python/FunASR-XL.git

			@@ -9,6 +9,7 @@
			from funasr.modules.positionwise_feed_forward import PositionwiseFeedForward
			from funasr.export.models.modules.feedforward import PositionwiseFeedForward as PositionwiseFeedForward_export


			class SANMEncoder(nn.Module):
			def __init__(
			self,
			@@ -107,3 +108,106 @@
			}

			}


			class SANMVadEncoder(nn.Module):
			def __init__(
			self,
			model,
			max_seq_len=512,
			feats_dim=560,
			model_name='encoder',
			onnx: bool = True,
			):
			super().__init__()
			self.embed = model.embed
			self.model = model
			self.feats_dim = feats_dim
			self._output_size = model._output_size

			if onnx:
			self.make_pad_mask = MakePadMask(max_seq_len, flip=False)
			else:
			self.make_pad_mask = sequence_mask(max_seq_len, flip=False)

			if hasattr(model, 'encoders0'):
			for i, d in enumerate(self.model.encoders0):
			if isinstance(d.self_attn, MultiHeadedAttentionSANM):
			d.self_attn = MultiHeadedAttentionSANM_export(d.self_attn)
			if isinstance(d.feed_forward, PositionwiseFeedForward):
			d.feed_forward = PositionwiseFeedForward_export(d.feed_forward)
			self.model.encoders0[i] = EncoderLayerSANM_export(d)

			for i, d in enumerate(self.model.encoders):
			if isinstance(d.self_attn, MultiHeadedAttentionSANM):
			d.self_attn = MultiHeadedAttentionSANM_export(d.self_attn)
			if isinstance(d.feed_forward, PositionwiseFeedForward):
			d.feed_forward = PositionwiseFeedForward_export(d.feed_forward)
			self.model.encoders[i] = EncoderLayerSANM_export(d)

			self.model_name = model_name
			self.num_heads = model.encoders[0].self_attn.h
			self.hidden_size = model.encoders[0].self_attn.linear_out.out_features

			def prepare_mask(self, mask, sub_masks):
			mask_3d_btd = mask[:, :, None]
			mask_4d_bhlt = (1 - sub_masks) * -10000.0

			return mask_3d_btd, mask_4d_bhlt

			def forward(self,
			speech: torch.Tensor,
			speech_lengths: torch.Tensor,
			vad_masks: torch.Tensor,
			sub_masks: torch.Tensor,
			):
			speech = speech * self._output_size ** 0.5
			mask = self.make_pad_mask(speech_lengths)
			vad_masks = self.prepare_mask(mask, vad_masks)
			mask = self.prepare_mask(mask, sub_masks)

			if self.embed is None:
			xs_pad = speech
			else:
			xs_pad = self.embed(speech)

			encoder_outs = self.model.encoders0(xs_pad, mask)
			xs_pad, masks = encoder_outs[0], encoder_outs[1]

			# encoder_outs = self.model.encoders(xs_pad, mask)
			for layer_idx, encoder_layer in enumerate(self.model.encoders):
			if layer_idx == len(self.model.encoders) - 1:
			mask = vad_masks
			encoder_outs = encoder_layer(xs_pad, mask)
			xs_pad, masks = encoder_outs[0], encoder_outs[1]

			xs_pad = self.model.after_norm(xs_pad)

			return xs_pad, speech_lengths

			def get_output_size(self):
			return self.model.encoders[0].size

			# def get_dummy_inputs(self):
			# feats = torch.randn(1, 100, self.feats_dim)
			# return (feats)
			#
			# def get_input_names(self):
			# return ['feats']
			#
			# def get_output_names(self):
			# return ['encoder_out', 'encoder_out_lens', 'predictor_weight']
			#
			# def get_dynamic_axes(self):
			# return {
			# 'feats': {
			# 1: 'feats_length'
			# },
			# 'encoder_out': {
			# 1: 'enc_out_length'
			# },
			# 'predictor_weight': {
			# 1: 'pre_out_length'
			# }
			#
			# }