mirror of
https://github.com/explosion/spaCy.git
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281 lines
9.5 KiB
Python
281 lines
9.5 KiB
Python
import srsly
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from collections import namedtuple, OrderedDict
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from .stop_words import STOP_WORDS
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from .syntax_iterators import SYNTAX_ITERATORS
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from .tag_map import TAG_MAP
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from .tag_orth_map import TAG_ORTH_MAP
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from .tag_bigram_map import TAG_BIGRAM_MAP
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from ...attrs import LANG
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from ...compat import copy_reg
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from ...errors import Errors
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from ...language import Language
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from ...symbols import POS
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from ...tokens import Doc
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from ...util import DummyTokenizer
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from ... import util
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# Hold the attributes we need with convenient names
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DetailedToken = namedtuple("DetailedToken", ["surface", "pos", "lemma"])
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# Handling for multiple spaces in a row is somewhat awkward, this simplifies
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# the flow by creating a dummy with the same interface.
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DummyNode = namedtuple("DummyNode", ["surface", "pos", "lemma"])
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DummySpace = DummyNode(" ", " ", " ")
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def try_sudachi_import(split_mode="A"):
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"""SudachiPy is required for Japanese support, so check for it.
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It it's not available blow up and explain how to fix it.
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split_mode should be one of these values: "A", "B", "C", None->"A"."""
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try:
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from sudachipy import dictionary, tokenizer
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split_mode = {
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None: tokenizer.Tokenizer.SplitMode.A,
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"A": tokenizer.Tokenizer.SplitMode.A,
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"B": tokenizer.Tokenizer.SplitMode.B,
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"C": tokenizer.Tokenizer.SplitMode.C,
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}[split_mode]
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tok = dictionary.Dictionary().create(mode=split_mode)
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return tok
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except ImportError:
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raise ImportError(
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"Japanese support requires SudachiPy and SudachiDict-core "
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"(https://github.com/WorksApplications/SudachiPy). "
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"Install with `pip install sudachipy sudachidict_core` or "
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"install spaCy with `pip install spacy[ja]`."
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)
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def resolve_pos(orth, pos, next_pos):
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"""If necessary, add a field to the POS tag for UD mapping.
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Under Universal Dependencies, sometimes the same Unidic POS tag can
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be mapped differently depending on the literal token or its context
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in the sentence. This function returns resolved POSs for both token
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and next_token by tuple.
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"""
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# Some tokens have their UD tag decided based on the POS of the following
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# token.
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# orth based rules
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if pos[0] in TAG_ORTH_MAP:
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orth_map = TAG_ORTH_MAP[pos[0]]
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if orth in orth_map:
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return orth_map[orth], None
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# tag bi-gram mapping
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if next_pos:
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tag_bigram = pos[0], next_pos[0]
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if tag_bigram in TAG_BIGRAM_MAP:
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bipos = TAG_BIGRAM_MAP[tag_bigram]
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if bipos[0] is None:
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return TAG_MAP[pos[0]][POS], bipos[1]
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else:
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return bipos
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return TAG_MAP[pos[0]][POS], None
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# Use a mapping of paired punctuation to avoid splitting quoted sentences.
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pairpunct = {"「": "」", "『": "』", "【": "】"}
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def separate_sentences(doc):
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"""Given a doc, mark tokens that start sentences based on Unidic tags.
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"""
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stack = [] # save paired punctuation
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for i, token in enumerate(doc[:-2]):
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# Set all tokens after the first to false by default. This is necessary
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# for the doc code to be aware we've done sentencization, see
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# `is_sentenced`.
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token.sent_start = i == 0
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if token.tag_:
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if token.tag_ == "補助記号-括弧開":
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ts = str(token)
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if ts in pairpunct:
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stack.append(pairpunct[ts])
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elif stack and ts == stack[-1]:
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stack.pop()
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if token.tag_ == "補助記号-句点":
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next_token = doc[i + 1]
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if next_token.tag_ != token.tag_ and not stack:
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next_token.sent_start = True
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def get_dtokens(tokenizer, text):
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tokens = tokenizer.tokenize(text)
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words = []
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for ti, token in enumerate(tokens):
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tag = "-".join([xx for xx in token.part_of_speech()[:4] if xx != "*"])
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inf = "-".join([xx for xx in token.part_of_speech()[4:] if xx != "*"])
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dtoken = DetailedToken(token.surface(), (tag, inf), token.dictionary_form())
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if ti > 0 and words[-1].pos[0] == "空白" and tag == "空白":
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# don't add multiple space tokens in a row
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continue
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words.append(dtoken)
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# remove empty tokens. These can be produced with characters like … that
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# Sudachi normalizes internally.
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words = [ww for ww in words if len(ww.surface) > 0]
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return words
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def get_words_lemmas_tags_spaces(dtokens, text, gap_tag=("空白", "")):
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words = [x.surface for x in dtokens]
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if "".join("".join(words).split()) != "".join(text.split()):
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raise ValueError(Errors.E194.format(text=text, words=words))
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text_words = []
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text_lemmas = []
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text_tags = []
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text_spaces = []
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text_pos = 0
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# handle empty and whitespace-only texts
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if len(words) == 0:
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return text_words, text_lemmas, text_tags, text_spaces
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elif len([word for word in words if not word.isspace()]) == 0:
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assert text.isspace()
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text_words = [text]
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text_lemmas = [text]
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text_tags = [gap_tag]
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text_spaces = [False]
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return text_words, text_lemmas, text_tags, text_spaces
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# normalize words to remove all whitespace tokens
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norm_words, norm_dtokens = zip(
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*[
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(word, dtokens)
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for word, dtokens in zip(words, dtokens)
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if not word.isspace()
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]
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)
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# align words with text
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for word, dtoken in zip(norm_words, norm_dtokens):
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try:
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word_start = text[text_pos:].index(word)
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except ValueError:
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raise ValueError(Errors.E194.format(text=text, words=words))
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if word_start > 0:
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w = text[text_pos : text_pos + word_start]
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text_words.append(w)
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text_lemmas.append(w)
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text_tags.append(gap_tag)
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text_spaces.append(False)
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text_pos += word_start
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text_words.append(word)
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text_lemmas.append(dtoken.lemma)
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text_tags.append(dtoken.pos)
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text_spaces.append(False)
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text_pos += len(word)
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if text_pos < len(text) and text[text_pos] == " ":
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text_spaces[-1] = True
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text_pos += 1
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if text_pos < len(text):
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w = text[text_pos:]
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text_words.append(w)
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text_lemmas.append(w)
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text_tags.append(gap_tag)
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text_spaces.append(False)
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return text_words, text_lemmas, text_tags, text_spaces
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class JapaneseTokenizer(DummyTokenizer):
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def __init__(self, cls, nlp=None, config={}):
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self.vocab = nlp.vocab if nlp is not None else cls.create_vocab(nlp)
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self.split_mode = config.get("split_mode", None)
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self.tokenizer = try_sudachi_import(self.split_mode)
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def __call__(self, text):
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dtokens = get_dtokens(self.tokenizer, text)
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words, lemmas, unidic_tags, spaces = get_words_lemmas_tags_spaces(dtokens, text)
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doc = Doc(self.vocab, words=words, spaces=spaces)
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next_pos = None
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for idx, (token, lemma, unidic_tag) in enumerate(zip(doc, lemmas, unidic_tags)):
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token.tag_ = unidic_tag[0]
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if next_pos:
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token.pos = next_pos
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next_pos = None
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else:
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token.pos, next_pos = resolve_pos(
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token.orth_,
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unidic_tag,
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unidic_tags[idx + 1] if idx + 1 < len(unidic_tags) else None,
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)
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# if there's no lemma info (it's an unk) just use the surface
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token.lemma_ = lemma
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doc.user_data["unidic_tags"] = unidic_tags
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return doc
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def _get_config(self):
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config = OrderedDict((("split_mode", self.split_mode),))
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return config
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def _set_config(self, config={}):
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self.split_mode = config.get("split_mode", None)
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def to_bytes(self, **kwargs):
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serializers = OrderedDict(
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(("cfg", lambda: srsly.json_dumps(self._get_config())),)
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)
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return util.to_bytes(serializers, [])
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def from_bytes(self, data, **kwargs):
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deserializers = OrderedDict(
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(("cfg", lambda b: self._set_config(srsly.json_loads(b))),)
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)
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util.from_bytes(data, deserializers, [])
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self.tokenizer = try_sudachi_import(self.split_mode)
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return self
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def to_disk(self, path, **kwargs):
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path = util.ensure_path(path)
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serializers = OrderedDict(
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(("cfg", lambda p: srsly.write_json(p, self._get_config())),)
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)
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return util.to_disk(path, serializers, [])
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def from_disk(self, path, **kwargs):
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path = util.ensure_path(path)
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serializers = OrderedDict(
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(("cfg", lambda p: self._set_config(srsly.read_json(p))),)
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)
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util.from_disk(path, serializers, [])
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self.tokenizer = try_sudachi_import(self.split_mode)
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class JapaneseDefaults(Language.Defaults):
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lex_attr_getters = dict(Language.Defaults.lex_attr_getters)
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lex_attr_getters[LANG] = lambda _text: "ja"
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stop_words = STOP_WORDS
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tag_map = TAG_MAP
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syntax_iterators = SYNTAX_ITERATORS
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writing_system = {"direction": "ltr", "has_case": False, "has_letters": False}
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@classmethod
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def create_tokenizer(cls, nlp=None, config={}):
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return JapaneseTokenizer(cls, nlp, config)
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class Japanese(Language):
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lang = "ja"
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Defaults = JapaneseDefaults
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def make_doc(self, text):
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return self.tokenizer(text)
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def pickle_japanese(instance):
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return Japanese, tuple()
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copy_reg.pickle(Japanese, pickle_japanese)
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__all__ = ["Japanese"]
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