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Text-to-Speech / modules /wenet_extractor /bin /alignment.py

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	# This module is from [WeNet](https://github.com/wenet-e2e/wenet).

	# ## Citations

	# ```bibtex
	# @inproceedings{yao2021wenet,
	# title={WeNet: Production oriented Streaming and Non-streaming End-to-End Speech Recognition Toolkit},
	# author={Yao, Zhuoyuan and Wu, Di and Wang, Xiong and Zhang, Binbin and Yu, Fan and Yang, Chao and Peng, Zhendong and Chen, Xiaoyu and Xie, Lei and Lei, Xin},
	# booktitle={Proc. Interspeech},
	# year={2021},
	# address={Brno, Czech Republic },
	# organization={IEEE}
	# }

	# @article{zhang2022wenet,
	# title={WeNet 2.0: More Productive End-to-End Speech Recognition Toolkit},
	# author={Zhang, Binbin and Wu, Di and Peng, Zhendong and Song, Xingchen and Yao, Zhuoyuan and Lv, Hang and Xie, Lei and Yang, Chao and Pan, Fuping and Niu, Jianwei},
	# journal={arXiv preprint arXiv:2203.15455},
	# year={2022}
	# }
	#

	from __future__ import print_function

	import argparse
	import copy
	import logging
	import os
	import sys

	import torch
	import yaml
	from torch.utils.data import DataLoader
	from textgrid import TextGrid, IntervalTier

	from wenet.dataset.dataset import Dataset
	from wenet.utils.checkpoint import load_checkpoint
	from wenet.utils.file_utils import read_symbol_table, read_non_lang_symbols
	from wenet.utils.ctc_util import forced_align
	from wenet.utils.common import get_subsample
	from wenet.utils.init_model import init_model


	def generator_textgrid(maxtime, lines, output):
	# Download Praat: https://www.fon.hum.uva.nl/praat/
	interval = maxtime / (len(lines) + 1)
	margin = 0.0001

	tg = TextGrid(maxTime=maxtime)
	linetier = IntervalTier(name="line", maxTime=maxtime)

	i = 0
	for l in lines:
	s, e, w = l.split()
	linetier.add(minTime=float(s) + margin, maxTime=float(e), mark=w)

	tg.append(linetier)
	print("successfully generator {}".format(output))
	tg.write(output)


	def get_frames_timestamp(alignment):
	# convert alignment to a praat format, which is a doing phonetics
	# by computer and helps analyzing alignment
	timestamp = []
	# get frames level duration for each token
	start = 0
	end = 0
	while end < len(alignment):
	while end < len(alignment) and alignment[end] == 0:
	end += 1
	if end == len(alignment):
	timestamp[-1] += alignment[start:]
	break
	end += 1
	while end < len(alignment) and alignment[end - 1] == alignment[end]:
	end += 1
	timestamp.append(alignment[start:end])
	start = end
	return timestamp


	def get_labformat(timestamp, subsample):
	begin = 0
	duration = 0
	labformat = []
	for idx, t in enumerate(timestamp):
	# 25ms frame_length,10ms hop_length, 1/subsample
	subsample = get_subsample(configs)
	# time duration
	duration = len(t) * 0.01 * subsample
	if idx < len(timestamp) - 1:
	print("{:.2f} {:.2f} {}".format(begin, begin + duration, char_dict[t[-1]]))
	labformat.append(
	"{:.2f} {:.2f} {}\n".format(begin, begin + duration, char_dict[t[-1]])
	)
	else:
	non_blank = 0
	for i in t:
	if i != 0:
	token = i
	break
	print("{:.2f} {:.2f} {}".format(begin, begin + duration, char_dict[token]))
	labformat.append(
	"{:.2f} {:.2f} {}\n".format(begin, begin + duration, char_dict[token])
	)
	begin = begin + duration
	return labformat


	if __name__ == "__main__":
	parser = argparse.ArgumentParser(description="use ctc to generate alignment")
	parser.add_argument("--config", required=True, help="config file")
	parser.add_argument("--input_file", required=True, help="format data file")
	parser.add_argument(
	"--data_type",
	default="raw",
	choices=["raw", "shard"],
	help="train and cv data type",
	)
	parser.add_argument(
	"--gpu", type=int, default=-1, help="gpu id for this rank, -1 for cpu"
	)
	parser.add_argument("--checkpoint", required=True, help="checkpoint model")
	parser.add_argument("--dict", required=True, help="dict file")
	parser.add_argument(
	"--non_lang_syms", help="non-linguistic symbol file. One symbol per line."
	)
	parser.add_argument("--result_file", required=True, help="alignment result file")
	parser.add_argument("--batch_size", type=int, default=1, help="batch size")
	parser.add_argument(
	"--gen_praat", action="store_true", help="convert alignment to a praat format"
	)
	parser.add_argument(
	"--bpe_model", default=None, type=str, help="bpe model for english part"
	)

	args = parser.parse_args()
	print(args)
	logging.basicConfig(
	level=logging.DEBUG, format="%(asctime)s %(levelname)s %(message)s"
	)
	os.environ["CUDA_VISIBLE_DEVICES"] = str(args.gpu)

	if args.batch_size > 1:
	logging.fatal("alignment mode must be running with batch_size == 1")
	sys.exit(1)

	with open(args.config, "r") as fin:
	configs = yaml.load(fin, Loader=yaml.FullLoader)

	# Load dict
	char_dict = {}
	with open(args.dict, "r") as fin:
	for line in fin:
	arr = line.strip().split()
	assert len(arr) == 2
	char_dict[int(arr[1])] = arr[0]
	eos = len(char_dict) - 1

	symbol_table = read_symbol_table(args.dict)

	# Init dataset and data loader
	ali_conf = copy.deepcopy(configs["dataset_conf"])

	ali_conf["filter_conf"]["max_length"] = 102400
	ali_conf["filter_conf"]["min_length"] = 0
	ali_conf["filter_conf"]["token_max_length"] = 102400
	ali_conf["filter_conf"]["token_min_length"] = 0
	ali_conf["filter_conf"]["max_output_input_ratio"] = 102400
	ali_conf["filter_conf"]["min_output_input_ratio"] = 0
	ali_conf["speed_perturb"] = False
	ali_conf["spec_aug"] = False
	ali_conf["shuffle"] = False
	ali_conf["sort"] = False
	ali_conf["fbank_conf"]["dither"] = 0.0
	ali_conf["batch_conf"]["batch_type"] = "static"
	ali_conf["batch_conf"]["batch_size"] = args.batch_size
	non_lang_syms = read_non_lang_symbols(args.non_lang_syms)

	ali_dataset = Dataset(
	args.data_type,
	args.input_file,
	symbol_table,
	ali_conf,
	args.bpe_model,
	non_lang_syms,
	partition=False,
	)

	ali_data_loader = DataLoader(ali_dataset, batch_size=None, num_workers=0)

	# Init asr model from configs
	model = init_model(configs)

	load_checkpoint(model, args.checkpoint)
	use_cuda = args.gpu >= 0 and torch.cuda.is_available()
	device = torch.device("cuda" if use_cuda else "cpu")
	model = model.to(device)

	model.eval()
	with torch.no_grad(), open(args.result_file, "w", encoding="utf-8") as fout:
	for batch_idx, batch in enumerate(ali_data_loader):
	print("#" * 80)
	key, feat, target, feats_length, target_length = batch
	print(key)

	feat = feat.to(device)
	target = target.to(device)
	feats_length = feats_length.to(device)
	target_length = target_length.to(device)
	# Let's assume B = batch_size and N = beam_size
	# 1. Encoder
	encoder_out, encoder_mask = model._forward_encoder(
	feat, feats_length
	) # (B, maxlen, encoder_dim)
	maxlen = encoder_out.size(1)
	ctc_probs = model.ctc.log_softmax(encoder_out) # (1, maxlen, vocab_size)
	# print(ctc_probs.size(1))
	ctc_probs = ctc_probs.squeeze(0)
	target = target.squeeze(0)
	alignment = forced_align(ctc_probs, target)
	print(alignment)
	fout.write("{} {}\n".format(key[0], alignment))

	if args.gen_praat:
	timestamp = get_frames_timestamp(alignment)
	print(timestamp)
	subsample = get_subsample(configs)
	labformat = get_labformat(timestamp, subsample)

	lab_path = os.path.join(
	os.path.dirname(args.result_file), key[0] + ".lab"
	)
	with open(lab_path, "w", encoding="utf-8") as f:
	f.writelines(labformat)

	textgrid_path = os.path.join(
	os.path.dirname(args.result_file), key[0] + ".TextGrid"
	)
	generator_textgrid(
	maxtime=(len(alignment) + 1) * 0.01 * subsample,
	lines=labformat,
	output=textgrid_path,
	)