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test / utils /trans_utils.py

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	#!/usr/bin/env python3
	# -- encoding: utf-8 --
	# Copyright FunASR (https://github.com/alibaba-damo-academy/FunClip). All Rights Reserved.
	# MIT License (https://opensource.org/licenses/MIT)

	import os
	import re
	import numpy as np

	PUNC_LIST = ['，', '。', '！', '？', '、', ',', '.', '?', '!']

	def pre_proc(text):
	res = ''
	for i in range(len(text)):
	if text[i] in PUNC_LIST:
	continue
	if '\u4e00' <= text[i] <= '\u9fff':
	if len(res) and res[-1] != " ":
	res += ' ' + text[i]+' '
	else:
	res += text[i]+' '
	else:
	res += text[i]
	if res[-1] == ' ':
	res = res[:-1]
	return res

	def proc(raw_text, timestamp, dest_text, lang='zh'):
	# simple matching
	ld = len(dest_text.split())
	mi, ts = [], []
	offset = 0
	while True:
	fi = raw_text.find(dest_text, offset, len(raw_text))
	ti = raw_text[:fi].count(' ')
	if fi == -1:
	break
	offset = fi + ld
	mi.append(fi)
	ts.append([timestamp[ti][0]16, timestamp[ti+ld-1][1]16])
	return ts


	def proc_spk(dest_spk, sd_sentences):
	ts = []
	for d in sd_sentences:
	d_start = d['timestamp'][0][0]
	d_end = d['timestamp'][-1][1]
	spkid=dest_spk[3:]
	if str(d['spk']) == spkid and d_end-d_start>999:
	ts.append([d_start16, d_end16])
	return ts

	def generate_vad_data(data, sd_sentences, sr=16000):
	assert len(data.shape) == 1
	vad_data = []
	for d in sd_sentences:
	d_start = round(d['ts_list'][0][0]/1000, 2)
	d_end = round(d['ts_list'][-1][1]/1000, 2)
	vad_data.append([d_start, d_end, data[int(d_start * sr):int(d_end * sr)]])
	return vad_data

	def write_state(output_dir, state):
	for key in ['/recog_res_raw', '/timestamp', '/sentences']:#, '/sd_sentences']:
	with open(output_dir+key, 'w') as fout:
	fout.write(str(state[key[1:]]))
	if 'sd_sentences' in state:
	with open(output_dir+'/sd_sentences', 'w') as fout:
	fout.write(str(state['sd_sentences']))

	def load_state(output_dir):
	state = {}
	with open(output_dir+'/recog_res_raw') as fin:
	line = fin.read()
	state['recog_res_raw'] = line
	with open(output_dir+'/timestamp') as fin:
	line = fin.read()
	state['timestamp'] = eval(line)
	with open(output_dir+'/sentences') as fin:
	line = fin.read()
	state['sentences'] = eval(line)
	if os.path.exists(output_dir+'/sd_sentences'):
	with open(output_dir+'/sd_sentences') as fin:
	line = fin.read()
	state['sd_sentences'] = eval(line)
	return state

	def convert_pcm_to_float(data):
	if data.dtype == np.float64:
	return data
	elif data.dtype == np.float32:
	return data.astype(np.float64)
	elif data.dtype == np.int16:
	bit_depth = 16
	elif data.dtype == np.int32:
	bit_depth = 32
	elif data.dtype == np.int8:
	bit_depth = 8
	else:
	raise ValueError("Unsupported audio data type")

	# Now handle the integer types
	max_int_value = float(2 ** (bit_depth - 1))
	if bit_depth == 8:
	data = data - 128
	return (data.astype(np.float64) / max_int_value)

	def convert_time_to_millis(time_str):
	# 格式: [小时:分钟:秒,毫秒]
	hours, minutes, seconds, milliseconds = map(int, re.split('[:,]', time_str))
	return (hours * 3600 + minutes * 60 + seconds) * 1000 + milliseconds

	def extract_timestamps(input_text):
	# 使用正则表达式查找所有时间戳
	timestamps = re.findall(r'\[(\d{2}:\d{2}:\d{2},\d{2,3})\s-\s(\d{2}:\d{2}:\d{2},\d{2,3})\]', input_text)
	times_list = []
	print(timestamps)
	# 循环遍历找到的所有时间戳，并转换为毫秒
	for start_time, end_time in timestamps:
	start_millis = convert_time_to_millis(start_time)
	end_millis = convert_time_to_millis(end_time)
	times_list.append([start_millis, end_millis])

	return times_list


	if __name__ == '__main__':
	text = ("1. [00:00:00,500-00:00:05,850] 在我们的设计普惠当中，有一个我经常津津乐道的项目叫寻找远方的美好。"
	"2. [00:00:07,120-00:00:12,940] 啊，在这样一个我们叫寻美在这样的一个项目当中，我们把它跟乡村振兴去结合起来，利用我们的设计的能力。"
	"3. [00:00:13,240-00:00:25,620] 问我们自身员工的设设计能力，我们设计生态伙伴的能力，帮助乡村振兴当中，要希望把他的产品推向市场，把他的农产品把他加工产品推向市场的这样的伙伴做一件事情，")

	print(extract_timestamps(text))