from argparse import ArgumentParser from fun_text_processing.text_normalization.data_loader_utils import ( evaluate, known_types, load_files, training_data_to_sentences, training_data_to_tokens, ) from fun_text_processing.text_normalization.normalize import Normalizer """ Runs Evaluation on data in the format of : \t\t<`self` if trivial class or normalized text> like the Google text normalization data https://www.kaggle.com/richardwilliamsproat/text-normalization-for-english-russian-and-polish """ def parse_args(): parser = ArgumentParser() parser.add_argument("--input", help="input file path", type=str) parser.add_argument("--lang", help="language", choices=["en"], default="en", type=str) parser.add_argument( "--input_case", help="input capitalization", choices=["lower_cased", "cased"], default="cased", type=str, ) parser.add_argument( "--cat", dest="category", help="focus on class only (" + ", ".join(known_types) + ")", type=str, default=None, choices=known_types, ) parser.add_argument( "--filter", action="store_true", help="clean data for normalization purposes" ) return parser.parse_args() if __name__ == "__main__": # Example usage: # python run_evaluate.py --input= --cat= --filter args = parse_args() if args.lang == "en": from fun_text_processing.text_normalization.en.clean_eval_data import filter_loaded_data file_path = args.input normalizer = Normalizer(input_case=args.input_case, lang=args.lang) print("Loading training data: " + file_path) training_data = load_files([file_path]) if args.filter: training_data = filter_loaded_data(training_data) if args.category is None: print("Sentence level evaluation...") sentences_un_normalized, sentences_normalized, _ = training_data_to_sentences(training_data) print("- Data: " + str(len(sentences_normalized)) + " sentences") sentences_prediction = normalizer.normalize_list(sentences_un_normalized) print("- Normalized. Evaluating...") sentences_accuracy = evaluate( preds=sentences_prediction, labels=sentences_normalized, input=sentences_un_normalized ) print("- Accuracy: " + str(sentences_accuracy)) print("Token level evaluation...") tokens_per_type = training_data_to_tokens(training_data, category=args.category) token_accuracy = {} for token_type in tokens_per_type: print("- Token type: " + token_type) tokens_un_normalized, tokens_normalized = tokens_per_type[token_type] print(" - Data: " + str(len(tokens_normalized)) + " tokens") tokens_prediction = normalizer.normalize_list(tokens_un_normalized) print(" - Denormalized. Evaluating...") token_accuracy[token_type] = evaluate( preds=tokens_prediction, labels=tokens_normalized, input=tokens_un_normalized ) print(" - Accuracy: " + str(token_accuracy[token_type])) token_count_per_type = { token_type: len(tokens_per_type[token_type][0]) for token_type in tokens_per_type } token_weighted_accuracy = [ token_count_per_type[token_type] * accuracy for token_type, accuracy in token_accuracy.items() ] print("- Accuracy: " + str(sum(token_weighted_accuracy) / sum(token_count_per_type.values()))) print(" - Total: " + str(sum(token_count_per_type.values())), "\n") print(" - Total: " + str(sum(token_count_per_type.values())), "\n") for token_type in token_accuracy: if token_type not in known_types: raise ValueError("Unexpected token type: " + token_type) if args.category is None: c1 = ["Class", "sent level"] + known_types c2 = ["Num Tokens", len(sentences_normalized)] + [ token_count_per_type[known_type] if known_type in tokens_per_type else "0" for known_type in known_types ] c3 = ["Normalization", sentences_accuracy] + [ token_accuracy[known_type] if known_type in token_accuracy else "0" for known_type in known_types ] for i in range(len(c1)): print(f"{str(c1[i]):10s} | {str(c2[i]):10s} | {str(c3[i]):5s}") else: print(f"numbers\t{token_count_per_type[args.category]}") print(f"Normalization\t{token_accuracy[args.category]}")