python/FunASR-XL.git

			@@ -5,6 +5,10 @@
			import logging
			import sys
			import time
			import os
			import codecs
			import tempfile
			import requests
			from pathlib import Path
			from typing import Optional
			from typing import Sequence
			@@ -39,9 +43,11 @@
			from funasr.utils import asr_utils, wav_utils, postprocess_utils
			from funasr.models.frontend.wav_frontend import WavFrontend
			from funasr.tasks.vad import VADTask
			from funasr.utils.timestamp_tools import time_stamp_lfr6, time_stamp_lfr6_pl
			from funasr.bin.vad_inference import Speech2VadSegment
			from funasr.utils.timestamp_tools import time_stamp_sentence, ts_prediction_lfr6_standard
			from funasr.bin.punctuation_infer import Text2Punc
			from funasr.models.e2e_asr_paraformer import BiCifParaformer
			from funasr.models.e2e_asr_paraformer import BiCifParaformer, ContextualParaformer


			header_colors = '\033[95m'
			end_colors = '\033[0m'
			@@ -52,7 +58,7 @@

			Examples:
			>>> import soundfile
			>>> speech2text = Speech2Text("asr_config.yml", "asr.pth")
			>>> speech2text = Speech2Text("asr_config.yml", "asr.pb")
			>>> audio, rate = soundfile.read("speech.wav")
			>>> speech2text(audio)
			[(text, token, token_int, hypothesis object), ...]
			@@ -79,6 +85,7 @@
			penalty: float = 0.0,
			nbest: int = 1,
			frontend_conf: dict = None,
			hotword_list_or_file: str = None,
			**kwargs,
			):
			assert check_argument_types()
			@@ -144,7 +151,7 @@
			for scorer in scorers.values():
			if isinstance(scorer, torch.nn.Module):
			scorer.to(device=device, dtype=getattr(torch, dtype)).eval()


			logging.info(f"Decoding device={device}, dtype={dtype}")

			# 5. [Optional] Build Text converter: e.g. bpe-sym -> Text
			@@ -169,6 +176,11 @@
			self.asr_train_args = asr_train_args
			self.converter = converter
			self.tokenizer = tokenizer

			# 6. [Optional] Build hotword list from str, local file or url
			self.hotword_list = None
			self.hotword_list = self.generate_hotwords_list(hotword_list_or_file)

			is_use_lm = lm_weight != 0.0 and lm_file is not None
			if (ctc_weight == 0.0 or asr_model.ctc == None) and not is_use_lm:
			beam_search = None
			@@ -184,12 +196,11 @@
			self.encoder_downsampling_factor = 1
			if asr_train_args.encoder_conf["input_layer"] == "conv2d":
			self.encoder_downsampling_factor = 4



			@torch.no_grad()
			def __call__(
			self, speech: Union[torch.Tensor, np.ndarray], speech_lengths: Union[torch.Tensor, np.ndarray] = None, begin_time: int = 0, end_time: int = None,
			self, speech: Union[torch.Tensor, np.ndarray], speech_lengths: Union[torch.Tensor, np.ndarray] = None,
			begin_time: int = 0, end_time: int = None,
			):
			"""Inference

			@@ -215,7 +226,7 @@
			else:
			feats = speech
			feats_len = speech_lengths
			lfr_factor = max(1, (feats.size()[-1]//80)-1)
			lfr_factor = max(1, (feats.size()[-1] // 80) - 1)
			batch = {"speech": feats, "speech_lengths": feats_len}

			# a. To device
			@@ -229,15 +240,23 @@
			enc_len_batch_total = torch.sum(enc_len).item() * self.encoder_downsampling_factor

			predictor_outs = self.asr_model.calc_predictor(enc, enc_len)
			pre_acoustic_embeds, pre_token_length, alphas, pre_peak_index = predictor_outs[0], predictor_outs[1], predictor_outs[2], predictor_outs[3]
			pre_acoustic_embeds, pre_token_length, alphas, pre_peak_index = predictor_outs[0], predictor_outs[1], \
			predictor_outs[2], predictor_outs[3]
			pre_token_length = pre_token_length.round().long()
			if torch.max(pre_token_length) < 1:
			return []
			decoder_outs = self.asr_model.cal_decoder_with_predictor(enc, enc_len, pre_acoustic_embeds, pre_token_length)
			decoder_out, ys_pad_lens = decoder_outs[0], decoder_outs[1]

			if not isinstance(self.asr_model, ContextualParaformer):
			if self.hotword_list:
			logging.warning("Hotword is given but asr model is not a ContextualParaformer.")
			decoder_outs = self.asr_model.cal_decoder_with_predictor(enc, enc_len, pre_acoustic_embeds, pre_token_length)
			decoder_out, ys_pad_lens = decoder_outs[0], decoder_outs[1]
			else:
			decoder_outs = self.asr_model.cal_decoder_with_predictor(enc, enc_len, pre_acoustic_embeds, pre_token_length, hw_list=self.hotword_list)
			decoder_out, ys_pad_lens = decoder_outs[0], decoder_outs[1]

			if isinstance(self.asr_model, BiCifParaformer):
			_, _, us_alphas, us_cif_peak = self.asr_model.calc_predictor_timestamp(enc, enc_len,
			_, _, us_alphas, us_peaks = self.asr_model.calc_predictor_timestamp(enc, enc_len,
			pre_token_length) # test no bias cif2

			results = []
			@@ -249,7 +268,7 @@
			nbest_hyps = self.beam_search(
			x=x, am_scores=am_scores, maxlenratio=self.maxlenratio, minlenratio=self.minlenratio
			)


			nbest_hyps = nbest_hyps[: self.nbest]
			else:
			yseq = am_scores.argmax(dim=-1)
			@@ -260,157 +279,134 @@
			[self.asr_model.sos] + yseq.tolist() + [self.asr_model.eos], device=yseq.device
			)
			nbest_hyps = [Hypothesis(yseq=yseq, score=score)]


			for hyp in nbest_hyps:
			assert isinstance(hyp, (Hypothesis)), type(hyp)


			# remove sos/eos and get results
			last_pos = -1
			if isinstance(hyp.yseq, list):
			token_int = hyp.yseq[1:last_pos]
			else:
			token_int = hyp.yseq[1:last_pos].tolist()


			# remove blank symbol id, which is assumed to be 0
			token_int = list(filter(lambda x: x != 0 and x != 2, token_int))

			if len(token_int) == 0:
			continue

			# Change integer-ids to tokens
			token = self.converter.ids2tokens(token_int)


			if self.tokenizer is not None:
			text = self.tokenizer.tokens2text(token)
			else:
			text = None

			if isinstance(self.asr_model, BiCifParaformer):
			timestamp = time_stamp_lfr6_pl(us_alphas[i], us_cif_peak[i], copy.copy(token), begin_time, end_time)
			_, timestamp = ts_prediction_lfr6_standard(us_alphas[i],
			us_peaks[i],
			copy.copy(token),
			vad_offset=begin_time)
			results.append((text, token, token_int, timestamp, enc_len_batch_total, lfr_factor))
			else:
			time_stamp = time_stamp_lfr6(alphas[i:i + 1, ], enc_len[i:i + 1, ], copy.copy(token), begin_time, end_time)
			results.append((text, token, token_int, time_stamp, enc_len_batch_total, lfr_factor))
			results.append((text, token, token_int, enc_len_batch_total, lfr_factor))

			# assert check_return_type(results)
			return results

			class Speech2VadSegment:
			"""Speech2VadSegment class

			Examples:
			>>> import soundfile
			>>> speech2segment = Speech2VadSegment("vad_config.yml", "vad.pt")
			>>> audio, rate = soundfile.read("speech.wav")
			>>> speech2segment(audio)
			[[10, 230], [245, 450], ...]

			"""

			def __init__(
			self,
			vad_infer_config: Union[Path, str] = None,
			vad_model_file: Union[Path, str] = None,
			vad_cmvn_file: Union[Path, str] = None,
			device: str = "cpu",
			batch_size: int = 1,
			dtype: str = "float32",
			**kwargs,
			):
			assert check_argument_types()

			# 1. Build vad model
			vad_model, vad_infer_args = VADTask.build_model_from_file(
			vad_infer_config, vad_model_file, device
			)
			frontend = None
			if vad_infer_args.frontend is not None:
			frontend = WavFrontend(cmvn_file=vad_cmvn_file, **vad_infer_args.frontend_conf)

			# logging.info("vad_model: {}".format(vad_model))
			# logging.info("vad_infer_args: {}".format(vad_infer_args))
			vad_model.to(dtype=getattr(torch, dtype)).eval()

			self.vad_model = vad_model
			self.vad_infer_args = vad_infer_args
			self.device = device
			self.dtype = dtype
			self.frontend = frontend

			@torch.no_grad()
			def __call__(
			self, speech: Union[torch.Tensor, np.ndarray], speech_lengths: Union[torch.Tensor, np.ndarray] = None
			) -> List[List[int]]:
			"""Inference

			Args:
			speech: Input speech data
			Returns:
			text, token, token_int, hyp

			"""
			assert check_argument_types()

			# Input as audio signal
			if isinstance(speech, np.ndarray):
			speech = torch.tensor(speech)

			if self.frontend is not None:
			self.frontend.filter_length_max = math.inf
			fbanks, fbanks_len = self.frontend.forward_fbank(speech, speech_lengths)
			feats, feats_len = self.frontend.forward_lfr_cmvn(fbanks, fbanks_len)
			fbanks = to_device(fbanks, device=self.device)
			feats = to_device(feats, device=self.device)
			feats_len = feats_len.int()
			def generate_hotwords_list(self, hotword_list_or_file):
			# for None
			if hotword_list_or_file is None:
			hotword_list = None
			# for local txt inputs
			elif os.path.exists(hotword_list_or_file) and hotword_list_or_file.endswith('.txt'):
			logging.info("Attempting to parse hotwords from local txt...")
			hotword_list = []
			hotword_str_list = []
			with codecs.open(hotword_list_or_file, 'r') as fin:
			for line in fin.readlines():
			hw = line.strip()
			hotword_str_list.append(hw)
			hotword_list.append(self.converter.tokens2ids([i for i in hw]))
			hotword_list.append([self.asr_model.sos])
			hotword_str_list.append('<s>')
			logging.info("Initialized hotword list from file: {}, hotword list: {}."
			.format(hotword_list_or_file, hotword_str_list))
			# for url, download and generate txt
			elif hotword_list_or_file.startswith('http'):
			logging.info("Attempting to parse hotwords from url...")
			work_dir = tempfile.TemporaryDirectory().name
			if not os.path.exists(work_dir):
			os.makedirs(work_dir)
			text_file_path = os.path.join(work_dir, os.path.basename(hotword_list_or_file))
			local_file = requests.get(hotword_list_or_file)
			open(text_file_path, "wb").write(local_file.content)
			hotword_list_or_file = text_file_path
			hotword_list = []
			hotword_str_list = []
			with codecs.open(hotword_list_or_file, 'r') as fin:
			for line in fin.readlines():
			hw = line.strip()
			hotword_str_list.append(hw)
			hotword_list.append(self.converter.tokens2ids([i for i in hw]))
			hotword_list.append([self.asr_model.sos])
			hotword_str_list.append('<s>')
			logging.info("Initialized hotword list from file: {}, hotword list: {}."
			.format(hotword_list_or_file, hotword_str_list))
			# for text str input
			elif not hotword_list_or_file.endswith('.txt'):
			logging.info("Attempting to parse hotwords as str...")
			hotword_list = []
			hotword_str_list = []
			for hw in hotword_list_or_file.strip().split():
			hotword_str_list.append(hw)
			hotword_list.append(self.converter.tokens2ids([i for i in hw]))
			hotword_list.append([self.asr_model.sos])
			hotword_str_list.append('<s>')
			logging.info("Hotword list: {}.".format(hotword_str_list))
			else:
			raise Exception("Need to extract feats first, please configure frontend configuration")
			batch = {"feats": feats, "feats_lengths": feats_len, "waveform": speech}

			# a. To device
			batch = to_device(batch, device=self.device)

			# b. Forward Encoder
			segments = self.vad_model(**batch)

			return fbanks, segments

			hotword_list = None
			return hotword_list


			def inference(
			maxlenratio: float,
			minlenratio: float,
			batch_size: int,
			beam_size: int,
			ngpu: int,
			ctc_weight: float,
			lm_weight: float,
			penalty: float,
			log_level: Union[int, str],
			data_path_and_name_and_type,
			asr_train_config: Optional[str],
			asr_model_file: Optional[str],
			cmvn_file: Optional[str] = None,
			raw_inputs: Union[np.ndarray, torch.Tensor] = None,
			lm_train_config: Optional[str] = None,
			lm_file: Optional[str] = None,
			token_type: Optional[str] = None,
			key_file: Optional[str] = None,
			word_lm_train_config: Optional[str] = None,
			bpemodel: Optional[str] = None,
			allow_variable_data_keys: bool = False,
			streaming: bool = False,
			output_dir: Optional[str] = None,
			dtype: str = "float32",
			seed: int = 0,
			ngram_weight: float = 0.9,
			nbest: int = 1,
			num_workers: int = 1,
			vad_infer_config: Optional[str] = None,
			vad_model_file: Optional[str] = None,
			vad_cmvn_file: Optional[str] = None,
			time_stamp_writer: bool = False,
			punc_infer_config: Optional[str] = None,
			punc_model_file: Optional[str] = None,
			**kwargs,
			maxlenratio: float,
			minlenratio: float,
			batch_size: int,
			beam_size: int,
			ngpu: int,
			ctc_weight: float,
			lm_weight: float,
			penalty: float,
			log_level: Union[int, str],
			data_path_and_name_and_type,
			asr_train_config: Optional[str],
			asr_model_file: Optional[str],
			cmvn_file: Optional[str] = None,
			raw_inputs: Union[np.ndarray, torch.Tensor] = None,
			lm_train_config: Optional[str] = None,
			lm_file: Optional[str] = None,
			token_type: Optional[str] = None,
			key_file: Optional[str] = None,
			word_lm_train_config: Optional[str] = None,
			bpemodel: Optional[str] = None,
			allow_variable_data_keys: bool = False,
			streaming: bool = False,
			output_dir: Optional[str] = None,
			dtype: str = "float32",
			seed: int = 0,
			ngram_weight: float = 0.9,
			nbest: int = 1,
			num_workers: int = 1,
			vad_infer_config: Optional[str] = None,
			vad_model_file: Optional[str] = None,
			vad_cmvn_file: Optional[str] = None,
			time_stamp_writer: bool = False,
			punc_infer_config: Optional[str] = None,
			punc_model_file: Optional[str] = None,
			**kwargs,
			):

			inference_pipeline = inference_modelscope(
			maxlenratio=maxlenratio,
			minlenratio=minlenratio,
			@@ -449,63 +445,69 @@
			)
			return inference_pipeline(data_path_and_name_and_type, raw_inputs)


			def inference_modelscope(
			maxlenratio: float,
			minlenratio: float,
			batch_size: int,
			beam_size: int,
			ngpu: int,
			ctc_weight: float,
			lm_weight: float,
			penalty: float,
			log_level: Union[int, str],
			# data_path_and_name_and_type,
			asr_train_config: Optional[str],
			asr_model_file: Optional[str],
			cmvn_file: Optional[str] = None,
			lm_train_config: Optional[str] = None,
			lm_file: Optional[str] = None,
			token_type: Optional[str] = None,
			key_file: Optional[str] = None,
			word_lm_train_config: Optional[str] = None,
			bpemodel: Optional[str] = None,
			allow_variable_data_keys: bool = False,
			output_dir: Optional[str] = None,
			dtype: str = "float32",
			seed: int = 0,
			ngram_weight: float = 0.9,
			nbest: int = 1,
			num_workers: int = 1,
			vad_infer_config: Optional[str] = None,
			vad_model_file: Optional[str] = None,
			vad_cmvn_file: Optional[str] = None,
			time_stamp_writer: bool = True,
			punc_infer_config: Optional[str] = None,
			punc_model_file: Optional[str] = None,
			outputs_dict: Optional[bool] = True,
			param_dict: dict = None,
			**kwargs,
			maxlenratio: float,
			minlenratio: float,
			batch_size: int,
			beam_size: int,
			ngpu: int,
			ctc_weight: float,
			lm_weight: float,
			penalty: float,
			log_level: Union[int, str],
			# data_path_and_name_and_type,
			asr_train_config: Optional[str],
			asr_model_file: Optional[str],
			cmvn_file: Optional[str] = None,
			lm_train_config: Optional[str] = None,
			lm_file: Optional[str] = None,
			token_type: Optional[str] = None,
			key_file: Optional[str] = None,
			word_lm_train_config: Optional[str] = None,
			bpemodel: Optional[str] = None,
			allow_variable_data_keys: bool = False,
			output_dir: Optional[str] = None,
			dtype: str = "float32",
			seed: int = 0,
			ngram_weight: float = 0.9,
			nbest: int = 1,
			num_workers: int = 1,
			vad_infer_config: Optional[str] = None,
			vad_model_file: Optional[str] = None,
			vad_cmvn_file: Optional[str] = None,
			time_stamp_writer: bool = True,
			punc_infer_config: Optional[str] = None,
			punc_model_file: Optional[str] = None,
			outputs_dict: Optional[bool] = True,
			param_dict: dict = None,
			**kwargs,
			):
			assert check_argument_types()


			if word_lm_train_config is not None:
			raise NotImplementedError("Word LM is not implemented")
			if ngpu > 1:
			raise NotImplementedError("only single GPU decoding is supported")


			logging.basicConfig(
			level=log_level,
			format="%(asctime)s (%(module)s:%(lineno)d) %(levelname)s: %(message)s",
			)


			if param_dict is not None:
			hotword_list_or_file = param_dict.get('hotword')
			else:
			hotword_list_or_file = None

			if ngpu >= 1 and torch.cuda.is_available():
			device = "cuda"
			else:
			device = "cpu"


			# 1. Set random-seed
			set_all_random_seed(seed)


			# 2. Build speech2vadsegment
			speech2vadsegment_kwargs = dict(
			vad_infer_config=vad_infer_config,
			@@ -516,7 +518,7 @@
			)
			# logging.info("speech2vadsegment_kwargs: {}".format(speech2vadsegment_kwargs))
			speech2vadsegment = Speech2VadSegment(**speech2vadsegment_kwargs)


			# 3. Build speech2text
			speech2text_kwargs = dict(
			asr_train_config=asr_train_config,
			@@ -536,23 +538,36 @@
			ngram_weight=ngram_weight,
			penalty=penalty,
			nbest=nbest,
			hotword_list_or_file=hotword_list_or_file,
			)
			speech2text = Speech2Text(**speech2text_kwargs)
			text2punc = None
			if punc_model_file is not None:
			if punc_model_file is not None:
			text2punc = Text2Punc(punc_infer_config, punc_model_file, device=device, dtype=dtype)

			if output_dir is not None:
			writer = DatadirWriter(output_dir)
			ibest_writer = writer[f"1best_recog"]
			ibest_writer["token_list"][""] = " ".join(speech2text.asr_train_args.token_list)


			def _forward(data_path_and_name_and_type,
			raw_inputs: Union[np.ndarray, torch.Tensor] = None,
			output_dir_v2: Optional[str] = None,
			fs: dict = None,
			param_dict: dict = None,
			**kwargs,
			):

			hotword_list_or_file = None
			if param_dict is not None:
			hotword_list_or_file = param_dict.get('hotword')

			if 'hotword' in kwargs:
			hotword_list_or_file = kwargs['hotword']

			if speech2text.hotword_list is None:
			speech2text.hotword_list = speech2text.generate_hotwords_list(hotword_list_or_file)

			# 3. Build data-iterator
			if data_path_and_name_and_type is None and raw_inputs is not None:
			if isinstance(raw_inputs, torch.Tensor):
			@@ -575,7 +590,7 @@
			use_timestamp = param_dict.get('use_timestamp', True)
			else:
			use_timestamp = True


			finish_count = 0
			file_count = 1
			lfr_factor = 6
			@@ -586,13 +601,13 @@
			if output_path is not None:
			writer = DatadirWriter(output_path)
			ibest_writer = writer[f"1best_recog"]


			for keys, batch in loader:
			assert isinstance(batch, dict), type(batch)
			assert all(isinstance(s, str) for s in keys), keys
			_bs = len(next(iter(batch.values())))
			assert len(keys) == _bs, f"{len(keys)} != {_bs}"


			vad_results = speech2vadsegment(**batch)
			fbanks, vadsegments = vad_results[0], vad_results[1]
			for i, segments in enumerate(vadsegments):
			@@ -606,18 +621,20 @@
			results = speech2text(**batch)
			if len(results) < 1:
			continue


			result_cur = [results[0][:-2]]
			if j == 0:
			result_segments = result_cur
			else:
			result_segments = [[result_segments[0][i] + result_cur[0][i] for i in range(len(result_cur[0]))]]

			result_segments = [
			[result_segments[0][i] + result_cur[0][i] for i in range(len(result_cur[0]))]]

			key = keys[0]
			result = result_segments[0]
			text, token, token_int = result[0], result[1], result[2]
			time_stamp = None if len(result) < 4 else result[3]



			if use_timestamp and time_stamp is not None:
			postprocessed_result = postprocess_utils.sentence_postprocess(token, time_stamp)
			else:
			@@ -633,15 +650,18 @@
			text_postprocessed, word_lists = postprocessed_result[0], postprocessed_result[1]

			text_postprocessed_punc = text_postprocessed
			punc_id_list = []
			if len(word_lists) > 0 and text2punc is not None:
			text_postprocessed_punc, punc_id_list = text2punc(word_lists, 20)


			item = {'key': key, 'value': text_postprocessed_punc}
			if text_postprocessed != "":
			item['text_postprocessed'] = text_postprocessed
			if time_stamp_postprocessed != "":
			item['time_stamp'] = time_stamp_postprocessed


			item['sentences'] = time_stamp_sentence(punc_id_list, time_stamp_postprocessed, text_postprocessed)

			asr_result_list.append(item)
			finish_count += 1
			# asr_utils.print_progress(finish_count / file_count)
			@@ -654,11 +674,13 @@
			ibest_writer["text_with_punc"][key] = text_postprocessed_punc
			if time_stamp_postprocessed is not None:
			ibest_writer["time_stamp"][key] = "{}".format(time_stamp_postprocessed)


			logging.info("decoding, utt: {}, predictions: {}".format(key, text_postprocessed_punc))
			return asr_result_list

			return _forward


			def get_parser():
			parser = config_argparse.ArgumentParser(
			description="ASR Decoding",