843 lines
24 KiB
Python
843 lines
24 KiB
Python
from xml.etree import ElementTree
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import re
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from enum import Enum
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from collections import defaultdict
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import sys
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import logging
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from msd_translate import MSD_TRANSLATE
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MAX_NUM_COMPONENTS = 5
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STAVKI = sys.argv[1]
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STRUKTURE = sys.argv[2]
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FILE_OUT = sys.argv[3]
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CODES = {
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"Noun": "N",
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"Verb": "V",
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"Adjective": "A",
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"Adverb": "R",
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"Pronoun": "P",
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"Numeral": "M",
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"Preposition": "S",
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"Conjunction": "C",
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"Particle": "Q",
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"Interjection": "I",
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"Abbreviation": "Y",
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"Residual": "X",
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'common': 'c',
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'proper': 'p',
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'masculine': 'm',
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'feminine': 'f',
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'neuter': 'n',
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"singular": "s",
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"dual": "d",
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"plural": "p",
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"nominative": "n",
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"genitive": "g",
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"dative": "d",
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"accusative": "a",
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"locative": "l",
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"instrumental": "i",
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"no": "n",
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"yes": "y",
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"main": "m",
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"auxiliary": "a",
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"perfective": "e",
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"progressive": "p",
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"biaspectual": "b",
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"infinitive": "n",
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"supine": "u",
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"participle": "p",
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"present": "r",
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"future": "f",
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"conditional": "c",
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"imperative": "m",
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"first": "1",
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"second": "2",
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"third": "3",
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"general": "g",
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"possessive": "s",
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"positive": "p",
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"comparative": "c",
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"superlative": "s",
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"personal": "p",
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"demonstrative": "d",
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"relative": "r",
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"reflexive": "x",
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"interrogative": "q",
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"indefinite": "i",
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"negative": "z",
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"bound": "b",
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"digit": "d",
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"roman": "r",
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"letter": "l",
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"cardinal": "c",
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"ordinal": "o",
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"pronominal": "p",
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"special": "s",
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"coordinating": "c",
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"subordinating": "s",
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"foreign": "f",
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"typo": "t",
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"program": "p",
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}
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TAGSET = {
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"N": ['type', 'gender', 'number', 'case', 'animate'],
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"V": ['type', 'aspect', 'vform', 'person', 'number', 'gender', 'negative'],
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"A": ['type', 'degree', 'gender', 'number', 'case', 'definiteness'],
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"R": ['type', 'degree'],
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"P": ['type', 'person', 'gender', 'number', 'case', 'owner_number', 'owned_gender', 'clitic'],
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"M": ['form', 'type', 'gender', 'number', 'case', 'definiteness'],
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"S": ['case'],
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"C": ['type'],
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"Q": [],
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"I": [],
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"Y": [],
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"X": ['type']
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}
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CATEGORY_BASES = {
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"N": ['.'] * 5,
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"V": ['.'] * 7,
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"A": ['.'] * 6,
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"R": ['.'] * 2,
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"P": ['.'] * 6,
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"M": ['.'] * 6,
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"S": ['.'] * 1,
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"C": ['.'] * 1,
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"Q": [],
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"I": [],
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"Y": [],
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"X": ['.'] * 1
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}
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class RestrictionType(Enum):
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Morphology = 0
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Lexis = 1
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MatchAll = 2
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class Rendition(Enum):
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Lemma = 0
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WordForm = 1
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Unknown = 2
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class ComponentRendition:
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def __init__(self, rendition=Rendition.Unknown):
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self.word_form = {}
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self.rendition = rendition
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def render(self, word):
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if self.rendition == Rendition.Lemma:
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return word.lemma
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elif self.rendition == Rendition.WordForm:
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return word.text
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elif self.rendition == Rendition.Unknown:
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return None
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else:
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raise RuntimeError("Unknown rendition: {}".format(self.rendition))
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def __str__(self):
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return str(self.rendition)
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# dont know...
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class StructureSelection(Enum):
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All = 0
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Frequency = 1
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class ComponentRepresentation:
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def new(s):
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if 'rendition' in s:
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if s['rendition'] == "lemma":
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return ComponentRendition(Rendition.Lemma)
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elif s['rendition'] == "word_form":
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return ComponentRendition(Rendition.WordForm)
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else:
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raise NotImplementedError("Rendition: {}".format(s))
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elif 'selection' in s:
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if s['selection'] == "frequency":
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return StructureSelection.Frequency
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elif s['selection'] == "all":
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return StructureSelection.All
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else:
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return {s['selection']: s['value']}
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else:
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raise NotImplementedError("Representation: {}".format(s))
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class ComponentStatus(Enum):
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Optional = 0
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Required = 1
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Forbidden = 2
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def __str__(self):
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if self == ComponentStatus.Optional:
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return "?"
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elif self == ComponentStatus.Required:
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return "!"
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else: #Forbidden
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return "X"
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def get_level(restriction):
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for feature in restriction:
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if "level" in feature.keys():
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lvl = feature.get("level")
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else:
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continue
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raise RuntimeError("Unreachable!")
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def build_morphology_regex(restriction):
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restr_dict = {}
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for feature in restriction:
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feature_dict = dict(feature.items())
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match_type = True
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if "filter" in feature_dict:
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assert(feature_dict['filter'] == "negative")
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match_type = False
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del feature_dict['filter']
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assert(len(feature_dict) == 1)
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key, value = next(iter(feature_dict.items()))
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restr_dict[key] = (value, match_type)
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assert('POS' in restr_dict)
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category = restr_dict['POS'][0].capitalize()
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cat_code = CODES[category]
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rgx = [cat_code] + CATEGORY_BASES[cat_code]
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del restr_dict['POS']
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min_msd_length = 1
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for attribute, (value, typ) in restr_dict.items():
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index = TAGSET[cat_code].index(attribute.lower())
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assert(index >= 0)
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if '|' in value:
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match = "".join(CODES[val] for val in value.split('|'))
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else:
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match = CODES[value]
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match = "[{}{}]".format("" if typ else "^", match)
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rgx[index + 1] = match
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if typ:
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min_msd_length = max(index + 1, min_msd_length)
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def matcher(text):
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if len(text) <= min_msd_length:
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return False
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for c, r in zip(text, rgx):
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if not re.match(r, c):
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return False
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return True
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return " ".join(rgx), matcher
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def build_lexis_regex(restriction):
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restr_dict = {}
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for feature in restriction:
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restr_dict.update(feature.items())
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assert("lemma" in restr_dict)
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match_list = restr_dict['lemma'].split('|')
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return match_list, lambda text: text in match_list
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class Restriction:
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def __init__(self, restriction_tag):
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if restriction_tag is None:
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self.type = RestrictionType.MatchAll
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self.matcher = None
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self.present = None
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return
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restriction_type = restriction_tag.get('type')
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if restriction_type == "morphology":
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self.type = RestrictionType.Morphology
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self.present, self.matcher = build_morphology_regex(list(restriction_tag))
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elif restriction_type == "lexis":
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self.type = RestrictionType.Lexis
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self.present, self.matcher = build_lexis_regex(list(restriction_tag))
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else:
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raise NotImplementedError()
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def match(self, word):
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if self.type == RestrictionType.Morphology:
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match_to = word.msd
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elif self.type == RestrictionType.Lexis:
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match_to = word.lemma
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elif self.type == RestrictionType.MatchAll:
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return True
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else:
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raise RuntimeError("Unreachable!")
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return self.matcher(match_to)
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def __str__(self):
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return "({:s} {})".format(str(self.type).split('.')[1], self.present)
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def __repr__(self):
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return str(self)
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class Component:
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def __init__(self, info):
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idx = info['cid']
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name = info['name'] if 'name' in info else None
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if 'status' not in info:
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status = ComponentStatus.Required
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elif info['status'] == 'forbidden':
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status = ComponentStatus.Forbidden
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elif info['status'] == 'obligatory':
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status = ComponentStatus.Required
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elif info['status'] == 'optional':
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status = ComponentStatus.Optional
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else:
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raise NotImplementedError("strange status: {}".format(info['status']))
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self.status = status
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self.name = name
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self.idx = idx
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self.restriction = None
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self.next_element = []
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self.rendition = ComponentRendition()
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self.selection = {}
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self.iter_ctr = 0
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def render_word(self, word):
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return self.rendition.render(word)
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def add_next(self, next_component, link_label):
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self.next_element.append((next_component, link_label))
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def set_restriction(self, restrictions_tag):
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if restrictions_tag is None:
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self.restriction = Restriction(None)
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elif restrictions_tag.tag == "restriction":
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self.restriction = Restriction(restrictions_tag)
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elif restrictions_tag.tag == "restriction_or":
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self.restriction = [Restriction(el) for el in restrictions_tag]
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else:
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raise RuntimeError("Unreachable")
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def set_representation(self, representation):
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cr = None
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if representation is not None:
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self.representation = []
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for feature in representation:
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f = ComponentRepresentation.new(dict(feature.attrib))
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if type(f) is StructureSelection:
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assert(cr is None)
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cr = f
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elif type(f) is ComponentRendition:
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self.rendition = f
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elif type(f) is dict:
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self.selection.update(f)
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else:
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raise RuntimeError("Unreachable: {}".format(f))
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return cr
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def find_next(self, deps, comps, restrs, reprs):
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representation = StructureSelection.All
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to_ret = []
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for d in deps:
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if d[0] == self.idx:
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_, idx, dep_label = d
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next_component = Component(comps[idx])
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next_component.set_restriction(restrs[idx])
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r1 = next_component.set_representation(reprs[idx])
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to_ret.append(next_component)
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self.add_next(next_component, dep_label)
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others, r2 = next_component.find_next(deps, comps, restrs, reprs)
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to_ret.extend(others)
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if StructureSelection.Frequency in (r1, r2):
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representation = StructureSelection.Frequency
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return to_ret, representation
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def name_str(self):
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return "_" if self.name is None else self.name
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def __str__(self):
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n = self.name_str()
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return "{:s}) {:7s}:{} [{}] :{}".format(
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self.idx, n, self.status, self.restriction, self.rendition)
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def tree(self):
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el = []
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for next, link in self.next_element:
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el.append("{:3} -- {:5} --> {:3}".format(self.idx, link, next.idx))
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el.extend(next.tree())
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return el
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def __repr__(self):
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return str(self)
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def match(self, word):
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m1 = self._match_self(word)
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if m1 is None:
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return None
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mn = self._match_next(word)
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if mn is None:
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return None
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to_ret = [m1]
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for cmatch in mn:
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# if good match but nothing to add, just continue
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if len(cmatch) == 0:
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continue
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# if more than one match found for particular component
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elif len(cmatch) > 1:
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logging.debug("MULTIPLE: {}, {}".format(self.idx, cmatch))
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# if more than one match in multiple components, NOPE!
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if len(to_ret) > 1:
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logging.warning("Strange multiple match: {}".format(
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str([w.id for w in cmatch[0].values()])))
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for tr in to_ret:
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tr.update(cmatch[0])
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continue
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# yeah, so we have found more than one match, =>
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# more than one element in to_ret
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to_ret = [{**dict(to_ret[0]), **m} for m in cmatch]
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else:
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for tr in to_ret:
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tr.update(cmatch[0])
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logging.debug("MA: {}".format(str(to_ret)))
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return to_ret
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def _match_self(self, word):
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matched = None
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# matching
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if type(self.restriction) is list:
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for restr in self.restriction:
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matched = restr.match(word)
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if matched: # match either
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break
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else:
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matched = self.restriction.match(word)
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logging.debug("SELF MATCH({}: {} -> {}".format(self.idx, word.text, matched))
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# recurse to next
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if not matched:
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return None
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else:
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return {self.idx: word}
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def _match_next(self, word):
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# matches for every component in links from this component
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to_ret = []
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# need to get all links that match
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for next, link in self.next_element:
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next_links = word.get_links(link)
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logging.debug("FIND LINKS FOR: {} -> {}: #{}".format(self.idx, next.idx, len(next_links)))
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to_ret.append([])
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# good flag
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good = next.status != ComponentStatus.Required
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for next_word in next_links:
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logging.debug("link: {}: {} -> {}".format(link, word.id, next_word.id))
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match = next.match(next_word)
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if match is not None:
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# special treatement for forbidden
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if next.status == ComponentStatus.Forbidden:
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good = False
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break
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else:
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assert(type(match) is list)
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to_ret[-1].extend(match)
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good = True
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# if none matched, nothing found!
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if not good:
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logging.debug("BAD")
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return None
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return to_ret
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class SyntacticStructure:
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def __init__(self):
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self.id = None
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self.lbs = None
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self.agreements = []
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self.components = []
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self.selection = StructureSelection.All
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@staticmethod
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def from_xml(xml):
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st = SyntacticStructure()
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st.id = xml.get('id')
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st.lbs = xml.get('LBS')
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if float(st.id.replace('-','.')) >= 17:
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return None
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assert(len(list(xml)) == 1)
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system = next(iter(xml))
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assert(system.get('type') == 'JOS')
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components, dependencies, definitions = list(system)
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deps = [ (dep.get('from'), dep.get('to'), dep.get('label')) for dep in dependencies ]
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comps = { comp.get('cid'): dict(comp.items()) for comp in components }
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restrs, forms = {}, {}
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for comp in definitions:
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n = comp.get('cid')
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restrs[n] = None
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forms[n] = None
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for el in comp:
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if el.tag.startswith("restriction"):
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assert(restrs[n] is None)
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restrs[n] = el
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elif el.tag.startswith("representation"):
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st.add_representation(n, el, forms)
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else:
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raise NotImplementedError("definition??")
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fake_root_component = Component({'cid': '#', 'type': 'other'})
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st.components, st.selection = fake_root_component.find_next(deps, comps, restrs, forms)
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return st
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def add_representation(self, n, el, forms):
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if el.tag == "representation":
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els = [el]
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elif el.tag == "representation_and":
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els = list(el)
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else:
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raise NotImplementedError("repr what?: {}".format(el.tag))
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for el in els:
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if el.get('basic') == 'form':
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assert(forms[n] is None)
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forms[n] = el
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elif el.get('basic') == "agreement":
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self.add_agreement(n, el)
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else:
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raise NotImplementedError("representation?: {}".format(el.tag))
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def add_agreement(self, n, el):
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assert(el.get('head')[:4] == 'cid_')
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n1 = n
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n2 = el.get('head')[4:]
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agreement_str = next(iter(el)).get('agreement')
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self.agreements.append({
|
|
'n1': n1,
|
|
'n2': n2,
|
|
'match': agreement_str.split('|')})
|
|
|
|
def __str__(self):
|
|
comp_str = "\n".join(str(comp) for comp in self.components)
|
|
|
|
agrs = "\n".join("({} -[{}]- {}) ".format(
|
|
a['n1'], "|".join(a['match']), a['n2']) for a in self.agreements)
|
|
|
|
links_str = "\n".join(self.components[0].tree())
|
|
|
|
return "{} LBS {}\nCOMPONENTS\n{}\nAGREEMENTS\n{}\nLINKS\n{}\n{}".format(
|
|
self.id, self.lbs, comp_str, agrs, links_str, "-" * 40)
|
|
|
|
def get_component(self, idx):
|
|
for c in self.components:
|
|
if c.idx == idx:
|
|
return c
|
|
raise RuntimeError("Unknown component id: {}".format(idx))
|
|
|
|
def check_agreements(self, match):
|
|
for agr in self.agreements:
|
|
w1 = match[agr['n1']]
|
|
w2 = match[agr['n2']]
|
|
|
|
for agr_case in agr['match']:
|
|
t1 = w1.msd[0]
|
|
v1 = TAGSET[t1].index(agr_case)
|
|
assert(v1 >= 0)
|
|
# if none specified: nedolocnik, always agrees
|
|
if v1 + 1 >= len(w1.msd):
|
|
continue
|
|
# first is uppercase, not in TAGSET
|
|
m1 = w1.msd[v1 + 1]
|
|
|
|
# REPEAT (not DRY!)
|
|
t2 = w2.msd[0]
|
|
v2 = TAGSET[t2].index(agr_case)
|
|
assert(v2 >= 0)
|
|
if v2 + 1 >= len(w2.msd):
|
|
continue
|
|
m2 = w2.msd[v2 + 1]
|
|
|
|
# match!
|
|
if '-' not in [m1, m2] and m1 != m2:
|
|
return False
|
|
|
|
return True
|
|
|
|
def check_form(self, match):
|
|
for midx, w in match.items():
|
|
c = self.get_component(midx)
|
|
for key, value in c.selection.items():
|
|
t = w.msd[0]
|
|
v = TAGSET[t].index(key.lower())
|
|
f1 = w.msd[v + 1]
|
|
f2 = CODES[value]
|
|
|
|
if '-' not in [f1, f2] and f1 != f2:
|
|
return False
|
|
|
|
return True
|
|
|
|
def match(self, word):
|
|
matches = self.components[0].match(word)
|
|
if matches is None:
|
|
return []
|
|
|
|
to_ret = []
|
|
for m in matches:
|
|
if not self.check_agreements(m):
|
|
bad = "Agreement"
|
|
elif not self.check_form(m):
|
|
bad = "Form"
|
|
else:
|
|
bad = "OK"
|
|
|
|
to_ret.append((m, bad))
|
|
|
|
return to_ret
|
|
|
|
|
|
def build_structures(filename):
|
|
structures = []
|
|
with open(filename, 'r') as fp:
|
|
et = ElementTree.XML(fp.read())
|
|
for structure in et.iter('syntactic_structure'):
|
|
to_append = SyntacticStructure.from_xml(structure)
|
|
if to_append is None:
|
|
continue
|
|
structures.append(to_append)
|
|
return structures
|
|
|
|
|
|
def get_msd(comp):
|
|
d = dict(comp.items())
|
|
if 'msd' in d:
|
|
return d['msd']
|
|
elif 'ana' in d:
|
|
return d['ana'][4:]
|
|
else:
|
|
logging.error(d, file=sys.stderr)
|
|
raise NotImplementedError("MSD?")
|
|
|
|
class Word:
|
|
def __init__(self, xml):
|
|
self.lemma = xml.get('lemma')
|
|
self.msd = MSD_TRANSLATE[get_msd(xml)]
|
|
self.id = xml.get('id')
|
|
self.text = xml.text
|
|
self.links = defaultdict(list)
|
|
|
|
assert(None not in (self.id, self.lemma, self.msd))
|
|
|
|
@staticmethod
|
|
def pcWord(pc):
|
|
pc.set('lemma', pc.text)
|
|
return Word(pc)
|
|
|
|
def add_link(self, link, to):
|
|
self.links[link].append(to)
|
|
|
|
def get_links(self, link):
|
|
if link not in self.links and "|" in link:
|
|
for l in link.split('|'):
|
|
self.links[link].extend(self.links[l])
|
|
|
|
return self.links[link]
|
|
|
|
|
|
def is_root_id(id_):
|
|
return len(id_.split('.')) == 3
|
|
|
|
|
|
def load_corpus(filename):
|
|
with open(filename, 'r') as fp:
|
|
xmlstring = re.sub(' xmlns="[^"]+"', '', fp.read(), count=1)
|
|
xmlstring = xmlstring.replace(' xml:', ' ')
|
|
et = ElementTree.XML(xmlstring)
|
|
|
|
words = {}
|
|
for w in et.iter("w"):
|
|
words[w.get('id')] = Word(w)
|
|
for pc in et.iter("pc"):
|
|
words[pc.get('id')] = Word.pcWord(pc)
|
|
|
|
for l in et.iter("link"):
|
|
if 'dep' in l.keys():
|
|
ana = l.get('afun')
|
|
lfrom = l.get('from')
|
|
dest = l.get('dep')
|
|
else:
|
|
ana = l.get('ana')
|
|
if ana[:4] != 'syn:': # dont bother...
|
|
continue
|
|
ana = ana[4:]
|
|
lfrom, dest = l.get('target').replace('#', '').split()
|
|
|
|
if lfrom in words:
|
|
if is_root_id(lfrom):
|
|
logging.error("NOO: ", lfrom)
|
|
sys.exit(1)
|
|
|
|
if dest in words:
|
|
next_word = words[dest]
|
|
words[lfrom].add_link(ana, next_word)
|
|
else:
|
|
logging.error("Unknown id: {}".format(dest))
|
|
sys.exit(1)
|
|
|
|
else:
|
|
# strange errors, just skip...
|
|
pass
|
|
|
|
return list(words.values())
|
|
|
|
|
|
def main():
|
|
import time
|
|
t = time.time()
|
|
|
|
structures = build_structures(STRUKTURE)
|
|
for s in structures:
|
|
print(s)
|
|
|
|
# words = load_corpus(STAVKI)
|
|
import pickle
|
|
# with open("words.p", "wb") as fp:
|
|
# pickle.dump(words, fp)
|
|
with open("words.p", "rb") as fp:
|
|
words = pickle.load(fp)
|
|
|
|
print("MATCHES...")
|
|
matches = {s.id: [] for s in structures}
|
|
|
|
for idx, s in enumerate(structures):
|
|
print("\r{}/{}: {:7s}".format(idx, len(structures), s.id)) #, end="")
|
|
for w in words:
|
|
mhere = s.match(w)
|
|
logging.debug(" GOT: {}".format(len(mhere)))
|
|
for match, reason in mhere:
|
|
matches[s.id].append((match, reason))
|
|
|
|
print("")
|
|
|
|
header = ["Structure_ID"]
|
|
for i in range(MAX_NUM_COMPONENTS):
|
|
header.extend("C{}_{}".format(i + 1, thd) for thd in
|
|
["Token_ID", "Word_form", "Lemma", "Msd", "Representative_form"])
|
|
header.extend(["Collocation_ID", "Joint_representative_form"])
|
|
|
|
csv = [", ".join(header)]
|
|
colocation_ids = {}
|
|
|
|
for s in structures:
|
|
ms = matches[s.id]
|
|
|
|
for m, reason in ms:
|
|
colocation_id = [s.id]
|
|
to_print = []
|
|
|
|
m_sorted = defaultdict(lambda: None, m.items())
|
|
for idx, comp in enumerate(s.components):
|
|
idx = str(idx + 1)
|
|
if idx not in m_sorted:
|
|
to_print.extend(["", "", "", "", ""])
|
|
else:
|
|
w = m_sorted[idx]
|
|
# if comp.render_word(m_sorted[idx]) is not None:
|
|
if True:
|
|
to_print.extend([w.id, w.text, w.lemma, w.msd, ""])
|
|
colocation_id.append(w.lemma)
|
|
|
|
colocation_id = tuple(colocation_id)
|
|
if colocation_id in colocation_ids:
|
|
cid = colocation_ids[colocation_id]
|
|
else:
|
|
cid = len(colocation_ids) + 1
|
|
colocation_ids[colocation_id] = cid
|
|
|
|
to_print = [s.id] + to_print
|
|
length = 1 + MAX_NUM_COMPONENTS * 5
|
|
# make them equal size
|
|
to_print.extend([""] * (length - len(to_print)))
|
|
to_print.extend([str(cid), ""])
|
|
|
|
csv.append(", ".join(to_print))
|
|
|
|
|
|
with open(FILE_OUT, "w") as fp:
|
|
print("\n".join(csv), file=fp)
|
|
|
|
# groups = defaultdict(int)
|
|
# for m, reason in ms:
|
|
# if reason != "OK":
|
|
# continue
|
|
# lemmas = [(n, w.lemma) for n, w in m.items()]
|
|
# lemmas = tuple(sorted(lemmas, key=lambda x: x[0]))
|
|
# groups[lemmas] += 1
|
|
|
|
# print(s.id)
|
|
# print(groups)
|
|
|
|
|
|
print("")
|
|
print("TIME", time.time() - t)
|
|
print([(k, len(v)) for k, v in matches.items()])
|
|
print(sum(len(v) for _, v in matches.items()))
|
|
|
|
if __name__ == '__main__':
|
|
logging.basicConfig(level=logging.INFO)
|
|
main()
|
|
|
|
# 6, 7 primeri laznih zadetkov?
|