Python package to convert spaCy and Stanza documents to NLP Annotation Format (NAF)
Project description
nafigator
DISCLAIMER - BETA PHASE
This package is currently in a beta phase.
to nafigate [ naf-i-geyt ]
v.intr, nafigated, nafigating
To process one of more text documents through a NLP pipeline and output results in the NLP Annotation Format.
Features
The Nafigator package allows you to store (intermediate) results and processing steps from custom made spaCy and stanza pipelines in one format.
Convert text files to naf-files that satisfy the NLP Annotation Format (NAF)
Supported input media types: application/pdf (.pdf), text/plain (.txt), text/html (.html), MS Word (.docx)
Supported output formats: naf-xml (.naf.xml), naf-rdf in turtle-syntax (.ttl) and xml-syntax (.rdf) (experimental)
Supported NLP processors: spaCy, stanza
Supported NAF layers: raw, text, terms, entities, deps, multiwords
Read naf-files and access data as Python lists and dicts
When reading naf-files Nafigator stores data in memory as lxml ElementTrees. The lxml package provides a Pythonic binding for C libaries so it should be very fast.
The NLP Annotation Format (NAF)
Key features:
Multilayered extensible annotations;
Reproducible NLP pipelines;
NLP processor agnostic;
Compatible with RDF
References:
Current changes to NAF:
a ‘formats’ layer is added with text format data (font and size) to allow text classification like header detection
a ‘model’ attribute is added to LinguisticProcessors to record the model that was used
all attributes of public are Dublin Core elements and mapped to the dc namespace
attributes in a dependency relation are renamed ‘from_term’ and ‘to_term’ (‘from’ is a Python reserved word)
The code of the SpaCy converter to NAF is partially based on SpaCy-to-NAF
Installation
To install the package
pip install nafigator
To install the package from Github
pip install -e git+https://github.com/denederlandschebank/nafigator.git#egg=nafigator
How to run
Command line interface
To parse a pdf, .docx, .txt or .html-file from the command line interface run in the root of the project:
python -m nafigator.cli
Function calls
To convert a .pdf, .docx, .txt or .html-file in Python code you can use:
from nafigator.parse2naf import generate_naf doc = generate_naf(input = "../data/example.pdf", engine = "stanza", language = "en", naf_version = "v3.1", dtd_validation = False, params = {'fileDesc': {'author': 'anonymous'}}, nlp = None)
input: document to convert to naf document
engine: pipeline processor, i.e. ‘spacy’ or ‘stanza’
language: for example ‘en’ or ‘nl’
naf_version: ‘v3’ or ‘v3.1’
dtd_validation: True or False (default = False)
params: dictionary with parameters (default = {})
nlp: custom made pipeline object from spacy or stanza (default = None)
The returning object, doc, is a NafDocument from which layers can be accessed.
Get the document and processors metadata via:
doc.header
Output of doc.header of processed data/example.pdf:
{ 'fileDesc': { 'author': 'anonymous', 'creationtime': '2021-04-25T11:28:58UTC', 'filename': 'data/example.pdf', 'filetype': 'application/pdf', 'pages': '2'}, 'public': { '{http://purl.org/dc/elements/1.1/}uri': 'data/example.pdf', '{http://purl.org/dc/elements/1.1/}format': 'application/pdf'}, ...
Get the raw layer output via:
doc.raw
Output of doc.raw of processed data/example.pdf:
The Nafigator package allows you to store NLP output from custom made spaCy and stanza pipelines with (intermediate) results and all processing steps in one format. Multiwords like in 'we have set that out below' are recognized (depending on your NLP processor).
Get the text layer output via:
doc.text
Output of doc.text of processed data/example.pdf:
[ {'text': 'The', 'page': '1', 'sent': '1', 'id': 'w1', 'length': '3', 'offset': '0'}, {'text': 'Nafigator', 'page': '1', 'sent': '1', 'id': 'w2', 'length': '9', 'offset': '4'}, {'text': 'package', 'page': '1', 'sent': '1', 'id': 'w3', 'length': '7', 'offset': '14'}, {'text': 'allows', 'page': '1', 'sent': '1', 'id': 'w4', 'length': '6', 'offset': '22'}, ...
Get the terms layer output via:
doc.terms
Output of doc.terms of processed data/example.pdf:
[ {'id': 't1', 'lemma': 'the', 'pos': 'DET', 'type': 'open', 'morphofeat': 'Definite=Def|PronType=Art', 'targets': [{'id': 'w1'}]}, {'id': 't2', 'lemma': 'Nafigator', 'pos': 'PROPN', 'type': 'open', 'morphofeat': 'Number=Sing', 'targets': [{'id': 'w2'}]}, {'id': 't3', 'lemma': 'package', 'pos': 'NOUN', 'type': 'open', 'morphofeat': 'Number=Sing', 'targets': [{'id': 'w3'}]}, {'id': 't4', 'lemma': 'allow', 'pos': 'VERB', 'type': 'open', 'morphofeat': 'Mood=Ind|Number=Sing|Person=3|Tense=Pres|VerbForm=Fin', ...
Get the entities layer output via:
doc.entities
Output of doc.entities of processed data/example.pdf:
[ {'id': 'e1', 'type': 'PRODUCT', 'text': 'Nafigator', 'targets': [{'id': 't2'}]}, {'id': 'e2', 'type': 'CARDINAL', 'text': 'one', 'targets': [{'id': 't28'}]}] ]
Get the entities layer output via:
doc.deps
Output of doc.deps of processed data/example.pdf:
[ {'from_term': 't3', 'to_term': 't1', 'from_orth': 'package', 'to_orth': 'The', 'rfunc': 'det'}, {'from_term': 't4', 'to_term': 't3', 'from_orth': 'allows', 'to_orth': 'package', 'rfunc': 'nsubj'}, {'from_term': 't3', 'to_term': 't2', 'from_orth': 'package', 'to_orth': 'Nafigator', 'rfunc': 'compound'}, {'from_term': 't4', 'to_term': 't5', 'from_orth': 'allows', 'to_orth': 'you', 'rfunc': 'obj'}, ...
Get the multiwords layer output via:
doc.multiwords
Output of doc.multiwords:
[ {'id': 'mw1', 'lemma': 'set_out', 'pos': 'VERB', 'type': 'phrasal', 'components': [ {'id': 'mw1.c1', 'targets': [{'id': 't37'}]}, {'id': 'mw1.c2', 'targets': [{'id': 't39'}]}]} ]
Get the formats layer output via:
doc.formats
Output of doc.formats:
[ {'length': '268', 'offset': '0', 'textboxes': [ {'textlines': [ {'texts': [ {'font': 'CIDFont+F1', 'size': '12.000', 'length': '87', 'offset': '0', 'text': 'The Nafigator package allows you to store NLP output from custom made spaCy and stanza ' }] }, {'texts': [ {'font': 'CIDFont+F1', 'size': '12.000', 'length': '77', 'offset': '88', 'text': 'pipelines with (intermediate) results and all processing steps in one format.' ...
Get all sentences in the document via:
doc.sentences
Output of doc.sentences:
[ {'text': 'The Nafigator package allows you to store NLP output from custom made Spacy and stanza pipelines with ( intermediate ) results and all processing steps in one format .', 'para': ['1'], 'page': ['1'], 'span': [{'id': 'w1'}, {'id': 'w2'}, {'id': 'w3'}, {'id': 'w4'}, {'id': 'w5'}, {'id': 'w6'}, {'id': 'w7'}, {'id': 'w8'}, {'id': 'w9'}, {'id': 'w10'}, {'id': 'w11'}, {'id': 'w12'}, {'id': 'w13'}, {'id': 'w14'}, {'id': 'w15'}, {'id': 'w16'}, {'id': 'w17'}, {'id': 'w18'}, {'id': 'w19'}, {'id': 'w20'}, {'id': 'w21'}, {'id': 'w22'}, {'id': 'w23'}, {'id': 'w24'}, {'id': 'w25'}, {'id': 'w26'}, {'id': 'w27'}, {'id': 'w28'}, {'id': 'w29'}], 'terms': [{'id': 't1'}, {'id': 't2'}, {'id': 't3'}, {'id': 't4'}, {'id': 't5'}, {'id': 't6'}, {'id': 't7'}, {'id': 't8'}, {'id': 't9'}, {'id': 't10'}, {'id': 't11'}, {'id': 't12'}, {'id': 't13'}, {'id': 't14'}, {'id': 't15'}, {'id': 't16'}, {'id': 't17'}, {'id': 't18'}, {'id': 't19'}, {'id': 't20'}, {'id': 't21'}, {'id': 't22'}, {'id': 't23'}, {'id': 't24'}, {'id': 't25'}, {'id': 't26'}, {'id': 't27'}, {'id': 't28'}, {'id': 't29'}]}, ...
Note that you get the word ids (the span) as well as the terms ids in the sentence.
Adding new annotation layers
To add a new annotation layer with elements, start with registering the processor of the new annotations:
lp = ProcessorElement(name="processorname", model="modelname", version="1.0", timestamp=None, beginTimestamp=None, endTimestamp=None, hostname=None) doc.add_processor_element("recommendations", lp)
Then get the layer and add subelements:
layer = doc.layer("recommendations") data_recommendation = {'id': "recommendation1", 'subjectivity': 0.5, 'polarity': 0.25, 'span': ['t37', 't39']} element = doc.subelement(element=layer, tag="recommendation", data=data_recommendation) doc.add_span_element(element=element, data=data_recommendation)
Retrieve the recommendations with:
doc.recommendations
Convert NAF to the NLP Interchange Format (NIF)
The NLP Interchange Format (NIF) <https://github.com/NLP2RDF/ontologies> is an RDF/OWL-based format that aims to achieve interoperability between NLP tools.
Here’s an example:
doc = nafigator.NafDocument().open("..//data//example.naf.xml") nif = nafigator.naf2nif(uri="https://mangosaurus.eu/rdf-data/nif-data/doc_1", collection_uri="https://mangosaurus.eu/rdf-data/nif-data/collection", doc=doc)
This results in an object that contains the rdflib Graph and can be serialized with:
nif.graph.serialize(format="turtle"))
This results in the graph in turtle format.
The prefixes and namespaces:
@prefix dcterms: <http://purl.org/dc/terms/> . @prefix nif: <http://persistence.uni-leipzig.org/nlp2rdf/ontologies/nif-core#> . @prefix olia: <http://purl.org/olia/olia.owl#> . @prefix xsd: <http://www.w3.org/2001/XMLSchema#> .
The nif:ContextCollection
<https://mangosaurus.eu/rdf-data/nif-data/collection> a nif:ContextCollection ; nif:hasContext <https://mangosaurus.eu/rdf-data/nif-data/doc_1> ; dcterms:conformsTo <http://persistence.uni-leipzig.org/nlp2rdf/ontologies/nif-core/2.1> .
The nif:Context (a document)
<https://mangosaurus.eu/rdf-data/nif-data/doc_1#offset_0_265> a nif:Context, nif:String ; nif:beginIndex "0"^^xsd:nonNegativeInteger ; nif:endIndex "265"^^xsd:nonNegativeInteger ; nif:hasSentences ( <https://mangosaurus.eu/rdf-data/nif-data/doc_1#offset_0_165> <https://mangosaurus.eu/rdf-data/nif-data/doc_1#offset_167_265> ) ; nif:isString "The Nafigator package allows you to store NLP output from custom made Spacy and stanza pipelines with (intermediate) results and all processing steps in one format. Multiwords like in “we have set that out below” are recognized (depending on your NLP processor)."^^xsd:string ; nif:lastSentence <https://mangosaurus.eu/rdf-data/nif-data/doc_1#offset_167_265> ; nif:firstSentence <https://mangosaurus.eu/rdf-data/nif-data/doc_1#offset_0_165> ; nif:referenceContext <https://mangosaurus.eu/rdf-data/nif-data/doc_1> .
The nif:Sentence
<https://mangosaurus.eu/rdf-data/nif-data/doc_1#offset_0_165> a nif:OffsetBasedString, nif:Paragraph, nif:Sentence ; nif:anchorOf "The Nafigator package allows you to store NLP output from custom made Spacy and stanza pipelines with ( intermediate ) results and all processing steps in one format ."^^xsd:string ; nif:beginIndex "0"^^xsd:nonNegativeInteger ; nif:endIndex "165"^^xsd:nonNegativeInteger ; nif:firstWord <https://mangosaurus.eu/rdf-data/nif-data/doc_1#offset_0_3> ; nif:hasWords ( <https://mangosaurus.eu/rdf-data/nif-data/doc_1#offset_0_3> <https://mangosaurus.eu/rdf-data/nif-data/doc_1#offset_4_13> ... <https://mangosaurus.eu/rdf-data/nif-data/doc_1#offset_164_165> ) ; nif:lastWord <https://mangosaurus.eu/rdf-data/nif-data/doc_1#offset_164_165> ; nif:nextSentence <https://mangosaurus.eu/rdf-data/nif-data/doc_1#offset_167_265> ; nif:referenceContext <https://mangosaurus.eu/rdf-data/nif-data/doc_1> .
The nif:Word
<https://mangosaurus.eu/rdf-data/nif-data/3968fc96-5750-3fdb-be58-46f182762119#offset_0_3> a nif:OffsetBasedString, nif:Word ; nif:anchorOf "The"^^xsd:string ; nif:beginIndex "0"^^xsd:nonNegativeInteger ; nif:endIndex "3"^^xsd:nonNegativeInteger ; nif:lemma "the"^^xsd:string ; nif:nextWord <https://mangosaurus.eu/rdf-data/nif-data/3968fc96-5750-3fdb-be58-46f182762119#offset_4_13> ; nif:oliaLink olia:Article, olia:Definite, olia:Determiner ; nif:referenceContext <https://mangosaurus.eu/rdf-data/nif-data/3968fc96-5750-3fdb-be58-46f182762119#offset_0_265> ; nif:sentence <https://mangosaurus.eu/rdf-data/nif-data/3968fc96-5750-3fdb-be58-46f182762119#offset_0_165> .
Part of speech tags and morphological features are here combined: the part-of-speech tag is olia:Determiner. The morphological features are olia:Article (the pronType:Art in terms of Universal Dependencies) and olia:Definite (the Definite:Def in terms of Universal Dependencies).
Changes to NIF
Instead of the original RDF predicates nif:word and nif:sentence (used to link words to sentences and vice versa) I used predicates nif:hasWord and nif:hasSentence which point to a RDF collection (a linked list) of respectively word and sentences. The RDF collection maintains order of the elements and easy traversing. These predicates are not part of the original NIF ontology.
History
0.1.0 (2021-03-13)
First release on PyPI.
0.1.1 to 0.1.41 (2022-3-1)
A lot of small changes
0.1.42 (2022-4-6)
Added first version of termbase processor
0.1.43 (2022-4-29)
Fix for get_context_rows
0.1.45 (2022-4-29)
Added sent ids to doc.sentences and doc.paragraphs
0.1.47 (2022-8-22)
Table extraction improvements
Fix to align enumeration of sentences and paragraphs
0.1.48 (2022-8-30)
Added first version of nif conversion
0.1.49 (2022-9-2)
Improved version of nif conversion
Optimized TermbaseProcessor
0.1.50 (2022-9-5)
Morphological features in nif
Bugfix TermbaseProcessor
NIF example added to README.rst
Project details
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