python/FunASR-XL.git

			@@ -6,7 +6,6 @@
			import torch
			import torchaudio.compliance.kaldi as kaldi
			from torch.nn.utils.rnn import pad_sequence
			from typeguard import check_argument_types

			import funasr.models.frontend.eend_ola_feature as eend_ola_feature
			from funasr.models.frontend.abs_frontend import AbsFrontend
			@@ -31,14 +30,14 @@
			rescale_line = line_item[3:(len(line_item) - 1)]
			vars_list = list(rescale_line)
			continue
			means = np.array(means_list).astype(np.float)
			vars = np.array(vars_list).astype(np.float)
			means = np.array(means_list).astype(np.float32)
			vars = np.array(vars_list).astype(np.float32)
			cmvn = np.array([means, vars])
			cmvn = torch.as_tensor(cmvn)
			cmvn = torch.as_tensor(cmvn, dtype=torch.float32)
			return cmvn


			def apply_cmvn(inputs, cmvn_file): # noqa
			def apply_cmvn(inputs, cmvn): # noqa
			"""
			Apply CMVN with mvn data
			"""
			@@ -47,11 +46,10 @@
			dtype = inputs.dtype
			frame, dim = inputs.shape

			cmvn = load_cmvn(cmvn_file)
			means = np.tile(cmvn[0:1, :dim], (frame, 1))
			vars = np.tile(cmvn[1:2, :dim], (frame, 1))
			inputs += torch.from_numpy(means).type(dtype).to(device)
			inputs *= torch.from_numpy(vars).type(dtype).to(device)
			means = cmvn[0:1, :dim]
			vars = cmvn[1:2, :dim]
			inputs += means.to(device)
			inputs *= vars.to(device)

			return inputs.type(torch.float32)

			@@ -96,7 +94,6 @@
			snip_edges: bool = True,
			upsacle_samples: bool = True,
			):
			assert check_argument_types()
			super().__init__()
			self.fs = fs
			self.window = window
			@@ -111,6 +108,7 @@
			self.dither = dither
			self.snip_edges = snip_edges
			self.upsacle_samples = upsacle_samples
			self.cmvn = None if self.cmvn_file is None else load_cmvn(self.cmvn_file)

			def output_size(self) -> int:
			return self.n_mels * self.lfr_m
			@@ -140,8 +138,8 @@

			if self.lfr_m != 1 or self.lfr_n != 1:
			mat = apply_lfr(mat, self.lfr_m, self.lfr_n)
			if self.cmvn_file is not None:
			mat = apply_cmvn(mat, self.cmvn_file)
			if self.cmvn is not None:
			mat = apply_cmvn(mat, self.cmvn)
			feat_length = mat.size(0)
			feats.append(mat)
			feats_lens.append(feat_length)
			@@ -194,8 +192,8 @@
			mat = input[i, :input_lengths[i], :]
			if self.lfr_m != 1 or self.lfr_n != 1:
			mat = apply_lfr(mat, self.lfr_m, self.lfr_n)
			if self.cmvn_file is not None:
			mat = apply_cmvn(mat, self.cmvn_file)
			if self.cmvn is not None:
			mat = apply_cmvn(mat, self.cmvn)
			feat_length = mat.size(0)
			feats.append(mat)
			feats_lens.append(feat_length)
			@@ -227,7 +225,6 @@
			snip_edges: bool = True,
			upsacle_samples: bool = True,
			):
			assert check_argument_types()
			super().__init__()
			self.fs = fs
			self.window = window
			@@ -395,8 +392,10 @@
			return feats_pad, feats_lens, lfr_splice_frame_idxs

			def forward(
			self, input: torch.Tensor, input_lengths: torch.Tensor, is_final: bool = False
			self, input: torch.Tensor, input_lengths: torch.Tensor, is_final: bool = False, reset: bool = False
			) -> Tuple[torch.Tensor, torch.Tensor]:
			if reset:
			self.cache_reset()
			batch_size = input.shape[0]
			assert batch_size == 1, 'we support to extract feature online only when the batch size is equal to 1 now'
			waveforms, feats, feats_lengths = self.forward_fbank(input, input_lengths) # input shape: B T D
			@@ -464,7 +463,6 @@
			lfr_m: int = 1,
			lfr_n: int = 1,
			):
			assert check_argument_types()
			super().__init__()
			self.fs = fs
			self.frame_length = frame_length