def build_eval_corpus():
bcmi_path = os.path.join(pwd_path, '../data/cn/bcmi.txt')
clp_path = os.path.join(pwd_path, '../data/cn/clp14_C1.pkl')
sighan_path = os.path.join(pwd_path, '../data/cn/sighan15_A2.pkl')
cged_path = os.path.join(pwd_path, '../data/cn/CGED/CGED16_HSK_TrainingSet.xml')
char_error_path = os.path.join(pwd_path, './bcmi_corpus.json')
build_bcmi_corpus(bcmi_path, char_error_path)
char_errors = load_json(char_error_path)
word_error_path = os.path.join(pwd_path, './sighan_corpus.json')
build_sighan_corpus(sighan_path, word_error_path)
word_errors = load_json(word_error_path)
grammar_error_path = os.path.join(pwd_path, './clp_corpus.json')
build_sighan_corpus(clp_path, grammar_error_path)
grammar_errors = load_json(grammar_error_path)
no_error_path = os.path.join(pwd_path, './noerror_corpus.json')
build_cged_no_error_corpus(cged_path, no_error_path)
no_errors = load_json(no_error_path)
corpus = sample(char_errors, 100) + sample(word_errors, 100) + sample(grammar_errors, 100) + sample(no_errors, 200)
save_json(corpus, eval_data_path)
print("save eval corpus done", eval_data_path)
os.remove(char_error_path)
os.remove(word_error_path)
os.remove(grammar_error_path)
os.remove(no_error_path)
def build_cged_no_error_corpus(data_path, output_path, limit_size=500):
corpus = []
print('Parse data from %s' % data_path)
dom_tree = minidom.parse(data_path)
docs = dom_tree.documentElement.getElementsByTagName('DOC')
count = 0
for doc in docs:
# Input the text
text = doc.getElementsByTagName('TEXT')[0]. \
childNodes[0].data.strip()
# Input the correct text
correction = doc.getElementsByTagName('CORRECTION')[0]. \
childNodes[0].data.strip()
if correction:
count += 1
line_dict = {
"text": correction,
"correction": correction,
"errors": []
}
corpus.append(line_dict)
if count > limit_size:
break
save_json(corpus, output_path)
def build_sighan_corpus(data_path, output_path):
corpus = []
sighan_data = load_pkl(data_path)
for error_sentence, error_details in sighan_data:
ids = []
error_word = ''
right_word = ''
if not error_details:
continue
for detail in error_details:
idx = detail[0]
error_word = detail[1]
right_word = detail[2]
begin_idx = idx - 1
ids.append(begin_idx)
correct_sentence = error_sentence.replace(error_word, right_word)
details = []
for i in ids:
details.append([error_sentence[i], correct_sentence[i], i, i + 1])
line_dict = {
"text": error_sentence,
"correction": correct_sentence,
"errors": details
}
corpus.append(line_dict)
save_json(corpus, output_path)
def eval_corpus500_by_macbert(input_eval_path=eval_data_path, output_eval_path='', verbose=True):
from pycorrector.macbert.macbert_corrector import MacBertCorrector
model = MacBertCorrector()
res = []
corpus = load_json(input_eval_path)
total_count = 0
right_count = 0
right_rate = 0.0
recall_rate = 0.0
recall_right_count = 0
recall_total_count = 0
start_time = time.time()
for data_dict in corpus:
text = data_dict.get('text', '')
correction = data_dict.get('correction', '')
errors = data_dict.get('errors', [])
# pred_detail: list(wrong, right, begin_idx, end_idx)
pred_sentence, pred_detail = model.macbert_correct(text)
# compute recall
if errors:
recall_total_count += 1
if errors and pred_detail and correction == pred_sentence:
recall_right_count += 1
# compute precision
if correction == pred_sentence:
right_count += 1
print("\nright:")
print('truth :', text, errors)
print('predict:', pred_sentence, pred_detail)
else:
err_data_dict = copy.deepcopy(data_dict)
err_data_dict['pred_sentence'] = pred_sentence
err_data_dict['pred_errors'] = str(pred_detail)
res.append(err_data_dict)
if verbose:
print("\nwrong:")
print('input :', text)
print('truth :', correction, errors)
print('predict:', pred_sentence, pred_detail)
total_count += 1
spend_time = time.time() - start_time
if total_count > 0:
right_rate = right_count / total_count
if recall_total_count > 0:
recall_rate = recall_right_count / recall_total_count
print('right_rate:{}, right_count:{}, total_count:{};\n'
'recall_rate:{}, recall_right_count:{}, recall_total_count:{}, spend_time:{} s'.format(right_rate,
right_count,
total_count,
recall_rate,
recall_right_count,
recall_total_count,
spend_time))
if output_eval_path:
save_json(res, output_eval_path)
def build_bcmi_corpus(data_path, output_path):
corpus = []
with open(data_path, 'r', encoding='utf-8') as f:
for line in f:
line = line.strip()
error_sentence, correct_sentence, details = get_bcmi_corpus(line)
if not error_sentence:
continue
line_dict = {"text": error_sentence, "correction": correct_sentence, "errors": details}
corpus.append(line_dict)
save_json(corpus, output_path)
def eval_corpus_by_bert(input_eval_path=eval_data_path,
output_eval_path=output_eval_error_path,
verbose=True):
from pycorrector.bert.bert_corrector import BertCorrector
model = BertCorrector()
res = []
corpus = load_json(input_eval_path)
total_count = 0
right_count = 0
right_rate = 0.0
recall_rate = 0.0
recall_right_count = 0
recall_total_count = 0
for data_dict in corpus:
text = data_dict.get('text', '')
correction = data_dict.get('correction', '')
errors = data_dict.get('errors', [])
# pred_detail: list(wrong, right, begin_idx, end_idx)
pred_sentence, pred_detail = model.bert_correct(text)
# compute recall
if errors:
recall_total_count += 1
if errors and pred_detail and correction == pred_sentence:
recall_right_count += 1
# compute precision
if correction == pred_sentence:
right_count += 1
else:
err_data_dict = copy.deepcopy(data_dict)
err_data_dict['pred_sentence'] = pred_sentence
err_data_dict['pred_errors'] = str(pred_detail)
res.append(err_data_dict)
if verbose:
print('truth:', text, errors)
print('predict:', pred_sentence, pred_detail)
total_count += 1
if total_count > 0:
right_rate = right_count / total_count
if recall_total_count > 0:
recall_rate = recall_right_count / recall_total_count
print('right_rate:{}, right_count:{}, total_count:{};\n'
'recall_rate:{},recall_right_count:{},recall_total_count:{}'.format(
right_rate, right_count, total_count, recall_rate,
recall_right_count, recall_total_count))
save_json(res, output_eval_path)
def parse_cged_file(file_dir):
rst = []
for fn in os.listdir(file_dir):
if fn.endswith('.xml'):
path = os.path.join(file_dir, fn)
print('Parse data from %s' % path)
dom_tree = minidom.parse(path)
docs = dom_tree.documentElement.getElementsByTagName('DOC')
for doc in docs:
id = ''
text = ''
texts = doc.getElementsByTagName('TEXT')
for i in texts:
id = i.getAttribute('id')
# Input the text
text = i.childNodes[0].data.strip()
# Input the correct text
correction = doc.getElementsByTagName('CORRECTION')[0]. \
childNodes[0].data.strip()
wrong_ids = []
for error in doc.getElementsByTagName('ERROR'):
start_off = error.getAttribute('start_off')
end_off = error.getAttribute('end_off')
if start_off and end_off:
for i in range(int(start_off), int(end_off) + 1):
wrong_ids.append(i)
source = text.strip()
target = correction.strip()
pair = [source, target]
if pair not in rst:
rst.append({
'id': id,
'original_text': source,
'wrong_ids': wrong_ids,
'correct_text': target
})
save_json(rst, os.path.join(pwd_path, 'output/cged.json'))
return rst
def build_eval_corpus(output_eval_path=eval_data_path):
"""
生成评估样本集,抽样分布可修改
当前已经生成评估集,可以修改代码生成自己的样本分布
:param output_eval_path:
:return: json file
"""
bcmi_path = os.path.join(pwd_path, '../data/cn/bcmi.txt')
clp_path = os.path.join(pwd_path, '../data/cn/clp14_C1.pkl')
sighan_path = os.path.join(pwd_path, '../data/cn/sighan15_A2.pkl')
cged_path = os.path.join(pwd_path,
'../data/cn/CGED/CGED16_HSK_TrainingSet.xml')
char_error_path = os.path.join(pwd_path, './bcmi_corpus.json')
build_bcmi_corpus(bcmi_path, char_error_path)
char_errors = load_json(char_error_path)
word_error_path = os.path.join(pwd_path, './sighan_corpus.json')
build_sighan_corpus(sighan_path, word_error_path)
word_errors = load_json(word_error_path)
grammar_error_path = os.path.join(pwd_path, './clp_corpus.json')
build_sighan_corpus(clp_path, grammar_error_path)
grammar_errors = load_json(grammar_error_path)
no_error_path = os.path.join(pwd_path, './noerror_corpus.json')
build_cged_no_error_corpus(cged_path, no_error_path)
no_errors = load_json(no_error_path)
corpus = sample(char_errors, 100) + sample(word_errors, 100) + sample(
grammar_errors, 100) + sample(no_errors, 200)
save_json(corpus, output_eval_path)
print("save eval corpus done", output_eval_path)
os.remove(char_error_path)
os.remove(word_error_path)
os.remove(grammar_error_path)
os.remove(no_error_path)
def main():
# 注意:训练样本过少,仅作为模型测试使用
# parse_cged_file(os.path.join(pwd_path, '../data/cn/CGED/'))
sighan15_dir = os.path.join(pwd_path, '../data/cn/sighan_2015/')
rst_items = []
test_lst = proc_test_set(sighan15_dir)
for item in read_data(sighan15_dir):
rst_items += proc_item(item)
# 拆分训练与测试
print('data_size:', len(rst_items))
train_lst, dev_lst = train_test_split(rst_items, test_size=0.1, random_state=42)
save_json(train_lst, os.path.join(pwd_path, 'output/train.json'))
save_json(train_lst, os.path.join(pwd_path, 'output/dev.json'))
save_json(test_lst, os.path.join(pwd_path, 'output/test.json'))
