import nltk import nltk.classify import nltk.sentiment import nltk.sentiment.util import logging import typing as t import itertools from ..database import TextReview, CachedDatasetFunc, TokenizedReview from .base import BaseSentimentAnalyzer, AlreadyTrainedError, NotTrainedError from ..log import count_passage from ..tokenizer import BaseTokenizer log = logging.getLogger(__name__) TokenBag = list[str] Features = dict[str, int] class NLTKSentimentAnalyzer(BaseSentimentAnalyzer): """ A sentiment analyzer resembling the one implemented in structure the one implemented in the classroom, using the basic sentiment analyzer of NLTK. """ def __init__(self, *, tokenizer: BaseTokenizer) -> None: super().__init__(tokenizer=tokenizer) self.model: nltk.sentiment.SentimentAnalyzer = nltk.sentiment.SentimentAnalyzer() self.trained: bool = False def _add_feature_unigrams(self, dataset: t.Iterator[TokenizedReview]) -> None: """ Register the `nltk.sentiment.util.extract_unigram_feats` feature extrator on the model. """ # Ignore the category and only access the tokens tokenbags = map(lambda r: r.rating, dataset) # Get all words in the documents all_words = self.model.all_words(tokenbags, labeled=False) # Create unigram `contains(*)` features from the previously gathered words unigrams = self.model.unigram_word_feats(words=all_words, min_freq=4) # Add the feature extractor to the model self.model.add_feat_extractor(nltk.sentiment.util.extract_unigram_feats, unigrams=unigrams) def _add_feature_extractors(self, dataset: t.Iterator[TextReview]): """ Register new feature extractors on the `.model`. """ # Tokenize the reviews dataset: t.Iterator[TokenizedReview] = map(self.tokenizer.tokenize_review, dataset) # Add the unigrams feature self._add_feature_unigrams(dataset) def __extract_features(self, review: TextReview) -> tuple[Features, float]: """ Convert a (TokenBag, Category) tuple to a (Features, Category) tuple. Does not use `SentimentAnalyzer.apply_features` due to unexpected behaviour when using iterators. """ review: TokenizedReview = self.tokenizer.tokenize_review(review) return self.model.extract_features(review.tokens), review.rating def train(self, training_dataset_func: CachedDatasetFunc, validation_dataset_func: CachedDatasetFunc) -> None: # Forbid retraining the model if self.trained: raise AlreadyTrainedError() # Add the feature extractors to the model self._add_feature_extractors(training_dataset_func()) # Extract features from the dataset featureset: t.Iterator[tuple[Features, float]] = map(self.__extract_features, training_dataset_func()) # Train the classifier with the extracted features and category self.model.classifier = nltk.classify.NaiveBayesClassifier.train(featureset) # Toggle the trained flag self.trained = True def use(self, text: str) -> float: # Require the model to be trained if not self.trained: raise NotTrainedError() # Tokenize the input tokens = self.tokenizer.tokenize(text) # Run the classification method return self.model.classify(instance=tokens) __all__ = ( "NLTKSentimentAnalyzer", )