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193 lines
7.2 KiB
Python
193 lines
7.2 KiB
Python
# Natural Language Toolkit: Tokenizers
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#
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# Copyright (C) 2001-2020 NLTK Project
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# Author: Christopher Hench <chris.l.hench@gmail.com>
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# Alex Estes
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# URL: <http://nltk.sourceforge.net>
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# For license information, see LICENSE.TXT
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"""
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The Sonority Sequencing Principle (SSP) is a language agnostic algorithm proposed
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by Otto Jesperson in 1904. The sonorous quality of a phoneme is judged by the
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openness of the lips. Syllable breaks occur before troughs in sonority. For more
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on the SSP see Selkirk (1984).
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The default implementation uses the English alphabet, but the `sonority_hiearchy`
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can be modified to IPA or any other alphabet for the use-case. The SSP is a
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universal syllabification algorithm, but that does not mean it performs equally
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across languages. Bartlett et al. (2009) is a good benchmark for English accuracy
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if utilizing IPA (pg. 311).
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Importantly, if a custom hiearchy is supplied and vowels span across more than
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one level, they should be given separately to the `vowels` class attribute.
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References:
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- Otto Jespersen. 1904. Lehrbuch der Phonetik.
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Leipzig, Teubner. Chapter 13, Silbe, pp. 185-203.
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- Elisabeth Selkirk. 1984. On the major class features and syllable theory.
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In Aronoff & Oehrle (eds.) Language Sound Structure: Studies in Phonology.
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Cambridge, MIT Press. pp. 107-136.
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- Susan Bartlett, et al. 2009. On the Syllabification of Phonemes.
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In HLT-NAACL. pp. 308-316.
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"""
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import warnings
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import re
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from string import punctuation
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from nltk.tokenize.api import TokenizerI
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from nltk.util import ngrams
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class SyllableTokenizer(TokenizerI):
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"""
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Syllabifies words based on the Sonority Sequencing Principle (SSP).
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>>> from nltk.tokenize import SyllableTokenizer
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>>> from nltk import word_tokenize
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>>> SSP = SyllableTokenizer()
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>>> SSP.tokenize('justification')
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['jus', 'ti', 'fi', 'ca', 'tion']
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>>> text = "This is a foobar-like sentence."
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>>> [SSP.tokenize(token) for token in word_tokenize(text)]
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[['This'], ['is'], ['a'], ['foo', 'bar', '-', 'li', 'ke'], ['sen', 'ten', 'ce'], ['.']]
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"""
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def __init__(self, lang="en", sonority_hierarchy=False):
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"""
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:param lang: Language parameter, default is English, 'en'
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:type lang: str
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:param sonority_hierarchy: Sonority hierarchy according to the
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Sonority Sequencing Principle.
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:type sonority_hierarchy: list(str)
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"""
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# Sonority hierarchy should be provided in descending order.
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# If vowels are spread across multiple levels, they should be
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# passed assigned self.vowels var together, otherwise should be
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# placed in first index of hierarchy.
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if not sonority_hierarchy and lang == "en":
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sonority_hierarchy = [
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"aeiouy", # vowels.
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"lmnrw", # nasals.
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"zvsf", # fricatives.
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"bcdgtkpqxhj", # stops.
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]
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self.vowels = sonority_hierarchy[0]
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self.phoneme_map = {}
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for i, level in enumerate(sonority_hierarchy):
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for c in level:
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sonority_level = len(sonority_hierarchy) - i
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self.phoneme_map[c] = sonority_level
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self.phoneme_map[c.upper()] = sonority_level
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def assign_values(self, token):
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"""
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Assigns each phoneme its value from the sonority hierarchy.
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Note: Sentence/text has to be tokenized first.
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:param token: Single word or token
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:type token: str
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:return: List of tuples, first element is character/phoneme and
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second is the soronity value.
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:rtype: list(tuple(str, int))
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"""
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syllables_values = []
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for c in token:
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try:
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syllables_values.append((c, self.phoneme_map[c]))
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except KeyError:
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if c not in punctuation:
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warnings.warn(
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"Character not defined in sonority_hierarchy,"
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" assigning as vowel: '{}'".format(c)
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)
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syllables_values.append((c, max(self.phoneme_map.values())))
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self.vowels += c
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else: # If it's a punctuation, assing -1.
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syllables_values.append((c, -1))
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return syllables_values
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def validate_syllables(self, syllable_list):
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"""
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Ensures each syllable has at least one vowel.
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If the following syllable doesn't have vowel, add it to the current one.
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:param syllable_list: Single word or token broken up into syllables.
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:type syllable_list: list(str)
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:return: Single word or token broken up into syllables
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(with added syllables if necessary)
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:rtype: list(str)
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"""
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valid_syllables = []
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front = ""
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for i, syllable in enumerate(syllable_list):
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if syllable in punctuation:
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valid_syllables.append(syllable)
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continue
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if not re.search("|".join(self.vowels), syllable):
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if len(valid_syllables) == 0:
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front += syllable
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else:
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valid_syllables = valid_syllables[:-1] + [
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valid_syllables[-1] + syllable
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]
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else:
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if len(valid_syllables) == 0:
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valid_syllables.append(front + syllable)
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else:
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valid_syllables.append(syllable)
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return valid_syllables
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def tokenize(self, token):
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"""
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Apply the SSP to return a list of syllables.
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Note: Sentence/text has to be tokenized first.
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:param token: Single word or token
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:type token: str
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:return syllable_list: Single word or token broken up into syllables.
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:rtype: list(str)
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"""
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# assign values from hierarchy
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syllables_values = self.assign_values(token)
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# if only one vowel return word
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if sum(token.count(x) for x in self.vowels) <= 1:
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return [token]
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syllable_list = []
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syllable = syllables_values[0][0] # start syllable with first phoneme
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for trigram in ngrams(syllables_values, n=3):
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phonemes, values = zip(*trigram)
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# Sonority of previous, focal and following phoneme
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prev_value, focal_value, next_value = values
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# Focal phoneme.
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focal_phoneme = phonemes[1]
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# These cases trigger syllable break.
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if focal_value == -1: # If it's a punctuation, just break.
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syllable_list.append(syllable)
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syllable_list.append(focal_phoneme)
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syllable = ""
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elif prev_value >= focal_value == next_value:
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syllable += focal_phoneme
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syllable_list.append(syllable)
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syllable = ""
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elif prev_value > focal_value < next_value:
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syllable_list.append(syllable)
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syllable = ""
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syllable += focal_phoneme
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# no syllable break
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else:
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syllable += focal_phoneme
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syllable += syllables_values[-1][0] # append last phoneme
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syllable_list.append(syllable)
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return self.validate_syllables(syllable_list)
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