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189 lines
6.9 KiB
Python
189 lines
6.9 KiB
Python
# encoding: utf-8
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# Natural Language Toolkit: Senna Interface
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#
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# Copyright (C) 2001-2020 NLTK Project
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# Author: Rami Al-Rfou' <ralrfou@cs.stonybrook.edu>
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# URL: <http://nltk.org/>
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# For license information, see LICENSE.TXT
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"""
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A general interface to the SENNA pipeline that supports any of the
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operations specified in SUPPORTED_OPERATIONS.
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Applying multiple operations at once has the speed advantage. For example,
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Senna will automatically determine POS tags if you are extracting named
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entities. Applying both of the operations will cost only the time of
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extracting the named entities.
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The SENNA pipeline has a fixed maximum size of the sentences that it can read.
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By default it is 1024 token/sentence. If you have larger sentences, changing
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the MAX_SENTENCE_SIZE value in SENNA_main.c should be considered and your
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system specific binary should be rebuilt. Otherwise this could introduce
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misalignment errors.
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The input is:
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- path to the directory that contains SENNA executables. If the path is incorrect,
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Senna will automatically search for executable file specified in SENNA environment variable
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- List of the operations needed to be performed.
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- (optionally) the encoding of the input data (default:utf-8)
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Note: Unit tests for this module can be found in test/unit/test_senna.py
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>>> from nltk.classify import Senna
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>>> pipeline = Senna('/usr/share/senna-v3.0', ['pos', 'chk', 'ner'])
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>>> sent = 'Dusseldorf is an international business center'.split()
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>>> [(token['word'], token['chk'], token['ner'], token['pos']) for token in pipeline.tag(sent)] # doctest: +SKIP
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[('Dusseldorf', 'B-NP', 'B-LOC', 'NNP'), ('is', 'B-VP', 'O', 'VBZ'), ('an', 'B-NP', 'O', 'DT'),
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('international', 'I-NP', 'O', 'JJ'), ('business', 'I-NP', 'O', 'NN'), ('center', 'I-NP', 'O', 'NN')]
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"""
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from os import path, sep, environ
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from subprocess import Popen, PIPE
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from platform import architecture, system
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from nltk.tag.api import TaggerI
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_senna_url = "http://ml.nec-labs.com/senna/"
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class Senna(TaggerI):
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SUPPORTED_OPERATIONS = ["pos", "chk", "ner"]
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def __init__(self, senna_path, operations, encoding="utf-8"):
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self._encoding = encoding
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self._path = path.normpath(senna_path) + sep
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# Verifies the existence of the executable on the self._path first
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# senna_binary_file_1 = self.executable(self._path)
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exe_file_1 = self.executable(self._path)
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if not path.isfile(exe_file_1):
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# Check for the system environment
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if "SENNA" in environ:
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# self._path = path.join(environ['SENNA'],'')
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self._path = path.normpath(environ["SENNA"]) + sep
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exe_file_2 = self.executable(self._path)
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if not path.isfile(exe_file_2):
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raise OSError(
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"Senna executable expected at %s or %s but not found"
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% (exe_file_1, exe_file_2)
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)
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self.operations = operations
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def executable(self, base_path):
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"""
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The function that determines the system specific binary that should be
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used in the pipeline. In case, the system is not known the default senna binary will
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be used.
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"""
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os_name = system()
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if os_name == "Linux":
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bits = architecture()[0]
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if bits == "64bit":
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return path.join(base_path, "senna-linux64")
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return path.join(base_path, "senna-linux32")
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if os_name == "Windows":
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return path.join(base_path, "senna-win32.exe")
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if os_name == "Darwin":
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return path.join(base_path, "senna-osx")
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return path.join(base_path, "senna")
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def _map(self):
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"""
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A method that calculates the order of the columns that SENNA pipeline
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will output the tags into. This depends on the operations being ordered.
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"""
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_map = {}
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i = 1
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for operation in Senna.SUPPORTED_OPERATIONS:
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if operation in self.operations:
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_map[operation] = i
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i += 1
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return _map
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def tag(self, tokens):
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"""
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Applies the specified operation(s) on a list of tokens.
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"""
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return self.tag_sents([tokens])[0]
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def tag_sents(self, sentences):
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"""
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Applies the tag method over a list of sentences. This method will return a
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list of dictionaries. Every dictionary will contain a word with its
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calculated annotations/tags.
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"""
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encoding = self._encoding
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if not path.isfile(self.executable(self._path)):
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raise OSError(
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"Senna executable expected at %s but not found"
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% self.executable(self._path)
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)
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# Build the senna command to run the tagger
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_senna_cmd = [
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self.executable(self._path),
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"-path",
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self._path,
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"-usrtokens",
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"-iobtags",
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]
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_senna_cmd.extend(["-" + op for op in self.operations])
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# Serialize the actual sentences to a temporary string
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_input = "\n".join((" ".join(x) for x in sentences)) + "\n"
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if isinstance(_input, str) and encoding:
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_input = _input.encode(encoding)
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# Run the tagger and get the output
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p = Popen(_senna_cmd, stdin=PIPE, stdout=PIPE, stderr=PIPE)
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(stdout, stderr) = p.communicate(input=_input)
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senna_output = stdout
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# Check the return code.
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if p.returncode != 0:
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raise RuntimeError("Senna command failed! Details: %s" % stderr)
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if encoding:
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senna_output = stdout.decode(encoding)
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# Output the tagged sentences
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map_ = self._map()
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tagged_sentences = [[]]
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sentence_index = 0
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token_index = 0
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for tagged_word in senna_output.strip().split("\n"):
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if not tagged_word:
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tagged_sentences.append([])
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sentence_index += 1
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token_index = 0
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continue
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tags = tagged_word.split("\t")
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result = {}
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for tag in map_:
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result[tag] = tags[map_[tag]].strip()
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try:
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result["word"] = sentences[sentence_index][token_index]
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except IndexError:
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raise IndexError(
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"Misalignment error occurred at sentence number %d. Possible reason"
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" is that the sentence size exceeded the maximum size. Check the "
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"documentation of Senna class for more information."
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% sentence_index
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)
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tagged_sentences[-1].append(result)
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token_index += 1
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return tagged_sentences
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# skip doctests if Senna is not installed
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def setup_module(module):
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from nose import SkipTest
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try:
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tagger = Senna("/usr/share/senna-v3.0", ["pos", "chk", "ner"])
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except OSError:
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raise SkipTest("Senna executable not found")
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