from __future__ import annotations import warnings import numpy as np import spacy from joblib import Memory from sklearn.base import BaseEstimator, TransformerMixin from sklearn.feature_extraction.text import TfidfVectorizer from sklearn.linear_model import LogisticRegression from sklearn.model_selection import RandomizedSearchCV, cross_val_score, train_test_split from sklearn.pipeline import Pipeline from tqdm import tqdm from app.constants import CACHE_DIR __all__ = ["create_model", "train_model", "evaluate_model"] try: nlp = spacy.load("en_core_web_sm", disable=["tok2vec", "parser", "ner"]) except OSError: print("Downloading spaCy model...") from spacy.cli import download as spacy_download spacy_download("en_core_web_sm") nlp = spacy.load("en_core_web_sm", disable=["tok2vec", "parser", "ner"]) class TextTokenizer(BaseEstimator, TransformerMixin): def __init__( self, *, character_threshold: int = 2, batch_size: int = 1024, n_jobs: int = 8, progress: bool = True, ) -> None: self.character_threshold = character_threshold self.batch_size = batch_size self.n_jobs = n_jobs self.progress = progress def fit(self, _data: list[str], _labels: list[int] | None = None) -> TextTokenizer: return self def transform(self, data: list[str]) -> list[list[str]]: tokenized = [] for doc in tqdm( nlp.pipe(data, batch_size=self.batch_size, n_process=self.n_jobs), total=len(data), disable=not self.progress, ): tokens = [] for token in doc: # Ignore stop words and punctuation if token.is_stop or token.is_punct: continue # Ignore emails, URLs and numbers if token.like_email or token.like_email or token.like_num: continue # Lemmatize and lowercase tok = token.lemma_.lower().strip() # Format hashtags if tok.startswith("#"): tok = tok[1:] # Ignore short and non-alphanumeric tokens if len(tok) < self.character_threshold or not tok.isalnum(): continue # TODO: Emoticons and emojis # TODO: Spelling correction tokens.append(tok) tokenized.append(tokens) return tokenized def identity(x: list[str]) -> list[str]: """Identity function for use in TfidfVectorizer. Args: x: Input data Returns: Unchanged input data """ return x def create_model( max_features: int, seed: int | None = None, verbose: bool = False, ) -> Pipeline: """Create a sentiment analysis model. Args: max_features: Maximum number of features seed: Random seed (None for random seed) verbose: Whether to log progress during training Returns: Untrained model """ return Pipeline( [ ("tokenizer", TextTokenizer(progress=True)), ( "vectorizer", TfidfVectorizer( max_features=max_features, ngram_range=(1, 2), # disable text processing tokenizer=identity, preprocessor=identity, lowercase=False, token_pattern=None, ), ), ("classifier", LogisticRegression(max_iter=1000, random_state=seed)), ], memory=Memory(CACHE_DIR, verbose=0), verbose=verbose, ) def train_model( model: BaseEstimator, text_data: list[str], label_data: list[int], seed: int = 42, ) -> tuple[BaseEstimator, float]: """Train the sentiment analysis model. Args: model: Untrained model text_data: Text data label_data: Label data seed: Random seed (None for random seed) Returns: Trained model and accuracy """ text_train, text_test, label_train, label_test = train_test_split( text_data, label_data, test_size=0.2, random_state=seed, ) param_distributions = { "classifier__C": np.logspace(-4, 4, 20), "classifier__penalty": ["l1", "l2"], } search = RandomizedSearchCV( model, param_distributions, n_iter=10, cv=5, scoring="accuracy", random_state=seed, n_jobs=-1, ) with warnings.catch_warnings(): warnings.simplefilter("ignore") # model.fit(text_train, label_train) search.fit(text_train, label_train) best_model = search.best_estimator_ return best_model, best_model.score(text_test, label_test) def evaluate_model( model: Pipeline, text_data: list[str], label_data: list[int], folds: int = 5, ) -> tuple[float, float]: """Evaluate the model using cross-validation. Args: model: Trained model text_data: Text data label_data: Label data folds: Number of cross-validation folds Returns: Mean accuracy and standard deviation """ scores = cross_val_score( model, text_data, label_data, cv=folds, scoring="accuracy", ) return scores.mean(), scores.std()