From 28ccfbfc51068a663a80764e14074df5edf2b5ba Mon Sep 17 00:00:00 2001
From: kongdeqiang <kongdeqiang960204@163.com>
Date: 星期五, 13 三月 2026 17:41:41 +0800
Subject: [PATCH] 提交
---
funasr/utils/timestamp_tools.py | 480 +++++++++++++++++++++++++----------------------------------
1 files changed, 206 insertions(+), 274 deletions(-)
diff --git a/funasr/utils/timestamp_tools.py b/funasr/utils/timestamp_tools.py
index 489d317..37ce886 100644
--- a/funasr/utils/timestamp_tools.py
+++ b/funasr/utils/timestamp_tools.py
@@ -1,346 +1,278 @@
-from itertools import zip_longest
-
import torch
-import copy
import codecs
import logging
-import edit_distance
import argparse
-import pdb
import numpy as np
-from typing import Any, List, Tuple, Union
+
+# import edit_distance
+from itertools import zip_longest
-def ts_prediction_lfr6_standard(us_alphas,
- us_peaks,
- char_list,
- vad_offset=0.0,
- force_time_shift=-1.5,
- sil_in_str=True
- ):
+def cif_wo_hidden(alphas, threshold):
+ batch_size, len_time = alphas.size()
+ # loop varss
+ integrate = torch.zeros([batch_size], device=alphas.device)
+ # intermediate vars along time
+ list_fires = []
+ for t in range(len_time):
+ alpha = alphas[:, t]
+ integrate += alpha
+ list_fires.append(integrate)
+ fire_place = integrate >= threshold
+ integrate = torch.where(
+ fire_place,
+ integrate - torch.ones([batch_size], device=alphas.device) * threshold,
+ integrate,
+ )
+ fires = torch.stack(list_fires, 1)
+ return fires
+
+
+def ts_prediction_lfr6_standard(
+ us_alphas, us_peaks, char_list, vad_offset=0.0, force_time_shift=-1.5, sil_in_str=True, upsample_rate=3,
+):
if not len(char_list):
return "", []
START_END_THRESHOLD = 5
- MAX_TOKEN_DURATION = 12
- TIME_RATE = 10.0 * 6 / 1000 / 3 # 3 times upsampled
+ MAX_TOKEN_DURATION = 12 # 3 times upsampled
+ TIME_RATE=10.0 * 6 / 1000 / upsample_rate
if len(us_alphas.shape) == 2:
- _, peaks = us_alphas[0], us_peaks[0] # support inference batch_size=1 only
+ alphas, peaks = us_alphas[0], us_peaks[0] # support inference batch_size=1 only
else:
- _, peaks = us_alphas, us_peaks
- num_frames = peaks.shape[0]
- if char_list[-1] == '</s>':
+ alphas, peaks = us_alphas, us_peaks
+ if char_list[-1] == "</s>":
char_list = char_list[:-1]
+ fire_place = (
+ torch.where(peaks >= 1.0 - 1e-4)[0].cpu().numpy() + force_time_shift
+ ) # total offset
+ if len(fire_place) != len(char_list) + 1:
+ alphas /= alphas.sum() / (len(char_list) + 1)
+ alphas = alphas.unsqueeze(0)
+ peaks = cif_wo_hidden(alphas, threshold=1.0 - 1e-4)[0]
+ fire_place = (
+ torch.where(peaks >= 1.0 - 1e-4)[0].cpu().numpy() + force_time_shift
+ ) # total offset
+ num_frames = peaks.shape[0]
timestamp_list = []
new_char_list = []
# for bicif model trained with large data, cif2 actually fires when a character starts
# so treat the frames between two peaks as the duration of the former token
- fire_place = torch.where(peaks>1.0-1e-4)[0].cpu().numpy() + force_time_shift # total offset
- num_peak = len(fire_place)
- assert num_peak == len(char_list) + 1 # number of peaks is supposed to be number of tokens + 1
+ # fire_place = torch.where(peaks>=1.0-1e-4)[0].cpu().numpy() + force_time_shift # total offset
+ # assert num_peak == len(char_list) + 1 # number of peaks is supposed to be number of tokens + 1
# begin silence
if fire_place[0] > START_END_THRESHOLD:
# char_list.insert(0, '<sil>')
- timestamp_list.append([0.0, fire_place[0]*TIME_RATE])
- new_char_list.append('<sil>')
+ timestamp_list.append([0.0, fire_place[0] * TIME_RATE])
+ new_char_list.append("<sil>")
# tokens timestamp
- for i in range(len(fire_place)-1):
+ for i in range(len(fire_place) - 1):
new_char_list.append(char_list[i])
- if MAX_TOKEN_DURATION < 0 or fire_place[i+1] - fire_place[i] <= MAX_TOKEN_DURATION:
- timestamp_list.append([fire_place[i]*TIME_RATE, fire_place[i+1]*TIME_RATE])
+ if MAX_TOKEN_DURATION < 0 or fire_place[i + 1] - fire_place[i] <= MAX_TOKEN_DURATION:
+ timestamp_list.append([fire_place[i] * TIME_RATE, fire_place[i + 1] * TIME_RATE])
else:
# cut the duration to token and sil of the 0-weight frames last long
_split = fire_place[i] + MAX_TOKEN_DURATION
- timestamp_list.append([fire_place[i]*TIME_RATE, _split*TIME_RATE])
- timestamp_list.append([_split*TIME_RATE, fire_place[i+1]*TIME_RATE])
- new_char_list.append('<sil>')
+ timestamp_list.append([fire_place[i] * TIME_RATE, _split * TIME_RATE])
+ timestamp_list.append([_split * TIME_RATE, fire_place[i + 1] * TIME_RATE])
+ new_char_list.append("<sil>")
# tail token and end silence
# new_char_list.append(char_list[-1])
if num_frames - fire_place[-1] > START_END_THRESHOLD:
_end = (num_frames + fire_place[-1]) * 0.5
- # _end = fire_place[-1]
- timestamp_list[-1][1] = _end*TIME_RATE
- timestamp_list.append([_end*TIME_RATE, num_frames*TIME_RATE])
+ # _end = fire_place[-1]
+ timestamp_list[-1][1] = _end * TIME_RATE
+ timestamp_list.append([_end * TIME_RATE, num_frames * TIME_RATE])
new_char_list.append("<sil>")
else:
- timestamp_list[-1][1] = num_frames*TIME_RATE
+ if len(timestamp_list)>0:
+ timestamp_list[-1][1] = num_frames * TIME_RATE
if vad_offset: # add offset time in model with vad
for i in range(len(timestamp_list)):
timestamp_list[i][0] = timestamp_list[i][0] + vad_offset / 1000.0
timestamp_list[i][1] = timestamp_list[i][1] + vad_offset / 1000.0
res_txt = ""
for char, timestamp in zip(new_char_list, timestamp_list):
- #if char != '<sil>':
- if not sil_in_str and char == '<sil>': continue
- res_txt += "{} {} {};".format(char, str(timestamp[0]+0.0005)[:5], str(timestamp[1]+0.0005)[:5])
+ # if char != '<sil>':
+ if not sil_in_str and char == "<sil>":
+ continue
+ res_txt += "{} {} {};".format(
+ char, str(timestamp[0] + 0.0005)[:5], str(timestamp[1] + 0.0005)[:5]
+ )
res = []
for char, timestamp in zip(new_char_list, timestamp_list):
- if char != '<sil>':
+ if char != "<sil>":
res.append([int(timestamp[0] * 1000), int(timestamp[1] * 1000)])
return res_txt, res
-def time_stamp_sentence(punc_id_list, time_stamp_postprocessed, text_postprocessed):
+def timestamp_sentence(
+ punc_id_list, timestamp_postprocessed, text_postprocessed, return_raw_text=False
+):
+ punc_list = ["锛�", "銆�", "锛�", "銆�"]
res = []
if text_postprocessed is None:
return res
- if time_stamp_postprocessed is None:
+ if timestamp_postprocessed is None:
return res
- if len(time_stamp_postprocessed) == 0:
+ if len(timestamp_postprocessed) == 0:
return res
if len(text_postprocessed) == 0:
return res
if punc_id_list is None or len(punc_id_list) == 0:
- res.append({
- 'text': text_postprocessed.split(),
- "start": time_stamp_postprocessed[0][0],
- "end": time_stamp_postprocessed[-1][1],
- 'text_seg': text_postprocessed.split(),
- "ts_list": time_stamp_postprocessed,
- })
+ res.append(
+ {
+ "text": text_postprocessed.split(),
+ "start": timestamp_postprocessed[0][0],
+ "end": timestamp_postprocessed[-1][1],
+ "timestamp": timestamp_postprocessed,
+ }
+ )
return res
- if len(punc_id_list) != len(time_stamp_postprocessed):
- print(" warning length mistach!!!!!!")
+ if len(punc_id_list) != len(timestamp_postprocessed):
+ logging.warning("length mismatch between punc and timestamp")
sentence_text = ""
sentence_text_seg = ""
ts_list = []
- sentence_start = time_stamp_postprocessed[0][0]
- sentence_end = time_stamp_postprocessed[0][1]
+ sentence_start = timestamp_postprocessed[0][0]
+ sentence_end = timestamp_postprocessed[0][1]
texts = text_postprocessed.split()
- punc_stamp_text_list = list(zip_longest(punc_id_list, time_stamp_postprocessed, texts, fillvalue=None))
+ punc_stamp_text_list = list(
+ zip_longest(punc_id_list, timestamp_postprocessed, texts, fillvalue=None)
+ )
for punc_stamp_text in punc_stamp_text_list:
- punc_id, time_stamp, text = punc_stamp_text
+ punc_id, timestamp, text = punc_stamp_text
+ if sentence_start is None and timestamp is not None:
+ sentence_start = timestamp[0]
# sentence_text += text if text is not None else ''
if text is not None:
- if 'a' <= text[0] <= 'z' or 'A' <= text[0] <= 'Z':
- sentence_text += ' ' + text
- elif len(sentence_text) and ('a' <= sentence_text[-1] <= 'z' or 'A' <= sentence_text[-1] <= 'Z'):
- sentence_text += ' ' + text
+ if "a" <= text[0] <= "z" or "A" <= text[0] <= "Z":
+ sentence_text += " " + text
+ elif len(sentence_text) and (
+ "a" <= sentence_text[-1] <= "z" or "A" <= sentence_text[-1] <= "Z"
+ ):
+ sentence_text += " " + text
else:
sentence_text += text
- sentence_text_seg += text + ' '
- ts_list.append(time_stamp)
+ sentence_text_seg += text + " "
+ ts_list.append(timestamp)
punc_id = int(punc_id) if punc_id is not None else 1
- sentence_end = time_stamp[1] if time_stamp is not None else sentence_end
-
- if punc_id == 2:
- sentence_text += ','
- res.append({
- 'text': sentence_text,
- "start": sentence_start,
- "end": sentence_end,
- "text_seg": sentence_text_seg,
- "ts_list": ts_list
- })
- sentence_text = ''
- sentence_text_seg = ''
+ sentence_end = timestamp[1] if timestamp is not None else sentence_end
+ sentence_text_seg = (
+ sentence_text_seg[:-1] if sentence_text_seg and sentence_text_seg[-1] == " " else sentence_text_seg
+ )
+ if punc_id > 1:
+ sentence_text += punc_list[punc_id - 2]
+ if return_raw_text:
+ res.append(
+ {
+ "text": sentence_text,
+ "start": sentence_start,
+ "end": sentence_end,
+ "timestamp": ts_list,
+ "raw_text": sentence_text_seg,
+ }
+ )
+ else:
+ res.append(
+ {
+ "text": sentence_text,
+ "start": sentence_start,
+ "end": sentence_end,
+ "timestamp": ts_list,
+ }
+ )
+ sentence_text = ""
+ sentence_text_seg = ""
ts_list = []
- sentence_start = sentence_end
- elif punc_id == 3:
- sentence_text += '.'
- res.append({
- 'text': sentence_text,
- "start": sentence_start,
- "end": sentence_end,
- "text_seg": sentence_text_seg,
- "ts_list": ts_list
- })
- sentence_text = ''
- sentence_text_seg = ''
- ts_list = []
- sentence_start = sentence_end
- elif punc_id == 4:
- sentence_text += '?'
- res.append({
- 'text': sentence_text,
- "start": sentence_start,
- "end": sentence_end,
- "text_seg": sentence_text_seg,
- "ts_list": ts_list
- })
- sentence_text = ''
- sentence_text_seg = ''
- ts_list = []
- sentence_start = sentence_end
+ sentence_start = None
return res
-class AverageShiftCalculator():
- def __init__(self):
- logging.warning("Calculating average shift.")
- def __call__(self, file1, file2):
- uttid_list1, ts_dict1 = self.read_timestamps(file1)
- uttid_list2, ts_dict2 = self.read_timestamps(file2)
- uttid_intersection = self._intersection(uttid_list1, uttid_list2)
- res = self.as_cal(uttid_intersection, ts_dict1, ts_dict2)
- logging.warning("Average shift of {} and {}: {}.".format(file1, file2, str(res)[:8]))
- logging.warning("Following timestamp pair differs most: {}, detail:{}".format(self.max_shift, self.max_shift_uttid))
+def timestamp_sentence_en(
+ punc_id_list, timestamp_postprocessed, text_postprocessed, return_raw_text=False
+):
+ punc_list = [",", ".", "?", ","]
+ res = []
+ if text_postprocessed is None:
+ return res
+ if timestamp_postprocessed is None:
+ return res
+ if len(timestamp_postprocessed) == 0:
+ return res
+ if len(text_postprocessed) == 0:
+ return res
- def _intersection(self, list1, list2):
- set1 = set(list1)
- set2 = set(list2)
- if set1 == set2:
- logging.warning("Uttid same checked.")
- return set1
- itsc = list(set1 & set2)
- logging.warning("Uttid differs: file1 {}, file2 {}, lines same {}.".format(len(list1), len(list2), len(itsc)))
- return itsc
-
- def read_timestamps(self, file):
- # read timestamps file in standard format
- uttid_list = []
- ts_dict = {}
- with codecs.open(file, 'r') as fin:
- for line in fin.readlines():
- text = ''
- ts_list = []
- line = line.rstrip()
- uttid = line.split()[0]
- uttid_list.append(uttid)
- body = " ".join(line.split()[1:])
- for pd in body.split(';'):
- if not len(pd): continue
- # pdb.set_trace()
- char, start, end = pd.lstrip(" ").split(' ')
- text += char + ','
- ts_list.append((float(start), float(end)))
- # ts_lists.append(ts_list)
- ts_dict[uttid] = (text[:-1], ts_list)
- logging.warning("File {} read done.".format(file))
- return uttid_list, ts_dict
-
- def _shift(self, filtered_timestamp_list1, filtered_timestamp_list2):
- shift_time = 0
- for fts1, fts2 in zip(filtered_timestamp_list1, filtered_timestamp_list2):
- shift_time += abs(fts1[0] - fts2[0]) + abs(fts1[1] - fts2[1])
- num_tokens = len(filtered_timestamp_list1)
- return shift_time, num_tokens
-
- def as_cal(self, uttid_list, ts_dict1, ts_dict2):
- # calculate average shift between timestamp1 and timestamp2
- # when characters differ, use edit distance alignment
- # and calculate the error between the same characters
- self._accumlated_shift = 0
- self._accumlated_tokens = 0
- self.max_shift = 0
- self.max_shift_uttid = None
- for uttid in uttid_list:
- (t1, ts1) = ts_dict1[uttid]
- (t2, ts2) = ts_dict2[uttid]
- _align, _align2, _align3 = [], [], []
- fts1, fts2 = [], []
- _t1, _t2 = [], []
- sm = edit_distance.SequenceMatcher(t1.split(','), t2.split(','))
- s = sm.get_opcodes()
- for j in range(len(s)):
- if s[j][0] == "replace" or s[j][0] == "insert":
- _align.append(0)
- if s[j][0] == "replace" or s[j][0] == "delete":
- _align3.append(0)
- elif s[j][0] == "equal":
- _align.append(1)
- _align3.append(1)
- else:
- continue
- # use s to index t2
- for a, ts , t in zip(_align, ts2, t2.split(',')):
- if a:
- fts2.append(ts)
- _t2.append(t)
- sm2 = edit_distance.SequenceMatcher(t2.split(','), t1.split(','))
- s = sm2.get_opcodes()
- for j in range(len(s)):
- if s[j][0] == "replace" or s[j][0] == "insert":
- _align2.append(0)
- elif s[j][0] == "equal":
- _align2.append(1)
- else:
- continue
- # use s2 tp index t1
- for a, ts, t in zip(_align3, ts1, t1.split(',')):
- if a:
- fts1.append(ts)
- _t1.append(t)
- if len(fts1) == len(fts2):
- shift_time, num_tokens = self._shift(fts1, fts2)
- self._accumlated_shift += shift_time
- self._accumlated_tokens += num_tokens
- if shift_time/num_tokens > self.max_shift:
- self.max_shift = shift_time/num_tokens
- self.max_shift_uttid = uttid
+ if punc_id_list is None or len(punc_id_list) == 0:
+ res.append(
+ {
+ "text": text_postprocessed.split(),
+ "start": timestamp_postprocessed[0][0],
+ "end": timestamp_postprocessed[-1][1],
+ "timestamp": timestamp_postprocessed,
+ }
+ )
+ return res
+ if len(punc_id_list) != len(timestamp_postprocessed):
+ logging.warning("length mismatch between punc and timestamp")
+ sentence_text = ""
+ sentence_text_seg = ""
+ ts_list = []
+ sentence_start = timestamp_postprocessed[0][0]
+ sentence_end = timestamp_postprocessed[0][1]
+ texts = text_postprocessed.split()
+ punc_stamp_text_list = list(
+ zip_longest(punc_id_list, timestamp_postprocessed, texts, fillvalue=None)
+ )
+ is_sentence_start = True
+ for punc_stamp_text in punc_stamp_text_list:
+ punc_id, timestamp, text = punc_stamp_text
+ # sentence_text += text if text is not None else ''
+ if text is not None:
+ if "a" <= text[0] <= "z" or "A" <= text[0] <= "Z":
+ sentence_text += " " + text
+ elif len(sentence_text) and (
+ "a" <= sentence_text[-1] <= "z" or "A" <= sentence_text[-1] <= "Z"
+ ):
+ sentence_text += " " + text
else:
- logging.warning("length mismatch")
- return self._accumlated_shift / self._accumlated_tokens
+ sentence_text += text
+ sentence_text_seg += text + " "
+ ts_list.append(timestamp)
-
-def convert_external_alphas(alphas_file, text_file, output_file):
- from funasr.models.predictor.cif import cif_wo_hidden
- with open(alphas_file, 'r') as f1, open(text_file, 'r') as f2, open(output_file, 'w') as f3:
- for line1, line2 in zip(f1.readlines(), f2.readlines()):
- line1 = line1.rstrip()
- line2 = line2.rstrip()
- assert line1.split()[0] == line2.split()[0]
- uttid = line1.split()[0]
- alphas = [float(i) for i in line1.split()[1:]]
- new_alphas = np.array(remove_chunk_padding(alphas))
- new_alphas[-1] += 1e-4
- text = line2.split()[1:]
- if len(text) + 1 != int(new_alphas.sum()):
- # force resize
- new_alphas *= (len(text) + 1) / int(new_alphas.sum())
- peaks = cif_wo_hidden(torch.Tensor(new_alphas).unsqueeze(0), 1.0-1e-4)
- if " " in text:
- text = text.split()
+ punc_id = int(punc_id) if punc_id is not None else 1
+ sentence_end = timestamp[1] if timestamp is not None else sentence_end
+ sentence_text = sentence_text[1:] if sentence_text[0] == ' ' else sentence_text
+ if is_sentence_start:
+ sentence_start = timestamp[0] if timestamp is not None else sentence_start
+ is_sentence_start = False
+ if punc_id > 1:
+ is_sentence_start = True
+ sentence_text += punc_list[punc_id - 2]
+ sentence_text_seg = (
+ sentence_text_seg[:-1] if sentence_text_seg[-1] == " " else sentence_text_seg
+ )
+ if return_raw_text:
+ res.append(
+ {
+ "text": sentence_text,
+ "start": sentence_start,
+ "end": sentence_end,
+ "timestamp": ts_list,
+ "raw_text": sentence_text_seg,
+ }
+ )
else:
- text = [i for i in text]
- res_str, _ = ts_prediction_lfr6_standard(new_alphas, peaks[0], text,
- force_time_shift=-7.0,
- sil_in_str=False)
- f3.write("{} {}\n".format(uttid, res_str))
-
-
-def remove_chunk_padding(alphas):
- # remove the padding part in alphas if using chunk paraformer for GPU
- START_ZERO = 45
- MID_ZERO = 75
- REAL_FRAMES = 360 # for chunk based encoder 10-120-10 and fsmn padding 5
- alphas = alphas[START_ZERO:] # remove the padding at beginning
- new_alphas = []
- while True:
- new_alphas = new_alphas + alphas[:REAL_FRAMES]
- alphas = alphas[REAL_FRAMES+MID_ZERO:]
- if len(alphas) < REAL_FRAMES: break
- return new_alphas
-
-SUPPORTED_MODES = ['cal_aas', 'read_ext_alphas']
-
-
-def main(args):
- if args.mode == 'cal_aas':
- asc = AverageShiftCalculator()
- asc(args.input, args.input2)
- elif args.mode == 'read_ext_alphas':
- convert_external_alphas(args.input, args.input2, args.output)
- else:
- logging.error("Mode {} not in SUPPORTED_MODES: {}.".format(args.mode, SUPPORTED_MODES))
-
-
-if __name__ == '__main__':
- parser = argparse.ArgumentParser(description='timestamp tools')
- parser.add_argument('--mode',
- default=None,
- type=str,
- choices=SUPPORTED_MODES,
- help='timestamp related toolbox')
- parser.add_argument('--input', default=None, type=str, help='input file path')
- parser.add_argument('--output', default=None, type=str, help='output file name')
- parser.add_argument('--input2', default=None, type=str, help='input2 file path')
- parser.add_argument('--kaldi-ts-type',
- default='v2',
- type=str,
- choices=['v0', 'v1', 'v2'],
- help='kaldi timestamp to write')
- args = parser.parse_args()
- main(args)
-
+ res.append(
+ {
+ "text": sentence_text,
+ "start": sentence_start,
+ "end": sentence_end,
+ "timestamp": ts_list,
+ }
+ )
+ sentence_text = ""
+ sentence_text_seg = ""
+ ts_list = []
+ return res
--
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