diff --git a/tests/testthat/test-fims-estimation.R b/tests/testthat/test-fims-estimation.R index 7ac3106a8..919fbd1e2 100644 --- a/tests/testthat/test-fims-estimation.R +++ b/tests/testthat/test-fims-estimation.R @@ -175,7 +175,7 @@ test_that("deterministic test of fims", { fims_logR0 <- sdr_fixed[1, "Estimate"] expect_gt(fims_logR0, 0.0) expect_equal(fims_logR0, log(om_input$R0)) - + # Numbers at age for (i in 1:length(c(t(om_output$N.age)))) { expect_equal(report$naa[[1]][i], c(t(om_output$N.age))[i]) @@ -197,7 +197,7 @@ test_that("deterministic test of fims", { ) for (i in 1:length(om_output$N.age[, 1])) { - expect_equal(fims_naa[i, 1], om_output$N.age[i, 1]) + expect_equal(fims_naa[i, 1], om_output$N.age[i, 1]) } expect_equal( @@ -219,7 +219,7 @@ test_that("deterministic test of fims", { fims_index <- report$exp_index # Expect small relative error for deterministic test for (i in 1:length(om_output$L.mt$fleet1)) { - expect_equal(fims_index[[1]][i],om_output$L.mt$fleet1[i]) + expect_equal(fims_index[[1]][i], om_output$L.mt$fleet1[i]) } # Expect small relative error for deterministic test @@ -227,7 +227,7 @@ test_that("deterministic test of fims", { for (i in 1:length(em_input$L.obs$fleet1)) { fims_object_are[i] <- abs(fims_index[[1]][i] - em_input$L.obs$fleet1[i]) / em_input$L.obs$fleet1[i] } - + # Expect 95% of relative error to be within 2*cv expect_lte(sum(fims_object_are > om_input$cv.L$fleet1 * 2.0), length(em_input$L.obs$fleet1) * 0.05) @@ -261,7 +261,7 @@ test_that("deterministic test of fims", { } # Expect 95% of relative error to be within 2*cv expect_lte(sum(fims_object_are > om_input$cv.survey$survey1 * 2.0), length(em_input$surveyB.obs$survey1) * 0.05) - + # Expected catch number at age in proportion fims_cnaa <- matrix(report$cnaa[[2]][1:(om_input$nyr * om_input$nages)], nrow = om_input$nyr, byrow = TRUE