python/FunASR-XL.git

			@@ -94,6 +94,47 @@
			if self.self_attn:
			if self.normalize_before:
			tgt = self.norm2(tgt)
			x, _ = self.self_attn(tgt, tgt_mask)
			x = residual + self.dropout(x)

			if self.src_attn is not None:
			residual = x
			if self.normalize_before:
			x = self.norm3(x)

			x = residual + self.dropout(self.src_attn(x, memory, memory_mask))


			return x, tgt_mask, memory, memory_mask, cache

			def forward_chunk(self, tgt, tgt_mask, memory, memory_mask=None, cache=None):
			"""Compute decoded features.

			Args:
			tgt (torch.Tensor): Input tensor (#batch, maxlen_out, size).
			tgt_mask (torch.Tensor): Mask for input tensor (#batch, maxlen_out).
			memory (torch.Tensor): Encoded memory, float32 (#batch, maxlen_in, size).
			memory_mask (torch.Tensor): Encoded memory mask (#batch, maxlen_in).
			cache (List[torch.Tensor]): List of cached tensors.
			Each tensor shape should be (#batch, maxlen_out - 1, size).

			Returns:
			torch.Tensor: Output tensor(#batch, maxlen_out, size).
			torch.Tensor: Mask for output tensor (#batch, maxlen_out).
			torch.Tensor: Encoded memory (#batch, maxlen_in, size).
			torch.Tensor: Encoded memory mask (#batch, maxlen_in).

			"""
			# tgt = self.dropout(tgt)
			residual = tgt
			if self.normalize_before:
			tgt = self.norm1(tgt)
			tgt = self.feed_forward(tgt)

			x = tgt
			if self.self_attn:
			if self.normalize_before:
			tgt = self.norm2(tgt)
			if self.training:
			cache = None
			x, cache = self.self_attn(tgt, tgt_mask, cache=cache)
			@@ -108,7 +149,6 @@


			return x, tgt_mask, memory, memory_mask, cache


			class FsmnDecoderSCAMAOpt(BaseTransformerDecoder):
			"""
			@@ -947,6 +987,65 @@
			)
			return logp.squeeze(0), state

			def forward_chunk(
			self,
			memory: torch.Tensor,
			tgt: torch.Tensor,
			cache: dict = None,
			) -> Tuple[torch.Tensor, torch.Tensor]:
			"""Forward decoder.

			Args:
			hs_pad: encoded memory, float32 (batch, maxlen_in, feat)
			hlens: (batch)
			ys_in_pad:
			input token ids, int64 (batch, maxlen_out)
			if input_layer == "embed"
			input tensor (batch, maxlen_out, #mels) in the other cases
			ys_in_lens: (batch)
			Returns:
			(tuple): tuple containing:

			x: decoded token score before softmax (batch, maxlen_out, token)
			if use_output_layer is True,
			olens: (batch, )
			"""
			x = tgt
			if cache["decode_fsmn"] is None:
			cache_layer_num = len(self.decoders)
			if self.decoders2 is not None:
			cache_layer_num += len(self.decoders2)
			new_cache = [None] * cache_layer_num
			else:
			new_cache = cache["decode_fsmn"]
			for i in range(self.att_layer_num):
			decoder = self.decoders[i]
			x, tgt_mask, memory, memory_mask, c_ret = decoder.forward_chunk(
			x, None, memory, None, cache=new_cache[i]
			)
			new_cache[i] = c_ret

			if self.num_blocks - self.att_layer_num > 1:
			for i in range(self.num_blocks - self.att_layer_num):
			j = i + self.att_layer_num
			decoder = self.decoders2[i]
			x, tgt_mask, memory, memory_mask, c_ret = decoder.forward_chunk(
			x, None, memory, None, cache=new_cache[j]
			)
			new_cache[j] = c_ret

			for decoder in self.decoders3:

			x, tgt_mask, memory, memory_mask, _ = decoder.forward_chunk(
			x, None, memory, None, cache=None
			)
			if self.normalize_before:
			x = self.after_norm(x)
			if self.output_layer is not None:
			x = self.output_layer(x)
			cache["decode_fsmn"] = new_cache
			return x

			def forward_one_step(
			self,
			tgt: torch.Tensor,