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f3df51ae26
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| f3df51ae26 | |||
| cf455556be | |||
| ff4a71d1a7 |
3 changed files with 275 additions and 97 deletions
0
pwgen_fr/__init__.py
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0
pwgen_fr/__init__.py
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@ -1,12 +1,13 @@
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import csv
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import itertools
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from dataclasses import dataclass
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from dataclasses import dataclass, field
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import logging
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import subprocess
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import typing as t
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from bisect import bisect_left
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import enum
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from pathlib import Path
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from .word_db import Genre, Nombre, Temps, Nom, Adjectif, Verbe, Adverbe, WordDb
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logger = logging.getLogger(__name__)
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@ -34,84 +35,21 @@ class CatGram(enum.Enum):
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return self.value < oth.value
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def match_enum_or_all(val, enum_cls) -> list:
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def match_enum_or_all(val: str, enum_mapper, enum_cls) -> list:
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"""The value of the enum corresponding if any; else, all terms of the enum"""
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if val in enum_cls:
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return [enum_cls(val)]
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if val in enum_mapper:
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return [enum_mapper[val]]
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return list(enum_cls)
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class Genre(enum.Enum):
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MASC = "m"
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FEM = "f"
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class Nombre(enum.Enum):
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SING = "s"
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PLUR = "p"
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class Temps(enum.Enum):
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INFINITIF = "inf"
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PRESENT = "ind:pre"
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FUTUR = "ind:fut"
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IMPARFAIT = "ind:imp"
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class Personne(enum.Enum):
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S1 = "1s"
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S2 = "2s"
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S3 = "3s"
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P1 = "1p"
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P2 = "2p"
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P3 = "3p"
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@dataclass
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class _Mot:
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"""Canonical form of a word"""
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class Mot:
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mot: str
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lemme: str
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cat_gram: CatGram
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freq: float # occurrences of the canonical form by million words
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class Mot(_Mot):
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class Variant:
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pass
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_for_cat_gram: dict[CatGram, t.Type["Mot"]] = {}
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_variants: dict
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def __init__(self, *args, **kwargs):
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super().__init__(*args, **kwargs)
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self._variants = {}
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def accord(self, variant: Variant) -> str:
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return self._variants[variant]
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@classmethod
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def for_cat_gram(cls, cat_gram: CatGram) -> t.Type["Mot"]:
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"""The class to use for a word of given CatGram"""
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return cls._for_cat_gram.get(cat_gram, cls)
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class Nom(Mot):
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class Variant(t.NamedTuple):
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genre: Genre
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nombre: Nombre
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class Verbe(Mot):
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class Variant(t.NamedTuple):
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temps: Temps
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personne: t.Optional[Personne]
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Mot._for_cat_gram = {
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CatGram.NOM: Nom,
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CatGram.VERBE: Verbe,
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}
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variantes: dict[tuple, str] = field(default_factory=dict)
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genre: t.Optional[Genre] = None
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class Lexique:
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@ -125,6 +63,32 @@ class Lexique:
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CatGram.ADVERBE: 10000,
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}
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class Parsers:
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"""Datatables to help parse the original data"""
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genre: dict[str, Genre] = {
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"m": Genre.MASC,
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"f": Genre.FEM,
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}
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rev_genre: dict[t.Optional[Genre], str] = {
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None: "",
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Genre.MASC: "m",
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Genre.FEM: "f",
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}
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nombre: dict[str, Nombre] = {
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"s": Nombre.SING,
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"p": Nombre.PLUR,
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}
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verbe_temps: dict[str, Temps] = {
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"ind:pre": Temps.PRESENT,
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"ind:fut": Temps.FUTUR,
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"ind:imp": Temps.IMPARFAIT,
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}
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verbe_personne: dict[str, Nombre] = {
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"3s": Nombre.SING,
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"3p": Nombre.PLUR,
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}
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dataset: list[Mot]
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def __init__(self, dataset):
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@ -161,6 +125,32 @@ class Lexique:
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f"Uncompressed dataset still missing at {cls.LEXIQUE_DIR_PATH} after extraction"
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)
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@classmethod
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def _find_word_key(cls, mot: Mot):
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return (mot.lemme, mot.cat_gram, cls.Parsers.rev_genre[mot.genre])
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@classmethod
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def _find_word(cls, dataset: list[Mot], row: dict) -> t.Optional[Mot]:
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str_lemme = row["lemme"]
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cat_gram = CatGram.parse(row["cgram"])
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genre = row["genre"] if cat_gram == CatGram.NOM else ""
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row_key = (
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str_lemme,
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cat_gram,
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genre,
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)
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lemme_pos = bisect_left(
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dataset,
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row_key,
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key=cls._find_word_key,
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)
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if lemme_pos >= len(dataset):
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return None
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out = dataset[lemme_pos]
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if row_key != cls._find_word_key(out):
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return None
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return dataset[lemme_pos]
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@classmethod
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def parse(cls) -> "Lexique":
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out = []
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@ -174,34 +164,38 @@ class Lexique:
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# First pass: generate canonical forms (lemmes)
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for row in rows:
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if row["lemme"] != row["ortho"]:
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continue
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cat_gram = CatGram.parse(row["cgram"])
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if (row["lemme"] != row["ortho"]) and not (
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cat_gram == CatGram.NOM and row["genre"] == "f" and row["nombre"] == "s"
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):
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# Un nom singulier féminin est considéré comme forme canonique
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continue
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genre: t.Optional[Genre] = None
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if cat_gram == CatGram.NOM:
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genre = cls.Parsers.genre.get(row["genre"], None)
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out.append(
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Mot.for_cat_gram(cat_gram)(
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Mot(
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mot=row["ortho"],
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lemme=row["lemme"],
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cat_gram=cat_gram,
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freq=float(row["freqlemlivres"]),
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genre=genre,
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)
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)
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out.sort(key=lambda x: (x.mot, x.cat_gram)) # We need to bisect on this.
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out.sort(key=cls._find_word_key) # We need to bisect on this.
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# Second pass: populate variants
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for row in rows:
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str_lemme = row["lemme"]
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cat_gram = CatGram.parse(row['cgram'])
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lemme_pos = bisect_left(out, (str_lemme, cat_gram), key=lambda x: (x.mot, x.cat_gram))
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if lemme_pos > len(out) or out[lemme_pos].mot != str_lemme:
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continue # Unknown word
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lemme = out[lemme_pos]
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lemme = cls._find_word(out, row)
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if lemme is None:
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continue
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if lemme.cat_gram == CatGram.NOM:
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genres = match_enum_or_all(row["genre"], Genre)
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nombres = match_enum_or_all(row["nombre"], Nombre)
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for genre, nombre in itertools.product(genres, nombres):
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variant = Nom.Variant(genre=genre, nombre=nombre)
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lemme._variants[variant] = row["ortho"]
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nombres = match_enum_or_all(row["nombre"], cls.Parsers.nombre, Nombre)
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for nombre in nombres:
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lemme.variantes[(nombre,)] = row["ortho"]
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elif lemme.cat_gram == CatGram.VERBE:
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infover = row["infover"].split(";")
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@ -210,20 +204,23 @@ class Lexique:
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temps = None
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personne = None
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if ver[0] == "inf":
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temps = Temps(ver[0])
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elif ver[0] == "ind":
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temps_select = ":".join(ver[0:2])
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if temps_select not in Temps:
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continue
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temps = Temps(temps_select)
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personne = Personne(ver[2])
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else:
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continue
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personne = cls.Parsers.verbe_personne.get(ver[2], None)
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if personne is None:
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continue # we're not interested in all conj. persons
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variant = Verbe.Variant(temps=temps, personne=personne)
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lemme._variants[variant] = row["ortho"]
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lemme.variantes[(temps, personne)] = row["ortho"]
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elif lemme.cat_gram == CatGram.ADJECTIF:
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genres = match_enum_or_all(row["genre"], cls.Parsers.genre, Genre)
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nombres = match_enum_or_all(row["nombre"], cls.Parsers.nombre, Nombre)
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for genre, nombre in itertools.product(genres, nombres):
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lemme.variantes[(genre, nombre)] = row["ortho"]
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# No need to match adverbs (invariant)
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return cls(out)
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def most_common(
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@ -240,3 +237,52 @@ class Lexique:
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out = list(filter(lambda word: word.cat_gram == cat_gram, self.dataset))
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out.sort(key=lambda word: word.freq, reverse=True)
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return out[:threshold]
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def word_db(self, thresholds: t.Optional[dict[CatGram, int]] = None) -> WordDb:
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"""Convert to a WordDb"""
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thresholds = thresholds or {}
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noms = self.most_common(CatGram.NOM, thresholds.get(CatGram.NOM, None))
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db_noms = [
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Nom(
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genre=t.cast(Genre, nom.genre), # not None for noms
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sing=nom.variantes[(Nombre.SING,)],
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plur=nom.variantes[(Nombre.PLUR,)],
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)
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for nom in noms
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]
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adjectifs = self.most_common(
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CatGram.ADJECTIF, thresholds.get(CatGram.ADJECTIF, None)
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)
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db_adjectifs = [
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Adjectif(
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masc_sing=adj.variantes[(Genre.MASC, Nombre.SING)],
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masc_plur=adj.variantes[(Genre.MASC, Nombre.PLUR)],
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fem_sing=adj.variantes[(Genre.FEM, Nombre.SING)],
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fem_plur=adj.variantes[(Genre.FEM, Nombre.PLUR)],
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)
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for adj in adjectifs
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]
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verbes = self.most_common(CatGram.VERBE, thresholds.get(CatGram.VERBE, None))
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db_verbes = [
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Verbe(
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present_sing=verbe.variantes[(Temps.PRESENT, Nombre.SING)],
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present_plur=verbe.variantes[(Temps.PRESENT, Nombre.PLUR)],
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futur_sing=verbe.variantes[(Temps.FUTUR, Nombre.SING)],
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futur_plur=verbe.variantes[(Temps.FUTUR, Nombre.PLUR)],
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imparfait_sing=verbe.variantes[(Temps.IMPARFAIT, Nombre.SING)],
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imparfait_plur=verbe.variantes[(Temps.IMPARFAIT, Nombre.PLUR)],
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)
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for verbe in verbes
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]
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adverbes = self.most_common(
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CatGram.ADVERBE, thresholds.get(CatGram.ADVERBE, None)
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)
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db_adverbes = [Adverbe(adv=adv.mot) for adv in adverbes]
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return WordDb(
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noms=db_noms, adjectifs=db_adjectifs, verbes=db_verbes, adverbes=db_adverbes
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)
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132
pwgen_fr/word_db.py
Normal file
132
pwgen_fr/word_db.py
Normal file
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@ -0,0 +1,132 @@
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""" A pre-processed database of words, independant of their source """
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import typing as t
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from enum import Enum
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import json
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class Genre(Enum):
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MASC = "masculin"
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FEM = "féminin"
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class Nombre(Enum):
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SING = "singulier"
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PLUR = "pluriel"
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class Temps(Enum):
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PRESENT = "present"
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FUTUR = "futur"
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IMPARFAIT = "imparfait"
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class Nom(t.NamedTuple):
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"""Nom commun"""
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genre: Genre
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sing: str
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plur: str
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def __str__(self) -> str:
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return f"{self.sing}"
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def accord(self, nombre: Nombre) -> str:
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"""Accorde en nombre"""
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return getattr(self, nombre.name.lower())
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class Adjectif(t.NamedTuple):
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masc_sing: str
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masc_plur: str
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fem_sing: str
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fem_plur: str
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def __str__(self) -> str:
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return f"{self.masc_sing}/{self.fem_sing}"
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def accord(self, genre: Genre, nombre: Nombre) -> str:
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"""Accorde en genre et en nombre"""
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return getattr(self, f"{genre.name.lower()}_{nombre.name.lower()}")
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class Verbe(t.NamedTuple):
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present_sing: str
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present_plur: str
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futur_sing: str
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futur_plur: str
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imparfait_sing: str
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imparfait_plur: str
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def __str__(self) -> str:
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return f"{self.present_sing}"
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def accord(self, temps: Temps, nombre: Nombre) -> str:
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"""Accorde en temps et en nombre (seule la 3è pers. est utilisée)"""
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return getattr(self, f"{temps.name.lower()}_{nombre.name.lower()}")
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class Adverbe(t.NamedTuple):
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"""Packed as named tuple for consistence"""
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adv: str
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def __str__(self) -> str:
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return self.adv
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def accord(self) -> str:
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"""for consistence"""
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return self.adv
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class WordDb:
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"""Base de donnée de mots, sérialisable"""
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_serialize_data: dict[str, t.Type[t.NamedTuple]] = {
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"noms": Nom,
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"adjectifs": Adjectif,
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"verbes": Verbe,
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"adverbes": Adverbe,
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}
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noms: list[Nom]
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adjectifs: list[Adjectif]
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verbes: list[Verbe]
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adverbes: list[Adverbe]
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def __init__(
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self,
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noms: t.Optional[list[Nom]] = None,
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adjectifs: t.Optional[list[Adjectif]] = None,
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verbes: t.Optional[list[Verbe]] = None,
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adverbes: t.Optional[list[Adverbe]] = None,
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):
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self.noms = noms or []
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self.adjectifs = adjectifs or []
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self.verbes = verbes or []
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self.adverbes = adverbes or []
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def serialize(self) -> dict:
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"""Serialize to plain dictionary (no classes)"""
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return {
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attr: [x._asdict() for x in getattr(self, attr)]
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for attr in self.__class__._serialize_data
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}
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def save(self, fd):
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"""Serialize to this stream"""
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json.dump(self.serialize(), fd)
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@classmethod
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@t.no_type_check # serialization is messy
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def unserialize(cls, data: dict) -> "WordDb":
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"""Reverses :serialize:"""
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parsed = {}
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for attr, attr_cls in cls._serialize_data.items():
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parsed[attr] = list(map(attr_cls, data[attr]))
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return cls(**parsed)
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@classmethod
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def load(cls, fd) -> "WordDb":
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"""Unserialize from this stream"""
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return cls.unserialize(json.load(fd))
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