      1   Treated
      2   Treated
      3   Treated

      design formula:
      ~Treatment


      6 samples with counts over 10 genes
      [1] "use_beta_prior is set to TRUE"
      using disperion fit type: parametric 
      summary of results
      Treatment: Treated vs Untreated

      out of 8 with nonzero total read count
      adjusted p-value < 0.1
      LFC > 0 (up)       : 0, 0%
      LFC < 0 (down)     : 0, 0%
      outliers [1]       : 0, 0%
      low counts [2]     : 0, 0%
      (mean count < 0)
      [1] see 'cooksCutoff' argument of ?results
      [2] see 'independentFiltering' argument of ?results

      NULL
      Session information:

      R version 4.3.1 (2023-06-16)
      Platform: x86_64-conda-linux-gnu (64-bit)
      Running under: Debian GNU/Linux 10 (buster)

      Matrix products: default
      BLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0

      locale:
       [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       
       [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   
       [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          
      [10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   

      time zone: NA
      tzcode source: system (glibc)

      attached base packages:
      [1] stats4    tools     stats     graphics  grDevices utils     datasets 
      [8] methods   base     

      other attached packages:
       [1] tximport_1.28.0             rjson_0.2.21               
       [3] gplots_3.1.3                RColorBrewer_1.1-3         
       [5] DESeq2_1.40.2               SummarizedExperiment_1.30.2
       [7] Biobase_2.60.0              MatrixGenerics_1.12.2      
       [9] matrixStats_1.0.0           GenomicRanges_1.52.0       
      [11] GenomeInfoDb_1.36.1         IRanges_2.34.1             
      [13] S4Vectors_0.38.1            BiocGenerics_0.46.0        
      [15] getopt_1.20.3              

      loaded via a namespace (and not attached):
       [1] utf8_1.2.3              generics_0.1.3          bitops_1.0-7           
       [4] KernSmooth_2.23-22      gtools_3.9.4            lattice_0.21-8         
       [7] caTools_1.18.2          magrittr_2.0.3          grid_4.3.1             
      [10] jsonlite_1.8.7          Matrix_1.6-0            fansi_1.0.4            
      [13] scales_1.2.1            codetools_0.2-19        cli_3.6.1              
      [16] rlang_1.1.1             crayon_1.5.2            XVector_0.40.0         
      [19] munsell_0.5.0           DelayedArray_0.26.6     S4Arrays_1.0.4         
      [22] parallel_4.3.1          BiocParallel_1.34.2     dplyr_1.1.2            
      [25] colorspace_2.1-0        ggplot2_3.4.2           locfit_1.5-9.8         
      [28] GenomeInfoDbData_1.2.10 vctrs_0.6.3             R6_2.5.1               
      [31] lifecycle_1.0.3         zlibbioc_1.46.0         pkgconfig_2.0.3        
      [34] pillar_1.9.0            gtable_0.3.3            glue_1.6.2             
      [37] Rcpp_1.0.11             tibble_3.2.1            tidyselect_1.2.0       
      [40] compiler_4.3.1          RCurl_1.98-1.12        

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_options | ` {"alpha_ma": "0.1", "output_selector": []} ` |
       | advanced\_options | ` {"auto_mean_filter_off": false, "esf_cond": {"__current_case__": 0, "esf": ""}, "fit_type": "1", "outlier_filter_off": false, "outlier_replace_off": false, "prefilter_conditional": {"__current_case__": 1, "prefilter": ""}, "use_beta_priors": true} ` |
       | tximport | ` {"__current_case__": 0, "mapping_format": {"__current_case__": 1, "mapping_format_selector": "tabular", "tabular_file": {"values": [{"id": 466, "src": "hda"}]}}, "tximport_selector": "tximport", "txtype": "sailfish"} ` |
       | header | ` true ` |
       | batch\_factors | ` None ` |
       | select\_data | ` {"__current_case__": 0, "countsFile": {"values": [{"id": 18, "src": "hdca"}]}, "how": "group_tags", "rep_factorName": [{"__index__": 0, "factorName": "Treatment", "rep_factorLevel": [{"__index__": 0, "factorLevel": "Treated", "groups": ["primary:treated"]}, {"__index__": 1, "factorLevel": "Untreated", "groups": ["primary:untreated"]}]}]} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; deseq2 (Test # 9)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -s '/galaxy/server/database/objects/c/a/8/dataset_ca8433a0-67eb-4ba3-970c-b8d40ab36f95.dat' mapping.txt &&  cat '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/get_deseq_dataset.R' > /dev/null &&  Rscript '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/deseq2.R' --cores ${GALAXY_SLOTS:-1} -o 'XXXX' -A 0.1                  -H  -f '[["Treatment", [{"Untreated": ["/galaxy/server/database/objects/8/e/7/dataset_8e7e20a7-d639-4686-822b-d5a43595ae94.dat", "/galaxy/server/database/objects/7/8/3/dataset_7832e82b-d1c9-4e4d-8fb3-341678dcb377.dat", "/galaxy/server/database/objects/4/7/9/dataset_4795996c-29c4-4dc7-ac5c-0941deed5657.dat"]}, {"Treated": ["/galaxy/server/database/objects/6/d/4/dataset_6d4a3239-7254-4411-aa6c-e6ec3481fa7c.dat", "/galaxy/server/database/objects/1/d/7/dataset_1d745d73-191d-4f58-9ce2-790bfebb66d8.dat", "/galaxy/server/database/objects/8/7/b/dataset_87b5feb8-2303-4a7c-b600-83bce7fa0842.dat"]}]]]' -l '{"dataset_6d4a3239-7254-4411-aa6c-e6ec3481fa7c.dat": "1", "dataset_1d745d73-191d-4f58-9ce2-790bfebb66d8.dat": "2", "dataset_87b5feb8-2303-4a7c-b600-83bce7fa0842.dat": "3", "dataset_8e7e20a7-d639-4686-822b-d5a43595ae94.dat": "4", "dataset_7832e82b-d1c9-4e4d-8fb3-341678dcb377.dat": "5", "dataset_4795996c-29c4-4dc7-ac5c-0941deed5657.dat": "6"}' -t 1     -d  -m -i -y sailfish -x mapping.txt
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Error:**

    * ```console
      reading in files with read.delim (install 'readr' package for speed up)
      1 2 3 4 5 6 
      summarizing abundance
      summarizing counts
      summarizing length
      using counts and average transcript lengths from tximport
      estimating size factors
      using 'avgTxLength' from assays(dds), correcting for library size
      estimating dispersions
      gene-wise dispersion estimates
      mean-dispersion relationship
      -- note: fitType='parametric', but the dispersion trend was not well captured by the
         function: y = a/x + b, and a local regression fit was automatically substituted.
         specify fitType='local' or 'mean' to avoid this message next time.
      final dispersion estimates
      fitting model and testing
      Warning message:
      In lfproc(x, y, weights = weights, cens = cens, base = base, geth = geth,  :
        Estimated rdf < 1.0; not estimating variance

      ```
    **Standard Output:**

    * ```console
      primary factor: Treatment 

      ---------------------
      No size factor was used
      DESeq2 run information

      sample table:
        Treatment
      4 Untreated
      5 Untreated
      6 Untreated
      1   Treated
      2   Treated
      3   Treated

      design formula:
      ~Treatment


      6 samples with counts over 10 genes
      [1] "use_beta_prior is set to TRUE"
      using disperion fit type: parametric 
      Session information:

      R version 4.3.1 (2023-06-16)
      Platform: x86_64-conda-linux-gnu (64-bit)
      Running under: Debian GNU/Linux 10 (buster)

      Matrix products: default
      BLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0

      locale:
       [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       
       [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   
       [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          
      [10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   

      time zone: NA
      tzcode source: system (glibc)

      attached base packages:
      [1] stats4    tools     stats     graphics  grDevices utils     datasets 
      [8] methods   base     

      other attached packages:
       [1] tximport_1.28.0             rjson_0.2.21               
       [3] gplots_3.1.3                RColorBrewer_1.1-3         
       [5] DESeq2_1.40.2               SummarizedExperiment_1.30.2
       [7] Biobase_2.60.0              MatrixGenerics_1.12.2      
       [9] matrixStats_1.0.0           GenomicRanges_1.52.0       
      [11] GenomeInfoDb_1.36.1         IRanges_2.34.1             
      [13] S4Vectors_0.38.1            BiocGenerics_0.46.0        
      [15] getopt_1.20.3              

      loaded via a namespace (and not attached):
       [1] utf8_1.2.3              generics_0.1.3          bitops_1.0-7           
       [4] KernSmooth_2.23-22      gtools_3.9.4            lattice_0.21-8         
       [7] caTools_1.18.2          magrittr_2.0.3          grid_4.3.1             
      [10] jsonlite_1.8.7          Matrix_1.6-0            fansi_1.0.4            
      [13] scales_1.2.1            codetools_0.2-19        cli_3.6.1              
      [16] rlang_1.1.1             crayon_1.5.2            XVector_0.40.0         
      [19] munsell_0.5.0           DelayedArray_0.26.6     S4Arrays_1.0.4         
      [22] parallel_4.3.1          BiocParallel_1.34.2     dplyr_1.1.2            
      [25] colorspace_2.1-0        ggplot2_3.4.2           locfit_1.5-9.8         
      [28] GenomeInfoDbData_1.2.10 vctrs_0.6.3             R6_2.5.1               
      [31] lifecycle_1.0.3         zlibbioc_1.46.0         pkgconfig_2.0.3        
      [34] pillar_1.9.0            gtable_0.3.3            glue_1.6.2             
      [37] Rcpp_1.0.11             tibble_3.2.1            tidyselect_1.2.0       
      [40] compiler_4.3.1          RCurl_1.98-1.12        

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_options | ` {"alpha_ma": "0.1", "output_selector": "many_contrasts"} ` |
       | advanced\_options | ` {"auto_mean_filter_off": false, "esf_cond": {"__current_case__": 0, "esf": ""}, "fit_type": "1", "outlier_filter_off": false, "outlier_replace_off": false, "prefilter_conditional": {"__current_case__": 1, "prefilter": ""}, "use_beta_priors": true} ` |
       | tximport | ` {"__current_case__": 0, "mapping_format": {"__current_case__": 1, "mapping_format_selector": "tabular", "tabular_file": {"values": [{"id": 474, "src": "hda"}]}}, "tximport_selector": "tximport", "txtype": "sailfish"} ` |
       | header | ` true ` |
       | batch\_factors | ` None ` |
       | select\_data | ` {"__current_case__": 0, "countsFile": {"values": [{"id": 19, "src": "hdca"}]}, "how": "group_tags", "rep_factorName": [{"__index__": 0, "factorName": "Treatment", "rep_factorLevel": [{"__index__": 0, "factorLevel": "Treated", "groups": ["primary:treated"]}, {"__index__": 1, "factorLevel": "Untreated", "groups": ["primary:untreated"]}]}]} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; deseq2 (Test # 10)</summary><div class="padded">

    **Command Line:**

    * ```console
      ln -s '/galaxy/server/database/objects/3/2/a/dataset_32a6706b-394b-4767-8892-a648d4a81898.dat' mapping.gff &&  cat '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/get_deseq_dataset.R' > /dev/null &&  Rscript '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/deseq2.R' --cores ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/b/b/1/dataset_bb1192b4-6f01-4f8b-92c4-7872c03c3c02.dat' -A 0.05                  -H  -f '[["Treatment", [{"Untreated": ["/galaxy/server/database/objects/6/f/f/dataset_6ff24731-a4cd-4f7f-ae36-affb7eb4c01a.dat", "/galaxy/server/database/objects/a/8/5/dataset_a8556f10-dc48-4643-a8da-58e58cd38097.dat", "/galaxy/server/database/objects/4/0/a/dataset_40a3dc28-e28b-4224-afe1-a54f312d6d45.dat"]}, {"Treated": ["/galaxy/server/database/objects/5/f/3/dataset_5f3b50a1-7ef2-4200-847d-f5774d358a7c.dat", "/galaxy/server/database/objects/b/0/0/dataset_b009c966-5ad8-442c-a669-76457b6c5d63.dat", "/galaxy/server/database/objects/3/c/2/dataset_3c29917b-a2bf-435c-b33b-3e2311887203.dat"]}]]]' -l '{"dataset_5f3b50a1-7ef2-4200-847d-f5774d358a7c.dat": "sailfish_quant.sf1.tab", "dataset_b009c966-5ad8-442c-a669-76457b6c5d63.dat": "sailfish_quant.sf2.tab", "dataset_3c29917b-a2bf-435c-b33b-3e2311887203.dat": "sailfish_quant.sf3.tab", "dataset_6ff24731-a4cd-4f7f-ae36-affb7eb4c01a.dat": "sailfish_quant.sf4.tab", "dataset_a8556f10-dc48-4643-a8da-58e58cd38097.dat": "sailfish_quant.sf5.tab", "dataset_40a3dc28-e28b-4224-afe1-a54f312d6d45.dat": "sailfish_quant.sf6.tab"}' -t 1     -d  -i -y sailfish -x mapping.gff
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Error:**

    * ```console
      Import genomic features from the file as a GRanges object ... OK
      Prepare the 'metadata' data frame ... OK
      Make the TxDb object ... OK
      'select()' returned 1:1 mapping between keys and columns
      reading in files with read.delim (install 'readr' package for speed up)
      1 2 3 4 5 6 
      reading in files with read.delim (install 'readr' package for speed up)
      1 2 3 4 5 6 
      summarizing abundance
      summarizing counts
      summarizing length
      using counts and average transcript lengths from tximport
      Warning message:
      In .get_cds_IDX(mcols0$type, mcols0$phase) :
        The "phase" metadata column contains non-NA values for features of type
        stop_codon. This information was ignored.
      estimating size factors
      using 'avgTxLength' from assays(dds), correcting for library size
      estimating dispersions
      gene-wise dispersion estimates
      mean-dispersion relationship
      -- note: fitType='parametric', but the dispersion trend was not well captured by the
         function: y = a/x + b, and a local regression fit was automatically substituted.
         specify fitType='local' or 'mean' to avoid this message next time.
      final dispersion estimates
      fitting model and testing
      Warning message:
      In lfproc(x, y, weights = weights, cens = cens, base = base, geth = geth,  :
        Estimated rdf < 1.0; not estimating variance

      ```
    **Standard Output:**

    * ```console
      primary factor: Treatment 

      ---------------------
      No size factor was used
      DESeq2 run information

      sample table:
                             Treatment
      sailfish_quant.sf4.tab Untreated
      sailfish_quant.sf5.tab Untreated
      sailfish_quant.sf6.tab Untreated
      sailfish_quant.sf1.tab   Treated
      sailfish_quant.sf2.tab   Treated
      sailfish_quant.sf3.tab   Treated

      design formula:
      ~Treatment


      6 samples with counts over 11 genes
      [1] "use_beta_prior is set to TRUE"
      using disperion fit type: parametric 
      summary of results
      Treatment: Treated vs Untreated

      out of 9 with nonzero total read count
      adjusted p-value < 0.1
      LFC > 0 (up)       : 0, 0%
      LFC < 0 (down)     : 0, 0%
      outliers [1]       : 0, 0%
      low counts [2]     : 0, 0%
      (mean count < 0)
      [1] see 'cooksCutoff' argument of ?results
      [2] see 'independentFiltering' argument of ?results

      NULL
      Session information:

      R version 4.3.1 (2023-06-16)
      Platform: x86_64-conda-linux-gnu (64-bit)
      Running under: Debian GNU/Linux 10 (buster)

      Matrix products: default
      BLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0

      locale:
       [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       
       [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   
       [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          
      [10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   

      time zone: NA
      tzcode source: system (glibc)

      attached base packages:
      [1] stats4    tools     stats     graphics  grDevices utils     datasets 
      [8] methods   base     

      other attached packages:
       [1] GenomicFeatures_1.52.1      AnnotationDbi_1.62.2       
       [3] tximport_1.28.0             rjson_0.2.21               
       [5] gplots_3.1.3                RColorBrewer_1.1-3         
       [7] DESeq2_1.40.2               SummarizedExperiment_1.30.2
       [9] Biobase_2.60.0              MatrixGenerics_1.12.2      
      [11] matrixStats_1.0.0           GenomicRanges_1.52.0       
      [13] GenomeInfoDb_1.36.1         IRanges_2.34.1             
      [15] S4Vectors_0.38.1            BiocGenerics_0.46.0        
      [17] getopt_1.20.3              

      loaded via a namespace (and not attached):
       [1] tidyselect_1.2.0         dplyr_1.1.2              blob_1.2.4              
       [4] filelock_1.0.2           Biostrings_2.68.1        bitops_1.0-7            
       [7] fastmap_1.1.1            RCurl_1.98-1.12          BiocFileCache_2.8.0     
      [10] GenomicAlignments_1.36.0 XML_3.99-0.14            digest_0.6.33           
      [13] lifecycle_1.0.3          KEGGREST_1.40.0          RSQLite_2.3.1           
      [16] magrittr_2.0.3           compiler_4.3.1           rlang_1.1.1             
      [19] progress_1.2.2           yaml_2.3.7               utf8_1.2.3              
      [22] rtracklayer_1.60.0       prettyunits_1.1.1        S4Arrays_1.0.4          
      [25] bit_4.0.5                curl_5.0.1               DelayedArray_0.26.6     
      [28] xml2_1.3.5               BiocParallel_1.34.2      KernSmooth_2.23-22      
      [31] grid_4.3.1               fansi_1.0.4              caTools_1.18.2          
      [34] colorspace_2.1-0         ggplot2_3.4.2            scales_1.2.1            
      [37] gtools_3.9.4             biomaRt_2.56.1           cli_3.6.1               
      [40] crayon_1.5.2             generics_0.1.3           httr_1.4.6              
      [43] DBI_1.1.3                cachem_1.0.8             stringr_1.5.0           
      [46] zlibbioc_1.46.0          parallel_4.3.1           restfulr_0.0.15         
      [49] XVector_0.40.0           vctrs_0.6.3              Matrix_1.6-0            
      [52] jsonlite_1.8.7           hms_1.1.3                bit64_4.0.5             
      [55] locfit_1.5-9.8           glue_1.6.2               codetools_0.2-19        
      [58] stringi_1.7.12           gtable_0.3.3             BiocIO_1.10.0           
      [61] munsell_0.5.0            tibble_3.2.1             pillar_1.9.0            
      [64] rappdirs_0.3.3           GenomeInfoDbData_1.2.10  R6_2.5.1                
      [67] dbplyr_2.3.3             lattice_0.21-8           Rsamtools_2.16.0        
      [70] png_0.1-8                memoise_2.0.1            Rcpp_1.0.11             
      [73] pkgconfig_2.0.3         

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | output\_options | ` {"alpha_ma": "0.05", "output_selector": []} ` |
       | advanced\_options | ` {"auto_mean_filter_off": false, "esf_cond": {"__current_case__": 0, "esf": ""}, "fit_type": "1", "outlier_filter_off": false, "outlier_replace_off": false, "prefilter_conditional": {"__current_case__": 1, "prefilter": ""}, "use_beta_priors": true} ` |
       | tximport | ` {"__current_case__": 0, "mapping_format": {"__current_case__": 0, "gtf_file": {"values": [{"id": 482, "src": "hda"}]}, "mapping_format_selector": "gtf"}, "tximport_selector": "tximport", "txtype": "sailfish"} ` |
       | header | ` true ` |
       | batch\_factors | ` None ` |
       | select\_data | ` {"__current_case__": 1, "how": "datasets_per_level", "rep_factorName": [{"__index__": 0, "factorName": "Treatment", "rep_factorLevel": [{"__index__": 0, "countsFile": {"values": [{"id": 476, "src": "hda"}, {"id": 477, "src": "hda"}, {"id": 478, "src": "hda"}]}, "factorLevel": "Treated"}, {"__index__": 1, "countsFile": {"values": [{"id": 479, "src": "hda"}, {"id": 480, "src": "hda"}, {"id": 481, "src": "hda"}]}, "factorLevel": "Untreated"}]}]} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; mummer_mummer (Test # 1)</summary><div class="padded">

    **Command Line:**

    * ```console
      mummer  -l '20' -b      -threads ${GALAXY_SLOTS:-1} -qthreads ${GALAXY_SLOTS:-1} '/galaxy/server/database/objects/6/f/d/dataset_6fdcdb4c-8a7d-4c3b-bfce-cb18980764fd.dat' '/galaxy/server/database/objects/4/3/c/dataset_43c129aa-fe69-4cd8-8a20-959cecd8552c.dat' > '/galaxy/server/database/objects/1/6/4/dataset_164d6be6-3cdd-4e6c-93cf-1a036f945c95.dat' && mummerplot -b '20'     -s 'small' -terminal png -title 'Title'  '/galaxy/server/database/objects/1/6/4/dataset_164d6be6-3cdd-4e6c-93cf-1a036f945c95.dat' && gnuplot < out.gp
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Error:**

    * ```console
      Reading mummer file /galaxy/server/database/objects/1/6/4/dataset_164d6be6-3cdd-4e6c-93cf-1a036f945c95.dat (use mummer -c)
      Writing plot files out.fplot, out.rplot, out.hplot
      Writing gnuplot script out.gp
      Rendering plot out.png
      WARNING: Unable to run 'false out.gp', Inappropriate ioctl for device

      ```
    **Standard Output:**

    * ```console
      gnuplot 5.4 patchlevel 8

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | mumplot | ` {"__current_case__": 0, "breaklen": "20", "color": "", "coverage": "", "fat": false, "filter": false, "labels": {"IDs": "no", "__current_case__": 1}, "plot": "yes", "range": {"__current_case__": 1, "custom": "no"}, "size": "small", "snp": false, "title": "Title"} ` |
       | options | ` {"__current_case__": 1, "advanced": "defaults"} ` |
       | position | ` false ` |
       | substring | ` false ` |
       | print\_length | ` false ` |
       | chars | ` false ` |
       | force | ` false ` |
       | direction | ` "-b" ` |
       | min | ` "20" ` |
       | anchoring | ` "" ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; poretools_yield_plot (Test # 1)</summary><div class="padded">

    **Command Line:**

    * ```console
      export MPLBACKEND="agg" && poretools yield_plot '/galaxy/server/database/objects/0/6/2/dataset_062759d5-6f6e-4055-b4bc-afaa3c0fc626.dat' --saveas plot.png --plot-type reads  --skip 1 && mv plot.png '/galaxy/server/database/objects/2/4/e/dataset_24ecc9b7-5d0a-4e67-82bb-6bff8ddd3625.dat'
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "fast5.tar" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | theme\_bw | ` false ` |
       | extension | ` "png" ` |
       | skip | ` "1" ` |
       | plot\_type | ` "reads" ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; qualimap_bamqc (Test # 2)</summary><div class="padded">

    **Command Line:**

    * ```console
      export JAVA_OPTS="-Djava.awt.headless=true -Xmx${GALAXY_MEMORY_MB:-1024}m" &&    ln -s '/galaxy/server/database/objects/d/4/6/dataset_d46c4f54-79d6-4b35-8855-3164649d221e.dat' 'test_mapped_reads_bam' &&  qualimap bamqc -bam 'test_mapped_reads_bam' -outdir results -outformat html --collect-overlap-pairs --output-genome-coverage results/coverage.txt -nw 400 --paint-chromosome-limits -hm 3  --skip-duplicated --skip-dup-mode 0 -nt ${GALAXY_SLOTS:-1} &&  mv results/coverage.txt '/galaxy/server/database/objects/c/c/9/dataset_cc99b869-5051-4a6d-a5c0-3e42ad61ae9d.dat' &&  sed 's|images_qualimapReport/||g;s|css/||g' results/qualimapReport.html > '/galaxy/server/database/objects/3/2/9/dataset_3299cfb9-47b5-4fae-8398-6ee8e37eb04d.dat' && mkdir '/galaxy/server/database/objects/3/2/9/dataset_3299cfb9-47b5-4fae-8398-6ee8e37eb04d_files' && mv results/css/*.css '/galaxy/server/database/objects/3/2/9/dataset_3299cfb9-47b5-4fae-8398-6ee8e37eb04d_files' && mv results/css/*.png '/galaxy/server/database/objects/3/2/9/dataset_3299cfb9-47b5-4fae-8398-6ee8e37eb04d_files' && if [ -d results/images_qualimapReport ]; then mv results/images_qualimapReport/* '/galaxy/server/database/objects/3/2/9/dataset_3299cfb9-47b5-4fae-8398-6ee8e37eb04d_files' && for file in $(ls -A results/raw_data_qualimapReport); do mv "results/raw_data_qualimapReport/$file" `echo "results/$file" | sed 's/(//;s/)//'`; done fi && mv results/genome_results.txt results/summary_report.txt
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      Java memory size is set to 1200M
      Launching application...

      detected environment java options -Djava.awt.headless=true -Xmx25769m
      QualiMap v.2.3
      Built on 2023-05-19 16:57

      Selected tool: bamqc
      Available memory (Mb): 389
      Max memory (Mb): 26121
      Starting bam qc....
      Loading sam header...
      Loading locator...
      Loading reference...
      Only flagged duplicate alignments will be skipped...
      Number of windows: 400, effective number of windows: 325
      Chunk of reads size: 1000
      Number of threads: 1
      Processed 50 out of 325 windows...
      Processed 100 out of 325 windows...
      Processed 150 out of 325 windows...
      Processed 200 out of 325 windows...
      Processed 250 out of 325 windows...
      Processed 300 out of 325 windows...
      Total processed windows:325
      Number of reads: 100
      Number of valid reads: 100
      Number of correct strand reads:0

      Inside of regions...
      Num mapped reads: 100
      Num mapped first of pair: 0
      Num mapped second of pair: 0
      Num singletons: 0
      Time taken to analyze reads: 0
      Computing descriptors...
      numberOfMappedBases: 12665
      referenceSize: 650
      numberOfSequencedBases: 7465
      numberOfAs: 1910
      Computing per chromosome statistics...
      Computing histograms...
      Overall analysis time: 0
      end of bam qc
      Computing report...
      Writing HTML report...
      HTML report created successfully

      Finished

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | plot\_specific | ` {"genome_gc_distr": null, "homopolymer_size": "3", "n_bins": "400", "paint_chromosome_limits": true} ` |
       | duplicate\_skipping | ` "0" ` |
       | per\_base\_coverage | ` true ` |
       | stats\_regions | ` {"__current_case__": 0, "region_select": "all"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; qualimap_bamqc (Test # 3)</summary><div class="padded">

    **Command Line:**

    * ```console
      export JAVA_OPTS="-Djava.awt.headless=true -Xmx${GALAXY_MEMORY_MB:-1024}m" &&   ln -s '/galaxy/server/database/objects/f/c/4/dataset_fc4ec836-ee7b-4523-b708-72a2b8c6a53b.dat' regions.gtf &&   ln -s '/galaxy/server/database/objects/c/f/7/dataset_cf79fa9e-c143-418d-9150-f74437f9ef20.dat' 'test_mapped_reads_bam' &&  qualimap bamqc -bam 'test_mapped_reads_bam' -outdir results -outformat html --collect-overlap-pairs -gff regions.gtf -nw 400 --paint-chromosome-limits -hm 3  --skip-duplicated --skip-dup-mode 0 -nt ${GALAXY_SLOTS:-1} &&   sed 's|images_qualimapReport/||g;s|css/||g' results/qualimapReport.html > '/galaxy/server/database/objects/b/7/e/dataset_b7e88771-a36a-41bd-b2bb-4de22d13e0f6.dat' && mkdir '/galaxy/server/database/objects/b/7/e/dataset_b7e88771-a36a-41bd-b2bb-4de22d13e0f6_files' && mv results/css/*.css '/galaxy/server/database/objects/b/7/e/dataset_b7e88771-a36a-41bd-b2bb-4de22d13e0f6_files' && mv results/css/*.png '/galaxy/server/database/objects/b/7/e/dataset_b7e88771-a36a-41bd-b2bb-4de22d13e0f6_files' && if [ -d results/images_qualimapReport ]; then mv results/images_qualimapReport/* '/galaxy/server/database/objects/b/7/e/dataset_b7e88771-a36a-41bd-b2bb-4de22d13e0f6_files' && for file in $(ls -A results/raw_data_qualimapReport); do mv "results/raw_data_qualimapReport/$file" `echo "results/$file" | sed 's/(//;s/)//'`; done fi && mv results/genome_results.txt results/summary_report.txt
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      Java memory size is set to 1200M
      Launching application...

      detected environment java options -Djava.awt.headless=true -Xmx25769m
      QualiMap v.2.3
      Built on 2023-05-19 16:57

      Selected tool: bamqc
      Available memory (Mb): 389
      Max memory (Mb): 26121
      Starting bam qc....
      Loading sam header...
      Loading locator...
      Loading reference...
      Only flagged duplicate alignments will be skipped...
      Number of windows: 400, effective number of windows: 325
      Chunk of reads size: 1000
      Number of threads: 1
      Initializing regions from regions.gtf.....
      Found 4 regions
      Filling region references... 
      Processed 50 out of 325 windows...
      Processed 100 out of 325 windows...
      Processed 150 out of 325 windows...
      Processed 200 out of 325 windows...
      Processed 250 out of 325 windows...
      Processed 300 out of 325 windows...
      Total processed windows:325
      Number of reads: 100
      Number of valid reads: 100
      Number of correct strand reads:0

      Inside of regions...
      Num mapped reads: 82
      Num mapped first of pair: 0
      Num mapped second of pair: 0
      Num singletons: 0
      Time taken to analyze reads: 0
      Computing descriptors...
      numberOfMappedBases: 6451
      referenceSize: 650
      numberOfSequencedBases: 5101
      numberOfAs: 1243
      Computing per chromosome statistics...
      Computing histograms...
      Overall analysis time: 0
      end of bam qc
      Computing report...
      Writing HTML report...
      HTML report created successfully

      Finished

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | plot\_specific | ` {"genome_gc_distr": null, "homopolymer_size": "3", "n_bins": "400", "paint_chromosome_limits": true} ` |
       | duplicate\_skipping | ` "0" ` |
       | per\_base\_coverage | ` false ` |
       | stats\_regions | ` {"__current_case__": 1, "outside_stats": false, "region_select": "custom_regions", "regions": {"values": [{"id": 249, "src": "hda"}]}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; qualimap_bamqc (Test # 4)</summary><div class="padded">

    **Command Line:**

    * ```console
      export JAVA_OPTS="-Djava.awt.headless=true -Xmx${GALAXY_MEMORY_MB:-1024}m" &&   ln -s '/galaxy/server/database/objects/1/0/7/dataset_1072a135-a702-4a42-bf5e-8dce6e706049.dat' regions.gtf &&   ln -s '/galaxy/server/database/objects/f/6/4/dataset_f645e397-034b-4408-9aca-c2a0b3dc2b47.dat' 'test_mapped_reads_bam' &&  qualimap bamqc -bam 'test_mapped_reads_bam' -outdir results -outformat html --collect-overlap-pairs -gff regions.gtf --output-genome-coverage results/coverage.txt -nw 400 --paint-chromosome-limits -hm 3  --skip-duplicated --skip-dup-mode 0 -nt ${GALAXY_SLOTS:-1} &&  mv results/coverage.txt '/galaxy/server/database/objects/d/0/1/dataset_d01ace8d-4028-4f21-8555-dc6e8db440ca.dat' &&  sed 's|images_qualimapReport/||g;s|css/||g' results/qualimapReport.html > '/galaxy/server/database/objects/8/4/0/dataset_840e85a8-6e16-4065-aa5e-30aed89f6210.dat' && mkdir '/galaxy/server/database/objects/8/4/0/dataset_840e85a8-6e16-4065-aa5e-30aed89f6210_files' && mv results/css/*.css '/galaxy/server/database/objects/8/4/0/dataset_840e85a8-6e16-4065-aa5e-30aed89f6210_files' && mv results/css/*.png '/galaxy/server/database/objects/8/4/0/dataset_840e85a8-6e16-4065-aa5e-30aed89f6210_files' && if [ -d results/images_qualimapReport ]; then mv results/images_qualimapReport/* '/galaxy/server/database/objects/8/4/0/dataset_840e85a8-6e16-4065-aa5e-30aed89f6210_files' && for file in $(ls -A results/raw_data_qualimapReport); do mv "results/raw_data_qualimapReport/$file" `echo "results/$file" | sed 's/(//;s/)//'`; done fi && mv results/genome_results.txt results/summary_report.txt
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      Java memory size is set to 1200M
      Launching application...

      detected environment java options -Djava.awt.headless=true -Xmx25769m
      QualiMap v.2.3
      Built on 2023-05-19 16:57

      Selected tool: bamqc
      Available memory (Mb): 389
      Max memory (Mb): 26121
      Starting bam qc....
      Loading sam header...
      Loading locator...
      Loading reference...
      Only flagged duplicate alignments will be skipped...
      Number of windows: 400, effective number of windows: 325
      Chunk of reads size: 1000
      Number of threads: 1
      Initializing regions from regions.gtf.....
      Found 4 regions
      Filling region references... 
      Processed 50 out of 325 windows...
      Processed 100 out of 325 windows...
      Processed 150 out of 325 windows...
      Processed 200 out of 325 windows...
      Processed 250 out of 325 windows...
      Processed 300 out of 325 windows...
      Total processed windows:325
      Number of reads: 100
      Number of valid reads: 100
      Number of correct strand reads:0

      Inside of regions...
      Num mapped reads: 82
      Num mapped first of pair: 0
      Num mapped second of pair: 0
      Num singletons: 0
      Time taken to analyze reads: 0
      Computing descriptors...
      numberOfMappedBases: 6451
      referenceSize: 650
      numberOfSequencedBases: 5101
      numberOfAs: 1243
      Computing per chromosome statistics...
      Computing histograms...
      Overall analysis time: 0
      end of bam qc
      Computing report...
      Writing HTML report...
      HTML report created successfully

      Finished

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | plot\_specific | ` {"genome_gc_distr": null, "homopolymer_size": "3", "n_bins": "400", "paint_chromosome_limits": true} ` |
       | duplicate\_skipping | ` "0" ` |
       | per\_base\_coverage | ` true ` |
       | stats\_regions | ` {"__current_case__": 1, "outside_stats": false, "region_select": "custom_regions", "regions": {"values": [{"id": 265, "src": "hda"}]}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; qualimap_bamqc (Test # 5)</summary><div class="padded">

    **Command Line:**

    * ```console
      export JAVA_OPTS="-Djava.awt.headless=true -Xmx${GALAXY_MEMORY_MB:-1024}m" &&   ln -s '/galaxy/server/database/objects/8/8/a/dataset_88abee7f-1b7d-4621-b174-327e2517768c.dat' regions.gtf &&   ln -s '/galaxy/server/database/objects/9/4/2/dataset_94216bbf-4d82-49a5-8137-12471762776b.dat' 'test_mapped_reads_bam' &&  qualimap bamqc -bam 'test_mapped_reads_bam' -outdir results -outformat html --collect-overlap-pairs -gff regions.gtf --outside-stats --output-genome-coverage /dev/null -nw 400 --paint-chromosome-limits -hm 3  --skip-duplicated --skip-dup-mode 0 -nt ${GALAXY_SLOTS:-1} &&  mv results/outside_coverage.txt '/galaxy/server/database/objects/3/2/9/dataset_32950e22-1cb1-4bdb-b8b7-c394904f839b.dat' &&  sed 's|images_qualimapReportOutsideRegions/||g;s|css/||g' results/qualimapReportOutsideRegions.html > '/galaxy/server/database/objects/2/e/e/dataset_2eea5415-536b-4689-981f-4487d5f68b8b.dat' && mkdir '/galaxy/server/database/objects/2/e/e/dataset_2eea5415-536b-4689-981f-4487d5f68b8b_files' && mv results/css/*.css '/galaxy/server/database/objects/2/e/e/dataset_2eea5415-536b-4689-981f-4487d5f68b8b_files' && mv results/css/*.png '/galaxy/server/database/objects/2/e/e/dataset_2eea5415-536b-4689-981f-4487d5f68b8b_files' && if [ -d results/images_qualimapReportOutsideRegions ]; then mv results/images_qualimapReportOutsideRegions/* '/galaxy/server/database/objects/2/e/e/dataset_2eea5415-536b-4689-981f-4487d5f68b8b_files' && for file in $(ls -A results/raw_data_qualimapReportOutsideRegions); do mv "results/raw_data_qualimapReportOutsideRegions/$file" `echo "results/$file" | sed 's/(//;s/)//'`; done fi && mv results/outside_results.txt results/summary_report.txt
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Output:**

    * ```console
      Java memory size is set to 1200M
      Launching application...

      detected environment java options -Djava.awt.headless=true -Xmx25769m
      QualiMap v.2.3
      Built on 2023-05-19 16:57

      Selected tool: bamqc
      Available memory (Mb): 389
      Max memory (Mb): 26121
      Starting bam qc....
      Loading sam header...
      Loading locator...
      Loading reference...
      Only flagged duplicate alignments will be skipped...
      Number of windows: 400, effective number of windows: 325
      Chunk of reads size: 1000
      Number of threads: 1
      Initializing regions from regions.gtf.....
      Found 4 regions
      Filling region references... 
      Processed 50 out of 325 windows...
      Processed 100 out of 325 windows...
      Processed 150 out of 325 windows...
      Processed 200 out of 325 windows...
      Processed 250 out of 325 windows...
      Processed 300 out of 325 windows...
      Total processed windows:325
      Number of reads: 100
      Number of valid reads: 100
      Number of correct strand reads:0

      Inside of regions...
      Num mapped reads: 82
      Num mapped first of pair: 0
      Num mapped second of pair: 0
      Num singletons: 0

      Ouside of regions...
      Num mapped reads: 18
      Num mapped first of pair: 0
      Num mapped second of pair: 0
      Num singletons: 0
      Time taken to analyze reads: 0
      Computing descriptors...
      numberOfMappedBases: 6451
      referenceSize: 650
      numberOfSequencedBases: 5101
      numberOfAs: 1243
      Computing per chromosome statistics...
      Computing histograms...
      Computing descriptors for outside regions...
      numberOfMappedBases: 6214
      referenceSize: 650
      numberOfSequencedBases: 2364
      numberOfAs: 667
      Computing per chromosome statistics for outside regions...
      Computing histograms for outside regions...
      Overall analysis time: 0
      end of bam qc
      Computing report...
      Writing HTML report...
      HTML report created successfully

      Finished

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | plot\_specific | ` {"genome_gc_distr": null, "homopolymer_size": "3", "n_bins": "400", "paint_chromosome_limits": true} ` |
       | duplicate\_skipping | ` "0" ` |
       | per\_base\_coverage | ` true ` |
       | stats\_regions | ` {"__current_case__": 1, "outside_stats": true, "region_select": "custom_regions", "regions": {"values": [{"id": 282, "src": "hda"}]}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; samtools_stats (Test # 1)</summary><div class="padded">

    **Command Line:**

    * ```console
      addthreads=${GALAXY_SLOTS:-1} && (( addthreads-- )) &&   ln -s '/galaxy/server/database/objects/6/3/6/dataset_63699c9f-dab9-40bd-977e-6d1fe7c678ed.dat' infile &&      reffa="reference.fa" && ln -s '/galaxy/server/database/objects/f/f/d/dataset_ffd151ba-ecfa-4b7f-a4ae-e9d97c2e9908.dat' $reffa && samtools faidx $reffa && reffai=$reffa.fai &&  samtools stats   --ref-seq "$reffa"     -@ $addthreads infile   > '/galaxy/server/database/objects/7/8/7/dataset_787fe137-e37b-4a55-a848-372392dd2d2d.dat'
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | cov\_threshold | ` "" ` |
       | remove\_overlaps | ` false ` |
       | sparse | ` false ` |
       | cond\_region | ` {"__current_case__": 0, "select_region": "no"} ` |
       | addref\_cond | ` {"__current_case__": 1, "addref_select": "history", "ref": {"values": [{"id": 299, "src": "hda"}]}} ` |
       | trim\_quality | ` "" ` |
       | most\_inserts | ` "" ` |
       | read\_length | ` "" ` |
       | read\_group | ` None ` |
       | insert\_size | ` "" ` |
       | gc\_depth | ` "" ` |
       | filter\_by\_flags | ` {"__current_case__": 1, "filter_flags": "nofilter"} ` |
       | split\_output\_cond | ` {"__current_case__": 0, "split_output_selector": "no"} ` |
       | remove\_dups | ` false ` |
       | coverage\_cond | ` {"__current_case__": 0, "coverage_select": "no"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; samtools_stats (Test # 2)</summary><div class="padded">

    **Command Line:**

    * ```console
      addthreads=${GALAXY_SLOTS:-1} && (( addthreads-- )) &&   ln -s '/galaxy/server/database/objects/d/3/1/dataset_d31a7dff-bf03-4275-824b-13ebf046edb9.dat' infile &&      reffa="reference.fa" && ln -s '/galaxy/server/database/objects/e/3/2/dataset_e328a735-a591-4bc2-bb06-a0f3717c4923.dat' $reffa && samtools faidx $reffa && reffai=$reffa.fai &&  samtools stats   --ref-seq "$reffa"     -@ $addthreads infile   > '/galaxy/server/database/objects/d/f/5/dataset_df5b1c35-c4ef-497a-b437-b00dfcbaca57.dat'
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | cov\_threshold | ` "" ` |
       | remove\_overlaps | ` false ` |
       | sparse | ` false ` |
       | cond\_region | ` {"__current_case__": 0, "select_region": "no"} ` |
       | addref\_cond | ` {"__current_case__": 1, "addref_select": "history", "ref": {"values": [{"id": 302, "src": "hda"}]}} ` |
       | trim\_quality | ` "" ` |
       | most\_inserts | ` "" ` |
       | read\_length | ` "" ` |
       | read\_group | ` None ` |
       | insert\_size | ` "" ` |
       | gc\_depth | ` "" ` |
       | filter\_by\_flags | ` {"__current_case__": 1, "filter_flags": "nofilter"} ` |
       | split\_output\_cond | ` {"__current_case__": 0, "split_output_selector": "no"} ` |
       | remove\_dups | ` false ` |
       | coverage\_cond | ` {"__current_case__": 0, "coverage_select": "no"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; samtools_stats (Test # 11)</summary><div class="padded">

    **Command Line:**

    * ```console
      addthreads=${GALAXY_SLOTS:-1} && (( addthreads-- )) &&   ln -s '/galaxy/server/database/objects/0/c/5/dataset_0c53dce3-c70e-4516-81a9-c693bfb59a2f.dat' infile && ln -s '/galaxy/server/database/objects/_metadata_files/5/0/b/metadata_50b08dab-f99e-4e30-8e82-e521e1d955f2.dat' infile.bai &&       samtools stats     -t '/galaxy/server/database/objects/b/7/0/dataset_b70536a8-fb6e-42b0-821b-0ce17f871691.dat'  -p -@ $addthreads infile   > '/galaxy/server/database/objects/f/7/e/dataset_f7ec810a-df6d-4c16-a122-9a8b08873a2a.dat'
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | cov\_threshold | ` "" ` |
       | remove\_overlaps | ` true ` |
       | sparse | ` false ` |
       | cond\_region | ` {"__current_case__": 2, "select_region": "tab", "targetregions": {"values": [{"id": 327, "src": "hda"}]}} ` |
       | addref\_cond | ` {"__current_case__": 0, "addref_select": "no"} ` |
       | trim\_quality | ` "" ` |
       | most\_inserts | ` "" ` |
       | read\_length | ` "" ` |
       | read\_group | ` None ` |
       | insert\_size | ` "" ` |
       | gc\_depth | ` "" ` |
       | filter\_by\_flags | ` {"__current_case__": 1, "filter_flags": "nofilter"} ` |
       | split\_output\_cond | ` {"__current_case__": 0, "split_output_selector": "no"} ` |
       | remove\_dups | ` false ` |
       | coverage\_cond | ` {"__current_case__": 0, "coverage_select": "no"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; samtools_stats (Test # 12)</summary><div class="padded">

    **Command Line:**

    * ```console
      addthreads=${GALAXY_SLOTS:-1} && (( addthreads-- )) &&   ln -s '/galaxy/server/database/objects/0/1/6/dataset_0166ee55-52bd-47c8-855c-57d2ebf28fde.dat' infile && ln -s '/galaxy/server/database/objects/_metadata_files/8/b/6/metadata_8b6f6238-3030-4a96-b76b-07f5d5c4b87f.dat' infile.bai &&      reffa="reference.fa" && ln -s '/galaxy/server/database/objects/b/5/9/dataset_b596e779-7725-488b-b193-13c2ae13d04b.dat' $reffa && samtools faidx $reffa && reffai=$reffa.fai &&  samtools stats   --ref-seq "$reffa"     -@ $addthreads infile   > '/galaxy/server/database/objects/9/b/0/dataset_9b0b9e69-5203-4e19-bdec-82b7153050e4.dat'
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | cov\_threshold | ` "" ` |
       | remove\_overlaps | ` false ` |
       | sparse | ` false ` |
       | cond\_region | ` {"__current_case__": 0, "select_region": "no"} ` |
       | addref\_cond | ` {"__current_case__": 1, "addref_select": "history", "ref": {"values": [{"id": 330, "src": "hda"}]}} ` |
       | trim\_quality | ` "" ` |
       | most\_inserts | ` "" ` |
       | read\_length | ` "" ` |
       | read\_group | ` None ` |
       | insert\_size | ` "" ` |
       | gc\_depth | ` "" ` |
       | filter\_by\_flags | ` {"__current_case__": 1, "filter_flags": "nofilter"} ` |
       | split\_output\_cond | ` {"__current_case__": 0, "split_output_selector": "no"} ` |
       | remove\_dups | ` false ` |
       | coverage\_cond | ` {"__current_case__": 0, "coverage_select": "no"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; samtools_stats (Test # 13)</summary><div class="padded">

    **Command Line:**

    * ```console
      addthreads=${GALAXY_SLOTS:-1} && (( addthreads-- )) &&   ln -s '/galaxy/server/database/objects/4/7/5/dataset_4756a194-ceae-4171-852b-5ec4ee7f1a99.dat' infile && ln -s '/galaxy/server/database/objects/_metadata_files/3/6/1/metadata_36161350-5658-4fc3-aef0-81b727e2930a.dat' infile.bai &&      reffa="reference.fa" && ln -s '/galaxy/server/database/objects/0/e/b/dataset_0eb2905b-3593-49bd-b387-d1310b5929bc.dat' $reffa && samtools faidx $reffa && reffai=$reffa.fai &&  samtools stats   --ref-seq "$reffa"     -@ $addthreads infile   > 'XXXX'  && mkdir split && name=`cat 'XXXX' | grep '\^SN' | cut -d'.' -f 1 | sed 's/^# //'` && awk '/\^/{out=0} /\^SN/{out=1} {if(out==1){print $0}}' 'XXXX' | sed 's/Use `grep .*` to extract this part.//' | sed 's/SN\t//' > "split/$name.tab" && name=`cat 'XXXX' | grep '\^MPC' | cut -d'.' -f 1 | sed 's/^# //'` && awk '/\^/{out=0} /\^MPC/{out=1} {if(out==1){print $0}}' 'XXXX' | sed 's/Use `grep .*` to extract this part.//' | sed 's/MPC\t//' > "split/$name.tab" && name=`cat 'XXXX' | grep '\^GCC' | cut -d'.' -f 1 | sed 's/^# //'` && awk '/\^/{out=0} /\^GCC/{out=1} {if(out==1){print $0}}' 'XXXX' | sed 's/Use `grep .*` to extract this part.//' | sed 's/GCC\t//' > "split/$name.tab"
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | cov\_threshold | ` "" ` |
       | remove\_overlaps | ` false ` |
       | sparse | ` false ` |
       | cond\_region | ` {"__current_case__": 0, "select_region": "no"} ` |
       | addref\_cond | ` {"__current_case__": 1, "addref_select": "history", "ref": {"values": [{"id": 333, "src": "hda"}]}} ` |
       | trim\_quality | ` "" ` |
       | most\_inserts | ` "" ` |
       | read\_length | ` "" ` |
       | read\_group | ` None ` |
       | insert\_size | ` "" ` |
       | gc\_depth | ` "" ` |
       | filter\_by\_flags | ` {"__current_case__": 1, "filter_flags": "nofilter"} ` |
       | split\_output\_cond | ` {"__current_case__": 1, "generate_tables": ["SN", "MPC", "GCC"], "split_output_selector": "yes"} ` |
       | remove\_dups | ` false ` |
       | coverage\_cond | ` {"__current_case__": 0, "coverage_select": "no"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; samtools_stats (Test # 4)</summary><div class="padded">

    **Command Line:**

    * ```console
      addthreads=${GALAXY_SLOTS:-1} && (( addthreads-- )) &&   ln -s '/galaxy/server/database/objects/4/7/7/dataset_477ede13-960e-41d7-91dd-1910168cc739.dat' infile &&       samtools stats     -t '/galaxy/server/database/objects/6/c/5/dataset_6c5520b6-d970-4f9b-84a3-1cb080553ae3.dat'   -@ $addthreads infile   > '/galaxy/server/database/objects/8/9/6/dataset_896bbf70-fc54-4725-aba4-d8252d8c414d.dat'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Error:**

    * ```console
      Barcodes with tag BC differ in length at sequence 'ref1_grp1_p002'

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | cov\_threshold | ` "" ` |
       | remove\_overlaps | ` false ` |
       | sparse | ` false ` |
       | cond\_region | ` {"__current_case__": 2, "select_region": "tab", "targetregions": {"values": [{"id": 308, "src": "hda"}]}} ` |
       | addref\_cond | ` {"__current_case__": 0, "addref_select": "no"} ` |
       | trim\_quality | ` "" ` |
       | most\_inserts | ` "" ` |
       | read\_length | ` "" ` |
       | read\_group | ` None ` |
       | insert\_size | ` "" ` |
       | gc\_depth | ` "" ` |
       | filter\_by\_flags | ` {"__current_case__": 1, "filter_flags": "nofilter"} ` |
       | split\_output\_cond | ` {"__current_case__": 0, "split_output_selector": "no"} ` |
       | remove\_dups | ` false ` |
       | coverage\_cond | ` {"__current_case__": 0, "coverage_select": "no"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; samtools_stats (Test # 5)</summary><div class="padded">

    **Command Line:**

    * ```console
      addthreads=${GALAXY_SLOTS:-1} && (( addthreads-- )) &&   ln -s '/galaxy/server/database/objects/5/1/8/dataset_5183ff5d-766c-49f6-96f2-99b6116e0839.dat' infile && ln -s '/galaxy/server/database/objects/_metadata_files/0/7/7/metadata_077f3ce9-b07c-4ff0-ad37-58f39939144f.dat' infile.bai &&       samtools stats       -@ $addthreads infile  'ref1:10-24' 'ref1:30-46' 'ref1:39-56'  > '/galaxy/server/database/objects/8/e/f/dataset_8ef2760e-8ab1-4f29-8a81-3509f79c669a.dat'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Error:**

    * ```console
      Barcodes with tag BC differ in length at sequence 'ref1_grp1_p002'

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | cov\_threshold | ` "" ` |
       | remove\_overlaps | ` false ` |
       | sparse | ` false ` |
       | cond\_region | ` {"__current_case__": 1, "regions_repeat": [{"__index__": 0, "region": "ref1:10-24"}, {"__index__": 1, "region": "ref1:30-46"}, {"__index__": 2, "region": "ref1:39-56"}], "select_region": "text"} ` |
       | addref\_cond | ` {"__current_case__": 0, "addref_select": "no"} ` |
       | trim\_quality | ` "" ` |
       | most\_inserts | ` "" ` |
       | read\_length | ` "" ` |
       | read\_group | ` None ` |
       | insert\_size | ` "" ` |
       | gc\_depth | ` "" ` |
       | filter\_by\_flags | ` {"__current_case__": 1, "filter_flags": "nofilter"} ` |
       | split\_output\_cond | ` {"__current_case__": 0, "split_output_selector": "no"} ` |
       | remove\_dups | ` false ` |
       | coverage\_cond | ` {"__current_case__": 0, "coverage_select": "no"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; samtools_stats (Test # 6)</summary><div class="padded">

    **Command Line:**

    * ```console
      addthreads=${GALAXY_SLOTS:-1} && (( addthreads-- )) &&   ln -s '/galaxy/server/database/objects/3/f/d/dataset_3fd93122-dbd8-4dea-b214-ee824ca294a8.dat' infile &&       samtools stats     -t '/galaxy/server/database/objects/9/1/e/dataset_91e7ebad-94bf-4d1a-972a-56ff3c0cdadb.dat'   -g 4 -@ $addthreads infile   > '/galaxy/server/database/objects/4/d/8/dataset_4d8fb700-5da9-4d0b-b166-bd73a56d49f9.dat'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Error:**

    * ```console
      Barcodes with tag BC differ in length at sequence 'ref1_grp1_p002'

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | cov\_threshold | ` "4" ` |
       | remove\_overlaps | ` false ` |
       | sparse | ` false ` |
       | cond\_region | ` {"__current_case__": 2, "select_region": "tab", "targetregions": {"values": [{"id": 313, "src": "hda"}]}} ` |
       | addref\_cond | ` {"__current_case__": 0, "addref_select": "no"} ` |
       | trim\_quality | ` "" ` |
       | most\_inserts | ` "" ` |
       | read\_length | ` "" ` |
       | read\_group | ` None ` |
       | insert\_size | ` "" ` |
       | gc\_depth | ` "" ` |
       | filter\_by\_flags | ` {"__current_case__": 1, "filter_flags": "nofilter"} ` |
       | split\_output\_cond | ` {"__current_case__": 0, "split_output_selector": "no"} ` |
       | remove\_dups | ` false ` |
       | coverage\_cond | ` {"__current_case__": 0, "coverage_select": "no"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; samtools_stats (Test # 7)</summary><div class="padded">

    **Command Line:**

    * ```console
      addthreads=${GALAXY_SLOTS:-1} && (( addthreads-- )) &&   ln -s '/galaxy/server/database/objects/c/e/8/dataset_ce814197-a9d3-45de-88be-9208067f6afc.dat' infile && ln -s '/galaxy/server/database/objects/_metadata_files/3/4/8/metadata_348de6d2-4781-4edf-861c-692bcfdb18f2.dat' infile.bai &&       samtools stats       -g 4 -@ $addthreads infile  'ref1:10-24' 'ref1:30-46' 'ref1:39-56'  > '/galaxy/server/database/objects/6/7/e/dataset_67e34549-0d3f-4fc0-9b9f-b548f267994d.dat'
      ```
    **Exit Code:**

    * ```console
      0
      ```
    **Standard Error:**

    * ```console
      Barcodes with tag BC differ in length at sequence 'ref1_grp1_p002'

      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | cov\_threshold | ` "4" ` |
       | remove\_overlaps | ` false ` |
       | sparse | ` false ` |
       | cond\_region | ` {"__current_case__": 1, "regions_repeat": [{"__index__": 0, "region": "ref1:10-24"}, {"__index__": 1, "region": "ref1:30-46"}, {"__index__": 2, "region": "ref1:39-56"}], "select_region": "text"} ` |
       | addref\_cond | ` {"__current_case__": 0, "addref_select": "no"} ` |
       | trim\_quality | ` "" ` |
       | most\_inserts | ` "" ` |
       | read\_length | ` "" ` |
       | read\_group | ` None ` |
       | insert\_size | ` "" ` |
       | gc\_depth | ` "" ` |
       | filter\_by\_flags | ` {"__current_case__": 1, "filter_flags": "nofilter"} ` |
       | split\_output\_cond | ` {"__current_case__": 0, "split_output_selector": "no"} ` |
       | remove\_dups | ` false ` |
       | coverage\_cond | ` {"__current_case__": 0, "coverage_select": "no"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; samtools_stats (Test # 8)</summary><div class="padded">

    **Command Line:**

    * ```console
      addthreads=${GALAXY_SLOTS:-1} && (( addthreads-- )) &&   ln -s '/galaxy/server/database/objects/7/0/a/dataset_70aff15e-a96d-4fd5-831e-b607c0ea6834.dat' infile && ln -s '/galaxy/server/database/objects/_metadata_files/4/1/4/metadata_414705f4-8d73-4266-aabb-64de96891c82.dat' infile.bai &&       samtools stats     -t '/galaxy/server/database/objects/a/8/4/dataset_a8438247-f8d5-49d2-84b6-172dd0e0c73e.dat'   -@ $addthreads infile   > '/galaxy/server/database/objects/0/5/4/dataset_054a0dec-c906-4851-952d-debb8be111a9.dat'
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | cov\_threshold | ` "" ` |
       | remove\_overlaps | ` false ` |
       | sparse | ` false ` |
       | cond\_region | ` {"__current_case__": 2, "select_region": "tab", "targetregions": {"values": [{"id": 318, "src": "hda"}]}} ` |
       | addref\_cond | ` {"__current_case__": 0, "addref_select": "no"} ` |
       | trim\_quality | ` "" ` |
       | most\_inserts | ` "" ` |
       | read\_length | ` "" ` |
       | read\_group | ` None ` |
       | insert\_size | ` "" ` |
       | gc\_depth | ` "" ` |
       | filter\_by\_flags | ` {"__current_case__": 1, "filter_flags": "nofilter"} ` |
       | split\_output\_cond | ` {"__current_case__": 0, "split_output_selector": "no"} ` |
       | remove\_dups | ` false ` |
       | coverage\_cond | ` {"__current_case__": 0, "coverage_select": "no"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; samtools_stats (Test # 9)</summary><div class="padded">

    **Command Line:**

    * ```console
      addthreads=${GALAXY_SLOTS:-1} && (( addthreads-- )) &&   ln -s '/galaxy/server/database/objects/a/4/4/dataset_a4404e77-2ee2-4e3a-896c-66aaf49602c3.dat' infile && ln -s '/galaxy/server/database/objects/_metadata_files/2/c/4/metadata_2c4198c1-0b3d-4697-a211-6de9f17a53fb.dat' infile.bai &&       samtools stats     -t '/galaxy/server/database/objects/e/0/5/dataset_e05da3e8-0398-417e-848e-b444471ebe78.dat'  -p -@ $addthreads infile   > '/galaxy/server/database/objects/0/e/3/dataset_0e3c5ef4-1c77-47f2-90e8-9d39396d0ceb.dat'
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | cov\_threshold | ` "" ` |
       | remove\_overlaps | ` true ` |
       | sparse | ` false ` |
       | cond\_region | ` {"__current_case__": 2, "select_region": "tab", "targetregions": {"values": [{"id": 321, "src": "hda"}]}} ` |
       | addref\_cond | ` {"__current_case__": 0, "addref_select": "no"} ` |
       | trim\_quality | ` "" ` |
       | most\_inserts | ` "" ` |
       | read\_length | ` "" ` |
       | read\_group | ` None ` |
       | insert\_size | ` "" ` |
       | gc\_depth | ` "" ` |
       | filter\_by\_flags | ` {"__current_case__": 1, "filter_flags": "nofilter"} ` |
       | split\_output\_cond | ` {"__current_case__": 0, "split_output_selector": "no"} ` |
       | remove\_dups | ` false ` |
       | coverage\_cond | ` {"__current_case__": 0, "coverage_select": "no"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; samtools_stats (Test # 10)</summary><div class="padded">

    **Command Line:**

    * ```console
      addthreads=${GALAXY_SLOTS:-1} && (( addthreads-- )) &&   ln -s '/galaxy/server/database/objects/d/3/2/dataset_d325746b-5e40-469e-9661-c4a5a60b39a0.dat' infile && ln -s '/galaxy/server/database/objects/_metadata_files/4/a/0/metadata_4a0487fa-be16-4460-93ab-092e3fa91898.dat' infile.bai &&       samtools stats     -t '/galaxy/server/database/objects/f/2/8/dataset_f282a44d-7659-4d4d-95ff-ae5c6d898cd5.dat'   -@ $addthreads infile   > '/galaxy/server/database/objects/d/1/2/dataset_d1249b01-df15-4821-8e36-88d007d121f9.dat'
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "input" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | cov\_threshold | ` "" ` |
       | remove\_overlaps | ` false ` |
       | sparse | ` false ` |
       | cond\_region | ` {"__current_case__": 2, "select_region": "tab", "targetregions": {"values": [{"id": 324, "src": "hda"}]}} ` |
       | addref\_cond | ` {"__current_case__": 0, "addref_select": "no"} ` |
       | trim\_quality | ` "" ` |
       | most\_inserts | ` "" ` |
       | read\_length | ` "" ` |
       | read\_group | ` None ` |
       | insert\_size | ` "" ` |
       | gc\_depth | ` "" ` |
       | filter\_by\_flags | ` {"__current_case__": 1, "filter_flags": "nofilter"} ` |
       | split\_output\_cond | ` {"__current_case__": 0, "split_output_selector": "no"} ` |
       | remove\_dups | ` false ` |
       | coverage\_cond | ` {"__current_case__": 0, "coverage_select": "no"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 1)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/2/configs/tmpxxnm1h3u' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "2" ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 1, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 1, "mode": "select", "select_cols_wanted": "2:4,2,2", "select_keepdupe": "select_cols_keepdupe", "select_rows_wanted": "2:5,3,3"}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 2)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/4/configs/tmp9hqj4ab4' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "2" ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 3, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 1, "mode": "select", "select_cols_wanted": "2:4,2,2", "select_keepdupe": ["select_cols_keepdupe", "select_rows_keepdupe"], "select_rows_wanted": null}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 12)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/24/configs/tmpo5iw0rj9' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "2" ` |
       | out\_opts | ` ["ignore_nas", "output_headers_row"] ` |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 23, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 3, "dimension": "0", "matrixapply_func": {"__current_case__": 0, "custom_func": "vec.sum()+vec.median()", "vector_op": "custom"}, "mode": "matrixapply"}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 13)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/26/configs/tmpuco3dupe' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "6" ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 25, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 5, "elem_val": {"__current_case__": 3, "element_op": "gt", "element_value": "0"}, "element": {"__current_case__": 3, "custom_expr": "(math.log10(elem)+elem)/elem if (elem < math.inf) else 1.0", "mode": "custom"}, "mode": "element"}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 14)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/28/configs/tmpg983dmk_' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "6" ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 27, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 5, "elem_val": {"__current_case__": 0, "element_op": "None"}, "element": {"__current_case__": 3, "custom_expr": "-math.log(1 - elem/4096) * 4096 if elem != 4096 else elem - 0.5", "mode": "custom"}, "mode": "element"}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 15)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/30/configs/tmpre8pvs81' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "6" ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 29, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 5, "elem_val": {"__current_case__": 0, "element_op": "None"}, "element": {"__current_case__": 3, "custom_expr": "-math.log(1 - elem/4096) * 4096 if elem != 4096 else elem - 0.5", "mode": "custom"}, "mode": "element"}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 16)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/32/configs/tmprdeivn05' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "6" ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 31, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 4, "general": {"__current_case__": 3, "fulltable_custom_expr": "table - table.mean(0) / table.std(0)", "use": "custom"}, "mode": "fulltable"}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 17)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/34/configs/tmp4csavmtp' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "6" ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | singtabop | ` {"__current_case__": 1, "fulltable_custom_expr": "(3 * table1) + np.log(table3 + 20) - table2", "tables": [{"__index__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 33, "src": "hda"}]}}, {"__index__": 1, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 33, "src": "hda"}]}}, {"__index__": 2, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 33, "src": "hda"}]}}], "use_type": "multiple"} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 18)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/36/configs/tmpgd0ca8sc' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "6" ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 35, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 4, "general": {"__current_case__": 3, "fulltable_custom_expr": "table * 2", "use": "custom"}, "mode": "fulltable"}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 19)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/38/configs/tmpgqn65f7t' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "6" ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 37, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 4, "general": {"__current_case__": 3, "fulltable_custom_expr": "table == 5", "use": "custom"}, "mode": "fulltable"}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 20)</summary><div class="padded">

    **Execution Problem:**
    * ```
      An expression is required and is allowed to contain only letters, numbers and the characters _ !-+=/*%.<>()
      ```

    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 3)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/6/configs/tmpop6tlky5' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "2" ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 5, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 1, "mode": "select", "select_cols_wanted": null, "select_keepdupe": "select_cols_keepdupe", "select_rows_wanted": "2:5,3,3"}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 22)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/42/configs/tmpdii6vd9t' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "6" ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col"] ` |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 41, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 4, "general": {"__current_case__": 0, "use": "transpose"}, "mode": "fulltable"}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 23)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/44/configs/tmpr7ux1uqh' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "6" ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col"] ` |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 43, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 4, "general": {"__current_case__": 1, "id_vars": "cell1,cell3", "use": "melt", "value_vars": "cell5,cell6"}, "mode": "fulltable"}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 24)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/46/configs/tmpcbn3b0di' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "6" ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 45, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 4, "general": {"__current_case__": 2, "aggfunc": null, "colfun_map": [], "column": "cell2", "index": "cell1", "use": "pivot", "values": "cell3,cell7,cell9"}, "mode": "fulltable"}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 25)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/48/configs/tmp2kspblgr' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "6" ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 47, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 1, "mode": "select", "select_cols_wanted": "1,1,3", "select_keepdupe": ["select_cols_keepdupe", "select_rows_keepdupe"], "select_rows_wanted": "1:3,2"}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 26)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/50/configs/tmpj01bawby' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "6" ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 49, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 2, "axis": "1", "filtersumval_mode": {"__current_case__": 0, "against": "50.0", "compare_op": "lt", "operation": "sum", "use": "operation"}, "mode": "filtersumval"}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 27)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/52/configs/tmp0bqfie7h' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "6" ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 51, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 5, "elem_val": {"__current_case__": 0, "element_op": "None"}, "element": {"__current_case__": 3, "custom_expr": "elem < 10", "mode": "custom"}, "mode": "element"}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 28)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/54/configs/tmppiryryvu' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "6" ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 53, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 3, "dimension": "1", "matrixapply_func": {"__current_case__": 3, "vector_op": "sum"}, "mode": "matrixapply"}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 29)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/56/configs/tmpriiv1gcu' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "6" ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 55, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 5, "elem_val": {"__current_case__": 0, "element_op": "None"}, "element": {"__current_case__": 3, "custom_expr": "(math.log(elem) / elem) if (elem > 5) else 1", "mode": "custom"}, "mode": "element"}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 30)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/58/configs/tmputnb756d' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "6" ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 57, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 4, "general": {"__current_case__": 3, "fulltable_custom_expr": "table - table.mean(0)/table.std(0)", "use": "custom"}, "mode": "fulltable"}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 4)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/8/configs/tmpy58wzxr9' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "2" ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 7, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 2, "axis": "1", "filtersumval_mode": {"__current_case__": 0, "against": "50.0", "compare_op": "gt", "operation": "sum", "use": "operation"}, "mode": "filtersumval"}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 32)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/64/configs/tmp0dmkmfw7' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "6" ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 63, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 4, "general": {"__current_case__": 1, "id_vars": "A", "use": "melt", "value_vars": "B,C"}, "mode": "fulltable"}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 33)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/66/configs/tmp7fgbef6d' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "6" ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 65, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 4, "general": {"__current_case__": 2, "aggfunc": null, "colfun_map": [], "column": "bar", "index": "foo", "use": "pivot", "values": "baz"}, "mode": "fulltable"}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 34)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/68/configs/tmpjf372fip' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "6" ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 67, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 1, "mode": "select", "select_cols_wanted": "-2:2,1,-1", "select_keepdupe": ["select_cols_keepdupe", "select_rows_keepdupe"], "select_rows_wanted": "1,3:-3,1"}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 36)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/71/configs/tmp8plv0lp7' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "2" ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "2", "nrows": "4", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 70, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 0, "mode": "precision"}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 37)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/73/configs/tmpe0k69a38' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "2" ` |
       | out\_opts | ` [] ` |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "2", "nrows": "", "skip_blank_lines": false, "skipfooter": "2"}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 72, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 0, "mode": "precision"}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 39)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/77/configs/tmp6y3l1y37' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "6" ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 76, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 5, "elem_val": {"__current_case__": 7, "element_op": "rowcol", "inclusive_selection": false, "select_cols_wanted": "2", "select_rows_wanted": "2,4"}, "element": {"__current_case__": 0, "mode": "replace", "replace_value": "chr{elem:.0f}"}, "mode": "element"}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 40)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/79/configs/tmp3f8qf9o4' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "6" ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 78, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 5, "elem_val": {"__current_case__": 0, "element_op": "None"}, "element": {"__current_case__": 0, "mode": "replace", "replace_value": "a'+'b"}, "mode": "element"}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 5)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/10/configs/tmp39a_siz1' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 9, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 2, "axis": "0", "filtersumval_mode": {"__current_case__": 0, "against": "0.0", "compare_op": "ne", "operation": "sum", "use": "operation"}, "mode": "filtersumval"}} ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | precision | ` "2" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | dbkey | ` "?" ` |
       | \_\_input\_ext | ` "tabular" ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 41)</summary><div class="padded">

    **Execution Problem:**
    * ```
      An expression is required and is allowed to contain only letters, numbers and the characters _ !-+=/*%.<>()
      ```

    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 42)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/82/configs/tmpik7jfsd9' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "6" ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 81, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 4, "general": {"__current_case__": 2, "aggfunc": null, "colfun_map": [{"__index__": 0, "column": "Age", "functions": [{"__index__": 0, "aggfunc": "mean"}]}, {"__index__": 1, "column": "Random", "functions": [{"__index__": 0, "aggfunc": "mean"}, {"__index__": 1, "aggfunc": "std"}]}], "column": "", "index": "Position", "use": "pivot", "values": ""}, "mode": "fulltable"}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 43)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/84/configs/tmptt65zbud' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "tabular" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | precision | ` "6" ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": "has_col_names", "input": {"values": [{"id": 83, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 4, "general": {"__current_case__": 2, "aggfunc": "max", "colfun_map": [], "column": "C", "index": "A", "use": "pivot", "values": "D"}, "mode": "fulltable"}} ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 6)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/12/configs/tmpoly8qieg' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 11, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 2, "axis": "0", "filtersumval_mode": {"__current_case__": 0, "against": "10.0", "compare_op": "gt", "operation": "sum", "use": "operation"}, "mode": "filtersumval"}} ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | precision | ` "2" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | dbkey | ` "?" ` |
       | \_\_input\_ext | ` "tabular" ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 7)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/14/configs/tmp4s5kn_zz' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 13, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 2, "axis": "0", "filtersumval_mode": {"__current_case__": 0, "against": "2.0", "compare_op": "ge", "operation": "median", "use": "operation"}, "mode": "filtersumval"}} ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | precision | ` "5" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | dbkey | ` "?" ` |
       | \_\_input\_ext | ` "tabular" ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 8)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/16/configs/tmpvxg9639i' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 15, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 2, "axis": "1", "filtersumval_mode": {"__current_case__": 1, "against": "2", "minmatch": "2", "operation": "gt", "use": "element"}, "mode": "filtersumval"}} ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | precision | ` "5" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | dbkey | ` "?" ` |
       | \_\_input\_ext | ` "tabular" ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 9)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/18/configs/tmpow_w78o9' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 17, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 2, "axis": "0", "filtersumval_mode": {"__current_case__": 1, "against": "0", "minmatch": "4", "operation": "str_ne", "use": "element"}, "mode": "filtersumval"}} ` |
       | out\_opts | ` ["ignore_nas", "output_headers_col", "output_headers_row"] ` |
       | precision | ` "3" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | dbkey | ` "?" ` |
       | \_\_input\_ext | ` "tabular" ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; table_compute (Test # 10)</summary><div class="padded">

    **Command Line:**

    * ```console
      cp '/galaxy/server/database/jobs_directory/000/20/configs/tmpubl1kdfk' ./userconfig.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | singtabop | ` {"__current_case__": 0, "adv": {"header": "", "nrows": "", "skip_blank_lines": true, "skipfooter": ""}, "col_row_names": ["has_col_names", "has_row_names"], "input": {"values": [{"id": 19, "src": "hda"}]}, "use_type": "single", "user": {"__current_case__": 3, "dimension": "1", "matrixapply_func": {"__current_case__": 2, "vector_op": "max"}, "mode": "matrixapply"}} ` |
       | out\_opts | ` ["ignore_nas", "output_headers_row"] ` |
       | precision | ` "0" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |
       | dbkey | ` "?" ` |
       | \_\_input\_ext | ` "tabular" ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; vcfcommonsamples (Test # 1)</summary><div class="padded">

    **Command Line:**

    * ```console
      vcfcommonsamples '/galaxy/server/database/objects/7/e/0/dataset_7e06f2ad-c439-43a1-8c2c-32450193080d.dat' '/galaxy/server/database/objects/a/b/8/dataset_ab82a78c-d5f1-4452-9748-50f4f500c5c9.dat' > '/galaxy/server/database/objects/e/6/0/dataset_e60315a2-4820-451c-b359-40581b3c950c.dat'
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "vcf" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |



    </div></details>


* <details class="rcorners light-green"><summary class="light-green">&#9989; vcfdistance (Test # 1)</summary><div class="padded">

    **Command Line:**

    * ```console
      cat '/galaxy/server/database/objects/f/b/e/dataset_fbe4d27d-c262-4149-ab09-faec87932120.dat' | vcfdistance > '/galaxy/server/database/objects/4/2/b/dataset_42b3844d-35c1-42dc-89f4-72bf83b8f3f6.dat'
      ```
    **Exit Code:**

    * ```console
      0
      ```
   **Job Parameters:**

   *   | Job parameter | Parameter value |
       | ------------- | --------------- |
       | \_\_input\_ext | ` "vcf" ` |
       | dbkey | ` "?" ` |
       | chromInfo | ` "/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len" ` |



    </div></details>


</details>
'));
+    </script>
+  </body>
+</html>
\ No newline at end of file
diff --git a/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/results.json b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/results.json
new file mode 100644
index 000000000..315d528c1
--- /dev/null
+++ b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/results.json
@@ -0,0 +1 @@
+{"version": "0.1", "suitename": "Galaxy Tool Tests", "results": {"total": 146, "errors": 7, "failures": 6, "skips": 5}, "tests": [{"id": "bcftools_csq/1.15.1+galaxy4-0", "has_data": true, "data": {"tool_id": "bcftools_csq", "tool_version": "1.15.1+galaxy4", "test_index": 0, "time_seconds": 34.01874661445618, "inputs": {"input_file": {"src": "hda", "id": "f121e16c78919b91"}, "sec_required|reference_source|fasta_ref": {"src": "hda", "id": "a202354d59b13a9f"}, "sec_required|reference_source|reference_source_selector": "history", "sec_required|gff_annot": {"src": "hda", "id": "587b6e39199a40b7"}, "output_type": "v"}, "job": {"model_class": "Job", "id": "1bc4939d3dd8a194", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:37:48.487821", "create_time": "2024-09-15T13:37:33.019007", "galaxy_version": "23.1", "command_version": "Version: 1.15.1 (using htslib 1.15.1)", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/iuc/bcftools_csq/bcftools_csq/1.15.1+galaxy4", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-rphq4", "command_line": "export BCFTOOLS_PLUGINS=`which bcftools | sed 's,bin/bcftools,libexec/bcftools,'`;     bgzip -c '/galaxy/server/database/objects/4/4/2/dataset_44297641-c509-4060-ad84-2c3358f3526f.dat' > input.vcf.gz && bcftools index input.vcf.gz &&     ln -s '/galaxy/server/database/objects/c/3/2/dataset_c32eabbe-5f0d-4319-91ab-90b021c62dc8.dat' ref.fa && samtools faidx ref.fa &&             bcftools csq   --fasta-ref ref.fa  --gff-annot '/galaxy/server/database/objects/9/7/4/dataset_9742c8b6-b8e1-4275-bb7c-972a29b424f1.dat'  --ncsq 16                     --output-type 'v'    input.vcf.gz  > '/galaxy/server/database/objects/2/0/8/dataset_208dc4cf-808c-4b73-a8c4-77470f41ea8b.dat'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_type": "\"v\"", "sec_subset": "{\"invert_samples\": false, \"invert_samples_file\": false, \"samples\": \"\", \"samples_file\": null}", "sec_restrict": "{\"exclude\": null, \"include\": null, \"regions\": {\"__current_case__\": 0, \"regions_src\": \"__none__\"}, \"regions_overlap\": null, \"targets\": {\"__current_case__\": 0, \"targets_src\": \"__none__\"}, \"targets_overlap\": null}", "sec_csq_opts": "{\"custom_tag\": \"\", \"local_csq\": false, \"ncsq\": \"16\", \"phase\": null, \"trim_protein_seq\": \"\"}", "sec_required": "{\"gff_annot\": {\"values\": [{\"id\": 343, \"src\": \"hda\"}]}, \"reference_source\": {\"__current_case__\": 1, \"fasta_ref\": {\"values\": [{\"id\": 342, \"src\": \"hda\"}]}, \"reference_source_selector\": \"history\"}}"}, "inputs": {"input_file": {"id": "f121e16c78919b91", "src": "hda", "uuid": "44297641-c509-4060-ad84-2c3358f3526f"}, "sec_required|reference_source|fasta_ref": {"id": "a202354d59b13a9f", "src": "hda", "uuid": "c32eabbe-5f0d-4319-91ab-90b021c62dc8"}, "sec_required|gff_annot": {"id": "587b6e39199a40b7", "src": "hda", "uuid": "9742c8b6-b8e1-4275-bb7c-972a29b424f1"}}, "outputs": {"output_file": {"id": "3f71e9ac7db0bb96", "src": "hda", "uuid": "208dc4cf-808c-4b73-a8c4-77470f41ea8b"}}, "output_collections": {}, "tool_stdout": "", "tool_stderr": "Parsing /galaxy/server/database/objects/9/7/4/dataset_9742c8b6-b8e1-4275-bb7c-972a29b424f1.dat ...\nIndexed 4 transcripts, 10 exons, 10 CDSs, 6 UTRs\nCalling...\n", "job_stdout": "", "job_stderr": "", "stderr": "Parsing /galaxy/server/database/objects/9/7/4/dataset_9742c8b6-b8e1-4275-bb7c-972a29b424f1.dat ...\nIndexed 4 transcripts, 10 exons, 10 CDSs, 6 UTRs\nCalling...\n", "stdout": "", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "0 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "0E-7"}, {"title": "Job End Time", "value": "2024-09-15 13:37:38", "plugin": "core", "name": "end_epoch", "raw_value": "1726407458.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:37:38", "plugin": "core", "name": "start_epoch", "raw_value": "1726407458.0000000"}, {"title": "Memory Allocated (MB)", "value": "4080", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "4080.0000000"}, {"title": "Cores Allocated", "value": "1", "plugin": "core", "name": "galaxy_slots", "raw_value": "1.0000000"}]}, "status": "success"}}, {"id": "bcftools_csq/1.15.1+galaxy4-1", "has_data": true, "data": {"tool_id": "bcftools_csq", "tool_version": "1.15.1+galaxy4", "test_index": 1, "status": "skip"}}, {"id": "bcftools_csq/1.15.1+galaxy4-2", "has_data": true, "data": {"tool_id": "bcftools_csq", "tool_version": "1.15.1+galaxy4", "test_index": 2, "status": "skip"}}, {"id": "bcftools_csq/1.15.1+galaxy4-3", "has_data": true, "data": {"tool_id": "bcftools_csq", "tool_version": "1.15.1+galaxy4", "test_index": 3, "status": "skip"}}, {"id": "bcftools_plugin_mendelian/1.15.1+galaxy4-0", "has_data": true, "data": {"tool_id": "bcftools_plugin_mendelian", "tool_version": "1.15.1+galaxy4", "test_index": 0, "time_seconds": 32.18039011955261, "inputs": {"input_file": {"src": "hda", "id": "2c8d9591a61dc969"}, "sec_plugin|trios|mother": "NA00001", "sec_plugin|trios|father": "NA00002", "sec_plugin|trios|child": "NA00006", "sec_plugin|trios|trios_src": "trio", "sec_plugin|mode": "delete", "output_type": "v"}, "job": {"model_class": "Job", "id": "e1f29d4432c499ad", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:36:47.231527", "create_time": "2024-09-15T13:36:30.159567", "galaxy_version": "23.1", "command_version": "Version: 1.15.1 (using htslib 1.15.1)", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/iuc/bcftools_plugin_mendelian/bcftools_plugin_mendelian/1.15.1+galaxy4", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-khfc2", "command_line": "export BCFTOOLS_PLUGINS=`which bcftools | sed 's,bin/bcftools,libexec/bcftools,'`;     bgzip -c '/galaxy/server/database/objects/b/5/a/dataset_b5a44147-3279-4a42-930b-563402709626.dat' > input.vcf.gz && bcftools index input.vcf.gz &&            bcftools plugin mendelian                 --output-type 'v'    input.vcf.gz   --trio \"NA00001,NA00002,NA00006\" --delete 2> tmp_stderr > '/galaxy/server/database/objects/9/8/0/dataset_98081187-29d1-487d-8369-638062f28fc7.dat' && cat tmp_stderr", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_type": "\"v\"", "sec_plugin": "{\"mode\": \"delete\", \"trios\": {\"__current_case__\": 0, \"child\": \"NA00006\", \"father\": \"NA00002\", \"mother\": \"NA00001\", \"trios_src\": \"trio\"}}", "sec_restrict": "{\"exclude\": null, \"include\": null, \"regions\": {\"__current_case__\": 0, \"regions_src\": \"__none__\"}, \"regions_overlap\": null, \"targets\": {\"__current_case__\": 0, \"targets_src\": \"__none__\"}, \"targets_overlap\": null}"}, "inputs": {"input_file": {"id": "2c8d9591a61dc969", "src": "hda", "uuid": "b5a44147-3279-4a42-930b-563402709626"}}, "outputs": {"output_file": {"id": "008674b1e7d98a60", "src": "hda", "uuid": "98081187-29d1-487d-8369-638062f28fc7"}}, "output_collections": {}, "tool_stdout": "Warning: -d will be deprecated, please use `-m d` instead.\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "Warning: -d will be deprecated, please use `-m d` instead.\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:36:37", "plugin": "core", "name": "end_epoch", "raw_value": "1726407397.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:36:36", "plugin": "core", "name": "start_epoch", "raw_value": "1726407396.0000000"}, {"title": "Memory Allocated (MB)", "value": "4080", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "4080.0000000"}, {"title": "Cores Allocated", "value": "1", "plugin": "core", "name": "galaxy_slots", "raw_value": "1.0000000"}]}, "status": "success"}}, {"id": "bcftools_plugin_mendelian/1.15.1+galaxy4-1", "has_data": true, "data": {"tool_id": "bcftools_plugin_mendelian", "tool_version": "1.15.1+galaxy4", "test_index": 1, "time_seconds": 26.458961009979248, "inputs": {"input_file": {"src": "hda", "id": "48641de38b185542"}, "sec_plugin|trios|mother": "NA00001", "sec_plugin|trios|father": "NA00002", "sec_plugin|trios|child": "NA00006", "sec_plugin|trios|trios_src": "trio", "sec_plugin|mode": "x", "output_type": "v"}, "job": {"model_class": "Job", "id": "6bd2c3fcb3850609", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:37:13.497089", "create_time": "2024-09-15T13:37:02.891338", "galaxy_version": "23.1", "command_version": "Version: 1.15.1 (using htslib 1.15.1)", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/iuc/bcftools_plugin_mendelian/bcftools_plugin_mendelian/1.15.1+galaxy4", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-r2g2w", "command_line": "export BCFTOOLS_PLUGINS=`which bcftools | sed 's,bin/bcftools,libexec/bcftools,'`;     bgzip -c '/galaxy/server/database/objects/8/2/9/dataset_8290d7b4-98ff-41ec-b7b1-578c28c0f308.dat' > input.vcf.gz && bcftools index input.vcf.gz &&            bcftools plugin mendelian                 --output-type 'v'    input.vcf.gz   --trio \"NA00001,NA00002,NA00006\" --list x 2> tmp_stderr > '/galaxy/server/database/objects/1/c/4/dataset_1c4b20f9-814c-4a99-ba5e-195a36db6083.dat' && cat tmp_stderr", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_type": "\"v\"", "sec_plugin": "{\"mode\": \"x\", \"trios\": {\"__current_case__\": 0, \"child\": \"NA00006\", \"father\": \"NA00002\", \"mother\": \"NA00001\", \"trios_src\": \"trio\"}}", "sec_restrict": "{\"exclude\": null, \"include\": null, \"regions\": {\"__current_case__\": 0, \"regions_src\": \"__none__\"}, \"regions_overlap\": null, \"targets\": {\"__current_case__\": 0, \"targets_src\": \"__none__\"}, \"targets_overlap\": null}"}, "inputs": {"input_file": {"id": "48641de38b185542", "src": "hda", "uuid": "8290d7b4-98ff-41ec-b7b1-578c28c0f308"}}, "outputs": {"output_file": {"id": "e6f06968e87e09d8", "src": "hda", "uuid": "1c4b20f9-814c-4a99-ba5e-195a36db6083"}}, "output_collections": {}, "tool_stdout": "Warning: -l will be deprecated, please use -m instead.\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "Warning: -l will be deprecated, please use -m instead.\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "0 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "0E-7"}, {"title": "Job End Time", "value": "2024-09-15 13:37:04", "plugin": "core", "name": "end_epoch", "raw_value": "1726407424.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:37:04", "plugin": "core", "name": "start_epoch", "raw_value": "1726407424.0000000"}, {"title": "Memory Allocated (MB)", "value": "4080", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "4080.0000000"}, {"title": "Cores Allocated", "value": "1", "plugin": "core", "name": "galaxy_slots", "raw_value": "1.0000000"}]}, "status": "success"}}, {"id": "bowtie2/2.5.3+galaxy1-0", "has_data": true, "data": {"tool_id": "bowtie2", "tool_version": "2.5.3+galaxy1", "test_index": 0, "time_seconds": 40.910125732421875, "inputs": {"library|input_1": {"src": "hda", "id": "a1ba0761bb341135"}, "library|input_2": {"src": "hda", "id": "9f944e2ff70ac7d8"}, "library|unaligned_file": false, "library|paired_options|paired_options_selector": "no", "library|type": "paired", "reference_genome|own_file": {"src": "hda", "id": "c9ab0dd56608b4c6"}, "reference_genome|source": "history", "analysis_type|analysis_type_selector": "simple"}, "job": {"model_class": "Job", "id": "f683ebd4275f4699", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:41:43.310975", "create_time": "2024-09-15T13:41:21.367125", "galaxy_version": "23.1", "command_version": "/usr/local/bin/bowtie2-align-s version 2.5.3\n64-bit\nBuilt on fv-az365-785\nWed Jan 17 04:43:48 UTC 2024\nCompiler: gcc version 12.3.0 (conda-forge gcc 12.3.0-3) \nOptions: -O3 -msse2 -funroll-loops -g3 -fvisibility-inlines-hidden -fmessage-length=0 -march=nocona -mtune=haswell -ftree-vectorize -fPIC -fstack-protector-strong -fno-plt -O2 -ffunction-sections -pipe -isystem /usr/local/include -fdebug-prefix-map=/opt/conda/conda-bld/bowtie2_1705465427853/work=/usr/local/src/conda/bowtie2-2.5.3 -fdebug-prefix-map=/usr/local=/usr/local/src/conda-prefix -std=c++11 -Wall -Wno-unused-but-set-variable -DPOPCNT_CAPABILITY -DNO_SPINLOCK -DWITH_QUEUELOCK=1 -DWITH_ZSTD\nSizeof {int, long, long long, void*, size_t, off_t}: {4, 8, 8, 8, 8, 8}", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/devteam/bowtie2/bowtie2/2.5.3+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-nvzl9", "command_line": "set -o | grep -q pipefail && set -o pipefail; bowtie2-build --threads ${GALAXY_SLOTS:-4} '/galaxy/server/database/objects/6/7/5/dataset_6752f686-56c2-44e9-97a1-682be34b7f97.dat' genome && ln -s -f '/galaxy/server/database/objects/6/7/5/dataset_6752f686-56c2-44e9-97a1-682be34b7f97.dat' genome.fa &&   ln -f -s '/galaxy/server/database/objects/f/4/6/dataset_f46b4dc4-225c-4825-b0c1-bda913445934.dat' input_f.fastq &&  ln -f -s '/galaxy/server/database/objects/1/f/7/dataset_1f729945-3720-48c7-93ff-bd1193c4ab7b.dat' input_r.fastq &&   THREADS=${GALAXY_SLOTS:-4} && if [ \"$THREADS\" -gt 1 ]; then (( THREADS-- )); fi &&   bowtie2  -p \"$THREADS\"  -x 'genome'   -1 'input_f.fastq' -2 'input_r.fastq'                 | samtools sort -l 0 -T \"${TMPDIR:-.}\" -O bam | samtools view --no-PG -O bam -@ ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/c/b/3/dataset_cb3f552b-c78c-45d7-b0ae-dd74d483094a.dat'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "save_mapping_stats": "false", "sam_options": "{\"__current_case__\": 1, \"sam_options_selector\": \"no\"}", "analysis_type": "{\"__current_case__\": 0, \"analysis_type_selector\": \"simple\", \"presets\": \"no_presets\"}", "rg": "{\"__current_case__\": 3, \"rg_selector\": \"do_not_set\"}", "reference_genome": "{\"__current_case__\": 1, \"own_file\": {\"values\": [{\"id\": 359, \"src\": \"hda\"}]}, \"source\": \"history\"}", "library": "{\"__current_case__\": 1, \"aligned_file\": false, \"input_1\": {\"values\": [{\"id\": 357, \"src\": \"hda\"}]}, \"input_2\": {\"values\": [{\"id\": 358, \"src\": \"hda\"}]}, \"paired_options\": {\"__current_case__\": 1, \"paired_options_selector\": \"no\"}, \"type\": \"paired\", \"unaligned_file\": false}"}, "inputs": {"library|input_1": {"id": "a1ba0761bb341135", "src": "hda", "uuid": "f46b4dc4-225c-4825-b0c1-bda913445934"}, "library|input_2": {"id": "9f944e2ff70ac7d8", "src": "hda", "uuid": "1f729945-3720-48c7-93ff-bd1193c4ab7b"}, "reference_genome|own_file": {"id": "c9ab0dd56608b4c6", "src": "hda", "uuid": "6752f686-56c2-44e9-97a1-682be34b7f97"}}, "outputs": {"output": {"id": "479c168455fe508b", "src": "hda", "uuid": "cb3f552b-c78c-45d7-b0ae-dd74d483094a"}}, "output_collections": {}, "tool_stdout": "Settings:\n  Output files: \"genome.*.bt2\"\n  Line rate: 6 (line is 64 bytes)\n  Lines per side: 1 (side is 64 bytes)\n  Offset rate: 4 (one in 16)\n  FTable chars: 10\n  Strings: unpacked\n  Max bucket size: default\n  Max bucket size, sqrt multiplier: default\n  Max bucket size, len divisor: 32\n  Difference-cover sample period: 1024\n  Endianness: little\n  Actual local endianness: little\n  Sanity checking: disabled\n  Assertions: disabled\n  Random seed: 0\n  Sizeofs: void*:8, int:4, long:8, size_t:8\nInput files DNA, FASTA:\n  /galaxy/server/database/objects/6/7/5/dataset_6752f686-56c2-44e9-97a1-682be34b7f97.dat\nReading reference sizes\n  Time reading reference sizes: 00:00:00\nCalculating joined length\nWriting header\nReserving space for joined string\nJoining reference sequences\n  Time to join reference sequences: 00:00:00\nbmax according to bmaxDivN setting: 517\nUsing parameters --bmax 388 --dcv 1024\n  Doing ahead-of-time memory usage test\n  Passed!  Constructing with these parameters: --bmax 388 --dcv 1024\nConstructing suffix-array element generator\nBuilding DifferenceCoverSample\n  Building sPrime\n  Building sPrimeOrder\n  V-Sorting samples\n  V-Sorting samples time: 00:00:00\n  Allocating rank array\n  Ranking v-sort output\n  Ranking v-sort output time: 00:00:00\n  Invoking Larsson-Sadakane on ranks\n  Invoking Larsson-Sadakane on ranks time: 00:00:00\n  Sanity-checking and returning\nBuilding samples\nReserving space for 86 sample suffixes\nGenerating random suffixes\nQSorting 86 sample offsets, eliminating duplicates\nQSorting sample offsets, eliminating duplicates time: 00:00:00\nMultikey QSorting 86 samples\n  (Using difference cover)\n  Multikey QSorting samples time: 00:00:00\nCalculating bucket sizes\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 12, merged 41; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 6, merged 6; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 5, merged 3; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 3, merged 3; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nAvg bucket size: 284.672 (target: 387)\nConverting suffix-array elements to index image\nAllocating ftab, absorbFtab\nEntering Ebwt loop\nGetting block 1 of 58\n  Reserving size (388) for bucket 1\nGetting block 2 of 58\nGetting block 3 of 58\nGetting block 4 of 58\n  Calculating Z arrays for bucket 1\n  Reserving size (388) for bucket 2\n  Reserving size (388) for bucket 3\n  Reserving size (388) for bucket 4\n  Calculating Z arrays for bucket 2\n  Calculating Z arrays for bucket 3\nGetting block 5 of 58\nGetting block 6 of 58\n  Entering block accumulator loop for bucket 1:\n  Calculating Z arrays for bucket 4\n  Entering block accumulator loop for bucket 2:\n  Entering block accumulator loop for bucket 3:\n  Reserving size (388) for bucket 5\n  Reserving size (388) for bucket 6\nGetting block 7 of 58\n  Entering block accumulator loop for bucket 4:\n  Calculating Z arrays for bucket 5\n  Calculating Z arrays for bucket 6\n  Reserving size (388) for bucket 7\n  bucket 1: 10%\n  Calculating Z arrays for bucket 7\n  bucket 2: 10%\n  Entering block accumulator loop for bucket 6:\n  bucket 3: 10%\n  Entering block accumulator loop for bucket 5:\n  Entering block accumulator loop for bucket 7:\n  bucket 1: 20%\n  bucket 4: 10%\n  bucket 2: 20%\n  bucket 3: 20%\n  bucket 6: 10%\n  bucket 5: 10%\n  bucket 1: 30%\n  bucket 7: 10%\n  bucket 2: 30%\n  bucket 3: 30%\n  bucket 4: 20%\n  bucket 6: 20%\n  bucket 1: 40%\n  bucket 5: 20%\n  bucket 2: 40%\n  bucket 3: 40%\n  bucket 7: 20%\n  bucket 4: 30%\n  bucket 1: 50%\n  bucket 6: 30%\n  bucket 2: 50%\n  bucket 5: 30%\n  bucket 3: 50%\n  bucket 7: 30%\n  bucket 4: 40%\n  bucket 1: 60%\n  bucket 6: 40%\n  bucket 2: 60%\n  bucket 5: 40%\n  bucket 3: 60%\n  bucket 1: 70%\n  bucket 4: 50%\n  bucket 6: 50%\n  bucket 2: 70%\n  bucket 5: 50%\n  bucket 7: 40%\n  bucket 3: 70%\n  bucket 4: 60%\n  bucket 2: 80%\n  bucket 1: 80%\n  bucket 6: 60%\n  bucket 5: 60%\n  bucket 7: 50%\n  bucket 3: 80%\n  bucket 1: 90%\n  bucket 2: 90%\n  bucket 5: 70%\n  bucket 6: 70%\n  bucket 4: 70%\n  bucket 7: 60%\n  bucket 3: 90%\n  bucket 1: 100%\n  bucket 2: 100%\n  Sorting block of length 355 for bucket 1\n  (Using difference cover)\n  Sorting block of length 165 for bucket 2\n  (Using difference cover)\n  bucket 5: 80%\n  bucket 6: 80%\n  bucket 7: 70%\n  bucket 3: 100%\n  bucket 4: 80%\n  Sorting block of length 370 for bucket 3\n  (Using difference cover)\n  bucket 5: 90%\n  bucket 7: 80%\n  bucket 4: 90%\n  bucket 6: 90%\n  bucket 4: 100%\n  Sorting block of length 328 for bucket 4\n  (Using difference cover)\n  bucket 7: 90%\n  bucket 5: 100%\n  Sorting block of length 203 for bucket 5\n  (Using difference cover)\n  bucket 6: 100%\n  Sorting block of length 339 for bucket 6\n  (Using difference cover)\n  bucket 7: 100%\n  Sorting block of length 368 for bucket 7\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 356 for bucket 1\n  Sorting block time: 00:00:00\nReturning block of 369 for bucket 7\n  Sorting block time: 00:00:00\nReturning block of 166 for bucket 2\n  Sorting block time: 00:00:00\nReturning block of 204 for bucket 5\n  Sorting block time: 00:00:00\nReturning block of 329 for bucket 4\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 6\n  Sorting block time: 00:00:00\nReturning block of 371 for bucket 3\nGetting block 8 of 58\n  Reserving size (388) for bucket 8\n  Calculating Z arrays for bucket 8\n  Entering block accumulator loop for bucket 8:\n  bucket 8: 10%\n  bucket 8: 20%\nGetting block 9 of 58\n  Reserving size (388) for bucket 9\n  Calculating Z arrays for bucket 9\n  bucket 8: 30%\n  Entering block accumulator loop for bucket 9:\n  bucket 8: 40%\n  bucket 9: 10%\n  bucket 8: 50%\nGetting block 10 of 58\n  Reserving size (388) for bucket 10\n  Calculating Z arrays for bucket 10\n  bucket 8: 60%\n  bucket 9: 20%\n  Entering block accumulator loop for bucket 10:\n  bucket 8: 70%\n  bucket 9: 30%\n  bucket 10: 10%\n  bucket 8: 80%\n  bucket 9: 40%\n  bucket 8: 90%\n  bucket 10: 20%\n  bucket 8: 100%\n  Sorting block of length 171 for bucket 8\n  (Using difference cover)\n  bucket 9: 50%\n  bucket 10: 30%\n  bucket 10: 40%\n  bucket 9: 60%\n  bucket 10: 50%\n  bucket 9: 70%\n  Sorting block time: 00:00:00\nReturning block of 172 for bucket 8\n  bucket 10: 60%\n  bucket 9: 80%\n  bucket 10: 70%\n  bucket 9: 90%\n  bucket 10: 80%\n  bucket 9: 100%\n  Sorting block of length 339 for bucket 9\n  (Using difference cover)\n  bucket 10: 90%\n  bucket 10: 100%\n  Sorting block of length 357 for bucket 10\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 9\n  Sorting block time: 00:00:00\nReturning block of 358 for bucket 10\nGetting block 11 of 58\n  Reserving size (388) for bucket 11\n  Calculating Z arrays for bucket 11\n  Entering block accumulator loop for bucket 11:\nGetting block 12 of 58\n  Reserving size (388) for bucket 12\n  Calculating Z arrays for bucket 12\n  bucket 11: 10%\n  Entering block accumulator loop for bucket 12:\n  bucket 12: 10%\n  bucket 11: 20%\n  bucket 12: 20%\n  bucket 11: 30%\n  bucket 12: 30%\n  bucket 11: 40%\n  bucket 12: 40%\n  bucket 11: 50%\n  bucket 12: 50%\n  bucket 11: 60%\n  bucket 12: 60%\n  bucket 12: 70%\n  bucket 11: 70%\n  bucket 12: 80%\n  bucket 11: 80%\n  bucket 12: 90%\n  bucket 11: 90%\n  bucket 12: 100%\n  Sorting block of length 185 for bucket 12\n  (Using difference cover)\n  bucket 11: 100%\n  Sorting block of length 305 for bucket 11\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 186 for bucket 12\n  Sorting block time: 00:00:00\nReturning block of 306 for bucket 11\nGetting block 13 of 58\n  Reserving size (388) for bucket 13\n  Calculating Z arrays for bucket 13\n  Entering block accumulator loop for bucket 13:\n  bucket 13: 10%\nGetting block 14 of 58\n  Reserving size (388) for bucket 14\n  Calculating Z arrays for bucket 14\n  bucket 13: 20%\n  Entering block accumulator loop for bucket 14:\n  bucket 13: 30%\n  bucket 14: 10%\n  bucket 13: 40%\n  bucket 13: 50%\n  bucket 14: 20%\n  bucket 13: 60%\n  bucket 14: 30%\n  bucket 13: 70%\n  bucket 14: 40%\n  bucket 13: 80%\n  bucket 14: 50%\n  bucket 13: 90%\n  bucket 14: 60%\n  bucket 13: 100%\n  Sorting block of length 282 for bucket 13\n  (Using difference cover)\n  bucket 14: 70%\n  bucket 14: 80%\n  bucket 14: 90%\n  Sorting block time: 00:00:00\n  bucket 14: 100%\nReturning block of 283 for bucket 13\n  Sorting block of length 339 for bucket 14\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 14\nGetting block 15 of 58\n  Reserving size (388) for bucket 15\n  Calculating Z arrays for bucket 15\n  Entering block accumulator loop for bucket 15:\n  bucket 15: 10%\nGetting block 16 of 58\n  bucket 15: 20%\n  Reserving size (388) for bucket 16\n  Calculating Z arrays for bucket 16\n  bucket 15: 30%\n  Entering block accumulator loop for bucket 16:\n  bucket 15: 40%\n  bucket 16: 10%\n  bucket 15: 50%\n  bucket 16: 20%\n  bucket 15: 60%\n  bucket 15: 70%\n  bucket 16: 30%\n  bucket 15: 80%\n  bucket 16: 40%\n  bucket 15: 90%\n  bucket 16: 50%\n  bucket 15: 100%\n  Sorting block of length 241 for bucket 15\n  (Using difference cover)\n  bucket 16: 60%\n  bucket 16: 70%\n  bucket 16: 80%\n  bucket 16: 90%\n  Sorting block time: 00:00:00\nReturning block of 242 for bucket 15\n  bucket 16: 100%\n  Sorting block of length 379 for bucket 16\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 380 for bucket 16\nGetting block 17 of 58\n  Reserving size (388) for bucket 17\nGetting block 18 of 58\n  Calculating Z arrays for bucket 17\n  Reserving size (388) for bucket 18\n  Calculating Z arrays for bucket 18\n  Entering block accumulator loop for bucket 18:\n  Entering block accumulator loop for bucket 17:\n  bucket 18: 10%\n  bucket 18: 20%\n  bucket 17: 10%\n  bucket 18: 30%\n  bucket 17: 20%\n  bucket 18: 40%\n  bucket 18: 50%\n  bucket 17: 30%\n  bucket 18: 60%\n  bucket 17: 40%\n  bucket 18: 70%\n  bucket 17: 50%\n  bucket 18: 80%\n  bucket 18: 90%\n  bucket 17: 60%\n  bucket 18: 100%\n  Sorting block of length 378 for bucket 18\n  (Using difference cover)\n  bucket 17: 70%\n  bucket 17: 80%\n  bucket 17: 90%\n  bucket 17: 100%\n  Sorting block of length 215 for bucket 17\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 379 for bucket 18\n  Sorting block time: 00:00:00\nReturning block of 216 for bucket 17\nGetting block 19 of 58\n  Reserving size (388) for bucket 19\n  Calculating Z arrays for bucket 19\n  Entering block accumulator loop for bucket 19:\n  bucket 19: 10%\n  bucket 19: 20%\nGetting block 20 of 58\n  bucket 19: 30%\n  Reserving size (388) for bucket 20\n  Calculating Z arrays for bucket 20\n  Entering block accumulator loop for bucket 20:\n  bucket 19: 40%\n  bucket 20: 10%\n  bucket 19: 50%\n  bucket 20: 20%\n  bucket 19: 60%\n  bucket 20: 30%\n  bucket 19: 70%\n  bucket 20: 40%\n  bucket 19: 80%\n  bucket 20: 50%\n  bucket 20: 60%\n  bucket 19: 90%\n  bucket 20: 70%\n  bucket 19: 100%\n  Sorting block of length 334 for bucket 19\n  (Using difference cover)\n  bucket 20: 80%\n  bucket 20: 90%\n  bucket 20: 100%\n  Sorting block of length 313 for bucket 20\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 335 for bucket 19\n  Sorting block time: 00:00:00\nReturning block of 314 for bucket 20\nGetting block 21 of 58\n  Reserving size (388) for bucket 21\n  Calculating Z arrays for bucket 21\n  Entering block accumulator loop for bucket 21:\n  bucket 21: 10%\n  bucket 21: 20%\n  bucket 21: 30%\n  bucket 21: 40%\n  bucket 21: 50%\n  bucket 21: 60%\n  bucket 21: 70%\n  bucket 21: 80%\n  bucket 21: 90%\n  bucket 21: 100%\n  Sorting block of length 210 for bucket 21\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 211 for bucket 21\nGetting block 22 of 58\n  Reserving size (388) for bucket 22\nGetting block 23 of 58\n  Calculating Z arrays for bucket 22\n  Reserving size (388) for bucket 23\n  Calculating Z arrays for bucket 23\n  Entering block accumulator loop for bucket 22:\n  Entering block accumulator loop for bucket 23:\n  bucket 22: 10%\n  bucket 23: 10%\nGetting block 24 of 58\n  Reserving size (388) for bucket 24\n  Calculating Z arrays for bucket 24\n  bucket 23: 20%\n  bucket 22: 20%\n  Entering block accumulator loop for bucket 24:\n  bucket 24: 10%\n  bucket 23: 30%\n  bucket 22: 30%\n  bucket 24: 20%\n  bucket 23: 40%\n  bucket 22: 40%\n  bucket 24: 30%\n  bucket 24: 40%\n  bucket 23: 50%\n  bucket 22: 50%\n  bucket 24: 50%\n  bucket 23: 60%\n  bucket 22: 60%\n  bucket 24: 60%\n  bucket 23: 70%\n  bucket 22: 70%\n  bucket 24: 70%\n  bucket 24: 80%\n  bucket 23: 80%\n  bucket 22: 80%\n  bucket 24: 90%\n  bucket 23: 90%\n  bucket 22: 90%\n  bucket 24: 100%\n  Sorting block of length 351 for bucket 24\n  (Using difference cover)\n  bucket 23: 100%\n  bucket 22: 100%\n  Sorting block of length 238 for bucket 23\n  (Using difference cover)\n  Sorting block of length 386 for bucket 22\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 352 for bucket 24\n  Sorting block time: 00:00:00\nReturning block of 239 for bucket 23\n  Sorting block time: 00:00:00\nReturning block of 387 for bucket 22\nGetting block 25 of 58\n  Reserving size (388) for bucket 25\nGetting block 26 of 58\n  Calculating Z arrays for bucket 25\n  Reserving size (388) for bucket 26\n  Calculating Z arrays for bucket 26\n  Entering block accumulator loop for bucket 26:\n  Entering block accumulator loop for bucket 25:\n  bucket 25: 10%\n  bucket 26: 10%\n  bucket 25: 20%\n  bucket 26: 20%\n  bucket 25: 30%\n  bucket 26: 30%\n  bucket 25: 40%\n  bucket 25: 50%\n  bucket 26: 40%\n  bucket 25: 60%\n  bucket 26: 50%\n  bucket 25: 70%\n  bucket 26: 60%\n  bucket 25: 80%\n  bucket 26: 70%\n  bucket 25: 90%\n  bucket 26: 80%\n  bucket 25: 100%\n  Sorting block of length 105 for bucket 25\n  (Using difference cover)\n  bucket 26: 90%\n  bucket 26: 100%\n  Sorting block of length 354 for bucket 26\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 106 for bucket 25\n  Sorting block time: 00:00:00\nReturning block of 355 for bucket 26\nGetting block 27 of 58\n  Reserving size (388) for bucket 27\n  Calculating Z arrays for bucket 27\n  Entering block accumulator loop for bucket 27:\nGetting block 28 of 58\n  Reserving size (388) for bucket 28\n  Calculating Z arrays for bucket 28\n  bucket 27: 10%\n  Entering block accumulator loop for bucket 28:\n  bucket 27: 20%\n  bucket 28: 10%\n  bucket 27: 30%\n  bucket 28: 20%\n  bucket 27: 40%\n  bucket 28: 30%\n  bucket 27: 50%\n  bucket 27: 60%\n  bucket 28: 40%\n  bucket 27: 70%\n  bucket 28: 50%\n  bucket 27: 80%\n  bucket 28: 60%\n  bucket 27: 90%\n  bucket 28: 70%\n  bucket 27: 100%\n  bucket 28: 80%\n  Sorting block of length 334 for bucket 27\n  (Using difference cover)\n  bucket 28: 90%\n  bucket 28: 100%\n  Sorting block of length 253 for bucket 28\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 335 for bucket 27\n  Sorting block time: 00:00:00\nReturning block of 254 for bucket 28\nGetting block 29 of 58\n  Reserving size (388) for bucket 29\n  Calculating Z arrays for bucket 29\n  Entering block accumulator loop for bucket 29:\n  bucket 29: 10%\n  bucket 29: 20%\nGetting block 30 of 58\n  bucket 29: 30%\n  Reserving size (388) for bucket 30\n  Calculating Z arrays for bucket 30\n  Entering block accumulator loop for bucket 30:\n  bucket 29: 40%\n  bucket 29: 50%\n  bucket 30: 10%\n  bucket 29: 60%\n  bucket 30: 20%\n  bucket 29: 70%\n  bucket 29: 80%\n  bucket 30: 30%\n  bucket 29: 90%\n  bucket 30: 40%\n  bucket 29: 100%\n  Sorting block of length 289 for bucket 29\n  (Using difference cover)\n  bucket 30: 50%\n  bucket 30: 60%\n  bucket 30: 70%\n  Sorting block time: 00:00:00\nReturning block of 290 for bucket 29\n  bucket 30: 80%\n  bucket 30: 90%\n  bucket 30: 100%\n  Sorting block of length 345 for bucket 30\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 346 for bucket 30\nGetting block 31 of 58\n  Reserving size (388) for bucket 31\nGetting block 32 of 58\nGetting block 33 of 58\n  Calculating Z arrays for bucket 31\n  Reserving size (388) for bucket 32\n  Reserving size (388) for bucket 33\n  Calculating Z arrays for bucket 32\n  Calculating Z arrays for bucket 33\n  Entering block accumulator loop for bucket 31:\n  Entering block accumulator loop for bucket 33:\n  Entering block accumulator loop for bucket 32:\n  bucket 31: 10%\n  bucket 33: 10%\n  bucket 31: 20%\n  bucket 32: 10%\n  bucket 33: 20%\n  bucket 32: 20%\n  bucket 31: 30%\n  bucket 33:\n..\n0:00\nReturning block of 350 for bucket 23\nGetting block 24 of 57\n  Reserving size (388) for bucket 24\n  Calculating Z arrays for bucket 24\n  Entering block accumulator loop for bucket 24:\n  bucket 24: 10%\n  bucket 24: 20%\nGetting block 25 of 57\n  bucket 24: 30%\n  Reserving size (388) for bucket 25\n  Calculating Z arrays for bucket 25\n  Entering block accumulator loop for bucket 25:\n  bucket 24: 40%\n  bucket 25: 10%\n  bucket 24: 50%\n  bucket 25: 20%\n  bucket 24: 60%\n  bucket 25: 30%\n  bucket 24: 70%\n  bucket 25: 40%\n  bucket 24: 80%\n  bucket 25: 50%\n  bucket 25: 60%\n  bucket 24: 90%\n  bucket 25: 70%\n  bucket 24: 100%\n  Sorting block of length 245 for bucket 24\n  (Using difference cover)\n  bucket 25: 80%\n  bucket 25: 90%\n  bucket 25: 100%\n  Sorting block of length 286 for bucket 25\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 246 for bucket 24\n  Sorting block time: 00:00:00\nReturning block of 287 for bucket 25\nGetting block 26 of 57\n  Reserving size (388) for bucket 26\nGetting block 27 of 57\n  Calculating Z arrays for bucket 26\n  Reserving size (388) for bucket 27\n  Calculating Z arrays for bucket 27\n  Entering block accumulator loop for bucket 26:\n  Entering block accumulator loop for bucket 27:\n  bucket 26: 10%\n  bucket 27: 10%\n  bucket 26: 20%\n  bucket 27: 20%\n  bucket 26: 30%\n  bucket 27: 30%\n  bucket 26: 40%\n  bucket 26: 50%\n  bucket 27: 40%\n  bucket 26: 60%\n  bucket 27: 50%\n  bucket 27: 60%\n  bucket 26: 70%\n  bucket 26: 80%\n  bucket 27: 70%\n  bucket 26: 90%\n  bucket 27: 80%\n  bucket 26: 100%\n  Sorting block of length 384 for bucket 26\n  (Using difference cover)\n  bucket 27: 90%\n  bucket 27: 100%\n  Sorting block of length 359 for bucket 27\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 385 for bucket 26\n  Sorting block time: 00:00:00\nReturning block of 360 for bucket 27\nGetting block 28 of 57\n  Reserving size (388) for bucket 28\n  Calculating Z arrays for bucket 28\nGetting block 29 of 57\n  Entering block accumulator loop for bucket 28:\n  Reserving size (388) for bucket 29\n  Calculating Z arrays for bucket 29\nGetting block 30 of 57\n  Entering block accumulator loop for bucket 29:\n  Reserving size (388) for bucket 30\n  bucket 28: 10%\n  Calculating Z arrays for bucket 30\n  Entering block accumulator loop for bucket 30:\n  bucket 28: 20%\n  bucket 29: 10%\n  bucket 28: 30%\n  bucket 30: 10%\n  bucket 29: 20%\n  bucket 28: 40%\n  bucket 30: 20%\n  bucket 28: 50%\n  bucket 29: 30%\n  bucket 30: 30%\n  bucket 28: 60%\n  bucket 29: 40%\n  bucket 30: 40%\n  bucket 28: 70%\n  bucket 29: 50%\n  bucket 30: 50%\n  bucket 28: 80%\n  bucket 30: 60%\n  bucket 29: 60%\n  bucket 28: 90%\n  bucket 30: 70%\n  bucket 28: 100%\n  bucket 29: 70%\n  Sorting block of length 387 for bucket 28\n  (Using difference cover)\n  bucket 30: 80%\n  bucket 29: 80%\n  bucket 30: 90%\n  bucket 29: 90%\n  bucket 30: 100%\n  Sorting block of length 257 for bucket 30\n  (Using difference cover)\n  Sorting block time: 00:00:00\n  bucket 29: 100%\nReturning block of 388 for bucket 28\n  Sorting block of length 195 for bucket 29\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 258 for bucket 30\n  Sorting block time: 00:00:00\nReturning block of 196 for bucket 29\nGetting block 31 of 57\n  Reserving size (388) for bucket 31\n  Calculating Z arrays for bucket 31\n  Entering block accumulator loop for bucket 31:\n  bucket 31: 10%\n  bucket 31: 20%\nGetting block 32 of 57\n  Reserving size (388) for bucket 32\n  Calculating Z arrays for bucket 32\n  bucket 31: 30%\n  Entering block accumulator loop for bucket 32:\n  bucket 31: 40%\n  bucket 32: 10%\n  bucket 31: 50%\n  bucket 32: 20%\n  bucket 31: 60%\n  bucket 32: 30%\n  bucket 32: 40%\n  bucket 31: 70%\n  bucket 32: 50%\n  bucket 31: 80%\n  bucket 32: 60%\n  bucket 31: 90%\n  bucket 32: 70%\n  bucket 31: 100%\n  Sorting block of length 310 for bucket 31\n  (Using difference cover)\n  bucket 32: 80%\n  bucket 32: 90%\n  bucket 32: 100%\n  Sorting block of length 219 for bucket 32\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 311 for bucket 31\n  Sorting block time: 00:00:00\nReturning block of 220 for bucket 32\nGetting block 33 of 57\n  Reserving size (388) for bucket 33\n  Calculating Z arrays for bucket 33\n  Entering block accumulator loop for bucket 33:\nGetting block 34 of 57\n  bucket 33: 10%\n  Reserving size (388) for bucket 34\n  Calculating Z arrays for bucket 34\n  Entering block accumulator loop for bucket 34:\n  bucket 33: 20%\n  bucket 34: 10%\n  bucket 33: 30%\n  bucket 34: 20%\n  bucket 33: 40%\n  bucket 34: 30%\n  bucket 33: 50%\n  bucket 33: 60%\n  bucket 34: 40%\n  bucket 33: 70%\n  bucket 34: 50%\n  bucket 33: 80%\n  bucket 34: 60%\n  bucket 33: 90%\n  bucket 34: 70%\n  bucket 33: 100%\n  Sorting block of length 387 for bucket 33\n  (Using difference cover)\n  bucket 34: 80%\n  bucket 34: 90%\n  bucket 34: 100%\n  Sorting block of length 275 for bucket 34\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 33\n  Sorting block time: 00:00:00\nReturning block of 276 for bucket 34\nGetting block 35 of 57\n  Reserving size (388) for bucket 35\n  Calculating Z arrays for bucket 35\n  Entering block accumulator loop for bucket 35:\n  bucket 35: 10%\n  bucket 35: 20%\n  bucket 35: 30%\nGetting block 36 of 57\n  bucket 35: 40%\n  Reserving size (388) for bucket 36\n  Calculating Z arrays for bucket 36\n  Entering block accumulator loop for bucket 36:\n  bucket 35: 50%\n  bucket 35: 60%\n  bucket 36: 10%\n  bucket 35: 70%\n  bucket 36: 20%\n  bucket 35: 80%\n  bucket 35: 90%\n  bucket 36: 30%\n  bucket 35: 100%\n  Sorting block of length 350 for bucket 35\n  (Using difference cover)\n  bucket 36: 40%\n  bucket 36: 50%\n  bucket 36: 60%\n  Sorting block time: 00:00:00\nReturning block of 351 for bucket 35\n  bucket 36: 70%\n  bucket 36: 80%\n  bucket 36: 90%\n  bucket 36: 100%\n  Sorting block of length 150 for bucket 36\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 151 for bucket 36\nGetting block 37 of 57\n  Reserving size (388) for bucket 37\n  Calculating Z arrays for bucket 37\n  Entering block accumulator loop for bucket 37:\n  bucket 37: 10%\n  bucket 37: 20%\n  bucket 37: 30%\n  bucket 37: 40%\n  bucket 37: 50%\n  bucket 37: 60%\n  bucket 37: 70%\n  bucket 37: 80%\n  bucket 37: 90%\n  bucket 37: 100%\n  Sorting block of length 267 for bucket 37\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 268 for bucket 37\nGetting block 38 of 57\n  Reserving size (388) for bucket 38\n  Calculating Z arrays for bucket 38\n  Entering block accumulator loop for bucket 38:\n  bucket 38: 10%\n  bucket 38: 20%\n  bucket 38: 30%\nGetting block 39 of 57\n  Reserving size (388) for bucket 39\n  Calculating Z arrays for bucket 39\n  bucket 38: 40%\n  Entering block accumulator loop for bucket 39:\n  bucket 38: 50%\n  bucket 39: 10%\n  bucket 38: 60%\n  bucket 39: 20%\n  bucket 38: 70%\n  bucket 38: 80%\n  bucket 39: 30%\n  bucket 38: 90%\n  bucket 39: 40%\n  bucket 38: 100%\n  Sorting block of length 337 for bucket 38\n  (Using difference cover)\n  bucket 39: 50%\n  bucket 39: 60%\n  Sorting block time: 00:00:00\nReturning block of 338 for bucket 38\n  bucket 39: 70%\n  bucket 39: 80%\n  bucket 39: 90%\n  bucket 39: 100%\n  Sorting block of length 387 for bucket 39\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 39\nGetting block 40 of 57\n  Reserving size (388) for bucket 40\n  Calculating Z arrays for bucket 40\nGetting block 41 of 57\n  Entering block accumulator loop for bucket 40:\n  Reserving size (388) for bucket 41\n  Calculating Z arrays for bucket 41\n  Entering block accumulator loop for bucket 41:\n  bucket 40: 10%\n  bucket 41: 10%\n  bucket 40: 20%\n  bucket 41: 20%\n  bucket 40: 30%\n  bucket 41: 30%\n  bucket 40: 40%\n  bucket 41: 40%\n  bucket 40: 50%\n  bucket 41: 50%\n  bucket 40: 60%\n  bucket 41: 60%\n  bucket 40: 70%\n  bucket 41: 70%\n  bucket 41: 80%\n  bucket 40: 80%\n  bucket 41: 90%\n  bucket 40: 90%\n  bucket 41: 100%\n  Sorting block of length 330 for bucket 41\n  (Using difference cover)\n  bucket 40: 100%\n  Sorting block of length 379 for bucket 40\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 380 for bucket 40\n  Sorting block time: 00:00:00\nReturning block of 331 for bucket 41\nGetting block 42 of 57\n  Reserving size (388) for bucket 42\n  Calculating Z arrays for bucket 42\n  Entering block accumulator loop for bucket 42:\n  bucket 42: 10%\n  bucket 42: 20%\n  bucket 42: 30%\n  bucket 42: 40%\n  bucket 42: 50%\n  bucket 42: 60%\n  bucket 42: 70%\n  bucket 42: 80%\n  bucket 42: 90%\n  bucket 42: 100%\n  Sorting block of length 188 for bucket 42\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 189 for bucket 42\nGetting block 43 of 57\n  Reserving size (388) for bucket 43\n  Calculating Z arrays for bucket 43\n  Entering block accumulator loop for bucket 43:\n  bucket 43: 10%\nGetting block 44 of 57\n  Reserving size (388) for bucket 44\n  Calculating Z arrays for bucket 44\n  bucket 43: 20%\n  Entering block accumulator loop for bucket 44:\n  bucket 43: 30%\n  bucket 44: 10%\n  bucket 43: 40%\n  bucket 44: 20%\n  bucket 43: 50%\n  bucket 44: 30%\n  bucket 44: 40%\n  bucket 43: 60%\n  bucket 44: 50%\n  bucket 43: 70%\n  bucket 43: 80%\n  bucket 44: 60%\n  bucket 43: 90%\n  bucket 44: 70%\n  bucket 43: 100%\n  Sorting block of length 321 for bucket 43\n  (Using difference cover)\n  bucket 44: 80%\n  bucket 44: 90%\n  bucket 44: 100%\n  Sorting block of length 366 for bucket 44\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 322 for bucket 43\n  Sorting block time: 00:00:00\nReturning block of 367 for bucket 44\nGetting block 45 of 57\n  Reserving size (388) for bucket 45\n  Calculating Z arrays for bucket 45\n  Entering block accumulator loop for bucket 45:\n  bucket 45: 10%\n  bucket 45: 20%\nGetting block 46 of 57\n  Reserving size (388) for bucket 46\n  Calculating Z arrays for bucket 46\n  Entering block accumulator loop for bucket 46:\n  bucket 45: 30%\n  bucket 46: 10%\n  bucket 45: 40%\n  bucket 46: 20%\n  bucket 45: 50%\n  bucket 46: 30%\n  bucket 45: 60%\n  bucket 46: 40%\n  bucket 45: 70%\n  bucket 46: 50%\n  bucket 45: 80%\n  bucket 46: 60%\n  bucket 45: 90%\n  bucket 45: 100%\n  bucket 46: 70%\n  Sorting block of length 365 for bucket 45\n  (Using difference cover)\n  bucket 46: 80%\n  bucket 46: 90%\n  bucket 46: 100%\n  Sorting block of length 253 for bucket 46\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 366 for bucket 45\n  Sorting block time: 00:00:00\nReturning block of 254 for bucket 46\nGetting block 47 of 57\n  Reserving size (388) for bucket 47\n  Calculating Z arrays for bucket 47\n  Entering block accumulator loop for bucket 47:\n  bucket 47: 10%\nGetting block 48 of 57\n  Reserving size (388) for bucket 48\n  Calculating Z arrays for bucket 48\nGetting block 49 of 57\n  bucket 47: 20%\n  Entering block accumulator loop for bucket 48:\n  Reserving size (388) for bucket 49\n  Calculating Z arrays for bucket 49\n  Entering block accumulator loop for bucket 49:\n  bucket 47: 30%\n  bucket 48: 10%\n  bucket 49: 10%\n  bucket 47: 40%\n  bucket 49: 20%\n  bucket 48: 20%\n  bucket 49: 30%\n  bucket 47: 50%\n  bucket 48: 30%\n  bucket 49: 40%\n  bucket 47: 60%\n  bucket 48: 40%\n  bucket 49: 50%\n  bucket 47: 70%\n  bucket 48: 50%\n  bucket 49: 60%\n  bucket 49: 70%\n  bucket 47: 80%\n  bucket 48: 60%\n  bucket 49: 80%\n  bucket 47: 90%\n  bucket 48: 70%\n  bucket 49: 90%\n  bucket 49: 100%\n  bucket 47: 100%\n  Sorting block of length 112 for bucket 49\n  (Using difference cover)\n  Sorting block of length 217 for bucket 47\n  (Using difference cover)\n  bucket 48: 80%\n  bucket 48: 90%\n  bucket 48: 100%\n  Sorting block of length 384 for bucket 48\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 113 for bucket 49\n  Sorting block time: 00:00:00\nReturning block of 218 for bucket 47\n  Sorting block time: 00:00:00\nReturning block of 385 for bucket 48\nGetting block 50 of 57\n  Reserving size (388) for bucket 50\n  Calculating Z arrays for bucket 50\n  Entering block accumulator loop for bucket 50:\n  bucket 50: 10%\nGetting block 51 of 57\n  Reserving size (388) for bucket 51\n  Calculating Z arrays for bucket 51\n  bucket 50: 20%\n  Entering block accumulator loop for bucket 51:\n  bucket 50: 30%\n  bucket 51: 10%\n  bucket 50: 40%\n  bucket 51: 20%\n  bucket 50: 50%\n  bucket 51: 30%\n  bucket 50: 60%\n  bucket 51: 40%\n  bucket 50: 70%\n  bucket 51: 50%\n  bucket 50: 80%\n  bucket 51: 60%\n  bucket 50: 90%\n  bucket 51: 70%\n  bucket 50: 100%\n  Sorting block of length 275 for bucket 50\n  (Using difference cover)\n  bucket 51: 80%\n  bucket 51: 90%\n  bucket 51: 100%\n  Sorting block of length 350 for bucket 51\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 276 for bucket 50\n  Sorting block time: 00:00:00\nReturning block of 351 for bucket 51\nGetting block 52 of 57\n  Reserving size (388) for bucket 52\n  Calculating Z arrays for bucket 52\nGetting block 53 of 57\n  Entering block accumulator loop for bucket 52:\n  Reserving size (388) for bucket 53\n  Calculating Z arrays for bucket 53\n  Entering block accumulator loop for bucket 53:\n  bucket 52: 10%\n  bucket 53: 10%\n  bucket 52: 20%\n  bucket 53: 20%\n  bucket 53: 30%\n  bucket 52: 30%\n  bucket 53: 40%\n  bucket 52: 40%\n  bucket 53: 50%\n  bucket 52: 50%\n  bucket 53: 60%\n  bucket 52: 60%\n  bucket 53: 70%\n  bucket 52: 70%\n  bucket 53: 80%\n  bucket 53: 90%\n  bucket 52: 80%\n  bucket 53: 100%\n  Sorting block of length 370 for bucket 53\n  (Using difference cover)\n  bucket 52: 90%\n  bucket 52: 100%\n  Sorting block of length 378 for bucket 52\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 371 for bucket 53\n  Sorting block time: 00:00:00\nReturning block of 379 for bucket 52\nGetting block 54 of 57\n  Reserving size (388) for bucket 54\n  Calculating Z arrays for bucket 54\n  Entering block accumulator loop for bucket 54:\nGetting block 55 of 57\n  Reserving size (388) for bucket 55\n  Calculating Z arrays for bucket 55\n  Entering block accumulator loop for bucket 55:\n  bucket 54: 10%\n  bucket 55: 10%\n  bucket 54: 20%\n  bucket 55: 20%\n  bucket 54: 30%\n  bucket 55: 30%\n  bucket 54: 40%\n  bucket 54: 50%\n  bucket 55: 40%\n  bucket 54: 60%\n  bucket 55: 50%\n  bucket 54: 70%\n  bucket 55: 60%\n  bucket 54: 80%\n  bucket 55: 70%\n  bucket 54: 90%\n  bucket 55: 80%\n  bucket 54: 100%\n  Sorting block of length 237 for bucket 54\n  (Using difference cover)\n  bucket 55: 90%\n  bucket 55: 100%\n  Sorting block of length 344 for bucket 55\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 238 for bucket 54\n  Sorting block time: 00:00:00\nReturning block of 345 for bucket 55\nGetting block 56 of 57\n  Reserving size (388) for bucket 56\n  Calculating Z arrays for bucket 56\n  Entering block accumulator loop for bucket 56:\n  bucket 56: 10%\n  bucket 56: 20%\nGetting block 57 of 57\n  bucket 56: 30%\n  Reserving size (388) for bucket 57\n  Calculating Z arrays for bucket 57\n  Entering block accumulator loop for bucket 57:\n  bucket 56: 40%\n  bucket 57: 10%\n  bucket 57: 20%\n  bucket 56: 50%\n  bucket 56: 60%\n  bucket 57: 30%\n  bucket 56: 70%\n  bucket 57: 40%\n  bucket 57: 50%\n  bucket 56: 80%\n  bucket 57: 60%\n  bucket 56: 90%\n  bucket 57: 70%\n  bucket 57: 80%\n  bucket 56: 100%\n  Sorting block of length 270 for bucket 56\n  (Using difference cover)\n  bucket 57: 90%\n  bucket 57: 100%\n  Sorting block of length 132 for bucket 57\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 271 for bucket 56\n  Sorting block time: 00:00:00\nReturning block of 133 for bucket 57\nExited Ebwt loop\nfchr[A]: 0\nfchr[C]: 5124\nfchr[G]: 10305\nfchr[T]: 12474\nfchr[$]: 16568\nExiting Ebwt::buildToDisk()\nReturning from initFromVector\nWrote 4200050 bytes to primary EBWT file: genome.rev.1.bt2.tmp\nWrote 4148 bytes to secondary EBWT file: genome.rev.2.bt2.tmp\nRe-opening _in1 and _in2 as input streams\nReturning from Ebwt constructor\nHeaders:\n    len: 16568\n    bwtLen: 16569\n    sz: 4142\n    bwtSz: 4143\n    lineRate: 6\n    offRate: 4\n    offMask: 0xfffffff0\n    ftabChars: 10\n    eftabLen: 20\n    eftabSz: 80\n    ftabLen: 1048577\n    ftabSz: 4194308\n    offsLen: 1036\n    offsSz: 4144\n    lineSz: 64\n    sideSz: 64\n    sideBwtSz: 48\n    sideBwtLen: 192\n    numSides: 87\n    numLines: 87\n    ebwtTotLen: 5568\n    ebwtTotSz: 5568\n    color: 0\n    reverse: 1\nTotal time for backward call to driver() for mirror index: 00:00:00\n", "tool_stderr": "Building a SMALL index\nRenaming genome.3.bt2.tmp to genome.3.bt2\nRenaming genome.4.bt2.tmp to genome.4.bt2\nRenaming genome.1.bt2.tmp to genome.1.bt2\nRenaming genome.2.bt2.tmp to genome.2.bt2\nRenaming genome.rev.1.bt2.tmp to genome.rev.1.bt2\nRenaming genome.rev.2.bt2.tmp to genome.rev.2.bt2\n100 reads; of these:\n  100 (100.00%) were paired; of these:\n    97 (97.00%) aligned concordantly 0 times\n    3 (3.00%) aligned concordantly exactly 1 time\n    0 (0.00%) aligned concordantly >1 times\n    ----\n    97 pairs aligned concordantly 0 times; of these:\n      8 (8.25%) aligned discordantly 1 time\n    ----\n    89 pairs aligned 0 times concordantly or discordantly; of these:\n      178 mates make up the pairs; of these:\n        153 (85.96%) aligned 0 times\n        25 (14.04%) aligned exactly 1 time\n        0 (0.00%) aligned >1 times\n23.50% overall alignment rate\n", "job_stdout": "", "job_stderr": "", "stderr": "Building a SMALL index\nRenaming genome.3.bt2.tmp to genome.3.bt2\nRenaming genome.4.bt2.tmp to genome.4.bt2\nRenaming genome.1.bt2.tmp to genome.1.bt2\nRenaming genome.2.bt2.tmp to genome.2.bt2\nRenaming genome.rev.1.bt2.tmp to genome.rev.1.bt2\nRenaming genome.rev.2.bt2.tmp to genome.rev.2.bt2\n100 reads; of these:\n  100 (100.00%) were paired; of these:\n    97 (97.00%) aligned concordantly 0 times\n    3 (3.00%) aligned concordantly exactly 1 time\n    0 (0.00%) aligned concordantly >1 times\n    ----\n    97 pairs aligned concordantly 0 times; of these:\n      8 (8.25%) aligned discordantly 1 time\n    ----\n    89 pairs aligned 0 times concordantly or discordantly; of these:\n      178 mates make up the pairs; of these:\n        153 (85.96%) aligned 0 times\n        25 (14.04%) aligned exactly 1 time\n        0 (0.00%) aligned >1 times\n23.50% overall alignment rate\n", "stdout": "Settings:\n  Output files: \"genome.*.bt2\"\n  Line rate: 6 (line is 64 bytes)\n  Lines per side: 1 (side is 64 bytes)\n  Offset rate: 4 (one in 16)\n  FTable chars: 10\n  Strings: unpacked\n  Max bucket size: default\n  Max bucket size, sqrt multiplier: default\n  Max bucket size, len divisor: 32\n  Difference-cover sample period: 1024\n  Endianness: little\n  Actual local endianness: little\n  Sanity checking: disabled\n  Assertions: disabled\n  Random seed: 0\n  Sizeofs: void*:8, int:4, long:8, size_t:8\nInput files DNA, FASTA:\n  /galaxy/server/database/objects/6/7/5/dataset_6752f686-56c2-44e9-97a1-682be34b7f97.dat\nReading reference sizes\n  Time reading reference sizes: 00:00:00\nCalculating joined length\nWriting header\nReserving space for joined string\nJoining reference sequences\n  Time to join reference sequences: 00:00:00\nbmax according to bmaxDivN setting: 517\nUsing parameters --bmax 388 --dcv 1024\n  Doing ahead-of-time memory usage test\n  Passed!  Constructing with these parameters: --bmax 388 --dcv 1024\nConstructing suffix-array element generator\nBuilding DifferenceCoverSample\n  Building sPrime\n  Building sPrimeOrder\n  V-Sorting samples\n  V-Sorting samples time: 00:00:00\n  Allocating rank array\n  Ranking v-sort output\n  Ranking v-sort output time: 00:00:00\n  Invoking Larsson-Sadakane on ranks\n  Invoking Larsson-Sadakane on ranks time: 00:00:00\n  Sanity-checking and returning\nBuilding samples\nReserving space for 86 sample suffixes\nGenerating random suffixes\nQSorting 86 sample offsets, eliminating duplicates\nQSorting sample offsets, eliminating duplicates time: 00:00:00\nMultikey QSorting 86 samples\n  (Using difference cover)\n  Multikey QSorting samples time: 00:00:00\nCalculating bucket sizes\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 12, merged 41; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 6, merged 6; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 5, merged 3; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 3, merged 3; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nAvg bucket size: 284.672 (target: 387)\nConverting suffix-array elements to index image\nAllocating ftab, absorbFtab\nEntering Ebwt loop\nGetting block 1 of 58\n  Reserving size (388) for bucket 1\nGetting block 2 of 58\nGetting block 3 of 58\nGetting block 4 of 58\n  Calculating Z arrays for bucket 1\n  Reserving size (388) for bucket 2\n  Reserving size (388) for bucket 3\n  Reserving size (388) for bucket 4\n  Calculating Z arrays for bucket 2\n  Calculating Z arrays for bucket 3\nGetting block 5 of 58\nGetting block 6 of 58\n  Entering block accumulator loop for bucket 1:\n  Calculating Z arrays for bucket 4\n  Entering block accumulator loop for bucket 2:\n  Entering block accumulator loop for bucket 3:\n  Reserving size (388) for bucket 5\n  Reserving size (388) for bucket 6\nGetting block 7 of 58\n  Entering block accumulator loop for bucket 4:\n  Calculating Z arrays for bucket 5\n  Calculating Z arrays for bucket 6\n  Reserving size (388) for bucket 7\n  bucket 1: 10%\n  Calculating Z arrays for bucket 7\n  bucket 2: 10%\n  Entering block accumulator loop for bucket 6:\n  bucket 3: 10%\n  Entering block accumulator loop for bucket 5:\n  Entering block accumulator loop for bucket 7:\n  bucket 1: 20%\n  bucket 4: 10%\n  bucket 2: 20%\n  bucket 3: 20%\n  bucket 6: 10%\n  bucket 5: 10%\n  bucket 1: 30%\n  bucket 7: 10%\n  bucket 2: 30%\n  bucket 3: 30%\n  bucket 4: 20%\n  bucket 6: 20%\n  bucket 1: 40%\n  bucket 5: 20%\n  bucket 2: 40%\n  bucket 3: 40%\n  bucket 7: 20%\n  bucket 4: 30%\n  bucket 1: 50%\n  bucket 6: 30%\n  bucket 2: 50%\n  bucket 5: 30%\n  bucket 3: 50%\n  bucket 7: 30%\n  bucket 4: 40%\n  bucket 1: 60%\n  bucket 6: 40%\n  bucket 2: 60%\n  bucket 5: 40%\n  bucket 3: 60%\n  bucket 1: 70%\n  bucket 4: 50%\n  bucket 6: 50%\n  bucket 2: 70%\n  bucket 5: 50%\n  bucket 7: 40%\n  bucket 3: 70%\n  bucket 4: 60%\n  bucket 2: 80%\n  bucket 1: 80%\n  bucket 6: 60%\n  bucket 5: 60%\n  bucket 7: 50%\n  bucket 3: 80%\n  bucket 1: 90%\n  bucket 2: 90%\n  bucket 5: 70%\n  bucket 6: 70%\n  bucket 4: 70%\n  bucket 7: 60%\n  bucket 3: 90%\n  bucket 1: 100%\n  bucket 2: 100%\n  Sorting block of length 355 for bucket 1\n  (Using difference cover)\n  Sorting block of length 165 for bucket 2\n  (Using difference cover)\n  bucket 5: 80%\n  bucket 6: 80%\n  bucket 7: 70%\n  bucket 3: 100%\n  bucket 4: 80%\n  Sorting block of length 370 for bucket 3\n  (Using difference cover)\n  bucket 5: 90%\n  bucket 7: 80%\n  bucket 4: 90%\n  bucket 6: 90%\n  bucket 4: 100%\n  Sorting block of length 328 for bucket 4\n  (Using difference cover)\n  bucket 7: 90%\n  bucket 5: 100%\n  Sorting block of length 203 for bucket 5\n  (Using difference cover)\n  bucket 6: 100%\n  Sorting block of length 339 for bucket 6\n  (Using difference cover)\n  bucket 7: 100%\n  Sorting block of length 368 for bucket 7\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 356 for bucket 1\n  Sorting block time: 00:00:00\nReturning block of 369 for bucket 7\n  Sorting block time: 00:00:00\nReturning block of 166 for bucket 2\n  Sorting block time: 00:00:00\nReturning block of 204 for bucket 5\n  Sorting block time: 00:00:00\nReturning block of 329 for bucket 4\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 6\n  Sorting block time: 00:00:00\nReturning block of 371 for bucket 3\nGetting block 8 of 58\n  Reserving size (388) for bucket 8\n  Calculating Z arrays for bucket 8\n  Entering block accumulator loop for bucket 8:\n  bucket 8: 10%\n  bucket 8: 20%\nGetting block 9 of 58\n  Reserving size (388) for bucket 9\n  Calculating Z arrays for bucket 9\n  bucket 8: 30%\n  Entering block accumulator loop for bucket 9:\n  bucket 8: 40%\n  bucket 9: 10%\n  bucket 8: 50%\nGetting block 10 of 58\n  Reserving size (388) for bucket 10\n  Calculating Z arrays for bucket 10\n  bucket 8: 60%\n  bucket 9: 20%\n  Entering block accumulator loop for bucket 10:\n  bucket 8: 70%\n  bucket 9: 30%\n  bucket 10: 10%\n  bucket 8: 80%\n  bucket 9: 40%\n  bucket 8: 90%\n  bucket 10: 20%\n  bucket 8: 100%\n  Sorting block of length 171 for bucket 8\n  (Using difference cover)\n  bucket 9: 50%\n  bucket 10: 30%\n  bucket 10: 40%\n  bucket 9: 60%\n  bucket 10: 50%\n  bucket 9: 70%\n  Sorting block time: 00:00:00\nReturning block of 172 for bucket 8\n  bucket 10: 60%\n  bucket 9: 80%\n  bucket 10: 70%\n  bucket 9: 90%\n  bucket 10: 80%\n  bucket 9: 100%\n  Sorting block of length 339 for bucket 9\n  (Using difference cover)\n  bucket 10: 90%\n  bucket 10: 100%\n  Sorting block of length 357 for bucket 10\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 9\n  Sorting block time: 00:00:00\nReturning block of 358 for bucket 10\nGetting block 11 of 58\n  Reserving size (388) for bucket 11\n  Calculating Z arrays for bucket 11\n  Entering block accumulator loop for bucket 11:\nGetting block 12 of 58\n  Reserving size (388) for bucket 12\n  Calculating Z arrays for bucket 12\n  bucket 11: 10%\n  Entering block accumulator loop for bucket 12:\n  bucket 12: 10%\n  bucket 11: 20%\n  bucket 12: 20%\n  bucket 11: 30%\n  bucket 12: 30%\n  bucket 11: 40%\n  bucket 12: 40%\n  bucket 11: 50%\n  bucket 12: 50%\n  bucket 11: 60%\n  bucket 12: 60%\n  bucket 12: 70%\n  bucket 11: 70%\n  bucket 12: 80%\n  bucket 11: 80%\n  bucket 12: 90%\n  bucket 11: 90%\n  bucket 12: 100%\n  Sorting block of length 185 for bucket 12\n  (Using difference cover)\n  bucket 11: 100%\n  Sorting block of length 305 for bucket 11\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 186 for bucket 12\n  Sorting block time: 00:00:00\nReturning block of 306 for bucket 11\nGetting block 13 of 58\n  Reserving size (388) for bucket 13\n  Calculating Z arrays for bucket 13\n  Entering block accumulator loop for bucket 13:\n  bucket 13: 10%\nGetting block 14 of 58\n  Reserving size (388) for bucket 14\n  Calculating Z arrays for bucket 14\n  bucket 13: 20%\n  Entering block accumulator loop for bucket 14:\n  bucket 13: 30%\n  bucket 14: 10%\n  bucket 13: 40%\n  bucket 13: 50%\n  bucket 14: 20%\n  bucket 13: 60%\n  bucket 14: 30%\n  bucket 13: 70%\n  bucket 14: 40%\n  bucket 13: 80%\n  bucket 14: 50%\n  bucket 13: 90%\n  bucket 14: 60%\n  bucket 13: 100%\n  Sorting block of length 282 for bucket 13\n  (Using difference cover)\n  bucket 14: 70%\n  bucket 14: 80%\n  bucket 14: 90%\n  Sorting block time: 00:00:00\n  bucket 14: 100%\nReturning block of 283 for bucket 13\n  Sorting block of length 339 for bucket 14\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 14\nGetting block 15 of 58\n  Reserving size (388) for bucket 15\n  Calculating Z arrays for bucket 15\n  Entering block accumulator loop for bucket 15:\n  bucket 15: 10%\nGetting block 16 of 58\n  bucket 15: 20%\n  Reserving size (388) for bucket 16\n  Calculating Z arrays for bucket 16\n  bucket 15: 30%\n  Entering block accumulator loop for bucket 16:\n  bucket 15: 40%\n  bucket 16: 10%\n  bucket 15: 50%\n  bucket 16: 20%\n  bucket 15: 60%\n  bucket 15: 70%\n  bucket 16: 30%\n  bucket 15: 80%\n  bucket 16: 40%\n  bucket 15: 90%\n  bucket 16: 50%\n  bucket 15: 100%\n  Sorting block of length 241 for bucket 15\n  (Using difference cover)\n  bucket 16: 60%\n  bucket 16: 70%\n  bucket 16: 80%\n  bucket 16: 90%\n  Sorting block time: 00:00:00\nReturning block of 242 for bucket 15\n  bucket 16: 100%\n  Sorting block of length 379 for bucket 16\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 380 for bucket 16\nGetting block 17 of 58\n  Reserving size (388) for bucket 17\nGetting block 18 of 58\n  Calculating Z arrays for bucket 17\n  Reserving size (388) for bucket 18\n  Calculating Z arrays for bucket 18\n  Entering block accumulator loop for bucket 18:\n  Entering block accumulator loop for bucket 17:\n  bucket 18: 10%\n  bucket 18: 20%\n  bucket 17: 10%\n  bucket 18: 30%\n  bucket 17: 20%\n  bucket 18: 40%\n  bucket 18: 50%\n  bucket 17: 30%\n  bucket 18: 60%\n  bucket 17: 40%\n  bucket 18: 70%\n  bucket 17: 50%\n  bucket 18: 80%\n  bucket 18: 90%\n  bucket 17: 60%\n  bucket 18: 100%\n  Sorting block of length 378 for bucket 18\n  (Using difference cover)\n  bucket 17: 70%\n  bucket 17: 80%\n  bucket 17: 90%\n  bucket 17: 100%\n  Sorting block of length 215 for bucket 17\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 379 for bucket 18\n  Sorting block time: 00:00:00\nReturning block of 216 for bucket 17\nGetting block 19 of 58\n  Reserving size (388) for bucket 19\n  Calculating Z arrays for bucket 19\n  Entering block accumulator loop for bucket 19:\n  bucket 19: 10%\n  bucket 19: 20%\nGetting block 20 of 58\n  bucket 19: 30%\n  Reserving size (388) for bucket 20\n  Calculating Z arrays for bucket 20\n  Entering block accumulator loop for bucket 20:\n  bucket 19: 40%\n  bucket 20: 10%\n  bucket 19: 50%\n  bucket 20: 20%\n  bucket 19: 60%\n  bucket 20: 30%\n  bucket 19: 70%\n  bucket 20: 40%\n  bucket 19: 80%\n  bucket 20: 50%\n  bucket 20: 60%\n  bucket 19: 90%\n  bucket 20: 70%\n  bucket 19: 100%\n  Sorting block of length 334 for bucket 19\n  (Using difference cover)\n  bucket 20: 80%\n  bucket 20: 90%\n  bucket 20: 100%\n  Sorting block of length 313 for bucket 20\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 335 for bucket 19\n  Sorting block time: 00:00:00\nReturning block of 314 for bucket 20\nGetting block 21 of 58\n  Reserving size (388) for bucket 21\n  Calculating Z arrays for bucket 21\n  Entering block accumulator loop for bucket 21:\n  bucket 21: 10%\n  bucket 21: 20%\n  bucket 21: 30%\n  bucket 21: 40%\n  bucket 21: 50%\n  bucket 21: 60%\n  bucket 21: 70%\n  bucket 21: 80%\n  bucket 21: 90%\n  bucket 21: 100%\n  Sorting block of length 210 for bucket 21\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 211 for bucket 21\nGetting block 22 of 58\n  Reserving size (388) for bucket 22\nGetting block 23 of 58\n  Calculating Z arrays for bucket 22\n  Reserving size (388) for bucket 23\n  Calculating Z arrays for bucket 23\n  Entering block accumulator loop for bucket 22:\n  Entering block accumulator loop for bucket 23:\n  bucket 22: 10%\n  bucket 23: 10%\nGetting block 24 of 58\n  Reserving size (388) for bucket 24\n  Calculating Z arrays for bucket 24\n  bucket 23: 20%\n  bucket 22: 20%\n  Entering block accumulator loop for bucket 24:\n  bucket 24: 10%\n  bucket 23: 30%\n  bucket 22: 30%\n  bucket 24: 20%\n  bucket 23: 40%\n  bucket 22: 40%\n  bucket 24: 30%\n  bucket 24: 40%\n  bucket 23: 50%\n  bucket 22: 50%\n  bucket 24: 50%\n  bucket 23: 60%\n  bucket 22: 60%\n  bucket 24: 60%\n  bucket 23: 70%\n  bucket 22: 70%\n  bucket 24: 70%\n  bucket 24: 80%\n  bucket 23: 80%\n  bucket 22: 80%\n  bucket 24: 90%\n  bucket 23: 90%\n  bucket 22: 90%\n  bucket 24: 100%\n  Sorting block of length 351 for bucket 24\n  (Using difference cover)\n  bucket 23: 100%\n  bucket 22: 100%\n  Sorting block of length 238 for bucket 23\n  (Using difference cover)\n  Sorting block of length 386 for bucket 22\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 352 for bucket 24\n  Sorting block time: 00:00:00\nReturning block of 239 for bucket 23\n  Sorting block time: 00:00:00\nReturning block of 387 for bucket 22\nGetting block 25 of 58\n  Reserving size (388) for bucket 25\nGetting block 26 of 58\n  Calculating Z arrays for bucket 25\n  Reserving size (388) for bucket 26\n  Calculating Z arrays for bucket 26\n  Entering block accumulator loop for bucket 26:\n  Entering block accumulator loop for bucket 25:\n  bucket 25: 10%\n  bucket 26: 10%\n  bucket 25: 20%\n  bucket 26: 20%\n  bucket 25: 30%\n  bucket 26: 30%\n  bucket 25: 40%\n  bucket 25: 50%\n  bucket 26: 40%\n  bucket 25: 60%\n  bucket 26: 50%\n  bucket 25: 70%\n  bucket 26: 60%\n  bucket 25: 80%\n  bucket 26: 70%\n  bucket 25: 90%\n  bucket 26: 80%\n  bucket 25: 100%\n  Sorting block of length 105 for bucket 25\n  (Using difference cover)\n  bucket 26: 90%\n  bucket 26: 100%\n  Sorting block of length 354 for bucket 26\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 106 for bucket 25\n  Sorting block time: 00:00:00\nReturning block of 355 for bucket 26\nGetting block 27 of 58\n  Reserving size (388) for bucket 27\n  Calculating Z arrays for bucket 27\n  Entering block accumulator loop for bucket 27:\nGetting block 28 of 58\n  Reserving size (388) for bucket 28\n  Calculating Z arrays for bucket 28\n  bucket 27: 10%\n  Entering block accumulator loop for bucket 28:\n  bucket 27: 20%\n  bucket 28: 10%\n  bucket 27: 30%\n  bucket 28: 20%\n  bucket 27: 40%\n  bucket 28: 30%\n  bucket 27: 50%\n  bucket 27: 60%\n  bucket 28: 40%\n  bucket 27: 70%\n  bucket 28: 50%\n  bucket 27: 80%\n  bucket 28: 60%\n  bucket 27: 90%\n  bucket 28: 70%\n  bucket 27: 100%\n  bucket 28: 80%\n  Sorting block of length 334 for bucket 27\n  (Using difference cover)\n  bucket 28: 90%\n  bucket 28: 100%\n  Sorting block of length 253 for bucket 28\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 335 for bucket 27\n  Sorting block time: 00:00:00\nReturning block of 254 for bucket 28\nGetting block 29 of 58\n  Reserving size (388) for bucket 29\n  Calculating Z arrays for bucket 29\n  Entering block accumulator loop for bucket 29:\n  bucket 29: 10%\n  bucket 29: 20%\nGetting block 30 of 58\n  bucket 29: 30%\n  Reserving size (388) for bucket 30\n  Calculating Z arrays for bucket 30\n  Entering block accumulator loop for bucket 30:\n  bucket 29: 40%\n  bucket 29: 50%\n  bucket 30: 10%\n  bucket 29: 60%\n  bucket 30: 20%\n  bucket 29: 70%\n  bucket 29: 80%\n  bucket 30: 30%\n  bucket 29: 90%\n  bucket 30: 40%\n  bucket 29: 100%\n  Sorting block of length 289 for bucket 29\n  (Using difference cover)\n  bucket 30: 50%\n  bucket 30: 60%\n  bucket 30: 70%\n  Sorting block time: 00:00:00\nReturning block of 290 for bucket 29\n  bucket 30: 80%\n  bucket 30: 90%\n  bucket 30: 100%\n  Sorting block of length 345 for bucket 30\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 346 for bucket 30\nGetting block 31 of 58\n  Reserving size (388) for bucket 31\nGetting block 32 of 58\nGetting block 33 of 58\n  Calculating Z arrays for bucket 31\n  Reserving size (388) for bucket 32\n  Reserving size (388) for bucket 33\n  Calculating Z arrays for bucket 32\n  Calculating Z arrays for bucket 33\n  Entering block accumulator loop for bucket 31:\n  Entering block accumulator loop for bucket 33:\n  Entering block accumulator loop for bucket 32:\n  bucket 31: 10%\n  bucket 33: 10%\n  bucket 31: 20%\n  bucket 32: 10%\n  bucket 33: 20%\n  bucket 32: 20%\n  bucket 31: 30%\n  bucket 33:\n..\n0:00\nReturning block of 350 for bucket 23\nGetting block 24 of 57\n  Reserving size (388) for bucket 24\n  Calculating Z arrays for bucket 24\n  Entering block accumulator loop for bucket 24:\n  bucket 24: 10%\n  bucket 24: 20%\nGetting block 25 of 57\n  bucket 24: 30%\n  Reserving size (388) for bucket 25\n  Calculating Z arrays for bucket 25\n  Entering block accumulator loop for bucket 25:\n  bucket 24: 40%\n  bucket 25: 10%\n  bucket 24: 50%\n  bucket 25: 20%\n  bucket 24: 60%\n  bucket 25: 30%\n  bucket 24: 70%\n  bucket 25: 40%\n  bucket 24: 80%\n  bucket 25: 50%\n  bucket 25: 60%\n  bucket 24: 90%\n  bucket 25: 70%\n  bucket 24: 100%\n  Sorting block of length 245 for bucket 24\n  (Using difference cover)\n  bucket 25: 80%\n  bucket 25: 90%\n  bucket 25: 100%\n  Sorting block of length 286 for bucket 25\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 246 for bucket 24\n  Sorting block time: 00:00:00\nReturning block of 287 for bucket 25\nGetting block 26 of 57\n  Reserving size (388) for bucket 26\nGetting block 27 of 57\n  Calculating Z arrays for bucket 26\n  Reserving size (388) for bucket 27\n  Calculating Z arrays for bucket 27\n  Entering block accumulator loop for bucket 26:\n  Entering block accumulator loop for bucket 27:\n  bucket 26: 10%\n  bucket 27: 10%\n  bucket 26: 20%\n  bucket 27: 20%\n  bucket 26: 30%\n  bucket 27: 30%\n  bucket 26: 40%\n  bucket 26: 50%\n  bucket 27: 40%\n  bucket 26: 60%\n  bucket 27: 50%\n  bucket 27: 60%\n  bucket 26: 70%\n  bucket 26: 80%\n  bucket 27: 70%\n  bucket 26: 90%\n  bucket 27: 80%\n  bucket 26: 100%\n  Sorting block of length 384 for bucket 26\n  (Using difference cover)\n  bucket 27: 90%\n  bucket 27: 100%\n  Sorting block of length 359 for bucket 27\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 385 for bucket 26\n  Sorting block time: 00:00:00\nReturning block of 360 for bucket 27\nGetting block 28 of 57\n  Reserving size (388) for bucket 28\n  Calculating Z arrays for bucket 28\nGetting block 29 of 57\n  Entering block accumulator loop for bucket 28:\n  Reserving size (388) for bucket 29\n  Calculating Z arrays for bucket 29\nGetting block 30 of 57\n  Entering block accumulator loop for bucket 29:\n  Reserving size (388) for bucket 30\n  bucket 28: 10%\n  Calculating Z arrays for bucket 30\n  Entering block accumulator loop for bucket 30:\n  bucket 28: 20%\n  bucket 29: 10%\n  bucket 28: 30%\n  bucket 30: 10%\n  bucket 29: 20%\n  bucket 28: 40%\n  bucket 30: 20%\n  bucket 28: 50%\n  bucket 29: 30%\n  bucket 30: 30%\n  bucket 28: 60%\n  bucket 29: 40%\n  bucket 30: 40%\n  bucket 28: 70%\n  bucket 29: 50%\n  bucket 30: 50%\n  bucket 28: 80%\n  bucket 30: 60%\n  bucket 29: 60%\n  bucket 28: 90%\n  bucket 30: 70%\n  bucket 28: 100%\n  bucket 29: 70%\n  Sorting block of length 387 for bucket 28\n  (Using difference cover)\n  bucket 30: 80%\n  bucket 29: 80%\n  bucket 30: 90%\n  bucket 29: 90%\n  bucket 30: 100%\n  Sorting block of length 257 for bucket 30\n  (Using difference cover)\n  Sorting block time: 00:00:00\n  bucket 29: 100%\nReturning block of 388 for bucket 28\n  Sorting block of length 195 for bucket 29\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 258 for bucket 30\n  Sorting block time: 00:00:00\nReturning block of 196 for bucket 29\nGetting block 31 of 57\n  Reserving size (388) for bucket 31\n  Calculating Z arrays for bucket 31\n  Entering block accumulator loop for bucket 31:\n  bucket 31: 10%\n  bucket 31: 20%\nGetting block 32 of 57\n  Reserving size (388) for bucket 32\n  Calculating Z arrays for bucket 32\n  bucket 31: 30%\n  Entering block accumulator loop for bucket 32:\n  bucket 31: 40%\n  bucket 32: 10%\n  bucket 31: 50%\n  bucket 32: 20%\n  bucket 31: 60%\n  bucket 32: 30%\n  bucket 32: 40%\n  bucket 31: 70%\n  bucket 32: 50%\n  bucket 31: 80%\n  bucket 32: 60%\n  bucket 31: 90%\n  bucket 32: 70%\n  bucket 31: 100%\n  Sorting block of length 310 for bucket 31\n  (Using difference cover)\n  bucket 32: 80%\n  bucket 32: 90%\n  bucket 32: 100%\n  Sorting block of length 219 for bucket 32\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 311 for bucket 31\n  Sorting block time: 00:00:00\nReturning block of 220 for bucket 32\nGetting block 33 of 57\n  Reserving size (388) for bucket 33\n  Calculating Z arrays for bucket 33\n  Entering block accumulator loop for bucket 33:\nGetting block 34 of 57\n  bucket 33: 10%\n  Reserving size (388) for bucket 34\n  Calculating Z arrays for bucket 34\n  Entering block accumulator loop for bucket 34:\n  bucket 33: 20%\n  bucket 34: 10%\n  bucket 33: 30%\n  bucket 34: 20%\n  bucket 33: 40%\n  bucket 34: 30%\n  bucket 33: 50%\n  bucket 33: 60%\n  bucket 34: 40%\n  bucket 33: 70%\n  bucket 34: 50%\n  bucket 33: 80%\n  bucket 34: 60%\n  bucket 33: 90%\n  bucket 34: 70%\n  bucket 33: 100%\n  Sorting block of length 387 for bucket 33\n  (Using difference cover)\n  bucket 34: 80%\n  bucket 34: 90%\n  bucket 34: 100%\n  Sorting block of length 275 for bucket 34\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 33\n  Sorting block time: 00:00:00\nReturning block of 276 for bucket 34\nGetting block 35 of 57\n  Reserving size (388) for bucket 35\n  Calculating Z arrays for bucket 35\n  Entering block accumulator loop for bucket 35:\n  bucket 35: 10%\n  bucket 35: 20%\n  bucket 35: 30%\nGetting block 36 of 57\n  bucket 35: 40%\n  Reserving size (388) for bucket 36\n  Calculating Z arrays for bucket 36\n  Entering block accumulator loop for bucket 36:\n  bucket 35: 50%\n  bucket 35: 60%\n  bucket 36: 10%\n  bucket 35: 70%\n  bucket 36: 20%\n  bucket 35: 80%\n  bucket 35: 90%\n  bucket 36: 30%\n  bucket 35: 100%\n  Sorting block of length 350 for bucket 35\n  (Using difference cover)\n  bucket 36: 40%\n  bucket 36: 50%\n  bucket 36: 60%\n  Sorting block time: 00:00:00\nReturning block of 351 for bucket 35\n  bucket 36: 70%\n  bucket 36: 80%\n  bucket 36: 90%\n  bucket 36: 100%\n  Sorting block of length 150 for bucket 36\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 151 for bucket 36\nGetting block 37 of 57\n  Reserving size (388) for bucket 37\n  Calculating Z arrays for bucket 37\n  Entering block accumulator loop for bucket 37:\n  bucket 37: 10%\n  bucket 37: 20%\n  bucket 37: 30%\n  bucket 37: 40%\n  bucket 37: 50%\n  bucket 37: 60%\n  bucket 37: 70%\n  bucket 37: 80%\n  bucket 37: 90%\n  bucket 37: 100%\n  Sorting block of length 267 for bucket 37\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 268 for bucket 37\nGetting block 38 of 57\n  Reserving size (388) for bucket 38\n  Calculating Z arrays for bucket 38\n  Entering block accumulator loop for bucket 38:\n  bucket 38: 10%\n  bucket 38: 20%\n  bucket 38: 30%\nGetting block 39 of 57\n  Reserving size (388) for bucket 39\n  Calculating Z arrays for bucket 39\n  bucket 38: 40%\n  Entering block accumulator loop for bucket 39:\n  bucket 38: 50%\n  bucket 39: 10%\n  bucket 38: 60%\n  bucket 39: 20%\n  bucket 38: 70%\n  bucket 38: 80%\n  bucket 39: 30%\n  bucket 38: 90%\n  bucket 39: 40%\n  bucket 38: 100%\n  Sorting block of length 337 for bucket 38\n  (Using difference cover)\n  bucket 39: 50%\n  bucket 39: 60%\n  Sorting block time: 00:00:00\nReturning block of 338 for bucket 38\n  bucket 39: 70%\n  bucket 39: 80%\n  bucket 39: 90%\n  bucket 39: 100%\n  Sorting block of length 387 for bucket 39\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 39\nGetting block 40 of 57\n  Reserving size (388) for bucket 40\n  Calculating Z arrays for bucket 40\nGetting block 41 of 57\n  Entering block accumulator loop for bucket 40:\n  Reserving size (388) for bucket 41\n  Calculating Z arrays for bucket 41\n  Entering block accumulator loop for bucket 41:\n  bucket 40: 10%\n  bucket 41: 10%\n  bucket 40: 20%\n  bucket 41: 20%\n  bucket 40: 30%\n  bucket 41: 30%\n  bucket 40: 40%\n  bucket 41: 40%\n  bucket 40: 50%\n  bucket 41: 50%\n  bucket 40: 60%\n  bucket 41: 60%\n  bucket 40: 70%\n  bucket 41: 70%\n  bucket 41: 80%\n  bucket 40: 80%\n  bucket 41: 90%\n  bucket 40: 90%\n  bucket 41: 100%\n  Sorting block of length 330 for bucket 41\n  (Using difference cover)\n  bucket 40: 100%\n  Sorting block of length 379 for bucket 40\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 380 for bucket 40\n  Sorting block time: 00:00:00\nReturning block of 331 for bucket 41\nGetting block 42 of 57\n  Reserving size (388) for bucket 42\n  Calculating Z arrays for bucket 42\n  Entering block accumulator loop for bucket 42:\n  bucket 42: 10%\n  bucket 42: 20%\n  bucket 42: 30%\n  bucket 42: 40%\n  bucket 42: 50%\n  bucket 42: 60%\n  bucket 42: 70%\n  bucket 42: 80%\n  bucket 42: 90%\n  bucket 42: 100%\n  Sorting block of length 188 for bucket 42\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 189 for bucket 42\nGetting block 43 of 57\n  Reserving size (388) for bucket 43\n  Calculating Z arrays for bucket 43\n  Entering block accumulator loop for bucket 43:\n  bucket 43: 10%\nGetting block 44 of 57\n  Reserving size (388) for bucket 44\n  Calculating Z arrays for bucket 44\n  bucket 43: 20%\n  Entering block accumulator loop for bucket 44:\n  bucket 43: 30%\n  bucket 44: 10%\n  bucket 43: 40%\n  bucket 44: 20%\n  bucket 43: 50%\n  bucket 44: 30%\n  bucket 44: 40%\n  bucket 43: 60%\n  bucket 44: 50%\n  bucket 43: 70%\n  bucket 43: 80%\n  bucket 44: 60%\n  bucket 43: 90%\n  bucket 44: 70%\n  bucket 43: 100%\n  Sorting block of length 321 for bucket 43\n  (Using difference cover)\n  bucket 44: 80%\n  bucket 44: 90%\n  bucket 44: 100%\n  Sorting block of length 366 for bucket 44\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 322 for bucket 43\n  Sorting block time: 00:00:00\nReturning block of 367 for bucket 44\nGetting block 45 of 57\n  Reserving size (388) for bucket 45\n  Calculating Z arrays for bucket 45\n  Entering block accumulator loop for bucket 45:\n  bucket 45: 10%\n  bucket 45: 20%\nGetting block 46 of 57\n  Reserving size (388) for bucket 46\n  Calculating Z arrays for bucket 46\n  Entering block accumulator loop for bucket 46:\n  bucket 45: 30%\n  bucket 46: 10%\n  bucket 45: 40%\n  bucket 46: 20%\n  bucket 45: 50%\n  bucket 46: 30%\n  bucket 45: 60%\n  bucket 46: 40%\n  bucket 45: 70%\n  bucket 46: 50%\n  bucket 45: 80%\n  bucket 46: 60%\n  bucket 45: 90%\n  bucket 45: 100%\n  bucket 46: 70%\n  Sorting block of length 365 for bucket 45\n  (Using difference cover)\n  bucket 46: 80%\n  bucket 46: 90%\n  bucket 46: 100%\n  Sorting block of length 253 for bucket 46\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 366 for bucket 45\n  Sorting block time: 00:00:00\nReturning block of 254 for bucket 46\nGetting block 47 of 57\n  Reserving size (388) for bucket 47\n  Calculating Z arrays for bucket 47\n  Entering block accumulator loop for bucket 47:\n  bucket 47: 10%\nGetting block 48 of 57\n  Reserving size (388) for bucket 48\n  Calculating Z arrays for bucket 48\nGetting block 49 of 57\n  bucket 47: 20%\n  Entering block accumulator loop for bucket 48:\n  Reserving size (388) for bucket 49\n  Calculating Z arrays for bucket 49\n  Entering block accumulator loop for bucket 49:\n  bucket 47: 30%\n  bucket 48: 10%\n  bucket 49: 10%\n  bucket 47: 40%\n  bucket 49: 20%\n  bucket 48: 20%\n  bucket 49: 30%\n  bucket 47: 50%\n  bucket 48: 30%\n  bucket 49: 40%\n  bucket 47: 60%\n  bucket 48: 40%\n  bucket 49: 50%\n  bucket 47: 70%\n  bucket 48: 50%\n  bucket 49: 60%\n  bucket 49: 70%\n  bucket 47: 80%\n  bucket 48: 60%\n  bucket 49: 80%\n  bucket 47: 90%\n  bucket 48: 70%\n  bucket 49: 90%\n  bucket 49: 100%\n  bucket 47: 100%\n  Sorting block of length 112 for bucket 49\n  (Using difference cover)\n  Sorting block of length 217 for bucket 47\n  (Using difference cover)\n  bucket 48: 80%\n  bucket 48: 90%\n  bucket 48: 100%\n  Sorting block of length 384 for bucket 48\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 113 for bucket 49\n  Sorting block time: 00:00:00\nReturning block of 218 for bucket 47\n  Sorting block time: 00:00:00\nReturning block of 385 for bucket 48\nGetting block 50 of 57\n  Reserving size (388) for bucket 50\n  Calculating Z arrays for bucket 50\n  Entering block accumulator loop for bucket 50:\n  bucket 50: 10%\nGetting block 51 of 57\n  Reserving size (388) for bucket 51\n  Calculating Z arrays for bucket 51\n  bucket 50: 20%\n  Entering block accumulator loop for bucket 51:\n  bucket 50: 30%\n  bucket 51: 10%\n  bucket 50: 40%\n  bucket 51: 20%\n  bucket 50: 50%\n  bucket 51: 30%\n  bucket 50: 60%\n  bucket 51: 40%\n  bucket 50: 70%\n  bucket 51: 50%\n  bucket 50: 80%\n  bucket 51: 60%\n  bucket 50: 90%\n  bucket 51: 70%\n  bucket 50: 100%\n  Sorting block of length 275 for bucket 50\n  (Using difference cover)\n  bucket 51: 80%\n  bucket 51: 90%\n  bucket 51: 100%\n  Sorting block of length 350 for bucket 51\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 276 for bucket 50\n  Sorting block time: 00:00:00\nReturning block of 351 for bucket 51\nGetting block 52 of 57\n  Reserving size (388) for bucket 52\n  Calculating Z arrays for bucket 52\nGetting block 53 of 57\n  Entering block accumulator loop for bucket 52:\n  Reserving size (388) for bucket 53\n  Calculating Z arrays for bucket 53\n  Entering block accumulator loop for bucket 53:\n  bucket 52: 10%\n  bucket 53: 10%\n  bucket 52: 20%\n  bucket 53: 20%\n  bucket 53: 30%\n  bucket 52: 30%\n  bucket 53: 40%\n  bucket 52: 40%\n  bucket 53: 50%\n  bucket 52: 50%\n  bucket 53: 60%\n  bucket 52: 60%\n  bucket 53: 70%\n  bucket 52: 70%\n  bucket 53: 80%\n  bucket 53: 90%\n  bucket 52: 80%\n  bucket 53: 100%\n  Sorting block of length 370 for bucket 53\n  (Using difference cover)\n  bucket 52: 90%\n  bucket 52: 100%\n  Sorting block of length 378 for bucket 52\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 371 for bucket 53\n  Sorting block time: 00:00:00\nReturning block of 379 for bucket 52\nGetting block 54 of 57\n  Reserving size (388) for bucket 54\n  Calculating Z arrays for bucket 54\n  Entering block accumulator loop for bucket 54:\nGetting block 55 of 57\n  Reserving size (388) for bucket 55\n  Calculating Z arrays for bucket 55\n  Entering block accumulator loop for bucket 55:\n  bucket 54: 10%\n  bucket 55: 10%\n  bucket 54: 20%\n  bucket 55: 20%\n  bucket 54: 30%\n  bucket 55: 30%\n  bucket 54: 40%\n  bucket 54: 50%\n  bucket 55: 40%\n  bucket 54: 60%\n  bucket 55: 50%\n  bucket 54: 70%\n  bucket 55: 60%\n  bucket 54: 80%\n  bucket 55: 70%\n  bucket 54: 90%\n  bucket 55: 80%\n  bucket 54: 100%\n  Sorting block of length 237 for bucket 54\n  (Using difference cover)\n  bucket 55: 90%\n  bucket 55: 100%\n  Sorting block of length 344 for bucket 55\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 238 for bucket 54\n  Sorting block time: 00:00:00\nReturning block of 345 for bucket 55\nGetting block 56 of 57\n  Reserving size (388) for bucket 56\n  Calculating Z arrays for bucket 56\n  Entering block accumulator loop for bucket 56:\n  bucket 56: 10%\n  bucket 56: 20%\nGetting block 57 of 57\n  bucket 56: 30%\n  Reserving size (388) for bucket 57\n  Calculating Z arrays for bucket 57\n  Entering block accumulator loop for bucket 57:\n  bucket 56: 40%\n  bucket 57: 10%\n  bucket 57: 20%\n  bucket 56: 50%\n  bucket 56: 60%\n  bucket 57: 30%\n  bucket 56: 70%\n  bucket 57: 40%\n  bucket 57: 50%\n  bucket 56: 80%\n  bucket 57: 60%\n  bucket 56: 90%\n  bucket 57: 70%\n  bucket 57: 80%\n  bucket 56: 100%\n  Sorting block of length 270 for bucket 56\n  (Using difference cover)\n  bucket 57: 90%\n  bucket 57: 100%\n  Sorting block of length 132 for bucket 57\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 271 for bucket 56\n  Sorting block time: 00:00:00\nReturning block of 133 for bucket 57\nExited Ebwt loop\nfchr[A]: 0\nfchr[C]: 5124\nfchr[G]: 10305\nfchr[T]: 12474\nfchr[$]: 16568\nExiting Ebwt::buildToDisk()\nReturning from initFromVector\nWrote 4200050 bytes to primary EBWT file: genome.rev.1.bt2.tmp\nWrote 4148 bytes to secondary EBWT file: genome.rev.2.bt2.tmp\nRe-opening _in1 and _in2 as input streams\nReturning from Ebwt constructor\nHeaders:\n    len: 16568\n    bwtLen: 16569\n    sz: 4142\n    bwtSz: 4143\n    lineRate: 6\n    offRate: 4\n    offMask: 0xfffffff0\n    ftabChars: 10\n    eftabLen: 20\n    eftabSz: 80\n    ftabLen: 1048577\n    ftabSz: 4194308\n    offsLen: 1036\n    offsSz: 4144\n    lineSz: 64\n    sideSz: 64\n    sideBwtSz: 48\n    sideBwtLen: 192\n    numSides: 87\n    numLines: 87\n    ebwtTotLen: 5568\n    ebwtTotSz: 5568\n    color: 0\n    reverse: 1\nTotal time for backward call to driver() for mirror index: 00:00:00\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:41:32", "plugin": "core", "name": "end_epoch", "raw_value": "1726407692.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:41:31", "plugin": "core", "name": "start_epoch", "raw_value": "1726407691.0000000"}, {"title": "Memory Allocated (MB)", "value": "21474", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "21474.0000000"}, {"title": "Cores Allocated", "value": "8", "plugin": "core", "name": "galaxy_slots", "raw_value": "8.0000000"}]}, "status": "success"}}, {"id": "bowtie2/2.5.3+galaxy1-1", "has_data": true, "data": {"tool_id": "bowtie2", "tool_version": "2.5.3+galaxy1", "test_index": 1, "time_seconds": 30.79624032974243, "inputs": {"library|input_1": {"src": "hdca", "id": "14995ae871e326ae"}, "library|unaligned_file": true, "library|paired_options|paired_options_selector": "no", "library|type": "paired_collection", "reference_genome|own_file": {"src": "hda", "id": "63db022aedec38e4"}, "reference_genome|source": "history", "analysis_type|analysis_type_selector": "simple"}, "job": {"model_class": "Job", "id": "18f66d72c923ac35", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:42:14.203693", "create_time": "2024-09-15T13:42:02.703247", "galaxy_version": "23.1", "command_version": "/usr/local/bin/bowtie2-align-s version 2.5.3\n64-bit\nBuilt on fv-az365-785\nWed Jan 17 04:43:48 UTC 2024\nCompiler: gcc version 12.3.0 (conda-forge gcc 12.3.0-3) \nOptions: -O3 -msse2 -funroll-loops -g3 -fvisibility-inlines-hidden -fmessage-length=0 -march=nocona -mtune=haswell -ftree-vectorize -fPIC -fstack-protector-strong -fno-plt -O2 -ffunction-sections -pipe -isystem /usr/local/include -fdebug-prefix-map=/opt/conda/conda-bld/bowtie2_1705465427853/work=/usr/local/src/conda/bowtie2-2.5.3 -fdebug-prefix-map=/usr/local=/usr/local/src/conda-prefix -std=c++11 -Wall -Wno-unused-but-set-variable -DPOPCNT_CAPABILITY -DNO_SPINLOCK -DWITH_QUEUELOCK=1 -DWITH_ZSTD\nSizeof {int, long, long long, void*, size_t, off_t}: {4, 8, 8, 8, 8, 8}", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/devteam/bowtie2/bowtie2/2.5.3+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-sn98q", "command_line": "set -o | grep -q pipefail && set -o pipefail; bowtie2-build --threads ${GALAXY_SLOTS:-4} '/galaxy/server/database/objects/e/4/d/dataset_e4dbf02b-3963-4a5f-96a9-cf0840765165.dat' genome && ln -s -f '/galaxy/server/database/objects/e/4/d/dataset_e4dbf02b-3963-4a5f-96a9-cf0840765165.dat' genome.fa &&   ln -f -s '/galaxy/server/database/objects/3/d/b/dataset_3db3efc3-bb97-465b-895b-a1a04a5002f3.dat' input_f.fastq &&  ln -f -s '/galaxy/server/database/objects/a/4/4/dataset_a442cbcb-544e-44a3-8ada-494ff30f22a7.dat' input_r.fastq &&    THREADS=${GALAXY_SLOTS:-4} && if [ \"$THREADS\" -gt 1 ]; then (( THREADS-- )); fi &&   bowtie2  -p \"$THREADS\"  -x 'genome'   -1 'input_f.fastq' -2 'input_r.fastq' --un-conc '/galaxy/server/database/objects/c/a/f/dataset_cafaf4f8-7a0a-4fa1-9fc1-47b406389ecb.dat'                 | samtools sort -l 0 -T \"${TMPDIR:-.}\" -O bam | samtools view --no-PG -O bam -@ ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/3/0/a/dataset_30a5a5e3-b529-498b-afed-4b67b3a33e55.dat'  && mv '/galaxy/server/database/objects/c/a/f/dataset_cafaf4f8-7a0a-4fa1-9fc1-47b406389ecb.1.dat' '/galaxy/server/database/objects/c/a/f/dataset_cafaf4f8-7a0a-4fa1-9fc1-47b406389ecb.dat' && mv '/galaxy/server/database/objects/c/a/f/dataset_cafaf4f8-7a0a-4fa1-9fc1-47b406389ecb.2.dat' '/galaxy/server/database/objects/a/8/d/dataset_a8d59795-ce23-4b8b-9046-21a480c1bf10.dat'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "save_mapping_stats": "false", "sam_options": "{\"__current_case__\": 1, \"sam_options_selector\": \"no\"}", "analysis_type": "{\"__current_case__\": 0, \"analysis_type_selector\": \"simple\", \"presets\": \"no_presets\"}", "rg": "{\"__current_case__\": 3, \"rg_selector\": \"do_not_set\"}", "reference_genome": "{\"__current_case__\": 1, \"own_file\": {\"values\": [{\"id\": 363, \"src\": \"hda\"}]}, \"source\": \"history\"}", "library": "{\"__current_case__\": 2, \"aligned_file\": false, \"input_1\": {\"values\": [{\"id\": 17, \"src\": \"hdca\"}]}, \"paired_options\": {\"__current_case__\": 1, \"paired_options_selector\": \"no\"}, \"type\": \"paired_collection\", \"unaligned_file\": true}"}, "inputs": {"library|input_11": {"id": "4dcb5af1bf564eb0", "src": "hda", "uuid": "3db3efc3-bb97-465b-895b-a1a04a5002f3"}, "library|input_12": {"id": "84d29cff1ca5f83d", "src": "hda", "uuid": "a442cbcb-544e-44a3-8ada-494ff30f22a7"}, "reference_genome|own_file": {"id": "63db022aedec38e4", "src": "hda", "uuid": "e4dbf02b-3963-4a5f-96a9-cf0840765165"}}, "outputs": {"output_unaligned_reads_l": {"id": "8b4797df8fc056a4", "src": "hda", "uuid": "cafaf4f8-7a0a-4fa1-9fc1-47b406389ecb"}, "output_unaligned_reads_r": {"id": "e2e3101ec7e498cd", "src": "hda", "uuid": "a8d59795-ce23-4b8b-9046-21a480c1bf10"}, "output": {"id": "1ff6b1af0c8b09bd", "src": "hda", "uuid": "30a5a5e3-b529-498b-afed-4b67b3a33e55"}}, "output_collections": {}, "tool_stdout": "Settings:\n  Output files: \"genome.*.bt2\"\n  Line rate: 6 (line is 64 bytes)\n  Lines per side: 1 (side is 64 bytes)\n  Offset rate: 4 (one in 16)\n  FTable chars: 10\n  Strings: unpacked\n  Max bucket size: default\n  Max bucket size, sqrt multiplier: default\n  Max bucket size, len divisor: 32\n  Difference-cover sample period: 1024\n  Endianness: little\n  Actual local endianness: little\n  Sanity checking: disabled\n  Assertions: disabled\n  Random seed: 0\n  Sizeofs: void*:8, int:4, long:8, size_t:8\nInput files DNA, FASTA:\n  /galaxy/server/database/objects/e/4/d/dataset_e4dbf02b-3963-4a5f-96a9-cf0840765165.dat\nReading reference sizes\n  Time reading reference sizes: 00:00:00\nCalculating joined length\nWriting header\nReserving space for joined string\nJoining reference sequences\n  Time to join reference sequences: 00:00:00\nbmax according to bmaxDivN setting: 517\nUsing parameters --bmax 388 --dcv 1024\n  Doing ahead-of-time memory usage test\n  Passed!  Constructing with these parameters: --bmax 388 --dcv 1024\nConstructing suffix-array element generator\nBuilding DifferenceCoverSample\n  Building sPrime\n  Building sPrimeOrder\n  V-Sorting samples\n  V-Sorting samples time: 00:00:00\n  Allocating rank array\n  Ranking v-sort output\n  Ranking v-sort output time: 00:00:00\n  Invoking Larsson-Sadakane on ranks\n  Invoking Larsson-Sadakane on ranks time: 00:00:00\n  Sanity-checking and returning\nBuilding samples\nReserving space for 86 sample suffixes\nGenerating random suffixes\nQSorting 86 sample offsets, eliminating duplicates\nQSorting sample offsets, eliminating duplicates time: 00:00:00\nMultikey QSorting 86 samples\n  (Using difference cover)\n  Multikey QSorting samples time: 00:00:00\nCalculating bucket sizes\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 12, merged 41; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 6, merged 6; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 5, merged 3; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 3, merged 3; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nAvg bucket size: 284.672 (target: 387)\nConverting suffix-array elements to index image\nAllocating ftab, absorbFtab\nEntering Ebwt loop\nGetting block 1 of 58\n  Reserving size (388) for bucket 1\nGetting block 2 of 58\nGetting block 3 of 58\nGetting block 4 of 58\nGetting block 5 of 58\n  Calculating Z arrays for bucket 1\n  Reserving size (388) for bucket 2\n  Reserving size (388) for bucket 3\n  Reserving size (388) for bucket 4\n  Reserving size (388) for bucket 5\nGetting block 6 of 58\nGetting block 7 of 58\n  Calculating Z arrays for bucket 2\n  Entering block accumulator loop for bucket 1:\n  Calculating Z arrays for bucket 3\n  Calculating Z arrays for bucket 4\n  Calculating Z arrays for bucket 5\n  Reserving size (388) for bucket 6\n  Reserving size (388) for bucket 7\n  Entering block accumulator loop for bucket 2:\n  Calculating Z arrays for bucket 6\n  Calculating Z arrays for bucket 7\n  Entering block accumulator loop for bucket 3:\n  Entering block accumulator loop for bucket 4:\n  Entering block accumulator loop for bucket 5:\n  Entering block accumulator loop for bucket 6:\n  bucket 1: 10%\n  Entering block accumulator loop for bucket 7:\n  bucket 2: 10%\n  bucket 3: 10%\n  bucket 4: 10%\n  bucket 1: 20%\n  bucket 5: 10%\n  bucket 6: 10%\n  bucket 7: 10%\n  bucket 2: 20%\n  bucket 3: 20%\n  bucket 1: 30%\n  bucket 4: 20%\n  bucket 2: 30%\n  bucket 5: 20%\n  bucket 6: 20%\n  bucket 7: 20%\n  bucket 1: 40%\n  bucket 3: 30%\n  bucket 2: 40%\n  bucket 4: 30%\n  bucket 6: 30%\n  bucket 5: 30%\n  bucket 1: 50%\n  bucket 3: 40%\n  bucket 7: 30%\n  bucket 2: 50%\n  bucket 6: 40%\n  bucket 4: 40%\n  bucket 1: 60%\n  bucket 5: 40%\n  bucket 2: 60%\n  bucket 3: 50%\n  bucket 7: 40%\n  bucket 6: 50%\n  bucket 2: 70%\n  bucket 1: 70%\n  bucket 4: 50%\n  bucket 5: 50%\n  bucket 6: 60%\n  bucket 2: 80%\n  bucket 3: 60%\n  bucket 1: 80%\n  bucket 7: 50%\n  bucket 4: 60%\n  bucket 5: 60%\n  bucket 2: 90%\n  bucket 6: 70%\n  bucket 1: 90%\n  bucket 3: 70%\n  bucket 2: 100%\n  bucket 7: 60%\n  bucket 4: 70%\n  bucket 5: 70%\n  Sorting block of length 165 for bucket 2\n  (Using difference cover)\n  bucket 6: 80%\n  bucket 1: 100%\n  Sorting block of length 355 for bucket 1\n  (Using difference cover)\n  bucket 3: 80%\n  bucket 5: 80%\n  bucket 4: 80%\n  bucket 6: 90%\n  bucket 7: 70%\n  bucket 3: 90%\n  bucket 5: 90%\n  bucket 6: 100%\n  bucket 4: 90%\n  bucket 7: 80%\n  Sorting block of length 339 for bucket 6\n  (Using difference cover)\n  bucket 3: 100%\n  Sorting block of length 370 for bucket 3\n  (Using difference cover)\n  bucket 5: 100%\n  Sorting block of length 203 for bucket 5\n  (Using difference cover)\n  bucket 4: 100%\n  Sorting block of length 328 for bucket 4\n  (Using difference cover)\n  bucket 7: 90%\n  bucket 7: 100%\n  Sorting block of length 368 for bucket 7\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 204 for bucket 5\n  Sorting block time: 00:00:00\nReturning block of 329 for bucket 4\n  Sorting block time: 00:00:00\nReturning block of 356 for bucket 1\n  Sorting block time: 00:00:00\nReturning block of 369 for bucket 7\n  Sorting block time: 00:00:00\nReturning block of 166 for bucket 2\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 6\n  Sorting block time: 00:00:00\nReturning block of 371 for bucket 3\nGetting block 8 of 58\n  Reserving size (388) for bucket 8\n  Calculating Z arrays for bucket 8\nGetting block 9 of 58\n  Entering block accumulator loop for bucket 8:\n  Reserving size (388) for bucket 9\n  Calculating Z arrays for bucket 9\n  Entering block accumulator loop for bucket 9:\n  bucket 8: 10%\nGetting block 10 of 58\n  bucket 9: 10%\n  bucket 8: 20%\n  Reserving size (388) for bucket 10\n  Calculating Z arrays for bucket 10\n  Entering block accumulator loop for bucket 10:\n  bucket 9: 20%\n  bucket 8: 30%\n  bucket 8: 40%\n  bucket 9: 30%\n  bucket 10: 10%\n  bucket 8: 50%\n  bucket 9: 40%\n  bucket 10: 20%\n  bucket 8: 60%\n  bucket 9: 50%\n  bucket 10: 30%\n  bucket 8: 70%\n  bucket 9: 60%\n  bucket 10: 40%\n  bucket 8: 80%\n  bucket 9: 70%\n  bucket 8: 90%\n  bucket 9: 80%\n  bucket 10: 50%\n  bucket 8: 100%\n  Sorting block of length 171 for bucket 8\n  (Using difference cover)\n  bucket 10: 60%\n  bucket 9: 90%\n  bucket 9: 100%\n  Sorting block of length 339 for bucket 9\n  (Using difference cover)\n  bucket 10: 70%\n  Sorting block time: 00:00:00\nReturning block of 172 for bucket 8\n  bucket 10: 80%\n  bucket 10: 90%\n  bucket 10: 100%\n  Sorting block of length 357 for bucket 10\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 9\n  Sorting block time: 00:00:00\nReturning block of 358 for bucket 10\nGetting block 11 of 58\n  Reserving size (388) for bucket 11\nGetting block 12 of 58\n  Calculating Z arrays for bucket 11\n  Reserving size (388) for bucket 12\n  Calculating Z arrays for bucket 12\n  Entering block accumulator loop for bucket 12:\n  Entering block accumulator loop for bucket 11:\n  bucket 12: 10%\n  bucket 11: 10%\n  bucket 12: 20%\nGetting block 13 of 58\n  bucket 12: 30%\n  bucket 11: 20%\n  Reserving size (388) for bucket 13\n  Calculating Z arrays for bucket 13\n  bucket 12: 40%\n  bucket 11: 30%\n  Entering block accumulator loop for bucket 13:\n  bucket 12: 50%\n  bucket 11: 40%\n  bucket 13: 10%\n  bucket 12: 60%\n  bucket 11: 50%\n  bucket 12: 70%\n  bucket 13: 20%\n  bucket 11: 60%\n  bucket 12: 80%\n  bucket 11: 70%\n  bucket 13: 30%\n  bucket 12: 90%\n  bucket 11: 80%\n  bucket 13: 40%\n  bucket 12: 100%\n  Sorting block of length 185 for bucket 12\n  (Using difference cover)\n  bucket 11: 90%\n  bucket 13: 50%\n  bucket 11: 100%\n  Sorting block of length 305 for bucket 11\n  (Using difference cover)\n  bucket 13: 60%\n  Sorting block time: 00:00:00\nReturning block of 186 for bucket 12\n  bucket 13: 70%\n  bucket 13: 80%\n  bucket 13: 90%\n  bucket 13: 100%\n  Sorting block of length 282 for bucket 13\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 306 for bucket 11\n  Sorting block time: 00:00:00\nReturning block of 283 for bucket 13\nGetting block 14 of 58\n  Reserving size (388) for bucket 14\n  Calculating Z arrays for bucket 14\n  Entering block accumulator loop for bucket 14:\n  bucket 14: 10%\n  bucket 14: 20%\n  bucket 14: 30%\nGetting block 15 of 58\n  Reserving size (388) for bucket 15\n  Calculating Z arrays for bucket 15\n  bucket 14: 40%\n  Entering block accumulator loop for bucket 15:\n  bucket 14: 50%\n  bucket 15: 10%\n  bucket 14: 60%\n  bucket 15: 20%\n  bucket 14: 70%\n  bucket 15: 30%\n  bucket 14: 80%\n  bucket 15: 40%\n  bucket 14: 90%\n  bucket 15: 50%\n  bucket 14: 100%\n  bucket 15: 60%\n  Sorting block of length 339 for bucket 14\n  (Using difference cover)\n  bucket 15: 70%\n  bucket 15: 80%\n  bucket 15: 90%\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 14\n  bucket 15: 100%\n  Sorting block of length 241 for bucket 15\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 242 for bucket 15\nGetting block 16 of 58\n  Reserving size (388) for bucket 16\n  Calculating Z arrays for bucket 16\n  Entering block accumulator loop for bucket 16:\n  bucket 16: 10%\n  bucket 16: 20%\n  bucket 16: 30%\nGetting block 17 of 58\n  Reserving size (388) for bucket 17\n  Calculating Z arrays for bucket 17\n  bucket 16: 40%\n  Entering block accumulator loop for bucket 17:\n  bucket 16: 50%\n  bucket 17: 10%\n  bucket 16: 60%\n  bucket 17: 20%\n  bucket 16: 70%\n  bucket 17: 30%\n  bucket 16: 80%\n  bucket 17: 40%\n  bucket 16: 90%\n  bucket 17: 50%\n  bucket 16: 100%\n  Sorting block of length 379 for bucket 16\n  (Using difference cover)\n  bucket 17: 60%\n  bucket 17: 70%\n  bucket 17: 80%\n  bucket 17: 90%\n  Sorting block time: 00:00:00\nReturning block of 380 for bucket 16\n  bucket 17: 100%\n  Sorting block of length 215 for bucket 17\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 216 for bucket 17\nGetting block 18 of 58\n  Reserving size (388) for bucket 18\n  Calculating Z arrays for bucket 18\n  Entering block accumulator loop for bucket 18:\nGetting block 19 of 58\n  Reserving size (388) for bucket 19\n  Calculating Z arrays for bucket 19\n  Entering block accumulator loop for bucket 19:\n  bucket 18: 10%\n  bucket 19: 10%\n  bucket 18: 20%\n  bucket 19: 20%\n  bucket 18: 30%\n  bucket 19: 30%\n  bucket 18: 40%\n  bucket 19: 40%\n  bucket 18: 50%\n  bucket 19: 50%\n  bucket 18: 60%\n  bucket 19: 60%\n  bucket 19: 70%\n  bucket 18: 70%\n  bucket 19: 80%\n  bucket 18: 80%\n  bucket 19: 90%\n  bucket 18: 90%\n  bucket 19: 100%\n  Sorting block of length 334 for bucket 19\n  (Using difference cover)\n  bucket 18: 100%\n  Sorting block of length 378 for bucket 18\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 379 for bucket 18\n  Sorting block time: 00:00:00\nReturning block of 335 for bucket 19\nGetting block 20 of 58\n  Reserving size (388) for bucket 20\n  Calculating Z arrays for bucket 20\n  Entering block accumulator loop for bucket 20:\n  bucket 20: 10%\n  bucket 20: 20%\n  bucket 20: 30%\n  bucket 20: 40%\n  bucket 20: 50%\n  bucket 20: 60%\n  bucket 20: 70%\n  bucket 20: 80%\n  bucket 20: 90%\n  bucket 20: 100%\n  Sorting block of length 313 for bucket 20\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 314 for bucket 20\nGetting block 21 of 58\n  Reserving size (388) for bucket 21\nGetting block 22 of 58\n  Calculating Z arrays for bucket 21\n  Reserving size (388) for bucket 22\n  Calculating Z arrays for bucket 22\n  Entering block accumulator loop for bucket 21:\n  Entering block accumulator loop for bucket 22:\n  bucket 22: 10%\n  bucket 21: 10%\n  bucket 22: 20%\n  bucket 21: 20%\n  bucket 22: 30%\n  bucket 21: 30%\n  bucket 22: 40%\n  bucket 21: 40%\n  bucket 22: 50%\n  bucket 21: 50%\n  bucket 22: 60%\n  bucket 21: 60%\n  bucket 22: 70%\n  bucket 21: 70%\n  bucket 22: 80%\n  bucket 21: 80%\n  bucket 22: 90%\n  bucket 21: 90%\n  bucket 21: 100%\n  bucket 22: 100%\n  Sorting block of length 210 for bucket 21\n  (Using difference cover)\n  Sorting block of length 386 for bucket 22\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 387 for bucket 22\n  Sorting block time: 00:00:00\nReturning block of 211 for bucket 21\nGetting block 23 of 58\n  Reserving size (388) for bucket 23\nGetting block 24 of 58\n  Calculating Z arrays for bucket 23\n  Reserving size (388) for bucket 24\n  Calculating Z arrays for bucket 24\n  Entering block accumulator loop for bucket 24:\n  Entering block accumulator loop for bucket 23:\n  bucket 23: 10%\n  bucket 24: 10%\n  bucket 24: 20%\n  bucket 23: 20%\n  bucket 24: 30%\n  bucket 23: 30%\n  bucket 23: 40%\n  bucket 23: 50%\n  bucket 23: 60%\n  bucket 24: 40%\n  bucket 23: 70%\n  bucket 24: 50%\n  bucket 23: 80%\n  bucket 24: 60%\n  bucket 24: 70%\n  bucket 23: 90%\n  bucket 24: 80%\n  bucket 23: 100%\n  Sorting block of length 238 for bucket 23\n  (Using difference cover)\n  bucket 24: 90%\n  bucket 24: 100%\n  Sorting block of length 351 for bucket 24\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 239 for bucket 23\n  Sorting block time: 00:00:00\nReturning block of 352 for bucket 24\nGetting block 25 of 58\n  Reserving size (388) for bucket 25\nGetting block 26 of 58\n  Calculating Z arrays for bucket 25\n  Reserving size (388) for bucket 26\n  Calculating Z arrays for bucket 26\n  Entering block accumulator loop for bucket 25:\n  Entering block accumulator loop for bucket 26:\n  bucket 25: 10%\n  bucket 26: 10%\n  bucket 25: 20%\n  bucket 26: 20%\n  bucket 25: 30%\n  bucket 26: 30%\n  bucket 25: 40%\n  bucket 25: 50%\n  bucket 26: 40%\n  bucket 25: 60%\n  bucket 26: 50%\n  bucket 25: 70%\n  bucket 25: 80%\n  bucket 26: 60%\n  bucket 25: 90%\n  bucket 26: 70%\n  bucket 25: 100%\n  Sorting block of length 105 for bucket 25\n  (Using difference cover)\n  bucket 26: 80%\n  bucket 26: 90%\n  Sorting block time: 00:00:00\nReturning block of 106 for bucket 25\n  bucket 26: 100%\n  Sorting block of length 354 for bucket 26\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 355 for bucket 26\nGetting block 27 of 58\n  Reserving size (388) for bucket 27\n  Calculating Z arrays for bucket 27\n  Entering block accumulator loop for bucket 27:\n  bucket 27: 10%\n  bucket 27: 20%\n  bucket 27: 30%\n  bucket 27: 40%\n  bucket 27: 50%\n  bucket 27: 60%\n  bucket 27: 70%\n  bucket 27: 80%\n  bucket 27: 90%\n  bucket 27: 100%\n  Sorting block of length 334 for bucket 27\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 335 for bucket 27\nGetting block 28 of 58\n  Reserving size (388) for bucket 28\n  Calculating Z arrays for bucket 28\nGetting block 29 of 58\n  Entering block accumulator loop for bucket 28:\n  Reserving size (388) for bucket 29\n  Calculating Z arrays for bucket 29\n  Entering block accumulator loop for bucket 29:\n  bucket 28: 10%\n  bucket 28: 20%\n  bucket 29: 10%\n  bucket 28: 30%\n  bucket 28: 40%\n  bucket 29: 20%\nGetting block 30 of 58\n  bucket 28: 50%\n  Reserving size (388) for bucket 30\n  Calculating Z arrays for bucket 30\n  bucket 29: 30%\n  Entering block accumulator loop for bucket 30:\n  bucket 28: 60%\n  bucket 29: 40%\n  bucket 30: 10%\n  bucket 28: 70%\n  bucket 29: 50%\n  bucket 30: 20%\n  bucket 28: 80%\n  bucket 28: 90%\n  bucket 29: 60%\n  bucket 30: 30%\n  bucket 28: 100%\n  Sorting block of length 253 for bucket 28\n  (Using difference cover)\n  bucket 29: 70%\n  bucket 30: 40%\n  bucket 29: 80%\n  bucket 30: 50%\n  bucket 29: 90%\n  bucket 30: 60%\n  Sorting block time: 00:00:00\nReturning block of 254 for bucket 28\n  bucket 29: 100%\n  Sorting block of length 289 for bucket 29\n  (Using difference cover)\n  bucket 30: 70%\n  bucket 30: 80%\n  bucket 30: 90%\n  Sorting block time: 00:00:00\nReturning block of 290 for bucket 29\n  bucket 30: 100%\n  Sorting block of length 345 for bucket 30\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 346 for bucket 30\nGetting block 31 of 58\n  Reserving size (388) for bucket 31\n  Calculating Z arrays for bucket 31\n  Entering block accumulator loop for bucket 31:\n  bucket 31: 10%\nGetting block 32 of 58\n  Reserving size (388) for bucket 32\n  bucket 31: 20%\n  Calculating Z arrays for bucket 32\n  Entering block accumulator loop for bucket 32:\n  bucket 31: 30%\n  bucket 31: 40%\n  bucket 32: 10%\n  bucket 31: 50%\n  bucket 32: 20%\n  bucket 31: 60%\n  bucket 32: 30%\n  bucket 31: 70%\n  bucket 32: 40%\n  bucket 31: 80%\n  bucket 31: 90%\n  bucket 32: 50%\n  bucket 31: 100%\n  Sorting block of le\n..\n0:00\nReturning block of 350 for bucket 23\nGetting block 24 of 57\n  Reserving size (388) for bucket 24\n  Calculating Z arrays for bucket 24\n  Entering block accumulator loop for bucket 24:\nGetting block 25 of 57\n  bucket 24: 10%\n  Reserving size (388) for bucket 25\n  Calculating Z arrays for bucket 25\n  Entering block accumulator loop for bucket 25:\n  bucket 24: 20%\nGetting block 26 of 57\n  bucket 25: 10%\n  bucket 24: 30%\n  Reserving size (388) for bucket 26\n  Calculating Z arrays for bucket 26\n  Entering block accumulator loop for bucket 26:\n  bucket 25: 20%\n  bucket 24: 40%\n  bucket 25: 30%\n  bucket 26: 10%\n  bucket 24: 50%\n  bucket 25: 40%\n  bucket 26: 20%\n  bucket 24: 60%\n  bucket 25: 50%\n  bucket 26: 30%\n  bucket 25: 60%\n  bucket 24: 70%\n  bucket 25: 70%\n  bucket 26: 40%\n  bucket 24: 80%\n  bucket 25: 80%\n  bucket 26: 50%\n  bucket 25: 90%\n  bucket 24: 90%\n  bucket 26: 60%\n  bucket 25: 100%\n  bucket 26: 70%\n  bucket 24: 100%\n  Sorting block of length 286 for bucket 25\n  (Using difference cover)\n  Sorting block of length 245 for bucket 24\n  (Using difference cover)\n  bucket 26: 80%\n  bucket 26: 90%\n  bucket 26: 100%\n  Sorting block of length 384 for bucket 26\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 246 for bucket 24\n  Sorting block time: 00:00:00\nReturning block of 287 for bucket 25\n  Sorting block time: 00:00:00\nReturning block of 385 for bucket 26\nGetting block 27 of 57\n  Reserving size (388) for bucket 27\nGetting block 28 of 57\n  Calculating Z arrays for bucket 27\n  Reserving size (388) for bucket 28\n  Calculating Z arrays for bucket 28\n  Entering block accumulator loop for bucket 27:\n  Entering block accumulator loop for bucket 28:\n  bucket 28: 10%\n  bucket 27: 10%\n  bucket 28: 20%\n  bucket 27: 20%\n  bucket 27: 30%\n  bucket 28: 30%\n  bucket 27: 40%\n  bucket 28: 40%\n  bucket 27: 50%\n  bucket 28: 50%\n  bucket 27: 60%\n  bucket 28: 60%\n  bucket 27: 70%\n  bucket 28: 70%\n  bucket 27: 80%\n  bucket 28: 80%\n  bucket 27: 90%\n  bucket 28: 90%\n  bucket 27: 100%\n  Sorting block of length 359 for bucket 27\n  (Using difference cover)\n  bucket 28: 100%\n  Sorting block of length 387 for bucket 28\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 360 for bucket 27\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 28\nGetting block 29 of 57\n  Reserving size (388) for bucket 29\n  Calculating Z arrays for bucket 29\n  Entering block accumulator loop for bucket 29:\n  bucket 29: 10%\n  bucket 29: 20%\n  bucket 29: 30%\n  bucket 29: 40%\n  bucket 29: 50%\n  bucket 29: 60%\n  bucket 29: 70%\n  bucket 29: 80%\n  bucket 29: 90%\n  bucket 29: 100%\n  Sorting block of length 195 for bucket 29\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 196 for bucket 29\nGetting block 30 of 57\n  Reserving size (388) for bucket 30\n  Calculating Z arrays for bucket 30\n  Entering block accumulator loop for bucket 30:\n  bucket 30: 10%\nGetting block 31 of 57\n  bucket 30: 20%\n  Reserving size (388) for bucket 31\n  Calculating Z arrays for bucket 31\n  Entering block accumulator loop for bucket 31:\n  bucket 30: 30%\n  bucket 30: 40%\n  bucket 31: 10%\n  bucket 30: 50%\n  bucket 31: 20%\n  bucket 30: 60%\n  bucket 31: 30%\n  bucket 30: 70%\n  bucket 30: 80%\n  bucket 31: 40%\n  bucket 30: 90%\n  bucket 31: 50%\n  bucket 30: 100%\n  Sorting block of length 257 for bucket 30\n  (Using difference cover)\n  bucket 31: 60%\n  bucket 31: 70%\n  bucket 31: 80%\n  Sorting block time: 00:00:00\nReturning block of 258 for bucket 30\n  bucket 31: 90%\n  bucket 31: 100%\n  Sorting block of length 310 for bucket 31\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 311 for bucket 31\nGetting block 32 of 57\n  Reserving size (388) for bucket 32\n  Calculating Z arrays for bucket 32\n  Entering block accumulator loop for bucket 32:\n  bucket 32: 10%\n  bucket 32: 20%\nGetting block 33 of 57\n  bucket 32: 30%\n  Reserving size (388) for bucket 33\n  Calculating Z arrays for bucket 33\n  Entering block accumulator loop for bucket 33:\n  bucket 32: 40%\n  bucket 33: 10%\n  bucket 32: 50%\n  bucket 33: 20%\n  bucket 32: 60%\n  bucket 33: 30%\n  bucket 32: 70%\n  bucket 32: 80%\n  bucket 33: 40%\n  bucket 33: 50%\n  bucket 32: 90%\n  bucket 33: 60%\n  bucket 32: 100%\n  Sorting block of length 219 for bucket 32\n  (Using difference cover)\n  bucket 33: 70%\n  bucket 33: 80%\n  bucket 33: 90%\n  Sorting block time: 00:00:00\nReturning block of 220 for bucket 32\n  bucket 33: 100%\n  Sorting block of length 387 for bucket 33\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 33\nGetting block 34 of 57\n  Reserving size (388) for bucket 34\nGetting block 35 of 57\n  Calculating Z arrays for bucket 34\n  Reserving size (388) for bucket 35\n  Calculating Z arrays for bucket 35\n  Entering block accumulator loop for bucket 34:\n  Entering block accumulator loop for bucket 35:\n  bucket 35: 10%\n  bucket 34: 10%\n  bucket 35: 20%\n  bucket 34: 20%\n  bucket 35: 30%\n  bucket 34: 30%\n  bucket 35: 40%\n  bucket 34: 40%\n  bucket 35: 50%\n  bucket 35: 60%\n  bucket 34: 50%\n  bucket 35: 70%\n  bucket 34: 60%\n  bucket 35: 80%\n  bucket 34: 70%\n  bucket 35: 90%\n  bucket 34: 80%\n  bucket 35: 100%\n  Sorting block of length 350 for bucket 35\n  (Using difference cover)\n  bucket 34: 90%\n  bucket 34: 100%\n  Sorting block of length 275 for bucket 34\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 351 for bucket 35\n  Sorting block time: 00:00:00\nReturning block of 276 for bucket 34\nGetting block 37 of 57\nGetting block 36 of 57\n  Reserving size (388) for bucket 37\n  Reserving size (388) for bucket 36\n  Calculating Z arrays for bucket 37\n  Calculating Z arrays for bucket 36\nGetting block 38 of 57\n  Entering block accumulator loop for bucket 37:\n  Entering block accumulator loop for bucket 36:\n  Reserving size (388) for bucket 38\n  Calculating Z arrays for bucket 38\n  Entering block accumulator loop for bucket 38:\n  bucket 38: 10%\n  bucket 37: 10%\n  bucket 36: 10%\n  bucket 38: 20%\n  bucket 37: 20%\n  bucket 38: 30%\n  bucket 37: 30%\n  bucket 36: 20%\n  bucket 38: 40%\n  bucket 37: 40%\n  bucket 36: 30%\n  bucket 38: 50%\n  bucket 38: 60%\n  bucket 37: 50%\n  bucket 36: 40%\n  bucket 38: 70%\n  bucket 37: 60%\n  bucket 36: 50%\n  bucket 38: 80%\n  bucket 38: 90%\n  bucket 37: 70%\n  bucket 36: 60%\n  bucket 38: 100%\n  Sorting block of length 337 for bucket 38\n  (Using difference cover)\n  bucket 37: 80%\n  bucket 36: 70%\n  bucket 37: 90%\n  bucket 36: 80%\n  bucket 37: 100%\n  bucket 36: 90%\n  Sorting block of length 267 for bucket 37\n  (Using difference cover)\n  bucket 36: 100%\n  Sorting block of length 150 for bucket 36\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 338 for bucket 38\n  Sorting block time: 00:00:00\nReturning block of 151 for bucket 36\n  Sorting block time: 00:00:00\nReturning block of 268 for bucket 37\nGetting block 39 of 57\n  Reserving size (388) for bucket 39\n  Calculating Z arrays for bucket 39\n  Entering block accumulator loop for bucket 39:\n  bucket 39: 10%\n  bucket 39: 20%\n  bucket 39: 30%\n  bucket 39: 40%\n  bucket 39: 50%\n  bucket 39: 60%\n  bucket 39: 70%\n  bucket 39: 80%\n  bucket 39: 90%\n  bucket 39: 100%\n  Sorting block of length 387 for bucket 39\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 39\nGetting block 40 of 57\n  Reserving size (388) for bucket 40\nGetting block 41 of 57\n  Calculating Z arrays for bucket 40\n  Reserving size (388) for bucket 41\n  Calculating Z arrays for bucket 41\nGetting block 42 of 57\n  Entering block accumulator loop for bucket 40:\n  Entering block accumulator loop for bucket 41:\n  Reserving size (388) for bucket 42\n  Calculating Z arrays for bucket 42\n  Entering block accumulator loop for bucket 42:\n  bucket 41: 10%\n  bucket 40: 10%\n  bucket 42: 10%\n  bucket 41: 20%\n  bucket 40: 20%\n  bucket 42: 20%\n  bucket 41: 30%\n  bucket 40: 30%\n  bucket 42: 30%\n  bucket 41: 40%\n  bucket 40: 40%\n  bucket 42: 40%\n  bucket 41: 50%\n  bucket 40: 50%\n  bucket 42: 50%\n  bucket 40: 60%\n  bucket 41: 60%\n  bucket 42: 60%\n  bucket 41: 70%\n  bucket 42: 70%\n  bucket 41: 80%\n  bucket 42: 80%\n  bucket 41: 90%\n  bucket 40: 70%\n  bucket 42: 90%\n  bucket 41: 100%\n  Sorting block of length 330 for bucket 41\n  (Using difference cover)\n  bucket 42: 100%\n  Sorting block of length 188 for bucket 42\n  (Using difference cover)\n  bucket 40: 80%\n  bucket 40: 90%\n  bucket 40: 100%\n  Sorting block of length 379 for bucket 40\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 189 for bucket 42\n  Sorting block time: 00:00:00\nReturning block of 331 for bucket 41\n  Sorting block time: 00:00:00\nReturning block of 380 for bucket 40\nGetting block 43 of 57\n  Reserving size (388) for bucket 43\n  Calculating Z arrays for bucket 43\n  Entering block accumulator loop for bucket 43:\nGetting block 44 of 57\n  Reserving size (388) for bucket 44\n  bucket 43: 10%\n  Calculating Z arrays for bucket 44\n  Entering block accumulator loop for bucket 44:\n  bucket 43: 20%\n  bucket 44: 10%\n  bucket 43: 30%\n  bucket 43: 40%\n  bucket 44: 20%\n  bucket 43: 50%\n  bucket 44: 30%\n  bucket 44: 40%\n  bucket 43: 60%\n  bucket 43: 70%\n  bucket 44: 50%\n  bucket 44: 60%\n  bucket 43: 80%\n  bucket 44: 70%\n  bucket 43: 90%\n  bucket 43: 100%\n  Sorting block of length 321 for bucket 43\n  (Using difference cover)\n  bucket 44: 80%\n  bucket 44: 90%\n  bucket 44: 100%\n  Sorting block of length 366 for bucket 44\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 322 for bucket 43\n  Sorting block time: 00:00:00\nReturning block of 367 for bucket 44\nGetting block 45 of 57\n  Reserving size (388) for bucket 45\n  Calculating Z arrays for bucket 45\nGetting block 46 of 57\n  Entering block accumulator loop for bucket 45:\n  Reserving size (388) for bucket 46\n  Calculating Z arrays for bucket 46\n  Entering block accumulator loop for bucket 46:\n  bucket 45: 10%\n  bucket 46: 10%\n  bucket 46: 20%\n  bucket 45: 20%\n  bucket 46: 30%\n  bucket 45: 30%\n  bucket 46: 40%\n  bucket 45: 40%\n  bucket 45: 50%\n  bucket 46: 50%\n  bucket 46: 60%\n  bucket 45: 60%\n  bucket 45: 70%\n  bucket 46: 70%\n  bucket 45: 80%\n  bucket 46: 80%\n  bucket 45: 90%\n  bucket 46: 90%\n  bucket 45: 100%\n  Sorting block of length 365 for bucket 45\n  (Using difference cover)\n  bucket 46: 100%\n  Sorting block of length 253 for bucket 46\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 366 for bucket 45\n  Sorting block time: 00:00:00\nReturning block of 254 for bucket 46\nGetting block 47 of 57\n  Reserving size (388) for bucket 47\n  Calculating Z arrays for bucket 47\nGetting block 48 of 57\n  Entering block accumulator loop for bucket 47:\n  Reserving size (388) for bucket 48\n  Calculating Z arrays for bucket 48\n  Entering block accumulator loop for bucket 48:\n  bucket 47: 10%\n  bucket 48: 10%\n  bucket 47: 20%\n  bucket 48: 20%\n  bucket 47: 30%\n  bucket 48: 30%\n  bucket 47: 40%\n  bucket 48: 40%\n  bucket 47: 50%\n  bucket 48: 50%\n  bucket 47: 60%\n  bucket 48: 60%\n  bucket 47: 70%\n  bucket 48: 70%\n  bucket 47: 80%\n  bucket 48: 80%\n  bucket 47: 90%\n  bucket 48: 90%\n  bucket 47: 100%\n  Sorting block of length 217 for bucket 47\n  (Using difference cover)\n  bucket 48: 100%\n  Sorting block of length 384 for bucket 48\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 385 for bucket 48\n  Sorting block time: 00:00:00\nReturning block of 218 for bucket 47\nGetting block 49 of 57\n  Reserving size (388) for bucket 49\n  Calculating Z arrays for bucket 49\n  Entering block accumulator loop for bucket 49:\nGetting block 50 of 57\n  Reserving size (388) for bucket 50\n  Calculating Z arrays for bucket 50\n  bucket 49: 10%\n  Entering block accumulator loop for bucket 50:\n  bucket 49: 20%\n  bucket 50: 10%\n  bucket 49: 30%\nGetting block 51 of 57\n  Reserving size (388) for bucket 51\n  bucket 49: 40%\n  bucket 50: 20%\n  Calculating Z arrays for bucket 51\n  Entering block accumulator loop for bucket 51:\n  bucket 49: 50%\n  bucket 50: 30%\n  bucket 49: 60%\n  bucket 51: 10%\n  bucket 49: 70%\n  bucket 50: 40%\n  bucket 51: 20%\n  bucket 51: 30%\n  bucket 49: 80%\n  bucket 50: 50%\n  bucket 51: 40%\n  bucket 49: 90%\n  bucket 49: 100%\n  bucket 51: 50%\n  bucket 50: 60%\n  Sorting block of length 112 for bucket 49\n  (Using difference cover)\n  bucket 51: 60%\n  bucket 51: 70%\n  bucket 50: 70%\n  bucket 51: 80%\n  bucket 50: 80%\n  Sorting block time: 00:00:00\nReturning block of 113 for bucket 49\n  bucket 51: 90%\n  bucket 50: 90%\n  bucket 51: 100%\n  Sorting block of length 350 for bucket 51\n  (Using difference cover)\n  bucket 50: 100%\n  Sorting block of length 275 for bucket 50\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 351 for bucket 51\n  Sorting block time: 00:00:00\nReturning block of 276 for bucket 50\nGetting block 52 of 57\n  Reserving size (388) for bucket 52\n  Calculating Z arrays for bucket 52\n  Entering block accumulator loop for bucket 52:\nGetting block 53 of 57\n  bucket 52: 10%\n  Reserving size (388) for bucket 53\n  Calculating Z arrays for bucket 53\n  Entering block accumulator loop for bucket 53:\n  bucket 52: 20%\n  bucket 53: 10%\n  bucket 52: 30%\n  bucket 53: 20%\n  bucket 52: 40%\n  bucket 53: 30%\n  bucket 52: 50%\n  bucket 53: 40%\n  bucket 52: 60%\n  bucket 53: 50%\n  bucket 52: 70%\n  bucket 53: 60%\n  bucket 53: 70%\n  bucket 52: 80%\n  bucket 52: 90%\n  bucket 53: 80%\n  bucket 52: 100%\n  Sorting block of length 378 for bucket 52\n  (Using difference cover)\n  bucket 53: 90%\n  bucket 53: 100%\n  Sorting block of length 370 for bucket 53\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 379 for bucket 52\n  Sorting block time: 00:00:00\nReturning block of 371 for bucket 53\nGetting block 54 of 57\n  Reserving size (388) for bucket 54\n  Calculating Z arrays for bucket 54\n  Entering block accumulator loop for bucket 54:\nGetting block 55 of 57\n  Reserving size (388) for bucket 55\n  Calculating Z arrays for bucket 55\n  bucket 54: 10%\n  Entering block accumulator loop for bucket 55:\n  bucket 54: 20%\n  bucket 55: 10%\n  bucket 54: 30%\n  bucket 55: 20%\n  bucket 55: 30%\n  bucket 54: 40%\n  bucket 55: 40%\n  bucket 54: 50%\n  bucket 54: 60%\n  bucket 55: 50%\n  bucket 54: 70%\n  bucket 55: 60%\n  bucket 54: 80%\n  bucket 55: 70%\n  bucket 54: 90%\n  bucket 55: 80%\n  bucket 54: 100%\n  Sorting block of length 237 for bucket 54\n  (Using difference cover)\n  bucket 55: 90%\n  bucket 55: 100%\n  Sorting block of length 344 for bucket 55\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 238 for bucket 54\n  Sorting block time: 00:00:00\nReturning block of 345 for bucket 55\nGetting block 56 of 57\n  Reserving size (388) for bucket 56\n  Calculating Z arrays for bucket 56\n  Entering block accumulator loop for bucket 56:\n  bucket 56: 10%\n  bucket 56: 20%\n  bucket 56: 30%\n  bucket 56: 40%\n  bucket 56: 50%\n  bucket 56: 60%\n  bucket 56: 70%\n  bucket 56: 80%\n  bucket 56: 90%\n  bucket 56: 100%\n  Sorting block of length 270 for bucket 56\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 271 for bucket 56\nGetting block 57 of 57\n  Reserving size (388) for bucket 57\n  Calculating Z arrays for bucket 57\n  Entering block accumulator loop for bucket 57:\n  bucket 57: 10%\n  bucket 57: 20%\n  bucket 57: 30%\n  bucket 57: 40%\n  bucket 57: 50%\n  bucket 57: 60%\n  bucket 57: 70%\n  bucket 57: 80%\n  bucket 57: 90%\n  bucket 57: 100%\n  Sorting block of length 132 for bucket 57\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 133 for bucket 57\nExited Ebwt loop\nfchr[A]: 0\nfchr[C]: 5124\nfchr[G]: 10305\nfchr[T]: 12474\nfchr[$]: 16568\nExiting Ebwt::buildToDisk()\nReturning from initFromVector\nWrote 4200050 bytes to primary EBWT file: genome.rev.1.bt2.tmp\nWrote 4148 bytes to secondary EBWT file: genome.rev.2.bt2.tmp\nRe-opening _in1 and _in2 as input streams\nReturning from Ebwt constructor\nHeaders:\n    len: 16568\n    bwtLen: 16569\n    sz: 4142\n    bwtSz: 4143\n    lineRate: 6\n    offRate: 4\n    offMask: 0xfffffff0\n    ftabChars: 10\n    eftabLen: 20\n    eftabSz: 80\n    ftabLen: 1048577\n    ftabSz: 4194308\n    offsLen: 1036\n    offsSz: 4144\n    lineSz: 64\n    sideSz: 64\n    sideBwtSz: 48\n    sideBwtLen: 192\n    numSides: 87\n    numLines: 87\n    ebwtTotLen: 5568\n    ebwtTotSz: 5568\n    color: 0\n    reverse: 1\nTotal time for backward call to driver() for mirror index: 00:00:01\n", "tool_stderr": "Building a SMALL index\nRenaming genome.3.bt2.tmp to genome.3.bt2\nRenaming genome.4.bt2.tmp to genome.4.bt2\nRenaming genome.1.bt2.tmp to genome.1.bt2\nRenaming genome.2.bt2.tmp to genome.2.bt2\nRenaming genome.rev.1.bt2.tmp to genome.rev.1.bt2\nRenaming genome.rev.2.bt2.tmp to genome.rev.2.bt2\n100 reads; of these:\n  100 (100.00%) were paired; of these:\n    97 (97.00%) aligned concordantly 0 times\n    3 (3.00%) aligned concordantly exactly 1 time\n    0 (0.00%) aligned concordantly >1 times\n    ----\n    97 pairs aligned concordantly 0 times; of these:\n      8 (8.25%) aligned discordantly 1 time\n    ----\n    89 pairs aligned 0 times concordantly or discordantly; of these:\n      178 mates make up the pairs; of these:\n        153 (85.96%) aligned 0 times\n        25 (14.04%) aligned exactly 1 time\n        0 (0.00%) aligned >1 times\n23.50% overall alignment rate\n", "job_stdout": "", "job_stderr": "", "stderr": "Building a SMALL index\nRenaming genome.3.bt2.tmp to genome.3.bt2\nRenaming genome.4.bt2.tmp to genome.4.bt2\nRenaming genome.1.bt2.tmp to genome.1.bt2\nRenaming genome.2.bt2.tmp to genome.2.bt2\nRenaming genome.rev.1.bt2.tmp to genome.rev.1.bt2\nRenaming genome.rev.2.bt2.tmp to genome.rev.2.bt2\n100 reads; of these:\n  100 (100.00%) were paired; of these:\n    97 (97.00%) aligned concordantly 0 times\n    3 (3.00%) aligned concordantly exactly 1 time\n    0 (0.00%) aligned concordantly >1 times\n    ----\n    97 pairs aligned concordantly 0 times; of these:\n      8 (8.25%) aligned discordantly 1 time\n    ----\n    89 pairs aligned 0 times concordantly or discordantly; of these:\n      178 mates make up the pairs; of these:\n        153 (85.96%) aligned 0 times\n        25 (14.04%) aligned exactly 1 time\n        0 (0.00%) aligned >1 times\n23.50% overall alignment rate\n", "stdout": "Settings:\n  Output files: \"genome.*.bt2\"\n  Line rate: 6 (line is 64 bytes)\n  Lines per side: 1 (side is 64 bytes)\n  Offset rate: 4 (one in 16)\n  FTable chars: 10\n  Strings: unpacked\n  Max bucket size: default\n  Max bucket size, sqrt multiplier: default\n  Max bucket size, len divisor: 32\n  Difference-cover sample period: 1024\n  Endianness: little\n  Actual local endianness: little\n  Sanity checking: disabled\n  Assertions: disabled\n  Random seed: 0\n  Sizeofs: void*:8, int:4, long:8, size_t:8\nInput files DNA, FASTA:\n  /galaxy/server/database/objects/e/4/d/dataset_e4dbf02b-3963-4a5f-96a9-cf0840765165.dat\nReading reference sizes\n  Time reading reference sizes: 00:00:00\nCalculating joined length\nWriting header\nReserving space for joined string\nJoining reference sequences\n  Time to join reference sequences: 00:00:00\nbmax according to bmaxDivN setting: 517\nUsing parameters --bmax 388 --dcv 1024\n  Doing ahead-of-time memory usage test\n  Passed!  Constructing with these parameters: --bmax 388 --dcv 1024\nConstructing suffix-array element generator\nBuilding DifferenceCoverSample\n  Building sPrime\n  Building sPrimeOrder\n  V-Sorting samples\n  V-Sorting samples time: 00:00:00\n  Allocating rank array\n  Ranking v-sort output\n  Ranking v-sort output time: 00:00:00\n  Invoking Larsson-Sadakane on ranks\n  Invoking Larsson-Sadakane on ranks time: 00:00:00\n  Sanity-checking and returning\nBuilding samples\nReserving space for 86 sample suffixes\nGenerating random suffixes\nQSorting 86 sample offsets, eliminating duplicates\nQSorting sample offsets, eliminating duplicates time: 00:00:00\nMultikey QSorting 86 samples\n  (Using difference cover)\n  Multikey QSorting samples time: 00:00:00\nCalculating bucket sizes\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 12, merged 41; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 6, merged 6; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 5, merged 3; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 3, merged 3; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nAvg bucket size: 284.672 (target: 387)\nConverting suffix-array elements to index image\nAllocating ftab, absorbFtab\nEntering Ebwt loop\nGetting block 1 of 58\n  Reserving size (388) for bucket 1\nGetting block 2 of 58\nGetting block 3 of 58\nGetting block 4 of 58\nGetting block 5 of 58\n  Calculating Z arrays for bucket 1\n  Reserving size (388) for bucket 2\n  Reserving size (388) for bucket 3\n  Reserving size (388) for bucket 4\n  Reserving size (388) for bucket 5\nGetting block 6 of 58\nGetting block 7 of 58\n  Calculating Z arrays for bucket 2\n  Entering block accumulator loop for bucket 1:\n  Calculating Z arrays for bucket 3\n  Calculating Z arrays for bucket 4\n  Calculating Z arrays for bucket 5\n  Reserving size (388) for bucket 6\n  Reserving size (388) for bucket 7\n  Entering block accumulator loop for bucket 2:\n  Calculating Z arrays for bucket 6\n  Calculating Z arrays for bucket 7\n  Entering block accumulator loop for bucket 3:\n  Entering block accumulator loop for bucket 4:\n  Entering block accumulator loop for bucket 5:\n  Entering block accumulator loop for bucket 6:\n  bucket 1: 10%\n  Entering block accumulator loop for bucket 7:\n  bucket 2: 10%\n  bucket 3: 10%\n  bucket 4: 10%\n  bucket 1: 20%\n  bucket 5: 10%\n  bucket 6: 10%\n  bucket 7: 10%\n  bucket 2: 20%\n  bucket 3: 20%\n  bucket 1: 30%\n  bucket 4: 20%\n  bucket 2: 30%\n  bucket 5: 20%\n  bucket 6: 20%\n  bucket 7: 20%\n  bucket 1: 40%\n  bucket 3: 30%\n  bucket 2: 40%\n  bucket 4: 30%\n  bucket 6: 30%\n  bucket 5: 30%\n  bucket 1: 50%\n  bucket 3: 40%\n  bucket 7: 30%\n  bucket 2: 50%\n  bucket 6: 40%\n  bucket 4: 40%\n  bucket 1: 60%\n  bucket 5: 40%\n  bucket 2: 60%\n  bucket 3: 50%\n  bucket 7: 40%\n  bucket 6: 50%\n  bucket 2: 70%\n  bucket 1: 70%\n  bucket 4: 50%\n  bucket 5: 50%\n  bucket 6: 60%\n  bucket 2: 80%\n  bucket 3: 60%\n  bucket 1: 80%\n  bucket 7: 50%\n  bucket 4: 60%\n  bucket 5: 60%\n  bucket 2: 90%\n  bucket 6: 70%\n  bucket 1: 90%\n  bucket 3: 70%\n  bucket 2: 100%\n  bucket 7: 60%\n  bucket 4: 70%\n  bucket 5: 70%\n  Sorting block of length 165 for bucket 2\n  (Using difference cover)\n  bucket 6: 80%\n  bucket 1: 100%\n  Sorting block of length 355 for bucket 1\n  (Using difference cover)\n  bucket 3: 80%\n  bucket 5: 80%\n  bucket 4: 80%\n  bucket 6: 90%\n  bucket 7: 70%\n  bucket 3: 90%\n  bucket 5: 90%\n  bucket 6: 100%\n  bucket 4: 90%\n  bucket 7: 80%\n  Sorting block of length 339 for bucket 6\n  (Using difference cover)\n  bucket 3: 100%\n  Sorting block of length 370 for bucket 3\n  (Using difference cover)\n  bucket 5: 100%\n  Sorting block of length 203 for bucket 5\n  (Using difference cover)\n  bucket 4: 100%\n  Sorting block of length 328 for bucket 4\n  (Using difference cover)\n  bucket 7: 90%\n  bucket 7: 100%\n  Sorting block of length 368 for bucket 7\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 204 for bucket 5\n  Sorting block time: 00:00:00\nReturning block of 329 for bucket 4\n  Sorting block time: 00:00:00\nReturning block of 356 for bucket 1\n  Sorting block time: 00:00:00\nReturning block of 369 for bucket 7\n  Sorting block time: 00:00:00\nReturning block of 166 for bucket 2\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 6\n  Sorting block time: 00:00:00\nReturning block of 371 for bucket 3\nGetting block 8 of 58\n  Reserving size (388) for bucket 8\n  Calculating Z arrays for bucket 8\nGetting block 9 of 58\n  Entering block accumulator loop for bucket 8:\n  Reserving size (388) for bucket 9\n  Calculating Z arrays for bucket 9\n  Entering block accumulator loop for bucket 9:\n  bucket 8: 10%\nGetting block 10 of 58\n  bucket 9: 10%\n  bucket 8: 20%\n  Reserving size (388) for bucket 10\n  Calculating Z arrays for bucket 10\n  Entering block accumulator loop for bucket 10:\n  bucket 9: 20%\n  bucket 8: 30%\n  bucket 8: 40%\n  bucket 9: 30%\n  bucket 10: 10%\n  bucket 8: 50%\n  bucket 9: 40%\n  bucket 10: 20%\n  bucket 8: 60%\n  bucket 9: 50%\n  bucket 10: 30%\n  bucket 8: 70%\n  bucket 9: 60%\n  bucket 10: 40%\n  bucket 8: 80%\n  bucket 9: 70%\n  bucket 8: 90%\n  bucket 9: 80%\n  bucket 10: 50%\n  bucket 8: 100%\n  Sorting block of length 171 for bucket 8\n  (Using difference cover)\n  bucket 10: 60%\n  bucket 9: 90%\n  bucket 9: 100%\n  Sorting block of length 339 for bucket 9\n  (Using difference cover)\n  bucket 10: 70%\n  Sorting block time: 00:00:00\nReturning block of 172 for bucket 8\n  bucket 10: 80%\n  bucket 10: 90%\n  bucket 10: 100%\n  Sorting block of length 357 for bucket 10\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 9\n  Sorting block time: 00:00:00\nReturning block of 358 for bucket 10\nGetting block 11 of 58\n  Reserving size (388) for bucket 11\nGetting block 12 of 58\n  Calculating Z arrays for bucket 11\n  Reserving size (388) for bucket 12\n  Calculating Z arrays for bucket 12\n  Entering block accumulator loop for bucket 12:\n  Entering block accumulator loop for bucket 11:\n  bucket 12: 10%\n  bucket 11: 10%\n  bucket 12: 20%\nGetting block 13 of 58\n  bucket 12: 30%\n  bucket 11: 20%\n  Reserving size (388) for bucket 13\n  Calculating Z arrays for bucket 13\n  bucket 12: 40%\n  bucket 11: 30%\n  Entering block accumulator loop for bucket 13:\n  bucket 12: 50%\n  bucket 11: 40%\n  bucket 13: 10%\n  bucket 12: 60%\n  bucket 11: 50%\n  bucket 12: 70%\n  bucket 13: 20%\n  bucket 11: 60%\n  bucket 12: 80%\n  bucket 11: 70%\n  bucket 13: 30%\n  bucket 12: 90%\n  bucket 11: 80%\n  bucket 13: 40%\n  bucket 12: 100%\n  Sorting block of length 185 for bucket 12\n  (Using difference cover)\n  bucket 11: 90%\n  bucket 13: 50%\n  bucket 11: 100%\n  Sorting block of length 305 for bucket 11\n  (Using difference cover)\n  bucket 13: 60%\n  Sorting block time: 00:00:00\nReturning block of 186 for bucket 12\n  bucket 13: 70%\n  bucket 13: 80%\n  bucket 13: 90%\n  bucket 13: 100%\n  Sorting block of length 282 for bucket 13\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 306 for bucket 11\n  Sorting block time: 00:00:00\nReturning block of 283 for bucket 13\nGetting block 14 of 58\n  Reserving size (388) for bucket 14\n  Calculating Z arrays for bucket 14\n  Entering block accumulator loop for bucket 14:\n  bucket 14: 10%\n  bucket 14: 20%\n  bucket 14: 30%\nGetting block 15 of 58\n  Reserving size (388) for bucket 15\n  Calculating Z arrays for bucket 15\n  bucket 14: 40%\n  Entering block accumulator loop for bucket 15:\n  bucket 14: 50%\n  bucket 15: 10%\n  bucket 14: 60%\n  bucket 15: 20%\n  bucket 14: 70%\n  bucket 15: 30%\n  bucket 14: 80%\n  bucket 15: 40%\n  bucket 14: 90%\n  bucket 15: 50%\n  bucket 14: 100%\n  bucket 15: 60%\n  Sorting block of length 339 for bucket 14\n  (Using difference cover)\n  bucket 15: 70%\n  bucket 15: 80%\n  bucket 15: 90%\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 14\n  bucket 15: 100%\n  Sorting block of length 241 for bucket 15\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 242 for bucket 15\nGetting block 16 of 58\n  Reserving size (388) for bucket 16\n  Calculating Z arrays for bucket 16\n  Entering block accumulator loop for bucket 16:\n  bucket 16: 10%\n  bucket 16: 20%\n  bucket 16: 30%\nGetting block 17 of 58\n  Reserving size (388) for bucket 17\n  Calculating Z arrays for bucket 17\n  bucket 16: 40%\n  Entering block accumulator loop for bucket 17:\n  bucket 16: 50%\n  bucket 17: 10%\n  bucket 16: 60%\n  bucket 17: 20%\n  bucket 16: 70%\n  bucket 17: 30%\n  bucket 16: 80%\n  bucket 17: 40%\n  bucket 16: 90%\n  bucket 17: 50%\n  bucket 16: 100%\n  Sorting block of length 379 for bucket 16\n  (Using difference cover)\n  bucket 17: 60%\n  bucket 17: 70%\n  bucket 17: 80%\n  bucket 17: 90%\n  Sorting block time: 00:00:00\nReturning block of 380 for bucket 16\n  bucket 17: 100%\n  Sorting block of length 215 for bucket 17\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 216 for bucket 17\nGetting block 18 of 58\n  Reserving size (388) for bucket 18\n  Calculating Z arrays for bucket 18\n  Entering block accumulator loop for bucket 18:\nGetting block 19 of 58\n  Reserving size (388) for bucket 19\n  Calculating Z arrays for bucket 19\n  Entering block accumulator loop for bucket 19:\n  bucket 18: 10%\n  bucket 19: 10%\n  bucket 18: 20%\n  bucket 19: 20%\n  bucket 18: 30%\n  bucket 19: 30%\n  bucket 18: 40%\n  bucket 19: 40%\n  bucket 18: 50%\n  bucket 19: 50%\n  bucket 18: 60%\n  bucket 19: 60%\n  bucket 19: 70%\n  bucket 18: 70%\n  bucket 19: 80%\n  bucket 18: 80%\n  bucket 19: 90%\n  bucket 18: 90%\n  bucket 19: 100%\n  Sorting block of length 334 for bucket 19\n  (Using difference cover)\n  bucket 18: 100%\n  Sorting block of length 378 for bucket 18\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 379 for bucket 18\n  Sorting block time: 00:00:00\nReturning block of 335 for bucket 19\nGetting block 20 of 58\n  Reserving size (388) for bucket 20\n  Calculating Z arrays for bucket 20\n  Entering block accumulator loop for bucket 20:\n  bucket 20: 10%\n  bucket 20: 20%\n  bucket 20: 30%\n  bucket 20: 40%\n  bucket 20: 50%\n  bucket 20: 60%\n  bucket 20: 70%\n  bucket 20: 80%\n  bucket 20: 90%\n  bucket 20: 100%\n  Sorting block of length 313 for bucket 20\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 314 for bucket 20\nGetting block 21 of 58\n  Reserving size (388) for bucket 21\nGetting block 22 of 58\n  Calculating Z arrays for bucket 21\n  Reserving size (388) for bucket 22\n  Calculating Z arrays for bucket 22\n  Entering block accumulator loop for bucket 21:\n  Entering block accumulator loop for bucket 22:\n  bucket 22: 10%\n  bucket 21: 10%\n  bucket 22: 20%\n  bucket 21: 20%\n  bucket 22: 30%\n  bucket 21: 30%\n  bucket 22: 40%\n  bucket 21: 40%\n  bucket 22: 50%\n  bucket 21: 50%\n  bucket 22: 60%\n  bucket 21: 60%\n  bucket 22: 70%\n  bucket 21: 70%\n  bucket 22: 80%\n  bucket 21: 80%\n  bucket 22: 90%\n  bucket 21: 90%\n  bucket 21: 100%\n  bucket 22: 100%\n  Sorting block of length 210 for bucket 21\n  (Using difference cover)\n  Sorting block of length 386 for bucket 22\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 387 for bucket 22\n  Sorting block time: 00:00:00\nReturning block of 211 for bucket 21\nGetting block 23 of 58\n  Reserving size (388) for bucket 23\nGetting block 24 of 58\n  Calculating Z arrays for bucket 23\n  Reserving size (388) for bucket 24\n  Calculating Z arrays for bucket 24\n  Entering block accumulator loop for bucket 24:\n  Entering block accumulator loop for bucket 23:\n  bucket 23: 10%\n  bucket 24: 10%\n  bucket 24: 20%\n  bucket 23: 20%\n  bucket 24: 30%\n  bucket 23: 30%\n  bucket 23: 40%\n  bucket 23: 50%\n  bucket 23: 60%\n  bucket 24: 40%\n  bucket 23: 70%\n  bucket 24: 50%\n  bucket 23: 80%\n  bucket 24: 60%\n  bucket 24: 70%\n  bucket 23: 90%\n  bucket 24: 80%\n  bucket 23: 100%\n  Sorting block of length 238 for bucket 23\n  (Using difference cover)\n  bucket 24: 90%\n  bucket 24: 100%\n  Sorting block of length 351 for bucket 24\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 239 for bucket 23\n  Sorting block time: 00:00:00\nReturning block of 352 for bucket 24\nGetting block 25 of 58\n  Reserving size (388) for bucket 25\nGetting block 26 of 58\n  Calculating Z arrays for bucket 25\n  Reserving size (388) for bucket 26\n  Calculating Z arrays for bucket 26\n  Entering block accumulator loop for bucket 25:\n  Entering block accumulator loop for bucket 26:\n  bucket 25: 10%\n  bucket 26: 10%\n  bucket 25: 20%\n  bucket 26: 20%\n  bucket 25: 30%\n  bucket 26: 30%\n  bucket 25: 40%\n  bucket 25: 50%\n  bucket 26: 40%\n  bucket 25: 60%\n  bucket 26: 50%\n  bucket 25: 70%\n  bucket 25: 80%\n  bucket 26: 60%\n  bucket 25: 90%\n  bucket 26: 70%\n  bucket 25: 100%\n  Sorting block of length 105 for bucket 25\n  (Using difference cover)\n  bucket 26: 80%\n  bucket 26: 90%\n  Sorting block time: 00:00:00\nReturning block of 106 for bucket 25\n  bucket 26: 100%\n  Sorting block of length 354 for bucket 26\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 355 for bucket 26\nGetting block 27 of 58\n  Reserving size (388) for bucket 27\n  Calculating Z arrays for bucket 27\n  Entering block accumulator loop for bucket 27:\n  bucket 27: 10%\n  bucket 27: 20%\n  bucket 27: 30%\n  bucket 27: 40%\n  bucket 27: 50%\n  bucket 27: 60%\n  bucket 27: 70%\n  bucket 27: 80%\n  bucket 27: 90%\n  bucket 27: 100%\n  Sorting block of length 334 for bucket 27\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 335 for bucket 27\nGetting block 28 of 58\n  Reserving size (388) for bucket 28\n  Calculating Z arrays for bucket 28\nGetting block 29 of 58\n  Entering block accumulator loop for bucket 28:\n  Reserving size (388) for bucket 29\n  Calculating Z arrays for bucket 29\n  Entering block accumulator loop for bucket 29:\n  bucket 28: 10%\n  bucket 28: 20%\n  bucket 29: 10%\n  bucket 28: 30%\n  bucket 28: 40%\n  bucket 29: 20%\nGetting block 30 of 58\n  bucket 28: 50%\n  Reserving size (388) for bucket 30\n  Calculating Z arrays for bucket 30\n  bucket 29: 30%\n  Entering block accumulator loop for bucket 30:\n  bucket 28: 60%\n  bucket 29: 40%\n  bucket 30: 10%\n  bucket 28: 70%\n  bucket 29: 50%\n  bucket 30: 20%\n  bucket 28: 80%\n  bucket 28: 90%\n  bucket 29: 60%\n  bucket 30: 30%\n  bucket 28: 100%\n  Sorting block of length 253 for bucket 28\n  (Using difference cover)\n  bucket 29: 70%\n  bucket 30: 40%\n  bucket 29: 80%\n  bucket 30: 50%\n  bucket 29: 90%\n  bucket 30: 60%\n  Sorting block time: 00:00:00\nReturning block of 254 for bucket 28\n  bucket 29: 100%\n  Sorting block of length 289 for bucket 29\n  (Using difference cover)\n  bucket 30: 70%\n  bucket 30: 80%\n  bucket 30: 90%\n  Sorting block time: 00:00:00\nReturning block of 290 for bucket 29\n  bucket 30: 100%\n  Sorting block of length 345 for bucket 30\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 346 for bucket 30\nGetting block 31 of 58\n  Reserving size (388) for bucket 31\n  Calculating Z arrays for bucket 31\n  Entering block accumulator loop for bucket 31:\n  bucket 31: 10%\nGetting block 32 of 58\n  Reserving size (388) for bucket 32\n  bucket 31: 20%\n  Calculating Z arrays for bucket 32\n  Entering block accumulator loop for bucket 32:\n  bucket 31: 30%\n  bucket 31: 40%\n  bucket 32: 10%\n  bucket 31: 50%\n  bucket 32: 20%\n  bucket 31: 60%\n  bucket 32: 30%\n  bucket 31: 70%\n  bucket 32: 40%\n  bucket 31: 80%\n  bucket 31: 90%\n  bucket 32: 50%\n  bucket 31: 100%\n  Sorting block of le\n..\n0:00\nReturning block of 350 for bucket 23\nGetting block 24 of 57\n  Reserving size (388) for bucket 24\n  Calculating Z arrays for bucket 24\n  Entering block accumulator loop for bucket 24:\nGetting block 25 of 57\n  bucket 24: 10%\n  Reserving size (388) for bucket 25\n  Calculating Z arrays for bucket 25\n  Entering block accumulator loop for bucket 25:\n  bucket 24: 20%\nGetting block 26 of 57\n  bucket 25: 10%\n  bucket 24: 30%\n  Reserving size (388) for bucket 26\n  Calculating Z arrays for bucket 26\n  Entering block accumulator loop for bucket 26:\n  bucket 25: 20%\n  bucket 24: 40%\n  bucket 25: 30%\n  bucket 26: 10%\n  bucket 24: 50%\n  bucket 25: 40%\n  bucket 26: 20%\n  bucket 24: 60%\n  bucket 25: 50%\n  bucket 26: 30%\n  bucket 25: 60%\n  bucket 24: 70%\n  bucket 25: 70%\n  bucket 26: 40%\n  bucket 24: 80%\n  bucket 25: 80%\n  bucket 26: 50%\n  bucket 25: 90%\n  bucket 24: 90%\n  bucket 26: 60%\n  bucket 25: 100%\n  bucket 26: 70%\n  bucket 24: 100%\n  Sorting block of length 286 for bucket 25\n  (Using difference cover)\n  Sorting block of length 245 for bucket 24\n  (Using difference cover)\n  bucket 26: 80%\n  bucket 26: 90%\n  bucket 26: 100%\n  Sorting block of length 384 for bucket 26\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 246 for bucket 24\n  Sorting block time: 00:00:00\nReturning block of 287 for bucket 25\n  Sorting block time: 00:00:00\nReturning block of 385 for bucket 26\nGetting block 27 of 57\n  Reserving size (388) for bucket 27\nGetting block 28 of 57\n  Calculating Z arrays for bucket 27\n  Reserving size (388) for bucket 28\n  Calculating Z arrays for bucket 28\n  Entering block accumulator loop for bucket 27:\n  Entering block accumulator loop for bucket 28:\n  bucket 28: 10%\n  bucket 27: 10%\n  bucket 28: 20%\n  bucket 27: 20%\n  bucket 27: 30%\n  bucket 28: 30%\n  bucket 27: 40%\n  bucket 28: 40%\n  bucket 27: 50%\n  bucket 28: 50%\n  bucket 27: 60%\n  bucket 28: 60%\n  bucket 27: 70%\n  bucket 28: 70%\n  bucket 27: 80%\n  bucket 28: 80%\n  bucket 27: 90%\n  bucket 28: 90%\n  bucket 27: 100%\n  Sorting block of length 359 for bucket 27\n  (Using difference cover)\n  bucket 28: 100%\n  Sorting block of length 387 for bucket 28\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 360 for bucket 27\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 28\nGetting block 29 of 57\n  Reserving size (388) for bucket 29\n  Calculating Z arrays for bucket 29\n  Entering block accumulator loop for bucket 29:\n  bucket 29: 10%\n  bucket 29: 20%\n  bucket 29: 30%\n  bucket 29: 40%\n  bucket 29: 50%\n  bucket 29: 60%\n  bucket 29: 70%\n  bucket 29: 80%\n  bucket 29: 90%\n  bucket 29: 100%\n  Sorting block of length 195 for bucket 29\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 196 for bucket 29\nGetting block 30 of 57\n  Reserving size (388) for bucket 30\n  Calculating Z arrays for bucket 30\n  Entering block accumulator loop for bucket 30:\n  bucket 30: 10%\nGetting block 31 of 57\n  bucket 30: 20%\n  Reserving size (388) for bucket 31\n  Calculating Z arrays for bucket 31\n  Entering block accumulator loop for bucket 31:\n  bucket 30: 30%\n  bucket 30: 40%\n  bucket 31: 10%\n  bucket 30: 50%\n  bucket 31: 20%\n  bucket 30: 60%\n  bucket 31: 30%\n  bucket 30: 70%\n  bucket 30: 80%\n  bucket 31: 40%\n  bucket 30: 90%\n  bucket 31: 50%\n  bucket 30: 100%\n  Sorting block of length 257 for bucket 30\n  (Using difference cover)\n  bucket 31: 60%\n  bucket 31: 70%\n  bucket 31: 80%\n  Sorting block time: 00:00:00\nReturning block of 258 for bucket 30\n  bucket 31: 90%\n  bucket 31: 100%\n  Sorting block of length 310 for bucket 31\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 311 for bucket 31\nGetting block 32 of 57\n  Reserving size (388) for bucket 32\n  Calculating Z arrays for bucket 32\n  Entering block accumulator loop for bucket 32:\n  bucket 32: 10%\n  bucket 32: 20%\nGetting block 33 of 57\n  bucket 32: 30%\n  Reserving size (388) for bucket 33\n  Calculating Z arrays for bucket 33\n  Entering block accumulator loop for bucket 33:\n  bucket 32: 40%\n  bucket 33: 10%\n  bucket 32: 50%\n  bucket 33: 20%\n  bucket 32: 60%\n  bucket 33: 30%\n  bucket 32: 70%\n  bucket 32: 80%\n  bucket 33: 40%\n  bucket 33: 50%\n  bucket 32: 90%\n  bucket 33: 60%\n  bucket 32: 100%\n  Sorting block of length 219 for bucket 32\n  (Using difference cover)\n  bucket 33: 70%\n  bucket 33: 80%\n  bucket 33: 90%\n  Sorting block time: 00:00:00\nReturning block of 220 for bucket 32\n  bucket 33: 100%\n  Sorting block of length 387 for bucket 33\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 33\nGetting block 34 of 57\n  Reserving size (388) for bucket 34\nGetting block 35 of 57\n  Calculating Z arrays for bucket 34\n  Reserving size (388) for bucket 35\n  Calculating Z arrays for bucket 35\n  Entering block accumulator loop for bucket 34:\n  Entering block accumulator loop for bucket 35:\n  bucket 35: 10%\n  bucket 34: 10%\n  bucket 35: 20%\n  bucket 34: 20%\n  bucket 35: 30%\n  bucket 34: 30%\n  bucket 35: 40%\n  bucket 34: 40%\n  bucket 35: 50%\n  bucket 35: 60%\n  bucket 34: 50%\n  bucket 35: 70%\n  bucket 34: 60%\n  bucket 35: 80%\n  bucket 34: 70%\n  bucket 35: 90%\n  bucket 34: 80%\n  bucket 35: 100%\n  Sorting block of length 350 for bucket 35\n  (Using difference cover)\n  bucket 34: 90%\n  bucket 34: 100%\n  Sorting block of length 275 for bucket 34\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 351 for bucket 35\n  Sorting block time: 00:00:00\nReturning block of 276 for bucket 34\nGetting block 37 of 57\nGetting block 36 of 57\n  Reserving size (388) for bucket 37\n  Reserving size (388) for bucket 36\n  Calculating Z arrays for bucket 37\n  Calculating Z arrays for bucket 36\nGetting block 38 of 57\n  Entering block accumulator loop for bucket 37:\n  Entering block accumulator loop for bucket 36:\n  Reserving size (388) for bucket 38\n  Calculating Z arrays for bucket 38\n  Entering block accumulator loop for bucket 38:\n  bucket 38: 10%\n  bucket 37: 10%\n  bucket 36: 10%\n  bucket 38: 20%\n  bucket 37: 20%\n  bucket 38: 30%\n  bucket 37: 30%\n  bucket 36: 20%\n  bucket 38: 40%\n  bucket 37: 40%\n  bucket 36: 30%\n  bucket 38: 50%\n  bucket 38: 60%\n  bucket 37: 50%\n  bucket 36: 40%\n  bucket 38: 70%\n  bucket 37: 60%\n  bucket 36: 50%\n  bucket 38: 80%\n  bucket 38: 90%\n  bucket 37: 70%\n  bucket 36: 60%\n  bucket 38: 100%\n  Sorting block of length 337 for bucket 38\n  (Using difference cover)\n  bucket 37: 80%\n  bucket 36: 70%\n  bucket 37: 90%\n  bucket 36: 80%\n  bucket 37: 100%\n  bucket 36: 90%\n  Sorting block of length 267 for bucket 37\n  (Using difference cover)\n  bucket 36: 100%\n  Sorting block of length 150 for bucket 36\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 338 for bucket 38\n  Sorting block time: 00:00:00\nReturning block of 151 for bucket 36\n  Sorting block time: 00:00:00\nReturning block of 268 for bucket 37\nGetting block 39 of 57\n  Reserving size (388) for bucket 39\n  Calculating Z arrays for bucket 39\n  Entering block accumulator loop for bucket 39:\n  bucket 39: 10%\n  bucket 39: 20%\n  bucket 39: 30%\n  bucket 39: 40%\n  bucket 39: 50%\n  bucket 39: 60%\n  bucket 39: 70%\n  bucket 39: 80%\n  bucket 39: 90%\n  bucket 39: 100%\n  Sorting block of length 387 for bucket 39\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 39\nGetting block 40 of 57\n  Reserving size (388) for bucket 40\nGetting block 41 of 57\n  Calculating Z arrays for bucket 40\n  Reserving size (388) for bucket 41\n  Calculating Z arrays for bucket 41\nGetting block 42 of 57\n  Entering block accumulator loop for bucket 40:\n  Entering block accumulator loop for bucket 41:\n  Reserving size (388) for bucket 42\n  Calculating Z arrays for bucket 42\n  Entering block accumulator loop for bucket 42:\n  bucket 41: 10%\n  bucket 40: 10%\n  bucket 42: 10%\n  bucket 41: 20%\n  bucket 40: 20%\n  bucket 42: 20%\n  bucket 41: 30%\n  bucket 40: 30%\n  bucket 42: 30%\n  bucket 41: 40%\n  bucket 40: 40%\n  bucket 42: 40%\n  bucket 41: 50%\n  bucket 40: 50%\n  bucket 42: 50%\n  bucket 40: 60%\n  bucket 41: 60%\n  bucket 42: 60%\n  bucket 41: 70%\n  bucket 42: 70%\n  bucket 41: 80%\n  bucket 42: 80%\n  bucket 41: 90%\n  bucket 40: 70%\n  bucket 42: 90%\n  bucket 41: 100%\n  Sorting block of length 330 for bucket 41\n  (Using difference cover)\n  bucket 42: 100%\n  Sorting block of length 188 for bucket 42\n  (Using difference cover)\n  bucket 40: 80%\n  bucket 40: 90%\n  bucket 40: 100%\n  Sorting block of length 379 for bucket 40\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 189 for bucket 42\n  Sorting block time: 00:00:00\nReturning block of 331 for bucket 41\n  Sorting block time: 00:00:00\nReturning block of 380 for bucket 40\nGetting block 43 of 57\n  Reserving size (388) for bucket 43\n  Calculating Z arrays for bucket 43\n  Entering block accumulator loop for bucket 43:\nGetting block 44 of 57\n  Reserving size (388) for bucket 44\n  bucket 43: 10%\n  Calculating Z arrays for bucket 44\n  Entering block accumulator loop for bucket 44:\n  bucket 43: 20%\n  bucket 44: 10%\n  bucket 43: 30%\n  bucket 43: 40%\n  bucket 44: 20%\n  bucket 43: 50%\n  bucket 44: 30%\n  bucket 44: 40%\n  bucket 43: 60%\n  bucket 43: 70%\n  bucket 44: 50%\n  bucket 44: 60%\n  bucket 43: 80%\n  bucket 44: 70%\n  bucket 43: 90%\n  bucket 43: 100%\n  Sorting block of length 321 for bucket 43\n  (Using difference cover)\n  bucket 44: 80%\n  bucket 44: 90%\n  bucket 44: 100%\n  Sorting block of length 366 for bucket 44\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 322 for bucket 43\n  Sorting block time: 00:00:00\nReturning block of 367 for bucket 44\nGetting block 45 of 57\n  Reserving size (388) for bucket 45\n  Calculating Z arrays for bucket 45\nGetting block 46 of 57\n  Entering block accumulator loop for bucket 45:\n  Reserving size (388) for bucket 46\n  Calculating Z arrays for bucket 46\n  Entering block accumulator loop for bucket 46:\n  bucket 45: 10%\n  bucket 46: 10%\n  bucket 46: 20%\n  bucket 45: 20%\n  bucket 46: 30%\n  bucket 45: 30%\n  bucket 46: 40%\n  bucket 45: 40%\n  bucket 45: 50%\n  bucket 46: 50%\n  bucket 46: 60%\n  bucket 45: 60%\n  bucket 45: 70%\n  bucket 46: 70%\n  bucket 45: 80%\n  bucket 46: 80%\n  bucket 45: 90%\n  bucket 46: 90%\n  bucket 45: 100%\n  Sorting block of length 365 for bucket 45\n  (Using difference cover)\n  bucket 46: 100%\n  Sorting block of length 253 for bucket 46\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 366 for bucket 45\n  Sorting block time: 00:00:00\nReturning block of 254 for bucket 46\nGetting block 47 of 57\n  Reserving size (388) for bucket 47\n  Calculating Z arrays for bucket 47\nGetting block 48 of 57\n  Entering block accumulator loop for bucket 47:\n  Reserving size (388) for bucket 48\n  Calculating Z arrays for bucket 48\n  Entering block accumulator loop for bucket 48:\n  bucket 47: 10%\n  bucket 48: 10%\n  bucket 47: 20%\n  bucket 48: 20%\n  bucket 47: 30%\n  bucket 48: 30%\n  bucket 47: 40%\n  bucket 48: 40%\n  bucket 47: 50%\n  bucket 48: 50%\n  bucket 47: 60%\n  bucket 48: 60%\n  bucket 47: 70%\n  bucket 48: 70%\n  bucket 47: 80%\n  bucket 48: 80%\n  bucket 47: 90%\n  bucket 48: 90%\n  bucket 47: 100%\n  Sorting block of length 217 for bucket 47\n  (Using difference cover)\n  bucket 48: 100%\n  Sorting block of length 384 for bucket 48\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 385 for bucket 48\n  Sorting block time: 00:00:00\nReturning block of 218 for bucket 47\nGetting block 49 of 57\n  Reserving size (388) for bucket 49\n  Calculating Z arrays for bucket 49\n  Entering block accumulator loop for bucket 49:\nGetting block 50 of 57\n  Reserving size (388) for bucket 50\n  Calculating Z arrays for bucket 50\n  bucket 49: 10%\n  Entering block accumulator loop for bucket 50:\n  bucket 49: 20%\n  bucket 50: 10%\n  bucket 49: 30%\nGetting block 51 of 57\n  Reserving size (388) for bucket 51\n  bucket 49: 40%\n  bucket 50: 20%\n  Calculating Z arrays for bucket 51\n  Entering block accumulator loop for bucket 51:\n  bucket 49: 50%\n  bucket 50: 30%\n  bucket 49: 60%\n  bucket 51: 10%\n  bucket 49: 70%\n  bucket 50: 40%\n  bucket 51: 20%\n  bucket 51: 30%\n  bucket 49: 80%\n  bucket 50: 50%\n  bucket 51: 40%\n  bucket 49: 90%\n  bucket 49: 100%\n  bucket 51: 50%\n  bucket 50: 60%\n  Sorting block of length 112 for bucket 49\n  (Using difference cover)\n  bucket 51: 60%\n  bucket 51: 70%\n  bucket 50: 70%\n  bucket 51: 80%\n  bucket 50: 80%\n  Sorting block time: 00:00:00\nReturning block of 113 for bucket 49\n  bucket 51: 90%\n  bucket 50: 90%\n  bucket 51: 100%\n  Sorting block of length 350 for bucket 51\n  (Using difference cover)\n  bucket 50: 100%\n  Sorting block of length 275 for bucket 50\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 351 for bucket 51\n  Sorting block time: 00:00:00\nReturning block of 276 for bucket 50\nGetting block 52 of 57\n  Reserving size (388) for bucket 52\n  Calculating Z arrays for bucket 52\n  Entering block accumulator loop for bucket 52:\nGetting block 53 of 57\n  bucket 52: 10%\n  Reserving size (388) for bucket 53\n  Calculating Z arrays for bucket 53\n  Entering block accumulator loop for bucket 53:\n  bucket 52: 20%\n  bucket 53: 10%\n  bucket 52: 30%\n  bucket 53: 20%\n  bucket 52: 40%\n  bucket 53: 30%\n  bucket 52: 50%\n  bucket 53: 40%\n  bucket 52: 60%\n  bucket 53: 50%\n  bucket 52: 70%\n  bucket 53: 60%\n  bucket 53: 70%\n  bucket 52: 80%\n  bucket 52: 90%\n  bucket 53: 80%\n  bucket 52: 100%\n  Sorting block of length 378 for bucket 52\n  (Using difference cover)\n  bucket 53: 90%\n  bucket 53: 100%\n  Sorting block of length 370 for bucket 53\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 379 for bucket 52\n  Sorting block time: 00:00:00\nReturning block of 371 for bucket 53\nGetting block 54 of 57\n  Reserving size (388) for bucket 54\n  Calculating Z arrays for bucket 54\n  Entering block accumulator loop for bucket 54:\nGetting block 55 of 57\n  Reserving size (388) for bucket 55\n  Calculating Z arrays for bucket 55\n  bucket 54: 10%\n  Entering block accumulator loop for bucket 55:\n  bucket 54: 20%\n  bucket 55: 10%\n  bucket 54: 30%\n  bucket 55: 20%\n  bucket 55: 30%\n  bucket 54: 40%\n  bucket 55: 40%\n  bucket 54: 50%\n  bucket 54: 60%\n  bucket 55: 50%\n  bucket 54: 70%\n  bucket 55: 60%\n  bucket 54: 80%\n  bucket 55: 70%\n  bucket 54: 90%\n  bucket 55: 80%\n  bucket 54: 100%\n  Sorting block of length 237 for bucket 54\n  (Using difference cover)\n  bucket 55: 90%\n  bucket 55: 100%\n  Sorting block of length 344 for bucket 55\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 238 for bucket 54\n  Sorting block time: 00:00:00\nReturning block of 345 for bucket 55\nGetting block 56 of 57\n  Reserving size (388) for bucket 56\n  Calculating Z arrays for bucket 56\n  Entering block accumulator loop for bucket 56:\n  bucket 56: 10%\n  bucket 56: 20%\n  bucket 56: 30%\n  bucket 56: 40%\n  bucket 56: 50%\n  bucket 56: 60%\n  bucket 56: 70%\n  bucket 56: 80%\n  bucket 56: 90%\n  bucket 56: 100%\n  Sorting block of length 270 for bucket 56\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 271 for bucket 56\nGetting block 57 of 57\n  Reserving size (388) for bucket 57\n  Calculating Z arrays for bucket 57\n  Entering block accumulator loop for bucket 57:\n  bucket 57: 10%\n  bucket 57: 20%\n  bucket 57: 30%\n  bucket 57: 40%\n  bucket 57: 50%\n  bucket 57: 60%\n  bucket 57: 70%\n  bucket 57: 80%\n  bucket 57: 90%\n  bucket 57: 100%\n  Sorting block of length 132 for bucket 57\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 133 for bucket 57\nExited Ebwt loop\nfchr[A]: 0\nfchr[C]: 5124\nfchr[G]: 10305\nfchr[T]: 12474\nfchr[$]: 16568\nExiting Ebwt::buildToDisk()\nReturning from initFromVector\nWrote 4200050 bytes to primary EBWT file: genome.rev.1.bt2.tmp\nWrote 4148 bytes to secondary EBWT file: genome.rev.2.bt2.tmp\nRe-opening _in1 and _in2 as input streams\nReturning from Ebwt constructor\nHeaders:\n    len: 16568\n    bwtLen: 16569\n    sz: 4142\n    bwtSz: 4143\n    lineRate: 6\n    offRate: 4\n    offMask: 0xfffffff0\n    ftabChars: 10\n    eftabLen: 20\n    eftabSz: 80\n    ftabLen: 1048577\n    ftabSz: 4194308\n    offsLen: 1036\n    offsSz: 4144\n    lineSz: 64\n    sideSz: 64\n    sideBwtSz: 48\n    sideBwtLen: 192\n    numSides: 87\n    numLines: 87\n    ebwtTotLen: 5568\n    ebwtTotSz: 5568\n    color: 0\n    reverse: 1\nTotal time for backward call to driver() for mirror index: 00:00:01\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:42:05", "plugin": "core", "name": "end_epoch", "raw_value": "1726407725.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:42:04", "plugin": "core", "name": "start_epoch", "raw_value": "1726407724.0000000"}, {"title": "Memory Allocated (MB)", "value": "21474", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "21474.0000000"}, {"title": "Cores Allocated", "value": "8", "plugin": "core", "name": "galaxy_slots", "raw_value": "8.0000000"}]}, "status": "success"}}, {"id": "bowtie2/2.5.3+galaxy1-2", "has_data": true, "data": {"tool_id": "bowtie2", "tool_version": "2.5.3+galaxy1", "test_index": 2, "time_seconds": 30.980604648590088, "inputs": {"library|input_1": {"src": "hda", "id": "fc5f9619da03844d"}, "library|input_2": {"src": "hda", "id": "97e69ecfa6231887"}, "library|unaligned_file": false, "library|paired_options|paired_options_selector": "no", "library|type": "paired", "reference_genome|own_file": {"src": "hda", "id": "cdcf7e19b4a4e272"}, "reference_genome|source": "history", "rg|read_group_id_conditional|ID": "rg1", "rg|PL": "CAPILLARY", "rg|rg_selector": "set", "analysis_type|analysis_type_selector": "simple"}, "job": {"model_class": "Job", "id": "57ee98935c255173", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:42:44.964759", "create_time": "2024-09-15T13:42:33.320798", "galaxy_version": "23.1", "command_version": "/usr/local/bin/bowtie2-align-s version 2.5.3\n64-bit\nBuilt on fv-az365-785\nWed Jan 17 04:43:48 UTC 2024\nCompiler: gcc version 12.3.0 (conda-forge gcc 12.3.0-3) \nOptions: -O3 -msse2 -funroll-loops -g3 -fvisibility-inlines-hidden -fmessage-length=0 -march=nocona -mtune=haswell -ftree-vectorize -fPIC -fstack-protector-strong -fno-plt -O2 -ffunction-sections -pipe -isystem /usr/local/include -fdebug-prefix-map=/opt/conda/conda-bld/bowtie2_1705465427853/work=/usr/local/src/conda/bowtie2-2.5.3 -fdebug-prefix-map=/usr/local=/usr/local/src/conda-prefix -std=c++11 -Wall -Wno-unused-but-set-variable -DPOPCNT_CAPABILITY -DNO_SPINLOCK -DWITH_QUEUELOCK=1 -DWITH_ZSTD\nSizeof {int, long, long long, void*, size_t, off_t}: {4, 8, 8, 8, 8, 8}", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/devteam/bowtie2/bowtie2/2.5.3+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-7ftgq", "command_line": "set -o | grep -q pipefail && set -o pipefail; bowtie2-build --threads ${GALAXY_SLOTS:-4} '/galaxy/server/database/objects/5/0/e/dataset_50e15f15-357b-45f3-aa3c-f2ce8ea4047f.dat' genome && ln -s -f '/galaxy/server/database/objects/5/0/e/dataset_50e15f15-357b-45f3-aa3c-f2ce8ea4047f.dat' genome.fa &&   ln -f -s '/galaxy/server/database/objects/c/f/4/dataset_cf4d0cba-973e-41ca-a885-b0687729c39f.dat' input_f.fastq &&  ln -f -s '/galaxy/server/database/objects/1/b/5/dataset_1b57fcf6-fac2-4bdb-af5b-5360715e92a6.dat' input_r.fastq &&   THREADS=${GALAXY_SLOTS:-4} && if [ \"$THREADS\" -gt 1 ]; then (( THREADS-- )); fi &&   bowtie2  -p \"$THREADS\"  -x 'genome'   -1 'input_f.fastq' -2 'input_r.fastq'                        --rg-id \"rg1\"  --rg \"PL:CAPILLARY\"              | samtools sort -l 0 -T \"${TMPDIR:-.}\" -O bam | samtools view --no-PG -O bam -@ ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/e/6/d/dataset_e6d997a2-4dd4-40ab-a512-1e140c6f16ae.dat'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "save_mapping_stats": "false", "sam_options": "{\"__current_case__\": 1, \"sam_options_selector\": \"no\"}", "analysis_type": "{\"__current_case__\": 0, \"analysis_type_selector\": \"simple\", \"presets\": \"no_presets\"}", "rg": "{\"CN\": null, \"DS\": null, \"DT\": null, \"FO\": null, \"KS\": null, \"PG\": null, \"PI\": \"\", \"PL\": \"CAPILLARY\", \"PU\": null, \"__current_case__\": 1, \"read_group_id_conditional\": {\"ID\": \"rg1\", \"__current_case__\": 1, \"do_auto_name\": false}, \"read_group_lb_conditional\": {\"LB\": null, \"__current_case__\": 1, \"do_auto_name\": false}, \"read_group_sm_conditional\": {\"SM\": \"\", \"__current_case__\": 1, \"do_auto_name\": false}, \"rg_selector\": \"set\"}", "reference_genome": "{\"__current_case__\": 1, \"own_file\": {\"values\": [{\"id\": 369, \"src\": \"hda\"}]}, \"source\": \"history\"}", "library": "{\"__current_case__\": 1, \"aligned_file\": false, \"input_1\": {\"values\": [{\"id\": 367, \"src\": \"hda\"}]}, \"input_2\": {\"values\": [{\"id\": 368, \"src\": \"hda\"}]}, \"paired_options\": {\"__current_case__\": 1, \"paired_options_selector\": \"no\"}, \"type\": \"paired\", \"unaligned_file\": false}"}, "inputs": {"library|input_1": {"id": "fc5f9619da03844d", "src": "hda", "uuid": "cf4d0cba-973e-41ca-a885-b0687729c39f"}, "library|input_2": {"id": "97e69ecfa6231887", "src": "hda", "uuid": "1b57fcf6-fac2-4bdb-af5b-5360715e92a6"}, "reference_genome|own_file": {"id": "cdcf7e19b4a4e272", "src": "hda", "uuid": "50e15f15-357b-45f3-aa3c-f2ce8ea4047f"}}, "outputs": {"output": {"id": "97de7351bce382c5", "src": "hda", "uuid": "e6d997a2-4dd4-40ab-a512-1e140c6f16ae"}}, "output_collections": {}, "tool_stdout": "Settings:\n  Output files: \"genome.*.bt2\"\n  Line rate: 6 (line is 64 bytes)\n  Lines per side: 1 (side is 64 bytes)\n  Offset rate: 4 (one in 16)\n  FTable chars: 10\n  Strings: unpacked\n  Max bucket size: default\n  Max bucket size, sqrt multiplier: default\n  Max bucket size, len divisor: 32\n  Difference-cover sample period: 1024\n  Endianness: little\n  Actual local endianness: little\n  Sanity checking: disabled\n  Assertions: disabled\n  Random seed: 0\n  Sizeofs: void*:8, int:4, long:8, size_t:8\nInput files DNA, FASTA:\n  /galaxy/server/database/objects/5/0/e/dataset_50e15f15-357b-45f3-aa3c-f2ce8ea4047f.dat\nReading reference sizes\n  Time reading reference sizes: 00:00:00\nCalculating joined length\nWriting header\nReserving space for joined string\nJoining reference sequences\n  Time to join reference sequences: 00:00:00\nbmax according to bmaxDivN setting: 517\nUsing parameters --bmax 388 --dcv 1024\n  Doing ahead-of-time memory usage test\n  Passed!  Constructing with these parameters: --bmax 388 --dcv 1024\nConstructing suffix-array element generator\nBuilding DifferenceCoverSample\n  Building sPrime\n  Building sPrimeOrder\n  V-Sorting samples\n  V-Sorting samples time: 00:00:00\n  Allocating rank array\n  Ranking v-sort output\n  Ranking v-sort output time: 00:00:00\n  Invoking Larsson-Sadakane on ranks\n  Invoking Larsson-Sadakane on ranks time: 00:00:00\n  Sanity-checking and returning\nBuilding samples\nReserving space for 86 sample suffixes\nGenerating random suffixes\nQSorting 86 sample offsets, eliminating duplicates\nQSorting sample offsets, eliminating duplicates time: 00:00:00\nMultikey QSorting 86 samples\n  (Using difference cover)\n  Multikey QSorting samples time: 00:00:00\nCalculating bucket sizes\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 12, merged 41; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 6, merged 6; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 5, merged 3; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 3, merged 3; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nAvg bucket size: 284.672 (target: 387)\nConverting suffix-array elements to index image\nAllocating ftab, absorbFtab\nEntering Ebwt loop\nGetting block 1 of 58\n  Reserving size (388) for bucket 1\nGetting block 2 of 58\nGetting block 4 of 58\nGetting block 3 of 58\nGetting block 5 of 58\nGetting block 6 of 58\nGetting block 7 of 58\n  Calculating Z arrays for bucket 1\n  Reserving size (388) for bucket 2\n  Reserving size (388) for bucket 4\n  Reserving size (388) for bucket 3\n  Reserving size (388) for bucket 5\n  Reserving size (388) for bucket 6\n  Reserving size (388) for bucket 7\n  Calculating Z arrays for bucket 2\n  Calculating Z arrays for bucket 4\n  Entering block accumulator loop for bucket 1:\n  Calculating Z arrays for bucket 3\n  Calculating Z arrays for bucket 5\n  Calculating Z arrays for bucket 6\n  Calculating Z arrays for bucket 7\n  Entering block accumulator loop for bucket 2:\n  Entering block accumulator loop for bucket 4:\n  Entering block accumulator loop for bucket 5:\n  Entering block accumulator loop for bucket 3:\n  Entering block accumulator loop for bucket 6:\n  Entering block accumulator loop for bucket 7:\n  bucket 1: 10%\n  bucket 2: 10%\n  bucket 5: 10%\n  bucket 4: 10%\n  bucket 1: 20%\n  bucket 6: 10%\n  bucket 2: 20%\n  bucket 3: 10%\n  bucket 5: 20%\n  bucket 4: 20%\n  bucket 7: 10%\n  bucket 1: 30%\n  bucket 2: 30%\n  bucket 6: 20%\n  bucket 4: 30%\n  bucket 5: 30%\n  bucket 1: 40%\n  bucket 2: 40%\n  bucket 3: 20%\n  bucket 7: 20%\n  bucket 4: 40%\n  bucket 1: 50%\n  bucket 2: 50%\n  bucket 6: 30%\n  bucket 5: 40%\n  bucket 4: 50%\n  bucket 3: 30%\n  bucket 1: 60%\n  bucket 2: 60%\n  bucket 7: 30%\n  bucket 6: 40%\n  bucket 5: 50%\n  bucket 4: 60%\n  bucket 1: 70%\n  bucket 2: 70%\n  bucket 3: 40%\n  bucket 4: 70%\n  bucket 7: 40%\n  bucket 1: 80%\n  bucket 6: 50%\n  bucket 2: 80%\n  bucket 5: 60%\n  bucket 4: 80%\n  bucket 3: 50%\n  bucket 2: 90%\n  bucket 1: 90%\n  bucket 7: 50%\n  bucket 6: 60%\n  bucket 4: 90%\n  bucket 5: 70%\n  bucket 2: 100%\n  bucket 3: 60%\n  Sorting block of length 165 for bucket 2\n  (Using difference cover)\n  bucket 1: 100%\n  Sorting block of length 355 for bucket 1\n  (Using difference cover)\n  bucket 4: 100%\n  bucket 6: 70%\n  bucket 5: 80%\n  bucket 7: 60%\n  bucket 3: 70%\n  Sorting block of length 328 for bucket 4\n  (Using difference cover)\n  bucket 6: 80%\n  bucket 5: 90%\n  bucket 7: 70%\n  bucket 3: 80%\n  bucket 6: 90%\n  bucket 5: 100%\n  Sorting block of length 203 for bucket 5\n  (Using difference cover)\n  bucket 7: 80%\n  bucket 3: 90%\n  bucket 6: 100%\n  Sorting block of length 339 for bucket 6\n  (Using difference cover)\n  bucket 3: 100%\n  bucket 7: 90%\n  Sorting block of length 370 for bucket 3\n  (Using difference cover)\n  bucket 7: 100%\n  Sorting block of length 368 for bucket 7\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 6\n  Sorting block time: 00:00:00\nReturning block of 369 for bucket 7\n  Sorting block time: 00:00:00\nReturning block of 166 for bucket 2\n  Sorting block time: 00:00:00\nReturning block of 204 for bucket 5\n  Sorting block time: 00:00:00\nReturning block of 329 for bucket 4\n  Sorting block time: 00:00:00\nReturning block of 356 for bucket 1\n  Sorting block time: 00:00:00\nReturning block of 371 for bucket 3\nGetting block 8 of 58\n  Reserving size (388) for bucket 8\n  Calculating Z arrays for bucket 8\n  Entering block accumulator loop for bucket 8:\n  bucket 8: 10%\n  bucket 8: 20%\n  bucket 8: 30%\n  bucket 8: 40%\n  bucket 8: 50%\nGetting block 9 of 58\n  bucket 8: 60%\n  Reserving size (388) for bucket 9\n  Calculating Z arrays for bucket 9\nGetting block 10 of 58\n  bucket 8: 70%\n  Entering block accumulator loop for bucket 9:\n  Reserving size (388) for bucket 10\n  Calculating Z arrays for bucket 10\n  bucket 8: 80%\n  Entering block accumulator loop for bucket 10:\n  bucket 9: 10%\n  bucket 8: 90%\n  bucket 8: 100%\n  Sorting block of length 171 for bucket 8\n  (Using difference cover)\n  bucket 9: 20%\n  bucket 10: 10%\n  bucket 9: 30%\n  bucket 10: 20%\n  bucket 9: 40%\n  bucket 10: 30%\n  bucket 9: 50%\n  bucket 9: 60%\n  Sorting block time: 00:00:00\n  bucket 10: 40%\nReturning block of 172 for bucket 8\n  bucket 9: 70%\n  bucket 10: 50%\n  bucket 9: 80%\n  bucket 10: 60%\n  bucket 9: 90%\n  bucket 10: 70%\n  bucket 9: 100%\n  Sorting block of length 339 for bucket 9\n  (Using difference cover)\n  bucket 10: 80%\n  bucket 10: 90%\n  bucket 10: 100%\n  Sorting block of length 357 for bucket 10\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 9\n  Sorting block time: 00:00:00\nReturning block of 358 for bucket 10\nGetting block 11 of 58\n  Reserving size (388) for bucket 11\nGetting block 12 of 58\n  Calculating Z arrays for bucket 11\n  Reserving size (388) for bucket 12\n  Entering block accumulator loop for bucket 11:\n  Calculating Z arrays for bucket 12\n  Entering block accumulator loop for bucket 12:\n  bucket 11: 10%\nGetting block 13 of 58\n  bucket 12: 10%\n  bucket 11: 20%\n  Reserving size (388) for bucket 13\n  Calculating Z arrays for bucket 13\n  bucket 12: 20%\n  bucket 11: 30%\n  Entering block accumulator loop for bucket 13:\n  bucket 12: 30%\n  bucket 11: 40%\n  bucket 13: 10%\n  bucket 12: 40%\n  bucket 11: 50%\n  bucket 13: 20%\n  bucket 12: 50%\n  bucket 11: 60%\n  bucket 13: 30%\n  bucket 11: 70%\n  bucket 12: 60%\n  bucket 11: 80%\n  bucket 12: 70%\n  bucket 13: 40%\n  bucket 11: 90%\n  bucket 12: 80%\n  bucket 13: 50%\n  bucket 11: 100%\n  Sorting block of length 305 for bucket 11\n  (Using difference cover)\n  bucket 12: 90%\n  bucket 13: 60%\n  bucket 12: 100%\n  Sorting block of length 185 for bucket 12\n  (Using difference cover)\n  bucket 13: 70%\n  bucket 13: 80%\n  bucket 13: 90%\n  bucket 13: 100%\n  Sorting block of length 282 for bucket 13\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 186 for bucket 12\n  Sorting block time: 00:00:00\nReturning block of 306 for bucket 11\n  Sorting block time: 00:00:00\nReturning block of 283 for bucket 13\nGetting block 14 of 58\n  Reserving size (388) for bucket 14\n  Calculating Z arrays for bucket 14\n  Entering block accumulator loop for bucket 14:\n  bucket 14: 10%\n  bucket 14: 20%\n  bucket 14: 30%\n  bucket 14: 40%\n  bucket 14: 50%\n  bucket 14: 60%\n  bucket 14: 70%\n  bucket 14: 80%\n  bucket 14: 90%\n  bucket 14: 100%\n  Sorting block of length 339 for bucket 14\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 14\nGetting block 15 of 58\n  Reserving size (388) for bucket 15\n  Calculating Z arrays for bucket 15\n  Entering block accumulator loop for bucket 15:\n  bucket 15: 10%\n  bucket 15: 20%\n  bucket 15: 30%\nGetting block 16 of 58\n  Reserving size (388) for bucket 16\n  Calculating Z arrays for bucket 16\n  bucket 15: 40%\n  Entering block accumulator loop for bucket 16:\n  bucket 15: 50%\n  bucket 16: 10%\n  bucket 16: 20%\n  bucket 15: 60%\n  bucket 16: 30%\n  bucket 15: 70%\n  bucket 16: 40%\n  bucket 15: 80%\n  bucket 16: 50%\n  bucket 16: 60%\n  bucket 15: 90%\n  bucket 16: 70%\n  bucket 15: 100%\n  Sorting block of length 241 for bucket 15\n  (Using difference cover)\n  bucket 16: 80%\n  bucket 16: 90%\n  bucket 16: 100%\n  Sorting block of length 379 for bucket 16\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 242 for bucket 15\n  Sorting block time: 00:00:00\nReturning block of 380 for bucket 16\nGetting block 17 of 58\n  Reserving size (388) for bucket 17\n  Calculating Z arrays for bucket 17\n  Entering block accumulator loop for bucket 17:\n  bucket 17: 10%\n  bucket 17: 20%\n  bucket 17: 30%\nGetting block 18 of 58\n  bucket 17: 40%\n  Reserving size (388) for bucket 18\nGetting block 19 of 58\n  Calculating Z arrays for bucket 18\n  bucket 17: 50%\n  Reserving size (388) for bucket 19\n  Calculating Z arrays for bucket 19\n  Entering block accumulator loop for bucket 18:\n  bucket 17: 60%\n  Entering block accumulator loop for bucket 19:\n  bucket 18: 10%\n  bucket 19: 10%\n  bucket 17: 70%\n  bucket 18: 20%\n  bucket 19: 20%\n  bucket 17: 80%\n  bucket 19: 30%\n  bucket 17: 90%\n  bucket 18: 30%\n  bucket 17: 100%\n  bucket 19: 40%\n  Sorting block of length 215 for bucket 17\n  (Using difference cover)\n  bucket 18: 40%\n  bucket 19: 50%\n  bucket 19: 60%\n  bucket 18: 50%\n  bucket 19: 70%\n  bucket 18: 60%\n  bucket 19: 80%\n  bucket 19: 90%\n  bucket 18: 70%\n  Sorting block time: 00:00:00\nReturning block of 216 for bucket 17\n  bucket 19: 100%\n  Sorting block of length 334 for bucket 19\n  (Using difference cover)\n  bucket 18: 80%\n  bucket 18: 90%\n  bucket 18: 100%\n  Sorting block time: 00:00:00\n  Sorting block of length 378 for bucket 18\n  (Using difference cover)\nReturning block of 335 for bucket 19\n  Sorting block time: 00:00:00\nReturning block of 379 for bucket 18\nGetting block 20 of 58\n  Reserving size (388) for bucket 20\nGetting block 21 of 58\n  Calculating Z arrays for bucket 20\n  Reserving size (388) for bucket 21\n  Calculating Z arrays for bucket 21\n  Entering block accumulator loop for bucket 20:\n  Entering block accumulator loop for bucket 21:\n  bucket 20: 10%\n  bucket 21: 10%\n  bucket 20: 20%\n  bucket 21: 20%\n  bucket 20: 30%\n  bucket 21: 30%\n  bucket 21: 40%\n  bucket 20: 40%\n  bucket 21: 50%\n  bucket 20: 50%\n  bucket 20: 60%\n  bucket 21: 60%\n  bucket 20: 70%\n  bucket 21: 70%\n  bucket 20: 80%\n  bucket 21: 80%\n  bucket 20: 90%\n  bucket 21: 90%\n  bucket 20: 100%\n  Sorting block of length 313 for bucket 20\n  (Using difference cover)\n  bucket 21: 100%\n  Sorting block of length 210 for bucket 21\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 211 for bucket 21\n  Sorting block time: 00:00:00\nReturning block of 314 for bucket 20\nGetting block 22 of 58\n  Reserving size (388) for bucket 22\n  Calculating Z arrays for bucket 22\n  Entering block accumulator loop for bucket 22:\n  bucket 22: 10%\n  bucket 22: 20%\n  bucket 22: 30%\nGetting block 23 of 58\n  bucket 22: 40%\n  Reserving size (388) for bucket 23\n  Calculating Z arrays for bucket 23\n  bucket 22: 50%\n  Entering block accumulator loop for bucket 23:\n  bucket 22: 60%\n  bucket 23: 10%\n  bucket 22: 70%\n  bucket 23: 20%\n  bucket 22: 80%\n  bucket 22: 90%\n  bucket 22: 100%\n  bucket 23: 30%\n  Sorting block of length 386 for bucket 22\n  (Using difference cover)\n  bucket 23: 40%\n  bucket 23: 50%\n  Sorting block time: 00:00:00\n  bucket 23: 60%\nReturning block of 387 for bucket 22\n  bucket 23: 70%\n  bucket 23: 80%\n  bucket 23: 90%\n  bucket 23: 100%\n  Sorting block of length 238 for bucket 23\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 239 for bucket 23\nGetting block 24 of 58\n  Reserving size (388) for bucket 24\nGetting block 25 of 58\n  Calculating Z arrays for bucket 24\n  Reserving size (388) for bucket 25\n  Calculating Z arrays for bucket 25\n  Entering block accumulator loop for bucket 24:\n  Entering block accumulator loop for bucket 25:\n  bucket 24: 10%\n  bucket 25: 10%\n  bucket 24: 20%\n  bucket 25: 20%\n  bucket 24: 30%\n  bucket 24: 40%\n  bucket 25: 30%\n  bucket 24: 50%\n  bucket 25: 40%\n  bucket 24: 60%\n  bucket 24: 70%\n  bucket 25: 50%\n  bucket 24: 80%\n  bucket 25: 60%\n  bucket 24: 90%\n  bucket 24: 100%\n  bucket 25: 70%\n  Sorting block of length 351 for bucket 24\n  (Using difference cover)\n  bucket 25: 80%\n  bucket 25: 90%\n  bucket 25: 100%\n  Sorting block of length 105 for bucket 25\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 352 for bucket 24\n  Sorting block time: 00:00:00\nReturning block of 106 for bucket 25\nGetting block 26 of 58\n  Reserving size (388) for bucket 26\n  Calculating Z arrays for bucket 26\n  Entering block accumulator loop for bucket 26:\n  bucket 26: 10%\n  bucket 26: 20%\nGetting block 27 of 58\n  bucket 26: 30%\n  Reserving size (388) for bucket 27\n  Calculating Z arrays for bucket 27\n  Entering block accumulator loop for bucket 27:\n  bucket 27: 10%\n  bucket 26: 40%\n  bucket 27: 20%\n  bucket 27: 30%\n  bucket 26: 50%\n  bucket 27: 40%\n  bucket 26: 60%\n  bucket 27: 50%\n  bucket 27: 60%\n  bucket 26: 70%\n  bucket 27: 70%\n  bucket 27: 80%\n  bucket 26: 80%\n  bucket 27: 90%\n  bucket 27: 100%\n  Sorting block of length 334 for bucket 27\n  (Using difference cover)\n  bucket 26: 90%\n  bucket 26: 100%\n  Sorting block of length 354 for bucket 26\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 335 for bucket 27\n  Sorting block time: 00:00:00\nReturning block of 355 for bucket 26\nGetting block 28 of 58\n  Reserving size (388) for bucket 28\n  Calculating Z arrays for bucket 28\nGetting block 29 of 58\n  Reserving size (388) for bucket 29\n  Calculating Z arrays for bucket 29\n  Entering block accumulator loop for bucket 28:\n  Entering block accumulator loop for bucket 29:\nGetting block 30 of 58\n  Reserving size (388) for bucket 30\n  Calculating Z arrays for bucket 30\n  bucket 29: 10%\n  bucket 28: 10%\n  Entering block accumulator loop for bucket 30:\n  bucket 29: 20%\n  bucket 28: 20%\n  bucket 30: 10%\n  bucket 29: 30%\n  bucket 28: 30%\n  bucket 30: 20%\n  bucket 29: 40%\n  bucket 30: 30%\n  bucket 28: 40%\n  bucket 29: 50%\n  bucket 30: 40%\n  bucket 28: 50%\n  bucket 30: 50%\n  bucket 28: 60%\n  bucket 29: 60%\n  bucket 30: 60%\n  bucket 28: 70%\n  bucket 29: 70%\n  bucket 30: 70%\n  bucket 28: 80%\n  bucket 29: 80%\n  bucket 30: 80%\n  bucket 28: 90%\n  bucket 30: 90%\n  bucket 29: 90%\n  bucket 28: 100%\n  Sorting block of length 253 for bucket 28\n  (Using difference cover)\n  bucket 30: 100%\n  Sorting block of length 345 for bucket 30\n  (Using difference cover)\n  bucket 29: 100%\n  Sorting block of length 289 for bucket 29\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 346 for bucket 30\n  Sorting block time: 00:00:00\nReturning block of 290 for bucket 29\n  Sorting block time: 00:00:00\nReturning block of 254 for bucket 28\nGetting block 31 of 58\n  Reserving size (388) for bucket 31\n  Calculating Z arrays for bucket 31\n  Entering block accumulator loop for bucket 31:\n  bucket 31: 10%\n  bucket 31: 20%\n  bucket 31: 30%\n  bucket 31: 40%\n  bucket 31: 50%\n  bucket 31: 60%\n  bucket 31: 70%\n  bucket 31: 80%\n  bucket 31: 90%\n  bucket 31: 100%\n  Sorting block of length 377 for bucket 31\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 378 for bucket 31\nGetting block 32 of 58\n  Reserving size (388) for bucket 32\nGetting block 33 of 58\n  Calculating Z arrays for buc\n..\nucket 23: 50%\n  bucket 23: 60%\n  bucket 24: 40%\n  bucket 23: 70%\n  bucket 23: 80%\n  bucket 24: 50%\n  bucket 23: 90%\n  bucket 24: 60%\n  bucket 23: 100%\n  Sorting block of length 349 for bucket 23\n  (Using difference cover)\n  bucket 24: 70%\n  bucket 24: 80%\n  bucket 24: 90%\n  Sorting block time: 00:00:00\nReturning block of 350 for bucket 23\n  bucket 24: 100%\n  Sorting block of length 245 for bucket 24\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 246 for bucket 24\nGetting block 25 of 57\n  Reserving size (388) for bucket 25\n  Calculating Z arrays for bucket 25\n  Entering block accumulator loop for bucket 25:\n  bucket 25: 10%\n  bucket 25: 20%\n  bucket 25: 30%\nGetting block 26 of 57\n  bucket 25: 40%\n  Reserving size (388) for bucket 26\n  Calculating Z arrays for bucket 26\n  Entering block accumulator loop for bucket 26:\n  bucket 25: 50%\n  bucket 26: 10%\n  bucket 25: 60%\n  bucket 26: 20%\n  bucket 25: 70%\n  bucket 26: 30%\n  bucket 25: 80%\n  bucket 26: 40%\n  bucket 26: 50%\n  bucket 25: 90%\n  bucket 26: 60%\n  bucket 25: 100%\n  Sorting block of length 286 for bucket 25\n  (Using difference cover)\n  bucket 26: 70%\n  bucket 26: 80%\n  bucket 26: 90%\n  Sorting block time: 00:00:00\nReturning block of 287 for bucket 25\n  bucket 26: 100%\n  Sorting block of length 384 for bucket 26\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 385 for bucket 26\nGetting block 27 of 57\n  Reserving size (388) for bucket 27\n  Calculating Z arrays for bucket 27\n  Entering block accumulator loop for bucket 27:\n  bucket 27: 10%\n  bucket 27: 20%\n  bucket 27: 30%\n  bucket 27: 40%\nGetting block 28 of 57\n  bucket 27: 50%\n  Reserving size (388) for bucket 28\n  Calculating Z arrays for bucket 28\n  bucket 27: 60%\n  Entering block accumulator loop for bucket 28:\n  bucket 27: 70%\n  bucket 28: 10%\n  bucket 27: 80%\n  bucket 27: 90%\n  bucket 28: 20%\n  bucket 27: 100%\n  Sorting block of length 359 for bucket 27\n  (Using difference cover)\n  bucket 28: 30%\n  bucket 28: 40%\n  bucket 28: 50%\n  Sorting block time: 00:00:00\nReturning block of 360 for bucket 27\n  bucket 28: 60%\n  bucket 28: 70%\n  bucket 28: 80%\n  bucket 28: 90%\n  bucket 28: 100%\n  Sorting block of length 387 for bucket 28\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 28\nGetting block 29 of 57\n  Reserving size (388) for bucket 29\n  Calculating Z arrays for bucket 29\nGetting block 30 of 57\n  Entering block accumulator loop for bucket 29:\n  Reserving size (388) for bucket 30\n  Calculating Z arrays for bucket 30\nGetting block 31 of 57\n  Entering block accumulator loop for bucket 30:\n  Reserving size (388) for bucket 31\n  Calculating Z arrays for bucket 31\n  bucket 29: 10%\n  Entering block accumulator loop for bucket 31:\n  bucket 30: 10%\n  bucket 29: 20%\n  bucket 31: 10%\n  bucket 30: 20%\n  bucket 29: 30%\n  bucket 31: 20%\n  bucket 30: 30%\n  bucket 29: 40%\n  bucket 31: 30%\n  bucket 30: 40%\n  bucket 29: 50%\n  bucket 31: 40%\n  bucket 29: 60%\n  bucket 30: 50%\n  bucket 31: 50%\n  bucket 29: 70%\n  bucket 31: 60%\n  bucket 30: 60%\n  bucket 29: 80%\n  bucket 31: 70%\n  bucket 30: 70%\n  bucket 29: 90%\n  bucket 31: 80%\n  bucket 29: 100%\n  bucket 30: 80%\n  Sorting block of length 195 for bucket 29\n  (Using difference cover)\n  bucket 31: 90%\n  bucket 30: 90%\n  bucket 31: 100%\n  Sorting block of length 310 for bucket 31\n  (Using difference cover)\n  bucket 30: 100%\n  Sorting block of length 257 for bucket 30\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 196 for bucket 29\n  Sorting block time: 00:00:00\nReturning block of 311 for bucket 31\n  Sorting block time: 00:00:00\nReturning block of 258 for bucket 30\nGetting block 32 of 57\n  Reserving size (388) for bucket 32\n  Calculating Z arrays for bucket 32\nGetting block 33 of 57\n  Entering block accumulator loop for bucket 32:\n  Reserving size (388) for bucket 33\n  Calculating Z arrays for bucket 33\n  Entering block accumulator loop for bucket 33:\n  bucket 32: 10%\n  bucket 33: 10%\n  bucket 32: 20%\n  bucket 33: 20%\n  bucket 32: 30%\n  bucket 33: 30%\n  bucket 32: 40%\n  bucket 33: 40%\n  bucket 32: 50%\n  bucket 33: 50%\n  bucket 32: 60%\n  bucket 33: 60%\n  bucket 32: 70%\n  bucket 33: 70%\n  bucket 32: 80%\n  bucket 32: 90%\n  bucket 33: 80%\n  bucket 32: 100%\n  bucket 33: 90%\n  Sorting block of length 219 for bucket 32\n  (Using difference cover)\n  bucket 33: 100%\n  Sorting block of length 387 for bucket 33\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 220 for bucket 32\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 33\nGetting block 34 of 57\n  Reserving size (388) for bucket 34\nGetting block 35 of 57\n  Calculating Z arrays for bucket 34\n  Reserving size (388) for bucket 35\n  Calculating Z arrays for bucket 35\n  Entering block accumulator loop for bucket 35:\n  Entering block accumulator loop for bucket 34:\n  bucket 35: 10%\n  bucket 34: 10%\n  bucket 35: 20%\n  bucket 34: 20%\n  bucket 34: 30%\n  bucket 35: 30%\n  bucket 34: 40%\n  bucket 35: 40%\n  bucket 34: 50%\n  bucket 35: 50%\n  bucket 35: 60%\n  bucket 34: 60%\n  bucket 35: 70%\n  bucket 34: 70%\n  bucket 35: 80%\n  bucket 34: 80%\n  bucket 35: 90%\n  bucket 34: 90%\n  bucket 35: 100%\n  Sorting block of length 350 for bucket 35\n  (Using difference cover)\n  bucket 34: 100%\n  Sorting block of length 275 for bucket 34\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 351 for bucket 35\n  Sorting block time: 00:00:00\nReturning block of 276 for bucket 34\nGetting block 36 of 57\n  Reserving size (388) for bucket 36\n  Calculating Z arrays for bucket 36\n  Entering block accumulator loop for bucket 36:\n  bucket 36: 10%\n  bucket 36: 20%\nGetting block 37 of 57\n  Reserving size (388) for bucket 37\n  Calculating Z arrays for bucket 37\n  bucket 36: 30%\n  Entering block accumulator loop for bucket 37:\n  bucket 36: 40%\n  bucket 37: 10%\n  bucket 36: 50%\n  bucket 37: 20%\n  bucket 36: 60%\n  bucket 36: 70%\n  bucket 37: 30%\n  bucket 36: 80%\n  bucket 37: 40%\n  bucket 36: 90%\n  bucket 37: 50%\n  bucket 36: 100%\n  bucket 37: 60%\n  Sorting block of length 150 for bucket 36\n  (Using difference cover)\n  bucket 37: 70%\n  bucket 37: 80%\n  bucket 37: 90%\n  bucket 37: 100%\n  Sorting block of length 267 for bucket 37\n  Sorting block time: 00:00:00\n  (Using difference cover)\nReturning block of 151 for bucket 36\n  Sorting block time: 00:00:00\nReturning block of 268 for bucket 37\nGetting block 38 of 57\n  Reserving size (388) for bucket 38\n  Calculating Z arrays for bucket 38\n  Entering block accumulator loop for bucket 38:\n  bucket 38: 10%\n  bucket 38: 20%\n  bucket 38: 30%\n  bucket 38: 40%\n  bucket 38: 50%\n  bucket 38: 60%\n  bucket 38: 70%\n  bucket 38: 80%\n  bucket 38: 90%\n  bucket 38: 100%\n  Sorting block of length 337 for bucket 38\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 338 for bucket 38\nGetting block 39 of 57\n  Reserving size (388) for bucket 39\n  Calculating Z arrays for bucket 39\n  Entering block accumulator loop for bucket 39:\n  bucket 39: 10%\n  bucket 39: 20%\nGetting block 40 of 57\n  bucket 39: 30%\n  Reserving size (388) for bucket 40\n  Calculating Z arrays for bucket 40\nGetting block 41 of 57\n  bucket 39: 40%\n  Entering block accumulator loop for bucket 40:\n  Reserving size (388) for bucket 41\n  Calculating Z arrays for bucket 41\n  bucket 39: 50%\n  Entering block accumulator loop for bucket 41:\n  bucket 40: 10%\n  bucket 39: 60%\n  bucket 41: 10%\n  bucket 39: 70%\n  bucket 40: 20%\n  bucket 39: 80%\n  bucket 41: 20%\n  bucket 39: 90%\n  bucket 40: 30%\n  bucket 41: 30%\n  bucket 39: 100%\n  Sorting block of length 387 for bucket 39\n  (Using difference cover)\n  bucket 40: 40%\n  bucket 41: 40%\n  bucket 40: 50%\n  bucket 40: 60%\n  bucket 41: 50%\n  bucket 40: 70%\n  bucket 41: 60%\n  bucket 40: 80%\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 39\n  bucket 41: 70%\n  bucket 40: 90%\n  bucket 41: 80%\n  bucket 40: 100%\n  Sorting block of length 379 for bucket 40\n  (Using difference cover)\n  bucket 41: 90%\n  bucket 41: 100%\n  Sorting block of length 330 for bucket 41\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 380 for bucket 40\n  Sorting block time: 00:00:00\nReturning block of 331 for bucket 41\nGetting block 42 of 57\n  Reserving size (388) for bucket 42\n  Calculating Z arrays for bucket 42\n  Entering block accumulator loop for bucket 42:\n  bucket 42: 10%\n  bucket 42: 20%\n  bucket 42: 30%\n  bucket 42: 40%\n  bucket 42: 50%\n  bucket 42: 60%\n  bucket 42: 70%\n  bucket 42: 80%\n  bucket 42: 90%\n  bucket 42: 100%\n  Sorting block of length 188 for bucket 42\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 189 for bucket 42\nGetting block 43 of 57\n  Reserving size (388) for bucket 43\n  Calculating Z arrays for bucket 43\n  Entering block accumulator loop for bucket 43:\n  bucket 43: 10%\n  bucket 43: 20%\n  bucket 43: 30%\n  bucket 43: 40%\nGetting block 44 of 57\n  Reserving size (388) for bucket 44\n  Calculating Z arrays for bucket 44\n  bucket 43: 50%\n  Entering block accumulator loop for bucket 44:\n  bucket 43: 60%\n  bucket 43: 70%\n  bucket 44: 10%\n  bucket 43: 80%\n  bucket 43: 90%\n  bucket 44: 20%\n  bucket 43: 100%\n  Sorting block of length 321 for bucket 43\n  (Using difference cover)\n  bucket 44: 30%\n  bucket 44: 40%\n  bucket 44: 50%\n  Sorting block time: 00:00:00\nReturning block of 322 for bucket 43\n  bucket 44: 60%\n  bucket 44: 70%\n  bucket 44: 80%\n  bucket 44: 90%\n  bucket 44: 100%\n  Sorting block of length 366 for bucket 44\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 367 for bucket 44\nGetting block 45 of 57\n  Reserving size (388) for bucket 45\n  Calculating Z arrays for bucket 45\n  Entering block accumulator loop for bucket 45:\n  bucket 45: 10%\n  bucket 45: 20%\n  bucket 45: 30%\nGetting block 46 of 57\n  bucket 45: 40%\n  Reserving size (388) for bucket 46\n  Calculating Z arrays for bucket 46\n  Entering block accumulator loop for bucket 46:\n  bucket 45: 50%\n  bucket 46: 10%\n  bucket 45: 60%\n  bucket 46: 20%\n  bucket 45: 70%\n  bucket 46: 30%\n  bucket 45: 80%\n  bucket 46: 40%\n  bucket 45: 90%\n  bucket 46: 50%\n  bucket 45: 100%\n  Sorting block of length 365 for bucket 45\n  (Using difference cover)\n  bucket 46: 60%\n  bucket 46: 70%\n  bucket 46: 80%\n  bucket 46: 90%\n  Sorting block time: 00:00:00\nReturning block of 366 for bucket 45\n  bucket 46: 100%\n  Sorting block of length 253 for bucket 46\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 254 for bucket 46\nGetting block 47 of 57\n  Reserving size (388) for bucket 47\n  Calculating Z arrays for bucket 47\n  Entering block accumulator loop for bucket 47:\n  bucket 47: 10%\n  bucket 47: 20%\nGetting block 48 of 57\n  Reserving size (388) for bucket 48\n  Calculating Z arrays for bucket 48\n  bucket 47: 30%\n  Entering block accumulator loop for bucket 48:\n  bucket 47: 40%\n  bucket 48: 10%\n  bucket 48: 20%\n  bucket 47: 50%\n  bucket 48: 30%\n  bucket 47: 60%\n  bucket 48: 40%\n  bucket 47: 70%\n  bucket 48: 50%\n  bucket 47: 80%\n  bucket 48: 60%\n  bucket 47: 90%\n  bucket 48: 70%\n  bucket 48: 80%\n  bucket 47: 100%\n  Sorting block of length 217 for bucket 47\n  (Using difference cover)\n  bucket 48: 90%\n  bucket 48: 100%\n  Sorting block of length 384 for bucket 48\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 218 for bucket 47\n  Sorting block time: 00:00:00\nReturning block of 385 for bucket 48\nGetting block 49 of 57\n  Reserving size (388) for bucket 49\n  Calculating Z arrays for bucket 49\n  Entering block accumulator loop for bucket 49:\n  bucket 49: 10%\n  bucket 49: 20%\n  bucket 49: 30%\n  bucket 49: 40%\n  bucket 49: 50%\n  bucket 49: 60%\n  bucket 49: 70%\n  bucket 49: 80%\n  bucket 49: 90%\n  bucket 49: 100%\n  Sorting block of length 112 for bucket 49\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 113 for bucket 49\nGetting block 50 of 57\n  Reserving size (388) for bucket 50\n  Calculating Z arrays for bucket 50\n  Entering block accumulator loop for bucket 50:\n  bucket 50: 10%\n  bucket 50: 20%\nGetting block 51 of 57\n  Reserving size (388) for bucket 51\n  Calculating Z arrays for bucket 51\n  bucket 50: 30%\n  Entering block accumulator loop for bucket 51:\n  bucket 51: 10%\n  bucket 50: 40%\n  bucket 51: 20%\n  bucket 50: 50%\n  bucket 51: 30%\n  bucket 51: 40%\n  bucket 50: 60%\n  bucket 51: 50%\n  bucket 50: 70%\n  bucket 51: 60%\n  bucket 51: 70%\n  bucket 50: 80%\n  bucket 51: 80%\n  bucket 51: 90%\n  bucket 50: 90%\n  bucket 51: 100%\n  Sorting block of length 350 for bucket 51\n  (Using difference cover)\n  bucket 50: 100%\n  Sorting block of length 275 for bucket 50\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 351 for bucket 51\n  Sorting block time: 00:00:00\nReturning block of 276 for bucket 50\nGetting block 52 of 57\n  Reserving size (388) for bucket 52\n  Calculating Z arrays for bucket 52\nGetting block 53 of 57\n  Entering block accumulator loop for bucket 52:\n  Reserving size (388) for bucket 53\n  Calculating Z arrays for bucket 53\n  Entering block accumulator loop for bucket 53:\n  bucket 52: 10%\n  bucket 53: 10%\n  bucket 52: 20%\n  bucket 53: 20%\n  bucket 52: 30%\n  bucket 53: 30%\n  bucket 52: 40%\n  bucket 53: 40%\n  bucket 52: 50%\n  bucket 53: 50%\n  bucket 52: 60%\n  bucket 53: 60%\n  bucket 52: 70%\n  bucket 53: 70%\n  bucket 52: 80%\n  bucket 53: 80%\n  bucket 52: 90%\n  bucket 53: 90%\n  bucket 52: 100%\n  Sorting block of length 378 for bucket 52\n  (Using difference cover)\n  bucket 53: 100%\n  Sorting block of length 370 for bucket 53\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 379 for bucket 52\n  Sorting block time: 00:00:00\nReturning block of 371 for bucket 53\nGetting block 54 of 57\n  Reserving size (388) for bucket 54\n  Calculating Z arrays for bucket 54\n  Entering block accumulator loop for bucket 54:\n  bucket 54: 10%\n  bucket 54: 20%\n  bucket 54: 30%\nGetting block 55 of 57\n  bucket 54: 40%\n  Reserving size (388) for bucket 55\n  Calculating Z arrays for bucket 55\n  Entering block accumulator loop for bucket 55:\n  bucket 54: 50%\n  bucket 54: 60%\n  bucket 55: 10%\n  bucket 54: 70%\n  bucket 55: 20%\n  bucket 54: 80%\n  bucket 55: 30%\n  bucket 54: 90%\n  bucket 54: 100%\n  bucket 55: 40%\n  Sorting block of length 237 for bucket 54\n  (Using difference cover)\n  bucket 55: 50%\n  bucket 55: 60%\n  bucket 55: 70%\n  bucket 55: 80%\n  Sorting block time: 00:00:00\nReturning block of 238 for bucket 54\n  bucket 55: 90%\n  bucket 55: 100%\n  Sorting block of length 344 for bucket 55\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 345 for bucket 55\nGetting block 56 of 57\n  Reserving size (388) for bucket 56\n  Calculating Z arrays for bucket 56\n  Entering block accumulator loop for bucket 56:\n  bucket 56: 10%\n  bucket 56: 20%\nGetting block 57 of 57\n  Reserving size (388) for bucket 57\n  Calculating Z arrays for bucket 57\n  Entering block accumulator loop for bucket 57:\n  bucket 56: 30%\n  bucket 57: 10%\n  bucket 57: 20%\n  bucket 56: 40%\n  bucket 57: 30%\n  bucket 57: 40%\n  bucket 57: 50%\n  bucket 57: 60%\n  bucket 56: 50%\n  bucket 57: 70%\n  bucket 57: 80%\n  bucket 56: 60%\n  bucket 57: 90%\n  bucket 56: 70%\n  bucket 57: 100%\n  Sorting block of length 132 for bucket 57\n  (Using difference cover)\n  bucket 56: 80%\n  bucket 56: 90%\n  bucket 56: 100%\n  Sorting block time: 00:00:00\n  Sorting block of length 270 for bucket 56\n  (Using difference cover)\nReturning block of 133 for bucket 57\n  Sorting block time: 00:00:00\nReturning block of 271 for bucket 56\nExited Ebwt loop\nfchr[A]: 0\nfchr[C]: 5124\nfchr[G]: 10305\nfchr[T]: 12474\nfchr[$]: 16568\nExiting Ebwt::buildToDisk()\nReturning from initFromVector\nWrote 4200050 bytes to primary EBWT file: genome.rev.1.bt2.tmp\nWrote 4148 bytes to secondary EBWT file: genome.rev.2.bt2.tmp\nRe-opening _in1 and _in2 as input streams\nReturning from Ebwt constructor\nHeaders:\n    len: 16568\n    bwtLen: 16569\n    sz: 4142\n    bwtSz: 4143\n    lineRate: 6\n    offRate: 4\n    offMask: 0xfffffff0\n    ftabChars: 10\n    eftabLen: 20\n    eftabSz: 80\n    ftabLen: 1048577\n    ftabSz: 4194308\n    offsLen: 1036\n    offsSz: 4144\n    lineSz: 64\n    sideSz: 64\n    sideBwtSz: 48\n    sideBwtLen: 192\n    numSides: 87\n    numLines: 87\n    ebwtTotLen: 5568\n    ebwtTotSz: 5568\n    color: 0\n    reverse: 1\nTotal time for backward call to driver() for mirror index: 00:00:00\n", "tool_stderr": "Building a SMALL index\nRenaming genome.3.bt2.tmp to genome.3.bt2\nRenaming genome.4.bt2.tmp to genome.4.bt2\nRenaming genome.1.bt2.tmp to genome.1.bt2\nRenaming genome.2.bt2.tmp to genome.2.bt2\nRenaming genome.rev.1.bt2.tmp to genome.rev.1.bt2\nRenaming genome.rev.2.bt2.tmp to genome.rev.2.bt2\n100 reads; of these:\n  100 (100.00%) were paired; of these:\n    97 (97.00%) aligned concordantly 0 times\n    3 (3.00%) aligned concordantly exactly 1 time\n    0 (0.00%) aligned concordantly >1 times\n    ----\n    97 pairs aligned concordantly 0 times; of these:\n      8 (8.25%) aligned discordantly 1 time\n    ----\n    89 pairs aligned 0 times concordantly or discordantly; of these:\n      178 mates make up the pairs; of these:\n        153 (85.96%) aligned 0 times\n        25 (14.04%) aligned exactly 1 time\n        0 (0.00%) aligned >1 times\n23.50% overall alignment rate\n", "job_stdout": "", "job_stderr": "", "stderr": "Building a SMALL index\nRenaming genome.3.bt2.tmp to genome.3.bt2\nRenaming genome.4.bt2.tmp to genome.4.bt2\nRenaming genome.1.bt2.tmp to genome.1.bt2\nRenaming genome.2.bt2.tmp to genome.2.bt2\nRenaming genome.rev.1.bt2.tmp to genome.rev.1.bt2\nRenaming genome.rev.2.bt2.tmp to genome.rev.2.bt2\n100 reads; of these:\n  100 (100.00%) were paired; of these:\n    97 (97.00%) aligned concordantly 0 times\n    3 (3.00%) aligned concordantly exactly 1 time\n    0 (0.00%) aligned concordantly >1 times\n    ----\n    97 pairs aligned concordantly 0 times; of these:\n      8 (8.25%) aligned discordantly 1 time\n    ----\n    89 pairs aligned 0 times concordantly or discordantly; of these:\n      178 mates make up the pairs; of these:\n        153 (85.96%) aligned 0 times\n        25 (14.04%) aligned exactly 1 time\n        0 (0.00%) aligned >1 times\n23.50% overall alignment rate\n", "stdout": "Settings:\n  Output files: \"genome.*.bt2\"\n  Line rate: 6 (line is 64 bytes)\n  Lines per side: 1 (side is 64 bytes)\n  Offset rate: 4 (one in 16)\n  FTable chars: 10\n  Strings: unpacked\n  Max bucket size: default\n  Max bucket size, sqrt multiplier: default\n  Max bucket size, len divisor: 32\n  Difference-cover sample period: 1024\n  Endianness: little\n  Actual local endianness: little\n  Sanity checking: disabled\n  Assertions: disabled\n  Random seed: 0\n  Sizeofs: void*:8, int:4, long:8, size_t:8\nInput files DNA, FASTA:\n  /galaxy/server/database/objects/5/0/e/dataset_50e15f15-357b-45f3-aa3c-f2ce8ea4047f.dat\nReading reference sizes\n  Time reading reference sizes: 00:00:00\nCalculating joined length\nWriting header\nReserving space for joined string\nJoining reference sequences\n  Time to join reference sequences: 00:00:00\nbmax according to bmaxDivN setting: 517\nUsing parameters --bmax 388 --dcv 1024\n  Doing ahead-of-time memory usage test\n  Passed!  Constructing with these parameters: --bmax 388 --dcv 1024\nConstructing suffix-array element generator\nBuilding DifferenceCoverSample\n  Building sPrime\n  Building sPrimeOrder\n  V-Sorting samples\n  V-Sorting samples time: 00:00:00\n  Allocating rank array\n  Ranking v-sort output\n  Ranking v-sort output time: 00:00:00\n  Invoking Larsson-Sadakane on ranks\n  Invoking Larsson-Sadakane on ranks time: 00:00:00\n  Sanity-checking and returning\nBuilding samples\nReserving space for 86 sample suffixes\nGenerating random suffixes\nQSorting 86 sample offsets, eliminating duplicates\nQSorting sample offsets, eliminating duplicates time: 00:00:00\nMultikey QSorting 86 samples\n  (Using difference cover)\n  Multikey QSorting samples time: 00:00:00\nCalculating bucket sizes\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 12, merged 41; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 6, merged 6; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 5, merged 3; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 3, merged 3; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nAvg bucket size: 284.672 (target: 387)\nConverting suffix-array elements to index image\nAllocating ftab, absorbFtab\nEntering Ebwt loop\nGetting block 1 of 58\n  Reserving size (388) for bucket 1\nGetting block 2 of 58\nGetting block 4 of 58\nGetting block 3 of 58\nGetting block 5 of 58\nGetting block 6 of 58\nGetting block 7 of 58\n  Calculating Z arrays for bucket 1\n  Reserving size (388) for bucket 2\n  Reserving size (388) for bucket 4\n  Reserving size (388) for bucket 3\n  Reserving size (388) for bucket 5\n  Reserving size (388) for bucket 6\n  Reserving size (388) for bucket 7\n  Calculating Z arrays for bucket 2\n  Calculating Z arrays for bucket 4\n  Entering block accumulator loop for bucket 1:\n  Calculating Z arrays for bucket 3\n  Calculating Z arrays for bucket 5\n  Calculating Z arrays for bucket 6\n  Calculating Z arrays for bucket 7\n  Entering block accumulator loop for bucket 2:\n  Entering block accumulator loop for bucket 4:\n  Entering block accumulator loop for bucket 5:\n  Entering block accumulator loop for bucket 3:\n  Entering block accumulator loop for bucket 6:\n  Entering block accumulator loop for bucket 7:\n  bucket 1: 10%\n  bucket 2: 10%\n  bucket 5: 10%\n  bucket 4: 10%\n  bucket 1: 20%\n  bucket 6: 10%\n  bucket 2: 20%\n  bucket 3: 10%\n  bucket 5: 20%\n  bucket 4: 20%\n  bucket 7: 10%\n  bucket 1: 30%\n  bucket 2: 30%\n  bucket 6: 20%\n  bucket 4: 30%\n  bucket 5: 30%\n  bucket 1: 40%\n  bucket 2: 40%\n  bucket 3: 20%\n  bucket 7: 20%\n  bucket 4: 40%\n  bucket 1: 50%\n  bucket 2: 50%\n  bucket 6: 30%\n  bucket 5: 40%\n  bucket 4: 50%\n  bucket 3: 30%\n  bucket 1: 60%\n  bucket 2: 60%\n  bucket 7: 30%\n  bucket 6: 40%\n  bucket 5: 50%\n  bucket 4: 60%\n  bucket 1: 70%\n  bucket 2: 70%\n  bucket 3: 40%\n  bucket 4: 70%\n  bucket 7: 40%\n  bucket 1: 80%\n  bucket 6: 50%\n  bucket 2: 80%\n  bucket 5: 60%\n  bucket 4: 80%\n  bucket 3: 50%\n  bucket 2: 90%\n  bucket 1: 90%\n  bucket 7: 50%\n  bucket 6: 60%\n  bucket 4: 90%\n  bucket 5: 70%\n  bucket 2: 100%\n  bucket 3: 60%\n  Sorting block of length 165 for bucket 2\n  (Using difference cover)\n  bucket 1: 100%\n  Sorting block of length 355 for bucket 1\n  (Using difference cover)\n  bucket 4: 100%\n  bucket 6: 70%\n  bucket 5: 80%\n  bucket 7: 60%\n  bucket 3: 70%\n  Sorting block of length 328 for bucket 4\n  (Using difference cover)\n  bucket 6: 80%\n  bucket 5: 90%\n  bucket 7: 70%\n  bucket 3: 80%\n  bucket 6: 90%\n  bucket 5: 100%\n  Sorting block of length 203 for bucket 5\n  (Using difference cover)\n  bucket 7: 80%\n  bucket 3: 90%\n  bucket 6: 100%\n  Sorting block of length 339 for bucket 6\n  (Using difference cover)\n  bucket 3: 100%\n  bucket 7: 90%\n  Sorting block of length 370 for bucket 3\n  (Using difference cover)\n  bucket 7: 100%\n  Sorting block of length 368 for bucket 7\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 6\n  Sorting block time: 00:00:00\nReturning block of 369 for bucket 7\n  Sorting block time: 00:00:00\nReturning block of 166 for bucket 2\n  Sorting block time: 00:00:00\nReturning block of 204 for bucket 5\n  Sorting block time: 00:00:00\nReturning block of 329 for bucket 4\n  Sorting block time: 00:00:00\nReturning block of 356 for bucket 1\n  Sorting block time: 00:00:00\nReturning block of 371 for bucket 3\nGetting block 8 of 58\n  Reserving size (388) for bucket 8\n  Calculating Z arrays for bucket 8\n  Entering block accumulator loop for bucket 8:\n  bucket 8: 10%\n  bucket 8: 20%\n  bucket 8: 30%\n  bucket 8: 40%\n  bucket 8: 50%\nGetting block 9 of 58\n  bucket 8: 60%\n  Reserving size (388) for bucket 9\n  Calculating Z arrays for bucket 9\nGetting block 10 of 58\n  bucket 8: 70%\n  Entering block accumulator loop for bucket 9:\n  Reserving size (388) for bucket 10\n  Calculating Z arrays for bucket 10\n  bucket 8: 80%\n  Entering block accumulator loop for bucket 10:\n  bucket 9: 10%\n  bucket 8: 90%\n  bucket 8: 100%\n  Sorting block of length 171 for bucket 8\n  (Using difference cover)\n  bucket 9: 20%\n  bucket 10: 10%\n  bucket 9: 30%\n  bucket 10: 20%\n  bucket 9: 40%\n  bucket 10: 30%\n  bucket 9: 50%\n  bucket 9: 60%\n  Sorting block time: 00:00:00\n  bucket 10: 40%\nReturning block of 172 for bucket 8\n  bucket 9: 70%\n  bucket 10: 50%\n  bucket 9: 80%\n  bucket 10: 60%\n  bucket 9: 90%\n  bucket 10: 70%\n  bucket 9: 100%\n  Sorting block of length 339 for bucket 9\n  (Using difference cover)\n  bucket 10: 80%\n  bucket 10: 90%\n  bucket 10: 100%\n  Sorting block of length 357 for bucket 10\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 9\n  Sorting block time: 00:00:00\nReturning block of 358 for bucket 10\nGetting block 11 of 58\n  Reserving size (388) for bucket 11\nGetting block 12 of 58\n  Calculating Z arrays for bucket 11\n  Reserving size (388) for bucket 12\n  Entering block accumulator loop for bucket 11:\n  Calculating Z arrays for bucket 12\n  Entering block accumulator loop for bucket 12:\n  bucket 11: 10%\nGetting block 13 of 58\n  bucket 12: 10%\n  bucket 11: 20%\n  Reserving size (388) for bucket 13\n  Calculating Z arrays for bucket 13\n  bucket 12: 20%\n  bucket 11: 30%\n  Entering block accumulator loop for bucket 13:\n  bucket 12: 30%\n  bucket 11: 40%\n  bucket 13: 10%\n  bucket 12: 40%\n  bucket 11: 50%\n  bucket 13: 20%\n  bucket 12: 50%\n  bucket 11: 60%\n  bucket 13: 30%\n  bucket 11: 70%\n  bucket 12: 60%\n  bucket 11: 80%\n  bucket 12: 70%\n  bucket 13: 40%\n  bucket 11: 90%\n  bucket 12: 80%\n  bucket 13: 50%\n  bucket 11: 100%\n  Sorting block of length 305 for bucket 11\n  (Using difference cover)\n  bucket 12: 90%\n  bucket 13: 60%\n  bucket 12: 100%\n  Sorting block of length 185 for bucket 12\n  (Using difference cover)\n  bucket 13: 70%\n  bucket 13: 80%\n  bucket 13: 90%\n  bucket 13: 100%\n  Sorting block of length 282 for bucket 13\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 186 for bucket 12\n  Sorting block time: 00:00:00\nReturning block of 306 for bucket 11\n  Sorting block time: 00:00:00\nReturning block of 283 for bucket 13\nGetting block 14 of 58\n  Reserving size (388) for bucket 14\n  Calculating Z arrays for bucket 14\n  Entering block accumulator loop for bucket 14:\n  bucket 14: 10%\n  bucket 14: 20%\n  bucket 14: 30%\n  bucket 14: 40%\n  bucket 14: 50%\n  bucket 14: 60%\n  bucket 14: 70%\n  bucket 14: 80%\n  bucket 14: 90%\n  bucket 14: 100%\n  Sorting block of length 339 for bucket 14\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 14\nGetting block 15 of 58\n  Reserving size (388) for bucket 15\n  Calculating Z arrays for bucket 15\n  Entering block accumulator loop for bucket 15:\n  bucket 15: 10%\n  bucket 15: 20%\n  bucket 15: 30%\nGetting block 16 of 58\n  Reserving size (388) for bucket 16\n  Calculating Z arrays for bucket 16\n  bucket 15: 40%\n  Entering block accumulator loop for bucket 16:\n  bucket 15: 50%\n  bucket 16: 10%\n  bucket 16: 20%\n  bucket 15: 60%\n  bucket 16: 30%\n  bucket 15: 70%\n  bucket 16: 40%\n  bucket 15: 80%\n  bucket 16: 50%\n  bucket 16: 60%\n  bucket 15: 90%\n  bucket 16: 70%\n  bucket 15: 100%\n  Sorting block of length 241 for bucket 15\n  (Using difference cover)\n  bucket 16: 80%\n  bucket 16: 90%\n  bucket 16: 100%\n  Sorting block of length 379 for bucket 16\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 242 for bucket 15\n  Sorting block time: 00:00:00\nReturning block of 380 for bucket 16\nGetting block 17 of 58\n  Reserving size (388) for bucket 17\n  Calculating Z arrays for bucket 17\n  Entering block accumulator loop for bucket 17:\n  bucket 17: 10%\n  bucket 17: 20%\n  bucket 17: 30%\nGetting block 18 of 58\n  bucket 17: 40%\n  Reserving size (388) for bucket 18\nGetting block 19 of 58\n  Calculating Z arrays for bucket 18\n  bucket 17: 50%\n  Reserving size (388) for bucket 19\n  Calculating Z arrays for bucket 19\n  Entering block accumulator loop for bucket 18:\n  bucket 17: 60%\n  Entering block accumulator loop for bucket 19:\n  bucket 18: 10%\n  bucket 19: 10%\n  bucket 17: 70%\n  bucket 18: 20%\n  bucket 19: 20%\n  bucket 17: 80%\n  bucket 19: 30%\n  bucket 17: 90%\n  bucket 18: 30%\n  bucket 17: 100%\n  bucket 19: 40%\n  Sorting block of length 215 for bucket 17\n  (Using difference cover)\n  bucket 18: 40%\n  bucket 19: 50%\n  bucket 19: 60%\n  bucket 18: 50%\n  bucket 19: 70%\n  bucket 18: 60%\n  bucket 19: 80%\n  bucket 19: 90%\n  bucket 18: 70%\n  Sorting block time: 00:00:00\nReturning block of 216 for bucket 17\n  bucket 19: 100%\n  Sorting block of length 334 for bucket 19\n  (Using difference cover)\n  bucket 18: 80%\n  bucket 18: 90%\n  bucket 18: 100%\n  Sorting block time: 00:00:00\n  Sorting block of length 378 for bucket 18\n  (Using difference cover)\nReturning block of 335 for bucket 19\n  Sorting block time: 00:00:00\nReturning block of 379 for bucket 18\nGetting block 20 of 58\n  Reserving size (388) for bucket 20\nGetting block 21 of 58\n  Calculating Z arrays for bucket 20\n  Reserving size (388) for bucket 21\n  Calculating Z arrays for bucket 21\n  Entering block accumulator loop for bucket 20:\n  Entering block accumulator loop for bucket 21:\n  bucket 20: 10%\n  bucket 21: 10%\n  bucket 20: 20%\n  bucket 21: 20%\n  bucket 20: 30%\n  bucket 21: 30%\n  bucket 21: 40%\n  bucket 20: 40%\n  bucket 21: 50%\n  bucket 20: 50%\n  bucket 20: 60%\n  bucket 21: 60%\n  bucket 20: 70%\n  bucket 21: 70%\n  bucket 20: 80%\n  bucket 21: 80%\n  bucket 20: 90%\n  bucket 21: 90%\n  bucket 20: 100%\n  Sorting block of length 313 for bucket 20\n  (Using difference cover)\n  bucket 21: 100%\n  Sorting block of length 210 for bucket 21\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 211 for bucket 21\n  Sorting block time: 00:00:00\nReturning block of 314 for bucket 20\nGetting block 22 of 58\n  Reserving size (388) for bucket 22\n  Calculating Z arrays for bucket 22\n  Entering block accumulator loop for bucket 22:\n  bucket 22: 10%\n  bucket 22: 20%\n  bucket 22: 30%\nGetting block 23 of 58\n  bucket 22: 40%\n  Reserving size (388) for bucket 23\n  Calculating Z arrays for bucket 23\n  bucket 22: 50%\n  Entering block accumulator loop for bucket 23:\n  bucket 22: 60%\n  bucket 23: 10%\n  bucket 22: 70%\n  bucket 23: 20%\n  bucket 22: 80%\n  bucket 22: 90%\n  bucket 22: 100%\n  bucket 23: 30%\n  Sorting block of length 386 for bucket 22\n  (Using difference cover)\n  bucket 23: 40%\n  bucket 23: 50%\n  Sorting block time: 00:00:00\n  bucket 23: 60%\nReturning block of 387 for bucket 22\n  bucket 23: 70%\n  bucket 23: 80%\n  bucket 23: 90%\n  bucket 23: 100%\n  Sorting block of length 238 for bucket 23\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 239 for bucket 23\nGetting block 24 of 58\n  Reserving size (388) for bucket 24\nGetting block 25 of 58\n  Calculating Z arrays for bucket 24\n  Reserving size (388) for bucket 25\n  Calculating Z arrays for bucket 25\n  Entering block accumulator loop for bucket 24:\n  Entering block accumulator loop for bucket 25:\n  bucket 24: 10%\n  bucket 25: 10%\n  bucket 24: 20%\n  bucket 25: 20%\n  bucket 24: 30%\n  bucket 24: 40%\n  bucket 25: 30%\n  bucket 24: 50%\n  bucket 25: 40%\n  bucket 24: 60%\n  bucket 24: 70%\n  bucket 25: 50%\n  bucket 24: 80%\n  bucket 25: 60%\n  bucket 24: 90%\n  bucket 24: 100%\n  bucket 25: 70%\n  Sorting block of length 351 for bucket 24\n  (Using difference cover)\n  bucket 25: 80%\n  bucket 25: 90%\n  bucket 25: 100%\n  Sorting block of length 105 for bucket 25\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 352 for bucket 24\n  Sorting block time: 00:00:00\nReturning block of 106 for bucket 25\nGetting block 26 of 58\n  Reserving size (388) for bucket 26\n  Calculating Z arrays for bucket 26\n  Entering block accumulator loop for bucket 26:\n  bucket 26: 10%\n  bucket 26: 20%\nGetting block 27 of 58\n  bucket 26: 30%\n  Reserving size (388) for bucket 27\n  Calculating Z arrays for bucket 27\n  Entering block accumulator loop for bucket 27:\n  bucket 27: 10%\n  bucket 26: 40%\n  bucket 27: 20%\n  bucket 27: 30%\n  bucket 26: 50%\n  bucket 27: 40%\n  bucket 26: 60%\n  bucket 27: 50%\n  bucket 27: 60%\n  bucket 26: 70%\n  bucket 27: 70%\n  bucket 27: 80%\n  bucket 26: 80%\n  bucket 27: 90%\n  bucket 27: 100%\n  Sorting block of length 334 for bucket 27\n  (Using difference cover)\n  bucket 26: 90%\n  bucket 26: 100%\n  Sorting block of length 354 for bucket 26\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 335 for bucket 27\n  Sorting block time: 00:00:00\nReturning block of 355 for bucket 26\nGetting block 28 of 58\n  Reserving size (388) for bucket 28\n  Calculating Z arrays for bucket 28\nGetting block 29 of 58\n  Reserving size (388) for bucket 29\n  Calculating Z arrays for bucket 29\n  Entering block accumulator loop for bucket 28:\n  Entering block accumulator loop for bucket 29:\nGetting block 30 of 58\n  Reserving size (388) for bucket 30\n  Calculating Z arrays for bucket 30\n  bucket 29: 10%\n  bucket 28: 10%\n  Entering block accumulator loop for bucket 30:\n  bucket 29: 20%\n  bucket 28: 20%\n  bucket 30: 10%\n  bucket 29: 30%\n  bucket 28: 30%\n  bucket 30: 20%\n  bucket 29: 40%\n  bucket 30: 30%\n  bucket 28: 40%\n  bucket 29: 50%\n  bucket 30: 40%\n  bucket 28: 50%\n  bucket 30: 50%\n  bucket 28: 60%\n  bucket 29: 60%\n  bucket 30: 60%\n  bucket 28: 70%\n  bucket 29: 70%\n  bucket 30: 70%\n  bucket 28: 80%\n  bucket 29: 80%\n  bucket 30: 80%\n  bucket 28: 90%\n  bucket 30: 90%\n  bucket 29: 90%\n  bucket 28: 100%\n  Sorting block of length 253 for bucket 28\n  (Using difference cover)\n  bucket 30: 100%\n  Sorting block of length 345 for bucket 30\n  (Using difference cover)\n  bucket 29: 100%\n  Sorting block of length 289 for bucket 29\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 346 for bucket 30\n  Sorting block time: 00:00:00\nReturning block of 290 for bucket 29\n  Sorting block time: 00:00:00\nReturning block of 254 for bucket 28\nGetting block 31 of 58\n  Reserving size (388) for bucket 31\n  Calculating Z arrays for bucket 31\n  Entering block accumulator loop for bucket 31:\n  bucket 31: 10%\n  bucket 31: 20%\n  bucket 31: 30%\n  bucket 31: 40%\n  bucket 31: 50%\n  bucket 31: 60%\n  bucket 31: 70%\n  bucket 31: 80%\n  bucket 31: 90%\n  bucket 31: 100%\n  Sorting block of length 377 for bucket 31\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 378 for bucket 31\nGetting block 32 of 58\n  Reserving size (388) for bucket 32\nGetting block 33 of 58\n  Calculating Z arrays for buc\n..\nucket 23: 50%\n  bucket 23: 60%\n  bucket 24: 40%\n  bucket 23: 70%\n  bucket 23: 80%\n  bucket 24: 50%\n  bucket 23: 90%\n  bucket 24: 60%\n  bucket 23: 100%\n  Sorting block of length 349 for bucket 23\n  (Using difference cover)\n  bucket 24: 70%\n  bucket 24: 80%\n  bucket 24: 90%\n  Sorting block time: 00:00:00\nReturning block of 350 for bucket 23\n  bucket 24: 100%\n  Sorting block of length 245 for bucket 24\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 246 for bucket 24\nGetting block 25 of 57\n  Reserving size (388) for bucket 25\n  Calculating Z arrays for bucket 25\n  Entering block accumulator loop for bucket 25:\n  bucket 25: 10%\n  bucket 25: 20%\n  bucket 25: 30%\nGetting block 26 of 57\n  bucket 25: 40%\n  Reserving size (388) for bucket 26\n  Calculating Z arrays for bucket 26\n  Entering block accumulator loop for bucket 26:\n  bucket 25: 50%\n  bucket 26: 10%\n  bucket 25: 60%\n  bucket 26: 20%\n  bucket 25: 70%\n  bucket 26: 30%\n  bucket 25: 80%\n  bucket 26: 40%\n  bucket 26: 50%\n  bucket 25: 90%\n  bucket 26: 60%\n  bucket 25: 100%\n  Sorting block of length 286 for bucket 25\n  (Using difference cover)\n  bucket 26: 70%\n  bucket 26: 80%\n  bucket 26: 90%\n  Sorting block time: 00:00:00\nReturning block of 287 for bucket 25\n  bucket 26: 100%\n  Sorting block of length 384 for bucket 26\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 385 for bucket 26\nGetting block 27 of 57\n  Reserving size (388) for bucket 27\n  Calculating Z arrays for bucket 27\n  Entering block accumulator loop for bucket 27:\n  bucket 27: 10%\n  bucket 27: 20%\n  bucket 27: 30%\n  bucket 27: 40%\nGetting block 28 of 57\n  bucket 27: 50%\n  Reserving size (388) for bucket 28\n  Calculating Z arrays for bucket 28\n  bucket 27: 60%\n  Entering block accumulator loop for bucket 28:\n  bucket 27: 70%\n  bucket 28: 10%\n  bucket 27: 80%\n  bucket 27: 90%\n  bucket 28: 20%\n  bucket 27: 100%\n  Sorting block of length 359 for bucket 27\n  (Using difference cover)\n  bucket 28: 30%\n  bucket 28: 40%\n  bucket 28: 50%\n  Sorting block time: 00:00:00\nReturning block of 360 for bucket 27\n  bucket 28: 60%\n  bucket 28: 70%\n  bucket 28: 80%\n  bucket 28: 90%\n  bucket 28: 100%\n  Sorting block of length 387 for bucket 28\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 28\nGetting block 29 of 57\n  Reserving size (388) for bucket 29\n  Calculating Z arrays for bucket 29\nGetting block 30 of 57\n  Entering block accumulator loop for bucket 29:\n  Reserving size (388) for bucket 30\n  Calculating Z arrays for bucket 30\nGetting block 31 of 57\n  Entering block accumulator loop for bucket 30:\n  Reserving size (388) for bucket 31\n  Calculating Z arrays for bucket 31\n  bucket 29: 10%\n  Entering block accumulator loop for bucket 31:\n  bucket 30: 10%\n  bucket 29: 20%\n  bucket 31: 10%\n  bucket 30: 20%\n  bucket 29: 30%\n  bucket 31: 20%\n  bucket 30: 30%\n  bucket 29: 40%\n  bucket 31: 30%\n  bucket 30: 40%\n  bucket 29: 50%\n  bucket 31: 40%\n  bucket 29: 60%\n  bucket 30: 50%\n  bucket 31: 50%\n  bucket 29: 70%\n  bucket 31: 60%\n  bucket 30: 60%\n  bucket 29: 80%\n  bucket 31: 70%\n  bucket 30: 70%\n  bucket 29: 90%\n  bucket 31: 80%\n  bucket 29: 100%\n  bucket 30: 80%\n  Sorting block of length 195 for bucket 29\n  (Using difference cover)\n  bucket 31: 90%\n  bucket 30: 90%\n  bucket 31: 100%\n  Sorting block of length 310 for bucket 31\n  (Using difference cover)\n  bucket 30: 100%\n  Sorting block of length 257 for bucket 30\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 196 for bucket 29\n  Sorting block time: 00:00:00\nReturning block of 311 for bucket 31\n  Sorting block time: 00:00:00\nReturning block of 258 for bucket 30\nGetting block 32 of 57\n  Reserving size (388) for bucket 32\n  Calculating Z arrays for bucket 32\nGetting block 33 of 57\n  Entering block accumulator loop for bucket 32:\n  Reserving size (388) for bucket 33\n  Calculating Z arrays for bucket 33\n  Entering block accumulator loop for bucket 33:\n  bucket 32: 10%\n  bucket 33: 10%\n  bucket 32: 20%\n  bucket 33: 20%\n  bucket 32: 30%\n  bucket 33: 30%\n  bucket 32: 40%\n  bucket 33: 40%\n  bucket 32: 50%\n  bucket 33: 50%\n  bucket 32: 60%\n  bucket 33: 60%\n  bucket 32: 70%\n  bucket 33: 70%\n  bucket 32: 80%\n  bucket 32: 90%\n  bucket 33: 80%\n  bucket 32: 100%\n  bucket 33: 90%\n  Sorting block of length 219 for bucket 32\n  (Using difference cover)\n  bucket 33: 100%\n  Sorting block of length 387 for bucket 33\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 220 for bucket 32\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 33\nGetting block 34 of 57\n  Reserving size (388) for bucket 34\nGetting block 35 of 57\n  Calculating Z arrays for bucket 34\n  Reserving size (388) for bucket 35\n  Calculating Z arrays for bucket 35\n  Entering block accumulator loop for bucket 35:\n  Entering block accumulator loop for bucket 34:\n  bucket 35: 10%\n  bucket 34: 10%\n  bucket 35: 20%\n  bucket 34: 20%\n  bucket 34: 30%\n  bucket 35: 30%\n  bucket 34: 40%\n  bucket 35: 40%\n  bucket 34: 50%\n  bucket 35: 50%\n  bucket 35: 60%\n  bucket 34: 60%\n  bucket 35: 70%\n  bucket 34: 70%\n  bucket 35: 80%\n  bucket 34: 80%\n  bucket 35: 90%\n  bucket 34: 90%\n  bucket 35: 100%\n  Sorting block of length 350 for bucket 35\n  (Using difference cover)\n  bucket 34: 100%\n  Sorting block of length 275 for bucket 34\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 351 for bucket 35\n  Sorting block time: 00:00:00\nReturning block of 276 for bucket 34\nGetting block 36 of 57\n  Reserving size (388) for bucket 36\n  Calculating Z arrays for bucket 36\n  Entering block accumulator loop for bucket 36:\n  bucket 36: 10%\n  bucket 36: 20%\nGetting block 37 of 57\n  Reserving size (388) for bucket 37\n  Calculating Z arrays for bucket 37\n  bucket 36: 30%\n  Entering block accumulator loop for bucket 37:\n  bucket 36: 40%\n  bucket 37: 10%\n  bucket 36: 50%\n  bucket 37: 20%\n  bucket 36: 60%\n  bucket 36: 70%\n  bucket 37: 30%\n  bucket 36: 80%\n  bucket 37: 40%\n  bucket 36: 90%\n  bucket 37: 50%\n  bucket 36: 100%\n  bucket 37: 60%\n  Sorting block of length 150 for bucket 36\n  (Using difference cover)\n  bucket 37: 70%\n  bucket 37: 80%\n  bucket 37: 90%\n  bucket 37: 100%\n  Sorting block of length 267 for bucket 37\n  Sorting block time: 00:00:00\n  (Using difference cover)\nReturning block of 151 for bucket 36\n  Sorting block time: 00:00:00\nReturning block of 268 for bucket 37\nGetting block 38 of 57\n  Reserving size (388) for bucket 38\n  Calculating Z arrays for bucket 38\n  Entering block accumulator loop for bucket 38:\n  bucket 38: 10%\n  bucket 38: 20%\n  bucket 38: 30%\n  bucket 38: 40%\n  bucket 38: 50%\n  bucket 38: 60%\n  bucket 38: 70%\n  bucket 38: 80%\n  bucket 38: 90%\n  bucket 38: 100%\n  Sorting block of length 337 for bucket 38\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 338 for bucket 38\nGetting block 39 of 57\n  Reserving size (388) for bucket 39\n  Calculating Z arrays for bucket 39\n  Entering block accumulator loop for bucket 39:\n  bucket 39: 10%\n  bucket 39: 20%\nGetting block 40 of 57\n  bucket 39: 30%\n  Reserving size (388) for bucket 40\n  Calculating Z arrays for bucket 40\nGetting block 41 of 57\n  bucket 39: 40%\n  Entering block accumulator loop for bucket 40:\n  Reserving size (388) for bucket 41\n  Calculating Z arrays for bucket 41\n  bucket 39: 50%\n  Entering block accumulator loop for bucket 41:\n  bucket 40: 10%\n  bucket 39: 60%\n  bucket 41: 10%\n  bucket 39: 70%\n  bucket 40: 20%\n  bucket 39: 80%\n  bucket 41: 20%\n  bucket 39: 90%\n  bucket 40: 30%\n  bucket 41: 30%\n  bucket 39: 100%\n  Sorting block of length 387 for bucket 39\n  (Using difference cover)\n  bucket 40: 40%\n  bucket 41: 40%\n  bucket 40: 50%\n  bucket 40: 60%\n  bucket 41: 50%\n  bucket 40: 70%\n  bucket 41: 60%\n  bucket 40: 80%\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 39\n  bucket 41: 70%\n  bucket 40: 90%\n  bucket 41: 80%\n  bucket 40: 100%\n  Sorting block of length 379 for bucket 40\n  (Using difference cover)\n  bucket 41: 90%\n  bucket 41: 100%\n  Sorting block of length 330 for bucket 41\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 380 for bucket 40\n  Sorting block time: 00:00:00\nReturning block of 331 for bucket 41\nGetting block 42 of 57\n  Reserving size (388) for bucket 42\n  Calculating Z arrays for bucket 42\n  Entering block accumulator loop for bucket 42:\n  bucket 42: 10%\n  bucket 42: 20%\n  bucket 42: 30%\n  bucket 42: 40%\n  bucket 42: 50%\n  bucket 42: 60%\n  bucket 42: 70%\n  bucket 42: 80%\n  bucket 42: 90%\n  bucket 42: 100%\n  Sorting block of length 188 for bucket 42\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 189 for bucket 42\nGetting block 43 of 57\n  Reserving size (388) for bucket 43\n  Calculating Z arrays for bucket 43\n  Entering block accumulator loop for bucket 43:\n  bucket 43: 10%\n  bucket 43: 20%\n  bucket 43: 30%\n  bucket 43: 40%\nGetting block 44 of 57\n  Reserving size (388) for bucket 44\n  Calculating Z arrays for bucket 44\n  bucket 43: 50%\n  Entering block accumulator loop for bucket 44:\n  bucket 43: 60%\n  bucket 43: 70%\n  bucket 44: 10%\n  bucket 43: 80%\n  bucket 43: 90%\n  bucket 44: 20%\n  bucket 43: 100%\n  Sorting block of length 321 for bucket 43\n  (Using difference cover)\n  bucket 44: 30%\n  bucket 44: 40%\n  bucket 44: 50%\n  Sorting block time: 00:00:00\nReturning block of 322 for bucket 43\n  bucket 44: 60%\n  bucket 44: 70%\n  bucket 44: 80%\n  bucket 44: 90%\n  bucket 44: 100%\n  Sorting block of length 366 for bucket 44\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 367 for bucket 44\nGetting block 45 of 57\n  Reserving size (388) for bucket 45\n  Calculating Z arrays for bucket 45\n  Entering block accumulator loop for bucket 45:\n  bucket 45: 10%\n  bucket 45: 20%\n  bucket 45: 30%\nGetting block 46 of 57\n  bucket 45: 40%\n  Reserving size (388) for bucket 46\n  Calculating Z arrays for bucket 46\n  Entering block accumulator loop for bucket 46:\n  bucket 45: 50%\n  bucket 46: 10%\n  bucket 45: 60%\n  bucket 46: 20%\n  bucket 45: 70%\n  bucket 46: 30%\n  bucket 45: 80%\n  bucket 46: 40%\n  bucket 45: 90%\n  bucket 46: 50%\n  bucket 45: 100%\n  Sorting block of length 365 for bucket 45\n  (Using difference cover)\n  bucket 46: 60%\n  bucket 46: 70%\n  bucket 46: 80%\n  bucket 46: 90%\n  Sorting block time: 00:00:00\nReturning block of 366 for bucket 45\n  bucket 46: 100%\n  Sorting block of length 253 for bucket 46\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 254 for bucket 46\nGetting block 47 of 57\n  Reserving size (388) for bucket 47\n  Calculating Z arrays for bucket 47\n  Entering block accumulator loop for bucket 47:\n  bucket 47: 10%\n  bucket 47: 20%\nGetting block 48 of 57\n  Reserving size (388) for bucket 48\n  Calculating Z arrays for bucket 48\n  bucket 47: 30%\n  Entering block accumulator loop for bucket 48:\n  bucket 47: 40%\n  bucket 48: 10%\n  bucket 48: 20%\n  bucket 47: 50%\n  bucket 48: 30%\n  bucket 47: 60%\n  bucket 48: 40%\n  bucket 47: 70%\n  bucket 48: 50%\n  bucket 47: 80%\n  bucket 48: 60%\n  bucket 47: 90%\n  bucket 48: 70%\n  bucket 48: 80%\n  bucket 47: 100%\n  Sorting block of length 217 for bucket 47\n  (Using difference cover)\n  bucket 48: 90%\n  bucket 48: 100%\n  Sorting block of length 384 for bucket 48\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 218 for bucket 47\n  Sorting block time: 00:00:00\nReturning block of 385 for bucket 48\nGetting block 49 of 57\n  Reserving size (388) for bucket 49\n  Calculating Z arrays for bucket 49\n  Entering block accumulator loop for bucket 49:\n  bucket 49: 10%\n  bucket 49: 20%\n  bucket 49: 30%\n  bucket 49: 40%\n  bucket 49: 50%\n  bucket 49: 60%\n  bucket 49: 70%\n  bucket 49: 80%\n  bucket 49: 90%\n  bucket 49: 100%\n  Sorting block of length 112 for bucket 49\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 113 for bucket 49\nGetting block 50 of 57\n  Reserving size (388) for bucket 50\n  Calculating Z arrays for bucket 50\n  Entering block accumulator loop for bucket 50:\n  bucket 50: 10%\n  bucket 50: 20%\nGetting block 51 of 57\n  Reserving size (388) for bucket 51\n  Calculating Z arrays for bucket 51\n  bucket 50: 30%\n  Entering block accumulator loop for bucket 51:\n  bucket 51: 10%\n  bucket 50: 40%\n  bucket 51: 20%\n  bucket 50: 50%\n  bucket 51: 30%\n  bucket 51: 40%\n  bucket 50: 60%\n  bucket 51: 50%\n  bucket 50: 70%\n  bucket 51: 60%\n  bucket 51: 70%\n  bucket 50: 80%\n  bucket 51: 80%\n  bucket 51: 90%\n  bucket 50: 90%\n  bucket 51: 100%\n  Sorting block of length 350 for bucket 51\n  (Using difference cover)\n  bucket 50: 100%\n  Sorting block of length 275 for bucket 50\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 351 for bucket 51\n  Sorting block time: 00:00:00\nReturning block of 276 for bucket 50\nGetting block 52 of 57\n  Reserving size (388) for bucket 52\n  Calculating Z arrays for bucket 52\nGetting block 53 of 57\n  Entering block accumulator loop for bucket 52:\n  Reserving size (388) for bucket 53\n  Calculating Z arrays for bucket 53\n  Entering block accumulator loop for bucket 53:\n  bucket 52: 10%\n  bucket 53: 10%\n  bucket 52: 20%\n  bucket 53: 20%\n  bucket 52: 30%\n  bucket 53: 30%\n  bucket 52: 40%\n  bucket 53: 40%\n  bucket 52: 50%\n  bucket 53: 50%\n  bucket 52: 60%\n  bucket 53: 60%\n  bucket 52: 70%\n  bucket 53: 70%\n  bucket 52: 80%\n  bucket 53: 80%\n  bucket 52: 90%\n  bucket 53: 90%\n  bucket 52: 100%\n  Sorting block of length 378 for bucket 52\n  (Using difference cover)\n  bucket 53: 100%\n  Sorting block of length 370 for bucket 53\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 379 for bucket 52\n  Sorting block time: 00:00:00\nReturning block of 371 for bucket 53\nGetting block 54 of 57\n  Reserving size (388) for bucket 54\n  Calculating Z arrays for bucket 54\n  Entering block accumulator loop for bucket 54:\n  bucket 54: 10%\n  bucket 54: 20%\n  bucket 54: 30%\nGetting block 55 of 57\n  bucket 54: 40%\n  Reserving size (388) for bucket 55\n  Calculating Z arrays for bucket 55\n  Entering block accumulator loop for bucket 55:\n  bucket 54: 50%\n  bucket 54: 60%\n  bucket 55: 10%\n  bucket 54: 70%\n  bucket 55: 20%\n  bucket 54: 80%\n  bucket 55: 30%\n  bucket 54: 90%\n  bucket 54: 100%\n  bucket 55: 40%\n  Sorting block of length 237 for bucket 54\n  (Using difference cover)\n  bucket 55: 50%\n  bucket 55: 60%\n  bucket 55: 70%\n  bucket 55: 80%\n  Sorting block time: 00:00:00\nReturning block of 238 for bucket 54\n  bucket 55: 90%\n  bucket 55: 100%\n  Sorting block of length 344 for bucket 55\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 345 for bucket 55\nGetting block 56 of 57\n  Reserving size (388) for bucket 56\n  Calculating Z arrays for bucket 56\n  Entering block accumulator loop for bucket 56:\n  bucket 56: 10%\n  bucket 56: 20%\nGetting block 57 of 57\n  Reserving size (388) for bucket 57\n  Calculating Z arrays for bucket 57\n  Entering block accumulator loop for bucket 57:\n  bucket 56: 30%\n  bucket 57: 10%\n  bucket 57: 20%\n  bucket 56: 40%\n  bucket 57: 30%\n  bucket 57: 40%\n  bucket 57: 50%\n  bucket 57: 60%\n  bucket 56: 50%\n  bucket 57: 70%\n  bucket 57: 80%\n  bucket 56: 60%\n  bucket 57: 90%\n  bucket 56: 70%\n  bucket 57: 100%\n  Sorting block of length 132 for bucket 57\n  (Using difference cover)\n  bucket 56: 80%\n  bucket 56: 90%\n  bucket 56: 100%\n  Sorting block time: 00:00:00\n  Sorting block of length 270 for bucket 56\n  (Using difference cover)\nReturning block of 133 for bucket 57\n  Sorting block time: 00:00:00\nReturning block of 271 for bucket 56\nExited Ebwt loop\nfchr[A]: 0\nfchr[C]: 5124\nfchr[G]: 10305\nfchr[T]: 12474\nfchr[$]: 16568\nExiting Ebwt::buildToDisk()\nReturning from initFromVector\nWrote 4200050 bytes to primary EBWT file: genome.rev.1.bt2.tmp\nWrote 4148 bytes to secondary EBWT file: genome.rev.2.bt2.tmp\nRe-opening _in1 and _in2 as input streams\nReturning from Ebwt constructor\nHeaders:\n    len: 16568\n    bwtLen: 16569\n    sz: 4142\n    bwtSz: 4143\n    lineRate: 6\n    offRate: 4\n    offMask: 0xfffffff0\n    ftabChars: 10\n    eftabLen: 20\n    eftabSz: 80\n    ftabLen: 1048577\n    ftabSz: 4194308\n    offsLen: 1036\n    offsSz: 4144\n    lineSz: 64\n    sideSz: 64\n    sideBwtSz: 48\n    sideBwtLen: 192\n    numSides: 87\n    numLines: 87\n    ebwtTotLen: 5568\n    ebwtTotSz: 5568\n    color: 0\n    reverse: 1\nTotal time for backward call to driver() for mirror index: 00:00:00\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:42:35", "plugin": "core", "name": "end_epoch", "raw_value": "1726407755.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:42:34", "plugin": "core", "name": "start_epoch", "raw_value": "1726407754.0000000"}, {"title": "Memory Allocated (MB)", "value": "21474", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "21474.0000000"}, {"title": "Cores Allocated", "value": "8", "plugin": "core", "name": "galaxy_slots", "raw_value": "8.0000000"}]}, "status": "success"}}, {"id": "bowtie2/2.5.3+galaxy1-3", "has_data": true, "data": {"tool_id": "bowtie2", "tool_version": "2.5.3+galaxy1", "test_index": 3, "time_seconds": 9.706709623336792, "execution_problem": "Input staging problem: Job in error state.. tool_id: upload1, exit_code: None, stderr: .", "status": "error"}}, {"id": "bowtie2/2.5.3+galaxy1-4", "has_data": true, "data": {"tool_id": "bowtie2", "tool_version": "2.5.3+galaxy1", "test_index": 4, "time_seconds": 28.307546615600586, "inputs": {"library|input_1": {"src": "hda", "id": "cd1224db95728f7e"}, "library|unaligned_file": false, "library|type": "paired_interleaved", "reference_genome|own_file": {"src": "hda", "id": "123c7ff37593ad44"}, "reference_genome|source": "history", "rg|read_group_id_conditional|ID": "rg1", "rg|PL": "CAPILLARY", "rg|rg_selector": "set", "analysis_type|analysis_type_selector": "simple"}, "job": {"model_class": "Job", "id": "4dd81506661f842e", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:43:23.190726", "create_time": "2024-09-15T13:43:11.781962", "galaxy_version": "23.1", "command_version": "/usr/local/bin/bowtie2-align-s version 2.5.3\n64-bit\nBuilt on fv-az365-785\nWed Jan 17 04:43:48 UTC 2024\nCompiler: gcc version 12.3.0 (conda-forge gcc 12.3.0-3) \nOptions: -O3 -msse2 -funroll-loops -g3 -fvisibility-inlines-hidden -fmessage-length=0 -march=nocona -mtune=haswell -ftree-vectorize -fPIC -fstack-protector-strong -fno-plt -O2 -ffunction-sections -pipe -isystem /usr/local/include -fdebug-prefix-map=/opt/conda/conda-bld/bowtie2_1705465427853/work=/usr/local/src/conda/bowtie2-2.5.3 -fdebug-prefix-map=/usr/local=/usr/local/src/conda-prefix -std=c++11 -Wall -Wno-unused-but-set-variable -DPOPCNT_CAPABILITY -DNO_SPINLOCK -DWITH_QUEUELOCK=1 -DWITH_ZSTD\nSizeof {int, long, long long, void*, size_t, off_t}: {4, 8, 8, 8, 8, 8}", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/devteam/bowtie2/bowtie2/2.5.3+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-x544b", "command_line": "set -o | grep -q pipefail && set -o pipefail; bowtie2-build --threads ${GALAXY_SLOTS:-4} '/galaxy/server/database/objects/7/c/8/dataset_7c8dceb1-ea9d-41e2-913d-808e065b1678.dat' genome && ln -s -f '/galaxy/server/database/objects/7/c/8/dataset_7c8dceb1-ea9d-41e2-913d-808e065b1678.dat' genome.fa &&   ln -f -s '/galaxy/server/database/objects/a/7/4/dataset_a746139d-74b5-4685-8116-d7c7f1073c0d.dat' input_il.fastq &&   THREADS=${GALAXY_SLOTS:-4} && if [ \"$THREADS\" -gt 1 ]; then (( THREADS-- )); fi &&   bowtie2  -p \"$THREADS\"  -x 'genome'   --interleaved 'input_il.fastq'                        --rg-id \"rg1\"  --rg \"PL:CAPILLARY\"              | samtools sort -l 0 -T \"${TMPDIR:-.}\" -O bam | samtools view --no-PG -O bam -@ ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/4/a/c/dataset_4ac21a6d-5ab9-4f9c-ac38-46fb4fe1c938.dat'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "save_mapping_stats": "false", "sam_options": "{\"__current_case__\": 1, \"sam_options_selector\": \"no\"}", "analysis_type": "{\"__current_case__\": 0, \"analysis_type_selector\": \"simple\", \"presets\": \"no_presets\"}", "rg": "{\"CN\": null, \"DS\": null, \"DT\": null, \"FO\": null, \"KS\": null, \"PG\": null, \"PI\": \"\", \"PL\": \"CAPILLARY\", \"PU\": null, \"__current_case__\": 1, \"read_group_id_conditional\": {\"ID\": \"rg1\", \"__current_case__\": 1, \"do_auto_name\": false}, \"read_group_lb_conditional\": {\"LB\": null, \"__current_case__\": 1, \"do_auto_name\": false}, \"read_group_sm_conditional\": {\"SM\": \"\", \"__current_case__\": 1, \"do_auto_name\": false}, \"rg_selector\": \"set\"}", "reference_genome": "{\"__current_case__\": 1, \"own_file\": {\"values\": [{\"id\": 375, \"src\": \"hda\"}]}, \"source\": \"history\"}", "library": "{\"__current_case__\": 3, \"aligned_file\": false, \"input_1\": {\"values\": [{\"id\": 374, \"src\": \"hda\"}]}, \"paired_options\": {\"__current_case__\": 1, \"paired_options_selector\": \"no\"}, \"type\": \"paired_interleaved\", \"unaligned_file\": false}"}, "inputs": {"library|input_1": {"id": "cd1224db95728f7e", "src": "hda", "uuid": "a746139d-74b5-4685-8116-d7c7f1073c0d"}, "reference_genome|own_file": {"id": "123c7ff37593ad44", "src": "hda", "uuid": "7c8dceb1-ea9d-41e2-913d-808e065b1678"}}, "outputs": {"output": {"id": "e67db6c3c1875ff7", "src": "hda", "uuid": "4ac21a6d-5ab9-4f9c-ac38-46fb4fe1c938"}}, "output_collections": {}, "tool_stdout": "Settings:\n  Output files: \"genome.*.bt2\"\n  Line rate: 6 (line is 64 bytes)\n  Lines per side: 1 (side is 64 bytes)\n  Offset rate: 4 (one in 16)\n  FTable chars: 10\n  Strings: unpacked\n  Max bucket size: default\n  Max bucket size, sqrt multiplier: default\n  Max bucket size, len divisor: 32\n  Difference-cover sample period: 1024\n  Endianness: little\n  Actual local endianness: little\n  Sanity checking: disabled\n  Assertions: disabled\n  Random seed: 0\n  Sizeofs: void*:8, int:4, long:8, size_t:8\nInput files DNA, FASTA:\n  /galaxy/server/database/objects/7/c/8/dataset_7c8dceb1-ea9d-41e2-913d-808e065b1678.dat\nReading reference sizes\n  Time reading reference sizes: 00:00:00\nCalculating joined length\nWriting header\nReserving space for joined string\nJoining reference sequences\n  Time to join reference sequences: 00:00:00\nbmax according to bmaxDivN setting: 517\nUsing parameters --bmax 388 --dcv 1024\n  Doing ahead-of-time memory usage test\n  Passed!  Constructing with these parameters: --bmax 388 --dcv 1024\nConstructing suffix-array element generator\nBuilding DifferenceCoverSample\n  Building sPrime\n  Building sPrimeOrder\n  V-Sorting samples\n  V-Sorting samples time: 00:00:00\n  Allocating rank array\n  Ranking v-sort output\n  Ranking v-sort output time: 00:00:00\n  Invoking Larsson-Sadakane on ranks\n  Invoking Larsson-Sadakane on ranks time: 00:00:00\n  Sanity-checking and returning\nBuilding samples\nReserving space for 86 sample suffixes\nGenerating random suffixes\nQSorting 86 sample offsets, eliminating duplicates\nQSorting sample offsets, eliminating duplicates time: 00:00:00\nMultikey QSorting 86 samples\n  (Using difference cover)\n  Multikey QSorting samples time: 00:00:00\nCalculating bucket sizes\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 12, merged 41; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 6, merged 6; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 5, merged 3; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 3, merged 3; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nAvg bucket size: 284.672 (target: 387)\nConverting suffix-array elements to index image\nAllocating ftab, absorbFtab\nEntering Ebwt loop\nGetting block 1 of 58\n  Reserving size (388) for bucket 1\nGetting block 2 of 58\nGetting block 3 of 58\nGetting block 4 of 58\nGetting block 5 of 58\n  Calculating Z arrays for bucket 1\n  Reserving size (388) for bucket 2\n  Reserving size (388) for bucket 3\n  Reserving size (388) for bucket 4\n  Reserving size (388) for bucket 5\nGetting block 6 of 58\nGetting block 7 of 58\n  Calculating Z arrays for bucket 2\n  Entering block accumulator loop for bucket 1:\n  Calculating Z arrays for bucket 3\n  Calculating Z arrays for bucket 4\n  Calculating Z arrays for bucket 5\n  Reserving size (388) for bucket 6\n  Reserving size (388) for bucket 7\n  Calculating Z arrays for bucket 6\n  Calculating Z arrays for bucket 7\n  Entering block accumulator loop for bucket 3:\n  Entering block accumulator loop for bucket 4:\n  Entering block accumulator loop for bucket 2:\n  Entering block accumulator loop for bucket 5:\n  bucket 1: 10%\n  Entering block accumulator loop for bucket 7:\n  Entering block accumulator loop for bucket 6:\n  bucket 1: 20%\n  bucket 5: 10%\n  bucket 4: 10%\n  bucket 3: 10%\n  bucket 1: 30%\n  bucket 2: 10%\n  bucket 7: 10%\n  bucket 6: 10%\n  bucket 1: 40%\n  bucket 5: 20%\n  bucket 3: 20%\n  bucket 4: 20%\n  bucket 1: 50%\n  bucket 7: 20%\n  bucket 2: 20%\n  bucket 5: 30%\n  bucket 6: 20%\n  bucket 1: 60%\n  bucket 3: 30%\n  bucket 7: 30%\n  bucket 4: 30%\n  bucket 1: 70%\n  bucket 2: 30%\n  bucket 5: 40%\n  bucket 1: 80%\n  bucket 3: 40%\n  bucket 6: 30%\n  bucket 7: 40%\n  bucket 4: 40%\n  bucket 1: 90%\n  bucket 2: 40%\n  bucket 5: 50%\n  bucket 1: 100%\n  bucket 3: 50%\n  bucket 7: 50%\n  bucket 4: 50%\n  Sorting block of length 355 for bucket 1\n  (Using difference cover)\n  bucket 6: 40%\n  bucket 2: 50%\n  bucket 5: 60%\n  bucket 3: 60%\n  bucket 7: 60%\n  bucket 4: 60%\n  bucket 5: 70%\n  bucket 2: 60%\n  bucket 6: 50%\n  bucket 3: 70%\n  bucket 7: 70%\n  bucket 4: 70%\n  bucket 5: 80%\n  bucket 2: 70%\n  bucket 3: 80%\n  bucket 7: 80%\n  bucket 4: 80%\n  bucket 6: 60%\n  bucket 5: 90%\n  bucket 2: 80%\n  bucket 3: 90%\n  bucket 7: 90%\n  bucket 4: 90%\n  bucket 6: 70%\n  bucket 5: 100%\n  Sorting block of length 203 for bucket 5\n  (Using difference cover)\n  bucket 3: 100%\n  bucket 2: 90%\n  Sorting block of length 370 for bucket 3\n  Sorting block time: 00:00:00\n  (Using difference cover)\n  bucket 7: 100%\n  bucket 4: 100%\nReturning block of 356 for bucket 1\n  Sorting block of length 368 for bucket 7\n  (Using difference cover)\n  Sorting block of length 328 for bucket 4\n  (Using difference cover)\n  bucket 6: 80%\n  bucket 2: 100%\n  Sorting block of length 165 for bucket 2\n  (Using difference cover)\n  bucket 6: 90%\n  bucket 6: 100%\n  Sorting block of length 339 for bucket 6\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 369 for bucket 7\n  Sorting block time: 00:00:00\nReturning block of 329 for bucket 4\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 6\n  Sorting block time: 00:00:00\nReturning block of 204 for bucket 5\n  Sorting block time: 00:00:00\nReturning block of 371 for bucket 3\n  Sorting block time: 00:00:00\nReturning block of 166 for bucket 2\nGetting block 8 of 58\n  Reserving size (388) for bucket 8\n  Calculating Z arrays for bucket 8\n  Entering block accumulator loop for bucket 8:\n  bucket 8: 10%\nGetting block 9 of 58\n  Reserving size (388) for bucket 9\n  bucket 8: 20%\n  Calculating Z arrays for bucket 9\nGetting block 10 of 58\n  Entering block accumulator loop for bucket 9:\n  bucket 8: 30%\n  Reserving size (388) for bucket 10\n  Calculating Z arrays for bucket 10\n  bucket 8: 40%\n  Entering block accumulator loop for bucket 10:\n  bucket 9: 10%\n  bucket 8: 50%\n  bucket 9: 20%\n  bucket 10: 10%\n  bucket 9: 30%\n  bucket 8: 60%\n  bucket 10: 20%\n  bucket 9: 40%\n  bucket 8: 70%\n  bucket 10: 30%\n  bucket 9: 50%\n  bucket 8: 80%\n  bucket 8: 90%\n  bucket 9: 60%\n  bucket 10: 40%\n  bucket 8: 100%\n  Sorting block of length 171 for bucket 8\n  (Using difference cover)\n  bucket 9: 70%\n  bucket 10: 50%\n  bucket 9: 80%\n  bucket 10: 60%\n  bucket 9: 90%\n  bucket 9: 100%\n  Sorting block of length 339 for bucket 9\n  (Using difference cover)\n  bucket 10: 70%\n  Sorting block time: 00:00:00\nReturning block of 172 for bucket 8\n  bucket 10: 80%\n  bucket 10: 90%\n  Sorting block time: 00:00:00\n  bucket 10: 100%\nReturning block of 340 for bucket 9\n  Sorting block of length 357 for bucket 10\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 358 for bucket 10\nGetting block 11 of 58\n  Reserving size (388) for bucket 11\nGetting block 12 of 58\n  Calculating Z arrays for bucket 11\n  Reserving size (388) for bucket 12\n  Calculating Z arrays for bucket 12\n  Entering block accumulator loop for bucket 11:\nGetting block 13 of 58\n  Entering block accumulator loop for bucket 12:\n  Reserving size (388) for bucket 13\n  bucket 11: 10%\n  Calculating Z arrays for bucket 13\n  Entering block accumulator loop for bucket 13:\n  bucket 11: 20%\n  bucket 12: 10%\n  bucket 11: 30%\n  bucket 13: 10%\n  bucket 12: 20%\n  bucket 11: 40%\n  bucket 13: 20%\n  bucket 12: 30%\n  bucket 11: 50%\n  bucket 13: 30%\n  bucket 11: 60%\n  bucket 12: 40%\n  bucket 11: 70%\n  bucket 13: 40%\n  bucket 12: 50%\n  bucket 11: 80%\n  bucket 13: 50%\n  bucket 12: 60%\n  bucket 11: 90%\n  bucket 13: 60%\n  bucket 12: 70%\n  bucket 11: 100%\n  Sorting block of length 305 for bucket 11\n  (Using difference cover)\n  bucket 13: 70%\n  bucket 12: 80%\n  bucket 13: 80%\n  bucket 13: 90%\n  bucket 12: 90%\n  bucket 13: 100%\n  bucket 12: 100%\n  Sorting block of length 282 for bucket 13\n  (Using difference cover)\n  Sorting block time: 00:00:00\n  Sorting block of length 185 for bucket 12\n  (Using difference cover)\nReturning block of 306 for bucket 11\n  Sorting block time: 00:00:00\nReturning block of 186 for bucket 12\n  Sorting block time: 00:00:00\nReturning block of 283 for bucket 13\nGetting block 14 of 58\n  Reserving size (388) for bucket 14\n  Calculating Z arrays for bucket 14\n  Entering block accumulator loop for bucket 14:\n  bucket 14: 10%\n  bucket 14: 20%\n  bucket 14: 30%\nGetting block 15 of 58\n  bucket 14: 40%\n  Reserving size (388) for bucket 15\n  Calculating Z arrays for bucket 15\n  Entering block accumulator loop for bucket 15:\n  bucket 14: 50%\n  bucket 15: 10%\n  bucket 14: 60%\n  bucket 15: 20%\n  bucket 14: 70%\n  bucket 15: 30%\n  bucket 14: 80%\n  bucket 15: 40%\n  bucket 15: 50%\n  bucket 14: 90%\n  bucket 15: 60%\n  bucket 14: 100%\n  Sorting block of length 339 for bucket 14\n  (Using difference cover)\n  bucket 15: 70%\n  bucket 15: 80%\n  bucket 15: 90%\n  bucket 15: 100%\n  Sorting block of length 241 for bucket 15\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 14\n  Sorting block time: 00:00:00\nReturning block of 242 for bucket 15\nGetting block 16 of 58\n  Reserving size (388) for bucket 16\n  Calculating Z arrays for bucket 16\nGetting block 17 of 58\n  Entering block accumulator loop for bucket 16:\n  Reserving size (388) for bucket 17\n  Calculating Z arrays for bucket 17\n  Entering block accumulator loop for bucket 17:\n  bucket 16: 10%\n  bucket 17: 10%\n  bucket 17: 20%\n  bucket 16: 20%\n  bucket 17: 30%\n  bucket 16: 30%\n  bucket 17: 40%\n  bucket 16: 40%\n  bucket 17: 50%\n  bucket 17: 60%\n  bucket 16: 50%\n  bucket 17: 70%\n  bucket 16: 60%\n  bucket 17: 80%\n  bucket 16: 70%\n  bucket 17: 90%\n  bucket 16: 80%\n  bucket 17: 100%\n  Sorting block of length 215 for bucket 17\n  (Using difference cover)\n  bucket 16: 90%\n  bucket 16: 100%\n  Sorting block of length 379 for bucket 16\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 216 for bucket 17\n  Sorting block time: 00:00:00\nReturning block of 380 for bucket 16\nGetting block 18 of 58\n  Reserving size (388) for bucket 18\n  Calculating Z arrays for bucket 18\n  Entering block accumulator loop for bucket 18:\n  bucket 18: 10%\n  bucket 18: 20%\n  bucket 18: 30%\nGetting block 19 of 58\n  bucket 18: 40%\n  Reserving size (388) for bucket 19\nGetting block 20 of 58\n  Calculating Z arrays for bucket 19\n  Reserving size (388) for bucket 20\n  bucket 18: 50%\n  Calculating Z arrays for bucket 20\n  Entering block accumulator loop for bucket 19:\n  Entering block accumulator loop for bucket 20:\n  bucket 18: 60%\n  bucket 20: 10%\n  bucket 19: 10%\n  bucket 20: 20%\n  bucket 18: 70%\n  bucket 19: 20%\n  bucket 20: 30%\n  bucket 19: 30%\n  bucket 18: 80%\n  bucket 20: 40%\n  bucket 19: 40%\n  bucket 18: 90%\n  bucket 20: 50%\n  bucket 19: 50%\n  bucket 18: 100%\n  Sorting block of length 378 for bucket 18\n  (Using difference cover)\n  bucket 20: 60%\n  bucket 19: 60%\n  bucket 20: 70%\n  bucket 19: 70%\n  bucket 20: 80%\n  bucket 20: 90%\n  bucket 19: 80%\n  bucket 20: 100%\n  Sorting block of length 313 for bucket 20\n  (Using difference cover)\n  bucket 19: 90%\n  bucket 19: 100%\n  Sorting block of length 334 for bucket 19\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 379 for bucket 18\n  Sorting block time: 00:00:00\nReturning block of 335 for bucket 19\n  Sorting block time: 00:00:00\nReturning block of 314 for bucket 20\nGetting block 21 of 58\n  Reserving size (388) for bucket 21\n  Calculating Z arrays for bucket 21\nGetting block 22 of 58\n  Reserving size (388) for bucket 22\n  Calculating Z arrays for bucket 22\n  Entering block accumulator loop for bucket 21:\n  bucket 21: 10%\n  Entering block accumulator loop for bucket 22:\n  bucket 21: 20%\n  bucket 22: 10%\n  bucket 22: 20%\n  bucket 21: 30%\n  bucket 22: 30%\n  bucket 21: 40%\n  bucket 22: 40%\n  bucket 21: 50%\n  bucket 22: 50%\n  bucket 21: 60%\n  bucket 22: 60%\n  bucket 22: 70%\n  bucket 21: 70%\n  bucket 22: 80%\n  bucket 21: 80%\n  bucket 22: 90%\n  bucket 21: 90%\n  bucket 22: 100%\n  Sorting block of length 386 for bucket 22\n  (Using difference cover)\n  bucket 21: 100%\n  Sorting block of length 210 for bucket 21\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 211 for bucket 21\n  Sorting block time: 00:00:00\nReturning block of 387 for bucket 22\nGetting block 23 of 58\n  Reserving size (388) for bucket 23\n  Calculating Z arrays for bucket 23\nGetting block 24 of 58\n  Entering block accumulator loop for bucket 23:\n  Reserving size (388) for bucket 24\n  Calculating Z arrays for bucket 24\n  Entering block accumulator loop for bucket 24:\n  bucket 23: 10%\n  bucket 24: 10%\n  bucket 24: 20%\n  bucket 23: 20%\n  bucket 24: 30%\n  bucket 23: 30%\n  bucket 24: 40%\n  bucket 24: 50%\n  bucket 23: 40%\n  bucket 24: 60%\n  bucket 23: 50%\n  bucket 24: 70%\n  bucket 23: 60%\n  bucket 24: 80%\n  bucket 23: 70%\n  bucket 24: 90%\n  bucket 24: 100%\n  bucket 23: 80%\n  Sorting block of length 351 for bucket 24\n  (Using difference cover)\n  bucket 23: 90%\n  bucket 23: 100%\n  Sorting block of length 238 for bucket 23\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 352 for bucket 24\n  Sorting block time: 00:00:00\nReturning block of 239 for bucket 23\nGetting block 25 of 58\n  Reserving size (388) for bucket 25\n  Calculating Z arrays for bucket 25\n  Entering block accumulator loop for bucket 25:\n  bucket 25: 10%\n  bucket 25: 20%\n  bucket 25: 30%\n  bucket 25: 40%\n  bucket 25: 50%\nGetting block 26 of 58\n  Reserving size (388) for bucket 26\n  Calculating Z arrays for bucket 26\n  bucket 25: 60%\n  Entering block accumulator loop for bucket 26:\n  bucket 25: 70%\n  bucket 26: 10%\n  bucket 25: 80%\n  bucket 25: 90%\n  bucket 26: 20%\n  bucket 25: 100%\n  Sorting block of length 105 for bucket 25\n  (Using difference cover)\n  bucket 26: 30%\n  bucket 26: 40%\n  bucket 26: 50%\n  Sorting block time: 00:00:00\nReturning block of 106 for bucket 25\n  bucket 26: 60%\n  bucket 26: 70%\n  bucket 26: 80%\n  bucket 26: 90%\n  bucket 26: 100%\n  Sorting block of length 354 for bucket 26\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 355 for bucket 26\nGetting block 27 of 58\n  Reserving size (388) for bucket 27\n  Calculating Z arrays for bucket 27\n  Entering block accumulator loop for bucket 27:\n  bucket 27: 10%\n  bucket 27: 20%\n  bucket 27: 30%\nGetting block 28 of 58\n  Reserving size (388) for bucket 28\n  Calculating Z arrays for bucket 28\n  bucket 27: 40%\n  Entering block accumulator loop for bucket 28:\n  bucket 27: 50%\n  bucket 28: 10%\n  bucket 27: 60%\n  bucket 28: 20%\n  bucket 27: 70%\n  bucket 27: 80%\n  bucket 28: 30%\n  bucket 27: 90%\n  bucket 28: 40%\n  bucket 27: 100%\n  Sorting block of length 334 for bucket 27\n  (Using difference cover)\n  bucket 28: 50%\n  bucket 28: 60%\n  Sorting block time: 00:00:00\nReturning block of 335 for bucket 27\n  bucket 28: 70%\n  bucket 28: 80%\n  bucket 28: 90%\n  bucket 28: 100%\n  Sorting block of length 253 for bucket 28\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 254 for bucket 28\nGetting block 29 of 58\n  Reserving size (388) for bucket 29\n  Calculating Z arrays for bucket 29\nGetting block 30 of 58\n  Reserving size (388) for bucket 30\n  Entering block accumulator loop for bucket 29:\n  Calculating Z arrays for bucket 30\n  Entering block accumulator loop for bucket 30:\n  bucket 29: 10%\nGetting block 31 of 58\n  bucket 30: 10%\n  bucket 29: 20%\n  Reserving size (388) for bucket 31\n  Calculating Z arrays for bucket 31\n  Entering block accumulator loop for bucket 31:\n  bucket 29: 30%\n  bucket 30: 20%\n  bucket 31: 10%\n  bucket 29: 40%\n  bucket 30: 30%\n  bucket 31: 20%\n  bucket 29: 50%\n  bucket 30: 40%\n  bucket 29: 60%\n  bucket 30: 50%\n  bucket 31: 30%\n  bucket 29: 70%\n  bucket 30: 60%\n  bucket 29: 80%\n  bucket 30: 70%\n  bucket 31: 40%\n  bucket 30: 80%\n  bucket 29: 90%\n  bucket 30: 90%\n  bucket 31: 50%\n  bucket 30: 100%\n  bucket 29: 100%\n  Sorting block of length 345 for bucket 30\n  (Using difference cover)\n  bucket 31: 60%\n  Sorting block of length 289 for bucket 29\n  (Using difference cover)\n  bucket 31: 70%\n  bucket 31: 80%\n  bucket 31: 90%\n  bucket 31: 100%\n  Sorting block of length 377 for bucket 31\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 346 for bucket 30\n  Sorting block time: 00:00:00\nReturning block of 290 for bucket 29\n  Sorting block time: 00:00:00\nReturning block of 378 for bucket 31\nGetting block 32 of 58\n  Reserving size (388) for bucket 32\n  Calculating Z arrays for bucket 32\n  Entering block\n..\n0:00\nReturning block of 372 for bucket 22\nGetting block 24 of 57\n  Reserving size (388) for bucket 24\n  Calculating Z arrays for bucket 24\nGetting block 25 of 57\n  Entering block accumulator loop for bucket 24:\n  Reserving size (388) for bucket 25\n  Calculating Z arrays for bucket 25\n  Entering block accumulator loop for bucket 25:\n  bucket 24: 10%\n  bucket 25: 10%\n  bucket 24: 20%\n  bucket 24: 30%\n  bucket 25: 20%\n  bucket 24: 40%\n  bucket 25: 30%\nGetting block 26 of 57\n  Reserving size (388) for bucket 26\n  Calculating Z arrays for bucket 26\n  Entering block accumulator loop for bucket 26:\n  bucket 25: 40%\n  bucket 24: 50%\n  bucket 26: 10%\n  bucket 25: 50%\n  bucket 24: 60%\n  bucket 26: 20%\n  bucket 25: 60%\n  bucket 26: 30%\n  bucket 25: 70%\n  bucket 24: 70%\n  bucket 26: 40%\n  bucket 25: 80%\n  bucket 24: 80%\n  bucket 26: 50%\n  bucket 25: 90%\n  bucket 26: 60%\n  bucket 25: 100%\n  Sorting block of length 286 for bucket 25\n  (Using difference cover)\n  bucket 24: 90%\n  bucket 26: 70%\n  bucket 26: 80%\n  bucket 24: 100%\n  Sorting block of length 245 for bucket 24\n  (Using difference cover)\n  bucket 26: 90%\n  Sorting block time: 00:00:00\nReturning block of 287 for bucket 25\n  bucket 26: 100%\n  Sorting block of length 384 for bucket 26\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 246 for bucket 24\n  Sorting block time: 00:00:00\nReturning block of 385 for bucket 26\nGetting block 27 of 57\n  Reserving size (388) for bucket 27\n  Calculating Z arrays for bucket 27\n  Entering block accumulator loop for bucket 27:\n  bucket 27: 10%\n  bucket 27: 20%\n  bucket 27: 30%\nGetting block 28 of 57\n  bucket 27: 40%\n  Reserving size (388) for bucket 28\n  Calculating Z arrays for bucket 28\n  bucket 27: 50%\n  Entering block accumulator loop for bucket 28:\n  bucket 27: 60%\n  bucket 28: 10%\n  bucket 27: 70%\n  bucket 27: 80%\n  bucket 28: 20%\n  bucket 27: 90%\n  bucket 28: 30%\n  bucket 27: 100%\n  Sorting block of length 359 for bucket 27\n  (Using difference cover)\n  bucket 28: 40%\n  bucket 28: 50%\n  bucket 28: 60%\n  Sorting block time: 00:00:00\nReturning block of 360 for bucket 27\n  bucket 28: 70%\n  bucket 28: 80%\n  bucket 28: 90%\n  bucket 28: 100%\n  Sorting block of length 387 for bucket 28\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 28\nGetting block 29 of 57\n  Reserving size (388) for bucket 29\nGetting block 30 of 57\n  Calculating Z arrays for bucket 29\n  Reserving size (388) for bucket 30\n  Calculating Z arrays for bucket 30\n  Entering block accumulator loop for bucket 29:\n  Entering block accumulator loop for bucket 30:\n  bucket 29: 10%\n  bucket 30: 10%\n  bucket 29: 20%\n  bucket 29: 30%\n  bucket 30: 20%\n  bucket 29: 40%\n  bucket 29: 50%\n  bucket 30: 30%\n  bucket 29: 60%\n  bucket 29: 70%\n  bucket 30: 40%\n  bucket 29: 80%\n  bucket 30: 50%\n  bucket 29: 90%\n  bucket 30: 60%\n  bucket 29: 100%\n  Sorting block of length 195 for bucket 29\n  (Using difference cover)\n  bucket 30: 70%\n  bucket 30: 80%\n  Sorting block time: 00:00:00\nReturning block of 196 for bucket 29\n  bucket 30: 90%\n  bucket 30: 100%\n  Sorting block of length 257 for bucket 30\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 258 for bucket 30\nGetting block 31 of 57\n  Reserving size (388) for bucket 31\n  Calculating Z arrays for bucket 31\n  Entering block accumulator loop for bucket 31:\n  bucket 31: 10%\nGetting block 32 of 57\n  Reserving size (388) for bucket 32\n  bucket 31: 20%\n  Calculating Z arrays for bucket 32\n  Entering block accumulator loop for bucket 32:\n  bucket 31: 30%\n  bucket 31: 40%\n  bucket 32: 10%\n  bucket 31: 50%\n  bucket 32: 20%\n  bucket 32: 30%\n  bucket 31: 60%\n  bucket 32: 40%\n  bucket 31: 70%\n  bucket 32: 50%\n  bucket 31: 80%\n  bucket 32: 60%\n  bucket 32: 70%\n  bucket 31: 90%\n  bucket 32: 80%\n  bucket 31: 100%\n  Sorting block of length 310 for bucket 31\n  (Using difference cover)\n  bucket 32: 90%\n  bucket 32: 100%\n  Sorting block of length 219 for bucket 32\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 311 for bucket 31\n  Sorting block time: 00:00:00\nReturning block of 220 for bucket 32\nGetting block 33 of 57\n  Reserving size (388) for bucket 33\n  Calculating Z arrays for bucket 33\n  Entering block accumulator loop for bucket 33:\n  bucket 33: 10%\nGetting block 34 of 57\n  bucket 33: 20%\n  Reserving size (388) for bucket 34\n  Calculating Z arrays for bucket 34\n  Entering block accumulator loop for bucket 34:\n  bucket 33: 30%\n  bucket 34: 10%\n  bucket 33: 40%\n  bucket 34: 20%\n  bucket 33: 50%\n  bucket 34: 30%\n  bucket 34: 40%\n  bucket 33: 60%\n  bucket 34: 50%\n  bucket 33: 70%\n  bucket 34: 60%\n  bucket 33: 80%\n  bucket 34: 70%\n  bucket 33: 90%\n  bucket 34: 80%\n  bucket 33: 100%\n  Sorting block of length 387 for bucket 33\n  (Using difference cover)\n  bucket 34: 90%\n  bucket 34: 100%\n  Sorting block of length 275 for bucket 34\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 33\n  Sorting block time: 00:00:00\nReturning block of 276 for bucket 34\nGetting block 35 of 57\n  Reserving size (388) for bucket 35\nGetting block 36 of 57\n  Calculating Z arrays for bucket 35\n  Reserving size (388) for bucket 36\n  Calculating Z arrays for bucket 36\n  Entering block accumulator loop for bucket 35:\n  Entering block accumulator loop for bucket 36:\n  bucket 36: 10%\n  bucket 35: 10%\n  bucket 36: 20%\n  bucket 35: 20%\n  bucket 36: 30%\n  bucket 35: 30%\n  bucket 36: 40%\n  bucket 35: 40%\n  bucket 36: 50%\n  bucket 35: 50%\n  bucket 36: 60%\n  bucket 35: 60%\n  bucket 36: 70%\n  bucket 35: 70%\n  bucket 36: 80%\n  bucket 35: 80%\n  bucket 36: 90%\n  bucket 35: 90%\n  bucket 35: 100%\n  bucket 36: 100%\n  Sorting block of length 350 for bucket 35\n  (Using difference cover)\n  Sorting block of length 150 for bucket 36\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 151 for bucket 36\n  Sorting block time: 00:00:00\nReturning block of 351 for bucket 35\nGetting block 37 of 57\n  Reserving size (388) for bucket 37\n  Calculating Z arrays for bucket 37\n  Entering block accumulator loop for bucket 37:\n  bucket 37: 10%\nGetting block 38 of 57\n  Reserving size (388) for bucket 38\n  Calculating Z arrays for bucket 38\n  Entering block accumulator loop for bucket 38:\n  bucket 37: 20%\n  bucket 37: 30%\n  bucket 38: 10%\n  bucket 37: 40%\n  bucket 38: 20%\n  bucket 37: 50%\n  bucket 38: 30%\n  bucket 37: 60%\n  bucket 38: 40%\nGetting block 39 of 57\n  Reserving size (388) for bucket 39\n  bucket 38: 50%\n  Calculating Z arrays for bucket 39\n  bucket 37: 70%\n  Entering block accumulator loop for bucket 39:\n  bucket 39: 10%\n  bucket 37: 80%\n  bucket 38: 60%\n  bucket 39: 20%\n  bucket 38: 70%\n  bucket 39: 30%\n  bucket 38: 80%\n  bucket 37: 90%\n  bucket 39: 40%\n  bucket 38: 90%\n  bucket 37: 100%\n  Sorting block of length 267 for bucket 37\n  (Using difference cover)\n  bucket 39: 50%\n  bucket 38: 100%\n  Sorting block of length 337 for bucket 38\n  (Using difference cover)\n  bucket 39: 60%\n  bucket 39: 70%\n  bucket 39: 80%\n  bucket 39: 90%\n  bucket 39: 100%\n  Sorting block of length 387 for bucket 39\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 268 for bucket 37\n  Sorting block time: 00:00:00\nReturning block of 338 for bucket 38\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 39\nGetting block 40 of 57\n  Reserving size (388) for bucket 40\n  Calculating Z arrays for bucket 40\n  Entering block accumulator loop for bucket 40:\nGetting block 41 of 57\n  bucket 40: 10%\n  Reserving size (388) for bucket 41\n  Calculating Z arrays for bucket 41\n  Entering block accumulator loop for bucket 41:\n  bucket 40: 20%\n  bucket 40: 30%\n  bucket 41: 10%\n  bucket 40: 40%\n  bucket 41: 20%\n  bucket 41: 30%\n  bucket 40: 50%\n  bucket 41: 40%\n  bucket 40: 60%\n  bucket 41: 50%\n  bucket 40: 70%\n  bucket 41: 60%\n  bucket 41: 70%\n  bucket 40: 80%\n  bucket 41: 80%\n  bucket 40: 90%\n  bucket 41: 90%\n  bucket 40: 100%\n  Sorting block of length 379 for bucket 40\n  (Using difference cover)\n  bucket 41: 100%\n  Sorting block of length 330 for bucket 41\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 331 for bucket 41\n  Sorting block time: 00:00:00\nReturning block of 380 for bucket 40\nGetting block 42 of 57\n  Reserving size (388) for bucket 42\nGetting block 43 of 57\n  Calculating Z arrays for bucket 42\n  Reserving size (388) for bucket 43\n  Calculating Z arrays for bucket 43\n  Entering block accumulator loop for bucket 42:\n  Entering block accumulator loop for bucket 43:\n  bucket 43: 10%\n  bucket 42: 10%\n  bucket 43: 20%\n  bucket 42: 20%\n  bucket 43: 30%\n  bucket 42: 30%\n  bucket 43: 40%\n  bucket 42: 40%\n  bucket 43: 50%\n  bucket 42: 50%\n  bucket 43: 60%\n  bucket 42: 60%\n  bucket 43: 70%\n  bucket 43: 80%\n  bucket 42: 70%\n  bucket 43: 90%\n  bucket 42: 80%\n  bucket 43: 100%\n  bucket 42: 90%\n  Sorting block of length 321 for bucket 43\n  (Using difference cover)\n  bucket 42: 100%\n  Sorting block of length 188 for bucket 42\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 322 for bucket 43\n  Sorting block time: 00:00:00\nReturning block of 189 for bucket 42\nGetting block 44 of 57\n  Reserving size (388) for bucket 44\n  Calculating Z arrays for bucket 44\n  Entering block accumulator loop for bucket 44:\n  bucket 44: 10%\nGetting block 45 of 57\n  bucket 44: 20%\n  Reserving size (388) for bucket 45\n  Calculating Z arrays for bucket 45\nGetting block 46 of 57\n  Reserving size (388) for bucket 46\n  Calculating Z arrays for bucket 46\n  Entering block accumulator loop for bucket 45:\n  Entering block accumulator loop for bucket 46:\n  bucket 44: 30%\n  bucket 45: 10%\n  bucket 45: 20%\n  bucket 46: 10%\n  bucket 44: 40%\n  bucket 45: 30%\n  bucket 45: 40%\n  bucket 46: 20%\n  bucket 44: 50%\n  bucket 45: 50%\n  bucket 46: 30%\n  bucket 45: 60%\n  bucket 44: 60%\n  bucket 45: 70%\n  bucket 46: 40%\n  bucket 44: 70%\n  bucket 45: 80%\n  bucket 46: 50%\n  bucket 45: 90%\n  bucket 44: 80%\n  bucket 45: 100%\n  bucket 46: 60%\n  Sorting block of length 365 for bucket 45\n  (Using difference cover)\n  bucket 44: 90%\n  bucket 46: 70%\n  bucket 44: 100%\n  Sorting block of length 366 for bucket 44\n  (Using difference cover)\n  bucket 46: 80%\n  Sorting block time: 00:00:00\nReturning block of 366 for bucket 45\n  bucket 46: 90%\n  bucket 46: 100%\n  Sorting block of length 253 for bucket 46\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 367 for bucket 44\n  Sorting block time: 00:00:00\nReturning block of 254 for bucket 46\nGetting block 47 of 57\n  Reserving size (388) for bucket 47\n  Calculating Z arrays for bucket 47\n  Entering block accumulator loop for bucket 47:\n  bucket 47: 10%\n  bucket 47: 20%\n  bucket 47: 30%\n  bucket 47: 40%\n  bucket 47: 50%\n  bucket 47: 60%\n  bucket 47: 70%\n  bucket 47: 80%\n  bucket 47: 90%\n  bucket 47: 100%\n  Sorting block of length 217 for bucket 47\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 218 for bucket 47\nGetting block 48 of 57\n  Reserving size (388) for bucket 48\n  Calculating Z arrays for bucket 48\nGetting block 49 of 57\n  Reserving size (388) for bucket 49\n  Calculating Z arrays for bucket 49\n  Entering block accumulator loop for bucket 48:\n  Entering block accumulator loop for bucket 49:\n  bucket 48: 10%\n  bucket 49: 10%\n  bucket 49: 20%\n  bucket 48: 20%\n  bucket 49: 30%\n  bucket 48: 30%\n  bucket 49: 40%\n  bucket 48: 40%\nGetting block 50 of 57\n  Reserving size (388) for bucket 50\n  Calculating Z arrays for bucket 50\n  bucket 49: 50%\n  Entering block accumulator loop for bucket 50:\n  bucket 49: 60%\n  bucket 48: 50%\n  bucket 49: 70%\n  bucket 50: 10%\n  bucket 48: 60%\n  bucket 49: 80%\n  bucket 49: 90%\n  bucket 50: 20%\n  bucket 48: 70%\n  bucket 49: 100%\n  Sorting block of length 112 for bucket 49\n  (Using difference cover)\n  bucket 48: 80%\n  bucket 50: 30%\n  bucket 48: 90%\n  bucket 50: 40%\n  Sorting block time: 00:00:00\nReturning block of 113 for bucket 49\n  bucket 50: 50%\n  bucket 48: 100%\n  Sorting block of length 384 for bucket 48\n  (Using difference cover)\n  bucket 50: 60%\n  bucket 50: 70%\n  bucket 50: 80%\n  Sorting block time: 00:00:00\nReturning block of 385 for bucket 48\n  bucket 50: 90%\n  bucket 50: 100%\n  Sorting block of length 275 for bucket 50\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 276 for bucket 50\nGetting block 51 of 57\n  Reserving size (388) for bucket 51\n  Calculating Z arrays for bucket 51\n  Entering block accumulator loop for bucket 51:\n  bucket 51: 10%\n  bucket 51: 20%\nGetting block 52 of 57\n  bucket 51: 30%\n  Reserving size (388) for bucket 52\n  Calculating Z arrays for bucket 52\n  Entering block accumulator loop for bucket 52:\n  bucket 51: 40%\n  bucket 52: 10%\n  bucket 51: 50%\n  bucket 52: 20%\n  bucket 51: 60%\n  bucket 52: 30%\n  bucket 51: 70%\n  bucket 52: 40%\n  bucket 51: 80%\n  bucket 51: 90%\n  bucket 52: 50%\n  bucket 51: 100%\n  bucket 52: 60%\n  Sorting block of length 350 for bucket 51\n  (Using difference cover)\n  bucket 52: 70%\n  bucket 52: 80%\n  bucket 52: 90%\n  Sorting block time: 00:00:00\nReturning block of 351 for bucket 51\n  bucket 52: 100%\n  Sorting block of length 378 for bucket 52\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 379 for bucket 52\nGetting block 53 of 57\n  Reserving size (388) for bucket 53\nGetting block 54 of 57\n  Calculating Z arrays for bucket 53\n  Reserving size (388) for bucket 54\n  Calculating Z arrays for bucket 54\n  Entering block accumulator loop for bucket 53:\n  Entering block accumulator loop for bucket 54:\n  bucket 53: 10%\n  bucket 53: 20%\n  bucket 54: 10%\n  bucket 53: 30%\n  bucket 54: 20%\n  bucket 53: 40%\n  bucket 54: 30%\n  bucket 53: 50%\n  bucket 53: 60%\n  bucket 54: 40%\n  bucket 53: 70%\n  bucket 54: 50%\n  bucket 53: 80%\n  bucket 54: 60%\n  bucket 53: 90%\n  bucket 54: 70%\n  bucket 53: 100%\n  Sorting block of length 370 for bucket 53\n  (Using difference cover)\n  bucket 54: 80%\n  bucket 54: 90%\n  bucket 54: 100%\n  Sorting block of length 237 for bucket 54\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 371 for bucket 53\n  Sorting block time: 00:00:00\nReturning block of 238 for bucket 54\nGetting block 55 of 57\n  Reserving size (388) for bucket 55\n  Calculating Z arrays for bucket 55\n  Entering block accumulator loop for bucket 55:\nGetting block 56 of 57\n  bucket 55: 10%\n  Reserving size (388) for bucket 56\n  Calculating Z arrays for bucket 56\n  Entering block accumulator loop for bucket 56:\n  bucket 55: 20%\n  bucket 55: 30%\n  bucket 56: 10%\n  bucket 56: 20%\n  bucket 55: 40%\n  bucket 56: 30%\n  bucket 55: 50%\n  bucket 56: 40%\n  bucket 56: 50%\n  bucket 55: 60%\n  bucket 56: 60%\n  bucket 55: 70%\n  bucket 56: 70%\n  bucket 55: 80%\n  bucket 56: 80%\n  bucket 55: 90%\n  bucket 56: 90%\n  bucket 56: 100%\n  bucket 55: 100%\n  Sorting block of length 270 for bucket 56\n  (Using difference cover)\n  Sorting block of length 344 for bucket 55\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 345 for bucket 55\n  Sorting block time: 00:00:00\nReturning block of 271 for bucket 56\nGetting block 57 of 57\n  Reserving size (388) for bucket 57\n  Calculating Z arrays for bucket 57\n  Entering block accumulator loop for bucket 57:\n  bucket 57: 10%\n  bucket 57: 20%\n  bucket 57: 30%\n  bucket 57: 40%\n  bucket 57: 50%\n  bucket 57: 60%\n  bucket 57: 70%\n  bucket 57: 80%\n  bucket 57: 90%\n  bucket 57: 100%\n  Sorting block of length 132 for bucket 57\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 133 for bucket 57\nExited Ebwt loop\nfchr[A]: 0\nfchr[C]: 5124\nfchr[G]: 10305\nfchr[T]: 12474\nfchr[$]: 16568\nExiting Ebwt::buildToDisk()\nReturning from initFromVector\nWrote 4200050 bytes to primary EBWT file: genome.rev.1.bt2.tmp\nWrote 4148 bytes to secondary EBWT file: genome.rev.2.bt2.tmp\nRe-opening _in1 and _in2 as input streams\nReturning from Ebwt constructor\nHeaders:\n    len: 16568\n    bwtLen: 16569\n    sz: 4142\n    bwtSz: 4143\n    lineRate: 6\n    offRate: 4\n    offMask: 0xfffffff0\n    ftabChars: 10\n    eftabLen: 20\n    eftabSz: 80\n    ftabLen: 1048577\n    ftabSz: 4194308\n    offsLen: 1036\n    offsSz: 4144\n    lineSz: 64\n    sideSz: 64\n    sideBwtSz: 48\n    sideBwtLen: 192\n    numSides: 87\n    numLines: 87\n    ebwtTotLen: 5568\n    ebwtTotSz: 5568\n    color: 0\n    reverse: 1\nTotal time for backward call to driver() for mirror index: 00:00:00\n", "tool_stderr": "Building a SMALL index\nRenaming genome.3.bt2.tmp to genome.3.bt2\nRenaming genome.4.bt2.tmp to genome.4.bt2\nRenaming genome.1.bt2.tmp to genome.1.bt2\nRenaming genome.2.bt2.tmp to genome.2.bt2\nRenaming genome.rev.1.bt2.tmp to genome.rev.1.bt2\nRenaming genome.rev.2.bt2.tmp to genome.rev.2.bt2\n3 reads; of these:\n  3 (100.00%) were paired; of these:\n    2 (66.67%) aligned concordantly 0 times\n    1 (33.33%) aligned concordantly exactly 1 time\n    0 (0.00%) aligned concordantly >1 times\n    ----\n    2 pairs aligned concordantly 0 times; of these:\n      0 (0.00%) aligned discordantly 1 time\n    ----\n    2 pairs aligned 0 times concordantly or discordantly; of these:\n      4 mates make up the pairs; of these:\n        3 (75.00%) aligned 0 times\n        1 (25.00%) aligned exactly 1 time\n        0 (0.00%) aligned >1 times\n50.00% overall alignment rate\n", "job_stdout": "", "job_stderr": "", "stderr": "Building a SMALL index\nRenaming genome.3.bt2.tmp to genome.3.bt2\nRenaming genome.4.bt2.tmp to genome.4.bt2\nRenaming genome.1.bt2.tmp to genome.1.bt2\nRenaming genome.2.bt2.tmp to genome.2.bt2\nRenaming genome.rev.1.bt2.tmp to genome.rev.1.bt2\nRenaming genome.rev.2.bt2.tmp to genome.rev.2.bt2\n3 reads; of these:\n  3 (100.00%) were paired; of these:\n    2 (66.67%) aligned concordantly 0 times\n    1 (33.33%) aligned concordantly exactly 1 time\n    0 (0.00%) aligned concordantly >1 times\n    ----\n    2 pairs aligned concordantly 0 times; of these:\n      0 (0.00%) aligned discordantly 1 time\n    ----\n    2 pairs aligned 0 times concordantly or discordantly; of these:\n      4 mates make up the pairs; of these:\n        3 (75.00%) aligned 0 times\n        1 (25.00%) aligned exactly 1 time\n        0 (0.00%) aligned >1 times\n50.00% overall alignment rate\n", "stdout": "Settings:\n  Output files: \"genome.*.bt2\"\n  Line rate: 6 (line is 64 bytes)\n  Lines per side: 1 (side is 64 bytes)\n  Offset rate: 4 (one in 16)\n  FTable chars: 10\n  Strings: unpacked\n  Max bucket size: default\n  Max bucket size, sqrt multiplier: default\n  Max bucket size, len divisor: 32\n  Difference-cover sample period: 1024\n  Endianness: little\n  Actual local endianness: little\n  Sanity checking: disabled\n  Assertions: disabled\n  Random seed: 0\n  Sizeofs: void*:8, int:4, long:8, size_t:8\nInput files DNA, FASTA:\n  /galaxy/server/database/objects/7/c/8/dataset_7c8dceb1-ea9d-41e2-913d-808e065b1678.dat\nReading reference sizes\n  Time reading reference sizes: 00:00:00\nCalculating joined length\nWriting header\nReserving space for joined string\nJoining reference sequences\n  Time to join reference sequences: 00:00:00\nbmax according to bmaxDivN setting: 517\nUsing parameters --bmax 388 --dcv 1024\n  Doing ahead-of-time memory usage test\n  Passed!  Constructing with these parameters: --bmax 388 --dcv 1024\nConstructing suffix-array element generator\nBuilding DifferenceCoverSample\n  Building sPrime\n  Building sPrimeOrder\n  V-Sorting samples\n  V-Sorting samples time: 00:00:00\n  Allocating rank array\n  Ranking v-sort output\n  Ranking v-sort output time: 00:00:00\n  Invoking Larsson-Sadakane on ranks\n  Invoking Larsson-Sadakane on ranks time: 00:00:00\n  Sanity-checking and returning\nBuilding samples\nReserving space for 86 sample suffixes\nGenerating random suffixes\nQSorting 86 sample offsets, eliminating duplicates\nQSorting sample offsets, eliminating duplicates time: 00:00:00\nMultikey QSorting 86 samples\n  (Using difference cover)\n  Multikey QSorting samples time: 00:00:00\nCalculating bucket sizes\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 12, merged 41; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 6, merged 6; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 5, merged 3; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 3, merged 3; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nAvg bucket size: 284.672 (target: 387)\nConverting suffix-array elements to index image\nAllocating ftab, absorbFtab\nEntering Ebwt loop\nGetting block 1 of 58\n  Reserving size (388) for bucket 1\nGetting block 2 of 58\nGetting block 3 of 58\nGetting block 4 of 58\nGetting block 5 of 58\n  Calculating Z arrays for bucket 1\n  Reserving size (388) for bucket 2\n  Reserving size (388) for bucket 3\n  Reserving size (388) for bucket 4\n  Reserving size (388) for bucket 5\nGetting block 6 of 58\nGetting block 7 of 58\n  Calculating Z arrays for bucket 2\n  Entering block accumulator loop for bucket 1:\n  Calculating Z arrays for bucket 3\n  Calculating Z arrays for bucket 4\n  Calculating Z arrays for bucket 5\n  Reserving size (388) for bucket 6\n  Reserving size (388) for bucket 7\n  Calculating Z arrays for bucket 6\n  Calculating Z arrays for bucket 7\n  Entering block accumulator loop for bucket 3:\n  Entering block accumulator loop for bucket 4:\n  Entering block accumulator loop for bucket 2:\n  Entering block accumulator loop for bucket 5:\n  bucket 1: 10%\n  Entering block accumulator loop for bucket 7:\n  Entering block accumulator loop for bucket 6:\n  bucket 1: 20%\n  bucket 5: 10%\n  bucket 4: 10%\n  bucket 3: 10%\n  bucket 1: 30%\n  bucket 2: 10%\n  bucket 7: 10%\n  bucket 6: 10%\n  bucket 1: 40%\n  bucket 5: 20%\n  bucket 3: 20%\n  bucket 4: 20%\n  bucket 1: 50%\n  bucket 7: 20%\n  bucket 2: 20%\n  bucket 5: 30%\n  bucket 6: 20%\n  bucket 1: 60%\n  bucket 3: 30%\n  bucket 7: 30%\n  bucket 4: 30%\n  bucket 1: 70%\n  bucket 2: 30%\n  bucket 5: 40%\n  bucket 1: 80%\n  bucket 3: 40%\n  bucket 6: 30%\n  bucket 7: 40%\n  bucket 4: 40%\n  bucket 1: 90%\n  bucket 2: 40%\n  bucket 5: 50%\n  bucket 1: 100%\n  bucket 3: 50%\n  bucket 7: 50%\n  bucket 4: 50%\n  Sorting block of length 355 for bucket 1\n  (Using difference cover)\n  bucket 6: 40%\n  bucket 2: 50%\n  bucket 5: 60%\n  bucket 3: 60%\n  bucket 7: 60%\n  bucket 4: 60%\n  bucket 5: 70%\n  bucket 2: 60%\n  bucket 6: 50%\n  bucket 3: 70%\n  bucket 7: 70%\n  bucket 4: 70%\n  bucket 5: 80%\n  bucket 2: 70%\n  bucket 3: 80%\n  bucket 7: 80%\n  bucket 4: 80%\n  bucket 6: 60%\n  bucket 5: 90%\n  bucket 2: 80%\n  bucket 3: 90%\n  bucket 7: 90%\n  bucket 4: 90%\n  bucket 6: 70%\n  bucket 5: 100%\n  Sorting block of length 203 for bucket 5\n  (Using difference cover)\n  bucket 3: 100%\n  bucket 2: 90%\n  Sorting block of length 370 for bucket 3\n  Sorting block time: 00:00:00\n  (Using difference cover)\n  bucket 7: 100%\n  bucket 4: 100%\nReturning block of 356 for bucket 1\n  Sorting block of length 368 for bucket 7\n  (Using difference cover)\n  Sorting block of length 328 for bucket 4\n  (Using difference cover)\n  bucket 6: 80%\n  bucket 2: 100%\n  Sorting block of length 165 for bucket 2\n  (Using difference cover)\n  bucket 6: 90%\n  bucket 6: 100%\n  Sorting block of length 339 for bucket 6\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 369 for bucket 7\n  Sorting block time: 00:00:00\nReturning block of 329 for bucket 4\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 6\n  Sorting block time: 00:00:00\nReturning block of 204 for bucket 5\n  Sorting block time: 00:00:00\nReturning block of 371 for bucket 3\n  Sorting block time: 00:00:00\nReturning block of 166 for bucket 2\nGetting block 8 of 58\n  Reserving size (388) for bucket 8\n  Calculating Z arrays for bucket 8\n  Entering block accumulator loop for bucket 8:\n  bucket 8: 10%\nGetting block 9 of 58\n  Reserving size (388) for bucket 9\n  bucket 8: 20%\n  Calculating Z arrays for bucket 9\nGetting block 10 of 58\n  Entering block accumulator loop for bucket 9:\n  bucket 8: 30%\n  Reserving size (388) for bucket 10\n  Calculating Z arrays for bucket 10\n  bucket 8: 40%\n  Entering block accumulator loop for bucket 10:\n  bucket 9: 10%\n  bucket 8: 50%\n  bucket 9: 20%\n  bucket 10: 10%\n  bucket 9: 30%\n  bucket 8: 60%\n  bucket 10: 20%\n  bucket 9: 40%\n  bucket 8: 70%\n  bucket 10: 30%\n  bucket 9: 50%\n  bucket 8: 80%\n  bucket 8: 90%\n  bucket 9: 60%\n  bucket 10: 40%\n  bucket 8: 100%\n  Sorting block of length 171 for bucket 8\n  (Using difference cover)\n  bucket 9: 70%\n  bucket 10: 50%\n  bucket 9: 80%\n  bucket 10: 60%\n  bucket 9: 90%\n  bucket 9: 100%\n  Sorting block of length 339 for bucket 9\n  (Using difference cover)\n  bucket 10: 70%\n  Sorting block time: 00:00:00\nReturning block of 172 for bucket 8\n  bucket 10: 80%\n  bucket 10: 90%\n  Sorting block time: 00:00:00\n  bucket 10: 100%\nReturning block of 340 for bucket 9\n  Sorting block of length 357 for bucket 10\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 358 for bucket 10\nGetting block 11 of 58\n  Reserving size (388) for bucket 11\nGetting block 12 of 58\n  Calculating Z arrays for bucket 11\n  Reserving size (388) for bucket 12\n  Calculating Z arrays for bucket 12\n  Entering block accumulator loop for bucket 11:\nGetting block 13 of 58\n  Entering block accumulator loop for bucket 12:\n  Reserving size (388) for bucket 13\n  bucket 11: 10%\n  Calculating Z arrays for bucket 13\n  Entering block accumulator loop for bucket 13:\n  bucket 11: 20%\n  bucket 12: 10%\n  bucket 11: 30%\n  bucket 13: 10%\n  bucket 12: 20%\n  bucket 11: 40%\n  bucket 13: 20%\n  bucket 12: 30%\n  bucket 11: 50%\n  bucket 13: 30%\n  bucket 11: 60%\n  bucket 12: 40%\n  bucket 11: 70%\n  bucket 13: 40%\n  bucket 12: 50%\n  bucket 11: 80%\n  bucket 13: 50%\n  bucket 12: 60%\n  bucket 11: 90%\n  bucket 13: 60%\n  bucket 12: 70%\n  bucket 11: 100%\n  Sorting block of length 305 for bucket 11\n  (Using difference cover)\n  bucket 13: 70%\n  bucket 12: 80%\n  bucket 13: 80%\n  bucket 13: 90%\n  bucket 12: 90%\n  bucket 13: 100%\n  bucket 12: 100%\n  Sorting block of length 282 for bucket 13\n  (Using difference cover)\n  Sorting block time: 00:00:00\n  Sorting block of length 185 for bucket 12\n  (Using difference cover)\nReturning block of 306 for bucket 11\n  Sorting block time: 00:00:00\nReturning block of 186 for bucket 12\n  Sorting block time: 00:00:00\nReturning block of 283 for bucket 13\nGetting block 14 of 58\n  Reserving size (388) for bucket 14\n  Calculating Z arrays for bucket 14\n  Entering block accumulator loop for bucket 14:\n  bucket 14: 10%\n  bucket 14: 20%\n  bucket 14: 30%\nGetting block 15 of 58\n  bucket 14: 40%\n  Reserving size (388) for bucket 15\n  Calculating Z arrays for bucket 15\n  Entering block accumulator loop for bucket 15:\n  bucket 14: 50%\n  bucket 15: 10%\n  bucket 14: 60%\n  bucket 15: 20%\n  bucket 14: 70%\n  bucket 15: 30%\n  bucket 14: 80%\n  bucket 15: 40%\n  bucket 15: 50%\n  bucket 14: 90%\n  bucket 15: 60%\n  bucket 14: 100%\n  Sorting block of length 339 for bucket 14\n  (Using difference cover)\n  bucket 15: 70%\n  bucket 15: 80%\n  bucket 15: 90%\n  bucket 15: 100%\n  Sorting block of length 241 for bucket 15\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 14\n  Sorting block time: 00:00:00\nReturning block of 242 for bucket 15\nGetting block 16 of 58\n  Reserving size (388) for bucket 16\n  Calculating Z arrays for bucket 16\nGetting block 17 of 58\n  Entering block accumulator loop for bucket 16:\n  Reserving size (388) for bucket 17\n  Calculating Z arrays for bucket 17\n  Entering block accumulator loop for bucket 17:\n  bucket 16: 10%\n  bucket 17: 10%\n  bucket 17: 20%\n  bucket 16: 20%\n  bucket 17: 30%\n  bucket 16: 30%\n  bucket 17: 40%\n  bucket 16: 40%\n  bucket 17: 50%\n  bucket 17: 60%\n  bucket 16: 50%\n  bucket 17: 70%\n  bucket 16: 60%\n  bucket 17: 80%\n  bucket 16: 70%\n  bucket 17: 90%\n  bucket 16: 80%\n  bucket 17: 100%\n  Sorting block of length 215 for bucket 17\n  (Using difference cover)\n  bucket 16: 90%\n  bucket 16: 100%\n  Sorting block of length 379 for bucket 16\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 216 for bucket 17\n  Sorting block time: 00:00:00\nReturning block of 380 for bucket 16\nGetting block 18 of 58\n  Reserving size (388) for bucket 18\n  Calculating Z arrays for bucket 18\n  Entering block accumulator loop for bucket 18:\n  bucket 18: 10%\n  bucket 18: 20%\n  bucket 18: 30%\nGetting block 19 of 58\n  bucket 18: 40%\n  Reserving size (388) for bucket 19\nGetting block 20 of 58\n  Calculating Z arrays for bucket 19\n  Reserving size (388) for bucket 20\n  bucket 18: 50%\n  Calculating Z arrays for bucket 20\n  Entering block accumulator loop for bucket 19:\n  Entering block accumulator loop for bucket 20:\n  bucket 18: 60%\n  bucket 20: 10%\n  bucket 19: 10%\n  bucket 20: 20%\n  bucket 18: 70%\n  bucket 19: 20%\n  bucket 20: 30%\n  bucket 19: 30%\n  bucket 18: 80%\n  bucket 20: 40%\n  bucket 19: 40%\n  bucket 18: 90%\n  bucket 20: 50%\n  bucket 19: 50%\n  bucket 18: 100%\n  Sorting block of length 378 for bucket 18\n  (Using difference cover)\n  bucket 20: 60%\n  bucket 19: 60%\n  bucket 20: 70%\n  bucket 19: 70%\n  bucket 20: 80%\n  bucket 20: 90%\n  bucket 19: 80%\n  bucket 20: 100%\n  Sorting block of length 313 for bucket 20\n  (Using difference cover)\n  bucket 19: 90%\n  bucket 19: 100%\n  Sorting block of length 334 for bucket 19\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 379 for bucket 18\n  Sorting block time: 00:00:00\nReturning block of 335 for bucket 19\n  Sorting block time: 00:00:00\nReturning block of 314 for bucket 20\nGetting block 21 of 58\n  Reserving size (388) for bucket 21\n  Calculating Z arrays for bucket 21\nGetting block 22 of 58\n  Reserving size (388) for bucket 22\n  Calculating Z arrays for bucket 22\n  Entering block accumulator loop for bucket 21:\n  bucket 21: 10%\n  Entering block accumulator loop for bucket 22:\n  bucket 21: 20%\n  bucket 22: 10%\n  bucket 22: 20%\n  bucket 21: 30%\n  bucket 22: 30%\n  bucket 21: 40%\n  bucket 22: 40%\n  bucket 21: 50%\n  bucket 22: 50%\n  bucket 21: 60%\n  bucket 22: 60%\n  bucket 22: 70%\n  bucket 21: 70%\n  bucket 22: 80%\n  bucket 21: 80%\n  bucket 22: 90%\n  bucket 21: 90%\n  bucket 22: 100%\n  Sorting block of length 386 for bucket 22\n  (Using difference cover)\n  bucket 21: 100%\n  Sorting block of length 210 for bucket 21\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 211 for bucket 21\n  Sorting block time: 00:00:00\nReturning block of 387 for bucket 22\nGetting block 23 of 58\n  Reserving size (388) for bucket 23\n  Calculating Z arrays for bucket 23\nGetting block 24 of 58\n  Entering block accumulator loop for bucket 23:\n  Reserving size (388) for bucket 24\n  Calculating Z arrays for bucket 24\n  Entering block accumulator loop for bucket 24:\n  bucket 23: 10%\n  bucket 24: 10%\n  bucket 24: 20%\n  bucket 23: 20%\n  bucket 24: 30%\n  bucket 23: 30%\n  bucket 24: 40%\n  bucket 24: 50%\n  bucket 23: 40%\n  bucket 24: 60%\n  bucket 23: 50%\n  bucket 24: 70%\n  bucket 23: 60%\n  bucket 24: 80%\n  bucket 23: 70%\n  bucket 24: 90%\n  bucket 24: 100%\n  bucket 23: 80%\n  Sorting block of length 351 for bucket 24\n  (Using difference cover)\n  bucket 23: 90%\n  bucket 23: 100%\n  Sorting block of length 238 for bucket 23\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 352 for bucket 24\n  Sorting block time: 00:00:00\nReturning block of 239 for bucket 23\nGetting block 25 of 58\n  Reserving size (388) for bucket 25\n  Calculating Z arrays for bucket 25\n  Entering block accumulator loop for bucket 25:\n  bucket 25: 10%\n  bucket 25: 20%\n  bucket 25: 30%\n  bucket 25: 40%\n  bucket 25: 50%\nGetting block 26 of 58\n  Reserving size (388) for bucket 26\n  Calculating Z arrays for bucket 26\n  bucket 25: 60%\n  Entering block accumulator loop for bucket 26:\n  bucket 25: 70%\n  bucket 26: 10%\n  bucket 25: 80%\n  bucket 25: 90%\n  bucket 26: 20%\n  bucket 25: 100%\n  Sorting block of length 105 for bucket 25\n  (Using difference cover)\n  bucket 26: 30%\n  bucket 26: 40%\n  bucket 26: 50%\n  Sorting block time: 00:00:00\nReturning block of 106 for bucket 25\n  bucket 26: 60%\n  bucket 26: 70%\n  bucket 26: 80%\n  bucket 26: 90%\n  bucket 26: 100%\n  Sorting block of length 354 for bucket 26\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 355 for bucket 26\nGetting block 27 of 58\n  Reserving size (388) for bucket 27\n  Calculating Z arrays for bucket 27\n  Entering block accumulator loop for bucket 27:\n  bucket 27: 10%\n  bucket 27: 20%\n  bucket 27: 30%\nGetting block 28 of 58\n  Reserving size (388) for bucket 28\n  Calculating Z arrays for bucket 28\n  bucket 27: 40%\n  Entering block accumulator loop for bucket 28:\n  bucket 27: 50%\n  bucket 28: 10%\n  bucket 27: 60%\n  bucket 28: 20%\n  bucket 27: 70%\n  bucket 27: 80%\n  bucket 28: 30%\n  bucket 27: 90%\n  bucket 28: 40%\n  bucket 27: 100%\n  Sorting block of length 334 for bucket 27\n  (Using difference cover)\n  bucket 28: 50%\n  bucket 28: 60%\n  Sorting block time: 00:00:00\nReturning block of 335 for bucket 27\n  bucket 28: 70%\n  bucket 28: 80%\n  bucket 28: 90%\n  bucket 28: 100%\n  Sorting block of length 253 for bucket 28\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 254 for bucket 28\nGetting block 29 of 58\n  Reserving size (388) for bucket 29\n  Calculating Z arrays for bucket 29\nGetting block 30 of 58\n  Reserving size (388) for bucket 30\n  Entering block accumulator loop for bucket 29:\n  Calculating Z arrays for bucket 30\n  Entering block accumulator loop for bucket 30:\n  bucket 29: 10%\nGetting block 31 of 58\n  bucket 30: 10%\n  bucket 29: 20%\n  Reserving size (388) for bucket 31\n  Calculating Z arrays for bucket 31\n  Entering block accumulator loop for bucket 31:\n  bucket 29: 30%\n  bucket 30: 20%\n  bucket 31: 10%\n  bucket 29: 40%\n  bucket 30: 30%\n  bucket 31: 20%\n  bucket 29: 50%\n  bucket 30: 40%\n  bucket 29: 60%\n  bucket 30: 50%\n  bucket 31: 30%\n  bucket 29: 70%\n  bucket 30: 60%\n  bucket 29: 80%\n  bucket 30: 70%\n  bucket 31: 40%\n  bucket 30: 80%\n  bucket 29: 90%\n  bucket 30: 90%\n  bucket 31: 50%\n  bucket 30: 100%\n  bucket 29: 100%\n  Sorting block of length 345 for bucket 30\n  (Using difference cover)\n  bucket 31: 60%\n  Sorting block of length 289 for bucket 29\n  (Using difference cover)\n  bucket 31: 70%\n  bucket 31: 80%\n  bucket 31: 90%\n  bucket 31: 100%\n  Sorting block of length 377 for bucket 31\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 346 for bucket 30\n  Sorting block time: 00:00:00\nReturning block of 290 for bucket 29\n  Sorting block time: 00:00:00\nReturning block of 378 for bucket 31\nGetting block 32 of 58\n  Reserving size (388) for bucket 32\n  Calculating Z arrays for bucket 32\n  Entering block\n..\n0:00\nReturning block of 372 for bucket 22\nGetting block 24 of 57\n  Reserving size (388) for bucket 24\n  Calculating Z arrays for bucket 24\nGetting block 25 of 57\n  Entering block accumulator loop for bucket 24:\n  Reserving size (388) for bucket 25\n  Calculating Z arrays for bucket 25\n  Entering block accumulator loop for bucket 25:\n  bucket 24: 10%\n  bucket 25: 10%\n  bucket 24: 20%\n  bucket 24: 30%\n  bucket 25: 20%\n  bucket 24: 40%\n  bucket 25: 30%\nGetting block 26 of 57\n  Reserving size (388) for bucket 26\n  Calculating Z arrays for bucket 26\n  Entering block accumulator loop for bucket 26:\n  bucket 25: 40%\n  bucket 24: 50%\n  bucket 26: 10%\n  bucket 25: 50%\n  bucket 24: 60%\n  bucket 26: 20%\n  bucket 25: 60%\n  bucket 26: 30%\n  bucket 25: 70%\n  bucket 24: 70%\n  bucket 26: 40%\n  bucket 25: 80%\n  bucket 24: 80%\n  bucket 26: 50%\n  bucket 25: 90%\n  bucket 26: 60%\n  bucket 25: 100%\n  Sorting block of length 286 for bucket 25\n  (Using difference cover)\n  bucket 24: 90%\n  bucket 26: 70%\n  bucket 26: 80%\n  bucket 24: 100%\n  Sorting block of length 245 for bucket 24\n  (Using difference cover)\n  bucket 26: 90%\n  Sorting block time: 00:00:00\nReturning block of 287 for bucket 25\n  bucket 26: 100%\n  Sorting block of length 384 for bucket 26\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 246 for bucket 24\n  Sorting block time: 00:00:00\nReturning block of 385 for bucket 26\nGetting block 27 of 57\n  Reserving size (388) for bucket 27\n  Calculating Z arrays for bucket 27\n  Entering block accumulator loop for bucket 27:\n  bucket 27: 10%\n  bucket 27: 20%\n  bucket 27: 30%\nGetting block 28 of 57\n  bucket 27: 40%\n  Reserving size (388) for bucket 28\n  Calculating Z arrays for bucket 28\n  bucket 27: 50%\n  Entering block accumulator loop for bucket 28:\n  bucket 27: 60%\n  bucket 28: 10%\n  bucket 27: 70%\n  bucket 27: 80%\n  bucket 28: 20%\n  bucket 27: 90%\n  bucket 28: 30%\n  bucket 27: 100%\n  Sorting block of length 359 for bucket 27\n  (Using difference cover)\n  bucket 28: 40%\n  bucket 28: 50%\n  bucket 28: 60%\n  Sorting block time: 00:00:00\nReturning block of 360 for bucket 27\n  bucket 28: 70%\n  bucket 28: 80%\n  bucket 28: 90%\n  bucket 28: 100%\n  Sorting block of length 387 for bucket 28\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 28\nGetting block 29 of 57\n  Reserving size (388) for bucket 29\nGetting block 30 of 57\n  Calculating Z arrays for bucket 29\n  Reserving size (388) for bucket 30\n  Calculating Z arrays for bucket 30\n  Entering block accumulator loop for bucket 29:\n  Entering block accumulator loop for bucket 30:\n  bucket 29: 10%\n  bucket 30: 10%\n  bucket 29: 20%\n  bucket 29: 30%\n  bucket 30: 20%\n  bucket 29: 40%\n  bucket 29: 50%\n  bucket 30: 30%\n  bucket 29: 60%\n  bucket 29: 70%\n  bucket 30: 40%\n  bucket 29: 80%\n  bucket 30: 50%\n  bucket 29: 90%\n  bucket 30: 60%\n  bucket 29: 100%\n  Sorting block of length 195 for bucket 29\n  (Using difference cover)\n  bucket 30: 70%\n  bucket 30: 80%\n  Sorting block time: 00:00:00\nReturning block of 196 for bucket 29\n  bucket 30: 90%\n  bucket 30: 100%\n  Sorting block of length 257 for bucket 30\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 258 for bucket 30\nGetting block 31 of 57\n  Reserving size (388) for bucket 31\n  Calculating Z arrays for bucket 31\n  Entering block accumulator loop for bucket 31:\n  bucket 31: 10%\nGetting block 32 of 57\n  Reserving size (388) for bucket 32\n  bucket 31: 20%\n  Calculating Z arrays for bucket 32\n  Entering block accumulator loop for bucket 32:\n  bucket 31: 30%\n  bucket 31: 40%\n  bucket 32: 10%\n  bucket 31: 50%\n  bucket 32: 20%\n  bucket 32: 30%\n  bucket 31: 60%\n  bucket 32: 40%\n  bucket 31: 70%\n  bucket 32: 50%\n  bucket 31: 80%\n  bucket 32: 60%\n  bucket 32: 70%\n  bucket 31: 90%\n  bucket 32: 80%\n  bucket 31: 100%\n  Sorting block of length 310 for bucket 31\n  (Using difference cover)\n  bucket 32: 90%\n  bucket 32: 100%\n  Sorting block of length 219 for bucket 32\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 311 for bucket 31\n  Sorting block time: 00:00:00\nReturning block of 220 for bucket 32\nGetting block 33 of 57\n  Reserving size (388) for bucket 33\n  Calculating Z arrays for bucket 33\n  Entering block accumulator loop for bucket 33:\n  bucket 33: 10%\nGetting block 34 of 57\n  bucket 33: 20%\n  Reserving size (388) for bucket 34\n  Calculating Z arrays for bucket 34\n  Entering block accumulator loop for bucket 34:\n  bucket 33: 30%\n  bucket 34: 10%\n  bucket 33: 40%\n  bucket 34: 20%\n  bucket 33: 50%\n  bucket 34: 30%\n  bucket 34: 40%\n  bucket 33: 60%\n  bucket 34: 50%\n  bucket 33: 70%\n  bucket 34: 60%\n  bucket 33: 80%\n  bucket 34: 70%\n  bucket 33: 90%\n  bucket 34: 80%\n  bucket 33: 100%\n  Sorting block of length 387 for bucket 33\n  (Using difference cover)\n  bucket 34: 90%\n  bucket 34: 100%\n  Sorting block of length 275 for bucket 34\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 33\n  Sorting block time: 00:00:00\nReturning block of 276 for bucket 34\nGetting block 35 of 57\n  Reserving size (388) for bucket 35\nGetting block 36 of 57\n  Calculating Z arrays for bucket 35\n  Reserving size (388) for bucket 36\n  Calculating Z arrays for bucket 36\n  Entering block accumulator loop for bucket 35:\n  Entering block accumulator loop for bucket 36:\n  bucket 36: 10%\n  bucket 35: 10%\n  bucket 36: 20%\n  bucket 35: 20%\n  bucket 36: 30%\n  bucket 35: 30%\n  bucket 36: 40%\n  bucket 35: 40%\n  bucket 36: 50%\n  bucket 35: 50%\n  bucket 36: 60%\n  bucket 35: 60%\n  bucket 36: 70%\n  bucket 35: 70%\n  bucket 36: 80%\n  bucket 35: 80%\n  bucket 36: 90%\n  bucket 35: 90%\n  bucket 35: 100%\n  bucket 36: 100%\n  Sorting block of length 350 for bucket 35\n  (Using difference cover)\n  Sorting block of length 150 for bucket 36\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 151 for bucket 36\n  Sorting block time: 00:00:00\nReturning block of 351 for bucket 35\nGetting block 37 of 57\n  Reserving size (388) for bucket 37\n  Calculating Z arrays for bucket 37\n  Entering block accumulator loop for bucket 37:\n  bucket 37: 10%\nGetting block 38 of 57\n  Reserving size (388) for bucket 38\n  Calculating Z arrays for bucket 38\n  Entering block accumulator loop for bucket 38:\n  bucket 37: 20%\n  bucket 37: 30%\n  bucket 38: 10%\n  bucket 37: 40%\n  bucket 38: 20%\n  bucket 37: 50%\n  bucket 38: 30%\n  bucket 37: 60%\n  bucket 38: 40%\nGetting block 39 of 57\n  Reserving size (388) for bucket 39\n  bucket 38: 50%\n  Calculating Z arrays for bucket 39\n  bucket 37: 70%\n  Entering block accumulator loop for bucket 39:\n  bucket 39: 10%\n  bucket 37: 80%\n  bucket 38: 60%\n  bucket 39: 20%\n  bucket 38: 70%\n  bucket 39: 30%\n  bucket 38: 80%\n  bucket 37: 90%\n  bucket 39: 40%\n  bucket 38: 90%\n  bucket 37: 100%\n  Sorting block of length 267 for bucket 37\n  (Using difference cover)\n  bucket 39: 50%\n  bucket 38: 100%\n  Sorting block of length 337 for bucket 38\n  (Using difference cover)\n  bucket 39: 60%\n  bucket 39: 70%\n  bucket 39: 80%\n  bucket 39: 90%\n  bucket 39: 100%\n  Sorting block of length 387 for bucket 39\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 268 for bucket 37\n  Sorting block time: 00:00:00\nReturning block of 338 for bucket 38\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 39\nGetting block 40 of 57\n  Reserving size (388) for bucket 40\n  Calculating Z arrays for bucket 40\n  Entering block accumulator loop for bucket 40:\nGetting block 41 of 57\n  bucket 40: 10%\n  Reserving size (388) for bucket 41\n  Calculating Z arrays for bucket 41\n  Entering block accumulator loop for bucket 41:\n  bucket 40: 20%\n  bucket 40: 30%\n  bucket 41: 10%\n  bucket 40: 40%\n  bucket 41: 20%\n  bucket 41: 30%\n  bucket 40: 50%\n  bucket 41: 40%\n  bucket 40: 60%\n  bucket 41: 50%\n  bucket 40: 70%\n  bucket 41: 60%\n  bucket 41: 70%\n  bucket 40: 80%\n  bucket 41: 80%\n  bucket 40: 90%\n  bucket 41: 90%\n  bucket 40: 100%\n  Sorting block of length 379 for bucket 40\n  (Using difference cover)\n  bucket 41: 100%\n  Sorting block of length 330 for bucket 41\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 331 for bucket 41\n  Sorting block time: 00:00:00\nReturning block of 380 for bucket 40\nGetting block 42 of 57\n  Reserving size (388) for bucket 42\nGetting block 43 of 57\n  Calculating Z arrays for bucket 42\n  Reserving size (388) for bucket 43\n  Calculating Z arrays for bucket 43\n  Entering block accumulator loop for bucket 42:\n  Entering block accumulator loop for bucket 43:\n  bucket 43: 10%\n  bucket 42: 10%\n  bucket 43: 20%\n  bucket 42: 20%\n  bucket 43: 30%\n  bucket 42: 30%\n  bucket 43: 40%\n  bucket 42: 40%\n  bucket 43: 50%\n  bucket 42: 50%\n  bucket 43: 60%\n  bucket 42: 60%\n  bucket 43: 70%\n  bucket 43: 80%\n  bucket 42: 70%\n  bucket 43: 90%\n  bucket 42: 80%\n  bucket 43: 100%\n  bucket 42: 90%\n  Sorting block of length 321 for bucket 43\n  (Using difference cover)\n  bucket 42: 100%\n  Sorting block of length 188 for bucket 42\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 322 for bucket 43\n  Sorting block time: 00:00:00\nReturning block of 189 for bucket 42\nGetting block 44 of 57\n  Reserving size (388) for bucket 44\n  Calculating Z arrays for bucket 44\n  Entering block accumulator loop for bucket 44:\n  bucket 44: 10%\nGetting block 45 of 57\n  bucket 44: 20%\n  Reserving size (388) for bucket 45\n  Calculating Z arrays for bucket 45\nGetting block 46 of 57\n  Reserving size (388) for bucket 46\n  Calculating Z arrays for bucket 46\n  Entering block accumulator loop for bucket 45:\n  Entering block accumulator loop for bucket 46:\n  bucket 44: 30%\n  bucket 45: 10%\n  bucket 45: 20%\n  bucket 46: 10%\n  bucket 44: 40%\n  bucket 45: 30%\n  bucket 45: 40%\n  bucket 46: 20%\n  bucket 44: 50%\n  bucket 45: 50%\n  bucket 46: 30%\n  bucket 45: 60%\n  bucket 44: 60%\n  bucket 45: 70%\n  bucket 46: 40%\n  bucket 44: 70%\n  bucket 45: 80%\n  bucket 46: 50%\n  bucket 45: 90%\n  bucket 44: 80%\n  bucket 45: 100%\n  bucket 46: 60%\n  Sorting block of length 365 for bucket 45\n  (Using difference cover)\n  bucket 44: 90%\n  bucket 46: 70%\n  bucket 44: 100%\n  Sorting block of length 366 for bucket 44\n  (Using difference cover)\n  bucket 46: 80%\n  Sorting block time: 00:00:00\nReturning block of 366 for bucket 45\n  bucket 46: 90%\n  bucket 46: 100%\n  Sorting block of length 253 for bucket 46\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 367 for bucket 44\n  Sorting block time: 00:00:00\nReturning block of 254 for bucket 46\nGetting block 47 of 57\n  Reserving size (388) for bucket 47\n  Calculating Z arrays for bucket 47\n  Entering block accumulator loop for bucket 47:\n  bucket 47: 10%\n  bucket 47: 20%\n  bucket 47: 30%\n  bucket 47: 40%\n  bucket 47: 50%\n  bucket 47: 60%\n  bucket 47: 70%\n  bucket 47: 80%\n  bucket 47: 90%\n  bucket 47: 100%\n  Sorting block of length 217 for bucket 47\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 218 for bucket 47\nGetting block 48 of 57\n  Reserving size (388) for bucket 48\n  Calculating Z arrays for bucket 48\nGetting block 49 of 57\n  Reserving size (388) for bucket 49\n  Calculating Z arrays for bucket 49\n  Entering block accumulator loop for bucket 48:\n  Entering block accumulator loop for bucket 49:\n  bucket 48: 10%\n  bucket 49: 10%\n  bucket 49: 20%\n  bucket 48: 20%\n  bucket 49: 30%\n  bucket 48: 30%\n  bucket 49: 40%\n  bucket 48: 40%\nGetting block 50 of 57\n  Reserving size (388) for bucket 50\n  Calculating Z arrays for bucket 50\n  bucket 49: 50%\n  Entering block accumulator loop for bucket 50:\n  bucket 49: 60%\n  bucket 48: 50%\n  bucket 49: 70%\n  bucket 50: 10%\n  bucket 48: 60%\n  bucket 49: 80%\n  bucket 49: 90%\n  bucket 50: 20%\n  bucket 48: 70%\n  bucket 49: 100%\n  Sorting block of length 112 for bucket 49\n  (Using difference cover)\n  bucket 48: 80%\n  bucket 50: 30%\n  bucket 48: 90%\n  bucket 50: 40%\n  Sorting block time: 00:00:00\nReturning block of 113 for bucket 49\n  bucket 50: 50%\n  bucket 48: 100%\n  Sorting block of length 384 for bucket 48\n  (Using difference cover)\n  bucket 50: 60%\n  bucket 50: 70%\n  bucket 50: 80%\n  Sorting block time: 00:00:00\nReturning block of 385 for bucket 48\n  bucket 50: 90%\n  bucket 50: 100%\n  Sorting block of length 275 for bucket 50\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 276 for bucket 50\nGetting block 51 of 57\n  Reserving size (388) for bucket 51\n  Calculating Z arrays for bucket 51\n  Entering block accumulator loop for bucket 51:\n  bucket 51: 10%\n  bucket 51: 20%\nGetting block 52 of 57\n  bucket 51: 30%\n  Reserving size (388) for bucket 52\n  Calculating Z arrays for bucket 52\n  Entering block accumulator loop for bucket 52:\n  bucket 51: 40%\n  bucket 52: 10%\n  bucket 51: 50%\n  bucket 52: 20%\n  bucket 51: 60%\n  bucket 52: 30%\n  bucket 51: 70%\n  bucket 52: 40%\n  bucket 51: 80%\n  bucket 51: 90%\n  bucket 52: 50%\n  bucket 51: 100%\n  bucket 52: 60%\n  Sorting block of length 350 for bucket 51\n  (Using difference cover)\n  bucket 52: 70%\n  bucket 52: 80%\n  bucket 52: 90%\n  Sorting block time: 00:00:00\nReturning block of 351 for bucket 51\n  bucket 52: 100%\n  Sorting block of length 378 for bucket 52\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 379 for bucket 52\nGetting block 53 of 57\n  Reserving size (388) for bucket 53\nGetting block 54 of 57\n  Calculating Z arrays for bucket 53\n  Reserving size (388) for bucket 54\n  Calculating Z arrays for bucket 54\n  Entering block accumulator loop for bucket 53:\n  Entering block accumulator loop for bucket 54:\n  bucket 53: 10%\n  bucket 53: 20%\n  bucket 54: 10%\n  bucket 53: 30%\n  bucket 54: 20%\n  bucket 53: 40%\n  bucket 54: 30%\n  bucket 53: 50%\n  bucket 53: 60%\n  bucket 54: 40%\n  bucket 53: 70%\n  bucket 54: 50%\n  bucket 53: 80%\n  bucket 54: 60%\n  bucket 53: 90%\n  bucket 54: 70%\n  bucket 53: 100%\n  Sorting block of length 370 for bucket 53\n  (Using difference cover)\n  bucket 54: 80%\n  bucket 54: 90%\n  bucket 54: 100%\n  Sorting block of length 237 for bucket 54\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 371 for bucket 53\n  Sorting block time: 00:00:00\nReturning block of 238 for bucket 54\nGetting block 55 of 57\n  Reserving size (388) for bucket 55\n  Calculating Z arrays for bucket 55\n  Entering block accumulator loop for bucket 55:\nGetting block 56 of 57\n  bucket 55: 10%\n  Reserving size (388) for bucket 56\n  Calculating Z arrays for bucket 56\n  Entering block accumulator loop for bucket 56:\n  bucket 55: 20%\n  bucket 55: 30%\n  bucket 56: 10%\n  bucket 56: 20%\n  bucket 55: 40%\n  bucket 56: 30%\n  bucket 55: 50%\n  bucket 56: 40%\n  bucket 56: 50%\n  bucket 55: 60%\n  bucket 56: 60%\n  bucket 55: 70%\n  bucket 56: 70%\n  bucket 55: 80%\n  bucket 56: 80%\n  bucket 55: 90%\n  bucket 56: 90%\n  bucket 56: 100%\n  bucket 55: 100%\n  Sorting block of length 270 for bucket 56\n  (Using difference cover)\n  Sorting block of length 344 for bucket 55\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 345 for bucket 55\n  Sorting block time: 00:00:00\nReturning block of 271 for bucket 56\nGetting block 57 of 57\n  Reserving size (388) for bucket 57\n  Calculating Z arrays for bucket 57\n  Entering block accumulator loop for bucket 57:\n  bucket 57: 10%\n  bucket 57: 20%\n  bucket 57: 30%\n  bucket 57: 40%\n  bucket 57: 50%\n  bucket 57: 60%\n  bucket 57: 70%\n  bucket 57: 80%\n  bucket 57: 90%\n  bucket 57: 100%\n  Sorting block of length 132 for bucket 57\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 133 for bucket 57\nExited Ebwt loop\nfchr[A]: 0\nfchr[C]: 5124\nfchr[G]: 10305\nfchr[T]: 12474\nfchr[$]: 16568\nExiting Ebwt::buildToDisk()\nReturning from initFromVector\nWrote 4200050 bytes to primary EBWT file: genome.rev.1.bt2.tmp\nWrote 4148 bytes to secondary EBWT file: genome.rev.2.bt2.tmp\nRe-opening _in1 and _in2 as input streams\nReturning from Ebwt constructor\nHeaders:\n    len: 16568\n    bwtLen: 16569\n    sz: 4142\n    bwtSz: 4143\n    lineRate: 6\n    offRate: 4\n    offMask: 0xfffffff0\n    ftabChars: 10\n    eftabLen: 20\n    eftabSz: 80\n    ftabLen: 1048577\n    ftabSz: 4194308\n    offsLen: 1036\n    offsSz: 4144\n    lineSz: 64\n    sideSz: 64\n    sideBwtSz: 48\n    sideBwtLen: 192\n    numSides: 87\n    numLines: 87\n    ebwtTotLen: 5568\n    ebwtTotSz: 5568\n    color: 0\n    reverse: 1\nTotal time for backward call to driver() for mirror index: 00:00:00\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:43:14", "plugin": "core", "name": "end_epoch", "raw_value": "1726407794.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:43:13", "plugin": "core", "name": "start_epoch", "raw_value": "1726407793.0000000"}, {"title": "Memory Allocated (MB)", "value": "21474", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "21474.0000000"}, {"title": "Cores Allocated", "value": "8", "plugin": "core", "name": "galaxy_slots", "raw_value": "8.0000000"}]}, "status": "success"}}, {"id": "bowtie2/2.5.3+galaxy1-5", "has_data": true, "data": {"tool_id": "bowtie2", "tool_version": "2.5.3+galaxy1", "test_index": 5, "time_seconds": 30.907073259353638, "inputs": {"library|input_1": {"src": "hda", "id": "d00fc5f12efe398b"}, "library|input_2": {"src": "hda", "id": "8c2bdcf4af23a1b0"}, "library|unaligned_file": false, "library|paired_options|paired_options_selector": "no", "library|type": "paired", "reference_genome|own_file": {"src": "hda", "id": "efd102d779594be5"}, "reference_genome|source": "history", "analysis_type|analysis_type_selector": "simple"}, "job": {"model_class": "Job", "id": "1dae68700cab37ec", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:43:54.284096", "create_time": "2024-09-15T13:43:42.735084", "galaxy_version": "23.1", "command_version": "/usr/local/bin/bowtie2-align-s version 2.5.3\n64-bit\nBuilt on fv-az365-785\nWed Jan 17 04:43:48 UTC 2024\nCompiler: gcc version 12.3.0 (conda-forge gcc 12.3.0-3) \nOptions: -O3 -msse2 -funroll-loops -g3 -fvisibility-inlines-hidden -fmessage-length=0 -march=nocona -mtune=haswell -ftree-vectorize -fPIC -fstack-protector-strong -fno-plt -O2 -ffunction-sections -pipe -isystem /usr/local/include -fdebug-prefix-map=/opt/conda/conda-bld/bowtie2_1705465427853/work=/usr/local/src/conda/bowtie2-2.5.3 -fdebug-prefix-map=/usr/local=/usr/local/src/conda-prefix -std=c++11 -Wall -Wno-unused-but-set-variable -DPOPCNT_CAPABILITY -DNO_SPINLOCK -DWITH_QUEUELOCK=1 -DWITH_ZSTD\nSizeof {int, long, long long, void*, size_t, off_t}: {4, 8, 8, 8, 8, 8}", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/devteam/bowtie2/bowtie2/2.5.3+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-dzq82", "command_line": "set -o | grep -q pipefail && set -o pipefail; bowtie2-build --threads ${GALAXY_SLOTS:-4} '/galaxy/server/database/objects/8/4/9/dataset_8490a077-834e-4c42-b25b-f5626749319a.dat' genome && ln -s -f '/galaxy/server/database/objects/8/4/9/dataset_8490a077-834e-4c42-b25b-f5626749319a.dat' genome.fa &&   ln -f -s '/galaxy/server/database/objects/b/c/1/dataset_bc1ed726-7a3a-4c2d-b53d-20a234619d08.dat' input_f.fastq.gz &&  ln -f -s '/galaxy/server/database/objects/5/2/5/dataset_525b317a-6a3f-48fe-b3f3-b2b2b83da69a.dat' input_r.fastq.gz &&   THREADS=${GALAXY_SLOTS:-4} && if [ \"$THREADS\" -gt 1 ]; then (( THREADS-- )); fi &&   bowtie2  -p \"$THREADS\"  -x 'genome'   -1 'input_f.fastq.gz' -2 'input_r.fastq.gz'                 | samtools sort -l 0 -T \"${TMPDIR:-.}\" -O bam | samtools view --no-PG -O bam -@ ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/6/c/d/dataset_6cda100d-5382-4e4c-a6d7-ba6cba8700d5.dat'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "save_mapping_stats": "false", "sam_options": "{\"__current_case__\": 1, \"sam_options_selector\": \"no\"}", "analysis_type": "{\"__current_case__\": 0, \"analysis_type_selector\": \"simple\", \"presets\": \"no_presets\"}", "rg": "{\"__current_case__\": 3, \"rg_selector\": \"do_not_set\"}", "reference_genome": "{\"__current_case__\": 1, \"own_file\": {\"values\": [{\"id\": 379, \"src\": \"hda\"}]}, \"source\": \"history\"}", "library": "{\"__current_case__\": 1, \"aligned_file\": false, \"input_1\": {\"values\": [{\"id\": 377, \"src\": \"hda\"}]}, \"input_2\": {\"values\": [{\"id\": 378, \"src\": \"hda\"}]}, \"paired_options\": {\"__current_case__\": 1, \"paired_options_selector\": \"no\"}, \"type\": \"paired\", \"unaligned_file\": false}"}, "inputs": {"library|input_1": {"id": "d00fc5f12efe398b", "src": "hda", "uuid": "bc1ed726-7a3a-4c2d-b53d-20a234619d08"}, "library|input_2": {"id": "8c2bdcf4af23a1b0", "src": "hda", "uuid": "525b317a-6a3f-48fe-b3f3-b2b2b83da69a"}, "reference_genome|own_file": {"id": "efd102d779594be5", "src": "hda", "uuid": "8490a077-834e-4c42-b25b-f5626749319a"}}, "outputs": {"output": {"id": "db61b2761f92716d", "src": "hda", "uuid": "6cda100d-5382-4e4c-a6d7-ba6cba8700d5"}}, "output_collections": {}, "tool_stdout": "Settings:\n  Output files: \"genome.*.bt2\"\n  Line rate: 6 (line is 64 bytes)\n  Lines per side: 1 (side is 64 bytes)\n  Offset rate: 4 (one in 16)\n  FTable chars: 10\n  Strings: unpacked\n  Max bucket size: default\n  Max bucket size, sqrt multiplier: default\n  Max bucket size, len divisor: 32\n  Difference-cover sample period: 1024\n  Endianness: little\n  Actual local endianness: little\n  Sanity checking: disabled\n  Assertions: disabled\n  Random seed: 0\n  Sizeofs: void*:8, int:4, long:8, size_t:8\nInput files DNA, FASTA:\n  /galaxy/server/database/objects/8/4/9/dataset_8490a077-834e-4c42-b25b-f5626749319a.dat\nReading reference sizes\n  Time reading reference sizes: 00:00:00\nCalculating joined length\nWriting header\nReserving space for joined string\nJoining reference sequences\n  Time to join reference sequences: 00:00:00\nbmax according to bmaxDivN setting: 517\nUsing parameters --bmax 388 --dcv 1024\n  Doing ahead-of-time memory usage test\n  Passed!  Constructing with these parameters: --bmax 388 --dcv 1024\nConstructing suffix-array element generator\nBuilding DifferenceCoverSample\n  Building sPrime\n  Building sPrimeOrder\n  V-Sorting samples\n  V-Sorting samples time: 00:00:00\n  Allocating rank array\n  Ranking v-sort output\n  Ranking v-sort output time: 00:00:00\n  Invoking Larsson-Sadakane on ranks\n  Invoking Larsson-Sadakane on ranks time: 00:00:00\n  Sanity-checking and returning\nBuilding samples\nReserving space for 86 sample suffixes\nGenerating random suffixes\nQSorting 86 sample offsets, eliminating duplicates\nQSorting sample offsets, eliminating duplicates time: 00:00:00\nMultikey QSorting 86 samples\n  (Using difference cover)\n  Multikey QSorting samples time: 00:00:00\nCalculating bucket sizes\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 12, merged 41; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 6, merged 6; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 5, merged 3; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 3, merged 3; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nAvg bucket size: 284.672 (target: 387)\nConverting suffix-array elements to index image\nAllocating ftab, absorbFtab\nEntering Ebwt loop\nGetting block 1 of 58\n  Reserving size (388) for bucket 1\nGetting block 2 of 58\nGetting block 3 of 58\n  Calculating Z arrays for bucket 1\n  Reserving size (388) for bucket 2\n  Reserving size (388) for bucket 3\nGetting block 4 of 58\nGetting block 5 of 58\nGetting block 6 of 58\nGetting block 7 of 58\n  Calculating Z arrays for bucket 2\n  Entering block accumulator loop for bucket 1:\n  Calculating Z arrays for bucket 3\n  Reserving size (388) for bucket 4\n  Reserving size (388) for bucket 5\n  Reserving size (388) for bucket 6\n  Reserving size (388) for bucket 7\n  Calculating Z arrays for bucket 4\n  Calculating Z arrays for bucket 5\n  Entering block accumulator loop for bucket 2:\n  Calculating Z arrays for bucket 6\n  Entering block accumulator loop for bucket 3:\n  Calculating Z arrays for bucket 7\n  bucket 1: 10%\n  Entering block accumulator loop for bucket 4:\n  Entering block accumulator loop for bucket 5:\n  Entering block accumulator loop for bucket 6:\n  bucket 2: 10%\n  Entering block accumulator loop for bucket 7:\n  bucket 1: 20%\n  bucket 3: 10%\n  bucket 5: 10%\n  bucket 2: 20%\n  bucket 1: 30%\n  bucket 4: 10%\n  bucket 6: 10%\n  bucket 3: 20%\n  bucket 7: 10%\n  bucket 2: 30%\n  bucket 1: 40%\n  bucket 5: 20%\n  bucket 2: 40%\n  bucket 6: 20%\n  bucket 3: 30%\n  bucket 1: 50%\n  bucket 4: 20%\n  bucket 7: 20%\n  bucket 2: 50%\n  bucket 1: 60%\n  bucket 5: 30%\n  bucket 3: 40%\n  bucket 6: 30%\n  bucket 2: 60%\n  bucket 4: 30%\n  bucket 1: 70%\n  bucket 7: 30%\n  bucket 3: 50%\n  bucket 2: 70%\n  bucket 5: 40%\n  bucket 1: 80%\n  bucket 6: 40%\n  bucket 2: 80%\n  bucket 4: 40%\n  bucket 3: 60%\n  bucket 5: 50%\n  bucket 7: 40%\n  bucket 1: 90%\n  bucket 2: 90%\n  bucket 6: 50%\n  bucket 3: 70%\n  bucket 1: 100%\n  bucket 4: 50%\n  bucket 2: 100%\n  bucket 5: 60%\n  bucket 7: 50%\n  bucket 6: 60%\n  bucket 3: 80%\n  Sorting block of length 355 for bucket 1\n  (Using difference cover)\n  Sorting block of length 165 for bucket 2\n  (Using difference cover)\n  bucket 4: 60%\n  bucket 5: 70%\n  bucket 7: 60%\n  bucket 6: 70%\n  bucket 3: 90%\n  bucket 4: 70%\n  bucket 5: 80%\n  bucket 7: 70%\n  bucket 3: 100%\n  bucket 6: 80%\n  Sorting block of length 370 for bucket 3\n  (Using difference cover)\n  bucket 4: 80%\n  bucket 7: 80%\n  bucket 5: 90%\n  bucket 6: 90%\n  bucket 4: 90%\n  bucket 5: 100%\n  bucket 7: 90%\n  bucket 6: 100%\n  Sorting block of length 203 for bucket 5\n  (Using difference cover)\n  Sorting block of length 339 for bucket 6\n  (Using difference cover)\n  bucket 4: 100%\n  Sorting block of length 328 for bucket 4\n  (Using difference cover)\n  bucket 7: 100%\n  Sorting block of length 368 for bucket 7\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 356 for bucket 1\n  Sorting block time: 00:00:00\nReturning block of 329 for bucket 4\n  Sorting block time: 00:00:00\nReturning block of 204 for bucket 5\n  Sorting block time: 00:00:00\nReturning block of 166 for bucket 2\n  Sorting block time: 00:00:00\nReturning block of 371 for bucket 3\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 6\n  Sorting block time: 00:00:00\nReturning block of 369 for bucket 7\nGetting block 8 of 58\n  Reserving size (388) for bucket 8\n  Calculating Z arrays for bucket 8\n  Entering block accumulator loop for bucket 8:\n  bucket 8: 10%\n  bucket 8: 20%\n  bucket 8: 30%\nGetting block 9 of 58\n  bucket 8: 40%\n  Reserving size (388) for bucket 9\n  Calculating Z arrays for bucket 9\n  bucket 8: 50%\n  Entering block accumulator loop for bucket 9:\n  bucket 9: 10%\n  bucket 8: 60%\n  bucket 9: 20%\n  bucket 8: 70%\n  bucket 9: 30%\n  bucket 8: 80%\n  bucket 8: 90%\n  bucket 9: 40%\n  bucket 8: 100%\n  Sorting block of length 171 for bucket 8\n  (Using difference cover)\n  bucket 9: 50%\n  bucket 9: 60%\n  bucket 9: 70%\n  bucket 9: 80%\n  Sorting block time: 00:00:00\n  bucket 9: 90%\nReturning block of 172 for bucket 8\n  bucket 9: 100%\n  Sorting block of length 339 for bucket 9\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 9\nGetting block 10 of 58\n  Reserving size (388) for bucket 10\nGetting block 11 of 58\n  Calculating Z arrays for bucket 10\n  Reserving size (388) for bucket 11\n  Calculating Z arrays for bucket 11\n  Entering block accumulator loop for bucket 10:\n  Entering block accumulator loop for bucket 11:\n  bucket 11: 10%\n  bucket 10: 10%\n  bucket 11: 20%\n  bucket 10: 20%\n  bucket 11: 30%\n  bucket 10: 30%\n  bucket 11: 40%\n  bucket 11: 50%\n  bucket 10: 40%\n  bucket 10: 50%\n  bucket 11: 60%\n  bucket 10: 60%\n  bucket 11: 70%\nGetting block 12 of 58\n  bucket 10: 70%\n  bucket 11: 80%\n  Reserving size (388) for bucket 12\nGetting block 13 of 58\n  bucket 11: 90%\n  Calculating Z arrays for bucket 12\n  Reserving size (388) for bucket 13\n  bucket 10: 80%\n  Calculating Z arrays for bucket 13\n  bucket 11: 100%\nGetting block 14 of 58\n  Sorting block of length 305 for bucket 11\n  (Using difference cover)\n  Entering block accumulator loop for bucket 12:\n  Reserving size (388) for bucket 14\n  Entering block accumulator loop for bucket 13:\n  bucket 10: 90%\n  Calculating Z arrays for bucket 14\n  Entering block accumulator loop for bucket 14:\n  bucket 12: 10%\n  bucket 10: 100%\n  Sorting block of length 357 for bucket 10\n  (Using difference cover)\n  bucket 13: 10%\n  bucket 14: 10%\n  bucket 12: 20%\n  bucket 14: 20%\n  bucket 13: 20%\n  bucket 12: 30%\n  bucket 14: 30%\n  bucket 12: 40%\n  bucket 14: 40%\n  bucket 13: 30%\n  bucket 12: 50%\n  bucket 14: 50%\n  Sorting block time: 00:00:00\nReturning block of 306 for bucket 11\n  bucket 13: 40%\n  bucket 14: 60%\n  bucket 12: 60%\n  bucket 13: 50%\n  bucket 14: 70%\n  bucket 12: 70%\n  Sorting block time: 00:00:00\nReturning block of 358 for bucket 10\n  bucket 14: 80%\n  bucket 13: 60%\n  bucket 12: 80%\n  bucket 14: 90%\n  bucket 13: 70%\n  bucket 12: 90%\n  bucket 14: 100%\n  Sorting block of length 339 for bucket 14\n  (Using difference cover)\n  bucket 13: 80%\n  bucket 12: 100%\n  Sorting block of length 185 for bucket 12\n  (Using difference cover)\n  bucket 13: 90%\n  bucket 13: 100%\n  Sorting block of length 282 for bucket 13\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 14\n  Sorting block time: 00:00:00\nReturning block of 186 for bucket 12\n  Sorting block time: 00:00:00\nReturning block of 283 for bucket 13\nGetting block 15 of 58\n  Reserving size (388) for bucket 15\n  Calculating Z arrays for bucket 15\n  Entering block accumulator loop for bucket 15:\n  bucket 15: 10%\nGetting block 16 of 58\n  Reserving size (388) for bucket 16\n  Calculating Z arrays for bucket 16\n  Entering block accumulator loop for bucket 16:\n  bucket 15: 20%\n  bucket 15: 30%\n  bucket 16: 10%\n  bucket 15: 40%\n  bucket 16: 20%\n  bucket 15: 50%\n  bucket 16: 30%\n  bucket 15: 60%\n  bucket 15: 70%\n  bucket 16: 40%\n  bucket 15: 80%\n  bucket 16: 50%\n  bucket 15: 90%\n  bucket 16: 60%\n  bucket 15: 100%\n  Sorting block of length 241 for bucket 15\n  (Using difference cover)\n  bucket 16: 70%\n  bucket 16: 80%\n  bucket 16: 90%\n  Sorting block time: 00:00:00\nReturning block of 242 for bucket 15\n  bucket 16: 100%\n  Sorting block of length 379 for bucket 16\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 380 for bucket 16\nGetting block 17 of 58\n  Reserving size (388) for bucket 17\nGetting block 18 of 58\n  Calculating Z arrays for bucket 17\n  Reserving size (388) for bucket 18\n  Calculating Z arrays for bucket 18\n  Entering block accumulator loop for bucket 18:\n  Entering block accumulator loop for bucket 17:\n  bucket 18: 10%\n  bucket 17: 10%\n  bucket 18: 20%\n  bucket 17: 20%\n  bucket 18: 30%\n  bucket 17: 30%\n  bucket 18: 40%\n  bucket 18: 50%\n  bucket 17: 40%\n  bucket 18: 60%\n  bucket 17: 50%\n  bucket 18: 70%\n  bucket 18: 80%\n  bucket 17: 60%\n  bucket 18: 90%\n  bucket 17: 70%\n  bucket 18: 100%\n  Sorting block of length 378 for bucket 18\n  (Using difference cover)\n  bucket 17: 80%\n  bucket 17: 90%\n  bucket 17: 100%\n  Sorting block of length 215 for bucket 17\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 379 for bucket 18\n  Sorting block time: 00:00:00\nReturning block of 216 for bucket 17\nGetting block 19 of 58\n  Reserving size (388) for bucket 19\nGetting block 20 of 58\n  Calculating Z arrays for bucket 19\n  Reserving size (388) for bucket 20\n  Calculating Z arrays for bucket 20\n  Entering block accumulator loop for bucket 19:\n  Entering block accumulator loop for bucket 20:\n  bucket 19: 10%\n  bucket 20: 10%\n  bucket 19: 20%\n  bucket 20: 20%\n  bucket 20: 30%\n  bucket 19: 30%\n  bucket 19: 40%\n  bucket 20: 40%\n  bucket 19: 50%\n  bucket 20: 50%\n  bucket 20: 60%\n  bucket 19: 60%\n  bucket 19: 70%\n  bucket 20: 70%\n  bucket 19: 80%\n  bucket 20: 80%\n  bucket 19: 90%\n  bucket 20: 90%\n  bucket 19: 100%\n  bucket 20: 100%\n  Sorting block of length 334 for bucket 19\n  (Using difference cover)\n  Sorting block of length 313 for bucket 20\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 335 for bucket 19\n  Sorting block time: 00:00:00\nReturning block of 314 for bucket 20\nGetting block 21 of 58\n  Reserving size (388) for bucket 21\n  Calculating Z arrays for bucket 21\n  Entering block accumulator loop for bucket 21:\n  bucket 21: 10%\n  bucket 21: 20%\n  bucket 21: 30%\n  bucket 21: 40%\n  bucket 21: 50%\n  bucket 21: 60%\n  bucket 21: 70%\n  bucket 21: 80%\n  bucket 21: 90%\n  bucket 21: 100%\n  Sorting block of length 210 for bucket 21\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 211 for bucket 21\nGetting block 22 of 58\n  Reserving size (388) for bucket 22\n  Calculating Z arrays for bucket 22\n  Entering block accumulator loop for bucket 22:\nGetting block 23 of 58\n  bucket 22: 10%\n  Reserving size (388) for bucket 23\n  Calculating Z arrays for bucket 23\n  Entering block accumulator loop for bucket 23:\n  bucket 22: 20%\n  bucket 22: 30%\n  bucket 23: 10%\n  bucket 22: 40%\n  bucket 23: 20%\n  bucket 22: 50%\n  bucket 23: 30%\n  bucket 23: 40%\n  bucket 22: 60%\n  bucket 23: 50%\n  bucket 22: 70%\n  bucket 23: 60%\n  bucket 22: 80%\n  bucket 23: 70%\n  bucket 22: 90%\n  bucket 23: 80%\n  bucket 22: 100%\n  Sorting block of length 386 for bucket 22\n  (Using difference cover)\n  bucket 23: 90%\n  bucket 23: 100%\n  Sorting block of length 238 for bucket 23\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 387 for bucket 22\n  Sorting block time: 00:00:00\nReturning block of 239 for bucket 23\nGetting block 24 of 58\n  Reserving size (388) for bucket 24\nGetting block 25 of 58\n  Calculating Z arrays for bucket 24\n  Reserving size (388) for bucket 25\n  Calculating Z arrays for bucket 25\n  Entering block accumulator loop for bucket 24:\n  Entering block accumulator loop for bucket 25:\n  bucket 24: 10%\n  bucket 25: 10%\n  bucket 24: 20%\n  bucket 24: 30%\n  bucket 25: 20%\n  bucket 24: 40%\n  bucket 25: 30%\n  bucket 24: 50%\n  bucket 25: 40%\n  bucket 24: 60%\n  bucket 25: 50%\n  bucket 24: 70%\n  bucket 24: 80%\n  bucket 25: 60%\n  bucket 24: 90%\n  bucket 25: 70%\n  bucket 24: 100%\n  Sorting block of length 351 for bucket 24\n  (Using difference cover)\n  bucket 25: 80%\n  bucket 25: 90%\n  bucket 25: 100%\n  Sorting block of length 105 for bucket 25\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 352 for bucket 24\n  Sorting block time: 00:00:00\nReturning block of 106 for bucket 25\nGetting block 26 of 58\n  Reserving size (388) for bucket 26\n  Calculating Z arrays for bucket 26\n  Entering block accumulator loop for bucket 26:\n  bucket 26: 10%\n  bucket 26: 20%\n  bucket 26: 30%\n  bucket 26: 40%\nGetting block 27 of 58\n  bucket 26: 50%\n  Reserving size (388) for bucket 27\n  Calculating Z arrays for bucket 27\n  Entering block accumulator loop for bucket 27:\n  bucket 26: 60%\n  bucket 26: 70%\n  bucket 27: 10%\n  bucket 26: 80%\n  bucket 27: 20%\n  bucket 26: 90%\n  bucket 27: 30%\n  bucket 26: 100%\n  Sorting block of length 354 for bucket 26\n  (Using difference cover)\n  bucket 27: 40%\n  bucket 27: 50%\n  bucket 27: 60%\n  bucket 27: 70%\n  Sorting block time: 00:00:00\nReturning block of 355 for bucket 26\n  bucket 27: 80%\n  bucket 27: 90%\n  bucket 27: 100%\n  Sorting block of length 334 for bucket 27\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 335 for bucket 27\nGetting block 28 of 58\n  Reserving size (388) for bucket 28\nGetting block 29 of 58\n  Calculating Z arrays for bucket 28\n  Reserving size (388) for bucket 29\n  Calculating Z arrays for bucket 29\n  Entering block accumulator loop for bucket 28:\n  Entering block accumulator loop for bucket 29:\n  bucket 29: 10%\n  bucket 28: 10%\n  bucket 29: 20%\n  bucket 28: 20%\n  bucket 29: 30%\n  bucket 28: 30%\n  bucket 29: 40%\n  bucket 28: 40%\n  bucket 29: 50%\n  bucket 28: 50%\n  bucket 28: 60%\n  bucket 29: 60%\n  bucket 28: 70%\n  bucket 29: 70%\n  bucket 28: 80%\n  bucket 29: 80%\n  bucket 28: 90%\n  bucket 29: 90%\n  bucket 28: 100%\n  Sorting block of length 253 for bucket 28\n  (Using difference cover)\n  bucket 29: 100%\n  Sorting block of length 289 for bucket 29\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 254 for bucket 28\n  Sorting block time: 00:00:00\nReturning block of 290 for bucket 29\nGetting block 30 of 58\n  Reserving size (388) for bucket 30\n  Calculating Z arrays for bucket 30\n  Entering block accumulator loop for bucket 30:\n  bucket 30: 10%\n  bucket 30: 20%\nGetting block 31 of 58\n  bucket 30: 30%\n  Reserving size (388) for bucket 31\n  Calculating Z arrays for bucket 31\n  bucket 30: 40%\n  bucket 30: 50%\n  Entering block accumulator loop for bucket 31:\n  bucket 30: 60%\n  bucket 31: 10%\n  bucket 30: 70%\n  bucket 31: 20%\n  bucket 30: 80%\n  bucket 31: 30%\nGetting block 32 of 58\n  bucket 30: 90%\n  Reserving size (388) for bucket 32\n  bucket 31: 40%\n  Calculating Z arrays for bucket 32\n  Entering block accumulator loop for bucket 32:\n  bucket 30: 100%\n  Sorting block of length 345 for bucket 30\n  (Using difference cover)\n  bucket 31: 50%\n  bucket 32: 10%\n  bucket 31: 60%\n  bucket 32: 20%\n  bucket 31: 70%\n  bucket 32: 30%\n  bucket 31: 80%\n  Sorting block time: 00:00:00\nReturning block of 346 for bucket 30\n  bucket 32: 40%\n  bucket 31: 90%\n  bucket 32: 50%\n  bucket 31: 100%\n  Sorting block of le\n..\n0:00\nReturning block of 350 for bucket 23\nGetting block 24 of 57\n  Reserving size (388) for bucket 24\n  Calculating Z arrays for bucket 24\n  Entering block accumulator loop for bucket 24:\n  bucket 24: 10%\n  bucket 24: 20%\nGetting block 25 of 57\n  bucket 24: 30%\n  Reserving size (388) for bucket 25\n  Calculating Z arrays for bucket 25\nGetting block 26 of 57\n  Entering block accumulator loop for bucket 25:\n  bucket 24: 40%\n  Reserving size (388) for bucket 26\n  Calculating Z arrays for bucket 26\n  Entering block accumulator loop for bucket 26:\n  bucket 24: 50%\n  bucket 25: 10%\n  bucket 24: 60%\n  bucket 25: 20%\n  bucket 26: 10%\n  bucket 24: 70%\n  bucket 26: 20%\n  bucket 24: 80%\n  bucket 25: 30%\n  bucket 26: 30%\n  bucket 24: 90%\n  bucket 25: 40%\n  bucket 26: 40%\n  bucket 25: 50%\n  bucket 24: 100%\n  Sorting block of length 245 for bucket 24\n  (Using difference cover)\n  bucket 26: 50%\n  bucket 25: 60%\n  bucket 26: 60%\n  bucket 25: 70%\n  bucket 26: 70%\n  bucket 25: 80%\n  bucket 26: 80%\n  bucket 25: 90%\n  Sorting block time: 00:00:00\nReturning block of 246 for bucket 24\n  bucket 26: 90%\n  bucket 25: 100%\n  Sorting block of length 286 for bucket 25\n  (Using difference cover)\n  bucket 26: 100%\n  Sorting block of length 384 for bucket 26\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 287 for bucket 25\n  Sorting block time: 00:00:00\nReturning block of 385 for bucket 26\nGetting block 27 of 57\n  Reserving size (388) for bucket 27\n  Calculating Z arrays for bucket 27\n  Entering block accumulator loop for bucket 27:\n  bucket 27: 10%\n  bucket 27: 20%\n  bucket 27: 30%\nGetting block 28 of 57\n  bucket 27: 40%\n  Reserving size (388) for bucket 28\n  Calculating Z arrays for bucket 28\n  Entering block accumulator loop for bucket 28:\n  bucket 27: 50%\n  bucket 28: 10%\n  bucket 27: 60%\n  bucket 27: 70%\n  bucket 28: 20%\n  bucket 27: 80%\n  bucket 28: 30%\n  bucket 27: 90%\n  bucket 28: 40%\n  bucket 27: 100%\n  bucket 28: 50%\n  Sorting block of length 359 for bucket 27\n  (Using difference cover)\n  bucket 28: 60%\n  bucket 28: 70%\n  bucket 28: 80%\n  bucket 28: 90%\n  bucket 28: 100%\n  Sorting block of length 387 for bucket 28\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 360 for bucket 27\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 28\nGetting block 29 of 57\n  Reserving size (388) for bucket 29\nGetting block 30 of 57\n  Calculating Z arrays for bucket 29\n  Reserving size (388) for bucket 30\n  Calculating Z arrays for bucket 30\n  Entering block accumulator loop for bucket 29:\n  Entering block accumulator loop for bucket 30:\n  bucket 29: 10%\n  bucket 30: 10%\n  bucket 29: 20%\n  bucket 29: 30%\n  bucket 30: 20%\n  bucket 29: 40%\n  bucket 30: 30%\n  bucket 29: 50%\n  bucket 29: 60%\n  bucket 30: 40%\n  bucket 29: 70%\n  bucket 30: 50%\n  bucket 29: 80%\n  bucket 29: 90%\n  bucket 30: 60%\n  bucket 29: 100%\n  Sorting block of length 195 for bucket 29\n  (Using difference cover)\n  bucket 30: 70%\n  bucket 30: 80%\n  bucket 30: 90%\n  bucket 30: 100%\n  Sorting block of length 257 for bucket 30\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 196 for bucket 29\n  Sorting block time: 00:00:00\nReturning block of 258 for bucket 30\nGetting block 31 of 57\n  Reserving size (388) for bucket 31\n  Calculating Z arrays for bucket 31\n  Entering block accumulator loop for bucket 31:\n  bucket 31: 10%\n  bucket 31: 20%\n  bucket 31: 30%\n  bucket 31: 40%\n  bucket 31: 50%\nGetting block 32 of 57\n  bucket 31: 60%\n  Reserving size (388) for bucket 32\n  Calculating Z arrays for bucket 32\n  Entering block accumulator loop for bucket 32:\n  bucket 31: 70%\n  bucket 32: 10%\n  bucket 31: 80%\n  bucket 32: 20%\n  bucket 31: 90%\n  bucket 32: 30%\n  bucket 31: 100%\n  Sorting block of length 310 for bucket 31\n  (Using difference cover)\n  bucket 32: 40%\n  bucket 32: 50%\n  bucket 32: 60%\n  bucket 32: 70%\n  bucket 32: 80%\n  Sorting block time: 00:00:00\nReturning block of 311 for bucket 31\n  bucket 32: 90%\n  bucket 32: 100%\n  Sorting block of length 219 for bucket 32\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 220 for bucket 32\nGetting block 33 of 57\n  Reserving size (388) for bucket 33\nGetting block 34 of 57\n  Calculating Z arrays for bucket 33\n  Reserving size (388) for bucket 34\n  Calculating Z arrays for bucket 34\n  Entering block accumulator loop for bucket 33:\n  Entering block accumulator loop for bucket 34:\n  bucket 34: 10%\n  bucket 33: 10%\n  bucket 34: 20%\n  bucket 33: 20%\n  bucket 34: 30%\n  bucket 33: 30%\n  bucket 34: 40%\n  bucket 33: 40%\n  bucket 34: 50%\n  bucket 33: 50%\n  bucket 34: 60%\n  bucket 33: 60%\n  bucket 34: 70%\n  bucket 33: 70%\n  bucket 34: 80%\n  bucket 34: 90%\n  bucket 33: 80%\n  bucket 34: 100%\n  Sorting block of length 275 for bucket 34\n  (Using difference cover)\n  bucket 33: 90%\n  bucket 33: 100%\n  Sorting block of length 387 for bucket 33\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 33\n  Sorting block time: 00:00:00\nReturning block of 276 for bucket 34\nGetting block 35 of 57\n  Reserving size (388) for bucket 35\n  Calculating Z arrays for bucket 35\n  Entering block accumulator loop for bucket 35:\n  bucket 35: 10%\n  bucket 35: 20%\nGetting block 36 of 57\n  bucket 35: 30%\n  Reserving size (388) for bucket 36\n  Calculating Z arrays for bucket 36\n  Entering block accumulator loop for bucket 36:\n  bucket 35: 40%\n  bucket 35: 50%\n  bucket 36: 10%\n  bucket 35: 60%\n  bucket 36: 20%\n  bucket 35: 70%\n  bucket 36: 30%\n  bucket 36: 40%\n  bucket 35: 80%\n  bucket 36: 50%\n  bucket 36: 60%\n  bucket 35: 90%\n  bucket 36: 70%\n  bucket 35: 100%\n  Sorting block of length 350 for bucket 35\n  (Using difference cover)\n  bucket 36: 80%\n  bucket 36: 90%\n  bucket 36: 100%\n  Sorting block of length 150 for bucket 36\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 351 for bucket 35\n  Sorting block time: 00:00:00\nReturning block of 151 for bucket 36\nGetting block 37 of 57\n  Reserving size (388) for bucket 37\nGetting block 38 of 57\n  Calculating Z arrays for bucket 37\n  Reserving size (388) for bucket 38\n  Calculating Z arrays for bucket 38\n  Entering block accumulator loop for bucket 38:\n  Entering block accumulator loop for bucket 37:\n  bucket 37: 10%\n  bucket 38: 10%\n  bucket 37: 20%\n  bucket 38: 20%\n  bucket 37: 30%\n  bucket 38: 30%\n  bucket 37: 40%\n  bucket 38: 40%\n  bucket 37: 50%\n  bucket 38: 50%\n  bucket 37: 60%\n  bucket 38: 60%\n  bucket 38: 70%\n  bucket 37: 70%\n  bucket 38: 80%\n  bucket 37: 80%\n  bucket 38: 90%\n  bucket 37: 90%\n  bucket 38: 100%\n  Sorting block of length 337 for bucket 38\n  (Using difference cover)\n  bucket 37: 100%\n  Sorting block of length 267 for bucket 37\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 338 for bucket 38\n  Sorting block time: 00:00:00\nReturning block of 268 for bucket 37\nGetting block 39 of 57\n  Reserving size (388) for bucket 39\nGetting block 40 of 57\n  Calculating Z arrays for bucket 39\n  Reserving size (388) for bucket 40\n  Calculating Z arrays for bucket 40\n  Entering block accumulator loop for bucket 39:\n  Entering block accumulator loop for bucket 40:\n  bucket 40: 10%\n  bucket 39: 10%\n  bucket 40: 20%\n  bucket 39: 20%\n  bucket 40: 30%\n  bucket 40: 40%\n  bucket 39: 30%\n  bucket 40: 50%\n  bucket 39: 40%\n  bucket 40: 60%\n  bucket 40: 70%\n  bucket 39: 50%\n  bucket 40: 80%\n  bucket 39: 60%\n  bucket 40: 90%\n  bucket 39: 70%\n  bucket 40: 100%\n  Sorting block of length 379 for bucket 40\n  (Using difference cover)\n  bucket 39: 80%\n  bucket 39: 90%\n  bucket 39: 100%\n  Sorting block of length 387 for bucket 39\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 380 for bucket 40\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 39\nGetting block 41 of 57\n  Reserving size (388) for bucket 41\n  Calculating Z arrays for bucket 41\n  Entering block accumulator loop for bucket 41:\n  bucket 41: 10%\n  bucket 41: 20%\n  bucket 41: 30%\n  bucket 41: 40%\n  bucket 41: 50%\n  bucket 41: 60%\n  bucket 41: 70%\n  bucket 41: 80%\n  bucket 41: 90%\n  bucket 41: 100%\n  Sorting block of length 330 for bucket 41\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 331 for bucket 41\nGetting block 42 of 57\n  Reserving size (388) for bucket 42\n  Calculating Z arrays for bucket 42\n  Entering block accumulator loop for bucket 42:\n  bucket 42: 10%\n  bucket 42: 20%\nGetting block 43 of 57\n  bucket 42: 30%\n  Reserving size (388) for bucket 43\n  Calculating Z arrays for bucket 43\n  Entering block accumulator loop for bucket 43:\n  bucket 42: 40%\n  bucket 43: 10%\n  bucket 42: 50%\n  bucket 43: 20%\n  bucket 43: 30%\n  bucket 42: 60%\n  bucket 43: 40%\n  bucket 42: 70%\n  bucket 43: 50%\n  bucket 42: 80%\n  bucket 43: 60%\n  bucket 42: 90%\n  bucket 43: 70%\n  bucket 43: 80%\n  bucket 42: 100%\n  Sorting block of length 188 for bucket 42\n  (Using difference cover)\n  bucket 43: 90%\n  bucket 43: 100%\n  Sorting block of length 321 for bucket 43\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 189 for bucket 42\n  Sorting block time: 00:00:00\nReturning block of 322 for bucket 43\nGetting block 44 of 57\n  Reserving size (388) for bucket 44\nGetting block 45 of 57\n  Calculating Z arrays for bucket 44\n  Reserving size (388) for bucket 45\n  Calculating Z arrays for bucket 45\n  Entering block accumulator loop for bucket 44:\n  Entering block accumulator loop for bucket 45:\n  bucket 44: 10%\n  bucket 45: 10%\n  bucket 44: 20%\n  bucket 45: 20%\n  bucket 44: 30%\n  bucket 45: 30%\n  bucket 44: 40%\n  bucket 45: 40%\n  bucket 44: 50%\n  bucket 45: 50%\n  bucket 44: 60%\n  bucket 44: 70%\n  bucket 45: 60%\n  bucket 44: 80%\n  bucket 45: 70%\n  bucket 44: 90%\n  bucket 45: 80%\n  bucket 44: 100%\n  Sorting block of length 366 for bucket 44\n  (Using difference cover)\n  bucket 45: 90%\n  bucket 45: 100%\n  Sorting block of length 365 for bucket 45\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 367 for bucket 44\n  Sorting block time: 00:00:00\nReturning block of 366 for bucket 45\nGetting block 46 of 57\n  Reserving size (388) for bucket 46\n  Calculating Z arrays for bucket 46\n  Entering block accumulator loop for bucket 46:\n  bucket 46: 10%\n  bucket 46: 20%\n  bucket 46: 30%\nGetting block 47 of 57\n  Reserving size (388) for bucket 47\n  Calculating Z arrays for bucket 47\n  bucket 46: 40%\n  Entering block accumulator loop for bucket 47:\n  bucket 46: 50%\n  bucket 47: 10%\n  bucket 46: 60%\n  bucket 47: 20%\n  bucket 46: 70%\n  bucket 47: 30%\n  bucket 46: 80%\nGetting block 48 of 57\n  bucket 46: 90%\n  bucket 47: 40%\n  Reserving size (388) for bucket 48\n  Calculating Z arrays for bucket 48\n  bucket 46: 100%\n  Sorting block of length 253 for bucket 46\n  (Using difference cover)\n  Entering block accumulator loop for bucket 48:\n  bucket 47: 50%\n  bucket 48: 10%\n  bucket 47: 60%\n  bucket 48: 20%\n  bucket 48: 30%\n  bucket 48: 40%\n  bucket 47: 70%\n  bucket 48: 50%\n  bucket 47: 80%\n  bucket 48: 60%\n  Sorting block time: 00:00:00\nReturning block of 254 for bucket 46\n  bucket 47: 90%\n  bucket 48: 70%\n  bucket 47: 100%\n  Sorting block of length 217 for bucket 47\n  (Using difference cover)\n  bucket 48: 80%\n  bucket 48: 90%\n  bucket 48: 100%\n  Sorting block of length 384 for bucket 48\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 218 for bucket 47\n  Sorting block time: 00:00:00\nReturning block of 385 for bucket 48\nGetting block 49 of 57\n  Reserving size (388) for bucket 49\nGetting block 50 of 57\n  Calculating Z arrays for bucket 49\n  Reserving size (388) for bucket 50\n  Calculating Z arrays for bucket 50\n  Entering block accumulator loop for bucket 49:\n  Entering block accumulator loop for bucket 50:\n  bucket 49: 10%\n  bucket 49: 20%\n  bucket 50: 10%\n  bucket 49: 30%\n  bucket 50: 20%\n  bucket 49: 40%\n  bucket 50: 30%\n  bucket 49: 50%\n  bucket 50: 40%\n  bucket 49: 60%\n  bucket 50: 50%\n  bucket 50: 60%\n  bucket 49: 70%\n  bucket 50: 70%\n  bucket 49: 80%\n  bucket 50: 80%\n  bucket 50: 90%\n  bucket 49: 90%\n  bucket 50: 100%\n  Sorting block of length 275 for bucket 50\n  (Using difference cover)\n  bucket 49: 100%\n  Sorting block of length 112 for bucket 49\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 276 for bucket 50\n  Sorting block time: 00:00:00\nReturning block of 113 for bucket 49\nGetting block 51 of 57\n  Reserving size (388) for bucket 51\nGetting block 52 of 57\n  Calculating Z arrays for bucket 51\n  Reserving size (388) for bucket 52\n  Calculating Z arrays for bucket 52\n  Entering block accumulator loop for bucket 51:\n  Entering block accumulator loop for bucket 52:\n  bucket 51: 10%\n  bucket 52: 10%\n  bucket 51: 20%\n  bucket 52: 20%\n  bucket 51: 30%\n  bucket 52: 30%\n  bucket 51: 40%\n  bucket 52: 40%\n  bucket 51: 50%\n  bucket 52: 50%\n  bucket 51: 60%\n  bucket 52: 60%\n  bucket 51: 70%\n  bucket 52: 70%\n  bucket 51: 80%\n  bucket 51: 90%\n  bucket 52: 80%\n  bucket 51: 100%\n  Sorting block of length 350 for bucket 51\n  (Using difference cover)\n  bucket 52: 90%\n  bucket 52: 100%\n  Sorting block of length 378 for bucket 52\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 351 for bucket 51\n  Sorting block time: 00:00:00\nReturning block of 379 for bucket 52\nGetting block 53 of 57\n  Reserving size (388) for bucket 53\n  Calculating Z arrays for bucket 53\n  Entering block accumulator loop for bucket 53:\nGetting block 54 of 57\n  Reserving size (388) for bucket 54\n  bucket 53: 10%\n  Calculating Z arrays for bucket 54\n  Entering block accumulator loop for bucket 54:\n  bucket 53: 20%\n  bucket 53: 30%\n  bucket 54: 10%\n  bucket 53: 40%\n  bucket 54: 20%\n  bucket 53: 50%\n  bucket 54: 30%\n  bucket 53: 60%\n  bucket 54: 40%\n  bucket 53: 70%\n  bucket 54: 50%\n  bucket 53: 80%\n  bucket 54: 60%\n  bucket 53: 90%\n  bucket 54: 70%\n  bucket 54: 80%\n  bucket 53: 100%\n  Sorting block of length 370 for bucket 53\n  bucket 54: 90%\n  (Using difference cover)\n  bucket 54: 100%\n  Sorting block of length 237 for bucket 54\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 238 for bucket 54\n  Sorting block time: 00:00:00\nReturning block of 371 for bucket 53\nGetting block 55 of 57\n  Reserving size (388) for bucket 55\n  Calculating Z arrays for bucket 55\n  Entering block accumulator loop for bucket 55:\n  bucket 55: 10%\n  bucket 55: 20%\n  bucket 55: 30%\nGetting block 56 of 57\n  bucket 55: 40%\n  Reserving size (388) for bucket 56\n  Calculating Z arrays for bucket 56\n  bucket 55: 50%\n  bucket 55: 60%\n  bucket 55: 70%\n  Entering block accumulator loop for bucket 56:\n  bucket 55: 80%\n  bucket 55: 90%\n  bucket 56: 10%\n  bucket 55: 100%\n  Sorting block of length 344 for bucket 55\n  (Using difference cover)\n  bucket 56: 20%\n  bucket 56: 30%\n  bucket 56: 40%\n  bucket 56: 50%\n  bucket 56: 60%\n  bucket 56: 70%\n  bucket 56: 80%\n  Sorting block time: 00:00:00\nReturning block of 345 for bucket 55\n  bucket 56: 90%\n  bucket 56: 100%\n  Sorting block of length 270 for bucket 56\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 271 for bucket 56\nGetting block 57 of 57\n  Reserving size (388) for bucket 57\n  Calculating Z arrays for bucket 57\n  Entering block accumulator loop for bucket 57:\n  bucket 57: 10%\n  bucket 57: 20%\n  bucket 57: 30%\n  bucket 57: 40%\n  bucket 57: 50%\n  bucket 57: 60%\n  bucket 57: 70%\n  bucket 57: 80%\n  bucket 57: 90%\n  bucket 57: 100%\n  Sorting block of length 132 for bucket 57\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 133 for bucket 57\nExited Ebwt loop\nfchr[A]: 0\nfchr[C]: 5124\nfchr[G]: 10305\nfchr[T]: 12474\nfchr[$]: 16568\nExiting Ebwt::buildToDisk()\nReturning from initFromVector\nWrote 4200050 bytes to primary EBWT file: genome.rev.1.bt2.tmp\nWrote 4148 bytes to secondary EBWT file: genome.rev.2.bt2.tmp\nRe-opening _in1 and _in2 as input streams\nReturning from Ebwt constructor\nHeaders:\n    len: 16568\n    bwtLen: 16569\n    sz: 4142\n    bwtSz: 4143\n    lineRate: 6\n    offRate: 4\n    offMask: 0xfffffff0\n    ftabChars: 10\n    eftabLen: 20\n    eftabSz: 80\n    ftabLen: 1048577\n    ftabSz: 4194308\n    offsLen: 1036\n    offsSz: 4144\n    lineSz: 64\n    sideSz: 64\n    sideBwtSz: 48\n    sideBwtLen: 192\n    numSides: 87\n    numLines: 87\n    ebwtTotLen: 5568\n    ebwtTotSz: 5568\n    color: 0\n    reverse: 1\nTotal time for backward call to driver() for mirror index: 00:00:01\n", "tool_stderr": "Building a SMALL index\nRenaming genome.3.bt2.tmp to genome.3.bt2\nRenaming genome.4.bt2.tmp to genome.4.bt2\nRenaming genome.1.bt2.tmp to genome.1.bt2\nRenaming genome.2.bt2.tmp to genome.2.bt2\nRenaming genome.rev.1.bt2.tmp to genome.rev.1.bt2\nRenaming genome.rev.2.bt2.tmp to genome.rev.2.bt2\n100 reads; of these:\n  100 (100.00%) were paired; of these:\n    97 (97.00%) aligned concordantly 0 times\n    3 (3.00%) aligned concordantly exactly 1 time\n    0 (0.00%) aligned concordantly >1 times\n    ----\n    97 pairs aligned concordantly 0 times; of these:\n      8 (8.25%) aligned discordantly 1 time\n    ----\n    89 pairs aligned 0 times concordantly or discordantly; of these:\n      178 mates make up the pairs; of these:\n        153 (85.96%) aligned 0 times\n        25 (14.04%) aligned exactly 1 time\n        0 (0.00%) aligned >1 times\n23.50% overall alignment rate\n", "job_stdout": "", "job_stderr": "", "stderr": "Building a SMALL index\nRenaming genome.3.bt2.tmp to genome.3.bt2\nRenaming genome.4.bt2.tmp to genome.4.bt2\nRenaming genome.1.bt2.tmp to genome.1.bt2\nRenaming genome.2.bt2.tmp to genome.2.bt2\nRenaming genome.rev.1.bt2.tmp to genome.rev.1.bt2\nRenaming genome.rev.2.bt2.tmp to genome.rev.2.bt2\n100 reads; of these:\n  100 (100.00%) were paired; of these:\n    97 (97.00%) aligned concordantly 0 times\n    3 (3.00%) aligned concordantly exactly 1 time\n    0 (0.00%) aligned concordantly >1 times\n    ----\n    97 pairs aligned concordantly 0 times; of these:\n      8 (8.25%) aligned discordantly 1 time\n    ----\n    89 pairs aligned 0 times concordantly or discordantly; of these:\n      178 mates make up the pairs; of these:\n        153 (85.96%) aligned 0 times\n        25 (14.04%) aligned exactly 1 time\n        0 (0.00%) aligned >1 times\n23.50% overall alignment rate\n", "stdout": "Settings:\n  Output files: \"genome.*.bt2\"\n  Line rate: 6 (line is 64 bytes)\n  Lines per side: 1 (side is 64 bytes)\n  Offset rate: 4 (one in 16)\n  FTable chars: 10\n  Strings: unpacked\n  Max bucket size: default\n  Max bucket size, sqrt multiplier: default\n  Max bucket size, len divisor: 32\n  Difference-cover sample period: 1024\n  Endianness: little\n  Actual local endianness: little\n  Sanity checking: disabled\n  Assertions: disabled\n  Random seed: 0\n  Sizeofs: void*:8, int:4, long:8, size_t:8\nInput files DNA, FASTA:\n  /galaxy/server/database/objects/8/4/9/dataset_8490a077-834e-4c42-b25b-f5626749319a.dat\nReading reference sizes\n  Time reading reference sizes: 00:00:00\nCalculating joined length\nWriting header\nReserving space for joined string\nJoining reference sequences\n  Time to join reference sequences: 00:00:00\nbmax according to bmaxDivN setting: 517\nUsing parameters --bmax 388 --dcv 1024\n  Doing ahead-of-time memory usage test\n  Passed!  Constructing with these parameters: --bmax 388 --dcv 1024\nConstructing suffix-array element generator\nBuilding DifferenceCoverSample\n  Building sPrime\n  Building sPrimeOrder\n  V-Sorting samples\n  V-Sorting samples time: 00:00:00\n  Allocating rank array\n  Ranking v-sort output\n  Ranking v-sort output time: 00:00:00\n  Invoking Larsson-Sadakane on ranks\n  Invoking Larsson-Sadakane on ranks time: 00:00:00\n  Sanity-checking and returning\nBuilding samples\nReserving space for 86 sample suffixes\nGenerating random suffixes\nQSorting 86 sample offsets, eliminating duplicates\nQSorting sample offsets, eliminating duplicates time: 00:00:00\nMultikey QSorting 86 samples\n  (Using difference cover)\n  Multikey QSorting samples time: 00:00:00\nCalculating bucket sizes\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 12, merged 41; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 6, merged 6; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 5, merged 3; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 3, merged 3; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nAvg bucket size: 284.672 (target: 387)\nConverting suffix-array elements to index image\nAllocating ftab, absorbFtab\nEntering Ebwt loop\nGetting block 1 of 58\n  Reserving size (388) for bucket 1\nGetting block 2 of 58\nGetting block 3 of 58\n  Calculating Z arrays for bucket 1\n  Reserving size (388) for bucket 2\n  Reserving size (388) for bucket 3\nGetting block 4 of 58\nGetting block 5 of 58\nGetting block 6 of 58\nGetting block 7 of 58\n  Calculating Z arrays for bucket 2\n  Entering block accumulator loop for bucket 1:\n  Calculating Z arrays for bucket 3\n  Reserving size (388) for bucket 4\n  Reserving size (388) for bucket 5\n  Reserving size (388) for bucket 6\n  Reserving size (388) for bucket 7\n  Calculating Z arrays for bucket 4\n  Calculating Z arrays for bucket 5\n  Entering block accumulator loop for bucket 2:\n  Calculating Z arrays for bucket 6\n  Entering block accumulator loop for bucket 3:\n  Calculating Z arrays for bucket 7\n  bucket 1: 10%\n  Entering block accumulator loop for bucket 4:\n  Entering block accumulator loop for bucket 5:\n  Entering block accumulator loop for bucket 6:\n  bucket 2: 10%\n  Entering block accumulator loop for bucket 7:\n  bucket 1: 20%\n  bucket 3: 10%\n  bucket 5: 10%\n  bucket 2: 20%\n  bucket 1: 30%\n  bucket 4: 10%\n  bucket 6: 10%\n  bucket 3: 20%\n  bucket 7: 10%\n  bucket 2: 30%\n  bucket 1: 40%\n  bucket 5: 20%\n  bucket 2: 40%\n  bucket 6: 20%\n  bucket 3: 30%\n  bucket 1: 50%\n  bucket 4: 20%\n  bucket 7: 20%\n  bucket 2: 50%\n  bucket 1: 60%\n  bucket 5: 30%\n  bucket 3: 40%\n  bucket 6: 30%\n  bucket 2: 60%\n  bucket 4: 30%\n  bucket 1: 70%\n  bucket 7: 30%\n  bucket 3: 50%\n  bucket 2: 70%\n  bucket 5: 40%\n  bucket 1: 80%\n  bucket 6: 40%\n  bucket 2: 80%\n  bucket 4: 40%\n  bucket 3: 60%\n  bucket 5: 50%\n  bucket 7: 40%\n  bucket 1: 90%\n  bucket 2: 90%\n  bucket 6: 50%\n  bucket 3: 70%\n  bucket 1: 100%\n  bucket 4: 50%\n  bucket 2: 100%\n  bucket 5: 60%\n  bucket 7: 50%\n  bucket 6: 60%\n  bucket 3: 80%\n  Sorting block of length 355 for bucket 1\n  (Using difference cover)\n  Sorting block of length 165 for bucket 2\n  (Using difference cover)\n  bucket 4: 60%\n  bucket 5: 70%\n  bucket 7: 60%\n  bucket 6: 70%\n  bucket 3: 90%\n  bucket 4: 70%\n  bucket 5: 80%\n  bucket 7: 70%\n  bucket 3: 100%\n  bucket 6: 80%\n  Sorting block of length 370 for bucket 3\n  (Using difference cover)\n  bucket 4: 80%\n  bucket 7: 80%\n  bucket 5: 90%\n  bucket 6: 90%\n  bucket 4: 90%\n  bucket 5: 100%\n  bucket 7: 90%\n  bucket 6: 100%\n  Sorting block of length 203 for bucket 5\n  (Using difference cover)\n  Sorting block of length 339 for bucket 6\n  (Using difference cover)\n  bucket 4: 100%\n  Sorting block of length 328 for bucket 4\n  (Using difference cover)\n  bucket 7: 100%\n  Sorting block of length 368 for bucket 7\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 356 for bucket 1\n  Sorting block time: 00:00:00\nReturning block of 329 for bucket 4\n  Sorting block time: 00:00:00\nReturning block of 204 for bucket 5\n  Sorting block time: 00:00:00\nReturning block of 166 for bucket 2\n  Sorting block time: 00:00:00\nReturning block of 371 for bucket 3\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 6\n  Sorting block time: 00:00:00\nReturning block of 369 for bucket 7\nGetting block 8 of 58\n  Reserving size (388) for bucket 8\n  Calculating Z arrays for bucket 8\n  Entering block accumulator loop for bucket 8:\n  bucket 8: 10%\n  bucket 8: 20%\n  bucket 8: 30%\nGetting block 9 of 58\n  bucket 8: 40%\n  Reserving size (388) for bucket 9\n  Calculating Z arrays for bucket 9\n  bucket 8: 50%\n  Entering block accumulator loop for bucket 9:\n  bucket 9: 10%\n  bucket 8: 60%\n  bucket 9: 20%\n  bucket 8: 70%\n  bucket 9: 30%\n  bucket 8: 80%\n  bucket 8: 90%\n  bucket 9: 40%\n  bucket 8: 100%\n  Sorting block of length 171 for bucket 8\n  (Using difference cover)\n  bucket 9: 50%\n  bucket 9: 60%\n  bucket 9: 70%\n  bucket 9: 80%\n  Sorting block time: 00:00:00\n  bucket 9: 90%\nReturning block of 172 for bucket 8\n  bucket 9: 100%\n  Sorting block of length 339 for bucket 9\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 9\nGetting block 10 of 58\n  Reserving size (388) for bucket 10\nGetting block 11 of 58\n  Calculating Z arrays for bucket 10\n  Reserving size (388) for bucket 11\n  Calculating Z arrays for bucket 11\n  Entering block accumulator loop for bucket 10:\n  Entering block accumulator loop for bucket 11:\n  bucket 11: 10%\n  bucket 10: 10%\n  bucket 11: 20%\n  bucket 10: 20%\n  bucket 11: 30%\n  bucket 10: 30%\n  bucket 11: 40%\n  bucket 11: 50%\n  bucket 10: 40%\n  bucket 10: 50%\n  bucket 11: 60%\n  bucket 10: 60%\n  bucket 11: 70%\nGetting block 12 of 58\n  bucket 10: 70%\n  bucket 11: 80%\n  Reserving size (388) for bucket 12\nGetting block 13 of 58\n  bucket 11: 90%\n  Calculating Z arrays for bucket 12\n  Reserving size (388) for bucket 13\n  bucket 10: 80%\n  Calculating Z arrays for bucket 13\n  bucket 11: 100%\nGetting block 14 of 58\n  Sorting block of length 305 for bucket 11\n  (Using difference cover)\n  Entering block accumulator loop for bucket 12:\n  Reserving size (388) for bucket 14\n  Entering block accumulator loop for bucket 13:\n  bucket 10: 90%\n  Calculating Z arrays for bucket 14\n  Entering block accumulator loop for bucket 14:\n  bucket 12: 10%\n  bucket 10: 100%\n  Sorting block of length 357 for bucket 10\n  (Using difference cover)\n  bucket 13: 10%\n  bucket 14: 10%\n  bucket 12: 20%\n  bucket 14: 20%\n  bucket 13: 20%\n  bucket 12: 30%\n  bucket 14: 30%\n  bucket 12: 40%\n  bucket 14: 40%\n  bucket 13: 30%\n  bucket 12: 50%\n  bucket 14: 50%\n  Sorting block time: 00:00:00\nReturning block of 306 for bucket 11\n  bucket 13: 40%\n  bucket 14: 60%\n  bucket 12: 60%\n  bucket 13: 50%\n  bucket 14: 70%\n  bucket 12: 70%\n  Sorting block time: 00:00:00\nReturning block of 358 for bucket 10\n  bucket 14: 80%\n  bucket 13: 60%\n  bucket 12: 80%\n  bucket 14: 90%\n  bucket 13: 70%\n  bucket 12: 90%\n  bucket 14: 100%\n  Sorting block of length 339 for bucket 14\n  (Using difference cover)\n  bucket 13: 80%\n  bucket 12: 100%\n  Sorting block of length 185 for bucket 12\n  (Using difference cover)\n  bucket 13: 90%\n  bucket 13: 100%\n  Sorting block of length 282 for bucket 13\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 14\n  Sorting block time: 00:00:00\nReturning block of 186 for bucket 12\n  Sorting block time: 00:00:00\nReturning block of 283 for bucket 13\nGetting block 15 of 58\n  Reserving size (388) for bucket 15\n  Calculating Z arrays for bucket 15\n  Entering block accumulator loop for bucket 15:\n  bucket 15: 10%\nGetting block 16 of 58\n  Reserving size (388) for bucket 16\n  Calculating Z arrays for bucket 16\n  Entering block accumulator loop for bucket 16:\n  bucket 15: 20%\n  bucket 15: 30%\n  bucket 16: 10%\n  bucket 15: 40%\n  bucket 16: 20%\n  bucket 15: 50%\n  bucket 16: 30%\n  bucket 15: 60%\n  bucket 15: 70%\n  bucket 16: 40%\n  bucket 15: 80%\n  bucket 16: 50%\n  bucket 15: 90%\n  bucket 16: 60%\n  bucket 15: 100%\n  Sorting block of length 241 for bucket 15\n  (Using difference cover)\n  bucket 16: 70%\n  bucket 16: 80%\n  bucket 16: 90%\n  Sorting block time: 00:00:00\nReturning block of 242 for bucket 15\n  bucket 16: 100%\n  Sorting block of length 379 for bucket 16\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 380 for bucket 16\nGetting block 17 of 58\n  Reserving size (388) for bucket 17\nGetting block 18 of 58\n  Calculating Z arrays for bucket 17\n  Reserving size (388) for bucket 18\n  Calculating Z arrays for bucket 18\n  Entering block accumulator loop for bucket 18:\n  Entering block accumulator loop for bucket 17:\n  bucket 18: 10%\n  bucket 17: 10%\n  bucket 18: 20%\n  bucket 17: 20%\n  bucket 18: 30%\n  bucket 17: 30%\n  bucket 18: 40%\n  bucket 18: 50%\n  bucket 17: 40%\n  bucket 18: 60%\n  bucket 17: 50%\n  bucket 18: 70%\n  bucket 18: 80%\n  bucket 17: 60%\n  bucket 18: 90%\n  bucket 17: 70%\n  bucket 18: 100%\n  Sorting block of length 378 for bucket 18\n  (Using difference cover)\n  bucket 17: 80%\n  bucket 17: 90%\n  bucket 17: 100%\n  Sorting block of length 215 for bucket 17\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 379 for bucket 18\n  Sorting block time: 00:00:00\nReturning block of 216 for bucket 17\nGetting block 19 of 58\n  Reserving size (388) for bucket 19\nGetting block 20 of 58\n  Calculating Z arrays for bucket 19\n  Reserving size (388) for bucket 20\n  Calculating Z arrays for bucket 20\n  Entering block accumulator loop for bucket 19:\n  Entering block accumulator loop for bucket 20:\n  bucket 19: 10%\n  bucket 20: 10%\n  bucket 19: 20%\n  bucket 20: 20%\n  bucket 20: 30%\n  bucket 19: 30%\n  bucket 19: 40%\n  bucket 20: 40%\n  bucket 19: 50%\n  bucket 20: 50%\n  bucket 20: 60%\n  bucket 19: 60%\n  bucket 19: 70%\n  bucket 20: 70%\n  bucket 19: 80%\n  bucket 20: 80%\n  bucket 19: 90%\n  bucket 20: 90%\n  bucket 19: 100%\n  bucket 20: 100%\n  Sorting block of length 334 for bucket 19\n  (Using difference cover)\n  Sorting block of length 313 for bucket 20\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 335 for bucket 19\n  Sorting block time: 00:00:00\nReturning block of 314 for bucket 20\nGetting block 21 of 58\n  Reserving size (388) for bucket 21\n  Calculating Z arrays for bucket 21\n  Entering block accumulator loop for bucket 21:\n  bucket 21: 10%\n  bucket 21: 20%\n  bucket 21: 30%\n  bucket 21: 40%\n  bucket 21: 50%\n  bucket 21: 60%\n  bucket 21: 70%\n  bucket 21: 80%\n  bucket 21: 90%\n  bucket 21: 100%\n  Sorting block of length 210 for bucket 21\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 211 for bucket 21\nGetting block 22 of 58\n  Reserving size (388) for bucket 22\n  Calculating Z arrays for bucket 22\n  Entering block accumulator loop for bucket 22:\nGetting block 23 of 58\n  bucket 22: 10%\n  Reserving size (388) for bucket 23\n  Calculating Z arrays for bucket 23\n  Entering block accumulator loop for bucket 23:\n  bucket 22: 20%\n  bucket 22: 30%\n  bucket 23: 10%\n  bucket 22: 40%\n  bucket 23: 20%\n  bucket 22: 50%\n  bucket 23: 30%\n  bucket 23: 40%\n  bucket 22: 60%\n  bucket 23: 50%\n  bucket 22: 70%\n  bucket 23: 60%\n  bucket 22: 80%\n  bucket 23: 70%\n  bucket 22: 90%\n  bucket 23: 80%\n  bucket 22: 100%\n  Sorting block of length 386 for bucket 22\n  (Using difference cover)\n  bucket 23: 90%\n  bucket 23: 100%\n  Sorting block of length 238 for bucket 23\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 387 for bucket 22\n  Sorting block time: 00:00:00\nReturning block of 239 for bucket 23\nGetting block 24 of 58\n  Reserving size (388) for bucket 24\nGetting block 25 of 58\n  Calculating Z arrays for bucket 24\n  Reserving size (388) for bucket 25\n  Calculating Z arrays for bucket 25\n  Entering block accumulator loop for bucket 24:\n  Entering block accumulator loop for bucket 25:\n  bucket 24: 10%\n  bucket 25: 10%\n  bucket 24: 20%\n  bucket 24: 30%\n  bucket 25: 20%\n  bucket 24: 40%\n  bucket 25: 30%\n  bucket 24: 50%\n  bucket 25: 40%\n  bucket 24: 60%\n  bucket 25: 50%\n  bucket 24: 70%\n  bucket 24: 80%\n  bucket 25: 60%\n  bucket 24: 90%\n  bucket 25: 70%\n  bucket 24: 100%\n  Sorting block of length 351 for bucket 24\n  (Using difference cover)\n  bucket 25: 80%\n  bucket 25: 90%\n  bucket 25: 100%\n  Sorting block of length 105 for bucket 25\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 352 for bucket 24\n  Sorting block time: 00:00:00\nReturning block of 106 for bucket 25\nGetting block 26 of 58\n  Reserving size (388) for bucket 26\n  Calculating Z arrays for bucket 26\n  Entering block accumulator loop for bucket 26:\n  bucket 26: 10%\n  bucket 26: 20%\n  bucket 26: 30%\n  bucket 26: 40%\nGetting block 27 of 58\n  bucket 26: 50%\n  Reserving size (388) for bucket 27\n  Calculating Z arrays for bucket 27\n  Entering block accumulator loop for bucket 27:\n  bucket 26: 60%\n  bucket 26: 70%\n  bucket 27: 10%\n  bucket 26: 80%\n  bucket 27: 20%\n  bucket 26: 90%\n  bucket 27: 30%\n  bucket 26: 100%\n  Sorting block of length 354 for bucket 26\n  (Using difference cover)\n  bucket 27: 40%\n  bucket 27: 50%\n  bucket 27: 60%\n  bucket 27: 70%\n  Sorting block time: 00:00:00\nReturning block of 355 for bucket 26\n  bucket 27: 80%\n  bucket 27: 90%\n  bucket 27: 100%\n  Sorting block of length 334 for bucket 27\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 335 for bucket 27\nGetting block 28 of 58\n  Reserving size (388) for bucket 28\nGetting block 29 of 58\n  Calculating Z arrays for bucket 28\n  Reserving size (388) for bucket 29\n  Calculating Z arrays for bucket 29\n  Entering block accumulator loop for bucket 28:\n  Entering block accumulator loop for bucket 29:\n  bucket 29: 10%\n  bucket 28: 10%\n  bucket 29: 20%\n  bucket 28: 20%\n  bucket 29: 30%\n  bucket 28: 30%\n  bucket 29: 40%\n  bucket 28: 40%\n  bucket 29: 50%\n  bucket 28: 50%\n  bucket 28: 60%\n  bucket 29: 60%\n  bucket 28: 70%\n  bucket 29: 70%\n  bucket 28: 80%\n  bucket 29: 80%\n  bucket 28: 90%\n  bucket 29: 90%\n  bucket 28: 100%\n  Sorting block of length 253 for bucket 28\n  (Using difference cover)\n  bucket 29: 100%\n  Sorting block of length 289 for bucket 29\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 254 for bucket 28\n  Sorting block time: 00:00:00\nReturning block of 290 for bucket 29\nGetting block 30 of 58\n  Reserving size (388) for bucket 30\n  Calculating Z arrays for bucket 30\n  Entering block accumulator loop for bucket 30:\n  bucket 30: 10%\n  bucket 30: 20%\nGetting block 31 of 58\n  bucket 30: 30%\n  Reserving size (388) for bucket 31\n  Calculating Z arrays for bucket 31\n  bucket 30: 40%\n  bucket 30: 50%\n  Entering block accumulator loop for bucket 31:\n  bucket 30: 60%\n  bucket 31: 10%\n  bucket 30: 70%\n  bucket 31: 20%\n  bucket 30: 80%\n  bucket 31: 30%\nGetting block 32 of 58\n  bucket 30: 90%\n  Reserving size (388) for bucket 32\n  bucket 31: 40%\n  Calculating Z arrays for bucket 32\n  Entering block accumulator loop for bucket 32:\n  bucket 30: 100%\n  Sorting block of length 345 for bucket 30\n  (Using difference cover)\n  bucket 31: 50%\n  bucket 32: 10%\n  bucket 31: 60%\n  bucket 32: 20%\n  bucket 31: 70%\n  bucket 32: 30%\n  bucket 31: 80%\n  Sorting block time: 00:00:00\nReturning block of 346 for bucket 30\n  bucket 32: 40%\n  bucket 31: 90%\n  bucket 32: 50%\n  bucket 31: 100%\n  Sorting block of le\n..\n0:00\nReturning block of 350 for bucket 23\nGetting block 24 of 57\n  Reserving size (388) for bucket 24\n  Calculating Z arrays for bucket 24\n  Entering block accumulator loop for bucket 24:\n  bucket 24: 10%\n  bucket 24: 20%\nGetting block 25 of 57\n  bucket 24: 30%\n  Reserving size (388) for bucket 25\n  Calculating Z arrays for bucket 25\nGetting block 26 of 57\n  Entering block accumulator loop for bucket 25:\n  bucket 24: 40%\n  Reserving size (388) for bucket 26\n  Calculating Z arrays for bucket 26\n  Entering block accumulator loop for bucket 26:\n  bucket 24: 50%\n  bucket 25: 10%\n  bucket 24: 60%\n  bucket 25: 20%\n  bucket 26: 10%\n  bucket 24: 70%\n  bucket 26: 20%\n  bucket 24: 80%\n  bucket 25: 30%\n  bucket 26: 30%\n  bucket 24: 90%\n  bucket 25: 40%\n  bucket 26: 40%\n  bucket 25: 50%\n  bucket 24: 100%\n  Sorting block of length 245 for bucket 24\n  (Using difference cover)\n  bucket 26: 50%\n  bucket 25: 60%\n  bucket 26: 60%\n  bucket 25: 70%\n  bucket 26: 70%\n  bucket 25: 80%\n  bucket 26: 80%\n  bucket 25: 90%\n  Sorting block time: 00:00:00\nReturning block of 246 for bucket 24\n  bucket 26: 90%\n  bucket 25: 100%\n  Sorting block of length 286 for bucket 25\n  (Using difference cover)\n  bucket 26: 100%\n  Sorting block of length 384 for bucket 26\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 287 for bucket 25\n  Sorting block time: 00:00:00\nReturning block of 385 for bucket 26\nGetting block 27 of 57\n  Reserving size (388) for bucket 27\n  Calculating Z arrays for bucket 27\n  Entering block accumulator loop for bucket 27:\n  bucket 27: 10%\n  bucket 27: 20%\n  bucket 27: 30%\nGetting block 28 of 57\n  bucket 27: 40%\n  Reserving size (388) for bucket 28\n  Calculating Z arrays for bucket 28\n  Entering block accumulator loop for bucket 28:\n  bucket 27: 50%\n  bucket 28: 10%\n  bucket 27: 60%\n  bucket 27: 70%\n  bucket 28: 20%\n  bucket 27: 80%\n  bucket 28: 30%\n  bucket 27: 90%\n  bucket 28: 40%\n  bucket 27: 100%\n  bucket 28: 50%\n  Sorting block of length 359 for bucket 27\n  (Using difference cover)\n  bucket 28: 60%\n  bucket 28: 70%\n  bucket 28: 80%\n  bucket 28: 90%\n  bucket 28: 100%\n  Sorting block of length 387 for bucket 28\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 360 for bucket 27\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 28\nGetting block 29 of 57\n  Reserving size (388) for bucket 29\nGetting block 30 of 57\n  Calculating Z arrays for bucket 29\n  Reserving size (388) for bucket 30\n  Calculating Z arrays for bucket 30\n  Entering block accumulator loop for bucket 29:\n  Entering block accumulator loop for bucket 30:\n  bucket 29: 10%\n  bucket 30: 10%\n  bucket 29: 20%\n  bucket 29: 30%\n  bucket 30: 20%\n  bucket 29: 40%\n  bucket 30: 30%\n  bucket 29: 50%\n  bucket 29: 60%\n  bucket 30: 40%\n  bucket 29: 70%\n  bucket 30: 50%\n  bucket 29: 80%\n  bucket 29: 90%\n  bucket 30: 60%\n  bucket 29: 100%\n  Sorting block of length 195 for bucket 29\n  (Using difference cover)\n  bucket 30: 70%\n  bucket 30: 80%\n  bucket 30: 90%\n  bucket 30: 100%\n  Sorting block of length 257 for bucket 30\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 196 for bucket 29\n  Sorting block time: 00:00:00\nReturning block of 258 for bucket 30\nGetting block 31 of 57\n  Reserving size (388) for bucket 31\n  Calculating Z arrays for bucket 31\n  Entering block accumulator loop for bucket 31:\n  bucket 31: 10%\n  bucket 31: 20%\n  bucket 31: 30%\n  bucket 31: 40%\n  bucket 31: 50%\nGetting block 32 of 57\n  bucket 31: 60%\n  Reserving size (388) for bucket 32\n  Calculating Z arrays for bucket 32\n  Entering block accumulator loop for bucket 32:\n  bucket 31: 70%\n  bucket 32: 10%\n  bucket 31: 80%\n  bucket 32: 20%\n  bucket 31: 90%\n  bucket 32: 30%\n  bucket 31: 100%\n  Sorting block of length 310 for bucket 31\n  (Using difference cover)\n  bucket 32: 40%\n  bucket 32: 50%\n  bucket 32: 60%\n  bucket 32: 70%\n  bucket 32: 80%\n  Sorting block time: 00:00:00\nReturning block of 311 for bucket 31\n  bucket 32: 90%\n  bucket 32: 100%\n  Sorting block of length 219 for bucket 32\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 220 for bucket 32\nGetting block 33 of 57\n  Reserving size (388) for bucket 33\nGetting block 34 of 57\n  Calculating Z arrays for bucket 33\n  Reserving size (388) for bucket 34\n  Calculating Z arrays for bucket 34\n  Entering block accumulator loop for bucket 33:\n  Entering block accumulator loop for bucket 34:\n  bucket 34: 10%\n  bucket 33: 10%\n  bucket 34: 20%\n  bucket 33: 20%\n  bucket 34: 30%\n  bucket 33: 30%\n  bucket 34: 40%\n  bucket 33: 40%\n  bucket 34: 50%\n  bucket 33: 50%\n  bucket 34: 60%\n  bucket 33: 60%\n  bucket 34: 70%\n  bucket 33: 70%\n  bucket 34: 80%\n  bucket 34: 90%\n  bucket 33: 80%\n  bucket 34: 100%\n  Sorting block of length 275 for bucket 34\n  (Using difference cover)\n  bucket 33: 90%\n  bucket 33: 100%\n  Sorting block of length 387 for bucket 33\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 33\n  Sorting block time: 00:00:00\nReturning block of 276 for bucket 34\nGetting block 35 of 57\n  Reserving size (388) for bucket 35\n  Calculating Z arrays for bucket 35\n  Entering block accumulator loop for bucket 35:\n  bucket 35: 10%\n  bucket 35: 20%\nGetting block 36 of 57\n  bucket 35: 30%\n  Reserving size (388) for bucket 36\n  Calculating Z arrays for bucket 36\n  Entering block accumulator loop for bucket 36:\n  bucket 35: 40%\n  bucket 35: 50%\n  bucket 36: 10%\n  bucket 35: 60%\n  bucket 36: 20%\n  bucket 35: 70%\n  bucket 36: 30%\n  bucket 36: 40%\n  bucket 35: 80%\n  bucket 36: 50%\n  bucket 36: 60%\n  bucket 35: 90%\n  bucket 36: 70%\n  bucket 35: 100%\n  Sorting block of length 350 for bucket 35\n  (Using difference cover)\n  bucket 36: 80%\n  bucket 36: 90%\n  bucket 36: 100%\n  Sorting block of length 150 for bucket 36\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 351 for bucket 35\n  Sorting block time: 00:00:00\nReturning block of 151 for bucket 36\nGetting block 37 of 57\n  Reserving size (388) for bucket 37\nGetting block 38 of 57\n  Calculating Z arrays for bucket 37\n  Reserving size (388) for bucket 38\n  Calculating Z arrays for bucket 38\n  Entering block accumulator loop for bucket 38:\n  Entering block accumulator loop for bucket 37:\n  bucket 37: 10%\n  bucket 38: 10%\n  bucket 37: 20%\n  bucket 38: 20%\n  bucket 37: 30%\n  bucket 38: 30%\n  bucket 37: 40%\n  bucket 38: 40%\n  bucket 37: 50%\n  bucket 38: 50%\n  bucket 37: 60%\n  bucket 38: 60%\n  bucket 38: 70%\n  bucket 37: 70%\n  bucket 38: 80%\n  bucket 37: 80%\n  bucket 38: 90%\n  bucket 37: 90%\n  bucket 38: 100%\n  Sorting block of length 337 for bucket 38\n  (Using difference cover)\n  bucket 37: 100%\n  Sorting block of length 267 for bucket 37\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 338 for bucket 38\n  Sorting block time: 00:00:00\nReturning block of 268 for bucket 37\nGetting block 39 of 57\n  Reserving size (388) for bucket 39\nGetting block 40 of 57\n  Calculating Z arrays for bucket 39\n  Reserving size (388) for bucket 40\n  Calculating Z arrays for bucket 40\n  Entering block accumulator loop for bucket 39:\n  Entering block accumulator loop for bucket 40:\n  bucket 40: 10%\n  bucket 39: 10%\n  bucket 40: 20%\n  bucket 39: 20%\n  bucket 40: 30%\n  bucket 40: 40%\n  bucket 39: 30%\n  bucket 40: 50%\n  bucket 39: 40%\n  bucket 40: 60%\n  bucket 40: 70%\n  bucket 39: 50%\n  bucket 40: 80%\n  bucket 39: 60%\n  bucket 40: 90%\n  bucket 39: 70%\n  bucket 40: 100%\n  Sorting block of length 379 for bucket 40\n  (Using difference cover)\n  bucket 39: 80%\n  bucket 39: 90%\n  bucket 39: 100%\n  Sorting block of length 387 for bucket 39\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 380 for bucket 40\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 39\nGetting block 41 of 57\n  Reserving size (388) for bucket 41\n  Calculating Z arrays for bucket 41\n  Entering block accumulator loop for bucket 41:\n  bucket 41: 10%\n  bucket 41: 20%\n  bucket 41: 30%\n  bucket 41: 40%\n  bucket 41: 50%\n  bucket 41: 60%\n  bucket 41: 70%\n  bucket 41: 80%\n  bucket 41: 90%\n  bucket 41: 100%\n  Sorting block of length 330 for bucket 41\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 331 for bucket 41\nGetting block 42 of 57\n  Reserving size (388) for bucket 42\n  Calculating Z arrays for bucket 42\n  Entering block accumulator loop for bucket 42:\n  bucket 42: 10%\n  bucket 42: 20%\nGetting block 43 of 57\n  bucket 42: 30%\n  Reserving size (388) for bucket 43\n  Calculating Z arrays for bucket 43\n  Entering block accumulator loop for bucket 43:\n  bucket 42: 40%\n  bucket 43: 10%\n  bucket 42: 50%\n  bucket 43: 20%\n  bucket 43: 30%\n  bucket 42: 60%\n  bucket 43: 40%\n  bucket 42: 70%\n  bucket 43: 50%\n  bucket 42: 80%\n  bucket 43: 60%\n  bucket 42: 90%\n  bucket 43: 70%\n  bucket 43: 80%\n  bucket 42: 100%\n  Sorting block of length 188 for bucket 42\n  (Using difference cover)\n  bucket 43: 90%\n  bucket 43: 100%\n  Sorting block of length 321 for bucket 43\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 189 for bucket 42\n  Sorting block time: 00:00:00\nReturning block of 322 for bucket 43\nGetting block 44 of 57\n  Reserving size (388) for bucket 44\nGetting block 45 of 57\n  Calculating Z arrays for bucket 44\n  Reserving size (388) for bucket 45\n  Calculating Z arrays for bucket 45\n  Entering block accumulator loop for bucket 44:\n  Entering block accumulator loop for bucket 45:\n  bucket 44: 10%\n  bucket 45: 10%\n  bucket 44: 20%\n  bucket 45: 20%\n  bucket 44: 30%\n  bucket 45: 30%\n  bucket 44: 40%\n  bucket 45: 40%\n  bucket 44: 50%\n  bucket 45: 50%\n  bucket 44: 60%\n  bucket 44: 70%\n  bucket 45: 60%\n  bucket 44: 80%\n  bucket 45: 70%\n  bucket 44: 90%\n  bucket 45: 80%\n  bucket 44: 100%\n  Sorting block of length 366 for bucket 44\n  (Using difference cover)\n  bucket 45: 90%\n  bucket 45: 100%\n  Sorting block of length 365 for bucket 45\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 367 for bucket 44\n  Sorting block time: 00:00:00\nReturning block of 366 for bucket 45\nGetting block 46 of 57\n  Reserving size (388) for bucket 46\n  Calculating Z arrays for bucket 46\n  Entering block accumulator loop for bucket 46:\n  bucket 46: 10%\n  bucket 46: 20%\n  bucket 46: 30%\nGetting block 47 of 57\n  Reserving size (388) for bucket 47\n  Calculating Z arrays for bucket 47\n  bucket 46: 40%\n  Entering block accumulator loop for bucket 47:\n  bucket 46: 50%\n  bucket 47: 10%\n  bucket 46: 60%\n  bucket 47: 20%\n  bucket 46: 70%\n  bucket 47: 30%\n  bucket 46: 80%\nGetting block 48 of 57\n  bucket 46: 90%\n  bucket 47: 40%\n  Reserving size (388) for bucket 48\n  Calculating Z arrays for bucket 48\n  bucket 46: 100%\n  Sorting block of length 253 for bucket 46\n  (Using difference cover)\n  Entering block accumulator loop for bucket 48:\n  bucket 47: 50%\n  bucket 48: 10%\n  bucket 47: 60%\n  bucket 48: 20%\n  bucket 48: 30%\n  bucket 48: 40%\n  bucket 47: 70%\n  bucket 48: 50%\n  bucket 47: 80%\n  bucket 48: 60%\n  Sorting block time: 00:00:00\nReturning block of 254 for bucket 46\n  bucket 47: 90%\n  bucket 48: 70%\n  bucket 47: 100%\n  Sorting block of length 217 for bucket 47\n  (Using difference cover)\n  bucket 48: 80%\n  bucket 48: 90%\n  bucket 48: 100%\n  Sorting block of length 384 for bucket 48\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 218 for bucket 47\n  Sorting block time: 00:00:00\nReturning block of 385 for bucket 48\nGetting block 49 of 57\n  Reserving size (388) for bucket 49\nGetting block 50 of 57\n  Calculating Z arrays for bucket 49\n  Reserving size (388) for bucket 50\n  Calculating Z arrays for bucket 50\n  Entering block accumulator loop for bucket 49:\n  Entering block accumulator loop for bucket 50:\n  bucket 49: 10%\n  bucket 49: 20%\n  bucket 50: 10%\n  bucket 49: 30%\n  bucket 50: 20%\n  bucket 49: 40%\n  bucket 50: 30%\n  bucket 49: 50%\n  bucket 50: 40%\n  bucket 49: 60%\n  bucket 50: 50%\n  bucket 50: 60%\n  bucket 49: 70%\n  bucket 50: 70%\n  bucket 49: 80%\n  bucket 50: 80%\n  bucket 50: 90%\n  bucket 49: 90%\n  bucket 50: 100%\n  Sorting block of length 275 for bucket 50\n  (Using difference cover)\n  bucket 49: 100%\n  Sorting block of length 112 for bucket 49\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 276 for bucket 50\n  Sorting block time: 00:00:00\nReturning block of 113 for bucket 49\nGetting block 51 of 57\n  Reserving size (388) for bucket 51\nGetting block 52 of 57\n  Calculating Z arrays for bucket 51\n  Reserving size (388) for bucket 52\n  Calculating Z arrays for bucket 52\n  Entering block accumulator loop for bucket 51:\n  Entering block accumulator loop for bucket 52:\n  bucket 51: 10%\n  bucket 52: 10%\n  bucket 51: 20%\n  bucket 52: 20%\n  bucket 51: 30%\n  bucket 52: 30%\n  bucket 51: 40%\n  bucket 52: 40%\n  bucket 51: 50%\n  bucket 52: 50%\n  bucket 51: 60%\n  bucket 52: 60%\n  bucket 51: 70%\n  bucket 52: 70%\n  bucket 51: 80%\n  bucket 51: 90%\n  bucket 52: 80%\n  bucket 51: 100%\n  Sorting block of length 350 for bucket 51\n  (Using difference cover)\n  bucket 52: 90%\n  bucket 52: 100%\n  Sorting block of length 378 for bucket 52\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 351 for bucket 51\n  Sorting block time: 00:00:00\nReturning block of 379 for bucket 52\nGetting block 53 of 57\n  Reserving size (388) for bucket 53\n  Calculating Z arrays for bucket 53\n  Entering block accumulator loop for bucket 53:\nGetting block 54 of 57\n  Reserving size (388) for bucket 54\n  bucket 53: 10%\n  Calculating Z arrays for bucket 54\n  Entering block accumulator loop for bucket 54:\n  bucket 53: 20%\n  bucket 53: 30%\n  bucket 54: 10%\n  bucket 53: 40%\n  bucket 54: 20%\n  bucket 53: 50%\n  bucket 54: 30%\n  bucket 53: 60%\n  bucket 54: 40%\n  bucket 53: 70%\n  bucket 54: 50%\n  bucket 53: 80%\n  bucket 54: 60%\n  bucket 53: 90%\n  bucket 54: 70%\n  bucket 54: 80%\n  bucket 53: 100%\n  Sorting block of length 370 for bucket 53\n  bucket 54: 90%\n  (Using difference cover)\n  bucket 54: 100%\n  Sorting block of length 237 for bucket 54\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 238 for bucket 54\n  Sorting block time: 00:00:00\nReturning block of 371 for bucket 53\nGetting block 55 of 57\n  Reserving size (388) for bucket 55\n  Calculating Z arrays for bucket 55\n  Entering block accumulator loop for bucket 55:\n  bucket 55: 10%\n  bucket 55: 20%\n  bucket 55: 30%\nGetting block 56 of 57\n  bucket 55: 40%\n  Reserving size (388) for bucket 56\n  Calculating Z arrays for bucket 56\n  bucket 55: 50%\n  bucket 55: 60%\n  bucket 55: 70%\n  Entering block accumulator loop for bucket 56:\n  bucket 55: 80%\n  bucket 55: 90%\n  bucket 56: 10%\n  bucket 55: 100%\n  Sorting block of length 344 for bucket 55\n  (Using difference cover)\n  bucket 56: 20%\n  bucket 56: 30%\n  bucket 56: 40%\n  bucket 56: 50%\n  bucket 56: 60%\n  bucket 56: 70%\n  bucket 56: 80%\n  Sorting block time: 00:00:00\nReturning block of 345 for bucket 55\n  bucket 56: 90%\n  bucket 56: 100%\n  Sorting block of length 270 for bucket 56\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 271 for bucket 56\nGetting block 57 of 57\n  Reserving size (388) for bucket 57\n  Calculating Z arrays for bucket 57\n  Entering block accumulator loop for bucket 57:\n  bucket 57: 10%\n  bucket 57: 20%\n  bucket 57: 30%\n  bucket 57: 40%\n  bucket 57: 50%\n  bucket 57: 60%\n  bucket 57: 70%\n  bucket 57: 80%\n  bucket 57: 90%\n  bucket 57: 100%\n  Sorting block of length 132 for bucket 57\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 133 for bucket 57\nExited Ebwt loop\nfchr[A]: 0\nfchr[C]: 5124\nfchr[G]: 10305\nfchr[T]: 12474\nfchr[$]: 16568\nExiting Ebwt::buildToDisk()\nReturning from initFromVector\nWrote 4200050 bytes to primary EBWT file: genome.rev.1.bt2.tmp\nWrote 4148 bytes to secondary EBWT file: genome.rev.2.bt2.tmp\nRe-opening _in1 and _in2 as input streams\nReturning from Ebwt constructor\nHeaders:\n    len: 16568\n    bwtLen: 16569\n    sz: 4142\n    bwtSz: 4143\n    lineRate: 6\n    offRate: 4\n    offMask: 0xfffffff0\n    ftabChars: 10\n    eftabLen: 20\n    eftabSz: 80\n    ftabLen: 1048577\n    ftabSz: 4194308\n    offsLen: 1036\n    offsSz: 4144\n    lineSz: 64\n    sideSz: 64\n    sideBwtSz: 48\n    sideBwtLen: 192\n    numSides: 87\n    numLines: 87\n    ebwtTotLen: 5568\n    ebwtTotSz: 5568\n    color: 0\n    reverse: 1\nTotal time for backward call to driver() for mirror index: 00:00:01\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:43:45", "plugin": "core", "name": "end_epoch", "raw_value": "1726407825.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:43:44", "plugin": "core", "name": "start_epoch", "raw_value": "1726407824.0000000"}, {"title": "Memory Allocated (MB)", "value": "21474", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "21474.0000000"}, {"title": "Cores Allocated", "value": "8", "plugin": "core", "name": "galaxy_slots", "raw_value": "8.0000000"}]}, "status": "success"}}, {"id": "bowtie2/2.5.3+galaxy1-6", "has_data": true, "data": {"tool_id": "bowtie2", "tool_version": "2.5.3+galaxy1", "test_index": 6, "time_seconds": 30.77518582344055, "inputs": {"library|input_1": {"src": "hda", "id": "34fbf27d84bb75b8"}, "library|input_2": {"src": "hda", "id": "e3fecc68a95817d6"}, "library|unaligned_file": false, "library|paired_options|paired_options_selector": "no", "library|type": "paired", "reference_genome|own_file": {"src": "hda", "id": "cb4265ea073f9a6a"}, "reference_genome|source": "history", "analysis_type|analysis_type_selector": "simple"}, "job": {"model_class": "Job", "id": "3ab7780fd4d9175b", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:44:25.019125", "create_time": "2024-09-15T13:44:13.531858", "galaxy_version": "23.1", "command_version": "/usr/local/bin/bowtie2-align-s version 2.5.3\n64-bit\nBuilt on fv-az365-785\nWed Jan 17 04:43:48 UTC 2024\nCompiler: gcc version 12.3.0 (conda-forge gcc 12.3.0-3) \nOptions: -O3 -msse2 -funroll-loops -g3 -fvisibility-inlines-hidden -fmessage-length=0 -march=nocona -mtune=haswell -ftree-vectorize -fPIC -fstack-protector-strong -fno-plt -O2 -ffunction-sections -pipe -isystem /usr/local/include -fdebug-prefix-map=/opt/conda/conda-bld/bowtie2_1705465427853/work=/usr/local/src/conda/bowtie2-2.5.3 -fdebug-prefix-map=/usr/local=/usr/local/src/conda-prefix -std=c++11 -Wall -Wno-unused-but-set-variable -DPOPCNT_CAPABILITY -DNO_SPINLOCK -DWITH_QUEUELOCK=1 -DWITH_ZSTD\nSizeof {int, long, long long, void*, size_t, off_t}: {4, 8, 8, 8, 8, 8}", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/devteam/bowtie2/bowtie2/2.5.3+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-g5z7m", "command_line": "set -o | grep -q pipefail && set -o pipefail; bowtie2-build --threads ${GALAXY_SLOTS:-4} '/galaxy/server/database/objects/d/7/e/dataset_d7e4698b-8974-47ea-9629-48cc1da72d18.dat' genome && ln -s -f '/galaxy/server/database/objects/d/7/e/dataset_d7e4698b-8974-47ea-9629-48cc1da72d18.dat' genome.fa &&   ln -f -s '/galaxy/server/database/objects/a/6/1/dataset_a6186901-2c15-4a87-94e0-5321384c7024.dat' input_f.fastq.bz2 &&  ln -f -s '/galaxy/server/database/objects/6/7/0/dataset_670689d5-822d-4fc0-bf95-a98da3b7b208.dat' input_r.fastq.bz2 &&   THREADS=${GALAXY_SLOTS:-4} && if [ \"$THREADS\" -gt 1 ]; then (( THREADS-- )); fi &&   bowtie2  -p \"$THREADS\"  -x 'genome'   -1 'input_f.fastq.bz2' -2 'input_r.fastq.bz2'                 | samtools sort -l 0 -T \"${TMPDIR:-.}\" -O bam | samtools view --no-PG -O bam -@ ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/6/f/1/dataset_6f1b9857-ece1-4b73-89f7-0064f81a737f.dat'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "save_mapping_stats": "false", "sam_options": "{\"__current_case__\": 1, \"sam_options_selector\": \"no\"}", "analysis_type": "{\"__current_case__\": 0, \"analysis_type_selector\": \"simple\", \"presets\": \"no_presets\"}", "rg": "{\"__current_case__\": 3, \"rg_selector\": \"do_not_set\"}", "reference_genome": "{\"__current_case__\": 1, \"own_file\": {\"values\": [{\"id\": 383, \"src\": \"hda\"}]}, \"source\": \"history\"}", "library": "{\"__current_case__\": 1, \"aligned_file\": false, \"input_1\": {\"values\": [{\"id\": 381, \"src\": \"hda\"}]}, \"input_2\": {\"values\": [{\"id\": 382, \"src\": \"hda\"}]}, \"paired_options\": {\"__current_case__\": 1, \"paired_options_selector\": \"no\"}, \"type\": \"paired\", \"unaligned_file\": false}"}, "inputs": {"library|input_1": {"id": "34fbf27d84bb75b8", "src": "hda", "uuid": "a6186901-2c15-4a87-94e0-5321384c7024"}, "library|input_2": {"id": "e3fecc68a95817d6", "src": "hda", "uuid": "670689d5-822d-4fc0-bf95-a98da3b7b208"}, "reference_genome|own_file": {"id": "cb4265ea073f9a6a", "src": "hda", "uuid": "d7e4698b-8974-47ea-9629-48cc1da72d18"}}, "outputs": {"output": {"id": "76156766549f258c", "src": "hda", "uuid": "6f1b9857-ece1-4b73-89f7-0064f81a737f"}}, "output_collections": {}, "tool_stdout": "Settings:\n  Output files: \"genome.*.bt2\"\n  Line rate: 6 (line is 64 bytes)\n  Lines per side: 1 (side is 64 bytes)\n  Offset rate: 4 (one in 16)\n  FTable chars: 10\n  Strings: unpacked\n  Max bucket size: default\n  Max bucket size, sqrt multiplier: default\n  Max bucket size, len divisor: 32\n  Difference-cover sample period: 1024\n  Endianness: little\n  Actual local endianness: little\n  Sanity checking: disabled\n  Assertions: disabled\n  Random seed: 0\n  Sizeofs: void*:8, int:4, long:8, size_t:8\nInput files DNA, FASTA:\n  /galaxy/server/database/objects/d/7/e/dataset_d7e4698b-8974-47ea-9629-48cc1da72d18.dat\nReading reference sizes\n  Time reading reference sizes: 00:00:00\nCalculating joined length\nWriting header\nReserving space for joined string\nJoining reference sequences\n  Time to join reference sequences: 00:00:00\nbmax according to bmaxDivN setting: 517\nUsing parameters --bmax 388 --dcv 1024\n  Doing ahead-of-time memory usage test\n  Passed!  Constructing with these parameters: --bmax 388 --dcv 1024\nConstructing suffix-array element generator\nBuilding DifferenceCoverSample\n  Building sPrime\n  Building sPrimeOrder\n  V-Sorting samples\n  V-Sorting samples time: 00:00:00\n  Allocating rank array\n  Ranking v-sort output\n  Ranking v-sort output time: 00:00:00\n  Invoking Larsson-Sadakane on ranks\n  Invoking Larsson-Sadakane on ranks time: 00:00:00\n  Sanity-checking and returning\nBuilding samples\nReserving space for 86 sample suffixes\nGenerating random suffixes\nQSorting 86 sample offsets, eliminating duplicates\nQSorting sample offsets, eliminating duplicates time: 00:00:00\nMultikey QSorting 86 samples\n  (Using difference cover)\n  Multikey QSorting samples time: 00:00:00\nCalculating bucket sizes\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 12, merged 41; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 6, merged 6; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 5, merged 3; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 3, merged 3; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nAvg bucket size: 284.672 (target: 387)\nConverting suffix-array elements to index image\nAllocating ftab, absorbFtab\nEntering Ebwt loop\nGetting block 1 of 58\n  Reserving size (388) for bucket 1\nGetting block 2 of 58\nGetting block 3 of 58\nGetting block 4 of 58\nGetting block 5 of 58\nGetting block 6 of 58\nGetting block 7 of 58\n  Calculating Z arrays for bucket 1\n  Reserving size (388) for bucket 2\n  Reserving size (388) for bucket 3\n  Reserving size (388) for bucket 4\n  Reserving size (388) for bucket 5\n  Reserving size (388) for bucket 6\n  Reserving size (388) for bucket 7\n  Calculating Z arrays for bucket 2\n  Entering block accumulator loop for bucket 1:\n  Calculating Z arrays for bucket 3\n  Calculating Z arrays for bucket 4\n  Calculating Z arrays for bucket 5\n  Calculating Z arrays for bucket 6\n  Calculating Z arrays for bucket 7\n  Entering block accumulator loop for bucket 2:\n  Entering block accumulator loop for bucket 3:\n  Entering block accumulator loop for bucket 4:\n  Entering block accumulator loop for bucket 5:\n  Entering block accumulator loop for bucket 6:\n  Entering block accumulator loop for bucket 7:\n  bucket 1: 10%\n  bucket 2: 10%\n  bucket 3: 10%\n  bucket 5: 10%\n  bucket 4: 10%\n  bucket 1: 20%\n  bucket 2: 20%\n  bucket 7: 10%\n  bucket 3: 20%\n  bucket 5: 20%\n  bucket 6: 10%\n  bucket 2: 30%\n  bucket 1: 30%\n  bucket 4: 20%\n  bucket 3: 30%\n  bucket 5: 30%\n  bucket 7: 20%\n  bucket 2: 40%\n  bucket 1: 40%\n  bucket 6: 20%\n  bucket 4: 30%\n  bucket 3: 40%\n  bucket 5: 40%\n  bucket 2: 50%\n  bucket 1: 50%\n  bucket 7: 30%\n  bucket 6: 30%\n  bucket 3: 50%\n  bucket 2: 60%\n  bucket 5: 50%\n  bucket 4: 40%\n  bucket 1: 60%\n  bucket 7: 40%\n  bucket 6: 40%\n  bucket 3: 60%\n  bucket 2: 70%\n  bucket 5: 60%\n  bucket 1: 70%\n  bucket 4: 50%\n  bucket 3: 70%\n  bucket 7: 50%\n  bucket 6: 50%\n  bucket 2: 80%\n  bucket 5: 70%\n  bucket 1: 80%\n  bucket 3: 80%\n  bucket 5: 80%\n  bucket 6: 60%\n  bucket 2: 90%\n  bucket 1: 90%\n  bucket 7: 60%\n  bucket 3: 90%\n  bucket 5: 90%\n  bucket 1: 100%\n  bucket 2: 100%\n  Sorting block of length 355 for bucket 1\n  (Using difference cover)\n  bucket 6: 70%\n  Sorting block of length 165 for bucket 2\n  (Using difference cover)\n  bucket 3: 100%\n  bucket 4: 60%\n  bucket 7: 70%\n  Sorting block of length 370 for bucket 3\n  (Using difference cover)\n  bucket 5: 100%\n  bucket 6: 80%\n  bucket 4: 70%\n  bucket 7: 80%\n  Sorting block of length 203 for bucket 5\n  (Using difference cover)\n  bucket 4: 80%\n  bucket 6: 90%\n  bucket 7: 90%\n  bucket 4: 90%\n  bucket 7: 100%\n  bucket 6: 100%\n  bucket 4: 100%\n  Sorting block of length 368 for bucket 7\n  (Using difference cover)\n  Sorting block of length 339 for bucket 6\n  (Using difference cover)\n  Sorting block of length 328 for bucket 4\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 371 for bucket 3\n  Sorting block time: 00:00:00\nReturning block of 166 for bucket 2\n  Sorting block time: 00:00:00\nReturning block of 356 for bucket 1\n  Sorting block time: 00:00:00\nReturning block of 204 for bucket 5\n  Sorting block time: 00:00:00\nReturning block of 329 for bucket 4\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 6\n  Sorting block time: 00:00:00\nReturning block of 369 for bucket 7\nGetting block 8 of 58\n  Reserving size (388) for bucket 8\n  Calculating Z arrays for bucket 8\n  Entering block accumulator loop for bucket 8:\nGetting block 9 of 58\n  Reserving size (388) for bucket 9\n  Calculating Z arrays for bucket 9\n  bucket 8: 10%\n  Entering block accumulator loop for bucket 9:\n  bucket 8: 20%\n  bucket 9: 10%\nGetting block 10 of 58\n  bucket 8: 30%\n  bucket 9: 20%\n  Reserving size (388) for bucket 10\n  Calculating Z arrays for bucket 10\n  bucket 9: 30%\n  Entering block accumulator loop for bucket 10:\n  bucket 9: 40%\n  bucket 10: 10%\n  bucket 8: 40%\n  bucket 9: 50%\n  bucket 10: 20%\n  bucket 8: 50%\n  bucket 9: 60%\n  bucket 10: 30%\n  bucket 8: 60%\n  bucket 9: 70%\n  bucket 10: 40%\n  bucket 8: 70%\n  bucket 9: 80%\n  bucket 8: 80%\n  bucket 10: 50%\n  bucket 9: 90%\n  bucket 8: 90%\n  bucket 10: 60%\n  bucket 9: 100%\n  Sorting block of length 339 for bucket 9\n  (Using difference cover)\n  bucket 8: 100%\n  Sorting block of length 171 for bucket 8\n  (Using difference cover)\n  bucket 10: 70%\n  bucket 10: 80%\n  bucket 10: 90%\n  bucket 10: 100%\n  Sorting block of length 357 for bucket 10\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 172 for bucket 8\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 9\n  Sorting block time: 00:00:00\nReturning block of 358 for bucket 10\nGetting block 11 of 58\n  Reserving size (388) for bucket 11\n  Calculating Z arrays for bucket 11\n  Entering block accumulator loop for bucket 11:\n  bucket 11: 10%\n  bucket 11: 20%\nGetting block 12 of 58\n  Reserving size (388) for bucket 12\n  Calculating Z arrays for bucket 12\n  bucket 11: 30%\n  Entering block accumulator loop for bucket 12:\nGetting block 13 of 58\n  bucket 11: 40%\n  Reserving size (388) for bucket 13\n  bucket 12: 10%\n  Calculating Z arrays for bucket 13\n  Entering block accumulator loop for bucket 13:\n  bucket 12: 20%\n  bucket 11: 50%\n  bucket 12: 30%\n  bucket 11: 60%\n  bucket 13: 10%\n  bucket 12: 40%\n  bucket 11: 70%\n  bucket 13: 20%\n  bucket 12: 50%\n  bucket 12: 60%\n  bucket 13: 30%\n  bucket 11: 80%\n  bucket 12: 70%\n  bucket 13: 40%\n  bucket 11: 90%\n  bucket 12: 80%\n  bucket 13: 50%\n  bucket 11: 100%\n  Sorting block of length 305 for bucket 11\n  (Using difference cover)\n  bucket 12: 90%\n  bucket 13: 60%\n  bucket 13: 70%\n  bucket 12: 100%\n  Sorting block of length 185 for bucket 12\n  (Using difference cover)\n  bucket 13: 80%\n  bucket 13: 90%\n  bucket 13: 100%\n  Sorting block of length 282 for bucket 13\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 306 for bucket 11\n  Sorting block time: 00:00:00\nReturning block of 186 for bucket 12\n  Sorting block time: 00:00:00\nReturning block of 283 for bucket 13\nGetting block 15 of 58\nGetting block 14 of 58\n  Reserving size (388) for bucket 15\n  Reserving size (388) for bucket 14\n  Calculating Z arrays for bucket 15\n  Calculating Z arrays for bucket 14\n  Entering block accumulator loop for bucket 14:\n  Entering block accumulator loop for bucket 15:\n  bucket 15: 10%\n  bucket 14: 10%\n  bucket 15: 20%\n  bucket 14: 20%\n  bucket 15: 30%\n  bucket 14: 30%\n  bucket 15: 40%\n  bucket 14: 40%\n  bucket 15: 50%\n  bucket 15: 60%\n  bucket 14: 50%\n  bucket 15: 70%\n  bucket 14: 60%\n  bucket 15: 80%\n  bucket 14: 70%\n  bucket 15: 90%\n  bucket 15: 100%\n  Sorting block of length 241 for bucket 15\n  (Using difference cover)\n  bucket 14: 80%\n  bucket 14: 90%\n  bucket 14: 100%\n  Sorting block of length 339 for bucket 14\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 242 for bucket 15\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 14\nGetting block 16 of 58\n  Reserving size (388) for bucket 16\nGetting block 17 of 58\n  Calculating Z arrays for bucket 16\n  Reserving size (388) for bucket 17\n  Calculating Z arrays for bucket 17\n  Entering block accumulator loop for bucket 17:\n  Entering block accumulator loop for bucket 16:\n  bucket 17: 10%\n  bucket 16: 10%\n  bucket 16: 20%\n  bucket 17: 20%\n  bucket 16: 30%\n  bucket 17: 30%\n  bucket 17: 40%\n  bucket 16: 40%\n  bucket 16: 50%\n  bucket 17: 50%\n  bucket 16: 60%\n  bucket 17: 60%\n  bucket 16: 70%\n  bucket 17: 70%\n  bucket 17: 80%\n  bucket 16: 80%\n  bucket 16: 90%\n  bucket 17: 90%\n  bucket 16: 100%\n  Sorting block of length 379 for bucket 16\n  (Using difference cover)\n  bucket 17: 100%\n  Sorting block of length 215 for bucket 17\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 216 for bucket 17\n  Sorting block time: 00:00:00\nReturning block of 380 for bucket 16\nGetting block 18 of 58\n  Reserving size (388) for bucket 18\n  Calculating Z arrays for bucket 18\n  Entering block accumulator loop for bucket 18:\n  bucket 18: 10%\n  bucket 18: 20%\nGetting block 19 of 58\n  Reserving size (388) for bucket 19\nGetting block 20 of 58\n  Calculating Z arrays for bucket 19\n  bucket 18: 30%\n  Reserving size (388) for bucket 20\n  Calculating Z arrays for bucket 20\n  Entering block accumulator loop for bucket 19:\n  Entering block accumulator loop for bucket 20:\n  bucket 18: 40%\n  bucket 20: 10%\n  bucket 19: 10%\n  bucket 18: 50%\n  bucket 20: 20%\n  bucket 19: 20%\n  bucket 18: 60%\n  bucket 20: 30%\n  bucket 19: 30%\n  bucket 20: 40%\n  bucket 18: 70%\n  bucket 20: 50%\n  bucket 19: 40%\n  bucket 18: 80%\n  bucket 20: 60%\n  bucket 19: 50%\n  bucket 18: 90%\n  bucket 20: 70%\n  bucket 19: 60%\n  bucket 18: 100%\n  Sorting block of length 378 for bucket 18\n  (Using difference cover)\n  bucket 20: 80%\n  bucket 19: 70%\n  bucket 20: 90%\n  bucket 19: 80%\n  bucket 19: 90%\n  bucket 20: 100%\n  Sorting block of length 313 for bucket 20\n  (Using difference cover)\n  bucket 19: 100%\n  Sorting block of length 334 for bucket 19\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 379 for bucket 18\n  Sorting block time: 00:00:00\nReturning block of 314 for bucket 20\n  Sorting block time: 00:00:00\nReturning block of 335 for bucket 19\nGetting block 21 of 58\n  Reserving size (388) for bucket 21\n  Calculating Z arrays for bucket 21\n  Entering block accumulator loop for bucket 21:\n  bucket 21: 10%\nGetting block 22 of 58\n  Reserving size (388) for bucket 22\n  Calculating Z arrays for bucket 22\n  Entering block accumulator loop for bucket 22:\n  bucket 21: 20%\n  bucket 22: 10%\n  bucket 21: 30%\n  bucket 22: 20%\n  bucket 21: 40%\n  bucket 22: 30%\n  bucket 21: 50%\n  bucket 21: 60%\n  bucket 22: 40%\n  bucket 21: 70%\n  bucket 22: 50%\n  bucket 21: 80%\n  bucket 22: 60%\n  bucket 22: 70%\n  bucket 21: 90%\n  bucket 22: 80%\n  bucket 21: 100%\n  Sorting block of length 210 for bucket 21\n  (Using difference cover)\n  bucket 22: 90%\n  bucket 22: 100%\n  Sorting block of length 386 for bucket 22\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 211 for bucket 21\n  Sorting block time: 00:00:00\nReturning block of 387 for bucket 22\nGetting block 23 of 58\n  Reserving size (388) for bucket 23\nGetting block 24 of 58\n  Calculating Z arrays for bucket 23\n  Reserving size (388) for bucket 24\n  Calculating Z arrays for bucket 24\n  Entering block accumulator loop for bucket 24:\n  Entering block accumulator loop for bucket 23:\n  bucket 24: 10%\n  bucket 23: 10%\n  bucket 24: 20%\n  bucket 24: 30%\n  bucket 23: 20%\n  bucket 24: 40%\n  bucket 23: 30%\n  bucket 23: 40%\n  bucket 24: 50%\n  bucket 23: 50%\n  bucket 24: 60%\n  bucket 23: 60%\n  bucket 24: 70%\n  bucket 23: 70%\n  bucket 24: 80%\n  bucket 23: 80%\n  bucket 24: 90%\n  bucket 23: 90%\n  bucket 24: 100%\n  Sorting block of length 351 for bucket 24\n  (Using difference cover)\n  bucket 23: 100%\n  Sorting block of length 238 for bucket 23\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 239 for bucket 23\n  Sorting block time: 00:00:00\nReturning block of 352 for bucket 24\nGetting block 25 of 58\n  Reserving size (388) for bucket 25\nGetting block 26 of 58\n  Calculating Z arrays for bucket 25\n  Reserving size (388) for bucket 26\n  Calculating Z arrays for bucket 26\n  Entering block accumulator loop for bucket 26:\n  bucket 26: 10%\n  Entering block accumulator loop for bucket 25:\n  bucket 26: 20%\nGetting block 27 of 58\n  bucket 25: 10%\n  bucket 26: 30%\n  Reserving size (388) for bucket 27\n  Calculating Z arrays for bucket 27\n  Entering block accumulator loop for bucket 27:\n  bucket 25: 20%\n  bucket 26: 40%\n  bucket 25: 30%\n  bucket 26: 50%\n  bucket 27: 10%\n  bucket 26: 60%\n  bucket 26: 70%\n  bucket 25: 40%\n  bucket 27: 20%\n  bucket 26: 80%\n  bucket 25: 50%\n  bucket 26: 90%\n  bucket 25: 60%\n  bucket 27: 30%\n  bucket 25: 70%\n  bucket 26: 100%\n  Sorting block of length 354 for bucket 26\n  (Using difference cover)\n  bucket 27: 40%\n  bucket 25: 80%\n  bucket 25: 90%\n  bucket 27: 50%\n  bucket 25: 100%\n  Sorting block of length 105 for bucket 25\n  (Using difference cover)\n  bucket 27: 60%\n  Sorting block time: 00:00:00\nReturning block of 355 for bucket 26\n  bucket 27: 70%\n  Sorting block time: 00:00:00\nReturning block of 106 for bucket 25\n  bucket 27: 80%\n  bucket 27: 90%\n  bucket 27: 100%\n  Sorting block of length 334 for bucket 27\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 335 for bucket 27\nGetting block 28 of 58\n  Reserving size (388) for bucket 28\n  Calculating Z arrays for bucket 28\n  Entering block accumulator loop for bucket 28:\nGetting block 29 of 58\n  Reserving size (388) for bucket 29\nGetting block 30 of 58\n  bucket 28: 10%\n  Calculating Z arrays for bucket 29\n  Reserving size (388) for bucket 30\n  Calculating Z arrays for bucket 30\n  Entering block accumulator loop for bucket 29:\n  Entering block accumulator loop for bucket 30:\n  bucket 28: 20%\n  bucket 29: 10%\n  bucket 30: 10%\n  bucket 28: 30%\n  bucket 29: 20%\n  bucket 30: 20%\n  bucket 28: 40%\n  bucket 29: 30%\n  bucket 28: 50%\n  bucket 30: 30%\n  bucket 29: 40%\n  bucket 28: 60%\n  bucket 30: 40%\n  bucket 29: 50%\n  bucket 28: 70%\n  bucket 30: 50%\n  bucket 29: 60%\n  bucket 28: 80%\n  bucket 30: 60%\n  bucket 29: 70%\n  bucket 28: 90%\n  bucket 30: 70%\n  bucket 29: 80%\n  bucket 28: 100%\n  Sorting block of length 253 for bucket 28\n  (Using difference cover)\n  bucket 30: 80%\n  bucket 29: 90%\n  bucket 30: 90%\n  bucket 29: 100%\n  Sorting block of length 289 for bucket 29\n  (Using difference cover)\n  bucket 30: 100%\n  Sorting block of length 345 for bucket 30\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 254 for bucket 28\n  Sorting block time: 00:00:00\nReturning block of 290 for bucket 29\n  Sorting block time: 00:00:00\nReturning block of 346 for bucket 30\nGetting block 31 of 58\n  Reserving size (388) for bucket 31\n  Calculating Z arrays for bucket 31\n  Entering block accumulator loop for bucket 31:\n  bucket 31: 10%\n  bucket 31: 20%\nGetting block 32 of 58\n  bucket 31: 30%\n  Reserving size (388) for bucket 32\n  Calculating Z arrays for bucket 32\n  Entering block accumulator loop for bucket 32:\n  bucket 31: 40%\n  bucket 32: 10%\n  bucket 32: 20%\n  bucket 31: 50%\n  bucket 32: 30%\n  bucket 32: 40%\n  bucket 31: 60%\n  bucket 32: 50%\n  bucket 31: 70%\n  bucket 32: 60%\n  bucket 31: 80%\n  bucket 32: 70%\n  bucket 32: 80%\n  buc\n..\n0:00\nReturning block of 350 for bucket 23\nGetting block 24 of 57\n  Reserving size (388) for bucket 24\nGetting block 25 of 57\n  Calculating Z arrays for bucket 24\n  Reserving size (388) for bucket 25\n  Calculating Z arrays for bucket 25\n  Entering block accumulator loop for bucket 25:\n  Entering block accumulator loop for bucket 24:\n  bucket 25: 10%\n  bucket 24: 10%\n  bucket 25: 20%\n  bucket 24: 20%\n  bucket 24: 30%\n  bucket 24: 40%\n  bucket 25: 30%\n  bucket 24: 50%\n  bucket 25: 40%\n  bucket 24: 60%\n  bucket 25: 50%\n  bucket 25: 60%\n  bucket 24: 70%\n  bucket 25: 70%\n  bucket 24: 80%\n  bucket 25: 80%\n  bucket 24: 90%\n  bucket 24: 100%\n  Sorting block of length 245 for bucket 24\n  (Using difference cover)\n  bucket 25: 90%\n  bucket 25: 100%\n  Sorting block of length 286 for bucket 25\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 246 for bucket 24\n  Sorting block time: 00:00:00\nReturning block of 287 for bucket 25\nGetting block 26 of 57\n  Reserving size (388) for bucket 26\n  Calculating Z arrays for bucket 26\n  Entering block accumulator loop for bucket 26:\n  bucket 26: 10%\n  bucket 26: 20%\n  bucket 26: 30%\n  bucket 26: 40%\n  bucket 26: 50%\nGetting block 27 of 57\n  bucket 26: 60%\n  Reserving size (388) for bucket 27\n  Calculating Z arrays for bucket 27\n  Entering block accumulator loop for bucket 27:\n  bucket 26: 70%\n  bucket 26: 80%\n  bucket 27: 10%\n  bucket 26: 90%\n  bucket 27: 20%\n  bucket 26: 100%\n  Sorting block of length 384 for bucket 26\n  (Using difference cover)\n  bucket 27: 30%\n  bucket 27: 40%\n  bucket 27: 50%\n  bucket 27: 60%\n  Sorting block time: 00:00:00\nReturning block of 385 for bucket 26\n  bucket 27: 70%\n  bucket 27: 80%\n  bucket 27: 90%\n  bucket 27: 100%\n  Sorting block of length 359 for bucket 27\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 360 for bucket 27\nGetting block 28 of 57\n  Reserving size (388) for bucket 28\n  Calculating Z arrays for bucket 28\n  Entering block accumulator loop for bucket 28:\n  bucket 28: 10%\n  bucket 28: 20%\n  bucket 28: 30%\n  bucket 28: 40%\n  bucket 28: 50%\n  bucket 28: 60%\n  bucket 28: 70%\n  bucket 28: 80%\n  bucket 28: 90%\n  bucket 28: 100%\n  Sorting block of length 387 for bucket 28\n  (Using difference cover)\nGetting block 29 of 57\n  Reserving size (388) for bucket 29\n  Calculating Z arrays for bucket 29\n  Entering block accumulator loop for bucket 29:\n  bucket 29: 10%\n  bucket 29: 20%\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 28\n  bucket 29: 30%\n  bucket 29: 40%\n  bucket 29: 50%\n  bucket 29: 60%\n  bucket 29: 70%\n  bucket 29: 80%\n  bucket 29: 90%\n  bucket 29: 100%\n  Sorting block of length 195 for bucket 29\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 196 for bucket 29\nGetting block 30 of 57\n  Reserving size (388) for bucket 30\n  Calculating Z arrays for bucket 30\n  Entering block accumulator loop for bucket 30:\n  bucket 30: 10%\n  bucket 30: 20%\n  bucket 30: 30%\n  bucket 30: 40%\n  bucket 30: 50%\n  bucket 30: 60%\n  bucket 30: 70%\n  bucket 30: 80%\n  bucket 30: 90%\n  bucket 30: 100%\n  Sorting block of length 257 for bucket 30\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 258 for bucket 30\nGetting block 31 of 57\n  Reserving size (388) for bucket 31\n  Calculating Z arrays for bucket 31\n  Entering block accumulator loop for bucket 31:\nGetting block 32 of 57\n  Reserving size (388) for bucket 32\n  Calculating Z arrays for bucket 32\n  bucket 31: 10%\n  Entering block accumulator loop for bucket 32:\nGetting block 33 of 57\n  Reserving size (388) for bucket 33\n  Calculating Z arrays for bucket 33\n  bucket 31: 20%\n  bucket 32: 10%\n  Entering block accumulator loop for bucket 33:\n  bucket 31: 30%\n  bucket 32: 20%\n  bucket 31: 40%\n  bucket 32: 30%\n  bucket 33: 10%\n  bucket 31: 50%\n  bucket 32: 40%\n  bucket 33: 20%\n  bucket 31: 60%\n  bucket 32: 50%\n  bucket 33: 30%\n  bucket 31: 70%\n  bucket 32: 60%\n  bucket 33: 40%\n  bucket 32: 70%\n  bucket 33: 50%\n  bucket 31: 80%\n  bucket 32: 80%\n  bucket 33: 60%\n  bucket 31: 90%\n  bucket 33: 70%\n  bucket 32: 90%\n  bucket 31: 100%\n  Sorting block of length 310 for bucket 31\n  (Using difference cover)\n  bucket 33: 80%\n  bucket 32: 100%\n  Sorting block of length 219 for bucket 32\n  (Using difference cover)\n  bucket 33: 90%\n  bucket 33: 100%\n  Sorting block of length 387 for bucket 33\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 311 for bucket 31\n  Sorting block time: 00:00:00\nReturning block of 220 for bucket 32\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 33\nGetting block 34 of 57\n  Reserving size (388) for bucket 34\n  Calculating Z arrays for bucket 34\n  Entering block accumulator loop for bucket 34:\n  bucket 34: 10%\n  bucket 34: 20%\n  bucket 34: 30%\n  bucket 34: 40%\n  bucket 34: 50%\n  bucket 34: 60%\n  bucket 34: 70%\n  bucket 34: 80%\n  bucket 34: 90%\n  bucket 34: 100%\n  Sorting block of length 275 for bucket 34\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 276 for bucket 34\nGetting block 35 of 57\nGetting block 36 of 57\n  Reserving size (388) for bucket 35\n  Reserving size (388) for bucket 36\n  Calculating Z arrays for bucket 35\n  Calculating Z arrays for bucket 36\n  Entering block accumulator loop for bucket 35:\n  Entering block accumulator loop for bucket 36:\n  bucket 35: 10%\n  bucket 36: 10%\n  bucket 35: 20%\n  bucket 36: 20%\n  bucket 35: 30%\n  bucket 36: 30%\n  bucket 35: 40%\n  bucket 36: 40%\n  bucket 35: 50%\n  bucket 36: 50%\n  bucket 35: 60%\n  bucket 36: 60%\n  bucket 35: 70%\n  bucket 36: 70%\n  bucket 35: 80%\n  bucket 36: 80%\n  bucket 35: 90%\n  bucket 36: 90%\n  bucket 35: 100%\n  Sorting block of length 350 for bucket 35\n  (Using difference cover)\n  bucket 36: 100%\n  Sorting block of length 150 for bucket 36\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 151 for bucket 36\n  Sorting block time: 00:00:00\nReturning block of 351 for bucket 35\nGetting block 37 of 57\n  Reserving size (388) for bucket 37\n  Calculating Z arrays for bucket 37\n  Entering block accumulator loop for bucket 37:\n  bucket 37: 10%\n  bucket 37: 20%\n  bucket 37: 30%\n  bucket 37: 40%\n  bucket 37: 50%\n  bucket 37: 60%\n  bucket 37: 70%\n  bucket 37: 80%\n  bucket 37: 90%\n  bucket 37: 100%\n  Sorting block of length 267 for bucket 37\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 268 for bucket 37\nGetting block 38 of 57\n  Reserving size (388) for bucket 38\n  Calculating Z arrays for bucket 38\n  Entering block accumulator loop for bucket 38:\n  bucket 38: 10%\n  bucket 38: 20%\n  bucket 38: 30%\n  bucket 38: 40%\nGetting block 39 of 57\n  Reserving size (388) for bucket 39\n  Calculating Z arrays for bucket 39\n  Entering block accumulator loop for bucket 39:\n  bucket 38: 50%\n  bucket 38: 60%\n  bucket 39: 10%\n  bucket 38: 70%\n  bucket 39: 20%\n  bucket 38: 80%\n  bucket 38: 90%\n  bucket 39: 30%\n  bucket 38: 100%\n  Sorting block of length 337 for bucket 38\n  (Using difference cover)\n  bucket 39: 40%\n  bucket 39: 50%\n  bucket 39: 60%\n  Sorting block time: 00:00:00\nReturning block of 338 for bucket 38\n  bucket 39: 70%\n  bucket 39: 80%\n  bucket 39: 90%\n  bucket 39: 100%\n  Sorting block of length 387 for bucket 39\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 39\nGetting block 40 of 57\n  Reserving size (388) for bucket 40\nGetting block 41 of 57\n  Calculating Z arrays for bucket 40\n  Reserving size (388) for bucket 41\n  Calculating Z arrays for bucket 41\n  Entering block accumulator loop for bucket 40:\n  Entering block accumulator loop for bucket 41:\n  bucket 40: 10%\n  bucket 41: 10%\n  bucket 40: 20%\n  bucket 41: 20%\n  bucket 40: 30%\n  bucket 41: 30%\n  bucket 40: 40%\n  bucket 41: 40%\n  bucket 40: 50%\n  bucket 41: 50%\n  bucket 40: 60%\n  bucket 41: 60%\n  bucket 40: 70%\n  bucket 41: 70%\n  bucket 41: 80%\n  bucket 40: 80%\n  bucket 41: 90%\n  bucket 40: 90%\n  bucket 41: 100%\n  Sorting block of length 330 for bucket 41\n  (Using difference cover)\n  bucket 40: 100%\n  Sorting block of length 379 for bucket 40\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 331 for bucket 41\n  Sorting block time: 00:00:00\nReturning block of 380 for bucket 40\nGetting block 42 of 57\n  Reserving size (388) for bucket 42\n  Calculating Z arrays for bucket 42\n  Entering block accumulator loop for bucket 42:\n  bucket 42: 10%\n  bucket 42: 20%\nGetting block 43 of 57\n  Reserving size (388) for bucket 43\n  Calculating Z arrays for bucket 43\n  Entering block accumulator loop for bucket 43:\n  bucket 42: 30%\n  bucket 43: 10%\n  bucket 42: 40%\n  bucket 43: 20%\n  bucket 42: 50%\n  bucket 43: 30%\n  bucket 42: 60%\n  bucket 43: 40%\n  bucket 42: 70%\n  bucket 42: 80%\n  bucket 43: 50%\n  bucket 42: 90%\n  bucket 43: 60%\n  bucket 42: 100%\n  bucket 43: 70%\n  Sorting block of length 188 for bucket 42\n  (Using difference cover)\n  bucket 43: 80%\n  bucket 43: 90%\n  bucket 43: 100%\n  Sorting block of length 321 for bucket 43\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 189 for bucket 42\n  Sorting block time: 00:00:00\nReturning block of 322 for bucket 43\nGetting block 44 of 57\n  Reserving size (388) for bucket 44\nGetting block 45 of 57\n  Calculating Z arrays for bucket 44\n  Reserving size (388) for bucket 45\n  Calculating Z arrays for bucket 45\n  Entering block accumulator loop for bucket 44:\n  Entering block accumulator loop for bucket 45:\n  bucket 44: 10%\n  bucket 45: 10%\n  bucket 44: 20%\n  bucket 45: 20%\n  bucket 44: 30%\n  bucket 45: 30%\n  bucket 44: 40%\n  bucket 44: 50%\n  bucket 45: 40%\n  bucket 44: 60%\n  bucket 45: 50%\n  bucket 44: 70%\n  bucket 44: 80%\n  bucket 45: 60%\n  bucket 44: 90%\n  bucket 45: 70%\n  bucket 44: 100%\n  Sorting block of length 366 for bucket 44\n  (Using difference cover)\n  bucket 45: 80%\n  bucket 45: 90%\n  bucket 45: 100%\n  Sorting block of length 365 for bucket 45\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 367 for bucket 44\n  Sorting block time: 00:00:00\nReturning block of 366 for bucket 45\nGetting block 46 of 57\n  Reserving size (388) for bucket 46\n  Calculating Z arrays for bucket 46\n  Entering block accumulator loop for bucket 46:\n  bucket 46: 10%\n  bucket 46: 20%\n  bucket 46: 30%\nGetting block 47 of 57\n  Reserving size (388) for bucket 47\n  Calculating Z arrays for bucket 47\n  bucket 46: 40%\n  Entering block accumulator loop for bucket 47:\n  bucket 46: 50%\n  bucket 47: 10%\n  bucket 46: 60%\n  bucket 47: 20%\n  bucket 46: 70%\n  bucket 47: 30%\n  bucket 46: 80%\n  bucket 47: 40%\n  bucket 46: 90%\n  bucket 47: 50%\n  bucket 47: 60%\n  bucket 46: 100%\n  Sorting block of length 253 for bucket 46\n  (Using difference cover)\n  bucket 47: 70%\n  bucket 47: 80%\n  bucket 47: 90%\n  Sorting block time: 00:00:00\nReturning block of 254 for bucket 46\n  bucket 47: 100%\n  Sorting block of length 217 for bucket 47\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 218 for bucket 47\nGetting block 48 of 57\n  Reserving size (388) for bucket 48\n  Calculating Z arrays for bucket 48\nGetting block 49 of 57\n  Entering block accumulator loop for bucket 48:\n  Reserving size (388) for bucket 49\n  Calculating Z arrays for bucket 49\n  Entering block accumulator loop for bucket 49:\n  bucket 48: 10%\n  bucket 49: 10%\n  bucket 48: 20%\n  bucket 48: 30%\n  bucket 49: 20%\n  bucket 48: 40%\n  bucket 49: 30%\n  bucket 49: 40%\n  bucket 48: 50%\n  bucket 49: 50%\n  bucket 49: 60%\n  bucket 48: 60%\n  bucket 49: 70%\n  bucket 48: 70%\n  bucket 49: 80%\n  bucket 48: 80%\n  bucket 49: 90%\n  bucket 49: 100%\n  Sorting block of length 112 for bucket 49\n  (Using difference cover)\n  bucket 48: 90%\n  bucket 48: 100%\n  Sorting block of length 384 for bucket 48\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 113 for bucket 49\n  Sorting block time: 00:00:00\nReturning block of 385 for bucket 48\nGetting block 50 of 57\n  Reserving size (388) for bucket 50\n  Calculating Z arrays for bucket 50\n  Entering block accumulator loop for bucket 50:\nGetting block 51 of 57\n  Reserving size (388) for bucket 51\n  Calculating Z arrays for bucket 51\n  Entering block accumulator loop for bucket 51:\n  bucket 50: 10%\n  bucket 51: 10%\n  bucket 50: 20%\n  bucket 51: 20%\n  bucket 50: 30%\n  bucket 51: 30%\n  bucket 51: 40%\n  bucket 50: 40%\n  bucket 51: 50%\n  bucket 50: 50%\n  bucket 51: 60%\n  bucket 50: 60%\n  bucket 51: 70%\n  bucket 51: 80%\n  bucket 50: 70%\n  bucket 51: 90%\n  bucket 50: 80%\n  bucket 51: 100%\n  Sorting block of length 350 for bucket 51\n  (Using difference cover)\n  bucket 50: 90%\n  bucket 50: 100%\n  Sorting block of length 275 for bucket 50\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 351 for bucket 51\n  Sorting block time: 00:00:00\nReturning block of 276 for bucket 50\nGetting block 52 of 57\n  Reserving size (388) for bucket 52\nGetting block 53 of 57\n  Calculating Z arrays for bucket 52\n  Reserving size (388) for bucket 53\n  Calculating Z arrays for bucket 53\n  Entering block accumulator loop for bucket 52:\n  Entering block accumulator loop for bucket 53:\n  bucket 52: 10%\n  bucket 53: 10%\n  bucket 52: 20%\n  bucket 53: 20%\n  bucket 52: 30%\n  bucket 53: 30%\n  bucket 52: 40%\n  bucket 53: 40%\n  bucket 52: 50%\n  bucket 53: 50%\n  bucket 52: 60%\n  bucket 53: 60%\n  bucket 52: 70%\n  bucket 53: 70%\n  bucket 52: 80%\n  bucket 53: 80%\n  bucket 52: 90%\n  bucket 53: 90%\n  bucket 52: 100%\n  Sorting block of length 378 for bucket 52\n  (Using difference cover)\n  bucket 53: 100%\n  Sorting block of length 370 for bucket 53\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 379 for bucket 52\n  Sorting block time: 00:00:00\nReturning block of 371 for bucket 53\nGetting block 54 of 57\n  Reserving size (388) for bucket 54\n  Calculating Z arrays for bucket 54\n  Entering block accumulator loop for bucket 54:\n  bucket 54: 10%\n  bucket 54: 20%\nGetting block 55 of 57\n  Reserving size (388) for bucket 55\n  bucket 54: 30%\n  Calculating Z arrays for bucket 55\n  Entering block accumulator loop for bucket 55:\n  bucket 54: 40%\n  bucket 55: 10%\n  bucket 54: 50%\n  bucket 55: 20%\n  bucket 54: 60%\n  bucket 55: 30%\n  bucket 55: 40%\n  bucket 54: 70%\n  bucket 55: 50%\n  bucket 54: 80%\n  bucket 55: 60%\n  bucket 54: 90%\n  bucket 54: 100%\n  bucket 55: 70%\n  Sorting block of length 237 for bucket 54\n  (Using difference cover)\n  bucket 55: 80%\n  bucket 55: 90%\n  bucket 55: 100%\n  Sorting block of length 344 for bucket 55\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 238 for bucket 54\n  Sorting block time: 00:00:00\nReturning block of 345 for bucket 55\nGetting block 56 of 57\n  Reserving size (388) for bucket 56\n  Calculating Z arrays for bucket 56\n  Entering block accumulator loop for bucket 56:\nGetting block 57 of 57\n  Reserving size (388) for bucket 57\n  Calculating Z arrays for bucket 57\n  bucket 56: 10%\n  Entering block accumulator loop for bucket 57:\n  bucket 57: 10%\n  bucket 56: 20%\n  bucket 57: 20%\n  bucket 56: 30%\n  bucket 56: 40%\n  bucket 56: 50%\n  bucket 57: 30%\n  bucket 57: 40%\n  bucket 56: 60%\n  bucket 57: 50%\n  bucket 57: 60%\n  bucket 56: 70%\n  bucket 57: 70%\n  bucket 57: 80%\n  bucket 57: 90%\n  bucket 56: 80%\n  bucket 57: 100%\n  Sorting block of length 132 for bucket 57\n  (Using difference cover)\n  bucket 56: 90%\n  bucket 56: 100%\n  Sorting block of length 270 for bucket 56\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 133 for bucket 57\n  Sorting block time: 00:00:00\nReturning block of 271 for bucket 56\nExited Ebwt loop\nfchr[A]: 0\nfchr[C]: 5124\nfchr[G]: 10305\nfchr[T]: 12474\nfchr[$]: 16568\nExiting Ebwt::buildToDisk()\nReturning from initFromVector\nWrote 4200050 bytes to primary EBWT file: genome.rev.1.bt2.tmp\nWrote 4148 bytes to secondary EBWT file: genome.rev.2.bt2.tmp\nRe-opening _in1 and _in2 as input streams\nReturning from Ebwt constructor\nHeaders:\n    len: 16568\n    bwtLen: 16569\n    sz: 4142\n    bwtSz: 4143\n    lineRate: 6\n    offRate: 4\n    offMask: 0xfffffff0\n    ftabChars: 10\n    eftabLen: 20\n    eftabSz: 80\n    ftabLen: 1048577\n    ftabSz: 4194308\n    offsLen: 1036\n    offsSz: 4144\n    lineSz: 64\n    sideSz: 64\n    sideBwtSz: 48\n    sideBwtLen: 192\n    numSides: 87\n    numLines: 87\n    ebwtTotLen: 5568\n    ebwtTotSz: 5568\n    color: 0\n    reverse: 1\nTotal time for backward call to driver() for mirror index: 00:00:00\n", "tool_stderr": "Building a SMALL index\nRenaming genome.3.bt2.tmp to genome.3.bt2\nRenaming genome.4.bt2.tmp to genome.4.bt2\nRenaming genome.1.bt2.tmp to genome.1.bt2\nRenaming genome.2.bt2.tmp to genome.2.bt2\nRenaming genome.rev.1.bt2.tmp to genome.rev.1.bt2\nRenaming genome.rev.2.bt2.tmp to genome.rev.2.bt2\n100 reads; of these:\n  100 (100.00%) were paired; of these:\n    97 (97.00%) aligned concordantly 0 times\n    3 (3.00%) aligned concordantly exactly 1 time\n    0 (0.00%) aligned concordantly >1 times\n    ----\n    97 pairs aligned concordantly 0 times; of these:\n      8 (8.25%) aligned discordantly 1 time\n    ----\n    89 pairs aligned 0 times concordantly or discordantly; of these:\n      178 mates make up the pairs; of these:\n        153 (85.96%) aligned 0 times\n        25 (14.04%) aligned exactly 1 time\n        0 (0.00%) aligned >1 times\n23.50% overall alignment rate\n", "job_stdout": "", "job_stderr": "", "stderr": "Building a SMALL index\nRenaming genome.3.bt2.tmp to genome.3.bt2\nRenaming genome.4.bt2.tmp to genome.4.bt2\nRenaming genome.1.bt2.tmp to genome.1.bt2\nRenaming genome.2.bt2.tmp to genome.2.bt2\nRenaming genome.rev.1.bt2.tmp to genome.rev.1.bt2\nRenaming genome.rev.2.bt2.tmp to genome.rev.2.bt2\n100 reads; of these:\n  100 (100.00%) were paired; of these:\n    97 (97.00%) aligned concordantly 0 times\n    3 (3.00%) aligned concordantly exactly 1 time\n    0 (0.00%) aligned concordantly >1 times\n    ----\n    97 pairs aligned concordantly 0 times; of these:\n      8 (8.25%) aligned discordantly 1 time\n    ----\n    89 pairs aligned 0 times concordantly or discordantly; of these:\n      178 mates make up the pairs; of these:\n        153 (85.96%) aligned 0 times\n        25 (14.04%) aligned exactly 1 time\n        0 (0.00%) aligned >1 times\n23.50% overall alignment rate\n", "stdout": "Settings:\n  Output files: \"genome.*.bt2\"\n  Line rate: 6 (line is 64 bytes)\n  Lines per side: 1 (side is 64 bytes)\n  Offset rate: 4 (one in 16)\n  FTable chars: 10\n  Strings: unpacked\n  Max bucket size: default\n  Max bucket size, sqrt multiplier: default\n  Max bucket size, len divisor: 32\n  Difference-cover sample period: 1024\n  Endianness: little\n  Actual local endianness: little\n  Sanity checking: disabled\n  Assertions: disabled\n  Random seed: 0\n  Sizeofs: void*:8, int:4, long:8, size_t:8\nInput files DNA, FASTA:\n  /galaxy/server/database/objects/d/7/e/dataset_d7e4698b-8974-47ea-9629-48cc1da72d18.dat\nReading reference sizes\n  Time reading reference sizes: 00:00:00\nCalculating joined length\nWriting header\nReserving space for joined string\nJoining reference sequences\n  Time to join reference sequences: 00:00:00\nbmax according to bmaxDivN setting: 517\nUsing parameters --bmax 388 --dcv 1024\n  Doing ahead-of-time memory usage test\n  Passed!  Constructing with these parameters: --bmax 388 --dcv 1024\nConstructing suffix-array element generator\nBuilding DifferenceCoverSample\n  Building sPrime\n  Building sPrimeOrder\n  V-Sorting samples\n  V-Sorting samples time: 00:00:00\n  Allocating rank array\n  Ranking v-sort output\n  Ranking v-sort output time: 00:00:00\n  Invoking Larsson-Sadakane on ranks\n  Invoking Larsson-Sadakane on ranks time: 00:00:00\n  Sanity-checking and returning\nBuilding samples\nReserving space for 86 sample suffixes\nGenerating random suffixes\nQSorting 86 sample offsets, eliminating duplicates\nQSorting sample offsets, eliminating duplicates time: 00:00:00\nMultikey QSorting 86 samples\n  (Using difference cover)\n  Multikey QSorting samples time: 00:00:00\nCalculating bucket sizes\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 12, merged 41; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 6, merged 6; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 5, merged 3; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 3, merged 3; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nAvg bucket size: 284.672 (target: 387)\nConverting suffix-array elements to index image\nAllocating ftab, absorbFtab\nEntering Ebwt loop\nGetting block 1 of 58\n  Reserving size (388) for bucket 1\nGetting block 2 of 58\nGetting block 3 of 58\nGetting block 4 of 58\nGetting block 5 of 58\nGetting block 6 of 58\nGetting block 7 of 58\n  Calculating Z arrays for bucket 1\n  Reserving size (388) for bucket 2\n  Reserving size (388) for bucket 3\n  Reserving size (388) for bucket 4\n  Reserving size (388) for bucket 5\n  Reserving size (388) for bucket 6\n  Reserving size (388) for bucket 7\n  Calculating Z arrays for bucket 2\n  Entering block accumulator loop for bucket 1:\n  Calculating Z arrays for bucket 3\n  Calculating Z arrays for bucket 4\n  Calculating Z arrays for bucket 5\n  Calculating Z arrays for bucket 6\n  Calculating Z arrays for bucket 7\n  Entering block accumulator loop for bucket 2:\n  Entering block accumulator loop for bucket 3:\n  Entering block accumulator loop for bucket 4:\n  Entering block accumulator loop for bucket 5:\n  Entering block accumulator loop for bucket 6:\n  Entering block accumulator loop for bucket 7:\n  bucket 1: 10%\n  bucket 2: 10%\n  bucket 3: 10%\n  bucket 5: 10%\n  bucket 4: 10%\n  bucket 1: 20%\n  bucket 2: 20%\n  bucket 7: 10%\n  bucket 3: 20%\n  bucket 5: 20%\n  bucket 6: 10%\n  bucket 2: 30%\n  bucket 1: 30%\n  bucket 4: 20%\n  bucket 3: 30%\n  bucket 5: 30%\n  bucket 7: 20%\n  bucket 2: 40%\n  bucket 1: 40%\n  bucket 6: 20%\n  bucket 4: 30%\n  bucket 3: 40%\n  bucket 5: 40%\n  bucket 2: 50%\n  bucket 1: 50%\n  bucket 7: 30%\n  bucket 6: 30%\n  bucket 3: 50%\n  bucket 2: 60%\n  bucket 5: 50%\n  bucket 4: 40%\n  bucket 1: 60%\n  bucket 7: 40%\n  bucket 6: 40%\n  bucket 3: 60%\n  bucket 2: 70%\n  bucket 5: 60%\n  bucket 1: 70%\n  bucket 4: 50%\n  bucket 3: 70%\n  bucket 7: 50%\n  bucket 6: 50%\n  bucket 2: 80%\n  bucket 5: 70%\n  bucket 1: 80%\n  bucket 3: 80%\n  bucket 5: 80%\n  bucket 6: 60%\n  bucket 2: 90%\n  bucket 1: 90%\n  bucket 7: 60%\n  bucket 3: 90%\n  bucket 5: 90%\n  bucket 1: 100%\n  bucket 2: 100%\n  Sorting block of length 355 for bucket 1\n  (Using difference cover)\n  bucket 6: 70%\n  Sorting block of length 165 for bucket 2\n  (Using difference cover)\n  bucket 3: 100%\n  bucket 4: 60%\n  bucket 7: 70%\n  Sorting block of length 370 for bucket 3\n  (Using difference cover)\n  bucket 5: 100%\n  bucket 6: 80%\n  bucket 4: 70%\n  bucket 7: 80%\n  Sorting block of length 203 for bucket 5\n  (Using difference cover)\n  bucket 4: 80%\n  bucket 6: 90%\n  bucket 7: 90%\n  bucket 4: 90%\n  bucket 7: 100%\n  bucket 6: 100%\n  bucket 4: 100%\n  Sorting block of length 368 for bucket 7\n  (Using difference cover)\n  Sorting block of length 339 for bucket 6\n  (Using difference cover)\n  Sorting block of length 328 for bucket 4\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 371 for bucket 3\n  Sorting block time: 00:00:00\nReturning block of 166 for bucket 2\n  Sorting block time: 00:00:00\nReturning block of 356 for bucket 1\n  Sorting block time: 00:00:00\nReturning block of 204 for bucket 5\n  Sorting block time: 00:00:00\nReturning block of 329 for bucket 4\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 6\n  Sorting block time: 00:00:00\nReturning block of 369 for bucket 7\nGetting block 8 of 58\n  Reserving size (388) for bucket 8\n  Calculating Z arrays for bucket 8\n  Entering block accumulator loop for bucket 8:\nGetting block 9 of 58\n  Reserving size (388) for bucket 9\n  Calculating Z arrays for bucket 9\n  bucket 8: 10%\n  Entering block accumulator loop for bucket 9:\n  bucket 8: 20%\n  bucket 9: 10%\nGetting block 10 of 58\n  bucket 8: 30%\n  bucket 9: 20%\n  Reserving size (388) for bucket 10\n  Calculating Z arrays for bucket 10\n  bucket 9: 30%\n  Entering block accumulator loop for bucket 10:\n  bucket 9: 40%\n  bucket 10: 10%\n  bucket 8: 40%\n  bucket 9: 50%\n  bucket 10: 20%\n  bucket 8: 50%\n  bucket 9: 60%\n  bucket 10: 30%\n  bucket 8: 60%\n  bucket 9: 70%\n  bucket 10: 40%\n  bucket 8: 70%\n  bucket 9: 80%\n  bucket 8: 80%\n  bucket 10: 50%\n  bucket 9: 90%\n  bucket 8: 90%\n  bucket 10: 60%\n  bucket 9: 100%\n  Sorting block of length 339 for bucket 9\n  (Using difference cover)\n  bucket 8: 100%\n  Sorting block of length 171 for bucket 8\n  (Using difference cover)\n  bucket 10: 70%\n  bucket 10: 80%\n  bucket 10: 90%\n  bucket 10: 100%\n  Sorting block of length 357 for bucket 10\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 172 for bucket 8\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 9\n  Sorting block time: 00:00:00\nReturning block of 358 for bucket 10\nGetting block 11 of 58\n  Reserving size (388) for bucket 11\n  Calculating Z arrays for bucket 11\n  Entering block accumulator loop for bucket 11:\n  bucket 11: 10%\n  bucket 11: 20%\nGetting block 12 of 58\n  Reserving size (388) for bucket 12\n  Calculating Z arrays for bucket 12\n  bucket 11: 30%\n  Entering block accumulator loop for bucket 12:\nGetting block 13 of 58\n  bucket 11: 40%\n  Reserving size (388) for bucket 13\n  bucket 12: 10%\n  Calculating Z arrays for bucket 13\n  Entering block accumulator loop for bucket 13:\n  bucket 12: 20%\n  bucket 11: 50%\n  bucket 12: 30%\n  bucket 11: 60%\n  bucket 13: 10%\n  bucket 12: 40%\n  bucket 11: 70%\n  bucket 13: 20%\n  bucket 12: 50%\n  bucket 12: 60%\n  bucket 13: 30%\n  bucket 11: 80%\n  bucket 12: 70%\n  bucket 13: 40%\n  bucket 11: 90%\n  bucket 12: 80%\n  bucket 13: 50%\n  bucket 11: 100%\n  Sorting block of length 305 for bucket 11\n  (Using difference cover)\n  bucket 12: 90%\n  bucket 13: 60%\n  bucket 13: 70%\n  bucket 12: 100%\n  Sorting block of length 185 for bucket 12\n  (Using difference cover)\n  bucket 13: 80%\n  bucket 13: 90%\n  bucket 13: 100%\n  Sorting block of length 282 for bucket 13\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 306 for bucket 11\n  Sorting block time: 00:00:00\nReturning block of 186 for bucket 12\n  Sorting block time: 00:00:00\nReturning block of 283 for bucket 13\nGetting block 15 of 58\nGetting block 14 of 58\n  Reserving size (388) for bucket 15\n  Reserving size (388) for bucket 14\n  Calculating Z arrays for bucket 15\n  Calculating Z arrays for bucket 14\n  Entering block accumulator loop for bucket 14:\n  Entering block accumulator loop for bucket 15:\n  bucket 15: 10%\n  bucket 14: 10%\n  bucket 15: 20%\n  bucket 14: 20%\n  bucket 15: 30%\n  bucket 14: 30%\n  bucket 15: 40%\n  bucket 14: 40%\n  bucket 15: 50%\n  bucket 15: 60%\n  bucket 14: 50%\n  bucket 15: 70%\n  bucket 14: 60%\n  bucket 15: 80%\n  bucket 14: 70%\n  bucket 15: 90%\n  bucket 15: 100%\n  Sorting block of length 241 for bucket 15\n  (Using difference cover)\n  bucket 14: 80%\n  bucket 14: 90%\n  bucket 14: 100%\n  Sorting block of length 339 for bucket 14\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 242 for bucket 15\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 14\nGetting block 16 of 58\n  Reserving size (388) for bucket 16\nGetting block 17 of 58\n  Calculating Z arrays for bucket 16\n  Reserving size (388) for bucket 17\n  Calculating Z arrays for bucket 17\n  Entering block accumulator loop for bucket 17:\n  Entering block accumulator loop for bucket 16:\n  bucket 17: 10%\n  bucket 16: 10%\n  bucket 16: 20%\n  bucket 17: 20%\n  bucket 16: 30%\n  bucket 17: 30%\n  bucket 17: 40%\n  bucket 16: 40%\n  bucket 16: 50%\n  bucket 17: 50%\n  bucket 16: 60%\n  bucket 17: 60%\n  bucket 16: 70%\n  bucket 17: 70%\n  bucket 17: 80%\n  bucket 16: 80%\n  bucket 16: 90%\n  bucket 17: 90%\n  bucket 16: 100%\n  Sorting block of length 379 for bucket 16\n  (Using difference cover)\n  bucket 17: 100%\n  Sorting block of length 215 for bucket 17\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 216 for bucket 17\n  Sorting block time: 00:00:00\nReturning block of 380 for bucket 16\nGetting block 18 of 58\n  Reserving size (388) for bucket 18\n  Calculating Z arrays for bucket 18\n  Entering block accumulator loop for bucket 18:\n  bucket 18: 10%\n  bucket 18: 20%\nGetting block 19 of 58\n  Reserving size (388) for bucket 19\nGetting block 20 of 58\n  Calculating Z arrays for bucket 19\n  bucket 18: 30%\n  Reserving size (388) for bucket 20\n  Calculating Z arrays for bucket 20\n  Entering block accumulator loop for bucket 19:\n  Entering block accumulator loop for bucket 20:\n  bucket 18: 40%\n  bucket 20: 10%\n  bucket 19: 10%\n  bucket 18: 50%\n  bucket 20: 20%\n  bucket 19: 20%\n  bucket 18: 60%\n  bucket 20: 30%\n  bucket 19: 30%\n  bucket 20: 40%\n  bucket 18: 70%\n  bucket 20: 50%\n  bucket 19: 40%\n  bucket 18: 80%\n  bucket 20: 60%\n  bucket 19: 50%\n  bucket 18: 90%\n  bucket 20: 70%\n  bucket 19: 60%\n  bucket 18: 100%\n  Sorting block of length 378 for bucket 18\n  (Using difference cover)\n  bucket 20: 80%\n  bucket 19: 70%\n  bucket 20: 90%\n  bucket 19: 80%\n  bucket 19: 90%\n  bucket 20: 100%\n  Sorting block of length 313 for bucket 20\n  (Using difference cover)\n  bucket 19: 100%\n  Sorting block of length 334 for bucket 19\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 379 for bucket 18\n  Sorting block time: 00:00:00\nReturning block of 314 for bucket 20\n  Sorting block time: 00:00:00\nReturning block of 335 for bucket 19\nGetting block 21 of 58\n  Reserving size (388) for bucket 21\n  Calculating Z arrays for bucket 21\n  Entering block accumulator loop for bucket 21:\n  bucket 21: 10%\nGetting block 22 of 58\n  Reserving size (388) for bucket 22\n  Calculating Z arrays for bucket 22\n  Entering block accumulator loop for bucket 22:\n  bucket 21: 20%\n  bucket 22: 10%\n  bucket 21: 30%\n  bucket 22: 20%\n  bucket 21: 40%\n  bucket 22: 30%\n  bucket 21: 50%\n  bucket 21: 60%\n  bucket 22: 40%\n  bucket 21: 70%\n  bucket 22: 50%\n  bucket 21: 80%\n  bucket 22: 60%\n  bucket 22: 70%\n  bucket 21: 90%\n  bucket 22: 80%\n  bucket 21: 100%\n  Sorting block of length 210 for bucket 21\n  (Using difference cover)\n  bucket 22: 90%\n  bucket 22: 100%\n  Sorting block of length 386 for bucket 22\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 211 for bucket 21\n  Sorting block time: 00:00:00\nReturning block of 387 for bucket 22\nGetting block 23 of 58\n  Reserving size (388) for bucket 23\nGetting block 24 of 58\n  Calculating Z arrays for bucket 23\n  Reserving size (388) for bucket 24\n  Calculating Z arrays for bucket 24\n  Entering block accumulator loop for bucket 24:\n  Entering block accumulator loop for bucket 23:\n  bucket 24: 10%\n  bucket 23: 10%\n  bucket 24: 20%\n  bucket 24: 30%\n  bucket 23: 20%\n  bucket 24: 40%\n  bucket 23: 30%\n  bucket 23: 40%\n  bucket 24: 50%\n  bucket 23: 50%\n  bucket 24: 60%\n  bucket 23: 60%\n  bucket 24: 70%\n  bucket 23: 70%\n  bucket 24: 80%\n  bucket 23: 80%\n  bucket 24: 90%\n  bucket 23: 90%\n  bucket 24: 100%\n  Sorting block of length 351 for bucket 24\n  (Using difference cover)\n  bucket 23: 100%\n  Sorting block of length 238 for bucket 23\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 239 for bucket 23\n  Sorting block time: 00:00:00\nReturning block of 352 for bucket 24\nGetting block 25 of 58\n  Reserving size (388) for bucket 25\nGetting block 26 of 58\n  Calculating Z arrays for bucket 25\n  Reserving size (388) for bucket 26\n  Calculating Z arrays for bucket 26\n  Entering block accumulator loop for bucket 26:\n  bucket 26: 10%\n  Entering block accumulator loop for bucket 25:\n  bucket 26: 20%\nGetting block 27 of 58\n  bucket 25: 10%\n  bucket 26: 30%\n  Reserving size (388) for bucket 27\n  Calculating Z arrays for bucket 27\n  Entering block accumulator loop for bucket 27:\n  bucket 25: 20%\n  bucket 26: 40%\n  bucket 25: 30%\n  bucket 26: 50%\n  bucket 27: 10%\n  bucket 26: 60%\n  bucket 26: 70%\n  bucket 25: 40%\n  bucket 27: 20%\n  bucket 26: 80%\n  bucket 25: 50%\n  bucket 26: 90%\n  bucket 25: 60%\n  bucket 27: 30%\n  bucket 25: 70%\n  bucket 26: 100%\n  Sorting block of length 354 for bucket 26\n  (Using difference cover)\n  bucket 27: 40%\n  bucket 25: 80%\n  bucket 25: 90%\n  bucket 27: 50%\n  bucket 25: 100%\n  Sorting block of length 105 for bucket 25\n  (Using difference cover)\n  bucket 27: 60%\n  Sorting block time: 00:00:00\nReturning block of 355 for bucket 26\n  bucket 27: 70%\n  Sorting block time: 00:00:00\nReturning block of 106 for bucket 25\n  bucket 27: 80%\n  bucket 27: 90%\n  bucket 27: 100%\n  Sorting block of length 334 for bucket 27\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 335 for bucket 27\nGetting block 28 of 58\n  Reserving size (388) for bucket 28\n  Calculating Z arrays for bucket 28\n  Entering block accumulator loop for bucket 28:\nGetting block 29 of 58\n  Reserving size (388) for bucket 29\nGetting block 30 of 58\n  bucket 28: 10%\n  Calculating Z arrays for bucket 29\n  Reserving size (388) for bucket 30\n  Calculating Z arrays for bucket 30\n  Entering block accumulator loop for bucket 29:\n  Entering block accumulator loop for bucket 30:\n  bucket 28: 20%\n  bucket 29: 10%\n  bucket 30: 10%\n  bucket 28: 30%\n  bucket 29: 20%\n  bucket 30: 20%\n  bucket 28: 40%\n  bucket 29: 30%\n  bucket 28: 50%\n  bucket 30: 30%\n  bucket 29: 40%\n  bucket 28: 60%\n  bucket 30: 40%\n  bucket 29: 50%\n  bucket 28: 70%\n  bucket 30: 50%\n  bucket 29: 60%\n  bucket 28: 80%\n  bucket 30: 60%\n  bucket 29: 70%\n  bucket 28: 90%\n  bucket 30: 70%\n  bucket 29: 80%\n  bucket 28: 100%\n  Sorting block of length 253 for bucket 28\n  (Using difference cover)\n  bucket 30: 80%\n  bucket 29: 90%\n  bucket 30: 90%\n  bucket 29: 100%\n  Sorting block of length 289 for bucket 29\n  (Using difference cover)\n  bucket 30: 100%\n  Sorting block of length 345 for bucket 30\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 254 for bucket 28\n  Sorting block time: 00:00:00\nReturning block of 290 for bucket 29\n  Sorting block time: 00:00:00\nReturning block of 346 for bucket 30\nGetting block 31 of 58\n  Reserving size (388) for bucket 31\n  Calculating Z arrays for bucket 31\n  Entering block accumulator loop for bucket 31:\n  bucket 31: 10%\n  bucket 31: 20%\nGetting block 32 of 58\n  bucket 31: 30%\n  Reserving size (388) for bucket 32\n  Calculating Z arrays for bucket 32\n  Entering block accumulator loop for bucket 32:\n  bucket 31: 40%\n  bucket 32: 10%\n  bucket 32: 20%\n  bucket 31: 50%\n  bucket 32: 30%\n  bucket 32: 40%\n  bucket 31: 60%\n  bucket 32: 50%\n  bucket 31: 70%\n  bucket 32: 60%\n  bucket 31: 80%\n  bucket 32: 70%\n  bucket 32: 80%\n  buc\n..\n0:00\nReturning block of 350 for bucket 23\nGetting block 24 of 57\n  Reserving size (388) for bucket 24\nGetting block 25 of 57\n  Calculating Z arrays for bucket 24\n  Reserving size (388) for bucket 25\n  Calculating Z arrays for bucket 25\n  Entering block accumulator loop for bucket 25:\n  Entering block accumulator loop for bucket 24:\n  bucket 25: 10%\n  bucket 24: 10%\n  bucket 25: 20%\n  bucket 24: 20%\n  bucket 24: 30%\n  bucket 24: 40%\n  bucket 25: 30%\n  bucket 24: 50%\n  bucket 25: 40%\n  bucket 24: 60%\n  bucket 25: 50%\n  bucket 25: 60%\n  bucket 24: 70%\n  bucket 25: 70%\n  bucket 24: 80%\n  bucket 25: 80%\n  bucket 24: 90%\n  bucket 24: 100%\n  Sorting block of length 245 for bucket 24\n  (Using difference cover)\n  bucket 25: 90%\n  bucket 25: 100%\n  Sorting block of length 286 for bucket 25\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 246 for bucket 24\n  Sorting block time: 00:00:00\nReturning block of 287 for bucket 25\nGetting block 26 of 57\n  Reserving size (388) for bucket 26\n  Calculating Z arrays for bucket 26\n  Entering block accumulator loop for bucket 26:\n  bucket 26: 10%\n  bucket 26: 20%\n  bucket 26: 30%\n  bucket 26: 40%\n  bucket 26: 50%\nGetting block 27 of 57\n  bucket 26: 60%\n  Reserving size (388) for bucket 27\n  Calculating Z arrays for bucket 27\n  Entering block accumulator loop for bucket 27:\n  bucket 26: 70%\n  bucket 26: 80%\n  bucket 27: 10%\n  bucket 26: 90%\n  bucket 27: 20%\n  bucket 26: 100%\n  Sorting block of length 384 for bucket 26\n  (Using difference cover)\n  bucket 27: 30%\n  bucket 27: 40%\n  bucket 27: 50%\n  bucket 27: 60%\n  Sorting block time: 00:00:00\nReturning block of 385 for bucket 26\n  bucket 27: 70%\n  bucket 27: 80%\n  bucket 27: 90%\n  bucket 27: 100%\n  Sorting block of length 359 for bucket 27\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 360 for bucket 27\nGetting block 28 of 57\n  Reserving size (388) for bucket 28\n  Calculating Z arrays for bucket 28\n  Entering block accumulator loop for bucket 28:\n  bucket 28: 10%\n  bucket 28: 20%\n  bucket 28: 30%\n  bucket 28: 40%\n  bucket 28: 50%\n  bucket 28: 60%\n  bucket 28: 70%\n  bucket 28: 80%\n  bucket 28: 90%\n  bucket 28: 100%\n  Sorting block of length 387 for bucket 28\n  (Using difference cover)\nGetting block 29 of 57\n  Reserving size (388) for bucket 29\n  Calculating Z arrays for bucket 29\n  Entering block accumulator loop for bucket 29:\n  bucket 29: 10%\n  bucket 29: 20%\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 28\n  bucket 29: 30%\n  bucket 29: 40%\n  bucket 29: 50%\n  bucket 29: 60%\n  bucket 29: 70%\n  bucket 29: 80%\n  bucket 29: 90%\n  bucket 29: 100%\n  Sorting block of length 195 for bucket 29\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 196 for bucket 29\nGetting block 30 of 57\n  Reserving size (388) for bucket 30\n  Calculating Z arrays for bucket 30\n  Entering block accumulator loop for bucket 30:\n  bucket 30: 10%\n  bucket 30: 20%\n  bucket 30: 30%\n  bucket 30: 40%\n  bucket 30: 50%\n  bucket 30: 60%\n  bucket 30: 70%\n  bucket 30: 80%\n  bucket 30: 90%\n  bucket 30: 100%\n  Sorting block of length 257 for bucket 30\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 258 for bucket 30\nGetting block 31 of 57\n  Reserving size (388) for bucket 31\n  Calculating Z arrays for bucket 31\n  Entering block accumulator loop for bucket 31:\nGetting block 32 of 57\n  Reserving size (388) for bucket 32\n  Calculating Z arrays for bucket 32\n  bucket 31: 10%\n  Entering block accumulator loop for bucket 32:\nGetting block 33 of 57\n  Reserving size (388) for bucket 33\n  Calculating Z arrays for bucket 33\n  bucket 31: 20%\n  bucket 32: 10%\n  Entering block accumulator loop for bucket 33:\n  bucket 31: 30%\n  bucket 32: 20%\n  bucket 31: 40%\n  bucket 32: 30%\n  bucket 33: 10%\n  bucket 31: 50%\n  bucket 32: 40%\n  bucket 33: 20%\n  bucket 31: 60%\n  bucket 32: 50%\n  bucket 33: 30%\n  bucket 31: 70%\n  bucket 32: 60%\n  bucket 33: 40%\n  bucket 32: 70%\n  bucket 33: 50%\n  bucket 31: 80%\n  bucket 32: 80%\n  bucket 33: 60%\n  bucket 31: 90%\n  bucket 33: 70%\n  bucket 32: 90%\n  bucket 31: 100%\n  Sorting block of length 310 for bucket 31\n  (Using difference cover)\n  bucket 33: 80%\n  bucket 32: 100%\n  Sorting block of length 219 for bucket 32\n  (Using difference cover)\n  bucket 33: 90%\n  bucket 33: 100%\n  Sorting block of length 387 for bucket 33\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 311 for bucket 31\n  Sorting block time: 00:00:00\nReturning block of 220 for bucket 32\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 33\nGetting block 34 of 57\n  Reserving size (388) for bucket 34\n  Calculating Z arrays for bucket 34\n  Entering block accumulator loop for bucket 34:\n  bucket 34: 10%\n  bucket 34: 20%\n  bucket 34: 30%\n  bucket 34: 40%\n  bucket 34: 50%\n  bucket 34: 60%\n  bucket 34: 70%\n  bucket 34: 80%\n  bucket 34: 90%\n  bucket 34: 100%\n  Sorting block of length 275 for bucket 34\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 276 for bucket 34\nGetting block 35 of 57\nGetting block 36 of 57\n  Reserving size (388) for bucket 35\n  Reserving size (388) for bucket 36\n  Calculating Z arrays for bucket 35\n  Calculating Z arrays for bucket 36\n  Entering block accumulator loop for bucket 35:\n  Entering block accumulator loop for bucket 36:\n  bucket 35: 10%\n  bucket 36: 10%\n  bucket 35: 20%\n  bucket 36: 20%\n  bucket 35: 30%\n  bucket 36: 30%\n  bucket 35: 40%\n  bucket 36: 40%\n  bucket 35: 50%\n  bucket 36: 50%\n  bucket 35: 60%\n  bucket 36: 60%\n  bucket 35: 70%\n  bucket 36: 70%\n  bucket 35: 80%\n  bucket 36: 80%\n  bucket 35: 90%\n  bucket 36: 90%\n  bucket 35: 100%\n  Sorting block of length 350 for bucket 35\n  (Using difference cover)\n  bucket 36: 100%\n  Sorting block of length 150 for bucket 36\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 151 for bucket 36\n  Sorting block time: 00:00:00\nReturning block of 351 for bucket 35\nGetting block 37 of 57\n  Reserving size (388) for bucket 37\n  Calculating Z arrays for bucket 37\n  Entering block accumulator loop for bucket 37:\n  bucket 37: 10%\n  bucket 37: 20%\n  bucket 37: 30%\n  bucket 37: 40%\n  bucket 37: 50%\n  bucket 37: 60%\n  bucket 37: 70%\n  bucket 37: 80%\n  bucket 37: 90%\n  bucket 37: 100%\n  Sorting block of length 267 for bucket 37\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 268 for bucket 37\nGetting block 38 of 57\n  Reserving size (388) for bucket 38\n  Calculating Z arrays for bucket 38\n  Entering block accumulator loop for bucket 38:\n  bucket 38: 10%\n  bucket 38: 20%\n  bucket 38: 30%\n  bucket 38: 40%\nGetting block 39 of 57\n  Reserving size (388) for bucket 39\n  Calculating Z arrays for bucket 39\n  Entering block accumulator loop for bucket 39:\n  bucket 38: 50%\n  bucket 38: 60%\n  bucket 39: 10%\n  bucket 38: 70%\n  bucket 39: 20%\n  bucket 38: 80%\n  bucket 38: 90%\n  bucket 39: 30%\n  bucket 38: 100%\n  Sorting block of length 337 for bucket 38\n  (Using difference cover)\n  bucket 39: 40%\n  bucket 39: 50%\n  bucket 39: 60%\n  Sorting block time: 00:00:00\nReturning block of 338 for bucket 38\n  bucket 39: 70%\n  bucket 39: 80%\n  bucket 39: 90%\n  bucket 39: 100%\n  Sorting block of length 387 for bucket 39\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 39\nGetting block 40 of 57\n  Reserving size (388) for bucket 40\nGetting block 41 of 57\n  Calculating Z arrays for bucket 40\n  Reserving size (388) for bucket 41\n  Calculating Z arrays for bucket 41\n  Entering block accumulator loop for bucket 40:\n  Entering block accumulator loop for bucket 41:\n  bucket 40: 10%\n  bucket 41: 10%\n  bucket 40: 20%\n  bucket 41: 20%\n  bucket 40: 30%\n  bucket 41: 30%\n  bucket 40: 40%\n  bucket 41: 40%\n  bucket 40: 50%\n  bucket 41: 50%\n  bucket 40: 60%\n  bucket 41: 60%\n  bucket 40: 70%\n  bucket 41: 70%\n  bucket 41: 80%\n  bucket 40: 80%\n  bucket 41: 90%\n  bucket 40: 90%\n  bucket 41: 100%\n  Sorting block of length 330 for bucket 41\n  (Using difference cover)\n  bucket 40: 100%\n  Sorting block of length 379 for bucket 40\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 331 for bucket 41\n  Sorting block time: 00:00:00\nReturning block of 380 for bucket 40\nGetting block 42 of 57\n  Reserving size (388) for bucket 42\n  Calculating Z arrays for bucket 42\n  Entering block accumulator loop for bucket 42:\n  bucket 42: 10%\n  bucket 42: 20%\nGetting block 43 of 57\n  Reserving size (388) for bucket 43\n  Calculating Z arrays for bucket 43\n  Entering block accumulator loop for bucket 43:\n  bucket 42: 30%\n  bucket 43: 10%\n  bucket 42: 40%\n  bucket 43: 20%\n  bucket 42: 50%\n  bucket 43: 30%\n  bucket 42: 60%\n  bucket 43: 40%\n  bucket 42: 70%\n  bucket 42: 80%\n  bucket 43: 50%\n  bucket 42: 90%\n  bucket 43: 60%\n  bucket 42: 100%\n  bucket 43: 70%\n  Sorting block of length 188 for bucket 42\n  (Using difference cover)\n  bucket 43: 80%\n  bucket 43: 90%\n  bucket 43: 100%\n  Sorting block of length 321 for bucket 43\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 189 for bucket 42\n  Sorting block time: 00:00:00\nReturning block of 322 for bucket 43\nGetting block 44 of 57\n  Reserving size (388) for bucket 44\nGetting block 45 of 57\n  Calculating Z arrays for bucket 44\n  Reserving size (388) for bucket 45\n  Calculating Z arrays for bucket 45\n  Entering block accumulator loop for bucket 44:\n  Entering block accumulator loop for bucket 45:\n  bucket 44: 10%\n  bucket 45: 10%\n  bucket 44: 20%\n  bucket 45: 20%\n  bucket 44: 30%\n  bucket 45: 30%\n  bucket 44: 40%\n  bucket 44: 50%\n  bucket 45: 40%\n  bucket 44: 60%\n  bucket 45: 50%\n  bucket 44: 70%\n  bucket 44: 80%\n  bucket 45: 60%\n  bucket 44: 90%\n  bucket 45: 70%\n  bucket 44: 100%\n  Sorting block of length 366 for bucket 44\n  (Using difference cover)\n  bucket 45: 80%\n  bucket 45: 90%\n  bucket 45: 100%\n  Sorting block of length 365 for bucket 45\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 367 for bucket 44\n  Sorting block time: 00:00:00\nReturning block of 366 for bucket 45\nGetting block 46 of 57\n  Reserving size (388) for bucket 46\n  Calculating Z arrays for bucket 46\n  Entering block accumulator loop for bucket 46:\n  bucket 46: 10%\n  bucket 46: 20%\n  bucket 46: 30%\nGetting block 47 of 57\n  Reserving size (388) for bucket 47\n  Calculating Z arrays for bucket 47\n  bucket 46: 40%\n  Entering block accumulator loop for bucket 47:\n  bucket 46: 50%\n  bucket 47: 10%\n  bucket 46: 60%\n  bucket 47: 20%\n  bucket 46: 70%\n  bucket 47: 30%\n  bucket 46: 80%\n  bucket 47: 40%\n  bucket 46: 90%\n  bucket 47: 50%\n  bucket 47: 60%\n  bucket 46: 100%\n  Sorting block of length 253 for bucket 46\n  (Using difference cover)\n  bucket 47: 70%\n  bucket 47: 80%\n  bucket 47: 90%\n  Sorting block time: 00:00:00\nReturning block of 254 for bucket 46\n  bucket 47: 100%\n  Sorting block of length 217 for bucket 47\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 218 for bucket 47\nGetting block 48 of 57\n  Reserving size (388) for bucket 48\n  Calculating Z arrays for bucket 48\nGetting block 49 of 57\n  Entering block accumulator loop for bucket 48:\n  Reserving size (388) for bucket 49\n  Calculating Z arrays for bucket 49\n  Entering block accumulator loop for bucket 49:\n  bucket 48: 10%\n  bucket 49: 10%\n  bucket 48: 20%\n  bucket 48: 30%\n  bucket 49: 20%\n  bucket 48: 40%\n  bucket 49: 30%\n  bucket 49: 40%\n  bucket 48: 50%\n  bucket 49: 50%\n  bucket 49: 60%\n  bucket 48: 60%\n  bucket 49: 70%\n  bucket 48: 70%\n  bucket 49: 80%\n  bucket 48: 80%\n  bucket 49: 90%\n  bucket 49: 100%\n  Sorting block of length 112 for bucket 49\n  (Using difference cover)\n  bucket 48: 90%\n  bucket 48: 100%\n  Sorting block of length 384 for bucket 48\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 113 for bucket 49\n  Sorting block time: 00:00:00\nReturning block of 385 for bucket 48\nGetting block 50 of 57\n  Reserving size (388) for bucket 50\n  Calculating Z arrays for bucket 50\n  Entering block accumulator loop for bucket 50:\nGetting block 51 of 57\n  Reserving size (388) for bucket 51\n  Calculating Z arrays for bucket 51\n  Entering block accumulator loop for bucket 51:\n  bucket 50: 10%\n  bucket 51: 10%\n  bucket 50: 20%\n  bucket 51: 20%\n  bucket 50: 30%\n  bucket 51: 30%\n  bucket 51: 40%\n  bucket 50: 40%\n  bucket 51: 50%\n  bucket 50: 50%\n  bucket 51: 60%\n  bucket 50: 60%\n  bucket 51: 70%\n  bucket 51: 80%\n  bucket 50: 70%\n  bucket 51: 90%\n  bucket 50: 80%\n  bucket 51: 100%\n  Sorting block of length 350 for bucket 51\n  (Using difference cover)\n  bucket 50: 90%\n  bucket 50: 100%\n  Sorting block of length 275 for bucket 50\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 351 for bucket 51\n  Sorting block time: 00:00:00\nReturning block of 276 for bucket 50\nGetting block 52 of 57\n  Reserving size (388) for bucket 52\nGetting block 53 of 57\n  Calculating Z arrays for bucket 52\n  Reserving size (388) for bucket 53\n  Calculating Z arrays for bucket 53\n  Entering block accumulator loop for bucket 52:\n  Entering block accumulator loop for bucket 53:\n  bucket 52: 10%\n  bucket 53: 10%\n  bucket 52: 20%\n  bucket 53: 20%\n  bucket 52: 30%\n  bucket 53: 30%\n  bucket 52: 40%\n  bucket 53: 40%\n  bucket 52: 50%\n  bucket 53: 50%\n  bucket 52: 60%\n  bucket 53: 60%\n  bucket 52: 70%\n  bucket 53: 70%\n  bucket 52: 80%\n  bucket 53: 80%\n  bucket 52: 90%\n  bucket 53: 90%\n  bucket 52: 100%\n  Sorting block of length 378 for bucket 52\n  (Using difference cover)\n  bucket 53: 100%\n  Sorting block of length 370 for bucket 53\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 379 for bucket 52\n  Sorting block time: 00:00:00\nReturning block of 371 for bucket 53\nGetting block 54 of 57\n  Reserving size (388) for bucket 54\n  Calculating Z arrays for bucket 54\n  Entering block accumulator loop for bucket 54:\n  bucket 54: 10%\n  bucket 54: 20%\nGetting block 55 of 57\n  Reserving size (388) for bucket 55\n  bucket 54: 30%\n  Calculating Z arrays for bucket 55\n  Entering block accumulator loop for bucket 55:\n  bucket 54: 40%\n  bucket 55: 10%\n  bucket 54: 50%\n  bucket 55: 20%\n  bucket 54: 60%\n  bucket 55: 30%\n  bucket 55: 40%\n  bucket 54: 70%\n  bucket 55: 50%\n  bucket 54: 80%\n  bucket 55: 60%\n  bucket 54: 90%\n  bucket 54: 100%\n  bucket 55: 70%\n  Sorting block of length 237 for bucket 54\n  (Using difference cover)\n  bucket 55: 80%\n  bucket 55: 90%\n  bucket 55: 100%\n  Sorting block of length 344 for bucket 55\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 238 for bucket 54\n  Sorting block time: 00:00:00\nReturning block of 345 for bucket 55\nGetting block 56 of 57\n  Reserving size (388) for bucket 56\n  Calculating Z arrays for bucket 56\n  Entering block accumulator loop for bucket 56:\nGetting block 57 of 57\n  Reserving size (388) for bucket 57\n  Calculating Z arrays for bucket 57\n  bucket 56: 10%\n  Entering block accumulator loop for bucket 57:\n  bucket 57: 10%\n  bucket 56: 20%\n  bucket 57: 20%\n  bucket 56: 30%\n  bucket 56: 40%\n  bucket 56: 50%\n  bucket 57: 30%\n  bucket 57: 40%\n  bucket 56: 60%\n  bucket 57: 50%\n  bucket 57: 60%\n  bucket 56: 70%\n  bucket 57: 70%\n  bucket 57: 80%\n  bucket 57: 90%\n  bucket 56: 80%\n  bucket 57: 100%\n  Sorting block of length 132 for bucket 57\n  (Using difference cover)\n  bucket 56: 90%\n  bucket 56: 100%\n  Sorting block of length 270 for bucket 56\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 133 for bucket 57\n  Sorting block time: 00:00:00\nReturning block of 271 for bucket 56\nExited Ebwt loop\nfchr[A]: 0\nfchr[C]: 5124\nfchr[G]: 10305\nfchr[T]: 12474\nfchr[$]: 16568\nExiting Ebwt::buildToDisk()\nReturning from initFromVector\nWrote 4200050 bytes to primary EBWT file: genome.rev.1.bt2.tmp\nWrote 4148 bytes to secondary EBWT file: genome.rev.2.bt2.tmp\nRe-opening _in1 and _in2 as input streams\nReturning from Ebwt constructor\nHeaders:\n    len: 16568\n    bwtLen: 16569\n    sz: 4142\n    bwtSz: 4143\n    lineRate: 6\n    offRate: 4\n    offMask: 0xfffffff0\n    ftabChars: 10\n    eftabLen: 20\n    eftabSz: 80\n    ftabLen: 1048577\n    ftabSz: 4194308\n    offsLen: 1036\n    offsSz: 4144\n    lineSz: 64\n    sideSz: 64\n    sideBwtSz: 48\n    sideBwtLen: 192\n    numSides: 87\n    numLines: 87\n    ebwtTotLen: 5568\n    ebwtTotSz: 5568\n    color: 0\n    reverse: 1\nTotal time for backward call to driver() for mirror index: 00:00:00\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:44:16", "plugin": "core", "name": "end_epoch", "raw_value": "1726407856.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:44:15", "plugin": "core", "name": "start_epoch", "raw_value": "1726407855.0000000"}, {"title": "Memory Allocated (MB)", "value": "21474", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "21474.0000000"}, {"title": "Cores Allocated", "value": "8", "plugin": "core", "name": "galaxy_slots", "raw_value": "8.0000000"}]}, "status": "success"}}, {"id": "bowtie2/2.5.3+galaxy1-7", "has_data": true, "data": {"tool_id": "bowtie2", "tool_version": "2.5.3+galaxy1", "test_index": 7, "time_seconds": 25.303322076797485, "inputs": {"library|input_1": {"src": "hda", "id": "6c90f6313f69bf03"}, "library|input_2": {"src": "hda", "id": "d4ed341c5293401e"}, "library|unaligned_file": false, "library|paired_options|paired_options_selector": "no", "library|type": "paired", "reference_genome|own_file": {"src": "hda", "id": "52986156949892f4"}, "reference_genome|source": "history", "analysis_type|analysis_type_selector": "simple"}, "job": {"model_class": "Job", "id": "2635ab551e682228", "state": "error", "exit_code": null, "update_time": "2024-09-15T13:44:50.517363", "create_time": "2024-09-15T13:44:45.042805", "galaxy_version": "23.1", "command_version": null, "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/devteam/bowtie2/bowtie2/2.5.3+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-mk5tj", "command_line": "set -o | grep -q pipefail && set -o pipefail; bowtie2-build --threads ${GALAXY_SLOTS:-4} '/galaxy/server/database/objects/6/f/7/dataset_6f78e9ec-445a-4de9-90ea-a13dcbe1a601.dat' genome && ln -s -f '/galaxy/server/database/objects/6/f/7/dataset_6f78e9ec-445a-4de9-90ea-a13dcbe1a601.dat' genome.fa &&   ln -f -s '/galaxy/server/database/objects/5/d/a/dataset_5da73379-d0c8-4a47-85c9-aaa7fac211b5.dat' input_f.fasta &&  ln -f -s '/galaxy/server/database/objects/7/d/b/dataset_7db72cdb-0344-4e93-b88d-5eb90723be22.dat' input_r.fasta &&   THREADS=${GALAXY_SLOTS:-4} && if [ \"$THREADS\" -gt 1 ]; then (( THREADS-- )); fi &&   bowtie2  -p \"$THREADS\"  -x 'genome'  -f  -1 'input_f.fasta' -2 'input_r.fasta'                 | samtools sort -l 0 -T \"${TMPDIR:-.}\" -O bam | samtools view --no-PG -O bam -@ ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/e/9/d/dataset_e9d0bce6-6d4a-4fee-94e6-82baadac50b0.dat'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "save_mapping_stats": "false", "sam_options": "{\"__current_case__\": 1, \"sam_options_selector\": \"no\"}", "analysis_type": "{\"__current_case__\": 0, \"analysis_type_selector\": \"simple\", \"presets\": \"no_presets\"}", "rg": "{\"__current_case__\": 3, \"rg_selector\": \"do_not_set\"}", "reference_genome": "{\"__current_case__\": 1, \"own_file\": {\"values\": [{\"id\": 387, \"src\": \"hda\"}]}, \"source\": \"history\"}", "library": "{\"__current_case__\": 1, \"aligned_file\": false, \"input_1\": {\"values\": [{\"id\": 385, \"src\": \"hda\"}]}, \"input_2\": {\"values\": [{\"id\": 386, \"src\": \"hda\"}]}, \"paired_options\": {\"__current_case__\": 1, \"paired_options_selector\": \"no\"}, \"type\": \"paired\", \"unaligned_file\": false}"}, "inputs": {"library|input_1": {"id": "6c90f6313f69bf03", "src": "hda", "uuid": "5da73379-d0c8-4a47-85c9-aaa7fac211b5"}, "library|input_2": {"id": "d4ed341c5293401e", "src": "hda", "uuid": "7db72cdb-0344-4e93-b88d-5eb90723be22"}, "reference_genome|own_file": {"id": "52986156949892f4", "src": "hda", "uuid": "6f78e9ec-445a-4de9-90ea-a13dcbe1a601"}}, "outputs": {"output": {"id": "11fb8b6d7e0f63ee", "src": "hda", "uuid": "e9d0bce6-6d4a-4fee-94e6-82baadac50b0"}}, "output_collections": {}, "tool_stdout": "", "tool_stderr": "", "job_stdout": null, "job_stderr": null, "stderr": "", "stdout": "", "job_messages": null, "dependencies": [], "user_email": "tests@fake.org", "job_metrics": []}, "output_problems": ["Job in error state.. tool_id: toolshed.g2.bx.psu.edu/repos/devteam/bowtie2/bowtie2/2.5.3+galaxy1, exit_code: None, stderr: .", "Job in error state.. tool_id: toolshed.g2.bx.psu.edu/repos/devteam/bowtie2/bowtie2/2.5.3+galaxy1, exit_code: None, stderr: ."], "status": "failure"}}, {"id": "bowtie2/2.5.3+galaxy1-8", "has_data": true, "data": {"tool_id": "bowtie2", "tool_version": "2.5.3+galaxy1", "test_index": 8, "time_seconds": 31.0102322101593, "inputs": {"library|input_1": {"src": "hda", "id": "48a1506418d544d5"}, "library|input_2": {"src": "hda", "id": "5fa36b6703cd9acc"}, "library|unaligned_file": false, "library|paired_options|paired_options_selector": "no", "library|type": "paired", "reference_genome|own_file": {"src": "hda", "id": "83fb07df0b3ac603"}, "reference_genome|source": "history", "analysis_type|analysis_type_selector": "simple", "sam_options|reorder": true, "sam_options|sam_options_selector": "yes"}, "job": {"model_class": "Job", "id": "cffa3110ffb8563b", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:45:21.489000", "create_time": "2024-09-15T13:45:09.712992", "galaxy_version": "23.1", "command_version": "/usr/local/bin/bowtie2-align-s version 2.5.3\n64-bit\nBuilt on fv-az365-785\nWed Jan 17 04:43:48 UTC 2024\nCompiler: gcc version 12.3.0 (conda-forge gcc 12.3.0-3) \nOptions: -O3 -msse2 -funroll-loops -g3 -fvisibility-inlines-hidden -fmessage-length=0 -march=nocona -mtune=haswell -ftree-vectorize -fPIC -fstack-protector-strong -fno-plt -O2 -ffunction-sections -pipe -isystem /usr/local/include -fdebug-prefix-map=/opt/conda/conda-bld/bowtie2_1705465427853/work=/usr/local/src/conda/bowtie2-2.5.3 -fdebug-prefix-map=/usr/local=/usr/local/src/conda-prefix -std=c++11 -Wall -Wno-unused-but-set-variable -DPOPCNT_CAPABILITY -DNO_SPINLOCK -DWITH_QUEUELOCK=1 -DWITH_ZSTD\nSizeof {int, long, long long, void*, size_t, off_t}: {4, 8, 8, 8, 8, 8}", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/devteam/bowtie2/bowtie2/2.5.3+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-qm4dz", "command_line": "set -o | grep -q pipefail && set -o pipefail; bowtie2-build --threads ${GALAXY_SLOTS:-4} '/galaxy/server/database/objects/e/5/6/dataset_e56534b6-e48f-4ed7-99c1-674ee2b63377.dat' genome && ln -s -f '/galaxy/server/database/objects/e/5/6/dataset_e56534b6-e48f-4ed7-99c1-674ee2b63377.dat' genome.fa &&   ln -f -s '/galaxy/server/database/objects/f/d/c/dataset_fdc9b2b7-8427-43af-95b7-65a41ecfdeaa.dat' input_f.fasta &&  ln -f -s '/galaxy/server/database/objects/a/7/f/dataset_a7ff4606-0586-43e1-82ab-47c44716142b.dat' input_r.fasta &&   THREADS=${GALAXY_SLOTS:-4} && if [ \"$THREADS\" -gt 1 ]; then (( THREADS-- )); fi &&   bowtie2  -p \"$THREADS\"  -x 'genome'  -f  -1 'input_f.fasta' -2 'input_r.fasta'                    --reorder   | samtools view --no-PG -b -o '/galaxy/server/database/objects/e/6/d/dataset_e6d8b601-869a-458e-a06d-8a1803f85024.dat'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "save_mapping_stats": "false", "sam_options": "{\"__current_case__\": 0, \"no_unal\": false, \"omit_sec_seq\": false, \"reorder\": true, \"sam_no_qname_trunc\": false, \"sam_opt\": false, \"sam_options_selector\": \"yes\", \"soft_clipped_unmapped_tlen\": false, \"xeq\": false}", "analysis_type": "{\"__current_case__\": 0, \"analysis_type_selector\": \"simple\", \"presets\": \"no_presets\"}", "rg": "{\"__current_case__\": 3, \"rg_selector\": \"do_not_set\"}", "reference_genome": "{\"__current_case__\": 1, \"own_file\": {\"values\": [{\"id\": 391, \"src\": \"hda\"}]}, \"source\": \"history\"}", "library": "{\"__current_case__\": 1, \"aligned_file\": false, \"input_1\": {\"values\": [{\"id\": 389, \"src\": \"hda\"}]}, \"input_2\": {\"values\": [{\"id\": 390, \"src\": \"hda\"}]}, \"paired_options\": {\"__current_case__\": 1, \"paired_options_selector\": \"no\"}, \"type\": \"paired\", \"unaligned_file\": false}"}, "inputs": {"library|input_1": {"id": "48a1506418d544d5", "src": "hda", "uuid": "fdc9b2b7-8427-43af-95b7-65a41ecfdeaa"}, "library|input_2": {"id": "5fa36b6703cd9acc", "src": "hda", "uuid": "a7ff4606-0586-43e1-82ab-47c44716142b"}, "reference_genome|own_file": {"id": "83fb07df0b3ac603", "src": "hda", "uuid": "e56534b6-e48f-4ed7-99c1-674ee2b63377"}}, "outputs": {"output": {"id": "44f2aee69d9f9657", "src": "hda", "uuid": "e6d8b601-869a-458e-a06d-8a1803f85024"}}, "output_collections": {}, "tool_stdout": "Settings:\n  Output files: \"genome.*.bt2\"\n  Line rate: 6 (line is 64 bytes)\n  Lines per side: 1 (side is 64 bytes)\n  Offset rate: 4 (one in 16)\n  FTable chars: 10\n  Strings: unpacked\n  Max bucket size: default\n  Max bucket size, sqrt multiplier: default\n  Max bucket size, len divisor: 32\n  Difference-cover sample period: 1024\n  Endianness: little\n  Actual local endianness: little\n  Sanity checking: disabled\n  Assertions: disabled\n  Random seed: 0\n  Sizeofs: void*:8, int:4, long:8, size_t:8\nInput files DNA, FASTA:\n  /galaxy/server/database/objects/e/5/6/dataset_e56534b6-e48f-4ed7-99c1-674ee2b63377.dat\nReading reference sizes\n  Time reading reference sizes: 00:00:00\nCalculating joined length\nWriting header\nReserving space for joined string\nJoining reference sequences\n  Time to join reference sequences: 00:00:00\nbmax according to bmaxDivN setting: 517\nUsing parameters --bmax 388 --dcv 1024\n  Doing ahead-of-time memory usage test\n  Passed!  Constructing with these parameters: --bmax 388 --dcv 1024\nConstructing suffix-array element generator\nBuilding DifferenceCoverSample\n  Building sPrime\n  Building sPrimeOrder\n  V-Sorting samples\n  V-Sorting samples time: 00:00:00\n  Allocating rank array\n  Ranking v-sort output\n  Ranking v-sort output time: 00:00:00\n  Invoking Larsson-Sadakane on ranks\n  Invoking Larsson-Sadakane on ranks time: 00:00:00\n  Sanity-checking and returning\nBuilding samples\nReserving space for 86 sample suffixes\nGenerating random suffixes\nQSorting 86 sample offsets, eliminating duplicates\nQSorting sample offsets, eliminating duplicates time: 00:00:00\nMultikey QSorting 86 samples\n  (Using difference cover)\n  Multikey QSorting samples time: 00:00:00\nCalculating bucket sizes\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 12, merged 41; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 6, merged 6; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 5, merged 3; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 3, merged 3; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nAvg bucket size: 284.672 (target: 387)\nConverting suffix-array elements to index image\nAllocating ftab, absorbFtab\nEntering Ebwt loop\nGetting block 1 of 58\n  Reserving size (388) for bucket 1\nGetting block 2 of 58\nGetting block 3 of 58\nGetting block 4 of 58\n  Calculating Z arrays for bucket 1\n  Reserving size (388) for bucket 2\n  Reserving size (388) for bucket 3\n  Reserving size (388) for bucket 4\nGetting block 5 of 58\nGetting block 6 of 58\n  Calculating Z arrays for bucket 2\nGetting block 7 of 58\n  Entering block accumulator loop for bucket 1:\n  Calculating Z arrays for bucket 3\n  Calculating Z arrays for bucket 4\n  Reserving size (388) for bucket 5\n  Reserving size (388) for bucket 6\n  Reserving size (388) for bucket 7\n  Entering block accumulator loop for bucket 2:\n  Calculating Z arrays for bucket 5\n  Entering block accumulator loop for bucket 3:\n  Calculating Z arrays for bucket 6\n  Calculating Z arrays for bucket 7\n  Entering block accumulator loop for bucket 4:\n  bucket 1: 10%\n  Entering block accumulator loop for bucket 5:\n  Entering block accumulator loop for bucket 6:\n  Entering block accumulator loop for bucket 7:\n  bucket 2: 10%\n  bucket 1: 20%\n  bucket 4: 10%\n  bucket 3: 10%\n  bucket 5: 10%\n  bucket 1: 30%\n  bucket 2: 20%\n  bucket 6: 10%\n  bucket 4: 20%\n  bucket 1: 40%\n  bucket 7: 10%\n  bucket 2: 30%\n  bucket 3: 20%\n  bucket 5: 20%\n  bucket 1: 50%\n  bucket 6: 20%\n  bucket 4: 30%\n  bucket 2: 40%\n  bucket 3: 30%\n  bucket 1: 60%\n  bucket 7: 20%\n  bucket 2: 50%\n  bucket 4: 40%\n  bucket 5: 30%\n  bucket 6: 30%\n  bucket 1: 70%\n  bucket 3: 40%\n  bucket 2: 60%\n  bucket 7: 30%\n  bucket 4: 50%\n  bucket 1: 80%\n  bucket 6: 40%\n  bucket 3: 50%\n  bucket 5: 40%\n  bucket 2: 70%\n  bucket 4: 60%\n  bucket 1: 90%\n  bucket 7: 40%\n  bucket 2: 80%\n  bucket 4: 70%\n  bucket 5: 50%\n  bucket 6: 50%\n  bucket 3: 60%\n  bucket 1: 100%\n  Sorting block of length 355 for bucket 1\n  (Using difference cover)\n  bucket 2: 90%\n  bucket 4: 80%\n  bucket 7: 50%\n  bucket 5: 60%\n  bucket 3: 70%\n  bucket 6: 60%\n  bucket 2: 100%\n  bucket 4: 90%\n  Sorting block of length 165 for bucket 2\n  (Using difference cover)\n  bucket 3: 80%\n  bucket 7: 60%\n  bucket 5: 70%\n  bucket 4: 100%\n  bucket 6: 70%\n  Sorting block of length 328 for bucket 4\n  (Using difference cover)\n  bucket 3: 90%\n  bucket 7: 70%\n  bucket 6: 80%\n  bucket 5: 80%\n  bucket 3: 100%\n  Sorting block of length 370 for bucket 3\n  (Using difference cover)\n  bucket 6: 90%\n  bucket 7: 80%\n  bucket 5: 90%\n  bucket 6: 100%\n  bucket 5: 100%\n  Sorting block of length 339 for bucket 6\n  (Using difference cover)\n  bucket 7: 90%\n  Sorting block of length 203 for bucket 5\n  (Using difference cover)\n  bucket 7: 100%\n  Sorting block of length 368 for bucket 7\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 356 for bucket 1\n  Sorting block time: 00:00:00\nReturning block of 369 for bucket 7\n  Sorting block time: 00:00:00\nReturning block of 329 for bucket 4\n  Sorting block time: 00:00:00\nReturning block of 166 for bucket 2\n  Sorting block time: 00:00:00\nReturning block of 371 for bucket 3\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 6\n  Sorting block time: 00:00:00\nReturning block of 204 for bucket 5\nGetting block 8 of 58\n  Reserving size (388) for bucket 8\n  Calculating Z arrays for bucket 8\n  Entering block accumulator loop for bucket 8:\n  bucket 8: 10%\n  bucket 8: 20%\n  bucket 8: 30%\n  bucket 8: 40%\nGetting block 9 of 58\n  bucket 8: 50%\n  Reserving size (388) for bucket 9\n  Calculating Z arrays for bucket 9\nGetting block 10 of 58\n  bucket 8: 60%\n  Entering block accumulator loop for bucket 9:\n  Reserving size (388) for bucket 10\n  Calculating Z arrays for bucket 10\n  bucket 8: 70%\n  Entering block accumulator loop for bucket 10:\n  bucket 8: 80%\n  bucket 9: 10%\n  bucket 10: 10%\n  bucket 8: 90%\n  bucket 9: 20%\n  bucket 10: 20%\n  bucket 8: 100%\n  Sorting block of length 171 for bucket 8\n  (Using difference cover)\n  bucket 9: 30%\n  bucket 10: 30%\n  bucket 10: 40%\n  bucket 9: 40%\n  bucket 10: 50%\n  bucket 9: 50%\n  bucket 10: 60%\n  bucket 9: 60%\n  bucket 10: 70%\n  Sorting block time: 00:00:00\nReturning block of 172 for bucket 8\n  bucket 9: 70%\n  bucket 10: 80%\n  bucket 9: 80%\n  bucket 10: 90%\n  bucket 9: 90%\n  bucket 10: 100%\n  Sorting block of length 357 for bucket 10\n  (Using difference cover)\n  bucket 9: 100%\n  Sorting block of length 339 for bucket 9\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 9\n  Sorting block time: 00:00:00\nReturning block of 358 for bucket 10\nGetting block 11 of 58\n  Reserving size (388) for bucket 11\n  Calculating Z arrays for bucket 11\nGetting block 12 of 58\n  Entering block accumulator loop for bucket 11:\n  Reserving size (388) for bucket 12\n  Calculating Z arrays for bucket 12\n  Entering block accumulator loop for bucket 12:\n  bucket 11: 10%\n  bucket 12: 10%\n  bucket 11: 20%\n  bucket 12: 20%\n  bucket 11: 30%\n  bucket 12: 30%\n  bucket 11: 40%\n  bucket 12: 40%\n  bucket 11: 50%\n  bucket 12: 50%\n  bucket 11: 60%\n  bucket 12: 60%\n  bucket 11: 70%\n  bucket 12: 70%\nGetting block 13 of 58\nGetting block 14 of 58\n  Reserving size (388) for bucket 13\n  Reserving size (388) for bucket 14\n  bucket 12: 80%\n  Calculating Z arrays for bucket 13\n  Calculating Z arrays for bucket 14\n  bucket 11: 80%\n  Entering block accumulator loop for bucket 14:\n  Entering block accumulator loop for bucket 13:\n  bucket 12: 90%\n  bucket 14: 10%\n  bucket 11: 90%\n  bucket 12: 100%\n  Sorting block of length 185 for bucket 12\n  (Using difference cover)\n  bucket 13: 10%\n  bucket 14: 20%\n  bucket 11: 100%\n  bucket 14: 30%\n  Sorting block of length 305 for bucket 11\n  (Using difference cover)\n  bucket 13: 20%\n  bucket 14: 40%\n  bucket 13: 30%\n  bucket 14: 50%\n  bucket 13: 40%\n  Sorting block time: 00:00:00\n  bucket 14: 60%\nReturning block of 186 for bucket 12\n  bucket 13: 50%\n  bucket 14: 70%\n  bucket 14: 80%\n  bucket 13: 60%\n  bucket 14: 90%\n  bucket 13: 70%\n  bucket 14: 100%\n  Sorting block of length 339 for bucket 14\n  (Using difference cover)\n  Sorting block time: 00:00:00\n  bucket 13: 80%\nReturning block of 306 for bucket 11\n  bucket 13: 90%\n  bucket 13: 100%\n  Sorting block of length 282 for bucket 13\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 14\n  Sorting block time: 00:00:00\nReturning block of 283 for bucket 13\nGetting block 15 of 58\n  Reserving size (388) for bucket 15\n  Calculating Z arrays for bucket 15\n  Entering block accumulator loop for bucket 15:\n  bucket 15: 10%\n  bucket 15: 20%\n  bucket 15: 30%\n  bucket 15: 40%\n  bucket 15: 50%\n  bucket 15: 60%\n  bucket 15: 70%\n  bucket 15: 80%\n  bucket 15: 90%\n  bucket 15: 100%\n  Sorting block of length 241 for bucket 15\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 242 for bucket 15\nGetting block 16 of 58\n  Reserving size (388) for bucket 16\n  Calculating Z arrays for bucket 16\n  Entering block accumulator loop for bucket 16:\nGetting block 17 of 58\n  Reserving size (388) for bucket 17\n  bucket 16: 10%\n  Calculating Z arrays for bucket 17\n  bucket 16: 20%\n  Entering block accumulator loop for bucket 17:\n  bucket 16: 30%\n  bucket 17: 10%\n  bucket 16: 40%\n  bucket 16: 50%\n  bucket 17: 20%\n  bucket 16: 60%\n  bucket 17: 30%\n  bucket 16: 70%\n  bucket 17: 40%\n  bucket 16: 80%\n  bucket 17: 50%\n  bucket 16: 90%\n  bucket 16: 100%\n  bucket 17: 60%\n  Sorting block of length 379 for bucket 16\n  (Using difference cover)\n  bucket 17: 70%\n  bucket 17: 80%\n  bucket 17: 90%\n  bucket 17: 100%\n  Sorting block of length 215 for bucket 17\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 380 for bucket 16\n  Sorting block time: 00:00:00\nReturning block of 216 for bucket 17\nGetting block 18 of 58\n  Reserving size (388) for bucket 18\nGetting block 19 of 58\n  Calculating Z arrays for bucket 18\n  Reserving size (388) for bucket 19\n  Calculating Z arrays for bucket 19\n  Entering block accumulator loop for bucket 18:\n  Entering block accumulator loop for bucket 19:\n  bucket 19: 10%\n  bucket 18: 10%\n  bucket 19: 20%\n  bucket 18: 20%\n  bucket 18: 30%\n  bucket 19: 30%\n  bucket 19: 40%\n  bucket 18: 40%\n  bucket 19: 50%\n  bucket 18: 50%\n  bucket 19: 60%\n  bucket 18: 60%\n  bucket 19: 70%\n  bucket 18: 70%\n  bucket 19: 80%\n  bucket 18: 80%\n  bucket 19: 90%\n  bucket 18: 90%\n  bucket 19: 100%\n  Sorting block of length 334 for bucket 19\n  (Using difference cover)\n  bucket 18: 100%\n  Sorting block of length 378 for bucket 18\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 335 for bucket 19\n  Sorting block time: 00:00:00\nReturning block of 379 for bucket 18\nGetting block 20 of 58\n  Reserving size (388) for bucket 20\n  Calculating Z arrays for bucket 20\n  Entering block accumulator loop for bucket 20:\n  bucket 20: 10%\nGetting block 21 of 58\n  Reserving size (388) for bucket 21\n  Calculating Z arrays for bucket 21\n  bucket 20: 20%\n  Entering block accumulator loop for bucket 21:\n  bucket 20: 30%\nGetting block 22 of 58\n  bucket 21: 10%\n  Reserving size (388) for bucket 22\n  Calculating Z arrays for bucket 22\n  bucket 20: 40%\n  Entering block accumulator loop for bucket 22:\n  bucket 21: 20%\n  bucket 20: 50%\n  bucket 22: 10%\n  bucket 21: 30%\n  bucket 20: 60%\n  bucket 22: 20%\n  bucket 22: 30%\n  bucket 21: 40%\n  bucket 20: 70%\n  bucket 22: 40%\n  bucket 20: 80%\n  bucket 21: 50%\n  bucket 22: 50%\n  bucket 20: 90%\n  bucket 21: 60%\n  bucket 22: 60%\n  bucket 20: 100%\n  Sorting block of length 313 for bucket 20\n  (Using difference cover)\n  bucket 22: 70%\n  bucket 21: 70%\n  bucket 22: 80%\n  bucket 21: 80%\n  bucket 22: 90%\n  bucket 22: 100%\n  Sorting block of length 386 for bucket 22\n  (Using difference cover)\n  bucket 21: 90%\n  Sorting block time: 00:00:00\nReturning block of 314 for bucket 20\n  bucket 21: 100%\n  Sorting block of length 210 for bucket 21\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 387 for bucket 22\n  Sorting block time: 00:00:00\nReturning block of 211 for bucket 21\nGetting block 23 of 58\n  Reserving size (388) for bucket 23\n  Calculating Z arrays for bucket 23\n  Entering block accumulator loop for bucket 23:\nGetting block 24 of 58\n  Reserving size (388) for bucket 24\n  Calculating Z arrays for bucket 24\n  Entering block accumulator loop for bucket 24:\n  bucket 24: 10%\n  bucket 23: 10%\n  bucket 24: 20%\n  bucket 23: 20%\n  bucket 24: 30%\n  bucket 23: 30%\n  bucket 23: 40%\n  bucket 24: 40%\n  bucket 24: 50%\n  bucket 23: 50%\n  bucket 24: 60%\n  bucket 23: 60%\n  bucket 24: 70%\n  bucket 23: 70%\n  bucket 24: 80%\n  bucket 23: 80%\n  bucket 24: 90%\n  bucket 23: 90%\n  bucket 24: 100%\n  bucket 23: 100%\n  Sorting block of length 351 for bucket 24\n  (Using difference cover)\n  Sorting block of length 238 for bucket 23\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 239 for bucket 23\n  Sorting block time: 00:00:00\nReturning block of 352 for bucket 24\nGetting block 25 of 58\n  Reserving size (388) for bucket 25\n  Calculating Z arrays for bucket 25\n  Entering block accumulator loop for bucket 25:\n  bucket 25: 10%\nGetting block 26 of 58\n  bucket 25: 20%\n  Reserving size (388) for bucket 26\nGetting block 27 of 58\n  Calculating Z arrays for bucket 26\n  bucket 25: 30%\n  Reserving size (388) for bucket 27\n  Calculating Z arrays for bucket 27\n  Entering block accumulator loop for bucket 26:\n  Entering block accumulator loop for bucket 27:\n  bucket 25: 40%\n  bucket 25: 50%\n  bucket 27: 10%\n  bucket 26: 10%\n  bucket 25: 60%\n  bucket 27: 20%\n  bucket 26: 20%\n  bucket 25: 70%\n  bucket 25: 80%\n  bucket 27: 30%\n  bucket 26: 30%\n  bucket 25: 90%\n  bucket 27: 40%\n  bucket 26: 40%\n  bucket 25: 100%\n  bucket 27: 50%\n  Sorting block of length 105 for bucket 25\n  (Using difference cover)\n  bucket 26: 50%\n  bucket 27: 60%\n  bucket 26: 60%\n  bucket 27: 70%\n  bucket 26: 70%\n  bucket 27: 80%\n  bucket 26: 80%\n  Sorting block time: 00:00:00\nReturning block of 106 for bucket 25\n  bucket 27: 90%\n  bucket 26: 90%\n  bucket 27: 100%\n  Sorting block of length 334 for bucket 27\n  (Using difference cover)\n  bucket 26: 100%\n  Sorting block of length 354 for bucket 26\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 355 for bucket 26\n  Sorting block time: 00:00:00\nReturning block of 335 for bucket 27\nGetting block 28 of 58\n  Reserving size (388) for bucket 28\n  Calculating Z arrays for bucket 28\nGetting block 29 of 58\n  Entering block accumulator loop for bucket 28:\n  Reserving size (388) for bucket 29\n  Calculating Z arrays for bucket 29\n  Entering block accumulator loop for bucket 29:\n  bucket 28: 10%\n  bucket 28: 20%\n  bucket 29: 10%\n  bucket 28: 30%\n  bucket 29: 20%\n  bucket 28: 40%\n  bucket 29: 30%\n  bucket 28: 50%\n  bucket 29: 40%\n  bucket 28: 60%\n  bucket 28: 70%\n  bucket 29: 50%\n  bucket 28: 80%\n  bucket 29: 60%\n  bucket 28: 90%\n  bucket 28: 100%\n  Sorting block of length 253 for bucket 28\n  (Using difference cover)\n  bucket 29: 70%\n  bucket 29: 80%\n  bucket 29: 90%\n  Sorting block time: 00:00:00\nReturning block of 254 for bucket 28\n  bucket 29: 100%\n  Sorting block of length 289 for bucket 29\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 290 for bucket 29\nGetting block 30 of 58\n  Reserving size (388) for bucket 30\n  Calculating Z arrays for bucket 30\n  Entering block accumulator loop for bucket 30:\n  bucket 30: 10%\n  bucket 30: 20%\n  bucket 30: 30%\nGetting block 31 of 58\n  Reserving size (388) for bucket 31\n  Calculating Z arrays for bucket 31\n  Entering block accumulator loop for bucket 31:\n  bucket 30: 40%\n  bucket 31: 10%\n  bucket 30: 50%\n  bucket 31: 20%\n  bucket 30: 60%\n  bucket 31: 30%\n  bucket 30: 70%\n  bucket 31: 40%\n  bucket 30: 80%\n  bucket 31: 50%\n  bucket 30: 90%\n  bucket 31: 60%\n  bucket 30: 100%\n  Sorting block of length 345 for bucket 30\n  (Using difference cover)\n  bucket 31: 70%\n  bucket 31: 80%\n  bucket 31: 90%\n  bucket 31: 100%\n  Sorting block of length 377 for bucket 31\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 346 for bucket 30\n  Sorting block time: 00:00:00\nReturning block of 378 for bucket 31\nGetting block 32 of 58\n  Reserving size (388) for bucket 32\nGetting block 33 of 58\n  Calculating Z arrays for buc\n..\n: 00:00:00\nReturning block of 344 for bucket 21\n  bucket 22: 80%\n  bucket 23: 80%\n  bucket 22: 90%\n  Sorting block time: 00:00:00\nReturning block of 246 for bucket 24\n  bucket 23: 90%\n  bucket 22: 100%\n  Sorting block of length 371 for bucket 22\n  (Using difference cover)\n  bucket 23: 100%\n  Sorting block of length 349 for bucket 23\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 350 for bucket 23\n  Sorting block time: 00:00:00\nReturning block of 372 for bucket 22\nGetting block 25 of 57\n  Reserving size (388) for bucket 25\n  Calculating Z arrays for bucket 25\n  Entering block accumulator loop for bucket 25:\n  bucket 25: 10%\n  bucket 25: 20%\n  bucket 25: 30%\n  bucket 25: 40%\n  bucket 25: 50%\n  bucket 25: 60%\n  bucket 25: 70%\n  bucket 25: 80%\n  bucket 25: 90%\n  bucket 25: 100%\n  Sorting block of length 286 for bucket 25\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 287 for bucket 25\nGetting block 26 of 57\n  Reserving size (388) for bucket 26\n  Calculating Z arrays for bucket 26\n  Entering block accumulator loop for bucket 26:\n  bucket 26: 10%\n  bucket 26: 20%\n  bucket 26: 30%\n  bucket 26: 40%\n  bucket 26: 50%\nGetting block 27 of 57\n  Reserving size (388) for bucket 27\n  Calculating Z arrays for bucket 27\n  bucket 26: 60%\n  Entering block accumulator loop for bucket 27:\n  bucket 26: 70%\n  bucket 27: 10%\n  bucket 26: 80%\n  bucket 27: 20%\n  bucket 27: 30%\n  bucket 26: 90%\n  bucket 27: 40%\n  bucket 26: 100%\n  Sorting block of length 384 for bucket 26\n  (Using difference cover)\n  bucket 27: 50%\n  bucket 27: 60%\n  bucket 27: 70%\n  bucket 27: 80%\n  Sorting block time: 00:00:00\nReturning block of 385 for bucket 26\n  bucket 27: 90%\n  bucket 27: 100%\n  Sorting block of length 359 for bucket 27\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 360 for bucket 27\nGetting block 28 of 57\n  Reserving size (388) for bucket 28\n  Calculating Z arrays for bucket 28\n  Entering block accumulator loop for bucket 28:\n  bucket 28: 10%\n  bucket 28: 20%\n  bucket 28: 30%\n  bucket 28: 40%\n  bucket 28: 50%\n  bucket 28: 60%\n  bucket 28: 70%\n  bucket 28: 80%\n  bucket 28: 90%\n  bucket 28: 100%\n  Sorting block of length 387 for bucket 28\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 28\nGetting block 29 of 57\n  Reserving size (388) for bucket 29\n  Calculating Z arrays for bucket 29\n  Entering block accumulator loop for bucket 29:\n  bucket 29: 10%\n  bucket 29: 20%\n  bucket 29: 30%\n  bucket 29: 40%\nGetting block 30 of 57\n  bucket 29: 50%\n  Reserving size (388) for bucket 30\n  Calculating Z arrays for bucket 30\n  Entering block accumulator loop for bucket 30:\n  bucket 29: 60%\n  bucket 30: 10%\n  bucket 29: 70%\n  bucket 30: 20%\n  bucket 29: 80%\n  bucket 30: 30%\n  bucket 29: 90%\n  bucket 30: 40%\n  bucket 29: 100%\n  Sorting block of length 195 for bucket 29\n  (Using difference cover)\n  bucket 30: 50%\n  bucket 30: 60%\nGetting block 31 of 57\n  Reserving size (388) for bucket 31\n  Calculating Z arrays for bucket 31\n  bucket 30: 70%\n  Entering block accumulator loop for bucket 31:\n  bucket 30: 80%\nGetting block 32 of 57\n  Sorting block time: 00:00:00\n  bucket 31: 10%\n  Reserving size (388) for bucket 32\nReturning block of 196 for bucket 29\n  Calculating Z arrays for bucket 32\n  bucket 30: 90%\n  Entering block accumulator loop for bucket 32:\n  bucket 31: 20%\n  bucket 30: 100%\n  Sorting block of length 257 for bucket 30\n  (Using difference cover)\n  bucket 32: 10%\n  bucket 31: 30%\n  bucket 32: 20%\n  bucket 31: 40%\n  bucket 32: 30%\n  bucket 31: 50%\n  bucket 32: 40%\n  Sorting block time: 00:00:00\nReturning block of 258 for bucket 30\n  bucket 32: 50%\n  bucket 31: 60%\n  bucket 32: 60%\n  bucket 31: 70%\n  bucket 32: 70%\n  bucket 32: 80%\n  bucket 31: 80%\n  bucket 32: 90%\n  bucket 31: 90%\n  bucket 32: 100%\n  Sorting block of length 219 for bucket 32\n  (Using difference cover)\n  bucket 31: 100%\n  Sorting block of length 310 for bucket 31\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 220 for bucket 32\n  Sorting block time: 00:00:00\nReturning block of 311 for bucket 31\nGetting block 33 of 57\n  Reserving size (388) for bucket 33\n  Calculating Z arrays for bucket 33\n  Entering block accumulator loop for bucket 33:\nGetting block 34 of 57\n  bucket 33: 10%\n  Reserving size (388) for bucket 34\n  Calculating Z arrays for bucket 34\n  Entering block accumulator loop for bucket 34:\n  bucket 33: 20%\n  bucket 34: 10%\n  bucket 33: 30%\nGetting block 35 of 57\n  bucket 33: 40%\n  bucket 34: 20%\n  Reserving size (388) for bucket 35\n  Calculating Z arrays for bucket 35\n  Entering block accumulator loop for bucket 35:\n  bucket 33: 50%\n  bucket 34: 30%\n  bucket 33: 60%\n  bucket 35: 10%\n  bucket 34: 40%\n  bucket 33: 70%\n  bucket 34: 50%\n  bucket 35: 20%\n  bucket 34: 60%\n  bucket 33: 80%\n  bucket 35: 30%\n  bucket 34: 70%\n  bucket 33: 90%\n  bucket 35: 40%\n  bucket 34: 80%\n  bucket 33: 100%\n  Sorting block of length 387 for bucket 33\n  (Using difference cover)\n  bucket 35: 50%\n  bucket 34: 90%\n  bucket 35: 60%\n  bucket 34: 100%\n  Sorting block of length 275 for bucket 34\n  (Using difference cover)\n  bucket 35: 70%\n  bucket 35: 80%\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 33\n  bucket 35: 90%\n  bucket 35: 100%\n  Sorting block of length 350 for bucket 35\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 276 for bucket 34\n  Sorting block time: 00:00:00\nReturning block of 351 for bucket 35\nGetting block 36 of 57\n  Reserving size (388) for bucket 36\n  Calculating Z arrays for bucket 36\n  Entering block accumulator loop for bucket 36:\nGetting block 37 of 57\n  Reserving size (388) for bucket 37\n  Calculating Z arrays for bucket 37\n  bucket 36: 10%\n  Entering block accumulator loop for bucket 37:\n  bucket 36: 20%\n  bucket 37: 10%\n  bucket 36: 30%\n  bucket 37: 20%\n  bucket 36: 40%\n  bucket 37: 30%\n  bucket 36: 50%\n  bucket 37: 40%\n  bucket 36: 60%\n  bucket 37: 50%\n  bucket 36: 70%\n  bucket 37: 60%\n  bucket 36: 80%\n  bucket 37: 70%\n  bucket 36: 90%\n  bucket 37: 80%\n  bucket 36: 100%\n  bucket 37: 90%\n  Sorting block of length 150 for bucket 36\n  (Using difference cover)\n  bucket 37: 100%\n  Sorting block of length 267 for bucket 37\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 151 for bucket 36\n  Sorting block time: 00:00:00\nReturning block of 268 for bucket 37\nGetting block 38 of 57\n  Reserving size (388) for bucket 38\n  Calculating Z arrays for bucket 38\n  Entering block accumulator loop for bucket 38:\n  bucket 38: 10%\nGetting block 39 of 57\n  bucket 38: 20%\n  Reserving size (388) for bucket 39\n  Calculating Z arrays for bucket 39\n  Entering block accumulator loop for bucket 39:\n  bucket 38: 30%\n  bucket 38: 40%\n  bucket 39: 10%\n  bucket 38: 50%\n  bucket 39: 20%\n  bucket 38: 60%\n  bucket 38: 70%\n  bucket 39: 30%\n  bucket 38: 80%\n  bucket 39: 40%\n  bucket 38: 90%\n  bucket 39: 50%\n  bucket 38: 100%\n  Sorting block of length 337 for bucket 38\n  (Using difference cover)\n  bucket 39: 60%\n  bucket 39: 70%\n  bucket 39: 80%\n  Sorting block time: 00:00:00\nReturning block of 338 for bucket 38\n  bucket 39: 90%\n  bucket 39: 100%\n  Sorting block of length 387 for bucket 39\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 39\nGetting block 40 of 57\n  Reserving size (388) for bucket 40\n  Calculating Z arrays for bucket 40\n  Entering block accumulator loop for bucket 40:\n  bucket 40: 10%\nGetting block 41 of 57\n  Reserving size (388) for bucket 41\n  Calculating Z arrays for bucket 41\n  Entering block accumulator loop for bucket 41:\n  bucket 40: 20%\nGetting block 42 of 57\n  bucket 40: 30%\n  bucket 41: 10%\n  Reserving size (388) for bucket 42\n  Calculating Z arrays for bucket 42\n  Entering block accumulator loop for bucket 42:\n  bucket 40: 40%\n  bucket 41: 20%\n  bucket 40: 50%\n  bucket 42: 10%\n  bucket 41: 30%\n  bucket 40: 60%\n  bucket 41: 40%\n  bucket 42: 20%\n  bucket 40: 70%\n  bucket 41: 50%\n  bucket 42: 30%\n  bucket 40: 80%\n  bucket 41: 60%\n  bucket 42: 40%\n  bucket 40: 90%\n  bucket 41: 70%\n  bucket 41: 80%\n  bucket 42: 50%\n  bucket 40: 100%\n  Sorting block of length 379 for bucket 40\n  (Using difference cover)\n  bucket 41: 90%\n  bucket 42: 60%\n  bucket 41: 100%\n  Sorting block of length 330 for bucket 41\n  (Using difference cover)\n  bucket 42: 70%\n  bucket 42: 80%\n  bucket 42: 90%\n  Sorting block time: 00:00:00\nReturning block of 380 for bucket 40\n  bucket 42: 100%\n  Sorting block of length 188 for bucket 42\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 331 for bucket 41\n  Sorting block time: 00:00:00\nReturning block of 189 for bucket 42\nGetting block 43 of 57\n  Reserving size (388) for bucket 43\n  Calculating Z arrays for bucket 43\n  Entering block accumulator loop for bucket 43:\n  bucket 43: 10%\nGetting block 44 of 57\n  Reserving size (388) for bucket 44\n  Calculating Z arrays for bucket 44\n  bucket 43: 20%\n  Entering block accumulator loop for bucket 44:\n  bucket 43: 30%\n  bucket 44: 10%\n  bucket 44: 20%\n  bucket 43: 40%\n  bucket 44: 30%\n  bucket 43: 50%\n  bucket 43: 60%\n  bucket 44: 40%\n  bucket 43: 70%\n  bucket 44: 50%\n  bucket 43: 80%\n  bucket 44: 60%\n  bucket 44: 70%\n  bucket 43: 90%\n  bucket 44: 80%\n  bucket 43: 100%\n  Sorting block of length 321 for bucket 43\n  (Using difference cover)\n  bucket 44: 90%\n  bucket 44: 100%\n  Sorting block of length 366 for bucket 44\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 367 for bucket 44\n  Sorting block time: 00:00:00\nReturning block of 322 for bucket 43\nGetting block 45 of 57\n  Reserving size (388) for bucket 45\n  Calculating Z arrays for bucket 45\n  Entering block accumulator loop for bucket 45:\n  bucket 45: 10%\n  bucket 45: 20%\nGetting block 46 of 57\n  bucket 45: 30%\n  Reserving size (388) for bucket 46\n  Calculating Z arrays for bucket 46\n  Entering block accumulator loop for bucket 46:\n  bucket 45: 40%\n  bucket 46: 10%\n  bucket 45: 50%\n  bucket 45: 60%\n  bucket 46: 20%\n  bucket 45: 70%\n  bucket 46: 30%\n  bucket 45: 80%\n  bucket 46: 40%\n  bucket 45: 90%\n  bucket 46: 50%\n  bucket 45: 100%\n  bucket 46: 60%\n  Sorting block of length 365 for bucket 45\n  (Using difference cover)\n  bucket 46: 70%\n  bucket 46: 80%\n  bucket 46: 90%\n  bucket 46: 100%\n  Sorting block of length 253 for bucket 46\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 366 for bucket 45\n  Sorting block time: 00:00:00\nReturning block of 254 for bucket 46\nGetting block 47 of 57\n  Reserving size (388) for bucket 47\nGetting block 48 of 57\n  Calculating Z arrays for bucket 47\n  Reserving size (388) for bucket 48\n  Calculating Z arrays for bucket 48\n  Entering block accumulator loop for bucket 47:\n  Entering block accumulator loop for bucket 48:\n  bucket 48: 10%\n  bucket 47: 10%\n  bucket 48: 20%\n  bucket 47: 20%\n  bucket 48: 30%\n  bucket 47: 30%\n  bucket 48: 40%\n  bucket 48: 50%\n  bucket 47: 40%\n  bucket 48: 60%\n  bucket 47: 50%\n  bucket 48: 70%\n  bucket 48: 80%\n  bucket 47: 60%\n  bucket 48: 90%\n  bucket 48: 100%\n  bucket 47: 70%\n  Sorting block of length 384 for bucket 48\n  (Using difference cover)\n  bucket 47: 80%\n  bucket 47: 90%\n  Sorting block time: 00:00:00\nReturning block of 385 for bucket 48\n  bucket 47: 100%\n  Sorting block of length 217 for bucket 47\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 218 for bucket 47\nGetting block 49 of 57\n  Reserving size (388) for bucket 49\n  Calculating Z arrays for bucket 49\nGetting block 50 of 57\n  Reserving size (388) for bucket 50\n  Calculating Z arrays for bucket 50\n  Entering block accumulator loop for bucket 49:\nGetting block 51 of 57\n  Entering block accumulator loop for bucket 50:\n  Reserving size (388) for bucket 51\n  Calculating Z arrays for bucket 51\n  Entering block accumulator loop for bucket 51:\n  bucket 50: 10%\n  bucket 49: 10%\n  bucket 51: 10%\n  bucket 50: 20%\n  bucket 49: 20%\n  bucket 51: 20%\n  bucket 50: 30%\n  bucket 49: 30%\n  bucket 51: 30%\n  bucket 50: 40%\n  bucket 51: 40%\n  bucket 50: 50%\n  bucket 49: 40%\n  bucket 50: 60%\n  bucket 51: 50%\n  bucket 49: 50%\n  bucket 50: 70%\n  bucket 51: 60%\n  bucket 49: 60%\n  bucket 50: 80%\n  bucket 51: 70%\n  bucket 49: 70%\n  bucket 50: 90%\n  bucket 51: 80%\n  bucket 50: 100%\n  Sorting block of length 275 for bucket 50\n  (Using difference cover)\n  bucket 49: 80%\n  bucket 51: 90%\n  bucket 49: 90%\n  bucket 51: 100%\n  Sorting block of length 350 for bucket 51\n  (Using difference cover)\n  bucket 49: 100%\n  Sorting block of length 112 for bucket 49\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 276 for bucket 50\n  Sorting block time: 00:00:00\nReturning block of 351 for bucket 51\n  Sorting block time: 00:00:00\nReturning block of 113 for bucket 49\nGetting block 52 of 57\n  Reserving size (388) for bucket 52\n  Calculating Z arrays for bucket 52\n  Entering block accumulator loop for bucket 52:\n  bucket 52: 10%\nGetting block 53 of 57\n  Reserving size (388) for bucket 53\n  Calculating Z arrays for bucket 53\n  Entering block accumulator loop for bucket 53:\n  bucket 52: 20%\n  bucket 52: 30%\n  bucket 53: 10%\nGetting block 54 of 57\n  Reserving size (388) for bucket 54\n  Calculating Z arrays for bucket 54\n  Entering block accumulator loop for bucket 54:\n  bucket 53: 20%\n  bucket 52: 40%\n  bucket 54: 10%\n  bucket 54: 20%\n  bucket 53: 30%\n  bucket 52: 50%\n  bucket 54: 30%\n  bucket 54: 40%\n  bucket 53: 40%\n  bucket 54: 50%\n  bucket 52: 60%\n  bucket 54: 60%\n  bucket 54: 70%\n  bucket 53: 50%\n  bucket 52: 70%\n  bucket 54: 80%\n  bucket 54: 90%\n  bucket 53: 60%\n  bucket 54: 100%\n  bucket 52: 80%\n  Sorting block of length 237 for bucket 54\n  (Using difference cover)\n  bucket 53: 70%\n  bucket 52: 90%\n  bucket 53: 80%\n  bucket 52: 100%\n  Sorting block time: 00:00:00\n  Sorting block of length 378 for bucket 52\n  (Using difference cover)\nReturning block of 238 for bucket 54\n  bucket 53: 90%\n  bucket 53: 100%\n  Sorting block of length 370 for bucket 53\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 379 for bucket 52\n  Sorting block time: 00:00:00\nReturning block of 371 for bucket 53\nGetting block 55 of 57\n  Reserving size (388) for bucket 55\n  Calculating Z arrays for bucket 55\n  Entering block accumulator loop for bucket 55:\n  bucket 55: 10%\nGetting block 56 of 57\n  bucket 55: 20%\n  Reserving size (388) for bucket 56\n  Calculating Z arrays for bucket 56\n  Entering block accumulator loop for bucket 56:\n  bucket 55: 30%\n  bucket 56: 10%\n  bucket 56: 20%\n  bucket 55: 40%\n  bucket 56: 30%\n  bucket 56: 40%\n  bucket 55: 50%\n  bucket 56: 50%\n  bucket 56: 60%\n  bucket 55: 60%\n  bucket 56: 70%\n  bucket 55: 70%\n  bucket 56: 80%\n  bucket 56: 90%\n  bucket 55: 80%\n  bucket 56: 100%\n  Sorting block of length 270 for bucket 56\n  (Using difference cover)\n  bucket 55: 90%\n  bucket 55: 100%\n  Sorting block of length 344 for bucket 55\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 271 for bucket 56\n  Sorting block time: 00:00:00\nReturning block of 345 for bucket 55\nGetting block 57 of 57\n  Reserving size (388) for bucket 57\n  Calculating Z arrays for bucket 57\n  Entering block accumulator loop for bucket 57:\n  bucket 57: 10%\n  bucket 57: 20%\n  bucket 57: 30%\n  bucket 57: 40%\n  bucket 57: 50%\n  bucket 57: 60%\n  bucket 57: 70%\n  bucket 57: 80%\n  bucket 57: 90%\n  bucket 57: 100%\n  Sorting block of length 132 for bucket 57\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 133 for bucket 57\nExited Ebwt loop\nfchr[A]: 0\nfchr[C]: 5124\nfchr[G]: 10305\nfchr[T]: 12474\nfchr[$]: 16568\nExiting Ebwt::buildToDisk()\nReturning from initFromVector\nWrote 4200050 bytes to primary EBWT file: genome.rev.1.bt2.tmp\nWrote 4148 bytes to secondary EBWT file: genome.rev.2.bt2.tmp\nRe-opening _in1 and _in2 as input streams\nReturning from Ebwt constructor\nHeaders:\n    len: 16568\n    bwtLen: 16569\n    sz: 4142\n    bwtSz: 4143\n    lineRate: 6\n    offRate: 4\n    offMask: 0xfffffff0\n    ftabChars: 10\n    eftabLen: 20\n    eftabSz: 80\n    ftabLen: 1048577\n    ftabSz: 4194308\n    offsLen: 1036\n    offsSz: 4144\n    lineSz: 64\n    sideSz: 64\n    sideBwtSz: 48\n    sideBwtLen: 192\n    numSides: 87\n    numLines: 87\n    ebwtTotLen: 5568\n    ebwtTotSz: 5568\n    color: 0\n    reverse: 1\nTotal time for backward call to driver() for mirror index: 00:00:00\n", "tool_stderr": "Building a SMALL index\nRenaming genome.3.bt2.tmp to genome.3.bt2\nRenaming genome.4.bt2.tmp to genome.4.bt2\nRenaming genome.1.bt2.tmp to genome.1.bt2\nRenaming genome.2.bt2.tmp to genome.2.bt2\nRenaming genome.rev.1.bt2.tmp to genome.rev.1.bt2\nRenaming genome.rev.2.bt2.tmp to genome.rev.2.bt2\n100 reads; of these:\n  100 (100.00%) were paired; of these:\n    97 (97.00%) aligned concordantly 0 times\n    3 (3.00%) aligned concordantly exactly 1 time\n    0 (0.00%) aligned concordantly >1 times\n    ----\n    97 pairs aligned concordantly 0 times; of these:\n      7 (7.22%) aligned discordantly 1 time\n    ----\n    90 pairs aligned 0 times concordantly or discordantly; of these:\n      180 mates make up the pairs; of these:\n        156 (86.67%) aligned 0 times\n        24 (13.33%) aligned exactly 1 time\n        0 (0.00%) aligned >1 times\n22.00% overall alignment rate\n", "job_stdout": "", "job_stderr": "", "stderr": "Building a SMALL index\nRenaming genome.3.bt2.tmp to genome.3.bt2\nRenaming genome.4.bt2.tmp to genome.4.bt2\nRenaming genome.1.bt2.tmp to genome.1.bt2\nRenaming genome.2.bt2.tmp to genome.2.bt2\nRenaming genome.rev.1.bt2.tmp to genome.rev.1.bt2\nRenaming genome.rev.2.bt2.tmp to genome.rev.2.bt2\n100 reads; of these:\n  100 (100.00%) were paired; of these:\n    97 (97.00%) aligned concordantly 0 times\n    3 (3.00%) aligned concordantly exactly 1 time\n    0 (0.00%) aligned concordantly >1 times\n    ----\n    97 pairs aligned concordantly 0 times; of these:\n      7 (7.22%) aligned discordantly 1 time\n    ----\n    90 pairs aligned 0 times concordantly or discordantly; of these:\n      180 mates make up the pairs; of these:\n        156 (86.67%) aligned 0 times\n        24 (13.33%) aligned exactly 1 time\n        0 (0.00%) aligned >1 times\n22.00% overall alignment rate\n", "stdout": "Settings:\n  Output files: \"genome.*.bt2\"\n  Line rate: 6 (line is 64 bytes)\n  Lines per side: 1 (side is 64 bytes)\n  Offset rate: 4 (one in 16)\n  FTable chars: 10\n  Strings: unpacked\n  Max bucket size: default\n  Max bucket size, sqrt multiplier: default\n  Max bucket size, len divisor: 32\n  Difference-cover sample period: 1024\n  Endianness: little\n  Actual local endianness: little\n  Sanity checking: disabled\n  Assertions: disabled\n  Random seed: 0\n  Sizeofs: void*:8, int:4, long:8, size_t:8\nInput files DNA, FASTA:\n  /galaxy/server/database/objects/e/5/6/dataset_e56534b6-e48f-4ed7-99c1-674ee2b63377.dat\nReading reference sizes\n  Time reading reference sizes: 00:00:00\nCalculating joined length\nWriting header\nReserving space for joined string\nJoining reference sequences\n  Time to join reference sequences: 00:00:00\nbmax according to bmaxDivN setting: 517\nUsing parameters --bmax 388 --dcv 1024\n  Doing ahead-of-time memory usage test\n  Passed!  Constructing with these parameters: --bmax 388 --dcv 1024\nConstructing suffix-array element generator\nBuilding DifferenceCoverSample\n  Building sPrime\n  Building sPrimeOrder\n  V-Sorting samples\n  V-Sorting samples time: 00:00:00\n  Allocating rank array\n  Ranking v-sort output\n  Ranking v-sort output time: 00:00:00\n  Invoking Larsson-Sadakane on ranks\n  Invoking Larsson-Sadakane on ranks time: 00:00:00\n  Sanity-checking and returning\nBuilding samples\nReserving space for 86 sample suffixes\nGenerating random suffixes\nQSorting 86 sample offsets, eliminating duplicates\nQSorting sample offsets, eliminating duplicates time: 00:00:00\nMultikey QSorting 86 samples\n  (Using difference cover)\n  Multikey QSorting samples time: 00:00:00\nCalculating bucket sizes\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 12, merged 41; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 6, merged 6; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 5, merged 3; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 3, merged 3; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nAvg bucket size: 284.672 (target: 387)\nConverting suffix-array elements to index image\nAllocating ftab, absorbFtab\nEntering Ebwt loop\nGetting block 1 of 58\n  Reserving size (388) for bucket 1\nGetting block 2 of 58\nGetting block 3 of 58\nGetting block 4 of 58\n  Calculating Z arrays for bucket 1\n  Reserving size (388) for bucket 2\n  Reserving size (388) for bucket 3\n  Reserving size (388) for bucket 4\nGetting block 5 of 58\nGetting block 6 of 58\n  Calculating Z arrays for bucket 2\nGetting block 7 of 58\n  Entering block accumulator loop for bucket 1:\n  Calculating Z arrays for bucket 3\n  Calculating Z arrays for bucket 4\n  Reserving size (388) for bucket 5\n  Reserving size (388) for bucket 6\n  Reserving size (388) for bucket 7\n  Entering block accumulator loop for bucket 2:\n  Calculating Z arrays for bucket 5\n  Entering block accumulator loop for bucket 3:\n  Calculating Z arrays for bucket 6\n  Calculating Z arrays for bucket 7\n  Entering block accumulator loop for bucket 4:\n  bucket 1: 10%\n  Entering block accumulator loop for bucket 5:\n  Entering block accumulator loop for bucket 6:\n  Entering block accumulator loop for bucket 7:\n  bucket 2: 10%\n  bucket 1: 20%\n  bucket 4: 10%\n  bucket 3: 10%\n  bucket 5: 10%\n  bucket 1: 30%\n  bucket 2: 20%\n  bucket 6: 10%\n  bucket 4: 20%\n  bucket 1: 40%\n  bucket 7: 10%\n  bucket 2: 30%\n  bucket 3: 20%\n  bucket 5: 20%\n  bucket 1: 50%\n  bucket 6: 20%\n  bucket 4: 30%\n  bucket 2: 40%\n  bucket 3: 30%\n  bucket 1: 60%\n  bucket 7: 20%\n  bucket 2: 50%\n  bucket 4: 40%\n  bucket 5: 30%\n  bucket 6: 30%\n  bucket 1: 70%\n  bucket 3: 40%\n  bucket 2: 60%\n  bucket 7: 30%\n  bucket 4: 50%\n  bucket 1: 80%\n  bucket 6: 40%\n  bucket 3: 50%\n  bucket 5: 40%\n  bucket 2: 70%\n  bucket 4: 60%\n  bucket 1: 90%\n  bucket 7: 40%\n  bucket 2: 80%\n  bucket 4: 70%\n  bucket 5: 50%\n  bucket 6: 50%\n  bucket 3: 60%\n  bucket 1: 100%\n  Sorting block of length 355 for bucket 1\n  (Using difference cover)\n  bucket 2: 90%\n  bucket 4: 80%\n  bucket 7: 50%\n  bucket 5: 60%\n  bucket 3: 70%\n  bucket 6: 60%\n  bucket 2: 100%\n  bucket 4: 90%\n  Sorting block of length 165 for bucket 2\n  (Using difference cover)\n  bucket 3: 80%\n  bucket 7: 60%\n  bucket 5: 70%\n  bucket 4: 100%\n  bucket 6: 70%\n  Sorting block of length 328 for bucket 4\n  (Using difference cover)\n  bucket 3: 90%\n  bucket 7: 70%\n  bucket 6: 80%\n  bucket 5: 80%\n  bucket 3: 100%\n  Sorting block of length 370 for bucket 3\n  (Using difference cover)\n  bucket 6: 90%\n  bucket 7: 80%\n  bucket 5: 90%\n  bucket 6: 100%\n  bucket 5: 100%\n  Sorting block of length 339 for bucket 6\n  (Using difference cover)\n  bucket 7: 90%\n  Sorting block of length 203 for bucket 5\n  (Using difference cover)\n  bucket 7: 100%\n  Sorting block of length 368 for bucket 7\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 356 for bucket 1\n  Sorting block time: 00:00:00\nReturning block of 369 for bucket 7\n  Sorting block time: 00:00:00\nReturning block of 329 for bucket 4\n  Sorting block time: 00:00:00\nReturning block of 166 for bucket 2\n  Sorting block time: 00:00:00\nReturning block of 371 for bucket 3\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 6\n  Sorting block time: 00:00:00\nReturning block of 204 for bucket 5\nGetting block 8 of 58\n  Reserving size (388) for bucket 8\n  Calculating Z arrays for bucket 8\n  Entering block accumulator loop for bucket 8:\n  bucket 8: 10%\n  bucket 8: 20%\n  bucket 8: 30%\n  bucket 8: 40%\nGetting block 9 of 58\n  bucket 8: 50%\n  Reserving size (388) for bucket 9\n  Calculating Z arrays for bucket 9\nGetting block 10 of 58\n  bucket 8: 60%\n  Entering block accumulator loop for bucket 9:\n  Reserving size (388) for bucket 10\n  Calculating Z arrays for bucket 10\n  bucket 8: 70%\n  Entering block accumulator loop for bucket 10:\n  bucket 8: 80%\n  bucket 9: 10%\n  bucket 10: 10%\n  bucket 8: 90%\n  bucket 9: 20%\n  bucket 10: 20%\n  bucket 8: 100%\n  Sorting block of length 171 for bucket 8\n  (Using difference cover)\n  bucket 9: 30%\n  bucket 10: 30%\n  bucket 10: 40%\n  bucket 9: 40%\n  bucket 10: 50%\n  bucket 9: 50%\n  bucket 10: 60%\n  bucket 9: 60%\n  bucket 10: 70%\n  Sorting block time: 00:00:00\nReturning block of 172 for bucket 8\n  bucket 9: 70%\n  bucket 10: 80%\n  bucket 9: 80%\n  bucket 10: 90%\n  bucket 9: 90%\n  bucket 10: 100%\n  Sorting block of length 357 for bucket 10\n  (Using difference cover)\n  bucket 9: 100%\n  Sorting block of length 339 for bucket 9\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 9\n  Sorting block time: 00:00:00\nReturning block of 358 for bucket 10\nGetting block 11 of 58\n  Reserving size (388) for bucket 11\n  Calculating Z arrays for bucket 11\nGetting block 12 of 58\n  Entering block accumulator loop for bucket 11:\n  Reserving size (388) for bucket 12\n  Calculating Z arrays for bucket 12\n  Entering block accumulator loop for bucket 12:\n  bucket 11: 10%\n  bucket 12: 10%\n  bucket 11: 20%\n  bucket 12: 20%\n  bucket 11: 30%\n  bucket 12: 30%\n  bucket 11: 40%\n  bucket 12: 40%\n  bucket 11: 50%\n  bucket 12: 50%\n  bucket 11: 60%\n  bucket 12: 60%\n  bucket 11: 70%\n  bucket 12: 70%\nGetting block 13 of 58\nGetting block 14 of 58\n  Reserving size (388) for bucket 13\n  Reserving size (388) for bucket 14\n  bucket 12: 80%\n  Calculating Z arrays for bucket 13\n  Calculating Z arrays for bucket 14\n  bucket 11: 80%\n  Entering block accumulator loop for bucket 14:\n  Entering block accumulator loop for bucket 13:\n  bucket 12: 90%\n  bucket 14: 10%\n  bucket 11: 90%\n  bucket 12: 100%\n  Sorting block of length 185 for bucket 12\n  (Using difference cover)\n  bucket 13: 10%\n  bucket 14: 20%\n  bucket 11: 100%\n  bucket 14: 30%\n  Sorting block of length 305 for bucket 11\n  (Using difference cover)\n  bucket 13: 20%\n  bucket 14: 40%\n  bucket 13: 30%\n  bucket 14: 50%\n  bucket 13: 40%\n  Sorting block time: 00:00:00\n  bucket 14: 60%\nReturning block of 186 for bucket 12\n  bucket 13: 50%\n  bucket 14: 70%\n  bucket 14: 80%\n  bucket 13: 60%\n  bucket 14: 90%\n  bucket 13: 70%\n  bucket 14: 100%\n  Sorting block of length 339 for bucket 14\n  (Using difference cover)\n  Sorting block time: 00:00:00\n  bucket 13: 80%\nReturning block of 306 for bucket 11\n  bucket 13: 90%\n  bucket 13: 100%\n  Sorting block of length 282 for bucket 13\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 14\n  Sorting block time: 00:00:00\nReturning block of 283 for bucket 13\nGetting block 15 of 58\n  Reserving size (388) for bucket 15\n  Calculating Z arrays for bucket 15\n  Entering block accumulator loop for bucket 15:\n  bucket 15: 10%\n  bucket 15: 20%\n  bucket 15: 30%\n  bucket 15: 40%\n  bucket 15: 50%\n  bucket 15: 60%\n  bucket 15: 70%\n  bucket 15: 80%\n  bucket 15: 90%\n  bucket 15: 100%\n  Sorting block of length 241 for bucket 15\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 242 for bucket 15\nGetting block 16 of 58\n  Reserving size (388) for bucket 16\n  Calculating Z arrays for bucket 16\n  Entering block accumulator loop for bucket 16:\nGetting block 17 of 58\n  Reserving size (388) for bucket 17\n  bucket 16: 10%\n  Calculating Z arrays for bucket 17\n  bucket 16: 20%\n  Entering block accumulator loop for bucket 17:\n  bucket 16: 30%\n  bucket 17: 10%\n  bucket 16: 40%\n  bucket 16: 50%\n  bucket 17: 20%\n  bucket 16: 60%\n  bucket 17: 30%\n  bucket 16: 70%\n  bucket 17: 40%\n  bucket 16: 80%\n  bucket 17: 50%\n  bucket 16: 90%\n  bucket 16: 100%\n  bucket 17: 60%\n  Sorting block of length 379 for bucket 16\n  (Using difference cover)\n  bucket 17: 70%\n  bucket 17: 80%\n  bucket 17: 90%\n  bucket 17: 100%\n  Sorting block of length 215 for bucket 17\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 380 for bucket 16\n  Sorting block time: 00:00:00\nReturning block of 216 for bucket 17\nGetting block 18 of 58\n  Reserving size (388) for bucket 18\nGetting block 19 of 58\n  Calculating Z arrays for bucket 18\n  Reserving size (388) for bucket 19\n  Calculating Z arrays for bucket 19\n  Entering block accumulator loop for bucket 18:\n  Entering block accumulator loop for bucket 19:\n  bucket 19: 10%\n  bucket 18: 10%\n  bucket 19: 20%\n  bucket 18: 20%\n  bucket 18: 30%\n  bucket 19: 30%\n  bucket 19: 40%\n  bucket 18: 40%\n  bucket 19: 50%\n  bucket 18: 50%\n  bucket 19: 60%\n  bucket 18: 60%\n  bucket 19: 70%\n  bucket 18: 70%\n  bucket 19: 80%\n  bucket 18: 80%\n  bucket 19: 90%\n  bucket 18: 90%\n  bucket 19: 100%\n  Sorting block of length 334 for bucket 19\n  (Using difference cover)\n  bucket 18: 100%\n  Sorting block of length 378 for bucket 18\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 335 for bucket 19\n  Sorting block time: 00:00:00\nReturning block of 379 for bucket 18\nGetting block 20 of 58\n  Reserving size (388) for bucket 20\n  Calculating Z arrays for bucket 20\n  Entering block accumulator loop for bucket 20:\n  bucket 20: 10%\nGetting block 21 of 58\n  Reserving size (388) for bucket 21\n  Calculating Z arrays for bucket 21\n  bucket 20: 20%\n  Entering block accumulator loop for bucket 21:\n  bucket 20: 30%\nGetting block 22 of 58\n  bucket 21: 10%\n  Reserving size (388) for bucket 22\n  Calculating Z arrays for bucket 22\n  bucket 20: 40%\n  Entering block accumulator loop for bucket 22:\n  bucket 21: 20%\n  bucket 20: 50%\n  bucket 22: 10%\n  bucket 21: 30%\n  bucket 20: 60%\n  bucket 22: 20%\n  bucket 22: 30%\n  bucket 21: 40%\n  bucket 20: 70%\n  bucket 22: 40%\n  bucket 20: 80%\n  bucket 21: 50%\n  bucket 22: 50%\n  bucket 20: 90%\n  bucket 21: 60%\n  bucket 22: 60%\n  bucket 20: 100%\n  Sorting block of length 313 for bucket 20\n  (Using difference cover)\n  bucket 22: 70%\n  bucket 21: 70%\n  bucket 22: 80%\n  bucket 21: 80%\n  bucket 22: 90%\n  bucket 22: 100%\n  Sorting block of length 386 for bucket 22\n  (Using difference cover)\n  bucket 21: 90%\n  Sorting block time: 00:00:00\nReturning block of 314 for bucket 20\n  bucket 21: 100%\n  Sorting block of length 210 for bucket 21\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 387 for bucket 22\n  Sorting block time: 00:00:00\nReturning block of 211 for bucket 21\nGetting block 23 of 58\n  Reserving size (388) for bucket 23\n  Calculating Z arrays for bucket 23\n  Entering block accumulator loop for bucket 23:\nGetting block 24 of 58\n  Reserving size (388) for bucket 24\n  Calculating Z arrays for bucket 24\n  Entering block accumulator loop for bucket 24:\n  bucket 24: 10%\n  bucket 23: 10%\n  bucket 24: 20%\n  bucket 23: 20%\n  bucket 24: 30%\n  bucket 23: 30%\n  bucket 23: 40%\n  bucket 24: 40%\n  bucket 24: 50%\n  bucket 23: 50%\n  bucket 24: 60%\n  bucket 23: 60%\n  bucket 24: 70%\n  bucket 23: 70%\n  bucket 24: 80%\n  bucket 23: 80%\n  bucket 24: 90%\n  bucket 23: 90%\n  bucket 24: 100%\n  bucket 23: 100%\n  Sorting block of length 351 for bucket 24\n  (Using difference cover)\n  Sorting block of length 238 for bucket 23\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 239 for bucket 23\n  Sorting block time: 00:00:00\nReturning block of 352 for bucket 24\nGetting block 25 of 58\n  Reserving size (388) for bucket 25\n  Calculating Z arrays for bucket 25\n  Entering block accumulator loop for bucket 25:\n  bucket 25: 10%\nGetting block 26 of 58\n  bucket 25: 20%\n  Reserving size (388) for bucket 26\nGetting block 27 of 58\n  Calculating Z arrays for bucket 26\n  bucket 25: 30%\n  Reserving size (388) for bucket 27\n  Calculating Z arrays for bucket 27\n  Entering block accumulator loop for bucket 26:\n  Entering block accumulator loop for bucket 27:\n  bucket 25: 40%\n  bucket 25: 50%\n  bucket 27: 10%\n  bucket 26: 10%\n  bucket 25: 60%\n  bucket 27: 20%\n  bucket 26: 20%\n  bucket 25: 70%\n  bucket 25: 80%\n  bucket 27: 30%\n  bucket 26: 30%\n  bucket 25: 90%\n  bucket 27: 40%\n  bucket 26: 40%\n  bucket 25: 100%\n  bucket 27: 50%\n  Sorting block of length 105 for bucket 25\n  (Using difference cover)\n  bucket 26: 50%\n  bucket 27: 60%\n  bucket 26: 60%\n  bucket 27: 70%\n  bucket 26: 70%\n  bucket 27: 80%\n  bucket 26: 80%\n  Sorting block time: 00:00:00\nReturning block of 106 for bucket 25\n  bucket 27: 90%\n  bucket 26: 90%\n  bucket 27: 100%\n  Sorting block of length 334 for bucket 27\n  (Using difference cover)\n  bucket 26: 100%\n  Sorting block of length 354 for bucket 26\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 355 for bucket 26\n  Sorting block time: 00:00:00\nReturning block of 335 for bucket 27\nGetting block 28 of 58\n  Reserving size (388) for bucket 28\n  Calculating Z arrays for bucket 28\nGetting block 29 of 58\n  Entering block accumulator loop for bucket 28:\n  Reserving size (388) for bucket 29\n  Calculating Z arrays for bucket 29\n  Entering block accumulator loop for bucket 29:\n  bucket 28: 10%\n  bucket 28: 20%\n  bucket 29: 10%\n  bucket 28: 30%\n  bucket 29: 20%\n  bucket 28: 40%\n  bucket 29: 30%\n  bucket 28: 50%\n  bucket 29: 40%\n  bucket 28: 60%\n  bucket 28: 70%\n  bucket 29: 50%\n  bucket 28: 80%\n  bucket 29: 60%\n  bucket 28: 90%\n  bucket 28: 100%\n  Sorting block of length 253 for bucket 28\n  (Using difference cover)\n  bucket 29: 70%\n  bucket 29: 80%\n  bucket 29: 90%\n  Sorting block time: 00:00:00\nReturning block of 254 for bucket 28\n  bucket 29: 100%\n  Sorting block of length 289 for bucket 29\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 290 for bucket 29\nGetting block 30 of 58\n  Reserving size (388) for bucket 30\n  Calculating Z arrays for bucket 30\n  Entering block accumulator loop for bucket 30:\n  bucket 30: 10%\n  bucket 30: 20%\n  bucket 30: 30%\nGetting block 31 of 58\n  Reserving size (388) for bucket 31\n  Calculating Z arrays for bucket 31\n  Entering block accumulator loop for bucket 31:\n  bucket 30: 40%\n  bucket 31: 10%\n  bucket 30: 50%\n  bucket 31: 20%\n  bucket 30: 60%\n  bucket 31: 30%\n  bucket 30: 70%\n  bucket 31: 40%\n  bucket 30: 80%\n  bucket 31: 50%\n  bucket 30: 90%\n  bucket 31: 60%\n  bucket 30: 100%\n  Sorting block of length 345 for bucket 30\n  (Using difference cover)\n  bucket 31: 70%\n  bucket 31: 80%\n  bucket 31: 90%\n  bucket 31: 100%\n  Sorting block of length 377 for bucket 31\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 346 for bucket 30\n  Sorting block time: 00:00:00\nReturning block of 378 for bucket 31\nGetting block 32 of 58\n  Reserving size (388) for bucket 32\nGetting block 33 of 58\n  Calculating Z arrays for buc\n..\n: 00:00:00\nReturning block of 344 for bucket 21\n  bucket 22: 80%\n  bucket 23: 80%\n  bucket 22: 90%\n  Sorting block time: 00:00:00\nReturning block of 246 for bucket 24\n  bucket 23: 90%\n  bucket 22: 100%\n  Sorting block of length 371 for bucket 22\n  (Using difference cover)\n  bucket 23: 100%\n  Sorting block of length 349 for bucket 23\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 350 for bucket 23\n  Sorting block time: 00:00:00\nReturning block of 372 for bucket 22\nGetting block 25 of 57\n  Reserving size (388) for bucket 25\n  Calculating Z arrays for bucket 25\n  Entering block accumulator loop for bucket 25:\n  bucket 25: 10%\n  bucket 25: 20%\n  bucket 25: 30%\n  bucket 25: 40%\n  bucket 25: 50%\n  bucket 25: 60%\n  bucket 25: 70%\n  bucket 25: 80%\n  bucket 25: 90%\n  bucket 25: 100%\n  Sorting block of length 286 for bucket 25\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 287 for bucket 25\nGetting block 26 of 57\n  Reserving size (388) for bucket 26\n  Calculating Z arrays for bucket 26\n  Entering block accumulator loop for bucket 26:\n  bucket 26: 10%\n  bucket 26: 20%\n  bucket 26: 30%\n  bucket 26: 40%\n  bucket 26: 50%\nGetting block 27 of 57\n  Reserving size (388) for bucket 27\n  Calculating Z arrays for bucket 27\n  bucket 26: 60%\n  Entering block accumulator loop for bucket 27:\n  bucket 26: 70%\n  bucket 27: 10%\n  bucket 26: 80%\n  bucket 27: 20%\n  bucket 27: 30%\n  bucket 26: 90%\n  bucket 27: 40%\n  bucket 26: 100%\n  Sorting block of length 384 for bucket 26\n  (Using difference cover)\n  bucket 27: 50%\n  bucket 27: 60%\n  bucket 27: 70%\n  bucket 27: 80%\n  Sorting block time: 00:00:00\nReturning block of 385 for bucket 26\n  bucket 27: 90%\n  bucket 27: 100%\n  Sorting block of length 359 for bucket 27\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 360 for bucket 27\nGetting block 28 of 57\n  Reserving size (388) for bucket 28\n  Calculating Z arrays for bucket 28\n  Entering block accumulator loop for bucket 28:\n  bucket 28: 10%\n  bucket 28: 20%\n  bucket 28: 30%\n  bucket 28: 40%\n  bucket 28: 50%\n  bucket 28: 60%\n  bucket 28: 70%\n  bucket 28: 80%\n  bucket 28: 90%\n  bucket 28: 100%\n  Sorting block of length 387 for bucket 28\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 28\nGetting block 29 of 57\n  Reserving size (388) for bucket 29\n  Calculating Z arrays for bucket 29\n  Entering block accumulator loop for bucket 29:\n  bucket 29: 10%\n  bucket 29: 20%\n  bucket 29: 30%\n  bucket 29: 40%\nGetting block 30 of 57\n  bucket 29: 50%\n  Reserving size (388) for bucket 30\n  Calculating Z arrays for bucket 30\n  Entering block accumulator loop for bucket 30:\n  bucket 29: 60%\n  bucket 30: 10%\n  bucket 29: 70%\n  bucket 30: 20%\n  bucket 29: 80%\n  bucket 30: 30%\n  bucket 29: 90%\n  bucket 30: 40%\n  bucket 29: 100%\n  Sorting block of length 195 for bucket 29\n  (Using difference cover)\n  bucket 30: 50%\n  bucket 30: 60%\nGetting block 31 of 57\n  Reserving size (388) for bucket 31\n  Calculating Z arrays for bucket 31\n  bucket 30: 70%\n  Entering block accumulator loop for bucket 31:\n  bucket 30: 80%\nGetting block 32 of 57\n  Sorting block time: 00:00:00\n  bucket 31: 10%\n  Reserving size (388) for bucket 32\nReturning block of 196 for bucket 29\n  Calculating Z arrays for bucket 32\n  bucket 30: 90%\n  Entering block accumulator loop for bucket 32:\n  bucket 31: 20%\n  bucket 30: 100%\n  Sorting block of length 257 for bucket 30\n  (Using difference cover)\n  bucket 32: 10%\n  bucket 31: 30%\n  bucket 32: 20%\n  bucket 31: 40%\n  bucket 32: 30%\n  bucket 31: 50%\n  bucket 32: 40%\n  Sorting block time: 00:00:00\nReturning block of 258 for bucket 30\n  bucket 32: 50%\n  bucket 31: 60%\n  bucket 32: 60%\n  bucket 31: 70%\n  bucket 32: 70%\n  bucket 32: 80%\n  bucket 31: 80%\n  bucket 32: 90%\n  bucket 31: 90%\n  bucket 32: 100%\n  Sorting block of length 219 for bucket 32\n  (Using difference cover)\n  bucket 31: 100%\n  Sorting block of length 310 for bucket 31\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 220 for bucket 32\n  Sorting block time: 00:00:00\nReturning block of 311 for bucket 31\nGetting block 33 of 57\n  Reserving size (388) for bucket 33\n  Calculating Z arrays for bucket 33\n  Entering block accumulator loop for bucket 33:\nGetting block 34 of 57\n  bucket 33: 10%\n  Reserving size (388) for bucket 34\n  Calculating Z arrays for bucket 34\n  Entering block accumulator loop for bucket 34:\n  bucket 33: 20%\n  bucket 34: 10%\n  bucket 33: 30%\nGetting block 35 of 57\n  bucket 33: 40%\n  bucket 34: 20%\n  Reserving size (388) for bucket 35\n  Calculating Z arrays for bucket 35\n  Entering block accumulator loop for bucket 35:\n  bucket 33: 50%\n  bucket 34: 30%\n  bucket 33: 60%\n  bucket 35: 10%\n  bucket 34: 40%\n  bucket 33: 70%\n  bucket 34: 50%\n  bucket 35: 20%\n  bucket 34: 60%\n  bucket 33: 80%\n  bucket 35: 30%\n  bucket 34: 70%\n  bucket 33: 90%\n  bucket 35: 40%\n  bucket 34: 80%\n  bucket 33: 100%\n  Sorting block of length 387 for bucket 33\n  (Using difference cover)\n  bucket 35: 50%\n  bucket 34: 90%\n  bucket 35: 60%\n  bucket 34: 100%\n  Sorting block of length 275 for bucket 34\n  (Using difference cover)\n  bucket 35: 70%\n  bucket 35: 80%\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 33\n  bucket 35: 90%\n  bucket 35: 100%\n  Sorting block of length 350 for bucket 35\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 276 for bucket 34\n  Sorting block time: 00:00:00\nReturning block of 351 for bucket 35\nGetting block 36 of 57\n  Reserving size (388) for bucket 36\n  Calculating Z arrays for bucket 36\n  Entering block accumulator loop for bucket 36:\nGetting block 37 of 57\n  Reserving size (388) for bucket 37\n  Calculating Z arrays for bucket 37\n  bucket 36: 10%\n  Entering block accumulator loop for bucket 37:\n  bucket 36: 20%\n  bucket 37: 10%\n  bucket 36: 30%\n  bucket 37: 20%\n  bucket 36: 40%\n  bucket 37: 30%\n  bucket 36: 50%\n  bucket 37: 40%\n  bucket 36: 60%\n  bucket 37: 50%\n  bucket 36: 70%\n  bucket 37: 60%\n  bucket 36: 80%\n  bucket 37: 70%\n  bucket 36: 90%\n  bucket 37: 80%\n  bucket 36: 100%\n  bucket 37: 90%\n  Sorting block of length 150 for bucket 36\n  (Using difference cover)\n  bucket 37: 100%\n  Sorting block of length 267 for bucket 37\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 151 for bucket 36\n  Sorting block time: 00:00:00\nReturning block of 268 for bucket 37\nGetting block 38 of 57\n  Reserving size (388) for bucket 38\n  Calculating Z arrays for bucket 38\n  Entering block accumulator loop for bucket 38:\n  bucket 38: 10%\nGetting block 39 of 57\n  bucket 38: 20%\n  Reserving size (388) for bucket 39\n  Calculating Z arrays for bucket 39\n  Entering block accumulator loop for bucket 39:\n  bucket 38: 30%\n  bucket 38: 40%\n  bucket 39: 10%\n  bucket 38: 50%\n  bucket 39: 20%\n  bucket 38: 60%\n  bucket 38: 70%\n  bucket 39: 30%\n  bucket 38: 80%\n  bucket 39: 40%\n  bucket 38: 90%\n  bucket 39: 50%\n  bucket 38: 100%\n  Sorting block of length 337 for bucket 38\n  (Using difference cover)\n  bucket 39: 60%\n  bucket 39: 70%\n  bucket 39: 80%\n  Sorting block time: 00:00:00\nReturning block of 338 for bucket 38\n  bucket 39: 90%\n  bucket 39: 100%\n  Sorting block of length 387 for bucket 39\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 39\nGetting block 40 of 57\n  Reserving size (388) for bucket 40\n  Calculating Z arrays for bucket 40\n  Entering block accumulator loop for bucket 40:\n  bucket 40: 10%\nGetting block 41 of 57\n  Reserving size (388) for bucket 41\n  Calculating Z arrays for bucket 41\n  Entering block accumulator loop for bucket 41:\n  bucket 40: 20%\nGetting block 42 of 57\n  bucket 40: 30%\n  bucket 41: 10%\n  Reserving size (388) for bucket 42\n  Calculating Z arrays for bucket 42\n  Entering block accumulator loop for bucket 42:\n  bucket 40: 40%\n  bucket 41: 20%\n  bucket 40: 50%\n  bucket 42: 10%\n  bucket 41: 30%\n  bucket 40: 60%\n  bucket 41: 40%\n  bucket 42: 20%\n  bucket 40: 70%\n  bucket 41: 50%\n  bucket 42: 30%\n  bucket 40: 80%\n  bucket 41: 60%\n  bucket 42: 40%\n  bucket 40: 90%\n  bucket 41: 70%\n  bucket 41: 80%\n  bucket 42: 50%\n  bucket 40: 100%\n  Sorting block of length 379 for bucket 40\n  (Using difference cover)\n  bucket 41: 90%\n  bucket 42: 60%\n  bucket 41: 100%\n  Sorting block of length 330 for bucket 41\n  (Using difference cover)\n  bucket 42: 70%\n  bucket 42: 80%\n  bucket 42: 90%\n  Sorting block time: 00:00:00\nReturning block of 380 for bucket 40\n  bucket 42: 100%\n  Sorting block of length 188 for bucket 42\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 331 for bucket 41\n  Sorting block time: 00:00:00\nReturning block of 189 for bucket 42\nGetting block 43 of 57\n  Reserving size (388) for bucket 43\n  Calculating Z arrays for bucket 43\n  Entering block accumulator loop for bucket 43:\n  bucket 43: 10%\nGetting block 44 of 57\n  Reserving size (388) for bucket 44\n  Calculating Z arrays for bucket 44\n  bucket 43: 20%\n  Entering block accumulator loop for bucket 44:\n  bucket 43: 30%\n  bucket 44: 10%\n  bucket 44: 20%\n  bucket 43: 40%\n  bucket 44: 30%\n  bucket 43: 50%\n  bucket 43: 60%\n  bucket 44: 40%\n  bucket 43: 70%\n  bucket 44: 50%\n  bucket 43: 80%\n  bucket 44: 60%\n  bucket 44: 70%\n  bucket 43: 90%\n  bucket 44: 80%\n  bucket 43: 100%\n  Sorting block of length 321 for bucket 43\n  (Using difference cover)\n  bucket 44: 90%\n  bucket 44: 100%\n  Sorting block of length 366 for bucket 44\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 367 for bucket 44\n  Sorting block time: 00:00:00\nReturning block of 322 for bucket 43\nGetting block 45 of 57\n  Reserving size (388) for bucket 45\n  Calculating Z arrays for bucket 45\n  Entering block accumulator loop for bucket 45:\n  bucket 45: 10%\n  bucket 45: 20%\nGetting block 46 of 57\n  bucket 45: 30%\n  Reserving size (388) for bucket 46\n  Calculating Z arrays for bucket 46\n  Entering block accumulator loop for bucket 46:\n  bucket 45: 40%\n  bucket 46: 10%\n  bucket 45: 50%\n  bucket 45: 60%\n  bucket 46: 20%\n  bucket 45: 70%\n  bucket 46: 30%\n  bucket 45: 80%\n  bucket 46: 40%\n  bucket 45: 90%\n  bucket 46: 50%\n  bucket 45: 100%\n  bucket 46: 60%\n  Sorting block of length 365 for bucket 45\n  (Using difference cover)\n  bucket 46: 70%\n  bucket 46: 80%\n  bucket 46: 90%\n  bucket 46: 100%\n  Sorting block of length 253 for bucket 46\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 366 for bucket 45\n  Sorting block time: 00:00:00\nReturning block of 254 for bucket 46\nGetting block 47 of 57\n  Reserving size (388) for bucket 47\nGetting block 48 of 57\n  Calculating Z arrays for bucket 47\n  Reserving size (388) for bucket 48\n  Calculating Z arrays for bucket 48\n  Entering block accumulator loop for bucket 47:\n  Entering block accumulator loop for bucket 48:\n  bucket 48: 10%\n  bucket 47: 10%\n  bucket 48: 20%\n  bucket 47: 20%\n  bucket 48: 30%\n  bucket 47: 30%\n  bucket 48: 40%\n  bucket 48: 50%\n  bucket 47: 40%\n  bucket 48: 60%\n  bucket 47: 50%\n  bucket 48: 70%\n  bucket 48: 80%\n  bucket 47: 60%\n  bucket 48: 90%\n  bucket 48: 100%\n  bucket 47: 70%\n  Sorting block of length 384 for bucket 48\n  (Using difference cover)\n  bucket 47: 80%\n  bucket 47: 90%\n  Sorting block time: 00:00:00\nReturning block of 385 for bucket 48\n  bucket 47: 100%\n  Sorting block of length 217 for bucket 47\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 218 for bucket 47\nGetting block 49 of 57\n  Reserving size (388) for bucket 49\n  Calculating Z arrays for bucket 49\nGetting block 50 of 57\n  Reserving size (388) for bucket 50\n  Calculating Z arrays for bucket 50\n  Entering block accumulator loop for bucket 49:\nGetting block 51 of 57\n  Entering block accumulator loop for bucket 50:\n  Reserving size (388) for bucket 51\n  Calculating Z arrays for bucket 51\n  Entering block accumulator loop for bucket 51:\n  bucket 50: 10%\n  bucket 49: 10%\n  bucket 51: 10%\n  bucket 50: 20%\n  bucket 49: 20%\n  bucket 51: 20%\n  bucket 50: 30%\n  bucket 49: 30%\n  bucket 51: 30%\n  bucket 50: 40%\n  bucket 51: 40%\n  bucket 50: 50%\n  bucket 49: 40%\n  bucket 50: 60%\n  bucket 51: 50%\n  bucket 49: 50%\n  bucket 50: 70%\n  bucket 51: 60%\n  bucket 49: 60%\n  bucket 50: 80%\n  bucket 51: 70%\n  bucket 49: 70%\n  bucket 50: 90%\n  bucket 51: 80%\n  bucket 50: 100%\n  Sorting block of length 275 for bucket 50\n  (Using difference cover)\n  bucket 49: 80%\n  bucket 51: 90%\n  bucket 49: 90%\n  bucket 51: 100%\n  Sorting block of length 350 for bucket 51\n  (Using difference cover)\n  bucket 49: 100%\n  Sorting block of length 112 for bucket 49\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 276 for bucket 50\n  Sorting block time: 00:00:00\nReturning block of 351 for bucket 51\n  Sorting block time: 00:00:00\nReturning block of 113 for bucket 49\nGetting block 52 of 57\n  Reserving size (388) for bucket 52\n  Calculating Z arrays for bucket 52\n  Entering block accumulator loop for bucket 52:\n  bucket 52: 10%\nGetting block 53 of 57\n  Reserving size (388) for bucket 53\n  Calculating Z arrays for bucket 53\n  Entering block accumulator loop for bucket 53:\n  bucket 52: 20%\n  bucket 52: 30%\n  bucket 53: 10%\nGetting block 54 of 57\n  Reserving size (388) for bucket 54\n  Calculating Z arrays for bucket 54\n  Entering block accumulator loop for bucket 54:\n  bucket 53: 20%\n  bucket 52: 40%\n  bucket 54: 10%\n  bucket 54: 20%\n  bucket 53: 30%\n  bucket 52: 50%\n  bucket 54: 30%\n  bucket 54: 40%\n  bucket 53: 40%\n  bucket 54: 50%\n  bucket 52: 60%\n  bucket 54: 60%\n  bucket 54: 70%\n  bucket 53: 50%\n  bucket 52: 70%\n  bucket 54: 80%\n  bucket 54: 90%\n  bucket 53: 60%\n  bucket 54: 100%\n  bucket 52: 80%\n  Sorting block of length 237 for bucket 54\n  (Using difference cover)\n  bucket 53: 70%\n  bucket 52: 90%\n  bucket 53: 80%\n  bucket 52: 100%\n  Sorting block time: 00:00:00\n  Sorting block of length 378 for bucket 52\n  (Using difference cover)\nReturning block of 238 for bucket 54\n  bucket 53: 90%\n  bucket 53: 100%\n  Sorting block of length 370 for bucket 53\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 379 for bucket 52\n  Sorting block time: 00:00:00\nReturning block of 371 for bucket 53\nGetting block 55 of 57\n  Reserving size (388) for bucket 55\n  Calculating Z arrays for bucket 55\n  Entering block accumulator loop for bucket 55:\n  bucket 55: 10%\nGetting block 56 of 57\n  bucket 55: 20%\n  Reserving size (388) for bucket 56\n  Calculating Z arrays for bucket 56\n  Entering block accumulator loop for bucket 56:\n  bucket 55: 30%\n  bucket 56: 10%\n  bucket 56: 20%\n  bucket 55: 40%\n  bucket 56: 30%\n  bucket 56: 40%\n  bucket 55: 50%\n  bucket 56: 50%\n  bucket 56: 60%\n  bucket 55: 60%\n  bucket 56: 70%\n  bucket 55: 70%\n  bucket 56: 80%\n  bucket 56: 90%\n  bucket 55: 80%\n  bucket 56: 100%\n  Sorting block of length 270 for bucket 56\n  (Using difference cover)\n  bucket 55: 90%\n  bucket 55: 100%\n  Sorting block of length 344 for bucket 55\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 271 for bucket 56\n  Sorting block time: 00:00:00\nReturning block of 345 for bucket 55\nGetting block 57 of 57\n  Reserving size (388) for bucket 57\n  Calculating Z arrays for bucket 57\n  Entering block accumulator loop for bucket 57:\n  bucket 57: 10%\n  bucket 57: 20%\n  bucket 57: 30%\n  bucket 57: 40%\n  bucket 57: 50%\n  bucket 57: 60%\n  bucket 57: 70%\n  bucket 57: 80%\n  bucket 57: 90%\n  bucket 57: 100%\n  Sorting block of length 132 for bucket 57\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 133 for bucket 57\nExited Ebwt loop\nfchr[A]: 0\nfchr[C]: 5124\nfchr[G]: 10305\nfchr[T]: 12474\nfchr[$]: 16568\nExiting Ebwt::buildToDisk()\nReturning from initFromVector\nWrote 4200050 bytes to primary EBWT file: genome.rev.1.bt2.tmp\nWrote 4148 bytes to secondary EBWT file: genome.rev.2.bt2.tmp\nRe-opening _in1 and _in2 as input streams\nReturning from Ebwt constructor\nHeaders:\n    len: 16568\n    bwtLen: 16569\n    sz: 4142\n    bwtSz: 4143\n    lineRate: 6\n    offRate: 4\n    offMask: 0xfffffff0\n    ftabChars: 10\n    eftabLen: 20\n    eftabSz: 80\n    ftabLen: 1048577\n    ftabSz: 4194308\n    offsLen: 1036\n    offsSz: 4144\n    lineSz: 64\n    sideSz: 64\n    sideBwtSz: 48\n    sideBwtLen: 192\n    numSides: 87\n    numLines: 87\n    ebwtTotLen: 5568\n    ebwtTotSz: 5568\n    color: 0\n    reverse: 1\nTotal time for backward call to driver() for mirror index: 00:00:00\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:45:12", "plugin": "core", "name": "end_epoch", "raw_value": "1726407912.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:45:11", "plugin": "core", "name": "start_epoch", "raw_value": "1726407911.0000000"}, {"title": "Memory Allocated (MB)", "value": "21474", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "21474.0000000"}, {"title": "Cores Allocated", "value": "8", "plugin": "core", "name": "galaxy_slots", "raw_value": "8.0000000"}]}, "status": "success"}}, {"id": "bowtie2/2.5.3+galaxy1-9", "has_data": true, "data": {"tool_id": "bowtie2", "tool_version": "2.5.3+galaxy1", "test_index": 9, "time_seconds": 30.676867246627808, "inputs": {"library|input_1": {"src": "hda", "id": "1d21718167927561"}, "library|input_2": {"src": "hda", "id": "411aacabea8a8471"}, "library|unaligned_file": false, "library|paired_options|paired_options_selector": "no", "library|type": "paired", "reference_genome|own_file": {"src": "hda", "id": "a34352281d8de02f"}, "reference_genome|source": "history", "analysis_type|analysis_type_selector": "simple", "sam_options|sam_opt": true, "sam_options|sam_options_selector": "yes"}, "job": {"model_class": "Job", "id": "06c60db44ae1252d", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:45:52.356356", "create_time": "2024-09-15T13:45:41.140634", "galaxy_version": "23.1", "command_version": "/usr/local/bin/bowtie2-align-s version 2.5.3\n64-bit\nBuilt on fv-az365-785\nWed Jan 17 04:43:48 UTC 2024\nCompiler: gcc version 12.3.0 (conda-forge gcc 12.3.0-3) \nOptions: -O3 -msse2 -funroll-loops -g3 -fvisibility-inlines-hidden -fmessage-length=0 -march=nocona -mtune=haswell -ftree-vectorize -fPIC -fstack-protector-strong -fno-plt -O2 -ffunction-sections -pipe -isystem /usr/local/include -fdebug-prefix-map=/opt/conda/conda-bld/bowtie2_1705465427853/work=/usr/local/src/conda/bowtie2-2.5.3 -fdebug-prefix-map=/usr/local=/usr/local/src/conda-prefix -std=c++11 -Wall -Wno-unused-but-set-variable -DPOPCNT_CAPABILITY -DNO_SPINLOCK -DWITH_QUEUELOCK=1 -DWITH_ZSTD\nSizeof {int, long, long long, void*, size_t, off_t}: {4, 8, 8, 8, 8, 8}", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/devteam/bowtie2/bowtie2/2.5.3+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-t6zmp", "command_line": "set -o | grep -q pipefail && set -o pipefail; bowtie2-build --threads ${GALAXY_SLOTS:-4} '/galaxy/server/database/objects/8/1/c/dataset_81c9fef2-0331-42e0-b7e6-0a880024f65f.dat' genome && ln -s -f '/galaxy/server/database/objects/8/1/c/dataset_81c9fef2-0331-42e0-b7e6-0a880024f65f.dat' genome.fa &&   ln -f -s '/galaxy/server/database/objects/8/e/c/dataset_8ecc6dfb-974f-435c-96ca-9fb08b7215c1.dat' input_f.fasta &&  ln -f -s '/galaxy/server/database/objects/3/1/d/dataset_31d312b2-b637-4169-aa55-56ad2a633792.dat' input_r.fasta &&   THREADS=${GALAXY_SLOTS:-4} && if [ \"$THREADS\" -gt 1 ]; then (( THREADS-- )); fi &&   bowtie2  -p \"$THREADS\"  -x 'genome'  -f  -1 'input_f.fasta' -2 'input_r.fasta'                       > '/galaxy/server/database/objects/3/c/4/dataset_3c47ab5e-30a5-43fe-bd0e-cf4dfc8c9afd.dat'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "save_mapping_stats": "false", "sam_options": "{\"__current_case__\": 0, \"no_unal\": false, \"omit_sec_seq\": false, \"reorder\": false, \"sam_no_qname_trunc\": false, \"sam_opt\": true, \"sam_options_selector\": \"yes\", \"soft_clipped_unmapped_tlen\": false, \"xeq\": false}", "analysis_type": "{\"__current_case__\": 0, \"analysis_type_selector\": \"simple\", \"presets\": \"no_presets\"}", "rg": "{\"__current_case__\": 3, \"rg_selector\": \"do_not_set\"}", "reference_genome": "{\"__current_case__\": 1, \"own_file\": {\"values\": [{\"id\": 395, \"src\": \"hda\"}]}, \"source\": \"history\"}", "library": "{\"__current_case__\": 1, \"aligned_file\": false, \"input_1\": {\"values\": [{\"id\": 393, \"src\": \"hda\"}]}, \"input_2\": {\"values\": [{\"id\": 394, \"src\": \"hda\"}]}, \"paired_options\": {\"__current_case__\": 1, \"paired_options_selector\": \"no\"}, \"type\": \"paired\", \"unaligned_file\": false}"}, "inputs": {"library|input_1": {"id": "1d21718167927561", "src": "hda", "uuid": "8ecc6dfb-974f-435c-96ca-9fb08b7215c1"}, "library|input_2": {"id": "411aacabea8a8471", "src": "hda", "uuid": "31d312b2-b637-4169-aa55-56ad2a633792"}, "reference_genome|own_file": {"id": "a34352281d8de02f", "src": "hda", "uuid": "81c9fef2-0331-42e0-b7e6-0a880024f65f"}}, "outputs": {"output": {"id": "819bfec891e02150", "src": "hda", "uuid": "3c47ab5e-30a5-43fe-bd0e-cf4dfc8c9afd"}}, "output_collections": {}, "tool_stdout": "Settings:\n  Output files: \"genome.*.bt2\"\n  Line rate: 6 (line is 64 bytes)\n  Lines per side: 1 (side is 64 bytes)\n  Offset rate: 4 (one in 16)\n  FTable chars: 10\n  Strings: unpacked\n  Max bucket size: default\n  Max bucket size, sqrt multiplier: default\n  Max bucket size, len divisor: 32\n  Difference-cover sample period: 1024\n  Endianness: little\n  Actual local endianness: little\n  Sanity checking: disabled\n  Assertions: disabled\n  Random seed: 0\n  Sizeofs: void*:8, int:4, long:8, size_t:8\nInput files DNA, FASTA:\n  /galaxy/server/database/objects/8/1/c/dataset_81c9fef2-0331-42e0-b7e6-0a880024f65f.dat\nReading reference sizes\n  Time reading reference sizes: 00:00:00\nCalculating joined length\nWriting header\nReserving space for joined string\nJoining reference sequences\n  Time to join reference sequences: 00:00:00\nbmax according to bmaxDivN setting: 517\nUsing parameters --bmax 388 --dcv 1024\n  Doing ahead-of-time memory usage test\n  Passed!  Constructing with these parameters: --bmax 388 --dcv 1024\nConstructing suffix-array element generator\nBuilding DifferenceCoverSample\n  Building sPrime\n  Building sPrimeOrder\n  V-Sorting samples\n  V-Sorting samples time: 00:00:00\n  Allocating rank array\n  Ranking v-sort output\n  Ranking v-sort output time: 00:00:00\n  Invoking Larsson-Sadakane on ranks\n  Invoking Larsson-Sadakane on ranks time: 00:00:00\n  Sanity-checking and returning\nBuilding samples\nReserving space for 86 sample suffixes\nGenerating random suffixes\nQSorting 86 sample offsets, eliminating duplicates\nQSorting sample offsets, eliminating duplicates time: 00:00:00\nMultikey QSorting 86 samples\n  (Using difference cover)\n  Multikey QSorting samples time: 00:00:00\nCalculating bucket sizes\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 12, merged 41; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 6, merged 6; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 5, merged 3; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 3, merged 3; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nAvg bucket size: 284.672 (target: 387)\nConverting suffix-array elements to index image\nAllocating ftab, absorbFtab\nEntering Ebwt loop\nGetting block 1 of 58\n  Reserving size (388) for bucket 1\nGetting block 2 of 58\nGetting block 3 of 58\nGetting block 4 of 58\nGetting block 5 of 58\nGetting block 6 of 58\n  Calculating Z arrays for bucket 1\n  Reserving size (388) for bucket 2\n  Reserving size (388) for bucket 3\nGetting block 7 of 58\n  Reserving size (388) for bucket 4\n  Reserving size (388) for bucket 5\n  Reserving size (388) for bucket 6\n  Calculating Z arrays for bucket 2\n  Calculating Z arrays for bucket 3\n  Entering block accumulator loop for bucket 1:\n  Reserving size (388) for bucket 7\n  Calculating Z arrays for bucket 4\n  Calculating Z arrays for bucket 5\n  Calculating Z arrays for bucket 6\n  Entering block accumulator loop for bucket 2:\n  Calculating Z arrays for bucket 7\n  Entering block accumulator loop for bucket 3:\n  Entering block accumulator loop for bucket 5:\n  Entering block accumulator loop for bucket 6:\n  Entering block accumulator loop for bucket 4:\n  bucket 1: 10%\n  Entering block accumulator loop for bucket 7:\n  bucket 2: 10%\n  bucket 3: 10%\n  bucket 5: 10%\n  bucket 1: 20%\n  bucket 2: 20%\n  bucket 4: 10%\n  bucket 7: 10%\n  bucket 6: 10%\n  bucket 1: 30%\n  bucket 2: 30%\n  bucket 3: 20%\n  bucket 5: 20%\n  bucket 4: 20%\n  bucket 7: 20%\n  bucket 1: 40%\n  bucket 6: 20%\n  bucket 2: 40%\n  bucket 3: 30%\n  bucket 4: 30%\n  bucket 1: 50%\n  bucket 5: 30%\n  bucket 7: 30%\n  bucket 2: 50%\n  bucket 6: 30%\n  bucket 1: 60%\n  bucket 3: 40%\n  bucket 4: 40%\n  bucket 5: 40%\n  bucket 2: 60%\n  bucket 6: 40%\n  bucket 7: 40%\n  bucket 1: 70%\n  bucket 4: 50%\n  bucket 3: 50%\n  bucket 2: 70%\n  bucket 5: 50%\n  bucket 1: 80%\n  bucket 6: 50%\n  bucket 7: 50%\n  bucket 4: 60%\n  bucket 2: 80%\n  bucket 3: 60%\n  bucket 1: 90%\n  bucket 5: 60%\n  bucket 6: 60%\n  bucket 7: 60%\n  bucket 4: 70%\n  bucket 2: 90%\n  bucket 1: 100%\n  bucket 3: 70%\n  Sorting block of length 355 for bucket 1\n  (Using difference cover)\n  bucket 5: 70%\n  bucket 6: 70%\n  bucket 4: 80%\n  bucket 7: 70%\n  bucket 2: 100%\n  bucket 3: 80%\n  Sorting block of length 165 for bucket 2\n  (Using difference cover)\n  bucket 5: 80%\n  bucket 4: 90%\n  bucket 6: 80%\n  bucket 7: 80%\n  bucket 3: 90%\n  bucket 4: 100%\n  bucket 5: 90%\n  Sorting block of length 328 for bucket 4\n  bucket 6: 90%\n  (Using difference cover)\n  bucket 7: 90%\n  bucket 3: 100%\n  bucket 5: 100%\n  bucket 6: 100%\n  Sorting block of length 370 for bucket 3\n  Sorting block of length 203 for bucket 5\n  (Using difference cover)\n  (Using difference cover)\n  Sorting block of length 339 for bucket 6\n  (Using difference cover)\n  bucket 7: 100%\n  Sorting block of length 368 for bucket 7\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 329 for bucket 4\n  Sorting block time: 00:00:00\nReturning block of 356 for bucket 1\n  Sorting block time: 00:00:00\nReturning block of 369 for bucket 7\n  Sorting block time: 00:00:00\nReturning block of 166 for bucket 2\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 6\n  Sorting block time: 00:00:00\nReturning block of 371 for bucket 3\n  Sorting block time: 00:00:00\nReturning block of 204 for bucket 5\nGetting block 8 of 58\n  Reserving size (388) for bucket 8\nGetting block 9 of 58\n  Calculating Z arrays for bucket 8\n  Reserving size (388) for bucket 9\n  Calculating Z arrays for bucket 9\n  Entering block accumulator loop for bucket 8:\n  Entering block accumulator loop for bucket 9:\n  bucket 8: 10%\n  bucket 9: 10%\n  bucket 8: 20%\nGetting block 10 of 58\n  bucket 9: 20%\n  bucket 8: 30%\n  Reserving size (388) for bucket 10\n  Calculating Z arrays for bucket 10\n  Entering block accumulator loop for bucket 10:\n  bucket 9: 30%\n  bucket 8: 40%\n  bucket 10: 10%\n  bucket 9: 40%\n  bucket 10: 20%\n  bucket 8: 50%\n  bucket 9: 50%\n  bucket 10: 30%\n  bucket 8: 60%\n  bucket 9: 60%\n  bucket 10: 40%\n  bucket 10: 50%\n  bucket 8: 70%\n  bucket 9: 70%\n  bucket 10: 60%\n  bucket 8: 80%\n  bucket 9: 80%\n  bucket 10: 70%\n  bucket 8: 90%\n  bucket 10: 80%\n  bucket 9: 90%\n  bucket 10: 90%\n  bucket 8: 100%\n  bucket 9: 100%\n  bucket 10: 100%\n  Sorting block of length 171 for bucket 8\n  (Using difference cover)\n  Sorting block of length 339 for bucket 9\n  (Using difference cover)\n  Sorting block of length 357 for bucket 10\n  (Using difference cover)\n  Sorting block time: 00:00:01\nReturning block of 172 for bucket 8\n  Sorting block time: 00:00:01\nReturning block of 358 for bucket 10\n  Sorting block time: 00:00:01\nReturning block of 340 for bucket 9\nGetting block 11 of 58\n  Reserving size (388) for bucket 11\n  Calculating Z arrays for bucket 11\n  Entering block accumulator loop for bucket 11:\n  bucket 11: 10%\n  bucket 11: 20%\n  bucket 11: 30%\n  bucket 11: 40%\nGetting block 12 of 58\nGetting block 13 of 58\n  Reserving size (388) for bucket 12\n  bucket 11: 50%\n  Reserving size (388) for bucket 13\n  Calculating Z arrays for bucket 12\n  Calculating Z arrays for bucket 13\n  Entering block accumulator loop for bucket 13:\n  Entering block accumulator loop for bucket 12:\n  bucket 11: 60%\n  bucket 13: 10%\n  bucket 12: 10%\n  bucket 11: 70%\n  bucket 13: 20%\n  bucket 12: 20%\n  bucket 11: 80%\n  bucket 13: 30%\n  bucket 13: 40%\n  bucket 12: 30%\n  bucket 11: 90%\n  bucket 13: 50%\n  bucket 12: 40%\n  bucket 13: 60%\n  bucket 11: 100%\n  Sorting block of length 305 for bucket 11\n  (Using difference cover)\n  bucket 12: 50%\n  bucket 13: 70%\n  bucket 13: 80%\n  bucket 12: 60%\n  bucket 13: 90%\n  bucket 12: 70%\n  bucket 13: 100%\n  bucket 12: 80%\n  Sorting block of length 282 for bucket 13\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 306 for bucket 11\n  bucket 12: 90%\n  bucket 12: 100%\n  Sorting block of length 185 for bucket 12\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 283 for bucket 13\n  Sorting block time: 00:00:00\nReturning block of 186 for bucket 12\nGetting block 14 of 58\n  Reserving size (388) for bucket 14\n  Calculating Z arrays for bucket 14\n  Entering block accumulator loop for bucket 14:\n  bucket 14: 10%\n  bucket 14: 20%\n  bucket 14: 30%\n  bucket 14: 40%\n  bucket 14: 50%\n  bucket 14: 60%\n  bucket 14: 70%\n  bucket 14: 80%\n  bucket 14: 90%\n  bucket 14: 100%\n  Sorting block of length 339 for bucket 14\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 14\nGetting block 15 of 58\n  Reserving size (388) for bucket 15\n  Calculating Z arrays for bucket 15\n  Entering block accumulator loop for bucket 15:\n  bucket 15: 10%\n  bucket 15: 20%\n  bucket 15: 30%\n  bucket 15: 40%\nGetting block 16 of 58\n  Reserving size (388) for bucket 16\n  Calculating Z arrays for bucket 16\n  bucket 15: 50%\n  Entering block accumulator loop for bucket 16:\n  bucket 16: 10%\n  bucket 15: 60%\nGetting block 17 of 58\n  Reserving size (388) for bucket 17\n  bucket 16: 20%\n  Calculating Z arrays for bucket 17\n  bucket 15: 70%\n  Entering block accumulator loop for bucket 17:\n  bucket 15: 80%\n  bucket 16: 30%\n  bucket 15: 90%\n  bucket 16: 40%\n  bucket 17: 10%\n  bucket 15: 100%\n  Sorting block of length 241 for bucket 15\n  (Using difference cover)\n  bucket 16: 50%\n  bucket 17: 20%\n  bucket 16: 60%\n  bucket 17: 30%\n  bucket 16: 70%\n  bucket 17: 40%\n  bucket 16: 80%\n  bucket 17: 50%\n  Sorting block time: 00:00:00\nReturning block of 242 for bucket 15\n  bucket 16: 90%\n  bucket 17: 60%\n  bucket 16: 100%\n  Sorting block of length 379 for bucket 16\n  (Using difference cover)\n  bucket 17: 70%\n  bucket 17: 80%\n  bucket 17: 90%\n  bucket 17: 100%\n  Sorting block of length 215 for bucket 17\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 380 for bucket 16\n  Sorting block time: 00:00:00\nReturning block of 216 for bucket 17\nGetting block 18 of 58\n  Reserving size (388) for bucket 18\n  Calculating Z arrays for bucket 18\n  Entering block accumulator loop for bucket 18:\n  bucket 18: 10%\n  bucket 18: 20%\n  bucket 18: 30%\n  bucket 18: 40%\n  bucket 18: 50%\n  bucket 18: 60%\n  bucket 18: 70%\n  bucket 18: 80%\n  bucket 18: 90%\n  bucket 18: 100%\n  Sorting block of length 378 for bucket 18\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 379 for bucket 18\nGetting block 19 of 58\n  Reserving size (388) for bucket 19\nGetting block 20 of 58\n  Calculating Z arrays for bucket 19\n  Reserving size (388) for bucket 20\n  Calculating Z arrays for bucket 20\nGetting block 21 of 58\n  Reserving size (388) for bucket 21\n  Calculating Z arrays for bucket 21\n  Entering block accumulator loop for bucket 19:\n  Entering block accumulator loop for bucket 20:\n  Entering block accumulator loop for bucket 21:\n  bucket 21: 10%\n  bucket 20: 10%\n  bucket 19: 10%\n  bucket 21: 20%\n  bucket 20: 20%\n  bucket 19: 20%\n  bucket 21: 30%\n  bucket 20: 30%\n  bucket 19: 30%\n  bucket 21: 40%\n  bucket 21: 50%\n  bucket 20: 40%\n  bucket 19: 40%\n  bucket 21: 60%\n  bucket 20: 50%\n  bucket 19: 50%\n  bucket 21: 70%\n  bucket 20: 60%\n  bucket 19: 60%\n  bucket 21: 80%\n  bucket 20: 70%\n  bucket 21: 90%\n  bucket 19: 70%\n  bucket 21: 100%\n  bucket 20: 80%\n  bucket 19: 80%\n  Sorting block of length 210 for bucket 21\n  (Using difference cover)\n  bucket 20: 90%\n  bucket 19: 90%\n  bucket 19: 100%\n  bucket 20: 100%\n  Sorting block of length 334 for bucket 19\n  (Using difference cover)\n  Sorting block of length 313 for bucket 20\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 314 for bucket 20\n  Sorting block time: 00:00:00\nReturning block of 335 for bucket 19\n  Sorting block time: 00:00:00\nReturning block of 211 for bucket 21\nGetting block 22 of 58\nGetting block 23 of 58\n  Reserving size (388) for bucket 22\n  Reserving size (388) for bucket 23\n  Calculating Z arrays for bucket 22\n  Calculating Z arrays for bucket 23\n  Entering block accumulator loop for bucket 23:\nGetting block 24 of 58\n  Entering block accumulator loop for bucket 22:\n  Reserving size (388) for bucket 24\n  bucket 23: 10%\n  Calculating Z arrays for bucket 24\n  Entering block accumulator loop for bucket 24:\n  bucket 23: 20%\n  bucket 24: 10%\n  bucket 22: 10%\n  bucket 23: 30%\n  bucket 24: 20%\n  bucket 22: 20%\n  bucket 24: 30%\n  bucket 23: 40%\n  bucket 22: 30%\n  bucket 24: 40%\n  bucket 23: 50%\n  bucket 22: 40%\n  bucket 24: 50%\n  bucket 24: 60%\n  bucket 23: 60%\n  bucket 22: 50%\n  bucket 24: 70%\n  bucket 23: 70%\n  bucket 22: 60%\n  bucket 24: 80%\n  bucket 23: 80%\n  bucket 22: 70%\n  bucket 24: 90%\n  bucket 24: 100%\n  Sorting block of length 351 for bucket 24\n  (Using difference cover)\n  bucket 23: 90%\n  bucket 22: 80%\n  bucket 23: 100%\n  bucket 22: 90%\n  Sorting block of length 238 for bucket 23\n  (Using difference cover)\n  bucket 22: 100%\n  Sorting block of length 386 for bucket 22\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 352 for bucket 24\n  Sorting block time: 00:00:00\nReturning block of 239 for bucket 23\n  Sorting block time: 00:00:00\nReturning block of 387 for bucket 22\nGetting block 25 of 58\n  Reserving size (388) for bucket 25\n  Calculating Z arrays for bucket 25\n  Entering block accumulator loop for bucket 25:\n  bucket 25: 10%\n  bucket 25: 20%\n  bucket 25: 30%\nGetting block 26 of 58\n  bucket 25: 40%\n  Reserving size (388) for bucket 26\n  Calculating Z arrays for bucket 26\n  Entering block accumulator loop for bucket 26:\n  bucket 25: 50%\n  bucket 26: 10%\n  bucket 25: 60%\n  bucket 26: 20%\n  bucket 25: 70%\n  bucket 26: 30%\n  bucket 25: 80%\n  bucket 26: 40%\n  bucket 25: 90%\n  bucket 26: 50%\n  bucket 25: 100%\n  Sorting block of length 105 for bucket 25\n  (Using difference cover)\n  bucket 26: 60%\n  bucket 26: 70%\n  bucket 26: 80%\n  Sorting block time: 00:00:00\nReturning block of 106 for bucket 25\n  bucket 26: 90%\n  bucket 26: 100%\n  Sorting block of length 354 for bucket 26\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 355 for bucket 26\nGetting block 27 of 58\n  Reserving size (388) for bucket 27\n  Calculating Z arrays for bucket 27\n  Entering block accumulator loop for bucket 27:\n  bucket 27: 10%\nGetting block 28 of 58\n  bucket 27: 20%\n  Reserving size (388) for bucket 28\n  Calculating Z arrays for bucket 28\n  bucket 27: 30%\n  Entering block accumulator loop for bucket 28:\n  bucket 27: 40%\n  bucket 28: 10%\n  bucket 27: 50%\n  bucket 28: 20%\n  bucket 27: 60%\n  bucket 28: 30%\n  bucket 27: 70%\n  bucket 27: 80%\n  bucket 28: 40%\n  bucket 27: 90%\n  bucket 28: 50%\n  bucket 27: 100%\n  Sorting block of length 334 for bucket 27\n  (Using difference cover)\n  bucket 28: 60%\n  bucket 28: 70%\n  bucket 28: 80%\n  Sorting block time: 00:00:00\nReturning block of 335 for bucket 27\n  bucket 28: 90%\n  bucket 28: 100%\n  Sorting block of length 253 for bucket 28\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 254 for bucket 28\nGetting block 29 of 58\n  Reserving size (388) for bucket 29\nGetting block 30 of 58\n  Calculating Z arrays for bucket 29\n  Reserving size (388) for bucket 30\n  Calculating Z arrays for bucket 30\n  Entering block accumulator loop for bucket 29:\n  Entering block accumulator loop for bucket 30:\n  bucket 29: 10%\n  bucket 30: 10%\n  bucket 29: 20%\n  bucket 30: 20%\n  bucket 29: 30%\n  bucket 29: 40%\n  bucket 30: 30%\n  bucket 29: 50%\n  bucket 30: 40%\n  bucket 29: 60%\n  bucket 30: 50%\n  bucket 29: 70%\n  bucket 29: 80%\n  bucket 30: 60%\n  bucket 29: 90%\n  bucket 30: 70%\n  bucket 29: 100%\n  bucket 30: 80%\n  Sorting block of length 289 for bucket 29\n  (Using difference cover)\n  bucket 30: 90%\n  bucket 30: 100%\n  Sorting block of length 345 for bucket 30\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 290 for bucket 29\n  Sorting block time: 00:00:00\nReturning block of 346 for bucket 30\nGetting block 31 of 58\n  Reserving size (388) for bucket 31\n  Calculating Z arrays for bucket 31\n  Entering block accumulator loop for bucket 31:\nGetting block 32 of 58\n  Reserving size (388) for bucket 32\n  Calculating Z arrays for bucket 32\n  Entering block accumulator loop for bucket 32:\n  bucket 31: 10%\n  bucket 32: 10%\n  bucket 32: 20%\n  bucket 31: 20%\n  bucket 32: 30%\n  bucket 32: 40%\n  bucket 31: 30%\n  bucket 32: 50%\n  bucket 31: 40%\n  bucket 32: 60%\n  bucket 31: 50%\n  bucket 32: 70%\n  bucket 32: 80%\n  bucket 31: 60%\n  bucket 32: 90%\n  bucket 32: 100%\n  bu\n..\nucket 23: 100%\n  Sorting block of length 349 for bucket 23\n  (Using difference cover)\n  bucket 24: 70%\n  bucket 24: 80%\n  bucket 24: 90%\n  Sorting block time: 00:00:00\nReturning block of 344 for bucket 21\n  bucket 24: 100%\n  Sorting block of length 245 for bucket 24\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 372 for bucket 22\n  Sorting block time: 00:00:00\nReturning block of 350 for bucket 23\n  Sorting block time: 00:00:00\nReturning block of 246 for bucket 24\nGetting block 25 of 57\n  Reserving size (388) for bucket 25\n  Calculating Z arrays for bucket 25\n  Entering block accumulator loop for bucket 25:\nGetting block 26 of 57\n  bucket 25: 10%\n  Reserving size (388) for bucket 26\n  Calculating Z arrays for bucket 26\n  Entering block accumulator loop for bucket 26:\n  bucket 25: 20%\n  bucket 26: 10%\n  bucket 25: 30%\n  bucket 26: 20%\n  bucket 25: 40%\n  bucket 26: 30%\n  bucket 25: 50%\n  bucket 25: 60%\n  bucket 26: 40%\n  bucket 25: 70%\n  bucket 26: 50%\n  bucket 26: 60%\n  bucket 26: 70%\n  bucket 25: 80%\n  bucket 26: 80%\n  bucket 25: 90%\n  bucket 26: 90%\n  bucket 25: 100%\n  Sorting block of length 286 for bucket 25\n  (Using difference cover)\n  bucket 26: 100%\n  Sorting block of length 384 for bucket 26\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 287 for bucket 25\n  Sorting block time: 00:00:00\nReturning block of 385 for bucket 26\nGetting block 27 of 57\n  Reserving size (388) for bucket 27\n  Calculating Z arrays for bucket 27\n  Entering block accumulator loop for bucket 27:\n  bucket 27: 10%\n  bucket 27: 20%\n  bucket 27: 30%\nGetting block 28 of 57\n  Reserving size (388) for bucket 28\n  Calculating Z arrays for bucket 28\n  bucket 27: 40%\n  Entering block accumulator loop for bucket 28:\n  bucket 27: 50%\n  bucket 28: 10%\n  bucket 27: 60%\n  bucket 28: 20%\n  bucket 27: 70%\n  bucket 28: 30%\n  bucket 27: 80%\n  bucket 28: 40%\n  bucket 27: 90%\n  bucket 28: 50%\n  bucket 27: 100%\n  Sorting block of length 359 for bucket 27\n  (Using difference cover)\n  bucket 28: 60%\n  bucket 28: 70%\n  bucket 28: 80%\n  bucket 28: 90%\n  bucket 28: 100%\n  Sorting block of length 387 for bucket 28\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 360 for bucket 27\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 28\nGetting block 29 of 57\n  Reserving size (388) for bucket 29\n  Calculating Z arrays for bucket 29\n  Entering block accumulator loop for bucket 29:\n  bucket 29: 10%\nGetting block 30 of 57\n  bucket 29: 20%\n  Reserving size (388) for bucket 30\n  Calculating Z arrays for bucket 30\n  Entering block accumulator loop for bucket 30:\n  bucket 29: 30%\nGetting block 31 of 57\n  bucket 29: 40%\n  bucket 30: 10%\n  Reserving size (388) for bucket 31\n  Calculating Z arrays for bucket 31\n  Entering block accumulator loop for bucket 31:\n  bucket 29: 50%\n  bucket 30: 20%\n  bucket 29: 60%\n  bucket 31: 10%\n  bucket 30: 30%\n  bucket 29: 70%\n  bucket 31: 20%\n  bucket 29: 80%\n  bucket 30: 40%\n  bucket 31: 30%\n  bucket 29: 90%\n  bucket 30: 50%\n  bucket 31: 40%\n  bucket 29: 100%\n  Sorting block of length 195 for bucket 29\n  (Using difference cover)\n  bucket 30: 60%\n  bucket 31: 50%\n  bucket 30: 70%\n  bucket 30: 80%\n  bucket 31: 60%\n  bucket 30: 90%\n  bucket 31: 70%\n  bucket 30: 100%\n  Sorting block of length 257 for bucket 30\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 196 for bucket 29\n  bucket 31: 80%\n  bucket 31: 90%\n  bucket 31: 100%\n  Sorting block of length 310 for bucket 31\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 258 for bucket 30\n  Sorting block time: 00:00:00\nReturning block of 311 for bucket 31\nGetting block 32 of 57\n  Reserving size (388) for bucket 32\n  Calculating Z arrays for bucket 32\n  Entering block accumulator loop for bucket 32:\n  bucket 32: 10%\n  bucket 32: 20%\n  bucket 32: 30%\nGetting block 33 of 57\n  bucket 32: 40%\n  Reserving size (388) for bucket 33\n  Calculating Z arrays for bucket 33\n  Entering block accumulator loop for bucket 33:\n  bucket 32: 50%\n  bucket 33: 10%\n  bucket 32: 60%\n  bucket 33: 20%\n  bucket 32: 70%\n  bucket 33: 30%\n  bucket 32: 80%\n  bucket 33: 40%\n  bucket 32: 90%\n  bucket 33: 50%\n  bucket 32: 100%\n  Sorting block of length 219 for bucket 32\n  (Using difference cover)\n  bucket 33: 60%\n  bucket 33: 70%\n  bucket 33: 80%\n  Sorting block time: 00:00:00\nReturning block of 220 for bucket 32\n  bucket 33: 90%\n  bucket 33: 100%\n  Sorting block of length 387 for bucket 33\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 33\nGetting block 34 of 57\n  Reserving size (388) for bucket 34\n  Calculating Z arrays for bucket 34\n  Entering block accumulator loop for bucket 34:\n  bucket 34: 10%\n  bucket 34: 20%\n  bucket 34: 30%\nGetting block 35 of 57\n  Reserving size (388) for bucket 35\n  Calculating Z arrays for bucket 35\n  bucket 34: 40%\n  Entering block accumulator loop for bucket 35:\n  bucket 34: 50%\n  bucket 34: 60%\n  bucket 35: 10%\n  bucket 34: 70%\n  bucket 35: 20%\n  bucket 34: 80%\n  bucket 35: 30%\n  bucket 34: 90%\n  bucket 35: 40%\n  bucket 34: 100%\n  Sorting block of length 275 for bucket 34\n  (Using difference cover)\n  bucket 35: 50%\n  bucket 35: 60%\n  bucket 35: 70%\n  bucket 35: 80%\n  Sorting block time: 00:00:00\nReturning block of 276 for bucket 34\n  bucket 35: 90%\n  bucket 35: 100%\n  Sorting block of length 350 for bucket 35\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 351 for bucket 35\nGetting block 36 of 57\n  Reserving size (388) for bucket 36\n  Calculating Z arrays for bucket 36\n  Entering block accumulator loop for bucket 36:\n  bucket 36: 10%\n  bucket 36: 20%\n  bucket 36: 30%\n  bucket 36: 40%\n  bucket 36: 50%\n  bucket 36: 60%\n  bucket 36: 70%\n  bucket 36: 80%\n  bucket 36: 90%\n  bucket 36: 100%\n  Sorting block of length 150 for bucket 36\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 151 for bucket 36\nGetting block 37 of 57\n  Reserving size (388) for bucket 37\nGetting block 38 of 57\nGetting block 39 of 57\n  Calculating Z arrays for bucket 37\n  Reserving size (388) for bucket 38\n  Reserving size (388) for bucket 39\n  Calculating Z arrays for bucket 38\n  Calculating Z arrays for bucket 39\n  Entering block accumulator loop for bucket 37:\n  Entering block accumulator loop for bucket 38:\n  Entering block accumulator loop for bucket 39:\n  bucket 39: 10%\n  bucket 38: 10%\n  bucket 37: 10%\n  bucket 39: 20%\n  bucket 38: 20%\n  bucket 39: 30%\n  bucket 37: 20%\n  bucket 38: 30%\n  bucket 39: 40%\n  bucket 37: 30%\n  bucket 39: 50%\n  bucket 38: 40%\n  bucket 39: 60%\n  bucket 38: 50%\n  bucket 37: 40%\n  bucket 39: 70%\n  bucket 38: 60%\n  bucket 37: 50%\n  bucket 39: 80%\n  bucket 38: 70%\n  bucket 37: 60%\n  bucket 39: 90%\n  bucket 38: 80%\n  bucket 37: 70%\n  bucket 39: 100%\n  bucket 37: 80%\n  Sorting block of length 387 for bucket 39\n  (Using difference cover)\n  bucket 38: 90%\n  bucket 37: 90%\n  bucket 38: 100%\n  Sorting block of length 337 for bucket 38\n  (Using difference cover)\n  bucket 37: 100%\n  Sorting block of length 267 for bucket 37\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 338 for bucket 38\n  Sorting block time: 00:00:00\nReturning block of 268 for bucket 37\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 39\nGetting block 40 of 57\n  Reserving size (388) for bucket 40\n  Calculating Z arrays for bucket 40\n  Entering block accumulator loop for bucket 40:\n  bucket 40: 10%\n  bucket 40: 20%\n  bucket 40: 30%\n  bucket 40: 40%\n  bucket 40: 50%\n  bucket 40: 60%\n  bucket 40: 70%\n  bucket 40: 80%\n  bucket 40: 90%\n  bucket 40: 100%\n  Sorting block of length 379 for bucket 40\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 380 for bucket 40\nGetting block 41 of 57\n  Reserving size (388) for bucket 41\n  Calculating Z arrays for bucket 41\n  Entering block accumulator loop for bucket 41:\n  bucket 41: 10%\nGetting block 42 of 57\n  Reserving size (388) for bucket 42\n  Calculating Z arrays for bucket 42\nGetting block 43 of 57\n  bucket 41: 20%\n  Entering block accumulator loop for bucket 42:\n  Reserving size (388) for bucket 43\n  Calculating Z arrays for bucket 43\n  Entering block accumulator loop for bucket 43:\n  bucket 42: 10%\n  bucket 41: 30%\n  bucket 42: 20%\n  bucket 42: 30%\n  bucket 41: 40%\n  bucket 43: 10%\n  bucket 42: 40%\n  bucket 41: 50%\n  bucket 43: 20%\n  bucket 42: 50%\n  bucket 41: 60%\n  bucket 42: 60%\n  bucket 43: 30%\n  bucket 41: 70%\n  bucket 42: 70%\n  bucket 43: 40%\n  bucket 42: 80%\n  bucket 41: 80%\n  bucket 42: 90%\n  bucket 43: 50%\n  bucket 41: 90%\n  bucket 42: 100%\n  Sorting block of length 188 for bucket 42\n  (Using difference cover)\n  bucket 43: 60%\n  bucket 41: 100%\n  Sorting block of length 330 for bucket 41\n  (Using difference cover)\n  bucket 43: 70%\n  bucket 43: 80%\n  Sorting block time: 00:00:00\nReturning block of 189 for bucket 42\n  bucket 43: 90%\n  bucket 43: 100%\n  Sorting block of length 321 for bucket 43\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 331 for bucket 41\n  Sorting block time: 00:00:00\nReturning block of 322 for bucket 43\nGetting block 44 of 57\n  Reserving size (388) for bucket 44\n  Calculating Z arrays for bucket 44\n  Entering block accumulator loop for bucket 44:\nGetting block 45 of 57\n  Reserving size (388) for bucket 45\n  Calculating Z arrays for bucket 45\n  bucket 44: 10%\n  Entering block accumulator loop for bucket 45:\nGetting block 46 of 57\n  bucket 44: 20%\n  Reserving size (388) for bucket 46\n  bucket 45: 10%\n  Calculating Z arrays for bucket 46\n  Entering block accumulator loop for bucket 46:\n  bucket 44: 30%\n  bucket 45: 20%\n  bucket 44: 40%\n  bucket 45: 30%\n  bucket 46: 10%\n  bucket 44: 50%\n  bucket 45: 40%\n  bucket 46: 20%\n  bucket 44: 60%\n  bucket 45: 50%\n  bucket 46: 30%\n  bucket 44: 70%\n  bucket 46: 40%\n  bucket 45: 60%\n  bucket 44: 80%\n  bucket 46: 50%\n  bucket 45: 70%\n  bucket 44: 90%\n  bucket 46: 60%\n  bucket 45: 80%\n  bucket 44: 100%\n  bucket 45: 90%\n  bucket 46: 70%\n  Sorting block of length 366 for bucket 44\n  (Using difference cover)\n  bucket 45: 100%\n  Sorting block of length 365 for bucket 45\n  (Using difference cover)\n  bucket 46: 80%\n  bucket 46: 90%\n  bucket 46: 100%\n  Sorting block of length 253 for bucket 46\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 366 for bucket 45\n  Sorting block time: 00:00:00\nReturning block of 367 for bucket 44\n  Sorting block time: 00:00:00\nReturning block of 254 for bucket 46\nGetting block 47 of 57\n  Reserving size (388) for bucket 47\n  Calculating Z arrays for bucket 47\n  Entering block accumulator loop for bucket 47:\n  bucket 47: 10%\n  bucket 47: 20%\n  bucket 47: 30%\n  bucket 47: 40%\n  bucket 47: 50%\n  bucket 47: 60%\n  bucket 47: 70%\n  bucket 47: 80%\n  bucket 47: 90%\n  bucket 47: 100%\n  Sorting block of length 217 for bucket 47\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 218 for bucket 47\nGetting block 48 of 57\n  Reserving size (388) for bucket 48\nGetting block 49 of 57\n  Calculating Z arrays for bucket 48\n  Reserving size (388) for bucket 49\n  Calculating Z arrays for bucket 49\n  Entering block accumulator loop for bucket 48:\n  Entering block accumulator loop for bucket 49:\n  bucket 48: 10%\n  bucket 49: 10%\n  bucket 48: 20%\n  bucket 49: 20%\n  bucket 48: 30%\n  bucket 48: 40%\n  bucket 49: 30%\n  bucket 48: 50%\n  bucket 49: 40%\n  bucket 48: 60%\n  bucket 49: 50%\n  bucket 48: 70%\n  bucket 49: 60%\n  bucket 48: 80%\n  bucket 49: 70%\n  bucket 48: 90%\n  bucket 49: 80%\n  bucket 48: 100%\n  Sorting block of length 384 for bucket 48\n  (Using difference cover)\n  bucket 49: 90%\n  bucket 49: 100%\n  Sorting block of length 112 for bucket 49\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 385 for bucket 48\n  Sorting block time: 00:00:00\nReturning block of 113 for bucket 49\nGetting block 50 of 57\n  Reserving size (388) for bucket 50\n  Calculating Z arrays for bucket 50\nGetting block 51 of 57\n  Entering block accumulator loop for bucket 50:\n  Reserving size (388) for bucket 51\n  Calculating Z arrays for bucket 51\n  Entering block accumulator loop for bucket 51:\n  bucket 50: 10%\n  bucket 51: 10%\n  bucket 51: 20%\n  bucket 50: 20%\n  bucket 51: 30%\n  bucket 50: 30%\n  bucket 51: 40%\n  bucket 50: 40%\n  bucket 51: 50%\n  bucket 50: 50%\n  bucket 50: 60%\n  bucket 51: 60%\n  bucket 50: 70%\n  bucket 51: 70%\n  bucket 50: 80%\n  bucket 51: 80%\n  bucket 50: 90%\n  bucket 51: 90%\n  bucket 50: 100%\n  bucket 51: 100%\n  Sorting block of length 275 for bucket 50\n  (Using difference cover)\n  Sorting block of length 350 for bucket 51\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 276 for bucket 50\n  Sorting block time: 00:00:00\nReturning block of 351 for bucket 51\nGetting block 52 of 57\n  Reserving size (388) for bucket 52\nGetting block 53 of 57\n  Calculating Z arrays for bucket 52\n  Reserving size (388) for bucket 53\n  Calculating Z arrays for bucket 53\n  Entering block accumulator loop for bucket 52:\n  Entering block accumulator loop for bucket 53:\n  bucket 53: 10%\n  bucket 52: 10%\n  bucket 53: 20%\n  bucket 52: 20%\n  bucket 53: 30%\n  bucket 53: 40%\n  bucket 52: 30%\n  bucket 53: 50%\n  bucket 52: 40%\n  bucket 53: 60%\n  bucket 53: 70%\n  bucket 52: 50%\n  bucket 53: 80%\n  bucket 53: 90%\n  bucket 52: 60%\n  bucket 53: 100%\n  Sorting block of length 370 for bucket 53\n  (Using difference cover)\n  bucket 52: 70%\n  bucket 52: 80%\n  bucket 52: 90%\n  bucket 52: 100%\n  Sorting block of length 378 for bucket 52\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 371 for bucket 53\n  Sorting block time: 00:00:00\nReturning block of 379 for bucket 52\nGetting block 54 of 57\n  Reserving size (388) for bucket 54\n  Calculating Z arrays for bucket 54\n  Entering block accumulator loop for bucket 54:\n  bucket 54: 10%\n  bucket 54: 20%\n  bucket 54: 30%\n  bucket 54: 40%\n  bucket 54: 50%\n  bucket 54: 60%\n  bucket 54: 70%\n  bucket 54: 80%\n  bucket 54: 90%\n  bucket 54: 100%\n  Sorting block of length 237 for bucket 54\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 238 for bucket 54\nGetting block 55 of 57\n  Reserving size (388) for bucket 55\nGetting block 56 of 57\n  Calculating Z arrays for bucket 55\n  Reserving size (388) for bucket 56\n  Calculating Z arrays for bucket 56\n  Entering block accumulator loop for bucket 55:\n  Entering block accumulator loop for bucket 56:\n  bucket 55: 10%\n  bucket 56: 10%\n  bucket 55: 20%\n  bucket 56: 20%\n  bucket 55: 30%\n  bucket 56: 30%\n  bucket 55: 40%\n  bucket 55: 50%\n  bucket 56: 40%\n  bucket 55: 60%\n  bucket 56: 50%\n  bucket 56: 60%\n  bucket 55: 70%\n  bucket 55: 80%\n  bucket 55: 90%\n  bucket 56: 70%\n  bucket 55: 100%\n  bucket 56: 80%\n  Sorting block of length 344 for bucket 55\n  (Using difference cover)\n  bucket 56: 90%\n  bucket 56: 100%\n  Sorting block of length 270 for bucket 56\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 345 for bucket 55\n  Sorting block time: 00:00:00\nReturning block of 271 for bucket 56\nGetting block 57 of 57\n  Reserving size (388) for bucket 57\n  Calculating Z arrays for bucket 57\n  Entering block accumulator loop for bucket 57:\n  bucket 57: 10%\n  bucket 57: 20%\n  bucket 57: 30%\n  bucket 57: 40%\n  bucket 57: 50%\n  bucket 57: 60%\n  bucket 57: 70%\n  bucket 57: 80%\n  bucket 57: 90%\n  bucket 57: 100%\n  Sorting block of length 132 for bucket 57\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 133 for bucket 57\nExited Ebwt loop\nfchr[A]: 0\nfchr[C]: 5124\nfchr[G]: 10305\nfchr[T]: 12474\nfchr[$]: 16568\nExiting Ebwt::buildToDisk()\nReturning from initFromVector\nWrote 4200050 bytes to primary EBWT file: genome.rev.1.bt2.tmp\nWrote 4148 bytes to secondary EBWT file: genome.rev.2.bt2.tmp\nRe-opening _in1 and _in2 as input streams\nReturning from Ebwt constructor\nHeaders:\n    len: 16568\n    bwtLen: 16569\n    sz: 4142\n    bwtSz: 4143\n    lineRate: 6\n    offRate: 4\n    offMask: 0xfffffff0\n    ftabChars: 10\n    eftabLen: 20\n    eftabSz: 80\n    ftabLen: 1048577\n    ftabSz: 4194308\n    offsLen: 1036\n    offsSz: 4144\n    lineSz: 64\n    sideSz: 64\n    sideBwtSz: 48\n    sideBwtLen: 192\n    numSides: 87\n    numLines: 87\n    ebwtTotLen: 5568\n    ebwtTotSz: 5568\n    color: 0\n    reverse: 1\nTotal time for backward call to driver() for mirror index: 00:00:00\n", "tool_stderr": "Building a SMALL index\nRenaming genome.3.bt2.tmp to genome.3.bt2\nRenaming genome.4.bt2.tmp to genome.4.bt2\nRenaming genome.1.bt2.tmp to genome.1.bt2\nRenaming genome.2.bt2.tmp to genome.2.bt2\nRenaming genome.rev.1.bt2.tmp to genome.rev.1.bt2\nRenaming genome.rev.2.bt2.tmp to genome.rev.2.bt2\n100 reads; of these:\n  100 (100.00%) were paired; of these:\n    97 (97.00%) aligned concordantly 0 times\n    3 (3.00%) aligned concordantly exactly 1 time\n    0 (0.00%) aligned concordantly >1 times\n    ----\n    97 pairs aligned concordantly 0 times; of these:\n      7 (7.22%) aligned discordantly 1 time\n    ----\n    90 pairs aligned 0 times concordantly or discordantly; of these:\n      180 mates make up the pairs; of these:\n        156 (86.67%) aligned 0 times\n        24 (13.33%) aligned exactly 1 time\n        0 (0.00%) aligned >1 times\n22.00% overall alignment rate\n", "job_stdout": "", "job_stderr": "", "stderr": "Building a SMALL index\nRenaming genome.3.bt2.tmp to genome.3.bt2\nRenaming genome.4.bt2.tmp to genome.4.bt2\nRenaming genome.1.bt2.tmp to genome.1.bt2\nRenaming genome.2.bt2.tmp to genome.2.bt2\nRenaming genome.rev.1.bt2.tmp to genome.rev.1.bt2\nRenaming genome.rev.2.bt2.tmp to genome.rev.2.bt2\n100 reads; of these:\n  100 (100.00%) were paired; of these:\n    97 (97.00%) aligned concordantly 0 times\n    3 (3.00%) aligned concordantly exactly 1 time\n    0 (0.00%) aligned concordantly >1 times\n    ----\n    97 pairs aligned concordantly 0 times; of these:\n      7 (7.22%) aligned discordantly 1 time\n    ----\n    90 pairs aligned 0 times concordantly or discordantly; of these:\n      180 mates make up the pairs; of these:\n        156 (86.67%) aligned 0 times\n        24 (13.33%) aligned exactly 1 time\n        0 (0.00%) aligned >1 times\n22.00% overall alignment rate\n", "stdout": "Settings:\n  Output files: \"genome.*.bt2\"\n  Line rate: 6 (line is 64 bytes)\n  Lines per side: 1 (side is 64 bytes)\n  Offset rate: 4 (one in 16)\n  FTable chars: 10\n  Strings: unpacked\n  Max bucket size: default\n  Max bucket size, sqrt multiplier: default\n  Max bucket size, len divisor: 32\n  Difference-cover sample period: 1024\n  Endianness: little\n  Actual local endianness: little\n  Sanity checking: disabled\n  Assertions: disabled\n  Random seed: 0\n  Sizeofs: void*:8, int:4, long:8, size_t:8\nInput files DNA, FASTA:\n  /galaxy/server/database/objects/8/1/c/dataset_81c9fef2-0331-42e0-b7e6-0a880024f65f.dat\nReading reference sizes\n  Time reading reference sizes: 00:00:00\nCalculating joined length\nWriting header\nReserving space for joined string\nJoining reference sequences\n  Time to join reference sequences: 00:00:00\nbmax according to bmaxDivN setting: 517\nUsing parameters --bmax 388 --dcv 1024\n  Doing ahead-of-time memory usage test\n  Passed!  Constructing with these parameters: --bmax 388 --dcv 1024\nConstructing suffix-array element generator\nBuilding DifferenceCoverSample\n  Building sPrime\n  Building sPrimeOrder\n  V-Sorting samples\n  V-Sorting samples time: 00:00:00\n  Allocating rank array\n  Ranking v-sort output\n  Ranking v-sort output time: 00:00:00\n  Invoking Larsson-Sadakane on ranks\n  Invoking Larsson-Sadakane on ranks time: 00:00:00\n  Sanity-checking and returning\nBuilding samples\nReserving space for 86 sample suffixes\nGenerating random suffixes\nQSorting 86 sample offsets, eliminating duplicates\nQSorting sample offsets, eliminating duplicates time: 00:00:00\nMultikey QSorting 86 samples\n  (Using difference cover)\n  Multikey QSorting samples time: 00:00:00\nCalculating bucket sizes\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 12, merged 41; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 6, merged 6; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 5, merged 3; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nSplit 3, merged 3; iterating...\nSplitting and merging\n  Splitting and merging time: 00:00:00\nAvg bucket size: 284.672 (target: 387)\nConverting suffix-array elements to index image\nAllocating ftab, absorbFtab\nEntering Ebwt loop\nGetting block 1 of 58\n  Reserving size (388) for bucket 1\nGetting block 2 of 58\nGetting block 3 of 58\nGetting block 4 of 58\nGetting block 5 of 58\nGetting block 6 of 58\n  Calculating Z arrays for bucket 1\n  Reserving size (388) for bucket 2\n  Reserving size (388) for bucket 3\nGetting block 7 of 58\n  Reserving size (388) for bucket 4\n  Reserving size (388) for bucket 5\n  Reserving size (388) for bucket 6\n  Calculating Z arrays for bucket 2\n  Calculating Z arrays for bucket 3\n  Entering block accumulator loop for bucket 1:\n  Reserving size (388) for bucket 7\n  Calculating Z arrays for bucket 4\n  Calculating Z arrays for bucket 5\n  Calculating Z arrays for bucket 6\n  Entering block accumulator loop for bucket 2:\n  Calculating Z arrays for bucket 7\n  Entering block accumulator loop for bucket 3:\n  Entering block accumulator loop for bucket 5:\n  Entering block accumulator loop for bucket 6:\n  Entering block accumulator loop for bucket 4:\n  bucket 1: 10%\n  Entering block accumulator loop for bucket 7:\n  bucket 2: 10%\n  bucket 3: 10%\n  bucket 5: 10%\n  bucket 1: 20%\n  bucket 2: 20%\n  bucket 4: 10%\n  bucket 7: 10%\n  bucket 6: 10%\n  bucket 1: 30%\n  bucket 2: 30%\n  bucket 3: 20%\n  bucket 5: 20%\n  bucket 4: 20%\n  bucket 7: 20%\n  bucket 1: 40%\n  bucket 6: 20%\n  bucket 2: 40%\n  bucket 3: 30%\n  bucket 4: 30%\n  bucket 1: 50%\n  bucket 5: 30%\n  bucket 7: 30%\n  bucket 2: 50%\n  bucket 6: 30%\n  bucket 1: 60%\n  bucket 3: 40%\n  bucket 4: 40%\n  bucket 5: 40%\n  bucket 2: 60%\n  bucket 6: 40%\n  bucket 7: 40%\n  bucket 1: 70%\n  bucket 4: 50%\n  bucket 3: 50%\n  bucket 2: 70%\n  bucket 5: 50%\n  bucket 1: 80%\n  bucket 6: 50%\n  bucket 7: 50%\n  bucket 4: 60%\n  bucket 2: 80%\n  bucket 3: 60%\n  bucket 1: 90%\n  bucket 5: 60%\n  bucket 6: 60%\n  bucket 7: 60%\n  bucket 4: 70%\n  bucket 2: 90%\n  bucket 1: 100%\n  bucket 3: 70%\n  Sorting block of length 355 for bucket 1\n  (Using difference cover)\n  bucket 5: 70%\n  bucket 6: 70%\n  bucket 4: 80%\n  bucket 7: 70%\n  bucket 2: 100%\n  bucket 3: 80%\n  Sorting block of length 165 for bucket 2\n  (Using difference cover)\n  bucket 5: 80%\n  bucket 4: 90%\n  bucket 6: 80%\n  bucket 7: 80%\n  bucket 3: 90%\n  bucket 4: 100%\n  bucket 5: 90%\n  Sorting block of length 328 for bucket 4\n  bucket 6: 90%\n  (Using difference cover)\n  bucket 7: 90%\n  bucket 3: 100%\n  bucket 5: 100%\n  bucket 6: 100%\n  Sorting block of length 370 for bucket 3\n  Sorting block of length 203 for bucket 5\n  (Using difference cover)\n  (Using difference cover)\n  Sorting block of length 339 for bucket 6\n  (Using difference cover)\n  bucket 7: 100%\n  Sorting block of length 368 for bucket 7\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 329 for bucket 4\n  Sorting block time: 00:00:00\nReturning block of 356 for bucket 1\n  Sorting block time: 00:00:00\nReturning block of 369 for bucket 7\n  Sorting block time: 00:00:00\nReturning block of 166 for bucket 2\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 6\n  Sorting block time: 00:00:00\nReturning block of 371 for bucket 3\n  Sorting block time: 00:00:00\nReturning block of 204 for bucket 5\nGetting block 8 of 58\n  Reserving size (388) for bucket 8\nGetting block 9 of 58\n  Calculating Z arrays for bucket 8\n  Reserving size (388) for bucket 9\n  Calculating Z arrays for bucket 9\n  Entering block accumulator loop for bucket 8:\n  Entering block accumulator loop for bucket 9:\n  bucket 8: 10%\n  bucket 9: 10%\n  bucket 8: 20%\nGetting block 10 of 58\n  bucket 9: 20%\n  bucket 8: 30%\n  Reserving size (388) for bucket 10\n  Calculating Z arrays for bucket 10\n  Entering block accumulator loop for bucket 10:\n  bucket 9: 30%\n  bucket 8: 40%\n  bucket 10: 10%\n  bucket 9: 40%\n  bucket 10: 20%\n  bucket 8: 50%\n  bucket 9: 50%\n  bucket 10: 30%\n  bucket 8: 60%\n  bucket 9: 60%\n  bucket 10: 40%\n  bucket 10: 50%\n  bucket 8: 70%\n  bucket 9: 70%\n  bucket 10: 60%\n  bucket 8: 80%\n  bucket 9: 80%\n  bucket 10: 70%\n  bucket 8: 90%\n  bucket 10: 80%\n  bucket 9: 90%\n  bucket 10: 90%\n  bucket 8: 100%\n  bucket 9: 100%\n  bucket 10: 100%\n  Sorting block of length 171 for bucket 8\n  (Using difference cover)\n  Sorting block of length 339 for bucket 9\n  (Using difference cover)\n  Sorting block of length 357 for bucket 10\n  (Using difference cover)\n  Sorting block time: 00:00:01\nReturning block of 172 for bucket 8\n  Sorting block time: 00:00:01\nReturning block of 358 for bucket 10\n  Sorting block time: 00:00:01\nReturning block of 340 for bucket 9\nGetting block 11 of 58\n  Reserving size (388) for bucket 11\n  Calculating Z arrays for bucket 11\n  Entering block accumulator loop for bucket 11:\n  bucket 11: 10%\n  bucket 11: 20%\n  bucket 11: 30%\n  bucket 11: 40%\nGetting block 12 of 58\nGetting block 13 of 58\n  Reserving size (388) for bucket 12\n  bucket 11: 50%\n  Reserving size (388) for bucket 13\n  Calculating Z arrays for bucket 12\n  Calculating Z arrays for bucket 13\n  Entering block accumulator loop for bucket 13:\n  Entering block accumulator loop for bucket 12:\n  bucket 11: 60%\n  bucket 13: 10%\n  bucket 12: 10%\n  bucket 11: 70%\n  bucket 13: 20%\n  bucket 12: 20%\n  bucket 11: 80%\n  bucket 13: 30%\n  bucket 13: 40%\n  bucket 12: 30%\n  bucket 11: 90%\n  bucket 13: 50%\n  bucket 12: 40%\n  bucket 13: 60%\n  bucket 11: 100%\n  Sorting block of length 305 for bucket 11\n  (Using difference cover)\n  bucket 12: 50%\n  bucket 13: 70%\n  bucket 13: 80%\n  bucket 12: 60%\n  bucket 13: 90%\n  bucket 12: 70%\n  bucket 13: 100%\n  bucket 12: 80%\n  Sorting block of length 282 for bucket 13\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 306 for bucket 11\n  bucket 12: 90%\n  bucket 12: 100%\n  Sorting block of length 185 for bucket 12\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 283 for bucket 13\n  Sorting block time: 00:00:00\nReturning block of 186 for bucket 12\nGetting block 14 of 58\n  Reserving size (388) for bucket 14\n  Calculating Z arrays for bucket 14\n  Entering block accumulator loop for bucket 14:\n  bucket 14: 10%\n  bucket 14: 20%\n  bucket 14: 30%\n  bucket 14: 40%\n  bucket 14: 50%\n  bucket 14: 60%\n  bucket 14: 70%\n  bucket 14: 80%\n  bucket 14: 90%\n  bucket 14: 100%\n  Sorting block of length 339 for bucket 14\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 340 for bucket 14\nGetting block 15 of 58\n  Reserving size (388) for bucket 15\n  Calculating Z arrays for bucket 15\n  Entering block accumulator loop for bucket 15:\n  bucket 15: 10%\n  bucket 15: 20%\n  bucket 15: 30%\n  bucket 15: 40%\nGetting block 16 of 58\n  Reserving size (388) for bucket 16\n  Calculating Z arrays for bucket 16\n  bucket 15: 50%\n  Entering block accumulator loop for bucket 16:\n  bucket 16: 10%\n  bucket 15: 60%\nGetting block 17 of 58\n  Reserving size (388) for bucket 17\n  bucket 16: 20%\n  Calculating Z arrays for bucket 17\n  bucket 15: 70%\n  Entering block accumulator loop for bucket 17:\n  bucket 15: 80%\n  bucket 16: 30%\n  bucket 15: 90%\n  bucket 16: 40%\n  bucket 17: 10%\n  bucket 15: 100%\n  Sorting block of length 241 for bucket 15\n  (Using difference cover)\n  bucket 16: 50%\n  bucket 17: 20%\n  bucket 16: 60%\n  bucket 17: 30%\n  bucket 16: 70%\n  bucket 17: 40%\n  bucket 16: 80%\n  bucket 17: 50%\n  Sorting block time: 00:00:00\nReturning block of 242 for bucket 15\n  bucket 16: 90%\n  bucket 17: 60%\n  bucket 16: 100%\n  Sorting block of length 379 for bucket 16\n  (Using difference cover)\n  bucket 17: 70%\n  bucket 17: 80%\n  bucket 17: 90%\n  bucket 17: 100%\n  Sorting block of length 215 for bucket 17\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 380 for bucket 16\n  Sorting block time: 00:00:00\nReturning block of 216 for bucket 17\nGetting block 18 of 58\n  Reserving size (388) for bucket 18\n  Calculating Z arrays for bucket 18\n  Entering block accumulator loop for bucket 18:\n  bucket 18: 10%\n  bucket 18: 20%\n  bucket 18: 30%\n  bucket 18: 40%\n  bucket 18: 50%\n  bucket 18: 60%\n  bucket 18: 70%\n  bucket 18: 80%\n  bucket 18: 90%\n  bucket 18: 100%\n  Sorting block of length 378 for bucket 18\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 379 for bucket 18\nGetting block 19 of 58\n  Reserving size (388) for bucket 19\nGetting block 20 of 58\n  Calculating Z arrays for bucket 19\n  Reserving size (388) for bucket 20\n  Calculating Z arrays for bucket 20\nGetting block 21 of 58\n  Reserving size (388) for bucket 21\n  Calculating Z arrays for bucket 21\n  Entering block accumulator loop for bucket 19:\n  Entering block accumulator loop for bucket 20:\n  Entering block accumulator loop for bucket 21:\n  bucket 21: 10%\n  bucket 20: 10%\n  bucket 19: 10%\n  bucket 21: 20%\n  bucket 20: 20%\n  bucket 19: 20%\n  bucket 21: 30%\n  bucket 20: 30%\n  bucket 19: 30%\n  bucket 21: 40%\n  bucket 21: 50%\n  bucket 20: 40%\n  bucket 19: 40%\n  bucket 21: 60%\n  bucket 20: 50%\n  bucket 19: 50%\n  bucket 21: 70%\n  bucket 20: 60%\n  bucket 19: 60%\n  bucket 21: 80%\n  bucket 20: 70%\n  bucket 21: 90%\n  bucket 19: 70%\n  bucket 21: 100%\n  bucket 20: 80%\n  bucket 19: 80%\n  Sorting block of length 210 for bucket 21\n  (Using difference cover)\n  bucket 20: 90%\n  bucket 19: 90%\n  bucket 19: 100%\n  bucket 20: 100%\n  Sorting block of length 334 for bucket 19\n  (Using difference cover)\n  Sorting block of length 313 for bucket 20\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 314 for bucket 20\n  Sorting block time: 00:00:00\nReturning block of 335 for bucket 19\n  Sorting block time: 00:00:00\nReturning block of 211 for bucket 21\nGetting block 22 of 58\nGetting block 23 of 58\n  Reserving size (388) for bucket 22\n  Reserving size (388) for bucket 23\n  Calculating Z arrays for bucket 22\n  Calculating Z arrays for bucket 23\n  Entering block accumulator loop for bucket 23:\nGetting block 24 of 58\n  Entering block accumulator loop for bucket 22:\n  Reserving size (388) for bucket 24\n  bucket 23: 10%\n  Calculating Z arrays for bucket 24\n  Entering block accumulator loop for bucket 24:\n  bucket 23: 20%\n  bucket 24: 10%\n  bucket 22: 10%\n  bucket 23: 30%\n  bucket 24: 20%\n  bucket 22: 20%\n  bucket 24: 30%\n  bucket 23: 40%\n  bucket 22: 30%\n  bucket 24: 40%\n  bucket 23: 50%\n  bucket 22: 40%\n  bucket 24: 50%\n  bucket 24: 60%\n  bucket 23: 60%\n  bucket 22: 50%\n  bucket 24: 70%\n  bucket 23: 70%\n  bucket 22: 60%\n  bucket 24: 80%\n  bucket 23: 80%\n  bucket 22: 70%\n  bucket 24: 90%\n  bucket 24: 100%\n  Sorting block of length 351 for bucket 24\n  (Using difference cover)\n  bucket 23: 90%\n  bucket 22: 80%\n  bucket 23: 100%\n  bucket 22: 90%\n  Sorting block of length 238 for bucket 23\n  (Using difference cover)\n  bucket 22: 100%\n  Sorting block of length 386 for bucket 22\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 352 for bucket 24\n  Sorting block time: 00:00:00\nReturning block of 239 for bucket 23\n  Sorting block time: 00:00:00\nReturning block of 387 for bucket 22\nGetting block 25 of 58\n  Reserving size (388) for bucket 25\n  Calculating Z arrays for bucket 25\n  Entering block accumulator loop for bucket 25:\n  bucket 25: 10%\n  bucket 25: 20%\n  bucket 25: 30%\nGetting block 26 of 58\n  bucket 25: 40%\n  Reserving size (388) for bucket 26\n  Calculating Z arrays for bucket 26\n  Entering block accumulator loop for bucket 26:\n  bucket 25: 50%\n  bucket 26: 10%\n  bucket 25: 60%\n  bucket 26: 20%\n  bucket 25: 70%\n  bucket 26: 30%\n  bucket 25: 80%\n  bucket 26: 40%\n  bucket 25: 90%\n  bucket 26: 50%\n  bucket 25: 100%\n  Sorting block of length 105 for bucket 25\n  (Using difference cover)\n  bucket 26: 60%\n  bucket 26: 70%\n  bucket 26: 80%\n  Sorting block time: 00:00:00\nReturning block of 106 for bucket 25\n  bucket 26: 90%\n  bucket 26: 100%\n  Sorting block of length 354 for bucket 26\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 355 for bucket 26\nGetting block 27 of 58\n  Reserving size (388) for bucket 27\n  Calculating Z arrays for bucket 27\n  Entering block accumulator loop for bucket 27:\n  bucket 27: 10%\nGetting block 28 of 58\n  bucket 27: 20%\n  Reserving size (388) for bucket 28\n  Calculating Z arrays for bucket 28\n  bucket 27: 30%\n  Entering block accumulator loop for bucket 28:\n  bucket 27: 40%\n  bucket 28: 10%\n  bucket 27: 50%\n  bucket 28: 20%\n  bucket 27: 60%\n  bucket 28: 30%\n  bucket 27: 70%\n  bucket 27: 80%\n  bucket 28: 40%\n  bucket 27: 90%\n  bucket 28: 50%\n  bucket 27: 100%\n  Sorting block of length 334 for bucket 27\n  (Using difference cover)\n  bucket 28: 60%\n  bucket 28: 70%\n  bucket 28: 80%\n  Sorting block time: 00:00:00\nReturning block of 335 for bucket 27\n  bucket 28: 90%\n  bucket 28: 100%\n  Sorting block of length 253 for bucket 28\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 254 for bucket 28\nGetting block 29 of 58\n  Reserving size (388) for bucket 29\nGetting block 30 of 58\n  Calculating Z arrays for bucket 29\n  Reserving size (388) for bucket 30\n  Calculating Z arrays for bucket 30\n  Entering block accumulator loop for bucket 29:\n  Entering block accumulator loop for bucket 30:\n  bucket 29: 10%\n  bucket 30: 10%\n  bucket 29: 20%\n  bucket 30: 20%\n  bucket 29: 30%\n  bucket 29: 40%\n  bucket 30: 30%\n  bucket 29: 50%\n  bucket 30: 40%\n  bucket 29: 60%\n  bucket 30: 50%\n  bucket 29: 70%\n  bucket 29: 80%\n  bucket 30: 60%\n  bucket 29: 90%\n  bucket 30: 70%\n  bucket 29: 100%\n  bucket 30: 80%\n  Sorting block of length 289 for bucket 29\n  (Using difference cover)\n  bucket 30: 90%\n  bucket 30: 100%\n  Sorting block of length 345 for bucket 30\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 290 for bucket 29\n  Sorting block time: 00:00:00\nReturning block of 346 for bucket 30\nGetting block 31 of 58\n  Reserving size (388) for bucket 31\n  Calculating Z arrays for bucket 31\n  Entering block accumulator loop for bucket 31:\nGetting block 32 of 58\n  Reserving size (388) for bucket 32\n  Calculating Z arrays for bucket 32\n  Entering block accumulator loop for bucket 32:\n  bucket 31: 10%\n  bucket 32: 10%\n  bucket 32: 20%\n  bucket 31: 20%\n  bucket 32: 30%\n  bucket 32: 40%\n  bucket 31: 30%\n  bucket 32: 50%\n  bucket 31: 40%\n  bucket 32: 60%\n  bucket 31: 50%\n  bucket 32: 70%\n  bucket 32: 80%\n  bucket 31: 60%\n  bucket 32: 90%\n  bucket 32: 100%\n  bu\n..\nucket 23: 100%\n  Sorting block of length 349 for bucket 23\n  (Using difference cover)\n  bucket 24: 70%\n  bucket 24: 80%\n  bucket 24: 90%\n  Sorting block time: 00:00:00\nReturning block of 344 for bucket 21\n  bucket 24: 100%\n  Sorting block of length 245 for bucket 24\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 372 for bucket 22\n  Sorting block time: 00:00:00\nReturning block of 350 for bucket 23\n  Sorting block time: 00:00:00\nReturning block of 246 for bucket 24\nGetting block 25 of 57\n  Reserving size (388) for bucket 25\n  Calculating Z arrays for bucket 25\n  Entering block accumulator loop for bucket 25:\nGetting block 26 of 57\n  bucket 25: 10%\n  Reserving size (388) for bucket 26\n  Calculating Z arrays for bucket 26\n  Entering block accumulator loop for bucket 26:\n  bucket 25: 20%\n  bucket 26: 10%\n  bucket 25: 30%\n  bucket 26: 20%\n  bucket 25: 40%\n  bucket 26: 30%\n  bucket 25: 50%\n  bucket 25: 60%\n  bucket 26: 40%\n  bucket 25: 70%\n  bucket 26: 50%\n  bucket 26: 60%\n  bucket 26: 70%\n  bucket 25: 80%\n  bucket 26: 80%\n  bucket 25: 90%\n  bucket 26: 90%\n  bucket 25: 100%\n  Sorting block of length 286 for bucket 25\n  (Using difference cover)\n  bucket 26: 100%\n  Sorting block of length 384 for bucket 26\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 287 for bucket 25\n  Sorting block time: 00:00:00\nReturning block of 385 for bucket 26\nGetting block 27 of 57\n  Reserving size (388) for bucket 27\n  Calculating Z arrays for bucket 27\n  Entering block accumulator loop for bucket 27:\n  bucket 27: 10%\n  bucket 27: 20%\n  bucket 27: 30%\nGetting block 28 of 57\n  Reserving size (388) for bucket 28\n  Calculating Z arrays for bucket 28\n  bucket 27: 40%\n  Entering block accumulator loop for bucket 28:\n  bucket 27: 50%\n  bucket 28: 10%\n  bucket 27: 60%\n  bucket 28: 20%\n  bucket 27: 70%\n  bucket 28: 30%\n  bucket 27: 80%\n  bucket 28: 40%\n  bucket 27: 90%\n  bucket 28: 50%\n  bucket 27: 100%\n  Sorting block of length 359 for bucket 27\n  (Using difference cover)\n  bucket 28: 60%\n  bucket 28: 70%\n  bucket 28: 80%\n  bucket 28: 90%\n  bucket 28: 100%\n  Sorting block of length 387 for bucket 28\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 360 for bucket 27\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 28\nGetting block 29 of 57\n  Reserving size (388) for bucket 29\n  Calculating Z arrays for bucket 29\n  Entering block accumulator loop for bucket 29:\n  bucket 29: 10%\nGetting block 30 of 57\n  bucket 29: 20%\n  Reserving size (388) for bucket 30\n  Calculating Z arrays for bucket 30\n  Entering block accumulator loop for bucket 30:\n  bucket 29: 30%\nGetting block 31 of 57\n  bucket 29: 40%\n  bucket 30: 10%\n  Reserving size (388) for bucket 31\n  Calculating Z arrays for bucket 31\n  Entering block accumulator loop for bucket 31:\n  bucket 29: 50%\n  bucket 30: 20%\n  bucket 29: 60%\n  bucket 31: 10%\n  bucket 30: 30%\n  bucket 29: 70%\n  bucket 31: 20%\n  bucket 29: 80%\n  bucket 30: 40%\n  bucket 31: 30%\n  bucket 29: 90%\n  bucket 30: 50%\n  bucket 31: 40%\n  bucket 29: 100%\n  Sorting block of length 195 for bucket 29\n  (Using difference cover)\n  bucket 30: 60%\n  bucket 31: 50%\n  bucket 30: 70%\n  bucket 30: 80%\n  bucket 31: 60%\n  bucket 30: 90%\n  bucket 31: 70%\n  bucket 30: 100%\n  Sorting block of length 257 for bucket 30\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 196 for bucket 29\n  bucket 31: 80%\n  bucket 31: 90%\n  bucket 31: 100%\n  Sorting block of length 310 for bucket 31\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 258 for bucket 30\n  Sorting block time: 00:00:00\nReturning block of 311 for bucket 31\nGetting block 32 of 57\n  Reserving size (388) for bucket 32\n  Calculating Z arrays for bucket 32\n  Entering block accumulator loop for bucket 32:\n  bucket 32: 10%\n  bucket 32: 20%\n  bucket 32: 30%\nGetting block 33 of 57\n  bucket 32: 40%\n  Reserving size (388) for bucket 33\n  Calculating Z arrays for bucket 33\n  Entering block accumulator loop for bucket 33:\n  bucket 32: 50%\n  bucket 33: 10%\n  bucket 32: 60%\n  bucket 33: 20%\n  bucket 32: 70%\n  bucket 33: 30%\n  bucket 32: 80%\n  bucket 33: 40%\n  bucket 32: 90%\n  bucket 33: 50%\n  bucket 32: 100%\n  Sorting block of length 219 for bucket 32\n  (Using difference cover)\n  bucket 33: 60%\n  bucket 33: 70%\n  bucket 33: 80%\n  Sorting block time: 00:00:00\nReturning block of 220 for bucket 32\n  bucket 33: 90%\n  bucket 33: 100%\n  Sorting block of length 387 for bucket 33\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 33\nGetting block 34 of 57\n  Reserving size (388) for bucket 34\n  Calculating Z arrays for bucket 34\n  Entering block accumulator loop for bucket 34:\n  bucket 34: 10%\n  bucket 34: 20%\n  bucket 34: 30%\nGetting block 35 of 57\n  Reserving size (388) for bucket 35\n  Calculating Z arrays for bucket 35\n  bucket 34: 40%\n  Entering block accumulator loop for bucket 35:\n  bucket 34: 50%\n  bucket 34: 60%\n  bucket 35: 10%\n  bucket 34: 70%\n  bucket 35: 20%\n  bucket 34: 80%\n  bucket 35: 30%\n  bucket 34: 90%\n  bucket 35: 40%\n  bucket 34: 100%\n  Sorting block of length 275 for bucket 34\n  (Using difference cover)\n  bucket 35: 50%\n  bucket 35: 60%\n  bucket 35: 70%\n  bucket 35: 80%\n  Sorting block time: 00:00:00\nReturning block of 276 for bucket 34\n  bucket 35: 90%\n  bucket 35: 100%\n  Sorting block of length 350 for bucket 35\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 351 for bucket 35\nGetting block 36 of 57\n  Reserving size (388) for bucket 36\n  Calculating Z arrays for bucket 36\n  Entering block accumulator loop for bucket 36:\n  bucket 36: 10%\n  bucket 36: 20%\n  bucket 36: 30%\n  bucket 36: 40%\n  bucket 36: 50%\n  bucket 36: 60%\n  bucket 36: 70%\n  bucket 36: 80%\n  bucket 36: 90%\n  bucket 36: 100%\n  Sorting block of length 150 for bucket 36\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 151 for bucket 36\nGetting block 37 of 57\n  Reserving size (388) for bucket 37\nGetting block 38 of 57\nGetting block 39 of 57\n  Calculating Z arrays for bucket 37\n  Reserving size (388) for bucket 38\n  Reserving size (388) for bucket 39\n  Calculating Z arrays for bucket 38\n  Calculating Z arrays for bucket 39\n  Entering block accumulator loop for bucket 37:\n  Entering block accumulator loop for bucket 38:\n  Entering block accumulator loop for bucket 39:\n  bucket 39: 10%\n  bucket 38: 10%\n  bucket 37: 10%\n  bucket 39: 20%\n  bucket 38: 20%\n  bucket 39: 30%\n  bucket 37: 20%\n  bucket 38: 30%\n  bucket 39: 40%\n  bucket 37: 30%\n  bucket 39: 50%\n  bucket 38: 40%\n  bucket 39: 60%\n  bucket 38: 50%\n  bucket 37: 40%\n  bucket 39: 70%\n  bucket 38: 60%\n  bucket 37: 50%\n  bucket 39: 80%\n  bucket 38: 70%\n  bucket 37: 60%\n  bucket 39: 90%\n  bucket 38: 80%\n  bucket 37: 70%\n  bucket 39: 100%\n  bucket 37: 80%\n  Sorting block of length 387 for bucket 39\n  (Using difference cover)\n  bucket 38: 90%\n  bucket 37: 90%\n  bucket 38: 100%\n  Sorting block of length 337 for bucket 38\n  (Using difference cover)\n  bucket 37: 100%\n  Sorting block of length 267 for bucket 37\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 338 for bucket 38\n  Sorting block time: 00:00:00\nReturning block of 268 for bucket 37\n  Sorting block time: 00:00:00\nReturning block of 388 for bucket 39\nGetting block 40 of 57\n  Reserving size (388) for bucket 40\n  Calculating Z arrays for bucket 40\n  Entering block accumulator loop for bucket 40:\n  bucket 40: 10%\n  bucket 40: 20%\n  bucket 40: 30%\n  bucket 40: 40%\n  bucket 40: 50%\n  bucket 40: 60%\n  bucket 40: 70%\n  bucket 40: 80%\n  bucket 40: 90%\n  bucket 40: 100%\n  Sorting block of length 379 for bucket 40\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 380 for bucket 40\nGetting block 41 of 57\n  Reserving size (388) for bucket 41\n  Calculating Z arrays for bucket 41\n  Entering block accumulator loop for bucket 41:\n  bucket 41: 10%\nGetting block 42 of 57\n  Reserving size (388) for bucket 42\n  Calculating Z arrays for bucket 42\nGetting block 43 of 57\n  bucket 41: 20%\n  Entering block accumulator loop for bucket 42:\n  Reserving size (388) for bucket 43\n  Calculating Z arrays for bucket 43\n  Entering block accumulator loop for bucket 43:\n  bucket 42: 10%\n  bucket 41: 30%\n  bucket 42: 20%\n  bucket 42: 30%\n  bucket 41: 40%\n  bucket 43: 10%\n  bucket 42: 40%\n  bucket 41: 50%\n  bucket 43: 20%\n  bucket 42: 50%\n  bucket 41: 60%\n  bucket 42: 60%\n  bucket 43: 30%\n  bucket 41: 70%\n  bucket 42: 70%\n  bucket 43: 40%\n  bucket 42: 80%\n  bucket 41: 80%\n  bucket 42: 90%\n  bucket 43: 50%\n  bucket 41: 90%\n  bucket 42: 100%\n  Sorting block of length 188 for bucket 42\n  (Using difference cover)\n  bucket 43: 60%\n  bucket 41: 100%\n  Sorting block of length 330 for bucket 41\n  (Using difference cover)\n  bucket 43: 70%\n  bucket 43: 80%\n  Sorting block time: 00:00:00\nReturning block of 189 for bucket 42\n  bucket 43: 90%\n  bucket 43: 100%\n  Sorting block of length 321 for bucket 43\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 331 for bucket 41\n  Sorting block time: 00:00:00\nReturning block of 322 for bucket 43\nGetting block 44 of 57\n  Reserving size (388) for bucket 44\n  Calculating Z arrays for bucket 44\n  Entering block accumulator loop for bucket 44:\nGetting block 45 of 57\n  Reserving size (388) for bucket 45\n  Calculating Z arrays for bucket 45\n  bucket 44: 10%\n  Entering block accumulator loop for bucket 45:\nGetting block 46 of 57\n  bucket 44: 20%\n  Reserving size (388) for bucket 46\n  bucket 45: 10%\n  Calculating Z arrays for bucket 46\n  Entering block accumulator loop for bucket 46:\n  bucket 44: 30%\n  bucket 45: 20%\n  bucket 44: 40%\n  bucket 45: 30%\n  bucket 46: 10%\n  bucket 44: 50%\n  bucket 45: 40%\n  bucket 46: 20%\n  bucket 44: 60%\n  bucket 45: 50%\n  bucket 46: 30%\n  bucket 44: 70%\n  bucket 46: 40%\n  bucket 45: 60%\n  bucket 44: 80%\n  bucket 46: 50%\n  bucket 45: 70%\n  bucket 44: 90%\n  bucket 46: 60%\n  bucket 45: 80%\n  bucket 44: 100%\n  bucket 45: 90%\n  bucket 46: 70%\n  Sorting block of length 366 for bucket 44\n  (Using difference cover)\n  bucket 45: 100%\n  Sorting block of length 365 for bucket 45\n  (Using difference cover)\n  bucket 46: 80%\n  bucket 46: 90%\n  bucket 46: 100%\n  Sorting block of length 253 for bucket 46\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 366 for bucket 45\n  Sorting block time: 00:00:00\nReturning block of 367 for bucket 44\n  Sorting block time: 00:00:00\nReturning block of 254 for bucket 46\nGetting block 47 of 57\n  Reserving size (388) for bucket 47\n  Calculating Z arrays for bucket 47\n  Entering block accumulator loop for bucket 47:\n  bucket 47: 10%\n  bucket 47: 20%\n  bucket 47: 30%\n  bucket 47: 40%\n  bucket 47: 50%\n  bucket 47: 60%\n  bucket 47: 70%\n  bucket 47: 80%\n  bucket 47: 90%\n  bucket 47: 100%\n  Sorting block of length 217 for bucket 47\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 218 for bucket 47\nGetting block 48 of 57\n  Reserving size (388) for bucket 48\nGetting block 49 of 57\n  Calculating Z arrays for bucket 48\n  Reserving size (388) for bucket 49\n  Calculating Z arrays for bucket 49\n  Entering block accumulator loop for bucket 48:\n  Entering block accumulator loop for bucket 49:\n  bucket 48: 10%\n  bucket 49: 10%\n  bucket 48: 20%\n  bucket 49: 20%\n  bucket 48: 30%\n  bucket 48: 40%\n  bucket 49: 30%\n  bucket 48: 50%\n  bucket 49: 40%\n  bucket 48: 60%\n  bucket 49: 50%\n  bucket 48: 70%\n  bucket 49: 60%\n  bucket 48: 80%\n  bucket 49: 70%\n  bucket 48: 90%\n  bucket 49: 80%\n  bucket 48: 100%\n  Sorting block of length 384 for bucket 48\n  (Using difference cover)\n  bucket 49: 90%\n  bucket 49: 100%\n  Sorting block of length 112 for bucket 49\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 385 for bucket 48\n  Sorting block time: 00:00:00\nReturning block of 113 for bucket 49\nGetting block 50 of 57\n  Reserving size (388) for bucket 50\n  Calculating Z arrays for bucket 50\nGetting block 51 of 57\n  Entering block accumulator loop for bucket 50:\n  Reserving size (388) for bucket 51\n  Calculating Z arrays for bucket 51\n  Entering block accumulator loop for bucket 51:\n  bucket 50: 10%\n  bucket 51: 10%\n  bucket 51: 20%\n  bucket 50: 20%\n  bucket 51: 30%\n  bucket 50: 30%\n  bucket 51: 40%\n  bucket 50: 40%\n  bucket 51: 50%\n  bucket 50: 50%\n  bucket 50: 60%\n  bucket 51: 60%\n  bucket 50: 70%\n  bucket 51: 70%\n  bucket 50: 80%\n  bucket 51: 80%\n  bucket 50: 90%\n  bucket 51: 90%\n  bucket 50: 100%\n  bucket 51: 100%\n  Sorting block of length 275 for bucket 50\n  (Using difference cover)\n  Sorting block of length 350 for bucket 51\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 276 for bucket 50\n  Sorting block time: 00:00:00\nReturning block of 351 for bucket 51\nGetting block 52 of 57\n  Reserving size (388) for bucket 52\nGetting block 53 of 57\n  Calculating Z arrays for bucket 52\n  Reserving size (388) for bucket 53\n  Calculating Z arrays for bucket 53\n  Entering block accumulator loop for bucket 52:\n  Entering block accumulator loop for bucket 53:\n  bucket 53: 10%\n  bucket 52: 10%\n  bucket 53: 20%\n  bucket 52: 20%\n  bucket 53: 30%\n  bucket 53: 40%\n  bucket 52: 30%\n  bucket 53: 50%\n  bucket 52: 40%\n  bucket 53: 60%\n  bucket 53: 70%\n  bucket 52: 50%\n  bucket 53: 80%\n  bucket 53: 90%\n  bucket 52: 60%\n  bucket 53: 100%\n  Sorting block of length 370 for bucket 53\n  (Using difference cover)\n  bucket 52: 70%\n  bucket 52: 80%\n  bucket 52: 90%\n  bucket 52: 100%\n  Sorting block of length 378 for bucket 52\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 371 for bucket 53\n  Sorting block time: 00:00:00\nReturning block of 379 for bucket 52\nGetting block 54 of 57\n  Reserving size (388) for bucket 54\n  Calculating Z arrays for bucket 54\n  Entering block accumulator loop for bucket 54:\n  bucket 54: 10%\n  bucket 54: 20%\n  bucket 54: 30%\n  bucket 54: 40%\n  bucket 54: 50%\n  bucket 54: 60%\n  bucket 54: 70%\n  bucket 54: 80%\n  bucket 54: 90%\n  bucket 54: 100%\n  Sorting block of length 237 for bucket 54\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 238 for bucket 54\nGetting block 55 of 57\n  Reserving size (388) for bucket 55\nGetting block 56 of 57\n  Calculating Z arrays for bucket 55\n  Reserving size (388) for bucket 56\n  Calculating Z arrays for bucket 56\n  Entering block accumulator loop for bucket 55:\n  Entering block accumulator loop for bucket 56:\n  bucket 55: 10%\n  bucket 56: 10%\n  bucket 55: 20%\n  bucket 56: 20%\n  bucket 55: 30%\n  bucket 56: 30%\n  bucket 55: 40%\n  bucket 55: 50%\n  bucket 56: 40%\n  bucket 55: 60%\n  bucket 56: 50%\n  bucket 56: 60%\n  bucket 55: 70%\n  bucket 55: 80%\n  bucket 55: 90%\n  bucket 56: 70%\n  bucket 55: 100%\n  bucket 56: 80%\n  Sorting block of length 344 for bucket 55\n  (Using difference cover)\n  bucket 56: 90%\n  bucket 56: 100%\n  Sorting block of length 270 for bucket 56\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 345 for bucket 55\n  Sorting block time: 00:00:00\nReturning block of 271 for bucket 56\nGetting block 57 of 57\n  Reserving size (388) for bucket 57\n  Calculating Z arrays for bucket 57\n  Entering block accumulator loop for bucket 57:\n  bucket 57: 10%\n  bucket 57: 20%\n  bucket 57: 30%\n  bucket 57: 40%\n  bucket 57: 50%\n  bucket 57: 60%\n  bucket 57: 70%\n  bucket 57: 80%\n  bucket 57: 90%\n  bucket 57: 100%\n  Sorting block of length 132 for bucket 57\n  (Using difference cover)\n  Sorting block time: 00:00:00\nReturning block of 133 for bucket 57\nExited Ebwt loop\nfchr[A]: 0\nfchr[C]: 5124\nfchr[G]: 10305\nfchr[T]: 12474\nfchr[$]: 16568\nExiting Ebwt::buildToDisk()\nReturning from initFromVector\nWrote 4200050 bytes to primary EBWT file: genome.rev.1.bt2.tmp\nWrote 4148 bytes to secondary EBWT file: genome.rev.2.bt2.tmp\nRe-opening _in1 and _in2 as input streams\nReturning from Ebwt constructor\nHeaders:\n    len: 16568\n    bwtLen: 16569\n    sz: 4142\n    bwtSz: 4143\n    lineRate: 6\n    offRate: 4\n    offMask: 0xfffffff0\n    ftabChars: 10\n    eftabLen: 20\n    eftabSz: 80\n    ftabLen: 1048577\n    ftabSz: 4194308\n    offsLen: 1036\n    offsSz: 4144\n    lineSz: 64\n    sideSz: 64\n    sideBwtSz: 48\n    sideBwtLen: 192\n    numSides: 87\n    numLines: 87\n    ebwtTotLen: 5568\n    ebwtTotSz: 5568\n    color: 0\n    reverse: 1\nTotal time for backward call to driver() for mirror index: 00:00:00\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:45:43", "plugin": "core", "name": "end_epoch", "raw_value": "1726407943.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:45:42", "plugin": "core", "name": "start_epoch", "raw_value": "1726407942.0000000"}, {"title": "Memory Allocated (MB)", "value": "21474", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "21474.0000000"}, {"title": "Cores Allocated", "value": "8", "plugin": "core", "name": "galaxy_slots", "raw_value": "8.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-0", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 0, "time_seconds": 32.6347279548645, "inputs": {"library|input_1": {"src": "hda", "id": "a49ae95041290e64"}, "library|r1|adapters_0|adapter_source|adapter": "AGATCGGAAGAGC", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|type": "single"}, "job": {"model_class": "Job", "id": "0cdd7d36ab7e1980", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:06:57.456883", "create_time": "2024-09-15T13:06:40.239107", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-ghcn7", "command_line": "ln -f -s '/galaxy/server/database/objects/8/1/c/dataset_81c6cabf-6de4-4136-a694-5f55a2976c2d.dat' 'cutadapt_small_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      -o 'out1.fq'  'cutadapt_small_fastq.fq'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 0, \"input_1\": {\"values\": [{\"id\": 85, \"src\": \"hda\"}]}, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGATCGGAAGAGC\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"type\": \"single\"}"}, "inputs": {"library|input_1": {"id": "a49ae95041290e64", "src": "hda", "uuid": "81c6cabf-6de4-4136-a694-5f55a2976c2d"}}, "outputs": {"out1": {"id": "0cdd7d36ab7e1980", "src": "hda", "uuid": "338953a5-5c46-4fc3-9a3f-064826e1c043"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq cutadapt_small_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.044 s (14710.029 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       3\nReads with adapters:                         0 (0.0%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             3 (100.0%)\n\nTotal basepairs processed:           102 bp\nTotal written (filtered):            102 bp (100.0%)\n\n=== Adapter 1 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 0 times\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq cutadapt_small_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.044 s (14710.029 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       3\nReads with adapters:                         0 (0.0%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             3 (100.0%)\n\nTotal basepairs processed:           102 bp\nTotal written (filtered):            102 bp (100.0%)\n\n=== Adapter 1 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 0 times\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:06:47", "plugin": "core", "name": "end_epoch", "raw_value": "1726405607.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:06:46", "plugin": "core", "name": "start_epoch", "raw_value": "1726405606.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-1", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 1, "time_seconds": 26.43556046485901, "inputs": {"library|input_1": {"src": "hda", "id": "9f6ac19c68a638a4"}, "library|r1|adapters_0|adapter_source|adapter": "AGATCGGAAGAGC", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|type": "single"}, "job": {"model_class": "Job", "id": "e3a4b1dc54a77dcb", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:07:23.768164", "create_time": "2024-09-15T13:07:12.843070", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-jw4nj", "command_line": "ln -f -s '/galaxy/server/database/objects/3/9/f/dataset_39fb2f15-3feb-4181-8e8b-24c3969ac65b.dat' 'bwa-mem-fastq1_fq_gz.fq.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      -o 'out1.fq.gz'  'bwa-mem-fastq1_fq_gz.fq.gz'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 0, \"input_1\": {\"values\": [{\"id\": 87, \"src\": \"hda\"}]}, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGATCGGAAGAGC\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"type\": \"single\"}"}, "inputs": {"library|input_1": {"id": "9f6ac19c68a638a4", "src": "hda", "uuid": "39fb2f15-3feb-4181-8e8b-24c3969ac65b"}}, "outputs": {"out1": {"id": "e3a4b1dc54a77dcb", "src": "hda", "uuid": "fadbbd03-6b4d-4314-968c-c633239218ec"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq.gz bwa-mem-fastq1_fq_gz.fq.gz\nProcessing single-end reads on 5 cores ...\nFinished in 0.100 s (1011.721 \u00b5s/read; 0.06 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                      99\nReads with adapters:                         2 (2.0%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):            99 (100.0%)\n\nTotal basepairs processed:        24,849 bp\nTotal written (filtered):         24,843 bp (100.0%)\n\n=== Adapter 1 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 50.0%\n  G: 50.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq.gz bwa-mem-fastq1_fq_gz.fq.gz\nProcessing single-end reads on 5 cores ...\nFinished in 0.100 s (1011.721 \u00b5s/read; 0.06 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                      99\nReads with adapters:                         2 (2.0%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):            99 (100.0%)\n\nTotal basepairs processed:        24,849 bp\nTotal written (filtered):         24,843 bp (100.0%)\n\n=== Adapter 1 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 50.0%\n  G: 50.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:07:15", "plugin": "core", "name": "end_epoch", "raw_value": "1726405635.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:07:14", "plugin": "core", "name": "start_epoch", "raw_value": "1726405634.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-10", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 10, "time_seconds": 26.745895862579346, "inputs": {"library|input_1": {"src": "hda", "id": "65299de7aef2b264"}, "library|r1|front_adapters_0|adapter_source|adapter_name": "A1", "library|r1|front_adapters_0|adapter_source|adapter": "^GTCGGTAA", "library|r1|front_adapters_0|adapter_source|adapter_source_list": "user", "library|r1|front_adapters_1|adapter_source|adapter_name": "A2", "library|r1|front_adapters_1|adapter_source|adapter": "^AGGTCACT", "library|r1|front_adapters_1|adapter_source|adapter_source_list": "user", "library|type": "single", "output_selector": "multiple_output"}, "job": {"model_class": "Job", "id": "aed18b04f80247e7", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:11:00.249701", "create_time": "2024-09-15T13:10:48.365601", "galaxy_version": "23.1", "command_version": null, "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-mzwz6", "command_line": "ln -f -s '/galaxy/server/database/objects/4/5/c/dataset_45c67355-744d-421d-b114-a09e788b6998.dat' 'cutadapt_in_split_fastq.fq' && mkdir split &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -g 'A1'='^GTCGGTAA'   -g 'A2'='^AGGTCACT'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      -o 'split/{name}.fastq'  'cutadapt_in_split_fastq.fq'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": "\"multiple_output\"", "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 0, \"input_1\": {\"values\": [{\"id\": 113, \"src\": \"hda\"}]}, \"r1\": {\"adapters\": [], \"anywhere_adapters\": [], \"front_adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"^GTCGGTAA\", \"adapter_name\": \"A1\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}, {\"__index__\": 1, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"^AGGTCACT\", \"adapter_name\": \"A2\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}]}, \"type\": \"single\"}"}, "inputs": {"library|input_1": {"id": "65299de7aef2b264", "src": "hda", "uuid": "45c67355-744d-421d-b114-a09e788b6998"}}, "outputs": {"__new_primary_file_split_output|A1__": {"id": "a6267f6991ff4517", "src": "hda", "uuid": "a95af80c-ecc6-4f8a-b96a-ebdf972e2031"}, "__new_primary_file_split_output|A2__": {"id": "68ef05d316caa003", "src": "hda", "uuid": "7f49cc20-0a04-4781-a341-c03c6edebdb6"}, "__new_primary_file_split_output|unknown__": {"id": "a439ad449e118d77", "src": "hda", "uuid": "ab2c36a5-60d6-4e26-bb50-fcde54b37507"}}, "output_collections": {"split_output": {"id": "3ab1f33dc5cace0e", "src": "hdca"}}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -g A1=^GTCGGTAA -g A2=^AGGTCACT --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o split/{name}.fastq cutadapt_in_split_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.071 s (6430.734 \u00b5s/read; 0.01 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                      11\nReads with adapters:                        10 (90.9%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads discarded as untrimmed:                0 (0.0%)\nReads written (passing filters):            11 (100.0%)\n\nTotal basepairs processed:         1,210 bp\nTotal written (filtered):          1,130 bp (93.4%)\n\n=== Adapter A1 ===\n\nSequence: GTCGGTAA; Type: anchored 5'; Length: 8; Trimmed: 5 times\n\nNo. of allowed errors: 0\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n8\t5\t0.0\t0\t5\n\n\n=== Adapter A2 ===\n\nSequence: AGGTCACT; Type: anchored 5'; Length: 8; Trimmed: 5 times\n\nNo. of allowed errors: 0\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n8\t5\t0.0\t0\t5\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -g A1=^GTCGGTAA -g A2=^AGGTCACT --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o split/{name}.fastq cutadapt_in_split_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.071 s (6430.734 \u00b5s/read; 0.01 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                      11\nReads with adapters:                        10 (90.9%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads discarded as untrimmed:                0 (0.0%)\nReads written (passing filters):            11 (100.0%)\n\nTotal basepairs processed:         1,210 bp\nTotal written (filtered):          1,130 bp (93.4%)\n\n=== Adapter A1 ===\n\nSequence: GTCGGTAA; Type: anchored 5'; Length: 8; Trimmed: 5 times\n\nNo. of allowed errors: 0\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n8\t5\t0.0\t0\t5\n\n\n=== Adapter A2 ===\n\nSequence: AGGTCACT; Type: anchored 5'; Length: 8; Trimmed: 5 times\n\nNo. of allowed errors: 0\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n8\t5\t0.0\t0\t5\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:10:51", "plugin": "core", "name": "end_epoch", "raw_value": "1726405851.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:10:50", "plugin": "core", "name": "start_epoch", "raw_value": "1726405850.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-11", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 11, "time_seconds": 29.550785303115845, "inputs": {"library|input_1": {"src": "hda", "id": "3692c4593dd68df6"}, "library|r1|front_adapters_0|adapter_source|adapter_file": {"src": "hda", "id": "2b11d29cac00c866"}, "library|r1|front_adapters_0|adapter_source|adapter_source_list": "file", "library|type": "single", "output_selector": "multiple_output"}, "job": {"model_class": "Job", "id": "b2b91048303d3955", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:11:29.762403", "create_time": "2024-09-15T13:11:17.486829", "galaxy_version": "23.1", "command_version": null, "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-s9xz6", "command_line": "ln -f -s '/galaxy/server/database/objects/b/a/c/dataset_bac81e95-8b99-4128-83aa-f989bdeed0f8.dat' 'cutadapt_in_split_fastq_gz.fq.gz' && mkdir split &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -g file:'/galaxy/server/database/objects/3/8/0/dataset_380b14ee-18a8-4e2c-add3-5acff7dac874.dat'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      -o 'split/{name}.fastq.gz'  'cutadapt_in_split_fastq_gz.fq.gz'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": "\"multiple_output\"", "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 0, \"input_1\": {\"values\": [{\"id\": 117, \"src\": \"hda\"}]}, \"r1\": {\"adapters\": [], \"anywhere_adapters\": [], \"front_adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 2, \"adapter_file\": {\"values\": [{\"id\": 118, \"src\": \"hda\"}]}, \"adapter_source_list\": \"file\"}, \"single_noindels\": false}]}, \"type\": \"single\"}"}, "inputs": {"library|input_1": {"id": "3692c4593dd68df6", "src": "hda", "uuid": "bac81e95-8b99-4128-83aa-f989bdeed0f8"}, "library|r1|front_adapters_0|adapter_source|adapter_file": {"id": "2b11d29cac00c866", "src": "hda", "uuid": "380b14ee-18a8-4e2c-add3-5acff7dac874"}}, "outputs": {"__new_primary_file_split_output|A1__": {"id": "3ea8e8ca0a42af81", "src": "hda", "uuid": "efeab016-636f-432f-a5db-9314fc3682eb"}, "__new_primary_file_split_output|A2__": {"id": "aa68735a32706bdf", "src": "hda", "uuid": "c9c4e758-f728-467b-94d8-c119f83bf3a8"}, "__new_primary_file_split_output|unknown__": {"id": "9996f36f3b595293", "src": "hda", "uuid": "c8254773-b177-4c32-92ba-3bc95c9a7ac2"}}, "output_collections": {"split_output": {"id": "a77ea7afd81e07bf", "src": "hdca"}}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -g file:/galaxy/server/database/objects/3/8/0/dataset_380b14ee-18a8-4e2c-add3-5acff7dac874.dat --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o split/{name}.fastq.gz cutadapt_in_split_fastq_gz.fq.gz\nProcessing single-end reads on 5 cores ...\nFinished in 0.235 s (21344.922 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                      11\nReads with adapters:                        10 (90.9%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads discarded as untrimmed:                0 (0.0%)\nReads written (passing filters):            11 (100.0%)\n\nTotal basepairs processed:         1,210 bp\nTotal written (filtered):          1,130 bp (93.4%)\n\n=== Adapter A2 ===\n\nSequence: AGGTCACT; Type: anchored 5'; Length: 8; Trimmed: 5 times\n\nNo. of allowed errors: 0\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n8\t5\t0.0\t0\t5\n\n\n=== Adapter A1 ===\n\nSequence: GTCGGTAA; Type: anchored 5'; Length: 8; Trimmed: 5 times\n\nNo. of allowed errors: 0\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n8\t5\t0.0\t0\t5\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -g file:/galaxy/server/database/objects/3/8/0/dataset_380b14ee-18a8-4e2c-add3-5acff7dac874.dat --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o split/{name}.fastq.gz cutadapt_in_split_fastq_gz.fq.gz\nProcessing single-end reads on 5 cores ...\nFinished in 0.235 s (21344.922 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                      11\nReads with adapters:                        10 (90.9%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads discarded as untrimmed:                0 (0.0%)\nReads written (passing filters):            11 (100.0%)\n\nTotal basepairs processed:         1,210 bp\nTotal written (filtered):          1,130 bp (93.4%)\n\n=== Adapter A2 ===\n\nSequence: AGGTCACT; Type: anchored 5'; Length: 8; Trimmed: 5 times\n\nNo. of allowed errors: 0\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n8\t5\t0.0\t0\t5\n\n\n=== Adapter A1 ===\n\nSequence: GTCGGTAA; Type: anchored 5'; Length: 8; Trimmed: 5 times\n\nNo. of allowed errors: 0\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n8\t5\t0.0\t0\t5\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:11:20", "plugin": "core", "name": "end_epoch", "raw_value": "1726405880.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:11:19", "plugin": "core", "name": "start_epoch", "raw_value": "1726405879.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-12", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 12, "time_seconds": 27.548827171325684, "inputs": {"library|input_1": {"src": "hda", "id": "d607c32cd6258cd0"}, "library|r1|adapters_0|adapter_source|adapter": "AAAT", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|type": "single", "output_selector": "untrimmed_file"}, "job": {"model_class": "Job", "id": "a7c2465cb53988c1", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:11:57.291322", "create_time": "2024-09-15T13:11:45.257640", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-6fm6h", "command_line": "ln -f -s '/galaxy/server/database/objects/b/7/7/dataset_b77a6dc5-fb17-497b-a693-ceb783b18ea9.dat' 'cutadapt_small_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AAAT'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      --untrimmed-output='untrimmed_output.fq' -o 'out1.fq'  'cutadapt_small_fastq.fq'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": "\"untrimmed_file\"", "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 0, \"input_1\": {\"values\": [{\"id\": 122, \"src\": \"hda\"}]}, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AAAT\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"type\": \"single\"}"}, "inputs": {"library|input_1": {"id": "d607c32cd6258cd0", "src": "hda", "uuid": "b77a6dc5-fb17-497b-a693-ceb783b18ea9"}}, "outputs": {"out1": {"id": "4aa16205773c0af7", "src": "hda", "uuid": "6b690135-5f7f-4b36-b333-5d90c4a8b82e"}, "untrimmed_output": {"id": "1a289ab128a44e18", "src": "hda", "uuid": "1c85e172-1bcd-494c-bacc-df9ad23f2856"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AAAT --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 --untrimmed-output=untrimmed_output.fq -o out1.fq cutadapt_small_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.051 s (16953.548 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       3\nReads with adapters:                         1 (33.3%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             1 (33.3%)\n\nTotal basepairs processed:           102 bp\nTotal written (filtered):             30 bp (29.4%)\n\n=== Adapter 1 ===\n\nSequence: AAAT; Type: regular 3'; Length: 4; Trimmed: 1 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-4 bp: 0\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 100.0%\n  G: 0.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n4\t1\t0.0\t0\t1\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AAAT --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 --untrimmed-output=untrimmed_output.fq -o out1.fq cutadapt_small_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.051 s (16953.548 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       3\nReads with adapters:                         1 (33.3%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             1 (33.3%)\n\nTotal basepairs processed:           102 bp\nTotal written (filtered):             30 bp (29.4%)\n\n=== Adapter 1 ===\n\nSequence: AAAT; Type: regular 3'; Length: 4; Trimmed: 1 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-4 bp: 0\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 100.0%\n  G: 0.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n4\t1\t0.0\t0\t1\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:11:48", "plugin": "core", "name": "end_epoch", "raw_value": "1726405908.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:11:47", "plugin": "core", "name": "start_epoch", "raw_value": "1726405907.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-13", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 13, "time_seconds": 27.20011043548584, "inputs": {"library|input_1": {"src": "hda", "id": "46760eb9de381516"}, "library|r1|adapters_0|adapter_source|adapter": "AGATCGGAAGAGC", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|type": "single", "output_selector": "untrimmed_file"}, "job": {"model_class": "Job", "id": "a6267f6991ff4517", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:12:24.596311", "create_time": "2024-09-15T13:12:13.527344", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-696pp", "command_line": "ln -f -s '/galaxy/server/database/objects/5/2/9/dataset_5296c5ac-18ba-4789-8c7f-31e2d5b3be72.dat' 'bwa-mem-fastq1_fq_gz.fq.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      --untrimmed-output='untrimmed_output.fq.gz' -o 'out1.fq.gz'  'bwa-mem-fastq1_fq_gz.fq.gz'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": "\"untrimmed_file\"", "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 0, \"input_1\": {\"values\": [{\"id\": 125, \"src\": \"hda\"}]}, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGATCGGAAGAGC\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"type\": \"single\"}"}, "inputs": {"library|input_1": {"id": "46760eb9de381516", "src": "hda", "uuid": "5296c5ac-18ba-4789-8c7f-31e2d5b3be72"}}, "outputs": {"out1": {"id": "9d8424625401bda9", "src": "hda", "uuid": "b8397183-e341-43ae-bd16-a90126624f48"}, "untrimmed_output": {"id": "87dd175f2fbd2c86", "src": "hda", "uuid": "6f5b2f67-a425-418f-8ef3-4d80c79196fe"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 --untrimmed-output=untrimmed_output.fq.gz -o out1.fq.gz bwa-mem-fastq1_fq_gz.fq.gz\nProcessing single-end reads on 5 cores ...\nFinished in 0.161 s (1626.253 \u00b5s/read; 0.04 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                      99\nReads with adapters:                         2 (2.0%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             2 (2.0%)\n\nTotal basepairs processed:        24,849 bp\nTotal written (filtered):            496 bp (2.0%)\n\n=== Adapter 1 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 50.0%\n  G: 50.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 --untrimmed-output=untrimmed_output.fq.gz -o out1.fq.gz bwa-mem-fastq1_fq_gz.fq.gz\nProcessing single-end reads on 5 cores ...\nFinished in 0.161 s (1626.253 \u00b5s/read; 0.04 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                      99\nReads with adapters:                         2 (2.0%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             2 (2.0%)\n\nTotal basepairs processed:        24,849 bp\nTotal written (filtered):            496 bp (2.0%)\n\n=== Adapter 1 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 50.0%\n  G: 50.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "0 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "0E-7"}, {"title": "Job End Time", "value": "2024-09-15 13:12:15", "plugin": "core", "name": "end_epoch", "raw_value": "1726405935.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:12:15", "plugin": "core", "name": "start_epoch", "raw_value": "1726405935.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-14", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 14, "time_seconds": 27.589776039123535, "inputs": {"library|input_1": {"src": "hda", "id": "361f08fe0d2583a2"}, "library|input_2": {"src": "hda", "id": "659906a111120b0b"}, "library|r1|adapters_0|adapter_source|adapter": "AGATCGGAAGAGC", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|type": "paired", "filter_options|discard_untrimmed": true, "filter_options|minimum_length": "1", "filter_options|maximum_length": "1000", "filter_options|max_n": "0", "filter_options|pair_filter": "both"}, "job": {"model_class": "Job", "id": "3692c4593dd68df6", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:12:53.083918", "create_time": "2024-09-15T13:12:41.406054", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-fknns", "command_line": "ln -f -s '/galaxy/server/database/objects/4/2/7/dataset_427a3a03-6423-4ad7-ba7c-99ea09cf90f9.dat' 'bwa-mem-fastq1_fq_gz.fq.gz' && ln -f -s '/galaxy/server/database/objects/c/f/d/dataset_cfdafaad-10c6-4a43-9654-59c761b11a4e.dat' 'bwa-mem-fastq2_fq_gz.fq.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'     --error-rate=0.1 --times=1 --overlap=3    --action=trim       --discard-untrimmed  --minimum-length=1 --maximum-length=1000 --max-n=0.0  --pair-filter=both     -o 'out1.fq.gz' -p 'out2.fq.gz'  'bwa-mem-fastq1_fq_gz.fq.gz' 'bwa-mem-fastq2_fq_gz.fq.gz'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": true, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"0.0\", \"maximum_length\": \"1000\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"both\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 1, \"input_1\": {\"values\": [{\"id\": 128, \"src\": \"hda\"}]}, \"input_2\": {\"values\": [{\"id\": 129, \"src\": \"hda\"}]}, \"pair_adapters\": false, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGATCGGAAGAGC\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"r2\": {\"adapters2\": [], \"anywhere_adapters2\": [], \"front_adapters2\": []}, \"type\": \"paired\"}"}, "inputs": {"library|input_1": {"id": "361f08fe0d2583a2", "src": "hda", "uuid": "427a3a03-6423-4ad7-ba7c-99ea09cf90f9"}, "library|input_2": {"id": "659906a111120b0b", "src": "hda", "uuid": "cfdafaad-10c6-4a43-9654-59c761b11a4e"}}, "outputs": {"out1": {"id": "812f37d0b47d4b89", "src": "hda", "uuid": "d96efa8a-10a2-48f1-8e71-73dda58fa6f7"}, "out2": {"id": "1473a73ac45bde6f", "src": "hda", "uuid": "d33b6a5a-1fab-421b-8502-f16e3f647412"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --discard-untrimmed --minimum-length=1 --maximum-length=1000 --max-n=0.0 --pair-filter=both -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_fq_gz.fq.gz bwa-mem-fastq2_fq_gz.fq.gz\nProcessing paired-end reads on 5 cores ...\nFinished in 0.167 s (1684.940 \u00b5s/read; 0.04 M reads/minute).\n\n=== Summary ===\n\nTotal read pairs processed:                 99\n  Read 1 with adapter:                       2 (2.0%)\n\n== Read fate breakdown ==\nPairs that were too short:                   0 (0.0%)\nPairs that were too long:                    0 (0.0%)\nPairs with too many N:                       0 (0.0%)\nPairs written (passing filters):             2 (2.0%)\n\nTotal basepairs processed:        49,698 bp\n  Read 1:        24,849 bp\n  Read 2:        24,849 bp\nTotal written (filtered):            998 bp (2.0%)\n  Read 1:           496 bp\n  Read 2:           502 bp\n\n=== First read: Adapter 1 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 50.0%\n  G: 50.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --discard-untrimmed --minimum-length=1 --maximum-length=1000 --max-n=0.0 --pair-filter=both -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_fq_gz.fq.gz bwa-mem-fastq2_fq_gz.fq.gz\nProcessing paired-end reads on 5 cores ...\nFinished in 0.167 s (1684.940 \u00b5s/read; 0.04 M reads/minute).\n\n=== Summary ===\n\nTotal read pairs processed:                 99\n  Read 1 with adapter:                       2 (2.0%)\n\n== Read fate breakdown ==\nPairs that were too short:                   0 (0.0%)\nPairs that were too long:                    0 (0.0%)\nPairs with too many N:                       0 (0.0%)\nPairs written (passing filters):             2 (2.0%)\n\nTotal basepairs processed:        49,698 bp\n  Read 1:        24,849 bp\n  Read 2:        24,849 bp\nTotal written (filtered):            998 bp (2.0%)\n  Read 1:           496 bp\n  Read 2:           502 bp\n\n=== First read: Adapter 1 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 50.0%\n  G: 50.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:12:44", "plugin": "core", "name": "end_epoch", "raw_value": "1726405964.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:12:43", "plugin": "core", "name": "start_epoch", "raw_value": "1726405963.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-15", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 15, "time_seconds": 27.91488480567932, "inputs": {"library|input_1": {"src": "hda", "id": "0378eed923c95ddc"}, "library|r1|adapters_0|adapter_source|adapter": "AGATCGGAAGAGC", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|type": "single", "other_trimming_options|cut": "5"}, "job": {"model_class": "Job", "id": "3ea8e8ca0a42af81", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:13:20.442015", "create_time": "2024-09-15T13:13:08.613853", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-prrdb", "command_line": "ln -f -s '/galaxy/server/database/objects/a/b/0/dataset_ab02a4f6-6cda-4671-bdf5-1c6149c95c97.dat' 'cutadapt_small_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'    --error-rate=0.1 --times=1 --overlap=3    --action=trim   --cut=5       --minimum-length=1      -o 'out1.fq'  'cutadapt_small_fastq.fq'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"5\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 0, \"input_1\": {\"values\": [{\"id\": 132, \"src\": \"hda\"}]}, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGATCGGAAGAGC\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"type\": \"single\"}"}, "inputs": {"library|input_1": {"id": "0378eed923c95ddc", "src": "hda", "uuid": "ab02a4f6-6cda-4671-bdf5-1c6149c95c97"}}, "outputs": {"out1": {"id": "0e31d0efff633976", "src": "hda", "uuid": "d43ad30b-f9ba-436b-999e-c6ae27af4f33"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --cut=5 --minimum-length=1 -o out1.fq cutadapt_small_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.051 s (17052.094 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       3\nReads with adapters:                         0 (0.0%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             3 (100.0%)\n\nTotal basepairs processed:           102 bp\nTotal written (filtered):             87 bp (85.3%)\n\n=== Adapter 1 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 0 times\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --cut=5 --minimum-length=1 -o out1.fq cutadapt_small_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.051 s (17052.094 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       3\nReads with adapters:                         0 (0.0%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             3 (100.0%)\n\nTotal basepairs processed:           102 bp\nTotal written (filtered):             87 bp (85.3%)\n\n=== Adapter 1 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 0 times\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:13:11", "plugin": "core", "name": "end_epoch", "raw_value": "1726405991.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:13:10", "plugin": "core", "name": "start_epoch", "raw_value": "1726405990.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-16", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 16, "time_seconds": 25.402655601501465, "inputs": {"library|input_1": {"src": "hda", "id": "e24bfa0179b5f42d"}, "library|r1|adapters_0|adapter_source|adapter": "AGATCGGAAGAGC", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|type": "single", "other_trimming_options|cut": "5", "read_mod_options|rename": "{id} barcode={cut_prefix}"}, "job": {"model_class": "Job", "id": "9996f36f3b595293", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:13:45.857649", "create_time": "2024-09-15T13:13:34.967705", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-5c8sk", "command_line": "ln -f -s '/galaxy/server/database/objects/d/f/0/dataset_df0116a3-1865-4152-9750-e0de09605272.dat' 'cutadapt_small_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'    --error-rate=0.1 --times=1 --overlap=3    --action=trim   --cut=5       --minimum-length=1    --rename='{id} barcode={cut_prefix}'   -o 'out1.fq'  'cutadapt_small_fastq.fq'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": \"{id} barcode={cut_prefix}\", \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"5\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 0, \"input_1\": {\"values\": [{\"id\": 134, \"src\": \"hda\"}]}, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGATCGGAAGAGC\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"type\": \"single\"}"}, "inputs": {"library|input_1": {"id": "e24bfa0179b5f42d", "src": "hda", "uuid": "df0116a3-1865-4152-9750-e0de09605272"}}, "outputs": {"out1": {"id": "ef09b60c35b99c0a", "src": "hda", "uuid": "ff9f7a06-32fa-4603-98f2-1d42cd320d41"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --cut=5 --minimum-length=1 --rename={id} barcode={cut_prefix} -o out1.fq cutadapt_small_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.047 s (15596.310 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       3\nReads with adapters:                         0 (0.0%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             3 (100.0%)\n\nTotal basepairs processed:           102 bp\nTotal written (filtered):             87 bp (85.3%)\n\n=== Adapter 1 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 0 times\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --cut=5 --minimum-length=1 --rename={id} barcode={cut_prefix} -o out1.fq cutadapt_small_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.047 s (15596.310 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       3\nReads with adapters:                         0 (0.0%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             3 (100.0%)\n\nTotal basepairs processed:           102 bp\nTotal written (filtered):             87 bp (85.3%)\n\n=== Adapter 1 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 0 times\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:13:37", "plugin": "core", "name": "end_epoch", "raw_value": "1726406017.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:13:36", "plugin": "core", "name": "start_epoch", "raw_value": "1726406016.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-17", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 17, "time_seconds": 27.089433670043945, "inputs": {"library|input_1": {"src": "hda", "id": "18fbc84d98febeed"}, "library|r1|adapters_0|adapter_source|adapter": "CGTCCGAANTAG", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|type": "single", "adapter_options|action": "retain"}, "job": {"model_class": "Job", "id": "4aa16205773c0af7", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:14:13.012741", "create_time": "2024-09-15T13:14:01.159227", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-lnm7j", "command_line": "ln -f -s '/galaxy/server/database/objects/b/e/d/dataset_bedc6a59-d388-498c-9d86-5b80faaf52c7.dat' 'cutadapt_small_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'CGTCCGAANTAG'    --error-rate=0.1 --times=1 --overlap=3    --action=retain         --minimum-length=1      -o 'out1.fq'  'cutadapt_small_fastq.fq'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"retain\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 0, \"input_1\": {\"values\": [{\"id\": 136, \"src\": \"hda\"}]}, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"CGTCCGAANTAG\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"type\": \"single\"}"}, "inputs": {"library|input_1": {"id": "18fbc84d98febeed", "src": "hda", "uuid": "bedc6a59-d388-498c-9d86-5b80faaf52c7"}}, "outputs": {"out1": {"id": "9f824e98b7e98290", "src": "hda", "uuid": "61fc3a3a-e4e3-4a4c-bc02-a0760aa52540"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a CGTCCGAANTAG --error-rate=0.1 --times=1 --overlap=3 --action=retain --minimum-length=1 -o out1.fq cutadapt_small_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.043 s (14316.559 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       3\nReads with adapters:                         1 (33.3%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             3 (100.0%)\n\nTotal basepairs processed:           102 bp\nTotal written (filtered):             80 bp (78.4%)\n\n=== Adapter 1 ===\n\nSequence: CGTCCGAANTAG; Type: regular 3'; Length: 12; Trimmed: 1 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-11 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 0.0%\n  T: 0.0%\n  none/other: 100.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n34\t1\t0.0\t1\t1\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a CGTCCGAANTAG --error-rate=0.1 --times=1 --overlap=3 --action=retain --minimum-length=1 -o out1.fq cutadapt_small_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.043 s (14316.559 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       3\nReads with adapters:                         1 (33.3%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             3 (100.0%)\n\nTotal basepairs processed:           102 bp\nTotal written (filtered):             80 bp (78.4%)\n\n=== Adapter 1 ===\n\nSequence: CGTCCGAANTAG; Type: regular 3'; Length: 12; Trimmed: 1 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-11 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 0.0%\n  T: 0.0%\n  none/other: 100.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n34\t1\t0.0\t1\t1\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:14:04", "plugin": "core", "name": "end_epoch", "raw_value": "1726406044.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:14:03", "plugin": "core", "name": "start_epoch", "raw_value": "1726406043.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-18", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 18, "time_seconds": 26.0403311252594, "inputs": {"library|input_1": {"src": "hda", "id": "982fd1c674f23424"}, "library|r1|adapters_0|adapter_source|adapter": "CGTCCGAANTAG", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|type": "single", "adapter_options|action": "mask"}, "job": {"model_class": "Job", "id": "46760eb9de381516", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:14:39.355181", "create_time": "2024-09-15T13:14:28.635847", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-6wbb7", "command_line": "ln -f -s '/galaxy/server/database/objects/0/2/5/dataset_025fcaeb-2b3b-47c8-8415-4045992d5de1.dat' 'cutadapt_small_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'CGTCCGAANTAG'    --error-rate=0.1 --times=1 --overlap=3    --action=mask         --minimum-length=1      -o 'out1.fq'  'cutadapt_small_fastq.fq'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"mask\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 0, \"input_1\": {\"values\": [{\"id\": 138, \"src\": \"hda\"}]}, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"CGTCCGAANTAG\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"type\": \"single\"}"}, "inputs": {"library|input_1": {"id": "982fd1c674f23424", "src": "hda", "uuid": "025fcaeb-2b3b-47c8-8415-4045992d5de1"}}, "outputs": {"out1": {"id": "6d4e7d0156fdcc3e", "src": "hda", "uuid": "ed233b3d-6aab-4aaa-a699-4178e648ff81"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a CGTCCGAANTAG --error-rate=0.1 --times=1 --overlap=3 --action=mask --minimum-length=1 -o out1.fq cutadapt_small_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.044 s (14817.635 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       3\nReads with adapters:                         1 (33.3%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             3 (100.0%)\n\nTotal basepairs processed:           102 bp\nTotal written (filtered):            102 bp (100.0%)\n\n=== Adapter 1 ===\n\nSequence: CGTCCGAANTAG; Type: regular 3'; Length: 12; Trimmed: 1 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-11 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 0.0%\n  T: 0.0%\n  none/other: 100.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n34\t1\t0.0\t1\t1\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a CGTCCGAANTAG --error-rate=0.1 --times=1 --overlap=3 --action=mask --minimum-length=1 -o out1.fq cutadapt_small_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.044 s (14817.635 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       3\nReads with adapters:                         1 (33.3%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             3 (100.0%)\n\nTotal basepairs processed:           102 bp\nTotal written (filtered):            102 bp (100.0%)\n\n=== Adapter 1 ===\n\nSequence: CGTCCGAANTAG; Type: regular 3'; Length: 12; Trimmed: 1 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-11 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 0.0%\n  T: 0.0%\n  none/other: 100.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n34\t1\t0.0\t1\t1\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "0 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "0E-7"}, {"title": "Job End Time", "value": "2024-09-15 13:14:30", "plugin": "core", "name": "end_epoch", "raw_value": "1726406070.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:14:30", "plugin": "core", "name": "start_epoch", "raw_value": "1726406070.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-19", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 19, "time_seconds": 27.74819850921631, "inputs": {"library|input_1": {"src": "hda", "id": "1023c09afec6b45f"}, "library|r1|adapters_0|adapter_source|adapter": "CGTCCGAANTAG", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|type": "single", "adapter_options|action": "lowercase"}, "job": {"model_class": "Job", "id": "87dd175f2fbd2c86", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:15:06.937015", "create_time": "2024-09-15T13:14:54.990965", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-fdttn", "command_line": "ln -f -s '/galaxy/server/database/objects/5/f/3/dataset_5f335f38-6d35-445e-982a-6bdf4bc4a834.dat' 'cutadapt_small_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'CGTCCGAANTAG'    --error-rate=0.1 --times=1 --overlap=3    --action=lowercase         --minimum-length=1      -o 'out1.fq'  'cutadapt_small_fastq.fq'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"lowercase\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 0, \"input_1\": {\"values\": [{\"id\": 140, \"src\": \"hda\"}]}, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"CGTCCGAANTAG\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"type\": \"single\"}"}, "inputs": {"library|input_1": {"id": "1023c09afec6b45f", "src": "hda", "uuid": "5f335f38-6d35-445e-982a-6bdf4bc4a834"}}, "outputs": {"out1": {"id": "62ba93de11cc9a85", "src": "hda", "uuid": "70f68b74-cb54-4fa8-8e86-a823e61fec18"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a CGTCCGAANTAG --error-rate=0.1 --times=1 --overlap=3 --action=lowercase --minimum-length=1 -o out1.fq cutadapt_small_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.046 s (15481.631 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       3\nReads with adapters:                         1 (33.3%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             3 (100.0%)\n\nTotal basepairs processed:           102 bp\nTotal written (filtered):            102 bp (100.0%)\n\n=== Adapter 1 ===\n\nSequence: CGTCCGAANTAG; Type: regular 3'; Length: 12; Trimmed: 1 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-11 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 0.0%\n  T: 0.0%\n  none/other: 100.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n34\t1\t0.0\t1\t1\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a CGTCCGAANTAG --error-rate=0.1 --times=1 --overlap=3 --action=lowercase --minimum-length=1 -o out1.fq cutadapt_small_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.046 s (15481.631 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       3\nReads with adapters:                         1 (33.3%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             3 (100.0%)\n\nTotal basepairs processed:           102 bp\nTotal written (filtered):            102 bp (100.0%)\n\n=== Adapter 1 ===\n\nSequence: CGTCCGAANTAG; Type: regular 3'; Length: 12; Trimmed: 1 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-11 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 0.0%\n  T: 0.0%\n  none/other: 100.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n34\t1\t0.0\t1\t1\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "0 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "0E-7"}, {"title": "Job End Time", "value": "2024-09-15 13:14:57", "plugin": "core", "name": "end_epoch", "raw_value": "1726406097.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:14:57", "plugin": "core", "name": "start_epoch", "raw_value": "1726406097.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-2", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 2, "time_seconds": 26.85987114906311, "inputs": {"library|input_1": {"src": "hda", "id": "ed98b937162c2bbc"}, "library|input_2": {"src": "hda", "id": "c9a1a82ad9dcabb9"}, "library|r1|adapters_0|adapter_source|adapter": "AGATCGGAAGAGC", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|r2|adapters2_0|adapter_source|adapter": "AGATCGGAAGAGC", "library|r2|adapters2_0|adapter_source|adapter_source_list": "user", "library|type": "paired"}, "job": {"model_class": "Job", "id": "5875927d2d3722c4", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:07:50.461027", "create_time": "2024-09-15T13:07:39.703326", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-2vg4q", "command_line": "ln -f -s '/galaxy/server/database/objects/5/a/f/dataset_5af6df1b-bd04-4e3d-a439-7d2f1bc691ab.dat' 'bwa-mem-fastq1_fq_gz.fq.gz' && ln -f -s '/galaxy/server/database/objects/6/b/4/dataset_6b4bfcb9-28e2-4145-b4c0-2ce35cdbaaa4.dat' 'bwa-mem-fastq2_fq_gz.fq.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'    -A 'AGATCGGAAGAGC'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      -o 'out1.fq.gz' -p 'out2.fq.gz'  'bwa-mem-fastq1_fq_gz.fq.gz' 'bwa-mem-fastq2_fq_gz.fq.gz'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 1, \"input_1\": {\"values\": [{\"id\": 89, \"src\": \"hda\"}]}, \"input_2\": {\"values\": [{\"id\": 90, \"src\": \"hda\"}]}, \"pair_adapters\": false, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGATCGGAAGAGC\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"r2\": {\"adapters2\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGATCGGAAGAGC\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters2\": [], \"front_adapters2\": []}, \"type\": \"paired\"}"}, "inputs": {"library|input_1": {"id": "ed98b937162c2bbc", "src": "hda", "uuid": "5af6df1b-bd04-4e3d-a439-7d2f1bc691ab"}, "library|input_2": {"id": "c9a1a82ad9dcabb9", "src": "hda", "uuid": "6b4bfcb9-28e2-4145-b4c0-2ce35cdbaaa4"}}, "outputs": {"out1": {"id": "5875927d2d3722c4", "src": "hda", "uuid": "2087e846-7517-4a0f-8e56-3e03bbf4bf95"}, "out2": {"id": "da2d9bf2213ddda6", "src": "hda", "uuid": "8f94a857-6684-4820-ac70-830081de40dc"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC -A AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_fq_gz.fq.gz bwa-mem-fastq2_fq_gz.fq.gz\nProcessing paired-end reads on 5 cores ...\nFinished in 0.170 s (1718.410 \u00b5s/read; 0.03 M reads/minute).\n\n=== Summary ===\n\nTotal read pairs processed:                 99\n  Read 1 with adapter:                       2 (2.0%)\n  Read 2 with adapter:                       4 (4.0%)\n\n== Read fate breakdown ==\nPairs that were too short:                   0 (0.0%)\nPairs written (passing filters):            99 (100.0%)\n\nTotal basepairs processed:        49,698 bp\n  Read 1:        24,849 bp\n  Read 2:        24,849 bp\nTotal written (filtered):         49,677 bp (100.0%)\n  Read 1:        24,843 bp\n  Read 2:        24,834 bp\n\n=== First read: Adapter 1 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 50.0%\n  G: 50.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n\n\n=== Second read: Adapter 2 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 4 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 50.0%\n  T: 50.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n4\t1\t0.4\t0\t1\n5\t1\t0.1\t0\t1\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC -A AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_fq_gz.fq.gz bwa-mem-fastq2_fq_gz.fq.gz\nProcessing paired-end reads on 5 cores ...\nFinished in 0.170 s (1718.410 \u00b5s/read; 0.03 M reads/minute).\n\n=== Summary ===\n\nTotal read pairs processed:                 99\n  Read 1 with adapter:                       2 (2.0%)\n  Read 2 with adapter:                       4 (4.0%)\n\n== Read fate breakdown ==\nPairs that were too short:                   0 (0.0%)\nPairs written (passing filters):            99 (100.0%)\n\nTotal basepairs processed:        49,698 bp\n  Read 1:        24,849 bp\n  Read 2:        24,849 bp\nTotal written (filtered):         49,677 bp (100.0%)\n  Read 1:        24,843 bp\n  Read 2:        24,834 bp\n\n=== First read: Adapter 1 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 50.0%\n  G: 50.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n\n\n=== Second read: Adapter 2 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 4 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 50.0%\n  T: 50.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n4\t1\t0.4\t0\t1\n5\t1\t0.1\t0\t1\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:07:41", "plugin": "core", "name": "end_epoch", "raw_value": "1726405661.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:07:40", "plugin": "core", "name": "start_epoch", "raw_value": "1726405660.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-20", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 20, "time_seconds": 26.0775089263916, "inputs": {"library|input_1": {"src": "hda", "id": "c6d5e590f36423fe"}, "library|r1|adapters_0|adapter_source|adapter": "CGTCCGAANTAG", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|type": "single", "adapter_options|action": "crop"}, "job": {"model_class": "Job", "id": "659906a111120b0b", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:15:33.204322", "create_time": "2024-09-15T13:15:22.120662", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-mbz2j", "command_line": "ln -f -s '/galaxy/server/database/objects/3/7/f/dataset_37fe1a28-ea04-4571-b85c-b44009abe665.dat' 'cutadapt_small_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'CGTCCGAANTAG'    --error-rate=0.1 --times=1 --overlap=3    --action=crop         --minimum-length=1      -o 'out1.fq'  'cutadapt_small_fastq.fq'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"crop\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 0, \"input_1\": {\"values\": [{\"id\": 142, \"src\": \"hda\"}]}, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"CGTCCGAANTAG\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"type\": \"single\"}"}, "inputs": {"library|input_1": {"id": "c6d5e590f36423fe", "src": "hda", "uuid": "37fe1a28-ea04-4571-b85c-b44009abe665"}}, "outputs": {"out1": {"id": "dbc17f16c54d8119", "src": "hda", "uuid": "1942d54d-cf54-4edc-a005-7b0b69f58405"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a CGTCCGAANTAG --error-rate=0.1 --times=1 --overlap=3 --action=crop --minimum-length=1 -o out1.fq cutadapt_small_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.043 s (14228.026 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       3\nReads with adapters:                         1 (33.3%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             3 (100.0%)\n\nTotal basepairs processed:           102 bp\nTotal written (filtered):             80 bp (78.4%)\n\n=== Adapter 1 ===\n\nSequence: CGTCCGAANTAG; Type: regular 3'; Length: 12; Trimmed: 1 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-11 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 0.0%\n  T: 0.0%\n  none/other: 100.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n34\t1\t0.0\t1\t1\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a CGTCCGAANTAG --error-rate=0.1 --times=1 --overlap=3 --action=crop --minimum-length=1 -o out1.fq cutadapt_small_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.043 s (14228.026 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       3\nReads with adapters:                         1 (33.3%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             3 (100.0%)\n\nTotal basepairs processed:           102 bp\nTotal written (filtered):             80 bp (78.4%)\n\n=== Adapter 1 ===\n\nSequence: CGTCCGAANTAG; Type: regular 3'; Length: 12; Trimmed: 1 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-11 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 0.0%\n  T: 0.0%\n  none/other: 100.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n34\t1\t0.0\t1\t1\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:15:24", "plugin": "core", "name": "end_epoch", "raw_value": "1726406124.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:15:23", "plugin": "core", "name": "start_epoch", "raw_value": "1726406123.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-21", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 21, "time_seconds": 26.465839862823486, "inputs": {"library|input_1": {"src": "hda", "id": "2cea19bf8bed385f"}, "library|r1|adapters_0|adapter_source|adapter": "CGTCCGAANTAG", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|type": "single", "adapter_options|action": "none"}, "job": {"model_class": "Job", "id": "1473a73ac45bde6f", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:15:59.599376", "create_time": "2024-09-15T13:15:48.782381", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-kx666", "command_line": "ln -f -s '/galaxy/server/database/objects/e/e/8/dataset_ee8f4078-700c-4d23-8c73-1a2518ddbbcd.dat' 'cutadapt_small_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'CGTCCGAANTAG'    --error-rate=0.1 --times=1 --overlap=3    --action=none         --minimum-length=1      -o 'out1.fq'  'cutadapt_small_fastq.fq'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"none\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 0, \"input_1\": {\"values\": [{\"id\": 144, \"src\": \"hda\"}]}, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"CGTCCGAANTAG\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"type\": \"single\"}"}, "inputs": {"library|input_1": {"id": "2cea19bf8bed385f", "src": "hda", "uuid": "ee8f4078-700c-4d23-8c73-1a2518ddbbcd"}}, "outputs": {"out1": {"id": "84df64656825589e", "src": "hda", "uuid": "a29972f9-aac5-425b-8ba3-f8b14d283dc2"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a CGTCCGAANTAG --error-rate=0.1 --times=1 --overlap=3 --action=none --minimum-length=1 -o out1.fq cutadapt_small_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.044 s (14768.918 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       3\nReads with adapters:                         1 (33.3%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             3 (100.0%)\n\nTotal basepairs processed:           102 bp\nTotal written (filtered):            102 bp (100.0%)\n\n=== Adapter 1 ===\n\nSequence: CGTCCGAANTAG; Type: regular 3'; Length: 12; Trimmed: 1 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-11 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 0.0%\n  T: 0.0%\n  none/other: 100.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n34\t1\t0.0\t1\t1\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a CGTCCGAANTAG --error-rate=0.1 --times=1 --overlap=3 --action=none --minimum-length=1 -o out1.fq cutadapt_small_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.044 s (14768.918 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       3\nReads with adapters:                         1 (33.3%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             3 (100.0%)\n\nTotal basepairs processed:           102 bp\nTotal written (filtered):            102 bp (100.0%)\n\n=== Adapter 1 ===\n\nSequence: CGTCCGAANTAG; Type: regular 3'; Length: 12; Trimmed: 1 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-11 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 0.0%\n  T: 0.0%\n  none/other: 100.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n34\t1\t0.0\t1\t1\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:15:51", "plugin": "core", "name": "end_epoch", "raw_value": "1726406151.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:15:50", "plugin": "core", "name": "start_epoch", "raw_value": "1726406150.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-22", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 22, "time_seconds": 26.190699577331543, "inputs": {"library|input_1": {"src": "hda", "id": "cd23715900489149"}, "library|r1|adapters_0|adapter_source|adapter": "TAAACAGATTAGT", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|type": "single", "adapter_options|revcomp": true}, "job": {"model_class": "Job", "id": "0e31d0efff633976", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:16:26.003460", "create_time": "2024-09-15T13:16:15.072077", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-f9zqk", "command_line": "ln -f -s '/galaxy/server/database/objects/f/2/1/dataset_f21cd349-b053-4f2e-96a6-a1efaa3bfada.dat' 'cutadapt_small_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'TAAACAGATTAGT'    --error-rate=0.1 --times=1 --overlap=3    --action=trim --rc        --minimum-length=1      -o 'out1.fq'  'cutadapt_small_fastq.fq'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": true, \"times\": \"1\"}", "library": "{\"__current_case__\": 0, \"input_1\": {\"values\": [{\"id\": 146, \"src\": \"hda\"}]}, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"TAAACAGATTAGT\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"type\": \"single\"}"}, "inputs": {"library|input_1": {"id": "cd23715900489149", "src": "hda", "uuid": "f21cd349-b053-4f2e-96a6-a1efaa3bfada"}}, "outputs": {"out1": {"id": "4a0a6fdb3d259219", "src": "hda", "uuid": "a9e424d6-4cf6-490a-a82f-625fe6164d76"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a TAAACAGATTAGT --error-rate=0.1 --times=1 --overlap=3 --action=trim --rc --minimum-length=1 -o out1.fq cutadapt_small_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.043 s (14419.794 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       3\nReads with adapters:                         1 (33.3%)\nReverse-complemented:                        0 (0.0%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             3 (100.0%)\n\nTotal basepairs processed:           102 bp\nTotal written (filtered):             97 bp (95.1%)\n\n=== Adapter 1 ===\n\nSequence: TAAACAGATTAGT; Type: regular 3'; Length: 13; Trimmed: 1 times; Reverse-complemented: 0 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 0.0%\n  T: 100.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n5\t1\t0.0\t0\t1\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a TAAACAGATTAGT --error-rate=0.1 --times=1 --overlap=3 --action=trim --rc --minimum-length=1 -o out1.fq cutadapt_small_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.043 s (14419.794 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       3\nReads with adapters:                         1 (33.3%)\nReverse-complemented:                        0 (0.0%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             3 (100.0%)\n\nTotal basepairs processed:           102 bp\nTotal written (filtered):             97 bp (95.1%)\n\n=== Adapter 1 ===\n\nSequence: TAAACAGATTAGT; Type: regular 3'; Length: 13; Trimmed: 1 times; Reverse-complemented: 0 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 0.0%\n  T: 100.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n5\t1\t0.0\t0\t1\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "0 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "0E-7"}, {"title": "Job End Time", "value": "2024-09-15 13:16:16", "plugin": "core", "name": "end_epoch", "raw_value": "1726406176.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:16:16", "plugin": "core", "name": "start_epoch", "raw_value": "1726406176.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-23", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 23, "time_seconds": 26.93843722343445, "inputs": {"library|input_1": {"src": "hda", "id": "b6b41bcbb062df94"}, "library|input_2": {"src": "hda", "id": "9f18aa700a95c4cf"}, "library|r1|adapters_0|adapter_source|adapter": "ATCTGGTTCC", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|r2|adapters2_0|adapter_source|adapter": "CTACAAG", "library|r2|adapters2_0|adapter_source|adapter_source_list": "user", "library|type": "paired", "filter_options|minimum_length": "30", "filter_options|minimum_length2": "10", "filter_options|pair_filter": "both"}, "job": {"model_class": "Job", "id": "18fbc84d98febeed", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:16:52.547388", "create_time": "2024-09-15T13:16:41.934956", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-k6dpt", "command_line": "ln -f -s '/galaxy/server/database/objects/a/f/e/dataset_afe9cd0a-7571-40e6-9144-d67d3b814a54.dat' 'bwa-mem-fastq1_assimetric_fq_gz.fq.gz' && ln -f -s '/galaxy/server/database/objects/d/d/8/dataset_dd87ce32-7fce-4e27-b03d-a5d7b9ead40c.dat' 'bwa-mem-fastq2_assimetric_fq_gz.fq.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'ATCTGGTTCC'    -A 'CTACAAG'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=30:10  --pair-filter=both     -o 'out1.fq.gz' -p 'out2.fq.gz'  'bwa-mem-fastq1_assimetric_fq_gz.fq.gz' 'bwa-mem-fastq2_assimetric_fq_gz.fq.gz'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"30\", \"minimum_length2\": \"10\", \"pair_filter\": \"both\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 1, \"input_1\": {\"values\": [{\"id\": 148, \"src\": \"hda\"}]}, \"input_2\": {\"values\": [{\"id\": 149, \"src\": \"hda\"}]}, \"pair_adapters\": false, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"ATCTGGTTCC\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"r2\": {\"adapters2\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"CTACAAG\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters2\": [], \"front_adapters2\": []}, \"type\": \"paired\"}"}, "inputs": {"library|input_1": {"id": "b6b41bcbb062df94", "src": "hda", "uuid": "afe9cd0a-7571-40e6-9144-d67d3b814a54"}, "library|input_2": {"id": "9f18aa700a95c4cf", "src": "hda", "uuid": "dd87ce32-7fce-4e27-b03d-a5d7b9ead40c"}}, "outputs": {"out1": {"id": "cffad93bec7a7093", "src": "hda", "uuid": "d60b5e39-494a-4968-9738-c9bc125d8d89"}, "out2": {"id": "1fa159ba0d6ab696", "src": "hda", "uuid": "b5ccaa17-2264-4bcc-a687-7f6481526d67"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a ATCTGGTTCC -A CTACAAG --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=30:10 --pair-filter=both -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_assimetric_fq_gz.fq.gz bwa-mem-fastq2_assimetric_fq_gz.fq.gz\nProcessing paired-end reads on 5 cores ...\nFinished in 0.175 s (1769.401 \u00b5s/read; 0.03 M reads/minute).\n\n=== Summary ===\n\nTotal read pairs processed:                 99\n  Read 1 with adapter:                      32 (32.3%)\n  Read 2 with adapter:                      15 (15.2%)\n\n== Read fate breakdown ==\nPairs that were too short:                   3 (3.0%)\nPairs written (passing filters):            96 (97.0%)\n\nTotal basepairs processed:        48,291 bp\n  Read 1:        24,147 bp\n  Read 2:        24,144 bp\nTotal written (filtered):         38,492 bp (79.7%)\n  Read 1:        17,741 bp\n  Read 2:        20,751 bp\n\n=== First read: Adapter 1 ===\n\nSequence: ATCTGGTTCC; Type: regular 3'; Length: 10; Trimmed: 32 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 90.6%\n  G: 3.1%\n  T: 0.0%\n  none/other: 6.2%\nWARNING:\n    The adapter is preceded by 'C' extremely often.\n    The provided adapter sequence could be incomplete at its 5' end.\n    Ignore this warning when trimming primers.\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n13\t1\t0.0\t1\t1\n14\t1\t0.0\t1\t1\n201\t1\t0.0\t1\t1\n203\t1\t0.0\t1\t1\n208\t2\t0.0\t1\t2\n209\t1\t0.0\t1\t1\n211\t1\t0.0\t1\t1\n214\t2\t0.0\t1\t2\n217\t2\t0.0\t1\t2\n218\t1\t0.0\t1\t1\n222\t1\t0.0\t1\t1\n226\t1\t0.0\t1\t1\n227\t2\t0.0\t1\t2\n228\t1\t0.0\t1\t1\n229\t1\t0.0\t1\t1\n232\t2\t0.0\t1\t2\n238\t1\t0.0\t1\t1\n242\t7\t0.0\t1\t7\n251\t1\t0.0\t1\t0 1\n\n\n=== Second read: Adapter 2 ===\n\nSequence: CTACAAG; Type: regular 3'; Length: 7; Trimmed: 15 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-7 bp: 0\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 73.3%\n  G: 0.0%\n  T: 0.0%\n  none/other: 26.7%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n8\t1\t0.0\t0\t1\n228\t2\t0.0\t0\t2\n229\t1\t0.0\t0\t1\n238\t3\t0.0\t0\t3\n241\t1\t0.0\t0\t1\n243\t1\t0.0\t0\t1\n246\t1\t0.0\t0\t1\n248\t1\t0.0\t0\t1\n250\t1\t0.0\t0\t1\n251\t3\t0.0\t0\t3\n\n\nWARNING:\n    One or more of your adapter sequences may be incomplete.\n    Please see the detailed output above.\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a ATCTGGTTCC -A CTACAAG --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=30:10 --pair-filter=both -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_assimetric_fq_gz.fq.gz bwa-mem-fastq2_assimetric_fq_gz.fq.gz\nProcessing paired-end reads on 5 cores ...\nFinished in 0.175 s (1769.401 \u00b5s/read; 0.03 M reads/minute).\n\n=== Summary ===\n\nTotal read pairs processed:                 99\n  Read 1 with adapter:                      32 (32.3%)\n  Read 2 with adapter:                      15 (15.2%)\n\n== Read fate breakdown ==\nPairs that were too short:                   3 (3.0%)\nPairs written (passing filters):            96 (97.0%)\n\nTotal basepairs processed:        48,291 bp\n  Read 1:        24,147 bp\n  Read 2:        24,144 bp\nTotal written (filtered):         38,492 bp (79.7%)\n  Read 1:        17,741 bp\n  Read 2:        20,751 bp\n\n=== First read: Adapter 1 ===\n\nSequence: ATCTGGTTCC; Type: regular 3'; Length: 10; Trimmed: 32 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 90.6%\n  G: 3.1%\n  T: 0.0%\n  none/other: 6.2%\nWARNING:\n    The adapter is preceded by 'C' extremely often.\n    The provided adapter sequence could be incomplete at its 5' end.\n    Ignore this warning when trimming primers.\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n13\t1\t0.0\t1\t1\n14\t1\t0.0\t1\t1\n201\t1\t0.0\t1\t1\n203\t1\t0.0\t1\t1\n208\t2\t0.0\t1\t2\n209\t1\t0.0\t1\t1\n211\t1\t0.0\t1\t1\n214\t2\t0.0\t1\t2\n217\t2\t0.0\t1\t2\n218\t1\t0.0\t1\t1\n222\t1\t0.0\t1\t1\n226\t1\t0.0\t1\t1\n227\t2\t0.0\t1\t2\n228\t1\t0.0\t1\t1\n229\t1\t0.0\t1\t1\n232\t2\t0.0\t1\t2\n238\t1\t0.0\t1\t1\n242\t7\t0.0\t1\t7\n251\t1\t0.0\t1\t0 1\n\n\n=== Second read: Adapter 2 ===\n\nSequence: CTACAAG; Type: regular 3'; Length: 7; Trimmed: 15 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-7 bp: 0\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 73.3%\n  G: 0.0%\n  T: 0.0%\n  none/other: 26.7%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n8\t1\t0.0\t0\t1\n228\t2\t0.0\t0\t2\n229\t1\t0.0\t0\t1\n238\t3\t0.0\t0\t3\n241\t1\t0.0\t0\t1\n243\t1\t0.0\t0\t1\n246\t1\t0.0\t0\t1\n248\t1\t0.0\t0\t1\n250\t1\t0.0\t0\t1\n251\t3\t0.0\t0\t3\n\n\nWARNING:\n    One or more of your adapter sequences may be incomplete.\n    Please see the detailed output above.\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:16:44", "plugin": "core", "name": "end_epoch", "raw_value": "1726406204.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:16:43", "plugin": "core", "name": "start_epoch", "raw_value": "1726406203.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-24", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 24, "time_seconds": 28.638988494873047, "inputs": {"library|input_1": {"src": "hda", "id": "0edac2f08b285718"}, "library|input_2": {"src": "hda", "id": "7199ab9d58647d99"}, "library|r1|adapters_0|adapter_source|adapter": "AGATCGGAAGAGC", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|r2|adapters2_0|adapter_source|adapter": "AGATCGGAAGAGC", "library|r2|adapters2_0|adapter_source|adapter_source_list": "user", "library|type": "paired", "filter_options|maximum_length": "50", "filter_options|maximum_length2": "30", "filter_options|pair_filter": "both"}, "job": {"model_class": "Job", "id": "6d4e7d0156fdcc3e", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:17:21.118844", "create_time": "2024-09-15T13:17:09.598029", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-hcsgn", "command_line": "ln -f -s '/galaxy/server/database/objects/0/e/6/dataset_0e62fc39-0927-4cbe-8247-1eeb4ffcdc12.dat' 'bwa-mem-fastq1_assimetric_fq_gz.fq.gz' && ln -f -s '/galaxy/server/database/objects/2/6/c/dataset_26cb2d5e-2881-48d8-8d68-ba4e67a0b60c.dat' 'bwa-mem-fastq2_assimetric_fq_gz.fq.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'    -A 'AGATCGGAAGAGC'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1 --maximum-length=50:30  --pair-filter=both     -o 'out1.fq.gz' -p 'out2.fq.gz'  'bwa-mem-fastq1_assimetric_fq_gz.fq.gz' 'bwa-mem-fastq2_assimetric_fq_gz.fq.gz'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"50\", \"maximum_length2\": \"30\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"both\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 1, \"input_1\": {\"values\": [{\"id\": 152, \"src\": \"hda\"}]}, \"input_2\": {\"values\": [{\"id\": 153, \"src\": \"hda\"}]}, \"pair_adapters\": false, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGATCGGAAGAGC\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"r2\": {\"adapters2\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGATCGGAAGAGC\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters2\": [], \"front_adapters2\": []}, \"type\": \"paired\"}"}, "inputs": {"library|input_1": {"id": "0edac2f08b285718", "src": "hda", "uuid": "0e62fc39-0927-4cbe-8247-1eeb4ffcdc12"}, "library|input_2": {"id": "7199ab9d58647d99", "src": "hda", "uuid": "26cb2d5e-2881-48d8-8d68-ba4e67a0b60c"}}, "outputs": {"out1": {"id": "d2b5c656bc8d5b72", "src": "hda", "uuid": "8a5f3d06-c209-4e3f-9445-bff2f0d274f0"}, "out2": {"id": "d7bf21cbc92fd9be", "src": "hda", "uuid": "c0eee5a9-4bf0-4f80-9dde-c8e2fa2c1bce"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC -A AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 --maximum-length=50:30 --pair-filter=both -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_assimetric_fq_gz.fq.gz bwa-mem-fastq2_assimetric_fq_gz.fq.gz\nProcessing paired-end reads on 5 cores ...\nFinished in 0.173 s (1747.052 \u00b5s/read; 0.03 M reads/minute).\n\n=== Summary ===\n\nTotal read pairs processed:                 99\n  Read 1 with adapter:                       2 (2.0%)\n  Read 2 with adapter:                       4 (4.0%)\n\n== Read fate breakdown ==\nPairs that were too short:                   0 (0.0%)\nPairs that were too long:                   96 (97.0%)\nPairs written (passing filters):             3 (3.0%)\n\nTotal basepairs processed:        48,291 bp\n  Read 1:        24,147 bp\n  Read 2:        24,144 bp\nTotal written (filtered):             99 bp (0.2%)\n  Read 1:            51 bp\n  Read 2:            48 bp\n\n=== First read: Adapter 1 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 50.0%\n  G: 50.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n\n\n=== Second read: Adapter 2 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 4 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 50.0%\n  T: 50.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n4\t1\t0.4\t0\t1\n5\t1\t0.1\t0\t1\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC -A AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 --maximum-length=50:30 --pair-filter=both -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_assimetric_fq_gz.fq.gz bwa-mem-fastq2_assimetric_fq_gz.fq.gz\nProcessing paired-end reads on 5 cores ...\nFinished in 0.173 s (1747.052 \u00b5s/read; 0.03 M reads/minute).\n\n=== Summary ===\n\nTotal read pairs processed:                 99\n  Read 1 with adapter:                       2 (2.0%)\n  Read 2 with adapter:                       4 (4.0%)\n\n== Read fate breakdown ==\nPairs that were too short:                   0 (0.0%)\nPairs that were too long:                   96 (97.0%)\nPairs written (passing filters):             3 (3.0%)\n\nTotal basepairs processed:        48,291 bp\n  Read 1:        24,147 bp\n  Read 2:        24,144 bp\nTotal written (filtered):             99 bp (0.2%)\n  Read 1:            51 bp\n  Read 2:            48 bp\n\n=== First read: Adapter 1 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 50.0%\n  G: 50.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n\n\n=== Second read: Adapter 2 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 4 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 50.0%\n  T: 50.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n4\t1\t0.4\t0\t1\n5\t1\t0.1\t0\t1\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:17:12", "plugin": "core", "name": "end_epoch", "raw_value": "1726406232.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:17:11", "plugin": "core", "name": "start_epoch", "raw_value": "1726406231.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-25", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 25, "time_seconds": 28.654523134231567, "inputs": {"library|input_1": {"src": "hda", "id": "b21a0cdafeaff234"}, "library|input_2": {"src": "hda", "id": "5cfe38ad1aa014ff"}, "library|r1|adapters_0|adapter_source|adapter": "AGATCGGAAGAGC", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|type": "paired", "filter_options|minimum_length": "10", "filter_options|maximum_length": "50", "filter_options|maximum_length2": "30", "filter_options|pair_filter": "both"}, "job": {"model_class": "Job", "id": "c6d5e590f36423fe", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:17:49.751003", "create_time": "2024-09-15T13:17:38.344249", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-6k272", "command_line": "ln -f -s '/galaxy/server/database/objects/c/1/a/dataset_c1a1aef6-b29d-4d47-aaee-e8bb508d8106.dat' 'bwa-mem-fastq1_assimetric_fq_gz.fq.gz' && ln -f -s '/galaxy/server/database/objects/f/b/0/dataset_fb0f008f-07d4-4e01-80f1-94c1ce5b35e7.dat' 'bwa-mem-fastq2_assimetric_fq_gz.fq.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'     --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=10 --maximum-length=50:30  --pair-filter=both     -o 'out1.fq.gz' -p 'out2.fq.gz'  'bwa-mem-fastq1_assimetric_fq_gz.fq.gz' 'bwa-mem-fastq2_assimetric_fq_gz.fq.gz'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"50\", \"maximum_length2\": \"30\", \"minimum_length\": \"10\", \"minimum_length2\": \"\", \"pair_filter\": \"both\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 1, \"input_1\": {\"values\": [{\"id\": 156, \"src\": \"hda\"}]}, \"input_2\": {\"values\": [{\"id\": 157, \"src\": \"hda\"}]}, \"pair_adapters\": false, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGATCGGAAGAGC\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"r2\": {\"adapters2\": [], \"anywhere_adapters2\": [], \"front_adapters2\": []}, \"type\": \"paired\"}"}, "inputs": {"library|input_1": {"id": "b21a0cdafeaff234", "src": "hda", "uuid": "c1a1aef6-b29d-4d47-aaee-e8bb508d8106"}, "library|input_2": {"id": "5cfe38ad1aa014ff", "src": "hda", "uuid": "fb0f008f-07d4-4e01-80f1-94c1ce5b35e7"}}, "outputs": {"out1": {"id": "c21f769a83f08d92", "src": "hda", "uuid": "49206bdb-a387-469b-a05b-c9efe7ec9bdc"}, "out2": {"id": "2c5810d4e67485b2", "src": "hda", "uuid": "2866cf04-2bbc-4587-9944-3774fd0a3423"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=10 --maximum-length=50:30 --pair-filter=both -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_assimetric_fq_gz.fq.gz bwa-mem-fastq2_assimetric_fq_gz.fq.gz\nProcessing paired-end reads on 5 cores ...\nFinished in 0.159 s (1608.278 \u00b5s/read; 0.04 M reads/minute).\n\n=== Summary ===\n\nTotal read pairs processed:                 99\n  Read 1 with adapter:                       2 (2.0%)\n\n== Read fate breakdown ==\nPairs that were too short:                   0 (0.0%)\nPairs that were too long:                   96 (97.0%)\nPairs written (passing filters):             3 (3.0%)\n\nTotal basepairs processed:        48,291 bp\n  Read 1:        24,147 bp\n  Read 2:        24,144 bp\nTotal written (filtered):             99 bp (0.2%)\n  Read 1:            51 bp\n  Read 2:            48 bp\n\n=== First read: Adapter 1 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 50.0%\n  G: 50.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=10 --maximum-length=50:30 --pair-filter=both -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_assimetric_fq_gz.fq.gz bwa-mem-fastq2_assimetric_fq_gz.fq.gz\nProcessing paired-end reads on 5 cores ...\nFinished in 0.159 s (1608.278 \u00b5s/read; 0.04 M reads/minute).\n\n=== Summary ===\n\nTotal read pairs processed:                 99\n  Read 1 with adapter:                       2 (2.0%)\n\n== Read fate breakdown ==\nPairs that were too short:                   0 (0.0%)\nPairs that were too long:                   96 (97.0%)\nPairs written (passing filters):             3 (3.0%)\n\nTotal basepairs processed:        48,291 bp\n  Read 1:        24,147 bp\n  Read 2:        24,144 bp\nTotal written (filtered):             99 bp (0.2%)\n  Read 1:            51 bp\n  Read 2:            48 bp\n\n=== First read: Adapter 1 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 50.0%\n  G: 50.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:17:41", "plugin": "core", "name": "end_epoch", "raw_value": "1726406261.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:17:40", "plugin": "core", "name": "start_epoch", "raw_value": "1726406260.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-26", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 26, "time_seconds": 28.508868932724, "inputs": {"library|input_1": {"src": "hda", "id": "b64643a14b1c52ca"}, "library|input_2": {"src": "hda", "id": "f75d1604c5766666"}, "library|r1|adapters_0|adapter_source|adapter": "AGATCGGAAGAGC", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|type": "paired", "filter_options|minimum_length": "10", "filter_options|minimum_length2": "10", "filter_options|maximum_length": "50", "filter_options|pair_filter": "both"}, "job": {"model_class": "Job", "id": "84df64656825589e", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:18:18.549475", "create_time": "2024-09-15T13:18:06.947220", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-gnjr9", "command_line": "ln -f -s '/galaxy/server/database/objects/4/8/2/dataset_4820c4dd-9e4e-4af6-8a85-c774dd89c82d.dat' 'bwa-mem-fastq1_assimetric_fq_gz.fq.gz' && ln -f -s '/galaxy/server/database/objects/1/3/5/dataset_1352bf4f-2fc5-4000-bc94-425d8a98401d.dat' 'bwa-mem-fastq2_assimetric_fq_gz.fq.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'     --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=10:10 --maximum-length=50  --pair-filter=both     -o 'out1.fq.gz' -p 'out2.fq.gz'  'bwa-mem-fastq1_assimetric_fq_gz.fq.gz' 'bwa-mem-fastq2_assimetric_fq_gz.fq.gz'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"50\", \"maximum_length2\": \"\", \"minimum_length\": \"10\", \"minimum_length2\": \"10\", \"pair_filter\": \"both\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 1, \"input_1\": {\"values\": [{\"id\": 160, \"src\": \"hda\"}]}, \"input_2\": {\"values\": [{\"id\": 161, \"src\": \"hda\"}]}, \"pair_adapters\": false, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGATCGGAAGAGC\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"r2\": {\"adapters2\": [], \"anywhere_adapters2\": [], \"front_adapters2\": []}, \"type\": \"paired\"}"}, "inputs": {"library|input_1": {"id": "b64643a14b1c52ca", "src": "hda", "uuid": "4820c4dd-9e4e-4af6-8a85-c774dd89c82d"}, "library|input_2": {"id": "f75d1604c5766666", "src": "hda", "uuid": "1352bf4f-2fc5-4000-bc94-425d8a98401d"}}, "outputs": {"out1": {"id": "e884254719737b0b", "src": "hda", "uuid": "381ab5a6-48dc-4735-9d84-6ac7feb90a06"}, "out2": {"id": "d5c10acbed004e12", "src": "hda", "uuid": "0ff925cc-aef2-40c9-95ec-b1b29fec172e"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=10:10 --maximum-length=50 --pair-filter=both -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_assimetric_fq_gz.fq.gz bwa-mem-fastq2_assimetric_fq_gz.fq.gz\nProcessing paired-end reads on 5 cores ...\nFinished in 0.162 s (1638.846 \u00b5s/read; 0.04 M reads/minute).\n\n=== Summary ===\n\nTotal read pairs processed:                 99\n  Read 1 with adapter:                       2 (2.0%)\n\n== Read fate breakdown ==\nPairs that were too short:                   0 (0.0%)\nPairs that were too long:                   96 (97.0%)\nPairs written (passing filters):             3 (3.0%)\n\nTotal basepairs processed:        48,291 bp\n  Read 1:        24,147 bp\n  Read 2:        24,144 bp\nTotal written (filtered):             99 bp (0.2%)\n  Read 1:            51 bp\n  Read 2:            48 bp\n\n=== First read: Adapter 1 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 50.0%\n  G: 50.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=10:10 --maximum-length=50 --pair-filter=both -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_assimetric_fq_gz.fq.gz bwa-mem-fastq2_assimetric_fq_gz.fq.gz\nProcessing paired-end reads on 5 cores ...\nFinished in 0.162 s (1638.846 \u00b5s/read; 0.04 M reads/minute).\n\n=== Summary ===\n\nTotal read pairs processed:                 99\n  Read 1 with adapter:                       2 (2.0%)\n\n== Read fate breakdown ==\nPairs that were too short:                   0 (0.0%)\nPairs that were too long:                   96 (97.0%)\nPairs written (passing filters):             3 (3.0%)\n\nTotal basepairs processed:        48,291 bp\n  Read 1:        24,147 bp\n  Read 2:        24,144 bp\nTotal written (filtered):             99 bp (0.2%)\n  Read 1:            51 bp\n  Read 2:            48 bp\n\n=== First read: Adapter 1 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 50.0%\n  G: 50.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:18:09", "plugin": "core", "name": "end_epoch", "raw_value": "1726406289.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:18:08", "plugin": "core", "name": "start_epoch", "raw_value": "1726406288.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-27", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 27, "time_seconds": 24.763807773590088, "inputs": {"library|input_1": {"src": "hda", "id": "00cdcde19f89605b"}, "library|r1|adapters_0|adapter_source|adapter": "AGCCGCTANGACG", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|type": "single", "other_trimming_options|shorten_options|length": "10", "other_trimming_options|shorten_options|shorten_end": "3prime", "other_trimming_options|shorten_options|shorten_values": "True", "filter_options|minimum_length": "0"}, "job": {"model_class": "Job", "id": "4a0a6fdb3d259219", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:18:43.763482", "create_time": "2024-09-15T13:18:32.974535", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-877bb", "command_line": "ln -f -s '/galaxy/server/database/objects/0/0/6/dataset_006c6c85-4c89-4714-b475-18a33d4c6970.dat' 'cutadapt_small_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGCCGCTANGACG'    --error-rate=0.1 --times=1 --overlap=3    --action=trim     --length=10          -o 'out1.fq'  'cutadapt_small_fastq.fq'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"0\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 0, \"length\": \"10\", \"shorten_end\": \"3prime\", \"shorten_values\": \"True\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 0, \"input_1\": {\"values\": [{\"id\": 164, \"src\": \"hda\"}]}, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGCCGCTANGACG\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"type\": \"single\"}"}, "inputs": {"library|input_1": {"id": "00cdcde19f89605b", "src": "hda", "uuid": "006c6c85-4c89-4714-b475-18a33d4c6970"}}, "outputs": {"out1": {"id": "2784cb0a887bd5f3", "src": "hda", "uuid": "513e28ac-22f8-4c50-8e02-c5bab3c81792"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGCCGCTANGACG --error-rate=0.1 --times=1 --overlap=3 --action=trim --length=10 -o out1.fq cutadapt_small_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.041 s (13507.843 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       3\nReads with adapters:                         1 (33.3%)\nReads written (passing filters):             3 (100.0%)\n\nTotal basepairs processed:           102 bp\nTotal written (filtered):             20 bp (19.6%)\n\n=== Adapter 1 ===\n\nSequence: AGCCGCTANGACG; Type: regular 3'; Length: 13; Trimmed: 1 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-12 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 0.0%\n  T: 0.0%\n  none/other: 100.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n34\t1\t0.0\t1\t1\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGCCGCTANGACG --error-rate=0.1 --times=1 --overlap=3 --action=trim --length=10 -o out1.fq cutadapt_small_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.041 s (13507.843 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       3\nReads with adapters:                         1 (33.3%)\nReads written (passing filters):             3 (100.0%)\n\nTotal basepairs processed:           102 bp\nTotal written (filtered):             20 bp (19.6%)\n\n=== Adapter 1 ===\n\nSequence: AGCCGCTANGACG; Type: regular 3'; Length: 13; Trimmed: 1 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-12 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 0.0%\n  T: 0.0%\n  none/other: 100.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n34\t1\t0.0\t1\t1\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:18:35", "plugin": "core", "name": "end_epoch", "raw_value": "1726406315.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:18:34", "plugin": "core", "name": "start_epoch", "raw_value": "1726406314.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-28", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 28, "time_seconds": 27.27968668937683, "inputs": {"library|input_1": {"src": "hda", "id": "acbe0911ab1134e7"}, "library|r1|adapters_0|adapter_source|adapter": "AGCCGCTANGACG", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|type": "single", "other_trimming_options|shorten_options|length": "10", "other_trimming_options|shorten_options|shorten_end": "5prime", "other_trimming_options|shorten_options|shorten_values": "True", "filter_options|minimum_length": "0"}, "job": {"model_class": "Job", "id": "9f18aa700a95c4cf", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:19:11.026720", "create_time": "2024-09-15T13:18:59.101060", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-h974p", "command_line": "ln -f -s '/galaxy/server/database/objects/a/d/8/dataset_ad837fb8-7e8a-45df-af36-68d7ceb66290.dat' 'cutadapt_small_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGCCGCTANGACG'    --error-rate=0.1 --times=1 --overlap=3    --action=trim     --length=-10          -o 'out1.fq'  'cutadapt_small_fastq.fq'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"0\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 0, \"length\": \"10\", \"shorten_end\": \"5prime\", \"shorten_values\": \"True\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 0, \"input_1\": {\"values\": [{\"id\": 166, \"src\": \"hda\"}]}, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGCCGCTANGACG\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"type\": \"single\"}"}, "inputs": {"library|input_1": {"id": "acbe0911ab1134e7", "src": "hda", "uuid": "ad837fb8-7e8a-45df-af36-68d7ceb66290"}}, "outputs": {"out1": {"id": "2425dec95dcf4d16", "src": "hda", "uuid": "c5933861-5524-4670-8755-d4ac20ef4861"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGCCGCTANGACG --error-rate=0.1 --times=1 --overlap=3 --action=trim --length=-10 -o out1.fq cutadapt_small_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.044 s (14674.187 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       3\nReads with adapters:                         1 (33.3%)\nReads written (passing filters):             3 (100.0%)\n\nTotal basepairs processed:           102 bp\nTotal written (filtered):             20 bp (19.6%)\n\n=== Adapter 1 ===\n\nSequence: AGCCGCTANGACG; Type: regular 3'; Length: 13; Trimmed: 1 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-12 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 0.0%\n  T: 0.0%\n  none/other: 100.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n34\t1\t0.0\t1\t1\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGCCGCTANGACG --error-rate=0.1 --times=1 --overlap=3 --action=trim --length=-10 -o out1.fq cutadapt_small_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.044 s (14674.187 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       3\nReads with adapters:                         1 (33.3%)\nReads written (passing filters):             3 (100.0%)\n\nTotal basepairs processed:           102 bp\nTotal written (filtered):             20 bp (19.6%)\n\n=== Adapter 1 ===\n\nSequence: AGCCGCTANGACG; Type: regular 3'; Length: 13; Trimmed: 1 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-12 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 0.0%\n  T: 0.0%\n  none/other: 100.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n34\t1\t0.0\t1\t1\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:19:02", "plugin": "core", "name": "end_epoch", "raw_value": "1726406342.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:19:01", "plugin": "core", "name": "start_epoch", "raw_value": "1726406341.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-29", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 29, "time_seconds": 26.958909511566162, "inputs": {"library|input_1": {"src": "hda", "id": "c706d9a807cc1ec0"}, "library|r1|adapters_0|adapter_source|adapter": "AGCCGCTANGACG", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|r2|adapters2_0|adapter_source|adapter": "AGCCGCTANGACG", "library|r2|adapters2_0|adapter_source|adapter_source_list": "user", "library|type": "paired", "other_trimming_options|shorten_options|length": "10", "other_trimming_options|shorten_options|shorten_end": "3prime", "other_trimming_options|shorten_options|shorten_values": "True", "other_trimming_options|shorten_options_r2|length2": "10", "other_trimming_options|shorten_options_r2|shorten_end_r2": "5prime", "other_trimming_options|shorten_options_r2|shorten_values_r2": "True", "filter_options|minimum_length": "0"}, "job": {"model_class": "Job", "id": "1fa159ba0d6ab696", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:19:37.584972", "create_time": "2024-09-15T13:19:26.765066", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-ww85s", "command_line": "ln -f -s '/galaxy/server/database/objects/c/b/8/dataset_cb82816a-d3f7-4c68-844a-e9e4708cf36d.dat' 'cutadapt_small_fastq_1.fq' && ln -f -s '/galaxy/server/database/objects/c/b/8/dataset_cb82816a-d3f7-4c68-844a-e9e4708cf36d.dat' 'cutadapt_small_fastq_2.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGCCGCTANGACG'    -A 'AGCCGCTANGACG'    --error-rate=0.1 --times=1 --overlap=3    --action=trim     --length=10 -L -10          -o 'out1.fq' -p 'out2.fq'  'cutadapt_small_fastq_1.fq' 'cutadapt_small_fastq_2.fq'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"0\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 0, \"length\": \"10\", \"shorten_end\": \"3prime\", \"shorten_values\": \"True\"}, \"shorten_options_r2\": {\"__current_case__\": 0, \"length2\": \"10\", \"shorten_end_r2\": \"5prime\", \"shorten_values_r2\": \"True\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 1, \"input_1\": {\"values\": [{\"id\": 168, \"src\": \"hda\"}]}, \"input_2\": {\"values\": [{\"id\": 168, \"src\": \"hda\"}]}, \"pair_adapters\": false, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGCCGCTANGACG\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"r2\": {\"adapters2\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGCCGCTANGACG\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters2\": [], \"front_adapters2\": []}, \"type\": \"paired\"}"}, "inputs": {"library|input_1": {"id": "c706d9a807cc1ec0", "src": "hda", "uuid": "cb82816a-d3f7-4c68-844a-e9e4708cf36d"}, "library|input_2": {"id": "c706d9a807cc1ec0", "src": "hda", "uuid": "cb82816a-d3f7-4c68-844a-e9e4708cf36d"}}, "outputs": {"out1": {"id": "74d622202d50b55f", "src": "hda", "uuid": "99a7bdd3-178f-4482-9ee4-03fcb9060052"}, "out2": {"id": "bdc404197c7d56c6", "src": "hda", "uuid": "3fd5c921-015e-4651-b3dd-89e7b500965f"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGCCGCTANGACG -A AGCCGCTANGACG --error-rate=0.1 --times=1 --overlap=3 --action=trim --length=10 -L -10 -o out1.fq -p out2.fq cutadapt_small_fastq_1.fq cutadapt_small_fastq_2.fq\nProcessing paired-end reads on 5 cores ...\nFinished in 0.064 s (21483.978 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal read pairs processed:                  3\n  Read 1 with adapter:                       1 (33.3%)\n  Read 2 with adapter:                       1 (33.3%)\nPairs written (passing filters):             3 (100.0%)\n\nTotal basepairs processed:           204 bp\n  Read 1:           102 bp\n  Read 2:           102 bp\nTotal written (filtered):             40 bp (19.6%)\n  Read 1:            20 bp\n  Read 2:            20 bp\n\n=== First read: Adapter 1 ===\n\nSequence: AGCCGCTANGACG; Type: regular 3'; Length: 13; Trimmed: 1 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-12 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 0.0%\n  T: 0.0%\n  none/other: 100.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n34\t1\t0.0\t1\t1\n\n\n=== Second read: Adapter 2 ===\n\nSequence: AGCCGCTANGACG; Type: regular 3'; Length: 13; Trimmed: 1 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-12 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 0.0%\n  T: 0.0%\n  none/other: 100.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n34\t1\t0.0\t1\t1\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGCCGCTANGACG -A AGCCGCTANGACG --error-rate=0.1 --times=1 --overlap=3 --action=trim --length=10 -L -10 -o out1.fq -p out2.fq cutadapt_small_fastq_1.fq cutadapt_small_fastq_2.fq\nProcessing paired-end reads on 5 cores ...\nFinished in 0.064 s (21483.978 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal read pairs processed:                  3\n  Read 1 with adapter:                       1 (33.3%)\n  Read 2 with adapter:                       1 (33.3%)\nPairs written (passing filters):             3 (100.0%)\n\nTotal basepairs processed:           204 bp\n  Read 1:           102 bp\n  Read 2:           102 bp\nTotal written (filtered):             40 bp (19.6%)\n  Read 1:            20 bp\n  Read 2:            20 bp\n\n=== First read: Adapter 1 ===\n\nSequence: AGCCGCTANGACG; Type: regular 3'; Length: 13; Trimmed: 1 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-12 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 0.0%\n  T: 0.0%\n  none/other: 100.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n34\t1\t0.0\t1\t1\n\n\n=== Second read: Adapter 2 ===\n\nSequence: AGCCGCTANGACG; Type: regular 3'; Length: 13; Trimmed: 1 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-12 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 0.0%\n  T: 0.0%\n  none/other: 100.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n34\t1\t0.0\t1\t1\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:19:29", "plugin": "core", "name": "end_epoch", "raw_value": "1726406369.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:19:28", "plugin": "core", "name": "start_epoch", "raw_value": "1726406368.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-3", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 3, "time_seconds": 28.168070077896118, "inputs": {"library|input_1": {"src": "hdca", "id": "8dc7d2120e767ce3"}, "library|r1|adapters_0|adapter_source|adapter": "AGATCGGAAGAGC", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|r2|adapters2_0|adapter_source|adapter": "AGATCGGAAGAGC", "library|r2|adapters2_0|adapter_source|adapter_source_list": "user", "library|type": "paired_collection"}, "job": {"model_class": "Job", "id": "4c42abd186deb249", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:08:19.074021", "create_time": "2024-09-15T13:08:07.719353", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-t5v8s", "command_line": "ln -f -s '/galaxy/server/database/objects/2/7/1/dataset_2717c06f-f103-488c-a24e-df20da6a85d3.dat' 'Unnamed Collection_1.fq.gz' && ln -f -s '/galaxy/server/database/objects/4/6/7/dataset_467cfcd9-2718-4654-aaf8-2f294550bb71.dat' 'Unnamed Collection_2.fq.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'    -A 'AGATCGGAAGAGC'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      -o 'out1.fq.gz' -p 'out2.fq.gz'  'Unnamed Collection_1.fq.gz' 'Unnamed Collection_2.fq.gz'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 2, \"input_1\": {\"values\": [{\"id\": 1, \"src\": \"hdca\"}]}, \"pair_adapters\": false, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGATCGGAAGAGC\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"r2\": {\"adapters2\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGATCGGAAGAGC\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters2\": [], \"front_adapters2\": []}, \"type\": \"paired_collection\"}"}, "inputs": {"library|input_11": {"id": "6dd49ecc9924b620", "src": "hda", "uuid": "2717c06f-f103-488c-a24e-df20da6a85d3"}, "library|input_12": {"id": "4c42abd186deb249", "src": "hda", "uuid": "467cfcd9-2718-4654-aaf8-2f294550bb71"}}, "outputs": {"out_pairs|__part__|forward": {"id": "00b339a42a56fbca", "src": "hda", "uuid": "94b3fd7d-a825-4aa4-808d-da155a84cab8"}, "out_pairs|__part__|reverse": {"id": "dd3f3f16c1b47d5f", "src": "hda", "uuid": "8bb7a3ff-8847-431b-bf8d-8dbb506ecb77"}}, "output_collections": {"out_pairs": {"id": "568a833827c7ac9f", "src": "hdca"}}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC -A AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq.gz -p out2.fq.gz Unnamed Collection_1.fq.gz Unnamed Collection_2.fq.gz\nProcessing paired-end reads on 5 cores ...\nFinished in 0.173 s (1752.121 \u00b5s/read; 0.03 M reads/minute).\n\n=== Summary ===\n\nTotal read pairs processed:                 99\n  Read 1 with adapter:                       2 (2.0%)\n  Read 2 with adapter:                       4 (4.0%)\n\n== Read fate breakdown ==\nPairs that were too short:                   0 (0.0%)\nPairs written (passing filters):            99 (100.0%)\n\nTotal basepairs processed:        49,698 bp\n  Read 1:        24,849 bp\n  Read 2:        24,849 bp\nTotal written (filtered):         49,677 bp (100.0%)\n  Read 1:        24,843 bp\n  Read 2:        24,834 bp\n\n=== First read: Adapter 1 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 50.0%\n  G: 50.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n\n\n=== Second read: Adapter 2 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 4 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 50.0%\n  T: 50.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n4\t1\t0.4\t0\t1\n5\t1\t0.1\t0\t1\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC -A AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq.gz -p out2.fq.gz Unnamed Collection_1.fq.gz Unnamed Collection_2.fq.gz\nProcessing paired-end reads on 5 cores ...\nFinished in 0.173 s (1752.121 \u00b5s/read; 0.03 M reads/minute).\n\n=== Summary ===\n\nTotal read pairs processed:                 99\n  Read 1 with adapter:                       2 (2.0%)\n  Read 2 with adapter:                       4 (4.0%)\n\n== Read fate breakdown ==\nPairs that were too short:                   0 (0.0%)\nPairs written (passing filters):            99 (100.0%)\n\nTotal basepairs processed:        49,698 bp\n  Read 1:        24,849 bp\n  Read 2:        24,849 bp\nTotal written (filtered):         49,677 bp (100.0%)\n  Read 1:        24,843 bp\n  Read 2:        24,834 bp\n\n=== First read: Adapter 1 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 50.0%\n  G: 50.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n\n\n=== Second read: Adapter 2 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 4 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 50.0%\n  T: 50.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n4\t1\t0.4\t0\t1\n5\t1\t0.1\t0\t1\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "0 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "0E-7"}, {"title": "Job End Time", "value": "2024-09-15 13:08:09", "plugin": "core", "name": "end_epoch", "raw_value": "1726405689.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:08:09", "plugin": "core", "name": "start_epoch", "raw_value": "1726405689.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-30", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 30, "time_seconds": 28.287808656692505, "inputs": {"library|input_1": {"src": "hda", "id": "5cddf0cf59287d2c"}, "library|r2|adapters2_0|adapter_source|adapter": "AGCCGCTANGACG", "library|r2|adapters2_0|adapter_source|adapter_source_list": "user", "library|type": "paired", "other_trimming_options|shorten_options_r2|length2": "10", "other_trimming_options|shorten_options_r2|shorten_end_r2": "3prime", "other_trimming_options|shorten_options_r2|shorten_values_r2": "True", "filter_options|minimum_length": "0"}, "job": {"model_class": "Job", "id": "7199ab9d58647d99", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:20:05.956111", "create_time": "2024-09-15T13:19:54.029686", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-55xzf", "command_line": "ln -f -s '/galaxy/server/database/objects/3/6/8/dataset_368a85e5-b499-4cd7-aa30-f28cedd8f078.dat' 'cutadapt_small_fastq_1.fq' && ln -f -s '/galaxy/server/database/objects/3/6/8/dataset_368a85e5-b499-4cd7-aa30-f28cedd8f078.dat' 'cutadapt_small_fastq_2.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}    -A 'AGCCGCTANGACG'    --error-rate=0.1 --times=1 --overlap=3    --action=trim     -L 10          -o 'out1.fq' -p 'out2.fq'  'cutadapt_small_fastq_1.fq' 'cutadapt_small_fastq_2.fq'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"0\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 0, \"length2\": \"10\", \"shorten_end_r2\": \"3prime\", \"shorten_values_r2\": \"True\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 1, \"input_1\": {\"values\": [{\"id\": 171, \"src\": \"hda\"}]}, \"input_2\": {\"values\": [{\"id\": 171, \"src\": \"hda\"}]}, \"pair_adapters\": false, \"r1\": {\"adapters\": [], \"anywhere_adapters\": [], \"front_adapters\": []}, \"r2\": {\"adapters2\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGCCGCTANGACG\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters2\": [], \"front_adapters2\": []}, \"type\": \"paired\"}"}, "inputs": {"library|input_1": {"id": "5cddf0cf59287d2c", "src": "hda", "uuid": "368a85e5-b499-4cd7-aa30-f28cedd8f078"}, "library|input_2": {"id": "5cddf0cf59287d2c", "src": "hda", "uuid": "368a85e5-b499-4cd7-aa30-f28cedd8f078"}}, "outputs": {"out1": {"id": "945a48bb911b2e32", "src": "hda", "uuid": "81601aa7-1726-4e65-a1a0-643a24efb87f"}, "out2": {"id": "8698a2fb4fc0992a", "src": "hda", "uuid": "cea8cda8-f0dd-4d08-829e-6ae956bbbed4"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -A AGCCGCTANGACG --error-rate=0.1 --times=1 --overlap=3 --action=trim -L 10 -o out1.fq -p out2.fq cutadapt_small_fastq_1.fq cutadapt_small_fastq_2.fq\nProcessing paired-end reads on 5 cores ...\nFinished in 0.052 s (17269.293 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal read pairs processed:                  3\n  Read 2 with adapter:                       1 (33.3%)\nPairs written (passing filters):             3 (100.0%)\n\nTotal basepairs processed:           204 bp\n  Read 1:           102 bp\n  Read 2:           102 bp\nTotal written (filtered):            122 bp (59.8%)\n  Read 1:           102 bp\n  Read 2:            20 bp\n\n=== Second read: Adapter 1 ===\n\nSequence: AGCCGCTANGACG; Type: regular 3'; Length: 13; Trimmed: 1 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-12 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 0.0%\n  T: 0.0%\n  none/other: 100.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n34\t1\t0.0\t1\t1\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -A AGCCGCTANGACG --error-rate=0.1 --times=1 --overlap=3 --action=trim -L 10 -o out1.fq -p out2.fq cutadapt_small_fastq_1.fq cutadapt_small_fastq_2.fq\nProcessing paired-end reads on 5 cores ...\nFinished in 0.052 s (17269.293 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal read pairs processed:                  3\n  Read 2 with adapter:                       1 (33.3%)\nPairs written (passing filters):             3 (100.0%)\n\nTotal basepairs processed:           204 bp\n  Read 1:           102 bp\n  Read 2:           102 bp\nTotal written (filtered):            122 bp (59.8%)\n  Read 1:           102 bp\n  Read 2:            20 bp\n\n=== Second read: Adapter 1 ===\n\nSequence: AGCCGCTANGACG; Type: regular 3'; Length: 13; Trimmed: 1 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-12 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 0.0%\n  T: 0.0%\n  none/other: 100.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n34\t1\t0.0\t1\t1\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:19:56", "plugin": "core", "name": "end_epoch", "raw_value": "1726406396.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:19:55", "plugin": "core", "name": "start_epoch", "raw_value": "1726406395.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-31", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 31, "time_seconds": 26.65296459197998, "inputs": {"library|input_1": {"src": "hda", "id": "671cfe54a939492d"}, "library|r1|adapters_0|adapter_source|adapter": "AGCGGCTTAGACG", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|type": "single", "filter_options|max_expected_errors": "10"}, "job": {"model_class": "Job", "id": "d7bf21cbc92fd9be", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:20:33.177219", "create_time": "2024-09-15T13:20:21.459586", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-5vvsb", "command_line": "ln -f -s '/galaxy/server/database/objects/8/f/8/dataset_8f867a09-6b67-4475-8c38-8ea4cea8d346.dat' 'cutadapt_small_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGCGGCTTAGACG'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1 --max-ee=10.0      -o 'out1.fq'  'cutadapt_small_fastq.fq'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"10.0\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 0, \"input_1\": {\"values\": [{\"id\": 174, \"src\": \"hda\"}]}, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGCGGCTTAGACG\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"type\": \"single\"}"}, "inputs": {"library|input_1": {"id": "671cfe54a939492d", "src": "hda", "uuid": "8f867a09-6b67-4475-8c38-8ea4cea8d346"}}, "outputs": {"out1": {"id": "abc1b795ba32c9ed", "src": "hda", "uuid": "5fbdaa93-928c-4736-8e00-89ec4d759562"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGCGGCTTAGACG --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 --max-ee=10.0 -o out1.fq cutadapt_small_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.047 s (15507.778 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       3\nReads with adapters:                         0 (0.0%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads with too many exp. errors:             0 (0.0%)\nReads written (passing filters):             3 (100.0%)\n\nTotal basepairs processed:           102 bp\nTotal written (filtered):            102 bp (100.0%)\n\n=== Adapter 1 ===\n\nSequence: AGCGGCTTAGACG; Type: regular 3'; Length: 13; Trimmed: 0 times\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGCGGCTTAGACG --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 --max-ee=10.0 -o out1.fq cutadapt_small_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.047 s (15507.778 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       3\nReads with adapters:                         0 (0.0%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads with too many exp. errors:             0 (0.0%)\nReads written (passing filters):             3 (100.0%)\n\nTotal basepairs processed:           102 bp\nTotal written (filtered):            102 bp (100.0%)\n\n=== Adapter 1 ===\n\nSequence: AGCGGCTTAGACG; Type: regular 3'; Length: 13; Trimmed: 0 times\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:20:23", "plugin": "core", "name": "end_epoch", "raw_value": "1726406423.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:20:22", "plugin": "core", "name": "start_epoch", "raw_value": "1726406422.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-32", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 32, "time_seconds": 26.45380139350891, "inputs": {"library|input_1": {"src": "hda", "id": "ac06f3c340537859"}, "library|r1|adapters_0|adapter_source|adapter": "GAANTAGCTACCACX", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|type": "single"}, "job": {"model_class": "Job", "id": "5cfe38ad1aa014ff", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:20:59.464600", "create_time": "2024-09-15T13:20:48.839060", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-nsmzz", "command_line": "ln -f -s '/galaxy/server/database/objects/0/b/e/dataset_0bef92a6-467e-4ebe-b53e-8f7bae9122ff.dat' 'cutadapt_small_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'GAANTAGCTACCACX'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      -o 'out1.fq'  'cutadapt_small_fastq.fq'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 0, \"input_1\": {\"values\": [{\"id\": 176, \"src\": \"hda\"}]}, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"GAANTAGCTACCACX\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"type\": \"single\"}"}, "inputs": {"library|input_1": {"id": "ac06f3c340537859", "src": "hda", "uuid": "0bef92a6-467e-4ebe-b53e-8f7bae9122ff"}}, "outputs": {"out1": {"id": "9d77afdccf0e1d71", "src": "hda", "uuid": "2fa4fe9c-74b2-4374-b220-5c9d93859e33"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a GAANTAGCTACCACX --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq cutadapt_small_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.044 s (14742.057 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       3\nReads with adapters:                         0 (0.0%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             3 (100.0%)\n\nTotal basepairs processed:           102 bp\nTotal written (filtered):            102 bp (100.0%)\n\n=== Adapter 1 ===\n\nSequence: GAANTAGCTACCAC; Type: non-internal 3'; Length: 14; Trimmed: 0 times\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a GAANTAGCTACCACX --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq cutadapt_small_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.044 s (14742.057 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       3\nReads with adapters:                         0 (0.0%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             3 (100.0%)\n\nTotal basepairs processed:           102 bp\nTotal written (filtered):            102 bp (100.0%)\n\n=== Adapter 1 ===\n\nSequence: GAANTAGCTACCAC; Type: non-internal 3'; Length: 14; Trimmed: 0 times\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:20:51", "plugin": "core", "name": "end_epoch", "raw_value": "1726406451.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:20:50", "plugin": "core", "name": "start_epoch", "raw_value": "1726406450.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-33", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 33, "time_seconds": 28.031269550323486, "inputs": {"library|input_1": {"src": "hda", "id": "405f5a0efb7a4ed2"}, "library|input_2": {"src": "hda", "id": "895f2df4324a84ac"}, "library|r1|adapters_0|adapter_source|adapter": "AGATCGGAAGAGCX", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|r2|adapters2_0|adapter_source|adapter": "AGATCGGAAGAGCX", "library|r2|adapters2_0|adapter_source|adapter_source_list": "user", "library|type": "paired"}, "job": {"model_class": "Job", "id": "b64643a14b1c52ca", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:21:27.132974", "create_time": "2024-09-15T13:21:15.556462", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-mkgcn", "command_line": "ln -f -s '/galaxy/server/database/objects/5/8/a/dataset_58af03cc-043f-47ce-bc2b-c64e9b56c31d.dat' 'bwa-mem-fastq1_assimetric_fq_gz.fq.gz' && ln -f -s '/galaxy/server/database/objects/7/4/e/dataset_74e5163f-3039-4a7f-9525-139179b600aa.dat' 'bwa-mem-fastq2_assimetric_fq_gz.fq.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGCX'    -A 'AGATCGGAAGAGCX'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      -o 'out1.fq.gz' -p 'out2.fq.gz'  'bwa-mem-fastq1_assimetric_fq_gz.fq.gz' 'bwa-mem-fastq2_assimetric_fq_gz.fq.gz'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 1, \"input_1\": {\"values\": [{\"id\": 178, \"src\": \"hda\"}]}, \"input_2\": {\"values\": [{\"id\": 179, \"src\": \"hda\"}]}, \"pair_adapters\": false, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGATCGGAAGAGCX\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"r2\": {\"adapters2\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGATCGGAAGAGCX\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters2\": [], \"front_adapters2\": []}, \"type\": \"paired\"}"}, "inputs": {"library|input_1": {"id": "405f5a0efb7a4ed2", "src": "hda", "uuid": "58af03cc-043f-47ce-bc2b-c64e9b56c31d"}, "library|input_2": {"id": "895f2df4324a84ac", "src": "hda", "uuid": "74e5163f-3039-4a7f-9525-139179b600aa"}}, "outputs": {"out1": {"id": "0257986ae325cbbb", "src": "hda", "uuid": "3f947378-3225-4384-b32a-b6a26c69772c"}, "out2": {"id": "f52835c70de89556", "src": "hda", "uuid": "c143e2ca-c778-471a-b4d5-b08a19466fe1"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGCX -A AGATCGGAAGAGCX --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_assimetric_fq_gz.fq.gz bwa-mem-fastq2_assimetric_fq_gz.fq.gz\nProcessing paired-end reads on 5 cores ...\nFinished in 0.178 s (1794.716 \u00b5s/read; 0.03 M reads/minute).\n\n=== Summary ===\n\nTotal read pairs processed:                 99\n  Read 1 with adapter:                       2 (2.0%)\n  Read 2 with adapter:                       4 (4.0%)\n\n== Read fate breakdown ==\nPairs that were too short:                   0 (0.0%)\nPairs written (passing filters):            99 (100.0%)\n\nTotal basepairs processed:        48,291 bp\n  Read 1:        24,147 bp\n  Read 2:        24,144 bp\nTotal written (filtered):         48,270 bp (100.0%)\n  Read 1:        24,141 bp\n  Read 2:        24,129 bp\n\n=== First read: Adapter 1 ===\n\nSequence: AGATCGGAAGAGC; Type: non-internal 3'; Length: 13; Trimmed: 2 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 50.0%\n  G: 50.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n\n\n=== Second read: Adapter 2 ===\n\nSequence: AGATCGGAAGAGC; Type: non-internal 3'; Length: 13; Trimmed: 4 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 50.0%\n  T: 50.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n4\t1\t0.4\t0\t1\n5\t1\t0.1\t0\t1\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGCX -A AGATCGGAAGAGCX --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_assimetric_fq_gz.fq.gz bwa-mem-fastq2_assimetric_fq_gz.fq.gz\nProcessing paired-end reads on 5 cores ...\nFinished in 0.178 s (1794.716 \u00b5s/read; 0.03 M reads/minute).\n\n=== Summary ===\n\nTotal read pairs processed:                 99\n  Read 1 with adapter:                       2 (2.0%)\n  Read 2 with adapter:                       4 (4.0%)\n\n== Read fate breakdown ==\nPairs that were too short:                   0 (0.0%)\nPairs written (passing filters):            99 (100.0%)\n\nTotal basepairs processed:        48,291 bp\n  Read 1:        24,147 bp\n  Read 2:        24,144 bp\nTotal written (filtered):         48,270 bp (100.0%)\n  Read 1:        24,141 bp\n  Read 2:        24,129 bp\n\n=== First read: Adapter 1 ===\n\nSequence: AGATCGGAAGAGC; Type: non-internal 3'; Length: 13; Trimmed: 2 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 50.0%\n  G: 50.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n\n\n=== Second read: Adapter 2 ===\n\nSequence: AGATCGGAAGAGC; Type: non-internal 3'; Length: 13; Trimmed: 4 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 50.0%\n  T: 50.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n4\t1\t0.4\t0\t1\n5\t1\t0.1\t0\t1\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:21:18", "plugin": "core", "name": "end_epoch", "raw_value": "1726406478.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:21:17", "plugin": "core", "name": "start_epoch", "raw_value": "1726406477.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-34", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 34, "status": "skip"}}, {"id": "cutadapt/4.9+galaxy1-35", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 35, "time_seconds": 27.719539403915405, "inputs": {"library|input_1": {"src": "hdca", "id": "836cf579a9ee8970"}, "library|r1|adapters_0|adapter_source|adapter": "AGATCGGAAGAGC", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|r1|adapters_0|single_noindels": true, "library|r2|adapters2_0|adapter_source|adapter": "AGATCGGAAGAGC", "library|r2|adapters2_0|adapter_source|adapter_source_list": "user", "library|r2|adapters2_0|single_noindels": true, "library|type": "paired_collection"}, "job": {"model_class": "Job", "id": "d5c10acbed004e12", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:21:55.601524", "create_time": "2024-09-15T13:21:43.770680", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-xmngq", "command_line": "ln -f -s '/galaxy/server/database/objects/a/d/f/dataset_adfcbbf6-6309-4a73-b83b-5ebc9b9d43b1.dat' 'Unnamed Collection_1.fq.gz' && ln -f -s '/galaxy/server/database/objects/5/d/e/dataset_5deeff1a-9bf5-4840-b8b0-d40d76dde5ab.dat' 'Unnamed Collection_2.fq.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC;noindels'    -A 'AGATCGGAAGAGC;noindels'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      -o 'out1.fq.gz' -p 'out2.fq.gz'  'Unnamed Collection_1.fq.gz' 'Unnamed Collection_2.fq.gz'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 2, \"input_1\": {\"values\": [{\"id\": 5, \"src\": \"hdca\"}]}, \"pair_adapters\": false, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGATCGGAAGAGC\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": true}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"r2\": {\"adapters2\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGATCGGAAGAGC\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": true}], \"anywhere_adapters2\": [], \"front_adapters2\": []}, \"type\": \"paired_collection\"}"}, "inputs": {"library|input_11": {"id": "319fb09986d258d4", "src": "hda", "uuid": "adfcbbf6-6309-4a73-b83b-5ebc9b9d43b1"}, "library|input_12": {"id": "6205df1e8a22f0bb", "src": "hda", "uuid": "5deeff1a-9bf5-4840-b8b0-d40d76dde5ab"}}, "outputs": {"out_pairs|__part__|forward": {"id": "ec0b1f31c0effe82", "src": "hda", "uuid": "367d42cf-12c2-4730-9e4b-d169abe08bc1"}, "out_pairs|__part__|reverse": {"id": "5f047c603eeeb316", "src": "hda", "uuid": "63f2d74f-e35a-45ed-8d6f-2575e947a113"}}, "output_collections": {"out_pairs": {"id": "c349087ae9f00dc3", "src": "hdca"}}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC;noindels -A AGATCGGAAGAGC;noindels --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq.gz -p out2.fq.gz Unnamed Collection_1.fq.gz Unnamed Collection_2.fq.gz\nProcessing paired-end reads on 5 cores ...\nFinished in 0.176 s (1774.894 \u00b5s/read; 0.03 M reads/minute).\n\n=== Summary ===\n\nTotal read pairs processed:                 99\n  Read 1 with adapter:                       2 (2.0%)\n  Read 2 with adapter:                       4 (4.0%)\n\n== Read fate breakdown ==\nPairs that were too short:                   0 (0.0%)\nPairs written (passing filters):            99 (100.0%)\n\nTotal basepairs processed:        49,698 bp\n  Read 1:        24,849 bp\n  Read 2:        24,849 bp\nTotal written (filtered):         49,677 bp (100.0%)\n  Read 1:        24,843 bp\n  Read 2:        24,834 bp\n\n=== First read: Adapter 1 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 50.0%\n  G: 50.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n\n\n=== Second read: Adapter 2 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 4 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 50.0%\n  T: 50.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n4\t1\t0.4\t0\t1\n5\t1\t0.1\t0\t1\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC;noindels -A AGATCGGAAGAGC;noindels --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq.gz -p out2.fq.gz Unnamed Collection_1.fq.gz Unnamed Collection_2.fq.gz\nProcessing paired-end reads on 5 cores ...\nFinished in 0.176 s (1774.894 \u00b5s/read; 0.03 M reads/minute).\n\n=== Summary ===\n\nTotal read pairs processed:                 99\n  Read 1 with adapter:                       2 (2.0%)\n  Read 2 with adapter:                       4 (4.0%)\n\n== Read fate breakdown ==\nPairs that were too short:                   0 (0.0%)\nPairs written (passing filters):            99 (100.0%)\n\nTotal basepairs processed:        49,698 bp\n  Read 1:        24,849 bp\n  Read 2:        24,849 bp\nTotal written (filtered):         49,677 bp (100.0%)\n  Read 1:        24,843 bp\n  Read 2:        24,834 bp\n\n=== First read: Adapter 1 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 50.0%\n  G: 50.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n\n\n=== Second read: Adapter 2 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 4 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 50.0%\n  T: 50.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n4\t1\t0.4\t0\t1\n5\t1\t0.1\t0\t1\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "0 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "0E-7"}, {"title": "Job End Time", "value": "2024-09-15 13:21:46", "plugin": "core", "name": "end_epoch", "raw_value": "1726406506.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:21:46", "plugin": "core", "name": "start_epoch", "raw_value": "1726406506.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-36", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 36, "time_seconds": 27.733177423477173, "inputs": {"library|input_1": {"src": "hdca", "id": "8ae83609bd117420"}, "library|r1|adapters_0|adapter_source|adapter": "AGATCGGAAGAGC", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|r2|adapters2_0|adapter_source|adapter": "AGATCGGAAGAGC", "library|r2|adapters2_0|adapter_source|adapter_source_list": "user", "library|type": "paired_collection", "other_trimming_options|quality_cutoff": "5", "other_trimming_options|quality_cutoff2": "15,20"}, "job": {"model_class": "Job", "id": "acbe0911ab1134e7", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:22:23.064111", "create_time": "2024-09-15T13:22:11.744027", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-wfjmj", "command_line": "ln -f -s '/galaxy/server/database/objects/7/8/4/dataset_7849c32b-ef1c-4035-a6e3-f60aa72ba356.dat' 'Unnamed Collection_1.fq.gz' && ln -f -s '/galaxy/server/database/objects/f/3/1/dataset_f31863ad-71c8-4a51-b230-4fc73f4155ab.dat' 'Unnamed Collection_2.fq.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'    -A 'AGATCGGAAGAGC'    --error-rate=0.1 --times=1 --overlap=3    --action=trim   --quality-cutoff=5 -Q 15,20       --minimum-length=1      -o 'out1.fq.gz' -p 'out2.fq.gz'  'Unnamed Collection_1.fq.gz' 'Unnamed Collection_2.fq.gz'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"5\", \"quality_cutoff2\": \"15,20\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 2, \"input_1\": {\"values\": [{\"id\": 7, \"src\": \"hdca\"}]}, \"pair_adapters\": false, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGATCGGAAGAGC\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"r2\": {\"adapters2\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGATCGGAAGAGC\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters2\": [], \"front_adapters2\": []}, \"type\": \"paired_collection\"}"}, "inputs": {"library|input_11": {"id": "a7774c30d5c7c146", "src": "hda", "uuid": "7849c32b-ef1c-4035-a6e3-f60aa72ba356"}, "library|input_12": {"id": "7b2a584997044a54", "src": "hda", "uuid": "f31863ad-71c8-4a51-b230-4fc73f4155ab"}}, "outputs": {"out_pairs|__part__|forward": {"id": "8404cd10501642e4", "src": "hda", "uuid": "eacf387a-cf6f-4c10-9e40-f10e3bad0e08"}, "out_pairs|__part__|reverse": {"id": "3eb9767de510deb5", "src": "hda", "uuid": "1a92be0b-587e-44c4-af3e-f95db1c031e2"}}, "output_collections": {"out_pairs": {"id": "f03ef6cb881088b6", "src": "hdca"}}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC -A AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --quality-cutoff=5 -Q 15,20 --minimum-length=1 -o out1.fq.gz -p out2.fq.gz Unnamed Collection_1.fq.gz Unnamed Collection_2.fq.gz\nProcessing paired-end reads on 5 cores ...\nFinished in 0.171 s (1725.406 \u00b5s/read; 0.03 M reads/minute).\n\n=== Summary ===\n\nTotal read pairs processed:                 99\n  Read 1 with adapter:                       2 (2.0%)\n  Read 2 with adapter:                       2 (2.0%)\n\n== Read fate breakdown ==\nPairs that were too short:                   0 (0.0%)\nPairs written (passing filters):            99 (100.0%)\n\nTotal basepairs processed:        49,698 bp\n  Read 1:        24,849 bp\n  Read 2:        24,849 bp\nQuality-trimmed:                     747 bp (1.5%)\n  Read 1:             0 bp\n  Read 2:           747 bp\nTotal written (filtered):         48,938 bp (98.5%)\n  Read 1:        24,843 bp\n  Read 2:        24,095 bp\n\n=== First read: Adapter 1 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 50.0%\n  G: 50.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n\n\n=== Second read: Adapter 2 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 100.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t1\t1.5\t0\t1\n4\t1\t0.4\t0\t1\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC -A AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --quality-cutoff=5 -Q 15,20 --minimum-length=1 -o out1.fq.gz -p out2.fq.gz Unnamed Collection_1.fq.gz Unnamed Collection_2.fq.gz\nProcessing paired-end reads on 5 cores ...\nFinished in 0.171 s (1725.406 \u00b5s/read; 0.03 M reads/minute).\n\n=== Summary ===\n\nTotal read pairs processed:                 99\n  Read 1 with adapter:                       2 (2.0%)\n  Read 2 with adapter:                       2 (2.0%)\n\n== Read fate breakdown ==\nPairs that were too short:                   0 (0.0%)\nPairs written (passing filters):            99 (100.0%)\n\nTotal basepairs processed:        49,698 bp\n  Read 1:        24,849 bp\n  Read 2:        24,849 bp\nQuality-trimmed:                     747 bp (1.5%)\n  Read 1:             0 bp\n  Read 2:           747 bp\nTotal written (filtered):         48,938 bp (98.5%)\n  Read 1:        24,843 bp\n  Read 2:        24,095 bp\n\n=== First read: Adapter 1 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 50.0%\n  G: 50.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t2\t1.5\t0\t2\n\n\n=== Second read: Adapter 2 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 100.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t1\t1.5\t0\t1\n4\t1\t0.4\t0\t1\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:22:14", "plugin": "core", "name": "end_epoch", "raw_value": "1726406534.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:22:13", "plugin": "core", "name": "start_epoch", "raw_value": "1726406533.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-37", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 37, "time_seconds": 28.601125955581665, "inputs": {"library|input_1": {"src": "hdca", "id": "92c19a5dfed62d2f"}, "library|type": "paired_collection", "other_trimming_options|poly_a": true}, "job": {"model_class": "Job", "id": "74d622202d50b55f", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:22:51.965517", "create_time": "2024-09-15T13:22:39.568094", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-9jm9t", "command_line": "ln -f -s '/galaxy/server/database/objects/5/2/8/dataset_52897957-3a98-4c7a-b182-eca5eca2b4ae.dat' 'Unnamed Collection_1.fa' && ln -f -s '/galaxy/server/database/objects/0/d/1/dataset_0d1bced5-e2c2-4180-a051-5671b33bd56d.dat' 'Unnamed Collection_2.fa' &&  cutadapt  -j=${GALAXY_SLOTS:-4}     --error-rate=0.1 --times=1 --overlap=3    --action=trim    --poly-a     --minimum-length=1      -o 'out1.fa' -p 'out2.fa'  'Unnamed Collection_1.fa' 'Unnamed Collection_2.fa'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": true, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 2, \"input_1\": {\"values\": [{\"id\": 9, \"src\": \"hdca\"}]}, \"pair_adapters\": false, \"r1\": {\"adapters\": [], \"anywhere_adapters\": [], \"front_adapters\": []}, \"r2\": {\"adapters2\": [], \"anywhere_adapters2\": [], \"front_adapters2\": []}, \"type\": \"paired_collection\"}"}, "inputs": {"library|input_11": {"id": "063c874bccb2c361", "src": "hda", "uuid": "52897957-3a98-4c7a-b182-eca5eca2b4ae"}, "library|input_12": {"id": "dcd411dcf16d2d3d", "src": "hda", "uuid": "0d1bced5-e2c2-4180-a051-5671b33bd56d"}}, "outputs": {"out_pairs|__part__|forward": {"id": "1e6e6783ba79308a", "src": "hda", "uuid": "3de21665-ad91-4500-b44a-071693d58d36"}, "out_pairs|__part__|reverse": {"id": "3b9d0384f7efff45", "src": "hda", "uuid": "014e43b9-19f6-4c5a-b4a7-9e924d5b72bb"}}, "output_collections": {"out_pairs": {"id": "4a43ea22414590cc", "src": "hdca"}}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 --error-rate=0.1 --times=1 --overlap=3 --action=trim --poly-a --minimum-length=1 -o out1.fa -p out2.fa Unnamed Collection_1.fa Unnamed Collection_2.fa\nProcessing paired-end reads on 5 cores ...\nFinished in 0.048 s (11992.455 \u00b5s/read; 0.01 M reads/minute).\n\n=== Summary ===\n\nTotal read pairs processed:                  4\n\n== Read fate breakdown ==\nPairs that were too short:                   0 (0.0%)\nPairs written (passing filters):             4 (100.0%)\n\nTotal basepairs processed:           369 bp\n  Read 1:           194 bp\n  Read 2:           175 bp\nPoly-A-trimmed:                      168 bp (45.5%)\n  Read 1:            84 bp\n  Read 2:            84 bp\nTotal written (filtered):            201 bp (54.5%)\n  Read 1:           110 bp\n  Read 2:            91 bp\n\n=== R1 poly-A trimmed ===\n\nlength\tcount\n0\t1\n21\t2\n42\t1\n\n\n=== R2 poly-A trimmed ===\n\nlength\tcount\n0\t1\n21\t2\n42\t1\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 --error-rate=0.1 --times=1 --overlap=3 --action=trim --poly-a --minimum-length=1 -o out1.fa -p out2.fa Unnamed Collection_1.fa Unnamed Collection_2.fa\nProcessing paired-end reads on 5 cores ...\nFinished in 0.048 s (11992.455 \u00b5s/read; 0.01 M reads/minute).\n\n=== Summary ===\n\nTotal read pairs processed:                  4\n\n== Read fate breakdown ==\nPairs that were too short:                   0 (0.0%)\nPairs written (passing filters):             4 (100.0%)\n\nTotal basepairs processed:           369 bp\n  Read 1:           194 bp\n  Read 2:           175 bp\nPoly-A-trimmed:                      168 bp (45.5%)\n  Read 1:            84 bp\n  Read 2:            84 bp\nTotal written (filtered):            201 bp (54.5%)\n  Read 1:           110 bp\n  Read 2:            91 bp\n\n=== R1 poly-A trimmed ===\n\nlength\tcount\n0\t1\n21\t2\n42\t1\n\n\n=== R2 poly-A trimmed ===\n\nlength\tcount\n0\t1\n21\t2\n42\t1\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:22:42", "plugin": "core", "name": "end_epoch", "raw_value": "1726406562.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:22:41", "plugin": "core", "name": "start_epoch", "raw_value": "1726406561.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-38", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 38, "time_seconds": 26.11560583114624, "inputs": {"library|input_1": {"src": "hda", "id": "82fc3f700d011b90"}, "library|r1|adapters_0|adapter_source|adapter": "AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|type": "single", "adapter_options|overlap": "10"}, "job": {"model_class": "Job", "id": "5cddf0cf59287d2c", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:23:18.211554", "create_time": "2024-09-15T13:23:07.251241", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-tlmhx", "command_line": "ln -f -s '/galaxy/server/database/objects/4/e/f/dataset_4ef597a6-1b77-4616-9702-687d0484fcdf.dat' 'polya_1_fasta.fa' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA'    --error-rate=0.1 --times=1 --overlap=10    --action=trim         --minimum-length=1      -o 'out1.fa'  'polya_1_fasta.fa'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"10\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 0, \"input_1\": {\"values\": [{\"id\": 194, \"src\": \"hda\"}]}, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"type\": \"single\"}"}, "inputs": {"library|input_1": {"id": "82fc3f700d011b90", "src": "hda", "uuid": "4ef597a6-1b77-4616-9702-687d0484fcdf"}}, "outputs": {"out1": {"id": "f7b2fa17cfdce43d", "src": "hda", "uuid": "e9d71bac-1c1d-4668-8c18-dd7c27f83c26"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA --error-rate=0.1 --times=1 --overlap=10 --action=trim --minimum-length=1 -o out1.fa polya_1_fasta.fa\nProcessing single-end reads on 5 cores ...\nFinished in 0.044 s (11109.889 \u00b5s/read; 0.01 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       4\nReads with adapters:                         3 (75.0%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             4 (100.0%)\n\nTotal basepairs processed:           194 bp\nTotal written (filtered):             96 bp (49.5%)\n\n=== Adapter 1 ===\n\nSequence: AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA; Type: regular 3'; Length: 35; Trimmed: 3 times\n\nMinimum overlap: 10\nNo. of allowed errors:\n1-9 bp: 0; 10-19 bp: 1; 20-29 bp: 2; 30-35 bp: 3\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 33.3%\n  G: 66.7%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n26\t1\t0.0\t2\t0 0 1\n30\t1\t0.0\t3\t0 0 0 1\n42\t1\t0.0\t3\t0 1\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA --error-rate=0.1 --times=1 --overlap=10 --action=trim --minimum-length=1 -o out1.fa polya_1_fasta.fa\nProcessing single-end reads on 5 cores ...\nFinished in 0.044 s (11109.889 \u00b5s/read; 0.01 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       4\nReads with adapters:                         3 (75.0%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             4 (100.0%)\n\nTotal basepairs processed:           194 bp\nTotal written (filtered):             96 bp (49.5%)\n\n=== Adapter 1 ===\n\nSequence: AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA; Type: regular 3'; Length: 35; Trimmed: 3 times\n\nMinimum overlap: 10\nNo. of allowed errors:\n1-9 bp: 0; 10-19 bp: 1; 20-29 bp: 2; 30-35 bp: 3\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 33.3%\n  G: 66.7%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n26\t1\t0.0\t2\t0 0 1\n30\t1\t0.0\t3\t0 0 0 1\n42\t1\t0.0\t3\t0 1\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:23:09", "plugin": "core", "name": "end_epoch", "raw_value": "1726406589.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:23:08", "plugin": "core", "name": "start_epoch", "raw_value": "1726406588.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-39", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 39, "time_seconds": 27.51239824295044, "inputs": {"library|input_1": {"src": "hda", "id": "d80a82a8298ae2ef"}, "library|r1|adapters_0|adapter_source|adapter": "A{35}", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|type": "single", "adapter_options|overlap": "10"}, "job": {"model_class": "Job", "id": "8698a2fb4fc0992a", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:23:45.564077", "create_time": "2024-09-15T13:23:33.965053", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-cmz8s", "command_line": "ln -f -s '/galaxy/server/database/objects/6/e/0/dataset_6e0c0ef8-41d2-47ec-846d-b59377e10a05.dat' 'polya_1_fasta.fa' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'A{35}'    --error-rate=0.1 --times=1 --overlap=10    --action=trim         --minimum-length=1      -o 'out1.fa'  'polya_1_fasta.fa'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"10\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 0, \"input_1\": {\"values\": [{\"id\": 196, \"src\": \"hda\"}]}, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"A{35}\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"type\": \"single\"}"}, "inputs": {"library|input_1": {"id": "d80a82a8298ae2ef", "src": "hda", "uuid": "6e0c0ef8-41d2-47ec-846d-b59377e10a05"}}, "outputs": {"out1": {"id": "a074941429657ee6", "src": "hda", "uuid": "04463e65-8b3a-4686-91af-05aa4c407868"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a A{35} --error-rate=0.1 --times=1 --overlap=10 --action=trim --minimum-length=1 -o out1.fa polya_1_fasta.fa\nProcessing single-end reads on 5 cores ...\nFinished in 0.044 s (11053.383 \u00b5s/read; 0.01 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       4\nReads with adapters:                         3 (75.0%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             4 (100.0%)\n\nTotal basepairs processed:           194 bp\nTotal written (filtered):             96 bp (49.5%)\n\n=== Adapter 1 ===\n\nSequence: AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA; Type: regular 3'; Length: 35; Trimmed: 3 times\n\nMinimum overlap: 10\nNo. of allowed errors:\n1-9 bp: 0; 10-19 bp: 1; 20-29 bp: 2; 30-35 bp: 3\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 33.3%\n  G: 66.7%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n26\t1\t0.0\t2\t0 0 1\n30\t1\t0.0\t3\t0 0 0 1\n42\t1\t0.0\t3\t0 1\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a A{35} --error-rate=0.1 --times=1 --overlap=10 --action=trim --minimum-length=1 -o out1.fa polya_1_fasta.fa\nProcessing single-end reads on 5 cores ...\nFinished in 0.044 s (11053.383 \u00b5s/read; 0.01 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       4\nReads with adapters:                         3 (75.0%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             4 (100.0%)\n\nTotal basepairs processed:           194 bp\nTotal written (filtered):             96 bp (49.5%)\n\n=== Adapter 1 ===\n\nSequence: AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA; Type: regular 3'; Length: 35; Trimmed: 3 times\n\nMinimum overlap: 10\nNo. of allowed errors:\n1-9 bp: 0; 10-19 bp: 1; 20-29 bp: 2; 30-35 bp: 3\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 33.3%\n  G: 66.7%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n26\t1\t0.0\t2\t0 0 1\n30\t1\t0.0\t3\t0 0 0 1\n42\t1\t0.0\t3\t0 1\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:23:36", "plugin": "core", "name": "end_epoch", "raw_value": "1726406616.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:23:35", "plugin": "core", "name": "start_epoch", "raw_value": "1726406615.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-4", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 4, "status": "skip"}}, {"id": "cutadapt/4.9+galaxy1-40", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 40, "time_seconds": 8.546941995620728, "execution_problem": "Input staging problem: Job in error state.. tool_id: upload1, exit_code: None, stderr: .", "status": "error"}}, {"id": "cutadapt/4.9+galaxy1-41", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 41, "time_seconds": 24.864086151123047, "inputs": {"library|input_1": {"src": "hda", "id": "5e1670218c5c6065"}, "library|type": "single"}, "job": {"model_class": "Job", "id": "ac06f3c340537859", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:24:19.248269", "create_time": "2024-09-15T13:24:09.166549", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-8gqd2", "command_line": "ln -f -s '/galaxy/server/database/objects/c/e/4/dataset_ce48601e-dc56-4669-9096-46d7c06e406b.dat' 'simple_fasta_gz.fa.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      -o 'out1.fa.gz'  'simple_fasta_gz.fa.gz'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 0, \"input_1\": {\"values\": [{\"id\": 199, \"src\": \"hda\"}]}, \"r1\": {\"adapters\": [], \"anywhere_adapters\": [], \"front_adapters\": []}, \"type\": \"single\"}"}, "inputs": {"library|input_1": {"id": "5e1670218c5c6065", "src": "hda", "uuid": "ce48601e-dc56-4669-9096-46d7c06e406b"}}, "outputs": {"out1": {"id": "09b07f8ac30f2897", "src": "hda", "uuid": "6f242bdf-7992-4651-ba68-364be8d4a5a8"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fa.gz simple_fasta_gz.fa.gz\nProcessing single-end reads on 5 cores ...\nFinished in 0.088 s (43947.816 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       2\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             2 (100.0%)\n\nTotal basepairs processed:            18 bp\nTotal written (filtered):             18 bp (100.0%)\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fa.gz simple_fasta_gz.fa.gz\nProcessing single-end reads on 5 cores ...\nFinished in 0.088 s (43947.816 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       2\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             2 (100.0%)\n\nTotal basepairs processed:            18 bp\nTotal written (filtered):             18 bp (100.0%)\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:24:11", "plugin": "core", "name": "end_epoch", "raw_value": "1726406651.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:24:10", "plugin": "core", "name": "start_epoch", "raw_value": "1726406650.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-42", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 42, "time_seconds": 26.336902618408203, "inputs": {"library|input_1": {"src": "hda", "id": "a79f87677f7b0225"}, "library|r1|adapters_0|adapter_source|adapter": "XXXXXX", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|type": "single", "other_trimming_options|quality_cutoff": "10", "filter_options|minimum_length": "0"}, "job": {"model_class": "Job", "id": "405f5a0efb7a4ed2", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:24:45.601921", "create_time": "2024-09-15T13:24:34.946413", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-4c4hs", "command_line": "ln -f -s '/galaxy/server/database/objects/a/f/6/dataset_af66e35c-4e7e-4996-bf63-f2738a6344a1.dat' 'illumina64_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'XXXXXX'    --error-rate=0.1 --times=1 --overlap=3    --action=trim   --quality-cutoff=10         --quality-base=64    -o 'out1.fq'  'illumina64_fastq.fq'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"0\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"10\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 0, \"input_1\": {\"values\": [{\"id\": 201, \"src\": \"hda\"}]}, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"XXXXXX\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"type\": \"single\"}"}, "inputs": {"library|input_1": {"id": "a79f87677f7b0225", "src": "hda", "uuid": "af66e35c-4e7e-4996-bf63-f2738a6344a1"}}, "outputs": {"out1": {"id": "b02d279258a330e9", "src": "hda", "uuid": "939c3f4a-78a0-43a3-b0fa-37e78cafc829"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a XXXXXX --error-rate=0.1 --times=1 --overlap=3 --action=trim --quality-cutoff=10 --quality-base=64 -o out1.fq illumina64_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.043 s (2168.584 \u00b5s/read; 0.03 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                      20\nReads with adapters:                         0 (0.0%)\nReads written (passing filters):            20 (100.0%)\n\nTotal basepairs processed:         1,900 bp\nQuality-trimmed:                   1,021 bp (53.7%)\nTotal written (filtered):            879 bp (46.3%)\n\n=== Adapter 1 ===\n\nSequence: XXXXXX; Type: regular 3'; Length: 6; Trimmed: 0 times\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a XXXXXX --error-rate=0.1 --times=1 --overlap=3 --action=trim --quality-cutoff=10 --quality-base=64 -o out1.fq illumina64_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.043 s (2168.584 \u00b5s/read; 0.03 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                      20\nReads with adapters:                         0 (0.0%)\nReads written (passing filters):            20 (100.0%)\n\nTotal basepairs processed:         1,900 bp\nQuality-trimmed:                   1,021 bp (53.7%)\nTotal written (filtered):            879 bp (46.3%)\n\n=== Adapter 1 ===\n\nSequence: XXXXXX; Type: regular 3'; Length: 6; Trimmed: 0 times\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:24:37", "plugin": "core", "name": "end_epoch", "raw_value": "1726406677.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:24:36", "plugin": "core", "name": "start_epoch", "raw_value": "1726406676.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-43", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 43, "time_seconds": 28.44310998916626, "inputs": {"library|input_1": {"src": "hda", "id": "ed83529e04f54bfe"}, "library|type": "single", "other_trimming_options|quality_cutoff": "10", "filter_options|minimum_length": "0"}, "job": {"model_class": "Job", "id": "0257986ae325cbbb", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:25:13.970037", "create_time": "2024-09-15T13:25:02.135112", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-jpwjw", "command_line": "ln -f -s '/galaxy/server/database/objects/d/6/3/dataset_d63a0859-5129-43f0-985e-95ec287d2e65.dat' 'illumina64_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}    --error-rate=0.1 --times=1 --overlap=3    --action=trim   --quality-cutoff=10         --quality-base=64    -o 'out1.fq'  'illumina64_fastq.fq'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"0\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"10\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 0, \"input_1\": {\"values\": [{\"id\": 203, \"src\": \"hda\"}]}, \"r1\": {\"adapters\": [], \"anywhere_adapters\": [], \"front_adapters\": []}, \"type\": \"single\"}"}, "inputs": {"library|input_1": {"id": "ed83529e04f54bfe", "src": "hda", "uuid": "d63a0859-5129-43f0-985e-95ec287d2e65"}}, "outputs": {"out1": {"id": "012bd9d8a4d0fe50", "src": "hda", "uuid": "0b536235-3374-4d84-a495-ec625d5f589c"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 --error-rate=0.1 --times=1 --overlap=3 --action=trim --quality-cutoff=10 --quality-base=64 -o out1.fq illumina64_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.033 s (1657.796 \u00b5s/read; 0.04 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                      20\nReads written (passing filters):            20 (100.0%)\n\nTotal basepairs processed:         1,900 bp\nQuality-trimmed:                   1,021 bp (53.7%)\nTotal written (filtered):            879 bp (46.3%)\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 --error-rate=0.1 --times=1 --overlap=3 --action=trim --quality-cutoff=10 --quality-base=64 -o out1.fq illumina64_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.033 s (1657.796 \u00b5s/read; 0.04 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                      20\nReads written (passing filters):            20 (100.0%)\n\nTotal basepairs processed:         1,900 bp\nQuality-trimmed:                   1,021 bp (53.7%)\nTotal written (filtered):            879 bp (46.3%)\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "0 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "0E-7"}, {"title": "Job End Time", "value": "2024-09-15 13:25:04", "plugin": "core", "name": "end_epoch", "raw_value": "1726406704.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:25:04", "plugin": "core", "name": "start_epoch", "raw_value": "1726406704.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-44", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 44, "time_seconds": 25.75309443473816, "inputs": {"library|input_1": {"src": "hda", "id": "32948ac2c2e9d569"}, "library|type": "single", "filter_options|minimum_length": "0", "filter_options|max_expected_errors": "0.9", "output_selector": ["report", "info_file"]}, "job": {"model_class": "Job", "id": "319fb09986d258d4", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:25:39.396565", "create_time": "2024-09-15T13:25:28.621086", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-crzkv", "command_line": "ln -f -s '/galaxy/server/database/objects/0/6/d/dataset_06dd982d-e779-4239-a3dc-b8bfc5a6596d.dat' 'maxee_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --max-ee=0.9   --quality-base=64    --info-file='/galaxy/server/database/objects/b/7/4/dataset_b742e173-0b43-4c5e-bf3e-a7380e51815f.dat' -o 'out1.fq'  'maxee_fastq.fq'  > report.txt", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": "[\"report\", \"info_file\"]", "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"0.9\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"0\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 0, \"input_1\": {\"values\": [{\"id\": 205, \"src\": \"hda\"}]}, \"r1\": {\"adapters\": [], \"anywhere_adapters\": [], \"front_adapters\": []}, \"type\": \"single\"}"}, "inputs": {"library|input_1": {"id": "32948ac2c2e9d569", "src": "hda", "uuid": "06dd982d-e779-4239-a3dc-b8bfc5a6596d"}}, "outputs": {"out1": {"id": "60923e62a28ccb01", "src": "hda", "uuid": "cc0fca7a-6bb2-49c5-9dd9-1a55cef85d4f"}, "report": {"id": "e2a1978024c26ea2", "src": "hda", "uuid": "d641734f-7f36-4f5a-9483-dbeefdc2274d"}, "info_file": {"id": "96878465f81d0384", "src": "hda", "uuid": "b742e173-0b43-4c5e-bf3e-a7380e51815f"}}, "output_collections": {}, "tool_stdout": "", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:25:30", "plugin": "core", "name": "end_epoch", "raw_value": "1726406730.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:25:29", "plugin": "core", "name": "start_epoch", "raw_value": "1726406729.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-45", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 45, "time_seconds": 26.878708124160767, "inputs": {"library|input_1": {"src": "hda", "id": "a8c752eb8fc81a41"}, "library|r1|anywhere_adapters_0|adapter_source|adapter": "ACGTACGT", "library|r1|anywhere_adapters_0|adapter_source|adapter_source_list": "user", "library|type": "single", "adapter_options|match_read_wildcards": true}, "job": {"model_class": "Job", "id": "ec0b1f31c0effe82", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:26:06.835290", "create_time": "2024-09-15T13:25:54.789884", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-gd8rl", "command_line": "ln -f -s '/galaxy/server/database/objects/7/1/7/dataset_717d6644-d1f7-41c9-a75d-5e575e95b343.dat' 'wildcard_fa.fa' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -b 'ACGTACGT'    --error-rate=0.1 --times=1 --overlap=3  --match-read-wildcards  --action=trim         --minimum-length=1      -o 'out1.fa'  'wildcard_fa.fa'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": true, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 0, \"input_1\": {\"values\": [{\"id\": 209, \"src\": \"hda\"}]}, \"r1\": {\"adapters\": [], \"anywhere_adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"ACGTACGT\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"front_adapters\": []}, \"type\": \"single\"}"}, "inputs": {"library|input_1": {"id": "a8c752eb8fc81a41", "src": "hda", "uuid": "717d6644-d1f7-41c9-a75d-5e575e95b343"}}, "outputs": {"out1": {"id": "c0837e6ececdbfe3", "src": "hda", "uuid": "006aad82-b80a-49ca-9a14-27afd8eee9bb"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -b ACGTACGT --error-rate=0.1 --times=1 --overlap=3 --match-read-wildcards --action=trim --minimum-length=1 -o out1.fa wildcard_fa.fa\nProcessing single-end reads on 5 cores ...\nFinished in 0.044 s (21938.562 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       2\nReads with adapters:                         2 (100.0%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             2 (100.0%)\n\nTotal basepairs processed:            32 bp\nTotal written (filtered):             16 bp (50.0%)\n\n=== Adapter 1 ===\n\nSequence: ACGTACGT; Type: variable 5'/3'; Length: 8; Trimmed: 2 times\n2 times, it overlapped the 5' end of a read\n0 times, it overlapped the 3' end or was within the read\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-8 bp: 0\n\nOverview of removed sequences (5')\nlength\tcount\texpect\tmax.err\terror counts\n8\t2\t0.0\t0\t2\n\n\n\nOverview of removed sequences (3' or within)\nlength\tcount\texpect\tmax.err\terror counts\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -b ACGTACGT --error-rate=0.1 --times=1 --overlap=3 --match-read-wildcards --action=trim --minimum-length=1 -o out1.fa wildcard_fa.fa\nProcessing single-end reads on 5 cores ...\nFinished in 0.044 s (21938.562 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       2\nReads with adapters:                         2 (100.0%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             2 (100.0%)\n\nTotal basepairs processed:            32 bp\nTotal written (filtered):             16 bp (50.0%)\n\n=== Adapter 1 ===\n\nSequence: ACGTACGT; Type: variable 5'/3'; Length: 8; Trimmed: 2 times\n2 times, it overlapped the 5' end of a read\n0 times, it overlapped the 3' end or was within the read\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-8 bp: 0\n\nOverview of removed sequences (5')\nlength\tcount\texpect\tmax.err\terror counts\n8\t2\t0.0\t0\t2\n\n\n\nOverview of removed sequences (3' or within)\nlength\tcount\texpect\tmax.err\terror counts\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "0 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "0E-7"}, {"title": "Job End Time", "value": "2024-09-15 13:25:57", "plugin": "core", "name": "end_epoch", "raw_value": "1726406757.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:25:57", "plugin": "core", "name": "start_epoch", "raw_value": "1726406757.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-46", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 46, "time_seconds": 26.210306882858276, "inputs": {"library|input_1": {"src": "hda", "id": "5f9f44d67cda1375"}, "library|r1|adapters_0|adapter_source|adapter": "GGGGGGG", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|type": "single", "adapter_options|error_rate": "0", "adapter_options|match_read_wildcards": true}, "job": {"model_class": "Job", "id": "a7774c30d5c7c146", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:26:33.032817", "create_time": "2024-09-15T13:26:22.021168", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-bj6xg", "command_line": "ln -f -s '/galaxy/server/database/objects/7/8/e/dataset_78ea4785-5241-48c5-9831-58263c95f7bc.dat' 'wildcardN_fa.fa' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'GGGGGGG'    --error-rate=0.0 --times=1 --overlap=3  --match-read-wildcards  --action=trim         --minimum-length=1      -o 'out1.fa'  'wildcardN_fa.fa'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.0\", \"match_read_wildcards\": true, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 0, \"input_1\": {\"values\": [{\"id\": 211, \"src\": \"hda\"}]}, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"GGGGGGG\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"type\": \"single\"}"}, "inputs": {"library|input_1": {"id": "5f9f44d67cda1375", "src": "hda", "uuid": "78ea4785-5241-48c5-9831-58263c95f7bc"}}, "outputs": {"out1": {"id": "cc59d14c4fc75ad6", "src": "hda", "uuid": "284b7892-47a5-4379-8eb7-c233998ad7e5"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a GGGGGGG --error-rate=0.0 --times=1 --overlap=3 --match-read-wildcards --action=trim --minimum-length=1 -o out1.fa wildcardN_fa.fa\nProcessing single-end reads on 5 cores ...\nFinished in 0.043 s (14258.623 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       3\nReads with adapters:                         2 (66.7%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             3 (100.0%)\n\nTotal basepairs processed:            30 bp\nTotal written (filtered):             16 bp (53.3%)\n\n=== Adapter 1 ===\n\nSequence: GGGGGGG; Type: regular 3'; Length: 7; Trimmed: 2 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-7 bp: 0\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 0.0%\n  T: 100.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n7\t2\t0.0\t0\t2\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a GGGGGGG --error-rate=0.0 --times=1 --overlap=3 --match-read-wildcards --action=trim --minimum-length=1 -o out1.fa wildcardN_fa.fa\nProcessing single-end reads on 5 cores ...\nFinished in 0.043 s (14258.623 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       3\nReads with adapters:                         2 (66.7%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             3 (100.0%)\n\nTotal basepairs processed:            30 bp\nTotal written (filtered):             16 bp (53.3%)\n\n=== Adapter 1 ===\n\nSequence: GGGGGGG; Type: regular 3'; Length: 7; Trimmed: 2 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-7 bp: 0\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 0.0%\n  T: 100.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n7\t2\t0.0\t0\t2\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:26:24", "plugin": "core", "name": "end_epoch", "raw_value": "1726406784.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:26:23", "plugin": "core", "name": "start_epoch", "raw_value": "1726406783.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-47", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 47, "time_seconds": 27.107056379318237, "inputs": {"library|input_1": {"src": "hda", "id": "0b93eba5cf3093cd"}, "library|input_2": {"src": "hda", "id": "0c498463f03571c8"}, "library|r1|adapters_0|adapter_source|adapter": "AGATCGGAAGAGC", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|r2|adapters2_0|adapter_source|adapter": "AGATCGGAAGAGC", "library|r2|adapters2_0|adapter_source|adapter_source_list": "user", "library|type": "paired"}, "job": {"model_class": "Job", "id": "3eb9767de510deb5", "state": "error", "exit_code": 1, "update_time": "2024-09-15T13:27:00.634844", "create_time": "2024-09-15T13:26:49.511959", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-9pzt5", "command_line": "ln -f -s '/galaxy/server/database/objects/2/f/2/dataset_2f2a788d-2833-4171-badc-a3ae9df0a6e4.dat' 'bwa-mem-fastq1_fq_gz.fq.gz' && ln -f -s '/galaxy/server/database/objects/9/5/3/dataset_9532760e-5c81-4d94-b8f4-4a144be8258c.dat' 'bwa-mem-fastq_mispaired2_fq_gz.fq.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'    -A 'AGATCGGAAGAGC'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      -o 'out1.fq.gz' -p 'out2.fq.gz'  'bwa-mem-fastq1_fq_gz.fq.gz' 'bwa-mem-fastq_mispaired2_fq_gz.fq.gz'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 1, \"input_1\": {\"values\": [{\"id\": 213, \"src\": \"hda\"}]}, \"input_2\": {\"values\": [{\"id\": 214, \"src\": \"hda\"}]}, \"pair_adapters\": false, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGATCGGAAGAGC\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"r2\": {\"adapters2\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGATCGGAAGAGC\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters2\": [], \"front_adapters2\": []}, \"type\": \"paired\"}"}, "inputs": {"library|input_1": {"id": "0b93eba5cf3093cd", "src": "hda", "uuid": "2f2a788d-2833-4171-badc-a3ae9df0a6e4"}, "library|input_2": {"id": "0c498463f03571c8", "src": "hda", "uuid": "9532760e-5c81-4d94-b8f4-4a144be8258c"}}, "outputs": {"out1": {"id": "b90049f0a9909974", "src": "hda", "uuid": "c8173c4d-e6bf-4b2f-abe0-a838ef15f4c2"}, "out2": {"id": "5847934dd1a02478", "src": "hda", "uuid": "d0f3f085-15fa-4879-84af-75817fe8555b"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC -A AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_fq_gz.fq.gz bwa-mem-fastq_mispaired2_fq_gz.fq.gz\nProcessing paired-end reads on 5 cores ...\n", "tool_stderr": "Error in sequence file at unknown line: Reads are improperly paired. Read name 'M01368:8:000000000-A3GHV:1:1101:6911:8255/1' in file 1 does not match 'M01368:8:000000000-A3GHV:1:1101:14518:9998/2' in file 2.\n", "job_stdout": "", "job_stderr": "", "stderr": "Error in sequence file at unknown line: Reads are improperly paired. Read name 'M01368:8:000000000-A3GHV:1:1101:6911:8255/1' in file 1 does not match 'M01368:8:000000000-A3GHV:1:1101:14518:9998/2' in file 2.\n", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC -A AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_fq_gz.fq.gz bwa-mem-fastq_mispaired2_fq_gz.fq.gz\nProcessing paired-end reads on 5 cores ...\n", "job_messages": [{"code_desc": "", "desc": "Fatal error: Exit code 1 ()", "error_level": 3, "exit_code": 1, "type": "exit_code"}], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:26:52", "plugin": "core", "name": "end_epoch", "raw_value": "1726406812.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:26:51", "plugin": "core", "name": "start_epoch", "raw_value": "1726406811.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-5", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 5, "time_seconds": 25.150913953781128, "inputs": {"library|input_1": {"src": "hda", "id": "ecf524eb5b393e7e"}, "library|r1|adapters_0|adapter_source|adapter": "TTAGACATATCTCCGTCG", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "filter_options|discard_trimmed": true}, "job": {"model_class": "Job", "id": "dd3f3f16c1b47d5f", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:08:44.268224", "create_time": "2024-09-15T13:08:33.378562", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-2gksv", "command_line": "ln -f -s '/galaxy/server/database/objects/e/4/9/dataset_e4998ce6-b566-471f-ba2a-70ccbf2cb5aa.dat' 'cutadapt_small_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'TTAGACATATCTCCGTCG'    --error-rate=0.1 --times=1 --overlap=3    --action=trim      --discard-trimmed   --minimum-length=1      -o 'out1.fq'  'cutadapt_small_fastq.fq'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": true, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 0, \"input_1\": {\"values\": [{\"id\": 97, \"src\": \"hda\"}]}, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"TTAGACATATCTCCGTCG\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"type\": \"single\"}"}, "inputs": {"library|input_1": {"id": "ecf524eb5b393e7e", "src": "hda", "uuid": "e4998ce6-b566-471f-ba2a-70ccbf2cb5aa"}}, "outputs": {"out1": {"id": "72d2ace74bdaca16", "src": "hda", "uuid": "50794c5a-292f-4d4e-94d4-85c60047e0ce"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a TTAGACATATCTCCGTCG --error-rate=0.1 --times=1 --overlap=3 --action=trim --discard-trimmed --minimum-length=1 -o out1.fq cutadapt_small_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.043 s (14401.118 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       3\nReads with adapters:                         2 (66.7%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             1 (33.3%)\n\nTotal basepairs processed:           102 bp\nTotal written (filtered):             34 bp (33.3%)\n\n=== Adapter 1 ===\n\nSequence: TTAGACATATCTCCGTCG; Type: regular 3'; Length: 18; Trimmed: 2 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-18 bp: 1\n\nBases preceding removed adapters:\n  A: 50.0%\n  C: 50.0%\n  G: 0.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n10\t1\t0.0\t1\t0 1\n12\t1\t0.0\t1\t0 1\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a TTAGACATATCTCCGTCG --error-rate=0.1 --times=1 --overlap=3 --action=trim --discard-trimmed --minimum-length=1 -o out1.fq cutadapt_small_fastq.fq\nProcessing single-end reads on 5 cores ...\nFinished in 0.043 s (14401.118 \u00b5s/read; 0.00 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       3\nReads with adapters:                         2 (66.7%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             1 (33.3%)\n\nTotal basepairs processed:           102 bp\nTotal written (filtered):             34 bp (33.3%)\n\n=== Adapter 1 ===\n\nSequence: TTAGACATATCTCCGTCG; Type: regular 3'; Length: 18; Trimmed: 2 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-18 bp: 1\n\nBases preceding removed adapters:\n  A: 50.0%\n  C: 50.0%\n  G: 0.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n10\t1\t0.0\t1\t0 1\n12\t1\t0.0\t1\t0 1\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "0 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "0E-7"}, {"title": "Job End Time", "value": "2024-09-15 13:08:35", "plugin": "core", "name": "end_epoch", "raw_value": "1726405715.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:08:35", "plugin": "core", "name": "start_epoch", "raw_value": "1726405715.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-6", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 6, "time_seconds": 26.86793565750122, "inputs": {"library|input_1": {"src": "hda", "id": "64e75e29cd50ce14"}, "library|input_2": {"src": "hda", "id": "575eb38e40919905"}, "library|r1|adapters_0|adapter_source|adapter": "AGATCGGAAGAGC", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|r2|adapters2_0|adapter_source|adapter": "AGATCGGAAGAGC", "library|r2|adapters2_0|adapter_source|adapter_source_list": "user", "library|pair_adapters": true, "library|type": "paired"}, "job": {"model_class": "Job", "id": "64e75e29cd50ce14", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:09:10.859811", "create_time": "2024-09-15T13:09:00.100088", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-dhmg5", "command_line": "ln -f -s '/galaxy/server/database/objects/7/9/3/dataset_7930b634-fe6d-4d06-bdbb-46ada02b86d0.dat' 'bwa-mem-fastq1_fq_gz.fq.gz' && ln -f -s '/galaxy/server/database/objects/6/e/3/dataset_6e3d3e35-75d1-4821-b935-37b92df8beb2.dat' 'bwa-mem-fastq2_fq_gz.fq.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'    -A 'AGATCGGAAGAGC'  --pair-adapters  --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      -o 'out1.fq.gz' -p 'out2.fq.gz'  'bwa-mem-fastq1_fq_gz.fq.gz' 'bwa-mem-fastq2_fq_gz.fq.gz'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 1, \"input_1\": {\"values\": [{\"id\": 99, \"src\": \"hda\"}]}, \"input_2\": {\"values\": [{\"id\": 100, \"src\": \"hda\"}]}, \"pair_adapters\": true, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGATCGGAAGAGC\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"r2\": {\"adapters2\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGATCGGAAGAGC\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters2\": [], \"front_adapters2\": []}, \"type\": \"paired\"}"}, "inputs": {"library|input_1": {"id": "64e75e29cd50ce14", "src": "hda", "uuid": "7930b634-fe6d-4d06-bdbb-46ada02b86d0"}, "library|input_2": {"id": "575eb38e40919905", "src": "hda", "uuid": "6e3d3e35-75d1-4821-b935-37b92df8beb2"}}, "outputs": {"out1": {"id": "4469c2b48e93d6f2", "src": "hda", "uuid": "6e03bacc-5487-4525-8850-37a658893192"}, "out2": {"id": "128dddbf8c6cb696", "src": "hda", "uuid": "5df610ca-0aa3-46fa-9fbe-61f2345cab68"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC -A AGATCGGAAGAGC --pair-adapters --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_fq_gz.fq.gz bwa-mem-fastq2_fq_gz.fq.gz\nProcessing paired-end reads on 5 cores ...\nFinished in 0.177 s (1785.652 \u00b5s/read; 0.03 M reads/minute).\n\n=== Summary ===\n\nTotal read pairs processed:                 99\n  Read 1 with adapter:                       1 (1.0%)\n  Read 2 with adapter:                       1 (1.0%)\n\n== Read fate breakdown ==\nPairs that were too short:                   0 (0.0%)\nPairs written (passing filters):            99 (100.0%)\n\nTotal basepairs processed:        49,698 bp\n  Read 1:        24,849 bp\n  Read 2:        24,849 bp\nTotal written (filtered):         49,692 bp (100.0%)\n  Read 1:        24,846 bp\n  Read 2:        24,846 bp\n\n=== First read: Adapter 1 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 1 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 100.0%\n  G: 0.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t1\t1.5\t0\t1\n\n\n=== Second read: Adapter 2 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 1 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 0.0%\n  T: 100.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t1\t1.5\t0\t1\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC -A AGATCGGAAGAGC --pair-adapters --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_fq_gz.fq.gz bwa-mem-fastq2_fq_gz.fq.gz\nProcessing paired-end reads on 5 cores ...\nFinished in 0.177 s (1785.652 \u00b5s/read; 0.03 M reads/minute).\n\n=== Summary ===\n\nTotal read pairs processed:                 99\n  Read 1 with adapter:                       1 (1.0%)\n  Read 2 with adapter:                       1 (1.0%)\n\n== Read fate breakdown ==\nPairs that were too short:                   0 (0.0%)\nPairs written (passing filters):            99 (100.0%)\n\nTotal basepairs processed:        49,698 bp\n  Read 1:        24,849 bp\n  Read 2:        24,849 bp\nTotal written (filtered):         49,692 bp (100.0%)\n  Read 1:        24,846 bp\n  Read 2:        24,846 bp\n\n=== First read: Adapter 1 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 1 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 100.0%\n  G: 0.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t1\t1.5\t0\t1\n\n\n=== Second read: Adapter 2 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 1 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 0.0%\n  T: 100.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t1\t1.5\t0\t1\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:09:02", "plugin": "core", "name": "end_epoch", "raw_value": "1726405742.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:09:01", "plugin": "core", "name": "start_epoch", "raw_value": "1726405741.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-7", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 7, "time_seconds": 27.70198702812195, "inputs": {"library|input_1": {"src": "hda", "id": "4d0b1d73e941cd3c"}, "library|r1|adapters_0|adapter_source|adapter": "AAAGATG", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "output_selector": ["rest_file", "json_stats"]}, "job": {"model_class": "Job", "id": "4469c2b48e93d6f2", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:09:38.260289", "create_time": "2024-09-15T13:09:27.204263", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-tx7pq", "command_line": "ln -f -s '/galaxy/server/database/objects/3/6/d/dataset_36d84d82-7219-4a6f-bf52-4d122638104d.dat' 'cutadapt_rest_fa.fa' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AAAGATG'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      --json=stats.json -r='rest_output.fa' -o 'out1.fa'  'cutadapt_rest_fa.fa'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": "[\"rest_file\", \"json_stats\"]", "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 0, \"input_1\": {\"values\": [{\"id\": 103, \"src\": \"hda\"}]}, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AAAGATG\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"type\": \"single\"}"}, "inputs": {"library|input_1": {"id": "4d0b1d73e941cd3c", "src": "hda", "uuid": "36d84d82-7219-4a6f-bf52-4d122638104d"}}, "outputs": {"out1": {"id": "456152bbb1dd3941", "src": "hda", "uuid": "3b714e84-ab82-43b8-a914-d3f751304ac9"}, "rest_output": {"id": "4b975a0c132ef8a7", "src": "hda", "uuid": "5c43df70-a4f3-470b-af7c-bd9d15895f68"}, "json_stats": {"id": "a2572f18b853fc28", "src": "hda", "uuid": "56a380f5-9920-45c0-a2f5-6858d445148d"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AAAGATG --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 --json=stats.json -r=rest_output.fa -o out1.fa cutadapt_rest_fa.fa\nProcessing single-end reads on 5 cores ...\nFinished in 0.052 s (10400.581 \u00b5s/read; 0.01 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       5\nReads with adapters:                         5 (100.0%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             5 (100.0%)\n\nTotal basepairs processed:            97 bp\nTotal written (filtered):             35 bp (36.1%)\n\n=== Adapter 1 ===\n\nSequence: AAAGATG; Type: regular 3'; Length: 7; Trimmed: 5 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-7 bp: 0\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 100.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n7\t1\t0.0\t0\t1\n12\t1\t0.0\t0\t1\n14\t2\t0.0\t0\t2\n15\t1\t0.0\t0\t1\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AAAGATG --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 --json=stats.json -r=rest_output.fa -o out1.fa cutadapt_rest_fa.fa\nProcessing single-end reads on 5 cores ...\nFinished in 0.052 s (10400.581 \u00b5s/read; 0.01 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                       5\nReads with adapters:                         5 (100.0%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):             5 (100.0%)\n\nTotal basepairs processed:            97 bp\nTotal written (filtered):             35 bp (36.1%)\n\n=== Adapter 1 ===\n\nSequence: AAAGATG; Type: regular 3'; Length: 7; Trimmed: 5 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-7 bp: 0\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 0.0%\n  G: 100.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n7\t1\t0.0\t0\t1\n12\t1\t0.0\t0\t1\n14\t2\t0.0\t0\t2\n15\t1\t0.0\t0\t1\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:09:29", "plugin": "core", "name": "end_epoch", "raw_value": "1726405769.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:09:28", "plugin": "core", "name": "start_epoch", "raw_value": "1726405768.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-8", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 8, "time_seconds": 28.699345350265503, "inputs": {"library|input_1": {"src": "hda", "id": "aed18b04f80247e7"}, "library|r1|adapters_0|adapter_source|adapter": "AGATCGGAAGAGC", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|type": "single", "other_trimming_options|nextseq_trim": "20"}, "job": {"model_class": "Job", "id": "4d0b1d73e941cd3c", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:10:07.693932", "create_time": "2024-09-15T13:09:55.714095", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-x4qpp", "command_line": "ln -f -s '/galaxy/server/database/objects/9/5/e/dataset_95ece960-77e1-4923-8d57-af1c58eea328.dat' 'bwa-mem-fastq1_fq_gz.fq.gz' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'    --error-rate=0.1 --times=1 --overlap=3    --action=trim   --nextseq-trim=20       --minimum-length=1      -o 'out1.fq.gz'  'bwa-mem-fastq1_fq_gz.fq.gz'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": null, "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"20\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 0, \"input_1\": {\"values\": [{\"id\": 107, \"src\": \"hda\"}]}, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGATCGGAAGAGC\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"type\": \"single\"}"}, "inputs": {"library|input_1": {"id": "aed18b04f80247e7", "src": "hda", "uuid": "95ece960-77e1-4923-8d57-af1c58eea328"}}, "outputs": {"out1": {"id": "c2f0ec8f6cdf4923", "src": "hda", "uuid": "d3e8ad06-6514-4a6c-b802-8f7da83dbbb8"}}, "output_collections": {}, "tool_stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --nextseq-trim=20 --minimum-length=1 -o out1.fq.gz bwa-mem-fastq1_fq_gz.fq.gz\nProcessing single-end reads on 5 cores ...\nFinished in 0.101 s (1021.624 \u00b5s/read; 0.06 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                      99\nReads with adapters:                         4 (4.0%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):            99 (100.0%)\n\nTotal basepairs processed:        24,849 bp\nQuality-trimmed:                     286 bp (1.2%)\nTotal written (filtered):         24,550 bp (98.8%)\n\n=== Adapter 1 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 4 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 75.0%\n  G: 25.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t3\t1.5\t0\t3\n4\t1\t0.4\t0\t1\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "This is cutadapt 4.9 with Python 3.12.5\nCommand line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --nextseq-trim=20 --minimum-length=1 -o out1.fq.gz bwa-mem-fastq1_fq_gz.fq.gz\nProcessing single-end reads on 5 cores ...\nFinished in 0.101 s (1021.624 \u00b5s/read; 0.06 M reads/minute).\n\n=== Summary ===\n\nTotal reads processed:                      99\nReads with adapters:                         4 (4.0%)\n\n== Read fate breakdown ==\nReads that were too short:                   0 (0.0%)\nReads written (passing filters):            99 (100.0%)\n\nTotal basepairs processed:        24,849 bp\nQuality-trimmed:                     286 bp (1.2%)\nTotal written (filtered):         24,550 bp (98.8%)\n\n=== Adapter 1 ===\n\nSequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 4 times\n\nMinimum overlap: 3\nNo. of allowed errors:\n1-9 bp: 0; 10-13 bp: 1\n\nBases preceding removed adapters:\n  A: 0.0%\n  C: 75.0%\n  G: 25.0%\n  T: 0.0%\n  none/other: 0.0%\n\nOverview of removed sequences\nlength\tcount\texpect\tmax.err\terror counts\n3\t3\t1.5\t0\t3\n4\t1\t0.4\t0\t1\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:09:58", "plugin": "core", "name": "end_epoch", "raw_value": "1726405798.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:09:57", "plugin": "core", "name": "start_epoch", "raw_value": "1726405797.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "cutadapt/4.9+galaxy1-9", "has_data": true, "data": {"tool_id": "cutadapt", "tool_version": "4.9+galaxy1", "test_index": 9, "time_seconds": 25.873560428619385, "inputs": {"library|input_1": {"src": "hda", "id": "276007fa6db2d3ed"}, "library|r1|adapters_0|adapter_source|adapter": "AGATCGGAAGAGC", "library|r1|adapters_0|adapter_source|adapter_source_list": "user", "library|type": "single", "output_selector": ["report", "info_file"]}, "job": {"model_class": "Job", "id": "4b975a0c132ef8a7", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:10:32.898931", "create_time": "2024-09-15T13:10:22.088746", "galaxy_version": "23.1", "command_version": "4.9", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/lparsons/cutadapt/cutadapt/4.9+galaxy1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-zt267", "command_line": "ln -f -s '/galaxy/server/database/objects/b/2/8/dataset_b2804edd-8cd7-4764-aec0-f6792efc01c1.dat' 'cutadapt_small_fastq.fq' &&  cutadapt  -j=${GALAXY_SLOTS:-4}   -a 'AGATCGGAAGAGC'    --error-rate=0.1 --times=1 --overlap=3    --action=trim         --minimum-length=1      --info-file='/galaxy/server/database/objects/3/4/d/dataset_34dd2bba-e1fc-46b2-96cd-933cf0e31b8d.dat' -o 'out1.fq'  'cutadapt_small_fastq.fq'  > report.txt", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_selector": "[\"report\", \"info_file\"]", "read_mod_options": "{\"length_tag\": null, \"rename\": null, \"strip_suffix\": null, \"zero_cap\": false}", "filter_options": "{\"discard_casava\": false, \"discard_trimmed\": false, \"discard_untrimmed\": false, \"max_average_error_rate\": \"\", \"max_expected_errors\": \"\", \"max_n\": \"\", \"maximum_length\": \"\", \"maximum_length2\": \"\", \"minimum_length\": \"1\", \"minimum_length2\": \"\", \"pair_filter\": \"any\"}", "other_trimming_options": "{\"cut\": \"0\", \"cut2\": \"0\", \"nextseq_trim\": \"0\", \"poly_a\": false, \"quality_cutoff\": \"0\", \"quality_cutoff2\": \"\", \"shorten_options\": {\"__current_case__\": 1, \"shorten_values\": \"False\"}, \"shorten_options_r2\": {\"__current_case__\": 1, \"shorten_values_r2\": \"False\"}, \"trim_n\": false}", "adapter_options": "{\"action\": \"trim\", \"error_rate\": \"0.1\", \"match_read_wildcards\": false, \"no_indels\": false, \"no_match_adapter_wildcards\": true, \"overlap\": \"3\", \"revcomp\": false, \"times\": \"1\"}", "library": "{\"__current_case__\": 0, \"input_1\": {\"values\": [{\"id\": 109, \"src\": \"hda\"}]}, \"r1\": {\"adapters\": [{\"__index__\": 0, \"adapter_source\": {\"__current_case__\": 0, \"adapter\": \"AGATCGGAAGAGC\", \"adapter_name\": \"\", \"adapter_source_list\": \"user\"}, \"single_noindels\": false}], \"anywhere_adapters\": [], \"front_adapters\": []}, \"type\": \"single\"}"}, "inputs": {"library|input_1": {"id": "276007fa6db2d3ed", "src": "hda", "uuid": "b2804edd-8cd7-4764-aec0-f6792efc01c1"}}, "outputs": {"out1": {"id": "b2b91048303d3955", "src": "hda", "uuid": "67b98478-e2d4-4556-a114-c0c20ca72abd"}, "report": {"id": "1afd9acf05cf474e", "src": "hda", "uuid": "b33d451a-ea64-4a8f-9728-9a48773b9dda"}, "info_file": {"id": "a7c2465cb53988c1", "src": "hda", "uuid": "34dd2bba-e1fc-46b2-96cd-933cf0e31b8d"}}, "output_collections": {}, "tool_stdout": "", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:10:24", "plugin": "core", "name": "end_epoch", "raw_value": "1726405824.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:10:23", "plugin": "core", "name": "start_epoch", "raw_value": "1726405823.0000000"}, {"title": "Memory Allocated (MB)", "value": "20401", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "20401.0000000"}, {"title": "Cores Allocated", "value": "5", "plugin": "core", "name": "galaxy_slots", "raw_value": "5.0000000"}]}, "status": "success"}}, {"id": "deeptools_bigwig_compare/3.5.4+galaxy0-0", "has_data": true, "data": {"tool_id": "deeptools_bigwig_compare", "tool_version": "3.5.4+galaxy0", "test_index": 0, "time_seconds": 41.38257384300232, "inputs": {"bigwigFile1": {"src": "hda", "id": "d47502e1f7052ae7"}, "bigwigFile2": {"src": "hda", "id": "d47502e1f7052ae7"}, "comparison|comparison_select": "ratio", "outFileFormat": "bigwig", "advancedOpt|showAdvancedOpt": "no"}, "job": {"model_class": "Job", "id": "94e21f32714002a7", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:40:33.034312", "create_time": "2024-09-15T13:40:07.067792", "galaxy_version": "23.1", "command_version": "bigwigCompare 3.5.4", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/bgruening/deeptools_bigwig_compare/deeptools_bigwig_compare/3.5.4+galaxy0", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-nq9vm", "command_line": "bigwigCompare --numberOfProcessors \"${GALAXY_SLOTS:-4}\" --bigwig1 '/galaxy/server/database/objects/0/8/a/dataset_08a274d3-0ac3-4bf0-8bc7-aaa52edf189f.dat' --bigwig2 '/galaxy/server/database/objects/0/8/a/dataset_08a274d3-0ac3-4bf0-8bc7-aaa52edf189f.dat'  --outFileName '/galaxy/server/database/objects/8/0/d/dataset_80d83bc3-699e-4c58-8c3a-0550cdbd4b55.dat' --outFileFormat 'bigwig'  --operation ratio  --pseudocount 1 1", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "advancedOpt": "{\"__current_case__\": 0, \"showAdvancedOpt\": \"no\"}", "region": "\"\"", "outFileFormat": "\"bigwig\"", "comparison": "{\"__current_case__\": 1, \"comparison_select\": \"ratio\", \"pseudocount\": \"1 1\"}"}, "inputs": {"bigwigFile1": {"id": "d47502e1f7052ae7", "src": "hda", "uuid": "08a274d3-0ac3-4bf0-8bc7-aaa52edf189f"}, "bigwigFile2": {"id": "d47502e1f7052ae7", "src": "hda", "uuid": "08a274d3-0ac3-4bf0-8bc7-aaa52edf189f"}}, "outputs": {"outFileName": {"id": "b962e5ccbe6c3a81", "src": "hda", "uuid": "80d83bc3-699e-4c58-8c3a-0550cdbd4b55"}}, "output_collections": {}, "tool_stdout": "", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:40:21", "plugin": "core", "name": "end_epoch", "raw_value": "1726407621.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:40:20", "plugin": "core", "name": "start_epoch", "raw_value": "1726407620.0000000"}, {"title": "Memory Allocated (MB)", "value": "25769", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "25769.0000000"}, {"title": "Cores Allocated", "value": "8", "plugin": "core", "name": "galaxy_slots", "raw_value": "8.0000000"}]}, "status": "success"}}, {"id": "deeptools_bigwig_compare/3.5.4+galaxy0-1", "has_data": true, "data": {"tool_id": "deeptools_bigwig_compare", "tool_version": "3.5.4+galaxy0", "test_index": 1, "time_seconds": 28.10448694229126, "inputs": {"bigwigFile1": {"src": "hda", "id": "8f19adc99ce46b32"}, "bigwigFile2": {"src": "hda", "id": "8f19adc99ce46b32"}, "comparison|comparison_select": "ratio", "outFileFormat": "bedgraph", "advancedOpt|showAdvancedOpt": "no"}, "job": {"model_class": "Job", "id": "0e3cd0456d8e8bf0", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:41:01.439831", "create_time": "2024-09-15T13:40:49.598853", "galaxy_version": "23.1", "command_version": "bigwigCompare 3.5.4", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/bgruening/deeptools_bigwig_compare/deeptools_bigwig_compare/3.5.4+galaxy0", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-4pwst", "command_line": "bigwigCompare --numberOfProcessors \"${GALAXY_SLOTS:-4}\" --bigwig1 '/galaxy/server/database/objects/0/d/8/dataset_0d84a39d-5d8b-4a5e-a622-1f0163d056bf.dat' --bigwig2 '/galaxy/server/database/objects/0/d/8/dataset_0d84a39d-5d8b-4a5e-a622-1f0163d056bf.dat'  --outFileName '/galaxy/server/database/objects/8/0/e/dataset_80e975d8-5bf7-4093-8e42-d40237aeb593.dat' --outFileFormat 'bedgraph'  --operation ratio  --pseudocount 1 1", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "advancedOpt": "{\"__current_case__\": 0, \"showAdvancedOpt\": \"no\"}", "region": "\"\"", "outFileFormat": "\"bedgraph\"", "comparison": "{\"__current_case__\": 1, \"comparison_select\": \"ratio\", \"pseudocount\": \"1 1\"}"}, "inputs": {"bigwigFile1": {"id": "8f19adc99ce46b32", "src": "hda", "uuid": "0d84a39d-5d8b-4a5e-a622-1f0163d056bf"}, "bigwigFile2": {"id": "8f19adc99ce46b32", "src": "hda", "uuid": "0d84a39d-5d8b-4a5e-a622-1f0163d056bf"}}, "outputs": {"outFileName": {"id": "1cda300ea430625f", "src": "hda", "uuid": "80e975d8-5bf7-4093-8e42-d40237aeb593"}}, "output_collections": {}, "tool_stdout": "", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:40:52", "plugin": "core", "name": "end_epoch", "raw_value": "1726407652.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:40:51", "plugin": "core", "name": "start_epoch", "raw_value": "1726407651.0000000"}, {"title": "Memory Allocated (MB)", "value": "25769", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "25769.0000000"}, {"title": "Cores Allocated", "value": "8", "plugin": "core", "name": "galaxy_slots", "raw_value": "8.0000000"}]}, "status": "success"}}, {"id": "deseq2/2.11.40.8+galaxy0-0", "has_data": true, "data": {"tool_id": "deseq2", "tool_version": "2.11.40.8+galaxy0", "test_index": 0, "time_seconds": 94.7874207496643, "inputs": {"select_data|rep_factorName_0|factorName": "Treatment", "select_data|rep_factorName_0|rep_factorLevel_0|factorLevel": "Treated", "select_data|rep_factorName_0|rep_factorLevel_0|countsFile": [{"src": "hda", "id": "0e4ace34474a978e"}, {"src": "hda", "id": "a24fbb961c768c93"}, {"src": "hda", "id": "5bdc7940ed3be764"}], "select_data|rep_factorName_0|rep_factorLevel_1|factorLevel": "Untreated", "select_data|rep_factorName_0|rep_factorLevel_1|countsFile": [{"src": "hda", "id": "b474239ea7e95949"}, {"src": "hda", "id": "691b69622446ec69"}, {"src": "hda", "id": "5b7e68f2c3bef39e"}, {"src": "hda", "id": "3f0f46cf6aa5ae75"}], "advanced_options|use_beta_priors": true, "output_options|output_selector": ["normCounts", "normRLog", "normVST"]}, "job": {"model_class": "Job", "id": "80dbf36c1afde1c7", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:47:27.776470", "create_time": "2024-09-15T13:46:26.030932", "galaxy_version": "23.1", "command_version": "R version 4.3.1 (2023-06-16) -- \"Beagle Scouts\", DESeq2 version 1.40.2", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/iuc/deseq2/deseq2/2.11.40.8+galaxy0", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-mqx7t", "command_line": "cat '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/get_deseq_dataset.R' > /dev/null &&  Rscript '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/deseq2.R' --cores ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/8/c/7/dataset_8c7a9d22-03de-4bc9-bd8a-79f388fe6ea4.dat' -A 0.1 -n '/galaxy/server/database/objects/8/d/9/dataset_8d9213fd-cb93-4484-853b-43e0e0fc493b.dat' -r '/galaxy/server/database/objects/a/e/9/dataset_ae929fd9-70e8-462c-80aa-78987e6767ab.dat' -v '/galaxy/server/database/objects/f/b/0/dataset_fb0ad0c7-b068-4a0e-85cc-c6afe48be0c7.dat'                    -H  -f '[[\"Treatment\", [{\"Untreated\": [\"/galaxy/server/database/objects/7/0/0/dataset_700522bf-2c9c-4255-a640-44f2ac3714d3.dat\", \"/galaxy/server/database/objects/0/5/5/dataset_055aa6c5-b4cc-45af-9822-6144059aef27.dat\", \"/galaxy/server/database/objects/6/6/9/dataset_669de77f-fbe0-4e0b-9c57-02d3a2a2977d.dat\", \"/galaxy/server/database/objects/4/4/0/dataset_4405895b-1bef-4197-8355-778fab2267e0.dat\"]}, {\"Treated\": [\"/galaxy/server/database/objects/4/7/7/dataset_4778650a-b2ba-45eb-9926-6ecb7453f9d4.dat\", \"/galaxy/server/database/objects/e/2/2/dataset_e226f10f-f420-42ec-aa1c-1733f16f34cb.dat\", \"/galaxy/server/database/objects/b/f/2/dataset_bf25304b-80a4-42bc-a309-0b2d2b30646f.dat\"]}]]]' -l '{\"dataset_4778650a-b2ba-45eb-9926-6ecb7453f9d4.dat\": \"GSM461179_treat_single.counts\", \"dataset_e226f10f-f420-42ec-aa1c-1733f16f34cb.dat\": \"GSM461180_treat_paired.counts\", \"dataset_bf25304b-80a4-42bc-a309-0b2d2b30646f.dat\": \"GSM461181_treat_paired.counts\", \"dataset_700522bf-2c9c-4255-a640-44f2ac3714d3.dat\": \"GSM461176_untreat_single.counts\", \"dataset_055aa6c5-b4cc-45af-9822-6144059aef27.dat\": \"GSM461177_untreat_paired.counts\", \"dataset_669de77f-fbe0-4e0b-9c57-02d3a2a2977d.dat\": \"GSM461178_untreat_paired.counts\", \"dataset_4405895b-1bef-4197-8355-778fab2267e0.dat\": \"GSM461182_untreat_single.counts\"}' -t 1     -d", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_options": "{\"alpha_ma\": \"0.1\", \"output_selector\": [\"normCounts\", \"normRLog\", \"normVST\"]}", "advanced_options": "{\"auto_mean_filter_off\": false, \"esf_cond\": {\"__current_case__\": 0, \"esf\": \"\"}, \"fit_type\": \"1\", \"outlier_filter_off\": false, \"outlier_replace_off\": false, \"prefilter_conditional\": {\"__current_case__\": 1, \"prefilter\": \"\"}, \"use_beta_priors\": true}", "tximport": "{\"__current_case__\": 1, \"tximport_selector\": \"count\"}", "header": "true", "batch_factors": null, "select_data": "{\"__current_case__\": 1, \"how\": \"datasets_per_level\", \"rep_factorName\": [{\"__index__\": 0, \"factorName\": \"Treatment\", \"rep_factorLevel\": [{\"__index__\": 0, \"countsFile\": {\"values\": [{\"id\": 397, \"src\": \"hda\"}, {\"id\": 398, \"src\": \"hda\"}, {\"id\": 399, \"src\": \"hda\"}]}, \"factorLevel\": \"Treated\"}, {\"__index__\": 1, \"countsFile\": {\"values\": [{\"id\": 400, \"src\": \"hda\"}, {\"id\": 401, \"src\": \"hda\"}, {\"id\": 402, \"src\": \"hda\"}, {\"id\": 403, \"src\": \"hda\"}]}, \"factorLevel\": \"Untreated\"}]}]}"}, "inputs": {"select_data|rep_factorName_0|rep_factorLevel_0|countsFile3": {"id": "5bdc7940ed3be764", "src": "hda", "uuid": "bf25304b-80a4-42bc-a309-0b2d2b30646f"}, "select_data|rep_factorName_0|rep_factorLevel_0|countsFile1": {"id": "0e4ace34474a978e", "src": "hda", "uuid": "4778650a-b2ba-45eb-9926-6ecb7453f9d4"}, "select_data|rep_factorName_0|rep_factorLevel_0|countsFile": {"id": "0e4ace34474a978e", "src": "hda", "uuid": "4778650a-b2ba-45eb-9926-6ecb7453f9d4"}, "select_data|rep_factorName_0|rep_factorLevel_0|countsFile2": {"id": "a24fbb961c768c93", "src": "hda", "uuid": "e226f10f-f420-42ec-aa1c-1733f16f34cb"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile1": {"id": "b474239ea7e95949", "src": "hda", "uuid": "700522bf-2c9c-4255-a640-44f2ac3714d3"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile": {"id": "b474239ea7e95949", "src": "hda", "uuid": "700522bf-2c9c-4255-a640-44f2ac3714d3"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile2": {"id": "691b69622446ec69", "src": "hda", "uuid": "055aa6c5-b4cc-45af-9822-6144059aef27"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile3": {"id": "5b7e68f2c3bef39e", "src": "hda", "uuid": "669de77f-fbe0-4e0b-9c57-02d3a2a2977d"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile4": {"id": "3f0f46cf6aa5ae75", "src": "hda", "uuid": "4405895b-1bef-4197-8355-778fab2267e0"}}, "outputs": {"deseq_out": {"id": "e57566578e39f8ff", "src": "hda", "uuid": "8c7a9d22-03de-4bc9-bd8a-79f388fe6ea4"}, "counts_out": {"id": "61e375c4bdaa4e62", "src": "hda", "uuid": "8d9213fd-cb93-4484-853b-43e0e0fc493b"}, "rlog_out": {"id": "2ec01a5e16913711", "src": "hda", "uuid": "ae929fd9-70e8-462c-80aa-78987e6767ab"}, "vst_out": {"id": "1d3be7b4c893defe", "src": "hda", "uuid": "fb0ad0c7-b068-4a0e-85cc-c6afe48be0c7"}}, "output_collections": {}, "tool_stdout": "primary factor: Treatment \n\n---------------------\nNo size factor was used\nDESeq2 run information\n\nsample table:\n                                Treatment\nGSM461176_untreat_single.counts Untreated\nGSM461177_untreat_paired.counts Untreated\nGSM461178_untreat_paired.counts Untreated\nGSM461182_untreat_single.counts Untreated\nGSM461179_treat_single.counts     Treated\nGSM461180_treat_paired.counts     Treated\nGSM461181_treat_paired.counts     Treated\n\ndesign formula:\n~Treatment\n\n\n7 samples with counts over 3999 genes\n[1] \"use_beta_prior is set to TRUE\"\nusing disperion fit type: parametric \nsummary of results\nTreatment: Treated vs Untreated\n\nout of 3429 with nonzero total read count\nadjusted p-value < 0.1\nLFC > 0 (up)       : 148, 4.3%\nLFC < 0 (down)     : 152, 4.4%\noutliers [1]       : 2, 0.058%\nlow counts [2]     : 659, 19%\n(mean count < 3)\n[1] see 'cooksCutoff' argument of ?results\n[2] see 'independentFiltering' argument of ?results\n\nNULL\nSession information:\n\nR version 4.3.1 (2023-06-16)\nPlatform: x86_64-conda-linux-gnu (64-bit)\nRunning under: Debian GNU/Linux 10 (buster)\n\nMatrix products: default\nBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0\n\nlocale:\n [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       \n [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   \n [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          \n[10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   \n\ntime zone: NA\ntzcode source: system (glibc)\n\nattached base packages:\n[1] stats4    tools     stats     graphics  grDevices utils     datasets \n[8] methods   base     \n\nother attached packages:\n [1] rjson_0.2.21                gplots_3.1.3               \n [3] RColorBrewer_1.1-3          DESeq2_1.40.2              \n [5] SummarizedExperiment_1.30.2 Biobase_2.60.0             \n [7] MatrixGenerics_1.12.2       matrixStats_1.0.0          \n [9] GenomicRanges_1.52.0        GenomeInfoDb_1.36.1        \n[11] IRanges_2.34.1              S4Vectors_0.38.1           \n[13] BiocGenerics_0.46.0         getopt_1.20.3              \n\nloaded via a namespace (and not attached):\n [1] utf8_1.2.3              generics_0.1.3          bitops_1.0-7           \n [4] KernSmooth_2.23-22      gtools_3.9.4            lattice_0.21-8         \n [7] caTools_1.18.2          magrittr_2.0.3          grid_4.3.1             \n[10] Matrix_1.6-0            fansi_1.0.4             scales_1.2.1           \n[13] codetools_0.2-19        cli_3.6.1               rlang_1.1.1            \n[16] crayon_1.5.2            XVector_0.40.0          munsell_0.5.0          \n[19] DelayedArray_0.26.6     S4Arrays_1.0.4          parallel_4.3.1         \n[22] BiocParallel_1.34.2     dplyr_1.1.2             colorspace_2.1-0       \n[25] ggplot2_3.4.2           locfit_1.5-9.8          GenomeInfoDbData_1.2.10\n[28] vctrs_0.6.3             R6_2.5.1                lifecycle_1.0.3        \n[31] zlibbioc_1.46.0         pkgconfig_2.0.3         pillar_1.9.0           \n[34] gtable_0.3.3            glue_1.6.2              Rcpp_1.0.11            \n[37] tibble_3.2.1            tidyselect_1.2.0        compiler_4.3.1         \n[40] RCurl_1.98-1.12        \n", "tool_stderr": "estimating size factors\nestimating dispersions\ngene-wise dispersion estimates\nmean-dispersion relationship\nfinal dispersion estimates\nfitting model and testing\n", "job_stdout": "", "job_stderr": "", "stderr": "estimating size factors\nestimating dispersions\ngene-wise dispersion estimates\nmean-dispersion relationship\nfinal dispersion estimates\nfitting model and testing\n", "stdout": "primary factor: Treatment \n\n---------------------\nNo size factor was used\nDESeq2 run information\n\nsample table:\n                                Treatment\nGSM461176_untreat_single.counts Untreated\nGSM461177_untreat_paired.counts Untreated\nGSM461178_untreat_paired.counts Untreated\nGSM461182_untreat_single.counts Untreated\nGSM461179_treat_single.counts     Treated\nGSM461180_treat_paired.counts     Treated\nGSM461181_treat_paired.counts     Treated\n\ndesign formula:\n~Treatment\n\n\n7 samples with counts over 3999 genes\n[1] \"use_beta_prior is set to TRUE\"\nusing disperion fit type: parametric \nsummary of results\nTreatment: Treated vs Untreated\n\nout of 3429 with nonzero total read count\nadjusted p-value < 0.1\nLFC > 0 (up)       : 148, 4.3%\nLFC < 0 (down)     : 152, 4.4%\noutliers [1]       : 2, 0.058%\nlow counts [2]     : 659, 19%\n(mean count < 3)\n[1] see 'cooksCutoff' argument of ?results\n[2] see 'independentFiltering' argument of ?results\n\nNULL\nSession information:\n\nR version 4.3.1 (2023-06-16)\nPlatform: x86_64-conda-linux-gnu (64-bit)\nRunning under: Debian GNU/Linux 10 (buster)\n\nMatrix products: default\nBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0\n\nlocale:\n [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       \n [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   \n [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          \n[10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   \n\ntime zone: NA\ntzcode source: system (glibc)\n\nattached base packages:\n[1] stats4    tools     stats     graphics  grDevices utils     datasets \n[8] methods   base     \n\nother attached packages:\n [1] rjson_0.2.21                gplots_3.1.3               \n [3] RColorBrewer_1.1-3          DESeq2_1.40.2              \n [5] SummarizedExperiment_1.30.2 Biobase_2.60.0             \n [7] MatrixGenerics_1.12.2       matrixStats_1.0.0          \n [9] GenomicRanges_1.52.0        GenomeInfoDb_1.36.1        \n[11] IRanges_2.34.1              S4Vectors_0.38.1           \n[13] BiocGenerics_0.46.0         getopt_1.20.3              \n\nloaded via a namespace (and not attached):\n [1] utf8_1.2.3              generics_0.1.3          bitops_1.0-7           \n [4] KernSmooth_2.23-22      gtools_3.9.4            lattice_0.21-8         \n [7] caTools_1.18.2          magrittr_2.0.3          grid_4.3.1             \n[10] Matrix_1.6-0            fansi_1.0.4             scales_1.2.1           \n[13] codetools_0.2-19        cli_3.6.1               rlang_1.1.1            \n[16] crayon_1.5.2            XVector_0.40.0          munsell_0.5.0          \n[19] DelayedArray_0.26.6     S4Arrays_1.0.4          parallel_4.3.1         \n[22] BiocParallel_1.34.2     dplyr_1.1.2             colorspace_2.1-0       \n[25] ggplot2_3.4.2           locfit_1.5-9.8          GenomeInfoDbData_1.2.10\n[28] vctrs_0.6.3             R6_2.5.1                lifecycle_1.0.3        \n[31] zlibbioc_1.46.0         pkgconfig_2.0.3         pillar_1.9.0           \n[34] gtable_0.3.3            glue_1.6.2              Rcpp_1.0.11            \n[37] tibble_3.2.1            tidyselect_1.2.0        compiler_4.3.1         \n[40] RCurl_1.98-1.12        \n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "19 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "19.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:47:10", "plugin": "core", "name": "end_epoch", "raw_value": "1726408030.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:46:51", "plugin": "core", "name": "start_epoch", "raw_value": "1726408011.0000000"}, {"title": "Memory Allocated (MB)", "value": "8589", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "8589.0000000"}, {"title": "Cores Allocated", "value": "1", "plugin": "core", "name": "galaxy_slots", "raw_value": "1.0000000"}]}, "status": "success"}}, {"id": "deseq2/2.11.40.8+galaxy0-1", "has_data": true, "data": {"tool_id": "deseq2", "tool_version": "2.11.40.8+galaxy0", "test_index": 1, "time_seconds": 11.367457628250122, "execution_problem": "Input staging problem: Job in error state.. tool_id: upload1, exit_code: None, stderr: .", "status": "error"}}, {"id": "deseq2/2.11.40.8+galaxy0-10", "has_data": true, "data": {"tool_id": "deseq2", "tool_version": "2.11.40.8+galaxy0", "test_index": 10, "time_seconds": 61.10354781150818, "inputs": {"select_data|rep_factorName_0|factorName": "Treatment", "select_data|rep_factorName_0|rep_factorLevel_0|factorLevel": "Treated", "select_data|rep_factorName_0|rep_factorLevel_0|countsFile": [{"src": "hda", "id": "09815abc7956baa1"}, {"src": "hda", "id": "c424cf1bec82c698"}, {"src": "hda", "id": "fd93cf61764f3ca7"}], "select_data|rep_factorName_0|rep_factorLevel_1|factorLevel": "Untreated", "select_data|rep_factorName_0|rep_factorLevel_1|countsFile": [{"src": "hda", "id": "c4659d7b34b365c6"}, {"src": "hda", "id": "108212202ead115c"}, {"src": "hda", "id": "a278420a3dd982e7"}], "tximport|txtype": "sailfish", "tximport|mapping_format|gtf_file": {"src": "hda", "id": "c85bec283d51d065"}, "tximport|mapping_format|mapping_format_selector": "gtf", "tximport|tximport_selector": "tximport", "output_options|output_selector": "sizefactors", "output_options|alpha_ma": "0.05"}, "job": {"model_class": "Job", "id": "6c90f6313f69bf03", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:56:44.523028", "create_time": "2024-09-15T13:56:14.364563", "galaxy_version": "23.1", "command_version": "R version 4.3.1 (2023-06-16) -- \"Beagle Scouts\", DESeq2 version 1.40.2", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/iuc/deseq2/deseq2/2.11.40.8+galaxy0", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-rsnnl", "command_line": "ln -s '/galaxy/server/database/objects/7/1/e/dataset_71e809fb-5aed-4a09-8c54-06a763f4a3e9.dat' mapping.gff &&  cat '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/get_deseq_dataset.R' > /dev/null &&  Rscript '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/deseq2.R' --cores ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/9/8/d/dataset_98dbc7f0-e3e4-4a3b-809f-528d66586f91.dat' -A 0.05 -F '/galaxy/server/database/objects/9/5/c/dataset_95c3f475-48bc-4d64-bdb0-ba146757c33e.dat'                  -H  -f '[[\"Treatment\", [{\"Untreated\": [\"/galaxy/server/database/objects/1/1/c/dataset_11c5b96e-21e9-4127-99b3-947a5c4338e7.dat\", \"/galaxy/server/database/objects/3/4/2/dataset_342d4b5b-6875-422a-8508-1d0695becab0.dat\", \"/galaxy/server/database/objects/7/c/3/dataset_7c31e6e9-ae6c-487c-b5f2-bdfbab342403.dat\"]}, {\"Treated\": [\"/galaxy/server/database/objects/7/f/3/dataset_7f303454-073c-43d1-964a-7356afa63021.dat\", \"/galaxy/server/database/objects/1/9/0/dataset_1903b37f-578e-42ac-848d-bad53cf27ecf.dat\", \"/galaxy/server/database/objects/e/7/b/dataset_e7b53a1d-425c-4b5b-a28d-82cf8d73335c.dat\"]}]]]' -l '{\"dataset_7f303454-073c-43d1-964a-7356afa63021.dat\": \"sailfish_quant.sf1.tab\", \"dataset_1903b37f-578e-42ac-848d-bad53cf27ecf.dat\": \"sailfish_quant.sf2.tab\", \"dataset_e7b53a1d-425c-4b5b-a28d-82cf8d73335c.dat\": \"sailfish_quant.sf3.tab\", \"dataset_11c5b96e-21e9-4127-99b3-947a5c4338e7.dat\": \"sailfish_quant.sf4.tab\", \"dataset_342d4b5b-6875-422a-8508-1d0695becab0.dat\": \"sailfish_quant.sf5.tab\", \"dataset_7c31e6e9-ae6c-487c-b5f2-bdfbab342403.dat\": \"sailfish_quant.sf6.tab\"}' -t 1       -i -y sailfish -x mapping.gff", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_options": "{\"alpha_ma\": \"0.05\", \"output_selector\": \"sizefactors\"}", "advanced_options": "{\"auto_mean_filter_off\": false, \"esf_cond\": {\"__current_case__\": 0, \"esf\": \"\"}, \"fit_type\": \"1\", \"outlier_filter_off\": false, \"outlier_replace_off\": false, \"prefilter_conditional\": {\"__current_case__\": 1, \"prefilter\": \"\"}, \"use_beta_priors\": false}", "tximport": "{\"__current_case__\": 0, \"mapping_format\": {\"__current_case__\": 0, \"gtf_file\": {\"values\": [{\"id\": 490, \"src\": \"hda\"}]}, \"mapping_format_selector\": \"gtf\"}, \"tximport_selector\": \"tximport\", \"txtype\": \"sailfish\"}", "header": "true", "batch_factors": null, "select_data": "{\"__current_case__\": 1, \"how\": \"datasets_per_level\", \"rep_factorName\": [{\"__index__\": 0, \"factorName\": \"Treatment\", \"rep_factorLevel\": [{\"__index__\": 0, \"countsFile\": {\"values\": [{\"id\": 484, \"src\": \"hda\"}, {\"id\": 485, \"src\": \"hda\"}, {\"id\": 486, \"src\": \"hda\"}]}, \"factorLevel\": \"Treated\"}, {\"__index__\": 1, \"countsFile\": {\"values\": [{\"id\": 487, \"src\": \"hda\"}, {\"id\": 488, \"src\": \"hda\"}, {\"id\": 489, \"src\": \"hda\"}]}, \"factorLevel\": \"Untreated\"}]}]}"}, "inputs": {"select_data|rep_factorName_0|rep_factorLevel_0|countsFile": {"id": "09815abc7956baa1", "src": "hda", "uuid": "7f303454-073c-43d1-964a-7356afa63021"}, "select_data|rep_factorName_0|rep_factorLevel_0|countsFile1": {"id": "09815abc7956baa1", "src": "hda", "uuid": "7f303454-073c-43d1-964a-7356afa63021"}, "select_data|rep_factorName_0|rep_factorLevel_0|countsFile2": {"id": "c424cf1bec82c698", "src": "hda", "uuid": "1903b37f-578e-42ac-848d-bad53cf27ecf"}, "select_data|rep_factorName_0|rep_factorLevel_0|countsFile3": {"id": "fd93cf61764f3ca7", "src": "hda", "uuid": "e7b53a1d-425c-4b5b-a28d-82cf8d73335c"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile": {"id": "c4659d7b34b365c6", "src": "hda", "uuid": "11c5b96e-21e9-4127-99b3-947a5c4338e7"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile1": {"id": "c4659d7b34b365c6", "src": "hda", "uuid": "11c5b96e-21e9-4127-99b3-947a5c4338e7"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile2": {"id": "108212202ead115c", "src": "hda", "uuid": "342d4b5b-6875-422a-8508-1d0695becab0"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile3": {"id": "a278420a3dd982e7", "src": "hda", "uuid": "7c31e6e9-ae6c-487c-b5f2-bdfbab342403"}, "tximport|mapping_format|gtf_file": {"id": "c85bec283d51d065", "src": "hda", "uuid": "71e809fb-5aed-4a09-8c54-06a763f4a3e9"}}, "outputs": {"sizefactors_out": {"id": "be8779c673b8c47e", "src": "hda", "uuid": "95c3f475-48bc-4d64-bdb0-ba146757c33e"}, "deseq_out": {"id": "5110b2d07f51e85a", "src": "hda", "uuid": "98dbc7f0-e3e4-4a3b-809f-528d66586f91"}}, "output_collections": {}, "tool_stdout": "primary factor: Treatment \n\n---------------------\nNo size factor was used\n\nsize factors for samples: taking tximport data into account\nDESeq2 run information\n\nsample table:\n                       Treatment\nsailfish_quant.sf4.tab Untreated\nsailfish_quant.sf5.tab Untreated\nsailfish_quant.sf6.tab Untreated\nsailfish_quant.sf1.tab   Treated\nsailfish_quant.sf2.tab   Treated\nsailfish_quant.sf3.tab   Treated\n\ndesign formula:\n~Treatment\n\n\n6 samples with counts over 11 genes\nApplied default - beta prior off\n[1] \"use_beta_prior is set to FALSE\"\nusing disperion fit type: parametric \nsummary of results\nTreatment: Treated vs Untreated\n\nout of 9 with nonzero total read count\nadjusted p-value < 0.1\nLFC > 0 (up)       : 0, 0%\nLFC < 0 (down)     : 0, 0%\noutliers [1]       : 0, 0%\nlow counts [2]     : 0, 0%\n(mean count < 0)\n[1] see 'cooksCutoff' argument of ?results\n[2] see 'independentFiltering' argument of ?results\n\nNULL\nSession information:\n\nR version 4.3.1 (2023-06-16)\nPlatform: x86_64-conda-linux-gnu (64-bit)\nRunning under: Debian GNU/Linux 10 (buster)\n\nMatrix products: default\nBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0\n\nlocale:\n [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       \n [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   \n [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          \n[10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   \n\ntime zone: NA\ntzcode source: system (glibc)\n\nattached base packages:\n[1] stats4    tools     stats     graphics  grDevices utils     datasets \n[8] methods   base     \n\nother attached packages:\n [1] GenomicFeatures_1.52.1      AnnotationDbi_1.62.2       \n [3] tximport_1.28.0             rjson_0.2.21               \n [5] gplots_3.1.3                RColorBrewer_1.1-3         \n [7] DESeq2_1.40.2               SummarizedExperiment_1.30.2\n [9] Biobase_2.60.0              MatrixGenerics_1.12.2      \n[11] matrixStats_1.0.0           GenomicRanges_1.52.0       \n[13] GenomeInfoDb_1.36.1         IRanges_2.34.1             \n[15] S4Vectors_0.38.1            BiocGenerics_0.46.0        \n[17] getopt_1.20.3              \n\nloaded via a namespace (and not attached):\n [1] tidyselect_1.2.0         dplyr_1.1.2              blob_1.2.4              \n [4] filelock_1.0.2           Biostrings_2.68.1        bitops_1.0-7            \n [7] fastmap_1.1.1            RCurl_1.98-1.12          BiocFileCache_2.8.0     \n[10] GenomicAlignments_1.36.0 XML_3.99-0.14            digest_0.6.33           \n[13] lifecycle_1.0.3          KEGGREST_1.40.0          RSQLite_2.3.1           \n[16] magrittr_2.0.3           compiler_4.3.1           rlang_1.1.1             \n[19] progress_1.2.2           yaml_2.3.7               utf8_1.2.3              \n[22] rtracklayer_1.60.0       prettyunits_1.1.1        S4Arrays_1.0.4          \n[25] bit_4.0.5                curl_5.0.1               DelayedArray_0.26.6     \n[28] xml2_1.3.5               BiocParallel_1.34.2      KernSmooth_2.23-22      \n[31] grid_4.3.1               fansi_1.0.4              caTools_1.18.2          \n[34] colorspace_2.1-0         ggplot2_3.4.2            scales_1.2.1            \n[37] gtools_3.9.4             biomaRt_2.56.1           cli_3.6.1               \n[40] crayon_1.5.2             generics_0.1.3           httr_1.4.6              \n[43] DBI_1.1.3                cachem_1.0.8             stringr_1.5.0           \n[46] zlibbioc_1.46.0          parallel_4.3.1           restfulr_0.0.15         \n[49] XVector_0.40.0           vctrs_0.6.3              Matrix_1.6-0            \n[52] jsonlite_1.8.7           hms_1.1.3                bit64_4.0.5             \n[55] locfit_1.5-9.8           glue_1.6.2               codetools_0.2-19        \n[58] stringi_1.7.12           gtable_0.3.3             BiocIO_1.10.0           \n[61] munsell_0.5.0            tibble_3.2.1             pillar_1.9.0            \n[64] rappdirs_0.3.3           GenomeInfoDbData_1.2.10  R6_2.5.1                \n[67] dbplyr_2.3.3             lattice_0.21-8           Rsamtools_2.16.0        \n[70] png_0.1-8                memoise_2.0.1            Rcpp_1.0.11             \n[73] pkgconfig_2.0.3         \n", "tool_stderr": "Import genomic features from the file as a GRanges object ... OK\nPrepare the 'metadata' data frame ... OK\nMake the TxDb object ... OK\n'select()' returned 1:1 mapping between keys and columns\nreading in files with read.delim (install 'readr' package for speed up)\n1 2 3 4 5 6 \nreading in files with read.delim (install 'readr' package for speed up)\n1 2 3 4 5 6 \nsummarizing abundance\nsummarizing counts\nsummarizing length\nusing counts and average transcript lengths from tximport\nWarning message:\nIn .get_cds_IDX(mcols0$type, mcols0$phase) :\n  The \"phase\" metadata column contains non-NA values for features of type\n  stop_codon. This information was ignored.\nestimating size factors\nusing 'avgTxLength' from assays(dds), correcting for library size\nestimating dispersions\ngene-wise dispersion estimates\nmean-dispersion relationship\n-- note: fitType='parametric', but the dispersion trend was not well captured by the\n   function: y = a/x + b, and a local regression fit was automatically substituted.\n   specify fitType='local' or 'mean' to avoid this message next time.\nfinal dispersion estimates\nfitting model and testing\nWarning message:\nIn lfproc(x, y, weights = weights, cens = cens, base = base, geth = geth,  :\n  Estimated rdf < 1.0; not estimating variance\n", "job_stdout": "", "job_stderr": "", "stderr": "Import genomic features from the file as a GRanges object ... OK\nPrepare the 'metadata' data frame ... OK\nMake the TxDb object ... OK\n'select()' returned 1:1 mapping between keys and columns\nreading in files with read.delim (install 'readr' package for speed up)\n1 2 3 4 5 6 \nreading in files with read.delim (install 'readr' package for speed up)\n1 2 3 4 5 6 \nsummarizing abundance\nsummarizing counts\nsummarizing length\nusing counts and average transcript lengths from tximport\nWarning message:\nIn .get_cds_IDX(mcols0$type, mcols0$phase) :\n  The \"phase\" metadata column contains non-NA values for features of type\n  stop_codon. This information was ignored.\nestimating size factors\nusing 'avgTxLength' from assays(dds), correcting for library size\nestimating dispersions\ngene-wise dispersion estimates\nmean-dispersion relationship\n-- note: fitType='parametric', but the dispersion trend was not well captured by the\n   function: y = a/x + b, and a local regression fit was automatically substituted.\n   specify fitType='local' or 'mean' to avoid this message next time.\nfinal dispersion estimates\nfitting model and testing\nWarning message:\nIn lfproc(x, y, weights = weights, cens = cens, base = base, geth = geth,  :\n  Estimated rdf < 1.0; not estimating variance\n", "stdout": "primary factor: Treatment \n\n---------------------\nNo size factor was used\n\nsize factors for samples: taking tximport data into account\nDESeq2 run information\n\nsample table:\n                       Treatment\nsailfish_quant.sf4.tab Untreated\nsailfish_quant.sf5.tab Untreated\nsailfish_quant.sf6.tab Untreated\nsailfish_quant.sf1.tab   Treated\nsailfish_quant.sf2.tab   Treated\nsailfish_quant.sf3.tab   Treated\n\ndesign formula:\n~Treatment\n\n\n6 samples with counts over 11 genes\nApplied default - beta prior off\n[1] \"use_beta_prior is set to FALSE\"\nusing disperion fit type: parametric \nsummary of results\nTreatment: Treated vs Untreated\n\nout of 9 with nonzero total read count\nadjusted p-value < 0.1\nLFC > 0 (up)       : 0, 0%\nLFC < 0 (down)     : 0, 0%\noutliers [1]       : 0, 0%\nlow counts [2]     : 0, 0%\n(mean count < 0)\n[1] see 'cooksCutoff' argument of ?results\n[2] see 'independentFiltering' argument of ?results\n\nNULL\nSession information:\n\nR version 4.3.1 (2023-06-16)\nPlatform: x86_64-conda-linux-gnu (64-bit)\nRunning under: Debian GNU/Linux 10 (buster)\n\nMatrix products: default\nBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0\n\nlocale:\n [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       \n [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   \n [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          \n[10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   \n\ntime zone: NA\ntzcode source: system (glibc)\n\nattached base packages:\n[1] stats4    tools     stats     graphics  grDevices utils     datasets \n[8] methods   base     \n\nother attached packages:\n [1] GenomicFeatures_1.52.1      AnnotationDbi_1.62.2       \n [3] tximport_1.28.0             rjson_0.2.21               \n [5] gplots_3.1.3                RColorBrewer_1.1-3         \n [7] DESeq2_1.40.2               SummarizedExperiment_1.30.2\n [9] Biobase_2.60.0              MatrixGenerics_1.12.2      \n[11] matrixStats_1.0.0           GenomicRanges_1.52.0       \n[13] GenomeInfoDb_1.36.1         IRanges_2.34.1             \n[15] S4Vectors_0.38.1            BiocGenerics_0.46.0        \n[17] getopt_1.20.3              \n\nloaded via a namespace (and not attached):\n [1] tidyselect_1.2.0         dplyr_1.1.2              blob_1.2.4              \n [4] filelock_1.0.2           Biostrings_2.68.1        bitops_1.0-7            \n [7] fastmap_1.1.1            RCurl_1.98-1.12          BiocFileCache_2.8.0     \n[10] GenomicAlignments_1.36.0 XML_3.99-0.14            digest_0.6.33           \n[13] lifecycle_1.0.3          KEGGREST_1.40.0          RSQLite_2.3.1           \n[16] magrittr_2.0.3           compiler_4.3.1           rlang_1.1.1             \n[19] progress_1.2.2           yaml_2.3.7               utf8_1.2.3              \n[22] rtracklayer_1.60.0       prettyunits_1.1.1        S4Arrays_1.0.4          \n[25] bit_4.0.5                curl_5.0.1               DelayedArray_0.26.6     \n[28] xml2_1.3.5               BiocParallel_1.34.2      KernSmooth_2.23-22      \n[31] grid_4.3.1               fansi_1.0.4              caTools_1.18.2          \n[34] colorspace_2.1-0         ggplot2_3.4.2            scales_1.2.1            \n[37] gtools_3.9.4             biomaRt_2.56.1           cli_3.6.1               \n[40] crayon_1.5.2             generics_0.1.3           httr_1.4.6              \n[43] DBI_1.1.3                cachem_1.0.8             stringr_1.5.0           \n[46] zlibbioc_1.46.0          parallel_4.3.1           restfulr_0.0.15         \n[49] XVector_0.40.0           vctrs_0.6.3              Matrix_1.6-0            \n[52] jsonlite_1.8.7           hms_1.1.3                bit64_4.0.5             \n[55] locfit_1.5-9.8           glue_1.6.2               codetools_0.2-19        \n[58] stringi_1.7.12           gtable_0.3.3             BiocIO_1.10.0           \n[61] munsell_0.5.0            tibble_3.2.1             pillar_1.9.0            \n[64] rappdirs_0.3.3           GenomeInfoDbData_1.2.10  R6_2.5.1                \n[67] dbplyr_2.3.3             lattice_0.21-8           Rsamtools_2.16.0        \n[70] png_0.1-8                memoise_2.0.1            Rcpp_1.0.11             \n[73] pkgconfig_2.0.3         \n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "20 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "20.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:56:36", "plugin": "core", "name": "end_epoch", "raw_value": "1726408596.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:56:16", "plugin": "core", "name": "start_epoch", "raw_value": "1726408576.0000000"}, {"title": "Memory Allocated (MB)", "value": "8589", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "8589.0000000"}, {"title": "Cores Allocated", "value": "1", "plugin": "core", "name": "galaxy_slots", "raw_value": "1.0000000"}]}, "status": "success"}}, {"id": "deseq2/2.11.40.8+galaxy0-11", "has_data": true, "data": {"tool_id": "deseq2", "tool_version": "2.11.40.8+galaxy0", "test_index": 11, "time_seconds": 64.40056562423706, "inputs": {"select_data|rep_factorName_0|factorName": "Treatment", "select_data|rep_factorName_0|rep_factorLevel_0|factorLevel": "Treated", "select_data|rep_factorName_0|rep_factorLevel_0|countsFile": [{"src": "hda", "id": "031e3d06c7cf971c"}, {"src": "hda", "id": "77b24c4bca296410"}, {"src": "hda", "id": "ce66de031dd6e204"}], "select_data|rep_factorName_0|rep_factorLevel_1|factorLevel": "Untreated", "select_data|rep_factorName_0|rep_factorLevel_1|countsFile": [{"src": "hda", "id": "39e3b1c2ef6e7716"}, {"src": "hda", "id": "e843d77fea7f1bc1"}, {"src": "hda", "id": "c0edb0cfdfaba575"}], "tximport|txtype": "sailfish", "tximport|mapping_format|gtf_file": {"src": "hda", "id": "599ddfae207c6d72"}, "tximport|mapping_format|mapping_format_selector": "gtf", "tximport|tximport_selector": "tximport", "advanced_options|esf_cond|size_factor_input": {"src": "hda", "id": "b6b097976221ee4f"}, "advanced_options|esf_cond|esf": "user", "advanced_options|use_beta_priors": true, "output_options|output_selector": "", "output_options|alpha_ma": "0.05"}, "job": {"model_class": "Job", "id": "411aacabea8a8471", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:57:48.912063", "create_time": "2024-09-15T13:57:18.194001", "galaxy_version": "23.1", "command_version": "R version 4.3.1 (2023-06-16) -- \"Beagle Scouts\", DESeq2 version 1.40.2", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/iuc/deseq2/deseq2/2.11.40.8+galaxy0", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-gpbml", "command_line": "ln -s '/galaxy/server/database/objects/e/7/b/dataset_e7b9d871-4edf-4ea2-a9f1-7415dcf9a13b.dat' mapping.gff &&  cat '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/get_deseq_dataset.R' > /dev/null &&  Rscript '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/deseq2.R' --cores ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/0/c/f/dataset_0cfb1404-ad7f-432d-ba42-b14e4509ffd7.dat' -A 0.05                  -H  -f '[[\"Treatment\", [{\"Untreated\": [\"/galaxy/server/database/objects/2/9/c/dataset_29c9bc48-f1d9-475b-adf2-9388b289c121.dat\", \"/galaxy/server/database/objects/0/1/5/dataset_0153192b-0098-4908-976b-9554994caa3c.dat\", \"/galaxy/server/database/objects/1/e/c/dataset_1eceec53-2fa5-4600-9d15-3d7714cce791.dat\"]}, {\"Treated\": [\"/galaxy/server/database/objects/6/7/c/dataset_67c60695-f593-4a74-b7e8-0c2332f6518e.dat\", \"/galaxy/server/database/objects/4/7/3/dataset_473157b9-27aa-4549-946f-016995879e8c.dat\", \"/galaxy/server/database/objects/d/c/1/dataset_dc1b2d75-4dd5-46e1-a844-7e485135dceb.dat\"]}]]]' -l '{\"dataset_67c60695-f593-4a74-b7e8-0c2332f6518e.dat\": \"sailfish_quant.sf1.tab\", \"dataset_473157b9-27aa-4549-946f-016995879e8c.dat\": \"sailfish_quant.sf2.tab\", \"dataset_dc1b2d75-4dd5-46e1-a844-7e485135dceb.dat\": \"sailfish_quant.sf3.tab\", \"dataset_29c9bc48-f1d9-475b-adf2-9388b289c121.dat\": \"sailfish_quant.sf4.tab\", \"dataset_0153192b-0098-4908-976b-9554994caa3c.dat\": \"sailfish_quant.sf5.tab\", \"dataset_1eceec53-2fa5-4600-9d15-3d7714cce791.dat\": \"sailfish_quant.sf6.tab\"}' -e /galaxy/server/database/objects/9/f/e/dataset_9fe9e1be-9627-4ac2-a8be-e0c9a4d488d5.dat -t 1     -d  -i -y sailfish -x mapping.gff", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_options": "{\"alpha_ma\": \"0.05\", \"output_selector\": []}", "advanced_options": "{\"auto_mean_filter_off\": false, \"esf_cond\": {\"__current_case__\": 4, \"esf\": \"user\", \"size_factor_input\": {\"values\": [{\"id\": 500, \"src\": \"hda\"}]}}, \"fit_type\": \"1\", \"outlier_filter_off\": false, \"outlier_replace_off\": false, \"prefilter_conditional\": {\"__current_case__\": 1, \"prefilter\": \"\"}, \"use_beta_priors\": true}", "tximport": "{\"__current_case__\": 0, \"mapping_format\": {\"__current_case__\": 0, \"gtf_file\": {\"values\": [{\"id\": 499, \"src\": \"hda\"}]}, \"mapping_format_selector\": \"gtf\"}, \"tximport_selector\": \"tximport\", \"txtype\": \"sailfish\"}", "header": "true", "batch_factors": null, "select_data": "{\"__current_case__\": 1, \"how\": \"datasets_per_level\", \"rep_factorName\": [{\"__index__\": 0, \"factorName\": \"Treatment\", \"rep_factorLevel\": [{\"__index__\": 0, \"countsFile\": {\"values\": [{\"id\": 493, \"src\": \"hda\"}, {\"id\": 494, \"src\": \"hda\"}, {\"id\": 495, \"src\": \"hda\"}]}, \"factorLevel\": \"Treated\"}, {\"__index__\": 1, \"countsFile\": {\"values\": [{\"id\": 496, \"src\": \"hda\"}, {\"id\": 497, \"src\": \"hda\"}, {\"id\": 498, \"src\": \"hda\"}]}, \"factorLevel\": \"Untreated\"}]}]}"}, "inputs": {"select_data|rep_factorName_0|rep_factorLevel_0|countsFile": {"id": "031e3d06c7cf971c", "src": "hda", "uuid": "67c60695-f593-4a74-b7e8-0c2332f6518e"}, "select_data|rep_factorName_0|rep_factorLevel_0|countsFile1": {"id": "031e3d06c7cf971c", "src": "hda", "uuid": "67c60695-f593-4a74-b7e8-0c2332f6518e"}, "select_data|rep_factorName_0|rep_factorLevel_0|countsFile2": {"id": "77b24c4bca296410", "src": "hda", "uuid": "473157b9-27aa-4549-946f-016995879e8c"}, "select_data|rep_factorName_0|rep_factorLevel_0|countsFile3": {"id": "ce66de031dd6e204", "src": "hda", "uuid": "dc1b2d75-4dd5-46e1-a844-7e485135dceb"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile": {"id": "39e3b1c2ef6e7716", "src": "hda", "uuid": "29c9bc48-f1d9-475b-adf2-9388b289c121"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile1": {"id": "39e3b1c2ef6e7716", "src": "hda", "uuid": "29c9bc48-f1d9-475b-adf2-9388b289c121"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile2": {"id": "e843d77fea7f1bc1", "src": "hda", "uuid": "0153192b-0098-4908-976b-9554994caa3c"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile3": {"id": "c0edb0cfdfaba575", "src": "hda", "uuid": "1eceec53-2fa5-4600-9d15-3d7714cce791"}, "tximport|mapping_format|gtf_file": {"id": "599ddfae207c6d72", "src": "hda", "uuid": "e7b9d871-4edf-4ea2-a9f1-7415dcf9a13b"}, "advanced_options|esf_cond|size_factor_input": {"id": "b6b097976221ee4f", "src": "hda", "uuid": "9fe9e1be-9627-4ac2-a8be-e0c9a4d488d5"}}, "outputs": {"deseq_out": {"id": "f9908407293a1037", "src": "hda", "uuid": "0cfb1404-ad7f-432d-ba42-b14e4509ffd7"}}, "output_collections": {}, "tool_stdout": "primary factor: Treatment \n\n---------------------\nUsing user-provided size factors:\n[1] 0.8480069 1.1079079 1.2131952 1.1906159 0.7122038 1.0346425\nDESeq2 run information\n\nsample table:\n                       Treatment\nsailfish_quant.sf4.tab Untreated\nsailfish_quant.sf5.tab Untreated\nsailfish_quant.sf6.tab Untreated\nsailfish_quant.sf1.tab   Treated\nsailfish_quant.sf2.tab   Treated\nsailfish_quant.sf3.tab   Treated\n\ndesign formula:\n~Treatment\n\n\n6 samples with counts over 11 genes\n[1] \"use_beta_prior is set to TRUE\"\nusing disperion fit type: parametric \nsummary of results\nTreatment: Treated vs Untreated\n\nout of 9 with nonzero total read count\nadjusted p-value < 0.1\nLFC > 0 (up)       : 0, 0%\nLFC < 0 (down)     : 0, 0%\noutliers [1]       : 0, 0%\nlow counts [2]     : 0, 0%\n(mean count < 0)\n[1] see 'cooksCutoff' argument of ?results\n[2] see 'independentFiltering' argument of ?results\n\nNULL\nSession information:\n\nR version 4.3.1 (2023-06-16)\nPlatform: x86_64-conda-linux-gnu (64-bit)\nRunning under: Debian GNU/Linux 10 (buster)\n\nMatrix products: default\nBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0\n\nlocale:\n [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       \n [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   \n [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          \n[10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   \n\ntime zone: NA\ntzcode source: system (glibc)\n\nattached base packages:\n[1] stats4    tools     stats     graphics  grDevices utils     datasets \n[8] methods   base     \n\nother attached packages:\n [1] GenomicFeatures_1.52.1      AnnotationDbi_1.62.2       \n [3] tximport_1.28.0             rjson_0.2.21               \n [5] gplots_3.1.3                RColorBrewer_1.1-3         \n [7] DESeq2_1.40.2               SummarizedExperiment_1.30.2\n [9] Biobase_2.60.0              MatrixGenerics_1.12.2      \n[11] matrixStats_1.0.0           GenomicRanges_1.52.0       \n[13] GenomeInfoDb_1.36.1         IRanges_2.34.1             \n[15] S4Vectors_0.38.1            BiocGenerics_0.46.0        \n[17] getopt_1.20.3              \n\nloaded via a namespace (and not attached):\n [1] tidyselect_1.2.0         dplyr_1.1.2              blob_1.2.4              \n [4] filelock_1.0.2           Biostrings_2.68.1        bitops_1.0-7            \n [7] fastmap_1.1.1            RCurl_1.98-1.12          BiocFileCache_2.8.0     \n[10] GenomicAlignments_1.36.0 XML_3.99-0.14            digest_0.6.33           \n[13] lifecycle_1.0.3          KEGGREST_1.40.0          RSQLite_2.3.1           \n[16] magrittr_2.0.3           compiler_4.3.1           rlang_1.1.1             \n[19] progress_1.2.2           yaml_2.3.7               utf8_1.2.3              \n[22] rtracklayer_1.60.0       prettyunits_1.1.1        S4Arrays_1.0.4          \n[25] bit_4.0.5                curl_5.0.1               DelayedArray_0.26.6     \n[28] xml2_1.3.5               BiocParallel_1.34.2      KernSmooth_2.23-22      \n[31] grid_4.3.1               fansi_1.0.4              caTools_1.18.2          \n[34] colorspace_2.1-0         ggplot2_3.4.2            scales_1.2.1            \n[37] gtools_3.9.4             biomaRt_2.56.1           cli_3.6.1               \n[40] crayon_1.5.2             generics_0.1.3           httr_1.4.6              \n[43] DBI_1.1.3                cachem_1.0.8             stringr_1.5.0           \n[46] zlibbioc_1.46.0          parallel_4.3.1           restfulr_0.0.15         \n[49] XVector_0.40.0           vctrs_0.6.3              Matrix_1.6-0            \n[52] jsonlite_1.8.7           hms_1.1.3                bit64_4.0.5             \n[55] locfit_1.5-9.8           glue_1.6.2               codetools_0.2-19        \n[58] stringi_1.7.12           gtable_0.3.3             BiocIO_1.10.0           \n[61] munsell_0.5.0            tibble_3.2.1             pillar_1.9.0            \n[64] rappdirs_0.3.3           GenomeInfoDbData_1.2.10  R6_2.5.1                \n[67] dbplyr_2.3.3             lattice_0.21-8           Rsamtools_2.16.0        \n[70] png_0.1-8                memoise_2.0.1            Rcpp_1.0.11             \n[73] pkgconfig_2.0.3         \n", "tool_stderr": "Import genomic features from the file as a GRanges object ... OK\nPrepare the 'metadata' data frame ... OK\nMake the TxDb object ... OK\n'select()' returned 1:1 mapping between keys and columns\nreading in files with read.delim (install 'readr' package for speed up)\n1 2 3 4 5 6 \nreading in files with read.delim (install 'readr' package for speed up)\n1 2 3 4 5 6 \nsummarizing abundance\nsummarizing counts\nsummarizing length\nusing counts and average transcript lengths from tximport\nWarning message:\nIn .get_cds_IDX(mcols0$type, mcols0$phase) :\n  The \"phase\" metadata column contains non-NA values for features of type\n  stop_codon. This information was ignored.\nusing pre-existing size factors\nestimating dispersions\ngene-wise dispersion estimates\nmean-dispersion relationship\n-- note: fitType='parametric', but the dispersion trend was not well captured by the\n   function: y = a/x + b, and a local regression fit was automatically substituted.\n   specify fitType='local' or 'mean' to avoid this message next time.\nfinal dispersion estimates\nfitting model and testing\nWarning message:\nIn lfproc(x, y, weights = weights, cens = cens, base = base, geth = geth,  :\n  Estimated rdf < 1.0; not estimating variance\n", "job_stdout": "", "job_stderr": "", "stderr": "Import genomic features from the file as a GRanges object ... OK\nPrepare the 'metadata' data frame ... OK\nMake the TxDb object ... OK\n'select()' returned 1:1 mapping between keys and columns\nreading in files with read.delim (install 'readr' package for speed up)\n1 2 3 4 5 6 \nreading in files with read.delim (install 'readr' package for speed up)\n1 2 3 4 5 6 \nsummarizing abundance\nsummarizing counts\nsummarizing length\nusing counts and average transcript lengths from tximport\nWarning message:\nIn .get_cds_IDX(mcols0$type, mcols0$phase) :\n  The \"phase\" metadata column contains non-NA values for features of type\n  stop_codon. This information was ignored.\nusing pre-existing size factors\nestimating dispersions\ngene-wise dispersion estimates\nmean-dispersion relationship\n-- note: fitType='parametric', but the dispersion trend was not well captured by the\n   function: y = a/x + b, and a local regression fit was automatically substituted.\n   specify fitType='local' or 'mean' to avoid this message next time.\nfinal dispersion estimates\nfitting model and testing\nWarning message:\nIn lfproc(x, y, weights = weights, cens = cens, base = base, geth = geth,  :\n  Estimated rdf < 1.0; not estimating variance\n", "stdout": "primary factor: Treatment \n\n---------------------\nUsing user-provided size factors:\n[1] 0.8480069 1.1079079 1.2131952 1.1906159 0.7122038 1.0346425\nDESeq2 run information\n\nsample table:\n                       Treatment\nsailfish_quant.sf4.tab Untreated\nsailfish_quant.sf5.tab Untreated\nsailfish_quant.sf6.tab Untreated\nsailfish_quant.sf1.tab   Treated\nsailfish_quant.sf2.tab   Treated\nsailfish_quant.sf3.tab   Treated\n\ndesign formula:\n~Treatment\n\n\n6 samples with counts over 11 genes\n[1] \"use_beta_prior is set to TRUE\"\nusing disperion fit type: parametric \nsummary of results\nTreatment: Treated vs Untreated\n\nout of 9 with nonzero total read count\nadjusted p-value < 0.1\nLFC > 0 (up)       : 0, 0%\nLFC < 0 (down)     : 0, 0%\noutliers [1]       : 0, 0%\nlow counts [2]     : 0, 0%\n(mean count < 0)\n[1] see 'cooksCutoff' argument of ?results\n[2] see 'independentFiltering' argument of ?results\n\nNULL\nSession information:\n\nR version 4.3.1 (2023-06-16)\nPlatform: x86_64-conda-linux-gnu (64-bit)\nRunning under: Debian GNU/Linux 10 (buster)\n\nMatrix products: default\nBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0\n\nlocale:\n [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       \n [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   \n [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          \n[10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   \n\ntime zone: NA\ntzcode source: system (glibc)\n\nattached base packages:\n[1] stats4    tools     stats     graphics  grDevices utils     datasets \n[8] methods   base     \n\nother attached packages:\n [1] GenomicFeatures_1.52.1      AnnotationDbi_1.62.2       \n [3] tximport_1.28.0             rjson_0.2.21               \n [5] gplots_3.1.3                RColorBrewer_1.1-3         \n [7] DESeq2_1.40.2               SummarizedExperiment_1.30.2\n [9] Biobase_2.60.0              MatrixGenerics_1.12.2      \n[11] matrixStats_1.0.0           GenomicRanges_1.52.0       \n[13] GenomeInfoDb_1.36.1         IRanges_2.34.1             \n[15] S4Vectors_0.38.1            BiocGenerics_0.46.0        \n[17] getopt_1.20.3              \n\nloaded via a namespace (and not attached):\n [1] tidyselect_1.2.0         dplyr_1.1.2              blob_1.2.4              \n [4] filelock_1.0.2           Biostrings_2.68.1        bitops_1.0-7            \n [7] fastmap_1.1.1            RCurl_1.98-1.12          BiocFileCache_2.8.0     \n[10] GenomicAlignments_1.36.0 XML_3.99-0.14            digest_0.6.33           \n[13] lifecycle_1.0.3          KEGGREST_1.40.0          RSQLite_2.3.1           \n[16] magrittr_2.0.3           compiler_4.3.1           rlang_1.1.1             \n[19] progress_1.2.2           yaml_2.3.7               utf8_1.2.3              \n[22] rtracklayer_1.60.0       prettyunits_1.1.1        S4Arrays_1.0.4          \n[25] bit_4.0.5                curl_5.0.1               DelayedArray_0.26.6     \n[28] xml2_1.3.5               BiocParallel_1.34.2      KernSmooth_2.23-22      \n[31] grid_4.3.1               fansi_1.0.4              caTools_1.18.2          \n[34] colorspace_2.1-0         ggplot2_3.4.2            scales_1.2.1            \n[37] gtools_3.9.4             biomaRt_2.56.1           cli_3.6.1               \n[40] crayon_1.5.2             generics_0.1.3           httr_1.4.6              \n[43] DBI_1.1.3                cachem_1.0.8             stringr_1.5.0           \n[46] zlibbioc_1.46.0          parallel_4.3.1           restfulr_0.0.15         \n[49] XVector_0.40.0           vctrs_0.6.3              Matrix_1.6-0            \n[52] jsonlite_1.8.7           hms_1.1.3                bit64_4.0.5             \n[55] locfit_1.5-9.8           glue_1.6.2               codetools_0.2-19        \n[58] stringi_1.7.12           gtable_0.3.3             BiocIO_1.10.0           \n[61] munsell_0.5.0            tibble_3.2.1             pillar_1.9.0            \n[64] rappdirs_0.3.3           GenomeInfoDbData_1.2.10  R6_2.5.1                \n[67] dbplyr_2.3.3             lattice_0.21-8           Rsamtools_2.16.0        \n[70] png_0.1-8                memoise_2.0.1            Rcpp_1.0.11             \n[73] pkgconfig_2.0.3         \n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "19 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "19.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:57:39", "plugin": "core", "name": "end_epoch", "raw_value": "1726408659.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:57:20", "plugin": "core", "name": "start_epoch", "raw_value": "1726408640.0000000"}, {"title": "Memory Allocated (MB)", "value": "8589", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "8589.0000000"}, {"title": "Cores Allocated", "value": "1", "plugin": "core", "name": "galaxy_slots", "raw_value": "1.0000000"}]}, "status": "success"}}, {"id": "deseq2/2.11.40.8+galaxy0-12", "has_data": true, "data": {"tool_id": "deseq2", "tool_version": "2.11.40.8+galaxy0", "test_index": 12, "time_seconds": 61.11820030212402, "inputs": {"select_data|rep_factorName_0|factorName": "Treatment", "select_data|rep_factorName_0|rep_factorLevel_0|factorLevel": "Treated", "select_data|rep_factorName_0|rep_factorLevel_0|countsFile": [{"src": "hda", "id": "3dff449194583ce0"}, {"src": "hda", "id": "90b13c12a5eda450"}, {"src": "hda", "id": "492361d0f57ecc71"}], "select_data|rep_factorName_0|rep_factorLevel_1|factorLevel": "Untreated", "select_data|rep_factorName_0|rep_factorLevel_1|countsFile": [{"src": "hda", "id": "ff2ba79f1334f85f"}, {"src": "hda", "id": "8c089060190a6b90"}, {"src": "hda", "id": "bcd67fdd436048df"}], "tximport|txtype": "sailfish", "tximport|mapping_format|gtf_file": {"src": "hda", "id": "6429c8588e01b0b0"}, "tximport|mapping_format|mapping_format_selector": "gtf", "tximport|tximport_selector": "tximport", "output_options|output_selector": "sizefactors", "output_options|alpha_ma": "0.05"}, "job": {"model_class": "Job", "id": "5b7e68f2c3bef39e", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:58:50.010415", "create_time": "2024-09-15T13:58:19.847131", "galaxy_version": "23.1", "command_version": "R version 4.3.1 (2023-06-16) -- \"Beagle Scouts\", DESeq2 version 1.40.2", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/iuc/deseq2/deseq2/2.11.40.8+galaxy0", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-5xt9l", "command_line": "ln -s '/galaxy/server/database/objects/e/b/c/dataset_ebcc0412-efac-4c9c-b817-c6f57a48a285.dat' mapping.gff &&  cat '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/get_deseq_dataset.R' > /dev/null &&  Rscript '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/deseq2.R' --cores ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/2/d/4/dataset_2d48cf9c-8f79-4e76-8d71-1493d3f59e4e.dat' -A 0.05 -F '/galaxy/server/database/objects/7/5/8/dataset_758726c5-aa43-48c5-9133-284999da8ddc.dat'                  -H  -f '[[\"Treatment\", [{\"Untreated\": [\"/galaxy/server/database/objects/4/b/9/dataset_4b9efa67-b0ee-4486-b93e-5ed3ef231d41.dat\", \"/galaxy/server/database/objects/4/5/2/dataset_4523f974-dc49-4a62-a5fa-1200f8f411d8.dat\", \"/galaxy/server/database/objects/1/7/a/dataset_17a373b6-7da6-4caa-8ee0-14c07d946f81.dat\"]}, {\"Treated\": [\"/galaxy/server/database/objects/e/9/6/dataset_e9618273-f558-4aef-abe3-b7f8ad6f58e6.dat\", \"/galaxy/server/database/objects/1/d/6/dataset_1d658aba-d631-497f-82f7-4468df03c1c6.dat\", \"/galaxy/server/database/objects/c/7/c/dataset_c7c06b68-ec2f-42e3-beb5-0c57a4cb9096.dat\"]}]]]' -l '{\"dataset_e9618273-f558-4aef-abe3-b7f8ad6f58e6.dat\": \"sailfish_quant.sf1.tab\", \"dataset_1d658aba-d631-497f-82f7-4468df03c1c6.dat\": \"sailfish_quant.sf2.tab\", \"dataset_c7c06b68-ec2f-42e3-beb5-0c57a4cb9096.dat\": \"sailfish_quant.sf3.tab\", \"dataset_4b9efa67-b0ee-4486-b93e-5ed3ef231d41.dat\": \"sailfish_quant.sf4.tab\", \"dataset_4523f974-dc49-4a62-a5fa-1200f8f411d8.dat\": \"sailfish_quant.sf5.tab\", \"dataset_17a373b6-7da6-4caa-8ee0-14c07d946f81.dat\": \"sailfish_quant.sf6.tab\"}' -t 1       -i -y sailfish -x mapping.gff", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_options": "{\"alpha_ma\": \"0.05\", \"output_selector\": \"sizefactors\"}", "advanced_options": "{\"auto_mean_filter_off\": false, \"esf_cond\": {\"__current_case__\": 0, \"esf\": \"\"}, \"fit_type\": \"1\", \"outlier_filter_off\": false, \"outlier_replace_off\": false, \"prefilter_conditional\": {\"__current_case__\": 1, \"prefilter\": \"\"}, \"use_beta_priors\": false}", "tximport": "{\"__current_case__\": 0, \"mapping_format\": {\"__current_case__\": 0, \"gtf_file\": {\"values\": [{\"id\": 508, \"src\": \"hda\"}]}, \"mapping_format_selector\": \"gtf\"}, \"tximport_selector\": \"tximport\", \"txtype\": \"sailfish\"}", "header": "true", "batch_factors": null, "select_data": "{\"__current_case__\": 1, \"how\": \"datasets_per_level\", \"rep_factorName\": [{\"__index__\": 0, \"factorName\": \"Treatment\", \"rep_factorLevel\": [{\"__index__\": 0, \"countsFile\": {\"values\": [{\"id\": 502, \"src\": \"hda\"}, {\"id\": 503, \"src\": \"hda\"}, {\"id\": 504, \"src\": \"hda\"}]}, \"factorLevel\": \"Treated\"}, {\"__index__\": 1, \"countsFile\": {\"values\": [{\"id\": 505, \"src\": \"hda\"}, {\"id\": 506, \"src\": \"hda\"}, {\"id\": 507, \"src\": \"hda\"}]}, \"factorLevel\": \"Untreated\"}]}]}"}, "inputs": {"select_data|rep_factorName_0|rep_factorLevel_0|countsFile": {"id": "3dff449194583ce0", "src": "hda", "uuid": "e9618273-f558-4aef-abe3-b7f8ad6f58e6"}, "select_data|rep_factorName_0|rep_factorLevel_0|countsFile1": {"id": "3dff449194583ce0", "src": "hda", "uuid": "e9618273-f558-4aef-abe3-b7f8ad6f58e6"}, "select_data|rep_factorName_0|rep_factorLevel_0|countsFile2": {"id": "90b13c12a5eda450", "src": "hda", "uuid": "1d658aba-d631-497f-82f7-4468df03c1c6"}, "select_data|rep_factorName_0|rep_factorLevel_0|countsFile3": {"id": "492361d0f57ecc71", "src": "hda", "uuid": "c7c06b68-ec2f-42e3-beb5-0c57a4cb9096"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile": {"id": "ff2ba79f1334f85f", "src": "hda", "uuid": "4b9efa67-b0ee-4486-b93e-5ed3ef231d41"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile1": {"id": "ff2ba79f1334f85f", "src": "hda", "uuid": "4b9efa67-b0ee-4486-b93e-5ed3ef231d41"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile2": {"id": "8c089060190a6b90", "src": "hda", "uuid": "4523f974-dc49-4a62-a5fa-1200f8f411d8"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile3": {"id": "bcd67fdd436048df", "src": "hda", "uuid": "17a373b6-7da6-4caa-8ee0-14c07d946f81"}, "tximport|mapping_format|gtf_file": {"id": "6429c8588e01b0b0", "src": "hda", "uuid": "ebcc0412-efac-4c9c-b817-c6f57a48a285"}}, "outputs": {"sizefactors_out": {"id": "10b3527e315257c3", "src": "hda", "uuid": "758726c5-aa43-48c5-9133-284999da8ddc"}, "deseq_out": {"id": "3f6086f9e29c1d25", "src": "hda", "uuid": "2d48cf9c-8f79-4e76-8d71-1493d3f59e4e"}}, "output_collections": {}, "tool_stdout": "primary factor: Treatment \n\n---------------------\nNo size factor was used\n\nsize factors for samples: taking tximport data into account\nDESeq2 run information\n\nsample table:\n                       Treatment\nsailfish_quant.sf4.tab Untreated\nsailfish_quant.sf5.tab Untreated\nsailfish_quant.sf6.tab Untreated\nsailfish_quant.sf1.tab   Treated\nsailfish_quant.sf2.tab   Treated\nsailfish_quant.sf3.tab   Treated\n\ndesign formula:\n~Treatment\n\n\n6 samples with counts over 11 genes\nApplied default - beta prior off\n[1] \"use_beta_prior is set to FALSE\"\nusing disperion fit type: parametric \nsummary of results\nTreatment: Treated vs Untreated\n\nout of 9 with nonzero total read count\nadjusted p-value < 0.1\nLFC > 0 (up)       : 0, 0%\nLFC < 0 (down)     : 0, 0%\noutliers [1]       : 0, 0%\nlow counts [2]     : 0, 0%\n(mean count < 0)\n[1] see 'cooksCutoff' argument of ?results\n[2] see 'independentFiltering' argument of ?results\n\nNULL\nSession information:\n\nR version 4.3.1 (2023-06-16)\nPlatform: x86_64-conda-linux-gnu (64-bit)\nRunning under: Debian GNU/Linux 10 (buster)\n\nMatrix products: default\nBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0\n\nlocale:\n [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       \n [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   \n [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          \n[10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   \n\ntime zone: NA\ntzcode source: system (glibc)\n\nattached base packages:\n[1] stats4    tools     stats     graphics  grDevices utils     datasets \n[8] methods   base     \n\nother attached packages:\n [1] GenomicFeatures_1.52.1      AnnotationDbi_1.62.2       \n [3] tximport_1.28.0             rjson_0.2.21               \n [5] gplots_3.1.3                RColorBrewer_1.1-3         \n [7] DESeq2_1.40.2               SummarizedExperiment_1.30.2\n [9] Biobase_2.60.0              MatrixGenerics_1.12.2      \n[11] matrixStats_1.0.0           GenomicRanges_1.52.0       \n[13] GenomeInfoDb_1.36.1         IRanges_2.34.1             \n[15] S4Vectors_0.38.1            BiocGenerics_0.46.0        \n[17] getopt_1.20.3              \n\nloaded via a namespace (and not attached):\n [1] tidyselect_1.2.0         dplyr_1.1.2              blob_1.2.4              \n [4] filelock_1.0.2           Biostrings_2.68.1        bitops_1.0-7            \n [7] fastmap_1.1.1            RCurl_1.98-1.12          BiocFileCache_2.8.0     \n[10] GenomicAlignments_1.36.0 XML_3.99-0.14            digest_0.6.33           \n[13] lifecycle_1.0.3          KEGGREST_1.40.0          RSQLite_2.3.1           \n[16] magrittr_2.0.3           compiler_4.3.1           rlang_1.1.1             \n[19] progress_1.2.2           yaml_2.3.7               utf8_1.2.3              \n[22] rtracklayer_1.60.0       prettyunits_1.1.1        S4Arrays_1.0.4          \n[25] bit_4.0.5                curl_5.0.1               DelayedArray_0.26.6     \n[28] xml2_1.3.5               BiocParallel_1.34.2      KernSmooth_2.23-22      \n[31] grid_4.3.1               fansi_1.0.4              caTools_1.18.2          \n[34] colorspace_2.1-0         ggplot2_3.4.2            scales_1.2.1            \n[37] gtools_3.9.4             biomaRt_2.56.1           cli_3.6.1               \n[40] crayon_1.5.2             generics_0.1.3           httr_1.4.6              \n[43] DBI_1.1.3                cachem_1.0.8             stringr_1.5.0           \n[46] zlibbioc_1.46.0          parallel_4.3.1           restfulr_0.0.15         \n[49] XVector_0.40.0           vctrs_0.6.3              Matrix_1.6-0            \n[52] jsonlite_1.8.7           hms_1.1.3                bit64_4.0.5             \n[55] locfit_1.5-9.8           glue_1.6.2               codetools_0.2-19        \n[58] stringi_1.7.12           gtable_0.3.3             BiocIO_1.10.0           \n[61] munsell_0.5.0            tibble_3.2.1             pillar_1.9.0            \n[64] rappdirs_0.3.3           GenomeInfoDbData_1.2.10  R6_2.5.1                \n[67] dbplyr_2.3.3             lattice_0.21-8           Rsamtools_2.16.0        \n[70] png_0.1-8                memoise_2.0.1            Rcpp_1.0.11             \n[73] pkgconfig_2.0.3         \n", "tool_stderr": "Import genomic features from the file as a GRanges object ... OK\nPrepare the 'metadata' data frame ... OK\nMake the TxDb object ... OK\n'select()' returned 1:1 mapping between keys and columns\nreading in files with read.delim (install 'readr' package for speed up)\n1 2 3 4 5 6 \nreading in files with read.delim (install 'readr' package for speed up)\n1 2 3 4 5 6 \nsummarizing abundance\nsummarizing counts\nsummarizing length\nusing counts and average transcript lengths from tximport\nWarning message:\nIn .get_cds_IDX(mcols0$type, mcols0$phase) :\n  The \"phase\" metadata column contains non-NA values for features of type\n  stop_codon. This information was ignored.\nestimating size factors\nusing 'avgTxLength' from assays(dds), correcting for library size\nestimating dispersions\ngene-wise dispersion estimates\nmean-dispersion relationship\n-- note: fitType='parametric', but the dispersion trend was not well captured by the\n   function: y = a/x + b, and a local regression fit was automatically substituted.\n   specify fitType='local' or 'mean' to avoid this message next time.\nfinal dispersion estimates\nfitting model and testing\nWarning message:\nIn lfproc(x, y, weights = weights, cens = cens, base = base, geth = geth,  :\n  Estimated rdf < 1.0; not estimating variance\n", "job_stdout": "", "job_stderr": "", "stderr": "Import genomic features from the file as a GRanges object ... OK\nPrepare the 'metadata' data frame ... OK\nMake the TxDb object ... OK\n'select()' returned 1:1 mapping between keys and columns\nreading in files with read.delim (install 'readr' package for speed up)\n1 2 3 4 5 6 \nreading in files with read.delim (install 'readr' package for speed up)\n1 2 3 4 5 6 \nsummarizing abundance\nsummarizing counts\nsummarizing length\nusing counts and average transcript lengths from tximport\nWarning message:\nIn .get_cds_IDX(mcols0$type, mcols0$phase) :\n  The \"phase\" metadata column contains non-NA values for features of type\n  stop_codon. This information was ignored.\nestimating size factors\nusing 'avgTxLength' from assays(dds), correcting for library size\nestimating dispersions\ngene-wise dispersion estimates\nmean-dispersion relationship\n-- note: fitType='parametric', but the dispersion trend was not well captured by the\n   function: y = a/x + b, and a local regression fit was automatically substituted.\n   specify fitType='local' or 'mean' to avoid this message next time.\nfinal dispersion estimates\nfitting model and testing\nWarning message:\nIn lfproc(x, y, weights = weights, cens = cens, base = base, geth = geth,  :\n  Estimated rdf < 1.0; not estimating variance\n", "stdout": "primary factor: Treatment \n\n---------------------\nNo size factor was used\n\nsize factors for samples: taking tximport data into account\nDESeq2 run information\n\nsample table:\n                       Treatment\nsailfish_quant.sf4.tab Untreated\nsailfish_quant.sf5.tab Untreated\nsailfish_quant.sf6.tab Untreated\nsailfish_quant.sf1.tab   Treated\nsailfish_quant.sf2.tab   Treated\nsailfish_quant.sf3.tab   Treated\n\ndesign formula:\n~Treatment\n\n\n6 samples with counts over 11 genes\nApplied default - beta prior off\n[1] \"use_beta_prior is set to FALSE\"\nusing disperion fit type: parametric \nsummary of results\nTreatment: Treated vs Untreated\n\nout of 9 with nonzero total read count\nadjusted p-value < 0.1\nLFC > 0 (up)       : 0, 0%\nLFC < 0 (down)     : 0, 0%\noutliers [1]       : 0, 0%\nlow counts [2]     : 0, 0%\n(mean count < 0)\n[1] see 'cooksCutoff' argument of ?results\n[2] see 'independentFiltering' argument of ?results\n\nNULL\nSession information:\n\nR version 4.3.1 (2023-06-16)\nPlatform: x86_64-conda-linux-gnu (64-bit)\nRunning under: Debian GNU/Linux 10 (buster)\n\nMatrix products: default\nBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0\n\nlocale:\n [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       \n [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   \n [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          \n[10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   \n\ntime zone: NA\ntzcode source: system (glibc)\n\nattached base packages:\n[1] stats4    tools     stats     graphics  grDevices utils     datasets \n[8] methods   base     \n\nother attached packages:\n [1] GenomicFeatures_1.52.1      AnnotationDbi_1.62.2       \n [3] tximport_1.28.0             rjson_0.2.21               \n [5] gplots_3.1.3                RColorBrewer_1.1-3         \n [7] DESeq2_1.40.2               SummarizedExperiment_1.30.2\n [9] Biobase_2.60.0              MatrixGenerics_1.12.2      \n[11] matrixStats_1.0.0           GenomicRanges_1.52.0       \n[13] GenomeInfoDb_1.36.1         IRanges_2.34.1             \n[15] S4Vectors_0.38.1            BiocGenerics_0.46.0        \n[17] getopt_1.20.3              \n\nloaded via a namespace (and not attached):\n [1] tidyselect_1.2.0         dplyr_1.1.2              blob_1.2.4              \n [4] filelock_1.0.2           Biostrings_2.68.1        bitops_1.0-7            \n [7] fastmap_1.1.1            RCurl_1.98-1.12          BiocFileCache_2.8.0     \n[10] GenomicAlignments_1.36.0 XML_3.99-0.14            digest_0.6.33           \n[13] lifecycle_1.0.3          KEGGREST_1.40.0          RSQLite_2.3.1           \n[16] magrittr_2.0.3           compiler_4.3.1           rlang_1.1.1             \n[19] progress_1.2.2           yaml_2.3.7               utf8_1.2.3              \n[22] rtracklayer_1.60.0       prettyunits_1.1.1        S4Arrays_1.0.4          \n[25] bit_4.0.5                curl_5.0.1               DelayedArray_0.26.6     \n[28] xml2_1.3.5               BiocParallel_1.34.2      KernSmooth_2.23-22      \n[31] grid_4.3.1               fansi_1.0.4              caTools_1.18.2          \n[34] colorspace_2.1-0         ggplot2_3.4.2            scales_1.2.1            \n[37] gtools_3.9.4             biomaRt_2.56.1           cli_3.6.1               \n[40] crayon_1.5.2             generics_0.1.3           httr_1.4.6              \n[43] DBI_1.1.3                cachem_1.0.8             stringr_1.5.0           \n[46] zlibbioc_1.46.0          parallel_4.3.1           restfulr_0.0.15         \n[49] XVector_0.40.0           vctrs_0.6.3              Matrix_1.6-0            \n[52] jsonlite_1.8.7           hms_1.1.3                bit64_4.0.5             \n[55] locfit_1.5-9.8           glue_1.6.2               codetools_0.2-19        \n[58] stringi_1.7.12           gtable_0.3.3             BiocIO_1.10.0           \n[61] munsell_0.5.0            tibble_3.2.1             pillar_1.9.0            \n[64] rappdirs_0.3.3           GenomeInfoDbData_1.2.10  R6_2.5.1                \n[67] dbplyr_2.3.3             lattice_0.21-8           Rsamtools_2.16.0        \n[70] png_0.1-8                memoise_2.0.1            Rcpp_1.0.11             \n[73] pkgconfig_2.0.3         \n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "20 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "20.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:58:41", "plugin": "core", "name": "end_epoch", "raw_value": "1726408721.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:58:21", "plugin": "core", "name": "start_epoch", "raw_value": "1726408701.0000000"}, {"title": "Memory Allocated (MB)", "value": "8589", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "8589.0000000"}, {"title": "Cores Allocated", "value": "1", "plugin": "core", "name": "galaxy_slots", "raw_value": "1.0000000"}]}, "status": "success"}}, {"id": "deseq2/2.11.40.8+galaxy0-13", "has_data": true, "data": {"tool_id": "deseq2", "tool_version": "2.11.40.8+galaxy0", "test_index": 13, "time_seconds": 57.568320512771606, "inputs": {"select_data|rep_factorName_0|factorName": "Treatment", "select_data|rep_factorName_0|rep_factorLevel_0|factorLevel": "Treated", "select_data|rep_factorName_0|rep_factorLevel_0|countsFile": [{"src": "hda", "id": "8b9206264d03d375"}, {"src": "hda", "id": "969dd18b9840444f"}, {"src": "hda", "id": "936fc31a8e13cab3"}], "select_data|rep_factorName_0|rep_factorLevel_1|factorLevel": "Untreated", "select_data|rep_factorName_0|rep_factorLevel_1|countsFile": [{"src": "hda", "id": "b6eea1c545fe68c9"}, {"src": "hda", "id": "58ac37835ed90d2d"}, {"src": "hda", "id": "ab5c721b91672ab4"}, {"src": "hda", "id": "2f4311b6b675dd3b"}], "advanced_options|prefilter_conditional|prefilter_value": "10", "advanced_options|prefilter_conditional|prefilter": "-P", "output_options|output_selector": "normCounts"}, "job": {"model_class": "Job", "id": "f2939d506dfa4d21", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:59:47.281931", "create_time": "2024-09-15T13:59:21.423235", "galaxy_version": "23.1", "command_version": "R version 4.3.1 (2023-06-16) -- \"Beagle Scouts\", DESeq2 version 1.40.2", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/iuc/deseq2/deseq2/2.11.40.8+galaxy0", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-zhfzj", "command_line": "cat '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/get_deseq_dataset.R' > /dev/null &&  Rscript '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/deseq2.R' --cores ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/c/f/d/dataset_cfd75380-abba-49f4-bbf0-fa86ca49a6ba.dat' -A 0.1 -n '/galaxy/server/database/objects/6/b/4/dataset_6b401bba-8c1f-40e5-94bd-b1081bd287af.dat'                    -H  -f '[[\"Treatment\", [{\"Untreated\": [\"/galaxy/server/database/objects/7/8/b/dataset_78b7cfca-c90e-4958-85da-815a587446e0.dat\", \"/galaxy/server/database/objects/9/e/0/dataset_9e08c5e9-81ce-40e2-904d-37b02da2578a.dat\", \"/galaxy/server/database/objects/9/7/4/dataset_97421ab0-45c6-42d4-9242-acfb813378d9.dat\", \"/galaxy/server/database/objects/9/d/e/dataset_9de4a5bb-b575-459a-a407-9b88e62eddb8.dat\"]}, {\"Treated\": [\"/galaxy/server/database/objects/a/c/6/dataset_ac62bebb-ad77-429d-a680-d9cbe01e1ae5.dat\", \"/galaxy/server/database/objects/d/7/b/dataset_d7b2a38b-db0c-43cb-87c5-221b45d73bcb.dat\", \"/galaxy/server/database/objects/a/0/6/dataset_a06d0df7-203c-4c05-8936-5881f1a6440d.dat\"]}]]]' -l '{\"dataset_ac62bebb-ad77-429d-a680-d9cbe01e1ae5.dat\": \"GSM461179_treat_single.counts\", \"dataset_d7b2a38b-db0c-43cb-87c5-221b45d73bcb.dat\": \"GSM461180_treat_paired.counts\", \"dataset_a06d0df7-203c-4c05-8936-5881f1a6440d.dat\": \"GSM461181_treat_paired.counts\", \"dataset_78b7cfca-c90e-4958-85da-815a587446e0.dat\": \"GSM461176_untreat_single.counts\", \"dataset_9e08c5e9-81ce-40e2-904d-37b02da2578a.dat\": \"GSM461177_untreat_paired.counts\", \"dataset_97421ab0-45c6-42d4-9242-acfb813378d9.dat\": \"GSM461178_untreat_paired.counts\", \"dataset_9de4a5bb-b575-459a-a407-9b88e62eddb8.dat\": \"GSM461182_untreat_single.counts\"}' -t 1 -P -V 10", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_options": "{\"alpha_ma\": \"0.1\", \"output_selector\": \"normCounts\"}", "advanced_options": "{\"auto_mean_filter_off\": false, \"esf_cond\": {\"__current_case__\": 0, \"esf\": \"\"}, \"fit_type\": \"1\", \"outlier_filter_off\": false, \"outlier_replace_off\": false, \"prefilter_conditional\": {\"__current_case__\": 0, \"prefilter\": \"-P\", \"prefilter_value\": \"10\"}, \"use_beta_priors\": false}", "tximport": "{\"__current_case__\": 1, \"tximport_selector\": \"count\"}", "header": "true", "batch_factors": null, "select_data": "{\"__current_case__\": 1, \"how\": \"datasets_per_level\", \"rep_factorName\": [{\"__index__\": 0, \"factorName\": \"Treatment\", \"rep_factorLevel\": [{\"__index__\": 0, \"countsFile\": {\"values\": [{\"id\": 511, \"src\": \"hda\"}, {\"id\": 512, \"src\": \"hda\"}, {\"id\": 513, \"src\": \"hda\"}]}, \"factorLevel\": \"Treated\"}, {\"__index__\": 1, \"countsFile\": {\"values\": [{\"id\": 514, \"src\": \"hda\"}, {\"id\": 515, \"src\": \"hda\"}, {\"id\": 516, \"src\": \"hda\"}, {\"id\": 517, \"src\": \"hda\"}]}, \"factorLevel\": \"Untreated\"}]}]}"}, "inputs": {"select_data|rep_factorName_0|rep_factorLevel_0|countsFile": {"id": "8b9206264d03d375", "src": "hda", "uuid": "ac62bebb-ad77-429d-a680-d9cbe01e1ae5"}, "select_data|rep_factorName_0|rep_factorLevel_0|countsFile1": {"id": "8b9206264d03d375", "src": "hda", "uuid": "ac62bebb-ad77-429d-a680-d9cbe01e1ae5"}, "select_data|rep_factorName_0|rep_factorLevel_0|countsFile2": {"id": "969dd18b9840444f", "src": "hda", "uuid": "d7b2a38b-db0c-43cb-87c5-221b45d73bcb"}, "select_data|rep_factorName_0|rep_factorLevel_0|countsFile3": {"id": "936fc31a8e13cab3", "src": "hda", "uuid": "a06d0df7-203c-4c05-8936-5881f1a6440d"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile": {"id": "b6eea1c545fe68c9", "src": "hda", "uuid": "78b7cfca-c90e-4958-85da-815a587446e0"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile1": {"id": "b6eea1c545fe68c9", "src": "hda", "uuid": "78b7cfca-c90e-4958-85da-815a587446e0"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile2": {"id": "58ac37835ed90d2d", "src": "hda", "uuid": "9e08c5e9-81ce-40e2-904d-37b02da2578a"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile3": {"id": "ab5c721b91672ab4", "src": "hda", "uuid": "97421ab0-45c6-42d4-9242-acfb813378d9"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile4": {"id": "2f4311b6b675dd3b", "src": "hda", "uuid": "9de4a5bb-b575-459a-a407-9b88e62eddb8"}}, "outputs": {"counts_out": {"id": "cc57e3313c4c6ba0", "src": "hda", "uuid": "6b401bba-8c1f-40e5-94bd-b1081bd287af"}, "deseq_out": {"id": "394467c1f26fe071", "src": "hda", "uuid": "cfd75380-abba-49f4-bbf0-fa86ca49a6ba"}}, "output_collections": {}, "tool_stdout": "primary factor: Treatment \n\n---------------------\nNo size factor was used\nDESeq2 run information\n\nsample table:\n                                Treatment\nGSM461176_untreat_single.counts Untreated\nGSM461177_untreat_paired.counts Untreated\nGSM461178_untreat_paired.counts Untreated\nGSM461182_untreat_single.counts Untreated\nGSM461179_treat_single.counts     Treated\nGSM461180_treat_paired.counts     Treated\nGSM461181_treat_paired.counts     Treated\n\ndesign formula:\n~Treatment\n\n\n7 samples with counts over 3999 genes\nApplied default - beta prior off\n[1] \"use_beta_prior is set to FALSE\"\nusing disperion fit type: parametric \nsummary of results\nTreatment: Treated vs Untreated\n\nout of 2921 with nonzero total read count\nadjusted p-value < 0.1\nLFC > 0 (up)       : 149, 5.1%\nLFC < 0 (down)     : 155, 5.3%\noutliers [1]       : 2, 0.068%\nlow counts [2]     : 170, 5.8%\n(mean count < 3)\n[1] see 'cooksCutoff' argument of ?results\n[2] see 'independentFiltering' argument of ?results\n\nNULL\nSession information:\n\nR version 4.3.1 (2023-06-16)\nPlatform: x86_64-conda-linux-gnu (64-bit)\nRunning under: Debian GNU/Linux 10 (buster)\n\nMatrix products: default\nBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0\n\nlocale:\n [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       \n [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   \n [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          \n[10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   \n\ntime zone: NA\ntzcode source: system (glibc)\n\nattached base packages:\n[1] stats4    tools     stats     graphics  grDevices utils     datasets \n[8] methods   base     \n\nother attached packages:\n [1] rjson_0.2.21                gplots_3.1.3               \n [3] RColorBrewer_1.1-3          DESeq2_1.40.2              \n [5] SummarizedExperiment_1.30.2 Biobase_2.60.0             \n [7] MatrixGenerics_1.12.2       matrixStats_1.0.0          \n [9] GenomicRanges_1.52.0        GenomeInfoDb_1.36.1        \n[11] IRanges_2.34.1              S4Vectors_0.38.1           \n[13] BiocGenerics_0.46.0         getopt_1.20.3              \n\nloaded via a namespace (and not attached):\n [1] utf8_1.2.3              generics_0.1.3          bitops_1.0-7           \n [4] KernSmooth_2.23-22      gtools_3.9.4            lattice_0.21-8         \n [7] caTools_1.18.2          magrittr_2.0.3          grid_4.3.1             \n[10] Matrix_1.6-0            fansi_1.0.4             scales_1.2.1           \n[13] codetools_0.2-19        cli_3.6.1               rlang_1.1.1            \n[16] crayon_1.5.2            XVector_0.40.0          munsell_0.5.0          \n[19] DelayedArray_0.26.6     S4Arrays_1.0.4          parallel_4.3.1         \n[22] BiocParallel_1.34.2     dplyr_1.1.2             colorspace_2.1-0       \n[25] ggplot2_3.4.2           locfit_1.5-9.8          GenomeInfoDbData_1.2.10\n[28] vctrs_0.6.3             R6_2.5.1                lifecycle_1.0.3        \n[31] zlibbioc_1.46.0         pkgconfig_2.0.3         pillar_1.9.0           \n[34] gtable_0.3.3            glue_1.6.2              Rcpp_1.0.11            \n[37] tibble_3.2.1            tidyselect_1.2.0        compiler_4.3.1         \n[40] RCurl_1.98-1.12        \n", "tool_stderr": "estimating size factors\nestimating dispersions\ngene-wise dispersion estimates\nmean-dispersion relationship\nfinal dispersion estimates\nfitting model and testing\n", "job_stdout": "", "job_stderr": "", "stderr": "estimating size factors\nestimating dispersions\ngene-wise dispersion estimates\nmean-dispersion relationship\nfinal dispersion estimates\nfitting model and testing\n", "stdout": "primary factor: Treatment \n\n---------------------\nNo size factor was used\nDESeq2 run information\n\nsample table:\n                                Treatment\nGSM461176_untreat_single.counts Untreated\nGSM461177_untreat_paired.counts Untreated\nGSM461178_untreat_paired.counts Untreated\nGSM461182_untreat_single.counts Untreated\nGSM461179_treat_single.counts     Treated\nGSM461180_treat_paired.counts     Treated\nGSM461181_treat_paired.counts     Treated\n\ndesign formula:\n~Treatment\n\n\n7 samples with counts over 3999 genes\nApplied default - beta prior off\n[1] \"use_beta_prior is set to FALSE\"\nusing disperion fit type: parametric \nsummary of results\nTreatment: Treated vs Untreated\n\nout of 2921 with nonzero total read count\nadjusted p-value < 0.1\nLFC > 0 (up)       : 149, 5.1%\nLFC < 0 (down)     : 155, 5.3%\noutliers [1]       : 2, 0.068%\nlow counts [2]     : 170, 5.8%\n(mean count < 3)\n[1] see 'cooksCutoff' argument of ?results\n[2] see 'independentFiltering' argument of ?results\n\nNULL\nSession information:\n\nR version 4.3.1 (2023-06-16)\nPlatform: x86_64-conda-linux-gnu (64-bit)\nRunning under: Debian GNU/Linux 10 (buster)\n\nMatrix products: default\nBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0\n\nlocale:\n [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       \n [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   \n [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          \n[10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   \n\ntime zone: NA\ntzcode source: system (glibc)\n\nattached base packages:\n[1] stats4    tools     stats     graphics  grDevices utils     datasets \n[8] methods   base     \n\nother attached packages:\n [1] rjson_0.2.21                gplots_3.1.3               \n [3] RColorBrewer_1.1-3          DESeq2_1.40.2              \n [5] SummarizedExperiment_1.30.2 Biobase_2.60.0             \n [7] MatrixGenerics_1.12.2       matrixStats_1.0.0          \n [9] GenomicRanges_1.52.0        GenomeInfoDb_1.36.1        \n[11] IRanges_2.34.1              S4Vectors_0.38.1           \n[13] BiocGenerics_0.46.0         getopt_1.20.3              \n\nloaded via a namespace (and not attached):\n [1] utf8_1.2.3              generics_0.1.3          bitops_1.0-7           \n [4] KernSmooth_2.23-22      gtools_3.9.4            lattice_0.21-8         \n [7] caTools_1.18.2          magrittr_2.0.3          grid_4.3.1             \n[10] Matrix_1.6-0            fansi_1.0.4             scales_1.2.1           \n[13] codetools_0.2-19        cli_3.6.1               rlang_1.1.1            \n[16] crayon_1.5.2            XVector_0.40.0          munsell_0.5.0          \n[19] DelayedArray_0.26.6     S4Arrays_1.0.4          parallel_4.3.1         \n[22] BiocParallel_1.34.2     dplyr_1.1.2             colorspace_2.1-0       \n[25] ggplot2_3.4.2           locfit_1.5-9.8          GenomeInfoDbData_1.2.10\n[28] vctrs_0.6.3             R6_2.5.1                lifecycle_1.0.3        \n[31] zlibbioc_1.46.0         pkgconfig_2.0.3         pillar_1.9.0           \n[34] gtable_0.3.3            glue_1.6.2              Rcpp_1.0.11            \n[37] tibble_3.2.1            tidyselect_1.2.0        compiler_4.3.1         \n[40] RCurl_1.98-1.12        \n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "15 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "15.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:59:38", "plugin": "core", "name": "end_epoch", "raw_value": "1726408778.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:59:23", "plugin": "core", "name": "start_epoch", "raw_value": "1726408763.0000000"}, {"title": "Memory Allocated (MB)", "value": "8589", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "8589.0000000"}, {"title": "Cores Allocated", "value": "1", "plugin": "core", "name": "galaxy_slots", "raw_value": "1.0000000"}]}, "status": "success"}}, {"id": "deseq2/2.11.40.8+galaxy0-2", "has_data": true, "data": {"tool_id": "deseq2", "tool_version": "2.11.40.8+galaxy0", "test_index": 2, "time_seconds": 94.62792301177979, "inputs": {"select_data|rep_factorName_0|factorName": "Treatment", "select_data|rep_factorName_0|rep_factorLevel_0|factorLevel": "Treated", "select_data|rep_factorName_0|rep_factorLevel_0|countsFile": [{"src": "hda", "id": "75f01e54d8cebbb3"}, {"src": "hda", "id": "2e1a6435c38ae9f9"}, {"src": "hda", "id": "9490022f0e0c6e86"}], "select_data|rep_factorName_0|rep_factorLevel_1|factorLevel": "Untreated", "select_data|rep_factorName_0|rep_factorLevel_1|countsFile": [{"src": "hda", "id": "569eb7b0e33c0bcc"}, {"src": "hda", "id": "21cab283d11a7798"}, {"src": "hda", "id": "a362abe47ea360e6"}, {"src": "hda", "id": "4319bc5dc4f857a8"}], "batch_factors": {"src": "hda", "id": "477e8d42a1af214d"}, "advanced_options|use_beta_priors": false, "output_options|output_selector": "normCounts"}, "job": {"model_class": "Job", "id": "2e10b07fe98cc5d4", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:49:15.156805", "create_time": "2024-09-15T13:48:26.264913", "galaxy_version": "23.1", "command_version": "R version 4.3.1 (2023-06-16) -- \"Beagle Scouts\", DESeq2 version 1.40.2", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/iuc/deseq2/deseq2/2.11.40.8+galaxy0", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-wbvjz", "command_line": "cat '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/get_deseq_dataset.R' > /dev/null &&  Rscript '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/deseq2.R' --cores ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/d/f/d/dataset_dfdcadb0-8dd9-4614-bad4-0a3f8198e3a9.dat' -A 0.1 -n '/galaxy/server/database/objects/8/2/d/dataset_82dbcdb1-e5f6-4a4a-8919-1983d4375e59.dat'                    -H  -f '[[\"Treatment\", [{\"Untreated\": [\"/galaxy/server/database/objects/8/8/c/dataset_88c35138-c69d-48d3-a820-002963a79b60.dat\", \"/galaxy/server/database/objects/4/5/d/dataset_45dbf69b-440d-42e5-8962-1c3570f5faef.dat\", \"/galaxy/server/database/objects/7/1/d/dataset_71d7d7ee-e0fc-4721-909c-7e31064a20b7.dat\", \"/galaxy/server/database/objects/e/6/9/dataset_e69687e9-5b4f-4f21-a072-503bc166cd54.dat\"]}, {\"Treated\": [\"/galaxy/server/database/objects/b/1/4/dataset_b14ca11d-1629-419f-ae74-4b7c8ac2ab8c.dat\", \"/galaxy/server/database/objects/3/4/0/dataset_340813dc-852b-4181-9335-9817874f0c38.dat\", \"/galaxy/server/database/objects/a/6/f/dataset_a6f23a2d-7f43-41c5-86e6-01ce7c9281f9.dat\"]}]]]' -l '{\"dataset_b14ca11d-1629-419f-ae74-4b7c8ac2ab8c.dat\": \"GSM461179_treat_single.counts\", \"dataset_340813dc-852b-4181-9335-9817874f0c38.dat\": \"GSM461180_treat_paired.counts\", \"dataset_a6f23a2d-7f43-41c5-86e6-01ce7c9281f9.dat\": \"GSM461181_treat_paired.counts\", \"dataset_88c35138-c69d-48d3-a820-002963a79b60.dat\": \"GSM461176_untreat_single.counts\", \"dataset_45dbf69b-440d-42e5-8962-1c3570f5faef.dat\": \"GSM461177_untreat_paired.counts\", \"dataset_71d7d7ee-e0fc-4721-909c-7e31064a20b7.dat\": \"GSM461178_untreat_paired.counts\", \"dataset_e69687e9-5b4f-4f21-a072-503bc166cd54.dat\": \"GSM461182_untreat_single.counts\"}' -t 1 --batch_factors '/galaxy/server/database/objects/3/1/7/dataset_317558a8-aae5-41b5-921d-3afa7d0365cc.dat'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_options": "{\"alpha_ma\": \"0.1\", \"output_selector\": \"normCounts\"}", "advanced_options": "{\"auto_mean_filter_off\": false, \"esf_cond\": {\"__current_case__\": 0, \"esf\": \"\"}, \"fit_type\": \"1\", \"outlier_filter_off\": false, \"outlier_replace_off\": false, \"prefilter_conditional\": {\"__current_case__\": 1, \"prefilter\": \"\"}, \"use_beta_priors\": false}", "tximport": "{\"__current_case__\": 1, \"tximport_selector\": \"count\"}", "header": "true", "select_data": "{\"__current_case__\": 1, \"how\": \"datasets_per_level\", \"rep_factorName\": [{\"__index__\": 0, \"factorName\": \"Treatment\", \"rep_factorLevel\": [{\"__index__\": 0, \"countsFile\": {\"values\": [{\"id\": 416, \"src\": \"hda\"}, {\"id\": 417, \"src\": \"hda\"}, {\"id\": 418, \"src\": \"hda\"}]}, \"factorLevel\": \"Treated\"}, {\"__index__\": 1, \"countsFile\": {\"values\": [{\"id\": 419, \"src\": \"hda\"}, {\"id\": 420, \"src\": \"hda\"}, {\"id\": 421, \"src\": \"hda\"}, {\"id\": 422, \"src\": \"hda\"}]}, \"factorLevel\": \"Untreated\"}]}]}"}, "inputs": {"select_data|rep_factorName_0|rep_factorLevel_0|countsFile": {"id": "75f01e54d8cebbb3", "src": "hda", "uuid": "b14ca11d-1629-419f-ae74-4b7c8ac2ab8c"}, "select_data|rep_factorName_0|rep_factorLevel_0|countsFile1": {"id": "75f01e54d8cebbb3", "src": "hda", "uuid": "b14ca11d-1629-419f-ae74-4b7c8ac2ab8c"}, "select_data|rep_factorName_0|rep_factorLevel_0|countsFile2": {"id": "2e1a6435c38ae9f9", "src": "hda", "uuid": "340813dc-852b-4181-9335-9817874f0c38"}, "select_data|rep_factorName_0|rep_factorLevel_0|countsFile3": {"id": "9490022f0e0c6e86", "src": "hda", "uuid": "a6f23a2d-7f43-41c5-86e6-01ce7c9281f9"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile": {"id": "569eb7b0e33c0bcc", "src": "hda", "uuid": "88c35138-c69d-48d3-a820-002963a79b60"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile1": {"id": "569eb7b0e33c0bcc", "src": "hda", "uuid": "88c35138-c69d-48d3-a820-002963a79b60"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile2": {"id": "21cab283d11a7798", "src": "hda", "uuid": "45dbf69b-440d-42e5-8962-1c3570f5faef"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile3": {"id": "a362abe47ea360e6", "src": "hda", "uuid": "71d7d7ee-e0fc-4721-909c-7e31064a20b7"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile4": {"id": "4319bc5dc4f857a8", "src": "hda", "uuid": "e69687e9-5b4f-4f21-a072-503bc166cd54"}, "batch_factors": {"id": "477e8d42a1af214d", "src": "hda", "uuid": "317558a8-aae5-41b5-921d-3afa7d0365cc"}}, "outputs": {"deseq_out": {"id": "eb30811b7d804b0b", "src": "hda", "uuid": "dfdcadb0-8dd9-4614-bad4-0a3f8198e3a9"}, "counts_out": {"id": "c80123dd6501448d", "src": "hda", "uuid": "82dbcdb1-e5f6-4a4a-8919-1983d4375e59"}}, "output_collections": {}, "tool_stdout": "primary factor: Treatment \n\n---------------------\nNo size factor was used\nDESeq2 run information\n\nsample table:\n                                Treatment\nGSM461176_untreat_single.counts Untreated\nGSM461177_untreat_paired.counts Untreated\nGSM461178_untreat_paired.counts Untreated\nGSM461182_untreat_single.counts Untreated\nGSM461179_treat_single.counts     Treated\nGSM461180_treat_paired.counts     Treated\nGSM461181_treat_paired.counts     Treated\n\ndesign formula:\n~W_1 + Treatment\n\n\n7 samples with counts over 3999 genes\nApplied default - beta prior off\n[1] \"use_beta_prior is set to FALSE\"\nusing disperion fit type: parametric \nsummary of results\nTreatment: Treated vs Untreated\n\nout of 3429 with nonzero total read count\nadjusted p-value < 0.1\nLFC > 0 (up)       : 177, 5.2%\nLFC < 0 (down)     : 206, 6%\noutliers [1]       : 0, 0%\nlow counts [2]     : 725, 21%\n(mean count < 4)\n[1] see 'cooksCutoff' argument of ?results\n[2] see 'independentFiltering' argument of ?results\n\nNULL\nSession information:\n\nR version 4.3.1 (2023-06-16)\nPlatform: x86_64-conda-linux-gnu (64-bit)\nRunning under: Debian GNU/Linux 10 (buster)\n\nMatrix products: default\nBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0\n\nlocale:\n [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       \n [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   \n [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          \n[10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   \n\ntime zone: NA\ntzcode source: system (glibc)\n\nattached base packages:\n[1] stats4    tools     stats     graphics  grDevices utils     datasets \n[8] methods   base     \n\nother attached packages:\n [1] rjson_0.2.21                gplots_3.1.3               \n [3] RColorBrewer_1.1-3          DESeq2_1.40.2              \n [5] SummarizedExperiment_1.30.2 Biobase_2.60.0             \n [7] MatrixGenerics_1.12.2       matrixStats_1.0.0          \n [9] GenomicRanges_1.52.0        GenomeInfoDb_1.36.1        \n[11] IRanges_2.34.1              S4Vectors_0.38.1           \n[13] BiocGenerics_0.46.0         getopt_1.20.3              \n\nloaded via a namespace (and not attached):\n [1] utf8_1.2.3              generics_0.1.3          bitops_1.0-7           \n [4] KernSmooth_2.23-22      gtools_3.9.4            lattice_0.21-8         \n [7] caTools_1.18.2          magrittr_2.0.3          grid_4.3.1             \n[10] Matrix_1.6-0            fansi_1.0.4             scales_1.2.1           \n[13] codetools_0.2-19        cli_3.6.1               rlang_1.1.1            \n[16] crayon_1.5.2            XVector_0.40.0          munsell_0.5.0          \n[19] DelayedArray_0.26.6     S4Arrays_1.0.4          parallel_4.3.1         \n[22] BiocParallel_1.34.2     dplyr_1.1.2             colorspace_2.1-0       \n[25] ggplot2_3.4.2           locfit_1.5-9.8          GenomeInfoDbData_1.2.10\n[28] vctrs_0.6.3             R6_2.5.1                lifecycle_1.0.3        \n[31] zlibbioc_1.46.0         pkgconfig_2.0.3         pillar_1.9.0           \n[34] gtable_0.3.3            glue_1.6.2              Rcpp_1.0.11            \n[37] tibble_3.2.1            tidyselect_1.2.0        compiler_4.3.1         \n[40] RCurl_1.98-1.12        \n", "tool_stderr": "estimating size factors\nestimating dispersions\ngene-wise dispersion estimates\nmean-dispersion relationship\nfinal dispersion estimates\nfitting model and testing\n", "job_stdout": "", "job_stderr": "", "stderr": "estimating size factors\nestimating dispersions\ngene-wise dispersion estimates\nmean-dispersion relationship\nfinal dispersion estimates\nfitting model and testing\n", "stdout": "primary factor: Treatment \n\n---------------------\nNo size factor was used\nDESeq2 run information\n\nsample table:\n                                Treatment\nGSM461176_untreat_single.counts Untreated\nGSM461177_untreat_paired.counts Untreated\nGSM461178_untreat_paired.counts Untreated\nGSM461182_untreat_single.counts Untreated\nGSM461179_treat_single.counts     Treated\nGSM461180_treat_paired.counts     Treated\nGSM461181_treat_paired.counts     Treated\n\ndesign formula:\n~W_1 + Treatment\n\n\n7 samples with counts over 3999 genes\nApplied default - beta prior off\n[1] \"use_beta_prior is set to FALSE\"\nusing disperion fit type: parametric \nsummary of results\nTreatment: Treated vs Untreated\n\nout of 3429 with nonzero total read count\nadjusted p-value < 0.1\nLFC > 0 (up)       : 177, 5.2%\nLFC < 0 (down)     : 206, 6%\noutliers [1]       : 0, 0%\nlow counts [2]     : 725, 21%\n(mean count < 4)\n[1] see 'cooksCutoff' argument of ?results\n[2] see 'independentFiltering' argument of ?results\n\nNULL\nSession information:\n\nR version 4.3.1 (2023-06-16)\nPlatform: x86_64-conda-linux-gnu (64-bit)\nRunning under: Debian GNU/Linux 10 (buster)\n\nMatrix products: default\nBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0\n\nlocale:\n [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       \n [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   \n [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          \n[10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   \n\ntime zone: NA\ntzcode source: system (glibc)\n\nattached base packages:\n[1] stats4    tools     stats     graphics  grDevices utils     datasets \n[8] methods   base     \n\nother attached packages:\n [1] rjson_0.2.21                gplots_3.1.3               \n [3] RColorBrewer_1.1-3          DESeq2_1.40.2              \n [5] SummarizedExperiment_1.30.2 Biobase_2.60.0             \n [7] MatrixGenerics_1.12.2       matrixStats_1.0.0          \n [9] GenomicRanges_1.52.0        GenomeInfoDb_1.36.1        \n[11] IRanges_2.34.1              S4Vectors_0.38.1           \n[13] BiocGenerics_0.46.0         getopt_1.20.3              \n\nloaded via a namespace (and not attached):\n [1] utf8_1.2.3              generics_0.1.3          bitops_1.0-7           \n [4] KernSmooth_2.23-22      gtools_3.9.4            lattice_0.21-8         \n [7] caTools_1.18.2          magrittr_2.0.3          grid_4.3.1             \n[10] Matrix_1.6-0            fansi_1.0.4             scales_1.2.1           \n[13] codetools_0.2-19        cli_3.6.1               rlang_1.1.1            \n[16] crayon_1.5.2            XVector_0.40.0          munsell_0.5.0          \n[19] DelayedArray_0.26.6     S4Arrays_1.0.4          parallel_4.3.1         \n[22] BiocParallel_1.34.2     dplyr_1.1.2             colorspace_2.1-0       \n[25] ggplot2_3.4.2           locfit_1.5-9.8          GenomeInfoDbData_1.2.10\n[28] vctrs_0.6.3             R6_2.5.1                lifecycle_1.0.3        \n[31] zlibbioc_1.46.0         pkgconfig_2.0.3         pillar_1.9.0           \n[34] gtable_0.3.3            glue_1.6.2              Rcpp_1.0.11            \n[37] tibble_3.2.1            tidyselect_1.2.0        compiler_4.3.1         \n[40] RCurl_1.98-1.12        \n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "16 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "16.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:49:06", "plugin": "core", "name": "end_epoch", "raw_value": "1726408146.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:48:50", "plugin": "core", "name": "start_epoch", "raw_value": "1726408130.0000000"}, {"title": "Memory Allocated (MB)", "value": "8589", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "8589.0000000"}, {"title": "Cores Allocated", "value": "1", "plugin": "core", "name": "galaxy_slots", "raw_value": "1.0000000"}]}, "status": "success"}}, {"id": "deseq2/2.11.40.8+galaxy0-3", "has_data": true, "data": {"tool_id": "deseq2", "tool_version": "2.11.40.8+galaxy0", "test_index": 3, "time_seconds": 63.35804200172424, "inputs": {"select_data|rep_factorName_0|factorName": "Treatment", "select_data|rep_factorName_0|rep_factorLevel_0|factorLevel": "Treated", "select_data|rep_factorName_0|rep_factorLevel_0|countsFile": [{"src": "hda", "id": "9c3331744f243418"}, {"src": "hda", "id": "fa278b83cc545dc8"}, {"src": "hda", "id": "5bbc1daa8ace1e06"}], "select_data|rep_factorName_0|rep_factorLevel_1|factorLevel": "Untreated", "select_data|rep_factorName_0|rep_factorLevel_1|countsFile": [{"src": "hda", "id": "80a9d1a2231fc1c3"}, {"src": "hda", "id": "dcdc4ee018697c62"}, {"src": "hda", "id": "4b2cd2d8b6a5dd42"}, {"src": "hda", "id": "65f9e63f79006f7b"}], "header": false, "advanced_options|use_beta_priors": true, "output_options|output_selector": ["normCounts", "normRLog", "normVST"]}, "job": {"model_class": "Job", "id": "f2d592c311a5df45", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:50:17.559824", "create_time": "2024-09-15T13:49:46.402940", "galaxy_version": "23.1", "command_version": "R version 4.3.1 (2023-06-16) -- \"Beagle Scouts\", DESeq2 version 1.40.2", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/iuc/deseq2/deseq2/2.11.40.8+galaxy0", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-b5br7", "command_line": "cat '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/get_deseq_dataset.R' > /dev/null &&  Rscript '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/deseq2.R' --cores ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/3/d/a/dataset_3dac9d97-ef81-4424-8956-3b86dea1c587.dat' -A 0.1 -n '/galaxy/server/database/objects/c/f/8/dataset_cf8e9ef3-f1d1-433c-89e4-e3c54502345b.dat' -r '/galaxy/server/database/objects/0/9/4/dataset_0942d00b-b605-4fd2-954f-e3ae5e387cb3.dat' -v '/galaxy/server/database/objects/8/f/b/dataset_8fba7a27-39e7-49ad-9dbf-81a98ed22307.dat'                      -f '[[\"Treatment\", [{\"Untreated\": [\"/galaxy/server/database/objects/9/9/5/dataset_995f7fa0-0664-41df-8bb3-3d939624cec7.dat\", \"/galaxy/server/database/objects/5/3/0/dataset_530f7eae-6608-49b9-825a-9ee69358c7bc.dat\", \"/galaxy/server/database/objects/2/a/d/dataset_2ad51104-704f-40af-b6b2-52ac6f1008e6.dat\", \"/galaxy/server/database/objects/5/c/9/dataset_5c9c38f4-33c6-4c95-923c-99f6947efc0f.dat\"]}, {\"Treated\": [\"/galaxy/server/database/objects/9/6/b/dataset_96b892a0-67d5-4726-9ca5-f0a402c407f5.dat\", \"/galaxy/server/database/objects/8/b/3/dataset_8b3a5e4f-2395-4e85-8f48-c578b14a5d9f.dat\", \"/galaxy/server/database/objects/d/c/4/dataset_dc46b44a-d080-4c85-8f69-f364cdbe05ac.dat\"]}]]]' -l '{\"dataset_96b892a0-67d5-4726-9ca5-f0a402c407f5.dat\": \"GSM461179_treat_single.counts.noheader\", \"dataset_8b3a5e4f-2395-4e85-8f48-c578b14a5d9f.dat\": \"GSM461180_treat_paired.counts.noheader\", \"dataset_dc46b44a-d080-4c85-8f69-f364cdbe05ac.dat\": \"GSM461181_treat_paired.counts.noheader\", \"dataset_995f7fa0-0664-41df-8bb3-3d939624cec7.dat\": \"GSM461176_untreat_single.counts.noheader\", \"dataset_530f7eae-6608-49b9-825a-9ee69358c7bc.dat\": \"GSM461177_untreat_paired.counts.noheader\", \"dataset_2ad51104-704f-40af-b6b2-52ac6f1008e6.dat\": \"GSM461178_untreat_paired.counts.noheader\", \"dataset_5c9c38f4-33c6-4c95-923c-99f6947efc0f.dat\": \"GSM461182_untreat_single.counts.noheader\"}' -t 1     -d", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_options": "{\"alpha_ma\": \"0.1\", \"output_selector\": [\"normCounts\", \"normRLog\", \"normVST\"]}", "advanced_options": "{\"auto_mean_filter_off\": false, \"esf_cond\": {\"__current_case__\": 0, \"esf\": \"\"}, \"fit_type\": \"1\", \"outlier_filter_off\": false, \"outlier_replace_off\": false, \"prefilter_conditional\": {\"__current_case__\": 1, \"prefilter\": \"\"}, \"use_beta_priors\": true}", "tximport": "{\"__current_case__\": 1, \"tximport_selector\": \"count\"}", "header": "false", "batch_factors": null, "select_data": "{\"__current_case__\": 1, \"how\": \"datasets_per_level\", \"rep_factorName\": [{\"__index__\": 0, \"factorName\": \"Treatment\", \"rep_factorLevel\": [{\"__index__\": 0, \"countsFile\": {\"values\": [{\"id\": 426, \"src\": \"hda\"}, {\"id\": 427, \"src\": \"hda\"}, {\"id\": 428, \"src\": \"hda\"}]}, \"factorLevel\": \"Treated\"}, {\"__index__\": 1, \"countsFile\": {\"values\": [{\"id\": 429, \"src\": \"hda\"}, {\"id\": 430, \"src\": \"hda\"}, {\"id\": 431, \"src\": \"hda\"}, {\"id\": 432, \"src\": \"hda\"}]}, \"factorLevel\": \"Untreated\"}]}]}"}, "inputs": {"select_data|rep_factorName_0|rep_factorLevel_0|countsFile": {"id": "9c3331744f243418", "src": "hda", "uuid": "96b892a0-67d5-4726-9ca5-f0a402c407f5"}, "select_data|rep_factorName_0|rep_factorLevel_0|countsFile1": {"id": "9c3331744f243418", "src": "hda", "uuid": "96b892a0-67d5-4726-9ca5-f0a402c407f5"}, "select_data|rep_factorName_0|rep_factorLevel_0|countsFile2": {"id": "fa278b83cc545dc8", "src": "hda", "uuid": "8b3a5e4f-2395-4e85-8f48-c578b14a5d9f"}, "select_data|rep_factorName_0|rep_factorLevel_0|countsFile3": {"id": "5bbc1daa8ace1e06", "src": "hda", "uuid": "dc46b44a-d080-4c85-8f69-f364cdbe05ac"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile": {"id": "80a9d1a2231fc1c3", "src": "hda", "uuid": "995f7fa0-0664-41df-8bb3-3d939624cec7"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile1": {"id": "80a9d1a2231fc1c3", "src": "hda", "uuid": "995f7fa0-0664-41df-8bb3-3d939624cec7"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile2": {"id": "dcdc4ee018697c62", "src": "hda", "uuid": "530f7eae-6608-49b9-825a-9ee69358c7bc"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile3": {"id": "4b2cd2d8b6a5dd42", "src": "hda", "uuid": "2ad51104-704f-40af-b6b2-52ac6f1008e6"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile4": {"id": "65f9e63f79006f7b", "src": "hda", "uuid": "5c9c38f4-33c6-4c95-923c-99f6947efc0f"}}, "outputs": {"vst_out": {"id": "38feeaec34d9c73c", "src": "hda", "uuid": "8fba7a27-39e7-49ad-9dbf-81a98ed22307"}, "rlog_out": {"id": "0fbf9d44fce3d392", "src": "hda", "uuid": "0942d00b-b605-4fd2-954f-e3ae5e387cb3"}, "counts_out": {"id": "f6f1331927ae746b", "src": "hda", "uuid": "cf8e9ef3-f1d1-433c-89e4-e3c54502345b"}, "deseq_out": {"id": "646b82886b4dd7c5", "src": "hda", "uuid": "3dac9d97-ef81-4424-8956-3b86dea1c587"}}, "output_collections": {}, "tool_stdout": "primary factor: Treatment \n\n---------------------\nNo size factor was used\nDESeq2 run information\n\nsample table:\n                                         Treatment\nGSM461176_untreat_single.counts.noheader Untreated\nGSM461177_untreat_paired.counts.noheader Untreated\nGSM461178_untreat_paired.counts.noheader Untreated\nGSM461182_untreat_single.counts.noheader Untreated\nGSM461179_treat_single.counts.noheader     Treated\nGSM461180_treat_paired.counts.noheader     Treated\nGSM461181_treat_paired.counts.noheader     Treated\n\ndesign formula:\n~Treatment\n\n\n7 samples with counts over 3999 genes\n[1] \"use_beta_prior is set to TRUE\"\nusing disperion fit type: parametric \nsummary of results\nTreatment: Treated vs Untreated\n\nout of 3429 with nonzero total read count\nadjusted p-value < 0.1\nLFC > 0 (up)       : 148, 4.3%\nLFC < 0 (down)     : 152, 4.4%\noutliers [1]       : 2, 0.058%\nlow counts [2]     : 659, 19%\n(mean count < 3)\n[1] see 'cooksCutoff' argument of ?results\n[2] see 'independentFiltering' argument of ?results\n\nNULL\nSession information:\n\nR version 4.3.1 (2023-06-16)\nPlatform: x86_64-conda-linux-gnu (64-bit)\nRunning under: Debian GNU/Linux 10 (buster)\n\nMatrix products: default\nBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0\n\nlocale:\n [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       \n [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   \n [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          \n[10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   \n\ntime zone: NA\ntzcode source: system (glibc)\n\nattached base packages:\n[1] stats4    tools     stats     graphics  grDevices utils     datasets \n[8] methods   base     \n\nother attached packages:\n [1] rjson_0.2.21                gplots_3.1.3               \n [3] RColorBrewer_1.1-3          DESeq2_1.40.2              \n [5] SummarizedExperiment_1.30.2 Biobase_2.60.0             \n [7] MatrixGenerics_1.12.2       matrixStats_1.0.0          \n [9] GenomicRanges_1.52.0        GenomeInfoDb_1.36.1        \n[11] IRanges_2.34.1              S4Vectors_0.38.1           \n[13] BiocGenerics_0.46.0         getopt_1.20.3              \n\nloaded via a namespace (and not attached):\n [1] utf8_1.2.3              generics_0.1.3          bitops_1.0-7           \n [4] KernSmooth_2.23-22      gtools_3.9.4            lattice_0.21-8         \n [7] caTools_1.18.2          magrittr_2.0.3          grid_4.3.1             \n[10] Matrix_1.6-0            fansi_1.0.4             scales_1.2.1           \n[13] codetools_0.2-19        cli_3.6.1               rlang_1.1.1            \n[16] crayon_1.5.2            XVector_0.40.0          munsell_0.5.0          \n[19] DelayedArray_0.26.6     S4Arrays_1.0.4          parallel_4.3.1         \n[22] BiocParallel_1.34.2     dplyr_1.1.2             colorspace_2.1-0       \n[25] ggplot2_3.4.2           locfit_1.5-9.8          GenomeInfoDbData_1.2.10\n[28] vctrs_0.6.3             R6_2.5.1                lifecycle_1.0.3        \n[31] zlibbioc_1.46.0         pkgconfig_2.0.3         pillar_1.9.0           \n[34] gtable_0.3.3            glue_1.6.2              Rcpp_1.0.11            \n[37] tibble_3.2.1            tidyselect_1.2.0        compiler_4.3.1         \n[40] RCurl_1.98-1.12        \n", "tool_stderr": "estimating size factors\nestimating dispersions\ngene-wise dispersion estimates\nmean-dispersion relationship\nfinal dispersion estimates\nfitting model and testing\n", "job_stdout": "", "job_stderr": "", "stderr": "estimating size factors\nestimating dispersions\ngene-wise dispersion estimates\nmean-dispersion relationship\nfinal dispersion estimates\nfitting model and testing\n", "stdout": "primary factor: Treatment \n\n---------------------\nNo size factor was used\nDESeq2 run information\n\nsample table:\n                                         Treatment\nGSM461176_untreat_single.counts.noheader Untreated\nGSM461177_untreat_paired.counts.noheader Untreated\nGSM461178_untreat_paired.counts.noheader Untreated\nGSM461182_untreat_single.counts.noheader Untreated\nGSM461179_treat_single.counts.noheader     Treated\nGSM461180_treat_paired.counts.noheader     Treated\nGSM461181_treat_paired.counts.noheader     Treated\n\ndesign formula:\n~Treatment\n\n\n7 samples with counts over 3999 genes\n[1] \"use_beta_prior is set to TRUE\"\nusing disperion fit type: parametric \nsummary of results\nTreatment: Treated vs Untreated\n\nout of 3429 with nonzero total read count\nadjusted p-value < 0.1\nLFC > 0 (up)       : 148, 4.3%\nLFC < 0 (down)     : 152, 4.4%\noutliers [1]       : 2, 0.058%\nlow counts [2]     : 659, 19%\n(mean count < 3)\n[1] see 'cooksCutoff' argument of ?results\n[2] see 'independentFiltering' argument of ?results\n\nNULL\nSession information:\n\nR version 4.3.1 (2023-06-16)\nPlatform: x86_64-conda-linux-gnu (64-bit)\nRunning under: Debian GNU/Linux 10 (buster)\n\nMatrix products: default\nBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0\n\nlocale:\n [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       \n [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   \n [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          \n[10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   \n\ntime zone: NA\ntzcode source: system (glibc)\n\nattached base packages:\n[1] stats4    tools     stats     graphics  grDevices utils     datasets \n[8] methods   base     \n\nother attached packages:\n [1] rjson_0.2.21                gplots_3.1.3               \n [3] RColorBrewer_1.1-3          DESeq2_1.40.2              \n [5] SummarizedExperiment_1.30.2 Biobase_2.60.0             \n [7] MatrixGenerics_1.12.2       matrixStats_1.0.0          \n [9] GenomicRanges_1.52.0        GenomeInfoDb_1.36.1        \n[11] IRanges_2.34.1              S4Vectors_0.38.1           \n[13] BiocGenerics_0.46.0         getopt_1.20.3              \n\nloaded via a namespace (and not attached):\n [1] utf8_1.2.3              generics_0.1.3          bitops_1.0-7           \n [4] KernSmooth_2.23-22      gtools_3.9.4            lattice_0.21-8         \n [7] caTools_1.18.2          magrittr_2.0.3          grid_4.3.1             \n[10] Matrix_1.6-0            fansi_1.0.4             scales_1.2.1           \n[13] codetools_0.2-19        cli_3.6.1               rlang_1.1.1            \n[16] crayon_1.5.2            XVector_0.40.0          munsell_0.5.0          \n[19] DelayedArray_0.26.6     S4Arrays_1.0.4          parallel_4.3.1         \n[22] BiocParallel_1.34.2     dplyr_1.1.2             colorspace_2.1-0       \n[25] ggplot2_3.4.2           locfit_1.5-9.8          GenomeInfoDbData_1.2.10\n[28] vctrs_0.6.3             R6_2.5.1                lifecycle_1.0.3        \n[31] zlibbioc_1.46.0         pkgconfig_2.0.3         pillar_1.9.0           \n[34] gtable_0.3.3            glue_1.6.2              Rcpp_1.0.11            \n[37] tibble_3.2.1            tidyselect_1.2.0        compiler_4.3.1         \n[40] RCurl_1.98-1.12        \n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "19 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "19.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:50:07", "plugin": "core", "name": "end_epoch", "raw_value": "1726408207.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:49:48", "plugin": "core", "name": "start_epoch", "raw_value": "1726408188.0000000"}, {"title": "Memory Allocated (MB)", "value": "8589", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "8589.0000000"}, {"title": "Cores Allocated", "value": "1", "plugin": "core", "name": "galaxy_slots", "raw_value": "1.0000000"}]}, "status": "success"}}, {"id": "deseq2/2.11.40.8+galaxy0-4", "has_data": true, "data": {"tool_id": "deseq2", "tool_version": "2.11.40.8+galaxy0", "test_index": 4, "time_seconds": 22.439173221588135, "execution_problem": "Input staging problem: Job in error state.. tool_id: upload1, exit_code: None, stderr: .", "status": "error"}}, {"id": "deseq2/2.11.40.8+galaxy0-5", "has_data": true, "data": {"tool_id": "deseq2", "tool_version": "2.11.40.8+galaxy0", "test_index": 5, "time_seconds": 62.19812083244324, "inputs": {"select_data|rep_factorName_0|factorName": "Treatment", "select_data|rep_factorName_0|rep_factorLevel_0|factorLevel": "Treated", "select_data|rep_factorName_0|rep_factorLevel_0|countsFile": [{"src": "hda", "id": "7a0bba51a92e2b88"}, {"src": "hda", "id": "cab7f60ccb0072fe"}, {"src": "hda", "id": "e2fcf5321db0ca26"}], "select_data|rep_factorName_0|rep_factorLevel_1|factorLevel": "Untreated", "select_data|rep_factorName_0|rep_factorLevel_1|countsFile": [{"src": "hda", "id": "3ca1360e684a0420"}, {"src": "hda", "id": "7f7852b343a17e66"}, {"src": "hda", "id": "420378409fd65ef3"}], "tximport|txtype": "sailfish", "tximport|mapping_format|gtf_file": {"src": "hda", "id": "9e2f5cffa487a3b3"}, "tximport|mapping_format|mapping_format_selector": "gtf", "tximport|tximport_selector": "tximport", "advanced_options|use_beta_priors": true, "output_options|output_selector": ""}, "job": {"model_class": "Job", "id": "a11aea2aa0191d00", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:51:43.052122", "create_time": "2024-09-15T13:51:12.732558", "galaxy_version": "23.1", "command_version": "R version 4.3.1 (2023-06-16) -- \"Beagle Scouts\", DESeq2 version 1.40.2", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/iuc/deseq2/deseq2/2.11.40.8+galaxy0", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-tz8fp", "command_line": "ln -s '/galaxy/server/database/objects/4/5/4/dataset_4549c69d-781f-48cb-8028-436b0b186f19.dat' mapping.gff &&  cat '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/get_deseq_dataset.R' > /dev/null &&  Rscript '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/deseq2.R' --cores ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/c/2/d/dataset_c2d2ca0e-5a50-452a-af99-62babf4b1ef6.dat' -A 0.1                  -H  -f '[[\"Treatment\", [{\"Untreated\": [\"/galaxy/server/database/objects/7/4/7/dataset_74735254-f0bd-45e1-ab52-6b414ee9580e.dat\", \"/galaxy/server/database/objects/5/e/e/dataset_5ee1e78f-5487-4448-8846-dc5934fd9bcc.dat\", \"/galaxy/server/database/objects/d/b/c/dataset_dbca0a53-17b7-4c10-b6d9-453d65054d30.dat\"]}, {\"Treated\": [\"/galaxy/server/database/objects/f/3/8/dataset_f38f092d-4987-46e2-a894-f77a39261a2a.dat\", \"/galaxy/server/database/objects/8/c/d/dataset_8cdeece2-e983-4a3c-a4f6-8abc10d95166.dat\", \"/galaxy/server/database/objects/e/a/3/dataset_ea38585e-714e-4396-a098-93f2d272d79b.dat\"]}]]]' -l '{\"dataset_f38f092d-4987-46e2-a894-f77a39261a2a.dat\": \"sailfish_quant.sf1.tab\", \"dataset_8cdeece2-e983-4a3c-a4f6-8abc10d95166.dat\": \"sailfish_quant.sf2.tab\", \"dataset_ea38585e-714e-4396-a098-93f2d272d79b.dat\": \"sailfish_quant.sf3.tab\", \"dataset_74735254-f0bd-45e1-ab52-6b414ee9580e.dat\": \"sailfish_quant.sf4.tab\", \"dataset_5ee1e78f-5487-4448-8846-dc5934fd9bcc.dat\": \"sailfish_quant.sf5.tab\", \"dataset_dbca0a53-17b7-4c10-b6d9-453d65054d30.dat\": \"sailfish_quant.sf6.tab\"}' -t 1     -d  -i -y sailfish -x mapping.gff", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_options": "{\"alpha_ma\": \"0.1\", \"output_selector\": []}", "advanced_options": "{\"auto_mean_filter_off\": false, \"esf_cond\": {\"__current_case__\": 0, \"esf\": \"\"}, \"fit_type\": \"1\", \"outlier_filter_off\": false, \"outlier_replace_off\": false, \"prefilter_conditional\": {\"__current_case__\": 1, \"prefilter\": \"\"}, \"use_beta_priors\": true}", "tximport": "{\"__current_case__\": 0, \"mapping_format\": {\"__current_case__\": 0, \"gtf_file\": {\"values\": [{\"id\": 450, \"src\": \"hda\"}]}, \"mapping_format_selector\": \"gtf\"}, \"tximport_selector\": \"tximport\", \"txtype\": \"sailfish\"}", "header": "true", "batch_factors": null, "select_data": "{\"__current_case__\": 1, \"how\": \"datasets_per_level\", \"rep_factorName\": [{\"__index__\": 0, \"factorName\": \"Treatment\", \"rep_factorLevel\": [{\"__index__\": 0, \"countsFile\": {\"values\": [{\"id\": 444, \"src\": \"hda\"}, {\"id\": 445, \"src\": \"hda\"}, {\"id\": 446, \"src\": \"hda\"}]}, \"factorLevel\": \"Treated\"}, {\"__index__\": 1, \"countsFile\": {\"values\": [{\"id\": 447, \"src\": \"hda\"}, {\"id\": 448, \"src\": \"hda\"}, {\"id\": 449, \"src\": \"hda\"}]}, \"factorLevel\": \"Untreated\"}]}]}"}, "inputs": {"select_data|rep_factorName_0|rep_factorLevel_0|countsFile": {"id": "7a0bba51a92e2b88", "src": "hda", "uuid": "f38f092d-4987-46e2-a894-f77a39261a2a"}, "select_data|rep_factorName_0|rep_factorLevel_0|countsFile1": {"id": "7a0bba51a92e2b88", "src": "hda", "uuid": "f38f092d-4987-46e2-a894-f77a39261a2a"}, "select_data|rep_factorName_0|rep_factorLevel_0|countsFile2": {"id": "cab7f60ccb0072fe", "src": "hda", "uuid": "8cdeece2-e983-4a3c-a4f6-8abc10d95166"}, "select_data|rep_factorName_0|rep_factorLevel_0|countsFile3": {"id": "e2fcf5321db0ca26", "src": "hda", "uuid": "ea38585e-714e-4396-a098-93f2d272d79b"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile": {"id": "3ca1360e684a0420", "src": "hda", "uuid": "74735254-f0bd-45e1-ab52-6b414ee9580e"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile1": {"id": "3ca1360e684a0420", "src": "hda", "uuid": "74735254-f0bd-45e1-ab52-6b414ee9580e"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile2": {"id": "7f7852b343a17e66", "src": "hda", "uuid": "5ee1e78f-5487-4448-8846-dc5934fd9bcc"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile3": {"id": "420378409fd65ef3", "src": "hda", "uuid": "dbca0a53-17b7-4c10-b6d9-453d65054d30"}, "tximport|mapping_format|gtf_file": {"id": "9e2f5cffa487a3b3", "src": "hda", "uuid": "4549c69d-781f-48cb-8028-436b0b186f19"}}, "outputs": {"deseq_out": {"id": "af94ed8556bda0f9", "src": "hda", "uuid": "c2d2ca0e-5a50-452a-af99-62babf4b1ef6"}}, "output_collections": {}, "tool_stdout": "primary factor: Treatment \n\n---------------------\nNo size factor was used\nDESeq2 run information\n\nsample table:\n                       Treatment\nsailfish_quant.sf4.tab Untreated\nsailfish_quant.sf5.tab Untreated\nsailfish_quant.sf6.tab Untreated\nsailfish_quant.sf1.tab   Treated\nsailfish_quant.sf2.tab   Treated\nsailfish_quant.sf3.tab   Treated\n\ndesign formula:\n~Treatment\n\n\n6 samples with counts over 10 genes\n[1] \"use_beta_prior is set to TRUE\"\nusing disperion fit type: parametric \nsummary of results\nTreatment: Treated vs Untreated\n\nout of 8 with nonzero total read count\nadjusted p-value < 0.1\nLFC > 0 (up)       : 0, 0%\nLFC < 0 (down)     : 0, 0%\noutliers [1]       : 0, 0%\nlow counts [2]     : 0, 0%\n(mean count < 0)\n[1] see 'cooksCutoff' argument of ?results\n[2] see 'independentFiltering' argument of ?results\n\nNULL\nSession information:\n\nR version 4.3.1 (2023-06-16)\nPlatform: x86_64-conda-linux-gnu (64-bit)\nRunning under: Debian GNU/Linux 10 (buster)\n\nMatrix products: default\nBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0\n\nlocale:\n [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       \n [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   \n [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          \n[10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   \n\ntime zone: NA\ntzcode source: system (glibc)\n\nattached base packages:\n[1] stats4    tools     stats     graphics  grDevices utils     datasets \n[8] methods   base     \n\nother attached packages:\n [1] GenomicFeatures_1.52.1      AnnotationDbi_1.62.2       \n [3] tximport_1.28.0             rjson_0.2.21               \n [5] gplots_3.1.3                RColorBrewer_1.1-3         \n [7] DESeq2_1.40.2               SummarizedExperiment_1.30.2\n [9] Biobase_2.60.0              MatrixGenerics_1.12.2      \n[11] matrixStats_1.0.0           GenomicRanges_1.52.0       \n[13] GenomeInfoDb_1.36.1         IRanges_2.34.1             \n[15] S4Vectors_0.38.1            BiocGenerics_0.46.0        \n[17] getopt_1.20.3              \n\nloaded via a namespace (and not attached):\n [1] tidyselect_1.2.0         dplyr_1.1.2              blob_1.2.4              \n [4] filelock_1.0.2           Biostrings_2.68.1        bitops_1.0-7            \n [7] fastmap_1.1.1            RCurl_1.98-1.12          BiocFileCache_2.8.0     \n[10] GenomicAlignments_1.36.0 XML_3.99-0.14            digest_0.6.33           \n[13] lifecycle_1.0.3          KEGGREST_1.40.0          RSQLite_2.3.1           \n[16] magrittr_2.0.3           compiler_4.3.1           rlang_1.1.1             \n[19] progress_1.2.2           yaml_2.3.7               utf8_1.2.3              \n[22] rtracklayer_1.60.0       prettyunits_1.1.1        S4Arrays_1.0.4          \n[25] bit_4.0.5                curl_5.0.1               DelayedArray_0.26.6     \n[28] xml2_1.3.5               BiocParallel_1.34.2      KernSmooth_2.23-22      \n[31] grid_4.3.1               fansi_1.0.4              caTools_1.18.2          \n[34] colorspace_2.1-0         ggplot2_3.4.2            scales_1.2.1            \n[37] gtools_3.9.4             biomaRt_2.56.1           cli_3.6.1               \n[40] crayon_1.5.2             generics_0.1.3           httr_1.4.6              \n[43] DBI_1.1.3                cachem_1.0.8             stringr_1.5.0           \n[46] zlibbioc_1.46.0          parallel_4.3.1           restfulr_0.0.15         \n[49] XVector_0.40.0           vctrs_0.6.3              Matrix_1.6-0            \n[52] jsonlite_1.8.7           hms_1.1.3                bit64_4.0.5             \n[55] locfit_1.5-9.8           glue_1.6.2               codetools_0.2-19        \n[58] stringi_1.7.12           gtable_0.3.3             BiocIO_1.10.0           \n[61] munsell_0.5.0            tibble_3.2.1             pillar_1.9.0            \n[64] rappdirs_0.3.3           GenomeInfoDbData_1.2.10  R6_2.5.1                \n[67] dbplyr_2.3.3             lattice_0.21-8           Rsamtools_2.16.0        \n[70] png_0.1-8                memoise_2.0.1            Rcpp_1.0.11             \n[73] pkgconfig_2.0.3         \n", "tool_stderr": "Import genomic features from the file as a GRanges object ... OK\nPrepare the 'metadata' data frame ... OK\nMake the TxDb object ... OK\n'select()' returned 1:1 mapping between keys and columns\nreading in files with read.delim (install 'readr' package for speed up)\n1 2 3 4 5 6 \nreading in files with read.delim (install 'readr' package for speed up)\n1 2 3 4 5 6 \nsummarizing abundance\nsummarizing counts\nsummarizing length\nusing counts and average transcript lengths from tximport\nestimating size factors\nusing 'avgTxLength' from assays(dds), correcting for library size\nestimating dispersions\ngene-wise dispersion estimates\nmean-dispersion relationship\n-- note: fitType='parametric', but the dispersion trend was not well captured by the\n   function: y = a/x + b, and a local regression fit was automatically substituted.\n   specify fitType='local' or 'mean' to avoid this message next time.\nfinal dispersion estimates\nfitting model and testing\nWarning message:\nIn lfproc(x, y, weights = weights, cens = cens, base = base, geth = geth,  :\n  Estimated rdf < 1.0; not estimating variance\n", "job_stdout": "", "job_stderr": "", "stderr": "Import genomic features from the file as a GRanges object ... OK\nPrepare the 'metadata' data frame ... OK\nMake the TxDb object ... OK\n'select()' returned 1:1 mapping between keys and columns\nreading in files with read.delim (install 'readr' package for speed up)\n1 2 3 4 5 6 \nreading in files with read.delim (install 'readr' package for speed up)\n1 2 3 4 5 6 \nsummarizing abundance\nsummarizing counts\nsummarizing length\nusing counts and average transcript lengths from tximport\nestimating size factors\nusing 'avgTxLength' from assays(dds), correcting for library size\nestimating dispersions\ngene-wise dispersion estimates\nmean-dispersion relationship\n-- note: fitType='parametric', but the dispersion trend was not well captured by the\n   function: y = a/x + b, and a local regression fit was automatically substituted.\n   specify fitType='local' or 'mean' to avoid this message next time.\nfinal dispersion estimates\nfitting model and testing\nWarning message:\nIn lfproc(x, y, weights = weights, cens = cens, base = base, geth = geth,  :\n  Estimated rdf < 1.0; not estimating variance\n", "stdout": "primary factor: Treatment \n\n---------------------\nNo size factor was used\nDESeq2 run information\n\nsample table:\n                       Treatment\nsailfish_quant.sf4.tab Untreated\nsailfish_quant.sf5.tab Untreated\nsailfish_quant.sf6.tab Untreated\nsailfish_quant.sf1.tab   Treated\nsailfish_quant.sf2.tab   Treated\nsailfish_quant.sf3.tab   Treated\n\ndesign formula:\n~Treatment\n\n\n6 samples with counts over 10 genes\n[1] \"use_beta_prior is set to TRUE\"\nusing disperion fit type: parametric \nsummary of results\nTreatment: Treated vs Untreated\n\nout of 8 with nonzero total read count\nadjusted p-value < 0.1\nLFC > 0 (up)       : 0, 0%\nLFC < 0 (down)     : 0, 0%\noutliers [1]       : 0, 0%\nlow counts [2]     : 0, 0%\n(mean count < 0)\n[1] see 'cooksCutoff' argument of ?results\n[2] see 'independentFiltering' argument of ?results\n\nNULL\nSession information:\n\nR version 4.3.1 (2023-06-16)\nPlatform: x86_64-conda-linux-gnu (64-bit)\nRunning under: Debian GNU/Linux 10 (buster)\n\nMatrix products: default\nBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0\n\nlocale:\n [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       \n [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   \n [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          \n[10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   \n\ntime zone: NA\ntzcode source: system (glibc)\n\nattached base packages:\n[1] stats4    tools     stats     graphics  grDevices utils     datasets \n[8] methods   base     \n\nother attached packages:\n [1] GenomicFeatures_1.52.1      AnnotationDbi_1.62.2       \n [3] tximport_1.28.0             rjson_0.2.21               \n [5] gplots_3.1.3                RColorBrewer_1.1-3         \n [7] DESeq2_1.40.2               SummarizedExperiment_1.30.2\n [9] Biobase_2.60.0              MatrixGenerics_1.12.2      \n[11] matrixStats_1.0.0           GenomicRanges_1.52.0       \n[13] GenomeInfoDb_1.36.1         IRanges_2.34.1             \n[15] S4Vectors_0.38.1            BiocGenerics_0.46.0        \n[17] getopt_1.20.3              \n\nloaded via a namespace (and not attached):\n [1] tidyselect_1.2.0         dplyr_1.1.2              blob_1.2.4              \n [4] filelock_1.0.2           Biostrings_2.68.1        bitops_1.0-7            \n [7] fastmap_1.1.1            RCurl_1.98-1.12          BiocFileCache_2.8.0     \n[10] GenomicAlignments_1.36.0 XML_3.99-0.14            digest_0.6.33           \n[13] lifecycle_1.0.3          KEGGREST_1.40.0          RSQLite_2.3.1           \n[16] magrittr_2.0.3           compiler_4.3.1           rlang_1.1.1             \n[19] progress_1.2.2           yaml_2.3.7               utf8_1.2.3              \n[22] rtracklayer_1.60.0       prettyunits_1.1.1        S4Arrays_1.0.4          \n[25] bit_4.0.5                curl_5.0.1               DelayedArray_0.26.6     \n[28] xml2_1.3.5               BiocParallel_1.34.2      KernSmooth_2.23-22      \n[31] grid_4.3.1               fansi_1.0.4              caTools_1.18.2          \n[34] colorspace_2.1-0         ggplot2_3.4.2            scales_1.2.1            \n[37] gtools_3.9.4             biomaRt_2.56.1           cli_3.6.1               \n[40] crayon_1.5.2             generics_0.1.3           httr_1.4.6              \n[43] DBI_1.1.3                cachem_1.0.8             stringr_1.5.0           \n[46] zlibbioc_1.46.0          parallel_4.3.1           restfulr_0.0.15         \n[49] XVector_0.40.0           vctrs_0.6.3              Matrix_1.6-0            \n[52] jsonlite_1.8.7           hms_1.1.3                bit64_4.0.5             \n[55] locfit_1.5-9.8           glue_1.6.2               codetools_0.2-19        \n[58] stringi_1.7.12           gtable_0.3.3             BiocIO_1.10.0           \n[61] munsell_0.5.0            tibble_3.2.1             pillar_1.9.0            \n[64] rappdirs_0.3.3           GenomeInfoDbData_1.2.10  R6_2.5.1                \n[67] dbplyr_2.3.3             lattice_0.21-8           Rsamtools_2.16.0        \n[70] png_0.1-8                memoise_2.0.1            Rcpp_1.0.11             \n[73] pkgconfig_2.0.3         \n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "20 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "20.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:51:34", "plugin": "core", "name": "end_epoch", "raw_value": "1726408294.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:51:14", "plugin": "core", "name": "start_epoch", "raw_value": "1726408274.0000000"}, {"title": "Memory Allocated (MB)", "value": "8589", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "8589.0000000"}, {"title": "Cores Allocated", "value": "1", "plugin": "core", "name": "galaxy_slots", "raw_value": "1.0000000"}]}, "status": "success"}}, {"id": "deseq2/2.11.40.8+galaxy0-6", "has_data": true, "data": {"tool_id": "deseq2", "tool_version": "2.11.40.8+galaxy0", "test_index": 6, "time_seconds": 62.30976128578186, "inputs": {"select_data|rep_factorName_0|factorName": "Treatment", "select_data|rep_factorName_0|rep_factorLevel_0|factorLevel": "Treated", "select_data|rep_factorName_0|rep_factorLevel_0|countsFile": [{"src": "hda", "id": "5d9e6337dfb186d8"}, {"src": "hda", "id": "83caeee4b6df3bad"}, {"src": "hda", "id": "eae8f62aa6e82a25"}], "select_data|rep_factorName_0|rep_factorLevel_1|factorLevel": "Untreated", "select_data|rep_factorName_0|rep_factorLevel_1|countsFile": [{"src": "hda", "id": "0387054b3c18e822"}, {"src": "hda", "id": "c646cfd4cb71eecc"}, {"src": "hda", "id": "4c94897f4f18a48a"}], "tximport|txtype": "sailfish", "tximport|mapping_format|gtf_file": {"src": "hda", "id": "669b9f21754e780c"}, "tximport|mapping_format|mapping_format_selector": "gtf", "tximport|tximport_selector": "tximport", "advanced_options|use_beta_priors": true, "output_options|output_selector": ""}, "job": {"model_class": "Job", "id": "d47502e1f7052ae7", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:52:45.602524", "create_time": "2024-09-15T13:52:14.615603", "galaxy_version": "23.1", "command_version": "R version 4.3.1 (2023-06-16) -- \"Beagle Scouts\", DESeq2 version 1.40.2", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/iuc/deseq2/deseq2/2.11.40.8+galaxy0", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-hwtjd", "command_line": "ln -s '/galaxy/server/database/objects/5/c/8/dataset_5c88456d-ab83-44c2-ae8b-674a5b61b21d.dat' mapping.gff &&  cat '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/get_deseq_dataset.R' > /dev/null &&  Rscript '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/deseq2.R' --cores ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/1/7/4/dataset_1741baff-cdf8-4754-a2a7-8f170ac925e0.dat' -A 0.1                  -H  -f '[[\"Treatment\", [{\"Untreated\": [\"/galaxy/server/database/objects/3/6/a/dataset_36a071cb-edd9-450e-a245-a39607f2a642.dat\", \"/galaxy/server/database/objects/3/0/7/dataset_30709da4-0782-400b-9584-6d9e6332f299.dat\", \"/galaxy/server/database/objects/5/7/a/dataset_57ae1024-8b12-41ab-8db1-38d09f33db0e.dat\"]}, {\"Treated\": [\"/galaxy/server/database/objects/9/5/d/dataset_95dd781d-f944-41a4-b982-127bfbe070c0.dat\", \"/galaxy/server/database/objects/a/c/f/dataset_acf01a47-69e0-4d9d-9588-92dd21e6f9c0.dat\", \"/galaxy/server/database/objects/a/c/9/dataset_ac9a0a8f-77aa-46fd-9d5e-cca368b62f24.dat\"]}]]]' -l '{\"dataset_95dd781d-f944-41a4-b982-127bfbe070c0.dat\": \"sailfish_quant.sf1.tab\", \"dataset_acf01a47-69e0-4d9d-9588-92dd21e6f9c0.dat\": \"sailfish_quant.sf2.tab\", \"dataset_ac9a0a8f-77aa-46fd-9d5e-cca368b62f24.dat\": \"sailfish_quant.sf3.tab\", \"dataset_36a071cb-edd9-450e-a245-a39607f2a642.dat\": \"sailfish_quant.sf4.tab\", \"dataset_30709da4-0782-400b-9584-6d9e6332f299.dat\": \"sailfish_quant.sf5.tab\", \"dataset_57ae1024-8b12-41ab-8db1-38d09f33db0e.dat\": \"sailfish_quant.sf6.tab\"}' -t 1     -d  -i -y sailfish -x mapping.gff", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_options": "{\"alpha_ma\": \"0.1\", \"output_selector\": []}", "advanced_options": "{\"auto_mean_filter_off\": false, \"esf_cond\": {\"__current_case__\": 0, \"esf\": \"\"}, \"fit_type\": \"1\", \"outlier_filter_off\": false, \"outlier_replace_off\": false, \"prefilter_conditional\": {\"__current_case__\": 1, \"prefilter\": \"\"}, \"use_beta_priors\": true}", "tximport": "{\"__current_case__\": 0, \"mapping_format\": {\"__current_case__\": 0, \"gtf_file\": {\"values\": [{\"id\": 458, \"src\": \"hda\"}]}, \"mapping_format_selector\": \"gtf\"}, \"tximport_selector\": \"tximport\", \"txtype\": \"sailfish\"}", "header": "true", "batch_factors": null, "select_data": "{\"__current_case__\": 1, \"how\": \"datasets_per_level\", \"rep_factorName\": [{\"__index__\": 0, \"factorName\": \"Treatment\", \"rep_factorLevel\": [{\"__index__\": 0, \"countsFile\": {\"values\": [{\"id\": 452, \"src\": \"hda\"}, {\"id\": 453, \"src\": \"hda\"}, {\"id\": 454, \"src\": \"hda\"}]}, \"factorLevel\": \"Treated\"}, {\"__index__\": 1, \"countsFile\": {\"values\": [{\"id\": 455, \"src\": \"hda\"}, {\"id\": 456, \"src\": \"hda\"}, {\"id\": 457, \"src\": \"hda\"}]}, \"factorLevel\": \"Untreated\"}]}]}"}, "inputs": {"select_data|rep_factorName_0|rep_factorLevel_0|countsFile": {"id": "5d9e6337dfb186d8", "src": "hda", "uuid": "95dd781d-f944-41a4-b982-127bfbe070c0"}, "select_data|rep_factorName_0|rep_factorLevel_0|countsFile1": {"id": "5d9e6337dfb186d8", "src": "hda", "uuid": "95dd781d-f944-41a4-b982-127bfbe070c0"}, "select_data|rep_factorName_0|rep_factorLevel_0|countsFile2": {"id": "83caeee4b6df3bad", "src": "hda", "uuid": "acf01a47-69e0-4d9d-9588-92dd21e6f9c0"}, "select_data|rep_factorName_0|rep_factorLevel_0|countsFile3": {"id": "eae8f62aa6e82a25", "src": "hda", "uuid": "ac9a0a8f-77aa-46fd-9d5e-cca368b62f24"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile": {"id": "0387054b3c18e822", "src": "hda", "uuid": "36a071cb-edd9-450e-a245-a39607f2a642"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile1": {"id": "0387054b3c18e822", "src": "hda", "uuid": "36a071cb-edd9-450e-a245-a39607f2a642"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile2": {"id": "c646cfd4cb71eecc", "src": "hda", "uuid": "30709da4-0782-400b-9584-6d9e6332f299"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile3": {"id": "4c94897f4f18a48a", "src": "hda", "uuid": "57ae1024-8b12-41ab-8db1-38d09f33db0e"}, "tximport|mapping_format|gtf_file": {"id": "669b9f21754e780c", "src": "hda", "uuid": "5c88456d-ab83-44c2-ae8b-674a5b61b21d"}}, "outputs": {"deseq_out": {"id": "c2332ceaa5519ced", "src": "hda", "uuid": "1741baff-cdf8-4754-a2a7-8f170ac925e0"}}, "output_collections": {}, "tool_stdout": "primary factor: Treatment \n\n---------------------\nNo size factor was used\nDESeq2 run information\n\nsample table:\n                       Treatment\nsailfish_quant.sf4.tab Untreated\nsailfish_quant.sf5.tab Untreated\nsailfish_quant.sf6.tab Untreated\nsailfish_quant.sf1.tab   Treated\nsailfish_quant.sf2.tab   Treated\nsailfish_quant.sf3.tab   Treated\n\ndesign formula:\n~Treatment\n\n\n6 samples with counts over 11 genes\n[1] \"use_beta_prior is set to TRUE\"\nusing disperion fit type: parametric \nsummary of results\nTreatment: Treated vs Untreated\n\nout of 9 with nonzero total read count\nadjusted p-value < 0.1\nLFC > 0 (up)       : 0, 0%\nLFC < 0 (down)     : 0, 0%\noutliers [1]       : 0, 0%\nlow counts [2]     : 0, 0%\n(mean count < 0)\n[1] see 'cooksCutoff' argument of ?results\n[2] see 'independentFiltering' argument of ?results\n\nNULL\nSession information:\n\nR version 4.3.1 (2023-06-16)\nPlatform: x86_64-conda-linux-gnu (64-bit)\nRunning under: Debian GNU/Linux 10 (buster)\n\nMatrix products: default\nBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0\n\nlocale:\n [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       \n [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   \n [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          \n[10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   \n\ntime zone: NA\ntzcode source: system (glibc)\n\nattached base packages:\n[1] stats4    tools     stats     graphics  grDevices utils     datasets \n[8] methods   base     \n\nother attached packages:\n [1] GenomicFeatures_1.52.1      AnnotationDbi_1.62.2       \n [3] tximport_1.28.0             rjson_0.2.21               \n [5] gplots_3.1.3                RColorBrewer_1.1-3         \n [7] DESeq2_1.40.2               SummarizedExperiment_1.30.2\n [9] Biobase_2.60.0              MatrixGenerics_1.12.2      \n[11] matrixStats_1.0.0           GenomicRanges_1.52.0       \n[13] GenomeInfoDb_1.36.1         IRanges_2.34.1             \n[15] S4Vectors_0.38.1            BiocGenerics_0.46.0        \n[17] getopt_1.20.3              \n\nloaded via a namespace (and not attached):\n [1] tidyselect_1.2.0         dplyr_1.1.2              blob_1.2.4              \n [4] filelock_1.0.2           Biostrings_2.68.1        bitops_1.0-7            \n [7] fastmap_1.1.1            RCurl_1.98-1.12          BiocFileCache_2.8.0     \n[10] GenomicAlignments_1.36.0 XML_3.99-0.14            digest_0.6.33           \n[13] lifecycle_1.0.3          KEGGREST_1.40.0          RSQLite_2.3.1           \n[16] magrittr_2.0.3           compiler_4.3.1           rlang_1.1.1             \n[19] progress_1.2.2           yaml_2.3.7               utf8_1.2.3              \n[22] rtracklayer_1.60.0       prettyunits_1.1.1        S4Arrays_1.0.4          \n[25] bit_4.0.5                curl_5.0.1               DelayedArray_0.26.6     \n[28] xml2_1.3.5               BiocParallel_1.34.2      KernSmooth_2.23-22      \n[31] grid_4.3.1               fansi_1.0.4              caTools_1.18.2          \n[34] colorspace_2.1-0         ggplot2_3.4.2            scales_1.2.1            \n[37] gtools_3.9.4             biomaRt_2.56.1           cli_3.6.1               \n[40] crayon_1.5.2             generics_0.1.3           httr_1.4.6              \n[43] DBI_1.1.3                cachem_1.0.8             stringr_1.5.0           \n[46] zlibbioc_1.46.0          parallel_4.3.1           restfulr_0.0.15         \n[49] XVector_0.40.0           vctrs_0.6.3              Matrix_1.6-0            \n[52] jsonlite_1.8.7           hms_1.1.3                bit64_4.0.5             \n[55] locfit_1.5-9.8           glue_1.6.2               codetools_0.2-19        \n[58] stringi_1.7.12           gtable_0.3.3             BiocIO_1.10.0           \n[61] munsell_0.5.0            tibble_3.2.1             pillar_1.9.0            \n[64] rappdirs_0.3.3           GenomeInfoDbData_1.2.10  R6_2.5.1                \n[67] dbplyr_2.3.3             lattice_0.21-8           Rsamtools_2.16.0        \n[70] png_0.1-8                memoise_2.0.1            Rcpp_1.0.11             \n[73] pkgconfig_2.0.3         \n", "tool_stderr": "Import genomic features from the file as a GRanges object ... OK\nPrepare the 'metadata' data frame ... OK\nMake the TxDb object ... OK\n'select()' returned 1:1 mapping between keys and columns\nreading in files with read.delim (install 'readr' package for speed up)\n1 2 3 4 5 6 \nreading in files with read.delim (install 'readr' package for speed up)\n1 2 3 4 5 6 \nsummarizing abundance\nsummarizing counts\nsummarizing length\nusing counts and average transcript lengths from tximport\nWarning message:\nIn .get_cds_IDX(mcols0$type, mcols0$phase) :\n  The \"phase\" metadata column contains non-NA values for features of type\n  stop_codon. This information was ignored.\nestimating size factors\nusing 'avgTxLength' from assays(dds), correcting for library size\nestimating dispersions\ngene-wise dispersion estimates\nmean-dispersion relationship\n-- note: fitType='parametric', but the dispersion trend was not well captured by the\n   function: y = a/x + b, and a local regression fit was automatically substituted.\n   specify fitType='local' or 'mean' to avoid this message next time.\nfinal dispersion estimates\nfitting model and testing\nWarning message:\nIn lfproc(x, y, weights = weights, cens = cens, base = base, geth = geth,  :\n  Estimated rdf < 1.0; not estimating variance\n", "job_stdout": "", "job_stderr": "", "stderr": "Import genomic features from the file as a GRanges object ... OK\nPrepare the 'metadata' data frame ... OK\nMake the TxDb object ... OK\n'select()' returned 1:1 mapping between keys and columns\nreading in files with read.delim (install 'readr' package for speed up)\n1 2 3 4 5 6 \nreading in files with read.delim (install 'readr' package for speed up)\n1 2 3 4 5 6 \nsummarizing abundance\nsummarizing counts\nsummarizing length\nusing counts and average transcript lengths from tximport\nWarning message:\nIn .get_cds_IDX(mcols0$type, mcols0$phase) :\n  The \"phase\" metadata column contains non-NA values for features of type\n  stop_codon. This information was ignored.\nestimating size factors\nusing 'avgTxLength' from assays(dds), correcting for library size\nestimating dispersions\ngene-wise dispersion estimates\nmean-dispersion relationship\n-- note: fitType='parametric', but the dispersion trend was not well captured by the\n   function: y = a/x + b, and a local regression fit was automatically substituted.\n   specify fitType='local' or 'mean' to avoid this message next time.\nfinal dispersion estimates\nfitting model and testing\nWarning message:\nIn lfproc(x, y, weights = weights, cens = cens, base = base, geth = geth,  :\n  Estimated rdf < 1.0; not estimating variance\n", "stdout": "primary factor: Treatment \n\n---------------------\nNo size factor was used\nDESeq2 run information\n\nsample table:\n                       Treatment\nsailfish_quant.sf4.tab Untreated\nsailfish_quant.sf5.tab Untreated\nsailfish_quant.sf6.tab Untreated\nsailfish_quant.sf1.tab   Treated\nsailfish_quant.sf2.tab   Treated\nsailfish_quant.sf3.tab   Treated\n\ndesign formula:\n~Treatment\n\n\n6 samples with counts over 11 genes\n[1] \"use_beta_prior is set to TRUE\"\nusing disperion fit type: parametric \nsummary of results\nTreatment: Treated vs Untreated\n\nout of 9 with nonzero total read count\nadjusted p-value < 0.1\nLFC > 0 (up)       : 0, 0%\nLFC < 0 (down)     : 0, 0%\noutliers [1]       : 0, 0%\nlow counts [2]     : 0, 0%\n(mean count < 0)\n[1] see 'cooksCutoff' argument of ?results\n[2] see 'independentFiltering' argument of ?results\n\nNULL\nSession information:\n\nR version 4.3.1 (2023-06-16)\nPlatform: x86_64-conda-linux-gnu (64-bit)\nRunning under: Debian GNU/Linux 10 (buster)\n\nMatrix products: default\nBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0\n\nlocale:\n [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       \n [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   \n [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          \n[10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   \n\ntime zone: NA\ntzcode source: system (glibc)\n\nattached base packages:\n[1] stats4    tools     stats     graphics  grDevices utils     datasets \n[8] methods   base     \n\nother attached packages:\n [1] GenomicFeatures_1.52.1      AnnotationDbi_1.62.2       \n [3] tximport_1.28.0             rjson_0.2.21               \n [5] gplots_3.1.3                RColorBrewer_1.1-3         \n [7] DESeq2_1.40.2               SummarizedExperiment_1.30.2\n [9] Biobase_2.60.0              MatrixGenerics_1.12.2      \n[11] matrixStats_1.0.0           GenomicRanges_1.52.0       \n[13] GenomeInfoDb_1.36.1         IRanges_2.34.1             \n[15] S4Vectors_0.38.1            BiocGenerics_0.46.0        \n[17] getopt_1.20.3              \n\nloaded via a namespace (and not attached):\n [1] tidyselect_1.2.0         dplyr_1.1.2              blob_1.2.4              \n [4] filelock_1.0.2           Biostrings_2.68.1        bitops_1.0-7            \n [7] fastmap_1.1.1            RCurl_1.98-1.12          BiocFileCache_2.8.0     \n[10] GenomicAlignments_1.36.0 XML_3.99-0.14            digest_0.6.33           \n[13] lifecycle_1.0.3          KEGGREST_1.40.0          RSQLite_2.3.1           \n[16] magrittr_2.0.3           compiler_4.3.1           rlang_1.1.1             \n[19] progress_1.2.2           yaml_2.3.7               utf8_1.2.3              \n[22] rtracklayer_1.60.0       prettyunits_1.1.1        S4Arrays_1.0.4          \n[25] bit_4.0.5                curl_5.0.1               DelayedArray_0.26.6     \n[28] xml2_1.3.5               BiocParallel_1.34.2      KernSmooth_2.23-22      \n[31] grid_4.3.1               fansi_1.0.4              caTools_1.18.2          \n[34] colorspace_2.1-0         ggplot2_3.4.2            scales_1.2.1            \n[37] gtools_3.9.4             biomaRt_2.56.1           cli_3.6.1               \n[40] crayon_1.5.2             generics_0.1.3           httr_1.4.6              \n[43] DBI_1.1.3                cachem_1.0.8             stringr_1.5.0           \n[46] zlibbioc_1.46.0          parallel_4.3.1           restfulr_0.0.15         \n[49] XVector_0.40.0           vctrs_0.6.3              Matrix_1.6-0            \n[52] jsonlite_1.8.7           hms_1.1.3                bit64_4.0.5             \n[55] locfit_1.5-9.8           glue_1.6.2               codetools_0.2-19        \n[58] stringi_1.7.12           gtable_0.3.3             BiocIO_1.10.0           \n[61] munsell_0.5.0            tibble_3.2.1             pillar_1.9.0            \n[64] rappdirs_0.3.3           GenomeInfoDbData_1.2.10  R6_2.5.1                \n[67] dbplyr_2.3.3             lattice_0.21-8           Rsamtools_2.16.0        \n[70] png_0.1-8                memoise_2.0.1            Rcpp_1.0.11             \n[73] pkgconfig_2.0.3         \n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "20 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "20.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:52:36", "plugin": "core", "name": "end_epoch", "raw_value": "1726408356.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:52:16", "plugin": "core", "name": "start_epoch", "raw_value": "1726408336.0000000"}, {"title": "Memory Allocated (MB)", "value": "8589", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "8589.0000000"}, {"title": "Cores Allocated", "value": "1", "plugin": "core", "name": "galaxy_slots", "raw_value": "1.0000000"}]}, "status": "success"}}, {"id": "deseq2/2.11.40.8+galaxy0-7", "has_data": true, "data": {"tool_id": "deseq2", "tool_version": "2.11.40.8+galaxy0", "test_index": 7, "time_seconds": 58.24477005004883, "inputs": {"select_data|countsFile": {"src": "hdca", "id": "c882d05423c55ddf"}, "select_data|rep_factorName_0|factorName": "Treatment", "select_data|rep_factorName_0|rep_factorLevel_0|factorLevel": "Treated", "select_data|rep_factorName_0|rep_factorLevel_0|groups": "primary:treated", "select_data|rep_factorName_0|rep_factorLevel_1|factorLevel": "Untreated", "select_data|rep_factorName_0|rep_factorLevel_1|groups": "primary:untreated", "select_data|how": "group_tags", "tximport|txtype": "sailfish", "tximport|mapping_format|tabular_file": {"src": "hda", "id": "b5f4f688a7cbdd5d"}, "tximport|mapping_format|mapping_format_selector": "tabular", "tximport|tximport_selector": "tximport", "advanced_options|use_beta_priors": true, "output_options|output_selector": ""}, "job": {"model_class": "Job", "id": "4dcb5af1bf564eb0", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:53:43.698421", "create_time": "2024-09-15T13:53:18.134448", "galaxy_version": "23.1", "command_version": "R version 4.3.1 (2023-06-16) -- \"Beagle Scouts\", DESeq2 version 1.40.2", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/iuc/deseq2/deseq2/2.11.40.8+galaxy0", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-hqh8v", "command_line": "ln -s '/galaxy/server/database/objects/1/e/3/dataset_1e301175-e28b-4485-8244-b5b752646828.dat' mapping.txt &&  cat '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/get_deseq_dataset.R' > /dev/null &&  Rscript '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/deseq2.R' --cores ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/d/f/5/dataset_df5b2e2f-ca3e-4bac-bfaa-afd0b163a302.dat' -A 0.1                  -H  -f '[[\"Treatment\", [{\"Untreated\": [\"/galaxy/server/database/objects/b/6/5/dataset_b65b4bcd-a086-4db1-8d69-f260d383a1d0.dat\", \"/galaxy/server/database/objects/c/0/4/dataset_c04946c8-b2bc-4b60-9a1c-a8b89126d2ad.dat\", \"/galaxy/server/database/objects/4/8/9/dataset_48941af8-016e-413b-88ba-d8e2c622e158.dat\"]}, {\"Treated\": [\"/galaxy/server/database/objects/0/0/7/dataset_007a9bd1-a94c-4dec-8a58-7a017a18b01a.dat\", \"/galaxy/server/database/objects/d/3/1/dataset_d316912a-c228-4bd7-91b7-38fcd4176ac4.dat\", \"/galaxy/server/database/objects/a/4/0/dataset_a409f178-6a48-47f3-afec-f8e23edd2f50.dat\"]}]]]' -l '{\"dataset_007a9bd1-a94c-4dec-8a58-7a017a18b01a.dat\": \"1\", \"dataset_d316912a-c228-4bd7-91b7-38fcd4176ac4.dat\": \"2\", \"dataset_a409f178-6a48-47f3-afec-f8e23edd2f50.dat\": \"3\", \"dataset_b65b4bcd-a086-4db1-8d69-f260d383a1d0.dat\": \"4\", \"dataset_c04946c8-b2bc-4b60-9a1c-a8b89126d2ad.dat\": \"5\", \"dataset_48941af8-016e-413b-88ba-d8e2c622e158.dat\": \"6\"}' -t 1     -d  -i -y sailfish -x mapping.txt", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_options": "{\"alpha_ma\": \"0.1\", \"output_selector\": []}", "advanced_options": "{\"auto_mean_filter_off\": false, \"esf_cond\": {\"__current_case__\": 0, \"esf\": \"\"}, \"fit_type\": \"1\", \"outlier_filter_off\": false, \"outlier_replace_off\": false, \"prefilter_conditional\": {\"__current_case__\": 1, \"prefilter\": \"\"}, \"use_beta_priors\": true}", "tximport": "{\"__current_case__\": 0, \"mapping_format\": {\"__current_case__\": 1, \"mapping_format_selector\": \"tabular\", \"tabular_file\": {\"values\": [{\"id\": 466, \"src\": \"hda\"}]}}, \"tximport_selector\": \"tximport\", \"txtype\": \"sailfish\"}", "header": "true", "batch_factors": null, "select_data": "{\"__current_case__\": 0, \"countsFile\": {\"values\": [{\"id\": 18, \"src\": \"hdca\"}]}, \"how\": \"group_tags\", \"rep_factorName\": [{\"__index__\": 0, \"factorName\": \"Treatment\", \"rep_factorLevel\": [{\"__index__\": 0, \"factorLevel\": \"Treated\", \"groups\": [\"primary:treated\"]}, {\"__index__\": 1, \"factorLevel\": \"Untreated\", \"groups\": [\"primary:untreated\"]}]}]}"}, "inputs": {"select_data|countsFile1": {"id": "3cf68781d888bc88", "src": "hda", "uuid": "007a9bd1-a94c-4dec-8a58-7a017a18b01a"}, "select_data|countsFile2": {"id": "0d9fafad66cc787d", "src": "hda", "uuid": "d316912a-c228-4bd7-91b7-38fcd4176ac4"}, "select_data|countsFile3": {"id": "31c96d1a261c763a", "src": "hda", "uuid": "a409f178-6a48-47f3-afec-f8e23edd2f50"}, "select_data|countsFile4": {"id": "019fd1fcedef5ca4", "src": "hda", "uuid": "b65b4bcd-a086-4db1-8d69-f260d383a1d0"}, "select_data|countsFile5": {"id": "e53b88d7a119bb5e", "src": "hda", "uuid": "c04946c8-b2bc-4b60-9a1c-a8b89126d2ad"}, "select_data|countsFile6": {"id": "057a414ec38510fb", "src": "hda", "uuid": "48941af8-016e-413b-88ba-d8e2c622e158"}, "tximport|mapping_format|tabular_file": {"id": "b5f4f688a7cbdd5d", "src": "hda", "uuid": "1e301175-e28b-4485-8244-b5b752646828"}}, "outputs": {"deseq_out": {"id": "8083a280c7d51717", "src": "hda", "uuid": "df5b2e2f-ca3e-4bac-bfaa-afd0b163a302"}}, "output_collections": {}, "tool_stdout": "primary factor: Treatment \n\n---------------------\nNo size factor was used\nDESeq2 run information\n\nsample table:\n  Treatment\n4 Untreated\n5 Untreated\n6 Untreated\n1   Treated\n2   Treated\n3   Treated\n\ndesign formula:\n~Treatment\n\n\n6 samples with counts over 10 genes\n[1] \"use_beta_prior is set to TRUE\"\nusing disperion fit type: parametric \nsummary of results\nTreatment: Treated vs Untreated\n\nout of 8 with nonzero total read count\nadjusted p-value < 0.1\nLFC > 0 (up)       : 0, 0%\nLFC < 0 (down)     : 0, 0%\noutliers [1]       : 0, 0%\nlow counts [2]     : 0, 0%\n(mean count < 0)\n[1] see 'cooksCutoff' argument of ?results\n[2] see 'independentFiltering' argument of ?results\n\nNULL\nSession information:\n\nR version 4.3.1 (2023-06-16)\nPlatform: x86_64-conda-linux-gnu (64-bit)\nRunning under: Debian GNU/Linux 10 (buster)\n\nMatrix products: default\nBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0\n\nlocale:\n [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       \n [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   \n [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          \n[10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   \n\ntime zone: NA\ntzcode source: system (glibc)\n\nattached base packages:\n[1] stats4    tools     stats     graphics  grDevices utils     datasets \n[8] methods   base     \n\nother attached packages:\n [1] tximport_1.28.0             rjson_0.2.21               \n [3] gplots_3.1.3                RColorBrewer_1.1-3         \n [5] DESeq2_1.40.2               SummarizedExperiment_1.30.2\n [7] Biobase_2.60.0              MatrixGenerics_1.12.2      \n [9] matrixStats_1.0.0           GenomicRanges_1.52.0       \n[11] GenomeInfoDb_1.36.1         IRanges_2.34.1             \n[13] S4Vectors_0.38.1            BiocGenerics_0.46.0        \n[15] getopt_1.20.3              \n\nloaded via a namespace (and not attached):\n [1] utf8_1.2.3              generics_0.1.3          bitops_1.0-7           \n [4] KernSmooth_2.23-22      gtools_3.9.4            lattice_0.21-8         \n [7] caTools_1.18.2          magrittr_2.0.3          grid_4.3.1             \n[10] jsonlite_1.8.7          Matrix_1.6-0            fansi_1.0.4            \n[13] scales_1.2.1            codetools_0.2-19        cli_3.6.1              \n[16] rlang_1.1.1             crayon_1.5.2            XVector_0.40.0         \n[19] munsell_0.5.0           DelayedArray_0.26.6     S4Arrays_1.0.4         \n[22] parallel_4.3.1          BiocParallel_1.34.2     dplyr_1.1.2            \n[25] colorspace_2.1-0        ggplot2_3.4.2           locfit_1.5-9.8         \n[28] GenomeInfoDbData_1.2.10 vctrs_0.6.3             R6_2.5.1               \n[31] lifecycle_1.0.3         zlibbioc_1.46.0         pkgconfig_2.0.3        \n[34] pillar_1.9.0            gtable_0.3.3            glue_1.6.2             \n[37] Rcpp_1.0.11             tibble_3.2.1            tidyselect_1.2.0       \n[40] compiler_4.3.1          RCurl_1.98-1.12        \n", "tool_stderr": "reading in files with read.delim (install 'readr' package for speed up)\n1 2 3 4 5 6 \nsummarizing abundance\nsummarizing counts\nsummarizing length\nusing counts and average transcript lengths from tximport\nestimating size factors\nusing 'avgTxLength' from assays(dds), correcting for library size\nestimating dispersions\ngene-wise dispersion estimates\nmean-dispersion relationship\n-- note: fitType='parametric', but the dispersion trend was not well captured by the\n   function: y = a/x + b, and a local regression fit was automatically substituted.\n   specify fitType='local' or 'mean' to avoid this message next time.\nfinal dispersion estimates\nfitting model and testing\nWarning message:\nIn lfproc(x, y, weights = weights, cens = cens, base = base, geth = geth,  :\n  Estimated rdf < 1.0; not estimating variance\n", "job_stdout": "", "job_stderr": "", "stderr": "reading in files with read.delim (install 'readr' package for speed up)\n1 2 3 4 5 6 \nsummarizing abundance\nsummarizing counts\nsummarizing length\nusing counts and average transcript lengths from tximport\nestimating size factors\nusing 'avgTxLength' from assays(dds), correcting for library size\nestimating dispersions\ngene-wise dispersion estimates\nmean-dispersion relationship\n-- note: fitType='parametric', but the dispersion trend was not well captured by the\n   function: y = a/x + b, and a local regression fit was automatically substituted.\n   specify fitType='local' or 'mean' to avoid this message next time.\nfinal dispersion estimates\nfitting model and testing\nWarning message:\nIn lfproc(x, y, weights = weights, cens = cens, base = base, geth = geth,  :\n  Estimated rdf < 1.0; not estimating variance\n", "stdout": "primary factor: Treatment \n\n---------------------\nNo size factor was used\nDESeq2 run information\n\nsample table:\n  Treatment\n4 Untreated\n5 Untreated\n6 Untreated\n1   Treated\n2   Treated\n3   Treated\n\ndesign formula:\n~Treatment\n\n\n6 samples with counts over 10 genes\n[1] \"use_beta_prior is set to TRUE\"\nusing disperion fit type: parametric \nsummary of results\nTreatment: Treated vs Untreated\n\nout of 8 with nonzero total read count\nadjusted p-value < 0.1\nLFC > 0 (up)       : 0, 0%\nLFC < 0 (down)     : 0, 0%\noutliers [1]       : 0, 0%\nlow counts [2]     : 0, 0%\n(mean count < 0)\n[1] see 'cooksCutoff' argument of ?results\n[2] see 'independentFiltering' argument of ?results\n\nNULL\nSession information:\n\nR version 4.3.1 (2023-06-16)\nPlatform: x86_64-conda-linux-gnu (64-bit)\nRunning under: Debian GNU/Linux 10 (buster)\n\nMatrix products: default\nBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0\n\nlocale:\n [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       \n [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   \n [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          \n[10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   \n\ntime zone: NA\ntzcode source: system (glibc)\n\nattached base packages:\n[1] stats4    tools     stats     graphics  grDevices utils     datasets \n[8] methods   base     \n\nother attached packages:\n [1] tximport_1.28.0             rjson_0.2.21               \n [3] gplots_3.1.3                RColorBrewer_1.1-3         \n [5] DESeq2_1.40.2               SummarizedExperiment_1.30.2\n [7] Biobase_2.60.0              MatrixGenerics_1.12.2      \n [9] matrixStats_1.0.0           GenomicRanges_1.52.0       \n[11] GenomeInfoDb_1.36.1         IRanges_2.34.1             \n[13] S4Vectors_0.38.1            BiocGenerics_0.46.0        \n[15] getopt_1.20.3              \n\nloaded via a namespace (and not attached):\n [1] utf8_1.2.3              generics_0.1.3          bitops_1.0-7           \n [4] KernSmooth_2.23-22      gtools_3.9.4            lattice_0.21-8         \n [7] caTools_1.18.2          magrittr_2.0.3          grid_4.3.1             \n[10] jsonlite_1.8.7          Matrix_1.6-0            fansi_1.0.4            \n[13] scales_1.2.1            codetools_0.2-19        cli_3.6.1              \n[16] rlang_1.1.1             crayon_1.5.2            XVector_0.40.0         \n[19] munsell_0.5.0           DelayedArray_0.26.6     S4Arrays_1.0.4         \n[22] parallel_4.3.1          BiocParallel_1.34.2     dplyr_1.1.2            \n[25] colorspace_2.1-0        ggplot2_3.4.2           locfit_1.5-9.8         \n[28] GenomeInfoDbData_1.2.10 vctrs_0.6.3             R6_2.5.1               \n[31] lifecycle_1.0.3         zlibbioc_1.46.0         pkgconfig_2.0.3        \n[34] pillar_1.9.0            gtable_0.3.3            glue_1.6.2             \n[37] Rcpp_1.0.11             tibble_3.2.1            tidyselect_1.2.0       \n[40] compiler_4.3.1          RCurl_1.98-1.12        \n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "15 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "15.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:53:35", "plugin": "core", "name": "end_epoch", "raw_value": "1726408415.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:53:20", "plugin": "core", "name": "start_epoch", "raw_value": "1726408400.0000000"}, {"title": "Memory Allocated (MB)", "value": "8589", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "8589.0000000"}, {"title": "Cores Allocated", "value": "1", "plugin": "core", "name": "galaxy_slots", "raw_value": "1.0000000"}]}, "status": "success"}}, {"id": "deseq2/2.11.40.8+galaxy0-8", "has_data": true, "data": {"tool_id": "deseq2", "tool_version": "2.11.40.8+galaxy0", "test_index": 8, "time_seconds": 56.94338631629944, "inputs": {"select_data|countsFile": {"src": "hdca", "id": "ad903c3843ad50d6"}, "select_data|rep_factorName_0|factorName": "Treatment", "select_data|rep_factorName_0|rep_factorLevel_0|factorLevel": "Treated", "select_data|rep_factorName_0|rep_factorLevel_0|groups": "primary:treated", "select_data|rep_factorName_0|rep_factorLevel_1|factorLevel": "Untreated", "select_data|rep_factorName_0|rep_factorLevel_1|groups": "primary:untreated", "select_data|how": "group_tags", "tximport|txtype": "sailfish", "tximport|mapping_format|tabular_file": {"src": "hda", "id": "90aaec7939b72c44"}, "tximport|mapping_format|mapping_format_selector": "tabular", "tximport|tximport_selector": "tximport", "advanced_options|use_beta_priors": true, "output_options|output_selector": "many_contrasts"}, "job": {"model_class": "Job", "id": "cdcf7e19b4a4e272", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:54:41.058084", "create_time": "2024-09-15T13:54:15.819648", "galaxy_version": "23.1", "command_version": null, "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/iuc/deseq2/deseq2/2.11.40.8+galaxy0", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-5pl2s", "command_line": "ln -s '/galaxy/server/database/objects/c/a/8/dataset_ca8433a0-67eb-4ba3-970c-b8d40ab36f95.dat' mapping.txt &&  cat '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/get_deseq_dataset.R' > /dev/null &&  Rscript '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/deseq2.R' --cores ${GALAXY_SLOTS:-1} -o 'XXXX' -A 0.1                  -H  -f '[[\"Treatment\", [{\"Untreated\": [\"/galaxy/server/database/objects/8/e/7/dataset_8e7e20a7-d639-4686-822b-d5a43595ae94.dat\", \"/galaxy/server/database/objects/7/8/3/dataset_7832e82b-d1c9-4e4d-8fb3-341678dcb377.dat\", \"/galaxy/server/database/objects/4/7/9/dataset_4795996c-29c4-4dc7-ac5c-0941deed5657.dat\"]}, {\"Treated\": [\"/galaxy/server/database/objects/6/d/4/dataset_6d4a3239-7254-4411-aa6c-e6ec3481fa7c.dat\", \"/galaxy/server/database/objects/1/d/7/dataset_1d745d73-191d-4f58-9ce2-790bfebb66d8.dat\", \"/galaxy/server/database/objects/8/7/b/dataset_87b5feb8-2303-4a7c-b600-83bce7fa0842.dat\"]}]]]' -l '{\"dataset_6d4a3239-7254-4411-aa6c-e6ec3481fa7c.dat\": \"1\", \"dataset_1d745d73-191d-4f58-9ce2-790bfebb66d8.dat\": \"2\", \"dataset_87b5feb8-2303-4a7c-b600-83bce7fa0842.dat\": \"3\", \"dataset_8e7e20a7-d639-4686-822b-d5a43595ae94.dat\": \"4\", \"dataset_7832e82b-d1c9-4e4d-8fb3-341678dcb377.dat\": \"5\", \"dataset_4795996c-29c4-4dc7-ac5c-0941deed5657.dat\": \"6\"}' -t 1     -d  -m -i -y sailfish -x mapping.txt", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_options": "{\"alpha_ma\": \"0.1\", \"output_selector\": \"many_contrasts\"}", "advanced_options": "{\"auto_mean_filter_off\": false, \"esf_cond\": {\"__current_case__\": 0, \"esf\": \"\"}, \"fit_type\": \"1\", \"outlier_filter_off\": false, \"outlier_replace_off\": false, \"prefilter_conditional\": {\"__current_case__\": 1, \"prefilter\": \"\"}, \"use_beta_priors\": true}", "tximport": "{\"__current_case__\": 0, \"mapping_format\": {\"__current_case__\": 1, \"mapping_format_selector\": \"tabular\", \"tabular_file\": {\"values\": [{\"id\": 474, \"src\": \"hda\"}]}}, \"tximport_selector\": \"tximport\", \"txtype\": \"sailfish\"}", "header": "true", "batch_factors": null, "select_data": "{\"__current_case__\": 0, \"countsFile\": {\"values\": [{\"id\": 19, \"src\": \"hdca\"}]}, \"how\": \"group_tags\", \"rep_factorName\": [{\"__index__\": 0, \"factorName\": \"Treatment\", \"rep_factorLevel\": [{\"__index__\": 0, \"factorLevel\": \"Treated\", \"groups\": [\"primary:treated\"]}, {\"__index__\": 1, \"factorLevel\": \"Untreated\", \"groups\": [\"primary:untreated\"]}]}]}"}, "inputs": {"select_data|countsFile1": {"id": "5b0f3202764fc15e", "src": "hda", "uuid": "6d4a3239-7254-4411-aa6c-e6ec3481fa7c"}, "select_data|countsFile2": {"id": "5369925f105ce682", "src": "hda", "uuid": "1d745d73-191d-4f58-9ce2-790bfebb66d8"}, "select_data|countsFile3": {"id": "6814aa19560fb002", "src": "hda", "uuid": "87b5feb8-2303-4a7c-b600-83bce7fa0842"}, "select_data|countsFile4": {"id": "7a8333bc5975de2b", "src": "hda", "uuid": "8e7e20a7-d639-4686-822b-d5a43595ae94"}, "select_data|countsFile5": {"id": "698c64feece95697", "src": "hda", "uuid": "7832e82b-d1c9-4e4d-8fb3-341678dcb377"}, "select_data|countsFile6": {"id": "f724cb42a5523888", "src": "hda", "uuid": "4795996c-29c4-4dc7-ac5c-0941deed5657"}, "tximport|mapping_format|tabular_file": {"id": "90aaec7939b72c44", "src": "hda", "uuid": "ca8433a0-67eb-4ba3-970c-b8d40ab36f95"}}, "outputs": {"__new_primary_file_split_output|Treatment_Treated_vs_Untreated__": {"id": "37a562d5a7d1ff1a", "src": "hda", "uuid": "9a4d2d55-9fd0-41b7-9a90-3703fa791f8d"}}, "output_collections": {"split_output": {"id": "81c41fa86f636d5d", "src": "hdca"}}, "tool_stdout": "primary factor: Treatment \n\n---------------------\nNo size factor was used\nDESeq2 run information\n\nsample table:\n  Treatment\n4 Untreated\n5 Untreated\n6 Untreated\n1   Treated\n2   Treated\n3   Treated\n\ndesign formula:\n~Treatment\n\n\n6 samples with counts over 10 genes\n[1] \"use_beta_prior is set to TRUE\"\nusing disperion fit type: parametric \nSession information:\n\nR version 4.3.1 (2023-06-16)\nPlatform: x86_64-conda-linux-gnu (64-bit)\nRunning under: Debian GNU/Linux 10 (buster)\n\nMatrix products: default\nBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0\n\nlocale:\n [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       \n [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   \n [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          \n[10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   \n\ntime zone: NA\ntzcode source: system (glibc)\n\nattached base packages:\n[1] stats4    tools     stats     graphics  grDevices utils     datasets \n[8] methods   base     \n\nother attached packages:\n [1] tximport_1.28.0             rjson_0.2.21               \n [3] gplots_3.1.3                RColorBrewer_1.1-3         \n [5] DESeq2_1.40.2               SummarizedExperiment_1.30.2\n [7] Biobase_2.60.0              MatrixGenerics_1.12.2      \n [9] matrixStats_1.0.0           GenomicRanges_1.52.0       \n[11] GenomeInfoDb_1.36.1         IRanges_2.34.1             \n[13] S4Vectors_0.38.1            BiocGenerics_0.46.0        \n[15] getopt_1.20.3              \n\nloaded via a namespace (and not attached):\n [1] utf8_1.2.3              generics_0.1.3          bitops_1.0-7           \n [4] KernSmooth_2.23-22      gtools_3.9.4            lattice_0.21-8         \n [7] caTools_1.18.2          magrittr_2.0.3          grid_4.3.1             \n[10] jsonlite_1.8.7          Matrix_1.6-0            fansi_1.0.4            \n[13] scales_1.2.1            codetools_0.2-19        cli_3.6.1              \n[16] rlang_1.1.1             crayon_1.5.2            XVector_0.40.0         \n[19] munsell_0.5.0           DelayedArray_0.26.6     S4Arrays_1.0.4         \n[22] parallel_4.3.1          BiocParallel_1.34.2     dplyr_1.1.2            \n[25] colorspace_2.1-0        ggplot2_3.4.2           locfit_1.5-9.8         \n[28] GenomeInfoDbData_1.2.10 vctrs_0.6.3             R6_2.5.1               \n[31] lifecycle_1.0.3         zlibbioc_1.46.0         pkgconfig_2.0.3        \n[34] pillar_1.9.0            gtable_0.3.3            glue_1.6.2             \n[37] Rcpp_1.0.11             tibble_3.2.1            tidyselect_1.2.0       \n[40] compiler_4.3.1          RCurl_1.98-1.12        \n", "tool_stderr": "reading in files with read.delim (install 'readr' package for speed up)\n1 2 3 4 5 6 \nsummarizing abundance\nsummarizing counts\nsummarizing length\nusing counts and average transcript lengths from tximport\nestimating size factors\nusing 'avgTxLength' from assays(dds), correcting for library size\nestimating dispersions\ngene-wise dispersion estimates\nmean-dispersion relationship\n-- note: fitType='parametric', but the dispersion trend was not well captured by the\n   function: y = a/x + b, and a local regression fit was automatically substituted.\n   specify fitType='local' or 'mean' to avoid this message next time.\nfinal dispersion estimates\nfitting model and testing\nWarning message:\nIn lfproc(x, y, weights = weights, cens = cens, base = base, geth = geth,  :\n  Estimated rdf < 1.0; not estimating variance\n", "job_stdout": "", "job_stderr": "", "stderr": "reading in files with read.delim (install 'readr' package for speed up)\n1 2 3 4 5 6 \nsummarizing abundance\nsummarizing counts\nsummarizing length\nusing counts and average transcript lengths from tximport\nestimating size factors\nusing 'avgTxLength' from assays(dds), correcting for library size\nestimating dispersions\ngene-wise dispersion estimates\nmean-dispersion relationship\n-- note: fitType='parametric', but the dispersion trend was not well captured by the\n   function: y = a/x + b, and a local regression fit was automatically substituted.\n   specify fitType='local' or 'mean' to avoid this message next time.\nfinal dispersion estimates\nfitting model and testing\nWarning message:\nIn lfproc(x, y, weights = weights, cens = cens, base = base, geth = geth,  :\n  Estimated rdf < 1.0; not estimating variance\n", "stdout": "primary factor: Treatment \n\n---------------------\nNo size factor was used\nDESeq2 run information\n\nsample table:\n  Treatment\n4 Untreated\n5 Untreated\n6 Untreated\n1   Treated\n2   Treated\n3   Treated\n\ndesign formula:\n~Treatment\n\n\n6 samples with counts over 10 genes\n[1] \"use_beta_prior is set to TRUE\"\nusing disperion fit type: parametric \nSession information:\n\nR version 4.3.1 (2023-06-16)\nPlatform: x86_64-conda-linux-gnu (64-bit)\nRunning under: Debian GNU/Linux 10 (buster)\n\nMatrix products: default\nBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0\n\nlocale:\n [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       \n [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   \n [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          \n[10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   \n\ntime zone: NA\ntzcode source: system (glibc)\n\nattached base packages:\n[1] stats4    tools     stats     graphics  grDevices utils     datasets \n[8] methods   base     \n\nother attached packages:\n [1] tximport_1.28.0             rjson_0.2.21               \n [3] gplots_3.1.3                RColorBrewer_1.1-3         \n [5] DESeq2_1.40.2               SummarizedExperiment_1.30.2\n [7] Biobase_2.60.0              MatrixGenerics_1.12.2      \n [9] matrixStats_1.0.0           GenomicRanges_1.52.0       \n[11] GenomeInfoDb_1.36.1         IRanges_2.34.1             \n[13] S4Vectors_0.38.1            BiocGenerics_0.46.0        \n[15] getopt_1.20.3              \n\nloaded via a namespace (and not attached):\n [1] utf8_1.2.3              generics_0.1.3          bitops_1.0-7           \n [4] KernSmooth_2.23-22      gtools_3.9.4            lattice_0.21-8         \n [7] caTools_1.18.2          magrittr_2.0.3          grid_4.3.1             \n[10] jsonlite_1.8.7          Matrix_1.6-0            fansi_1.0.4            \n[13] scales_1.2.1            codetools_0.2-19        cli_3.6.1              \n[16] rlang_1.1.1             crayon_1.5.2            XVector_0.40.0         \n[19] munsell_0.5.0           DelayedArray_0.26.6     S4Arrays_1.0.4         \n[22] parallel_4.3.1          BiocParallel_1.34.2     dplyr_1.1.2            \n[25] colorspace_2.1-0        ggplot2_3.4.2           locfit_1.5-9.8         \n[28] GenomeInfoDbData_1.2.10 vctrs_0.6.3             R6_2.5.1               \n[31] lifecycle_1.0.3         zlibbioc_1.46.0         pkgconfig_2.0.3        \n[34] pillar_1.9.0            gtable_0.3.3            glue_1.6.2             \n[37] Rcpp_1.0.11             tibble_3.2.1            tidyselect_1.2.0       \n[40] compiler_4.3.1          RCurl_1.98-1.12        \n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "15 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "15.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:54:32", "plugin": "core", "name": "end_epoch", "raw_value": "1726408472.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:54:17", "plugin": "core", "name": "start_epoch", "raw_value": "1726408457.0000000"}, {"title": "Memory Allocated (MB)", "value": "8589", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "8589.0000000"}, {"title": "Cores Allocated", "value": "1", "plugin": "core", "name": "galaxy_slots", "raw_value": "1.0000000"}]}, "status": "success"}}, {"id": "deseq2/2.11.40.8+galaxy0-9", "has_data": true, "data": {"tool_id": "deseq2", "tool_version": "2.11.40.8+galaxy0", "test_index": 9, "time_seconds": 62.47184181213379, "inputs": {"select_data|rep_factorName_0|factorName": "Treatment", "select_data|rep_factorName_0|rep_factorLevel_0|factorLevel": "Treated", "select_data|rep_factorName_0|rep_factorLevel_0|countsFile": [{"src": "hda", "id": "60dfda91f2b994e4"}, {"src": "hda", "id": "789fe0087c7b2c42"}, {"src": "hda", "id": "75a23db2f97ce028"}], "select_data|rep_factorName_0|rep_factorLevel_1|factorLevel": "Untreated", "select_data|rep_factorName_0|rep_factorLevel_1|countsFile": [{"src": "hda", "id": "21b93fd56cc05c5e"}, {"src": "hda", "id": "98cdcc16e6661ef7"}, {"src": "hda", "id": "eb6efd37e9557a72"}], "tximport|txtype": "sailfish", "tximport|mapping_format|gtf_file": {"src": "hda", "id": "0e31488118907472"}, "tximport|mapping_format|mapping_format_selector": "gtf", "tximport|tximport_selector": "tximport", "advanced_options|use_beta_priors": true, "output_options|output_selector": "", "output_options|alpha_ma": "0.05"}, "job": {"model_class": "Job", "id": "d00fc5f12efe398b", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:55:43.222164", "create_time": "2024-09-15T13:55:12.989689", "galaxy_version": "23.1", "command_version": "R version 4.3.1 (2023-06-16) -- \"Beagle Scouts\", DESeq2 version 1.40.2", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/iuc/deseq2/deseq2/2.11.40.8+galaxy0", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-djwtj", "command_line": "ln -s '/galaxy/server/database/objects/3/2/a/dataset_32a6706b-394b-4767-8892-a648d4a81898.dat' mapping.gff &&  cat '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/get_deseq_dataset.R' > /dev/null &&  Rscript '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/deseq2/9a882d108833/deseq2/deseq2.R' --cores ${GALAXY_SLOTS:-1} -o '/galaxy/server/database/objects/b/b/1/dataset_bb1192b4-6f01-4f8b-92c4-7872c03c3c02.dat' -A 0.05                  -H  -f '[[\"Treatment\", [{\"Untreated\": [\"/galaxy/server/database/objects/6/f/f/dataset_6ff24731-a4cd-4f7f-ae36-affb7eb4c01a.dat\", \"/galaxy/server/database/objects/a/8/5/dataset_a8556f10-dc48-4643-a8da-58e58cd38097.dat\", \"/galaxy/server/database/objects/4/0/a/dataset_40a3dc28-e28b-4224-afe1-a54f312d6d45.dat\"]}, {\"Treated\": [\"/galaxy/server/database/objects/5/f/3/dataset_5f3b50a1-7ef2-4200-847d-f5774d358a7c.dat\", \"/galaxy/server/database/objects/b/0/0/dataset_b009c966-5ad8-442c-a669-76457b6c5d63.dat\", \"/galaxy/server/database/objects/3/c/2/dataset_3c29917b-a2bf-435c-b33b-3e2311887203.dat\"]}]]]' -l '{\"dataset_5f3b50a1-7ef2-4200-847d-f5774d358a7c.dat\": \"sailfish_quant.sf1.tab\", \"dataset_b009c966-5ad8-442c-a669-76457b6c5d63.dat\": \"sailfish_quant.sf2.tab\", \"dataset_3c29917b-a2bf-435c-b33b-3e2311887203.dat\": \"sailfish_quant.sf3.tab\", \"dataset_6ff24731-a4cd-4f7f-ae36-affb7eb4c01a.dat\": \"sailfish_quant.sf4.tab\", \"dataset_a8556f10-dc48-4643-a8da-58e58cd38097.dat\": \"sailfish_quant.sf5.tab\", \"dataset_40a3dc28-e28b-4224-afe1-a54f312d6d45.dat\": \"sailfish_quant.sf6.tab\"}' -t 1     -d  -i -y sailfish -x mapping.gff", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "output_options": "{\"alpha_ma\": \"0.05\", \"output_selector\": []}", "advanced_options": "{\"auto_mean_filter_off\": false, \"esf_cond\": {\"__current_case__\": 0, \"esf\": \"\"}, \"fit_type\": \"1\", \"outlier_filter_off\": false, \"outlier_replace_off\": false, \"prefilter_conditional\": {\"__current_case__\": 1, \"prefilter\": \"\"}, \"use_beta_priors\": true}", "tximport": "{\"__current_case__\": 0, \"mapping_format\": {\"__current_case__\": 0, \"gtf_file\": {\"values\": [{\"id\": 482, \"src\": \"hda\"}]}, \"mapping_format_selector\": \"gtf\"}, \"tximport_selector\": \"tximport\", \"txtype\": \"sailfish\"}", "header": "true", "batch_factors": null, "select_data": "{\"__current_case__\": 1, \"how\": \"datasets_per_level\", \"rep_factorName\": [{\"__index__\": 0, \"factorName\": \"Treatment\", \"rep_factorLevel\": [{\"__index__\": 0, \"countsFile\": {\"values\": [{\"id\": 476, \"src\": \"hda\"}, {\"id\": 477, \"src\": \"hda\"}, {\"id\": 478, \"src\": \"hda\"}]}, \"factorLevel\": \"Treated\"}, {\"__index__\": 1, \"countsFile\": {\"values\": [{\"id\": 479, \"src\": \"hda\"}, {\"id\": 480, \"src\": \"hda\"}, {\"id\": 481, \"src\": \"hda\"}]}, \"factorLevel\": \"Untreated\"}]}]}"}, "inputs": {"select_data|rep_factorName_0|rep_factorLevel_0|countsFile": {"id": "60dfda91f2b994e4", "src": "hda", "uuid": "5f3b50a1-7ef2-4200-847d-f5774d358a7c"}, "select_data|rep_factorName_0|rep_factorLevel_0|countsFile1": {"id": "60dfda91f2b994e4", "src": "hda", "uuid": "5f3b50a1-7ef2-4200-847d-f5774d358a7c"}, "select_data|rep_factorName_0|rep_factorLevel_0|countsFile2": {"id": "789fe0087c7b2c42", "src": "hda", "uuid": "b009c966-5ad8-442c-a669-76457b6c5d63"}, "select_data|rep_factorName_0|rep_factorLevel_0|countsFile3": {"id": "75a23db2f97ce028", "src": "hda", "uuid": "3c29917b-a2bf-435c-b33b-3e2311887203"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile": {"id": "21b93fd56cc05c5e", "src": "hda", "uuid": "6ff24731-a4cd-4f7f-ae36-affb7eb4c01a"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile1": {"id": "21b93fd56cc05c5e", "src": "hda", "uuid": "6ff24731-a4cd-4f7f-ae36-affb7eb4c01a"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile2": {"id": "98cdcc16e6661ef7", "src": "hda", "uuid": "a8556f10-dc48-4643-a8da-58e58cd38097"}, "select_data|rep_factorName_0|rep_factorLevel_1|countsFile3": {"id": "eb6efd37e9557a72", "src": "hda", "uuid": "40a3dc28-e28b-4224-afe1-a54f312d6d45"}, "tximport|mapping_format|gtf_file": {"id": "0e31488118907472", "src": "hda", "uuid": "32a6706b-394b-4767-8892-a648d4a81898"}}, "outputs": {"deseq_out": {"id": "0a5be55819e3d692", "src": "hda", "uuid": "bb1192b4-6f01-4f8b-92c4-7872c03c3c02"}}, "output_collections": {}, "tool_stdout": "primary factor: Treatment \n\n---------------------\nNo size factor was used\nDESeq2 run information\n\nsample table:\n                       Treatment\nsailfish_quant.sf4.tab Untreated\nsailfish_quant.sf5.tab Untreated\nsailfish_quant.sf6.tab Untreated\nsailfish_quant.sf1.tab   Treated\nsailfish_quant.sf2.tab   Treated\nsailfish_quant.sf3.tab   Treated\n\ndesign formula:\n~Treatment\n\n\n6 samples with counts over 11 genes\n[1] \"use_beta_prior is set to TRUE\"\nusing disperion fit type: parametric \nsummary of results\nTreatment: Treated vs Untreated\n\nout of 9 with nonzero total read count\nadjusted p-value < 0.1\nLFC > 0 (up)       : 0, 0%\nLFC < 0 (down)     : 0, 0%\noutliers [1]       : 0, 0%\nlow counts [2]     : 0, 0%\n(mean count < 0)\n[1] see 'cooksCutoff' argument of ?results\n[2] see 'independentFiltering' argument of ?results\n\nNULL\nSession information:\n\nR version 4.3.1 (2023-06-16)\nPlatform: x86_64-conda-linux-gnu (64-bit)\nRunning under: Debian GNU/Linux 10 (buster)\n\nMatrix products: default\nBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0\n\nlocale:\n [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       \n [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   \n [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          \n[10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   \n\ntime zone: NA\ntzcode source: system (glibc)\n\nattached base packages:\n[1] stats4    tools     stats     graphics  grDevices utils     datasets \n[8] methods   base     \n\nother attached packages:\n [1] GenomicFeatures_1.52.1      AnnotationDbi_1.62.2       \n [3] tximport_1.28.0             rjson_0.2.21               \n [5] gplots_3.1.3                RColorBrewer_1.1-3         \n [7] DESeq2_1.40.2               SummarizedExperiment_1.30.2\n [9] Biobase_2.60.0              MatrixGenerics_1.12.2      \n[11] matrixStats_1.0.0           GenomicRanges_1.52.0       \n[13] GenomeInfoDb_1.36.1         IRanges_2.34.1             \n[15] S4Vectors_0.38.1            BiocGenerics_0.46.0        \n[17] getopt_1.20.3              \n\nloaded via a namespace (and not attached):\n [1] tidyselect_1.2.0         dplyr_1.1.2              blob_1.2.4              \n [4] filelock_1.0.2           Biostrings_2.68.1        bitops_1.0-7            \n [7] fastmap_1.1.1            RCurl_1.98-1.12          BiocFileCache_2.8.0     \n[10] GenomicAlignments_1.36.0 XML_3.99-0.14            digest_0.6.33           \n[13] lifecycle_1.0.3          KEGGREST_1.40.0          RSQLite_2.3.1           \n[16] magrittr_2.0.3           compiler_4.3.1           rlang_1.1.1             \n[19] progress_1.2.2           yaml_2.3.7               utf8_1.2.3              \n[22] rtracklayer_1.60.0       prettyunits_1.1.1        S4Arrays_1.0.4          \n[25] bit_4.0.5                curl_5.0.1               DelayedArray_0.26.6     \n[28] xml2_1.3.5               BiocParallel_1.34.2      KernSmooth_2.23-22      \n[31] grid_4.3.1               fansi_1.0.4              caTools_1.18.2          \n[34] colorspace_2.1-0         ggplot2_3.4.2            scales_1.2.1            \n[37] gtools_3.9.4             biomaRt_2.56.1           cli_3.6.1               \n[40] crayon_1.5.2             generics_0.1.3           httr_1.4.6              \n[43] DBI_1.1.3                cachem_1.0.8             stringr_1.5.0           \n[46] zlibbioc_1.46.0          parallel_4.3.1           restfulr_0.0.15         \n[49] XVector_0.40.0           vctrs_0.6.3              Matrix_1.6-0            \n[52] jsonlite_1.8.7           hms_1.1.3                bit64_4.0.5             \n[55] locfit_1.5-9.8           glue_1.6.2               codetools_0.2-19        \n[58] stringi_1.7.12           gtable_0.3.3             BiocIO_1.10.0           \n[61] munsell_0.5.0            tibble_3.2.1             pillar_1.9.0            \n[64] rappdirs_0.3.3           GenomeInfoDbData_1.2.10  R6_2.5.1                \n[67] dbplyr_2.3.3             lattice_0.21-8           Rsamtools_2.16.0        \n[70] png_0.1-8                memoise_2.0.1            Rcpp_1.0.11             \n[73] pkgconfig_2.0.3         \n", "tool_stderr": "Import genomic features from the file as a GRanges object ... OK\nPrepare the 'metadata' data frame ... OK\nMake the TxDb object ... OK\n'select()' returned 1:1 mapping between keys and columns\nreading in files with read.delim (install 'readr' package for speed up)\n1 2 3 4 5 6 \nreading in files with read.delim (install 'readr' package for speed up)\n1 2 3 4 5 6 \nsummarizing abundance\nsummarizing counts\nsummarizing length\nusing counts and average transcript lengths from tximport\nWarning message:\nIn .get_cds_IDX(mcols0$type, mcols0$phase) :\n  The \"phase\" metadata column contains non-NA values for features of type\n  stop_codon. This information was ignored.\nestimating size factors\nusing 'avgTxLength' from assays(dds), correcting for library size\nestimating dispersions\ngene-wise dispersion estimates\nmean-dispersion relationship\n-- note: fitType='parametric', but the dispersion trend was not well captured by the\n   function: y = a/x + b, and a local regression fit was automatically substituted.\n   specify fitType='local' or 'mean' to avoid this message next time.\nfinal dispersion estimates\nfitting model and testing\nWarning message:\nIn lfproc(x, y, weights = weights, cens = cens, base = base, geth = geth,  :\n  Estimated rdf < 1.0; not estimating variance\n", "job_stdout": "", "job_stderr": "", "stderr": "Import genomic features from the file as a GRanges object ... OK\nPrepare the 'metadata' data frame ... OK\nMake the TxDb object ... OK\n'select()' returned 1:1 mapping between keys and columns\nreading in files with read.delim (install 'readr' package for speed up)\n1 2 3 4 5 6 \nreading in files with read.delim (install 'readr' package for speed up)\n1 2 3 4 5 6 \nsummarizing abundance\nsummarizing counts\nsummarizing length\nusing counts and average transcript lengths from tximport\nWarning message:\nIn .get_cds_IDX(mcols0$type, mcols0$phase) :\n  The \"phase\" metadata column contains non-NA values for features of type\n  stop_codon. This information was ignored.\nestimating size factors\nusing 'avgTxLength' from assays(dds), correcting for library size\nestimating dispersions\ngene-wise dispersion estimates\nmean-dispersion relationship\n-- note: fitType='parametric', but the dispersion trend was not well captured by the\n   function: y = a/x + b, and a local regression fit was automatically substituted.\n   specify fitType='local' or 'mean' to avoid this message next time.\nfinal dispersion estimates\nfitting model and testing\nWarning message:\nIn lfproc(x, y, weights = weights, cens = cens, base = base, geth = geth,  :\n  Estimated rdf < 1.0; not estimating variance\n", "stdout": "primary factor: Treatment \n\n---------------------\nNo size factor was used\nDESeq2 run information\n\nsample table:\n                       Treatment\nsailfish_quant.sf4.tab Untreated\nsailfish_quant.sf5.tab Untreated\nsailfish_quant.sf6.tab Untreated\nsailfish_quant.sf1.tab   Treated\nsailfish_quant.sf2.tab   Treated\nsailfish_quant.sf3.tab   Treated\n\ndesign formula:\n~Treatment\n\n\n6 samples with counts over 11 genes\n[1] \"use_beta_prior is set to TRUE\"\nusing disperion fit type: parametric \nsummary of results\nTreatment: Treated vs Untreated\n\nout of 9 with nonzero total read count\nadjusted p-value < 0.1\nLFC > 0 (up)       : 0, 0%\nLFC < 0 (down)     : 0, 0%\noutliers [1]       : 0, 0%\nlow counts [2]     : 0, 0%\n(mean count < 0)\n[1] see 'cooksCutoff' argument of ?results\n[2] see 'independentFiltering' argument of ?results\n\nNULL\nSession information:\n\nR version 4.3.1 (2023-06-16)\nPlatform: x86_64-conda-linux-gnu (64-bit)\nRunning under: Debian GNU/Linux 10 (buster)\n\nMatrix products: default\nBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0\n\nlocale:\n [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8       \n [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8   \n [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          \n[10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   \n\ntime zone: NA\ntzcode source: system (glibc)\n\nattached base packages:\n[1] stats4    tools     stats     graphics  grDevices utils     datasets \n[8] methods   base     \n\nother attached packages:\n [1] GenomicFeatures_1.52.1      AnnotationDbi_1.62.2       \n [3] tximport_1.28.0             rjson_0.2.21               \n [5] gplots_3.1.3                RColorBrewer_1.1-3         \n [7] DESeq2_1.40.2               SummarizedExperiment_1.30.2\n [9] Biobase_2.60.0              MatrixGenerics_1.12.2      \n[11] matrixStats_1.0.0           GenomicRanges_1.52.0       \n[13] GenomeInfoDb_1.36.1         IRanges_2.34.1             \n[15] S4Vectors_0.38.1            BiocGenerics_0.46.0        \n[17] getopt_1.20.3              \n\nloaded via a namespace (and not attached):\n [1] tidyselect_1.2.0         dplyr_1.1.2              blob_1.2.4              \n [4] filelock_1.0.2           Biostrings_2.68.1        bitops_1.0-7            \n [7] fastmap_1.1.1            RCurl_1.98-1.12          BiocFileCache_2.8.0     \n[10] GenomicAlignments_1.36.0 XML_3.99-0.14            digest_0.6.33           \n[13] lifecycle_1.0.3          KEGGREST_1.40.0          RSQLite_2.3.1           \n[16] magrittr_2.0.3           compiler_4.3.1           rlang_1.1.1             \n[19] progress_1.2.2           yaml_2.3.7               utf8_1.2.3              \n[22] rtracklayer_1.60.0       prettyunits_1.1.1        S4Arrays_1.0.4          \n[25] bit_4.0.5                curl_5.0.1               DelayedArray_0.26.6     \n[28] xml2_1.3.5               BiocParallel_1.34.2      KernSmooth_2.23-22      \n[31] grid_4.3.1               fansi_1.0.4              caTools_1.18.2          \n[34] colorspace_2.1-0         ggplot2_3.4.2            scales_1.2.1            \n[37] gtools_3.9.4             biomaRt_2.56.1           cli_3.6.1               \n[40] crayon_1.5.2             generics_0.1.3           httr_1.4.6              \n[43] DBI_1.1.3                cachem_1.0.8             stringr_1.5.0           \n[46] zlibbioc_1.46.0          parallel_4.3.1           restfulr_0.0.15         \n[49] XVector_0.40.0           vctrs_0.6.3              Matrix_1.6-0            \n[52] jsonlite_1.8.7           hms_1.1.3                bit64_4.0.5             \n[55] locfit_1.5-9.8           glue_1.6.2               codetools_0.2-19        \n[58] stringi_1.7.12           gtable_0.3.3             BiocIO_1.10.0           \n[61] munsell_0.5.0            tibble_3.2.1             pillar_1.9.0            \n[64] rappdirs_0.3.3           GenomeInfoDbData_1.2.10  R6_2.5.1                \n[67] dbplyr_2.3.3             lattice_0.21-8           Rsamtools_2.16.0        \n[70] png_0.1-8                memoise_2.0.1            Rcpp_1.0.11             \n[73] pkgconfig_2.0.3         \n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "20 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "20.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:55:34", "plugin": "core", "name": "end_epoch", "raw_value": "1726408534.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:55:14", "plugin": "core", "name": "start_epoch", "raw_value": "1726408514.0000000"}, {"title": "Memory Allocated (MB)", "value": "8589", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "8589.0000000"}, {"title": "Cores Allocated", "value": "1", "plugin": "core", "name": "galaxy_slots", "raw_value": "1.0000000"}]}, "status": "success"}}, {"id": "mummer_mummer/4.0.0rc1+galaxy3-0", "has_data": true, "data": {"tool_id": "mummer_mummer", "tool_version": "4.0.0rc1+galaxy3", "test_index": 0, "time_seconds": 49.861254930496216, "inputs": {"reference_sequence": {"src": "hda", "id": "f02cb40124fc3c4d"}, "query_sequence": {"src": "hda", "id": "423b9b5a145ab8d3"}, "options|advanced": "defaults", "mumplot|plot": "yes"}, "job": {"model_class": "Job", "id": "20e00e80366142be", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T14:00:38.199424", "create_time": "2024-09-15T14:00:05.641553", "galaxy_version": "23.1", "command_version": "", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/iuc/mummer_mummer/mummer_mummer/4.0.0rc1+galaxy3", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-7cx4d", "command_line": "mummer  -l '20' -b      -threads ${GALAXY_SLOTS:-1} -qthreads ${GALAXY_SLOTS:-1} '/galaxy/server/database/objects/6/f/d/dataset_6fdcdb4c-8a7d-4c3b-bfce-cb18980764fd.dat' '/galaxy/server/database/objects/4/3/c/dataset_43c129aa-fe69-4cd8-8a20-959cecd8552c.dat' > '/galaxy/server/database/objects/1/6/4/dataset_164d6be6-3cdd-4e6c-93cf-1a036f945c95.dat' && mummerplot -b '20'     -s 'small' -terminal png -title 'Title'  '/galaxy/server/database/objects/1/6/4/dataset_164d6be6-3cdd-4e6c-93cf-1a036f945c95.dat' && gnuplot < out.gp", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "mumplot": "{\"__current_case__\": 0, \"breaklen\": \"20\", \"color\": \"\", \"coverage\": \"\", \"fat\": false, \"filter\": false, \"labels\": {\"IDs\": \"no\", \"__current_case__\": 1}, \"plot\": \"yes\", \"range\": {\"__current_case__\": 1, \"custom\": \"no\"}, \"size\": \"small\", \"snp\": false, \"title\": \"Title\"}", "options": "{\"__current_case__\": 1, \"advanced\": \"defaults\"}", "position": "false", "substring": "false", "print_length": "false", "chars": "false", "force": "false", "direction": "\"-b\"", "min": "\"20\"", "anchoring": "\"\""}, "inputs": {"reference_sequence": {"id": "f02cb40124fc3c4d", "src": "hda", "uuid": "6fdcdb4c-8a7d-4c3b-bfce-cb18980764fd"}, "query_sequence": {"id": "423b9b5a145ab8d3", "src": "hda", "uuid": "43c129aa-fe69-4cd8-8a20-959cecd8552c"}}, "outputs": {"output": {"id": "ce94090a09de63dc", "src": "hda", "uuid": "164d6be6-3cdd-4e6c-93cf-1a036f945c95"}, "png_output": {"id": "2ab00c4507498560", "src": "hda", "uuid": "84caf112-e4bc-4398-a030-1cf09b084960"}}, "output_collections": {}, "tool_stdout": "gnuplot 5.4 patchlevel 8\n", "tool_stderr": "Reading mummer file /galaxy/server/database/objects/1/6/4/dataset_164d6be6-3cdd-4e6c-93cf-1a036f945c95.dat (use mummer -c)\nWriting plot files out.fplot, out.rplot, out.hplot\nWriting gnuplot script out.gp\nRendering plot out.png\nWARNING: Unable to run 'false out.gp', Inappropriate ioctl for device\n", "job_stdout": "", "job_stderr": "", "stderr": "Reading mummer file /galaxy/server/database/objects/1/6/4/dataset_164d6be6-3cdd-4e6c-93cf-1a036f945c95.dat (use mummer -c)\nWriting plot files out.fplot, out.rplot, out.hplot\nWriting gnuplot script out.gp\nRendering plot out.png\nWARNING: Unable to run 'false out.gp', Inappropriate ioctl for device\n", "stdout": "gnuplot 5.4 patchlevel 8\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}, {"title": "Job End Time", "value": "2024-09-15 14:00:23", "plugin": "core", "name": "end_epoch", "raw_value": "1726408823.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 14:00:22", "plugin": "core", "name": "start_epoch", "raw_value": "1726408822.0000000"}, {"title": "Memory Allocated (MB)", "value": "4080", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "4080.0000000"}, {"title": "Cores Allocated", "value": "1", "plugin": "core", "name": "galaxy_slots", "raw_value": "1.0000000"}]}, "status": "success"}}, {"id": "poretools_yield_plot/0.6.1a1.1-0", "has_data": true, "data": {"tool_id": "poretools_yield_plot", "tool_version": "0.6.1a1.1", "test_index": 0, "time_seconds": 51.16406869888306, "inputs": {"input": {"src": "hda", "id": "cfd035f33daa9779"}, "plot_type": "reads", "extension": "png"}, "job": {"model_class": "Job", "id": "b3c36b887b27ade7", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:39:40.314025", "create_time": "2024-09-15T13:39:05.146361", "galaxy_version": "23.1", "command_version": "", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/iuc/poretools_yield_plot/poretools_yield_plot/0.6.1a1.1", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-jkrqw", "command_line": "export MPLBACKEND=\"agg\" && poretools yield_plot '/galaxy/server/database/objects/0/6/2/dataset_062759d5-6f6e-4055-b4bc-afaa3c0fc626.dat' --saveas plot.png --plot-type reads  --skip 1 && mv plot.png '/galaxy/server/database/objects/2/4/e/dataset_24ecc9b7-5d0a-4e67-82bb-6bff8ddd3625.dat'", "traceback": null, "params": {"__input_ext": "\"fast5.tar\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "theme_bw": "false", "extension": "\"png\"", "skip": "\"1\"", "plot_type": "\"reads\""}, "inputs": {"input": {"id": "cfd035f33daa9779", "src": "hda", "uuid": "062759d5-6f6e-4055-b4bc-afaa3c0fc626"}}, "outputs": {"output": {"id": "161a5af76bf3bc57", "src": "hda", "uuid": "24ecc9b7-5d0a-4e67-82bb-6bff8ddd3625"}}, "output_collections": {}, "tool_stdout": "", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "2 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "2.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:39:23", "plugin": "core", "name": "end_epoch", "raw_value": "1726407563.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:39:21", "plugin": "core", "name": "start_epoch", "raw_value": "1726407561.0000000"}, {"title": "Memory Allocated (MB)", "value": "12240", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "12240.0000000"}, {"title": "Cores Allocated", "value": "1", "plugin": "core", "name": "galaxy_slots", "raw_value": "1.0000000"}]}, "status": "success"}}, {"id": "poretools_yield_plot/0.6.1a1.1-1", "has_data": true, "data": {"tool_id": "poretools_yield_plot", "tool_version": "0.6.1a1.1", "test_index": 1, "time_seconds": 10.240379810333252, "execution_problem": "Input staging problem: Job in error state.. tool_id: upload1, exit_code: None, stderr: .", "status": "error"}}, {"id": "qualimap_bamqc/2.3+galaxy0-0", "has_data": true, "data": {"tool_id": "qualimap_bamqc", "tool_version": "2.3+galaxy0", "test_index": 0, "time_seconds": 67.03019905090332, "inputs": {"input1": {"src": "hda", "id": "1f07485a978ccd9f"}}, "job": {"model_class": "Job", "id": "dcd411dcf16d2d3d", "state": "error", "exit_code": null, "update_time": "2024-09-15T13:28:08.036248", "create_time": "2024-09-15T13:27:17.242381", "galaxy_version": "23.1", "command_version": null, "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/iuc/qualimap_bamqc/qualimap_bamqc/2.3+galaxy0", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-fzmws", "command_line": "export JAVA_OPTS=\"-Djava.awt.headless=true -Xmx${GALAXY_MEMORY_MB:-1024}m\" &&    ln -s '/galaxy/server/database/objects/2/d/b/dataset_2db83314-7499-4f75-8104-39f283401004.dat' 'test_mapped_reads_bam' &&  qualimap bamqc -bam 'test_mapped_reads_bam' -outdir results -outformat html --collect-overlap-pairs -nw 400 --paint-chromosome-limits -hm 3  --skip-duplicated --skip-dup-mode 0 -nt ${GALAXY_SLOTS:-1} &&   sed 's|images_qualimapReport/||g;s|css/||g' results/qualimapReport.html > '/galaxy/server/database/objects/2/6/0/dataset_260807f4-a047-4d2e-b870-c72d8bb914e9.dat' && mkdir '/galaxy/server/database/objects/2/6/0/dataset_260807f4-a047-4d2e-b870-c72d8bb914e9_files' && mv results/css/*.css '/galaxy/server/database/objects/2/6/0/dataset_260807f4-a047-4d2e-b870-c72d8bb914e9_files' && mv results/css/*.png '/galaxy/server/database/objects/2/6/0/dataset_260807f4-a047-4d2e-b870-c72d8bb914e9_files' && if [ -d results/images_qualimapReport ]; then mv results/images_qualimapReport/* '/galaxy/server/database/objects/2/6/0/dataset_260807f4-a047-4d2e-b870-c72d8bb914e9_files' && for file in $(ls -A results/raw_data_qualimapReport); do mv \"results/raw_data_qualimapReport/$file\" `echo \"results/$file\" | sed 's/(//;s/)//'`; done fi && mv results/genome_results.txt results/summary_report.txt", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "plot_specific": "{\"genome_gc_distr\": null, \"homopolymer_size\": \"3\", \"n_bins\": \"400\", \"paint_chromosome_limits\": true}", "duplicate_skipping": "\"0\"", "per_base_coverage": "false", "stats_regions": "{\"__current_case__\": 0, \"region_select\": \"all\"}"}, "inputs": {"input1": {"id": "1f07485a978ccd9f", "src": "hda", "uuid": "2db83314-7499-4f75-8104-39f283401004"}}, "outputs": {"raw_data|__part__|genome_results": {"id": "e5070d675615cf68", "src": "hda", "uuid": "996b2f2e-6e68-424f-ba69-eb684589c3aa"}, "raw_data|__part__|coverage_across_reference": {"id": "01d9f81d81c0d49a", "src": "hda", "uuid": "d2eb71ed-45c6-4054-ae0c-eb03a8b13f84"}, "raw_data|__part__|coverage_histogram": {"id": "397a2ea17fba8a88", "src": "hda", "uuid": "b123e199-2e0e-4f36-8ede-699c3e50bd19"}, "raw_data|__part__|genome_fraction_coverage": {"id": "3bf97ccf4441dff2", "src": "hda", "uuid": "2b1006e1-8ea5-4e84-878a-4df546f797bf"}, "raw_data|__part__|duplication_rate_histogram": {"id": "df046ffaf5c29b24", "src": "hda", "uuid": "a6e69819-0712-43c7-9807-62d26be7634c"}, "raw_data|__part__|homopolymer_indels": {"id": "4c5adca9293d8c1d", "src": "hda", "uuid": "41cffebf-fd2a-4d66-a4c1-c4512ca255a6"}, "raw_data|__part__|insert_size_across_reference": {"id": "d492b576a5242295", "src": "hda", "uuid": "fc70d301-d5a4-4794-8d85-0bd05295ec1f"}, "raw_data|__part__|insert_size_histogram": {"id": "24542a6acde3511f", "src": "hda", "uuid": "f199c3f8-cb12-4242-bb20-905b4dec3cd5"}, "raw_data|__part__|mapped_reads_clipping_profile": {"id": "eef40f486f049173", "src": "hda", "uuid": "b751667e-40c6-4ab3-a84d-f0134574e2f7"}, "raw_data|__part__|mapped_reads_gc-content_distribution": {"id": "f1530dbb4cc388c1", "src": "hda", "uuid": "72b1786c-b7b8-441a-87e3-27d8c1e237b7"}, "raw_data|__part__|mapped_reads_nucleotide_content": {"id": "68f2c448211e97c0", "src": "hda", "uuid": "ad9ae930-46c2-40fe-9030-59ed345847af"}, "raw_data|__part__|mapping_quality_across_reference": {"id": "2b51f4a70a0f0102", "src": "hda", "uuid": "45722dfc-ab38-4502-99e7-0f4ae889499e"}, "raw_data|__part__|mapping_quality_histogram": {"id": "19a2aae1c786513c", "src": "hda", "uuid": "f8a90a8c-bec8-495b-8b02-83c13e8700f0"}, "output_html": {"id": "f6f6ba539128c5ec", "src": "hda", "uuid": "260807f4-a047-4d2e-b870-c72d8bb914e9"}}, "output_collections": {"raw_data": {"id": "f852116c2cb8bf75", "src": "hdca"}}, "tool_stdout": "", "tool_stderr": "", "job_stdout": null, "job_stderr": null, "stderr": "", "stdout": "", "job_messages": null, "dependencies": [], "user_email": "tests@fake.org", "job_metrics": []}, "output_problems": ["Job in error state.. tool_id: toolshed.g2.bx.psu.edu/repos/iuc/qualimap_bamqc/qualimap_bamqc/2.3+galaxy0, exit_code: None, stderr: .", "Job in error state.. tool_id: toolshed.g2.bx.psu.edu/repos/iuc/qualimap_bamqc/qualimap_bamqc/2.3+galaxy0, exit_code: None, stderr: ."], "status": "failure"}}, {"id": "qualimap_bamqc/2.3+galaxy0-1", "has_data": true, "data": {"tool_id": "qualimap_bamqc", "tool_version": "2.3+galaxy0", "test_index": 1, "time_seconds": 30.803893566131592, "inputs": {"input1": {"src": "hda", "id": "eeef0b959aa4a9b6"}, "per_base_coverage": true}, "job": {"model_class": "Job", "id": "3b9d0384f7efff45", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:28:38.295196", "create_time": "2024-09-15T13:28:23.423445", "galaxy_version": "23.1", "command_version": "2.3", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/iuc/qualimap_bamqc/qualimap_bamqc/2.3+galaxy0", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-p2vvm", "command_line": "export JAVA_OPTS=\"-Djava.awt.headless=true -Xmx${GALAXY_MEMORY_MB:-1024}m\" &&    ln -s '/galaxy/server/database/objects/d/4/6/dataset_d46c4f54-79d6-4b35-8855-3164649d221e.dat' 'test_mapped_reads_bam' &&  qualimap bamqc -bam 'test_mapped_reads_bam' -outdir results -outformat html --collect-overlap-pairs --output-genome-coverage results/coverage.txt -nw 400 --paint-chromosome-limits -hm 3  --skip-duplicated --skip-dup-mode 0 -nt ${GALAXY_SLOTS:-1} &&  mv results/coverage.txt '/galaxy/server/database/objects/c/c/9/dataset_cc99b869-5051-4a6d-a5c0-3e42ad61ae9d.dat' &&  sed 's|images_qualimapReport/||g;s|css/||g' results/qualimapReport.html > '/galaxy/server/database/objects/3/2/9/dataset_3299cfb9-47b5-4fae-8398-6ee8e37eb04d.dat' && mkdir '/galaxy/server/database/objects/3/2/9/dataset_3299cfb9-47b5-4fae-8398-6ee8e37eb04d_files' && mv results/css/*.css '/galaxy/server/database/objects/3/2/9/dataset_3299cfb9-47b5-4fae-8398-6ee8e37eb04d_files' && mv results/css/*.png '/galaxy/server/database/objects/3/2/9/dataset_3299cfb9-47b5-4fae-8398-6ee8e37eb04d_files' && if [ -d results/images_qualimapReport ]; then mv results/images_qualimapReport/* '/galaxy/server/database/objects/3/2/9/dataset_3299cfb9-47b5-4fae-8398-6ee8e37eb04d_files' && for file in $(ls -A results/raw_data_qualimapReport); do mv \"results/raw_data_qualimapReport/$file\" `echo \"results/$file\" | sed 's/(//;s/)//'`; done fi && mv results/genome_results.txt results/summary_report.txt", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "plot_specific": "{\"genome_gc_distr\": null, \"homopolymer_size\": \"3\", \"n_bins\": \"400\", \"paint_chromosome_limits\": true}", "duplicate_skipping": "\"0\"", "per_base_coverage": "true", "stats_regions": "{\"__current_case__\": 0, \"region_select\": \"all\"}"}, "inputs": {"input1": {"id": "eeef0b959aa4a9b6", "src": "hda", "uuid": "d46c4f54-79d6-4b35-8855-3164649d221e"}}, "outputs": {"raw_data|__part__|genome_results": {"id": "ae2899ebddbf6882", "src": "hda", "uuid": "8024e7ac-ccba-4617-a987-1fabe51c20b9"}, "raw_data|__part__|coverage_across_reference": {"id": "40681269e971b521", "src": "hda", "uuid": "c3270374-cf32-4ba2-8efa-d8375a1f222b"}, "raw_data|__part__|coverage_histogram": {"id": "c4fd2f1539b20e44", "src": "hda", "uuid": "16a7d208-4e59-4ae4-be09-381ca54c9054"}, "raw_data|__part__|genome_fraction_coverage": {"id": "95f82b26b320a110", "src": "hda", "uuid": "790eb702-47cc-4902-820a-dd5f5805d139"}, "raw_data|__part__|duplication_rate_histogram": {"id": "026755f8ca382afa", "src": "hda", "uuid": "55582365-001e-4fa8-826a-d7d11dce9f50"}, "raw_data|__part__|homopolymer_indels": {"id": "1b4d327f335a5c79", "src": "hda", "uuid": "95aea2e1-54c2-4ea6-8624-a1ed0fe8b9e9"}, "raw_data|__part__|insert_size_across_reference": {"id": "d131b154306bc8a9", "src": "hda", "uuid": "9ea8600e-ada9-499f-b833-a0bbe41f82de"}, "raw_data|__part__|insert_size_histogram": {"id": "42c284e49a25981e", "src": "hda", "uuid": "a61d7dc0-0955-45c6-9943-629629783ca9"}, "raw_data|__part__|mapped_reads_clipping_profile": {"id": "e1f29d4432c499ad", "src": "hda", "uuid": "88cf0652-9e13-4523-8ae6-d63773d987fe"}, "raw_data|__part__|mapped_reads_gc-content_distribution": {"id": "ee7c153f29d3e80c", "src": "hda", "uuid": "8044cda3-6639-4988-95e6-8b1b753a415e"}, "raw_data|__part__|mapped_reads_nucleotide_content": {"id": "6bd2c3fcb3850609", "src": "hda", "uuid": "226f957f-74bf-4ba9-a31a-66db5268c2cc"}, "raw_data|__part__|mapping_quality_across_reference": {"id": "c610149a6bccbe62", "src": "hda", "uuid": "1fcbb3bc-0d86-489a-a27a-d2bf60dd546d"}, "raw_data|__part__|mapping_quality_histogram": {"id": "6438a06cda97d4ca", "src": "hda", "uuid": "44bd6d1c-7e00-49ca-92f8-f62dba57833c"}, "output_html": {"id": "7d29ff82eafb67ba", "src": "hda", "uuid": "3299cfb9-47b5-4fae-8398-6ee8e37eb04d"}, "output_per_base_coverage": {"id": "1bc4939d3dd8a194", "src": "hda", "uuid": "cc99b869-5051-4a6d-a5c0-3e42ad61ae9d"}}, "output_collections": {"raw_data": {"id": "54e31ef6eeab329b", "src": "hdca"}}, "tool_stdout": "Java memory size is set to 1200M\nLaunching application...\n\ndetected environment java options -Djava.awt.headless=true -Xmx25769m\nQualiMap v.2.3\nBuilt on 2023-05-19 16:57\n\nSelected tool: bamqc\nAvailable memory (Mb): 389\nMax memory (Mb): 26121\nStarting bam qc....\nLoading sam header...\nLoading locator...\nLoading reference...\nOnly flagged duplicate alignments will be skipped...\nNumber of windows: 400, effective number of windows: 325\nChunk of reads size: 1000\nNumber of threads: 1\nProcessed 50 out of 325 windows...\nProcessed 100 out of 325 windows...\nProcessed 150 out of 325 windows...\nProcessed 200 out of 325 windows...\nProcessed 250 out of 325 windows...\nProcessed 300 out of 325 windows...\nTotal processed windows:325\nNumber of reads: 100\nNumber of valid reads: 100\nNumber of correct strand reads:0\n\nInside of regions...\nNum mapped reads: 100\nNum mapped first of pair: 0\nNum mapped second of pair: 0\nNum singletons: 0\nTime taken to analyze reads: 0\nComputing descriptors...\nnumberOfMappedBases: 12665\nreferenceSize: 650\nnumberOfSequencedBases: 7465\nnumberOfAs: 1910\nComputing per chromosome statistics...\nComputing histograms...\nOverall analysis time: 0\nend of bam qc\nComputing report...\nWriting HTML report...\nHTML report created successfully\n\nFinished\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "Java memory size is set to 1200M\nLaunching application...\n\ndetected environment java options -Djava.awt.headless=true -Xmx25769m\nQualiMap v.2.3\nBuilt on 2023-05-19 16:57\n\nSelected tool: bamqc\nAvailable memory (Mb): 389\nMax memory (Mb): 26121\nStarting bam qc....\nLoading sam header...\nLoading locator...\nLoading reference...\nOnly flagged duplicate alignments will be skipped...\nNumber of windows: 400, effective number of windows: 325\nChunk of reads size: 1000\nNumber of threads: 1\nProcessed 50 out of 325 windows...\nProcessed 100 out of 325 windows...\nProcessed 150 out of 325 windows...\nProcessed 200 out of 325 windows...\nProcessed 250 out of 325 windows...\nProcessed 300 out of 325 windows...\nTotal processed windows:325\nNumber of reads: 100\nNumber of valid reads: 100\nNumber of correct strand reads:0\n\nInside of regions...\nNum mapped reads: 100\nNum mapped first of pair: 0\nNum mapped second of pair: 0\nNum singletons: 0\nTime taken to analyze reads: 0\nComputing descriptors...\nnumberOfMappedBases: 12665\nreferenceSize: 650\nnumberOfSequencedBases: 7465\nnumberOfAs: 1910\nComputing per chromosome statistics...\nComputing histograms...\nOverall analysis time: 0\nend of bam qc\nComputing report...\nWriting HTML report...\nHTML report created successfully\n\nFinished\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "3 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "3.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:28:28", "plugin": "core", "name": "end_epoch", "raw_value": "1726406908.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:28:25", "plugin": "core", "name": "start_epoch", "raw_value": "1726406905.0000000"}, {"title": "Memory Allocated (MB)", "value": "25769", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "25769.0000000"}, {"title": "Cores Allocated", "value": "1", "plugin": "core", "name": "galaxy_slots", "raw_value": "1.0000000"}]}, "status": "success"}}, {"id": "qualimap_bamqc/2.3+galaxy0-2", "has_data": true, "data": {"tool_id": "qualimap_bamqc", "tool_version": "2.3+galaxy0", "test_index": 2, "time_seconds": 32.81464457511902, "inputs": {"input1": {"src": "hda", "id": "6ed277dd0b02a9ca"}, "stats_regions|regions": {"src": "hda", "id": "ddfffea10b1b2c45"}, "stats_regions|region_select": "custom_regions"}, "job": {"model_class": "Job", "id": "d80a82a8298ae2ef", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:29:11.619790", "create_time": "2024-09-15T13:28:56.280561", "galaxy_version": "23.1", "command_version": "2.3", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/iuc/qualimap_bamqc/qualimap_bamqc/2.3+galaxy0", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-jp5fv", "command_line": "export JAVA_OPTS=\"-Djava.awt.headless=true -Xmx${GALAXY_MEMORY_MB:-1024}m\" &&   ln -s '/galaxy/server/database/objects/f/c/4/dataset_fc4ec836-ee7b-4523-b708-72a2b8c6a53b.dat' regions.gtf &&   ln -s '/galaxy/server/database/objects/c/f/7/dataset_cf79fa9e-c143-418d-9150-f74437f9ef20.dat' 'test_mapped_reads_bam' &&  qualimap bamqc -bam 'test_mapped_reads_bam' -outdir results -outformat html --collect-overlap-pairs -gff regions.gtf -nw 400 --paint-chromosome-limits -hm 3  --skip-duplicated --skip-dup-mode 0 -nt ${GALAXY_SLOTS:-1} &&   sed 's|images_qualimapReport/||g;s|css/||g' results/qualimapReport.html > '/galaxy/server/database/objects/b/7/e/dataset_b7e88771-a36a-41bd-b2bb-4de22d13e0f6.dat' && mkdir '/galaxy/server/database/objects/b/7/e/dataset_b7e88771-a36a-41bd-b2bb-4de22d13e0f6_files' && mv results/css/*.css '/galaxy/server/database/objects/b/7/e/dataset_b7e88771-a36a-41bd-b2bb-4de22d13e0f6_files' && mv results/css/*.png '/galaxy/server/database/objects/b/7/e/dataset_b7e88771-a36a-41bd-b2bb-4de22d13e0f6_files' && if [ -d results/images_qualimapReport ]; then mv results/images_qualimapReport/* '/galaxy/server/database/objects/b/7/e/dataset_b7e88771-a36a-41bd-b2bb-4de22d13e0f6_files' && for file in $(ls -A results/raw_data_qualimapReport); do mv \"results/raw_data_qualimapReport/$file\" `echo \"results/$file\" | sed 's/(//;s/)//'`; done fi && mv results/genome_results.txt results/summary_report.txt", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "plot_specific": "{\"genome_gc_distr\": null, \"homopolymer_size\": \"3\", \"n_bins\": \"400\", \"paint_chromosome_limits\": true}", "duplicate_skipping": "\"0\"", "per_base_coverage": "false", "stats_regions": "{\"__current_case__\": 1, \"outside_stats\": false, \"region_select\": \"custom_regions\", \"regions\": {\"values\": [{\"id\": 249, \"src\": \"hda\"}]}}"}, "inputs": {"input1": {"id": "6ed277dd0b02a9ca", "src": "hda", "uuid": "cf79fa9e-c143-418d-9150-f74437f9ef20"}, "stats_regions|regions": {"id": "ddfffea10b1b2c45", "src": "hda", "uuid": "fc4ec836-ee7b-4523-b708-72a2b8c6a53b"}}, "outputs": {"raw_data|__part__|homopolymer_indels": {"id": "9adad6bbf9168310", "src": "hda", "uuid": "f6787715-12fc-42a5-bb4d-63407bbe9fe4"}, "raw_data|__part__|insert_size_across_reference": {"id": "fdab6043cf4cb7b1", "src": "hda", "uuid": "e7a9e1f4-cd52-4c0a-930e-714adc58aa24"}, "raw_data|__part__|insert_size_histogram": {"id": "94e21f32714002a7", "src": "hda", "uuid": "fd74aed9-15c4-4d31-9119-43fb6b136059"}, "raw_data|__part__|mapped_reads_clipping_profile": {"id": "2550be9952d34166", "src": "hda", "uuid": "8dc5378b-5e1a-4f8b-9fc3-6842c1028c6c"}, "raw_data|__part__|mapped_reads_gc-content_distribution": {"id": "0e3cd0456d8e8bf0", "src": "hda", "uuid": "1149fde2-1e67-458e-858e-6eac3b17787a"}, "raw_data|__part__|mapped_reads_nucleotide_content": {"id": "d2ceb15259ca9078", "src": "hda", "uuid": "5bc73059-4d03-41cc-bb36-57b0819712a4"}, "raw_data|__part__|mapping_quality_across_reference": {"id": "0490b88b1895f7da", "src": "hda", "uuid": "1351e0a9-d8ad-4eae-a711-1b91189e21e1"}, "raw_data|__part__|mapping_quality_histogram": {"id": "42064ed5f3971a1c", "src": "hda", "uuid": "d4032db4-d1fc-4c57-a3b3-b2dbebf58711"}, "output_html": {"id": "f683ebd4275f4699", "src": "hda", "uuid": "b7e88771-a36a-41bd-b2bb-4de22d13e0f6"}, "raw_data|__part__|genome_results": {"id": "b7c6149f3be54050", "src": "hda", "uuid": "f3c826b1-8605-470c-8b44-0e6201e93dcd"}, "raw_data|__part__|coverage_across_reference": {"id": "2271ebc3b25ae0f8", "src": "hda", "uuid": "ee7f8b6f-45f4-498e-aabf-012e287d0610"}, "raw_data|__part__|coverage_histogram": {"id": "f2fe9280c3b5489b", "src": "hda", "uuid": "0810f503-bb73-4f1b-a039-49a7545a18fb"}, "raw_data|__part__|genome_fraction_coverage": {"id": "3e1cfba6a1d0309f", "src": "hda", "uuid": "e7d3bbe6-2105-410a-9be0-7a0d495e0e08"}, "raw_data|__part__|duplication_rate_histogram": {"id": "b3c36b887b27ade7", "src": "hda", "uuid": "63ae6c27-7ea5-4b1f-b05c-caaa8836b5f7"}}, "output_collections": {"raw_data": {"id": "b0efc0378f793500", "src": "hdca"}}, "tool_stdout": "Java memory size is set to 1200M\nLaunching application...\n\ndetected environment java options -Djava.awt.headless=true -Xmx25769m\nQualiMap v.2.3\nBuilt on 2023-05-19 16:57\n\nSelected tool: bamqc\nAvailable memory (Mb): 389\nMax memory (Mb): 26121\nStarting bam qc....\nLoading sam header...\nLoading locator...\nLoading reference...\nOnly flagged duplicate alignments will be skipped...\nNumber of windows: 400, effective number of windows: 325\nChunk of reads size: 1000\nNumber of threads: 1\nInitializing regions from regions.gtf.....\nFound 4 regions\nFilling region references... \nProcessed 50 out of 325 windows...\nProcessed 100 out of 325 windows...\nProcessed 150 out of 325 windows...\nProcessed 200 out of 325 windows...\nProcessed 250 out of 325 windows...\nProcessed 300 out of 325 windows...\nTotal processed windows:325\nNumber of reads: 100\nNumber of valid reads: 100\nNumber of correct strand reads:0\n\nInside of regions...\nNum mapped reads: 82\nNum mapped first of pair: 0\nNum mapped second of pair: 0\nNum singletons: 0\nTime taken to analyze reads: 0\nComputing descriptors...\nnumberOfMappedBases: 6451\nreferenceSize: 650\nnumberOfSequencedBases: 5101\nnumberOfAs: 1243\nComputing per chromosome statistics...\nComputing histograms...\nOverall analysis time: 0\nend of bam qc\nComputing report...\nWriting HTML report...\nHTML report created successfully\n\nFinished\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "Java memory size is set to 1200M\nLaunching application...\n\ndetected environment java options -Djava.awt.headless=true -Xmx25769m\nQualiMap v.2.3\nBuilt on 2023-05-19 16:57\n\nSelected tool: bamqc\nAvailable memory (Mb): 389\nMax memory (Mb): 26121\nStarting bam qc....\nLoading sam header...\nLoading locator...\nLoading reference...\nOnly flagged duplicate alignments will be skipped...\nNumber of windows: 400, effective number of windows: 325\nChunk of reads size: 1000\nNumber of threads: 1\nInitializing regions from regions.gtf.....\nFound 4 regions\nFilling region references... \nProcessed 50 out of 325 windows...\nProcessed 100 out of 325 windows...\nProcessed 150 out of 325 windows...\nProcessed 200 out of 325 windows...\nProcessed 250 out of 325 windows...\nProcessed 300 out of 325 windows...\nTotal processed windows:325\nNumber of reads: 100\nNumber of valid reads: 100\nNumber of correct strand reads:0\n\nInside of regions...\nNum mapped reads: 82\nNum mapped first of pair: 0\nNum mapped second of pair: 0\nNum singletons: 0\nTime taken to analyze reads: 0\nComputing descriptors...\nnumberOfMappedBases: 6451\nreferenceSize: 650\nnumberOfSequencedBases: 5101\nnumberOfAs: 1243\nComputing per chromosome statistics...\nComputing histograms...\nOverall analysis time: 0\nend of bam qc\nComputing report...\nWriting HTML report...\nHTML report created successfully\n\nFinished\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "4 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "4.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:29:02", "plugin": "core", "name": "end_epoch", "raw_value": "1726406942.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:28:58", "plugin": "core", "name": "start_epoch", "raw_value": "1726406938.0000000"}, {"title": "Memory Allocated (MB)", "value": "25769", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "25769.0000000"}, {"title": "Cores Allocated", "value": "1", "plugin": "core", "name": "galaxy_slots", "raw_value": "1.0000000"}]}, "status": "success"}}, {"id": "qualimap_bamqc/2.3+galaxy0-3", "has_data": true, "data": {"tool_id": "qualimap_bamqc", "tool_version": "2.3+galaxy0", "test_index": 3, "time_seconds": 32.20876741409302, "inputs": {"input1": {"src": "hda", "id": "6c55357c2c3c587b"}, "stats_regions|regions": {"src": "hda", "id": "36edd20ca904d49a"}, "stats_regions|region_select": "custom_regions", "per_base_coverage": true}, "job": {"model_class": "Job", "id": "5e1670218c5c6065", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:29:43.247961", "create_time": "2024-09-15T13:29:29.132282", "galaxy_version": "23.1", "command_version": "2.3", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/iuc/qualimap_bamqc/qualimap_bamqc/2.3+galaxy0", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-hwl4v", "command_line": "export JAVA_OPTS=\"-Djava.awt.headless=true -Xmx${GALAXY_MEMORY_MB:-1024}m\" &&   ln -s '/galaxy/server/database/objects/1/0/7/dataset_1072a135-a702-4a42-bf5e-8dce6e706049.dat' regions.gtf &&   ln -s '/galaxy/server/database/objects/f/6/4/dataset_f645e397-034b-4408-9aca-c2a0b3dc2b47.dat' 'test_mapped_reads_bam' &&  qualimap bamqc -bam 'test_mapped_reads_bam' -outdir results -outformat html --collect-overlap-pairs -gff regions.gtf --output-genome-coverage results/coverage.txt -nw 400 --paint-chromosome-limits -hm 3  --skip-duplicated --skip-dup-mode 0 -nt ${GALAXY_SLOTS:-1} &&  mv results/coverage.txt '/galaxy/server/database/objects/d/0/1/dataset_d01ace8d-4028-4f21-8555-dc6e8db440ca.dat' &&  sed 's|images_qualimapReport/||g;s|css/||g' results/qualimapReport.html > '/galaxy/server/database/objects/8/4/0/dataset_840e85a8-6e16-4065-aa5e-30aed89f6210.dat' && mkdir '/galaxy/server/database/objects/8/4/0/dataset_840e85a8-6e16-4065-aa5e-30aed89f6210_files' && mv results/css/*.css '/galaxy/server/database/objects/8/4/0/dataset_840e85a8-6e16-4065-aa5e-30aed89f6210_files' && mv results/css/*.png '/galaxy/server/database/objects/8/4/0/dataset_840e85a8-6e16-4065-aa5e-30aed89f6210_files' && if [ -d results/images_qualimapReport ]; then mv results/images_qualimapReport/* '/galaxy/server/database/objects/8/4/0/dataset_840e85a8-6e16-4065-aa5e-30aed89f6210_files' && for file in $(ls -A results/raw_data_qualimapReport); do mv \"results/raw_data_qualimapReport/$file\" `echo \"results/$file\" | sed 's/(//;s/)//'`; done fi && mv results/genome_results.txt results/summary_report.txt", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "plot_specific": "{\"genome_gc_distr\": null, \"homopolymer_size\": \"3\", \"n_bins\": \"400\", \"paint_chromosome_limits\": true}", "duplicate_skipping": "\"0\"", "per_base_coverage": "true", "stats_regions": "{\"__current_case__\": 1, \"outside_stats\": false, \"region_select\": \"custom_regions\", \"regions\": {\"values\": [{\"id\": 265, \"src\": \"hda\"}]}}"}, "inputs": {"input1": {"id": "6c55357c2c3c587b", "src": "hda", "uuid": "f645e397-034b-4408-9aca-c2a0b3dc2b47"}, "stats_regions|regions": {"id": "36edd20ca904d49a", "src": "hda", "uuid": "1072a135-a702-4a42-bf5e-8dce6e706049"}}, "outputs": {"raw_data|__part__|genome_results": {"id": "0fac403502b73e1a", "src": "hda", "uuid": "6cef1237-ff0d-49de-a48e-8586c6b0d19e"}, "raw_data|__part__|coverage_across_reference": {"id": "18f66d72c923ac35", "src": "hda", "uuid": "1c8359a0-1ea5-4583-89f0-5d4e61e5a335"}, "raw_data|__part__|coverage_histogram": {"id": "edb1cbf5f430f5a3", "src": "hda", "uuid": "2ef6ed8a-c402-43ba-9b35-a7b22600ad96"}, "raw_data|__part__|genome_fraction_coverage": {"id": "48c7f2bebd1937db", "src": "hda", "uuid": "ff35d5bc-226c-49b8-9269-68a147eef221"}, "raw_data|__part__|duplication_rate_histogram": {"id": "cf7a348a53543c85", "src": "hda", "uuid": "c162b844-fc9f-46c4-b53c-bebbaaa39c16"}, "raw_data|__part__|homopolymer_indels": {"id": "57ee98935c255173", "src": "hda", "uuid": "047e4bc6-99e8-4b72-accf-dfcb117270aa"}, "raw_data|__part__|insert_size_across_reference": {"id": "81a385fe80546354", "src": "hda", "uuid": "11172663-a7b1-462a-b767-2926cd1e6dca"}, "raw_data|__part__|insert_size_histogram": {"id": "7e25d676f0d3a74e", "src": "hda", "uuid": "fb0b7fd9-ed34-43e4-ab0d-42c26b391371"}, "raw_data|__part__|mapped_reads_clipping_profile": {"id": "286e9de4b25d1b9a", "src": "hda", "uuid": "159343b1-d3db-439b-9eb7-dbfeeb11c473"}, "raw_data|__part__|mapped_reads_gc-content_distribution": {"id": "cbcf7ed0818be309", "src": "hda", "uuid": "d3dfee3d-970e-4ee9-9002-003fa4b11c54"}, "raw_data|__part__|mapped_reads_nucleotide_content": {"id": "d4dd85e7a377e395", "src": "hda", "uuid": "87e2ae8f-6c63-46f6-a7b2-8590fae27bd9"}, "raw_data|__part__|mapping_quality_across_reference": {"id": "4dd81506661f842e", "src": "hda", "uuid": "de0fe331-653f-4035-962d-664d0b59a72a"}, "raw_data|__part__|mapping_quality_histogram": {"id": "7fdd7b6692260c68", "src": "hda", "uuid": "a22d19e6-4d1b-4d0f-bfc0-b9a95639aac9"}, "output_html": {"id": "77b20b0f3aa70120", "src": "hda", "uuid": "840e85a8-6e16-4065-aa5e-30aed89f6210"}, "output_per_base_coverage": {"id": "5640a5aa5a51c188", "src": "hda", "uuid": "d01ace8d-4028-4f21-8555-dc6e8db440ca"}}, "output_collections": {"raw_data": {"id": "f3c09851b30585b9", "src": "hdca"}}, "tool_stdout": "Java memory size is set to 1200M\nLaunching application...\n\ndetected environment java options -Djava.awt.headless=true -Xmx25769m\nQualiMap v.2.3\nBuilt on 2023-05-19 16:57\n\nSelected tool: bamqc\nAvailable memory (Mb): 389\nMax memory (Mb): 26121\nStarting bam qc....\nLoading sam header...\nLoading locator...\nLoading reference...\nOnly flagged duplicate alignments will be skipped...\nNumber of windows: 400, effective number of windows: 325\nChunk of reads size: 1000\nNumber of threads: 1\nInitializing regions from regions.gtf.....\nFound 4 regions\nFilling region references... \nProcessed 50 out of 325 windows...\nProcessed 100 out of 325 windows...\nProcessed 150 out of 325 windows...\nProcessed 200 out of 325 windows...\nProcessed 250 out of 325 windows...\nProcessed 300 out of 325 windows...\nTotal processed windows:325\nNumber of reads: 100\nNumber of valid reads: 100\nNumber of correct strand reads:0\n\nInside of regions...\nNum mapped reads: 82\nNum mapped first of pair: 0\nNum mapped second of pair: 0\nNum singletons: 0\nTime taken to analyze reads: 0\nComputing descriptors...\nnumberOfMappedBases: 6451\nreferenceSize: 650\nnumberOfSequencedBases: 5101\nnumberOfAs: 1243\nComputing per chromosome statistics...\nComputing histograms...\nOverall analysis time: 0\nend of bam qc\nComputing report...\nWriting HTML report...\nHTML report created successfully\n\nFinished\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "Java memory size is set to 1200M\nLaunching application...\n\ndetected environment java options -Djava.awt.headless=true -Xmx25769m\nQualiMap v.2.3\nBuilt on 2023-05-19 16:57\n\nSelected tool: bamqc\nAvailable memory (Mb): 389\nMax memory (Mb): 26121\nStarting bam qc....\nLoading sam header...\nLoading locator...\nLoading reference...\nOnly flagged duplicate alignments will be skipped...\nNumber of windows: 400, effective number of windows: 325\nChunk of reads size: 1000\nNumber of threads: 1\nInitializing regions from regions.gtf.....\nFound 4 regions\nFilling region references... \nProcessed 50 out of 325 windows...\nProcessed 100 out of 325 windows...\nProcessed 150 out of 325 windows...\nProcessed 200 out of 325 windows...\nProcessed 250 out of 325 windows...\nProcessed 300 out of 325 windows...\nTotal processed windows:325\nNumber of reads: 100\nNumber of valid reads: 100\nNumber of correct strand reads:0\n\nInside of regions...\nNum mapped reads: 82\nNum mapped first of pair: 0\nNum mapped second of pair: 0\nNum singletons: 0\nTime taken to analyze reads: 0\nComputing descriptors...\nnumberOfMappedBases: 6451\nreferenceSize: 650\nnumberOfSequencedBases: 5101\nnumberOfAs: 1243\nComputing per chromosome statistics...\nComputing histograms...\nOverall analysis time: 0\nend of bam qc\nComputing report...\nWriting HTML report...\nHTML report created successfully\n\nFinished\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "4 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "4.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:29:34", "plugin": "core", "name": "end_epoch", "raw_value": "1726406974.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:29:30", "plugin": "core", "name": "start_epoch", "raw_value": "1726406970.0000000"}, {"title": "Memory Allocated (MB)", "value": "25769", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "25769.0000000"}, {"title": "Cores Allocated", "value": "1", "plugin": "core", "name": "galaxy_slots", "raw_value": "1.0000000"}]}, "status": "success"}}, {"id": "qualimap_bamqc/2.3+galaxy0-4", "has_data": true, "data": {"tool_id": "qualimap_bamqc", "tool_version": "2.3+galaxy0", "test_index": 4, "time_seconds": 34.61634945869446, "inputs": {"input1": {"src": "hda", "id": "1dae68700cab37ec"}, "stats_regions|regions": {"src": "hda", "id": "b6b80939afe6ad52"}, "stats_regions|outside_stats": true, "stats_regions|region_select": "custom_regions", "per_base_coverage": true}, "job": {"model_class": "Job", "id": "b02d279258a330e9", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:30:18.133186", "create_time": "2024-09-15T13:30:00.465275", "galaxy_version": "23.1", "command_version": "2.3", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/iuc/qualimap_bamqc/qualimap_bamqc/2.3+galaxy0", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-r2bl7", "command_line": "export JAVA_OPTS=\"-Djava.awt.headless=true -Xmx${GALAXY_MEMORY_MB:-1024}m\" &&   ln -s '/galaxy/server/database/objects/8/8/a/dataset_88abee7f-1b7d-4621-b174-327e2517768c.dat' regions.gtf &&   ln -s '/galaxy/server/database/objects/9/4/2/dataset_94216bbf-4d82-49a5-8137-12471762776b.dat' 'test_mapped_reads_bam' &&  qualimap bamqc -bam 'test_mapped_reads_bam' -outdir results -outformat html --collect-overlap-pairs -gff regions.gtf --outside-stats --output-genome-coverage /dev/null -nw 400 --paint-chromosome-limits -hm 3  --skip-duplicated --skip-dup-mode 0 -nt ${GALAXY_SLOTS:-1} &&  mv results/outside_coverage.txt '/galaxy/server/database/objects/3/2/9/dataset_32950e22-1cb1-4bdb-b8b7-c394904f839b.dat' &&  sed 's|images_qualimapReportOutsideRegions/||g;s|css/||g' results/qualimapReportOutsideRegions.html > '/galaxy/server/database/objects/2/e/e/dataset_2eea5415-536b-4689-981f-4487d5f68b8b.dat' && mkdir '/galaxy/server/database/objects/2/e/e/dataset_2eea5415-536b-4689-981f-4487d5f68b8b_files' && mv results/css/*.css '/galaxy/server/database/objects/2/e/e/dataset_2eea5415-536b-4689-981f-4487d5f68b8b_files' && mv results/css/*.png '/galaxy/server/database/objects/2/e/e/dataset_2eea5415-536b-4689-981f-4487d5f68b8b_files' && if [ -d results/images_qualimapReportOutsideRegions ]; then mv results/images_qualimapReportOutsideRegions/* '/galaxy/server/database/objects/2/e/e/dataset_2eea5415-536b-4689-981f-4487d5f68b8b_files' && for file in $(ls -A results/raw_data_qualimapReportOutsideRegions); do mv \"results/raw_data_qualimapReportOutsideRegions/$file\" `echo \"results/$file\" | sed 's/(//;s/)//'`; done fi && mv results/outside_results.txt results/summary_report.txt", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "plot_specific": "{\"genome_gc_distr\": null, \"homopolymer_size\": \"3\", \"n_bins\": \"400\", \"paint_chromosome_limits\": true}", "duplicate_skipping": "\"0\"", "per_base_coverage": "true", "stats_regions": "{\"__current_case__\": 1, \"outside_stats\": true, \"region_select\": \"custom_regions\", \"regions\": {\"values\": [{\"id\": 282, \"src\": \"hda\"}]}}"}, "inputs": {"input1": {"id": "1dae68700cab37ec", "src": "hda", "uuid": "94216bbf-4d82-49a5-8137-12471762776b"}, "stats_regions|regions": {"id": "b6b80939afe6ad52", "src": "hda", "uuid": "88abee7f-1b7d-4621-b174-327e2517768c"}}, "outputs": {"raw_data|__part__|genome_results": {"id": "db2d9cdd0c4fb4e6", "src": "hda", "uuid": "40f02bd4-7388-41db-b4a0-1ddbdbed0448"}, "raw_data|__part__|coverage_across_reference": {"id": "2127214506736202", "src": "hda", "uuid": "6f109476-2071-4eb3-980d-65f38f832a09"}, "raw_data|__part__|coverage_histogram": {"id": "3ab7780fd4d9175b", "src": "hda", "uuid": "e3f5df17-00dc-41ff-9765-4131b595343d"}, "raw_data|__part__|genome_fraction_coverage": {"id": "8cf8cd0bbfe118b6", "src": "hda", "uuid": "34d7ae34-9515-480a-b1db-8b4f8558cd04"}, "raw_data|__part__|duplication_rate_histogram": {"id": "2aeec8b97463f244", "src": "hda", "uuid": "7c7aa12c-1538-46af-bf43-66ccdb05fbe2"}, "raw_data|__part__|homopolymer_indels": {"id": "c49713abfa140724", "src": "hda", "uuid": "cc6f1c97-daf2-49c7-b8be-e687c189993b"}, "raw_data|__part__|insert_size_across_reference": {"id": "2635ab551e682228", "src": "hda", "uuid": "e934e8ef-d4aa-4e10-a7e9-c04bcca32566"}, "raw_data|__part__|insert_size_histogram": {"id": "82ff2ccddce29446", "src": "hda", "uuid": "ac9ae5f3-2383-4ba4-87dd-464a9c744a78"}, "raw_data|__part__|mapped_reads_clipping_profile": {"id": "d3ed6e3dd506c087", "src": "hda", "uuid": "c10360e8-2b24-4cd0-8b8f-85d1a6223d9e"}, "raw_data|__part__|mapped_reads_gc-content_distribution": {"id": "50f7e846af58165e", "src": "hda", "uuid": "e5b56a50-aafa-4ec3-9331-4e2dddedd4c1"}, "raw_data|__part__|mapped_reads_nucleotide_content": {"id": "cffa3110ffb8563b", "src": "hda", "uuid": "c0fcfba0-6802-4b62-b35a-2f2011ddb60e"}, "raw_data|__part__|mapping_quality_across_reference": {"id": "44ecffacac18854d", "src": "hda", "uuid": "ae5a1610-aa09-43d3-ac52-361e658260aa"}, "raw_data|__part__|mapping_quality_histogram": {"id": "c56b0c61b429ad50", "src": "hda", "uuid": "8c057cd5-aca9-44a1-8321-319111a031f2"}, "output_html": {"id": "b4de7d4458e300f4", "src": "hda", "uuid": "2eea5415-536b-4689-981f-4487d5f68b8b"}, "output_per_base_coverage": {"id": "06c60db44ae1252d", "src": "hda", "uuid": "32950e22-1cb1-4bdb-b8b7-c394904f839b"}}, "output_collections": {"raw_data": {"id": "4eb314d430a6af05", "src": "hdca"}}, "tool_stdout": "Java memory size is set to 1200M\nLaunching application...\n\ndetected environment java options -Djava.awt.headless=true -Xmx25769m\nQualiMap v.2.3\nBuilt on 2023-05-19 16:57\n\nSelected tool: bamqc\nAvailable memory (Mb): 389\nMax memory (Mb): 26121\nStarting bam qc....\nLoading sam header...\nLoading locator...\nLoading reference...\nOnly flagged duplicate alignments will be skipped...\nNumber of windows: 400, effective number of windows: 325\nChunk of reads size: 1000\nNumber of threads: 1\nInitializing regions from regions.gtf.....\nFound 4 regions\nFilling region references... \nProcessed 50 out of 325 windows...\nProcessed 100 out of 325 windows...\nProcessed 150 out of 325 windows...\nProcessed 200 out of 325 windows...\nProcessed 250 out of 325 windows...\nProcessed 300 out of 325 windows...\nTotal processed windows:325\nNumber of reads: 100\nNumber of valid reads: 100\nNumber of correct strand reads:0\n\nInside of regions...\nNum mapped reads: 82\nNum mapped first of pair: 0\nNum mapped second of pair: 0\nNum singletons: 0\n\nOuside of regions...\nNum mapped reads: 18\nNum mapped first of pair: 0\nNum mapped second of pair: 0\nNum singletons: 0\nTime taken to analyze reads: 0\nComputing descriptors...\nnumberOfMappedBases: 6451\nreferenceSize: 650\nnumberOfSequencedBases: 5101\nnumberOfAs: 1243\nComputing per chromosome statistics...\nComputing histograms...\nComputing descriptors for outside regions...\nnumberOfMappedBases: 6214\nreferenceSize: 650\nnumberOfSequencedBases: 2364\nnumberOfAs: 667\nComputing per chromosome statistics for outside regions...\nComputing histograms for outside regions...\nOverall analysis time: 0\nend of bam qc\nComputing report...\nWriting HTML report...\nHTML report created successfully\n\nFinished\n", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "Java memory size is set to 1200M\nLaunching application...\n\ndetected environment java options -Djava.awt.headless=true -Xmx25769m\nQualiMap v.2.3\nBuilt on 2023-05-19 16:57\n\nSelected tool: bamqc\nAvailable memory (Mb): 389\nMax memory (Mb): 26121\nStarting bam qc....\nLoading sam header...\nLoading locator...\nLoading reference...\nOnly flagged duplicate alignments will be skipped...\nNumber of windows: 400, effective number of windows: 325\nChunk of reads size: 1000\nNumber of threads: 1\nInitializing regions from regions.gtf.....\nFound 4 regions\nFilling region references... \nProcessed 50 out of 325 windows...\nProcessed 100 out of 325 windows...\nProcessed 150 out of 325 windows...\nProcessed 200 out of 325 windows...\nProcessed 250 out of 325 windows...\nProcessed 300 out of 325 windows...\nTotal processed windows:325\nNumber of reads: 100\nNumber of valid reads: 100\nNumber of correct strand reads:0\n\nInside of regions...\nNum mapped reads: 82\nNum mapped first of pair: 0\nNum mapped second of pair: 0\nNum singletons: 0\n\nOuside of regions...\nNum mapped reads: 18\nNum mapped first of pair: 0\nNum mapped second of pair: 0\nNum singletons: 0\nTime taken to analyze reads: 0\nComputing descriptors...\nnumberOfMappedBases: 6451\nreferenceSize: 650\nnumberOfSequencedBases: 5101\nnumberOfAs: 1243\nComputing per chromosome statistics...\nComputing histograms...\nComputing descriptors for outside regions...\nnumberOfMappedBases: 6214\nreferenceSize: 650\nnumberOfSequencedBases: 2364\nnumberOfAs: 667\nComputing per chromosome statistics for outside regions...\nComputing histograms for outside regions...\nOverall analysis time: 0\nend of bam qc\nComputing report...\nWriting HTML report...\nHTML report created successfully\n\nFinished\n", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "5 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "5.0000000"}, {"title": "Job End Time", "value": "2024-09-15 13:30:08", "plugin": "core", "name": "end_epoch", "raw_value": "1726407008.0000000"}, {"title": "Job Start Time", "value": 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"toolshed.g2.bx.psu.edu/repos/devteam/samtools_stats/samtools_stats/2.0.5", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-5m9x4", "command_line": "addthreads=${GALAXY_SLOTS:-1} && (( addthreads-- )) &&   ln -s '/galaxy/server/database/objects/6/3/6/dataset_63699c9f-dab9-40bd-977e-6d1fe7c678ed.dat' infile &&      reffa=\"reference.fa\" && ln -s '/galaxy/server/database/objects/f/f/d/dataset_ffd151ba-ecfa-4b7f-a4ae-e9d97c2e9908.dat' $reffa && samtools faidx $reffa && reffai=$reffa.fai &&  samtools stats   --ref-seq \"$reffa\"     -@ $addthreads infile   > '/galaxy/server/database/objects/7/8/7/dataset_787fe137-e37b-4a55-a848-372392dd2d2d.dat'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "cov_threshold": "\"\"", "remove_overlaps": "false", "sparse": "false", "cond_region": "{\"__current_case__\": 0, \"select_region\": \"no\"}", "addref_cond": "{\"__current_case__\": 1, \"addref_select\": \"history\", \"ref\": {\"values\": [{\"id\": 299, \"src\": \"hda\"}]}}", "trim_quality": "\"\"", "most_inserts": "\"\"", "read_length": "\"\"", "read_group": null, "insert_size": "\"\"", "gc_depth": "\"\"", "filter_by_flags": "{\"__current_case__\": 1, \"filter_flags\": \"nofilter\"}", "split_output_cond": "{\"__current_case__\": 0, \"split_output_selector\": \"no\"}", "remove_dups": "false", "coverage_cond": "{\"__current_case__\": 0, \"coverage_select\": \"no\"}"}, "inputs": {"input": {"id": "cf715a43e8984b01", "src": "hda", "uuid": "63699c9f-dab9-40bd-977e-6d1fe7c678ed"}, "addref_cond|ref": {"id": "20451985a988b97a", "src": "hda", "uuid": "ffd151ba-ecfa-4b7f-a4ae-e9d97c2e9908"}}, "outputs": {"output": {"id": "df0cc0a834e53d90", "src": "hda", "uuid": "787fe137-e37b-4a55-a848-372392dd2d2d"}}, "output_collections": {}, "tool_stdout": "", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "", "job_messages": [], "dependencies": [], 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'/galaxy/server/database/objects/d/f/5/dataset_df5b1c35-c4ef-497a-b437-b00dfcbaca57.dat'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "cov_threshold": "\"\"", "remove_overlaps": "false", "sparse": "false", "cond_region": "{\"__current_case__\": 0, \"select_region\": \"no\"}", "addref_cond": "{\"__current_case__\": 1, \"addref_select\": \"history\", \"ref\": {\"values\": [{\"id\": 302, \"src\": \"hda\"}]}}", "trim_quality": "\"\"", "most_inserts": "\"\"", "read_length": "\"\"", "read_group": null, "insert_size": "\"\"", "gc_depth": "\"\"", "filter_by_flags": "{\"__current_case__\": 1, \"filter_flags\": \"nofilter\"}", "split_output_cond": "{\"__current_case__\": 0, \"split_output_selector\": \"no\"}", "remove_dups": "false", "coverage_cond": "{\"__current_case__\": 0, \"coverage_select\": \"no\"}"}, "inputs": {"input": {"id": "c3396c44dddf7ce6", "src": "hda", "uuid": "d31a7dff-bf03-4275-824b-13ebf046edb9"}, "addref_cond|ref": {"id": "dff1e835cab73481", "src": "hda", "uuid": "e328a735-a591-4bc2-bb06-a0f3717c4923"}}, "outputs": {"output": {"id": "deb87a6459d90cee", "src": "hda", "uuid": "df5b1c35-c4ef-497a-b437-b00dfcbaca57"}}, "output_collections": {}, "tool_stdout": "", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "0 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "0E-7"}, {"title": "Job End Time", "value": "2024-09-15 13:31:07", "plugin": "core", "name": "end_epoch", "raw_value": "1726407067.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:31:07", "plugin": "core", "name": "start_epoch", "raw_value": "1726407067.0000000"}, {"title": "Memory Allocated (MB)", "value": "4080", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "4080.0000000"}, {"title": "Cores Allocated", "value": "1", "plugin": "core", "name": "galaxy_slots", "raw_value": "1.0000000"}]}, "status": "success"}}, {"id": "samtools_stats/2.0.5-10", "has_data": true, "data": {"tool_id": "samtools_stats", "tool_version": "2.0.5", "test_index": 10, "time_seconds": 28.49107265472412, "inputs": {"input": {"src": "hda", "id": "fe8af5b1c4c8c4cb"}, "addref_cond|addref_select": "no", "cond_region|targetregions": {"src": "hda", "id": "65dd4cae8a6ed501"}, "cond_region|select_region": "tab", "remove_overlaps": true}, "job": {"model_class": "Job", "id": "ae2899ebddbf6882", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:35:16.761644", "create_time": "2024-09-15T13:35:05.203773", "galaxy_version": "23.1", "command_version": "Version: 1.20 (using htslib 1.20)", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/devteam/samtools_stats/samtools_stats/2.0.5", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-48pfh", "command_line": "addthreads=${GALAXY_SLOTS:-1} && (( addthreads-- )) &&   ln -s '/galaxy/server/database/objects/0/c/5/dataset_0c53dce3-c70e-4516-81a9-c693bfb59a2f.dat' infile && ln -s '/galaxy/server/database/objects/_metadata_files/5/0/b/metadata_50b08dab-f99e-4e30-8e82-e521e1d955f2.dat' infile.bai &&       samtools stats     -t '/galaxy/server/database/objects/b/7/0/dataset_b70536a8-fb6e-42b0-821b-0ce17f871691.dat'  -p -@ $addthreads infile   > '/galaxy/server/database/objects/f/7/e/dataset_f7ec810a-df6d-4c16-a122-9a8b08873a2a.dat'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "cov_threshold": "\"\"", "remove_overlaps": "true", "sparse": "false", "cond_region": "{\"__current_case__\": 2, \"select_region\": \"tab\", \"targetregions\": {\"values\": [{\"id\": 327, \"src\": \"hda\"}]}}", "addref_cond": "{\"__current_case__\": 0, \"addref_select\": \"no\"}", "trim_quality": "\"\"", "most_inserts": "\"\"", "read_length": "\"\"", "read_group": null, "insert_size": "\"\"", "gc_depth": "\"\"", "filter_by_flags": "{\"__current_case__\": 1, \"filter_flags\": \"nofilter\"}", "split_output_cond": "{\"__current_case__\": 0, \"split_output_selector\": \"no\"}", "remove_dups": "false", "coverage_cond": "{\"__current_case__\": 0, \"coverage_select\": \"no\"}"}, "inputs": {"input": {"id": "fe8af5b1c4c8c4cb", "src": "hda", "uuid": "0c53dce3-c70e-4516-81a9-c693bfb59a2f"}, "cond_region|targetregions": {"id": "65dd4cae8a6ed501", "src": "hda", "uuid": "b70536a8-fb6e-42b0-821b-0ce17f871691"}}, "outputs": {"output": {"id": "e6a243827dc925e9", "src": "hda", "uuid": "f7ec810a-df6d-4c16-a122-9a8b08873a2a"}}, "output_collections": {}, "tool_stdout": "", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "0 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "0E-7"}, {"title": "Job End Time", "value": "2024-09-15 13:35:07", "plugin": "core", "name": "end_epoch", "raw_value": "1726407307.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:35:07", "plugin": "core", "name": "start_epoch", "raw_value": "1726407307.0000000"}, {"title": "Memory Allocated (MB)", "value": "4080", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "4080.0000000"}, {"title": "Cores Allocated", "value": "1", "plugin": "core", "name": "galaxy_slots", "raw_value": "1.0000000"}]}, "status": "success"}}, {"id": "samtools_stats/2.0.5-11", "has_data": true, "data": {"tool_id": "samtools_stats", "tool_version": "2.0.5", "test_index": 11, "time_seconds": 27.77278971672058, "inputs": {"input": {"src": "hda", "id": "ddc30ffe713d1b4a"}, "addref_cond|ref": {"src": "hda", "id": "f2d592c311a5df45"}, "addref_cond|addref_select": "history"}, "job": {"model_class": "Job", "id": "95f82b26b320a110", "state": 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"command_line": "addthreads=${GALAXY_SLOTS:-1} && (( addthreads-- )) &&   ln -s '/galaxy/server/database/objects/4/7/5/dataset_4756a194-ceae-4171-852b-5ec4ee7f1a99.dat' infile && ln -s '/galaxy/server/database/objects/_metadata_files/3/6/1/metadata_36161350-5658-4fc3-aef0-81b727e2930a.dat' infile.bai &&      reffa=\"reference.fa\" && ln -s '/galaxy/server/database/objects/0/e/b/dataset_0eb2905b-3593-49bd-b387-d1310b5929bc.dat' $reffa && samtools faidx $reffa && reffai=$reffa.fai &&  samtools stats   --ref-seq \"$reffa\"     -@ $addthreads infile   > 'XXXX'  && mkdir split && name=`cat 'XXXX' | grep '\\^SN' | cut -d'.' -f 1 | sed 's/^# //'` && awk '/\\^/{out=0} /\\^SN/{out=1} {if(out==1){print $0}}' 'XXXX' | sed 's/Use `grep .*` to extract this part.//' | sed 's/SN\\t//' > \"split/$name.tab\" && name=`cat 'XXXX' | grep '\\^MPC' | cut -d'.' -f 1 | sed 's/^# //'` && awk '/\\^/{out=0} /\\^MPC/{out=1} {if(out==1){print $0}}' 'XXXX' | sed 's/Use `grep .*` to extract this part.//' | sed 's/MPC\\t//' > \"split/$name.tab\" && name=`cat 'XXXX' | grep '\\^GCC' | cut -d'.' -f 1 | sed 's/^# //'` && awk '/\\^/{out=0} /\\^GCC/{out=1} {if(out==1){print $0}}' 'XXXX' | sed 's/Use `grep .*` to extract this part.//' | sed 's/GCC\\t//' > \"split/$name.tab\"", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "cov_threshold": "\"\"", "remove_overlaps": "false", "sparse": "false", "cond_region": "{\"__current_case__\": 0, \"select_region\": \"no\"}", "addref_cond": "{\"__current_case__\": 1, \"addref_select\": \"history\", \"ref\": {\"values\": [{\"id\": 333, \"src\": \"hda\"}]}}", "trim_quality": "\"\"", "most_inserts": "\"\"", "read_length": "\"\"", "read_group": null, "insert_size": "\"\"", "gc_depth": "\"\"", "filter_by_flags": "{\"__current_case__\": 1, \"filter_flags\": \"nofilter\"}", "split_output_cond": "{\"__current_case__\": 1, \"generate_tables\": [\"SN\", \"MPC\", \"GCC\"], 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"time_seconds": 26.47766375541687, "inputs": {"input": {"src": "hda", "id": "1da9707edb1b1750"}, "addref_cond|addref_select": "no", "cond_region|targetregions": {"src": "hda", "id": "35e75c0056fca07a"}, "cond_region|select_region": "tab", "cov_threshold": "4"}, "job": {"model_class": "Job", "id": "01d9f81d81c0d49a", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:33:00.258085", "create_time": "2024-09-15T13:32:49.806026", "galaxy_version": "23.1", "command_version": "Version: 1.20 (using htslib 1.20)", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/devteam/samtools_stats/samtools_stats/2.0.5", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-45dlw", "command_line": "addthreads=${GALAXY_SLOTS:-1} && (( addthreads-- )) &&   ln -s '/galaxy/server/database/objects/3/f/d/dataset_3fd93122-dbd8-4dea-b214-ee824ca294a8.dat' infile &&       samtools stats     -t '/galaxy/server/database/objects/9/1/e/dataset_91e7ebad-94bf-4d1a-972a-56ff3c0cdadb.dat'   -g 4 -@ $addthreads infile   > '/galaxy/server/database/objects/4/d/8/dataset_4d8fb700-5da9-4d0b-b166-bd73a56d49f9.dat'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "cov_threshold": "\"4\"", "remove_overlaps": "false", "sparse": "false", "cond_region": "{\"__current_case__\": 2, \"select_region\": \"tab\", \"targetregions\": {\"values\": [{\"id\": 313, \"src\": \"hda\"}]}}", "addref_cond": "{\"__current_case__\": 0, \"addref_select\": \"no\"}", "trim_quality": "\"\"", "most_inserts": "\"\"", "read_length": "\"\"", "read_group": null, "insert_size": "\"\"", "gc_depth": "\"\"", "filter_by_flags": "{\"__current_case__\": 1, \"filter_flags\": \"nofilter\"}", "split_output_cond": "{\"__current_case__\": 0, \"split_output_selector\": \"no\"}", "remove_dups": "false", "coverage_cond": "{\"__current_case__\": 0, \"coverage_select\": \"no\"}"}, "inputs": {"input": {"id": "1da9707edb1b1750", "src": "hda", "uuid": "3fd93122-dbd8-4dea-b214-ee824ca294a8"}, "cond_region|targetregions": {"id": "35e75c0056fca07a", "src": "hda", "uuid": "91e7ebad-94bf-4d1a-972a-56ff3c0cdadb"}}, "outputs": {"output": {"id": "b984154246a8a908", "src": "hda", "uuid": "4d8fb700-5da9-4d0b-b166-bd73a56d49f9"}}, "output_collections": {}, "tool_stdout": "", "tool_stderr": "Barcodes with tag BC differ in length at sequence 'ref1_grp1_p002'\n", "job_stdout": "", "job_stderr": "", "stderr": "Barcodes with tag BC differ in length at sequence 'ref1_grp1_p002'\n", "stdout": "", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "0 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "0E-7"}, {"title": "Job End Time", "value": "2024-09-15 13:32:51", "plugin": "core", "name": "end_epoch", "raw_value": "1726407171.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:32:51", "plugin": "core", "name": "start_epoch", "raw_value": "1726407171.0000000"}, {"title": "Memory Allocated (MB)", "value": "4080", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "4080.0000000"}, {"title": "Cores Allocated", "value": "1", "plugin": "core", "name": "galaxy_slots", "raw_value": "1.0000000"}]}, "status": "success"}}, {"id": "samtools_stats/2.0.5-6", "has_data": true, "data": {"tool_id": "samtools_stats", "tool_version": "2.0.5", "test_index": 6, "time_seconds": 27.470714569091797, "inputs": {"input": {"src": "hda", "id": "83fba76a99b238c6"}, "addref_cond|addref_select": "no", "cond_region|regions_repeat_0|region": "ref1:10-24", "cond_region|regions_repeat_1|region": "ref1:30-46", "cond_region|regions_repeat_2|region": "ref1:39-56", "cond_region|select_region": "text", "cov_threshold": "4"}, "job": {"model_class": "Job", "id": "3bf97ccf4441dff2", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:33:27.720024", "create_time": "2024-09-15T13:33:16.932513", "galaxy_version": "23.1", "command_version": "Version: 1.20 (using htslib 1.20)", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/devteam/samtools_stats/samtools_stats/2.0.5", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-9jgq9", "command_line": "addthreads=${GALAXY_SLOTS:-1} && (( addthreads-- )) &&   ln -s '/galaxy/server/database/objects/c/e/8/dataset_ce814197-a9d3-45de-88be-9208067f6afc.dat' infile && ln -s '/galaxy/server/database/objects/_metadata_files/3/4/8/metadata_348de6d2-4781-4edf-861c-692bcfdb18f2.dat' infile.bai &&       samtools stats       -g 4 -@ $addthreads infile  'ref1:10-24' 'ref1:30-46' 'ref1:39-56'  > '/galaxy/server/database/objects/6/7/e/dataset_67e34549-0d3f-4fc0-9b9f-b548f267994d.dat'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "cov_threshold": "\"4\"", "remove_overlaps": "false", "sparse": "false", "cond_region": "{\"__current_case__\": 1, \"regions_repeat\": [{\"__index__\": 0, \"region\": \"ref1:10-24\"}, {\"__index__\": 1, \"region\": \"ref1:30-46\"}, {\"__index__\": 2, \"region\": \"ref1:39-56\"}], \"select_region\": \"text\"}", "addref_cond": "{\"__current_case__\": 0, \"addref_select\": \"no\"}", "trim_quality": "\"\"", "most_inserts": "\"\"", "read_length": "\"\"", "read_group": null, "insert_size": "\"\"", "gc_depth": "\"\"", "filter_by_flags": "{\"__current_case__\": 1, \"filter_flags\": \"nofilter\"}", "split_output_cond": "{\"__current_case__\": 0, \"split_output_selector\": \"no\"}", "remove_dups": "false", "coverage_cond": "{\"__current_case__\": 0, \"coverage_select\": \"no\"}"}, "inputs": {"input": {"id": "83fba76a99b238c6", "src": "hda", "uuid": "ce814197-a9d3-45de-88be-9208067f6afc"}}, "outputs": {"output": {"id": "0cfd563c67b70b4c", "src": "hda", "uuid": "67e34549-0d3f-4fc0-9b9f-b548f267994d"}}, "output_collections": {}, "tool_stdout": "", "tool_stderr": "Barcodes with tag BC differ in length at sequence 'ref1_grp1_p002'\n", "job_stdout": "", "job_stderr": "", "stderr": "Barcodes with tag BC differ in length at sequence 'ref1_grp1_p002'\n", "stdout": "", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "0 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "0E-7"}, {"title": "Job End Time", "value": "2024-09-15 13:33:18", "plugin": "core", "name": "end_epoch", "raw_value": "1726407198.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:33:18", "plugin": "core", "name": "start_epoch", "raw_value": "1726407198.0000000"}, {"title": "Memory Allocated (MB)", "value": "4080", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "4080.0000000"}, {"title": "Cores Allocated", "value": "1", "plugin": "core", "name": "galaxy_slots", "raw_value": "1.0000000"}]}, "status": "success"}}, {"id": "samtools_stats/2.0.5-7", "has_data": true, "data": {"tool_id": "samtools_stats", "tool_version": "2.0.5", "test_index": 7, "time_seconds": 26.578603744506836, "inputs": {"input": {"src": "hda", "id": "6a7b29fbd219f983"}, "addref_cond|addref_select": "no", "cond_region|targetregions": {"src": "hda", "id": "0fb4c477a17a58de"}, "cond_region|select_region": "tab"}, "job": {"model_class": "Job", "id": "d492b576a5242295", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:33:54.187854", "create_time": "2024-09-15T13:33:43.635663", "galaxy_version": "23.1", "command_version": "Version: 1.20 (using htslib 1.20)", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/devteam/samtools_stats/samtools_stats/2.0.5", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-9x7bl", "command_line": "addthreads=${GALAXY_SLOTS:-1} && (( addthreads-- )) &&   ln -s '/galaxy/server/database/objects/7/0/a/dataset_70aff15e-a96d-4fd5-831e-b607c0ea6834.dat' infile && ln -s '/galaxy/server/database/objects/_metadata_files/4/1/4/metadata_414705f4-8d73-4266-aabb-64de96891c82.dat' infile.bai &&       samtools stats     -t '/galaxy/server/database/objects/a/8/4/dataset_a8438247-f8d5-49d2-84b6-172dd0e0c73e.dat'   -@ $addthreads infile   > '/galaxy/server/database/objects/0/5/4/dataset_054a0dec-c906-4851-952d-debb8be111a9.dat'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "cov_threshold": "\"\"", "remove_overlaps": "false", "sparse": "false", "cond_region": "{\"__current_case__\": 2, \"select_region\": \"tab\", \"targetregions\": {\"values\": [{\"id\": 318, \"src\": \"hda\"}]}}", "addref_cond": "{\"__current_case__\": 0, \"addref_select\": \"no\"}", "trim_quality": "\"\"", "most_inserts": "\"\"", "read_length": "\"\"", "read_group": null, "insert_size": "\"\"", "gc_depth": "\"\"", "filter_by_flags": "{\"__current_case__\": 1, \"filter_flags\": \"nofilter\"}", "split_output_cond": "{\"__current_case__\": 0, \"split_output_selector\": \"no\"}", "remove_dups": "false", "coverage_cond": "{\"__current_case__\": 0, \"coverage_select\": \"no\"}"}, "inputs": {"input": {"id": "6a7b29fbd219f983", "src": "hda", "uuid": "70aff15e-a96d-4fd5-831e-b607c0ea6834"}, "cond_region|targetregions": {"id": "0fb4c477a17a58de", "src": "hda", "uuid": "a8438247-f8d5-49d2-84b6-172dd0e0c73e"}}, "outputs": {"output": {"id": "65f11c7a98470a1d", "src": "hda", "uuid": "054a0dec-c906-4851-952d-debb8be111a9"}}, "output_collections": {}, "tool_stdout": "", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "0 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "0E-7"}, {"title": "Job End Time", "value": "2024-09-15 13:33:45", "plugin": "core", "name": "end_epoch", "raw_value": "1726407225.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:33:45", "plugin": "core", "name": "start_epoch", "raw_value": "1726407225.0000000"}, {"title": "Memory Allocated (MB)", "value": "4080", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "4080.0000000"}, {"title": "Cores Allocated", "value": "1", "plugin": "core", "name": "galaxy_slots", "raw_value": "1.0000000"}]}, "status": "success"}}, {"id": "samtools_stats/2.0.5-8", "has_data": true, "data": {"tool_id": "samtools_stats", "tool_version": "2.0.5", "test_index": 8, "time_seconds": 26.287765741348267, "inputs": {"input": {"src": "hda", "id": "2111faa154782f01"}, "addref_cond|addref_select": "no", "cond_region|targetregions": {"src": "hda", "id": "b4d3690e71e1099b"}, "cond_region|select_region": "tab", "remove_overlaps": true}, "job": {"model_class": "Job", "id": "f1530dbb4cc388c1", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:34:20.627554", "create_time": "2024-09-15T13:34:10.252980", "galaxy_version": "23.1", "command_version": "Version: 1.20 (using htslib 1.20)", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/devteam/samtools_stats/samtools_stats/2.0.5", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-vnntx", "command_line": "addthreads=${GALAXY_SLOTS:-1} && (( addthreads-- )) &&   ln -s '/galaxy/server/database/objects/a/4/4/dataset_a4404e77-2ee2-4e3a-896c-66aaf49602c3.dat' infile && ln -s '/galaxy/server/database/objects/_metadata_files/2/c/4/metadata_2c4198c1-0b3d-4697-a211-6de9f17a53fb.dat' infile.bai &&       samtools stats     -t '/galaxy/server/database/objects/e/0/5/dataset_e05da3e8-0398-417e-848e-b444471ebe78.dat'  -p -@ $addthreads infile   > '/galaxy/server/database/objects/0/e/3/dataset_0e3c5ef4-1c77-47f2-90e8-9d39396d0ceb.dat'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "cov_threshold": "\"\"", "remove_overlaps": "true", "sparse": "false", "cond_region": "{\"__current_case__\": 2, \"select_region\": \"tab\", \"targetregions\": {\"values\": [{\"id\": 321, \"src\": \"hda\"}]}}", "addref_cond": "{\"__current_case__\": 0, \"addref_select\": \"no\"}", "trim_quality": "\"\"", "most_inserts": "\"\"", "read_length": "\"\"", "read_group": null, "insert_size": "\"\"", "gc_depth": "\"\"", "filter_by_flags": "{\"__current_case__\": 1, \"filter_flags\": \"nofilter\"}", "split_output_cond": "{\"__current_case__\": 0, \"split_output_selector\": \"no\"}", "remove_dups": "false", "coverage_cond": "{\"__current_case__\": 0, \"coverage_select\": \"no\"}"}, "inputs": {"input": {"id": "2111faa154782f01", "src": "hda", "uuid": "a4404e77-2ee2-4e3a-896c-66aaf49602c3"}, "cond_region|targetregions": {"id": "b4d3690e71e1099b", "src": "hda", "uuid": "e05da3e8-0398-417e-848e-b444471ebe78"}}, "outputs": {"output": {"id": "2e10b07fe98cc5d4", "src": "hda", "uuid": "0e3c5ef4-1c77-47f2-90e8-9d39396d0ceb"}}, "output_collections": {}, "tool_stdout": "", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "0 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "0E-7"}, {"title": "Job End Time", "value": "2024-09-15 13:34:12", "plugin": "core", "name": "end_epoch", "raw_value": "1726407252.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:34:12", "plugin": "core", "name": "start_epoch", "raw_value": "1726407252.0000000"}, {"title": "Memory Allocated (MB)", "value": "4080", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "4080.0000000"}, {"title": "Cores Allocated", "value": "1", "plugin": "core", "name": "galaxy_slots", "raw_value": "1.0000000"}]}, "status": "success"}}, {"id": "samtools_stats/2.0.5-9", "has_data": true, "data": {"tool_id": "samtools_stats", "tool_version": "2.0.5", "test_index": 9, "time_seconds": 27.56989359855652, "inputs": {"input": {"src": "hda", "id": "945c73ab190a43bb"}, "addref_cond|addref_select": "no", "cond_region|targetregions": {"src": "hda", "id": "fdd5875a58a98793"}, "cond_region|select_region": "tab"}, "job": {"model_class": "Job", "id": "19a2aae1c786513c", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:34:48.308835", "create_time": "2024-09-15T13:34:37.936094", "galaxy_version": "23.1", "command_version": "Version: 1.20 (using htslib 1.20)", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/devteam/samtools_stats/samtools_stats/2.0.5", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-w776s", "command_line": "addthreads=${GALAXY_SLOTS:-1} && (( addthreads-- )) &&   ln -s '/galaxy/server/database/objects/d/3/2/dataset_d325746b-5e40-469e-9661-c4a5a60b39a0.dat' infile && ln -s '/galaxy/server/database/objects/_metadata_files/4/a/0/metadata_4a0487fa-be16-4460-93ab-092e3fa91898.dat' infile.bai &&       samtools stats     -t '/galaxy/server/database/objects/f/2/8/dataset_f282a44d-7659-4d4d-95ff-ae5c6d898cd5.dat'   -@ $addthreads infile   > '/galaxy/server/database/objects/d/1/2/dataset_d1249b01-df15-4821-8e36-88d007d121f9.dat'", "traceback": null, "params": {"__input_ext": "\"input\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "cov_threshold": "\"\"", "remove_overlaps": "false", "sparse": "false", "cond_region": "{\"__current_case__\": 2, \"select_region\": \"tab\", \"targetregions\": {\"values\": [{\"id\": 324, \"src\": \"hda\"}]}}", "addref_cond": "{\"__current_case__\": 0, \"addref_select\": \"no\"}", "trim_quality": "\"\"", "most_inserts": "\"\"", "read_length": "\"\"", "read_group": null, "insert_size": "\"\"", "gc_depth": "\"\"", "filter_by_flags": "{\"__current_case__\": 1, \"filter_flags\": \"nofilter\"}", "split_output_cond": "{\"__current_case__\": 0, \"split_output_selector\": \"no\"}", "remove_dups": "false", "coverage_cond": "{\"__current_case__\": 0, \"coverage_select\": \"no\"}"}, "inputs": {"input": {"id": "945c73ab190a43bb", "src": "hda", "uuid": "d325746b-5e40-469e-9661-c4a5a60b39a0"}, "cond_region|targetregions": {"id": "fdd5875a58a98793", "src": "hda", "uuid": "f282a44d-7659-4d4d-95ff-ae5c6d898cd5"}}, "outputs": {"output": {"id": "95508ea79aa4ae64", "src": "hda", "uuid": "d1249b01-df15-4821-8e36-88d007d121f9"}}, "output_collections": {}, "tool_stdout": "", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "0 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "0E-7"}, {"title": "Job End Time", "value": "2024-09-15 13:34:39", "plugin": "core", "name": "end_epoch", "raw_value": "1726407279.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:34:39", "plugin": "core", "name": "start_epoch", "raw_value": "1726407279.0000000"}, {"title": "Memory Allocated (MB)", "value": "4080", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "4080.0000000"}, {"title": "Cores Allocated", "value": "1", "plugin": "core", "name": "galaxy_slots", "raw_value": "1.0000000"}]}, "status": "success"}}, {"id": "table_compute/1.2.4+galaxy0-0", "has_data": true, "data": {"tool_id": "table_compute", "tool_version": "1.2.4+galaxy0", "test_index": 0, "time_seconds": 72.36594605445862, "inputs": {"singtabop|input": {"src": "hda", "id": "8dc7d2120e767ce3"}, "singtabop|user|select_cols_wanted": "2:4,2,2", "singtabop|user|select_rows_wanted": "2:5,3,3", "singtabop|user|select_keepdupe": "select_cols_keepdupe", "singtabop|user|mode": "select", "singtabop|use_type": "single", "precision": "2"}, "job": {"model_class": "Job", "id": "568a833827c7ac9f", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T12:48:45.224046", "create_time": "2024-09-15T12:48:01.108669", "galaxy_version": "23.1", 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'/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py' ./safety.py && cp '/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py' ./table_compute.py && python ./table_compute.py", "traceback": null, "params": {"__input_ext": "\"tabular\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"", "precision": "\"2\"", "out_opts": "[\"ignore_nas\", \"output_headers_col\", \"output_headers_row\"]", "singtabop": "{\"__current_case__\": 0, \"adv\": {\"header\": \"\", \"nrows\": \"\", \"skip_blank_lines\": true, \"skipfooter\": \"\"}, \"col_row_names\": [\"has_col_names\", \"has_row_names\"], \"input\": {\"values\": [{\"id\": 7, \"src\": \"hda\"}]}, \"use_type\": \"single\", \"user\": {\"__current_case__\": 2, \"axis\": \"1\", \"filtersumval_mode\": {\"__current_case__\": 0, \"against\": \"50.0\", 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"tests@fake.org", "job_metrics": [{"title": "Cores Allocated", "value": "1", "plugin": "core", "name": "galaxy_slots", "raw_value": "1.0000000"}, {"title": "Memory Allocated (MB)", "value": "4080", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "4080.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 12:52:40", "plugin": "core", "name": "start_epoch", "raw_value": "1726404760.0000000"}, {"title": "Job End Time", "value": "2024-09-15 12:52:41", "plugin": "core", "name": "end_epoch", "raw_value": "1726404761.0000000"}, {"title": "Job Runtime (Wall Clock)", "value": "1 second", "plugin": "core", "name": "runtime_seconds", "raw_value": "1.0000000"}]}, "status": "success"}}, {"id": "vcfcommonsamples/1.0.0_rc3+galaxy0-0", "has_data": true, "data": {"tool_id": "vcfcommonsamples", "tool_version": "1.0.0_rc3+galaxy0", "test_index": 0, "time_seconds": 33.44680428504944, "inputs": {"input1": {"src": "hda", "id": "a11aea2aa0191d00"}, "input2": {"src": "hda", "id": "9c37cac44e386547"}}, "job": {"model_class": "Job", "id": "b7c6149f3be54050", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:38:23.019356", "create_time": "2024-09-15T13:38:05.890229", "galaxy_version": "23.1", "command_version": "", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/devteam/vcfcommonsamples/vcfcommonsamples/1.0.0_rc3+galaxy0", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-mhnlj", "command_line": "vcfcommonsamples '/galaxy/server/database/objects/7/e/0/dataset_7e06f2ad-c439-43a1-8c2c-32450193080d.dat' '/galaxy/server/database/objects/a/b/8/dataset_ab82a78c-d5f1-4452-9748-50f4f500c5c9.dat' > '/galaxy/server/database/objects/e/6/0/dataset_e60315a2-4820-451c-b359-40581b3c950c.dat'", "traceback": null, "params": {"__input_ext": "\"vcf\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\""}, "inputs": {"input1": {"id": "a11aea2aa0191d00", "src": "hda", "uuid": "7e06f2ad-c439-43a1-8c2c-32450193080d"}, "input2": {"id": "9c37cac44e386547", "src": "hda", "uuid": "ab82a78c-d5f1-4452-9748-50f4f500c5c9"}}, "outputs": {"out_file1": {"id": "23150779e4cddfe6", "src": "hda", "uuid": "e60315a2-4820-451c-b359-40581b3c950c"}}, "output_collections": {}, "tool_stdout": "", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "0 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "0E-7"}, {"title": "Job End Time", "value": "2024-09-15 13:38:12", "plugin": "core", "name": "end_epoch", "raw_value": "1726407492.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:38:12", "plugin": "core", "name": "start_epoch", "raw_value": "1726407492.0000000"}, {"title": "Memory Allocated (MB)", "value": "4080", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "4080.0000000"}, {"title": "Cores Allocated", "value": "1", "plugin": "core", "name": "galaxy_slots", "raw_value": "1.0000000"}]}, "status": "success"}}, {"id": "vcfdistance/1.0.0_rc3+galaxy0-0", "has_data": true, "data": {"tool_id": "vcfdistance", "tool_version": "1.0.0_rc3+galaxy0", "test_index": 0, "time_seconds": 24.301866054534912, "inputs": {"input1": {"src": "hda", "id": "daf4764757a2f9be"}}, "job": {"model_class": "Job", "id": "f2fe9280c3b5489b", "state": "ok", "exit_code": 0, "update_time": "2024-09-15T13:38:48.550612", "create_time": "2024-09-15T13:38:38.641510", "galaxy_version": "23.1", "command_version": "", "copied_from_job_id": null, "tool_id": "toolshed.g2.bx.psu.edu/repos/devteam/vcfdistance/vcfdistance/1.0.0_rc3+galaxy0", "history_id": "8dc7d2120e767ce3", "external_id": "gxy-4sgkx", "command_line": "cat '/galaxy/server/database/objects/f/b/e/dataset_fbe4d27d-c262-4149-ab09-faec87932120.dat' | vcfdistance > '/galaxy/server/database/objects/4/2/b/dataset_42b3844d-35c1-42dc-89f4-72bf83b8f3f6.dat'", "traceback": null, "params": {"__input_ext": "\"vcf\"", "dbkey": "\"?\"", "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\""}, "inputs": {"input1": {"id": "daf4764757a2f9be", "src": "hda", "uuid": "fbe4d27d-c262-4149-ab09-faec87932120"}}, "outputs": {"out_file1": {"id": "285d10bf97b7e39b", "src": "hda", "uuid": "42b3844d-35c1-42dc-89f4-72bf83b8f3f6"}}, "output_collections": {}, "tool_stdout": "", "tool_stderr": "", "job_stdout": "", "job_stderr": "", "stderr": "", "stdout": "", "job_messages": [], "dependencies": [], "user_email": "tests@fake.org", "job_metrics": [{"title": "Job Runtime (Wall Clock)", "value": "0 seconds", "plugin": "core", "name": "runtime_seconds", "raw_value": "0E-7"}, {"title": "Job End Time", "value": "2024-09-15 13:38:40", "plugin": "core", "name": "end_epoch", "raw_value": "1726407520.0000000"}, {"title": "Job Start Time", "value": "2024-09-15 13:38:40", "plugin": "core", "name": "start_epoch", "raw_value": "1726407520.0000000"}, {"title": "Memory Allocated (MB)", "value": "4080", "plugin": "core", "name": "galaxy_memory_mb", "raw_value": "4080.0000000"}, {"title": "Cores Allocated", "value": "1", "plugin": "core", "name": "galaxy_slots", "raw_value": "1.0000000"}]}, "status": "success"}}], "galaxy_url": "http://104.196.187.254:8000/galaxy/"}
\ No newline at end of file
diff --git a/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/results.xunit b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/results.xunit
new file mode 100644
index 000000000..967910aea
--- /dev/null
+++ b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/results.xunit
@@ -0,0 +1,1728 @@
+<?xml version="1.0" encoding="UTF-8"?>
+<testsuite name="Results (powered by Planemo)"
+           tests="146"
+           errors="7"
+           failures="6"
+           skip="0">
+    
+    <testcase classname="bcftools_csq (Test #1)" name="0" time="34.01874661445618">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            Parsing /galaxy/server/database/objects/9/7/4/dataset_9742c8b6-b8e1-4275-bb7c-972a29b424f1.dat ...Indexed 4 transcripts, 10 exons, 10 CDSs, 6 UTRsCalling...
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="bcftools_csq (Test #2)" name="1" time="">
+        
+            <error type="error" message=""><![CDATA[
+                { "status": "skip", "test_index": 1, "tool_id": "bcftools_csq", "tool_version": "1.15.1+galaxy4"}
+            ]]></error>
+        
+    </testcase>
+    
+    <testcase classname="bcftools_csq (Test #3)" name="2" time="">
+        
+            <error type="error" message=""><![CDATA[
+                { "status": "skip", "test_index": 2, "tool_id": "bcftools_csq", "tool_version": "1.15.1+galaxy4"}
+            ]]></error>
+        
+    </testcase>
+    
+    <testcase classname="bcftools_csq (Test #4)" name="3" time="">
+        
+            <error type="error" message=""><![CDATA[
+                { "status": "skip", "test_index": 3, "tool_id": "bcftools_csq", "tool_version": "1.15.1+galaxy4"}
+            ]]></error>
+        
+    </testcase>
+    
+    <testcase classname="bcftools_plugin_mendelian (Test #1)" name="0" time="32.18039011955261">
+        
+            
+            <system-out><![CDATA[
+            Warning: -d will be deprecated, please use `-m d` instead.
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="bcftools_plugin_mendelian (Test #2)" name="1" time="26.458961009979248">
+        
+            
+            <system-out><![CDATA[
+            Warning: -l will be deprecated, please use -m instead.
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="bowtie2 (Test #1)" name="0" time="40.910125732421875">
+        
+            
+            <system-out><![CDATA[
+            Settings:  Output files: "genome.*.bt2"  Line rate: 6 (line is 64 bytes)  Lines per side: 1 (side is 64 bytes)  Offset rate: 4 (one in 16)  FTable chars: 10  Strings: unpacked  Max bucket size: default  Max bucket size, sqrt multiplier: default  Max bucket size, len divisor: 32  Difference-cover sample period: 1024  Endianness: little  Actual local endianness: little  Sanity checking: disabled  Assertions: disabled  Random seed: 0  Sizeofs: void*:8, int:4, long:8, size_t:8Input files DNA, FASTA:  /galaxy/server/database/objects/6/7/5/dataset_6752f686-56c2-44e9-97a1-682be34b7f97.datReading reference sizes  Time reading reference sizes: 00:00:00Calculating joined lengthWriting headerReserving space for joined stringJoining reference sequences  Time to join reference sequences: 00:00:00bmax according to bmaxDivN setting: 517Using parameters --bmax 388 --dcv 1024  Doing ahead-of-time memory usage test  Passed!  Constructing with these parameters: --bmax 388 --dcv 1024Constructing suffix-array element generatorBuilding DifferenceCoverSample  Building sPrime  Building sPrimeOrder  V-Sorting samples  V-Sorting samples time: 00:00:00  Allocating rank array  Ranking v-sort output  Ranking v-sort output time: 00:00:00  Invoking Larsson-Sadakane on ranks  Invoking Larsson-Sadakane on ranks time: 00:00:00  Sanity-checking and returningBuilding samplesReserving space for 86 sample suffixesGenerating random suffixesQSorting 86 sample offsets, eliminating duplicatesQSorting sample offsets, eliminating duplicates time: 00:00:00Multikey QSorting 86 samples  (Using difference cover)  Multikey QSorting samples time: 00:00:00Calculating bucket sizesSplitting and merging  Splitting and merging time: 00:00:00Split 12, merged 41; iterating...Splitting and merging  Splitting and merging time: 00:00:00Split 6, merged 6; iterating...Splitting and merging  Splitting and merging time: 00:00:00Split 5, merged 3; iterating...Splitting and merging  Splitting and merging time: 00:00:00Split 3, merged 3; iterating...Splitting and merging  Splitting and merging time: 00:00:00Avg bucket size: 284.672 (target: 387)Converting suffix-array elements to index imageAllocating ftab, absorbFtabEntering Ebwt loopGetting block 1 of 58  Reserving size (388) for bucket 1Getting block 2 of 58Getting block 3 of 58Getting block 4 of 58  Calculating Z arrays for bucket 1  Reserving size (388) for bucket 2  Reserving size (388) for bucket 3  Reserving size (388) for bucket 4  Calculating Z arrays for bucket 2  Calculating Z arrays for bucket 3Getting block 5 of 58Getting block 6 of 58  Entering block accumulator loop for bucket 1:  Calculating Z arrays for bucket 4  Entering block accumulator loop for bucket 2:  Entering block accumulator loop for bucket 3:  Reserving size (388) for bucket 5  Reserving size (388) for bucket 6Getting block 7 of 58  Entering block accumulator loop for bucket 4:  Calculating Z arrays for bucket 5  Calculating Z arrays for bucket 6  Reserving size (388) for bucket 7  bucket 1: 10%  Calculating Z arrays for bucket 7  bucket 2: 10%  Entering block accumulator loop for bucket 6:  bucket 3: 10%  Entering block accumulator loop for bucket 5:  Entering block accumulator loop for bucket 7:  bucket 1: 20%  bucket 4: 10%  bucket 2: 20%  bucket 3: 20%  bucket 6: 10%  bucket 5: 10%  bucket 1: 30%  bucket 7: 10%  bucket 2: 30%  bucket 3: 30%  bucket 4: 20%  bucket 6: 20%  bucket 1: 40%  bucket 5: 20%  bucket 2: 40%  bucket 3: 40%  bucket 7: 20%  bucket 4: 30%  bucket 1: 50%  bucket 6: 30%  bucket 2: 50%  bucket 5: 30%  bucket 3: 50%  bucket 7: 30%  bucket 4: 40%  bucket 1: 60%  bucket 6: 40%  bucket 2: 60%  bucket 5: 40%  bucket 3: 60%  bucket 1: 70%  bucket 4: 50%  bucket 6: 50%  bucket 2: 70%  bucket 5: 50%  bucket 7: 40%  bucket 3: 70%  bucket 4: 60%  bucket 2: 80%  bucket 1: 80%  bucket 6: 60%  bucket 5: 60%  bucket 7: 50%  bucket 3: 80%  bucket 1: 90%  bucket 2: 90%  bucket 5: 70%  bucket 6: 70%  bucket 4: 70%  bucket 7: 60%  bucket 3: 90%  bucket 1: 100%  bucket 2: 100%  Sorting block of length 355 for bucket 1  (Using difference cover)  Sorting block of length 165 for bucket 2  (Using difference cover)  bucket 5: 80%  bucket 6: 80%  bucket 7: 70%  bucket 3: 100%  bucket 4: 80%  Sorting block of length 370 for bucket 3  (Using difference cover)  bucket 5: 90%  bucket 7: 80%  bucket 4: 90%  bucket 6: 90%  bucket 4: 100%  Sorting block of length 328 for bucket 4  (Using difference cover)  bucket 7: 90%  bucket 5: 100%  Sorting block of length 203 for bucket 5  (Using difference cover)  bucket 6: 100%  Sorting block of length 339 for bucket 6  (Using difference cover)  bucket 7: 100%  Sorting block of length 368 for bucket 7  (Using difference cover)  Sorting block time: 00:00:00Returning block of 356 for bucket 1  Sorting block time: 00:00:00Returning block of 369 for bucket 7  Sorting block time: 00:00:00Returning block of 166 for bucket 2  Sorting block time: 00:00:00Returning block of 204 for bucket 5  Sorting block time: 00:00:00Returning block of 329 for bucket 4  Sorting block time: 00:00:00Returning block of 340 for bucket 6  Sorting block time: 00:00:00Returning block of 371 for bucket 3Getting block 8 of 58  Reserving size (388) for bucket 8  Calculating Z arrays for bucket 8  Entering block accumulator loop for bucket 8:  bucket 8: 10%  bucket 8: 20%Getting block 9 of 58  Reserving size (388) for bucket 9  Calculating Z arrays for bucket 9  bucket 8: 30%  Entering block accumulator loop for bucket 9:  bucket 8: 40%  bucket 9: 10%  bucket 8: 50%Getting block 10 of 58  Reserving size (388) for bucket 10  Calculating Z arrays for bucket 10  bucket 8: 60%  bucket 9: 20%  Entering block accumulator loop for bucket 10:  bucket 8: 70%  bucket 9: 30%  bucket 10: 10%  bucket 8: 80%  bucket 9: 40%  bucket 8: 90%  bucket 10: 20%  bucket 8: 100%  Sorting block of length 171 for bucket 8  (Using difference cover)  bucket 9: 50%  bucket 10: 30%  bucket 10: 40%  bucket 9: 60%  bucket 10: 50%  bucket 9: 70%  Sorting block time: 00:00:00Returning block of 172 for bucket 8  bucket 10: 60%  bucket 9: 80%  bucket 10: 70%  bucket 9: 90%  bucket 10: 80%  bucket 9: 100%  Sorting block of length 339 for bucket 9  (Using difference cover)  bucket 10: 90%  bucket 10: 100%  Sorting block of length 357 for bucket 10  (Using difference cover)  Sorting block time: 00:00:00Returning block of 340 for bucket 9  Sorting block time: 00:00:00Returning block of 358 for bucket 10Getting block 11 of 58  Reserving size (388) for bucket 11  Calculating Z arrays for bucket 11  Entering block accumulator loop for bucket 11:Getting block 12 of 58  Reserving size (388) for bucket 12  Calculating Z arrays for bucket 12  bucket 11: 10%  Entering block accumulator loop for bucket 12:  bucket 12: 10%  bucket 11: 20%  bucket 12: 20%  bucket 11: 30%  bucket 12: 30%  bucket 11: 40%  bucket 12: 40%  bucket 11: 50%  bucket 12: 50%  bucket 11: 60%  bucket 12: 60%  bucket 12: 70%  bucket 11: 70%  bucket 12: 80%  bucket 11: 80%  bucket 12: 90%  bucket 11: 90%  bucket 12: 100%  Sorting block of length 185 for bucket 12  (Using difference cover)  bucket 11: 100%  Sorting block of length 305 for bucket 11  (Using difference cover)  Sorting block time: 00:00:00Returning block of 186 for bucket 12  Sorting block time: 00:00:00Returning block of 306 for bucket 11Getting block 13 of 58  Reserving size (388) for bucket 13  Calculating Z arrays for bucket 13  Entering block accumulator loop for bucket 13:  bucket 13: 10%Getting block 14 of 58  Reserving size (388) for bucket 14  Calculating Z arrays for bucket 14  bucket 13: 20%  Entering block accumulator loop for bucket 14:  bucket 13: 30%  bucket 14: 10%  bucket 13: 40%  bucket 13: 50%  bucket 14: 20%  bucket 13: 60%  bucket 14: 30%  bucket 13: 70%  bucket 14: 40%  bucket 13: 80%  bucket 14: 50%  bucket 13: 90%  bucket 14: 60%  bucket 13: 100%  Sorting block of length 282 for bucket 13  (Using difference cover)  bucket 14: 70%  bucket 14: 80%  bucket 14: 90%  Sorting block time: 00:00:00  bucket 14: 100%Returning block of 283 for bucket 13  Sorting block of length 339 for bucket 14  (Using difference cover)  Sorting block time: 00:00:00Returning block of 340 for bucket 14Getting block 15 of 58  Reserving size (388) for bucket 15  Calculating Z arrays for bucket 15  Entering block accumulator loop for bucket 15:  bucket 15: 10%Getting block 16 of 58  bucket 15: 20%  Reserving size (388) for bucket 16  Calculating Z arrays for bucket 16  bucket 15: 30%  Entering block accumulator loop for bucket 16:  bucket 15: 40%  bucket 16: 10%  bucket 15: 50%  bucket 16: 20%  bucket 15: 60%  bucket 15: 70%  bucket 16: 30%  bucket 15: 80%  bucket 16: 40%  bucket 15: 90%  bucket 16: 50%  bucket 15: 100%  Sorting block of length 241 for bucket 15  (Using difference cover)  bucket 16: 60%  bucket 16: 70%  bucket 16: 80%  bucket 16: 90%  Sorting block time: 00:00:00Returning block of 242 for bucket 15  bucket 16: 100%  Sorting block of length 379 for bucket 16  (Using difference cover)  Sorting block time: 00:00:00Returning block of 380 for bucket 16Getting block 17 of 58  Reserving size (388) for bucket 17Getting block 18 of 58  Calculating Z arrays for bucket 17  Reserving size (388) for bucket 18  Calculating Z arrays for bucket 18  Entering block accumulator loop for bucket 18:  Entering block accumulator loop for bucket 17:  bucket 18: 10%  bucket 18: 20%  bucket 17: 10%  bucket 18: 30%  bucket 17: 20%  bucket 18: 40%  bucket 18: 50%  bucket 17: 30%  bucket 18: 60%  bucket 17: 40%  bucket 18: 70%  bucket 17: 50%  bucket 18: 80%  bucket 18: 90%  bucket 17: 60%  bucket 18: 100%  Sorting block of length 378 for bucket 18  (Using difference cover)  bucket 17: 70%  bucket 17: 80%  bucket 17: 90%  bucket 17: 100%  Sorting block of length 215 for bucket 17  (Using difference cover)  Sorting block time: 00:00:00Returning block of 379 for bucket 18  Sorting block time: 00:00:00Returning block of 216 for bucket 17Getting block 19 of 58  Reserving size (388) for bucket 19  Calculating Z arrays for bucket 19  Entering block accumulator loop for bucket 19:  bucket 19: 10%  bucket 19: 20%Getting block 20 of 58  bucket 19: 30%  Reserving size (388) for bucket 20  Calculating Z arrays for bucket 20  Entering block accumulator loop for bucket 20:  bucket 19: 40%  bucket 20: 10%  bucket 19: 50%  bucket 20: 20%  bucket 19: 60%  bucket 20: 30%  bucket 19: 70%  bucket 20: 40%  bucket 19: 80%  bucket 20: 50%  bucket 20: 60%  bucket 19: 90%  bucket 20: 70%  bucket 19: 100%  Sorting block of length 334 for bucket 19  (Using difference cover)  bucket 20: 80%  bucket 20: 90%  bucket 20: 100%  Sorting block of length 313 for bucket 20  (Using difference cover)  Sorting block time: 00:00:00Returning block of 335 for bucket 19  Sorting block time: 00:00:00Returning block of 314 for bucket 20Getting block 21 of 58  Reserving size (388) for bucket 21  Calculating Z arrays for bucket 21  Entering block accumulator loop for bucket 21:  bucket 21: 10%  bucket 21: 20%  bucket 21: 30%  bucket 21: 40%  bucket 21: 50%  bucket 21: 60%  bucket 21: 70%  bucket 21: 80%  bucket 21: 90%  bucket 21: 100%  Sorting block of length 210 for bucket 21  (Using difference cover)  Sorting block time: 00:00:00Returning block of 211 for bucket 21Getting block 22 of 58  Reserving size (388) for bucket 22Getting block 23 of 58  Calculating Z arrays for bucket 22  Reserving size (388) for bucket 23  Calculating Z arrays for bucket 23  Entering block accumulator loop for bucket 22:  Entering block accumulator loop for bucket 23:  bucket 22: 10%  bucket 23: 10%Getting block 24 of 58  Reserving size (388) for bucket 24  Calculating Z arrays for bucket 24  bucket 23: 20%  bucket 22: 20%  Entering block accumulator loop for bucket 24:  bucket 24: 10%  bucket 23: 30%  bucket 22: 30%  bucket 24: 20%  bucket 23: 40%  bucket 22: 40%  bucket 24: 30%  bucket 24: 40%  bucket 23: 50%  bucket 22: 50%  bucket 24: 50%  bucket 23: 60%  bucket 22: 60%  bucket 24: 60%  bucket 23: 70%  bucket 22: 70%  bucket 24: 70%  bucket 24: 80%  bucket 23: 80%  bucket 22: 80%  bucket 24: 90%  bucket 23: 90%  bucket 22: 90%  bucket 24: 100%  Sorting block of length 351 for bucket 24  (Using difference cover)  bucket 23: 100%  bucket 22: 100%  Sorting block of length 238 for bucket 23  (Using difference cover)  Sorting block of length 386 for bucket 22  (Using difference cover)  Sorting block time: 00:00:00Returning block of 352 for bucket 24  Sorting block time: 00:00:00Returning block of 239 for bucket 23  Sorting block time: 00:00:00Returning block of 387 for bucket 22Getting block 25 of 58  Reserving size (388) for bucket 25Getting block 26 of 58  Calculating Z arrays for bucket 25  Reserving size (388) for bucket 26  Calculating Z arrays for bucket 26  Entering block accumulator loop for bucket 26:  Entering block accumulator loop for bucket 25:  bucket 25: 10%  bucket 26: 10%  bucket 25: 20%  bucket 26: 20%  bucket 25: 30%  bucket 26: 30%  bucket 25: 40%  bucket 25: 50%  bucket 26: 40%  bucket 25: 60%  bucket 26: 50%  bucket 25: 70%  bucket 26: 60%  bucket 25: 80%  bucket 26: 70%  bucket 25: 90%  bucket 26: 80%  bucket 25: 100%  Sorting block of length 105 for bucket 25  (Using difference cover)  bucket 26: 90%  bucket 26: 100%  Sorting block of length 354 for bucket 26  (Using difference cover)  Sorting block time: 00:00:00Returning block of 106 for bucket 25  Sorting block time: 00:00:00Returning block of 355 for bucket 26Getting block 27 of 58  Reserving size (388) for bucket 27  Calculating Z arrays for bucket 27  Entering block accumulator loop for bucket 27:Getting block 28 of 58  Reserving size (388) for bucket 28  Calculating Z arrays for bucket 28  bucket 27: 10%  Entering block accumulator loop for bucket 28:  bucket 27: 20%  bucket 28: 10%  bucket 27: 30%  bucket 28: 20%  bucket 27: 40%  bucket 28: 30%  bucket 27: 50%  bucket 27: 60%  bucket 28: 40%  bucket 27: 70%  bucket 28: 50%  bucket 27: 80%  bucket 28: 60%  bucket 27: 90%  bucket 28: 70%  bucket 27: 100%  bucket 28: 80%  Sorting block of length 334 for bucket 27  (Using difference cover)  bucket 28: 90%  bucket 28: 100%  Sorting block of length 253 for bucket 28  (Using difference cover)  Sorting block time: 00:00:00Returning block of 335 for bucket 27  Sorting block time: 00:00:00Returning block of 254 for bucket 28Getting block 29 of 58  Reserving size (388) for bucket 29  Calculating Z arrays for bucket 29  Entering block accumulator loop for bucket 29:  bucket 29: 10%  bucket 29: 20%Getting block 30 of 58  bucket 29: 30%  Reserving size (388) for bucket 30  Calculating Z arrays for bucket 30  Entering block accumulator loop for bucket 30:  bucket 29: 40%  bucket 29: 50%  bucket 30: 10%  bucket 29: 60%  bucket 30: 20%  bucket 29: 70%  bucket 29: 80%  bucket 30: 30%  bucket 29: 90%  bucket 30: 40%  bucket 29: 100%  Sorting block of length 289 for bucket 29  (Using difference cover)  bucket 30: 50%  bucket 30: 60%  bucket 30: 70%  Sorting block time: 00:00:00Returning block of 290 for bucket 29  bucket 30: 80%  bucket 30: 90%  bucket 30: 100%  Sorting block of length 345 for bucket 30  (Using difference cover)  Sorting block time: 00:00:00Returning block of 346 for bucket 30Getting block 31 of 58  Reserving size (388) for bucket 31Getting block 32 of 58Getting block 33 of 58  Calculating Z arrays for bucket 31  Reserving size (388) for bucket 32  Reserving size (388) for bucket 33  Calculating Z arrays for bucket 32  Calculating Z arrays for bucket 33  Entering block accumulator loop for bucket 31:  Entering block accumulator loop for bucket 33:  Entering block accumulator loop for bucket 32:  bucket 31: 10%  bucket 33: 10%  bucket 31: 20%  bucket 32: 10%  bucket 33: 20%  bucket 32: 20%  bucket 31: 30%  bucket 33:..0:00Returning block of 350 for bucket 23Getting block 24 of 57  Reserving size (388) for bucket 24  Calculating Z arrays for bucket 24  Entering block accumulator loop for bucket 24:  bucket 24: 10%  bucket 24: 20%Getting block 25 of 57  bucket 24: 30%  Reserving size (388) for bucket 25  Calculating Z arrays for bucket 25  Entering block accumulator loop for bucket 25:  bucket 24: 40%  bucket 25: 10%  bucket 24: 50%  bucket 25: 20%  bucket 24: 60%  bucket 25: 30%  bucket 24: 70%  bucket 25: 40%  bucket 24: 80%  bucket 25: 50%  bucket 25: 60%  bucket 24: 90%  bucket 25: 70%  bucket 24: 100%  Sorting block of length 245 for bucket 24  (Using difference cover)  bucket 25: 80%  bucket 25: 90%  bucket 25: 100%  Sorting block of length 286 for bucket 25  (Using difference cover)  Sorting block time: 00:00:00Returning block of 246 for bucket 24  Sorting block time: 00:00:00Returning block of 287 for bucket 25Getting block 26 of 57  Reserving size (388) for bucket 26Getting block 27 of 57  Calculating Z arrays for bucket 26  Reserving size (388) for bucket 27  Calculating Z arrays for bucket 27  Entering block accumulator loop for bucket 26:  Entering block accumulator loop for bucket 27:  bucket 26: 10%  bucket 27: 10%  bucket 26: 20%  bucket 27: 20%  bucket 26: 30%  bucket 27: 30%  bucket 26: 40%  bucket 26: 50%  bucket 27: 40%  bucket 26: 60%  bucket 27: 50%  bucket 27: 60%  bucket 26: 70%  bucket 26: 80%  bucket 27: 70%  bucket 26: 90%  bucket 27: 80%  bucket 26: 100%  Sorting block of length 384 for bucket 26  (Using difference cover)  bucket 27: 90%  bucket 27: 100%  Sorting block of length 359 for bucket 27  (Using difference cover)  Sorting block time: 00:00:00Returning block of 385 for bucket 26  Sorting block time: 00:00:00Returning block of 360 for bucket 27Getting block 28 of 57  Reserving size (388) for bucket 28  Calculating Z arrays for bucket 28Getting block 29 of 57  Entering block accumulator loop for bucket 28:  Reserving size (388) for bucket 29  Calculating Z arrays for bucket 29Getting block 30 of 57  Entering block accumulator loop for bucket 29:  Reserving size (388) for bucket 30  bucket 28: 10%  Calculating Z arrays for bucket 30  Entering block accumulator loop for bucket 30:  bucket 28: 20%  bucket 29: 10%  bucket 28: 30%  bucket 30: 10%  bucket 29: 20%  bucket 28: 40%  bucket 30: 20%  bucket 28: 50%  bucket 29: 30%  bucket 30: 30%  bucket 28: 60%  bucket 29: 40%  bucket 30: 40%  bucket 28: 70%  bucket 29: 50%  bucket 30: 50%  bucket 28: 80%  bucket 30: 60%  bucket 29: 60%  bucket 28: 90%  bucket 30: 70%  bucket 28: 100%  bucket 29: 70%  Sorting block of length 387 for bucket 28  (Using difference cover)  bucket 30: 80%  bucket 29: 80%  bucket 30: 90%  bucket 29: 90%  bucket 30: 100%  Sorting block of length 257 for bucket 30  (Using difference cover)  Sorting block time: 00:00:00  bucket 29: 100%Returning block of 388 for bucket 28  Sorting block of length 195 for bucket 29  (Using difference cover)  Sorting block time: 00:00:00Returning block of 258 for bucket 30  Sorting block time: 00:00:00Returning block of 196 for bucket 29Getting block 31 of 57  Reserving size (388) for bucket 31  Calculating Z arrays for bucket 31  Entering block accumulator loop for bucket 31:  bucket 31: 10%  bucket 31: 20%Getting block 32 of 57  Reserving size (388) for bucket 32  Calculating Z arrays for bucket 32  bucket 31: 30%  Entering block accumulator loop for bucket 32:  bucket 31: 40%  bucket 32: 10%  bucket 31: 50%  bucket 32: 20%  bucket 31: 60%  bucket 32: 30%  bucket 32: 40%  bucket 31: 70%  bucket 32: 50%  bucket 31: 80%  bucket 32: 60%  bucket 31: 90%  bucket 32: 70%  bucket 31: 100%  Sorting block of length 310 for bucket 31  (Using difference cover)  bucket 32: 80%  bucket 32: 90%  bucket 32: 100%  Sorting block of length 219 for bucket 32  (Using difference cover)  Sorting block time: 00:00:00Returning block of 311 for bucket 31  Sorting block time: 00:00:00Returning block of 220 for bucket 32Getting block 33 of 57  Reserving size (388) for bucket 33  Calculating Z arrays for bucket 33  Entering block accumulator loop for bucket 33:Getting block 34 of 57  bucket 33: 10%  Reserving size (388) for bucket 34  Calculating Z arrays for bucket 34  Entering block accumulator loop for bucket 34:  bucket 33: 20%  bucket 34: 10%  bucket 33: 30%  bucket 34: 20%  bucket 33: 40%  bucket 34: 30%  bucket 33: 50%  bucket 33: 60%  bucket 34: 40%  bucket 33: 70%  bucket 34: 50%  bucket 33: 80%  bucket 34: 60%  bucket 33: 90%  bucket 34: 70%  bucket 33: 100%  Sorting block of length 387 for bucket 33  (Using difference cover)  bucket 34: 80%  bucket 34: 90%  bucket 34: 100%  Sorting block of length 275 for bucket 34  (Using difference cover)  Sorting block time: 00:00:00Returning block of 388 for bucket 33  Sorting block time: 00:00:00Returning block of 276 for bucket 34Getting block 35 of 57  Reserving size (388) for bucket 35  Calculating Z arrays for bucket 35  Entering block accumulator loop for bucket 35:  bucket 35: 10%  bucket 35: 20%  bucket 35: 30%Getting block 36 of 57  bucket 35: 40%  Reserving size (388) for bucket 36  Calculating Z arrays for bucket 36  Entering block accumulator loop for bucket 36:  bucket 35: 50%  bucket 35: 60%  bucket 36: 10%  bucket 35: 70%  bucket 36: 20%  bucket 35: 80%  bucket 35: 90%  bucket 36: 30%  bucket 35: 100%  Sorting block of length 350 for bucket 35  (Using difference cover)  bucket 36: 40%  bucket 36: 50%  bucket 36: 60%  Sorting block time: 00:00:00Returning block of 351 for bucket 35  bucket 36: 70%  bucket 36: 80%  bucket 36: 90%  bucket 36: 100%  Sorting block of length 150 for bucket 36  (Using difference cover)  Sorting block time: 00:00:00Returning block of 151 for bucket 36Getting block 37 of 57  Reserving size (388) for bucket 37  Calculating Z arrays for bucket 37  Entering block accumulator loop for bucket 37:  bucket 37: 10%  bucket 37: 20%  bucket 37: 30%  bucket 37: 40%  bucket 37: 50%  bucket 37: 60%  bucket 37: 70%  bucket 37: 80%  bucket 37: 90%  bucket 37: 100%  Sorting block of length 267 for bucket 37  (Using difference cover)  Sorting block time: 00:00:00Returning block of 268 for bucket 37Getting block 38 of 57  Reserving size (388) for bucket 38  Calculating Z arrays for bucket 38  Entering block accumulator loop for bucket 38:  bucket 38: 10%  bucket 38: 20%  bucket 38: 30%Getting block 39 of 57  Reserving size (388) for bucket 39  Calculating Z arrays for bucket 39  bucket 38: 40%  Entering block accumulator loop for bucket 39:  bucket 38: 50%  bucket 39: 10%  bucket 38: 60%  bucket 39: 20%  bucket 38: 70%  bucket 38: 80%  bucket 39: 30%  bucket 38: 90%  bucket 39: 40%  bucket 38: 100%  Sorting block of length 337 for bucket 38  (Using difference cover)  bucket 39: 50%  bucket 39: 60%  Sorting block time: 00:00:00Returning block of 338 for bucket 38  bucket 39: 70%  bucket 39: 80%  bucket 39: 90%  bucket 39: 100%  Sorting block of length 387 for bucket 39  (Using difference cover)  Sorting block time: 00:00:00Returning block of 388 for bucket 39Getting block 40 of 57  Reserving size (388) for bucket 40  Calculating Z arrays for bucket 40Getting block 41 of 57  Entering block accumulator loop for bucket 40:  Reserving size (388) for bucket 41  Calculating Z arrays for bucket 41  Entering block accumulator loop for bucket 41:  bucket 40: 10%  bucket 41: 10%  bucket 40: 20%  bucket 41: 20%  bucket 40: 30%  bucket 41: 30%  bucket 40: 40%  bucket 41: 40%  bucket 40: 50%  bucket 41: 50%  bucket 40: 60%  bucket 41: 60%  bucket 40: 70%  bucket 41: 70%  bucket 41: 80%  bucket 40: 80%  bucket 41: 90%  bucket 40: 90%  bucket 41: 100%  Sorting block of length 330 for bucket 41  (Using difference cover)  bucket 40: 100%  Sorting block of length 379 for bucket 40  (Using difference cover)  Sorting block time: 00:00:00Returning block of 380 for bucket 40  Sorting block time: 00:00:00Returning block of 331 for bucket 41Getting block 42 of 57  Reserving size (388) for bucket 42  Calculating Z arrays for bucket 42  Entering block accumulator loop for bucket 42:  bucket 42: 10%  bucket 42: 20%  bucket 42: 30%  bucket 42: 40%  bucket 42: 50%  bucket 42: 60%  bucket 42: 70%  bucket 42: 80%  bucket 42: 90%  bucket 42: 100%  Sorting block of length 188 for bucket 42  (Using difference cover)  Sorting block time: 00:00:00Returning block of 189 for bucket 42Getting block 43 of 57  Reserving size (388) for bucket 43  Calculating Z arrays for bucket 43  Entering block accumulator loop for bucket 43:  bucket 43: 10%Getting block 44 of 57  Reserving size (388) for bucket 44  Calculating Z arrays for bucket 44  bucket 43: 20%  Entering block accumulator loop for bucket 44:  bucket 43: 30%  bucket 44: 10%  bucket 43: 40%  bucket 44: 20%  bucket 43: 50%  bucket 44: 30%  bucket 44: 40%  bucket 43: 60%  bucket 44: 50%  bucket 43: 70%  bucket 43: 80%  bucket 44: 60%  bucket 43: 90%  bucket 44: 70%  bucket 43: 100%  Sorting block of length 321 for bucket 43  (Using difference cover)  bucket 44: 80%  bucket 44: 90%  bucket 44: 100%  Sorting block of length 366 for bucket 44  (Using difference cover)  Sorting block time: 00:00:00Returning block of 322 for bucket 43  Sorting block time: 00:00:00Returning block of 367 for bucket 44Getting block 45 of 57  Reserving size (388) for bucket 45  Calculating Z arrays for bucket 45  Entering block accumulator loop for bucket 45:  bucket 45: 10%  bucket 45: 20%Getting block 46 of 57  Reserving size (388) for bucket 46  Calculating Z arrays for bucket 46  Entering block accumulator loop for bucket 46:  bucket 45: 30%  bucket 46: 10%  bucket 45: 40%  bucket 46: 20%  bucket 45: 50%  bucket 46: 30%  bucket 45: 60%  bucket 46: 40%  bucket 45: 70%  bucket 46: 50%  bucket 45: 80%  bucket 46: 60%  bucket 45: 90%  bucket 45: 100%  bucket 46: 70%  Sorting block of length 365 for bucket 45  (Using difference cover)  bucket 46: 80%  bucket 46: 90%  bucket 46: 100%  Sorting block of length 253 for bucket 46  (Using difference cover)  Sorting block time: 00:00:00Returning block of 366 for bucket 45  Sorting block time: 00:00:00Returning block of 254 for bucket 46Getting block 47 of 57  Reserving size (388) for bucket 47  Calculating Z arrays for bucket 47  Entering block accumulator loop for bucket 47:  bucket 47: 10%Getting block 48 of 57  Reserving size (388) for bucket 48  Calculating Z arrays for bucket 48Getting block 49 of 57  bucket 47: 20%  Entering block accumulator loop for bucket 48:  Reserving size (388) for bucket 49  Calculating Z arrays for bucket 49  Entering block accumulator loop for bucket 49:  bucket 47: 30%  bucket 48: 10%  bucket 49: 10%  bucket 47: 40%  bucket 49: 20%  bucket 48: 20%  bucket 49: 30%  bucket 47: 50%  bucket 48: 30%  bucket 49: 40%  bucket 47: 60%  bucket 48: 40%  bucket 49: 50%  bucket 47: 70%  bucket 48: 50%  bucket 49: 60%  bucket 49: 70%  bucket 47: 80%  bucket 48: 60%  bucket 49: 80%  bucket 47: 90%  bucket 48: 70%  bucket 49: 90%  bucket 49: 100%  bucket 47: 100%  Sorting block of length 112 for bucket 49  (Using difference cover)  Sorting block of length 217 for bucket 47  (Using difference cover)  bucket 48: 80%  bucket 48: 90%  bucket 48: 100%  Sorting block of length 384 for bucket 48  (Using difference cover)  Sorting block time: 00:00:00Returning block of 113 for bucket 49  Sorting block time: 00:00:00Returning block of 218 for bucket 47  Sorting block time: 00:00:00Returning block of 385 for bucket 48Getting block 50 of 57  Reserving size (388) for bucket 50  Calculating Z arrays for bucket 50  Entering block accumulator loop for bucket 50:  bucket 50: 10%Getting block 51 of 57  Reserving size (388) for bucket 51  Calculating Z arrays for bucket 51  bucket 50: 20%  Entering block accumulator loop for bucket 51:  bucket 50: 30%  bucket 51: 10%  bucket 50: 40%  bucket 51: 20%  bucket 50: 50%  bucket 51: 30%  bucket 50: 60%  bucket 51: 40%  bucket 50: 70%  bucket 51: 50%  bucket 50: 80%  bucket 51: 60%  bucket 50: 90%  bucket 51: 70%  bucket 50: 100%  Sorting block of length 275 for bucket 50  (Using difference cover)  bucket 51: 80%  bucket 51: 90%  bucket 51: 100%  Sorting block of length 350 for bucket 51  (Using difference cover)  Sorting block time: 00:00:00Returning block of 276 for bucket 50  Sorting block time: 00:00:00Returning block of 351 for bucket 51Getting block 52 of 57  Reserving size (388) for bucket 52  Calculating Z arrays for bucket 52Getting block 53 of 57  Entering block accumulator loop for bucket 52:  Reserving size (388) for bucket 53  Calculating Z arrays for bucket 53  Entering block accumulator loop for bucket 53:  bucket 52: 10%  bucket 53: 10%  bucket 52: 20%  bucket 53: 20%  bucket 53: 30%  bucket 52: 30%  bucket 53: 40%  bucket 52: 40%  bucket 53: 50%  bucket 52: 50%  bucket 53: 60%  bucket 52: 60%  bucket 53: 70%  bucket 52: 70%  bucket 53: 80%  bucket 53: 90%  bucket 52: 80%  bucket 53: 100%  Sorting block of length 370 for bucket 53  (Using difference cover)  bucket 52: 90%  bucket 52: 100%  Sorting block of length 378 for bucket 52  (Using difference cover)  Sorting block time: 00:00:00Returning block of 371 for bucket 53  Sorting block time: 00:00:00Returning block of 379 for bucket 52Getting block 54 of 57  Reserving size (388) for bucket 54  Calculating Z arrays for bucket 54  Entering block accumulator loop for bucket 54:Getting block 55 of 57  Reserving size (388) for bucket 55  Calculating Z arrays for bucket 55  Entering block accumulator loop for bucket 55:  bucket 54: 10%  bucket 55: 10%  bucket 54: 20%  bucket 55: 20%  bucket 54: 30%  bucket 55: 30%  bucket 54: 40%  bucket 54: 50%  bucket 55: 40%  bucket 54: 60%  bucket 55: 50%  bucket 54: 70%  bucket 55: 60%  bucket 54: 80%  bucket 55: 70%  bucket 54: 90%  bucket 55: 80%  bucket 54: 100%  Sorting block of length 237 for bucket 54  (Using difference cover)  bucket 55: 90%  bucket 55: 100%  Sorting block of length 344 for bucket 55  (Using difference cover)  Sorting block time: 00:00:00Returning block of 238 for bucket 54  Sorting block time: 00:00:00Returning block of 345 for bucket 55Getting block 56 of 57  Reserving size (388) for bucket 56  Calculating Z arrays for bucket 56  Entering block accumulator loop for bucket 56:  bucket 56: 10%  bucket 56: 20%Getting block 57 of 57  bucket 56: 30%  Reserving size (388) for bucket 57  Calculating Z arrays for bucket 57  Entering block accumulator loop for bucket 57:  bucket 56: 40%  bucket 57: 10%  bucket 57: 20%  bucket 56: 50%  bucket 56: 60%  bucket 57: 30%  bucket 56: 70%  bucket 57: 40%  bucket 57: 50%  bucket 56: 80%  bucket 57: 60%  bucket 56: 90%  bucket 57: 70%  bucket 57: 80%  bucket 56: 100%  Sorting block of length 270 for bucket 56  (Using difference cover)  bucket 57: 90%  bucket 57: 100%  Sorting block of length 132 for bucket 57  (Using difference cover)  Sorting block time: 00:00:00Returning block of 271 for bucket 56  Sorting block time: 00:00:00Returning block of 133 for bucket 57Exited Ebwt loopfchr[A]: 0fchr[C]: 5124fchr[G]: 10305fchr[T]: 12474fchr[$]: 16568Exiting Ebwt::buildToDisk()Returning from initFromVectorWrote 4200050 bytes to primary EBWT file: genome.rev.1.bt2.tmpWrote 4148 bytes to secondary EBWT file: genome.rev.2.bt2.tmpRe-opening _in1 and _in2 as input streamsReturning from Ebwt constructorHeaders:    len: 16568    bwtLen: 16569    sz: 4142    bwtSz: 4143    lineRate: 6    offRate: 4    offMask: 0xfffffff0    ftabChars: 10    eftabLen: 20    eftabSz: 80    ftabLen: 1048577    ftabSz: 4194308    offsLen: 1036    offsSz: 4144    lineSz: 64    sideSz: 64    sideBwtSz: 48    sideBwtLen: 192    numSides: 87    numLines: 87    ebwtTotLen: 5568    ebwtTotSz: 5568    color: 0    reverse: 1Total time for backward call to driver() for mirror index: 00:00:00
+            ]]></system-out>
+            <system-err><![CDATA[
+            Building a SMALL indexRenaming genome.3.bt2.tmp to genome.3.bt2Renaming genome.4.bt2.tmp to genome.4.bt2Renaming genome.1.bt2.tmp to genome.1.bt2Renaming genome.2.bt2.tmp to genome.2.bt2Renaming genome.rev.1.bt2.tmp to genome.rev.1.bt2Renaming genome.rev.2.bt2.tmp to genome.rev.2.bt2100 reads; of these:  100 (100.00%) were paired; of these:    97 (97.00%) aligned concordantly 0 times    3 (3.00%) aligned concordantly exactly 1 time    0 (0.00%) aligned concordantly >1 times    ----    97 pairs aligned concordantly 0 times; of these:      8 (8.25%) aligned discordantly 1 time    ----    89 pairs aligned 0 times concordantly or discordantly; of these:      178 mates make up the pairs; of these:        153 (85.96%) aligned 0 times        25 (14.04%) aligned exactly 1 time        0 (0.00%) aligned >1 times23.50% overall alignment rate
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="bowtie2 (Test #2)" name="1" time="30.79624032974243">
+        
+            
+            <system-out><![CDATA[
+            Settings:  Output files: "genome.*.bt2"  Line rate: 6 (line is 64 bytes)  Lines per side: 1 (side is 64 bytes)  Offset rate: 4 (one in 16)  FTable chars: 10  Strings: unpacked  Max bucket size: default  Max bucket size, sqrt multiplier: default  Max bucket size, len divisor: 32  Difference-cover sample period: 1024  Endianness: little  Actual local endianness: little  Sanity checking: disabled  Assertions: disabled  Random seed: 0  Sizeofs: void*:8, int:4, long:8, size_t:8Input files DNA, FASTA:  /galaxy/server/database/objects/e/4/d/dataset_e4dbf02b-3963-4a5f-96a9-cf0840765165.datReading reference sizes  Time reading reference sizes: 00:00:00Calculating joined lengthWriting headerReserving space for joined stringJoining reference sequences  Time to join reference sequences: 00:00:00bmax according to bmaxDivN setting: 517Using parameters --bmax 388 --dcv 1024  Doing ahead-of-time memory usage test  Passed!  Constructing with these parameters: --bmax 388 --dcv 1024Constructing suffix-array element generatorBuilding DifferenceCoverSample  Building sPrime  Building sPrimeOrder  V-Sorting samples  V-Sorting samples time: 00:00:00  Allocating rank array  Ranking v-sort output  Ranking v-sort output time: 00:00:00  Invoking Larsson-Sadakane on ranks  Invoking Larsson-Sadakane on ranks time: 00:00:00  Sanity-checking and returningBuilding samplesReserving space for 86 sample suffixesGenerating random suffixesQSorting 86 sample offsets, eliminating duplicatesQSorting sample offsets, eliminating duplicates time: 00:00:00Multikey QSorting 86 samples  (Using difference cover)  Multikey QSorting samples time: 00:00:00Calculating bucket sizesSplitting and merging  Splitting and merging time: 00:00:00Split 12, merged 41; iterating...Splitting and merging  Splitting and merging time: 00:00:00Split 6, merged 6; iterating...Splitting and merging  Splitting and merging time: 00:00:00Split 5, merged 3; iterating...Splitting and merging  Splitting and merging time: 00:00:00Split 3, merged 3; iterating...Splitting and merging  Splitting and merging time: 00:00:00Avg bucket size: 284.672 (target: 387)Converting suffix-array elements to index imageAllocating ftab, absorbFtabEntering Ebwt loopGetting block 1 of 58  Reserving size (388) for bucket 1Getting block 2 of 58Getting block 3 of 58Getting block 4 of 58Getting block 5 of 58  Calculating Z arrays for bucket 1  Reserving size (388) for bucket 2  Reserving size (388) for bucket 3  Reserving size (388) for bucket 4  Reserving size (388) for bucket 5Getting block 6 of 58Getting block 7 of 58  Calculating Z arrays for bucket 2  Entering block accumulator loop for bucket 1:  Calculating Z arrays for bucket 3  Calculating Z arrays for bucket 4  Calculating Z arrays for bucket 5  Reserving size (388) for bucket 6  Reserving size (388) for bucket 7  Entering block accumulator loop for bucket 2:  Calculating Z arrays for bucket 6  Calculating Z arrays for bucket 7  Entering block accumulator loop for bucket 3:  Entering block accumulator loop for bucket 4:  Entering block accumulator loop for bucket 5:  Entering block accumulator loop for bucket 6:  bucket 1: 10%  Entering block accumulator loop for bucket 7:  bucket 2: 10%  bucket 3: 10%  bucket 4: 10%  bucket 1: 20%  bucket 5: 10%  bucket 6: 10%  bucket 7: 10%  bucket 2: 20%  bucket 3: 20%  bucket 1: 30%  bucket 4: 20%  bucket 2: 30%  bucket 5: 20%  bucket 6: 20%  bucket 7: 20%  bucket 1: 40%  bucket 3: 30%  bucket 2: 40%  bucket 4: 30%  bucket 6: 30%  bucket 5: 30%  bucket 1: 50%  bucket 3: 40%  bucket 7: 30%  bucket 2: 50%  bucket 6: 40%  bucket 4: 40%  bucket 1: 60%  bucket 5: 40%  bucket 2: 60%  bucket 3: 50%  bucket 7: 40%  bucket 6: 50%  bucket 2: 70%  bucket 1: 70%  bucket 4: 50%  bucket 5: 50%  bucket 6: 60%  bucket 2: 80%  bucket 3: 60%  bucket 1: 80%  bucket 7: 50%  bucket 4: 60%  bucket 5: 60%  bucket 2: 90%  bucket 6: 70%  bucket 1: 90%  bucket 3: 70%  bucket 2: 100%  bucket 7: 60%  bucket 4: 70%  bucket 5: 70%  Sorting block of length 165 for bucket 2  (Using difference cover)  bucket 6: 80%  bucket 1: 100%  Sorting block of length 355 for bucket 1  (Using difference cover)  bucket 3: 80%  bucket 5: 80%  bucket 4: 80%  bucket 6: 90%  bucket 7: 70%  bucket 3: 90%  bucket 5: 90%  bucket 6: 100%  bucket 4: 90%  bucket 7: 80%  Sorting block of length 339 for bucket 6  (Using difference cover)  bucket 3: 100%  Sorting block of length 370 for bucket 3  (Using difference cover)  bucket 5: 100%  Sorting block of length 203 for bucket 5  (Using difference cover)  bucket 4: 100%  Sorting block of length 328 for bucket 4  (Using difference cover)  bucket 7: 90%  bucket 7: 100%  Sorting block of length 368 for bucket 7  (Using difference cover)  Sorting block time: 00:00:00Returning block of 204 for bucket 5  Sorting block time: 00:00:00Returning block of 329 for bucket 4  Sorting block time: 00:00:00Returning block of 356 for bucket 1  Sorting block time: 00:00:00Returning block of 369 for bucket 7  Sorting block time: 00:00:00Returning block of 166 for bucket 2  Sorting block time: 00:00:00Returning block of 340 for bucket 6  Sorting block time: 00:00:00Returning block of 371 for bucket 3Getting block 8 of 58  Reserving size (388) for bucket 8  Calculating Z arrays for bucket 8Getting block 9 of 58  Entering block accumulator loop for bucket 8:  Reserving size (388) for bucket 9  Calculating Z arrays for bucket 9  Entering block accumulator loop for bucket 9:  bucket 8: 10%Getting block 10 of 58  bucket 9: 10%  bucket 8: 20%  Reserving size (388) for bucket 10  Calculating Z arrays for bucket 10  Entering block accumulator loop for bucket 10:  bucket 9: 20%  bucket 8: 30%  bucket 8: 40%  bucket 9: 30%  bucket 10: 10%  bucket 8: 50%  bucket 9: 40%  bucket 10: 20%  bucket 8: 60%  bucket 9: 50%  bucket 10: 30%  bucket 8: 70%  bucket 9: 60%  bucket 10: 40%  bucket 8: 80%  bucket 9: 70%  bucket 8: 90%  bucket 9: 80%  bucket 10: 50%  bucket 8: 100%  Sorting block of length 171 for bucket 8  (Using difference cover)  bucket 10: 60%  bucket 9: 90%  bucket 9: 100%  Sorting block of length 339 for bucket 9  (Using difference cover)  bucket 10: 70%  Sorting block time: 00:00:00Returning block of 172 for bucket 8  bucket 10: 80%  bucket 10: 90%  bucket 10: 100%  Sorting block of length 357 for bucket 10  (Using difference cover)  Sorting block time: 00:00:00Returning block of 340 for bucket 9  Sorting block time: 00:00:00Returning block of 358 for bucket 10Getting block 11 of 58  Reserving size (388) for bucket 11Getting block 12 of 58  Calculating Z arrays for bucket 11  Reserving size (388) for bucket 12  Calculating Z arrays for bucket 12  Entering block accumulator loop for bucket 12:  Entering block accumulator loop for bucket 11:  bucket 12: 10%  bucket 11: 10%  bucket 12: 20%Getting block 13 of 58  bucket 12: 30%  bucket 11: 20%  Reserving size (388) for bucket 13  Calculating Z arrays for bucket 13  bucket 12: 40%  bucket 11: 30%  Entering block accumulator loop for bucket 13:  bucket 12: 50%  bucket 11: 40%  bucket 13: 10%  bucket 12: 60%  bucket 11: 50%  bucket 12: 70%  bucket 13: 20%  bucket 11: 60%  bucket 12: 80%  bucket 11: 70%  bucket 13: 30%  bucket 12: 90%  bucket 11: 80%  bucket 13: 40%  bucket 12: 100%  Sorting block of length 185 for bucket 12  (Using difference cover)  bucket 11: 90%  bucket 13: 50%  bucket 11: 100%  Sorting block of length 305 for bucket 11  (Using difference cover)  bucket 13: 60%  Sorting block time: 00:00:00Returning block of 186 for bucket 12  bucket 13: 70%  bucket 13: 80%  bucket 13: 90%  bucket 13: 100%  Sorting block of length 282 for bucket 13  (Using difference cover)  Sorting block time: 00:00:00Returning block of 306 for bucket 11  Sorting block time: 00:00:00Returning block of 283 for bucket 13Getting block 14 of 58  Reserving size (388) for bucket 14  Calculating Z arrays for bucket 14  Entering block accumulator loop for bucket 14:  bucket 14: 10%  bucket 14: 20%  bucket 14: 30%Getting block 15 of 58  Reserving size (388) for bucket 15  Calculating Z arrays for bucket 15  bucket 14: 40%  Entering block accumulator loop for bucket 15:  bucket 14: 50%  bucket 15: 10%  bucket 14: 60%  bucket 15: 20%  bucket 14: 70%  bucket 15: 30%  bucket 14: 80%  bucket 15: 40%  bucket 14: 90%  bucket 15: 50%  bucket 14: 100%  bucket 15: 60%  Sorting block of length 339 for bucket 14  (Using difference cover)  bucket 15: 70%  bucket 15: 80%  bucket 15: 90%  Sorting block time: 00:00:00Returning block of 340 for bucket 14  bucket 15: 100%  Sorting block of length 241 for bucket 15  (Using difference cover)  Sorting block time: 00:00:00Returning block of 242 for bucket 15Getting block 16 of 58  Reserving size (388) for bucket 16  Calculating Z arrays for bucket 16  Entering block accumulator loop for bucket 16:  bucket 16: 10%  bucket 16: 20%  bucket 16: 30%Getting block 17 of 58  Reserving size (388) for bucket 17  Calculating Z arrays for bucket 17  bucket 16: 40%  Entering block accumulator loop for bucket 17:  bucket 16: 50%  bucket 17: 10%  bucket 16: 60%  bucket 17: 20%  bucket 16: 70%  bucket 17: 30%  bucket 16: 80%  bucket 17: 40%  bucket 16: 90%  bucket 17: 50%  bucket 16: 100%  Sorting block of length 379 for bucket 16  (Using difference cover)  bucket 17: 60%  bucket 17: 70%  bucket 17: 80%  bucket 17: 90%  Sorting block time: 00:00:00Returning block of 380 for bucket 16  bucket 17: 100%  Sorting block of length 215 for bucket 17  (Using difference cover)  Sorting block time: 00:00:00Returning block of 216 for bucket 17Getting block 18 of 58  Reserving size (388) for bucket 18  Calculating Z arrays for bucket 18  Entering block accumulator loop for bucket 18:Getting block 19 of 58  Reserving size (388) for bucket 19  Calculating Z arrays for bucket 19  Entering block accumulator loop for bucket 19:  bucket 18: 10%  bucket 19: 10%  bucket 18: 20%  bucket 19: 20%  bucket 18: 30%  bucket 19: 30%  bucket 18: 40%  bucket 19: 40%  bucket 18: 50%  bucket 19: 50%  bucket 18: 60%  bucket 19: 60%  bucket 19: 70%  bucket 18: 70%  bucket 19: 80%  bucket 18: 80%  bucket 19: 90%  bucket 18: 90%  bucket 19: 100%  Sorting block of length 334 for bucket 19  (Using difference cover)  bucket 18: 100%  Sorting block of length 378 for bucket 18  (Using difference cover)  Sorting block time: 00:00:00Returning block of 379 for bucket 18  Sorting block time: 00:00:00Returning block of 335 for bucket 19Getting block 20 of 58  Reserving size (388) for bucket 20  Calculating Z arrays for bucket 20  Entering block accumulator loop for bucket 20:  bucket 20: 10%  bucket 20: 20%  bucket 20: 30%  bucket 20: 40%  bucket 20: 50%  bucket 20: 60%  bucket 20: 70%  bucket 20: 80%  bucket 20: 90%  bucket 20: 100%  Sorting block of length 313 for bucket 20  (Using difference cover)  Sorting block time: 00:00:00Returning block of 314 for bucket 20Getting block 21 of 58  Reserving size (388) for bucket 21Getting block 22 of 58  Calculating Z arrays for bucket 21  Reserving size (388) for bucket 22  Calculating Z arrays for bucket 22  Entering block accumulator loop for bucket 21:  Entering block accumulator loop for bucket 22:  bucket 22: 10%  bucket 21: 10%  bucket 22: 20%  bucket 21: 20%  bucket 22: 30%  bucket 21: 30%  bucket 22: 40%  bucket 21: 40%  bucket 22: 50%  bucket 21: 50%  bucket 22: 60%  bucket 21: 60%  bucket 22: 70%  bucket 21: 70%  bucket 22: 80%  bucket 21: 80%  bucket 22: 90%  bucket 21: 90%  bucket 21: 100%  bucket 22: 100%  Sorting block of length 210 for bucket 21  (Using difference cover)  Sorting block of length 386 for bucket 22  (Using difference cover)  Sorting block time: 00:00:00Returning block of 387 for bucket 22  Sorting block time: 00:00:00Returning block of 211 for bucket 21Getting block 23 of 58  Reserving size (388) for bucket 23Getting block 24 of 58  Calculating Z arrays for bucket 23  Reserving size (388) for bucket 24  Calculating Z arrays for bucket 24  Entering block accumulator loop for bucket 24:  Entering block accumulator loop for bucket 23:  bucket 23: 10%  bucket 24: 10%  bucket 24: 20%  bucket 23: 20%  bucket 24: 30%  bucket 23: 30%  bucket 23: 40%  bucket 23: 50%  bucket 23: 60%  bucket 24: 40%  bucket 23: 70%  bucket 24: 50%  bucket 23: 80%  bucket 24: 60%  bucket 24: 70%  bucket 23: 90%  bucket 24: 80%  bucket 23: 100%  Sorting block of length 238 for bucket 23  (Using difference cover)  bucket 24: 90%  bucket 24: 100%  Sorting block of length 351 for bucket 24  (Using difference cover)  Sorting block time: 00:00:00Returning block of 239 for bucket 23  Sorting block time: 00:00:00Returning block of 352 for bucket 24Getting block 25 of 58  Reserving size (388) for bucket 25Getting block 26 of 58  Calculating Z arrays for bucket 25  Reserving size (388) for bucket 26  Calculating Z arrays for bucket 26  Entering block accumulator loop for bucket 25:  Entering block accumulator loop for bucket 26:  bucket 25: 10%  bucket 26: 10%  bucket 25: 20%  bucket 26: 20%  bucket 25: 30%  bucket 26: 30%  bucket 25: 40%  bucket 25: 50%  bucket 26: 40%  bucket 25: 60%  bucket 26: 50%  bucket 25: 70%  bucket 25: 80%  bucket 26: 60%  bucket 25: 90%  bucket 26: 70%  bucket 25: 100%  Sorting block of length 105 for bucket 25  (Using difference cover)  bucket 26: 80%  bucket 26: 90%  Sorting block time: 00:00:00Returning block of 106 for bucket 25  bucket 26: 100%  Sorting block of length 354 for bucket 26  (Using difference cover)  Sorting block time: 00:00:00Returning block of 355 for bucket 26Getting block 27 of 58  Reserving size (388) for bucket 27  Calculating Z arrays for bucket 27  Entering block accumulator loop for bucket 27:  bucket 27: 10%  bucket 27: 20%  bucket 27: 30%  bucket 27: 40%  bucket 27: 50%  bucket 27: 60%  bucket 27: 70%  bucket 27: 80%  bucket 27: 90%  bucket 27: 100%  Sorting block of length 334 for bucket 27  (Using difference cover)  Sorting block time: 00:00:00Returning block of 335 for bucket 27Getting block 28 of 58  Reserving size (388) for bucket 28  Calculating Z arrays for bucket 28Getting block 29 of 58  Entering block accumulator loop for bucket 28:  Reserving size (388) for bucket 29  Calculating Z arrays for bucket 29  Entering block accumulator loop for bucket 29:  bucket 28: 10%  bucket 28: 20%  bucket 29: 10%  bucket 28: 30%  bucket 28: 40%  bucket 29: 20%Getting block 30 of 58  bucket 28: 50%  Reserving size (388) for bucket 30  Calculating Z arrays for bucket 30  bucket 29: 30%  Entering block accumulator loop for bucket 30:  bucket 28: 60%  bucket 29: 40%  bucket 30: 10%  bucket 28: 70%  bucket 29: 50%  bucket 30: 20%  bucket 28: 80%  bucket 28: 90%  bucket 29: 60%  bucket 30: 30%  bucket 28: 100%  Sorting block of length 253 for bucket 28  (Using difference cover)  bucket 29: 70%  bucket 30: 40%  bucket 29: 80%  bucket 30: 50%  bucket 29: 90%  bucket 30: 60%  Sorting block time: 00:00:00Returning block of 254 for bucket 28  bucket 29: 100%  Sorting block of length 289 for bucket 29  (Using difference cover)  bucket 30: 70%  bucket 30: 80%  bucket 30: 90%  Sorting block time: 00:00:00Returning block of 290 for bucket 29  bucket 30: 100%  Sorting block of length 345 for bucket 30  (Using difference cover)  Sorting block time: 00:00:00Returning block of 346 for bucket 30Getting block 31 of 58  Reserving size (388) for bucket 31  Calculating Z arrays for bucket 31  Entering block accumulator loop for bucket 31:  bucket 31: 10%Getting block 32 of 58  Reserving size (388) for bucket 32  bucket 31: 20%  Calculating Z arrays for bucket 32  Entering block accumulator loop for bucket 32:  bucket 31: 30%  bucket 31: 40%  bucket 32: 10%  bucket 31: 50%  bucket 32: 20%  bucket 31: 60%  bucket 32: 30%  bucket 31: 70%  bucket 32: 40%  bucket 31: 80%  bucket 31: 90%  bucket 32: 50%  bucket 31: 100%  Sorting block of le..0:00Returning block of 350 for bucket 23Getting block 24 of 57  Reserving size (388) for bucket 24  Calculating Z arrays for bucket 24  Entering block accumulator loop for bucket 24:Getting block 25 of 57  bucket 24: 10%  Reserving size (388) for bucket 25  Calculating Z arrays for bucket 25  Entering block accumulator loop for bucket 25:  bucket 24: 20%Getting block 26 of 57  bucket 25: 10%  bucket 24: 30%  Reserving size (388) for bucket 26  Calculating Z arrays for bucket 26  Entering block accumulator loop for bucket 26:  bucket 25: 20%  bucket 24: 40%  bucket 25: 30%  bucket 26: 10%  bucket 24: 50%  bucket 25: 40%  bucket 26: 20%  bucket 24: 60%  bucket 25: 50%  bucket 26: 30%  bucket 25: 60%  bucket 24: 70%  bucket 25: 70%  bucket 26: 40%  bucket 24: 80%  bucket 25: 80%  bucket 26: 50%  bucket 25: 90%  bucket 24: 90%  bucket 26: 60%  bucket 25: 100%  bucket 26: 70%  bucket 24: 100%  Sorting block of length 286 for bucket 25  (Using difference cover)  Sorting block of length 245 for bucket 24  (Using difference cover)  bucket 26: 80%  bucket 26: 90%  bucket 26: 100%  Sorting block of length 384 for bucket 26  (Using difference cover)  Sorting block time: 00:00:00Returning block of 246 for bucket 24  Sorting block time: 00:00:00Returning block of 287 for bucket 25  Sorting block time: 00:00:00Returning block of 385 for bucket 26Getting block 27 of 57  Reserving size (388) for bucket 27Getting block 28 of 57  Calculating Z arrays for bucket 27  Reserving size (388) for bucket 28  Calculating Z arrays for bucket 28  Entering block accumulator loop for bucket 27:  Entering block accumulator loop for bucket 28:  bucket 28: 10%  bucket 27: 10%  bucket 28: 20%  bucket 27: 20%  bucket 27: 30%  bucket 28: 30%  bucket 27: 40%  bucket 28: 40%  bucket 27: 50%  bucket 28: 50%  bucket 27: 60%  bucket 28: 60%  bucket 27: 70%  bucket 28: 70%  bucket 27: 80%  bucket 28: 80%  bucket 27: 90%  bucket 28: 90%  bucket 27: 100%  Sorting block of length 359 for bucket 27  (Using difference cover)  bucket 28: 100%  Sorting block of length 387 for bucket 28  (Using difference cover)  Sorting block time: 00:00:00Returning block of 360 for bucket 27  Sorting block time: 00:00:00Returning block of 388 for bucket 28Getting block 29 of 57  Reserving size (388) for bucket 29  Calculating Z arrays for bucket 29  Entering block accumulator loop for bucket 29:  bucket 29: 10%  bucket 29: 20%  bucket 29: 30%  bucket 29: 40%  bucket 29: 50%  bucket 29: 60%  bucket 29: 70%  bucket 29: 80%  bucket 29: 90%  bucket 29: 100%  Sorting block of length 195 for bucket 29  (Using difference cover)  Sorting block time: 00:00:00Returning block of 196 for bucket 29Getting block 30 of 57  Reserving size (388) for bucket 30  Calculating Z arrays for bucket 30  Entering block accumulator loop for bucket 30:  bucket 30: 10%Getting block 31 of 57  bucket 30: 20%  Reserving size (388) for bucket 31  Calculating Z arrays for bucket 31  Entering block accumulator loop for bucket 31:  bucket 30: 30%  bucket 30: 40%  bucket 31: 10%  bucket 30: 50%  bucket 31: 20%  bucket 30: 60%  bucket 31: 30%  bucket 30: 70%  bucket 30: 80%  bucket 31: 40%  bucket 30: 90%  bucket 31: 50%  bucket 30: 100%  Sorting block of length 257 for bucket 30  (Using difference cover)  bucket 31: 60%  bucket 31: 70%  bucket 31: 80%  Sorting block time: 00:00:00Returning block of 258 for bucket 30  bucket 31: 90%  bucket 31: 100%  Sorting block of length 310 for bucket 31  (Using difference cover)  Sorting block time: 00:00:00Returning block of 311 for bucket 31Getting block 32 of 57  Reserving size (388) for bucket 32  Calculating Z arrays for bucket 32  Entering block accumulator loop for bucket 32:  bucket 32: 10%  bucket 32: 20%Getting block 33 of 57  bucket 32: 30%  Reserving size (388) for bucket 33  Calculating Z arrays for bucket 33  Entering block accumulator loop for bucket 33:  bucket 32: 40%  bucket 33: 10%  bucket 32: 50%  bucket 33: 20%  bucket 32: 60%  bucket 33: 30%  bucket 32: 70%  bucket 32: 80%  bucket 33: 40%  bucket 33: 50%  bucket 32: 90%  bucket 33: 60%  bucket 32: 100%  Sorting block of length 219 for bucket 32  (Using difference cover)  bucket 33: 70%  bucket 33: 80%  bucket 33: 90%  Sorting block time: 00:00:00Returning block of 220 for bucket 32  bucket 33: 100%  Sorting block of length 387 for bucket 33  (Using difference cover)  Sorting block time: 00:00:00Returning block of 388 for bucket 33Getting block 34 of 57  Reserving size (388) for bucket 34Getting block 35 of 57  Calculating Z arrays for bucket 34  Reserving size (388) for bucket 35  Calculating Z arrays for bucket 35  Entering block accumulator loop for bucket 34:  Entering block accumulator loop for bucket 35:  bucket 35: 10%  bucket 34: 10%  bucket 35: 20%  bucket 34: 20%  bucket 35: 30%  bucket 34: 30%  bucket 35: 40%  bucket 34: 40%  bucket 35: 50%  bucket 35: 60%  bucket 34: 50%  bucket 35: 70%  bucket 34: 60%  bucket 35: 80%  bucket 34: 70%  bucket 35: 90%  bucket 34: 80%  bucket 35: 100%  Sorting block of length 350 for bucket 35  (Using difference cover)  bucket 34: 90%  bucket 34: 100%  Sorting block of length 275 for bucket 34  (Using difference cover)  Sorting block time: 00:00:00Returning block of 351 for bucket 35  Sorting block time: 00:00:00Returning block of 276 for bucket 34Getting block 37 of 57Getting block 36 of 57  Reserving size (388) for bucket 37  Reserving size (388) for bucket 36  Calculating Z arrays for bucket 37  Calculating Z arrays for bucket 36Getting block 38 of 57  Entering block accumulator loop for bucket 37:  Entering block accumulator loop for bucket 36:  Reserving size (388) for bucket 38  Calculating Z arrays for bucket 38  Entering block accumulator loop for bucket 38:  bucket 38: 10%  bucket 37: 10%  bucket 36: 10%  bucket 38: 20%  bucket 37: 20%  bucket 38: 30%  bucket 37: 30%  bucket 36: 20%  bucket 38: 40%  bucket 37: 40%  bucket 36: 30%  bucket 38: 50%  bucket 38: 60%  bucket 37: 50%  bucket 36: 40%  bucket 38: 70%  bucket 37: 60%  bucket 36: 50%  bucket 38: 80%  bucket 38: 90%  bucket 37: 70%  bucket 36: 60%  bucket 38: 100%  Sorting block of length 337 for bucket 38  (Using difference cover)  bucket 37: 80%  bucket 36: 70%  bucket 37: 90%  bucket 36: 80%  bucket 37: 100%  bucket 36: 90%  Sorting block of length 267 for bucket 37  (Using difference cover)  bucket 36: 100%  Sorting block of length 150 for bucket 36  (Using difference cover)  Sorting block time: 00:00:00Returning block of 338 for bucket 38  Sorting block time: 00:00:00Returning block of 151 for bucket 36  Sorting block time: 00:00:00Returning block of 268 for bucket 37Getting block 39 of 57  Reserving size (388) for bucket 39  Calculating Z arrays for bucket 39  Entering block accumulator loop for bucket 39:  bucket 39: 10%  bucket 39: 20%  bucket 39: 30%  bucket 39: 40%  bucket 39: 50%  bucket 39: 60%  bucket 39: 70%  bucket 39: 80%  bucket 39: 90%  bucket 39: 100%  Sorting block of length 387 for bucket 39  (Using difference cover)  Sorting block time: 00:00:00Returning block of 388 for bucket 39Getting block 40 of 57  Reserving size (388) for bucket 40Getting block 41 of 57  Calculating Z arrays for bucket 40  Reserving size (388) for bucket 41  Calculating Z arrays for bucket 41Getting block 42 of 57  Entering block accumulator loop for bucket 40:  Entering block accumulator loop for bucket 41:  Reserving size (388) for bucket 42  Calculating Z arrays for bucket 42  Entering block accumulator loop for bucket 42:  bucket 41: 10%  bucket 40: 10%  bucket 42: 10%  bucket 41: 20%  bucket 40: 20%  bucket 42: 20%  bucket 41: 30%  bucket 40: 30%  bucket 42: 30%  bucket 41: 40%  bucket 40: 40%  bucket 42: 40%  bucket 41: 50%  bucket 40: 50%  bucket 42: 50%  bucket 40: 60%  bucket 41: 60%  bucket 42: 60%  bucket 41: 70%  bucket 42: 70%  bucket 41: 80%  bucket 42: 80%  bucket 41: 90%  bucket 40: 70%  bucket 42: 90%  bucket 41: 100%  Sorting block of length 330 for bucket 41  (Using difference cover)  bucket 42: 100%  Sorting block of length 188 for bucket 42  (Using difference cover)  bucket 40: 80%  bucket 40: 90%  bucket 40: 100%  Sorting block of length 379 for bucket 40  (Using difference cover)  Sorting block time: 00:00:00Returning block of 189 for bucket 42  Sorting block time: 00:00:00Returning block of 331 for bucket 41  Sorting block time: 00:00:00Returning block of 380 for bucket 40Getting block 43 of 57  Reserving size (388) for bucket 43  Calculating Z arrays for bucket 43  Entering block accumulator loop for bucket 43:Getting block 44 of 57  Reserving size (388) for bucket 44  bucket 43: 10%  Calculating Z arrays for bucket 44  Entering block accumulator loop for bucket 44:  bucket 43: 20%  bucket 44: 10%  bucket 43: 30%  bucket 43: 40%  bucket 44: 20%  bucket 43: 50%  bucket 44: 30%  bucket 44: 40%  bucket 43: 60%  bucket 43: 70%  bucket 44: 50%  bucket 44: 60%  bucket 43: 80%  bucket 44: 70%  bucket 43: 90%  bucket 43: 100%  Sorting block of length 321 for bucket 43  (Using difference cover)  bucket 44: 80%  bucket 44: 90%  bucket 44: 100%  Sorting block of length 366 for bucket 44  (Using difference cover)  Sorting block time: 00:00:00Returning block of 322 for bucket 43  Sorting block time: 00:00:00Returning block of 367 for bucket 44Getting block 45 of 57  Reserving size (388) for bucket 45  Calculating Z arrays for bucket 45Getting block 46 of 57  Entering block accumulator loop for bucket 45:  Reserving size (388) for bucket 46  Calculating Z arrays for bucket 46  Entering block accumulator loop for bucket 46:  bucket 45: 10%  bucket 46: 10%  bucket 46: 20%  bucket 45: 20%  bucket 46: 30%  bucket 45: 30%  bucket 46: 40%  bucket 45: 40%  bucket 45: 50%  bucket 46: 50%  bucket 46: 60%  bucket 45: 60%  bucket 45: 70%  bucket 46: 70%  bucket 45: 80%  bucket 46: 80%  bucket 45: 90%  bucket 46: 90%  bucket 45: 100%  Sorting block of length 365 for bucket 45  (Using difference cover)  bucket 46: 100%  Sorting block of length 253 for bucket 46  (Using difference cover)  Sorting block time: 00:00:00Returning block of 366 for bucket 45  Sorting block time: 00:00:00Returning block of 254 for bucket 46Getting block 47 of 57  Reserving size (388) for bucket 47  Calculating Z arrays for bucket 47Getting block 48 of 57  Entering block accumulator loop for bucket 47:  Reserving size (388) for bucket 48  Calculating Z arrays for bucket 48  Entering block accumulator loop for bucket 48:  bucket 47: 10%  bucket 48: 10%  bucket 47: 20%  bucket 48: 20%  bucket 47: 30%  bucket 48: 30%  bucket 47: 40%  bucket 48: 40%  bucket 47: 50%  bucket 48: 50%  bucket 47: 60%  bucket 48: 60%  bucket 47: 70%  bucket 48: 70%  bucket 47: 80%  bucket 48: 80%  bucket 47: 90%  bucket 48: 90%  bucket 47: 100%  Sorting block of length 217 for bucket 47  (Using difference cover)  bucket 48: 100%  Sorting block of length 384 for bucket 48  (Using difference cover)  Sorting block time: 00:00:00Returning block of 385 for bucket 48  Sorting block time: 00:00:00Returning block of 218 for bucket 47Getting block 49 of 57  Reserving size (388) for bucket 49  Calculating Z arrays for bucket 49  Entering block accumulator loop for bucket 49:Getting block 50 of 57  Reserving size (388) for bucket 50  Calculating Z arrays for bucket 50  bucket 49: 10%  Entering block accumulator loop for bucket 50:  bucket 49: 20%  bucket 50: 10%  bucket 49: 30%Getting block 51 of 57  Reserving size (388) for bucket 51  bucket 49: 40%  bucket 50: 20%  Calculating Z arrays for bucket 51  Entering block accumulator loop for bucket 51:  bucket 49: 50%  bucket 50: 30%  bucket 49: 60%  bucket 51: 10%  bucket 49: 70%  bucket 50: 40%  bucket 51: 20%  bucket 51: 30%  bucket 49: 80%  bucket 50: 50%  bucket 51: 40%  bucket 49: 90%  bucket 49: 100%  bucket 51: 50%  bucket 50: 60%  Sorting block of length 112 for bucket 49  (Using difference cover)  bucket 51: 60%  bucket 51: 70%  bucket 50: 70%  bucket 51: 80%  bucket 50: 80%  Sorting block time: 00:00:00Returning block of 113 for bucket 49  bucket 51: 90%  bucket 50: 90%  bucket 51: 100%  Sorting block of length 350 for bucket 51  (Using difference cover)  bucket 50: 100%  Sorting block of length 275 for bucket 50  (Using difference cover)  Sorting block time: 00:00:00Returning block of 351 for bucket 51  Sorting block time: 00:00:00Returning block of 276 for bucket 50Getting block 52 of 57  Reserving size (388) for bucket 52  Calculating Z arrays for bucket 52  Entering block accumulator loop for bucket 52:Getting block 53 of 57  bucket 52: 10%  Reserving size (388) for bucket 53  Calculating Z arrays for bucket 53  Entering block accumulator loop for bucket 53:  bucket 52: 20%  bucket 53: 10%  bucket 52: 30%  bucket 53: 20%  bucket 52: 40%  bucket 53: 30%  bucket 52: 50%  bucket 53: 40%  bucket 52: 60%  bucket 53: 50%  bucket 52: 70%  bucket 53: 60%  bucket 53: 70%  bucket 52: 80%  bucket 52: 90%  bucket 53: 80%  bucket 52: 100%  Sorting block of length 378 for bucket 52  (Using difference cover)  bucket 53: 90%  bucket 53: 100%  Sorting block of length 370 for bucket 53  (Using difference cover)  Sorting block time: 00:00:00Returning block of 379 for bucket 52  Sorting block time: 00:00:00Returning block of 371 for bucket 53Getting block 54 of 57  Reserving size (388) for bucket 54  Calculating Z arrays for bucket 54  Entering block accumulator loop for bucket 54:Getting block 55 of 57  Reserving size (388) for bucket 55  Calculating Z arrays for bucket 55  bucket 54: 10%  Entering block accumulator loop for bucket 55:  bucket 54: 20%  bucket 55: 10%  bucket 54: 30%  bucket 55: 20%  bucket 55: 30%  bucket 54: 40%  bucket 55: 40%  bucket 54: 50%  bucket 54: 60%  bucket 55: 50%  bucket 54: 70%  bucket 55: 60%  bucket 54: 80%  bucket 55: 70%  bucket 54: 90%  bucket 55: 80%  bucket 54: 100%  Sorting block of length 237 for bucket 54  (Using difference cover)  bucket 55: 90%  bucket 55: 100%  Sorting block of length 344 for bucket 55  (Using difference cover)  Sorting block time: 00:00:00Returning block of 238 for bucket 54  Sorting block time: 00:00:00Returning block of 345 for bucket 55Getting block 56 of 57  Reserving size (388) for bucket 56  Calculating Z arrays for bucket 56  Entering block accumulator loop for bucket 56:  bucket 56: 10%  bucket 56: 20%  bucket 56: 30%  bucket 56: 40%  bucket 56: 50%  bucket 56: 60%  bucket 56: 70%  bucket 56: 80%  bucket 56: 90%  bucket 56: 100%  Sorting block of length 270 for bucket 56  (Using difference cover)  Sorting block time: 00:00:00Returning block of 271 for bucket 56Getting block 57 of 57  Reserving size (388) for bucket 57  Calculating Z arrays for bucket 57  Entering block accumulator loop for bucket 57:  bucket 57: 10%  bucket 57: 20%  bucket 57: 30%  bucket 57: 40%  bucket 57: 50%  bucket 57: 60%  bucket 57: 70%  bucket 57: 80%  bucket 57: 90%  bucket 57: 100%  Sorting block of length 132 for bucket 57  (Using difference cover)  Sorting block time: 00:00:00Returning block of 133 for bucket 57Exited Ebwt loopfchr[A]: 0fchr[C]: 5124fchr[G]: 10305fchr[T]: 12474fchr[$]: 16568Exiting Ebwt::buildToDisk()Returning from initFromVectorWrote 4200050 bytes to primary EBWT file: genome.rev.1.bt2.tmpWrote 4148 bytes to secondary EBWT file: genome.rev.2.bt2.tmpRe-opening _in1 and _in2 as input streamsReturning from Ebwt constructorHeaders:    len: 16568    bwtLen: 16569    sz: 4142    bwtSz: 4143    lineRate: 6    offRate: 4    offMask: 0xfffffff0    ftabChars: 10    eftabLen: 20    eftabSz: 80    ftabLen: 1048577    ftabSz: 4194308    offsLen: 1036    offsSz: 4144    lineSz: 64    sideSz: 64    sideBwtSz: 48    sideBwtLen: 192    numSides: 87    numLines: 87    ebwtTotLen: 5568    ebwtTotSz: 5568    color: 0    reverse: 1Total time for backward call to driver() for mirror index: 00:00:01
+            ]]></system-out>
+            <system-err><![CDATA[
+            Building a SMALL indexRenaming genome.3.bt2.tmp to genome.3.bt2Renaming genome.4.bt2.tmp to genome.4.bt2Renaming genome.1.bt2.tmp to genome.1.bt2Renaming genome.2.bt2.tmp to genome.2.bt2Renaming genome.rev.1.bt2.tmp to genome.rev.1.bt2Renaming genome.rev.2.bt2.tmp to genome.rev.2.bt2100 reads; of these:  100 (100.00%) were paired; of these:    97 (97.00%) aligned concordantly 0 times    3 (3.00%) aligned concordantly exactly 1 time    0 (0.00%) aligned concordantly >1 times    ----    97 pairs aligned concordantly 0 times; of these:      8 (8.25%) aligned discordantly 1 time    ----    89 pairs aligned 0 times concordantly or discordantly; of these:      178 mates make up the pairs; of these:        153 (85.96%) aligned 0 times        25 (14.04%) aligned exactly 1 time        0 (0.00%) aligned >1 times23.50% overall alignment rate
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="bowtie2 (Test #3)" name="2" time="30.980604648590088">
+        
+            
+            <system-out><![CDATA[
+            Settings:  Output files: "genome.*.bt2"  Line rate: 6 (line is 64 bytes)  Lines per side: 1 (side is 64 bytes)  Offset rate: 4 (one in 16)  FTable chars: 10  Strings: unpacked  Max bucket size: default  Max bucket size, sqrt multiplier: default  Max bucket size, len divisor: 32  Difference-cover sample period: 1024  Endianness: little  Actual local endianness: little  Sanity checking: disabled  Assertions: disabled  Random seed: 0  Sizeofs: void*:8, int:4, long:8, size_t:8Input files DNA, FASTA:  /galaxy/server/database/objects/5/0/e/dataset_50e15f15-357b-45f3-aa3c-f2ce8ea4047f.datReading reference sizes  Time reading reference sizes: 00:00:00Calculating joined lengthWriting headerReserving space for joined stringJoining reference sequences  Time to join reference sequences: 00:00:00bmax according to bmaxDivN setting: 517Using parameters --bmax 388 --dcv 1024  Doing ahead-of-time memory usage test  Passed!  Constructing with these parameters: --bmax 388 --dcv 1024Constructing suffix-array element generatorBuilding DifferenceCoverSample  Building sPrime  Building sPrimeOrder  V-Sorting samples  V-Sorting samples time: 00:00:00  Allocating rank array  Ranking v-sort output  Ranking v-sort output time: 00:00:00  Invoking Larsson-Sadakane on ranks  Invoking Larsson-Sadakane on ranks time: 00:00:00  Sanity-checking and returningBuilding samplesReserving space for 86 sample suffixesGenerating random suffixesQSorting 86 sample offsets, eliminating duplicatesQSorting sample offsets, eliminating duplicates time: 00:00:00Multikey QSorting 86 samples  (Using difference cover)  Multikey QSorting samples time: 00:00:00Calculating bucket sizesSplitting and merging  Splitting and merging time: 00:00:00Split 12, merged 41; iterating...Splitting and merging  Splitting and merging time: 00:00:00Split 6, merged 6; iterating...Splitting and merging  Splitting and merging time: 00:00:00Split 5, merged 3; iterating...Splitting and merging  Splitting and merging time: 00:00:00Split 3, merged 3; iterating...Splitting and merging  Splitting and merging time: 00:00:00Avg bucket size: 284.672 (target: 387)Converting suffix-array elements to index imageAllocating ftab, absorbFtabEntering Ebwt loopGetting block 1 of 58  Reserving size (388) for bucket 1Getting block 2 of 58Getting block 4 of 58Getting block 3 of 58Getting block 5 of 58Getting block 6 of 58Getting block 7 of 58  Calculating Z arrays for bucket 1  Reserving size (388) for bucket 2  Reserving size (388) for bucket 4  Reserving size (388) for bucket 3  Reserving size (388) for bucket 5  Reserving size (388) for bucket 6  Reserving size (388) for bucket 7  Calculating Z arrays for bucket 2  Calculating Z arrays for bucket 4  Entering block accumulator loop for bucket 1:  Calculating Z arrays for bucket 3  Calculating Z arrays for bucket 5  Calculating Z arrays for bucket 6  Calculating Z arrays for bucket 7  Entering block accumulator loop for bucket 2:  Entering block accumulator loop for bucket 4:  Entering block accumulator loop for bucket 5:  Entering block accumulator loop for bucket 3:  Entering block accumulator loop for bucket 6:  Entering block accumulator loop for bucket 7:  bucket 1: 10%  bucket 2: 10%  bucket 5: 10%  bucket 4: 10%  bucket 1: 20%  bucket 6: 10%  bucket 2: 20%  bucket 3: 10%  bucket 5: 20%  bucket 4: 20%  bucket 7: 10%  bucket 1: 30%  bucket 2: 30%  bucket 6: 20%  bucket 4: 30%  bucket 5: 30%  bucket 1: 40%  bucket 2: 40%  bucket 3: 20%  bucket 7: 20%  bucket 4: 40%  bucket 1: 50%  bucket 2: 50%  bucket 6: 30%  bucket 5: 40%  bucket 4: 50%  bucket 3: 30%  bucket 1: 60%  bucket 2: 60%  bucket 7: 30%  bucket 6: 40%  bucket 5: 50%  bucket 4: 60%  bucket 1: 70%  bucket 2: 70%  bucket 3: 40%  bucket 4: 70%  bucket 7: 40%  bucket 1: 80%  bucket 6: 50%  bucket 2: 80%  bucket 5: 60%  bucket 4: 80%  bucket 3: 50%  bucket 2: 90%  bucket 1: 90%  bucket 7: 50%  bucket 6: 60%  bucket 4: 90%  bucket 5: 70%  bucket 2: 100%  bucket 3: 60%  Sorting block of length 165 for bucket 2  (Using difference cover)  bucket 1: 100%  Sorting block of length 355 for bucket 1  (Using difference cover)  bucket 4: 100%  bucket 6: 70%  bucket 5: 80%  bucket 7: 60%  bucket 3: 70%  Sorting block of length 328 for bucket 4  (Using difference cover)  bucket 6: 80%  bucket 5: 90%  bucket 7: 70%  bucket 3: 80%  bucket 6: 90%  bucket 5: 100%  Sorting block of length 203 for bucket 5  (Using difference cover)  bucket 7: 80%  bucket 3: 90%  bucket 6: 100%  Sorting block of length 339 for bucket 6  (Using difference cover)  bucket 3: 100%  bucket 7: 90%  Sorting block of length 370 for bucket 3  (Using difference cover)  bucket 7: 100%  Sorting block of length 368 for bucket 7  (Using difference cover)  Sorting block time: 00:00:00Returning block of 340 for bucket 6  Sorting block time: 00:00:00Returning block of 369 for bucket 7  Sorting block time: 00:00:00Returning block of 166 for bucket 2  Sorting block time: 00:00:00Returning block of 204 for bucket 5  Sorting block time: 00:00:00Returning block of 329 for bucket 4  Sorting block time: 00:00:00Returning block of 356 for bucket 1  Sorting block time: 00:00:00Returning block of 371 for bucket 3Getting block 8 of 58  Reserving size (388) for bucket 8  Calculating Z arrays for bucket 8  Entering block accumulator loop for bucket 8:  bucket 8: 10%  bucket 8: 20%  bucket 8: 30%  bucket 8: 40%  bucket 8: 50%Getting block 9 of 58  bucket 8: 60%  Reserving size (388) for bucket 9  Calculating Z arrays for bucket 9Getting block 10 of 58  bucket 8: 70%  Entering block accumulator loop for bucket 9:  Reserving size (388) for bucket 10  Calculating Z arrays for bucket 10  bucket 8: 80%  Entering block accumulator loop for bucket 10:  bucket 9: 10%  bucket 8: 90%  bucket 8: 100%  Sorting block of length 171 for bucket 8  (Using difference cover)  bucket 9: 20%  bucket 10: 10%  bucket 9: 30%  bucket 10: 20%  bucket 9: 40%  bucket 10: 30%  bucket 9: 50%  bucket 9: 60%  Sorting block time: 00:00:00  bucket 10: 40%Returning block of 172 for bucket 8  bucket 9: 70%  bucket 10: 50%  bucket 9: 80%  bucket 10: 60%  bucket 9: 90%  bucket 10: 70%  bucket 9: 100%  Sorting block of length 339 for bucket 9  (Using difference cover)  bucket 10: 80%  bucket 10: 90%  bucket 10: 100%  Sorting block of length 357 for bucket 10  (Using difference cover)  Sorting block time: 00:00:00Returning block of 340 for bucket 9  Sorting block time: 00:00:00Returning block of 358 for bucket 10Getting block 11 of 58  Reserving size (388) for bucket 11Getting block 12 of 58  Calculating Z arrays for bucket 11  Reserving size (388) for bucket 12  Entering block accumulator loop for bucket 11:  Calculating Z arrays for bucket 12  Entering block accumulator loop for bucket 12:  bucket 11: 10%Getting block 13 of 58  bucket 12: 10%  bucket 11: 20%  Reserving size (388) for bucket 13  Calculating Z arrays for bucket 13  bucket 12: 20%  bucket 11: 30%  Entering block accumulator loop for bucket 13:  bucket 12: 30%  bucket 11: 40%  bucket 13: 10%  bucket 12: 40%  bucket 11: 50%  bucket 13: 20%  bucket 12: 50%  bucket 11: 60%  bucket 13: 30%  bucket 11: 70%  bucket 12: 60%  bucket 11: 80%  bucket 12: 70%  bucket 13: 40%  bucket 11: 90%  bucket 12: 80%  bucket 13: 50%  bucket 11: 100%  Sorting block of length 305 for bucket 11  (Using difference cover)  bucket 12: 90%  bucket 13: 60%  bucket 12: 100%  Sorting block of length 185 for bucket 12  (Using difference cover)  bucket 13: 70%  bucket 13: 80%  bucket 13: 90%  bucket 13: 100%  Sorting block of length 282 for bucket 13  (Using difference cover)  Sorting block time: 00:00:00Returning block of 186 for bucket 12  Sorting block time: 00:00:00Returning block of 306 for bucket 11  Sorting block time: 00:00:00Returning block of 283 for bucket 13Getting block 14 of 58  Reserving size (388) for bucket 14  Calculating Z arrays for bucket 14  Entering block accumulator loop for bucket 14:  bucket 14: 10%  bucket 14: 20%  bucket 14: 30%  bucket 14: 40%  bucket 14: 50%  bucket 14: 60%  bucket 14: 70%  bucket 14: 80%  bucket 14: 90%  bucket 14: 100%  Sorting block of length 339 for bucket 14  (Using difference cover)  Sorting block time: 00:00:00Returning block of 340 for bucket 14Getting block 15 of 58  Reserving size (388) for bucket 15  Calculating Z arrays for bucket 15  Entering block accumulator loop for bucket 15:  bucket 15: 10%  bucket 15: 20%  bucket 15: 30%Getting block 16 of 58  Reserving size (388) for bucket 16  Calculating Z arrays for bucket 16  bucket 15: 40%  Entering block accumulator loop for bucket 16:  bucket 15: 50%  bucket 16: 10%  bucket 16: 20%  bucket 15: 60%  bucket 16: 30%  bucket 15: 70%  bucket 16: 40%  bucket 15: 80%  bucket 16: 50%  bucket 16: 60%  bucket 15: 90%  bucket 16: 70%  bucket 15: 100%  Sorting block of length 241 for bucket 15  (Using difference cover)  bucket 16: 80%  bucket 16: 90%  bucket 16: 100%  Sorting block of length 379 for bucket 16  (Using difference cover)  Sorting block time: 00:00:00Returning block of 242 for bucket 15  Sorting block time: 00:00:00Returning block of 380 for bucket 16Getting block 17 of 58  Reserving size (388) for bucket 17  Calculating Z arrays for bucket 17  Entering block accumulator loop for bucket 17:  bucket 17: 10%  bucket 17: 20%  bucket 17: 30%Getting block 18 of 58  bucket 17: 40%  Reserving size (388) for bucket 18Getting block 19 of 58  Calculating Z arrays for bucket 18  bucket 17: 50%  Reserving size (388) for bucket 19  Calculating Z arrays for bucket 19  Entering block accumulator loop for bucket 18:  bucket 17: 60%  Entering block accumulator loop for bucket 19:  bucket 18: 10%  bucket 19: 10%  bucket 17: 70%  bucket 18: 20%  bucket 19: 20%  bucket 17: 80%  bucket 19: 30%  bucket 17: 90%  bucket 18: 30%  bucket 17: 100%  bucket 19: 40%  Sorting block of length 215 for bucket 17  (Using difference cover)  bucket 18: 40%  bucket 19: 50%  bucket 19: 60%  bucket 18: 50%  bucket 19: 70%  bucket 18: 60%  bucket 19: 80%  bucket 19: 90%  bucket 18: 70%  Sorting block time: 00:00:00Returning block of 216 for bucket 17  bucket 19: 100%  Sorting block of length 334 for bucket 19  (Using difference cover)  bucket 18: 80%  bucket 18: 90%  bucket 18: 100%  Sorting block time: 00:00:00  Sorting block of length 378 for bucket 18  (Using difference cover)Returning block of 335 for bucket 19  Sorting block time: 00:00:00Returning block of 379 for bucket 18Getting block 20 of 58  Reserving size (388) for bucket 20Getting block 21 of 58  Calculating Z arrays for bucket 20  Reserving size (388) for bucket 21  Calculating Z arrays for bucket 21  Entering block accumulator loop for bucket 20:  Entering block accumulator loop for bucket 21:  bucket 20: 10%  bucket 21: 10%  bucket 20: 20%  bucket 21: 20%  bucket 20: 30%  bucket 21: 30%  bucket 21: 40%  bucket 20: 40%  bucket 21: 50%  bucket 20: 50%  bucket 20: 60%  bucket 21: 60%  bucket 20: 70%  bucket 21: 70%  bucket 20: 80%  bucket 21: 80%  bucket 20: 90%  bucket 21: 90%  bucket 20: 100%  Sorting block of length 313 for bucket 20  (Using difference cover)  bucket 21: 100%  Sorting block of length 210 for bucket 21  (Using difference cover)  Sorting block time: 00:00:00Returning block of 211 for bucket 21  Sorting block time: 00:00:00Returning block of 314 for bucket 20Getting block 22 of 58  Reserving size (388) for bucket 22  Calculating Z arrays for bucket 22  Entering block accumulator loop for bucket 22:  bucket 22: 10%  bucket 22: 20%  bucket 22: 30%Getting block 23 of 58  bucket 22: 40%  Reserving size (388) for bucket 23  Calculating Z arrays for bucket 23  bucket 22: 50%  Entering block accumulator loop for bucket 23:  bucket 22: 60%  bucket 23: 10%  bucket 22: 70%  bucket 23: 20%  bucket 22: 80%  bucket 22: 90%  bucket 22: 100%  bucket 23: 30%  Sorting block of length 386 for bucket 22  (Using difference cover)  bucket 23: 40%  bucket 23: 50%  Sorting block time: 00:00:00  bucket 23: 60%Returning block of 387 for bucket 22  bucket 23: 70%  bucket 23: 80%  bucket 23: 90%  bucket 23: 100%  Sorting block of length 238 for bucket 23  (Using difference cover)  Sorting block time: 00:00:00Returning block of 239 for bucket 23Getting block 24 of 58  Reserving size (388) for bucket 24Getting block 25 of 58  Calculating Z arrays for bucket 24  Reserving size (388) for bucket 25  Calculating Z arrays for bucket 25  Entering block accumulator loop for bucket 24:  Entering block accumulator loop for bucket 25:  bucket 24: 10%  bucket 25: 10%  bucket 24: 20%  bucket 25: 20%  bucket 24: 30%  bucket 24: 40%  bucket 25: 30%  bucket 24: 50%  bucket 25: 40%  bucket 24: 60%  bucket 24: 70%  bucket 25: 50%  bucket 24: 80%  bucket 25: 60%  bucket 24: 90%  bucket 24: 100%  bucket 25: 70%  Sorting block of length 351 for bucket 24  (Using difference cover)  bucket 25: 80%  bucket 25: 90%  bucket 25: 100%  Sorting block of length 105 for bucket 25  (Using difference cover)  Sorting block time: 00:00:00Returning block of 352 for bucket 24  Sorting block time: 00:00:00Returning block of 106 for bucket 25Getting block 26 of 58  Reserving size (388) for bucket 26  Calculating Z arrays for bucket 26  Entering block accumulator loop for bucket 26:  bucket 26: 10%  bucket 26: 20%Getting block 27 of 58  bucket 26: 30%  Reserving size (388) for bucket 27  Calculating Z arrays for bucket 27  Entering block accumulator loop for bucket 27:  bucket 27: 10%  bucket 26: 40%  bucket 27: 20%  bucket 27: 30%  bucket 26: 50%  bucket 27: 40%  bucket 26: 60%  bucket 27: 50%  bucket 27: 60%  bucket 26: 70%  bucket 27: 70%  bucket 27: 80%  bucket 26: 80%  bucket 27: 90%  bucket 27: 100%  Sorting block of length 334 for bucket 27  (Using difference cover)  bucket 26: 90%  bucket 26: 100%  Sorting block of length 354 for bucket 26  (Using difference cover)  Sorting block time: 00:00:00Returning block of 335 for bucket 27  Sorting block time: 00:00:00Returning block of 355 for bucket 26Getting block 28 of 58  Reserving size (388) for bucket 28  Calculating Z arrays for bucket 28Getting block 29 of 58  Reserving size (388) for bucket 29  Calculating Z arrays for bucket 29  Entering block accumulator loop for bucket 28:  Entering block accumulator loop for bucket 29:Getting block 30 of 58  Reserving size (388) for bucket 30  Calculating Z arrays for bucket 30  bucket 29: 10%  bucket 28: 10%  Entering block accumulator loop for bucket 30:  bucket 29: 20%  bucket 28: 20%  bucket 30: 10%  bucket 29: 30%  bucket 28: 30%  bucket 30: 20%  bucket 29: 40%  bucket 30: 30%  bucket 28: 40%  bucket 29: 50%  bucket 30: 40%  bucket 28: 50%  bucket 30: 50%  bucket 28: 60%  bucket 29: 60%  bucket 30: 60%  bucket 28: 70%  bucket 29: 70%  bucket 30: 70%  bucket 28: 80%  bucket 29: 80%  bucket 30: 80%  bucket 28: 90%  bucket 30: 90%  bucket 29: 90%  bucket 28: 100%  Sorting block of length 253 for bucket 28  (Using difference cover)  bucket 30: 100%  Sorting block of length 345 for bucket 30  (Using difference cover)  bucket 29: 100%  Sorting block of length 289 for bucket 29  (Using difference cover)  Sorting block time: 00:00:00Returning block of 346 for bucket 30  Sorting block time: 00:00:00Returning block of 290 for bucket 29  Sorting block time: 00:00:00Returning block of 254 for bucket 28Getting block 31 of 58  Reserving size (388) for bucket 31  Calculating Z arrays for bucket 31  Entering block accumulator loop for bucket 31:  bucket 31: 10%  bucket 31: 20%  bucket 31: 30%  bucket 31: 40%  bucket 31: 50%  bucket 31: 60%  bucket 31: 70%  bucket 31: 80%  bucket 31: 90%  bucket 31: 100%  Sorting block of length 377 for bucket 31  (Using difference cover)  Sorting block time: 00:00:00Returning block of 378 for bucket 31Getting block 32 of 58  Reserving size (388) for bucket 32Getting block 33 of 58  Calculating Z arrays for buc..ucket 23: 50%  bucket 23: 60%  bucket 24: 40%  bucket 23: 70%  bucket 23: 80%  bucket 24: 50%  bucket 23: 90%  bucket 24: 60%  bucket 23: 100%  Sorting block of length 349 for bucket 23  (Using difference cover)  bucket 24: 70%  bucket 24: 80%  bucket 24: 90%  Sorting block time: 00:00:00Returning block of 350 for bucket 23  bucket 24: 100%  Sorting block of length 245 for bucket 24  (Using difference cover)  Sorting block time: 00:00:00Returning block of 246 for bucket 24Getting block 25 of 57  Reserving size (388) for bucket 25  Calculating Z arrays for bucket 25  Entering block accumulator loop for bucket 25:  bucket 25: 10%  bucket 25: 20%  bucket 25: 30%Getting block 26 of 57  bucket 25: 40%  Reserving size (388) for bucket 26  Calculating Z arrays for bucket 26  Entering block accumulator loop for bucket 26:  bucket 25: 50%  bucket 26: 10%  bucket 25: 60%  bucket 26: 20%  bucket 25: 70%  bucket 26: 30%  bucket 25: 80%  bucket 26: 40%  bucket 26: 50%  bucket 25: 90%  bucket 26: 60%  bucket 25: 100%  Sorting block of length 286 for bucket 25  (Using difference cover)  bucket 26: 70%  bucket 26: 80%  bucket 26: 90%  Sorting block time: 00:00:00Returning block of 287 for bucket 25  bucket 26: 100%  Sorting block of length 384 for bucket 26  (Using difference cover)  Sorting block time: 00:00:00Returning block of 385 for bucket 26Getting block 27 of 57  Reserving size (388) for bucket 27  Calculating Z arrays for bucket 27  Entering block accumulator loop for bucket 27:  bucket 27: 10%  bucket 27: 20%  bucket 27: 30%  bucket 27: 40%Getting block 28 of 57  bucket 27: 50%  Reserving size (388) for bucket 28  Calculating Z arrays for bucket 28  bucket 27: 60%  Entering block accumulator loop for bucket 28:  bucket 27: 70%  bucket 28: 10%  bucket 27: 80%  bucket 27: 90%  bucket 28: 20%  bucket 27: 100%  Sorting block of length 359 for bucket 27  (Using difference cover)  bucket 28: 30%  bucket 28: 40%  bucket 28: 50%  Sorting block time: 00:00:00Returning block of 360 for bucket 27  bucket 28: 60%  bucket 28: 70%  bucket 28: 80%  bucket 28: 90%  bucket 28: 100%  Sorting block of length 387 for bucket 28  (Using difference cover)  Sorting block time: 00:00:00Returning block of 388 for bucket 28Getting block 29 of 57  Reserving size (388) for bucket 29  Calculating Z arrays for bucket 29Getting block 30 of 57  Entering block accumulator loop for bucket 29:  Reserving size (388) for bucket 30  Calculating Z arrays for bucket 30Getting block 31 of 57  Entering block accumulator loop for bucket 30:  Reserving size (388) for bucket 31  Calculating Z arrays for bucket 31  bucket 29: 10%  Entering block accumulator loop for bucket 31:  bucket 30: 10%  bucket 29: 20%  bucket 31: 10%  bucket 30: 20%  bucket 29: 30%  bucket 31: 20%  bucket 30: 30%  bucket 29: 40%  bucket 31: 30%  bucket 30: 40%  bucket 29: 50%  bucket 31: 40%  bucket 29: 60%  bucket 30: 50%  bucket 31: 50%  bucket 29: 70%  bucket 31: 60%  bucket 30: 60%  bucket 29: 80%  bucket 31: 70%  bucket 30: 70%  bucket 29: 90%  bucket 31: 80%  bucket 29: 100%  bucket 30: 80%  Sorting block of length 195 for bucket 29  (Using difference cover)  bucket 31: 90%  bucket 30: 90%  bucket 31: 100%  Sorting block of length 310 for bucket 31  (Using difference cover)  bucket 30: 100%  Sorting block of length 257 for bucket 30  (Using difference cover)  Sorting block time: 00:00:00Returning block of 196 for bucket 29  Sorting block time: 00:00:00Returning block of 311 for bucket 31  Sorting block time: 00:00:00Returning block of 258 for bucket 30Getting block 32 of 57  Reserving size (388) for bucket 32  Calculating Z arrays for bucket 32Getting block 33 of 57  Entering block accumulator loop for bucket 32:  Reserving size (388) for bucket 33  Calculating Z arrays for bucket 33  Entering block accumulator loop for bucket 33:  bucket 32: 10%  bucket 33: 10%  bucket 32: 20%  bucket 33: 20%  bucket 32: 30%  bucket 33: 30%  bucket 32: 40%  bucket 33: 40%  bucket 32: 50%  bucket 33: 50%  bucket 32: 60%  bucket 33: 60%  bucket 32: 70%  bucket 33: 70%  bucket 32: 80%  bucket 32: 90%  bucket 33: 80%  bucket 32: 100%  bucket 33: 90%  Sorting block of length 219 for bucket 32  (Using difference cover)  bucket 33: 100%  Sorting block of length 387 for bucket 33  (Using difference cover)  Sorting block time: 00:00:00Returning block of 220 for bucket 32  Sorting block time: 00:00:00Returning block of 388 for bucket 33Getting block 34 of 57  Reserving size (388) for bucket 34Getting block 35 of 57  Calculating Z arrays for bucket 34  Reserving size (388) for bucket 35  Calculating Z arrays for bucket 35  Entering block accumulator loop for bucket 35:  Entering block accumulator loop for bucket 34:  bucket 35: 10%  bucket 34: 10%  bucket 35: 20%  bucket 34: 20%  bucket 34: 30%  bucket 35: 30%  bucket 34: 40%  bucket 35: 40%  bucket 34: 50%  bucket 35: 50%  bucket 35: 60%  bucket 34: 60%  bucket 35: 70%  bucket 34: 70%  bucket 35: 80%  bucket 34: 80%  bucket 35: 90%  bucket 34: 90%  bucket 35: 100%  Sorting block of length 350 for bucket 35  (Using difference cover)  bucket 34: 100%  Sorting block of length 275 for bucket 34  (Using difference cover)  Sorting block time: 00:00:00Returning block of 351 for bucket 35  Sorting block time: 00:00:00Returning block of 276 for bucket 34Getting block 36 of 57  Reserving size (388) for bucket 36  Calculating Z arrays for bucket 36  Entering block accumulator loop for bucket 36:  bucket 36: 10%  bucket 36: 20%Getting block 37 of 57  Reserving size (388) for bucket 37  Calculating Z arrays for bucket 37  bucket 36: 30%  Entering block accumulator loop for bucket 37:  bucket 36: 40%  bucket 37: 10%  bucket 36: 50%  bucket 37: 20%  bucket 36: 60%  bucket 36: 70%  bucket 37: 30%  bucket 36: 80%  bucket 37: 40%  bucket 36: 90%  bucket 37: 50%  bucket 36: 100%  bucket 37: 60%  Sorting block of length 150 for bucket 36  (Using difference cover)  bucket 37: 70%  bucket 37: 80%  bucket 37: 90%  bucket 37: 100%  Sorting block of length 267 for bucket 37  Sorting block time: 00:00:00  (Using difference cover)Returning block of 151 for bucket 36  Sorting block time: 00:00:00Returning block of 268 for bucket 37Getting block 38 of 57  Reserving size (388) for bucket 38  Calculating Z arrays for bucket 38  Entering block accumulator loop for bucket 38:  bucket 38: 10%  bucket 38: 20%  bucket 38: 30%  bucket 38: 40%  bucket 38: 50%  bucket 38: 60%  bucket 38: 70%  bucket 38: 80%  bucket 38: 90%  bucket 38: 100%  Sorting block of length 337 for bucket 38  (Using difference cover)  Sorting block time: 00:00:00Returning block of 338 for bucket 38Getting block 39 of 57  Reserving size (388) for bucket 39  Calculating Z arrays for bucket 39  Entering block accumulator loop for bucket 39:  bucket 39: 10%  bucket 39: 20%Getting block 40 of 57  bucket 39: 30%  Reserving size (388) for bucket 40  Calculating Z arrays for bucket 40Getting block 41 of 57  bucket 39: 40%  Entering block accumulator loop for bucket 40:  Reserving size (388) for bucket 41  Calculating Z arrays for bucket 41  bucket 39: 50%  Entering block accumulator loop for bucket 41:  bucket 40: 10%  bucket 39: 60%  bucket 41: 10%  bucket 39: 70%  bucket 40: 20%  bucket 39: 80%  bucket 41: 20%  bucket 39: 90%  bucket 40: 30%  bucket 41: 30%  bucket 39: 100%  Sorting block of length 387 for bucket 39  (Using difference cover)  bucket 40: 40%  bucket 41: 40%  bucket 40: 50%  bucket 40: 60%  bucket 41: 50%  bucket 40: 70%  bucket 41: 60%  bucket 40: 80%  Sorting block time: 00:00:00Returning block of 388 for bucket 39  bucket 41: 70%  bucket 40: 90%  bucket 41: 80%  bucket 40: 100%  Sorting block of length 379 for bucket 40  (Using difference cover)  bucket 41: 90%  bucket 41: 100%  Sorting block of length 330 for bucket 41  (Using difference cover)  Sorting block time: 00:00:00Returning block of 380 for bucket 40  Sorting block time: 00:00:00Returning block of 331 for bucket 41Getting block 42 of 57  Reserving size (388) for bucket 42  Calculating Z arrays for bucket 42  Entering block accumulator loop for bucket 42:  bucket 42: 10%  bucket 42: 20%  bucket 42: 30%  bucket 42: 40%  bucket 42: 50%  bucket 42: 60%  bucket 42: 70%  bucket 42: 80%  bucket 42: 90%  bucket 42: 100%  Sorting block of length 188 for bucket 42  (Using difference cover)  Sorting block time: 00:00:00Returning block of 189 for bucket 42Getting block 43 of 57  Reserving size (388) for bucket 43  Calculating Z arrays for bucket 43  Entering block accumulator loop for bucket 43:  bucket 43: 10%  bucket 43: 20%  bucket 43: 30%  bucket 43: 40%Getting block 44 of 57  Reserving size (388) for bucket 44  Calculating Z arrays for bucket 44  bucket 43: 50%  Entering block accumulator loop for bucket 44:  bucket 43: 60%  bucket 43: 70%  bucket 44: 10%  bucket 43: 80%  bucket 43: 90%  bucket 44: 20%  bucket 43: 100%  Sorting block of length 321 for bucket 43  (Using difference cover)  bucket 44: 30%  bucket 44: 40%  bucket 44: 50%  Sorting block time: 00:00:00Returning block of 322 for bucket 43  bucket 44: 60%  bucket 44: 70%  bucket 44: 80%  bucket 44: 90%  bucket 44: 100%  Sorting block of length 366 for bucket 44  (Using difference cover)  Sorting block time: 00:00:00Returning block of 367 for bucket 44Getting block 45 of 57  Reserving size (388) for bucket 45  Calculating Z arrays for bucket 45  Entering block accumulator loop for bucket 45:  bucket 45: 10%  bucket 45: 20%  bucket 45: 30%Getting block 46 of 57  bucket 45: 40%  Reserving size (388) for bucket 46  Calculating Z arrays for bucket 46  Entering block accumulator loop for bucket 46:  bucket 45: 50%  bucket 46: 10%  bucket 45: 60%  bucket 46: 20%  bucket 45: 70%  bucket 46: 30%  bucket 45: 80%  bucket 46: 40%  bucket 45: 90%  bucket 46: 50%  bucket 45: 100%  Sorting block of length 365 for bucket 45  (Using difference cover)  bucket 46: 60%  bucket 46: 70%  bucket 46: 80%  bucket 46: 90%  Sorting block time: 00:00:00Returning block of 366 for bucket 45  bucket 46: 100%  Sorting block of length 253 for bucket 46  (Using difference cover)  Sorting block time: 00:00:00Returning block of 254 for bucket 46Getting block 47 of 57  Reserving size (388) for bucket 47  Calculating Z arrays for bucket 47  Entering block accumulator loop for bucket 47:  bucket 47: 10%  bucket 47: 20%Getting block 48 of 57  Reserving size (388) for bucket 48  Calculating Z arrays for bucket 48  bucket 47: 30%  Entering block accumulator loop for bucket 48:  bucket 47: 40%  bucket 48: 10%  bucket 48: 20%  bucket 47: 50%  bucket 48: 30%  bucket 47: 60%  bucket 48: 40%  bucket 47: 70%  bucket 48: 50%  bucket 47: 80%  bucket 48: 60%  bucket 47: 90%  bucket 48: 70%  bucket 48: 80%  bucket 47: 100%  Sorting block of length 217 for bucket 47  (Using difference cover)  bucket 48: 90%  bucket 48: 100%  Sorting block of length 384 for bucket 48  (Using difference cover)  Sorting block time: 00:00:00Returning block of 218 for bucket 47  Sorting block time: 00:00:00Returning block of 385 for bucket 48Getting block 49 of 57  Reserving size (388) for bucket 49  Calculating Z arrays for bucket 49  Entering block accumulator loop for bucket 49:  bucket 49: 10%  bucket 49: 20%  bucket 49: 30%  bucket 49: 40%  bucket 49: 50%  bucket 49: 60%  bucket 49: 70%  bucket 49: 80%  bucket 49: 90%  bucket 49: 100%  Sorting block of length 112 for bucket 49  (Using difference cover)  Sorting block time: 00:00:00Returning block of 113 for bucket 49Getting block 50 of 57  Reserving size (388) for bucket 50  Calculating Z arrays for bucket 50  Entering block accumulator loop for bucket 50:  bucket 50: 10%  bucket 50: 20%Getting block 51 of 57  Reserving size (388) for bucket 51  Calculating Z arrays for bucket 51  bucket 50: 30%  Entering block accumulator loop for bucket 51:  bucket 51: 10%  bucket 50: 40%  bucket 51: 20%  bucket 50: 50%  bucket 51: 30%  bucket 51: 40%  bucket 50: 60%  bucket 51: 50%  bucket 50: 70%  bucket 51: 60%  bucket 51: 70%  bucket 50: 80%  bucket 51: 80%  bucket 51: 90%  bucket 50: 90%  bucket 51: 100%  Sorting block of length 350 for bucket 51  (Using difference cover)  bucket 50: 100%  Sorting block of length 275 for bucket 50  (Using difference cover)  Sorting block time: 00:00:00Returning block of 351 for bucket 51  Sorting block time: 00:00:00Returning block of 276 for bucket 50Getting block 52 of 57  Reserving size (388) for bucket 52  Calculating Z arrays for bucket 52Getting block 53 of 57  Entering block accumulator loop for bucket 52:  Reserving size (388) for bucket 53  Calculating Z arrays for bucket 53  Entering block accumulator loop for bucket 53:  bucket 52: 10%  bucket 53: 10%  bucket 52: 20%  bucket 53: 20%  bucket 52: 30%  bucket 53: 30%  bucket 52: 40%  bucket 53: 40%  bucket 52: 50%  bucket 53: 50%  bucket 52: 60%  bucket 53: 60%  bucket 52: 70%  bucket 53: 70%  bucket 52: 80%  bucket 53: 80%  bucket 52: 90%  bucket 53: 90%  bucket 52: 100%  Sorting block of length 378 for bucket 52  (Using difference cover)  bucket 53: 100%  Sorting block of length 370 for bucket 53  (Using difference cover)  Sorting block time: 00:00:00Returning block of 379 for bucket 52  Sorting block time: 00:00:00Returning block of 371 for bucket 53Getting block 54 of 57  Reserving size (388) for bucket 54  Calculating Z arrays for bucket 54  Entering block accumulator loop for bucket 54:  bucket 54: 10%  bucket 54: 20%  bucket 54: 30%Getting block 55 of 57  bucket 54: 40%  Reserving size (388) for bucket 55  Calculating Z arrays for bucket 55  Entering block accumulator loop for bucket 55:  bucket 54: 50%  bucket 54: 60%  bucket 55: 10%  bucket 54: 70%  bucket 55: 20%  bucket 54: 80%  bucket 55: 30%  bucket 54: 90%  bucket 54: 100%  bucket 55: 40%  Sorting block of length 237 for bucket 54  (Using difference cover)  bucket 55: 50%  bucket 55: 60%  bucket 55: 70%  bucket 55: 80%  Sorting block time: 00:00:00Returning block of 238 for bucket 54  bucket 55: 90%  bucket 55: 100%  Sorting block of length 344 for bucket 55  (Using difference cover)  Sorting block time: 00:00:00Returning block of 345 for bucket 55Getting block 56 of 57  Reserving size (388) for bucket 56  Calculating Z arrays for bucket 56  Entering block accumulator loop for bucket 56:  bucket 56: 10%  bucket 56: 20%Getting block 57 of 57  Reserving size (388) for bucket 57  Calculating Z arrays for bucket 57  Entering block accumulator loop for bucket 57:  bucket 56: 30%  bucket 57: 10%  bucket 57: 20%  bucket 56: 40%  bucket 57: 30%  bucket 57: 40%  bucket 57: 50%  bucket 57: 60%  bucket 56: 50%  bucket 57: 70%  bucket 57: 80%  bucket 56: 60%  bucket 57: 90%  bucket 56: 70%  bucket 57: 100%  Sorting block of length 132 for bucket 57  (Using difference cover)  bucket 56: 80%  bucket 56: 90%  bucket 56: 100%  Sorting block time: 00:00:00  Sorting block of length 270 for bucket 56  (Using difference cover)Returning block of 133 for bucket 57  Sorting block time: 00:00:00Returning block of 271 for bucket 56Exited Ebwt loopfchr[A]: 0fchr[C]: 5124fchr[G]: 10305fchr[T]: 12474fchr[$]: 16568Exiting Ebwt::buildToDisk()Returning from initFromVectorWrote 4200050 bytes to primary EBWT file: genome.rev.1.bt2.tmpWrote 4148 bytes to secondary EBWT file: genome.rev.2.bt2.tmpRe-opening _in1 and _in2 as input streamsReturning from Ebwt constructorHeaders:    len: 16568    bwtLen: 16569    sz: 4142    bwtSz: 4143    lineRate: 6    offRate: 4    offMask: 0xfffffff0    ftabChars: 10    eftabLen: 20    eftabSz: 80    ftabLen: 1048577    ftabSz: 4194308    offsLen: 1036    offsSz: 4144    lineSz: 64    sideSz: 64    sideBwtSz: 48    sideBwtLen: 192    numSides: 87    numLines: 87    ebwtTotLen: 5568    ebwtTotSz: 5568    color: 0    reverse: 1Total time for backward call to driver() for mirror index: 00:00:00
+            ]]></system-out>
+            <system-err><![CDATA[
+            Building a SMALL indexRenaming genome.3.bt2.tmp to genome.3.bt2Renaming genome.4.bt2.tmp to genome.4.bt2Renaming genome.1.bt2.tmp to genome.1.bt2Renaming genome.2.bt2.tmp to genome.2.bt2Renaming genome.rev.1.bt2.tmp to genome.rev.1.bt2Renaming genome.rev.2.bt2.tmp to genome.rev.2.bt2100 reads; of these:  100 (100.00%) were paired; of these:    97 (97.00%) aligned concordantly 0 times    3 (3.00%) aligned concordantly exactly 1 time    0 (0.00%) aligned concordantly >1 times    ----    97 pairs aligned concordantly 0 times; of these:      8 (8.25%) aligned discordantly 1 time    ----    89 pairs aligned 0 times concordantly or discordantly; of these:      178 mates make up the pairs; of these:        153 (85.96%) aligned 0 times        25 (14.04%) aligned exactly 1 time        0 (0.00%) aligned >1 times23.50% overall alignment rate
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="bowtie2 (Test #4)" name="3" time="9.706709623336792">
+        
+            <error type="error" message="Input staging problem: Job in error state.. tool_id: upload1, exit_code: None, stderr: ."><![CDATA[
+                { "execution_problem": "Input staging problem: Job in error state.. tool_id: upload1, exit_code: None, stderr: .", "status": "error", "test_index": 3, "time_seconds": 9.706709623336792, "tool_id": "bowtie2", "tool_version": "2.5.3+galaxy1"}
+            ]]></error>
+        
+    </testcase>
+    
+    <testcase classname="bowtie2 (Test #5)" name="4" time="28.307546615600586">
+        
+            
+            <system-out><![CDATA[
+            Settings:  Output files: "genome.*.bt2"  Line rate: 6 (line is 64 bytes)  Lines per side: 1 (side is 64 bytes)  Offset rate: 4 (one in 16)  FTable chars: 10  Strings: unpacked  Max bucket size: default  Max bucket size, sqrt multiplier: default  Max bucket size, len divisor: 32  Difference-cover sample period: 1024  Endianness: little  Actual local endianness: little  Sanity checking: disabled  Assertions: disabled  Random seed: 0  Sizeofs: void*:8, int:4, long:8, size_t:8Input files DNA, FASTA:  /galaxy/server/database/objects/7/c/8/dataset_7c8dceb1-ea9d-41e2-913d-808e065b1678.datReading reference sizes  Time reading reference sizes: 00:00:00Calculating joined lengthWriting headerReserving space for joined stringJoining reference sequences  Time to join reference sequences: 00:00:00bmax according to bmaxDivN setting: 517Using parameters --bmax 388 --dcv 1024  Doing ahead-of-time memory usage test  Passed!  Constructing with these parameters: --bmax 388 --dcv 1024Constructing suffix-array element generatorBuilding DifferenceCoverSample  Building sPrime  Building sPrimeOrder  V-Sorting samples  V-Sorting samples time: 00:00:00  Allocating rank array  Ranking v-sort output  Ranking v-sort output time: 00:00:00  Invoking Larsson-Sadakane on ranks  Invoking Larsson-Sadakane on ranks time: 00:00:00  Sanity-checking and returningBuilding samplesReserving space for 86 sample suffixesGenerating random suffixesQSorting 86 sample offsets, eliminating duplicatesQSorting sample offsets, eliminating duplicates time: 00:00:00Multikey QSorting 86 samples  (Using difference cover)  Multikey QSorting samples time: 00:00:00Calculating bucket sizesSplitting and merging  Splitting and merging time: 00:00:00Split 12, merged 41; iterating...Splitting and merging  Splitting and merging time: 00:00:00Split 6, merged 6; iterating...Splitting and merging  Splitting and merging time: 00:00:00Split 5, merged 3; iterating...Splitting and merging  Splitting and merging time: 00:00:00Split 3, merged 3; iterating...Splitting and merging  Splitting and merging time: 00:00:00Avg bucket size: 284.672 (target: 387)Converting suffix-array elements to index imageAllocating ftab, absorbFtabEntering Ebwt loopGetting block 1 of 58  Reserving size (388) for bucket 1Getting block 2 of 58Getting block 3 of 58Getting block 4 of 58Getting block 5 of 58  Calculating Z arrays for bucket 1  Reserving size (388) for bucket 2  Reserving size (388) for bucket 3  Reserving size (388) for bucket 4  Reserving size (388) for bucket 5Getting block 6 of 58Getting block 7 of 58  Calculating Z arrays for bucket 2  Entering block accumulator loop for bucket 1:  Calculating Z arrays for bucket 3  Calculating Z arrays for bucket 4  Calculating Z arrays for bucket 5  Reserving size (388) for bucket 6  Reserving size (388) for bucket 7  Calculating Z arrays for bucket 6  Calculating Z arrays for bucket 7  Entering block accumulator loop for bucket 3:  Entering block accumulator loop for bucket 4:  Entering block accumulator loop for bucket 2:  Entering block accumulator loop for bucket 5:  bucket 1: 10%  Entering block accumulator loop for bucket 7:  Entering block accumulator loop for bucket 6:  bucket 1: 20%  bucket 5: 10%  bucket 4: 10%  bucket 3: 10%  bucket 1: 30%  bucket 2: 10%  bucket 7: 10%  bucket 6: 10%  bucket 1: 40%  bucket 5: 20%  bucket 3: 20%  bucket 4: 20%  bucket 1: 50%  bucket 7: 20%  bucket 2: 20%  bucket 5: 30%  bucket 6: 20%  bucket 1: 60%  bucket 3: 30%  bucket 7: 30%  bucket 4: 30%  bucket 1: 70%  bucket 2: 30%  bucket 5: 40%  bucket 1: 80%  bucket 3: 40%  bucket 6: 30%  bucket 7: 40%  bucket 4: 40%  bucket 1: 90%  bucket 2: 40%  bucket 5: 50%  bucket 1: 100%  bucket 3: 50%  bucket 7: 50%  bucket 4: 50%  Sorting block of length 355 for bucket 1  (Using difference cover)  bucket 6: 40%  bucket 2: 50%  bucket 5: 60%  bucket 3: 60%  bucket 7: 60%  bucket 4: 60%  bucket 5: 70%  bucket 2: 60%  bucket 6: 50%  bucket 3: 70%  bucket 7: 70%  bucket 4: 70%  bucket 5: 80%  bucket 2: 70%  bucket 3: 80%  bucket 7: 80%  bucket 4: 80%  bucket 6: 60%  bucket 5: 90%  bucket 2: 80%  bucket 3: 90%  bucket 7: 90%  bucket 4: 90%  bucket 6: 70%  bucket 5: 100%  Sorting block of length 203 for bucket 5  (Using difference cover)  bucket 3: 100%  bucket 2: 90%  Sorting block of length 370 for bucket 3  Sorting block time: 00:00:00  (Using difference cover)  bucket 7: 100%  bucket 4: 100%Returning block of 356 for bucket 1  Sorting block of length 368 for bucket 7  (Using difference cover)  Sorting block of length 328 for bucket 4  (Using difference cover)  bucket 6: 80%  bucket 2: 100%  Sorting block of length 165 for bucket 2  (Using difference cover)  bucket 6: 90%  bucket 6: 100%  Sorting block of length 339 for bucket 6  (Using difference cover)  Sorting block time: 00:00:00Returning block of 369 for bucket 7  Sorting block time: 00:00:00Returning block of 329 for bucket 4  Sorting block time: 00:00:00Returning block of 340 for bucket 6  Sorting block time: 00:00:00Returning block of 204 for bucket 5  Sorting block time: 00:00:00Returning block of 371 for bucket 3  Sorting block time: 00:00:00Returning block of 166 for bucket 2Getting block 8 of 58  Reserving size (388) for bucket 8  Calculating Z arrays for bucket 8  Entering block accumulator loop for bucket 8:  bucket 8: 10%Getting block 9 of 58  Reserving size (388) for bucket 9  bucket 8: 20%  Calculating Z arrays for bucket 9Getting block 10 of 58  Entering block accumulator loop for bucket 9:  bucket 8: 30%  Reserving size (388) for bucket 10  Calculating Z arrays for bucket 10  bucket 8: 40%  Entering block accumulator loop for bucket 10:  bucket 9: 10%  bucket 8: 50%  bucket 9: 20%  bucket 10: 10%  bucket 9: 30%  bucket 8: 60%  bucket 10: 20%  bucket 9: 40%  bucket 8: 70%  bucket 10: 30%  bucket 9: 50%  bucket 8: 80%  bucket 8: 90%  bucket 9: 60%  bucket 10: 40%  bucket 8: 100%  Sorting block of length 171 for bucket 8  (Using difference cover)  bucket 9: 70%  bucket 10: 50%  bucket 9: 80%  bucket 10: 60%  bucket 9: 90%  bucket 9: 100%  Sorting block of length 339 for bucket 9  (Using difference cover)  bucket 10: 70%  Sorting block time: 00:00:00Returning block of 172 for bucket 8  bucket 10: 80%  bucket 10: 90%  Sorting block time: 00:00:00  bucket 10: 100%Returning block of 340 for bucket 9  Sorting block of length 357 for bucket 10  (Using difference cover)  Sorting block time: 00:00:00Returning block of 358 for bucket 10Getting block 11 of 58  Reserving size (388) for bucket 11Getting block 12 of 58  Calculating Z arrays for bucket 11  Reserving size (388) for bucket 12  Calculating Z arrays for bucket 12  Entering block accumulator loop for bucket 11:Getting block 13 of 58  Entering block accumulator loop for bucket 12:  Reserving size (388) for bucket 13  bucket 11: 10%  Calculating Z arrays for bucket 13  Entering block accumulator loop for bucket 13:  bucket 11: 20%  bucket 12: 10%  bucket 11: 30%  bucket 13: 10%  bucket 12: 20%  bucket 11: 40%  bucket 13: 20%  bucket 12: 30%  bucket 11: 50%  bucket 13: 30%  bucket 11: 60%  bucket 12: 40%  bucket 11: 70%  bucket 13: 40%  bucket 12: 50%  bucket 11: 80%  bucket 13: 50%  bucket 12: 60%  bucket 11: 90%  bucket 13: 60%  bucket 12: 70%  bucket 11: 100%  Sorting block of length 305 for bucket 11  (Using difference cover)  bucket 13: 70%  bucket 12: 80%  bucket 13: 80%  bucket 13: 90%  bucket 12: 90%  bucket 13: 100%  bucket 12: 100%  Sorting block of length 282 for bucket 13  (Using difference cover)  Sorting block time: 00:00:00  Sorting block of length 185 for bucket 12  (Using difference cover)Returning block of 306 for bucket 11  Sorting block time: 00:00:00Returning block of 186 for bucket 12  Sorting block time: 00:00:00Returning block of 283 for bucket 13Getting block 14 of 58  Reserving size (388) for bucket 14  Calculating Z arrays for bucket 14  Entering block accumulator loop for bucket 14:  bucket 14: 10%  bucket 14: 20%  bucket 14: 30%Getting block 15 of 58  bucket 14: 40%  Reserving size (388) for bucket 15  Calculating Z arrays for bucket 15  Entering block accumulator loop for bucket 15:  bucket 14: 50%  bucket 15: 10%  bucket 14: 60%  bucket 15: 20%  bucket 14: 70%  bucket 15: 30%  bucket 14: 80%  bucket 15: 40%  bucket 15: 50%  bucket 14: 90%  bucket 15: 60%  bucket 14: 100%  Sorting block of length 339 for bucket 14  (Using difference cover)  bucket 15: 70%  bucket 15: 80%  bucket 15: 90%  bucket 15: 100%  Sorting block of length 241 for bucket 15  (Using difference cover)  Sorting block time: 00:00:00Returning block of 340 for bucket 14  Sorting block time: 00:00:00Returning block of 242 for bucket 15Getting block 16 of 58  Reserving size (388) for bucket 16  Calculating Z arrays for bucket 16Getting block 17 of 58  Entering block accumulator loop for bucket 16:  Reserving size (388) for bucket 17  Calculating Z arrays for bucket 17  Entering block accumulator loop for bucket 17:  bucket 16: 10%  bucket 17: 10%  bucket 17: 20%  bucket 16: 20%  bucket 17: 30%  bucket 16: 30%  bucket 17: 40%  bucket 16: 40%  bucket 17: 50%  bucket 17: 60%  bucket 16: 50%  bucket 17: 70%  bucket 16: 60%  bucket 17: 80%  bucket 16: 70%  bucket 17: 90%  bucket 16: 80%  bucket 17: 100%  Sorting block of length 215 for bucket 17  (Using difference cover)  bucket 16: 90%  bucket 16: 100%  Sorting block of length 379 for bucket 16  (Using difference cover)  Sorting block time: 00:00:00Returning block of 216 for bucket 17  Sorting block time: 00:00:00Returning block of 380 for bucket 16Getting block 18 of 58  Reserving size (388) for bucket 18  Calculating Z arrays for bucket 18  Entering block accumulator loop for bucket 18:  bucket 18: 10%  bucket 18: 20%  bucket 18: 30%Getting block 19 of 58  bucket 18: 40%  Reserving size (388) for bucket 19Getting block 20 of 58  Calculating Z arrays for bucket 19  Reserving size (388) for bucket 20  bucket 18: 50%  Calculating Z arrays for bucket 20  Entering block accumulator loop for bucket 19:  Entering block accumulator loop for bucket 20:  bucket 18: 60%  bucket 20: 10%  bucket 19: 10%  bucket 20: 20%  bucket 18: 70%  bucket 19: 20%  bucket 20: 30%  bucket 19: 30%  bucket 18: 80%  bucket 20: 40%  bucket 19: 40%  bucket 18: 90%  bucket 20: 50%  bucket 19: 50%  bucket 18: 100%  Sorting block of length 378 for bucket 18  (Using difference cover)  bucket 20: 60%  bucket 19: 60%  bucket 20: 70%  bucket 19: 70%  bucket 20: 80%  bucket 20: 90%  bucket 19: 80%  bucket 20: 100%  Sorting block of length 313 for bucket 20  (Using difference cover)  bucket 19: 90%  bucket 19: 100%  Sorting block of length 334 for bucket 19  (Using difference cover)  Sorting block time: 00:00:00Returning block of 379 for bucket 18  Sorting block time: 00:00:00Returning block of 335 for bucket 19  Sorting block time: 00:00:00Returning block of 314 for bucket 20Getting block 21 of 58  Reserving size (388) for bucket 21  Calculating Z arrays for bucket 21Getting block 22 of 58  Reserving size (388) for bucket 22  Calculating Z arrays for bucket 22  Entering block accumulator loop for bucket 21:  bucket 21: 10%  Entering block accumulator loop for bucket 22:  bucket 21: 20%  bucket 22: 10%  bucket 22: 20%  bucket 21: 30%  bucket 22: 30%  bucket 21: 40%  bucket 22: 40%  bucket 21: 50%  bucket 22: 50%  bucket 21: 60%  bucket 22: 60%  bucket 22: 70%  bucket 21: 70%  bucket 22: 80%  bucket 21: 80%  bucket 22: 90%  bucket 21: 90%  bucket 22: 100%  Sorting block of length 386 for bucket 22  (Using difference cover)  bucket 21: 100%  Sorting block of length 210 for bucket 21  (Using difference cover)  Sorting block time: 00:00:00Returning block of 211 for bucket 21  Sorting block time: 00:00:00Returning block of 387 for bucket 22Getting block 23 of 58  Reserving size (388) for bucket 23  Calculating Z arrays for bucket 23Getting block 24 of 58  Entering block accumulator loop for bucket 23:  Reserving size (388) for bucket 24  Calculating Z arrays for bucket 24  Entering block accumulator loop for bucket 24:  bucket 23: 10%  bucket 24: 10%  bucket 24: 20%  bucket 23: 20%  bucket 24: 30%  bucket 23: 30%  bucket 24: 40%  bucket 24: 50%  bucket 23: 40%  bucket 24: 60%  bucket 23: 50%  bucket 24: 70%  bucket 23: 60%  bucket 24: 80%  bucket 23: 70%  bucket 24: 90%  bucket 24: 100%  bucket 23: 80%  Sorting block of length 351 for bucket 24  (Using difference cover)  bucket 23: 90%  bucket 23: 100%  Sorting block of length 238 for bucket 23  (Using difference cover)  Sorting block time: 00:00:00Returning block of 352 for bucket 24  Sorting block time: 00:00:00Returning block of 239 for bucket 23Getting block 25 of 58  Reserving size (388) for bucket 25  Calculating Z arrays for bucket 25  Entering block accumulator loop for bucket 25:  bucket 25: 10%  bucket 25: 20%  bucket 25: 30%  bucket 25: 40%  bucket 25: 50%Getting block 26 of 58  Reserving size (388) for bucket 26  Calculating Z arrays for bucket 26  bucket 25: 60%  Entering block accumulator loop for bucket 26:  bucket 25: 70%  bucket 26: 10%  bucket 25: 80%  bucket 25: 90%  bucket 26: 20%  bucket 25: 100%  Sorting block of length 105 for bucket 25  (Using difference cover)  bucket 26: 30%  bucket 26: 40%  bucket 26: 50%  Sorting block time: 00:00:00Returning block of 106 for bucket 25  bucket 26: 60%  bucket 26: 70%  bucket 26: 80%  bucket 26: 90%  bucket 26: 100%  Sorting block of length 354 for bucket 26  (Using difference cover)  Sorting block time: 00:00:00Returning block of 355 for bucket 26Getting block 27 of 58  Reserving size (388) for bucket 27  Calculating Z arrays for bucket 27  Entering block accumulator loop for bucket 27:  bucket 27: 10%  bucket 27: 20%  bucket 27: 30%Getting block 28 of 58  Reserving size (388) for bucket 28  Calculating Z arrays for bucket 28  bucket 27: 40%  Entering block accumulator loop for bucket 28:  bucket 27: 50%  bucket 28: 10%  bucket 27: 60%  bucket 28: 20%  bucket 27: 70%  bucket 27: 80%  bucket 28: 30%  bucket 27: 90%  bucket 28: 40%  bucket 27: 100%  Sorting block of length 334 for bucket 27  (Using difference cover)  bucket 28: 50%  bucket 28: 60%  Sorting block time: 00:00:00Returning block of 335 for bucket 27  bucket 28: 70%  bucket 28: 80%  bucket 28: 90%  bucket 28: 100%  Sorting block of length 253 for bucket 28  (Using difference cover)  Sorting block time: 00:00:00Returning block of 254 for bucket 28Getting block 29 of 58  Reserving size (388) for bucket 29  Calculating Z arrays for bucket 29Getting block 30 of 58  Reserving size (388) for bucket 30  Entering block accumulator loop for bucket 29:  Calculating Z arrays for bucket 30  Entering block accumulator loop for bucket 30:  bucket 29: 10%Getting block 31 of 58  bucket 30: 10%  bucket 29: 20%  Reserving size (388) for bucket 31  Calculating Z arrays for bucket 31  Entering block accumulator loop for bucket 31:  bucket 29: 30%  bucket 30: 20%  bucket 31: 10%  bucket 29: 40%  bucket 30: 30%  bucket 31: 20%  bucket 29: 50%  bucket 30: 40%  bucket 29: 60%  bucket 30: 50%  bucket 31: 30%  bucket 29: 70%  bucket 30: 60%  bucket 29: 80%  bucket 30: 70%  bucket 31: 40%  bucket 30: 80%  bucket 29: 90%  bucket 30: 90%  bucket 31: 50%  bucket 30: 100%  bucket 29: 100%  Sorting block of length 345 for bucket 30  (Using difference cover)  bucket 31: 60%  Sorting block of length 289 for bucket 29  (Using difference cover)  bucket 31: 70%  bucket 31: 80%  bucket 31: 90%  bucket 31: 100%  Sorting block of length 377 for bucket 31  (Using difference cover)  Sorting block time: 00:00:00Returning block of 346 for bucket 30  Sorting block time: 00:00:00Returning block of 290 for bucket 29  Sorting block time: 00:00:00Returning block of 378 for bucket 31Getting block 32 of 58  Reserving size (388) for bucket 32  Calculating Z arrays for bucket 32  Entering block..0:00Returning block of 372 for bucket 22Getting block 24 of 57  Reserving size (388) for bucket 24  Calculating Z arrays for bucket 24Getting block 25 of 57  Entering block accumulator loop for bucket 24:  Reserving size (388) for bucket 25  Calculating Z arrays for bucket 25  Entering block accumulator loop for bucket 25:  bucket 24: 10%  bucket 25: 10%  bucket 24: 20%  bucket 24: 30%  bucket 25: 20%  bucket 24: 40%  bucket 25: 30%Getting block 26 of 57  Reserving size (388) for bucket 26  Calculating Z arrays for bucket 26  Entering block accumulator loop for bucket 26:  bucket 25: 40%  bucket 24: 50%  bucket 26: 10%  bucket 25: 50%  bucket 24: 60%  bucket 26: 20%  bucket 25: 60%  bucket 26: 30%  bucket 25: 70%  bucket 24: 70%  bucket 26: 40%  bucket 25: 80%  bucket 24: 80%  bucket 26: 50%  bucket 25: 90%  bucket 26: 60%  bucket 25: 100%  Sorting block of length 286 for bucket 25  (Using difference cover)  bucket 24: 90%  bucket 26: 70%  bucket 26: 80%  bucket 24: 100%  Sorting block of length 245 for bucket 24  (Using difference cover)  bucket 26: 90%  Sorting block time: 00:00:00Returning block of 287 for bucket 25  bucket 26: 100%  Sorting block of length 384 for bucket 26  (Using difference cover)  Sorting block time: 00:00:00Returning block of 246 for bucket 24  Sorting block time: 00:00:00Returning block of 385 for bucket 26Getting block 27 of 57  Reserving size (388) for bucket 27  Calculating Z arrays for bucket 27  Entering block accumulator loop for bucket 27:  bucket 27: 10%  bucket 27: 20%  bucket 27: 30%Getting block 28 of 57  bucket 27: 40%  Reserving size (388) for bucket 28  Calculating Z arrays for bucket 28  bucket 27: 50%  Entering block accumulator loop for bucket 28:  bucket 27: 60%  bucket 28: 10%  bucket 27: 70%  bucket 27: 80%  bucket 28: 20%  bucket 27: 90%  bucket 28: 30%  bucket 27: 100%  Sorting block of length 359 for bucket 27  (Using difference cover)  bucket 28: 40%  bucket 28: 50%  bucket 28: 60%  Sorting block time: 00:00:00Returning block of 360 for bucket 27  bucket 28: 70%  bucket 28: 80%  bucket 28: 90%  bucket 28: 100%  Sorting block of length 387 for bucket 28  (Using difference cover)  Sorting block time: 00:00:00Returning block of 388 for bucket 28Getting block 29 of 57  Reserving size (388) for bucket 29Getting block 30 of 57  Calculating Z arrays for bucket 29  Reserving size (388) for bucket 30  Calculating Z arrays for bucket 30  Entering block accumulator loop for bucket 29:  Entering block accumulator loop for bucket 30:  bucket 29: 10%  bucket 30: 10%  bucket 29: 20%  bucket 29: 30%  bucket 30: 20%  bucket 29: 40%  bucket 29: 50%  bucket 30: 30%  bucket 29: 60%  bucket 29: 70%  bucket 30: 40%  bucket 29: 80%  bucket 30: 50%  bucket 29: 90%  bucket 30: 60%  bucket 29: 100%  Sorting block of length 195 for bucket 29  (Using difference cover)  bucket 30: 70%  bucket 30: 80%  Sorting block time: 00:00:00Returning block of 196 for bucket 29  bucket 30: 90%  bucket 30: 100%  Sorting block of length 257 for bucket 30  (Using difference cover)  Sorting block time: 00:00:00Returning block of 258 for bucket 30Getting block 31 of 57  Reserving size (388) for bucket 31  Calculating Z arrays for bucket 31  Entering block accumulator loop for bucket 31:  bucket 31: 10%Getting block 32 of 57  Reserving size (388) for bucket 32  bucket 31: 20%  Calculating Z arrays for bucket 32  Entering block accumulator loop for bucket 32:  bucket 31: 30%  bucket 31: 40%  bucket 32: 10%  bucket 31: 50%  bucket 32: 20%  bucket 32: 30%  bucket 31: 60%  bucket 32: 40%  bucket 31: 70%  bucket 32: 50%  bucket 31: 80%  bucket 32: 60%  bucket 32: 70%  bucket 31: 90%  bucket 32: 80%  bucket 31: 100%  Sorting block of length 310 for bucket 31  (Using difference cover)  bucket 32: 90%  bucket 32: 100%  Sorting block of length 219 for bucket 32  (Using difference cover)  Sorting block time: 00:00:00Returning block of 311 for bucket 31  Sorting block time: 00:00:00Returning block of 220 for bucket 32Getting block 33 of 57  Reserving size (388) for bucket 33  Calculating Z arrays for bucket 33  Entering block accumulator loop for bucket 33:  bucket 33: 10%Getting block 34 of 57  bucket 33: 20%  Reserving size (388) for bucket 34  Calculating Z arrays for bucket 34  Entering block accumulator loop for bucket 34:  bucket 33: 30%  bucket 34: 10%  bucket 33: 40%  bucket 34: 20%  bucket 33: 50%  bucket 34: 30%  bucket 34: 40%  bucket 33: 60%  bucket 34: 50%  bucket 33: 70%  bucket 34: 60%  bucket 33: 80%  bucket 34: 70%  bucket 33: 90%  bucket 34: 80%  bucket 33: 100%  Sorting block of length 387 for bucket 33  (Using difference cover)  bucket 34: 90%  bucket 34: 100%  Sorting block of length 275 for bucket 34  (Using difference cover)  Sorting block time: 00:00:00Returning block of 388 for bucket 33  Sorting block time: 00:00:00Returning block of 276 for bucket 34Getting block 35 of 57  Reserving size (388) for bucket 35Getting block 36 of 57  Calculating Z arrays for bucket 35  Reserving size (388) for bucket 36  Calculating Z arrays for bucket 36  Entering block accumulator loop for bucket 35:  Entering block accumulator loop for bucket 36:  bucket 36: 10%  bucket 35: 10%  bucket 36: 20%  bucket 35: 20%  bucket 36: 30%  bucket 35: 30%  bucket 36: 40%  bucket 35: 40%  bucket 36: 50%  bucket 35: 50%  bucket 36: 60%  bucket 35: 60%  bucket 36: 70%  bucket 35: 70%  bucket 36: 80%  bucket 35: 80%  bucket 36: 90%  bucket 35: 90%  bucket 35: 100%  bucket 36: 100%  Sorting block of length 350 for bucket 35  (Using difference cover)  Sorting block of length 150 for bucket 36  (Using difference cover)  Sorting block time: 00:00:00Returning block of 151 for bucket 36  Sorting block time: 00:00:00Returning block of 351 for bucket 35Getting block 37 of 57  Reserving size (388) for bucket 37  Calculating Z arrays for bucket 37  Entering block accumulator loop for bucket 37:  bucket 37: 10%Getting block 38 of 57  Reserving size (388) for bucket 38  Calculating Z arrays for bucket 38  Entering block accumulator loop for bucket 38:  bucket 37: 20%  bucket 37: 30%  bucket 38: 10%  bucket 37: 40%  bucket 38: 20%  bucket 37: 50%  bucket 38: 30%  bucket 37: 60%  bucket 38: 40%Getting block 39 of 57  Reserving size (388) for bucket 39  bucket 38: 50%  Calculating Z arrays for bucket 39  bucket 37: 70%  Entering block accumulator loop for bucket 39:  bucket 39: 10%  bucket 37: 80%  bucket 38: 60%  bucket 39: 20%  bucket 38: 70%  bucket 39: 30%  bucket 38: 80%  bucket 37: 90%  bucket 39: 40%  bucket 38: 90%  bucket 37: 100%  Sorting block of length 267 for bucket 37  (Using difference cover)  bucket 39: 50%  bucket 38: 100%  Sorting block of length 337 for bucket 38  (Using difference cover)  bucket 39: 60%  bucket 39: 70%  bucket 39: 80%  bucket 39: 90%  bucket 39: 100%  Sorting block of length 387 for bucket 39  (Using difference cover)  Sorting block time: 00:00:00Returning block of 268 for bucket 37  Sorting block time: 00:00:00Returning block of 338 for bucket 38  Sorting block time: 00:00:00Returning block of 388 for bucket 39Getting block 40 of 57  Reserving size (388) for bucket 40  Calculating Z arrays for bucket 40  Entering block accumulator loop for bucket 40:Getting block 41 of 57  bucket 40: 10%  Reserving size (388) for bucket 41  Calculating Z arrays for bucket 41  Entering block accumulator loop for bucket 41:  bucket 40: 20%  bucket 40: 30%  bucket 41: 10%  bucket 40: 40%  bucket 41: 20%  bucket 41: 30%  bucket 40: 50%  bucket 41: 40%  bucket 40: 60%  bucket 41: 50%  bucket 40: 70%  bucket 41: 60%  bucket 41: 70%  bucket 40: 80%  bucket 41: 80%  bucket 40: 90%  bucket 41: 90%  bucket 40: 100%  Sorting block of length 379 for bucket 40  (Using difference cover)  bucket 41: 100%  Sorting block of length 330 for bucket 41  (Using difference cover)  Sorting block time: 00:00:00Returning block of 331 for bucket 41  Sorting block time: 00:00:00Returning block of 380 for bucket 40Getting block 42 of 57  Reserving size (388) for bucket 42Getting block 43 of 57  Calculating Z arrays for bucket 42  Reserving size (388) for bucket 43  Calculating Z arrays for bucket 43  Entering block accumulator loop for bucket 42:  Entering block accumulator loop for bucket 43:  bucket 43: 10%  bucket 42: 10%  bucket 43: 20%  bucket 42: 20%  bucket 43: 30%  bucket 42: 30%  bucket 43: 40%  bucket 42: 40%  bucket 43: 50%  bucket 42: 50%  bucket 43: 60%  bucket 42: 60%  bucket 43: 70%  bucket 43: 80%  bucket 42: 70%  bucket 43: 90%  bucket 42: 80%  bucket 43: 100%  bucket 42: 90%  Sorting block of length 321 for bucket 43  (Using difference cover)  bucket 42: 100%  Sorting block of length 188 for bucket 42  (Using difference cover)  Sorting block time: 00:00:00Returning block of 322 for bucket 43  Sorting block time: 00:00:00Returning block of 189 for bucket 42Getting block 44 of 57  Reserving size (388) for bucket 44  Calculating Z arrays for bucket 44  Entering block accumulator loop for bucket 44:  bucket 44: 10%Getting block 45 of 57  bucket 44: 20%  Reserving size (388) for bucket 45  Calculating Z arrays for bucket 45Getting block 46 of 57  Reserving size (388) for bucket 46  Calculating Z arrays for bucket 46  Entering block accumulator loop for bucket 45:  Entering block accumulator loop for bucket 46:  bucket 44: 30%  bucket 45: 10%  bucket 45: 20%  bucket 46: 10%  bucket 44: 40%  bucket 45: 30%  bucket 45: 40%  bucket 46: 20%  bucket 44: 50%  bucket 45: 50%  bucket 46: 30%  bucket 45: 60%  bucket 44: 60%  bucket 45: 70%  bucket 46: 40%  bucket 44: 70%  bucket 45: 80%  bucket 46: 50%  bucket 45: 90%  bucket 44: 80%  bucket 45: 100%  bucket 46: 60%  Sorting block of length 365 for bucket 45  (Using difference cover)  bucket 44: 90%  bucket 46: 70%  bucket 44: 100%  Sorting block of length 366 for bucket 44  (Using difference cover)  bucket 46: 80%  Sorting block time: 00:00:00Returning block of 366 for bucket 45  bucket 46: 90%  bucket 46: 100%  Sorting block of length 253 for bucket 46  (Using difference cover)  Sorting block time: 00:00:00Returning block of 367 for bucket 44  Sorting block time: 00:00:00Returning block of 254 for bucket 46Getting block 47 of 57  Reserving size (388) for bucket 47  Calculating Z arrays for bucket 47  Entering block accumulator loop for bucket 47:  bucket 47: 10%  bucket 47: 20%  bucket 47: 30%  bucket 47: 40%  bucket 47: 50%  bucket 47: 60%  bucket 47: 70%  bucket 47: 80%  bucket 47: 90%  bucket 47: 100%  Sorting block of length 217 for bucket 47  (Using difference cover)  Sorting block time: 00:00:00Returning block of 218 for bucket 47Getting block 48 of 57  Reserving size (388) for bucket 48  Calculating Z arrays for bucket 48Getting block 49 of 57  Reserving size (388) for bucket 49  Calculating Z arrays for bucket 49  Entering block accumulator loop for bucket 48:  Entering block accumulator loop for bucket 49:  bucket 48: 10%  bucket 49: 10%  bucket 49: 20%  bucket 48: 20%  bucket 49: 30%  bucket 48: 30%  bucket 49: 40%  bucket 48: 40%Getting block 50 of 57  Reserving size (388) for bucket 50  Calculating Z arrays for bucket 50  bucket 49: 50%  Entering block accumulator loop for bucket 50:  bucket 49: 60%  bucket 48: 50%  bucket 49: 70%  bucket 50: 10%  bucket 48: 60%  bucket 49: 80%  bucket 49: 90%  bucket 50: 20%  bucket 48: 70%  bucket 49: 100%  Sorting block of length 112 for bucket 49  (Using difference cover)  bucket 48: 80%  bucket 50: 30%  bucket 48: 90%  bucket 50: 40%  Sorting block time: 00:00:00Returning block of 113 for bucket 49  bucket 50: 50%  bucket 48: 100%  Sorting block of length 384 for bucket 48  (Using difference cover)  bucket 50: 60%  bucket 50: 70%  bucket 50: 80%  Sorting block time: 00:00:00Returning block of 385 for bucket 48  bucket 50: 90%  bucket 50: 100%  Sorting block of length 275 for bucket 50  (Using difference cover)  Sorting block time: 00:00:00Returning block of 276 for bucket 50Getting block 51 of 57  Reserving size (388) for bucket 51  Calculating Z arrays for bucket 51  Entering block accumulator loop for bucket 51:  bucket 51: 10%  bucket 51: 20%Getting block 52 of 57  bucket 51: 30%  Reserving size (388) for bucket 52  Calculating Z arrays for bucket 52  Entering block accumulator loop for bucket 52:  bucket 51: 40%  bucket 52: 10%  bucket 51: 50%  bucket 52: 20%  bucket 51: 60%  bucket 52: 30%  bucket 51: 70%  bucket 52: 40%  bucket 51: 80%  bucket 51: 90%  bucket 52: 50%  bucket 51: 100%  bucket 52: 60%  Sorting block of length 350 for bucket 51  (Using difference cover)  bucket 52: 70%  bucket 52: 80%  bucket 52: 90%  Sorting block time: 00:00:00Returning block of 351 for bucket 51  bucket 52: 100%  Sorting block of length 378 for bucket 52  (Using difference cover)  Sorting block time: 00:00:00Returning block of 379 for bucket 52Getting block 53 of 57  Reserving size (388) for bucket 53Getting block 54 of 57  Calculating Z arrays for bucket 53  Reserving size (388) for bucket 54  Calculating Z arrays for bucket 54  Entering block accumulator loop for bucket 53:  Entering block accumulator loop for bucket 54:  bucket 53: 10%  bucket 53: 20%  bucket 54: 10%  bucket 53: 30%  bucket 54: 20%  bucket 53: 40%  bucket 54: 30%  bucket 53: 50%  bucket 53: 60%  bucket 54: 40%  bucket 53: 70%  bucket 54: 50%  bucket 53: 80%  bucket 54: 60%  bucket 53: 90%  bucket 54: 70%  bucket 53: 100%  Sorting block of length 370 for bucket 53  (Using difference cover)  bucket 54: 80%  bucket 54: 90%  bucket 54: 100%  Sorting block of length 237 for bucket 54  (Using difference cover)  Sorting block time: 00:00:00Returning block of 371 for bucket 53  Sorting block time: 00:00:00Returning block of 238 for bucket 54Getting block 55 of 57  Reserving size (388) for bucket 55  Calculating Z arrays for bucket 55  Entering block accumulator loop for bucket 55:Getting block 56 of 57  bucket 55: 10%  Reserving size (388) for bucket 56  Calculating Z arrays for bucket 56  Entering block accumulator loop for bucket 56:  bucket 55: 20%  bucket 55: 30%  bucket 56: 10%  bucket 56: 20%  bucket 55: 40%  bucket 56: 30%  bucket 55: 50%  bucket 56: 40%  bucket 56: 50%  bucket 55: 60%  bucket 56: 60%  bucket 55: 70%  bucket 56: 70%  bucket 55: 80%  bucket 56: 80%  bucket 55: 90%  bucket 56: 90%  bucket 56: 100%  bucket 55: 100%  Sorting block of length 270 for bucket 56  (Using difference cover)  Sorting block of length 344 for bucket 55  (Using difference cover)  Sorting block time: 00:00:00Returning block of 345 for bucket 55  Sorting block time: 00:00:00Returning block of 271 for bucket 56Getting block 57 of 57  Reserving size (388) for bucket 57  Calculating Z arrays for bucket 57  Entering block accumulator loop for bucket 57:  bucket 57: 10%  bucket 57: 20%  bucket 57: 30%  bucket 57: 40%  bucket 57: 50%  bucket 57: 60%  bucket 57: 70%  bucket 57: 80%  bucket 57: 90%  bucket 57: 100%  Sorting block of length 132 for bucket 57  (Using difference cover)  Sorting block time: 00:00:00Returning block of 133 for bucket 57Exited Ebwt loopfchr[A]: 0fchr[C]: 5124fchr[G]: 10305fchr[T]: 12474fchr[$]: 16568Exiting Ebwt::buildToDisk()Returning from initFromVectorWrote 4200050 bytes to primary EBWT file: genome.rev.1.bt2.tmpWrote 4148 bytes to secondary EBWT file: genome.rev.2.bt2.tmpRe-opening _in1 and _in2 as input streamsReturning from Ebwt constructorHeaders:    len: 16568    bwtLen: 16569    sz: 4142    bwtSz: 4143    lineRate: 6    offRate: 4    offMask: 0xfffffff0    ftabChars: 10    eftabLen: 20    eftabSz: 80    ftabLen: 1048577    ftabSz: 4194308    offsLen: 1036    offsSz: 4144    lineSz: 64    sideSz: 64    sideBwtSz: 48    sideBwtLen: 192    numSides: 87    numLines: 87    ebwtTotLen: 5568    ebwtTotSz: 5568    color: 0    reverse: 1Total time for backward call to driver() for mirror index: 00:00:00
+            ]]></system-out>
+            <system-err><![CDATA[
+            Building a SMALL indexRenaming genome.3.bt2.tmp to genome.3.bt2Renaming genome.4.bt2.tmp to genome.4.bt2Renaming genome.1.bt2.tmp to genome.1.bt2Renaming genome.2.bt2.tmp to genome.2.bt2Renaming genome.rev.1.bt2.tmp to genome.rev.1.bt2Renaming genome.rev.2.bt2.tmp to genome.rev.2.bt23 reads; of these:  3 (100.00%) were paired; of these:    2 (66.67%) aligned concordantly 0 times    1 (33.33%) aligned concordantly exactly 1 time    0 (0.00%) aligned concordantly >1 times    ----    2 pairs aligned concordantly 0 times; of these:      0 (0.00%) aligned discordantly 1 time    ----    2 pairs aligned 0 times concordantly or discordantly; of these:      4 mates make up the pairs; of these:        3 (75.00%) aligned 0 times        1 (25.00%) aligned exactly 1 time        0 (0.00%) aligned >1 times50.00% overall alignment rate
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="bowtie2 (Test #6)" name="5" time="30.907073259353638">
+        
+            
+            <system-out><![CDATA[
+            Settings:  Output files: "genome.*.bt2"  Line rate: 6 (line is 64 bytes)  Lines per side: 1 (side is 64 bytes)  Offset rate: 4 (one in 16)  FTable chars: 10  Strings: unpacked  Max bucket size: default  Max bucket size, sqrt multiplier: default  Max bucket size, len divisor: 32  Difference-cover sample period: 1024  Endianness: little  Actual local endianness: little  Sanity checking: disabled  Assertions: disabled  Random seed: 0  Sizeofs: void*:8, int:4, long:8, size_t:8Input files DNA, FASTA:  /galaxy/server/database/objects/8/4/9/dataset_8490a077-834e-4c42-b25b-f5626749319a.datReading reference sizes  Time reading reference sizes: 00:00:00Calculating joined lengthWriting headerReserving space for joined stringJoining reference sequences  Time to join reference sequences: 00:00:00bmax according to bmaxDivN setting: 517Using parameters --bmax 388 --dcv 1024  Doing ahead-of-time memory usage test  Passed!  Constructing with these parameters: --bmax 388 --dcv 1024Constructing suffix-array element generatorBuilding DifferenceCoverSample  Building sPrime  Building sPrimeOrder  V-Sorting samples  V-Sorting samples time: 00:00:00  Allocating rank array  Ranking v-sort output  Ranking v-sort output time: 00:00:00  Invoking Larsson-Sadakane on ranks  Invoking Larsson-Sadakane on ranks time: 00:00:00  Sanity-checking and returningBuilding samplesReserving space for 86 sample suffixesGenerating random suffixesQSorting 86 sample offsets, eliminating duplicatesQSorting sample offsets, eliminating duplicates time: 00:00:00Multikey QSorting 86 samples  (Using difference cover)  Multikey QSorting samples time: 00:00:00Calculating bucket sizesSplitting and merging  Splitting and merging time: 00:00:00Split 12, merged 41; iterating...Splitting and merging  Splitting and merging time: 00:00:00Split 6, merged 6; iterating...Splitting and merging  Splitting and merging time: 00:00:00Split 5, merged 3; iterating...Splitting and merging  Splitting and merging time: 00:00:00Split 3, merged 3; iterating...Splitting and merging  Splitting and merging time: 00:00:00Avg bucket size: 284.672 (target: 387)Converting suffix-array elements to index imageAllocating ftab, absorbFtabEntering Ebwt loopGetting block 1 of 58  Reserving size (388) for bucket 1Getting block 2 of 58Getting block 3 of 58  Calculating Z arrays for bucket 1  Reserving size (388) for bucket 2  Reserving size (388) for bucket 3Getting block 4 of 58Getting block 5 of 58Getting block 6 of 58Getting block 7 of 58  Calculating Z arrays for bucket 2  Entering block accumulator loop for bucket 1:  Calculating Z arrays for bucket 3  Reserving size (388) for bucket 4  Reserving size (388) for bucket 5  Reserving size (388) for bucket 6  Reserving size (388) for bucket 7  Calculating Z arrays for bucket 4  Calculating Z arrays for bucket 5  Entering block accumulator loop for bucket 2:  Calculating Z arrays for bucket 6  Entering block accumulator loop for bucket 3:  Calculating Z arrays for bucket 7  bucket 1: 10%  Entering block accumulator loop for bucket 4:  Entering block accumulator loop for bucket 5:  Entering block accumulator loop for bucket 6:  bucket 2: 10%  Entering block accumulator loop for bucket 7:  bucket 1: 20%  bucket 3: 10%  bucket 5: 10%  bucket 2: 20%  bucket 1: 30%  bucket 4: 10%  bucket 6: 10%  bucket 3: 20%  bucket 7: 10%  bucket 2: 30%  bucket 1: 40%  bucket 5: 20%  bucket 2: 40%  bucket 6: 20%  bucket 3: 30%  bucket 1: 50%  bucket 4: 20%  bucket 7: 20%  bucket 2: 50%  bucket 1: 60%  bucket 5: 30%  bucket 3: 40%  bucket 6: 30%  bucket 2: 60%  bucket 4: 30%  bucket 1: 70%  bucket 7: 30%  bucket 3: 50%  bucket 2: 70%  bucket 5: 40%  bucket 1: 80%  bucket 6: 40%  bucket 2: 80%  bucket 4: 40%  bucket 3: 60%  bucket 5: 50%  bucket 7: 40%  bucket 1: 90%  bucket 2: 90%  bucket 6: 50%  bucket 3: 70%  bucket 1: 100%  bucket 4: 50%  bucket 2: 100%  bucket 5: 60%  bucket 7: 50%  bucket 6: 60%  bucket 3: 80%  Sorting block of length 355 for bucket 1  (Using difference cover)  Sorting block of length 165 for bucket 2  (Using difference cover)  bucket 4: 60%  bucket 5: 70%  bucket 7: 60%  bucket 6: 70%  bucket 3: 90%  bucket 4: 70%  bucket 5: 80%  bucket 7: 70%  bucket 3: 100%  bucket 6: 80%  Sorting block of length 370 for bucket 3  (Using difference cover)  bucket 4: 80%  bucket 7: 80%  bucket 5: 90%  bucket 6: 90%  bucket 4: 90%  bucket 5: 100%  bucket 7: 90%  bucket 6: 100%  Sorting block of length 203 for bucket 5  (Using difference cover)  Sorting block of length 339 for bucket 6  (Using difference cover)  bucket 4: 100%  Sorting block of length 328 for bucket 4  (Using difference cover)  bucket 7: 100%  Sorting block of length 368 for bucket 7  (Using difference cover)  Sorting block time: 00:00:00Returning block of 356 for bucket 1  Sorting block time: 00:00:00Returning block of 329 for bucket 4  Sorting block time: 00:00:00Returning block of 204 for bucket 5  Sorting block time: 00:00:00Returning block of 166 for bucket 2  Sorting block time: 00:00:00Returning block of 371 for bucket 3  Sorting block time: 00:00:00Returning block of 340 for bucket 6  Sorting block time: 00:00:00Returning block of 369 for bucket 7Getting block 8 of 58  Reserving size (388) for bucket 8  Calculating Z arrays for bucket 8  Entering block accumulator loop for bucket 8:  bucket 8: 10%  bucket 8: 20%  bucket 8: 30%Getting block 9 of 58  bucket 8: 40%  Reserving size (388) for bucket 9  Calculating Z arrays for bucket 9  bucket 8: 50%  Entering block accumulator loop for bucket 9:  bucket 9: 10%  bucket 8: 60%  bucket 9: 20%  bucket 8: 70%  bucket 9: 30%  bucket 8: 80%  bucket 8: 90%  bucket 9: 40%  bucket 8: 100%  Sorting block of length 171 for bucket 8  (Using difference cover)  bucket 9: 50%  bucket 9: 60%  bucket 9: 70%  bucket 9: 80%  Sorting block time: 00:00:00  bucket 9: 90%Returning block of 172 for bucket 8  bucket 9: 100%  Sorting block of length 339 for bucket 9  (Using difference cover)  Sorting block time: 00:00:00Returning block of 340 for bucket 9Getting block 10 of 58  Reserving size (388) for bucket 10Getting block 11 of 58  Calculating Z arrays for bucket 10  Reserving size (388) for bucket 11  Calculating Z arrays for bucket 11  Entering block accumulator loop for bucket 10:  Entering block accumulator loop for bucket 11:  bucket 11: 10%  bucket 10: 10%  bucket 11: 20%  bucket 10: 20%  bucket 11: 30%  bucket 10: 30%  bucket 11: 40%  bucket 11: 50%  bucket 10: 40%  bucket 10: 50%  bucket 11: 60%  bucket 10: 60%  bucket 11: 70%Getting block 12 of 58  bucket 10: 70%  bucket 11: 80%  Reserving size (388) for bucket 12Getting block 13 of 58  bucket 11: 90%  Calculating Z arrays for bucket 12  Reserving size (388) for bucket 13  bucket 10: 80%  Calculating Z arrays for bucket 13  bucket 11: 100%Getting block 14 of 58  Sorting block of length 305 for bucket 11  (Using difference cover)  Entering block accumulator loop for bucket 12:  Reserving size (388) for bucket 14  Entering block accumulator loop for bucket 13:  bucket 10: 90%  Calculating Z arrays for bucket 14  Entering block accumulator loop for bucket 14:  bucket 12: 10%  bucket 10: 100%  Sorting block of length 357 for bucket 10  (Using difference cover)  bucket 13: 10%  bucket 14: 10%  bucket 12: 20%  bucket 14: 20%  bucket 13: 20%  bucket 12: 30%  bucket 14: 30%  bucket 12: 40%  bucket 14: 40%  bucket 13: 30%  bucket 12: 50%  bucket 14: 50%  Sorting block time: 00:00:00Returning block of 306 for bucket 11  bucket 13: 40%  bucket 14: 60%  bucket 12: 60%  bucket 13: 50%  bucket 14: 70%  bucket 12: 70%  Sorting block time: 00:00:00Returning block of 358 for bucket 10  bucket 14: 80%  bucket 13: 60%  bucket 12: 80%  bucket 14: 90%  bucket 13: 70%  bucket 12: 90%  bucket 14: 100%  Sorting block of length 339 for bucket 14  (Using difference cover)  bucket 13: 80%  bucket 12: 100%  Sorting block of length 185 for bucket 12  (Using difference cover)  bucket 13: 90%  bucket 13: 100%  Sorting block of length 282 for bucket 13  (Using difference cover)  Sorting block time: 00:00:00Returning block of 340 for bucket 14  Sorting block time: 00:00:00Returning block of 186 for bucket 12  Sorting block time: 00:00:00Returning block of 283 for bucket 13Getting block 15 of 58  Reserving size (388) for bucket 15  Calculating Z arrays for bucket 15  Entering block accumulator loop for bucket 15:  bucket 15: 10%Getting block 16 of 58  Reserving size (388) for bucket 16  Calculating Z arrays for bucket 16  Entering block accumulator loop for bucket 16:  bucket 15: 20%  bucket 15: 30%  bucket 16: 10%  bucket 15: 40%  bucket 16: 20%  bucket 15: 50%  bucket 16: 30%  bucket 15: 60%  bucket 15: 70%  bucket 16: 40%  bucket 15: 80%  bucket 16: 50%  bucket 15: 90%  bucket 16: 60%  bucket 15: 100%  Sorting block of length 241 for bucket 15  (Using difference cover)  bucket 16: 70%  bucket 16: 80%  bucket 16: 90%  Sorting block time: 00:00:00Returning block of 242 for bucket 15  bucket 16: 100%  Sorting block of length 379 for bucket 16  (Using difference cover)  Sorting block time: 00:00:00Returning block of 380 for bucket 16Getting block 17 of 58  Reserving size (388) for bucket 17Getting block 18 of 58  Calculating Z arrays for bucket 17  Reserving size (388) for bucket 18  Calculating Z arrays for bucket 18  Entering block accumulator loop for bucket 18:  Entering block accumulator loop for bucket 17:  bucket 18: 10%  bucket 17: 10%  bucket 18: 20%  bucket 17: 20%  bucket 18: 30%  bucket 17: 30%  bucket 18: 40%  bucket 18: 50%  bucket 17: 40%  bucket 18: 60%  bucket 17: 50%  bucket 18: 70%  bucket 18: 80%  bucket 17: 60%  bucket 18: 90%  bucket 17: 70%  bucket 18: 100%  Sorting block of length 378 for bucket 18  (Using difference cover)  bucket 17: 80%  bucket 17: 90%  bucket 17: 100%  Sorting block of length 215 for bucket 17  (Using difference cover)  Sorting block time: 00:00:00Returning block of 379 for bucket 18  Sorting block time: 00:00:00Returning block of 216 for bucket 17Getting block 19 of 58  Reserving size (388) for bucket 19Getting block 20 of 58  Calculating Z arrays for bucket 19  Reserving size (388) for bucket 20  Calculating Z arrays for bucket 20  Entering block accumulator loop for bucket 19:  Entering block accumulator loop for bucket 20:  bucket 19: 10%  bucket 20: 10%  bucket 19: 20%  bucket 20: 20%  bucket 20: 30%  bucket 19: 30%  bucket 19: 40%  bucket 20: 40%  bucket 19: 50%  bucket 20: 50%  bucket 20: 60%  bucket 19: 60%  bucket 19: 70%  bucket 20: 70%  bucket 19: 80%  bucket 20: 80%  bucket 19: 90%  bucket 20: 90%  bucket 19: 100%  bucket 20: 100%  Sorting block of length 334 for bucket 19  (Using difference cover)  Sorting block of length 313 for bucket 20  (Using difference cover)  Sorting block time: 00:00:00Returning block of 335 for bucket 19  Sorting block time: 00:00:00Returning block of 314 for bucket 20Getting block 21 of 58  Reserving size (388) for bucket 21  Calculating Z arrays for bucket 21  Entering block accumulator loop for bucket 21:  bucket 21: 10%  bucket 21: 20%  bucket 21: 30%  bucket 21: 40%  bucket 21: 50%  bucket 21: 60%  bucket 21: 70%  bucket 21: 80%  bucket 21: 90%  bucket 21: 100%  Sorting block of length 210 for bucket 21  (Using difference cover)  Sorting block time: 00:00:00Returning block of 211 for bucket 21Getting block 22 of 58  Reserving size (388) for bucket 22  Calculating Z arrays for bucket 22  Entering block accumulator loop for bucket 22:Getting block 23 of 58  bucket 22: 10%  Reserving size (388) for bucket 23  Calculating Z arrays for bucket 23  Entering block accumulator loop for bucket 23:  bucket 22: 20%  bucket 22: 30%  bucket 23: 10%  bucket 22: 40%  bucket 23: 20%  bucket 22: 50%  bucket 23: 30%  bucket 23: 40%  bucket 22: 60%  bucket 23: 50%  bucket 22: 70%  bucket 23: 60%  bucket 22: 80%  bucket 23: 70%  bucket 22: 90%  bucket 23: 80%  bucket 22: 100%  Sorting block of length 386 for bucket 22  (Using difference cover)  bucket 23: 90%  bucket 23: 100%  Sorting block of length 238 for bucket 23  (Using difference cover)  Sorting block time: 00:00:00Returning block of 387 for bucket 22  Sorting block time: 00:00:00Returning block of 239 for bucket 23Getting block 24 of 58  Reserving size (388) for bucket 24Getting block 25 of 58  Calculating Z arrays for bucket 24  Reserving size (388) for bucket 25  Calculating Z arrays for bucket 25  Entering block accumulator loop for bucket 24:  Entering block accumulator loop for bucket 25:  bucket 24: 10%  bucket 25: 10%  bucket 24: 20%  bucket 24: 30%  bucket 25: 20%  bucket 24: 40%  bucket 25: 30%  bucket 24: 50%  bucket 25: 40%  bucket 24: 60%  bucket 25: 50%  bucket 24: 70%  bucket 24: 80%  bucket 25: 60%  bucket 24: 90%  bucket 25: 70%  bucket 24: 100%  Sorting block of length 351 for bucket 24  (Using difference cover)  bucket 25: 80%  bucket 25: 90%  bucket 25: 100%  Sorting block of length 105 for bucket 25  (Using difference cover)  Sorting block time: 00:00:00Returning block of 352 for bucket 24  Sorting block time: 00:00:00Returning block of 106 for bucket 25Getting block 26 of 58  Reserving size (388) for bucket 26  Calculating Z arrays for bucket 26  Entering block accumulator loop for bucket 26:  bucket 26: 10%  bucket 26: 20%  bucket 26: 30%  bucket 26: 40%Getting block 27 of 58  bucket 26: 50%  Reserving size (388) for bucket 27  Calculating Z arrays for bucket 27  Entering block accumulator loop for bucket 27:  bucket 26: 60%  bucket 26: 70%  bucket 27: 10%  bucket 26: 80%  bucket 27: 20%  bucket 26: 90%  bucket 27: 30%  bucket 26: 100%  Sorting block of length 354 for bucket 26  (Using difference cover)  bucket 27: 40%  bucket 27: 50%  bucket 27: 60%  bucket 27: 70%  Sorting block time: 00:00:00Returning block of 355 for bucket 26  bucket 27: 80%  bucket 27: 90%  bucket 27: 100%  Sorting block of length 334 for bucket 27  (Using difference cover)  Sorting block time: 00:00:00Returning block of 335 for bucket 27Getting block 28 of 58  Reserving size (388) for bucket 28Getting block 29 of 58  Calculating Z arrays for bucket 28  Reserving size (388) for bucket 29  Calculating Z arrays for bucket 29  Entering block accumulator loop for bucket 28:  Entering block accumulator loop for bucket 29:  bucket 29: 10%  bucket 28: 10%  bucket 29: 20%  bucket 28: 20%  bucket 29: 30%  bucket 28: 30%  bucket 29: 40%  bucket 28: 40%  bucket 29: 50%  bucket 28: 50%  bucket 28: 60%  bucket 29: 60%  bucket 28: 70%  bucket 29: 70%  bucket 28: 80%  bucket 29: 80%  bucket 28: 90%  bucket 29: 90%  bucket 28: 100%  Sorting block of length 253 for bucket 28  (Using difference cover)  bucket 29: 100%  Sorting block of length 289 for bucket 29  (Using difference cover)  Sorting block time: 00:00:00Returning block of 254 for bucket 28  Sorting block time: 00:00:00Returning block of 290 for bucket 29Getting block 30 of 58  Reserving size (388) for bucket 30  Calculating Z arrays for bucket 30  Entering block accumulator loop for bucket 30:  bucket 30: 10%  bucket 30: 20%Getting block 31 of 58  bucket 30: 30%  Reserving size (388) for bucket 31  Calculating Z arrays for bucket 31  bucket 30: 40%  bucket 30: 50%  Entering block accumulator loop for bucket 31:  bucket 30: 60%  bucket 31: 10%  bucket 30: 70%  bucket 31: 20%  bucket 30: 80%  bucket 31: 30%Getting block 32 of 58  bucket 30: 90%  Reserving size (388) for bucket 32  bucket 31: 40%  Calculating Z arrays for bucket 32  Entering block accumulator loop for bucket 32:  bucket 30: 100%  Sorting block of length 345 for bucket 30  (Using difference cover)  bucket 31: 50%  bucket 32: 10%  bucket 31: 60%  bucket 32: 20%  bucket 31: 70%  bucket 32: 30%  bucket 31: 80%  Sorting block time: 00:00:00Returning block of 346 for bucket 30  bucket 32: 40%  bucket 31: 90%  bucket 32: 50%  bucket 31: 100%  Sorting block of le..0:00Returning block of 350 for bucket 23Getting block 24 of 57  Reserving size (388) for bucket 24  Calculating Z arrays for bucket 24  Entering block accumulator loop for bucket 24:  bucket 24: 10%  bucket 24: 20%Getting block 25 of 57  bucket 24: 30%  Reserving size (388) for bucket 25  Calculating Z arrays for bucket 25Getting block 26 of 57  Entering block accumulator loop for bucket 25:  bucket 24: 40%  Reserving size (388) for bucket 26  Calculating Z arrays for bucket 26  Entering block accumulator loop for bucket 26:  bucket 24: 50%  bucket 25: 10%  bucket 24: 60%  bucket 25: 20%  bucket 26: 10%  bucket 24: 70%  bucket 26: 20%  bucket 24: 80%  bucket 25: 30%  bucket 26: 30%  bucket 24: 90%  bucket 25: 40%  bucket 26: 40%  bucket 25: 50%  bucket 24: 100%  Sorting block of length 245 for bucket 24  (Using difference cover)  bucket 26: 50%  bucket 25: 60%  bucket 26: 60%  bucket 25: 70%  bucket 26: 70%  bucket 25: 80%  bucket 26: 80%  bucket 25: 90%  Sorting block time: 00:00:00Returning block of 246 for bucket 24  bucket 26: 90%  bucket 25: 100%  Sorting block of length 286 for bucket 25  (Using difference cover)  bucket 26: 100%  Sorting block of length 384 for bucket 26  (Using difference cover)  Sorting block time: 00:00:00Returning block of 287 for bucket 25  Sorting block time: 00:00:00Returning block of 385 for bucket 26Getting block 27 of 57  Reserving size (388) for bucket 27  Calculating Z arrays for bucket 27  Entering block accumulator loop for bucket 27:  bucket 27: 10%  bucket 27: 20%  bucket 27: 30%Getting block 28 of 57  bucket 27: 40%  Reserving size (388) for bucket 28  Calculating Z arrays for bucket 28  Entering block accumulator loop for bucket 28:  bucket 27: 50%  bucket 28: 10%  bucket 27: 60%  bucket 27: 70%  bucket 28: 20%  bucket 27: 80%  bucket 28: 30%  bucket 27: 90%  bucket 28: 40%  bucket 27: 100%  bucket 28: 50%  Sorting block of length 359 for bucket 27  (Using difference cover)  bucket 28: 60%  bucket 28: 70%  bucket 28: 80%  bucket 28: 90%  bucket 28: 100%  Sorting block of length 387 for bucket 28  (Using difference cover)  Sorting block time: 00:00:00Returning block of 360 for bucket 27  Sorting block time: 00:00:00Returning block of 388 for bucket 28Getting block 29 of 57  Reserving size (388) for bucket 29Getting block 30 of 57  Calculating Z arrays for bucket 29  Reserving size (388) for bucket 30  Calculating Z arrays for bucket 30  Entering block accumulator loop for bucket 29:  Entering block accumulator loop for bucket 30:  bucket 29: 10%  bucket 30: 10%  bucket 29: 20%  bucket 29: 30%  bucket 30: 20%  bucket 29: 40%  bucket 30: 30%  bucket 29: 50%  bucket 29: 60%  bucket 30: 40%  bucket 29: 70%  bucket 30: 50%  bucket 29: 80%  bucket 29: 90%  bucket 30: 60%  bucket 29: 100%  Sorting block of length 195 for bucket 29  (Using difference cover)  bucket 30: 70%  bucket 30: 80%  bucket 30: 90%  bucket 30: 100%  Sorting block of length 257 for bucket 30  (Using difference cover)  Sorting block time: 00:00:00Returning block of 196 for bucket 29  Sorting block time: 00:00:00Returning block of 258 for bucket 30Getting block 31 of 57  Reserving size (388) for bucket 31  Calculating Z arrays for bucket 31  Entering block accumulator loop for bucket 31:  bucket 31: 10%  bucket 31: 20%  bucket 31: 30%  bucket 31: 40%  bucket 31: 50%Getting block 32 of 57  bucket 31: 60%  Reserving size (388) for bucket 32  Calculating Z arrays for bucket 32  Entering block accumulator loop for bucket 32:  bucket 31: 70%  bucket 32: 10%  bucket 31: 80%  bucket 32: 20%  bucket 31: 90%  bucket 32: 30%  bucket 31: 100%  Sorting block of length 310 for bucket 31  (Using difference cover)  bucket 32: 40%  bucket 32: 50%  bucket 32: 60%  bucket 32: 70%  bucket 32: 80%  Sorting block time: 00:00:00Returning block of 311 for bucket 31  bucket 32: 90%  bucket 32: 100%  Sorting block of length 219 for bucket 32  (Using difference cover)  Sorting block time: 00:00:00Returning block of 220 for bucket 32Getting block 33 of 57  Reserving size (388) for bucket 33Getting block 34 of 57  Calculating Z arrays for bucket 33  Reserving size (388) for bucket 34  Calculating Z arrays for bucket 34  Entering block accumulator loop for bucket 33:  Entering block accumulator loop for bucket 34:  bucket 34: 10%  bucket 33: 10%  bucket 34: 20%  bucket 33: 20%  bucket 34: 30%  bucket 33: 30%  bucket 34: 40%  bucket 33: 40%  bucket 34: 50%  bucket 33: 50%  bucket 34: 60%  bucket 33: 60%  bucket 34: 70%  bucket 33: 70%  bucket 34: 80%  bucket 34: 90%  bucket 33: 80%  bucket 34: 100%  Sorting block of length 275 for bucket 34  (Using difference cover)  bucket 33: 90%  bucket 33: 100%  Sorting block of length 387 for bucket 33  (Using difference cover)  Sorting block time: 00:00:00Returning block of 388 for bucket 33  Sorting block time: 00:00:00Returning block of 276 for bucket 34Getting block 35 of 57  Reserving size (388) for bucket 35  Calculating Z arrays for bucket 35  Entering block accumulator loop for bucket 35:  bucket 35: 10%  bucket 35: 20%Getting block 36 of 57  bucket 35: 30%  Reserving size (388) for bucket 36  Calculating Z arrays for bucket 36  Entering block accumulator loop for bucket 36:  bucket 35: 40%  bucket 35: 50%  bucket 36: 10%  bucket 35: 60%  bucket 36: 20%  bucket 35: 70%  bucket 36: 30%  bucket 36: 40%  bucket 35: 80%  bucket 36: 50%  bucket 36: 60%  bucket 35: 90%  bucket 36: 70%  bucket 35: 100%  Sorting block of length 350 for bucket 35  (Using difference cover)  bucket 36: 80%  bucket 36: 90%  bucket 36: 100%  Sorting block of length 150 for bucket 36  (Using difference cover)  Sorting block time: 00:00:00Returning block of 351 for bucket 35  Sorting block time: 00:00:00Returning block of 151 for bucket 36Getting block 37 of 57  Reserving size (388) for bucket 37Getting block 38 of 57  Calculating Z arrays for bucket 37  Reserving size (388) for bucket 38  Calculating Z arrays for bucket 38  Entering block accumulator loop for bucket 38:  Entering block accumulator loop for bucket 37:  bucket 37: 10%  bucket 38: 10%  bucket 37: 20%  bucket 38: 20%  bucket 37: 30%  bucket 38: 30%  bucket 37: 40%  bucket 38: 40%  bucket 37: 50%  bucket 38: 50%  bucket 37: 60%  bucket 38: 60%  bucket 38: 70%  bucket 37: 70%  bucket 38: 80%  bucket 37: 80%  bucket 38: 90%  bucket 37: 90%  bucket 38: 100%  Sorting block of length 337 for bucket 38  (Using difference cover)  bucket 37: 100%  Sorting block of length 267 for bucket 37  (Using difference cover)  Sorting block time: 00:00:00Returning block of 338 for bucket 38  Sorting block time: 00:00:00Returning block of 268 for bucket 37Getting block 39 of 57  Reserving size (388) for bucket 39Getting block 40 of 57  Calculating Z arrays for bucket 39  Reserving size (388) for bucket 40  Calculating Z arrays for bucket 40  Entering block accumulator loop for bucket 39:  Entering block accumulator loop for bucket 40:  bucket 40: 10%  bucket 39: 10%  bucket 40: 20%  bucket 39: 20%  bucket 40: 30%  bucket 40: 40%  bucket 39: 30%  bucket 40: 50%  bucket 39: 40%  bucket 40: 60%  bucket 40: 70%  bucket 39: 50%  bucket 40: 80%  bucket 39: 60%  bucket 40: 90%  bucket 39: 70%  bucket 40: 100%  Sorting block of length 379 for bucket 40  (Using difference cover)  bucket 39: 80%  bucket 39: 90%  bucket 39: 100%  Sorting block of length 387 for bucket 39  (Using difference cover)  Sorting block time: 00:00:00Returning block of 380 for bucket 40  Sorting block time: 00:00:00Returning block of 388 for bucket 39Getting block 41 of 57  Reserving size (388) for bucket 41  Calculating Z arrays for bucket 41  Entering block accumulator loop for bucket 41:  bucket 41: 10%  bucket 41: 20%  bucket 41: 30%  bucket 41: 40%  bucket 41: 50%  bucket 41: 60%  bucket 41: 70%  bucket 41: 80%  bucket 41: 90%  bucket 41: 100%  Sorting block of length 330 for bucket 41  (Using difference cover)  Sorting block time: 00:00:00Returning block of 331 for bucket 41Getting block 42 of 57  Reserving size (388) for bucket 42  Calculating Z arrays for bucket 42  Entering block accumulator loop for bucket 42:  bucket 42: 10%  bucket 42: 20%Getting block 43 of 57  bucket 42: 30%  Reserving size (388) for bucket 43  Calculating Z arrays for bucket 43  Entering block accumulator loop for bucket 43:  bucket 42: 40%  bucket 43: 10%  bucket 42: 50%  bucket 43: 20%  bucket 43: 30%  bucket 42: 60%  bucket 43: 40%  bucket 42: 70%  bucket 43: 50%  bucket 42: 80%  bucket 43: 60%  bucket 42: 90%  bucket 43: 70%  bucket 43: 80%  bucket 42: 100%  Sorting block of length 188 for bucket 42  (Using difference cover)  bucket 43: 90%  bucket 43: 100%  Sorting block of length 321 for bucket 43  (Using difference cover)  Sorting block time: 00:00:00Returning block of 189 for bucket 42  Sorting block time: 00:00:00Returning block of 322 for bucket 43Getting block 44 of 57  Reserving size (388) for bucket 44Getting block 45 of 57  Calculating Z arrays for bucket 44  Reserving size (388) for bucket 45  Calculating Z arrays for bucket 45  Entering block accumulator loop for bucket 44:  Entering block accumulator loop for bucket 45:  bucket 44: 10%  bucket 45: 10%  bucket 44: 20%  bucket 45: 20%  bucket 44: 30%  bucket 45: 30%  bucket 44: 40%  bucket 45: 40%  bucket 44: 50%  bucket 45: 50%  bucket 44: 60%  bucket 44: 70%  bucket 45: 60%  bucket 44: 80%  bucket 45: 70%  bucket 44: 90%  bucket 45: 80%  bucket 44: 100%  Sorting block of length 366 for bucket 44  (Using difference cover)  bucket 45: 90%  bucket 45: 100%  Sorting block of length 365 for bucket 45  (Using difference cover)  Sorting block time: 00:00:00Returning block of 367 for bucket 44  Sorting block time: 00:00:00Returning block of 366 for bucket 45Getting block 46 of 57  Reserving size (388) for bucket 46  Calculating Z arrays for bucket 46  Entering block accumulator loop for bucket 46:  bucket 46: 10%  bucket 46: 20%  bucket 46: 30%Getting block 47 of 57  Reserving size (388) for bucket 47  Calculating Z arrays for bucket 47  bucket 46: 40%  Entering block accumulator loop for bucket 47:  bucket 46: 50%  bucket 47: 10%  bucket 46: 60%  bucket 47: 20%  bucket 46: 70%  bucket 47: 30%  bucket 46: 80%Getting block 48 of 57  bucket 46: 90%  bucket 47: 40%  Reserving size (388) for bucket 48  Calculating Z arrays for bucket 48  bucket 46: 100%  Sorting block of length 253 for bucket 46  (Using difference cover)  Entering block accumulator loop for bucket 48:  bucket 47: 50%  bucket 48: 10%  bucket 47: 60%  bucket 48: 20%  bucket 48: 30%  bucket 48: 40%  bucket 47: 70%  bucket 48: 50%  bucket 47: 80%  bucket 48: 60%  Sorting block time: 00:00:00Returning block of 254 for bucket 46  bucket 47: 90%  bucket 48: 70%  bucket 47: 100%  Sorting block of length 217 for bucket 47  (Using difference cover)  bucket 48: 80%  bucket 48: 90%  bucket 48: 100%  Sorting block of length 384 for bucket 48  (Using difference cover)  Sorting block time: 00:00:00Returning block of 218 for bucket 47  Sorting block time: 00:00:00Returning block of 385 for bucket 48Getting block 49 of 57  Reserving size (388) for bucket 49Getting block 50 of 57  Calculating Z arrays for bucket 49  Reserving size (388) for bucket 50  Calculating Z arrays for bucket 50  Entering block accumulator loop for bucket 49:  Entering block accumulator loop for bucket 50:  bucket 49: 10%  bucket 49: 20%  bucket 50: 10%  bucket 49: 30%  bucket 50: 20%  bucket 49: 40%  bucket 50: 30%  bucket 49: 50%  bucket 50: 40%  bucket 49: 60%  bucket 50: 50%  bucket 50: 60%  bucket 49: 70%  bucket 50: 70%  bucket 49: 80%  bucket 50: 80%  bucket 50: 90%  bucket 49: 90%  bucket 50: 100%  Sorting block of length 275 for bucket 50  (Using difference cover)  bucket 49: 100%  Sorting block of length 112 for bucket 49  (Using difference cover)  Sorting block time: 00:00:00Returning block of 276 for bucket 50  Sorting block time: 00:00:00Returning block of 113 for bucket 49Getting block 51 of 57  Reserving size (388) for bucket 51Getting block 52 of 57  Calculating Z arrays for bucket 51  Reserving size (388) for bucket 52  Calculating Z arrays for bucket 52  Entering block accumulator loop for bucket 51:  Entering block accumulator loop for bucket 52:  bucket 51: 10%  bucket 52: 10%  bucket 51: 20%  bucket 52: 20%  bucket 51: 30%  bucket 52: 30%  bucket 51: 40%  bucket 52: 40%  bucket 51: 50%  bucket 52: 50%  bucket 51: 60%  bucket 52: 60%  bucket 51: 70%  bucket 52: 70%  bucket 51: 80%  bucket 51: 90%  bucket 52: 80%  bucket 51: 100%  Sorting block of length 350 for bucket 51  (Using difference cover)  bucket 52: 90%  bucket 52: 100%  Sorting block of length 378 for bucket 52  (Using difference cover)  Sorting block time: 00:00:00Returning block of 351 for bucket 51  Sorting block time: 00:00:00Returning block of 379 for bucket 52Getting block 53 of 57  Reserving size (388) for bucket 53  Calculating Z arrays for bucket 53  Entering block accumulator loop for bucket 53:Getting block 54 of 57  Reserving size (388) for bucket 54  bucket 53: 10%  Calculating Z arrays for bucket 54  Entering block accumulator loop for bucket 54:  bucket 53: 20%  bucket 53: 30%  bucket 54: 10%  bucket 53: 40%  bucket 54: 20%  bucket 53: 50%  bucket 54: 30%  bucket 53: 60%  bucket 54: 40%  bucket 53: 70%  bucket 54: 50%  bucket 53: 80%  bucket 54: 60%  bucket 53: 90%  bucket 54: 70%  bucket 54: 80%  bucket 53: 100%  Sorting block of length 370 for bucket 53  bucket 54: 90%  (Using difference cover)  bucket 54: 100%  Sorting block of length 237 for bucket 54  (Using difference cover)  Sorting block time: 00:00:00Returning block of 238 for bucket 54  Sorting block time: 00:00:00Returning block of 371 for bucket 53Getting block 55 of 57  Reserving size (388) for bucket 55  Calculating Z arrays for bucket 55  Entering block accumulator loop for bucket 55:  bucket 55: 10%  bucket 55: 20%  bucket 55: 30%Getting block 56 of 57  bucket 55: 40%  Reserving size (388) for bucket 56  Calculating Z arrays for bucket 56  bucket 55: 50%  bucket 55: 60%  bucket 55: 70%  Entering block accumulator loop for bucket 56:  bucket 55: 80%  bucket 55: 90%  bucket 56: 10%  bucket 55: 100%  Sorting block of length 344 for bucket 55  (Using difference cover)  bucket 56: 20%  bucket 56: 30%  bucket 56: 40%  bucket 56: 50%  bucket 56: 60%  bucket 56: 70%  bucket 56: 80%  Sorting block time: 00:00:00Returning block of 345 for bucket 55  bucket 56: 90%  bucket 56: 100%  Sorting block of length 270 for bucket 56  (Using difference cover)  Sorting block time: 00:00:00Returning block of 271 for bucket 56Getting block 57 of 57  Reserving size (388) for bucket 57  Calculating Z arrays for bucket 57  Entering block accumulator loop for bucket 57:  bucket 57: 10%  bucket 57: 20%  bucket 57: 30%  bucket 57: 40%  bucket 57: 50%  bucket 57: 60%  bucket 57: 70%  bucket 57: 80%  bucket 57: 90%  bucket 57: 100%  Sorting block of length 132 for bucket 57  (Using difference cover)  Sorting block time: 00:00:00Returning block of 133 for bucket 57Exited Ebwt loopfchr[A]: 0fchr[C]: 5124fchr[G]: 10305fchr[T]: 12474fchr[$]: 16568Exiting Ebwt::buildToDisk()Returning from initFromVectorWrote 4200050 bytes to primary EBWT file: genome.rev.1.bt2.tmpWrote 4148 bytes to secondary EBWT file: genome.rev.2.bt2.tmpRe-opening _in1 and _in2 as input streamsReturning from Ebwt constructorHeaders:    len: 16568    bwtLen: 16569    sz: 4142    bwtSz: 4143    lineRate: 6    offRate: 4    offMask: 0xfffffff0    ftabChars: 10    eftabLen: 20    eftabSz: 80    ftabLen: 1048577    ftabSz: 4194308    offsLen: 1036    offsSz: 4144    lineSz: 64    sideSz: 64    sideBwtSz: 48    sideBwtLen: 192    numSides: 87    numLines: 87    ebwtTotLen: 5568    ebwtTotSz: 5568    color: 0    reverse: 1Total time for backward call to driver() for mirror index: 00:00:01
+            ]]></system-out>
+            <system-err><![CDATA[
+            Building a SMALL indexRenaming genome.3.bt2.tmp to genome.3.bt2Renaming genome.4.bt2.tmp to genome.4.bt2Renaming genome.1.bt2.tmp to genome.1.bt2Renaming genome.2.bt2.tmp to genome.2.bt2Renaming genome.rev.1.bt2.tmp to genome.rev.1.bt2Renaming genome.rev.2.bt2.tmp to genome.rev.2.bt2100 reads; of these:  100 (100.00%) were paired; of these:    97 (97.00%) aligned concordantly 0 times    3 (3.00%) aligned concordantly exactly 1 time    0 (0.00%) aligned concordantly >1 times    ----    97 pairs aligned concordantly 0 times; of these:      8 (8.25%) aligned discordantly 1 time    ----    89 pairs aligned 0 times concordantly or discordantly; of these:      178 mates make up the pairs; of these:        153 (85.96%) aligned 0 times        25 (14.04%) aligned exactly 1 time        0 (0.00%) aligned >1 times23.50% overall alignment rate
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="bowtie2 (Test #7)" name="6" time="30.77518582344055">
+        
+            
+            <system-out><![CDATA[
+            Settings:  Output files: "genome.*.bt2"  Line rate: 6 (line is 64 bytes)  Lines per side: 1 (side is 64 bytes)  Offset rate: 4 (one in 16)  FTable chars: 10  Strings: unpacked  Max bucket size: default  Max bucket size, sqrt multiplier: default  Max bucket size, len divisor: 32  Difference-cover sample period: 1024  Endianness: little  Actual local endianness: little  Sanity checking: disabled  Assertions: disabled  Random seed: 0  Sizeofs: void*:8, int:4, long:8, size_t:8Input files DNA, FASTA:  /galaxy/server/database/objects/d/7/e/dataset_d7e4698b-8974-47ea-9629-48cc1da72d18.datReading reference sizes  Time reading reference sizes: 00:00:00Calculating joined lengthWriting headerReserving space for joined stringJoining reference sequences  Time to join reference sequences: 00:00:00bmax according to bmaxDivN setting: 517Using parameters --bmax 388 --dcv 1024  Doing ahead-of-time memory usage test  Passed!  Constructing with these parameters: --bmax 388 --dcv 1024Constructing suffix-array element generatorBuilding DifferenceCoverSample  Building sPrime  Building sPrimeOrder  V-Sorting samples  V-Sorting samples time: 00:00:00  Allocating rank array  Ranking v-sort output  Ranking v-sort output time: 00:00:00  Invoking Larsson-Sadakane on ranks  Invoking Larsson-Sadakane on ranks time: 00:00:00  Sanity-checking and returningBuilding samplesReserving space for 86 sample suffixesGenerating random suffixesQSorting 86 sample offsets, eliminating duplicatesQSorting sample offsets, eliminating duplicates time: 00:00:00Multikey QSorting 86 samples  (Using difference cover)  Multikey QSorting samples time: 00:00:00Calculating bucket sizesSplitting and merging  Splitting and merging time: 00:00:00Split 12, merged 41; iterating...Splitting and merging  Splitting and merging time: 00:00:00Split 6, merged 6; iterating...Splitting and merging  Splitting and merging time: 00:00:00Split 5, merged 3; iterating...Splitting and merging  Splitting and merging time: 00:00:00Split 3, merged 3; iterating...Splitting and merging  Splitting and merging time: 00:00:00Avg bucket size: 284.672 (target: 387)Converting suffix-array elements to index imageAllocating ftab, absorbFtabEntering Ebwt loopGetting block 1 of 58  Reserving size (388) for bucket 1Getting block 2 of 58Getting block 3 of 58Getting block 4 of 58Getting block 5 of 58Getting block 6 of 58Getting block 7 of 58  Calculating Z arrays for bucket 1  Reserving size (388) for bucket 2  Reserving size (388) for bucket 3  Reserving size (388) for bucket 4  Reserving size (388) for bucket 5  Reserving size (388) for bucket 6  Reserving size (388) for bucket 7  Calculating Z arrays for bucket 2  Entering block accumulator loop for bucket 1:  Calculating Z arrays for bucket 3  Calculating Z arrays for bucket 4  Calculating Z arrays for bucket 5  Calculating Z arrays for bucket 6  Calculating Z arrays for bucket 7  Entering block accumulator loop for bucket 2:  Entering block accumulator loop for bucket 3:  Entering block accumulator loop for bucket 4:  Entering block accumulator loop for bucket 5:  Entering block accumulator loop for bucket 6:  Entering block accumulator loop for bucket 7:  bucket 1: 10%  bucket 2: 10%  bucket 3: 10%  bucket 5: 10%  bucket 4: 10%  bucket 1: 20%  bucket 2: 20%  bucket 7: 10%  bucket 3: 20%  bucket 5: 20%  bucket 6: 10%  bucket 2: 30%  bucket 1: 30%  bucket 4: 20%  bucket 3: 30%  bucket 5: 30%  bucket 7: 20%  bucket 2: 40%  bucket 1: 40%  bucket 6: 20%  bucket 4: 30%  bucket 3: 40%  bucket 5: 40%  bucket 2: 50%  bucket 1: 50%  bucket 7: 30%  bucket 6: 30%  bucket 3: 50%  bucket 2: 60%  bucket 5: 50%  bucket 4: 40%  bucket 1: 60%  bucket 7: 40%  bucket 6: 40%  bucket 3: 60%  bucket 2: 70%  bucket 5: 60%  bucket 1: 70%  bucket 4: 50%  bucket 3: 70%  bucket 7: 50%  bucket 6: 50%  bucket 2: 80%  bucket 5: 70%  bucket 1: 80%  bucket 3: 80%  bucket 5: 80%  bucket 6: 60%  bucket 2: 90%  bucket 1: 90%  bucket 7: 60%  bucket 3: 90%  bucket 5: 90%  bucket 1: 100%  bucket 2: 100%  Sorting block of length 355 for bucket 1  (Using difference cover)  bucket 6: 70%  Sorting block of length 165 for bucket 2  (Using difference cover)  bucket 3: 100%  bucket 4: 60%  bucket 7: 70%  Sorting block of length 370 for bucket 3  (Using difference cover)  bucket 5: 100%  bucket 6: 80%  bucket 4: 70%  bucket 7: 80%  Sorting block of length 203 for bucket 5  (Using difference cover)  bucket 4: 80%  bucket 6: 90%  bucket 7: 90%  bucket 4: 90%  bucket 7: 100%  bucket 6: 100%  bucket 4: 100%  Sorting block of length 368 for bucket 7  (Using difference cover)  Sorting block of length 339 for bucket 6  (Using difference cover)  Sorting block of length 328 for bucket 4  (Using difference cover)  Sorting block time: 00:00:00Returning block of 371 for bucket 3  Sorting block time: 00:00:00Returning block of 166 for bucket 2  Sorting block time: 00:00:00Returning block of 356 for bucket 1  Sorting block time: 00:00:00Returning block of 204 for bucket 5  Sorting block time: 00:00:00Returning block of 329 for bucket 4  Sorting block time: 00:00:00Returning block of 340 for bucket 6  Sorting block time: 00:00:00Returning block of 369 for bucket 7Getting block 8 of 58  Reserving size (388) for bucket 8  Calculating Z arrays for bucket 8  Entering block accumulator loop for bucket 8:Getting block 9 of 58  Reserving size (388) for bucket 9  Calculating Z arrays for bucket 9  bucket 8: 10%  Entering block accumulator loop for bucket 9:  bucket 8: 20%  bucket 9: 10%Getting block 10 of 58  bucket 8: 30%  bucket 9: 20%  Reserving size (388) for bucket 10  Calculating Z arrays for bucket 10  bucket 9: 30%  Entering block accumulator loop for bucket 10:  bucket 9: 40%  bucket 10: 10%  bucket 8: 40%  bucket 9: 50%  bucket 10: 20%  bucket 8: 50%  bucket 9: 60%  bucket 10: 30%  bucket 8: 60%  bucket 9: 70%  bucket 10: 40%  bucket 8: 70%  bucket 9: 80%  bucket 8: 80%  bucket 10: 50%  bucket 9: 90%  bucket 8: 90%  bucket 10: 60%  bucket 9: 100%  Sorting block of length 339 for bucket 9  (Using difference cover)  bucket 8: 100%  Sorting block of length 171 for bucket 8  (Using difference cover)  bucket 10: 70%  bucket 10: 80%  bucket 10: 90%  bucket 10: 100%  Sorting block of length 357 for bucket 10  (Using difference cover)  Sorting block time: 00:00:00Returning block of 172 for bucket 8  Sorting block time: 00:00:00Returning block of 340 for bucket 9  Sorting block time: 00:00:00Returning block of 358 for bucket 10Getting block 11 of 58  Reserving size (388) for bucket 11  Calculating Z arrays for bucket 11  Entering block accumulator loop for bucket 11:  bucket 11: 10%  bucket 11: 20%Getting block 12 of 58  Reserving size (388) for bucket 12  Calculating Z arrays for bucket 12  bucket 11: 30%  Entering block accumulator loop for bucket 12:Getting block 13 of 58  bucket 11: 40%  Reserving size (388) for bucket 13  bucket 12: 10%  Calculating Z arrays for bucket 13  Entering block accumulator loop for bucket 13:  bucket 12: 20%  bucket 11: 50%  bucket 12: 30%  bucket 11: 60%  bucket 13: 10%  bucket 12: 40%  bucket 11: 70%  bucket 13: 20%  bucket 12: 50%  bucket 12: 60%  bucket 13: 30%  bucket 11: 80%  bucket 12: 70%  bucket 13: 40%  bucket 11: 90%  bucket 12: 80%  bucket 13: 50%  bucket 11: 100%  Sorting block of length 305 for bucket 11  (Using difference cover)  bucket 12: 90%  bucket 13: 60%  bucket 13: 70%  bucket 12: 100%  Sorting block of length 185 for bucket 12  (Using difference cover)  bucket 13: 80%  bucket 13: 90%  bucket 13: 100%  Sorting block of length 282 for bucket 13  (Using difference cover)  Sorting block time: 00:00:00Returning block of 306 for bucket 11  Sorting block time: 00:00:00Returning block of 186 for bucket 12  Sorting block time: 00:00:00Returning block of 283 for bucket 13Getting block 15 of 58Getting block 14 of 58  Reserving size (388) for bucket 15  Reserving size (388) for bucket 14  Calculating Z arrays for bucket 15  Calculating Z arrays for bucket 14  Entering block accumulator loop for bucket 14:  Entering block accumulator loop for bucket 15:  bucket 15: 10%  bucket 14: 10%  bucket 15: 20%  bucket 14: 20%  bucket 15: 30%  bucket 14: 30%  bucket 15: 40%  bucket 14: 40%  bucket 15: 50%  bucket 15: 60%  bucket 14: 50%  bucket 15: 70%  bucket 14: 60%  bucket 15: 80%  bucket 14: 70%  bucket 15: 90%  bucket 15: 100%  Sorting block of length 241 for bucket 15  (Using difference cover)  bucket 14: 80%  bucket 14: 90%  bucket 14: 100%  Sorting block of length 339 for bucket 14  (Using difference cover)  Sorting block time: 00:00:00Returning block of 242 for bucket 15  Sorting block time: 00:00:00Returning block of 340 for bucket 14Getting block 16 of 58  Reserving size (388) for bucket 16Getting block 17 of 58  Calculating Z arrays for bucket 16  Reserving size (388) for bucket 17  Calculating Z arrays for bucket 17  Entering block accumulator loop for bucket 17:  Entering block accumulator loop for bucket 16:  bucket 17: 10%  bucket 16: 10%  bucket 16: 20%  bucket 17: 20%  bucket 16: 30%  bucket 17: 30%  bucket 17: 40%  bucket 16: 40%  bucket 16: 50%  bucket 17: 50%  bucket 16: 60%  bucket 17: 60%  bucket 16: 70%  bucket 17: 70%  bucket 17: 80%  bucket 16: 80%  bucket 16: 90%  bucket 17: 90%  bucket 16: 100%  Sorting block of length 379 for bucket 16  (Using difference cover)  bucket 17: 100%  Sorting block of length 215 for bucket 17  (Using difference cover)  Sorting block time: 00:00:00Returning block of 216 for bucket 17  Sorting block time: 00:00:00Returning block of 380 for bucket 16Getting block 18 of 58  Reserving size (388) for bucket 18  Calculating Z arrays for bucket 18  Entering block accumulator loop for bucket 18:  bucket 18: 10%  bucket 18: 20%Getting block 19 of 58  Reserving size (388) for bucket 19Getting block 20 of 58  Calculating Z arrays for bucket 19  bucket 18: 30%  Reserving size (388) for bucket 20  Calculating Z arrays for bucket 20  Entering block accumulator loop for bucket 19:  Entering block accumulator loop for bucket 20:  bucket 18: 40%  bucket 20: 10%  bucket 19: 10%  bucket 18: 50%  bucket 20: 20%  bucket 19: 20%  bucket 18: 60%  bucket 20: 30%  bucket 19: 30%  bucket 20: 40%  bucket 18: 70%  bucket 20: 50%  bucket 19: 40%  bucket 18: 80%  bucket 20: 60%  bucket 19: 50%  bucket 18: 90%  bucket 20: 70%  bucket 19: 60%  bucket 18: 100%  Sorting block of length 378 for bucket 18  (Using difference cover)  bucket 20: 80%  bucket 19: 70%  bucket 20: 90%  bucket 19: 80%  bucket 19: 90%  bucket 20: 100%  Sorting block of length 313 for bucket 20  (Using difference cover)  bucket 19: 100%  Sorting block of length 334 for bucket 19  (Using difference cover)  Sorting block time: 00:00:00Returning block of 379 for bucket 18  Sorting block time: 00:00:00Returning block of 314 for bucket 20  Sorting block time: 00:00:00Returning block of 335 for bucket 19Getting block 21 of 58  Reserving size (388) for bucket 21  Calculating Z arrays for bucket 21  Entering block accumulator loop for bucket 21:  bucket 21: 10%Getting block 22 of 58  Reserving size (388) for bucket 22  Calculating Z arrays for bucket 22  Entering block accumulator loop for bucket 22:  bucket 21: 20%  bucket 22: 10%  bucket 21: 30%  bucket 22: 20%  bucket 21: 40%  bucket 22: 30%  bucket 21: 50%  bucket 21: 60%  bucket 22: 40%  bucket 21: 70%  bucket 22: 50%  bucket 21: 80%  bucket 22: 60%  bucket 22: 70%  bucket 21: 90%  bucket 22: 80%  bucket 21: 100%  Sorting block of length 210 for bucket 21  (Using difference cover)  bucket 22: 90%  bucket 22: 100%  Sorting block of length 386 for bucket 22  (Using difference cover)  Sorting block time: 00:00:00Returning block of 211 for bucket 21  Sorting block time: 00:00:00Returning block of 387 for bucket 22Getting block 23 of 58  Reserving size (388) for bucket 23Getting block 24 of 58  Calculating Z arrays for bucket 23  Reserving size (388) for bucket 24  Calculating Z arrays for bucket 24  Entering block accumulator loop for bucket 24:  Entering block accumulator loop for bucket 23:  bucket 24: 10%  bucket 23: 10%  bucket 24: 20%  bucket 24: 30%  bucket 23: 20%  bucket 24: 40%  bucket 23: 30%  bucket 23: 40%  bucket 24: 50%  bucket 23: 50%  bucket 24: 60%  bucket 23: 60%  bucket 24: 70%  bucket 23: 70%  bucket 24: 80%  bucket 23: 80%  bucket 24: 90%  bucket 23: 90%  bucket 24: 100%  Sorting block of length 351 for bucket 24  (Using difference cover)  bucket 23: 100%  Sorting block of length 238 for bucket 23  (Using difference cover)  Sorting block time: 00:00:00Returning block of 239 for bucket 23  Sorting block time: 00:00:00Returning block of 352 for bucket 24Getting block 25 of 58  Reserving size (388) for bucket 25Getting block 26 of 58  Calculating Z arrays for bucket 25  Reserving size (388) for bucket 26  Calculating Z arrays for bucket 26  Entering block accumulator loop for bucket 26:  bucket 26: 10%  Entering block accumulator loop for bucket 25:  bucket 26: 20%Getting block 27 of 58  bucket 25: 10%  bucket 26: 30%  Reserving size (388) for bucket 27  Calculating Z arrays for bucket 27  Entering block accumulator loop for bucket 27:  bucket 25: 20%  bucket 26: 40%  bucket 25: 30%  bucket 26: 50%  bucket 27: 10%  bucket 26: 60%  bucket 26: 70%  bucket 25: 40%  bucket 27: 20%  bucket 26: 80%  bucket 25: 50%  bucket 26: 90%  bucket 25: 60%  bucket 27: 30%  bucket 25: 70%  bucket 26: 100%  Sorting block of length 354 for bucket 26  (Using difference cover)  bucket 27: 40%  bucket 25: 80%  bucket 25: 90%  bucket 27: 50%  bucket 25: 100%  Sorting block of length 105 for bucket 25  (Using difference cover)  bucket 27: 60%  Sorting block time: 00:00:00Returning block of 355 for bucket 26  bucket 27: 70%  Sorting block time: 00:00:00Returning block of 106 for bucket 25  bucket 27: 80%  bucket 27: 90%  bucket 27: 100%  Sorting block of length 334 for bucket 27  (Using difference cover)  Sorting block time: 00:00:00Returning block of 335 for bucket 27Getting block 28 of 58  Reserving size (388) for bucket 28  Calculating Z arrays for bucket 28  Entering block accumulator loop for bucket 28:Getting block 29 of 58  Reserving size (388) for bucket 29Getting block 30 of 58  bucket 28: 10%  Calculating Z arrays for bucket 29  Reserving size (388) for bucket 30  Calculating Z arrays for bucket 30  Entering block accumulator loop for bucket 29:  Entering block accumulator loop for bucket 30:  bucket 28: 20%  bucket 29: 10%  bucket 30: 10%  bucket 28: 30%  bucket 29: 20%  bucket 30: 20%  bucket 28: 40%  bucket 29: 30%  bucket 28: 50%  bucket 30: 30%  bucket 29: 40%  bucket 28: 60%  bucket 30: 40%  bucket 29: 50%  bucket 28: 70%  bucket 30: 50%  bucket 29: 60%  bucket 28: 80%  bucket 30: 60%  bucket 29: 70%  bucket 28: 90%  bucket 30: 70%  bucket 29: 80%  bucket 28: 100%  Sorting block of length 253 for bucket 28  (Using difference cover)  bucket 30: 80%  bucket 29: 90%  bucket 30: 90%  bucket 29: 100%  Sorting block of length 289 for bucket 29  (Using difference cover)  bucket 30: 100%  Sorting block of length 345 for bucket 30  (Using difference cover)  Sorting block time: 00:00:00Returning block of 254 for bucket 28  Sorting block time: 00:00:00Returning block of 290 for bucket 29  Sorting block time: 00:00:00Returning block of 346 for bucket 30Getting block 31 of 58  Reserving size (388) for bucket 31  Calculating Z arrays for bucket 31  Entering block accumulator loop for bucket 31:  bucket 31: 10%  bucket 31: 20%Getting block 32 of 58  bucket 31: 30%  Reserving size (388) for bucket 32  Calculating Z arrays for bucket 32  Entering block accumulator loop for bucket 32:  bucket 31: 40%  bucket 32: 10%  bucket 32: 20%  bucket 31: 50%  bucket 32: 30%  bucket 32: 40%  bucket 31: 60%  bucket 32: 50%  bucket 31: 70%  bucket 32: 60%  bucket 31: 80%  bucket 32: 70%  bucket 32: 80%  buc..0:00Returning block of 350 for bucket 23Getting block 24 of 57  Reserving size (388) for bucket 24Getting block 25 of 57  Calculating Z arrays for bucket 24  Reserving size (388) for bucket 25  Calculating Z arrays for bucket 25  Entering block accumulator loop for bucket 25:  Entering block accumulator loop for bucket 24:  bucket 25: 10%  bucket 24: 10%  bucket 25: 20%  bucket 24: 20%  bucket 24: 30%  bucket 24: 40%  bucket 25: 30%  bucket 24: 50%  bucket 25: 40%  bucket 24: 60%  bucket 25: 50%  bucket 25: 60%  bucket 24: 70%  bucket 25: 70%  bucket 24: 80%  bucket 25: 80%  bucket 24: 90%  bucket 24: 100%  Sorting block of length 245 for bucket 24  (Using difference cover)  bucket 25: 90%  bucket 25: 100%  Sorting block of length 286 for bucket 25  (Using difference cover)  Sorting block time: 00:00:00Returning block of 246 for bucket 24  Sorting block time: 00:00:00Returning block of 287 for bucket 25Getting block 26 of 57  Reserving size (388) for bucket 26  Calculating Z arrays for bucket 26  Entering block accumulator loop for bucket 26:  bucket 26: 10%  bucket 26: 20%  bucket 26: 30%  bucket 26: 40%  bucket 26: 50%Getting block 27 of 57  bucket 26: 60%  Reserving size (388) for bucket 27  Calculating Z arrays for bucket 27  Entering block accumulator loop for bucket 27:  bucket 26: 70%  bucket 26: 80%  bucket 27: 10%  bucket 26: 90%  bucket 27: 20%  bucket 26: 100%  Sorting block of length 384 for bucket 26  (Using difference cover)  bucket 27: 30%  bucket 27: 40%  bucket 27: 50%  bucket 27: 60%  Sorting block time: 00:00:00Returning block of 385 for bucket 26  bucket 27: 70%  bucket 27: 80%  bucket 27: 90%  bucket 27: 100%  Sorting block of length 359 for bucket 27  (Using difference cover)  Sorting block time: 00:00:00Returning block of 360 for bucket 27Getting block 28 of 57  Reserving size (388) for bucket 28  Calculating Z arrays for bucket 28  Entering block accumulator loop for bucket 28:  bucket 28: 10%  bucket 28: 20%  bucket 28: 30%  bucket 28: 40%  bucket 28: 50%  bucket 28: 60%  bucket 28: 70%  bucket 28: 80%  bucket 28: 90%  bucket 28: 100%  Sorting block of length 387 for bucket 28  (Using difference cover)Getting block 29 of 57  Reserving size (388) for bucket 29  Calculating Z arrays for bucket 29  Entering block accumulator loop for bucket 29:  bucket 29: 10%  bucket 29: 20%  Sorting block time: 00:00:00Returning block of 388 for bucket 28  bucket 29: 30%  bucket 29: 40%  bucket 29: 50%  bucket 29: 60%  bucket 29: 70%  bucket 29: 80%  bucket 29: 90%  bucket 29: 100%  Sorting block of length 195 for bucket 29  (Using difference cover)  Sorting block time: 00:00:00Returning block of 196 for bucket 29Getting block 30 of 57  Reserving size (388) for bucket 30  Calculating Z arrays for bucket 30  Entering block accumulator loop for bucket 30:  bucket 30: 10%  bucket 30: 20%  bucket 30: 30%  bucket 30: 40%  bucket 30: 50%  bucket 30: 60%  bucket 30: 70%  bucket 30: 80%  bucket 30: 90%  bucket 30: 100%  Sorting block of length 257 for bucket 30  (Using difference cover)  Sorting block time: 00:00:00Returning block of 258 for bucket 30Getting block 31 of 57  Reserving size (388) for bucket 31  Calculating Z arrays for bucket 31  Entering block accumulator loop for bucket 31:Getting block 32 of 57  Reserving size (388) for bucket 32  Calculating Z arrays for bucket 32  bucket 31: 10%  Entering block accumulator loop for bucket 32:Getting block 33 of 57  Reserving size (388) for bucket 33  Calculating Z arrays for bucket 33  bucket 31: 20%  bucket 32: 10%  Entering block accumulator loop for bucket 33:  bucket 31: 30%  bucket 32: 20%  bucket 31: 40%  bucket 32: 30%  bucket 33: 10%  bucket 31: 50%  bucket 32: 40%  bucket 33: 20%  bucket 31: 60%  bucket 32: 50%  bucket 33: 30%  bucket 31: 70%  bucket 32: 60%  bucket 33: 40%  bucket 32: 70%  bucket 33: 50%  bucket 31: 80%  bucket 32: 80%  bucket 33: 60%  bucket 31: 90%  bucket 33: 70%  bucket 32: 90%  bucket 31: 100%  Sorting block of length 310 for bucket 31  (Using difference cover)  bucket 33: 80%  bucket 32: 100%  Sorting block of length 219 for bucket 32  (Using difference cover)  bucket 33: 90%  bucket 33: 100%  Sorting block of length 387 for bucket 33  (Using difference cover)  Sorting block time: 00:00:00Returning block of 311 for bucket 31  Sorting block time: 00:00:00Returning block of 220 for bucket 32  Sorting block time: 00:00:00Returning block of 388 for bucket 33Getting block 34 of 57  Reserving size (388) for bucket 34  Calculating Z arrays for bucket 34  Entering block accumulator loop for bucket 34:  bucket 34: 10%  bucket 34: 20%  bucket 34: 30%  bucket 34: 40%  bucket 34: 50%  bucket 34: 60%  bucket 34: 70%  bucket 34: 80%  bucket 34: 90%  bucket 34: 100%  Sorting block of length 275 for bucket 34  (Using difference cover)  Sorting block time: 00:00:00Returning block of 276 for bucket 34Getting block 35 of 57Getting block 36 of 57  Reserving size (388) for bucket 35  Reserving size (388) for bucket 36  Calculating Z arrays for bucket 35  Calculating Z arrays for bucket 36  Entering block accumulator loop for bucket 35:  Entering block accumulator loop for bucket 36:  bucket 35: 10%  bucket 36: 10%  bucket 35: 20%  bucket 36: 20%  bucket 35: 30%  bucket 36: 30%  bucket 35: 40%  bucket 36: 40%  bucket 35: 50%  bucket 36: 50%  bucket 35: 60%  bucket 36: 60%  bucket 35: 70%  bucket 36: 70%  bucket 35: 80%  bucket 36: 80%  bucket 35: 90%  bucket 36: 90%  bucket 35: 100%  Sorting block of length 350 for bucket 35  (Using difference cover)  bucket 36: 100%  Sorting block of length 150 for bucket 36  (Using difference cover)  Sorting block time: 00:00:00Returning block of 151 for bucket 36  Sorting block time: 00:00:00Returning block of 351 for bucket 35Getting block 37 of 57  Reserving size (388) for bucket 37  Calculating Z arrays for bucket 37  Entering block accumulator loop for bucket 37:  bucket 37: 10%  bucket 37: 20%  bucket 37: 30%  bucket 37: 40%  bucket 37: 50%  bucket 37: 60%  bucket 37: 70%  bucket 37: 80%  bucket 37: 90%  bucket 37: 100%  Sorting block of length 267 for bucket 37  (Using difference cover)  Sorting block time: 00:00:00Returning block of 268 for bucket 37Getting block 38 of 57  Reserving size (388) for bucket 38  Calculating Z arrays for bucket 38  Entering block accumulator loop for bucket 38:  bucket 38: 10%  bucket 38: 20%  bucket 38: 30%  bucket 38: 40%Getting block 39 of 57  Reserving size (388) for bucket 39  Calculating Z arrays for bucket 39  Entering block accumulator loop for bucket 39:  bucket 38: 50%  bucket 38: 60%  bucket 39: 10%  bucket 38: 70%  bucket 39: 20%  bucket 38: 80%  bucket 38: 90%  bucket 39: 30%  bucket 38: 100%  Sorting block of length 337 for bucket 38  (Using difference cover)  bucket 39: 40%  bucket 39: 50%  bucket 39: 60%  Sorting block time: 00:00:00Returning block of 338 for bucket 38  bucket 39: 70%  bucket 39: 80%  bucket 39: 90%  bucket 39: 100%  Sorting block of length 387 for bucket 39  (Using difference cover)  Sorting block time: 00:00:00Returning block of 388 for bucket 39Getting block 40 of 57  Reserving size (388) for bucket 40Getting block 41 of 57  Calculating Z arrays for bucket 40  Reserving size (388) for bucket 41  Calculating Z arrays for bucket 41  Entering block accumulator loop for bucket 40:  Entering block accumulator loop for bucket 41:  bucket 40: 10%  bucket 41: 10%  bucket 40: 20%  bucket 41: 20%  bucket 40: 30%  bucket 41: 30%  bucket 40: 40%  bucket 41: 40%  bucket 40: 50%  bucket 41: 50%  bucket 40: 60%  bucket 41: 60%  bucket 40: 70%  bucket 41: 70%  bucket 41: 80%  bucket 40: 80%  bucket 41: 90%  bucket 40: 90%  bucket 41: 100%  Sorting block of length 330 for bucket 41  (Using difference cover)  bucket 40: 100%  Sorting block of length 379 for bucket 40  (Using difference cover)  Sorting block time: 00:00:00Returning block of 331 for bucket 41  Sorting block time: 00:00:00Returning block of 380 for bucket 40Getting block 42 of 57  Reserving size (388) for bucket 42  Calculating Z arrays for bucket 42  Entering block accumulator loop for bucket 42:  bucket 42: 10%  bucket 42: 20%Getting block 43 of 57  Reserving size (388) for bucket 43  Calculating Z arrays for bucket 43  Entering block accumulator loop for bucket 43:  bucket 42: 30%  bucket 43: 10%  bucket 42: 40%  bucket 43: 20%  bucket 42: 50%  bucket 43: 30%  bucket 42: 60%  bucket 43: 40%  bucket 42: 70%  bucket 42: 80%  bucket 43: 50%  bucket 42: 90%  bucket 43: 60%  bucket 42: 100%  bucket 43: 70%  Sorting block of length 188 for bucket 42  (Using difference cover)  bucket 43: 80%  bucket 43: 90%  bucket 43: 100%  Sorting block of length 321 for bucket 43  (Using difference cover)  Sorting block time: 00:00:00Returning block of 189 for bucket 42  Sorting block time: 00:00:00Returning block of 322 for bucket 43Getting block 44 of 57  Reserving size (388) for bucket 44Getting block 45 of 57  Calculating Z arrays for bucket 44  Reserving size (388) for bucket 45  Calculating Z arrays for bucket 45  Entering block accumulator loop for bucket 44:  Entering block accumulator loop for bucket 45:  bucket 44: 10%  bucket 45: 10%  bucket 44: 20%  bucket 45: 20%  bucket 44: 30%  bucket 45: 30%  bucket 44: 40%  bucket 44: 50%  bucket 45: 40%  bucket 44: 60%  bucket 45: 50%  bucket 44: 70%  bucket 44: 80%  bucket 45: 60%  bucket 44: 90%  bucket 45: 70%  bucket 44: 100%  Sorting block of length 366 for bucket 44  (Using difference cover)  bucket 45: 80%  bucket 45: 90%  bucket 45: 100%  Sorting block of length 365 for bucket 45  (Using difference cover)  Sorting block time: 00:00:00Returning block of 367 for bucket 44  Sorting block time: 00:00:00Returning block of 366 for bucket 45Getting block 46 of 57  Reserving size (388) for bucket 46  Calculating Z arrays for bucket 46  Entering block accumulator loop for bucket 46:  bucket 46: 10%  bucket 46: 20%  bucket 46: 30%Getting block 47 of 57  Reserving size (388) for bucket 47  Calculating Z arrays for bucket 47  bucket 46: 40%  Entering block accumulator loop for bucket 47:  bucket 46: 50%  bucket 47: 10%  bucket 46: 60%  bucket 47: 20%  bucket 46: 70%  bucket 47: 30%  bucket 46: 80%  bucket 47: 40%  bucket 46: 90%  bucket 47: 50%  bucket 47: 60%  bucket 46: 100%  Sorting block of length 253 for bucket 46  (Using difference cover)  bucket 47: 70%  bucket 47: 80%  bucket 47: 90%  Sorting block time: 00:00:00Returning block of 254 for bucket 46  bucket 47: 100%  Sorting block of length 217 for bucket 47  (Using difference cover)  Sorting block time: 00:00:00Returning block of 218 for bucket 47Getting block 48 of 57  Reserving size (388) for bucket 48  Calculating Z arrays for bucket 48Getting block 49 of 57  Entering block accumulator loop for bucket 48:  Reserving size (388) for bucket 49  Calculating Z arrays for bucket 49  Entering block accumulator loop for bucket 49:  bucket 48: 10%  bucket 49: 10%  bucket 48: 20%  bucket 48: 30%  bucket 49: 20%  bucket 48: 40%  bucket 49: 30%  bucket 49: 40%  bucket 48: 50%  bucket 49: 50%  bucket 49: 60%  bucket 48: 60%  bucket 49: 70%  bucket 48: 70%  bucket 49: 80%  bucket 48: 80%  bucket 49: 90%  bucket 49: 100%  Sorting block of length 112 for bucket 49  (Using difference cover)  bucket 48: 90%  bucket 48: 100%  Sorting block of length 384 for bucket 48  (Using difference cover)  Sorting block time: 00:00:00Returning block of 113 for bucket 49  Sorting block time: 00:00:00Returning block of 385 for bucket 48Getting block 50 of 57  Reserving size (388) for bucket 50  Calculating Z arrays for bucket 50  Entering block accumulator loop for bucket 50:Getting block 51 of 57  Reserving size (388) for bucket 51  Calculating Z arrays for bucket 51  Entering block accumulator loop for bucket 51:  bucket 50: 10%  bucket 51: 10%  bucket 50: 20%  bucket 51: 20%  bucket 50: 30%  bucket 51: 30%  bucket 51: 40%  bucket 50: 40%  bucket 51: 50%  bucket 50: 50%  bucket 51: 60%  bucket 50: 60%  bucket 51: 70%  bucket 51: 80%  bucket 50: 70%  bucket 51: 90%  bucket 50: 80%  bucket 51: 100%  Sorting block of length 350 for bucket 51  (Using difference cover)  bucket 50: 90%  bucket 50: 100%  Sorting block of length 275 for bucket 50  (Using difference cover)  Sorting block time: 00:00:00Returning block of 351 for bucket 51  Sorting block time: 00:00:00Returning block of 276 for bucket 50Getting block 52 of 57  Reserving size (388) for bucket 52Getting block 53 of 57  Calculating Z arrays for bucket 52  Reserving size (388) for bucket 53  Calculating Z arrays for bucket 53  Entering block accumulator loop for bucket 52:  Entering block accumulator loop for bucket 53:  bucket 52: 10%  bucket 53: 10%  bucket 52: 20%  bucket 53: 20%  bucket 52: 30%  bucket 53: 30%  bucket 52: 40%  bucket 53: 40%  bucket 52: 50%  bucket 53: 50%  bucket 52: 60%  bucket 53: 60%  bucket 52: 70%  bucket 53: 70%  bucket 52: 80%  bucket 53: 80%  bucket 52: 90%  bucket 53: 90%  bucket 52: 100%  Sorting block of length 378 for bucket 52  (Using difference cover)  bucket 53: 100%  Sorting block of length 370 for bucket 53  (Using difference cover)  Sorting block time: 00:00:00Returning block of 379 for bucket 52  Sorting block time: 00:00:00Returning block of 371 for bucket 53Getting block 54 of 57  Reserving size (388) for bucket 54  Calculating Z arrays for bucket 54  Entering block accumulator loop for bucket 54:  bucket 54: 10%  bucket 54: 20%Getting block 55 of 57  Reserving size (388) for bucket 55  bucket 54: 30%  Calculating Z arrays for bucket 55  Entering block accumulator loop for bucket 55:  bucket 54: 40%  bucket 55: 10%  bucket 54: 50%  bucket 55: 20%  bucket 54: 60%  bucket 55: 30%  bucket 55: 40%  bucket 54: 70%  bucket 55: 50%  bucket 54: 80%  bucket 55: 60%  bucket 54: 90%  bucket 54: 100%  bucket 55: 70%  Sorting block of length 237 for bucket 54  (Using difference cover)  bucket 55: 80%  bucket 55: 90%  bucket 55: 100%  Sorting block of length 344 for bucket 55  (Using difference cover)  Sorting block time: 00:00:00Returning block of 238 for bucket 54  Sorting block time: 00:00:00Returning block of 345 for bucket 55Getting block 56 of 57  Reserving size (388) for bucket 56  Calculating Z arrays for bucket 56  Entering block accumulator loop for bucket 56:Getting block 57 of 57  Reserving size (388) for bucket 57  Calculating Z arrays for bucket 57  bucket 56: 10%  Entering block accumulator loop for bucket 57:  bucket 57: 10%  bucket 56: 20%  bucket 57: 20%  bucket 56: 30%  bucket 56: 40%  bucket 56: 50%  bucket 57: 30%  bucket 57: 40%  bucket 56: 60%  bucket 57: 50%  bucket 57: 60%  bucket 56: 70%  bucket 57: 70%  bucket 57: 80%  bucket 57: 90%  bucket 56: 80%  bucket 57: 100%  Sorting block of length 132 for bucket 57  (Using difference cover)  bucket 56: 90%  bucket 56: 100%  Sorting block of length 270 for bucket 56  (Using difference cover)  Sorting block time: 00:00:00Returning block of 133 for bucket 57  Sorting block time: 00:00:00Returning block of 271 for bucket 56Exited Ebwt loopfchr[A]: 0fchr[C]: 5124fchr[G]: 10305fchr[T]: 12474fchr[$]: 16568Exiting Ebwt::buildToDisk()Returning from initFromVectorWrote 4200050 bytes to primary EBWT file: genome.rev.1.bt2.tmpWrote 4148 bytes to secondary EBWT file: genome.rev.2.bt2.tmpRe-opening _in1 and _in2 as input streamsReturning from Ebwt constructorHeaders:    len: 16568    bwtLen: 16569    sz: 4142    bwtSz: 4143    lineRate: 6    offRate: 4    offMask: 0xfffffff0    ftabChars: 10    eftabLen: 20    eftabSz: 80    ftabLen: 1048577    ftabSz: 4194308    offsLen: 1036    offsSz: 4144    lineSz: 64    sideSz: 64    sideBwtSz: 48    sideBwtLen: 192    numSides: 87    numLines: 87    ebwtTotLen: 5568    ebwtTotSz: 5568    color: 0    reverse: 1Total time for backward call to driver() for mirror index: 00:00:00
+            ]]></system-out>
+            <system-err><![CDATA[
+            Building a SMALL indexRenaming genome.3.bt2.tmp to genome.3.bt2Renaming genome.4.bt2.tmp to genome.4.bt2Renaming genome.1.bt2.tmp to genome.1.bt2Renaming genome.2.bt2.tmp to genome.2.bt2Renaming genome.rev.1.bt2.tmp to genome.rev.1.bt2Renaming genome.rev.2.bt2.tmp to genome.rev.2.bt2100 reads; of these:  100 (100.00%) were paired; of these:    97 (97.00%) aligned concordantly 0 times    3 (3.00%) aligned concordantly exactly 1 time    0 (0.00%) aligned concordantly >1 times    ----    97 pairs aligned concordantly 0 times; of these:      8 (8.25%) aligned discordantly 1 time    ----    89 pairs aligned 0 times concordantly or discordantly; of these:      178 mates make up the pairs; of these:        153 (85.96%) aligned 0 times        25 (14.04%) aligned exactly 1 time        0 (0.00%) aligned >1 times23.50% overall alignment rate
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="bowtie2 (Test #8)" name="7" time="25.303322076797485">
+        
+            
+                <error type="error" message="Tool exit code: None"><![CDATA[
+                    { "inputs": {  "analysis_type|analysis_type_selector": "simple",  "library|input_1": {   "id": "6c90f6313f69bf03",   "src": "hda"  },  "library|input_2": {   "id": "d4ed341c5293401e",   "src": "hda"  },  "library|paired_options|paired_options_selector": "no",  "library|type": "paired",  "library|unaligned_file": false,  "reference_genome|own_file": {   "id": "52986156949892f4",   "src": "hda"  },  "reference_genome|source": "history" }, "job": {  "command_line": "set -o | grep -q pipefail \u0026\u0026 set -o pipefail; bowtie2-build --threads ${GALAXY_SLOTS:-4} \u0027/galaxy/server/database/objects/6/f/7/dataset_6f78e9ec-445a-4de9-90ea-a13dcbe1a601.dat\u0027 genome \u0026\u0026 ln -s -f \u0027/galaxy/server/database/objects/6/f/7/dataset_6f78e9ec-445a-4de9-90ea-a13dcbe1a601.dat\u0027 genome.fa \u0026\u0026   ln -f -s \u0027/galaxy/server/database/objects/5/d/a/dataset_5da73379-d0c8-4a47-85c9-aaa7fac211b5.dat\u0027 input_f.fasta \u0026\u0026  ln -f -s \u0027/galaxy/server/database/objects/7/d/b/dataset_7db72cdb-0344-4e93-b88d-5eb90723be22.dat\u0027 input_r.fasta \u0026\u0026   THREADS=${GALAXY_SLOTS:-4} \u0026\u0026 if [ \"$THREADS\" -gt 1 ]; then (( THREADS-- )); fi \u0026\u0026   bowtie2  -p \"$THREADS\"  -x \u0027genome\u0027  -f  -1 \u0027input_f.fasta\u0027 -2 \u0027input_r.fasta\u0027                 | samtools sort -l 0 -T \"${TMPDIR:-.}\" -O bam | samtools view --no-PG -O bam -@ ${GALAXY_SLOTS:-1} -o \u0027/galaxy/server/database/objects/e/9/d/dataset_e9d0bce6-6d4a-4fee-94e6-82baadac50b0.dat\u0027",  "command_version": null,  "copied_from_job_id": null,  "create_time": "2024-09-15T13:44:45.042805",  "dependencies": [],  "exit_code": null,  "external_id": "gxy-mk5tj",  "galaxy_version": "23.1",  "history_id": "8dc7d2120e767ce3",  "id": "2635ab551e682228",  "inputs": {   "library|input_1": {    "id": "6c90f6313f69bf03",    "src": "hda",    "uuid": "5da73379-d0c8-4a47-85c9-aaa7fac211b5"   },   "library|input_2": {    "id": "d4ed341c5293401e",    "src": "hda",    "uuid": "7db72cdb-0344-4e93-b88d-5eb90723be22"   },   "reference_genome|own_file": {    "id": "52986156949892f4",    "src": "hda",    "uuid": "6f78e9ec-445a-4de9-90ea-a13dcbe1a601"   }  },  "job_messages": null,  "job_metrics": [],  "job_stderr": null,  "job_stdout": null,  "model_class": "Job",  "output_collections": {},  "outputs": {   "output": {    "id": "11fb8b6d7e0f63ee",    "src": "hda",    "uuid": "e9d0bce6-6d4a-4fee-94e6-82baadac50b0"   }  },  "params": {   "__input_ext": "\"input\"",   "analysis_type": "{\"__current_case__\": 0, \"analysis_type_selector\": \"simple\", \"presets\": \"no_presets\"}",   "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"",   "dbkey": "\"?\"",   "library": "{\"__current_case__\": 1, \"aligned_file\": false, \"input_1\": {\"values\": [{\"id\": 385, \"src\": \"hda\"}]}, \"input_2\": {\"values\": [{\"id\": 386, \"src\": \"hda\"}]}, \"paired_options\": {\"__current_case__\": 1, \"paired_options_selector\": \"no\"}, \"type\": \"paired\", \"unaligned_file\": false}",   "reference_genome": "{\"__current_case__\": 1, \"own_file\": {\"values\": [{\"id\": 387, \"src\": \"hda\"}]}, \"source\": \"history\"}",   "rg": "{\"__current_case__\": 3, \"rg_selector\": \"do_not_set\"}",   "sam_options": "{\"__current_case__\": 1, \"sam_options_selector\": \"no\"}",   "save_mapping_stats": "false"  },  "state": "error",  "stderr": "",  "stdout": "",  "tool_id": "toolshed.g2.bx.psu.edu/repos/devteam/bowtie2/bowtie2/2.5.3+galaxy1",  "tool_stderr": "",  "tool_stdout": "",  "traceback": null,  "update_time": "2024-09-15T13:44:50.517363",  "user_email": "tests@fake.org" }, "output_problems": [  "Job in error state.. tool_id: toolshed.g2.bx.psu.edu/repos/devteam/bowtie2/bowtie2/2.5.3+galaxy1, exit_code: None, stderr: .",  "Job in error state.. tool_id: toolshed.g2.bx.psu.edu/repos/devteam/bowtie2/bowtie2/2.5.3+galaxy1, exit_code: None, stderr: ." ], "status": "failure", "test_index": 7, "time_seconds": 25.303322076797485, "tool_id": "bowtie2", "tool_version": "2.5.3+galaxy1"}
+                ]]></error>
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="bowtie2 (Test #9)" name="8" time="31.0102322101593">
+        
+            
+            <system-out><![CDATA[
+            Settings:  Output files: "genome.*.bt2"  Line rate: 6 (line is 64 bytes)  Lines per side: 1 (side is 64 bytes)  Offset rate: 4 (one in 16)  FTable chars: 10  Strings: unpacked  Max bucket size: default  Max bucket size, sqrt multiplier: default  Max bucket size, len divisor: 32  Difference-cover sample period: 1024  Endianness: little  Actual local endianness: little  Sanity checking: disabled  Assertions: disabled  Random seed: 0  Sizeofs: void*:8, int:4, long:8, size_t:8Input files DNA, FASTA:  /galaxy/server/database/objects/e/5/6/dataset_e56534b6-e48f-4ed7-99c1-674ee2b63377.datReading reference sizes  Time reading reference sizes: 00:00:00Calculating joined lengthWriting headerReserving space for joined stringJoining reference sequences  Time to join reference sequences: 00:00:00bmax according to bmaxDivN setting: 517Using parameters --bmax 388 --dcv 1024  Doing ahead-of-time memory usage test  Passed!  Constructing with these parameters: --bmax 388 --dcv 1024Constructing suffix-array element generatorBuilding DifferenceCoverSample  Building sPrime  Building sPrimeOrder  V-Sorting samples  V-Sorting samples time: 00:00:00  Allocating rank array  Ranking v-sort output  Ranking v-sort output time: 00:00:00  Invoking Larsson-Sadakane on ranks  Invoking Larsson-Sadakane on ranks time: 00:00:00  Sanity-checking and returningBuilding samplesReserving space for 86 sample suffixesGenerating random suffixesQSorting 86 sample offsets, eliminating duplicatesQSorting sample offsets, eliminating duplicates time: 00:00:00Multikey QSorting 86 samples  (Using difference cover)  Multikey QSorting samples time: 00:00:00Calculating bucket sizesSplitting and merging  Splitting and merging time: 00:00:00Split 12, merged 41; iterating...Splitting and merging  Splitting and merging time: 00:00:00Split 6, merged 6; iterating...Splitting and merging  Splitting and merging time: 00:00:00Split 5, merged 3; iterating...Splitting and merging  Splitting and merging time: 00:00:00Split 3, merged 3; iterating...Splitting and merging  Splitting and merging time: 00:00:00Avg bucket size: 284.672 (target: 387)Converting suffix-array elements to index imageAllocating ftab, absorbFtabEntering Ebwt loopGetting block 1 of 58  Reserving size (388) for bucket 1Getting block 2 of 58Getting block 3 of 58Getting block 4 of 58  Calculating Z arrays for bucket 1  Reserving size (388) for bucket 2  Reserving size (388) for bucket 3  Reserving size (388) for bucket 4Getting block 5 of 58Getting block 6 of 58  Calculating Z arrays for bucket 2Getting block 7 of 58  Entering block accumulator loop for bucket 1:  Calculating Z arrays for bucket 3  Calculating Z arrays for bucket 4  Reserving size (388) for bucket 5  Reserving size (388) for bucket 6  Reserving size (388) for bucket 7  Entering block accumulator loop for bucket 2:  Calculating Z arrays for bucket 5  Entering block accumulator loop for bucket 3:  Calculating Z arrays for bucket 6  Calculating Z arrays for bucket 7  Entering block accumulator loop for bucket 4:  bucket 1: 10%  Entering block accumulator loop for bucket 5:  Entering block accumulator loop for bucket 6:  Entering block accumulator loop for bucket 7:  bucket 2: 10%  bucket 1: 20%  bucket 4: 10%  bucket 3: 10%  bucket 5: 10%  bucket 1: 30%  bucket 2: 20%  bucket 6: 10%  bucket 4: 20%  bucket 1: 40%  bucket 7: 10%  bucket 2: 30%  bucket 3: 20%  bucket 5: 20%  bucket 1: 50%  bucket 6: 20%  bucket 4: 30%  bucket 2: 40%  bucket 3: 30%  bucket 1: 60%  bucket 7: 20%  bucket 2: 50%  bucket 4: 40%  bucket 5: 30%  bucket 6: 30%  bucket 1: 70%  bucket 3: 40%  bucket 2: 60%  bucket 7: 30%  bucket 4: 50%  bucket 1: 80%  bucket 6: 40%  bucket 3: 50%  bucket 5: 40%  bucket 2: 70%  bucket 4: 60%  bucket 1: 90%  bucket 7: 40%  bucket 2: 80%  bucket 4: 70%  bucket 5: 50%  bucket 6: 50%  bucket 3: 60%  bucket 1: 100%  Sorting block of length 355 for bucket 1  (Using difference cover)  bucket 2: 90%  bucket 4: 80%  bucket 7: 50%  bucket 5: 60%  bucket 3: 70%  bucket 6: 60%  bucket 2: 100%  bucket 4: 90%  Sorting block of length 165 for bucket 2  (Using difference cover)  bucket 3: 80%  bucket 7: 60%  bucket 5: 70%  bucket 4: 100%  bucket 6: 70%  Sorting block of length 328 for bucket 4  (Using difference cover)  bucket 3: 90%  bucket 7: 70%  bucket 6: 80%  bucket 5: 80%  bucket 3: 100%  Sorting block of length 370 for bucket 3  (Using difference cover)  bucket 6: 90%  bucket 7: 80%  bucket 5: 90%  bucket 6: 100%  bucket 5: 100%  Sorting block of length 339 for bucket 6  (Using difference cover)  bucket 7: 90%  Sorting block of length 203 for bucket 5  (Using difference cover)  bucket 7: 100%  Sorting block of length 368 for bucket 7  (Using difference cover)  Sorting block time: 00:00:00Returning block of 356 for bucket 1  Sorting block time: 00:00:00Returning block of 369 for bucket 7  Sorting block time: 00:00:00Returning block of 329 for bucket 4  Sorting block time: 00:00:00Returning block of 166 for bucket 2  Sorting block time: 00:00:00Returning block of 371 for bucket 3  Sorting block time: 00:00:00Returning block of 340 for bucket 6  Sorting block time: 00:00:00Returning block of 204 for bucket 5Getting block 8 of 58  Reserving size (388) for bucket 8  Calculating Z arrays for bucket 8  Entering block accumulator loop for bucket 8:  bucket 8: 10%  bucket 8: 20%  bucket 8: 30%  bucket 8: 40%Getting block 9 of 58  bucket 8: 50%  Reserving size (388) for bucket 9  Calculating Z arrays for bucket 9Getting block 10 of 58  bucket 8: 60%  Entering block accumulator loop for bucket 9:  Reserving size (388) for bucket 10  Calculating Z arrays for bucket 10  bucket 8: 70%  Entering block accumulator loop for bucket 10:  bucket 8: 80%  bucket 9: 10%  bucket 10: 10%  bucket 8: 90%  bucket 9: 20%  bucket 10: 20%  bucket 8: 100%  Sorting block of length 171 for bucket 8  (Using difference cover)  bucket 9: 30%  bucket 10: 30%  bucket 10: 40%  bucket 9: 40%  bucket 10: 50%  bucket 9: 50%  bucket 10: 60%  bucket 9: 60%  bucket 10: 70%  Sorting block time: 00:00:00Returning block of 172 for bucket 8  bucket 9: 70%  bucket 10: 80%  bucket 9: 80%  bucket 10: 90%  bucket 9: 90%  bucket 10: 100%  Sorting block of length 357 for bucket 10  (Using difference cover)  bucket 9: 100%  Sorting block of length 339 for bucket 9  (Using difference cover)  Sorting block time: 00:00:00Returning block of 340 for bucket 9  Sorting block time: 00:00:00Returning block of 358 for bucket 10Getting block 11 of 58  Reserving size (388) for bucket 11  Calculating Z arrays for bucket 11Getting block 12 of 58  Entering block accumulator loop for bucket 11:  Reserving size (388) for bucket 12  Calculating Z arrays for bucket 12  Entering block accumulator loop for bucket 12:  bucket 11: 10%  bucket 12: 10%  bucket 11: 20%  bucket 12: 20%  bucket 11: 30%  bucket 12: 30%  bucket 11: 40%  bucket 12: 40%  bucket 11: 50%  bucket 12: 50%  bucket 11: 60%  bucket 12: 60%  bucket 11: 70%  bucket 12: 70%Getting block 13 of 58Getting block 14 of 58  Reserving size (388) for bucket 13  Reserving size (388) for bucket 14  bucket 12: 80%  Calculating Z arrays for bucket 13  Calculating Z arrays for bucket 14  bucket 11: 80%  Entering block accumulator loop for bucket 14:  Entering block accumulator loop for bucket 13:  bucket 12: 90%  bucket 14: 10%  bucket 11: 90%  bucket 12: 100%  Sorting block of length 185 for bucket 12  (Using difference cover)  bucket 13: 10%  bucket 14: 20%  bucket 11: 100%  bucket 14: 30%  Sorting block of length 305 for bucket 11  (Using difference cover)  bucket 13: 20%  bucket 14: 40%  bucket 13: 30%  bucket 14: 50%  bucket 13: 40%  Sorting block time: 00:00:00  bucket 14: 60%Returning block of 186 for bucket 12  bucket 13: 50%  bucket 14: 70%  bucket 14: 80%  bucket 13: 60%  bucket 14: 90%  bucket 13: 70%  bucket 14: 100%  Sorting block of length 339 for bucket 14  (Using difference cover)  Sorting block time: 00:00:00  bucket 13: 80%Returning block of 306 for bucket 11  bucket 13: 90%  bucket 13: 100%  Sorting block of length 282 for bucket 13  (Using difference cover)  Sorting block time: 00:00:00Returning block of 340 for bucket 14  Sorting block time: 00:00:00Returning block of 283 for bucket 13Getting block 15 of 58  Reserving size (388) for bucket 15  Calculating Z arrays for bucket 15  Entering block accumulator loop for bucket 15:  bucket 15: 10%  bucket 15: 20%  bucket 15: 30%  bucket 15: 40%  bucket 15: 50%  bucket 15: 60%  bucket 15: 70%  bucket 15: 80%  bucket 15: 90%  bucket 15: 100%  Sorting block of length 241 for bucket 15  (Using difference cover)  Sorting block time: 00:00:00Returning block of 242 for bucket 15Getting block 16 of 58  Reserving size (388) for bucket 16  Calculating Z arrays for bucket 16  Entering block accumulator loop for bucket 16:Getting block 17 of 58  Reserving size (388) for bucket 17  bucket 16: 10%  Calculating Z arrays for bucket 17  bucket 16: 20%  Entering block accumulator loop for bucket 17:  bucket 16: 30%  bucket 17: 10%  bucket 16: 40%  bucket 16: 50%  bucket 17: 20%  bucket 16: 60%  bucket 17: 30%  bucket 16: 70%  bucket 17: 40%  bucket 16: 80%  bucket 17: 50%  bucket 16: 90%  bucket 16: 100%  bucket 17: 60%  Sorting block of length 379 for bucket 16  (Using difference cover)  bucket 17: 70%  bucket 17: 80%  bucket 17: 90%  bucket 17: 100%  Sorting block of length 215 for bucket 17  (Using difference cover)  Sorting block time: 00:00:00Returning block of 380 for bucket 16  Sorting block time: 00:00:00Returning block of 216 for bucket 17Getting block 18 of 58  Reserving size (388) for bucket 18Getting block 19 of 58  Calculating Z arrays for bucket 18  Reserving size (388) for bucket 19  Calculating Z arrays for bucket 19  Entering block accumulator loop for bucket 18:  Entering block accumulator loop for bucket 19:  bucket 19: 10%  bucket 18: 10%  bucket 19: 20%  bucket 18: 20%  bucket 18: 30%  bucket 19: 30%  bucket 19: 40%  bucket 18: 40%  bucket 19: 50%  bucket 18: 50%  bucket 19: 60%  bucket 18: 60%  bucket 19: 70%  bucket 18: 70%  bucket 19: 80%  bucket 18: 80%  bucket 19: 90%  bucket 18: 90%  bucket 19: 100%  Sorting block of length 334 for bucket 19  (Using difference cover)  bucket 18: 100%  Sorting block of length 378 for bucket 18  (Using difference cover)  Sorting block time: 00:00:00Returning block of 335 for bucket 19  Sorting block time: 00:00:00Returning block of 379 for bucket 18Getting block 20 of 58  Reserving size (388) for bucket 20  Calculating Z arrays for bucket 20  Entering block accumulator loop for bucket 20:  bucket 20: 10%Getting block 21 of 58  Reserving size (388) for bucket 21  Calculating Z arrays for bucket 21  bucket 20: 20%  Entering block accumulator loop for bucket 21:  bucket 20: 30%Getting block 22 of 58  bucket 21: 10%  Reserving size (388) for bucket 22  Calculating Z arrays for bucket 22  bucket 20: 40%  Entering block accumulator loop for bucket 22:  bucket 21: 20%  bucket 20: 50%  bucket 22: 10%  bucket 21: 30%  bucket 20: 60%  bucket 22: 20%  bucket 22: 30%  bucket 21: 40%  bucket 20: 70%  bucket 22: 40%  bucket 20: 80%  bucket 21: 50%  bucket 22: 50%  bucket 20: 90%  bucket 21: 60%  bucket 22: 60%  bucket 20: 100%  Sorting block of length 313 for bucket 20  (Using difference cover)  bucket 22: 70%  bucket 21: 70%  bucket 22: 80%  bucket 21: 80%  bucket 22: 90%  bucket 22: 100%  Sorting block of length 386 for bucket 22  (Using difference cover)  bucket 21: 90%  Sorting block time: 00:00:00Returning block of 314 for bucket 20  bucket 21: 100%  Sorting block of length 210 for bucket 21  (Using difference cover)  Sorting block time: 00:00:00Returning block of 387 for bucket 22  Sorting block time: 00:00:00Returning block of 211 for bucket 21Getting block 23 of 58  Reserving size (388) for bucket 23  Calculating Z arrays for bucket 23  Entering block accumulator loop for bucket 23:Getting block 24 of 58  Reserving size (388) for bucket 24  Calculating Z arrays for bucket 24  Entering block accumulator loop for bucket 24:  bucket 24: 10%  bucket 23: 10%  bucket 24: 20%  bucket 23: 20%  bucket 24: 30%  bucket 23: 30%  bucket 23: 40%  bucket 24: 40%  bucket 24: 50%  bucket 23: 50%  bucket 24: 60%  bucket 23: 60%  bucket 24: 70%  bucket 23: 70%  bucket 24: 80%  bucket 23: 80%  bucket 24: 90%  bucket 23: 90%  bucket 24: 100%  bucket 23: 100%  Sorting block of length 351 for bucket 24  (Using difference cover)  Sorting block of length 238 for bucket 23  (Using difference cover)  Sorting block time: 00:00:00Returning block of 239 for bucket 23  Sorting block time: 00:00:00Returning block of 352 for bucket 24Getting block 25 of 58  Reserving size (388) for bucket 25  Calculating Z arrays for bucket 25  Entering block accumulator loop for bucket 25:  bucket 25: 10%Getting block 26 of 58  bucket 25: 20%  Reserving size (388) for bucket 26Getting block 27 of 58  Calculating Z arrays for bucket 26  bucket 25: 30%  Reserving size (388) for bucket 27  Calculating Z arrays for bucket 27  Entering block accumulator loop for bucket 26:  Entering block accumulator loop for bucket 27:  bucket 25: 40%  bucket 25: 50%  bucket 27: 10%  bucket 26: 10%  bucket 25: 60%  bucket 27: 20%  bucket 26: 20%  bucket 25: 70%  bucket 25: 80%  bucket 27: 30%  bucket 26: 30%  bucket 25: 90%  bucket 27: 40%  bucket 26: 40%  bucket 25: 100%  bucket 27: 50%  Sorting block of length 105 for bucket 25  (Using difference cover)  bucket 26: 50%  bucket 27: 60%  bucket 26: 60%  bucket 27: 70%  bucket 26: 70%  bucket 27: 80%  bucket 26: 80%  Sorting block time: 00:00:00Returning block of 106 for bucket 25  bucket 27: 90%  bucket 26: 90%  bucket 27: 100%  Sorting block of length 334 for bucket 27  (Using difference cover)  bucket 26: 100%  Sorting block of length 354 for bucket 26  (Using difference cover)  Sorting block time: 00:00:00Returning block of 355 for bucket 26  Sorting block time: 00:00:00Returning block of 335 for bucket 27Getting block 28 of 58  Reserving size (388) for bucket 28  Calculating Z arrays for bucket 28Getting block 29 of 58  Entering block accumulator loop for bucket 28:  Reserving size (388) for bucket 29  Calculating Z arrays for bucket 29  Entering block accumulator loop for bucket 29:  bucket 28: 10%  bucket 28: 20%  bucket 29: 10%  bucket 28: 30%  bucket 29: 20%  bucket 28: 40%  bucket 29: 30%  bucket 28: 50%  bucket 29: 40%  bucket 28: 60%  bucket 28: 70%  bucket 29: 50%  bucket 28: 80%  bucket 29: 60%  bucket 28: 90%  bucket 28: 100%  Sorting block of length 253 for bucket 28  (Using difference cover)  bucket 29: 70%  bucket 29: 80%  bucket 29: 90%  Sorting block time: 00:00:00Returning block of 254 for bucket 28  bucket 29: 100%  Sorting block of length 289 for bucket 29  (Using difference cover)  Sorting block time: 00:00:00Returning block of 290 for bucket 29Getting block 30 of 58  Reserving size (388) for bucket 30  Calculating Z arrays for bucket 30  Entering block accumulator loop for bucket 30:  bucket 30: 10%  bucket 30: 20%  bucket 30: 30%Getting block 31 of 58  Reserving size (388) for bucket 31  Calculating Z arrays for bucket 31  Entering block accumulator loop for bucket 31:  bucket 30: 40%  bucket 31: 10%  bucket 30: 50%  bucket 31: 20%  bucket 30: 60%  bucket 31: 30%  bucket 30: 70%  bucket 31: 40%  bucket 30: 80%  bucket 31: 50%  bucket 30: 90%  bucket 31: 60%  bucket 30: 100%  Sorting block of length 345 for bucket 30  (Using difference cover)  bucket 31: 70%  bucket 31: 80%  bucket 31: 90%  bucket 31: 100%  Sorting block of length 377 for bucket 31  (Using difference cover)  Sorting block time: 00:00:00Returning block of 346 for bucket 30  Sorting block time: 00:00:00Returning block of 378 for bucket 31Getting block 32 of 58  Reserving size (388) for bucket 32Getting block 33 of 58  Calculating Z arrays for buc..: 00:00:00Returning block of 344 for bucket 21  bucket 22: 80%  bucket 23: 80%  bucket 22: 90%  Sorting block time: 00:00:00Returning block of 246 for bucket 24  bucket 23: 90%  bucket 22: 100%  Sorting block of length 371 for bucket 22  (Using difference cover)  bucket 23: 100%  Sorting block of length 349 for bucket 23  (Using difference cover)  Sorting block time: 00:00:00Returning block of 350 for bucket 23  Sorting block time: 00:00:00Returning block of 372 for bucket 22Getting block 25 of 57  Reserving size (388) for bucket 25  Calculating Z arrays for bucket 25  Entering block accumulator loop for bucket 25:  bucket 25: 10%  bucket 25: 20%  bucket 25: 30%  bucket 25: 40%  bucket 25: 50%  bucket 25: 60%  bucket 25: 70%  bucket 25: 80%  bucket 25: 90%  bucket 25: 100%  Sorting block of length 286 for bucket 25  (Using difference cover)  Sorting block time: 00:00:00Returning block of 287 for bucket 25Getting block 26 of 57  Reserving size (388) for bucket 26  Calculating Z arrays for bucket 26  Entering block accumulator loop for bucket 26:  bucket 26: 10%  bucket 26: 20%  bucket 26: 30%  bucket 26: 40%  bucket 26: 50%Getting block 27 of 57  Reserving size (388) for bucket 27  Calculating Z arrays for bucket 27  bucket 26: 60%  Entering block accumulator loop for bucket 27:  bucket 26: 70%  bucket 27: 10%  bucket 26: 80%  bucket 27: 20%  bucket 27: 30%  bucket 26: 90%  bucket 27: 40%  bucket 26: 100%  Sorting block of length 384 for bucket 26  (Using difference cover)  bucket 27: 50%  bucket 27: 60%  bucket 27: 70%  bucket 27: 80%  Sorting block time: 00:00:00Returning block of 385 for bucket 26  bucket 27: 90%  bucket 27: 100%  Sorting block of length 359 for bucket 27  (Using difference cover)  Sorting block time: 00:00:00Returning block of 360 for bucket 27Getting block 28 of 57  Reserving size (388) for bucket 28  Calculating Z arrays for bucket 28  Entering block accumulator loop for bucket 28:  bucket 28: 10%  bucket 28: 20%  bucket 28: 30%  bucket 28: 40%  bucket 28: 50%  bucket 28: 60%  bucket 28: 70%  bucket 28: 80%  bucket 28: 90%  bucket 28: 100%  Sorting block of length 387 for bucket 28  (Using difference cover)  Sorting block time: 00:00:00Returning block of 388 for bucket 28Getting block 29 of 57  Reserving size (388) for bucket 29  Calculating Z arrays for bucket 29  Entering block accumulator loop for bucket 29:  bucket 29: 10%  bucket 29: 20%  bucket 29: 30%  bucket 29: 40%Getting block 30 of 57  bucket 29: 50%  Reserving size (388) for bucket 30  Calculating Z arrays for bucket 30  Entering block accumulator loop for bucket 30:  bucket 29: 60%  bucket 30: 10%  bucket 29: 70%  bucket 30: 20%  bucket 29: 80%  bucket 30: 30%  bucket 29: 90%  bucket 30: 40%  bucket 29: 100%  Sorting block of length 195 for bucket 29  (Using difference cover)  bucket 30: 50%  bucket 30: 60%Getting block 31 of 57  Reserving size (388) for bucket 31  Calculating Z arrays for bucket 31  bucket 30: 70%  Entering block accumulator loop for bucket 31:  bucket 30: 80%Getting block 32 of 57  Sorting block time: 00:00:00  bucket 31: 10%  Reserving size (388) for bucket 32Returning block of 196 for bucket 29  Calculating Z arrays for bucket 32  bucket 30: 90%  Entering block accumulator loop for bucket 32:  bucket 31: 20%  bucket 30: 100%  Sorting block of length 257 for bucket 30  (Using difference cover)  bucket 32: 10%  bucket 31: 30%  bucket 32: 20%  bucket 31: 40%  bucket 32: 30%  bucket 31: 50%  bucket 32: 40%  Sorting block time: 00:00:00Returning block of 258 for bucket 30  bucket 32: 50%  bucket 31: 60%  bucket 32: 60%  bucket 31: 70%  bucket 32: 70%  bucket 32: 80%  bucket 31: 80%  bucket 32: 90%  bucket 31: 90%  bucket 32: 100%  Sorting block of length 219 for bucket 32  (Using difference cover)  bucket 31: 100%  Sorting block of length 310 for bucket 31  (Using difference cover)  Sorting block time: 00:00:00Returning block of 220 for bucket 32  Sorting block time: 00:00:00Returning block of 311 for bucket 31Getting block 33 of 57  Reserving size (388) for bucket 33  Calculating Z arrays for bucket 33  Entering block accumulator loop for bucket 33:Getting block 34 of 57  bucket 33: 10%  Reserving size (388) for bucket 34  Calculating Z arrays for bucket 34  Entering block accumulator loop for bucket 34:  bucket 33: 20%  bucket 34: 10%  bucket 33: 30%Getting block 35 of 57  bucket 33: 40%  bucket 34: 20%  Reserving size (388) for bucket 35  Calculating Z arrays for bucket 35  Entering block accumulator loop for bucket 35:  bucket 33: 50%  bucket 34: 30%  bucket 33: 60%  bucket 35: 10%  bucket 34: 40%  bucket 33: 70%  bucket 34: 50%  bucket 35: 20%  bucket 34: 60%  bucket 33: 80%  bucket 35: 30%  bucket 34: 70%  bucket 33: 90%  bucket 35: 40%  bucket 34: 80%  bucket 33: 100%  Sorting block of length 387 for bucket 33  (Using difference cover)  bucket 35: 50%  bucket 34: 90%  bucket 35: 60%  bucket 34: 100%  Sorting block of length 275 for bucket 34  (Using difference cover)  bucket 35: 70%  bucket 35: 80%  Sorting block time: 00:00:00Returning block of 388 for bucket 33  bucket 35: 90%  bucket 35: 100%  Sorting block of length 350 for bucket 35  (Using difference cover)  Sorting block time: 00:00:00Returning block of 276 for bucket 34  Sorting block time: 00:00:00Returning block of 351 for bucket 35Getting block 36 of 57  Reserving size (388) for bucket 36  Calculating Z arrays for bucket 36  Entering block accumulator loop for bucket 36:Getting block 37 of 57  Reserving size (388) for bucket 37  Calculating Z arrays for bucket 37  bucket 36: 10%  Entering block accumulator loop for bucket 37:  bucket 36: 20%  bucket 37: 10%  bucket 36: 30%  bucket 37: 20%  bucket 36: 40%  bucket 37: 30%  bucket 36: 50%  bucket 37: 40%  bucket 36: 60%  bucket 37: 50%  bucket 36: 70%  bucket 37: 60%  bucket 36: 80%  bucket 37: 70%  bucket 36: 90%  bucket 37: 80%  bucket 36: 100%  bucket 37: 90%  Sorting block of length 150 for bucket 36  (Using difference cover)  bucket 37: 100%  Sorting block of length 267 for bucket 37  (Using difference cover)  Sorting block time: 00:00:00Returning block of 151 for bucket 36  Sorting block time: 00:00:00Returning block of 268 for bucket 37Getting block 38 of 57  Reserving size (388) for bucket 38  Calculating Z arrays for bucket 38  Entering block accumulator loop for bucket 38:  bucket 38: 10%Getting block 39 of 57  bucket 38: 20%  Reserving size (388) for bucket 39  Calculating Z arrays for bucket 39  Entering block accumulator loop for bucket 39:  bucket 38: 30%  bucket 38: 40%  bucket 39: 10%  bucket 38: 50%  bucket 39: 20%  bucket 38: 60%  bucket 38: 70%  bucket 39: 30%  bucket 38: 80%  bucket 39: 40%  bucket 38: 90%  bucket 39: 50%  bucket 38: 100%  Sorting block of length 337 for bucket 38  (Using difference cover)  bucket 39: 60%  bucket 39: 70%  bucket 39: 80%  Sorting block time: 00:00:00Returning block of 338 for bucket 38  bucket 39: 90%  bucket 39: 100%  Sorting block of length 387 for bucket 39  (Using difference cover)  Sorting block time: 00:00:00Returning block of 388 for bucket 39Getting block 40 of 57  Reserving size (388) for bucket 40  Calculating Z arrays for bucket 40  Entering block accumulator loop for bucket 40:  bucket 40: 10%Getting block 41 of 57  Reserving size (388) for bucket 41  Calculating Z arrays for bucket 41  Entering block accumulator loop for bucket 41:  bucket 40: 20%Getting block 42 of 57  bucket 40: 30%  bucket 41: 10%  Reserving size (388) for bucket 42  Calculating Z arrays for bucket 42  Entering block accumulator loop for bucket 42:  bucket 40: 40%  bucket 41: 20%  bucket 40: 50%  bucket 42: 10%  bucket 41: 30%  bucket 40: 60%  bucket 41: 40%  bucket 42: 20%  bucket 40: 70%  bucket 41: 50%  bucket 42: 30%  bucket 40: 80%  bucket 41: 60%  bucket 42: 40%  bucket 40: 90%  bucket 41: 70%  bucket 41: 80%  bucket 42: 50%  bucket 40: 100%  Sorting block of length 379 for bucket 40  (Using difference cover)  bucket 41: 90%  bucket 42: 60%  bucket 41: 100%  Sorting block of length 330 for bucket 41  (Using difference cover)  bucket 42: 70%  bucket 42: 80%  bucket 42: 90%  Sorting block time: 00:00:00Returning block of 380 for bucket 40  bucket 42: 100%  Sorting block of length 188 for bucket 42  (Using difference cover)  Sorting block time: 00:00:00Returning block of 331 for bucket 41  Sorting block time: 00:00:00Returning block of 189 for bucket 42Getting block 43 of 57  Reserving size (388) for bucket 43  Calculating Z arrays for bucket 43  Entering block accumulator loop for bucket 43:  bucket 43: 10%Getting block 44 of 57  Reserving size (388) for bucket 44  Calculating Z arrays for bucket 44  bucket 43: 20%  Entering block accumulator loop for bucket 44:  bucket 43: 30%  bucket 44: 10%  bucket 44: 20%  bucket 43: 40%  bucket 44: 30%  bucket 43: 50%  bucket 43: 60%  bucket 44: 40%  bucket 43: 70%  bucket 44: 50%  bucket 43: 80%  bucket 44: 60%  bucket 44: 70%  bucket 43: 90%  bucket 44: 80%  bucket 43: 100%  Sorting block of length 321 for bucket 43  (Using difference cover)  bucket 44: 90%  bucket 44: 100%  Sorting block of length 366 for bucket 44  (Using difference cover)  Sorting block time: 00:00:00Returning block of 367 for bucket 44  Sorting block time: 00:00:00Returning block of 322 for bucket 43Getting block 45 of 57  Reserving size (388) for bucket 45  Calculating Z arrays for bucket 45  Entering block accumulator loop for bucket 45:  bucket 45: 10%  bucket 45: 20%Getting block 46 of 57  bucket 45: 30%  Reserving size (388) for bucket 46  Calculating Z arrays for bucket 46  Entering block accumulator loop for bucket 46:  bucket 45: 40%  bucket 46: 10%  bucket 45: 50%  bucket 45: 60%  bucket 46: 20%  bucket 45: 70%  bucket 46: 30%  bucket 45: 80%  bucket 46: 40%  bucket 45: 90%  bucket 46: 50%  bucket 45: 100%  bucket 46: 60%  Sorting block of length 365 for bucket 45  (Using difference cover)  bucket 46: 70%  bucket 46: 80%  bucket 46: 90%  bucket 46: 100%  Sorting block of length 253 for bucket 46  (Using difference cover)  Sorting block time: 00:00:00Returning block of 366 for bucket 45  Sorting block time: 00:00:00Returning block of 254 for bucket 46Getting block 47 of 57  Reserving size (388) for bucket 47Getting block 48 of 57  Calculating Z arrays for bucket 47  Reserving size (388) for bucket 48  Calculating Z arrays for bucket 48  Entering block accumulator loop for bucket 47:  Entering block accumulator loop for bucket 48:  bucket 48: 10%  bucket 47: 10%  bucket 48: 20%  bucket 47: 20%  bucket 48: 30%  bucket 47: 30%  bucket 48: 40%  bucket 48: 50%  bucket 47: 40%  bucket 48: 60%  bucket 47: 50%  bucket 48: 70%  bucket 48: 80%  bucket 47: 60%  bucket 48: 90%  bucket 48: 100%  bucket 47: 70%  Sorting block of length 384 for bucket 48  (Using difference cover)  bucket 47: 80%  bucket 47: 90%  Sorting block time: 00:00:00Returning block of 385 for bucket 48  bucket 47: 100%  Sorting block of length 217 for bucket 47  (Using difference cover)  Sorting block time: 00:00:00Returning block of 218 for bucket 47Getting block 49 of 57  Reserving size (388) for bucket 49  Calculating Z arrays for bucket 49Getting block 50 of 57  Reserving size (388) for bucket 50  Calculating Z arrays for bucket 50  Entering block accumulator loop for bucket 49:Getting block 51 of 57  Entering block accumulator loop for bucket 50:  Reserving size (388) for bucket 51  Calculating Z arrays for bucket 51  Entering block accumulator loop for bucket 51:  bucket 50: 10%  bucket 49: 10%  bucket 51: 10%  bucket 50: 20%  bucket 49: 20%  bucket 51: 20%  bucket 50: 30%  bucket 49: 30%  bucket 51: 30%  bucket 50: 40%  bucket 51: 40%  bucket 50: 50%  bucket 49: 40%  bucket 50: 60%  bucket 51: 50%  bucket 49: 50%  bucket 50: 70%  bucket 51: 60%  bucket 49: 60%  bucket 50: 80%  bucket 51: 70%  bucket 49: 70%  bucket 50: 90%  bucket 51: 80%  bucket 50: 100%  Sorting block of length 275 for bucket 50  (Using difference cover)  bucket 49: 80%  bucket 51: 90%  bucket 49: 90%  bucket 51: 100%  Sorting block of length 350 for bucket 51  (Using difference cover)  bucket 49: 100%  Sorting block of length 112 for bucket 49  (Using difference cover)  Sorting block time: 00:00:00Returning block of 276 for bucket 50  Sorting block time: 00:00:00Returning block of 351 for bucket 51  Sorting block time: 00:00:00Returning block of 113 for bucket 49Getting block 52 of 57  Reserving size (388) for bucket 52  Calculating Z arrays for bucket 52  Entering block accumulator loop for bucket 52:  bucket 52: 10%Getting block 53 of 57  Reserving size (388) for bucket 53  Calculating Z arrays for bucket 53  Entering block accumulator loop for bucket 53:  bucket 52: 20%  bucket 52: 30%  bucket 53: 10%Getting block 54 of 57  Reserving size (388) for bucket 54  Calculating Z arrays for bucket 54  Entering block accumulator loop for bucket 54:  bucket 53: 20%  bucket 52: 40%  bucket 54: 10%  bucket 54: 20%  bucket 53: 30%  bucket 52: 50%  bucket 54: 30%  bucket 54: 40%  bucket 53: 40%  bucket 54: 50%  bucket 52: 60%  bucket 54: 60%  bucket 54: 70%  bucket 53: 50%  bucket 52: 70%  bucket 54: 80%  bucket 54: 90%  bucket 53: 60%  bucket 54: 100%  bucket 52: 80%  Sorting block of length 237 for bucket 54  (Using difference cover)  bucket 53: 70%  bucket 52: 90%  bucket 53: 80%  bucket 52: 100%  Sorting block time: 00:00:00  Sorting block of length 378 for bucket 52  (Using difference cover)Returning block of 238 for bucket 54  bucket 53: 90%  bucket 53: 100%  Sorting block of length 370 for bucket 53  (Using difference cover)  Sorting block time: 00:00:00Returning block of 379 for bucket 52  Sorting block time: 00:00:00Returning block of 371 for bucket 53Getting block 55 of 57  Reserving size (388) for bucket 55  Calculating Z arrays for bucket 55  Entering block accumulator loop for bucket 55:  bucket 55: 10%Getting block 56 of 57  bucket 55: 20%  Reserving size (388) for bucket 56  Calculating Z arrays for bucket 56  Entering block accumulator loop for bucket 56:  bucket 55: 30%  bucket 56: 10%  bucket 56: 20%  bucket 55: 40%  bucket 56: 30%  bucket 56: 40%  bucket 55: 50%  bucket 56: 50%  bucket 56: 60%  bucket 55: 60%  bucket 56: 70%  bucket 55: 70%  bucket 56: 80%  bucket 56: 90%  bucket 55: 80%  bucket 56: 100%  Sorting block of length 270 for bucket 56  (Using difference cover)  bucket 55: 90%  bucket 55: 100%  Sorting block of length 344 for bucket 55  (Using difference cover)  Sorting block time: 00:00:00Returning block of 271 for bucket 56  Sorting block time: 00:00:00Returning block of 345 for bucket 55Getting block 57 of 57  Reserving size (388) for bucket 57  Calculating Z arrays for bucket 57  Entering block accumulator loop for bucket 57:  bucket 57: 10%  bucket 57: 20%  bucket 57: 30%  bucket 57: 40%  bucket 57: 50%  bucket 57: 60%  bucket 57: 70%  bucket 57: 80%  bucket 57: 90%  bucket 57: 100%  Sorting block of length 132 for bucket 57  (Using difference cover)  Sorting block time: 00:00:00Returning block of 133 for bucket 57Exited Ebwt loopfchr[A]: 0fchr[C]: 5124fchr[G]: 10305fchr[T]: 12474fchr[$]: 16568Exiting Ebwt::buildToDisk()Returning from initFromVectorWrote 4200050 bytes to primary EBWT file: genome.rev.1.bt2.tmpWrote 4148 bytes to secondary EBWT file: genome.rev.2.bt2.tmpRe-opening _in1 and _in2 as input streamsReturning from Ebwt constructorHeaders:    len: 16568    bwtLen: 16569    sz: 4142    bwtSz: 4143    lineRate: 6    offRate: 4    offMask: 0xfffffff0    ftabChars: 10    eftabLen: 20    eftabSz: 80    ftabLen: 1048577    ftabSz: 4194308    offsLen: 1036    offsSz: 4144    lineSz: 64    sideSz: 64    sideBwtSz: 48    sideBwtLen: 192    numSides: 87    numLines: 87    ebwtTotLen: 5568    ebwtTotSz: 5568    color: 0    reverse: 1Total time for backward call to driver() for mirror index: 00:00:00
+            ]]></system-out>
+            <system-err><![CDATA[
+            Building a SMALL indexRenaming genome.3.bt2.tmp to genome.3.bt2Renaming genome.4.bt2.tmp to genome.4.bt2Renaming genome.1.bt2.tmp to genome.1.bt2Renaming genome.2.bt2.tmp to genome.2.bt2Renaming genome.rev.1.bt2.tmp to genome.rev.1.bt2Renaming genome.rev.2.bt2.tmp to genome.rev.2.bt2100 reads; of these:  100 (100.00%) were paired; of these:    97 (97.00%) aligned concordantly 0 times    3 (3.00%) aligned concordantly exactly 1 time    0 (0.00%) aligned concordantly >1 times    ----    97 pairs aligned concordantly 0 times; of these:      7 (7.22%) aligned discordantly 1 time    ----    90 pairs aligned 0 times concordantly or discordantly; of these:      180 mates make up the pairs; of these:        156 (86.67%) aligned 0 times        24 (13.33%) aligned exactly 1 time        0 (0.00%) aligned >1 times22.00% overall alignment rate
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="bowtie2 (Test #10)" name="9" time="30.676867246627808">
+        
+            
+            <system-out><![CDATA[
+            Settings:  Output files: "genome.*.bt2"  Line rate: 6 (line is 64 bytes)  Lines per side: 1 (side is 64 bytes)  Offset rate: 4 (one in 16)  FTable chars: 10  Strings: unpacked  Max bucket size: default  Max bucket size, sqrt multiplier: default  Max bucket size, len divisor: 32  Difference-cover sample period: 1024  Endianness: little  Actual local endianness: little  Sanity checking: disabled  Assertions: disabled  Random seed: 0  Sizeofs: void*:8, int:4, long:8, size_t:8Input files DNA, FASTA:  /galaxy/server/database/objects/8/1/c/dataset_81c9fef2-0331-42e0-b7e6-0a880024f65f.datReading reference sizes  Time reading reference sizes: 00:00:00Calculating joined lengthWriting headerReserving space for joined stringJoining reference sequences  Time to join reference sequences: 00:00:00bmax according to bmaxDivN setting: 517Using parameters --bmax 388 --dcv 1024  Doing ahead-of-time memory usage test  Passed!  Constructing with these parameters: --bmax 388 --dcv 1024Constructing suffix-array element generatorBuilding DifferenceCoverSample  Building sPrime  Building sPrimeOrder  V-Sorting samples  V-Sorting samples time: 00:00:00  Allocating rank array  Ranking v-sort output  Ranking v-sort output time: 00:00:00  Invoking Larsson-Sadakane on ranks  Invoking Larsson-Sadakane on ranks time: 00:00:00  Sanity-checking and returningBuilding samplesReserving space for 86 sample suffixesGenerating random suffixesQSorting 86 sample offsets, eliminating duplicatesQSorting sample offsets, eliminating duplicates time: 00:00:00Multikey QSorting 86 samples  (Using difference cover)  Multikey QSorting samples time: 00:00:00Calculating bucket sizesSplitting and merging  Splitting and merging time: 00:00:00Split 12, merged 41; iterating...Splitting and merging  Splitting and merging time: 00:00:00Split 6, merged 6; iterating...Splitting and merging  Splitting and merging time: 00:00:00Split 5, merged 3; iterating...Splitting and merging  Splitting and merging time: 00:00:00Split 3, merged 3; iterating...Splitting and merging  Splitting and merging time: 00:00:00Avg bucket size: 284.672 (target: 387)Converting suffix-array elements to index imageAllocating ftab, absorbFtabEntering Ebwt loopGetting block 1 of 58  Reserving size (388) for bucket 1Getting block 2 of 58Getting block 3 of 58Getting block 4 of 58Getting block 5 of 58Getting block 6 of 58  Calculating Z arrays for bucket 1  Reserving size (388) for bucket 2  Reserving size (388) for bucket 3Getting block 7 of 58  Reserving size (388) for bucket 4  Reserving size (388) for bucket 5  Reserving size (388) for bucket 6  Calculating Z arrays for bucket 2  Calculating Z arrays for bucket 3  Entering block accumulator loop for bucket 1:  Reserving size (388) for bucket 7  Calculating Z arrays for bucket 4  Calculating Z arrays for bucket 5  Calculating Z arrays for bucket 6  Entering block accumulator loop for bucket 2:  Calculating Z arrays for bucket 7  Entering block accumulator loop for bucket 3:  Entering block accumulator loop for bucket 5:  Entering block accumulator loop for bucket 6:  Entering block accumulator loop for bucket 4:  bucket 1: 10%  Entering block accumulator loop for bucket 7:  bucket 2: 10%  bucket 3: 10%  bucket 5: 10%  bucket 1: 20%  bucket 2: 20%  bucket 4: 10%  bucket 7: 10%  bucket 6: 10%  bucket 1: 30%  bucket 2: 30%  bucket 3: 20%  bucket 5: 20%  bucket 4: 20%  bucket 7: 20%  bucket 1: 40%  bucket 6: 20%  bucket 2: 40%  bucket 3: 30%  bucket 4: 30%  bucket 1: 50%  bucket 5: 30%  bucket 7: 30%  bucket 2: 50%  bucket 6: 30%  bucket 1: 60%  bucket 3: 40%  bucket 4: 40%  bucket 5: 40%  bucket 2: 60%  bucket 6: 40%  bucket 7: 40%  bucket 1: 70%  bucket 4: 50%  bucket 3: 50%  bucket 2: 70%  bucket 5: 50%  bucket 1: 80%  bucket 6: 50%  bucket 7: 50%  bucket 4: 60%  bucket 2: 80%  bucket 3: 60%  bucket 1: 90%  bucket 5: 60%  bucket 6: 60%  bucket 7: 60%  bucket 4: 70%  bucket 2: 90%  bucket 1: 100%  bucket 3: 70%  Sorting block of length 355 for bucket 1  (Using difference cover)  bucket 5: 70%  bucket 6: 70%  bucket 4: 80%  bucket 7: 70%  bucket 2: 100%  bucket 3: 80%  Sorting block of length 165 for bucket 2  (Using difference cover)  bucket 5: 80%  bucket 4: 90%  bucket 6: 80%  bucket 7: 80%  bucket 3: 90%  bucket 4: 100%  bucket 5: 90%  Sorting block of length 328 for bucket 4  bucket 6: 90%  (Using difference cover)  bucket 7: 90%  bucket 3: 100%  bucket 5: 100%  bucket 6: 100%  Sorting block of length 370 for bucket 3  Sorting block of length 203 for bucket 5  (Using difference cover)  (Using difference cover)  Sorting block of length 339 for bucket 6  (Using difference cover)  bucket 7: 100%  Sorting block of length 368 for bucket 7  (Using difference cover)  Sorting block time: 00:00:00Returning block of 329 for bucket 4  Sorting block time: 00:00:00Returning block of 356 for bucket 1  Sorting block time: 00:00:00Returning block of 369 for bucket 7  Sorting block time: 00:00:00Returning block of 166 for bucket 2  Sorting block time: 00:00:00Returning block of 340 for bucket 6  Sorting block time: 00:00:00Returning block of 371 for bucket 3  Sorting block time: 00:00:00Returning block of 204 for bucket 5Getting block 8 of 58  Reserving size (388) for bucket 8Getting block 9 of 58  Calculating Z arrays for bucket 8  Reserving size (388) for bucket 9  Calculating Z arrays for bucket 9  Entering block accumulator loop for bucket 8:  Entering block accumulator loop for bucket 9:  bucket 8: 10%  bucket 9: 10%  bucket 8: 20%Getting block 10 of 58  bucket 9: 20%  bucket 8: 30%  Reserving size (388) for bucket 10  Calculating Z arrays for bucket 10  Entering block accumulator loop for bucket 10:  bucket 9: 30%  bucket 8: 40%  bucket 10: 10%  bucket 9: 40%  bucket 10: 20%  bucket 8: 50%  bucket 9: 50%  bucket 10: 30%  bucket 8: 60%  bucket 9: 60%  bucket 10: 40%  bucket 10: 50%  bucket 8: 70%  bucket 9: 70%  bucket 10: 60%  bucket 8: 80%  bucket 9: 80%  bucket 10: 70%  bucket 8: 90%  bucket 10: 80%  bucket 9: 90%  bucket 10: 90%  bucket 8: 100%  bucket 9: 100%  bucket 10: 100%  Sorting block of length 171 for bucket 8  (Using difference cover)  Sorting block of length 339 for bucket 9  (Using difference cover)  Sorting block of length 357 for bucket 10  (Using difference cover)  Sorting block time: 00:00:01Returning block of 172 for bucket 8  Sorting block time: 00:00:01Returning block of 358 for bucket 10  Sorting block time: 00:00:01Returning block of 340 for bucket 9Getting block 11 of 58  Reserving size (388) for bucket 11  Calculating Z arrays for bucket 11  Entering block accumulator loop for bucket 11:  bucket 11: 10%  bucket 11: 20%  bucket 11: 30%  bucket 11: 40%Getting block 12 of 58Getting block 13 of 58  Reserving size (388) for bucket 12  bucket 11: 50%  Reserving size (388) for bucket 13  Calculating Z arrays for bucket 12  Calculating Z arrays for bucket 13  Entering block accumulator loop for bucket 13:  Entering block accumulator loop for bucket 12:  bucket 11: 60%  bucket 13: 10%  bucket 12: 10%  bucket 11: 70%  bucket 13: 20%  bucket 12: 20%  bucket 11: 80%  bucket 13: 30%  bucket 13: 40%  bucket 12: 30%  bucket 11: 90%  bucket 13: 50%  bucket 12: 40%  bucket 13: 60%  bucket 11: 100%  Sorting block of length 305 for bucket 11  (Using difference cover)  bucket 12: 50%  bucket 13: 70%  bucket 13: 80%  bucket 12: 60%  bucket 13: 90%  bucket 12: 70%  bucket 13: 100%  bucket 12: 80%  Sorting block of length 282 for bucket 13  (Using difference cover)  Sorting block time: 00:00:00Returning block of 306 for bucket 11  bucket 12: 90%  bucket 12: 100%  Sorting block of length 185 for bucket 12  (Using difference cover)  Sorting block time: 00:00:00Returning block of 283 for bucket 13  Sorting block time: 00:00:00Returning block of 186 for bucket 12Getting block 14 of 58  Reserving size (388) for bucket 14  Calculating Z arrays for bucket 14  Entering block accumulator loop for bucket 14:  bucket 14: 10%  bucket 14: 20%  bucket 14: 30%  bucket 14: 40%  bucket 14: 50%  bucket 14: 60%  bucket 14: 70%  bucket 14: 80%  bucket 14: 90%  bucket 14: 100%  Sorting block of length 339 for bucket 14  (Using difference cover)  Sorting block time: 00:00:00Returning block of 340 for bucket 14Getting block 15 of 58  Reserving size (388) for bucket 15  Calculating Z arrays for bucket 15  Entering block accumulator loop for bucket 15:  bucket 15: 10%  bucket 15: 20%  bucket 15: 30%  bucket 15: 40%Getting block 16 of 58  Reserving size (388) for bucket 16  Calculating Z arrays for bucket 16  bucket 15: 50%  Entering block accumulator loop for bucket 16:  bucket 16: 10%  bucket 15: 60%Getting block 17 of 58  Reserving size (388) for bucket 17  bucket 16: 20%  Calculating Z arrays for bucket 17  bucket 15: 70%  Entering block accumulator loop for bucket 17:  bucket 15: 80%  bucket 16: 30%  bucket 15: 90%  bucket 16: 40%  bucket 17: 10%  bucket 15: 100%  Sorting block of length 241 for bucket 15  (Using difference cover)  bucket 16: 50%  bucket 17: 20%  bucket 16: 60%  bucket 17: 30%  bucket 16: 70%  bucket 17: 40%  bucket 16: 80%  bucket 17: 50%  Sorting block time: 00:00:00Returning block of 242 for bucket 15  bucket 16: 90%  bucket 17: 60%  bucket 16: 100%  Sorting block of length 379 for bucket 16  (Using difference cover)  bucket 17: 70%  bucket 17: 80%  bucket 17: 90%  bucket 17: 100%  Sorting block of length 215 for bucket 17  (Using difference cover)  Sorting block time: 00:00:00Returning block of 380 for bucket 16  Sorting block time: 00:00:00Returning block of 216 for bucket 17Getting block 18 of 58  Reserving size (388) for bucket 18  Calculating Z arrays for bucket 18  Entering block accumulator loop for bucket 18:  bucket 18: 10%  bucket 18: 20%  bucket 18: 30%  bucket 18: 40%  bucket 18: 50%  bucket 18: 60%  bucket 18: 70%  bucket 18: 80%  bucket 18: 90%  bucket 18: 100%  Sorting block of length 378 for bucket 18  (Using difference cover)  Sorting block time: 00:00:00Returning block of 379 for bucket 18Getting block 19 of 58  Reserving size (388) for bucket 19Getting block 20 of 58  Calculating Z arrays for bucket 19  Reserving size (388) for bucket 20  Calculating Z arrays for bucket 20Getting block 21 of 58  Reserving size (388) for bucket 21  Calculating Z arrays for bucket 21  Entering block accumulator loop for bucket 19:  Entering block accumulator loop for bucket 20:  Entering block accumulator loop for bucket 21:  bucket 21: 10%  bucket 20: 10%  bucket 19: 10%  bucket 21: 20%  bucket 20: 20%  bucket 19: 20%  bucket 21: 30%  bucket 20: 30%  bucket 19: 30%  bucket 21: 40%  bucket 21: 50%  bucket 20: 40%  bucket 19: 40%  bucket 21: 60%  bucket 20: 50%  bucket 19: 50%  bucket 21: 70%  bucket 20: 60%  bucket 19: 60%  bucket 21: 80%  bucket 20: 70%  bucket 21: 90%  bucket 19: 70%  bucket 21: 100%  bucket 20: 80%  bucket 19: 80%  Sorting block of length 210 for bucket 21  (Using difference cover)  bucket 20: 90%  bucket 19: 90%  bucket 19: 100%  bucket 20: 100%  Sorting block of length 334 for bucket 19  (Using difference cover)  Sorting block of length 313 for bucket 20  (Using difference cover)  Sorting block time: 00:00:00Returning block of 314 for bucket 20  Sorting block time: 00:00:00Returning block of 335 for bucket 19  Sorting block time: 00:00:00Returning block of 211 for bucket 21Getting block 22 of 58Getting block 23 of 58  Reserving size (388) for bucket 22  Reserving size (388) for bucket 23  Calculating Z arrays for bucket 22  Calculating Z arrays for bucket 23  Entering block accumulator loop for bucket 23:Getting block 24 of 58  Entering block accumulator loop for bucket 22:  Reserving size (388) for bucket 24  bucket 23: 10%  Calculating Z arrays for bucket 24  Entering block accumulator loop for bucket 24:  bucket 23: 20%  bucket 24: 10%  bucket 22: 10%  bucket 23: 30%  bucket 24: 20%  bucket 22: 20%  bucket 24: 30%  bucket 23: 40%  bucket 22: 30%  bucket 24: 40%  bucket 23: 50%  bucket 22: 40%  bucket 24: 50%  bucket 24: 60%  bucket 23: 60%  bucket 22: 50%  bucket 24: 70%  bucket 23: 70%  bucket 22: 60%  bucket 24: 80%  bucket 23: 80%  bucket 22: 70%  bucket 24: 90%  bucket 24: 100%  Sorting block of length 351 for bucket 24  (Using difference cover)  bucket 23: 90%  bucket 22: 80%  bucket 23: 100%  bucket 22: 90%  Sorting block of length 238 for bucket 23  (Using difference cover)  bucket 22: 100%  Sorting block of length 386 for bucket 22  (Using difference cover)  Sorting block time: 00:00:00Returning block of 352 for bucket 24  Sorting block time: 00:00:00Returning block of 239 for bucket 23  Sorting block time: 00:00:00Returning block of 387 for bucket 22Getting block 25 of 58  Reserving size (388) for bucket 25  Calculating Z arrays for bucket 25  Entering block accumulator loop for bucket 25:  bucket 25: 10%  bucket 25: 20%  bucket 25: 30%Getting block 26 of 58  bucket 25: 40%  Reserving size (388) for bucket 26  Calculating Z arrays for bucket 26  Entering block accumulator loop for bucket 26:  bucket 25: 50%  bucket 26: 10%  bucket 25: 60%  bucket 26: 20%  bucket 25: 70%  bucket 26: 30%  bucket 25: 80%  bucket 26: 40%  bucket 25: 90%  bucket 26: 50%  bucket 25: 100%  Sorting block of length 105 for bucket 25  (Using difference cover)  bucket 26: 60%  bucket 26: 70%  bucket 26: 80%  Sorting block time: 00:00:00Returning block of 106 for bucket 25  bucket 26: 90%  bucket 26: 100%  Sorting block of length 354 for bucket 26  (Using difference cover)  Sorting block time: 00:00:00Returning block of 355 for bucket 26Getting block 27 of 58  Reserving size (388) for bucket 27  Calculating Z arrays for bucket 27  Entering block accumulator loop for bucket 27:  bucket 27: 10%Getting block 28 of 58  bucket 27: 20%  Reserving size (388) for bucket 28  Calculating Z arrays for bucket 28  bucket 27: 30%  Entering block accumulator loop for bucket 28:  bucket 27: 40%  bucket 28: 10%  bucket 27: 50%  bucket 28: 20%  bucket 27: 60%  bucket 28: 30%  bucket 27: 70%  bucket 27: 80%  bucket 28: 40%  bucket 27: 90%  bucket 28: 50%  bucket 27: 100%  Sorting block of length 334 for bucket 27  (Using difference cover)  bucket 28: 60%  bucket 28: 70%  bucket 28: 80%  Sorting block time: 00:00:00Returning block of 335 for bucket 27  bucket 28: 90%  bucket 28: 100%  Sorting block of length 253 for bucket 28  (Using difference cover)  Sorting block time: 00:00:00Returning block of 254 for bucket 28Getting block 29 of 58  Reserving size (388) for bucket 29Getting block 30 of 58  Calculating Z arrays for bucket 29  Reserving size (388) for bucket 30  Calculating Z arrays for bucket 30  Entering block accumulator loop for bucket 29:  Entering block accumulator loop for bucket 30:  bucket 29: 10%  bucket 30: 10%  bucket 29: 20%  bucket 30: 20%  bucket 29: 30%  bucket 29: 40%  bucket 30: 30%  bucket 29: 50%  bucket 30: 40%  bucket 29: 60%  bucket 30: 50%  bucket 29: 70%  bucket 29: 80%  bucket 30: 60%  bucket 29: 90%  bucket 30: 70%  bucket 29: 100%  bucket 30: 80%  Sorting block of length 289 for bucket 29  (Using difference cover)  bucket 30: 90%  bucket 30: 100%  Sorting block of length 345 for bucket 30  (Using difference cover)  Sorting block time: 00:00:00Returning block of 290 for bucket 29  Sorting block time: 00:00:00Returning block of 346 for bucket 30Getting block 31 of 58  Reserving size (388) for bucket 31  Calculating Z arrays for bucket 31  Entering block accumulator loop for bucket 31:Getting block 32 of 58  Reserving size (388) for bucket 32  Calculating Z arrays for bucket 32  Entering block accumulator loop for bucket 32:  bucket 31: 10%  bucket 32: 10%  bucket 32: 20%  bucket 31: 20%  bucket 32: 30%  bucket 32: 40%  bucket 31: 30%  bucket 32: 50%  bucket 31: 40%  bucket 32: 60%  bucket 31: 50%  bucket 32: 70%  bucket 32: 80%  bucket 31: 60%  bucket 32: 90%  bucket 32: 100%  bu..ucket 23: 100%  Sorting block of length 349 for bucket 23  (Using difference cover)  bucket 24: 70%  bucket 24: 80%  bucket 24: 90%  Sorting block time: 00:00:00Returning block of 344 for bucket 21  bucket 24: 100%  Sorting block of length 245 for bucket 24  (Using difference cover)  Sorting block time: 00:00:00Returning block of 372 for bucket 22  Sorting block time: 00:00:00Returning block of 350 for bucket 23  Sorting block time: 00:00:00Returning block of 246 for bucket 24Getting block 25 of 57  Reserving size (388) for bucket 25  Calculating Z arrays for bucket 25  Entering block accumulator loop for bucket 25:Getting block 26 of 57  bucket 25: 10%  Reserving size (388) for bucket 26  Calculating Z arrays for bucket 26  Entering block accumulator loop for bucket 26:  bucket 25: 20%  bucket 26: 10%  bucket 25: 30%  bucket 26: 20%  bucket 25: 40%  bucket 26: 30%  bucket 25: 50%  bucket 25: 60%  bucket 26: 40%  bucket 25: 70%  bucket 26: 50%  bucket 26: 60%  bucket 26: 70%  bucket 25: 80%  bucket 26: 80%  bucket 25: 90%  bucket 26: 90%  bucket 25: 100%  Sorting block of length 286 for bucket 25  (Using difference cover)  bucket 26: 100%  Sorting block of length 384 for bucket 26  (Using difference cover)  Sorting block time: 00:00:00Returning block of 287 for bucket 25  Sorting block time: 00:00:00Returning block of 385 for bucket 26Getting block 27 of 57  Reserving size (388) for bucket 27  Calculating Z arrays for bucket 27  Entering block accumulator loop for bucket 27:  bucket 27: 10%  bucket 27: 20%  bucket 27: 30%Getting block 28 of 57  Reserving size (388) for bucket 28  Calculating Z arrays for bucket 28  bucket 27: 40%  Entering block accumulator loop for bucket 28:  bucket 27: 50%  bucket 28: 10%  bucket 27: 60%  bucket 28: 20%  bucket 27: 70%  bucket 28: 30%  bucket 27: 80%  bucket 28: 40%  bucket 27: 90%  bucket 28: 50%  bucket 27: 100%  Sorting block of length 359 for bucket 27  (Using difference cover)  bucket 28: 60%  bucket 28: 70%  bucket 28: 80%  bucket 28: 90%  bucket 28: 100%  Sorting block of length 387 for bucket 28  (Using difference cover)  Sorting block time: 00:00:00Returning block of 360 for bucket 27  Sorting block time: 00:00:00Returning block of 388 for bucket 28Getting block 29 of 57  Reserving size (388) for bucket 29  Calculating Z arrays for bucket 29  Entering block accumulator loop for bucket 29:  bucket 29: 10%Getting block 30 of 57  bucket 29: 20%  Reserving size (388) for bucket 30  Calculating Z arrays for bucket 30  Entering block accumulator loop for bucket 30:  bucket 29: 30%Getting block 31 of 57  bucket 29: 40%  bucket 30: 10%  Reserving size (388) for bucket 31  Calculating Z arrays for bucket 31  Entering block accumulator loop for bucket 31:  bucket 29: 50%  bucket 30: 20%  bucket 29: 60%  bucket 31: 10%  bucket 30: 30%  bucket 29: 70%  bucket 31: 20%  bucket 29: 80%  bucket 30: 40%  bucket 31: 30%  bucket 29: 90%  bucket 30: 50%  bucket 31: 40%  bucket 29: 100%  Sorting block of length 195 for bucket 29  (Using difference cover)  bucket 30: 60%  bucket 31: 50%  bucket 30: 70%  bucket 30: 80%  bucket 31: 60%  bucket 30: 90%  bucket 31: 70%  bucket 30: 100%  Sorting block of length 257 for bucket 30  (Using difference cover)  Sorting block time: 00:00:00Returning block of 196 for bucket 29  bucket 31: 80%  bucket 31: 90%  bucket 31: 100%  Sorting block of length 310 for bucket 31  (Using difference cover)  Sorting block time: 00:00:00Returning block of 258 for bucket 30  Sorting block time: 00:00:00Returning block of 311 for bucket 31Getting block 32 of 57  Reserving size (388) for bucket 32  Calculating Z arrays for bucket 32  Entering block accumulator loop for bucket 32:  bucket 32: 10%  bucket 32: 20%  bucket 32: 30%Getting block 33 of 57  bucket 32: 40%  Reserving size (388) for bucket 33  Calculating Z arrays for bucket 33  Entering block accumulator loop for bucket 33:  bucket 32: 50%  bucket 33: 10%  bucket 32: 60%  bucket 33: 20%  bucket 32: 70%  bucket 33: 30%  bucket 32: 80%  bucket 33: 40%  bucket 32: 90%  bucket 33: 50%  bucket 32: 100%  Sorting block of length 219 for bucket 32  (Using difference cover)  bucket 33: 60%  bucket 33: 70%  bucket 33: 80%  Sorting block time: 00:00:00Returning block of 220 for bucket 32  bucket 33: 90%  bucket 33: 100%  Sorting block of length 387 for bucket 33  (Using difference cover)  Sorting block time: 00:00:00Returning block of 388 for bucket 33Getting block 34 of 57  Reserving size (388) for bucket 34  Calculating Z arrays for bucket 34  Entering block accumulator loop for bucket 34:  bucket 34: 10%  bucket 34: 20%  bucket 34: 30%Getting block 35 of 57  Reserving size (388) for bucket 35  Calculating Z arrays for bucket 35  bucket 34: 40%  Entering block accumulator loop for bucket 35:  bucket 34: 50%  bucket 34: 60%  bucket 35: 10%  bucket 34: 70%  bucket 35: 20%  bucket 34: 80%  bucket 35: 30%  bucket 34: 90%  bucket 35: 40%  bucket 34: 100%  Sorting block of length 275 for bucket 34  (Using difference cover)  bucket 35: 50%  bucket 35: 60%  bucket 35: 70%  bucket 35: 80%  Sorting block time: 00:00:00Returning block of 276 for bucket 34  bucket 35: 90%  bucket 35: 100%  Sorting block of length 350 for bucket 35  (Using difference cover)  Sorting block time: 00:00:00Returning block of 351 for bucket 35Getting block 36 of 57  Reserving size (388) for bucket 36  Calculating Z arrays for bucket 36  Entering block accumulator loop for bucket 36:  bucket 36: 10%  bucket 36: 20%  bucket 36: 30%  bucket 36: 40%  bucket 36: 50%  bucket 36: 60%  bucket 36: 70%  bucket 36: 80%  bucket 36: 90%  bucket 36: 100%  Sorting block of length 150 for bucket 36  (Using difference cover)  Sorting block time: 00:00:00Returning block of 151 for bucket 36Getting block 37 of 57  Reserving size (388) for bucket 37Getting block 38 of 57Getting block 39 of 57  Calculating Z arrays for bucket 37  Reserving size (388) for bucket 38  Reserving size (388) for bucket 39  Calculating Z arrays for bucket 38  Calculating Z arrays for bucket 39  Entering block accumulator loop for bucket 37:  Entering block accumulator loop for bucket 38:  Entering block accumulator loop for bucket 39:  bucket 39: 10%  bucket 38: 10%  bucket 37: 10%  bucket 39: 20%  bucket 38: 20%  bucket 39: 30%  bucket 37: 20%  bucket 38: 30%  bucket 39: 40%  bucket 37: 30%  bucket 39: 50%  bucket 38: 40%  bucket 39: 60%  bucket 38: 50%  bucket 37: 40%  bucket 39: 70%  bucket 38: 60%  bucket 37: 50%  bucket 39: 80%  bucket 38: 70%  bucket 37: 60%  bucket 39: 90%  bucket 38: 80%  bucket 37: 70%  bucket 39: 100%  bucket 37: 80%  Sorting block of length 387 for bucket 39  (Using difference cover)  bucket 38: 90%  bucket 37: 90%  bucket 38: 100%  Sorting block of length 337 for bucket 38  (Using difference cover)  bucket 37: 100%  Sorting block of length 267 for bucket 37  (Using difference cover)  Sorting block time: 00:00:00Returning block of 338 for bucket 38  Sorting block time: 00:00:00Returning block of 268 for bucket 37  Sorting block time: 00:00:00Returning block of 388 for bucket 39Getting block 40 of 57  Reserving size (388) for bucket 40  Calculating Z arrays for bucket 40  Entering block accumulator loop for bucket 40:  bucket 40: 10%  bucket 40: 20%  bucket 40: 30%  bucket 40: 40%  bucket 40: 50%  bucket 40: 60%  bucket 40: 70%  bucket 40: 80%  bucket 40: 90%  bucket 40: 100%  Sorting block of length 379 for bucket 40  (Using difference cover)  Sorting block time: 00:00:00Returning block of 380 for bucket 40Getting block 41 of 57  Reserving size (388) for bucket 41  Calculating Z arrays for bucket 41  Entering block accumulator loop for bucket 41:  bucket 41: 10%Getting block 42 of 57  Reserving size (388) for bucket 42  Calculating Z arrays for bucket 42Getting block 43 of 57  bucket 41: 20%  Entering block accumulator loop for bucket 42:  Reserving size (388) for bucket 43  Calculating Z arrays for bucket 43  Entering block accumulator loop for bucket 43:  bucket 42: 10%  bucket 41: 30%  bucket 42: 20%  bucket 42: 30%  bucket 41: 40%  bucket 43: 10%  bucket 42: 40%  bucket 41: 50%  bucket 43: 20%  bucket 42: 50%  bucket 41: 60%  bucket 42: 60%  bucket 43: 30%  bucket 41: 70%  bucket 42: 70%  bucket 43: 40%  bucket 42: 80%  bucket 41: 80%  bucket 42: 90%  bucket 43: 50%  bucket 41: 90%  bucket 42: 100%  Sorting block of length 188 for bucket 42  (Using difference cover)  bucket 43: 60%  bucket 41: 100%  Sorting block of length 330 for bucket 41  (Using difference cover)  bucket 43: 70%  bucket 43: 80%  Sorting block time: 00:00:00Returning block of 189 for bucket 42  bucket 43: 90%  bucket 43: 100%  Sorting block of length 321 for bucket 43  (Using difference cover)  Sorting block time: 00:00:00Returning block of 331 for bucket 41  Sorting block time: 00:00:00Returning block of 322 for bucket 43Getting block 44 of 57  Reserving size (388) for bucket 44  Calculating Z arrays for bucket 44  Entering block accumulator loop for bucket 44:Getting block 45 of 57  Reserving size (388) for bucket 45  Calculating Z arrays for bucket 45  bucket 44: 10%  Entering block accumulator loop for bucket 45:Getting block 46 of 57  bucket 44: 20%  Reserving size (388) for bucket 46  bucket 45: 10%  Calculating Z arrays for bucket 46  Entering block accumulator loop for bucket 46:  bucket 44: 30%  bucket 45: 20%  bucket 44: 40%  bucket 45: 30%  bucket 46: 10%  bucket 44: 50%  bucket 45: 40%  bucket 46: 20%  bucket 44: 60%  bucket 45: 50%  bucket 46: 30%  bucket 44: 70%  bucket 46: 40%  bucket 45: 60%  bucket 44: 80%  bucket 46: 50%  bucket 45: 70%  bucket 44: 90%  bucket 46: 60%  bucket 45: 80%  bucket 44: 100%  bucket 45: 90%  bucket 46: 70%  Sorting block of length 366 for bucket 44  (Using difference cover)  bucket 45: 100%  Sorting block of length 365 for bucket 45  (Using difference cover)  bucket 46: 80%  bucket 46: 90%  bucket 46: 100%  Sorting block of length 253 for bucket 46  (Using difference cover)  Sorting block time: 00:00:00Returning block of 366 for bucket 45  Sorting block time: 00:00:00Returning block of 367 for bucket 44  Sorting block time: 00:00:00Returning block of 254 for bucket 46Getting block 47 of 57  Reserving size (388) for bucket 47  Calculating Z arrays for bucket 47  Entering block accumulator loop for bucket 47:  bucket 47: 10%  bucket 47: 20%  bucket 47: 30%  bucket 47: 40%  bucket 47: 50%  bucket 47: 60%  bucket 47: 70%  bucket 47: 80%  bucket 47: 90%  bucket 47: 100%  Sorting block of length 217 for bucket 47  (Using difference cover)  Sorting block time: 00:00:00Returning block of 218 for bucket 47Getting block 48 of 57  Reserving size (388) for bucket 48Getting block 49 of 57  Calculating Z arrays for bucket 48  Reserving size (388) for bucket 49  Calculating Z arrays for bucket 49  Entering block accumulator loop for bucket 48:  Entering block accumulator loop for bucket 49:  bucket 48: 10%  bucket 49: 10%  bucket 48: 20%  bucket 49: 20%  bucket 48: 30%  bucket 48: 40%  bucket 49: 30%  bucket 48: 50%  bucket 49: 40%  bucket 48: 60%  bucket 49: 50%  bucket 48: 70%  bucket 49: 60%  bucket 48: 80%  bucket 49: 70%  bucket 48: 90%  bucket 49: 80%  bucket 48: 100%  Sorting block of length 384 for bucket 48  (Using difference cover)  bucket 49: 90%  bucket 49: 100%  Sorting block of length 112 for bucket 49  (Using difference cover)  Sorting block time: 00:00:00Returning block of 385 for bucket 48  Sorting block time: 00:00:00Returning block of 113 for bucket 49Getting block 50 of 57  Reserving size (388) for bucket 50  Calculating Z arrays for bucket 50Getting block 51 of 57  Entering block accumulator loop for bucket 50:  Reserving size (388) for bucket 51  Calculating Z arrays for bucket 51  Entering block accumulator loop for bucket 51:  bucket 50: 10%  bucket 51: 10%  bucket 51: 20%  bucket 50: 20%  bucket 51: 30%  bucket 50: 30%  bucket 51: 40%  bucket 50: 40%  bucket 51: 50%  bucket 50: 50%  bucket 50: 60%  bucket 51: 60%  bucket 50: 70%  bucket 51: 70%  bucket 50: 80%  bucket 51: 80%  bucket 50: 90%  bucket 51: 90%  bucket 50: 100%  bucket 51: 100%  Sorting block of length 275 for bucket 50  (Using difference cover)  Sorting block of length 350 for bucket 51  (Using difference cover)  Sorting block time: 00:00:00Returning block of 276 for bucket 50  Sorting block time: 00:00:00Returning block of 351 for bucket 51Getting block 52 of 57  Reserving size (388) for bucket 52Getting block 53 of 57  Calculating Z arrays for bucket 52  Reserving size (388) for bucket 53  Calculating Z arrays for bucket 53  Entering block accumulator loop for bucket 52:  Entering block accumulator loop for bucket 53:  bucket 53: 10%  bucket 52: 10%  bucket 53: 20%  bucket 52: 20%  bucket 53: 30%  bucket 53: 40%  bucket 52: 30%  bucket 53: 50%  bucket 52: 40%  bucket 53: 60%  bucket 53: 70%  bucket 52: 50%  bucket 53: 80%  bucket 53: 90%  bucket 52: 60%  bucket 53: 100%  Sorting block of length 370 for bucket 53  (Using difference cover)  bucket 52: 70%  bucket 52: 80%  bucket 52: 90%  bucket 52: 100%  Sorting block of length 378 for bucket 52  (Using difference cover)  Sorting block time: 00:00:00Returning block of 371 for bucket 53  Sorting block time: 00:00:00Returning block of 379 for bucket 52Getting block 54 of 57  Reserving size (388) for bucket 54  Calculating Z arrays for bucket 54  Entering block accumulator loop for bucket 54:  bucket 54: 10%  bucket 54: 20%  bucket 54: 30%  bucket 54: 40%  bucket 54: 50%  bucket 54: 60%  bucket 54: 70%  bucket 54: 80%  bucket 54: 90%  bucket 54: 100%  Sorting block of length 237 for bucket 54  (Using difference cover)  Sorting block time: 00:00:00Returning block of 238 for bucket 54Getting block 55 of 57  Reserving size (388) for bucket 55Getting block 56 of 57  Calculating Z arrays for bucket 55  Reserving size (388) for bucket 56  Calculating Z arrays for bucket 56  Entering block accumulator loop for bucket 55:  Entering block accumulator loop for bucket 56:  bucket 55: 10%  bucket 56: 10%  bucket 55: 20%  bucket 56: 20%  bucket 55: 30%  bucket 56: 30%  bucket 55: 40%  bucket 55: 50%  bucket 56: 40%  bucket 55: 60%  bucket 56: 50%  bucket 56: 60%  bucket 55: 70%  bucket 55: 80%  bucket 55: 90%  bucket 56: 70%  bucket 55: 100%  bucket 56: 80%  Sorting block of length 344 for bucket 55  (Using difference cover)  bucket 56: 90%  bucket 56: 100%  Sorting block of length 270 for bucket 56  (Using difference cover)  Sorting block time: 00:00:00Returning block of 345 for bucket 55  Sorting block time: 00:00:00Returning block of 271 for bucket 56Getting block 57 of 57  Reserving size (388) for bucket 57  Calculating Z arrays for bucket 57  Entering block accumulator loop for bucket 57:  bucket 57: 10%  bucket 57: 20%  bucket 57: 30%  bucket 57: 40%  bucket 57: 50%  bucket 57: 60%  bucket 57: 70%  bucket 57: 80%  bucket 57: 90%  bucket 57: 100%  Sorting block of length 132 for bucket 57  (Using difference cover)  Sorting block time: 00:00:00Returning block of 133 for bucket 57Exited Ebwt loopfchr[A]: 0fchr[C]: 5124fchr[G]: 10305fchr[T]: 12474fchr[$]: 16568Exiting Ebwt::buildToDisk()Returning from initFromVectorWrote 4200050 bytes to primary EBWT file: genome.rev.1.bt2.tmpWrote 4148 bytes to secondary EBWT file: genome.rev.2.bt2.tmpRe-opening _in1 and _in2 as input streamsReturning from Ebwt constructorHeaders:    len: 16568    bwtLen: 16569    sz: 4142    bwtSz: 4143    lineRate: 6    offRate: 4    offMask: 0xfffffff0    ftabChars: 10    eftabLen: 20    eftabSz: 80    ftabLen: 1048577    ftabSz: 4194308    offsLen: 1036    offsSz: 4144    lineSz: 64    sideSz: 64    sideBwtSz: 48    sideBwtLen: 192    numSides: 87    numLines: 87    ebwtTotLen: 5568    ebwtTotSz: 5568    color: 0    reverse: 1Total time for backward call to driver() for mirror index: 00:00:00
+            ]]></system-out>
+            <system-err><![CDATA[
+            Building a SMALL indexRenaming genome.3.bt2.tmp to genome.3.bt2Renaming genome.4.bt2.tmp to genome.4.bt2Renaming genome.1.bt2.tmp to genome.1.bt2Renaming genome.2.bt2.tmp to genome.2.bt2Renaming genome.rev.1.bt2.tmp to genome.rev.1.bt2Renaming genome.rev.2.bt2.tmp to genome.rev.2.bt2100 reads; of these:  100 (100.00%) were paired; of these:    97 (97.00%) aligned concordantly 0 times    3 (3.00%) aligned concordantly exactly 1 time    0 (0.00%) aligned concordantly >1 times    ----    97 pairs aligned concordantly 0 times; of these:      7 (7.22%) aligned discordantly 1 time    ----    90 pairs aligned 0 times concordantly or discordantly; of these:      180 mates make up the pairs; of these:        156 (86.67%) aligned 0 times        24 (13.33%) aligned exactly 1 time        0 (0.00%) aligned >1 times22.00% overall alignment rate
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #1)" name="0" time="32.6347279548645">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq cutadapt_small_fastq.fqProcessing single-end reads on 5 cores ...Finished in 0.044 s (14710.029 µs/read; 0.00 M reads/minute).=== Summary ===Total reads processed:                       3Reads with adapters:                         0 (0.0%)== Read fate breakdown ==Reads that were too short:                   0 (0.0%)Reads written (passing filters):             3 (100.0%)Total basepairs processed:           102 bpTotal written (filtered):            102 bp (100.0%)=== Adapter 1 ===Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 0 times
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #2)" name="1" time="26.43556046485901">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq.gz bwa-mem-fastq1_fq_gz.fq.gzProcessing single-end reads on 5 cores ...Finished in 0.100 s (1011.721 µs/read; 0.06 M reads/minute).=== Summary ===Total reads processed:                      99Reads with adapters:                         2 (2.0%)== Read fate breakdown ==Reads that were too short:                   0 (0.0%)Reads written (passing filters):            99 (100.0%)Total basepairs processed:        24,849 bpTotal written (filtered):         24,843 bp (100.0%)=== Adapter 1 ===Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10-13 bp: 1Bases preceding removed adapters:  A: 0.0%  C: 50.0%  G: 50.0%  T: 0.0%  none/other: 0.0%Overview of removed sequenceslengthcountexpectmax.errerror counts321.502
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #11)" name="10" time="26.745895862579346">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -g A1=^GTCGGTAA -g A2=^AGGTCACT --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o split/{name}.fastq cutadapt_in_split_fastq.fqProcessing single-end reads on 5 cores ...Finished in 0.071 s (6430.734 µs/read; 0.01 M reads/minute).=== Summary ===Total reads processed:                      11Reads with adapters:                        10 (90.9%)== Read fate breakdown ==Reads that were too short:                   0 (0.0%)Reads discarded as untrimmed:                0 (0.0%)Reads written (passing filters):            11 (100.0%)Total basepairs processed:         1,210 bpTotal written (filtered):          1,130 bp (93.4%)=== Adapter A1 ===Sequence: GTCGGTAA; Type: anchored 5'; Length: 8; Trimmed: 5 timesNo. of allowed errors: 0Overview of removed sequenceslengthcountexpectmax.errerror counts850.005=== Adapter A2 ===Sequence: AGGTCACT; Type: anchored 5'; Length: 8; Trimmed: 5 timesNo. of allowed errors: 0Overview of removed sequenceslengthcountexpectmax.errerror counts850.005
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #12)" name="11" time="29.550785303115845">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -g file:/galaxy/server/database/objects/3/8/0/dataset_380b14ee-18a8-4e2c-add3-5acff7dac874.dat --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o split/{name}.fastq.gz cutadapt_in_split_fastq_gz.fq.gzProcessing single-end reads on 5 cores ...Finished in 0.235 s (21344.922 µs/read; 0.00 M reads/minute).=== Summary ===Total reads processed:                      11Reads with adapters:                        10 (90.9%)== Read fate breakdown ==Reads that were too short:                   0 (0.0%)Reads discarded as untrimmed:                0 (0.0%)Reads written (passing filters):            11 (100.0%)Total basepairs processed:         1,210 bpTotal written (filtered):          1,130 bp (93.4%)=== Adapter A2 ===Sequence: AGGTCACT; Type: anchored 5'; Length: 8; Trimmed: 5 timesNo. of allowed errors: 0Overview of removed sequenceslengthcountexpectmax.errerror counts850.005=== Adapter A1 ===Sequence: GTCGGTAA; Type: anchored 5'; Length: 8; Trimmed: 5 timesNo. of allowed errors: 0Overview of removed sequenceslengthcountexpectmax.errerror counts850.005
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #13)" name="12" time="27.548827171325684">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a AAAT --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 --untrimmed-output=untrimmed_output.fq -o out1.fq cutadapt_small_fastq.fqProcessing single-end reads on 5 cores ...Finished in 0.051 s (16953.548 µs/read; 0.00 M reads/minute).=== Summary ===Total reads processed:                       3Reads with adapters:                         1 (33.3%)== Read fate breakdown ==Reads that were too short:                   0 (0.0%)Reads written (passing filters):             1 (33.3%)Total basepairs processed:           102 bpTotal written (filtered):             30 bp (29.4%)=== Adapter 1 ===Sequence: AAAT; Type: regular 3'; Length: 4; Trimmed: 1 timesMinimum overlap: 3No. of allowed errors:1-4 bp: 0Bases preceding removed adapters:  A: 0.0%  C: 100.0%  G: 0.0%  T: 0.0%  none/other: 0.0%Overview of removed sequenceslengthcountexpectmax.errerror counts410.001
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #14)" name="13" time="27.20011043548584">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 --untrimmed-output=untrimmed_output.fq.gz -o out1.fq.gz bwa-mem-fastq1_fq_gz.fq.gzProcessing single-end reads on 5 cores ...Finished in 0.161 s (1626.253 µs/read; 0.04 M reads/minute).=== Summary ===Total reads processed:                      99Reads with adapters:                         2 (2.0%)== Read fate breakdown ==Reads that were too short:                   0 (0.0%)Reads written (passing filters):             2 (2.0%)Total basepairs processed:        24,849 bpTotal written (filtered):            496 bp (2.0%)=== Adapter 1 ===Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10-13 bp: 1Bases preceding removed adapters:  A: 0.0%  C: 50.0%  G: 50.0%  T: 0.0%  none/other: 0.0%Overview of removed sequenceslengthcountexpectmax.errerror counts321.502
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #15)" name="14" time="27.589776039123535">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --discard-untrimmed --minimum-length=1 --maximum-length=1000 --max-n=0.0 --pair-filter=both -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_fq_gz.fq.gz bwa-mem-fastq2_fq_gz.fq.gzProcessing paired-end reads on 5 cores ...Finished in 0.167 s (1684.940 µs/read; 0.04 M reads/minute).=== Summary ===Total read pairs processed:                 99  Read 1 with adapter:                       2 (2.0%)== Read fate breakdown ==Pairs that were too short:                   0 (0.0%)Pairs that were too long:                    0 (0.0%)Pairs with too many N:                       0 (0.0%)Pairs written (passing filters):             2 (2.0%)Total basepairs processed:        49,698 bp  Read 1:        24,849 bp  Read 2:        24,849 bpTotal written (filtered):            998 bp (2.0%)  Read 1:           496 bp  Read 2:           502 bp=== First read: Adapter 1 ===Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10-13 bp: 1Bases preceding removed adapters:  A: 0.0%  C: 50.0%  G: 50.0%  T: 0.0%  none/other: 0.0%Overview of removed sequenceslengthcountexpectmax.errerror counts321.502
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #16)" name="15" time="27.91488480567932">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --cut=5 --minimum-length=1 -o out1.fq cutadapt_small_fastq.fqProcessing single-end reads on 5 cores ...Finished in 0.051 s (17052.094 µs/read; 0.00 M reads/minute).=== Summary ===Total reads processed:                       3Reads with adapters:                         0 (0.0%)== Read fate breakdown ==Reads that were too short:                   0 (0.0%)Reads written (passing filters):             3 (100.0%)Total basepairs processed:           102 bpTotal written (filtered):             87 bp (85.3%)=== Adapter 1 ===Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 0 times
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #17)" name="16" time="25.402655601501465">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --cut=5 --minimum-length=1 --rename={id} barcode={cut_prefix} -o out1.fq cutadapt_small_fastq.fqProcessing single-end reads on 5 cores ...Finished in 0.047 s (15596.310 µs/read; 0.00 M reads/minute).=== Summary ===Total reads processed:                       3Reads with adapters:                         0 (0.0%)== Read fate breakdown ==Reads that were too short:                   0 (0.0%)Reads written (passing filters):             3 (100.0%)Total basepairs processed:           102 bpTotal written (filtered):             87 bp (85.3%)=== Adapter 1 ===Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 0 times
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #18)" name="17" time="27.089433670043945">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a CGTCCGAANTAG --error-rate=0.1 --times=1 --overlap=3 --action=retain --minimum-length=1 -o out1.fq cutadapt_small_fastq.fqProcessing single-end reads on 5 cores ...Finished in 0.043 s (14316.559 µs/read; 0.00 M reads/minute).=== Summary ===Total reads processed:                       3Reads with adapters:                         1 (33.3%)== Read fate breakdown ==Reads that were too short:                   0 (0.0%)Reads written (passing filters):             3 (100.0%)Total basepairs processed:           102 bpTotal written (filtered):             80 bp (78.4%)=== Adapter 1 ===Sequence: CGTCCGAANTAG; Type: regular 3'; Length: 12; Trimmed: 1 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10-11 bp: 1Bases preceding removed adapters:  A: 0.0%  C: 0.0%  G: 0.0%  T: 0.0%  none/other: 100.0%Overview of removed sequenceslengthcountexpectmax.errerror counts3410.011
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #19)" name="18" time="26.0403311252594">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a CGTCCGAANTAG --error-rate=0.1 --times=1 --overlap=3 --action=mask --minimum-length=1 -o out1.fq cutadapt_small_fastq.fqProcessing single-end reads on 5 cores ...Finished in 0.044 s (14817.635 µs/read; 0.00 M reads/minute).=== Summary ===Total reads processed:                       3Reads with adapters:                         1 (33.3%)== Read fate breakdown ==Reads that were too short:                   0 (0.0%)Reads written (passing filters):             3 (100.0%)Total basepairs processed:           102 bpTotal written (filtered):            102 bp (100.0%)=== Adapter 1 ===Sequence: CGTCCGAANTAG; Type: regular 3'; Length: 12; Trimmed: 1 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10-11 bp: 1Bases preceding removed adapters:  A: 0.0%  C: 0.0%  G: 0.0%  T: 0.0%  none/other: 100.0%Overview of removed sequenceslengthcountexpectmax.errerror counts3410.011
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #20)" name="19" time="27.74819850921631">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a CGTCCGAANTAG --error-rate=0.1 --times=1 --overlap=3 --action=lowercase --minimum-length=1 -o out1.fq cutadapt_small_fastq.fqProcessing single-end reads on 5 cores ...Finished in 0.046 s (15481.631 µs/read; 0.00 M reads/minute).=== Summary ===Total reads processed:                       3Reads with adapters:                         1 (33.3%)== Read fate breakdown ==Reads that were too short:                   0 (0.0%)Reads written (passing filters):             3 (100.0%)Total basepairs processed:           102 bpTotal written (filtered):            102 bp (100.0%)=== Adapter 1 ===Sequence: CGTCCGAANTAG; Type: regular 3'; Length: 12; Trimmed: 1 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10-11 bp: 1Bases preceding removed adapters:  A: 0.0%  C: 0.0%  G: 0.0%  T: 0.0%  none/other: 100.0%Overview of removed sequenceslengthcountexpectmax.errerror counts3410.011
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #3)" name="2" time="26.85987114906311">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a AGATCGGAAGAGC -A AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_fq_gz.fq.gz bwa-mem-fastq2_fq_gz.fq.gzProcessing paired-end reads on 5 cores ...Finished in 0.170 s (1718.410 µs/read; 0.03 M reads/minute).=== Summary ===Total read pairs processed:                 99  Read 1 with adapter:                       2 (2.0%)  Read 2 with adapter:                       4 (4.0%)== Read fate breakdown ==Pairs that were too short:                   0 (0.0%)Pairs written (passing filters):            99 (100.0%)Total basepairs processed:        49,698 bp  Read 1:        24,849 bp  Read 2:        24,849 bpTotal written (filtered):         49,677 bp (100.0%)  Read 1:        24,843 bp  Read 2:        24,834 bp=== First read: Adapter 1 ===Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10-13 bp: 1Bases preceding removed adapters:  A: 0.0%  C: 50.0%  G: 50.0%  T: 0.0%  none/other: 0.0%Overview of removed sequenceslengthcountexpectmax.errerror counts321.502=== Second read: Adapter 2 ===Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 4 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10-13 bp: 1Bases preceding removed adapters:  A: 0.0%  C: 0.0%  G: 50.0%  T: 50.0%  none/other: 0.0%Overview of removed sequenceslengthcountexpectmax.errerror counts321.502410.401510.101
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #21)" name="20" time="26.0775089263916">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a CGTCCGAANTAG --error-rate=0.1 --times=1 --overlap=3 --action=crop --minimum-length=1 -o out1.fq cutadapt_small_fastq.fqProcessing single-end reads on 5 cores ...Finished in 0.043 s (14228.026 µs/read; 0.00 M reads/minute).=== Summary ===Total reads processed:                       3Reads with adapters:                         1 (33.3%)== Read fate breakdown ==Reads that were too short:                   0 (0.0%)Reads written (passing filters):             3 (100.0%)Total basepairs processed:           102 bpTotal written (filtered):             80 bp (78.4%)=== Adapter 1 ===Sequence: CGTCCGAANTAG; Type: regular 3'; Length: 12; Trimmed: 1 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10-11 bp: 1Bases preceding removed adapters:  A: 0.0%  C: 0.0%  G: 0.0%  T: 0.0%  none/other: 100.0%Overview of removed sequenceslengthcountexpectmax.errerror counts3410.011
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #22)" name="21" time="26.465839862823486">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a CGTCCGAANTAG --error-rate=0.1 --times=1 --overlap=3 --action=none --minimum-length=1 -o out1.fq cutadapt_small_fastq.fqProcessing single-end reads on 5 cores ...Finished in 0.044 s (14768.918 µs/read; 0.00 M reads/minute).=== Summary ===Total reads processed:                       3Reads with adapters:                         1 (33.3%)== Read fate breakdown ==Reads that were too short:                   0 (0.0%)Reads written (passing filters):             3 (100.0%)Total basepairs processed:           102 bpTotal written (filtered):            102 bp (100.0%)=== Adapter 1 ===Sequence: CGTCCGAANTAG; Type: regular 3'; Length: 12; Trimmed: 1 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10-11 bp: 1Bases preceding removed adapters:  A: 0.0%  C: 0.0%  G: 0.0%  T: 0.0%  none/other: 100.0%Overview of removed sequenceslengthcountexpectmax.errerror counts3410.011
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #23)" name="22" time="26.190699577331543">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a TAAACAGATTAGT --error-rate=0.1 --times=1 --overlap=3 --action=trim --rc --minimum-length=1 -o out1.fq cutadapt_small_fastq.fqProcessing single-end reads on 5 cores ...Finished in 0.043 s (14419.794 µs/read; 0.00 M reads/minute).=== Summary ===Total reads processed:                       3Reads with adapters:                         1 (33.3%)Reverse-complemented:                        0 (0.0%)== Read fate breakdown ==Reads that were too short:                   0 (0.0%)Reads written (passing filters):             3 (100.0%)Total basepairs processed:           102 bpTotal written (filtered):             97 bp (95.1%)=== Adapter 1 ===Sequence: TAAACAGATTAGT; Type: regular 3'; Length: 13; Trimmed: 1 times; Reverse-complemented: 0 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10-13 bp: 1Bases preceding removed adapters:  A: 0.0%  C: 0.0%  G: 0.0%  T: 100.0%  none/other: 0.0%Overview of removed sequenceslengthcountexpectmax.errerror counts510.001
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #24)" name="23" time="26.93843722343445">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a ATCTGGTTCC -A CTACAAG --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=30:10 --pair-filter=both -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_assimetric_fq_gz.fq.gz bwa-mem-fastq2_assimetric_fq_gz.fq.gzProcessing paired-end reads on 5 cores ...Finished in 0.175 s (1769.401 µs/read; 0.03 M reads/minute).=== Summary ===Total read pairs processed:                 99  Read 1 with adapter:                      32 (32.3%)  Read 2 with adapter:                      15 (15.2%)== Read fate breakdown ==Pairs that were too short:                   3 (3.0%)Pairs written (passing filters):            96 (97.0%)Total basepairs processed:        48,291 bp  Read 1:        24,147 bp  Read 2:        24,144 bpTotal written (filtered):         38,492 bp (79.7%)  Read 1:        17,741 bp  Read 2:        20,751 bp=== First read: Adapter 1 ===Sequence: ATCTGGTTCC; Type: regular 3'; Length: 10; Trimmed: 32 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10 bp: 1Bases preceding removed adapters:  A: 0.0%  C: 90.6%  G: 3.1%  T: 0.0%  none/other: 6.2%WARNING:    The adapter is preceded by 'C' extremely often.    The provided adapter sequence could be incomplete at its 5' end.    Ignore this warning when trimming primers.Overview of removed sequenceslengthcountexpectmax.errerror counts321.5021310.0111410.01120110.01120310.01120820.01220910.01121110.01121420.01221720.01221810.01122210.01122610.01122720.01222810.01122910.01123220.01223810.01124270.01725110.010 1=== Second read: Adapter 2 ===Sequence: CTACAAG; Type: regular 3'; Length: 7; Trimmed: 15 timesMinimum overlap: 3No. of allowed errors:1-7 bp: 0Bases preceding removed adapters:  A: 0.0%  C: 73.3%  G: 0.0%  T: 0.0%  none/other: 26.7%Overview of removed sequenceslengthcountexpectmax.errerror counts810.00122820.00222910.00123830.00324110.00124310.00124610.00124810.00125010.00125130.003WARNING:    One or more of your adapter sequences may be incomplete.    Please see the detailed output above.
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #25)" name="24" time="28.638988494873047">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a AGATCGGAAGAGC -A AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 --maximum-length=50:30 --pair-filter=both -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_assimetric_fq_gz.fq.gz bwa-mem-fastq2_assimetric_fq_gz.fq.gzProcessing paired-end reads on 5 cores ...Finished in 0.173 s (1747.052 µs/read; 0.03 M reads/minute).=== Summary ===Total read pairs processed:                 99  Read 1 with adapter:                       2 (2.0%)  Read 2 with adapter:                       4 (4.0%)== Read fate breakdown ==Pairs that were too short:                   0 (0.0%)Pairs that were too long:                   96 (97.0%)Pairs written (passing filters):             3 (3.0%)Total basepairs processed:        48,291 bp  Read 1:        24,147 bp  Read 2:        24,144 bpTotal written (filtered):             99 bp (0.2%)  Read 1:            51 bp  Read 2:            48 bp=== First read: Adapter 1 ===Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10-13 bp: 1Bases preceding removed adapters:  A: 0.0%  C: 50.0%  G: 50.0%  T: 0.0%  none/other: 0.0%Overview of removed sequenceslengthcountexpectmax.errerror counts321.502=== Second read: Adapter 2 ===Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 4 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10-13 bp: 1Bases preceding removed adapters:  A: 0.0%  C: 0.0%  G: 50.0%  T: 50.0%  none/other: 0.0%Overview of removed sequenceslengthcountexpectmax.errerror counts321.502410.401510.101
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #26)" name="25" time="28.654523134231567">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=10 --maximum-length=50:30 --pair-filter=both -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_assimetric_fq_gz.fq.gz bwa-mem-fastq2_assimetric_fq_gz.fq.gzProcessing paired-end reads on 5 cores ...Finished in 0.159 s (1608.278 µs/read; 0.04 M reads/minute).=== Summary ===Total read pairs processed:                 99  Read 1 with adapter:                       2 (2.0%)== Read fate breakdown ==Pairs that were too short:                   0 (0.0%)Pairs that were too long:                   96 (97.0%)Pairs written (passing filters):             3 (3.0%)Total basepairs processed:        48,291 bp  Read 1:        24,147 bp  Read 2:        24,144 bpTotal written (filtered):             99 bp (0.2%)  Read 1:            51 bp  Read 2:            48 bp=== First read: Adapter 1 ===Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10-13 bp: 1Bases preceding removed adapters:  A: 0.0%  C: 50.0%  G: 50.0%  T: 0.0%  none/other: 0.0%Overview of removed sequenceslengthcountexpectmax.errerror counts321.502
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #27)" name="26" time="28.508868932724">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=10:10 --maximum-length=50 --pair-filter=both -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_assimetric_fq_gz.fq.gz bwa-mem-fastq2_assimetric_fq_gz.fq.gzProcessing paired-end reads on 5 cores ...Finished in 0.162 s (1638.846 µs/read; 0.04 M reads/minute).=== Summary ===Total read pairs processed:                 99  Read 1 with adapter:                       2 (2.0%)== Read fate breakdown ==Pairs that were too short:                   0 (0.0%)Pairs that were too long:                   96 (97.0%)Pairs written (passing filters):             3 (3.0%)Total basepairs processed:        48,291 bp  Read 1:        24,147 bp  Read 2:        24,144 bpTotal written (filtered):             99 bp (0.2%)  Read 1:            51 bp  Read 2:            48 bp=== First read: Adapter 1 ===Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10-13 bp: 1Bases preceding removed adapters:  A: 0.0%  C: 50.0%  G: 50.0%  T: 0.0%  none/other: 0.0%Overview of removed sequenceslengthcountexpectmax.errerror counts321.502
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #28)" name="27" time="24.763807773590088">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a AGCCGCTANGACG --error-rate=0.1 --times=1 --overlap=3 --action=trim --length=10 -o out1.fq cutadapt_small_fastq.fqProcessing single-end reads on 5 cores ...Finished in 0.041 s (13507.843 µs/read; 0.00 M reads/minute).=== Summary ===Total reads processed:                       3Reads with adapters:                         1 (33.3%)Reads written (passing filters):             3 (100.0%)Total basepairs processed:           102 bpTotal written (filtered):             20 bp (19.6%)=== Adapter 1 ===Sequence: AGCCGCTANGACG; Type: regular 3'; Length: 13; Trimmed: 1 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10-12 bp: 1Bases preceding removed adapters:  A: 0.0%  C: 0.0%  G: 0.0%  T: 0.0%  none/other: 100.0%Overview of removed sequenceslengthcountexpectmax.errerror counts3410.011
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #29)" name="28" time="27.27968668937683">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a AGCCGCTANGACG --error-rate=0.1 --times=1 --overlap=3 --action=trim --length=-10 -o out1.fq cutadapt_small_fastq.fqProcessing single-end reads on 5 cores ...Finished in 0.044 s (14674.187 µs/read; 0.00 M reads/minute).=== Summary ===Total reads processed:                       3Reads with adapters:                         1 (33.3%)Reads written (passing filters):             3 (100.0%)Total basepairs processed:           102 bpTotal written (filtered):             20 bp (19.6%)=== Adapter 1 ===Sequence: AGCCGCTANGACG; Type: regular 3'; Length: 13; Trimmed: 1 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10-12 bp: 1Bases preceding removed adapters:  A: 0.0%  C: 0.0%  G: 0.0%  T: 0.0%  none/other: 100.0%Overview of removed sequenceslengthcountexpectmax.errerror counts3410.011
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #30)" name="29" time="26.958909511566162">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a AGCCGCTANGACG -A AGCCGCTANGACG --error-rate=0.1 --times=1 --overlap=3 --action=trim --length=10 -L -10 -o out1.fq -p out2.fq cutadapt_small_fastq_1.fq cutadapt_small_fastq_2.fqProcessing paired-end reads on 5 cores ...Finished in 0.064 s (21483.978 µs/read; 0.00 M reads/minute).=== Summary ===Total read pairs processed:                  3  Read 1 with adapter:                       1 (33.3%)  Read 2 with adapter:                       1 (33.3%)Pairs written (passing filters):             3 (100.0%)Total basepairs processed:           204 bp  Read 1:           102 bp  Read 2:           102 bpTotal written (filtered):             40 bp (19.6%)  Read 1:            20 bp  Read 2:            20 bp=== First read: Adapter 1 ===Sequence: AGCCGCTANGACG; Type: regular 3'; Length: 13; Trimmed: 1 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10-12 bp: 1Bases preceding removed adapters:  A: 0.0%  C: 0.0%  G: 0.0%  T: 0.0%  none/other: 100.0%Overview of removed sequenceslengthcountexpectmax.errerror counts3410.011=== Second read: Adapter 2 ===Sequence: AGCCGCTANGACG; Type: regular 3'; Length: 13; Trimmed: 1 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10-12 bp: 1Bases preceding removed adapters:  A: 0.0%  C: 0.0%  G: 0.0%  T: 0.0%  none/other: 100.0%Overview of removed sequenceslengthcountexpectmax.errerror counts3410.011
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #4)" name="3" time="28.168070077896118">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a AGATCGGAAGAGC -A AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq.gz -p out2.fq.gz Unnamed Collection_1.fq.gz Unnamed Collection_2.fq.gzProcessing paired-end reads on 5 cores ...Finished in 0.173 s (1752.121 µs/read; 0.03 M reads/minute).=== Summary ===Total read pairs processed:                 99  Read 1 with adapter:                       2 (2.0%)  Read 2 with adapter:                       4 (4.0%)== Read fate breakdown ==Pairs that were too short:                   0 (0.0%)Pairs written (passing filters):            99 (100.0%)Total basepairs processed:        49,698 bp  Read 1:        24,849 bp  Read 2:        24,849 bpTotal written (filtered):         49,677 bp (100.0%)  Read 1:        24,843 bp  Read 2:        24,834 bp=== First read: Adapter 1 ===Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10-13 bp: 1Bases preceding removed adapters:  A: 0.0%  C: 50.0%  G: 50.0%  T: 0.0%  none/other: 0.0%Overview of removed sequenceslengthcountexpectmax.errerror counts321.502=== Second read: Adapter 2 ===Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 4 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10-13 bp: 1Bases preceding removed adapters:  A: 0.0%  C: 0.0%  G: 50.0%  T: 50.0%  none/other: 0.0%Overview of removed sequenceslengthcountexpectmax.errerror counts321.502410.401510.101
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #31)" name="30" time="28.287808656692505">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -A AGCCGCTANGACG --error-rate=0.1 --times=1 --overlap=3 --action=trim -L 10 -o out1.fq -p out2.fq cutadapt_small_fastq_1.fq cutadapt_small_fastq_2.fqProcessing paired-end reads on 5 cores ...Finished in 0.052 s (17269.293 µs/read; 0.00 M reads/minute).=== Summary ===Total read pairs processed:                  3  Read 2 with adapter:                       1 (33.3%)Pairs written (passing filters):             3 (100.0%)Total basepairs processed:           204 bp  Read 1:           102 bp  Read 2:           102 bpTotal written (filtered):            122 bp (59.8%)  Read 1:           102 bp  Read 2:            20 bp=== Second read: Adapter 1 ===Sequence: AGCCGCTANGACG; Type: regular 3'; Length: 13; Trimmed: 1 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10-12 bp: 1Bases preceding removed adapters:  A: 0.0%  C: 0.0%  G: 0.0%  T: 0.0%  none/other: 100.0%Overview of removed sequenceslengthcountexpectmax.errerror counts3410.011
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #32)" name="31" time="26.65296459197998">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a AGCGGCTTAGACG --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 --max-ee=10.0 -o out1.fq cutadapt_small_fastq.fqProcessing single-end reads on 5 cores ...Finished in 0.047 s (15507.778 µs/read; 0.00 M reads/minute).=== Summary ===Total reads processed:                       3Reads with adapters:                         0 (0.0%)== Read fate breakdown ==Reads that were too short:                   0 (0.0%)Reads with too many exp. errors:             0 (0.0%)Reads written (passing filters):             3 (100.0%)Total basepairs processed:           102 bpTotal written (filtered):            102 bp (100.0%)=== Adapter 1 ===Sequence: AGCGGCTTAGACG; Type: regular 3'; Length: 13; Trimmed: 0 times
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #33)" name="32" time="26.45380139350891">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a GAANTAGCTACCACX --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq cutadapt_small_fastq.fqProcessing single-end reads on 5 cores ...Finished in 0.044 s (14742.057 µs/read; 0.00 M reads/minute).=== Summary ===Total reads processed:                       3Reads with adapters:                         0 (0.0%)== Read fate breakdown ==Reads that were too short:                   0 (0.0%)Reads written (passing filters):             3 (100.0%)Total basepairs processed:           102 bpTotal written (filtered):            102 bp (100.0%)=== Adapter 1 ===Sequence: GAANTAGCTACCAC; Type: non-internal 3'; Length: 14; Trimmed: 0 times
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #34)" name="33" time="28.031269550323486">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a AGATCGGAAGAGCX -A AGATCGGAAGAGCX --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_assimetric_fq_gz.fq.gz bwa-mem-fastq2_assimetric_fq_gz.fq.gzProcessing paired-end reads on 5 cores ...Finished in 0.178 s (1794.716 µs/read; 0.03 M reads/minute).=== Summary ===Total read pairs processed:                 99  Read 1 with adapter:                       2 (2.0%)  Read 2 with adapter:                       4 (4.0%)== Read fate breakdown ==Pairs that were too short:                   0 (0.0%)Pairs written (passing filters):            99 (100.0%)Total basepairs processed:        48,291 bp  Read 1:        24,147 bp  Read 2:        24,144 bpTotal written (filtered):         48,270 bp (100.0%)  Read 1:        24,141 bp  Read 2:        24,129 bp=== First read: Adapter 1 ===Sequence: AGATCGGAAGAGC; Type: non-internal 3'; Length: 13; Trimmed: 2 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10-13 bp: 1Bases preceding removed adapters:  A: 0.0%  C: 50.0%  G: 50.0%  T: 0.0%  none/other: 0.0%Overview of removed sequenceslengthcountexpectmax.errerror counts321.502=== Second read: Adapter 2 ===Sequence: AGATCGGAAGAGC; Type: non-internal 3'; Length: 13; Trimmed: 4 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10-13 bp: 1Bases preceding removed adapters:  A: 0.0%  C: 0.0%  G: 50.0%  T: 50.0%  none/other: 0.0%Overview of removed sequenceslengthcountexpectmax.errerror counts321.502410.401510.101
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #35)" name="34" time="">
+        
+            <error type="error" message=""><![CDATA[
+                { "status": "skip", "test_index": 34, "tool_id": "cutadapt", "tool_version": "4.9+galaxy1"}
+            ]]></error>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #36)" name="35" time="27.719539403915405">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a AGATCGGAAGAGC;noindels -A AGATCGGAAGAGC;noindels --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq.gz -p out2.fq.gz Unnamed Collection_1.fq.gz Unnamed Collection_2.fq.gzProcessing paired-end reads on 5 cores ...Finished in 0.176 s (1774.894 µs/read; 0.03 M reads/minute).=== Summary ===Total read pairs processed:                 99  Read 1 with adapter:                       2 (2.0%)  Read 2 with adapter:                       4 (4.0%)== Read fate breakdown ==Pairs that were too short:                   0 (0.0%)Pairs written (passing filters):            99 (100.0%)Total basepairs processed:        49,698 bp  Read 1:        24,849 bp  Read 2:        24,849 bpTotal written (filtered):         49,677 bp (100.0%)  Read 1:        24,843 bp  Read 2:        24,834 bp=== First read: Adapter 1 ===Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10-13 bp: 1Bases preceding removed adapters:  A: 0.0%  C: 50.0%  G: 50.0%  T: 0.0%  none/other: 0.0%Overview of removed sequenceslengthcountexpectmax.errerror counts321.502=== Second read: Adapter 2 ===Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 4 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10-13 bp: 1Bases preceding removed adapters:  A: 0.0%  C: 0.0%  G: 50.0%  T: 50.0%  none/other: 0.0%Overview of removed sequenceslengthcountexpectmax.errerror counts321.502410.401510.101
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #37)" name="36" time="27.733177423477173">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a AGATCGGAAGAGC -A AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --quality-cutoff=5 -Q 15,20 --minimum-length=1 -o out1.fq.gz -p out2.fq.gz Unnamed Collection_1.fq.gz Unnamed Collection_2.fq.gzProcessing paired-end reads on 5 cores ...Finished in 0.171 s (1725.406 µs/read; 0.03 M reads/minute).=== Summary ===Total read pairs processed:                 99  Read 1 with adapter:                       2 (2.0%)  Read 2 with adapter:                       2 (2.0%)== Read fate breakdown ==Pairs that were too short:                   0 (0.0%)Pairs written (passing filters):            99 (100.0%)Total basepairs processed:        49,698 bp  Read 1:        24,849 bp  Read 2:        24,849 bpQuality-trimmed:                     747 bp (1.5%)  Read 1:             0 bp  Read 2:           747 bpTotal written (filtered):         48,938 bp (98.5%)  Read 1:        24,843 bp  Read 2:        24,095 bp=== First read: Adapter 1 ===Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10-13 bp: 1Bases preceding removed adapters:  A: 0.0%  C: 50.0%  G: 50.0%  T: 0.0%  none/other: 0.0%Overview of removed sequenceslengthcountexpectmax.errerror counts321.502=== Second read: Adapter 2 ===Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 2 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10-13 bp: 1Bases preceding removed adapters:  A: 0.0%  C: 0.0%  G: 100.0%  T: 0.0%  none/other: 0.0%Overview of removed sequenceslengthcountexpectmax.errerror counts311.501410.401
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #38)" name="37" time="28.601125955581665">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 --error-rate=0.1 --times=1 --overlap=3 --action=trim --poly-a --minimum-length=1 -o out1.fa -p out2.fa Unnamed Collection_1.fa Unnamed Collection_2.faProcessing paired-end reads on 5 cores ...Finished in 0.048 s (11992.455 µs/read; 0.01 M reads/minute).=== Summary ===Total read pairs processed:                  4== Read fate breakdown ==Pairs that were too short:                   0 (0.0%)Pairs written (passing filters):             4 (100.0%)Total basepairs processed:           369 bp  Read 1:           194 bp  Read 2:           175 bpPoly-A-trimmed:                      168 bp (45.5%)  Read 1:            84 bp  Read 2:            84 bpTotal written (filtered):            201 bp (54.5%)  Read 1:           110 bp  Read 2:            91 bp=== R1 poly-A trimmed ===lengthcount01212421=== R2 poly-A trimmed ===lengthcount01212421
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #39)" name="38" time="26.11560583114624">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA --error-rate=0.1 --times=1 --overlap=10 --action=trim --minimum-length=1 -o out1.fa polya_1_fasta.faProcessing single-end reads on 5 cores ...Finished in 0.044 s (11109.889 µs/read; 0.01 M reads/minute).=== Summary ===Total reads processed:                       4Reads with adapters:                         3 (75.0%)== Read fate breakdown ==Reads that were too short:                   0 (0.0%)Reads written (passing filters):             4 (100.0%)Total basepairs processed:           194 bpTotal written (filtered):             96 bp (49.5%)=== Adapter 1 ===Sequence: AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA; Type: regular 3'; Length: 35; Trimmed: 3 timesMinimum overlap: 10No. of allowed errors:1-9 bp: 0; 10-19 bp: 1; 20-29 bp: 2; 30-35 bp: 3Bases preceding removed adapters:  A: 0.0%  C: 33.3%  G: 66.7%  T: 0.0%  none/other: 0.0%Overview of removed sequenceslengthcountexpectmax.errerror counts2610.020 0 13010.030 0 0 14210.030 1
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #40)" name="39" time="27.51239824295044">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a A{35} --error-rate=0.1 --times=1 --overlap=10 --action=trim --minimum-length=1 -o out1.fa polya_1_fasta.faProcessing single-end reads on 5 cores ...Finished in 0.044 s (11053.383 µs/read; 0.01 M reads/minute).=== Summary ===Total reads processed:                       4Reads with adapters:                         3 (75.0%)== Read fate breakdown ==Reads that were too short:                   0 (0.0%)Reads written (passing filters):             4 (100.0%)Total basepairs processed:           194 bpTotal written (filtered):             96 bp (49.5%)=== Adapter 1 ===Sequence: AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA; Type: regular 3'; Length: 35; Trimmed: 3 timesMinimum overlap: 10No. of allowed errors:1-9 bp: 0; 10-19 bp: 1; 20-29 bp: 2; 30-35 bp: 3Bases preceding removed adapters:  A: 0.0%  C: 33.3%  G: 66.7%  T: 0.0%  none/other: 0.0%Overview of removed sequenceslengthcountexpectmax.errerror counts2610.020 0 13010.030 0 0 14210.030 1
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #5)" name="4" time="">
+        
+            <error type="error" message=""><![CDATA[
+                { "status": "skip", "test_index": 4, "tool_id": "cutadapt", "tool_version": "4.9+galaxy1"}
+            ]]></error>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #41)" name="40" time="8.546941995620728">
+        
+            <error type="error" message="Input staging problem: Job in error state.. tool_id: upload1, exit_code: None, stderr: ."><![CDATA[
+                { "execution_problem": "Input staging problem: Job in error state.. tool_id: upload1, exit_code: None, stderr: .", "status": "error", "test_index": 40, "time_seconds": 8.546941995620728, "tool_id": "cutadapt", "tool_version": "4.9+galaxy1"}
+            ]]></error>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #42)" name="41" time="24.864086151123047">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fa.gz simple_fasta_gz.fa.gzProcessing single-end reads on 5 cores ...Finished in 0.088 s (43947.816 µs/read; 0.00 M reads/minute).=== Summary ===Total reads processed:                       2== Read fate breakdown ==Reads that were too short:                   0 (0.0%)Reads written (passing filters):             2 (100.0%)Total basepairs processed:            18 bpTotal written (filtered):             18 bp (100.0%)
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #43)" name="42" time="26.336902618408203">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a XXXXXX --error-rate=0.1 --times=1 --overlap=3 --action=trim --quality-cutoff=10 --quality-base=64 -o out1.fq illumina64_fastq.fqProcessing single-end reads on 5 cores ...Finished in 0.043 s (2168.584 µs/read; 0.03 M reads/minute).=== Summary ===Total reads processed:                      20Reads with adapters:                         0 (0.0%)Reads written (passing filters):            20 (100.0%)Total basepairs processed:         1,900 bpQuality-trimmed:                   1,021 bp (53.7%)Total written (filtered):            879 bp (46.3%)=== Adapter 1 ===Sequence: XXXXXX; Type: regular 3'; Length: 6; Trimmed: 0 times
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #44)" name="43" time="28.44310998916626">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 --error-rate=0.1 --times=1 --overlap=3 --action=trim --quality-cutoff=10 --quality-base=64 -o out1.fq illumina64_fastq.fqProcessing single-end reads on 5 cores ...Finished in 0.033 s (1657.796 µs/read; 0.04 M reads/minute).=== Summary ===Total reads processed:                      20Reads written (passing filters):            20 (100.0%)Total basepairs processed:         1,900 bpQuality-trimmed:                   1,021 bp (53.7%)Total written (filtered):            879 bp (46.3%)
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #45)" name="44" time="25.75309443473816">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #46)" name="45" time="26.878708124160767">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -b ACGTACGT --error-rate=0.1 --times=1 --overlap=3 --match-read-wildcards --action=trim --minimum-length=1 -o out1.fa wildcard_fa.faProcessing single-end reads on 5 cores ...Finished in 0.044 s (21938.562 µs/read; 0.00 M reads/minute).=== Summary ===Total reads processed:                       2Reads with adapters:                         2 (100.0%)== Read fate breakdown ==Reads that were too short:                   0 (0.0%)Reads written (passing filters):             2 (100.0%)Total basepairs processed:            32 bpTotal written (filtered):             16 bp (50.0%)=== Adapter 1 ===Sequence: ACGTACGT; Type: variable 5'/3'; Length: 8; Trimmed: 2 times2 times, it overlapped the 5' end of a read0 times, it overlapped the 3' end or was within the readMinimum overlap: 3No. of allowed errors:1-8 bp: 0Overview of removed sequences (5')lengthcountexpectmax.errerror counts820.002Overview of removed sequences (3' or within)lengthcountexpectmax.errerror counts
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #47)" name="46" time="26.210306882858276">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a GGGGGGG --error-rate=0.0 --times=1 --overlap=3 --match-read-wildcards --action=trim --minimum-length=1 -o out1.fa wildcardN_fa.faProcessing single-end reads on 5 cores ...Finished in 0.043 s (14258.623 µs/read; 0.00 M reads/minute).=== Summary ===Total reads processed:                       3Reads with adapters:                         2 (66.7%)== Read fate breakdown ==Reads that were too short:                   0 (0.0%)Reads written (passing filters):             3 (100.0%)Total basepairs processed:            30 bpTotal written (filtered):             16 bp (53.3%)=== Adapter 1 ===Sequence: GGGGGGG; Type: regular 3'; Length: 7; Trimmed: 2 timesMinimum overlap: 3No. of allowed errors:1-7 bp: 0Bases preceding removed adapters:  A: 0.0%  C: 0.0%  G: 0.0%  T: 100.0%  none/other: 0.0%Overview of removed sequenceslengthcountexpectmax.errerror counts720.002
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #48)" name="47" time="27.107056379318237">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a AGATCGGAAGAGC -A AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_fq_gz.fq.gz bwa-mem-fastq_mispaired2_fq_gz.fq.gzProcessing paired-end reads on 5 cores ...
+            ]]></system-out>
+            <system-err><![CDATA[
+            Error in sequence file at unknown line: Reads are improperly paired. Read name 'M01368:8:000000000-A3GHV:1:1101:6911:8255/1' in file 1 does not match 'M01368:8:000000000-A3GHV:1:1101:14518:9998/2' in file 2.
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #6)" name="5" time="25.150913953781128">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a TTAGACATATCTCCGTCG --error-rate=0.1 --times=1 --overlap=3 --action=trim --discard-trimmed --minimum-length=1 -o out1.fq cutadapt_small_fastq.fqProcessing single-end reads on 5 cores ...Finished in 0.043 s (14401.118 µs/read; 0.00 M reads/minute).=== Summary ===Total reads processed:                       3Reads with adapters:                         2 (66.7%)== Read fate breakdown ==Reads that were too short:                   0 (0.0%)Reads written (passing filters):             1 (33.3%)Total basepairs processed:           102 bpTotal written (filtered):             34 bp (33.3%)=== Adapter 1 ===Sequence: TTAGACATATCTCCGTCG; Type: regular 3'; Length: 18; Trimmed: 2 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10-18 bp: 1Bases preceding removed adapters:  A: 50.0%  C: 50.0%  G: 0.0%  T: 0.0%  none/other: 0.0%Overview of removed sequenceslengthcountexpectmax.errerror counts1010.010 11210.010 1
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #7)" name="6" time="26.86793565750122">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a AGATCGGAAGAGC -A AGATCGGAAGAGC --pair-adapters --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 -o out1.fq.gz -p out2.fq.gz bwa-mem-fastq1_fq_gz.fq.gz bwa-mem-fastq2_fq_gz.fq.gzProcessing paired-end reads on 5 cores ...Finished in 0.177 s (1785.652 µs/read; 0.03 M reads/minute).=== Summary ===Total read pairs processed:                 99  Read 1 with adapter:                       1 (1.0%)  Read 2 with adapter:                       1 (1.0%)== Read fate breakdown ==Pairs that were too short:                   0 (0.0%)Pairs written (passing filters):            99 (100.0%)Total basepairs processed:        49,698 bp  Read 1:        24,849 bp  Read 2:        24,849 bpTotal written (filtered):         49,692 bp (100.0%)  Read 1:        24,846 bp  Read 2:        24,846 bp=== First read: Adapter 1 ===Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 1 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10-13 bp: 1Bases preceding removed adapters:  A: 0.0%  C: 100.0%  G: 0.0%  T: 0.0%  none/other: 0.0%Overview of removed sequenceslengthcountexpectmax.errerror counts311.501=== Second read: Adapter 2 ===Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 1 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10-13 bp: 1Bases preceding removed adapters:  A: 0.0%  C: 0.0%  G: 0.0%  T: 100.0%  none/other: 0.0%Overview of removed sequenceslengthcountexpectmax.errerror counts311.501
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #8)" name="7" time="27.70198702812195">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a AAAGATG --error-rate=0.1 --times=1 --overlap=3 --action=trim --minimum-length=1 --json=stats.json -r=rest_output.fa -o out1.fa cutadapt_rest_fa.faProcessing single-end reads on 5 cores ...Finished in 0.052 s (10400.581 µs/read; 0.01 M reads/minute).=== Summary ===Total reads processed:                       5Reads with adapters:                         5 (100.0%)== Read fate breakdown ==Reads that were too short:                   0 (0.0%)Reads written (passing filters):             5 (100.0%)Total basepairs processed:            97 bpTotal written (filtered):             35 bp (36.1%)=== Adapter 1 ===Sequence: AAAGATG; Type: regular 3'; Length: 7; Trimmed: 5 timesMinimum overlap: 3No. of allowed errors:1-7 bp: 0Bases preceding removed adapters:  A: 0.0%  C: 0.0%  G: 100.0%  T: 0.0%  none/other: 0.0%Overview of removed sequenceslengthcountexpectmax.errerror counts710.0011210.0011420.0021510.001
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #9)" name="8" time="28.699345350265503">
+        
+            
+            <system-out><![CDATA[
+            This is cutadapt 4.9 with Python 3.12.5Command line parameters: -j=5 -a AGATCGGAAGAGC --error-rate=0.1 --times=1 --overlap=3 --action=trim --nextseq-trim=20 --minimum-length=1 -o out1.fq.gz bwa-mem-fastq1_fq_gz.fq.gzProcessing single-end reads on 5 cores ...Finished in 0.101 s (1021.624 µs/read; 0.06 M reads/minute).=== Summary ===Total reads processed:                      99Reads with adapters:                         4 (4.0%)== Read fate breakdown ==Reads that were too short:                   0 (0.0%)Reads written (passing filters):            99 (100.0%)Total basepairs processed:        24,849 bpQuality-trimmed:                     286 bp (1.2%)Total written (filtered):         24,550 bp (98.8%)=== Adapter 1 ===Sequence: AGATCGGAAGAGC; Type: regular 3'; Length: 13; Trimmed: 4 timesMinimum overlap: 3No. of allowed errors:1-9 bp: 0; 10-13 bp: 1Bases preceding removed adapters:  A: 0.0%  C: 75.0%  G: 25.0%  T: 0.0%  none/other: 0.0%Overview of removed sequenceslengthcountexpectmax.errerror counts331.503410.401
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="cutadapt (Test #10)" name="9" time="25.873560428619385">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="deeptools_bigwig_compare (Test #1)" name="0" time="41.38257384300232">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="deeptools_bigwig_compare (Test #2)" name="1" time="28.10448694229126">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="deseq2 (Test #1)" name="0" time="94.7874207496643">
+        
+            
+            <system-out><![CDATA[
+            primary factor: Treatment ---------------------No size factor was usedDESeq2 run informationsample table:                                TreatmentGSM461176_untreat_single.counts UntreatedGSM461177_untreat_paired.counts UntreatedGSM461178_untreat_paired.counts UntreatedGSM461182_untreat_single.counts UntreatedGSM461179_treat_single.counts     TreatedGSM461180_treat_paired.counts     TreatedGSM461181_treat_paired.counts     Treateddesign formula:~Treatment7 samples with counts over 3999 genes[1] "use_beta_prior is set to TRUE"using disperion fit type: parametric summary of resultsTreatment: Treated vs Untreatedout of 3429 with nonzero total read countadjusted p-value < 0.1LFC > 0 (up)       : 148, 4.3%LFC < 0 (down)     : 152, 4.4%outliers [1]       : 2, 0.058%low counts [2]     : 659, 19%(mean count < 3)[1] see 'cooksCutoff' argument of ?results[2] see 'independentFiltering' argument of ?resultsNULLSession information:R version 4.3.1 (2023-06-16)Platform: x86_64-conda-linux-gnu (64-bit)Running under: Debian GNU/Linux 10 (buster)Matrix products: defaultBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0locale: [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8        [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8    [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          [10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   time zone: NAtzcode source: system (glibc)attached base packages:[1] stats4    tools     stats     graphics  grDevices utils     datasets [8] methods   base     other attached packages: [1] rjson_0.2.21                gplots_3.1.3                [3] RColorBrewer_1.1-3          DESeq2_1.40.2               [5] SummarizedExperiment_1.30.2 Biobase_2.60.0              [7] MatrixGenerics_1.12.2       matrixStats_1.0.0           [9] GenomicRanges_1.52.0        GenomeInfoDb_1.36.1        [11] IRanges_2.34.1              S4Vectors_0.38.1           [13] BiocGenerics_0.46.0         getopt_1.20.3              loaded via a namespace (and not attached): [1] utf8_1.2.3              generics_0.1.3          bitops_1.0-7            [4] KernSmooth_2.23-22      gtools_3.9.4            lattice_0.21-8          [7] caTools_1.18.2          magrittr_2.0.3          grid_4.3.1             [10] Matrix_1.6-0            fansi_1.0.4             scales_1.2.1           [13] codetools_0.2-19        cli_3.6.1               rlang_1.1.1            [16] crayon_1.5.2            XVector_0.40.0          munsell_0.5.0          [19] DelayedArray_0.26.6     S4Arrays_1.0.4          parallel_4.3.1         [22] BiocParallel_1.34.2     dplyr_1.1.2             colorspace_2.1-0       [25] ggplot2_3.4.2           locfit_1.5-9.8          GenomeInfoDbData_1.2.10[28] vctrs_0.6.3             R6_2.5.1                lifecycle_1.0.3        [31] zlibbioc_1.46.0         pkgconfig_2.0.3         pillar_1.9.0           [34] gtable_0.3.3            glue_1.6.2              Rcpp_1.0.11            [37] tibble_3.2.1            tidyselect_1.2.0        compiler_4.3.1         [40] RCurl_1.98-1.12        
+            ]]></system-out>
+            <system-err><![CDATA[
+            estimating size factorsestimating dispersionsgene-wise dispersion estimatesmean-dispersion relationshipfinal dispersion estimatesfitting model and testing
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="deseq2 (Test #2)" name="1" time="11.367457628250122">
+        
+            <error type="error" message="Input staging problem: Job in error state.. tool_id: upload1, exit_code: None, stderr: ."><![CDATA[
+                { "execution_problem": "Input staging problem: Job in error state.. tool_id: upload1, exit_code: None, stderr: .", "status": "error", "test_index": 1, "time_seconds": 11.367457628250122, "tool_id": "deseq2", "tool_version": "2.11.40.8+galaxy0"}
+            ]]></error>
+        
+    </testcase>
+    
+    <testcase classname="deseq2 (Test #11)" name="10" time="61.10354781150818">
+        
+            
+            <system-out><![CDATA[
+            primary factor: Treatment ---------------------No size factor was usedsize factors for samples: taking tximport data into accountDESeq2 run informationsample table:                       Treatmentsailfish_quant.sf4.tab Untreatedsailfish_quant.sf5.tab Untreatedsailfish_quant.sf6.tab Untreatedsailfish_quant.sf1.tab   Treatedsailfish_quant.sf2.tab   Treatedsailfish_quant.sf3.tab   Treateddesign formula:~Treatment6 samples with counts over 11 genesApplied default - beta prior off[1] "use_beta_prior is set to FALSE"using disperion fit type: parametric summary of resultsTreatment: Treated vs Untreatedout of 9 with nonzero total read countadjusted p-value < 0.1LFC > 0 (up)       : 0, 0%LFC < 0 (down)     : 0, 0%outliers [1]       : 0, 0%low counts [2]     : 0, 0%(mean count < 0)[1] see 'cooksCutoff' argument of ?results[2] see 'independentFiltering' argument of ?resultsNULLSession information:R version 4.3.1 (2023-06-16)Platform: x86_64-conda-linux-gnu (64-bit)Running under: Debian GNU/Linux 10 (buster)Matrix products: defaultBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0locale: [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8        [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8    [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          [10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   time zone: NAtzcode source: system (glibc)attached base packages:[1] stats4    tools     stats     graphics  grDevices utils     datasets [8] methods   base     other attached packages: [1] GenomicFeatures_1.52.1      AnnotationDbi_1.62.2        [3] tximport_1.28.0             rjson_0.2.21                [5] gplots_3.1.3                RColorBrewer_1.1-3          [7] DESeq2_1.40.2               SummarizedExperiment_1.30.2 [9] Biobase_2.60.0              MatrixGenerics_1.12.2      [11] matrixStats_1.0.0           GenomicRanges_1.52.0       [13] GenomeInfoDb_1.36.1         IRanges_2.34.1             [15] S4Vectors_0.38.1            BiocGenerics_0.46.0        [17] getopt_1.20.3              loaded via a namespace (and not attached): [1] tidyselect_1.2.0         dplyr_1.1.2              blob_1.2.4               [4] filelock_1.0.2           Biostrings_2.68.1        bitops_1.0-7             [7] fastmap_1.1.1            RCurl_1.98-1.12          BiocFileCache_2.8.0     [10] GenomicAlignments_1.36.0 XML_3.99-0.14            digest_0.6.33           [13] lifecycle_1.0.3          KEGGREST_1.40.0          RSQLite_2.3.1           [16] magrittr_2.0.3           compiler_4.3.1           rlang_1.1.1             [19] progress_1.2.2           yaml_2.3.7               utf8_1.2.3              [22] rtracklayer_1.60.0       prettyunits_1.1.1        S4Arrays_1.0.4          [25] bit_4.0.5                curl_5.0.1               DelayedArray_0.26.6     [28] xml2_1.3.5               BiocParallel_1.34.2      KernSmooth_2.23-22      [31] grid_4.3.1               fansi_1.0.4              caTools_1.18.2          [34] colorspace_2.1-0         ggplot2_3.4.2            scales_1.2.1            [37] gtools_3.9.4             biomaRt_2.56.1           cli_3.6.1               [40] crayon_1.5.2             generics_0.1.3           httr_1.4.6              [43] DBI_1.1.3                cachem_1.0.8             stringr_1.5.0           [46] zlibbioc_1.46.0          parallel_4.3.1           restfulr_0.0.15         [49] XVector_0.40.0           vctrs_0.6.3              Matrix_1.6-0            [52] jsonlite_1.8.7           hms_1.1.3                bit64_4.0.5             [55] locfit_1.5-9.8           glue_1.6.2               codetools_0.2-19        [58] stringi_1.7.12           gtable_0.3.3             BiocIO_1.10.0           [61] munsell_0.5.0            tibble_3.2.1             pillar_1.9.0            [64] rappdirs_0.3.3           GenomeInfoDbData_1.2.10  R6_2.5.1                [67] dbplyr_2.3.3             lattice_0.21-8           Rsamtools_2.16.0        [70] png_0.1-8                memoise_2.0.1            Rcpp_1.0.11             [73] pkgconfig_2.0.3         
+            ]]></system-out>
+            <system-err><![CDATA[
+            Import genomic features from the file as a GRanges object ... OKPrepare the 'metadata' data frame ... OKMake the TxDb object ... OK'select()' returned 1:1 mapping between keys and columnsreading in files with read.delim (install 'readr' package for speed up)1 2 3 4 5 6 reading in files with read.delim (install 'readr' package for speed up)1 2 3 4 5 6 summarizing abundancesummarizing countssummarizing lengthusing counts and average transcript lengths from tximportWarning message:In .get_cds_IDX(mcols0$type, mcols0$phase) :  The "phase" metadata column contains non-NA values for features of type  stop_codon. This information was ignored.estimating size factorsusing 'avgTxLength' from assays(dds), correcting for library sizeestimating dispersionsgene-wise dispersion estimatesmean-dispersion relationship-- note: fitType='parametric', but the dispersion trend was not well captured by the   function: y = a/x + b, and a local regression fit was automatically substituted.   specify fitType='local' or 'mean' to avoid this message next time.final dispersion estimatesfitting model and testingWarning message:In lfproc(x, y, weights = weights, cens = cens, base = base, geth = geth,  :  Estimated rdf < 1.0; not estimating variance
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="deseq2 (Test #12)" name="11" time="64.40056562423706">
+        
+            
+            <system-out><![CDATA[
+            primary factor: Treatment ---------------------Using user-provided size factors:[1] 0.8480069 1.1079079 1.2131952 1.1906159 0.7122038 1.0346425DESeq2 run informationsample table:                       Treatmentsailfish_quant.sf4.tab Untreatedsailfish_quant.sf5.tab Untreatedsailfish_quant.sf6.tab Untreatedsailfish_quant.sf1.tab   Treatedsailfish_quant.sf2.tab   Treatedsailfish_quant.sf3.tab   Treateddesign formula:~Treatment6 samples with counts over 11 genes[1] "use_beta_prior is set to TRUE"using disperion fit type: parametric summary of resultsTreatment: Treated vs Untreatedout of 9 with nonzero total read countadjusted p-value < 0.1LFC > 0 (up)       : 0, 0%LFC < 0 (down)     : 0, 0%outliers [1]       : 0, 0%low counts [2]     : 0, 0%(mean count < 0)[1] see 'cooksCutoff' argument of ?results[2] see 'independentFiltering' argument of ?resultsNULLSession information:R version 4.3.1 (2023-06-16)Platform: x86_64-conda-linux-gnu (64-bit)Running under: Debian GNU/Linux 10 (buster)Matrix products: defaultBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0locale: [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8        [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8    [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          [10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   time zone: NAtzcode source: system (glibc)attached base packages:[1] stats4    tools     stats     graphics  grDevices utils     datasets [8] methods   base     other attached packages: [1] GenomicFeatures_1.52.1      AnnotationDbi_1.62.2        [3] tximport_1.28.0             rjson_0.2.21                [5] gplots_3.1.3                RColorBrewer_1.1-3          [7] DESeq2_1.40.2               SummarizedExperiment_1.30.2 [9] Biobase_2.60.0              MatrixGenerics_1.12.2      [11] matrixStats_1.0.0           GenomicRanges_1.52.0       [13] GenomeInfoDb_1.36.1         IRanges_2.34.1             [15] S4Vectors_0.38.1            BiocGenerics_0.46.0        [17] getopt_1.20.3              loaded via a namespace (and not attached): [1] tidyselect_1.2.0         dplyr_1.1.2              blob_1.2.4               [4] filelock_1.0.2           Biostrings_2.68.1        bitops_1.0-7             [7] fastmap_1.1.1            RCurl_1.98-1.12          BiocFileCache_2.8.0     [10] GenomicAlignments_1.36.0 XML_3.99-0.14            digest_0.6.33           [13] lifecycle_1.0.3          KEGGREST_1.40.0          RSQLite_2.3.1           [16] magrittr_2.0.3           compiler_4.3.1           rlang_1.1.1             [19] progress_1.2.2           yaml_2.3.7               utf8_1.2.3              [22] rtracklayer_1.60.0       prettyunits_1.1.1        S4Arrays_1.0.4          [25] bit_4.0.5                curl_5.0.1               DelayedArray_0.26.6     [28] xml2_1.3.5               BiocParallel_1.34.2      KernSmooth_2.23-22      [31] grid_4.3.1               fansi_1.0.4              caTools_1.18.2          [34] colorspace_2.1-0         ggplot2_3.4.2            scales_1.2.1            [37] gtools_3.9.4             biomaRt_2.56.1           cli_3.6.1               [40] crayon_1.5.2             generics_0.1.3           httr_1.4.6              [43] DBI_1.1.3                cachem_1.0.8             stringr_1.5.0           [46] zlibbioc_1.46.0          parallel_4.3.1           restfulr_0.0.15         [49] XVector_0.40.0           vctrs_0.6.3              Matrix_1.6-0            [52] jsonlite_1.8.7           hms_1.1.3                bit64_4.0.5             [55] locfit_1.5-9.8           glue_1.6.2               codetools_0.2-19        [58] stringi_1.7.12           gtable_0.3.3             BiocIO_1.10.0           [61] munsell_0.5.0            tibble_3.2.1             pillar_1.9.0            [64] rappdirs_0.3.3           GenomeInfoDbData_1.2.10  R6_2.5.1                [67] dbplyr_2.3.3             lattice_0.21-8           Rsamtools_2.16.0        [70] png_0.1-8                memoise_2.0.1            Rcpp_1.0.11             [73] pkgconfig_2.0.3         
+            ]]></system-out>
+            <system-err><![CDATA[
+            Import genomic features from the file as a GRanges object ... OKPrepare the 'metadata' data frame ... OKMake the TxDb object ... OK'select()' returned 1:1 mapping between keys and columnsreading in files with read.delim (install 'readr' package for speed up)1 2 3 4 5 6 reading in files with read.delim (install 'readr' package for speed up)1 2 3 4 5 6 summarizing abundancesummarizing countssummarizing lengthusing counts and average transcript lengths from tximportWarning message:In .get_cds_IDX(mcols0$type, mcols0$phase) :  The "phase" metadata column contains non-NA values for features of type  stop_codon. This information was ignored.using pre-existing size factorsestimating dispersionsgene-wise dispersion estimatesmean-dispersion relationship-- note: fitType='parametric', but the dispersion trend was not well captured by the   function: y = a/x + b, and a local regression fit was automatically substituted.   specify fitType='local' or 'mean' to avoid this message next time.final dispersion estimatesfitting model and testingWarning message:In lfproc(x, y, weights = weights, cens = cens, base = base, geth = geth,  :  Estimated rdf < 1.0; not estimating variance
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="deseq2 (Test #13)" name="12" time="61.11820030212402">
+        
+            
+            <system-out><![CDATA[
+            primary factor: Treatment ---------------------No size factor was usedsize factors for samples: taking tximport data into accountDESeq2 run informationsample table:                       Treatmentsailfish_quant.sf4.tab Untreatedsailfish_quant.sf5.tab Untreatedsailfish_quant.sf6.tab Untreatedsailfish_quant.sf1.tab   Treatedsailfish_quant.sf2.tab   Treatedsailfish_quant.sf3.tab   Treateddesign formula:~Treatment6 samples with counts over 11 genesApplied default - beta prior off[1] "use_beta_prior is set to FALSE"using disperion fit type: parametric summary of resultsTreatment: Treated vs Untreatedout of 9 with nonzero total read countadjusted p-value < 0.1LFC > 0 (up)       : 0, 0%LFC < 0 (down)     : 0, 0%outliers [1]       : 0, 0%low counts [2]     : 0, 0%(mean count < 0)[1] see 'cooksCutoff' argument of ?results[2] see 'independentFiltering' argument of ?resultsNULLSession information:R version 4.3.1 (2023-06-16)Platform: x86_64-conda-linux-gnu (64-bit)Running under: Debian GNU/Linux 10 (buster)Matrix products: defaultBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0locale: [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8        [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8    [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          [10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   time zone: NAtzcode source: system (glibc)attached base packages:[1] stats4    tools     stats     graphics  grDevices utils     datasets [8] methods   base     other attached packages: [1] GenomicFeatures_1.52.1      AnnotationDbi_1.62.2        [3] tximport_1.28.0             rjson_0.2.21                [5] gplots_3.1.3                RColorBrewer_1.1-3          [7] DESeq2_1.40.2               SummarizedExperiment_1.30.2 [9] Biobase_2.60.0              MatrixGenerics_1.12.2      [11] matrixStats_1.0.0           GenomicRanges_1.52.0       [13] GenomeInfoDb_1.36.1         IRanges_2.34.1             [15] S4Vectors_0.38.1            BiocGenerics_0.46.0        [17] getopt_1.20.3              loaded via a namespace (and not attached): [1] tidyselect_1.2.0         dplyr_1.1.2              blob_1.2.4               [4] filelock_1.0.2           Biostrings_2.68.1        bitops_1.0-7             [7] fastmap_1.1.1            RCurl_1.98-1.12          BiocFileCache_2.8.0     [10] GenomicAlignments_1.36.0 XML_3.99-0.14            digest_0.6.33           [13] lifecycle_1.0.3          KEGGREST_1.40.0          RSQLite_2.3.1           [16] magrittr_2.0.3           compiler_4.3.1           rlang_1.1.1             [19] progress_1.2.2           yaml_2.3.7               utf8_1.2.3              [22] rtracklayer_1.60.0       prettyunits_1.1.1        S4Arrays_1.0.4          [25] bit_4.0.5                curl_5.0.1               DelayedArray_0.26.6     [28] xml2_1.3.5               BiocParallel_1.34.2      KernSmooth_2.23-22      [31] grid_4.3.1               fansi_1.0.4              caTools_1.18.2          [34] colorspace_2.1-0         ggplot2_3.4.2            scales_1.2.1            [37] gtools_3.9.4             biomaRt_2.56.1           cli_3.6.1               [40] crayon_1.5.2             generics_0.1.3           httr_1.4.6              [43] DBI_1.1.3                cachem_1.0.8             stringr_1.5.0           [46] zlibbioc_1.46.0          parallel_4.3.1           restfulr_0.0.15         [49] XVector_0.40.0           vctrs_0.6.3              Matrix_1.6-0            [52] jsonlite_1.8.7           hms_1.1.3                bit64_4.0.5             [55] locfit_1.5-9.8           glue_1.6.2               codetools_0.2-19        [58] stringi_1.7.12           gtable_0.3.3             BiocIO_1.10.0           [61] munsell_0.5.0            tibble_3.2.1             pillar_1.9.0            [64] rappdirs_0.3.3           GenomeInfoDbData_1.2.10  R6_2.5.1                [67] dbplyr_2.3.3             lattice_0.21-8           Rsamtools_2.16.0        [70] png_0.1-8                memoise_2.0.1            Rcpp_1.0.11             [73] pkgconfig_2.0.3         
+            ]]></system-out>
+            <system-err><![CDATA[
+            Import genomic features from the file as a GRanges object ... OKPrepare the 'metadata' data frame ... OKMake the TxDb object ... OK'select()' returned 1:1 mapping between keys and columnsreading in files with read.delim (install 'readr' package for speed up)1 2 3 4 5 6 reading in files with read.delim (install 'readr' package for speed up)1 2 3 4 5 6 summarizing abundancesummarizing countssummarizing lengthusing counts and average transcript lengths from tximportWarning message:In .get_cds_IDX(mcols0$type, mcols0$phase) :  The "phase" metadata column contains non-NA values for features of type  stop_codon. This information was ignored.estimating size factorsusing 'avgTxLength' from assays(dds), correcting for library sizeestimating dispersionsgene-wise dispersion estimatesmean-dispersion relationship-- note: fitType='parametric', but the dispersion trend was not well captured by the   function: y = a/x + b, and a local regression fit was automatically substituted.   specify fitType='local' or 'mean' to avoid this message next time.final dispersion estimatesfitting model and testingWarning message:In lfproc(x, y, weights = weights, cens = cens, base = base, geth = geth,  :  Estimated rdf < 1.0; not estimating variance
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="deseq2 (Test #14)" name="13" time="57.568320512771606">
+        
+            
+            <system-out><![CDATA[
+            primary factor: Treatment ---------------------No size factor was usedDESeq2 run informationsample table:                                TreatmentGSM461176_untreat_single.counts UntreatedGSM461177_untreat_paired.counts UntreatedGSM461178_untreat_paired.counts UntreatedGSM461182_untreat_single.counts UntreatedGSM461179_treat_single.counts     TreatedGSM461180_treat_paired.counts     TreatedGSM461181_treat_paired.counts     Treateddesign formula:~Treatment7 samples with counts over 3999 genesApplied default - beta prior off[1] "use_beta_prior is set to FALSE"using disperion fit type: parametric summary of resultsTreatment: Treated vs Untreatedout of 2921 with nonzero total read countadjusted p-value < 0.1LFC > 0 (up)       : 149, 5.1%LFC < 0 (down)     : 155, 5.3%outliers [1]       : 2, 0.068%low counts [2]     : 170, 5.8%(mean count < 3)[1] see 'cooksCutoff' argument of ?results[2] see 'independentFiltering' argument of ?resultsNULLSession information:R version 4.3.1 (2023-06-16)Platform: x86_64-conda-linux-gnu (64-bit)Running under: Debian GNU/Linux 10 (buster)Matrix products: defaultBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0locale: [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8        [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8    [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          [10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   time zone: NAtzcode source: system (glibc)attached base packages:[1] stats4    tools     stats     graphics  grDevices utils     datasets [8] methods   base     other attached packages: [1] rjson_0.2.21                gplots_3.1.3                [3] RColorBrewer_1.1-3          DESeq2_1.40.2               [5] SummarizedExperiment_1.30.2 Biobase_2.60.0              [7] MatrixGenerics_1.12.2       matrixStats_1.0.0           [9] GenomicRanges_1.52.0        GenomeInfoDb_1.36.1        [11] IRanges_2.34.1              S4Vectors_0.38.1           [13] BiocGenerics_0.46.0         getopt_1.20.3              loaded via a namespace (and not attached): [1] utf8_1.2.3              generics_0.1.3          bitops_1.0-7            [4] KernSmooth_2.23-22      gtools_3.9.4            lattice_0.21-8          [7] caTools_1.18.2          magrittr_2.0.3          grid_4.3.1             [10] Matrix_1.6-0            fansi_1.0.4             scales_1.2.1           [13] codetools_0.2-19        cli_3.6.1               rlang_1.1.1            [16] crayon_1.5.2            XVector_0.40.0          munsell_0.5.0          [19] DelayedArray_0.26.6     S4Arrays_1.0.4          parallel_4.3.1         [22] BiocParallel_1.34.2     dplyr_1.1.2             colorspace_2.1-0       [25] ggplot2_3.4.2           locfit_1.5-9.8          GenomeInfoDbData_1.2.10[28] vctrs_0.6.3             R6_2.5.1                lifecycle_1.0.3        [31] zlibbioc_1.46.0         pkgconfig_2.0.3         pillar_1.9.0           [34] gtable_0.3.3            glue_1.6.2              Rcpp_1.0.11            [37] tibble_3.2.1            tidyselect_1.2.0        compiler_4.3.1         [40] RCurl_1.98-1.12        
+            ]]></system-out>
+            <system-err><![CDATA[
+            estimating size factorsestimating dispersionsgene-wise dispersion estimatesmean-dispersion relationshipfinal dispersion estimatesfitting model and testing
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="deseq2 (Test #3)" name="2" time="94.62792301177979">
+        
+            
+            <system-out><![CDATA[
+            primary factor: Treatment ---------------------No size factor was usedDESeq2 run informationsample table:                                TreatmentGSM461176_untreat_single.counts UntreatedGSM461177_untreat_paired.counts UntreatedGSM461178_untreat_paired.counts UntreatedGSM461182_untreat_single.counts UntreatedGSM461179_treat_single.counts     TreatedGSM461180_treat_paired.counts     TreatedGSM461181_treat_paired.counts     Treateddesign formula:~W_1 + Treatment7 samples with counts over 3999 genesApplied default - beta prior off[1] "use_beta_prior is set to FALSE"using disperion fit type: parametric summary of resultsTreatment: Treated vs Untreatedout of 3429 with nonzero total read countadjusted p-value < 0.1LFC > 0 (up)       : 177, 5.2%LFC < 0 (down)     : 206, 6%outliers [1]       : 0, 0%low counts [2]     : 725, 21%(mean count < 4)[1] see 'cooksCutoff' argument of ?results[2] see 'independentFiltering' argument of ?resultsNULLSession information:R version 4.3.1 (2023-06-16)Platform: x86_64-conda-linux-gnu (64-bit)Running under: Debian GNU/Linux 10 (buster)Matrix products: defaultBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0locale: [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8        [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8    [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          [10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   time zone: NAtzcode source: system (glibc)attached base packages:[1] stats4    tools     stats     graphics  grDevices utils     datasets [8] methods   base     other attached packages: [1] rjson_0.2.21                gplots_3.1.3                [3] RColorBrewer_1.1-3          DESeq2_1.40.2               [5] SummarizedExperiment_1.30.2 Biobase_2.60.0              [7] MatrixGenerics_1.12.2       matrixStats_1.0.0           [9] GenomicRanges_1.52.0        GenomeInfoDb_1.36.1        [11] IRanges_2.34.1              S4Vectors_0.38.1           [13] BiocGenerics_0.46.0         getopt_1.20.3              loaded via a namespace (and not attached): [1] utf8_1.2.3              generics_0.1.3          bitops_1.0-7            [4] KernSmooth_2.23-22      gtools_3.9.4            lattice_0.21-8          [7] caTools_1.18.2          magrittr_2.0.3          grid_4.3.1             [10] Matrix_1.6-0            fansi_1.0.4             scales_1.2.1           [13] codetools_0.2-19        cli_3.6.1               rlang_1.1.1            [16] crayon_1.5.2            XVector_0.40.0          munsell_0.5.0          [19] DelayedArray_0.26.6     S4Arrays_1.0.4          parallel_4.3.1         [22] BiocParallel_1.34.2     dplyr_1.1.2             colorspace_2.1-0       [25] ggplot2_3.4.2           locfit_1.5-9.8          GenomeInfoDbData_1.2.10[28] vctrs_0.6.3             R6_2.5.1                lifecycle_1.0.3        [31] zlibbioc_1.46.0         pkgconfig_2.0.3         pillar_1.9.0           [34] gtable_0.3.3            glue_1.6.2              Rcpp_1.0.11            [37] tibble_3.2.1            tidyselect_1.2.0        compiler_4.3.1         [40] RCurl_1.98-1.12        
+            ]]></system-out>
+            <system-err><![CDATA[
+            estimating size factorsestimating dispersionsgene-wise dispersion estimatesmean-dispersion relationshipfinal dispersion estimatesfitting model and testing
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="deseq2 (Test #4)" name="3" time="63.35804200172424">
+        
+            
+            <system-out><![CDATA[
+            primary factor: Treatment ---------------------No size factor was usedDESeq2 run informationsample table:                                         TreatmentGSM461176_untreat_single.counts.noheader UntreatedGSM461177_untreat_paired.counts.noheader UntreatedGSM461178_untreat_paired.counts.noheader UntreatedGSM461182_untreat_single.counts.noheader UntreatedGSM461179_treat_single.counts.noheader     TreatedGSM461180_treat_paired.counts.noheader     TreatedGSM461181_treat_paired.counts.noheader     Treateddesign formula:~Treatment7 samples with counts over 3999 genes[1] "use_beta_prior is set to TRUE"using disperion fit type: parametric summary of resultsTreatment: Treated vs Untreatedout of 3429 with nonzero total read countadjusted p-value < 0.1LFC > 0 (up)       : 148, 4.3%LFC < 0 (down)     : 152, 4.4%outliers [1]       : 2, 0.058%low counts [2]     : 659, 19%(mean count < 3)[1] see 'cooksCutoff' argument of ?results[2] see 'independentFiltering' argument of ?resultsNULLSession information:R version 4.3.1 (2023-06-16)Platform: x86_64-conda-linux-gnu (64-bit)Running under: Debian GNU/Linux 10 (buster)Matrix products: defaultBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0locale: [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8        [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8    [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          [10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   time zone: NAtzcode source: system (glibc)attached base packages:[1] stats4    tools     stats     graphics  grDevices utils     datasets [8] methods   base     other attached packages: [1] rjson_0.2.21                gplots_3.1.3                [3] RColorBrewer_1.1-3          DESeq2_1.40.2               [5] SummarizedExperiment_1.30.2 Biobase_2.60.0              [7] MatrixGenerics_1.12.2       matrixStats_1.0.0           [9] GenomicRanges_1.52.0        GenomeInfoDb_1.36.1        [11] IRanges_2.34.1              S4Vectors_0.38.1           [13] BiocGenerics_0.46.0         getopt_1.20.3              loaded via a namespace (and not attached): [1] utf8_1.2.3              generics_0.1.3          bitops_1.0-7            [4] KernSmooth_2.23-22      gtools_3.9.4            lattice_0.21-8          [7] caTools_1.18.2          magrittr_2.0.3          grid_4.3.1             [10] Matrix_1.6-0            fansi_1.0.4             scales_1.2.1           [13] codetools_0.2-19        cli_3.6.1               rlang_1.1.1            [16] crayon_1.5.2            XVector_0.40.0          munsell_0.5.0          [19] DelayedArray_0.26.6     S4Arrays_1.0.4          parallel_4.3.1         [22] BiocParallel_1.34.2     dplyr_1.1.2             colorspace_2.1-0       [25] ggplot2_3.4.2           locfit_1.5-9.8          GenomeInfoDbData_1.2.10[28] vctrs_0.6.3             R6_2.5.1                lifecycle_1.0.3        [31] zlibbioc_1.46.0         pkgconfig_2.0.3         pillar_1.9.0           [34] gtable_0.3.3            glue_1.6.2              Rcpp_1.0.11            [37] tibble_3.2.1            tidyselect_1.2.0        compiler_4.3.1         [40] RCurl_1.98-1.12        
+            ]]></system-out>
+            <system-err><![CDATA[
+            estimating size factorsestimating dispersionsgene-wise dispersion estimatesmean-dispersion relationshipfinal dispersion estimatesfitting model and testing
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="deseq2 (Test #5)" name="4" time="22.439173221588135">
+        
+            <error type="error" message="Input staging problem: Job in error state.. tool_id: upload1, exit_code: None, stderr: ."><![CDATA[
+                { "execution_problem": "Input staging problem: Job in error state.. tool_id: upload1, exit_code: None, stderr: .", "status": "error", "test_index": 4, "time_seconds": 22.439173221588135, "tool_id": "deseq2", "tool_version": "2.11.40.8+galaxy0"}
+            ]]></error>
+        
+    </testcase>
+    
+    <testcase classname="deseq2 (Test #6)" name="5" time="62.19812083244324">
+        
+            
+            <system-out><![CDATA[
+            primary factor: Treatment ---------------------No size factor was usedDESeq2 run informationsample table:                       Treatmentsailfish_quant.sf4.tab Untreatedsailfish_quant.sf5.tab Untreatedsailfish_quant.sf6.tab Untreatedsailfish_quant.sf1.tab   Treatedsailfish_quant.sf2.tab   Treatedsailfish_quant.sf3.tab   Treateddesign formula:~Treatment6 samples with counts over 10 genes[1] "use_beta_prior is set to TRUE"using disperion fit type: parametric summary of resultsTreatment: Treated vs Untreatedout of 8 with nonzero total read countadjusted p-value < 0.1LFC > 0 (up)       : 0, 0%LFC < 0 (down)     : 0, 0%outliers [1]       : 0, 0%low counts [2]     : 0, 0%(mean count < 0)[1] see 'cooksCutoff' argument of ?results[2] see 'independentFiltering' argument of ?resultsNULLSession information:R version 4.3.1 (2023-06-16)Platform: x86_64-conda-linux-gnu (64-bit)Running under: Debian GNU/Linux 10 (buster)Matrix products: defaultBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0locale: [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8        [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8    [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          [10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   time zone: NAtzcode source: system (glibc)attached base packages:[1] stats4    tools     stats     graphics  grDevices utils     datasets [8] methods   base     other attached packages: [1] GenomicFeatures_1.52.1      AnnotationDbi_1.62.2        [3] tximport_1.28.0             rjson_0.2.21                [5] gplots_3.1.3                RColorBrewer_1.1-3          [7] DESeq2_1.40.2               SummarizedExperiment_1.30.2 [9] Biobase_2.60.0              MatrixGenerics_1.12.2      [11] matrixStats_1.0.0           GenomicRanges_1.52.0       [13] GenomeInfoDb_1.36.1         IRanges_2.34.1             [15] S4Vectors_0.38.1            BiocGenerics_0.46.0        [17] getopt_1.20.3              loaded via a namespace (and not attached): [1] tidyselect_1.2.0         dplyr_1.1.2              blob_1.2.4               [4] filelock_1.0.2           Biostrings_2.68.1        bitops_1.0-7             [7] fastmap_1.1.1            RCurl_1.98-1.12          BiocFileCache_2.8.0     [10] GenomicAlignments_1.36.0 XML_3.99-0.14            digest_0.6.33           [13] lifecycle_1.0.3          KEGGREST_1.40.0          RSQLite_2.3.1           [16] magrittr_2.0.3           compiler_4.3.1           rlang_1.1.1             [19] progress_1.2.2           yaml_2.3.7               utf8_1.2.3              [22] rtracklayer_1.60.0       prettyunits_1.1.1        S4Arrays_1.0.4          [25] bit_4.0.5                curl_5.0.1               DelayedArray_0.26.6     [28] xml2_1.3.5               BiocParallel_1.34.2      KernSmooth_2.23-22      [31] grid_4.3.1               fansi_1.0.4              caTools_1.18.2          [34] colorspace_2.1-0         ggplot2_3.4.2            scales_1.2.1            [37] gtools_3.9.4             biomaRt_2.56.1           cli_3.6.1               [40] crayon_1.5.2             generics_0.1.3           httr_1.4.6              [43] DBI_1.1.3                cachem_1.0.8             stringr_1.5.0           [46] zlibbioc_1.46.0          parallel_4.3.1           restfulr_0.0.15         [49] XVector_0.40.0           vctrs_0.6.3              Matrix_1.6-0            [52] jsonlite_1.8.7           hms_1.1.3                bit64_4.0.5             [55] locfit_1.5-9.8           glue_1.6.2               codetools_0.2-19        [58] stringi_1.7.12           gtable_0.3.3             BiocIO_1.10.0           [61] munsell_0.5.0            tibble_3.2.1             pillar_1.9.0            [64] rappdirs_0.3.3           GenomeInfoDbData_1.2.10  R6_2.5.1                [67] dbplyr_2.3.3             lattice_0.21-8           Rsamtools_2.16.0        [70] png_0.1-8                memoise_2.0.1            Rcpp_1.0.11             [73] pkgconfig_2.0.3         
+            ]]></system-out>
+            <system-err><![CDATA[
+            Import genomic features from the file as a GRanges object ... OKPrepare the 'metadata' data frame ... OKMake the TxDb object ... OK'select()' returned 1:1 mapping between keys and columnsreading in files with read.delim (install 'readr' package for speed up)1 2 3 4 5 6 reading in files with read.delim (install 'readr' package for speed up)1 2 3 4 5 6 summarizing abundancesummarizing countssummarizing lengthusing counts and average transcript lengths from tximportestimating size factorsusing 'avgTxLength' from assays(dds), correcting for library sizeestimating dispersionsgene-wise dispersion estimatesmean-dispersion relationship-- note: fitType='parametric', but the dispersion trend was not well captured by the   function: y = a/x + b, and a local regression fit was automatically substituted.   specify fitType='local' or 'mean' to avoid this message next time.final dispersion estimatesfitting model and testingWarning message:In lfproc(x, y, weights = weights, cens = cens, base = base, geth = geth,  :  Estimated rdf < 1.0; not estimating variance
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="deseq2 (Test #7)" name="6" time="62.30976128578186">
+        
+            
+            <system-out><![CDATA[
+            primary factor: Treatment ---------------------No size factor was usedDESeq2 run informationsample table:                       Treatmentsailfish_quant.sf4.tab Untreatedsailfish_quant.sf5.tab Untreatedsailfish_quant.sf6.tab Untreatedsailfish_quant.sf1.tab   Treatedsailfish_quant.sf2.tab   Treatedsailfish_quant.sf3.tab   Treateddesign formula:~Treatment6 samples with counts over 11 genes[1] "use_beta_prior is set to TRUE"using disperion fit type: parametric summary of resultsTreatment: Treated vs Untreatedout of 9 with nonzero total read countadjusted p-value < 0.1LFC > 0 (up)       : 0, 0%LFC < 0 (down)     : 0, 0%outliers [1]       : 0, 0%low counts [2]     : 0, 0%(mean count < 0)[1] see 'cooksCutoff' argument of ?results[2] see 'independentFiltering' argument of ?resultsNULLSession information:R version 4.3.1 (2023-06-16)Platform: x86_64-conda-linux-gnu (64-bit)Running under: Debian GNU/Linux 10 (buster)Matrix products: defaultBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0locale: [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8        [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8    [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          [10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   time zone: NAtzcode source: system (glibc)attached base packages:[1] stats4    tools     stats     graphics  grDevices utils     datasets [8] methods   base     other attached packages: [1] GenomicFeatures_1.52.1      AnnotationDbi_1.62.2        [3] tximport_1.28.0             rjson_0.2.21                [5] gplots_3.1.3                RColorBrewer_1.1-3          [7] DESeq2_1.40.2               SummarizedExperiment_1.30.2 [9] Biobase_2.60.0              MatrixGenerics_1.12.2      [11] matrixStats_1.0.0           GenomicRanges_1.52.0       [13] GenomeInfoDb_1.36.1         IRanges_2.34.1             [15] S4Vectors_0.38.1            BiocGenerics_0.46.0        [17] getopt_1.20.3              loaded via a namespace (and not attached): [1] tidyselect_1.2.0         dplyr_1.1.2              blob_1.2.4               [4] filelock_1.0.2           Biostrings_2.68.1        bitops_1.0-7             [7] fastmap_1.1.1            RCurl_1.98-1.12          BiocFileCache_2.8.0     [10] GenomicAlignments_1.36.0 XML_3.99-0.14            digest_0.6.33           [13] lifecycle_1.0.3          KEGGREST_1.40.0          RSQLite_2.3.1           [16] magrittr_2.0.3           compiler_4.3.1           rlang_1.1.1             [19] progress_1.2.2           yaml_2.3.7               utf8_1.2.3              [22] rtracklayer_1.60.0       prettyunits_1.1.1        S4Arrays_1.0.4          [25] bit_4.0.5                curl_5.0.1               DelayedArray_0.26.6     [28] xml2_1.3.5               BiocParallel_1.34.2      KernSmooth_2.23-22      [31] grid_4.3.1               fansi_1.0.4              caTools_1.18.2          [34] colorspace_2.1-0         ggplot2_3.4.2            scales_1.2.1            [37] gtools_3.9.4             biomaRt_2.56.1           cli_3.6.1               [40] crayon_1.5.2             generics_0.1.3           httr_1.4.6              [43] DBI_1.1.3                cachem_1.0.8             stringr_1.5.0           [46] zlibbioc_1.46.0          parallel_4.3.1           restfulr_0.0.15         [49] XVector_0.40.0           vctrs_0.6.3              Matrix_1.6-0            [52] jsonlite_1.8.7           hms_1.1.3                bit64_4.0.5             [55] locfit_1.5-9.8           glue_1.6.2               codetools_0.2-19        [58] stringi_1.7.12           gtable_0.3.3             BiocIO_1.10.0           [61] munsell_0.5.0            tibble_3.2.1             pillar_1.9.0            [64] rappdirs_0.3.3           GenomeInfoDbData_1.2.10  R6_2.5.1                [67] dbplyr_2.3.3             lattice_0.21-8           Rsamtools_2.16.0        [70] png_0.1-8                memoise_2.0.1            Rcpp_1.0.11             [73] pkgconfig_2.0.3         
+            ]]></system-out>
+            <system-err><![CDATA[
+            Import genomic features from the file as a GRanges object ... OKPrepare the 'metadata' data frame ... OKMake the TxDb object ... OK'select()' returned 1:1 mapping between keys and columnsreading in files with read.delim (install 'readr' package for speed up)1 2 3 4 5 6 reading in files with read.delim (install 'readr' package for speed up)1 2 3 4 5 6 summarizing abundancesummarizing countssummarizing lengthusing counts and average transcript lengths from tximportWarning message:In .get_cds_IDX(mcols0$type, mcols0$phase) :  The "phase" metadata column contains non-NA values for features of type  stop_codon. This information was ignored.estimating size factorsusing 'avgTxLength' from assays(dds), correcting for library sizeestimating dispersionsgene-wise dispersion estimatesmean-dispersion relationship-- note: fitType='parametric', but the dispersion trend was not well captured by the   function: y = a/x + b, and a local regression fit was automatically substituted.   specify fitType='local' or 'mean' to avoid this message next time.final dispersion estimatesfitting model and testingWarning message:In lfproc(x, y, weights = weights, cens = cens, base = base, geth = geth,  :  Estimated rdf < 1.0; not estimating variance
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="deseq2 (Test #8)" name="7" time="58.24477005004883">
+        
+            
+            <system-out><![CDATA[
+            primary factor: Treatment ---------------------No size factor was usedDESeq2 run informationsample table:  Treatment4 Untreated5 Untreated6 Untreated1   Treated2   Treated3   Treateddesign formula:~Treatment6 samples with counts over 10 genes[1] "use_beta_prior is set to TRUE"using disperion fit type: parametric summary of resultsTreatment: Treated vs Untreatedout of 8 with nonzero total read countadjusted p-value < 0.1LFC > 0 (up)       : 0, 0%LFC < 0 (down)     : 0, 0%outliers [1]       : 0, 0%low counts [2]     : 0, 0%(mean count < 0)[1] see 'cooksCutoff' argument of ?results[2] see 'independentFiltering' argument of ?resultsNULLSession information:R version 4.3.1 (2023-06-16)Platform: x86_64-conda-linux-gnu (64-bit)Running under: Debian GNU/Linux 10 (buster)Matrix products: defaultBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0locale: [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8        [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8    [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          [10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   time zone: NAtzcode source: system (glibc)attached base packages:[1] stats4    tools     stats     graphics  grDevices utils     datasets [8] methods   base     other attached packages: [1] tximport_1.28.0             rjson_0.2.21                [3] gplots_3.1.3                RColorBrewer_1.1-3          [5] DESeq2_1.40.2               SummarizedExperiment_1.30.2 [7] Biobase_2.60.0              MatrixGenerics_1.12.2       [9] matrixStats_1.0.0           GenomicRanges_1.52.0       [11] GenomeInfoDb_1.36.1         IRanges_2.34.1             [13] S4Vectors_0.38.1            BiocGenerics_0.46.0        [15] getopt_1.20.3              loaded via a namespace (and not attached): [1] utf8_1.2.3              generics_0.1.3          bitops_1.0-7            [4] KernSmooth_2.23-22      gtools_3.9.4            lattice_0.21-8          [7] caTools_1.18.2          magrittr_2.0.3          grid_4.3.1             [10] jsonlite_1.8.7          Matrix_1.6-0            fansi_1.0.4            [13] scales_1.2.1            codetools_0.2-19        cli_3.6.1              [16] rlang_1.1.1             crayon_1.5.2            XVector_0.40.0         [19] munsell_0.5.0           DelayedArray_0.26.6     S4Arrays_1.0.4         [22] parallel_4.3.1          BiocParallel_1.34.2     dplyr_1.1.2            [25] colorspace_2.1-0        ggplot2_3.4.2           locfit_1.5-9.8         [28] GenomeInfoDbData_1.2.10 vctrs_0.6.3             R6_2.5.1               [31] lifecycle_1.0.3         zlibbioc_1.46.0         pkgconfig_2.0.3        [34] pillar_1.9.0            gtable_0.3.3            glue_1.6.2             [37] Rcpp_1.0.11             tibble_3.2.1            tidyselect_1.2.0       [40] compiler_4.3.1          RCurl_1.98-1.12        
+            ]]></system-out>
+            <system-err><![CDATA[
+            reading in files with read.delim (install 'readr' package for speed up)1 2 3 4 5 6 summarizing abundancesummarizing countssummarizing lengthusing counts and average transcript lengths from tximportestimating size factorsusing 'avgTxLength' from assays(dds), correcting for library sizeestimating dispersionsgene-wise dispersion estimatesmean-dispersion relationship-- note: fitType='parametric', but the dispersion trend was not well captured by the   function: y = a/x + b, and a local regression fit was automatically substituted.   specify fitType='local' or 'mean' to avoid this message next time.final dispersion estimatesfitting model and testingWarning message:In lfproc(x, y, weights = weights, cens = cens, base = base, geth = geth,  :  Estimated rdf < 1.0; not estimating variance
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="deseq2 (Test #9)" name="8" time="56.94338631629944">
+        
+            
+            <system-out><![CDATA[
+            primary factor: Treatment ---------------------No size factor was usedDESeq2 run informationsample table:  Treatment4 Untreated5 Untreated6 Untreated1   Treated2   Treated3   Treateddesign formula:~Treatment6 samples with counts over 10 genes[1] "use_beta_prior is set to TRUE"using disperion fit type: parametric Session information:R version 4.3.1 (2023-06-16)Platform: x86_64-conda-linux-gnu (64-bit)Running under: Debian GNU/Linux 10 (buster)Matrix products: defaultBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0locale: [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8        [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8    [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          [10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   time zone: NAtzcode source: system (glibc)attached base packages:[1] stats4    tools     stats     graphics  grDevices utils     datasets [8] methods   base     other attached packages: [1] tximport_1.28.0             rjson_0.2.21                [3] gplots_3.1.3                RColorBrewer_1.1-3          [5] DESeq2_1.40.2               SummarizedExperiment_1.30.2 [7] Biobase_2.60.0              MatrixGenerics_1.12.2       [9] matrixStats_1.0.0           GenomicRanges_1.52.0       [11] GenomeInfoDb_1.36.1         IRanges_2.34.1             [13] S4Vectors_0.38.1            BiocGenerics_0.46.0        [15] getopt_1.20.3              loaded via a namespace (and not attached): [1] utf8_1.2.3              generics_0.1.3          bitops_1.0-7            [4] KernSmooth_2.23-22      gtools_3.9.4            lattice_0.21-8          [7] caTools_1.18.2          magrittr_2.0.3          grid_4.3.1             [10] jsonlite_1.8.7          Matrix_1.6-0            fansi_1.0.4            [13] scales_1.2.1            codetools_0.2-19        cli_3.6.1              [16] rlang_1.1.1             crayon_1.5.2            XVector_0.40.0         [19] munsell_0.5.0           DelayedArray_0.26.6     S4Arrays_1.0.4         [22] parallel_4.3.1          BiocParallel_1.34.2     dplyr_1.1.2            [25] colorspace_2.1-0        ggplot2_3.4.2           locfit_1.5-9.8         [28] GenomeInfoDbData_1.2.10 vctrs_0.6.3             R6_2.5.1               [31] lifecycle_1.0.3         zlibbioc_1.46.0         pkgconfig_2.0.3        [34] pillar_1.9.0            gtable_0.3.3            glue_1.6.2             [37] Rcpp_1.0.11             tibble_3.2.1            tidyselect_1.2.0       [40] compiler_4.3.1          RCurl_1.98-1.12        
+            ]]></system-out>
+            <system-err><![CDATA[
+            reading in files with read.delim (install 'readr' package for speed up)1 2 3 4 5 6 summarizing abundancesummarizing countssummarizing lengthusing counts and average transcript lengths from tximportestimating size factorsusing 'avgTxLength' from assays(dds), correcting for library sizeestimating dispersionsgene-wise dispersion estimatesmean-dispersion relationship-- note: fitType='parametric', but the dispersion trend was not well captured by the   function: y = a/x + b, and a local regression fit was automatically substituted.   specify fitType='local' or 'mean' to avoid this message next time.final dispersion estimatesfitting model and testingWarning message:In lfproc(x, y, weights = weights, cens = cens, base = base, geth = geth,  :  Estimated rdf < 1.0; not estimating variance
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="deseq2 (Test #10)" name="9" time="62.47184181213379">
+        
+            
+            <system-out><![CDATA[
+            primary factor: Treatment ---------------------No size factor was usedDESeq2 run informationsample table:                       Treatmentsailfish_quant.sf4.tab Untreatedsailfish_quant.sf5.tab Untreatedsailfish_quant.sf6.tab Untreatedsailfish_quant.sf1.tab   Treatedsailfish_quant.sf2.tab   Treatedsailfish_quant.sf3.tab   Treateddesign formula:~Treatment6 samples with counts over 11 genes[1] "use_beta_prior is set to TRUE"using disperion fit type: parametric summary of resultsTreatment: Treated vs Untreatedout of 9 with nonzero total read countadjusted p-value < 0.1LFC > 0 (up)       : 0, 0%LFC < 0 (down)     : 0, 0%outliers [1]       : 0, 0%low counts [2]     : 0, 0%(mean count < 0)[1] see 'cooksCutoff' argument of ?results[2] see 'independentFiltering' argument of ?resultsNULLSession information:R version 4.3.1 (2023-06-16)Platform: x86_64-conda-linux-gnu (64-bit)Running under: Debian GNU/Linux 10 (buster)Matrix products: defaultBLAS/LAPACK: /usr/local/lib/libopenblasp-r0.3.23.so;  LAPACK version 3.11.0locale: [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8        [4] LC_COLLATE=C.UTF-8     LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8    [7] LC_PAPER=C.UTF-8       LC_NAME=C              LC_ADDRESS=C          [10] LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   time zone: NAtzcode source: system (glibc)attached base packages:[1] stats4    tools     stats     graphics  grDevices utils     datasets [8] methods   base     other attached packages: [1] GenomicFeatures_1.52.1      AnnotationDbi_1.62.2        [3] tximport_1.28.0             rjson_0.2.21                [5] gplots_3.1.3                RColorBrewer_1.1-3          [7] DESeq2_1.40.2               SummarizedExperiment_1.30.2 [9] Biobase_2.60.0              MatrixGenerics_1.12.2      [11] matrixStats_1.0.0           GenomicRanges_1.52.0       [13] GenomeInfoDb_1.36.1         IRanges_2.34.1             [15] S4Vectors_0.38.1            BiocGenerics_0.46.0        [17] getopt_1.20.3              loaded via a namespace (and not attached): [1] tidyselect_1.2.0         dplyr_1.1.2              blob_1.2.4               [4] filelock_1.0.2           Biostrings_2.68.1        bitops_1.0-7             [7] fastmap_1.1.1            RCurl_1.98-1.12          BiocFileCache_2.8.0     [10] GenomicAlignments_1.36.0 XML_3.99-0.14            digest_0.6.33           [13] lifecycle_1.0.3          KEGGREST_1.40.0          RSQLite_2.3.1           [16] magrittr_2.0.3           compiler_4.3.1           rlang_1.1.1             [19] progress_1.2.2           yaml_2.3.7               utf8_1.2.3              [22] rtracklayer_1.60.0       prettyunits_1.1.1        S4Arrays_1.0.4          [25] bit_4.0.5                curl_5.0.1               DelayedArray_0.26.6     [28] xml2_1.3.5               BiocParallel_1.34.2      KernSmooth_2.23-22      [31] grid_4.3.1               fansi_1.0.4              caTools_1.18.2          [34] colorspace_2.1-0         ggplot2_3.4.2            scales_1.2.1            [37] gtools_3.9.4             biomaRt_2.56.1           cli_3.6.1               [40] crayon_1.5.2             generics_0.1.3           httr_1.4.6              [43] DBI_1.1.3                cachem_1.0.8             stringr_1.5.0           [46] zlibbioc_1.46.0          parallel_4.3.1           restfulr_0.0.15         [49] XVector_0.40.0           vctrs_0.6.3              Matrix_1.6-0            [52] jsonlite_1.8.7           hms_1.1.3                bit64_4.0.5             [55] locfit_1.5-9.8           glue_1.6.2               codetools_0.2-19        [58] stringi_1.7.12           gtable_0.3.3             BiocIO_1.10.0           [61] munsell_0.5.0            tibble_3.2.1             pillar_1.9.0            [64] rappdirs_0.3.3           GenomeInfoDbData_1.2.10  R6_2.5.1                [67] dbplyr_2.3.3             lattice_0.21-8           Rsamtools_2.16.0        [70] png_0.1-8                memoise_2.0.1            Rcpp_1.0.11             [73] pkgconfig_2.0.3         
+            ]]></system-out>
+            <system-err><![CDATA[
+            Import genomic features from the file as a GRanges object ... OKPrepare the 'metadata' data frame ... OKMake the TxDb object ... OK'select()' returned 1:1 mapping between keys and columnsreading in files with read.delim (install 'readr' package for speed up)1 2 3 4 5 6 reading in files with read.delim (install 'readr' package for speed up)1 2 3 4 5 6 summarizing abundancesummarizing countssummarizing lengthusing counts and average transcript lengths from tximportWarning message:In .get_cds_IDX(mcols0$type, mcols0$phase) :  The "phase" metadata column contains non-NA values for features of type  stop_codon. This information was ignored.estimating size factorsusing 'avgTxLength' from assays(dds), correcting for library sizeestimating dispersionsgene-wise dispersion estimatesmean-dispersion relationship-- note: fitType='parametric', but the dispersion trend was not well captured by the   function: y = a/x + b, and a local regression fit was automatically substituted.   specify fitType='local' or 'mean' to avoid this message next time.final dispersion estimatesfitting model and testingWarning message:In lfproc(x, y, weights = weights, cens = cens, base = base, geth = geth,  :  Estimated rdf < 1.0; not estimating variance
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="mummer_mummer (Test #1)" name="0" time="49.861254930496216">
+        
+            
+            <system-out><![CDATA[
+            gnuplot 5.4 patchlevel 8
+            ]]></system-out>
+            <system-err><![CDATA[
+            Reading mummer file /galaxy/server/database/objects/1/6/4/dataset_164d6be6-3cdd-4e6c-93cf-1a036f945c95.dat (use mummer -c)Writing plot files out.fplot, out.rplot, out.hplotWriting gnuplot script out.gpRendering plot out.pngWARNING: Unable to run 'false out.gp', Inappropriate ioctl for device
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="poretools_yield_plot (Test #1)" name="0" time="51.16406869888306">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="poretools_yield_plot (Test #2)" name="1" time="10.240379810333252">
+        
+            <error type="error" message="Input staging problem: Job in error state.. tool_id: upload1, exit_code: None, stderr: ."><![CDATA[
+                { "execution_problem": "Input staging problem: Job in error state.. tool_id: upload1, exit_code: None, stderr: .", "status": "error", "test_index": 1, "time_seconds": 10.240379810333252, "tool_id": "poretools_yield_plot", "tool_version": "0.6.1a1.1"}
+            ]]></error>
+        
+    </testcase>
+    
+    <testcase classname="qualimap_bamqc (Test #1)" name="0" time="67.03019905090332">
+        
+            
+                <error type="error" message="Tool exit code: None"><![CDATA[
+                    { "inputs": {  "input1": {   "id": "1f07485a978ccd9f",   "src": "hda"  } }, "job": {  "command_line": "export JAVA_OPTS=\"-Djava.awt.headless=true -Xmx${GALAXY_MEMORY_MB:-1024}m\" \u0026\u0026    ln -s \u0027/galaxy/server/database/objects/2/d/b/dataset_2db83314-7499-4f75-8104-39f283401004.dat\u0027 \u0027test_mapped_reads_bam\u0027 \u0026\u0026  qualimap bamqc -bam \u0027test_mapped_reads_bam\u0027 -outdir results -outformat html --collect-overlap-pairs -nw 400 --paint-chromosome-limits -hm 3  --skip-duplicated --skip-dup-mode 0 -nt ${GALAXY_SLOTS:-1} \u0026\u0026   sed \u0027s|images_qualimapReport/||g;s|css/||g\u0027 results/qualimapReport.html \u003e \u0027/galaxy/server/database/objects/2/6/0/dataset_260807f4-a047-4d2e-b870-c72d8bb914e9.dat\u0027 \u0026\u0026 mkdir \u0027/galaxy/server/database/objects/2/6/0/dataset_260807f4-a047-4d2e-b870-c72d8bb914e9_files\u0027 \u0026\u0026 mv results/css/*.css \u0027/galaxy/server/database/objects/2/6/0/dataset_260807f4-a047-4d2e-b870-c72d8bb914e9_files\u0027 \u0026\u0026 mv results/css/*.png \u0027/galaxy/server/database/objects/2/6/0/dataset_260807f4-a047-4d2e-b870-c72d8bb914e9_files\u0027 \u0026\u0026 if [ -d results/images_qualimapReport ]; then mv results/images_qualimapReport/* \u0027/galaxy/server/database/objects/2/6/0/dataset_260807f4-a047-4d2e-b870-c72d8bb914e9_files\u0027 \u0026\u0026 for file in $(ls -A results/raw_data_qualimapReport); do mv \"results/raw_data_qualimapReport/$file\" `echo \"results/$file\" | sed \u0027s/(//;s/)//\u0027`; done fi \u0026\u0026 mv results/genome_results.txt results/summary_report.txt",  "command_version": null,  "copied_from_job_id": null,  "create_time": "2024-09-15T13:27:17.242381",  "dependencies": [],  "exit_code": null,  "external_id": "gxy-fzmws",  "galaxy_version": "23.1",  "history_id": "8dc7d2120e767ce3",  "id": "dcd411dcf16d2d3d",  "inputs": {   "input1": {    "id": "1f07485a978ccd9f",    "src": "hda",    "uuid": "2db83314-7499-4f75-8104-39f283401004"   }  },  "job_messages": null,  "job_metrics": [],  "job_stderr": null,  "job_stdout": null,  "model_class": "Job",  "output_collections": {   "raw_data": {    "id": "f852116c2cb8bf75",    "src": "hdca"   }  },  "outputs": {   "output_html": {    "id": "f6f6ba539128c5ec",    "src": "hda",    "uuid": "260807f4-a047-4d2e-b870-c72d8bb914e9"   },   "raw_data|__part__|coverage_across_reference": {    "id": "01d9f81d81c0d49a",    "src": "hda",    "uuid": "d2eb71ed-45c6-4054-ae0c-eb03a8b13f84"   },   "raw_data|__part__|coverage_histogram": {    "id": "397a2ea17fba8a88",    "src": "hda",    "uuid": "b123e199-2e0e-4f36-8ede-699c3e50bd19"   },   "raw_data|__part__|duplication_rate_histogram": {    "id": "df046ffaf5c29b24",    "src": "hda",    "uuid": "a6e69819-0712-43c7-9807-62d26be7634c"   },   "raw_data|__part__|genome_fraction_coverage": {    "id": "3bf97ccf4441dff2",    "src": "hda",    "uuid": "2b1006e1-8ea5-4e84-878a-4df546f797bf"   },   "raw_data|__part__|genome_results": {    "id": "e5070d675615cf68",    "src": "hda",    "uuid": "996b2f2e-6e68-424f-ba69-eb684589c3aa"   },   "raw_data|__part__|homopolymer_indels": {    "id": "4c5adca9293d8c1d",    "src": "hda",    "uuid": "41cffebf-fd2a-4d66-a4c1-c4512ca255a6"   },   "raw_data|__part__|insert_size_across_reference": {    "id": "d492b576a5242295",    "src": "hda",    "uuid": "fc70d301-d5a4-4794-8d85-0bd05295ec1f"   },   "raw_data|__part__|insert_size_histogram": {    "id": "24542a6acde3511f",    "src": "hda",    "uuid": "f199c3f8-cb12-4242-bb20-905b4dec3cd5"   },   "raw_data|__part__|mapped_reads_clipping_profile": {    "id": "eef40f486f049173",    "src": "hda",    "uuid": "b751667e-40c6-4ab3-a84d-f0134574e2f7"   },   "raw_data|__part__|mapped_reads_gc-content_distribution": {    "id": "f1530dbb4cc388c1",    "src": "hda",    "uuid": "72b1786c-b7b8-441a-87e3-27d8c1e237b7"   },   "raw_data|__part__|mapped_reads_nucleotide_content": {    "id": "68f2c448211e97c0",    "src": "hda",    "uuid": "ad9ae930-46c2-40fe-9030-59ed345847af"   },   "raw_data|__part__|mapping_quality_across_reference": {    "id": "2b51f4a70a0f0102",    "src": "hda",    "uuid": "45722dfc-ab38-4502-99e7-0f4ae889499e"   },   "raw_data|__part__|mapping_quality_histogram": {    "id": "19a2aae1c786513c",    "src": "hda",    "uuid": "f8a90a8c-bec8-495b-8b02-83c13e8700f0"   }  },  "params": {   "__input_ext": "\"input\"",   "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"",   "dbkey": "\"?\"",   "duplicate_skipping": "\"0\"",   "per_base_coverage": "false",   "plot_specific": "{\"genome_gc_distr\": null, \"homopolymer_size\": \"3\", \"n_bins\": \"400\", \"paint_chromosome_limits\": true}",   "stats_regions": "{\"__current_case__\": 0, \"region_select\": \"all\"}"  },  "state": "error",  "stderr": "",  "stdout": "",  "tool_id": "toolshed.g2.bx.psu.edu/repos/iuc/qualimap_bamqc/qualimap_bamqc/2.3+galaxy0",  "tool_stderr": "",  "tool_stdout": "",  "traceback": null,  "update_time": "2024-09-15T13:28:08.036248",  "user_email": "tests@fake.org" }, "output_problems": [  "Job in error state.. tool_id: toolshed.g2.bx.psu.edu/repos/iuc/qualimap_bamqc/qualimap_bamqc/2.3+galaxy0, exit_code: None, stderr: .",  "Job in error state.. tool_id: toolshed.g2.bx.psu.edu/repos/iuc/qualimap_bamqc/qualimap_bamqc/2.3+galaxy0, exit_code: None, stderr: ." ], "status": "failure", "test_index": 0, "time_seconds": 67.03019905090332, "tool_id": "qualimap_bamqc", "tool_version": "2.3+galaxy0"}
+                ]]></error>
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="qualimap_bamqc (Test #2)" name="1" time="30.803893566131592">
+        
+            
+            <system-out><![CDATA[
+            Java memory size is set to 1200MLaunching application...detected environment java options -Djava.awt.headless=true -Xmx25769mQualiMap v.2.3Built on 2023-05-19 16:57Selected tool: bamqcAvailable memory (Mb): 389Max memory (Mb): 26121Starting bam qc....Loading sam header...Loading locator...Loading reference...Only flagged duplicate alignments will be skipped...Number of windows: 400, effective number of windows: 325Chunk of reads size: 1000Number of threads: 1Processed 50 out of 325 windows...Processed 100 out of 325 windows...Processed 150 out of 325 windows...Processed 200 out of 325 windows...Processed 250 out of 325 windows...Processed 300 out of 325 windows...Total processed windows:325Number of reads: 100Number of valid reads: 100Number of correct strand reads:0Inside of regions...Num mapped reads: 100Num mapped first of pair: 0Num mapped second of pair: 0Num singletons: 0Time taken to analyze reads: 0Computing descriptors...numberOfMappedBases: 12665referenceSize: 650numberOfSequencedBases: 7465numberOfAs: 1910Computing per chromosome statistics...Computing histograms...Overall analysis time: 0end of bam qcComputing report...Writing HTML report...HTML report created successfullyFinished
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="qualimap_bamqc (Test #3)" name="2" time="32.81464457511902">
+        
+            
+            <system-out><![CDATA[
+            Java memory size is set to 1200MLaunching application...detected environment java options -Djava.awt.headless=true -Xmx25769mQualiMap v.2.3Built on 2023-05-19 16:57Selected tool: bamqcAvailable memory (Mb): 389Max memory (Mb): 26121Starting bam qc....Loading sam header...Loading locator...Loading reference...Only flagged duplicate alignments will be skipped...Number of windows: 400, effective number of windows: 325Chunk of reads size: 1000Number of threads: 1Initializing regions from regions.gtf.....Found 4 regionsFilling region references... Processed 50 out of 325 windows...Processed 100 out of 325 windows...Processed 150 out of 325 windows...Processed 200 out of 325 windows...Processed 250 out of 325 windows...Processed 300 out of 325 windows...Total processed windows:325Number of reads: 100Number of valid reads: 100Number of correct strand reads:0Inside of regions...Num mapped reads: 82Num mapped first of pair: 0Num mapped second of pair: 0Num singletons: 0Time taken to analyze reads: 0Computing descriptors...numberOfMappedBases: 6451referenceSize: 650numberOfSequencedBases: 5101numberOfAs: 1243Computing per chromosome statistics...Computing histograms...Overall analysis time: 0end of bam qcComputing report...Writing HTML report...HTML report created successfullyFinished
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="qualimap_bamqc (Test #4)" name="3" time="32.20876741409302">
+        
+            
+            <system-out><![CDATA[
+            Java memory size is set to 1200MLaunching application...detected environment java options -Djava.awt.headless=true -Xmx25769mQualiMap v.2.3Built on 2023-05-19 16:57Selected tool: bamqcAvailable memory (Mb): 389Max memory (Mb): 26121Starting bam qc....Loading sam header...Loading locator...Loading reference...Only flagged duplicate alignments will be skipped...Number of windows: 400, effective number of windows: 325Chunk of reads size: 1000Number of threads: 1Initializing regions from regions.gtf.....Found 4 regionsFilling region references... Processed 50 out of 325 windows...Processed 100 out of 325 windows...Processed 150 out of 325 windows...Processed 200 out of 325 windows...Processed 250 out of 325 windows...Processed 300 out of 325 windows...Total processed windows:325Number of reads: 100Number of valid reads: 100Number of correct strand reads:0Inside of regions...Num mapped reads: 82Num mapped first of pair: 0Num mapped second of pair: 0Num singletons: 0Time taken to analyze reads: 0Computing descriptors...numberOfMappedBases: 6451referenceSize: 650numberOfSequencedBases: 5101numberOfAs: 1243Computing per chromosome statistics...Computing histograms...Overall analysis time: 0end of bam qcComputing report...Writing HTML report...HTML report created successfullyFinished
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="qualimap_bamqc (Test #5)" name="4" time="34.61634945869446">
+        
+            
+            <system-out><![CDATA[
+            Java memory size is set to 1200MLaunching application...detected environment java options -Djava.awt.headless=true -Xmx25769mQualiMap v.2.3Built on 2023-05-19 16:57Selected tool: bamqcAvailable memory (Mb): 389Max memory (Mb): 26121Starting bam qc....Loading sam header...Loading locator...Loading reference...Only flagged duplicate alignments will be skipped...Number of windows: 400, effective number of windows: 325Chunk of reads size: 1000Number of threads: 1Initializing regions from regions.gtf.....Found 4 regionsFilling region references... Processed 50 out of 325 windows...Processed 100 out of 325 windows...Processed 150 out of 325 windows...Processed 200 out of 325 windows...Processed 250 out of 325 windows...Processed 300 out of 325 windows...Total processed windows:325Number of reads: 100Number of valid reads: 100Number of correct strand reads:0Inside of regions...Num mapped reads: 82Num mapped first of pair: 0Num mapped second of pair: 0Num singletons: 0Ouside of regions...Num mapped reads: 18Num mapped first of pair: 0Num mapped second of pair: 0Num singletons: 0Time taken to analyze reads: 0Computing descriptors...numberOfMappedBases: 6451referenceSize: 650numberOfSequencedBases: 5101numberOfAs: 1243Computing per chromosome statistics...Computing histograms...Computing descriptors for outside regions...numberOfMappedBases: 6214referenceSize: 650numberOfSequencedBases: 2364numberOfAs: 667Computing per chromosome statistics for outside regions...Computing histograms for outside regions...Overall analysis time: 0end of bam qcComputing report...Writing HTML report...HTML report created successfullyFinished
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="samtools_stats (Test #1)" name="0" time="29.629284858703613">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="samtools_stats (Test #2)" name="1" time="27.9569411277771">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="samtools_stats (Test #11)" name="10" time="28.49107265472412">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="samtools_stats (Test #12)" name="11" time="27.77278971672058">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="samtools_stats (Test #13)" name="12" time="28.381372213363647">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="samtools_stats (Test #3)" name="2" time="20.867560863494873">
+        
+            
+                <error type="error" message="Tool exit code: None"><![CDATA[
+                    { "inputs": {  "addref_cond|addref_select": "history",  "addref_cond|ref": {   "id": "80dbf36c1afde1c7",   "src": "hda"  },  "input": {   "id": "4676469627fdcfe8",   "src": "hda"  },  "insert_size": "0" }, "job": {  "command_line": "addthreads=${GALAXY_SLOTS:-1} \u0026\u0026 (( addthreads-- )) \u0026\u0026   ln -s \u0027/galaxy/server/database/objects/3/6/5/dataset_3653046f-956b-4f37-8fcd-a59499819d32.dat\u0027 infile \u0026\u0026      reffa=\"reference.fa\" \u0026\u0026 ln -s \u0027/galaxy/server/database/objects/0/5/8/dataset_0582d9ad-0e16-455b-95e2-4ef32bdd03ad.dat\u0027 $reffa \u0026\u0026 samtools faidx $reffa \u0026\u0026 reffai=$reffa.fai \u0026\u0026  samtools stats  --insert-size 0  --ref-seq \"$reffa\"     -@ $addthreads infile   \u003e \u0027/galaxy/server/database/objects/9/4/6/dataset_946e5c7e-b0e6-4396-92b0-2e52a3c0ec0e.dat\u0027",  "command_version": null,  "copied_from_job_id": null,  "create_time": "2024-09-15T13:31:33.360216",  "dependencies": [],  "exit_code": null,  "external_id": "gxy-gdc89",  "galaxy_version": "23.1",  "history_id": "8dc7d2120e767ce3",  "id": "5f9f44d67cda1375",  "inputs": {   "addref_cond|ref": {    "id": "80dbf36c1afde1c7",    "src": "hda",    "uuid": "0582d9ad-0e16-455b-95e2-4ef32bdd03ad"   },   "input": {    "id": "4676469627fdcfe8",    "src": "hda",    "uuid": "3653046f-956b-4f37-8fcd-a59499819d32"   }  },  "job_messages": null,  "job_metrics": [],  "job_stderr": null,  "job_stdout": null,  "model_class": "Job",  "output_collections": {},  "outputs": {   "output": {    "id": "edc9d7b6bfb001c9",    "src": "hda",    "uuid": "946e5c7e-b0e6-4396-92b0-2e52a3c0ec0e"   }  },  "params": {   "__input_ext": "\"input\"",   "addref_cond": "{\"__current_case__\": 1, \"addref_select\": \"history\", \"ref\": {\"values\": [{\"id\": 305, \"src\": \"hda\"}]}}",   "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"",   "cond_region": "{\"__current_case__\": 0, \"select_region\": \"no\"}",   "cov_threshold": "\"\"",   "coverage_cond": "{\"__current_case__\": 0, \"coverage_select\": \"no\"}",   "dbkey": "\"?\"",   "filter_by_flags": "{\"__current_case__\": 1, \"filter_flags\": \"nofilter\"}",   "gc_depth": "\"\"",   "insert_size": "\"0\"",   "most_inserts": "\"\"",   "read_group": null,   "read_length": "\"\"",   "remove_dups": "false",   "remove_overlaps": "false",   "sparse": "false",   "split_output_cond": "{\"__current_case__\": 0, \"split_output_selector\": \"no\"}",   "trim_quality": "\"\""  },  "state": "error",  "stderr": "",  "stdout": "",  "tool_id": "toolshed.g2.bx.psu.edu/repos/devteam/samtools_stats/samtools_stats/2.0.5",  "tool_stderr": "",  "tool_stdout": "",  "traceback": null,  "update_time": "2024-09-15T13:31:38.656773",  "user_email": "tests@fake.org" }, "output_problems": [  "Job in error state.. tool_id: toolshed.g2.bx.psu.edu/repos/devteam/samtools_stats/samtools_stats/2.0.5, exit_code: None, stderr: .",  "Job in error state.. tool_id: toolshed.g2.bx.psu.edu/repos/devteam/samtools_stats/samtools_stats/2.0.5, exit_code: None, stderr: ." ], "status": "failure", "test_index": 2, "time_seconds": 20.867560863494873, "tool_id": "samtools_stats", "tool_version": "2.0.5"}
+                ]]></error>
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="samtools_stats (Test #4)" name="3" time="28.02351999282837">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            Barcodes with tag BC differ in length at sequence 'ref1_grp1_p002'
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="samtools_stats (Test #5)" name="4" time="27.184203147888184">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            Barcodes with tag BC differ in length at sequence 'ref1_grp1_p002'
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="samtools_stats (Test #6)" name="5" time="26.47766375541687">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            Barcodes with tag BC differ in length at sequence 'ref1_grp1_p002'
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="samtools_stats (Test #7)" name="6" time="27.470714569091797">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            Barcodes with tag BC differ in length at sequence 'ref1_grp1_p002'
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="samtools_stats (Test #8)" name="7" time="26.578603744506836">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="samtools_stats (Test #9)" name="8" time="26.287765741348267">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="samtools_stats (Test #10)" name="9" time="27.56989359855652">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #1)" name="0" time="72.36594605445862">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #2)" name="1" time="26.98587703704834">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #11)" name="10" time="20.25256371498108">
+        
+            
+                <error type="error" message="Tool exit code: None"><![CDATA[
+                    { "inputs": {  "precision": "2",  "singtabop|input": {   "id": "4002afb287d289fb",   "src": "hda"  },  "singtabop|use_type": "single",  "singtabop|user|elem_val|element_op": "None",  "singtabop|user|element|mode": "scale",  "singtabop|user|element|scale_op": "mod",  "singtabop|user|element|scale_value": "5",  "singtabop|user|mode": "element" }, "job": {  "command_line": "cp \u0027/galaxy/server/database/jobs_directory/000/22/configs/tmph_e1e58w\u0027 ./userconfig.py \u0026\u0026 cp \u0027/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py\u0027 ./safety.py \u0026\u0026 cp \u0027/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py\u0027 ./table_compute.py \u0026\u0026 python ./table_compute.py",  "command_version": null,  "copied_from_job_id": null,  "create_time": "2024-09-15T12:53:04.849624",  "dependencies": [],  "exit_code": null,  "external_id": "gxy-hwb9r",  "galaxy_version": "23.1",  "history_id": "8dc7d2120e767ce3",  "id": "c6fe59ebdf0ff9d5",  "inputs": {   "singtabop|input": {    "id": "4002afb287d289fb",    "src": "hda",    "uuid": "c951c424-6104-455b-9cd8-b930ae0e1a21"   }  },  "job_messages": null,  "job_metrics": [],  "job_stderr": null,  "job_stdout": null,  "model_class": "Job",  "output_collections": {},  "outputs": {   "table": {    "id": "c6fe59ebdf0ff9d5",    "src": "hda",    "uuid": "a2808ca0-19fe-4a5f-99ce-532c57596eb5"   }  },  "params": {   "__input_ext": "\"tabular\"",   "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"",   "dbkey": "\"?\"",   "out_opts": "[\"ignore_nas\", \"output_headers_col\", \"output_headers_row\"]",   "precision": "\"2\"",   "singtabop": "{\"__current_case__\": 0, \"adv\": {\"header\": \"\", \"nrows\": \"\", \"skip_blank_lines\": true, \"skipfooter\": \"\"}, \"col_row_names\": [\"has_col_names\", \"has_row_names\"], \"input\": {\"values\": [{\"id\": 21, \"src\": \"hda\"}]}, \"use_type\": \"single\", \"user\": {\"__current_case__\": 5, \"elem_val\": {\"__current_case__\": 0, \"element_op\": \"None\"}, \"element\": {\"__current_case__\": 2, \"mode\": \"scale\", \"scale_op\": \"mod\", \"scale_value\": \"5.0\"}, \"mode\": \"element\"}}"  },  "state": "error",  "stderr": "",  "stdout": "",  "tool_id": "toolshed.g2.bx.psu.edu/repos/iuc/table_compute/table_compute/1.2.4+galaxy0",  "tool_stderr": "",  "tool_stdout": "",  "traceback": null,  "update_time": "2024-09-15T12:53:10.837957",  "user_email": "tests@fake.org" }, "output_problems": [  "Job in error state.. tool_id: toolshed.g2.bx.psu.edu/repos/iuc/table_compute/table_compute/1.2.4+galaxy0, exit_code: None, stderr: .",  "Job in error state.. tool_id: toolshed.g2.bx.psu.edu/repos/iuc/table_compute/table_compute/1.2.4+galaxy0, exit_code: None, stderr: ." ], "status": "failure", "test_index": 10, "time_seconds": 20.25256371498108, "tool_id": "table_compute", "tool_version": "1.2.4+galaxy0"}
+                ]]></error>
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #12)" name="11" time="26.431527614593506">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #13)" name="12" time="28.240277767181396">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #14)" name="13" time="26.336782693862915">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #15)" name="14" time="27.149471759796143">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #16)" name="15" time="26.614495515823364">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #17)" name="16" time="25.898833751678467">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #18)" name="17" time="26.72719407081604">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #19)" name="18" time="26.52074146270752">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #20)" name="19" time="15.692494869232178">
+        
+            <error type="error" message="An expression is required and is allowed to contain only letters, numbers and the characters _ !-+=/*%.<>()"><![CDATA[
+                { "dynamic_param_error": false, "execution_problem": "An expression is required and is allowed to contain only letters, numbers and the characters _ !-+=/*%.\u003c\u003e()", "inputs": {  "singtabop|input": {   "id": "09500a9903c2fce5",   "src": "hda"  },  "singtabop|use_type": "single",  "singtabop|user|general|fulltable_custom_expr": "for n in table: n = n + 1",  "singtabop|user|general|use": "custom",  "singtabop|user|mode": "fulltable" }, "status": "success", "test_index": 19, "time_seconds": 15.692494869232178, "tool_id": "table_compute", "tool_version": "1.2.4+galaxy0"}
+            ]]></error>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #3)" name="2" time="27.507407903671265">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #21)" name="20" time="9.154990434646606">
+        
+            <error type="error" message="Input staging problem: Job in error state.. tool_id: upload1, exit_code: None, stderr: ."><![CDATA[
+                { "execution_problem": "Input staging problem: Job in error state.. tool_id: upload1, exit_code: None, stderr: .", "status": "error", "test_index": 20, "time_seconds": 9.154990434646606, "tool_id": "table_compute", "tool_version": "1.2.4+galaxy0"}
+            ]]></error>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #22)" name="21" time="26.70745611190796">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #23)" name="22" time="26.335824489593506">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #24)" name="23" time="27.180472373962402">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #25)" name="24" time="26.439470291137695">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #26)" name="25" time="24.98053765296936">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #27)" name="26" time="26.883930683135986">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #28)" name="27" time="26.376212120056152">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #29)" name="28" time="27.179776906967163">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #30)" name="29" time="26.25628161430359">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #4)" name="3" time="27.200207948684692">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #31)" name="30" time="25.413544178009033">
+        
+            
+                <error type="error" message="Tool exit code: None"><![CDATA[
+                    { "inputs": {  "singtabop|fulltable_custom_expr": "table1 / min(np.max(np.max(table2)), np.max(np.max(table3)))",  "singtabop|tables_0|col_row_names": [   "has_col_names",   "has_row_names"  ],  "singtabop|tables_0|input": {   "id": "db3844b6bbac6537",   "src": "hda"  },  "singtabop|tables_1|col_row_names": [   "has_col_names",   "has_row_names"  ],  "singtabop|tables_1|input": {   "id": "84ffbccb5d17b489",   "src": "hda"  },  "singtabop|tables_2|col_row_names": [   "has_col_names",   "has_row_names"  ],  "singtabop|tables_2|input": {   "id": "357c4e331d0d0584",   "src": "hda"  },  "singtabop|use_type": "multiple" }, "job": {  "command_line": "cp \u0027/galaxy/server/database/jobs_directory/000/62/configs/tmph8jli5_k\u0027 ./userconfig.py \u0026\u0026 cp \u0027/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py\u0027 ./safety.py \u0026\u0026 cp \u0027/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py\u0027 ./table_compute.py \u0026\u0026 python ./table_compute.py",  "command_version": null,  "copied_from_job_id": null,  "create_time": "2024-09-15T13:01:28.593411",  "dependencies": [],  "exit_code": null,  "external_id": "gxy-cnxjb",  "galaxy_version": "23.1",  "history_id": "8dc7d2120e767ce3",  "id": "90055d72f53a0ad1",  "inputs": {   "singtabop|tables_0|input": {    "id": "db3844b6bbac6537",    "src": "hda",    "uuid": "e4c13511-31cb-465b-8d1a-db872ba739dd"   },   "singtabop|tables_1|input": {    "id": "84ffbccb5d17b489",    "src": "hda",    "uuid": "5b21c48e-91ca-4091-a6b8-0e76d9f7a9a1"   },   "singtabop|tables_2|input": {    "id": "357c4e331d0d0584",    "src": "hda",    "uuid": "01f63da6-05fe-4a6d-8c57-ca1f6a864033"   }  },  "job_messages": null,  "job_metrics": [],  "job_stderr": null,  "job_stdout": null,  "model_class": "Job",  "output_collections": {},  "outputs": {   "table": {    "id": "90055d72f53a0ad1",    "src": "hda",    "uuid": "a94d0d27-a786-4dba-ae8d-3651eb7f208d"   }  },  "params": {   "__input_ext": "\"tabular\"",   "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"",   "dbkey": "\"?\"",   "out_opts": "[\"ignore_nas\", \"output_headers_col\", \"output_headers_row\"]",   "precision": "\"6\"",   "singtabop": "{\"__current_case__\": 1, \"fulltable_custom_expr\": \"table1 / min(np.max(np.max(table2)), np.max(np.max(table3)))\", \"tables\": [{\"__index__\": 0, \"adv\": {\"header\": \"\", \"nrows\": \"\", \"skip_blank_lines\": true, \"skipfooter\": \"\"}, \"col_row_names\": [\"has_col_names\", \"has_row_names\"], \"input\": {\"values\": [{\"id\": 59, \"src\": \"hda\"}]}}, {\"__index__\": 1, \"adv\": {\"header\": \"\", \"nrows\": \"\", \"skip_blank_lines\": true, \"skipfooter\": \"\"}, \"col_row_names\": [\"has_col_names\", \"has_row_names\"], \"input\": {\"values\": [{\"id\": 60, \"src\": \"hda\"}]}}, {\"__index__\": 2, \"adv\": {\"header\": \"\", \"nrows\": \"\", \"skip_blank_lines\": true, \"skipfooter\": \"\"}, \"col_row_names\": [\"has_col_names\", \"has_row_names\"], \"input\": {\"values\": [{\"id\": 61, \"src\": \"hda\"}]}}], \"use_type\": \"multiple\"}"  },  "state": "error",  "stderr": "",  "stdout": "",  "tool_id": "toolshed.g2.bx.psu.edu/repos/iuc/table_compute/table_compute/1.2.4+galaxy0",  "tool_stderr": "",  "tool_stdout": "",  "traceback": null,  "update_time": "2024-09-15T13:01:34.516574",  "user_email": "tests@fake.org" }, "output_problems": [  "Job in error state.. tool_id: toolshed.g2.bx.psu.edu/repos/iuc/table_compute/table_compute/1.2.4+galaxy0, exit_code: None, stderr: .",  "Job in error state.. tool_id: toolshed.g2.bx.psu.edu/repos/iuc/table_compute/table_compute/1.2.4+galaxy0, exit_code: None, stderr: ." ], "status": "failure", "test_index": 30, "time_seconds": 25.413544178009033, "tool_id": "table_compute", "tool_version": "1.2.4+galaxy0"}
+                ]]></error>
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #32)" name="31" time="25.73805570602417">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #33)" name="32" time="27.145930528640747">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #34)" name="33" time="27.565340280532837">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #35)" name="34" time="9.529188632965088">
+        
+            <error type="error" message="Input staging problem: Job in error state.. tool_id: upload1, exit_code: None, stderr: ."><![CDATA[
+                { "execution_problem": "Input staging problem: Job in error state.. tool_id: upload1, exit_code: None, stderr: .", "status": "error", "test_index": 34, "time_seconds": 9.529188632965088, "tool_id": "table_compute", "tool_version": "1.2.4+galaxy0"}
+            ]]></error>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #36)" name="35" time="27.069989919662476">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #37)" name="36" time="27.17970848083496">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #38)" name="37" time="21.26970338821411">
+        
+            
+                <error type="error" message="Tool exit code: None"><![CDATA[
+                    { "inputs": {  "singtabop|col_row_names": [   "has_col_names",   "has_row_names"  ],  "singtabop|input": {   "id": "da88823f2092602a",   "src": "hda"  },  "singtabop|use_type": "single",  "singtabop|user|elem_val|element_op": "rowcol",  "singtabop|user|elem_val|inclusive_selection": true,  "singtabop|user|elem_val|select_cols_wanted": "2",  "singtabop|user|elem_val|select_rows_wanted": "2,4",  "singtabop|user|element|mode": "replace",  "singtabop|user|element|replace_value": "chr{elem:.0f}",  "singtabop|user|mode": "element" }, "job": {  "command_line": "cp \u0027/galaxy/server/database/jobs_directory/000/75/configs/tmpdh0t93_6\u0027 ./userconfig.py \u0026\u0026 cp \u0027/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/safety.py\u0027 ./safety.py \u0026\u0026 cp \u0027/cvmfs/cloud.galaxyproject.org/tools/toolshed.g2.bx.psu.edu/repos/iuc/table_compute/3bf5661c0280/table_compute/scripts/table_compute.py\u0027 ./table_compute.py \u0026\u0026 python ./table_compute.py",  "command_version": null,  "copied_from_job_id": null,  "create_time": "2024-09-15T13:04:14.431007",  "dependencies": [],  "exit_code": null,  "external_id": "gxy-4v727",  "galaxy_version": "23.1",  "history_id": "8dc7d2120e767ce3",  "id": "78aa595b9acf0875",  "inputs": {   "singtabop|input": {    "id": "da88823f2092602a",    "src": "hda",    "uuid": "c3097c97-9ab6-4617-beaf-c7af1d452c48"   }  },  "job_messages": null,  "job_metrics": [],  "job_stderr": null,  "job_stdout": null,  "model_class": "Job",  "output_collections": {},  "outputs": {   "table": {    "id": "78aa595b9acf0875",    "src": "hda",    "uuid": "3abb2a5a-056a-405d-9feb-15738b0ce146"   }  },  "params": {   "__input_ext": "\"tabular\"",   "chromInfo": "\"/cvmfs/data.galaxyproject.org/managed/len/ucsc/?.len\"",   "dbkey": "\"?\"",   "out_opts": "[\"ignore_nas\", \"output_headers_col\", \"output_headers_row\"]",   "precision": "\"6\"",   "singtabop": "{\"__current_case__\": 0, \"adv\": {\"header\": \"\", \"nrows\": \"\", \"skip_blank_lines\": true, \"skipfooter\": \"\"}, \"col_row_names\": [\"has_col_names\", \"has_row_names\"], \"input\": {\"values\": [{\"id\": 74, \"src\": \"hda\"}]}, \"use_type\": \"single\", \"user\": {\"__current_case__\": 5, \"elem_val\": {\"__current_case__\": 7, \"element_op\": \"rowcol\", \"inclusive_selection\": true, \"select_cols_wanted\": \"2\", \"select_rows_wanted\": \"2,4\"}, \"element\": {\"__current_case__\": 0, \"mode\": \"replace\", \"replace_value\": \"chr{elem:.0f}\"}, \"mode\": \"element\"}}"  },  "state": "error",  "stderr": "",  "stdout": "",  "tool_id": "toolshed.g2.bx.psu.edu/repos/iuc/table_compute/table_compute/1.2.4+galaxy0",  "tool_stderr": "",  "tool_stdout": "",  "traceback": null,  "update_time": "2024-09-15T13:04:20.152673",  "user_email": "tests@fake.org" }, "output_problems": [  "Job in error state.. tool_id: toolshed.g2.bx.psu.edu/repos/iuc/table_compute/table_compute/1.2.4+galaxy0, exit_code: None, stderr: .",  "Job in error state.. tool_id: toolshed.g2.bx.psu.edu/repos/iuc/table_compute/table_compute/1.2.4+galaxy0, exit_code: None, stderr: ." ], "status": "failure", "test_index": 37, "time_seconds": 21.26970338821411, "tool_id": "table_compute", "tool_version": "1.2.4+galaxy0"}
+                ]]></error>
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #39)" name="38" time="26.628809452056885">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #40)" name="39" time="27.163851976394653">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #5)" name="4" time="27.45040726661682">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #41)" name="40" time="14.733414649963379">
+        
+            <error type="error" message="An expression is required and is allowed to contain only letters, numbers and the characters _ !-+=/*%.<>()"><![CDATA[
+                { "dynamic_param_error": false, "execution_problem": "An expression is required and is allowed to contain only letters, numbers and the characters _ !-+=/*%.\u003c\u003e()", "inputs": {  "singtabop|col_row_names": [   "has_col_names",   "has_row_names"  ],  "singtabop|input": {   "id": "7a35f32b8bdafbc1",   "src": "hda"  },  "singtabop|use_type": "single",  "singtabop|user|element|custom_expr": "el\u0027+\u0027em",  "singtabop|user|element|mode": "custom",  "singtabop|user|mode": "element" }, "status": "success", "test_index": 40, "time_seconds": 14.733414649963379, "tool_id": "table_compute", "tool_version": "1.2.4+galaxy0"}
+            ]]></error>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #42)" name="41" time="28.577634572982788">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #43)" name="42" time="26.46244525909424">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #6)" name="5" time="27.141469717025757">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #7)" name="6" time="28.340134382247925">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #8)" name="7" time="26.441985607147217">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #9)" name="8" time="26.192952871322632">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="table_compute (Test #10)" name="9" time="27.422043085098267">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="vcfcommonsamples (Test #1)" name="0" time="33.44680428504944">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+    <testcase classname="vcfdistance (Test #1)" name="0" time="24.301866054534912">
+        
+            
+            <system-out><![CDATA[
+            
+            ]]></system-out>
+            <system-err><![CDATA[
+            
+            ]]></system-err>
+        
+    </testcase>
+    
+</testsuite>
\ No newline at end of file
diff --git a/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/tools.yml b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/tools.yml
new file mode 100644
index 000000000..ad001a7e9
--- /dev/null
+++ b/reports/anvil-production/tool-tests/prod-24-09-15-12-31-1/tools.yml
@@ -0,0 +1,92 @@
+chunk: 13
+tools:
+- name: table_compute
+  owner: iuc
+  revisions:
+  - 60ff16842fcd
+  tool_panel_section_label: Text Manipulation
+  tool_shed_url: toolshed.g2.bx.psu.edu
+- name: cutadapt
+  owner: lparsons
+  revisions:
+  - 093678460093
+  tool_panel_section_label: FASTA/FASTQ
+  tool_shed_url: toolshed.g2.bx.psu.edu
+- name: qualimap_bamqc
+  owner: iuc
+  revisions:
+  - 19ece8afbaab
+  tool_panel_section_label: SAM/BAM
+  tool_shed_url: toolshed.g2.bx.psu.edu
+- name: samtools_stats
+  owner: devteam
+  revisions:
+  - 145f6d74ff5e
+  tool_panel_section_label: SAM/BAM
+  tool_shed_url: toolshed.g2.bx.psu.edu
+- name: filter_on_md
+  owner: boris
+  revisions:
+  - ac70bfaf1224
+  tool_panel_section_label: SAM/BAM
+  tool_shed_url: toolshed.g2.bx.psu.edu
+- name: bcftools_plugin_mendelian
+  owner: iuc
+  revisions:
+  - bf235558f2cf
+  tool_panel_section_label: VCF/BCF
+  tool_shed_url: toolshed.g2.bx.psu.edu
+- name: bcftools_csq
+  owner: iuc
+  revisions:
+  - fdd127bd4a32
+  tool_panel_section_label: VCF/BCF
+  tool_shed_url: toolshed.g2.bx.psu.edu
+- name: vcfcommonsamples
+  owner: devteam
+  revisions:
+  - f1852ecef841
+  tool_panel_section_label: VCF/BCF
+  tool_shed_url: toolshed.g2.bx.psu.edu
+- name: vcfdistance
+  owner: iuc
+  revisions:
+  - c506b8275b1a
+  tool_panel_section_label: VCF/BCF
+  tool_shed_url: toolshed.g2.bx.psu.edu
+- name: poretools_yield_plot
+  owner: iuc
+  revisions:
+  - ca22d8497db5
+  tool_panel_section_label: Nanopore
+  tool_shed_url: toolshed.g2.bx.psu.edu
+- name: deeptools_bigwig_compare
+  owner: bgruening
+  revisions:
+  - 26e7304d6737
+  tool_panel_section_label: deepTools
+  tool_shed_url: toolshed.g2.bx.psu.edu
+- name: bowtie2
+  owner: devteam
+  revisions:
+  - 09b2cdb7ace5
+  tool_panel_section_label: Mapping
+  tool_shed_url: toolshed.g2.bx.psu.edu
+- name: snpsift_genesets
+  owner: iuc
+  revisions:
+  - d12a810c837e
+  tool_panel_section_label: Variant Calling
+  tool_shed_url: toolshed.g2.bx.psu.edu
+- name: deseq2
+  owner: iuc
+  revisions:
+  - 6a3a025714d3
+  tool_panel_section_label: RNA-seq
+  tool_shed_url: toolshed.g2.bx.psu.edu
+- name: mummer_mummer
+  owner: iuc
+  revisions:
+  - 48823c9635a4
+  tool_panel_section_label: Multiple Alignments
+  tool_shed_url: toolshed.g2.bx.psu.edu