conda create -n papermage python=3.11
conda activate papermageIf you're installing from source:
pip install -e '.[dev,predictors,visualizers]'
If you're installing from PyPi:
pip install 'papermage[dev,predictors,visualizers]'
(you may need to add/remove quotes depending on your command line shell).
If you're on MacOSX, you'll also want to run:
conda install poppler
python -m pytestfor latest failed test
python -m pytest --lf --no-cov -n0for specific test name of class name
python -m pytest -k 'TestPDFPlumberParser' --no-cov -n0from papermage.recipes import CoreRecipe
recipe = CoreRecipe()
doc = recipe.run("tests/fixtures/papermage.pdf")
What is a Document? At minimum, it is some text, saved under the .symbols layer, which is just a <str>. For example:
> doc.symbols
"PaperMage: A Unified Toolkit for Processing, Representing, and\nManipulating Visually-..."But this library is really useful when you have multiple different ways of segmenting .symbols. For example, segmenting the paper into Pages, and then each page into Rows:
for page in doc.pages:
print(f'\n=== PAGE: {page.id} ===\n\n')
for row in page.rows:
print(row.text)
...
=== PAGE: 5 ===
4
Vignette: Building an Attributed QA
System for Scientific Papers
How could researchers leverage papermage for
their research? Here, we walk through a user sce-
nario in which a researcher (Lucy) is prototyping
an attributed QA system for science.
System Design.
Drawing inspiration from Ko
...This shows two nice aspects of this library:
-
Documentprovides iterables for different segmentations ofsymbols. Options include things likepages, tokens, rows, sentences, sections, .... Not every Parser will provide every segmentation, though. -
Each one of these segments (in our library, we call them
Entityobjects) is aware of (and can access) other segment types. For example, you can callpage.rowsto get all Rows that intersect a particular Page. Or you can callsent.tokensto get all Tokens that intersect a particular Sentence. Or you can callsent.rowsto get the Row(s) that intersect a particular Sentence. These indexes are built dynamically when theDocumentis created and each time a newEntitytype is added. In the extreme, as long as those layers are available in the Document, you can write:
for page in doc.pages:
for sent in page.sentences:
for row in sent.rows:
...You can check which layers are available in a Document via:
> doc.layers
['tokens',
'rows',
'pages',
'words',
'sentences',
'blocks',
'vila_entities',
'titles',
'authors',
'abstracts',
'keywords',
'sections',
'lists',
'bibliographies',
'equations',
'algorithms',
'figures',
'tables',
'captions',
'headers',
'footers',
'footnotes',
'symbols',
'images',
'metadata',
'entities',
'relations']Note that Entitys don't necessarily perfectly nest each other. For example, what happens if you run:
for sent in doc.sentences:
for row in sent.rows:
print([token.text for token in row.tokens])Tokens that are outside each sentence can still be printed. This is because when we jump from a sentence to its rows, we are looking for all rows that have any overlap with the sentence. Rows can extend beyond sentence boundaries, and as such, can contain tokens outside that sentence.
A key aspect of using this library is understanding how these different layers are defined & anticipating how they might interact with each other. We try to make decisions that are intuitive, but we do ask users to experiment with layers to build up familiarity.
Each Entity object stores information about its contents and position:
-
.spans: List[Span], ASpanis a pointer intoDocument.symbols(that is,Span(start=0, end=5)corresponds tosymbols[0:5]). By default, when you iterate over anEntity, you iterate over its.spans. -
.boxes: List[Box], ABoxrepresents a rectangular region on the page. Each span is associated a Box. -
.metadata: Metadata, A free form dictionary-like object to store extra metadata about thatEntity. These are usually empty.
A Document is created by stitching together 3 types of tools: Parsers, Rasterizers and Predictors.
-
Parserstake a PDF as input and return aDocumentcompared of.symbolsand other layers. The example one we use is a wrapper around PDFPlumber - MIT License utility. -
Rasterizerstake a PDF as input and return anImageper page that is added toDocument.images. The example one we use is PDF2Image - MIT License. -
Predictorstake aDocumentand apply some operation to compute a new set ofEntityobjects that we can insert into ourDocument. These are all built in-house and can be either simple heuristics or full machine-learning models.
import json
with open('filename.json', 'w') as f_out:
json.dump(doc.to_json(), f_out, indent=4)will produce something akin to:
{
"symbols": "PaperMage: A Unified Toolkit for Processing, Representing, an...",
"entities": {
"rows": [...],
"tokens": [...],
"words": [...],
"blocks": [...],
"sentences": [...]
},
"metadata": {...}
}These can be used to reconstruct a Document again via:
with open('filename.json') as f_in:
doc_dict = json.load(f_in)
doc = Document.from_json(doc_dict)Note: A common pattern for adding layers to a document is to load in a previously saved document, run some additional Predictors on it, and save the result.
See papermage/predictors/README.md for more information about training custom predictors on your own data.
See papermage/examples/quick_start_demo.ipynb for a notebook walking through some more usage patterns.
