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test_model_v6.py
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test_model_v6.py
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from polyleven import levenshtein
from happytransformer import HappyWordPrediction
import pandas as pd
from tqdm import tqdm
import os
import re
"""
Non Real-word:
this versions add all distance <= 1 words for candidate words or huristic for substitution errors.
Also it is witout limit.
Real-word:
same as version2
Procedure:
same as version3
"""
class TestModel:
def __init__(
self,
main_path="/mnt/disk1/users/naziri",
model_path="HooshvareLab/bert-base-parsbert-uncased",
output_file_name="result",
):
self.DICTIONARY_DIR = main_path + "/dictionary/dictionary.txt"
self.KEYBOARD_ERRORS_DIR = (
main_path + "/dictionary/keyboard_realword_errors.txt"
)
self.SUBSTITUTION_ERRORS_DIR = (
main_path + "/dictionary/substitution_realword_errors.txt"
)
self.HOMOPHONE_ERRORS_DIR = (
main_path + "/dictionary/homophone_realword_errors.txt"
)
self.FINAL_DATASET_DIR = (
main_path + "/train test datasets/test/final_dataset_v2.txt"
)
self.OUTPUT_FILE_DIR = (
main_path + "/evaluation results/" + output_file_name + ".csv"
)
print("creating dictionary ...")
self.dictionary = self.__create_dictionary()
print("load homophone, keyboard, substitution realword errors ...")
total_realword_errors = self.__load_homophone_errors({})
total_realword_errors = self.__load_keyboard_errors(total_realword_errors)
self.realword_errors = self.__load_substitution_errors(total_realword_errors)
print("load model ...")
self.model = HappyWordPrediction("BERT", load_path=model_path)
print("evaluation ...")
self.__evaluate()
def __create_dictionary(self):
dictionary = {}
with open(self.DICTIONARY_DIR, "r", encoding="utf-8") as f:
for idx, word in enumerate(f):
dictionary[word.strip()] = idx
return dictionary
def __load_homophone_errors(self, total_realword_errors):
with open(self.HOMOPHONE_ERRORS_DIR, "r", encoding="utf-8") as f:
for line in f:
line = f.readline().strip()
word, errors = line.split(" ")
listoferrors = errors.split(",")
listoferrors.append(word)
for err in listoferrors:
temp = [x for x in listoferrors if x != err]
if err in total_realword_errors:
total_realword_errors[err] += temp
total_realword_errors[err] = list(
set(total_realword_errors[err])
)
else:
total_realword_errors[err] = temp
total_realword_errors[err] = list(
set(total_realword_errors[err])
)
return total_realword_errors
def __load_keyboard_errors(self, total_realword_errors):
with open(self.KEYBOARD_ERRORS_DIR, "r", encoding="utf-8") as f:
for line in f:
word, errors = line.strip().split(" ")
errors = errors.split(",")
if len(errors) > 0:
if word in total_realword_errors:
total_realword_errors[word] += errors
total_realword_errors[word] = list(
set(total_realword_errors[word])
)
else:
total_realword_errors[word] = errors
total_realword_errors[word] = list(
set(total_realword_errors[word])
)
return total_realword_errors
def __load_substitution_errors(self, total_realword_errors):
with open(self.SUBSTITUTION_ERRORS_DIR, "r", encoding="utf-8") as f:
for line in f:
word, errors = line.strip().split(" ")
errors = errors.split(",")
if len(errors) > 0:
if word in total_realword_errors:
total_realword_errors[word] += errors
total_realword_errors[word] = list(
set(total_realword_errors[word])
)
else:
total_realword_errors[word] = errors
total_realword_errors[word] = list(
set(total_realword_errors[word])
)
return total_realword_errors
def __get_most_similar_token_levenshtein(self, target_word, k=300):
def find(myList):
for element in myList:
if element.get("score") > 1:
return myList.index(element)
return len(myList)
list_of_similars = []
for word in self.dictionary:
score = levenshtein(word, target_word)
# freq = word_frequency(word, 'fa')
list_of_similars.append({"word": word, "score": score})
list_of_similars.sort(key=lambda x: x["score"])
indUntil1 = find(list_of_similars)
list_of_similars = list_of_similars[0:indUntil1]
list_of_similars_h = []
for i in range(len(target_word) - 1):
j = i + 1
temp_word = (
target_word[:i] + target_word[j] + target_word[i] + target_word[j + 1 :]
)
if temp_word in self.dictionary:
list_of_similars_h.append({"word": temp_word, "score": 2})
return list_of_similars_h if len(list_of_similars_h) > 0 else list_of_similars
def __get_most_similar_token_mix(
self, sentence, target_word, top_k=10, targets=None
):
most_levenshtein_score = None
most_similar_word = ""
most_bert_score = 0
if targets:
results = self.model.predict_mask(
sentence.strip(), targets=targets, top_k=min(top_k, len(targets))
)
for result in results:
levenshtein_score = levenshtein(result.token, target_word)
if levenshtein_score < 3 and result.score >= 1e-3:
most_levenshtein_score = levenshtein_score
most_bert_score = result.score
most_similar_word = result.token
return most_similar_word, (most_levenshtein_score, most_bert_score)
return target_word, (0, 1) # return original word
else:
targets = self.__get_most_similar_token_levenshtein(target_word)
results = self.model.predict_mask(
sentence.strip(),
targets=[i["word"] for i in targets],
top_k=min(top_k, len(targets)),
)
for result in results:
levenshtein_score = levenshtein(result.token, target_word)
if most_levenshtein_score == None or (
levenshtein_score < most_levenshtein_score
):
most_levenshtein_score = levenshtein_score
most_bert_score = result.score
most_similar_word = result.token
return most_similar_word, (most_levenshtein_score, most_bert_score)
def __check_sentence(self, sentence, candidate_word):
tokens = sentence.split()
ind = tokens.index(candidate_word)
tokens[ind] = "[MASK]"
detect_is_realword = None
### RealWord
if candidate_word in self.realword_errors:
possiblewords = self.realword_errors[candidate_word]
possiblewords.append(candidate_word)
possiblewords = list(set(possiblewords))
masked_sentence = " ".join(tokens)
(
most_similar_word_mix,
most_score_mix,
) = self.__get_most_similar_token_mix(
masked_sentence, candidate_word, targets=possiblewords
)
detect_is_realword = True
### NonRealWord
elif candidate_word not in self.dictionary:
masked_sentence = " ".join(tokens)
(
most_similar_word_mix,
most_score_mix,
) = self.__get_most_similar_token_mix(masked_sentence, candidate_word)
detect_is_realword = False
return pd.DataFrame(
{
"sentence": [sentence],
"is_realword": [detect_is_realword],
"mix_word": [most_similar_word_mix],
"mix_levenshtein_score": [most_score_mix[0]],
"mix_bert_score": [most_score_mix[1]],
}
)
def __evaluate(self):
final_df = None
with open(self.FINAL_DATASET_DIR, "r", encoding="utf-8") as f:
for line in tqdm(f):
(
sentence,
type_,
correct_word,
misspelled_word,
) = line.strip().split("^")
if "correct" in type_:
candidate_word = correct_word
else:
candidate_word = misspelled_word
print(type_)
df = self.__check_sentence(sentence, candidate_word)
os.system("clear")
df["type"] = type_
if "correct" in type_:
df["correct_word"] = correct_word
df["candidate_word"] = correct_word
else:
df["correct_word"] = correct_word
df["candidate_word"] = misspelled_word
if final_df is not None:
final_df = pd.concat([final_df, df], axis=0).copy()
final_df = final_df.reset_index(drop=True)
else:
final_df = df.copy()
final_df.to_csv(self.OUTPUT_FILE_DIR)
if __name__ == "__main__":
main_path = input("main path: ")
model_path = input("model path, otherwise for default click space: ")
output_file_name = input("output file name, otherwise for default click space: ")
if model_path and output_file_name:
tm = TestModel(
main_path=main_path,
model_path=model_path,
output_file_name=output_file_name,
)
elif model_path:
tm = TestModel(main_path=main_path, model_path=model_path)
elif output_file_name:
tm = TestModel(main_path=main_path, output_file_name=output_file_name)
else:
tm = TestModel(main_path=main_path)