python/FunASR-XL.git

			@@ -11,8 +11,7 @@
			import numpy as np
			import scipy.signal
			import soundfile
			from typeguard import check_argument_types
			from typeguard import check_return_type
			import jieba

			from funasr.text.build_tokenizer import build_tokenizer
			from funasr.text.cleaner import TextCleaner
			@@ -202,7 +201,7 @@
			self.seg_dict = None
			if seg_dict_file is not None:
			self.seg_dict = {}
			with open(seg_dict_file) as f:
			with open(seg_dict_file, "r", encoding="utf8") as f:
			lines = f.readlines()
			for line in lines:
			s = line.strip().split()
			@@ -268,7 +267,6 @@
			def _speech_process(
			self, data: Dict[str, Union[str, np.ndarray]]
			) -> Dict[str, Union[str, np.ndarray]]:
			assert check_argument_types()
			if self.speech_name in data:
			if self.train and (self.rirs is not None or self.noises is not None):
			speech = data[self.speech_name]
			@@ -355,7 +353,6 @@
			speech = data[self.speech_name]
			ma = np.max(np.abs(speech))
			data[self.speech_name] = speech * self.speech_volume_normalize / ma
			assert check_return_type(data)
			return data

			def _text_process(
			@@ -372,13 +369,11 @@
			tokens = self.tokenizer.text2tokens(text)
			text_ints = self.token_id_converter.tokens2ids(tokens)
			data[self.text_name] = np.array(text_ints, dtype=np.int64)
			assert check_return_type(data)
			return data

			def __call__(
			self, uid: str, data: Dict[str, Union[str, np.ndarray]]
			) -> Dict[str, np.ndarray]:
			assert check_argument_types()

			data = self._speech_process(data)
			data = self._text_process(data)
			@@ -445,7 +440,6 @@
			tokens = self.tokenizer.text2tokens(text)
			text_ints = self.token_id_converter.tokens2ids(tokens)
			data[self.text_name] = np.array(text_ints, dtype=np.int64)
			assert check_return_type(data)
			return data


			@@ -502,13 +496,11 @@
			tokens = self.tokenizer.text2tokens(text)
			text_ints = self.token_id_converter.tokens2ids(tokens)
			data[text_n] = np.array(text_ints, dtype=np.int64)
			assert check_return_type(data)
			return data

			def __call__(
			self, uid: str, data: Dict[str, Union[str, np.ndarray]]
			) -> Dict[str, np.ndarray]:
			assert check_argument_types()

			if self.speech_name in data:
			# Nothing now: candidates:
			@@ -612,7 +604,6 @@
			tokens = self.tokenizer[i].text2tokens(text)
			text_ints = self.token_id_converter[i].tokens2ids(tokens)
			data[text_name] = np.array(text_ints, dtype=np.int64)
			assert check_return_type(data)
			return data

			class CodeMixTokenizerCommonPreprocessor(CommonPreprocessor):
			@@ -638,6 +629,7 @@
			text_name: str = "text",
			split_text_name: str = "split_text",
			split_with_space: bool = False,
			seg_jieba: bool = False,
			seg_dict_file: str = None,
			):
			super().__init__(
			@@ -665,6 +657,9 @@
			)
			# The data field name for split text.
			self.split_text_name = split_text_name
			self.seg_jieba = seg_jieba
			if self.seg_jieba:
			jieba.load_userdict(seg_dict_file)

			@classmethod
			def split_words(cls, text: str):
			@@ -687,13 +682,73 @@
			words.append(current_word)
			return words

			@classmethod
			def isEnglish(cls, text:str):
			if re.search('^[a-zA-Z\']+$', text):
			return True
			else:
			return False

			@classmethod
			def join_chinese_and_english(cls, input_list):
			line = ''
			for token in input_list:
			if cls.isEnglish(token):
			line = line + ' ' + token
			else:
			line = line + token

			line = line.strip()
			return line

			@classmethod
			def split_words_jieba(cls, text: str):
			input_list = text.split()
			token_list_all = []
			langauge_list = []
			token_list_tmp = []
			language_flag = None
			for token in input_list:
			if cls.isEnglish(token) and language_flag == 'Chinese':
			token_list_all.append(token_list_tmp)
			langauge_list.append('Chinese')
			token_list_tmp = []
			elif not cls.isEnglish(token) and language_flag == 'English':
			token_list_all.append(token_list_tmp)
			langauge_list.append('English')
			token_list_tmp = []

			token_list_tmp.append(token)

			if cls.isEnglish(token):
			language_flag = 'English'
			else:
			language_flag = 'Chinese'

			if token_list_tmp:
			token_list_all.append(token_list_tmp)
			langauge_list.append(language_flag)

			result_list = []
			for token_list_tmp, language_flag in zip(token_list_all, langauge_list):
			if language_flag == 'English':
			result_list.extend(token_list_tmp)
			else:
			seg_list = jieba.cut(cls.join_chinese_and_english(token_list_tmp), HMM=False)
			result_list.extend(seg_list)

			return result_list

			def __call__(
			self, uid: str, data: Dict[str, Union[list, str, np.ndarray]]
			) -> Dict[str, Union[list, np.ndarray]]:
			assert check_argument_types()
			# Split words.
			if isinstance(data[self.text_name], str):
			split_text = self.split_words(data[self.text_name])
			if self.seg_jieba:
			# jieba.load_userdict(seg_dict_file)
			split_text = self.split_words_jieba(data[self.text_name])
			else:
			split_text = self.split_words(data[self.text_name])
			else:
			split_text = data[self.text_name]
			data[self.text_name] = " ".join(split_text)
			@@ -793,7 +848,6 @@
			) -> Dict[str, np.ndarray]:
			for i in range(self.num_tokenizer):
			text_name = self.text_name[i]
			#import pdb; pdb.set_trace()
			if text_name in data and self.tokenizer[i] is not None:
			text = data[text_name]
			text = self.text_cleaner(text)