python/FunASR-XL.git

			@@ -1,7 +1,9 @@
			import torch
			import random


			from funasr.register import tables
			from funasr.utils.load_utils import extract_fbank
			from funasr.utils.load_utils import extract_fbank, load_audio_text_image_video


			@tables.register("dataset_classes", "AudioDataset")
			@@ -9,28 +11,39 @@
			"""
			AudioDataset
			"""
			def __init__(self,
			path,
			index_ds: str = None,
			frontend=None,
			tokenizer=None,
			int_pad_value: int = -1,
			float_pad_value: float = 0.0,
			**kwargs):

			def __init__(
			self,
			path,
			index_ds: str = None,
			frontend=None,
			tokenizer=None,
			is_training: bool = True,
			int_pad_value: int = -1,
			float_pad_value: float = 0.0,
			**kwargs,
			):
			super().__init__()
			index_ds_class = tables.index_ds_classes.get(index_ds)
			self.index_ds = index_ds_class(path)
			preprocessor_speech = kwargs.get("preprocessor_speech", None)
			if preprocessor_speech:
			preprocessor_speech_class = tables.preprocessor_speech_classes.get(preprocessor_speech)
			preprocessor_speech = preprocessor_speech_class(**kwargs.get("preprocessor_speech_conf"))
			self.preprocessor_speech = preprocessor_speech
			preprocessor_text = kwargs.get("preprocessor_text", None)
			if preprocessor_text:
			preprocessor_text_class = tables.preprocessor_text_classes.get(preprocessor_text)
			preprocessor_text = preprocessor_text_class(**kwargs.get("preprocessor_text_conf"))
			self.preprocessor_text = preprocessor_text

			self.index_ds = index_ds_class(path, **kwargs)

			self.preprocessor_speech = None
			self.preprocessor_text = None

			if is_training:
			preprocessor_speech = kwargs.get("preprocessor_speech", None)
			if preprocessor_speech:
			preprocessor_speech_class = tables.preprocessor_classes.get(preprocessor_speech)
			preprocessor_speech = preprocessor_speech_class(
			**kwargs.get("preprocessor_speech_conf")
			)
			self.preprocessor_speech = preprocessor_speech
			preprocessor_text = kwargs.get("preprocessor_text", None)
			if preprocessor_text:
			preprocessor_text_class = tables.preprocessor_classes.get(preprocessor_text)
			preprocessor_text = preprocessor_text_class(**kwargs.get("preprocessor_text_conf"))
			self.preprocessor_text = preprocessor_text

			self.frontend = frontend
			self.fs = 16000 if frontend is None else frontend.fs
			self.data_type = "sound"
			@@ -38,43 +51,52 @@

			self.int_pad_value = int_pad_value
			self.float_pad_value = float_pad_value


			def get_source_len(self, index):
			item = self.index_ds[index]
			return self.index_ds.get_source_len(item)


			def get_target_len(self, index):
			item = self.index_ds[index]
			return self.index_ds.get_target_len(item)


			def __len__(self):
			return len(self.index_ds)


			def __getitem__(self, index):
			item = self.index_ds[index]
			# import pdb;
			# pdb.set_trace()
			source = item["source"]
			data_src = load_audio(source, fs=self.fs)
			data_src = load_audio_text_image_video(source, fs=self.fs)
			if self.preprocessor_speech:
			data_src = self.preprocessor_speech(data_src)
			speech, speech_lengths = extract_fbank(data_src, data_type=self.data_type, frontend=self.frontend) # speech: [b, T, d]
			data_src = self.preprocessor_speech(data_src, fs=self.fs)

			speech, speech_lengths = extract_fbank(
			data_src, data_type=self.data_type, frontend=self.frontend, is_final=True
			) # speech: [b, T, d]

			target = item["target"]
			if self.preprocessor_text:
			target = self.preprocessor_text(target)
			ids = self.tokenizer.encode(target)
			ids_lengths = len(ids)
			text, text_lengths = torch.tensor(ids, dtype=torch.int64), torch.tensor([ids_lengths], dtype=torch.int32)

			return {"speech": speech[0, :, :],
			"speech_lengths": speech_lengths,
			"text": text,
			"text_lengths": text_lengths,
			}


			def collator(self, samples: list=None):
			if self.tokenizer:
			ids = self.tokenizer.encode(target)
			text = torch.tensor(ids, dtype=torch.int64)
			else:
			ids = target
			text = ids
			ids_lengths = len(ids)
			text_lengths = torch.tensor([ids_lengths], dtype=torch.int32)

			return {
			"speech": speech[0, :, :],
			"speech_lengths": speech_lengths,
			"text": text,
			"text_lengths": text_lengths,
			}

			def collator(self, samples: list = None):
			outputs = {}
			for sample in samples:
			for key in sample.keys():
			@@ -83,11 +105,165 @@
			outputs[key].append(sample[key])

			for key, data_list in outputs.items():
			if data_list[0].dtype == torch.int64:
			if isinstance(data_list[0], torch.Tensor):
			if data_list[0].dtype == torch.int64 or data_list[0].dtype == torch.int32:

			pad_value = self.int_pad_value
			else:
			pad_value = self.float_pad_value
			outputs[key] = torch.nn.utils.rnn.pad_sequence(data_list, batch_first=True, padding_value=pad_value)
			pad_value = self.int_pad_value
			else:
			pad_value = self.float_pad_value

			outputs[key] = torch.nn.utils.rnn.pad_sequence(
			data_list, batch_first=True, padding_value=pad_value
			)
			return outputs


			@tables.register("dataset_classes", "AudioDatasetHotword")
			class AudioDatasetHotword(AudioDataset):
			# for finetuning contextual_paraformer and seaco_paraformer
			def __init__(
			self,
			*args,
			seaco_id: bool = 0,
			**kwargs,
			):
			super().__init__(args, *kwargs)
			self.seaco_id = seaco_id

			def __getitem__(self, index):
			item = self.index_ds[index]
			# import pdb;
			# pdb.set_trace()
			source = item["source"]
			data_src = load_audio_text_image_video(source, fs=self.fs)
			if self.preprocessor_speech:
			data_src = self.preprocessor_speech(data_src, fs=self.fs)
			speech, speech_lengths = extract_fbank(
			data_src, data_type=self.data_type, frontend=self.frontend, is_final=True
			) # speech: [b, T, d]

			target = item["target"]
			if self.preprocessor_text:
			target = self.preprocessor_text(target)
			if self.tokenizer:
			ids = self.tokenizer.encode(target)
			text = torch.tensor(ids, dtype=torch.int64)
			else:
			ids = target
			text = ids
			ids_lengths = len(ids)
			text_lengths = torch.tensor([ids_lengths], dtype=torch.int32)

			def generate_index(
			length,
			hotword_min_length=2,
			hotword_max_length=8,
			sample_rate=0.75,
			double_rate=0.1,
			pre_prob=0.0,
			pre_index=None,
			pre_hwlist=None,
			):
			if length < hotword_min_length:
			return [-1]
			if random.random() < sample_rate:
			if pre_prob > 0 and random.random() < pre_prob and pre_index is not None:
			return pre_index
			if length == hotword_min_length:
			return [0, length - 1]
			elif (
			random.random() < double_rate
			and length > hotword_max_length + hotword_min_length + 2
			):
			# sample two hotwords in a sentence
			_max_hw_length = min(hotword_max_length, length // 2)
			# first hotword
			start1 = random.randint(0, length // 3)
			end1 = random.randint(
			start1 + hotword_min_length - 1, start1 + _max_hw_length - 1
			)
			# second hotword
			start2 = random.randint(end1 + 1, length - hotword_min_length)
			end2 = random.randint(
			min(length - 1, start2 + hotword_min_length - 1),
			min(length - 1, start2 + hotword_max_length - 1),
			)
			return [start1, end1, start2, end2]
			else: # single hotword
			start = random.randint(0, length - hotword_min_length)
			end = random.randint(
			min(length - 1, start + hotword_min_length - 1),
			min(length - 1, start + hotword_max_length - 1),
			)
			return [start, end]
			else:
			return [-1]

			hotword_indx = generate_index(text_lengths[0])
			return {
			"speech": speech[0, :, :],
			"speech_lengths": speech_lengths,
			"text": text,
			"text_lengths": text_lengths,
			"hotword_indx": hotword_indx,
			"seaco_id": self.seaco_id,
			}

			def collator(self, samples: list = None):
			outputs = {}
			hotword_indxs = []
			seaco_id = samples[0]["seaco_id"]
			for sample in samples:
			for key in sample.keys():
			if key == "seaco_id":
			continue
			elif key == "hotword_indx":
			hotword_indxs.append(sample[key])
			else:
			if key not in outputs:
			outputs[key] = []
			outputs[key].append(sample[key])

			for key, data_list in outputs.items():
			if isinstance(data_list[0], torch.Tensor):
			if data_list[0].dtype == torch.int64 or data_list[0].dtype == torch.int32:
			pad_value = self.int_pad_value
			else:
			pad_value = self.float_pad_value
			outputs[key] = torch.nn.utils.rnn.pad_sequence(
			data_list, batch_first=True, padding_value=pad_value
			)

			hotword_list, hotword_lengths = [], []
			text = outputs["text"]
			seaco_label_pad = torch.ones_like(text) * -1 if seaco_id else None
			for b, (hotword_indx, one_text, length) in enumerate(
			zip(hotword_indxs, text, outputs["text_lengths"])
			):
			length = length[0]
			if seaco_label_pad is not None:
			seaco_label_pad[b][:length] = seaco_id
			if hotword_indx[0] != -1:
			start, end = int(hotword_indx[0]), int(hotword_indx[1])
			hotword = one_text[start : end + 1]
			hotword_list.append(hotword)
			hotword_lengths.append(end - start + 1)
			if seaco_label_pad is not None:
			seaco_label_pad[b][start : end + 1] = one_text[start : end + 1]
			if len(hotword_indx) == 4 and hotword_indx[2] != -1:
			# the second hotword if exist
			start, end = int(hotword_indx[2]), int(hotword_indx[3])
			hotword_list.append(one_text[start : end + 1])
			hotword_lengths.append(end - start + 1)
			if seaco_label_pad is not None:
			seaco_label_pad[b][start : end + 1] = one_text[start : end + 1]
			hotword_list.append(torch.tensor([1]))
			hotword_lengths.append(1)
			hotword_pad = torch.nn.utils.rnn.pad_sequence(
			hotword_list, batch_first=True, padding_value=0
			)
			outputs["hotword_pad"] = hotword_pad
			outputs["hotword_lengths"] = torch.tensor(hotword_lengths, dtype=torch.int32)
			if seaco_label_pad is not None:
			outputs["seaco_label_pad"] = seaco_label_pad
			return outputs