spaCy/examples/pipeline/custom_component_entities.py

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# coding: utf-8
from __future__ import unicode_literals
from spacy.lang.en import English
from spacy.matcher import PhraseMatcher
from spacy.tokens import Doc, Span, Token
class TechCompanyRecognizer(object):
"""Example of a spaCy v2.0 pipeline component that sets entity annotations
based on list of single or multiple-word company names. Companies are
labelled as ORG and their spans are merged into one token. Additionally,
._.has_tech_org and ._.is_tech_org is set on the Doc/Span and Token
respectively."""
name = 'tech_companies' # component name, will show up in the pipeline
def __init__(self, nlp, companies=tuple(), label='ORG'):
"""Initialise the pipeline component. The shared nlp instance is used
to initialise the matcher with the shared vocab, get the label ID and
generate Doc objects as phrase match patterns.
"""
self.label = nlp.vocab.strings[label] # get entity label ID
# Set up the PhraseMatcher it can now take Doc objects as patterns,
# so even if the list of companies is long, it's very efficient
patterns = [nlp(org) for org in companies]
self.matcher = PhraseMatcher(nlp.vocab)
self.matcher.add('TECH_ORGS', None, *patterns)
# Register attribute on the Token. We'll be overwriting this based on
# the matches, so we're only setting a default value, not a getter.
Token.set_extension('is_tech_org', default=False)
# Register attributes on Doc and Span via a getter that checks if one of
# the contained tokens is set to is_tech_org == True.
Doc.set_extension('has_tech_org', getter=self.has_tech_org)
Span.set_extension('has_tech_org', getter=self.has_tech_org)
def __call__(self, doc):
"""Apply the pipeline component on a Doc object and modify it if matches
are found. Return the Doc, so it can be processed by the next component
in the pipeline, if available.
"""
matches = self.matcher(doc)
spans = [] # keep the spans for later so we can merge them afterwards
for _, start, end in matches:
# Generate Span representing the entity & set label
entity = Span(doc, start, end, label=self.label)
spans.append(entity)
# Set custom attribute on each token of the entity
for token in entity:
token._.set('is_tech_org', True)
# Overwrite doc.ents and add entity be careful not to replace!
doc.ents = list(doc.ents) + [entity]
for span in spans:
# Iterate over all spans and merge them into one token. This is done
# after setting the entities otherwise, it would cause mismatched
# indices!
span.merge()
return doc # don't forget to return the Doc!
def has_tech_org(self, tokens):
"""Getter for Doc and Span attributes. Returns True if one of the tokens
is a tech org. Since the getter is only called when we access the
attribute, we can refer to the Token's 'is_tech_org' attribute here,
which is already set in the processing step."""
return any([t._.get('is_tech_org') for t in tokens])
# For simplicity, we start off with only the blank English Language class and
# no model or pre-defined pipeline loaded.
nlp = English()
companies = ['Alphabet Inc.', 'Google', 'Netflix', 'Apple'] # etc.
component = TechCompanyRecognizer(nlp, companies) # initialise component
nlp.add_pipe(component, last=True) # add it to the pipeline as the last element
doc = nlp(u"Alphabet Inc. is the company behind Google.")
print('Pipeline', nlp.pipe_names) # pipeline contains component name
print('Tokens', [t.text for t in doc]) # company names from the list are merged
print('Doc has_tech_org', doc._.has_tech_org) # Doc contains tech orgs
print('Token 0 is_tech_org', doc[0]._.is_tech_org) # "Alphabet Inc." is a tech org
print('Token 1 is_tech_org', doc[1]._.is_tech_org) # "is" is not
print('Entities', [(e.text, e.label_) for e in doc.ents]) # all orgs are entities