mirror of
https://github.com/hexastack/hexabot
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131 lines
5.6 KiB
Python
131 lines
5.6 KiB
Python
from sklearn.calibration import LabelEncoder
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import boilerplate as tfbp
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from sklearn.preprocessing import OneHotEncoder
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from sklearn.feature_extraction.text import TfidfVectorizer
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import re
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import numpy as np
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from typing import Any, Tuple, Dict, List
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import os
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import joblib
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from utils.json_helper import JsonHelper
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# TFLC (Term Frequency based Language Classifier) Data Loader
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class TFLCDL(tfbp.DataLoader):
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default_hparams: Dict[str, Any] = {"ngram_range": (3, 3), "test_size": .2}
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# We need to store the fitted preprocessing objects so that we can transform the
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# test and predict sets properly.
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_save_dir: str
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tfidf: TfidfVectorizer
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one_hot_encoder: OneHotEncoder
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label_encoder: LabelEncoder
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language_names: List[str]
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json_helper: JsonHelper
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def __init__(self, method=None, save_dir=None, **hparams):
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super().__init__(method, **hparams)
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self.json_helper = JsonHelper("tflc")
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self._save_dir = save_dir
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# We will opt for a TF-IDF representation of the data as the frequency of word
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# roots should give us a good idea about which language we're dealing with.
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if method == "fit":
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self.tfidf = TfidfVectorizer(analyzer="char_wb",
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ngram_range=tuple(self.hparams.ngram_range))
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else:
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if self._save_dir is not None and os.path.isfile(os.path.join(self._save_dir, "tfidf_vectorizer.joblib")):
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self.tfidf = joblib.load(os.path.join(self._save_dir, 'tfidf_vectorizer.joblib'))
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else:
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raise ValueError(f'Unable to load tfidf in {self._save_dir} ')
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def strip_numbers(self, text: str):
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return re.sub(r'[0-9]{2,}', '', text.lower())
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def get_texts_and_languages(self, dataset: List[dict]):
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""" Extracts the text and the language label from the text's JSON object"""
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texts = []
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languages = []
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for item in dataset:
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# An item is a JSON object that has text, entities among its keys.
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language = ""
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entities: List[dict] = item.get("entities", [])
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# There can only be at most 1 language for a single piece of text.
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# The entity we choose has to have "language as the name like this
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# { "name":"language","value":"fr","start":-1,"end":-1 }
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language_entities = list(filter(lambda entity: "language" in entity.values(),
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entities))
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if language_entities:
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language = language_entities[0]["value"]
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# Numbers and capital letters don't provide information about the language
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# so it's better to not have them.
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if language:
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text = self.strip_numbers(item["text"])
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texts.append(text)
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languages.append(language)
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return texts, languages
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def preprocess_train_dataset(self) -> Tuple[np.ndarray, np.ndarray]:
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"""Preprocessing the training set and fitting the proprocess steps in the process"""
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json = self.json_helper.read_dataset_json_file("train.json")
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dataset = json["common_examples"]
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# If a sentence has a language label, we include it in our dataset
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# Otherwise, we discard it.
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texts, languages = self.get_texts_and_languages(dataset)
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encoded_texts = np.array(self.tfidf.fit_transform(texts).toarray())
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# Encoding language labels as integers
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self.label_encoder = LabelEncoder()
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integer_encoded = np.array(
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self.label_encoder.fit_transform(languages)).reshape(-1, 1)
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self.language_names = list(self.label_encoder.classes_)
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# Encoding integers to one hot vectors
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self.one_hot_encoder = OneHotEncoder(
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sparse=False, handle_unknown="error")
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encoded_languages = self.one_hot_encoder.fit_transform(integer_encoded)
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# Saving the fitted tfidf vectorizer
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joblib.dump(self.tfidf, os.path.join(self._save_dir, 'tfidf_vectorizer.joblib'))
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# We return the training data in the format of the model input
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return encoded_texts, encoded_languages
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def __call__(self) -> Tuple[np.ndarray, np.ndarray, List[str]]:
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# Regardless of the method, we're required to fit our preprocessing to the training data
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if self.method == "fit":
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encoded_texts, encoded_languages = self.preprocess_train_dataset()
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return encoded_texts, encoded_languages, self.language_names
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elif self.method == "evaluate":
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dataset = self.json_helper.read_dataset_json_file("test.json")
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# We transform the test data.
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texts, languages = self.get_texts_and_languages(
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dataset["common_examples"])
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# Encoding text using TF-IDF.
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encoded_texts = np.array(self.tfidf.transform(
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texts).toarray()) # type: ignore
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# Encoding language labels as integers
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self.label_encoder = LabelEncoder()
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# Transforming the language labels.
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integer_encoded = self.label_encoder.fit_transform(
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languages).reshape(-1, 1) # type:ignore
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# Encoding integers to one hot vectors
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self.one_hot_encoder = OneHotEncoder(
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sparse=False, handle_unknown="error")
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encoded_languages = np.array(self.one_hot_encoder.fit_transform(
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integer_encoded))
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return encoded_texts, encoded_languages
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else:
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raise ValueError("Unknown method!")
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def encode_text(self, text: str):
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sanitized_text = self.strip_numbers(text)
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return self.tfidf.transform([sanitized_text]).toarray() # type: ignore
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