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490 lines
22 KiB
490 lines
22 KiB
# Copyright (c) 2021 PaddlePaddle Authors. All Rights Reserved.
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# Copyright 2019 Mobvoi Inc. All Rights Reserved.
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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# Modified from wenet(https://github.com/wenet-e2e/wenet)
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"""Encoder definition."""
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from typing import Tuple
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import paddle
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from paddle import nn
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from typeguard import check_argument_types
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from paddlespeech.s2t.modules.activation import get_activation
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from paddlespeech.s2t.modules.align import LayerNorm
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from paddlespeech.s2t.modules.attention import MultiHeadedAttention
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from paddlespeech.s2t.modules.attention import RelPositionMultiHeadedAttention
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from paddlespeech.s2t.modules.conformer_convolution import ConvolutionModule
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from paddlespeech.s2t.modules.embedding import NoPositionalEncoding
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from paddlespeech.s2t.modules.embedding import PositionalEncoding
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from paddlespeech.s2t.modules.embedding import RelPositionalEncoding
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from paddlespeech.s2t.modules.encoder_layer import ConformerEncoderLayer
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from paddlespeech.s2t.modules.encoder_layer import TransformerEncoderLayer
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from paddlespeech.s2t.modules.mask import add_optional_chunk_mask
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from paddlespeech.s2t.modules.mask import make_non_pad_mask
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from paddlespeech.s2t.modules.positionwise_feed_forward import PositionwiseFeedForward
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from paddlespeech.s2t.modules.subsampling import Conv2dSubsampling4
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from paddlespeech.s2t.modules.subsampling import Conv2dSubsampling6
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from paddlespeech.s2t.modules.subsampling import Conv2dSubsampling8
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from paddlespeech.s2t.modules.subsampling import LinearNoSubsampling
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from paddlespeech.s2t.utils.log import Log
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logger = Log(__name__).getlog()
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__all__ = ["BaseEncoder", 'TransformerEncoder', "ConformerEncoder"]
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class BaseEncoder(nn.Layer):
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def __init__(self,
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input_size: int,
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output_size: int=256,
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attention_heads: int=4,
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linear_units: int=2048,
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num_blocks: int=6,
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dropout_rate: float=0.1,
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positional_dropout_rate: float=0.1,
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attention_dropout_rate: float=0.0,
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input_layer: str="conv2d",
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pos_enc_layer_type: str="abs_pos",
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normalize_before: bool=True,
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concat_after: bool=False,
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static_chunk_size: int=0,
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use_dynamic_chunk: bool=False,
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global_cmvn: paddle.nn.Layer=None,
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use_dynamic_left_chunk: bool=False,
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max_len: int=5000):
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"""
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Args:
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input_size (int): input dim, d_feature
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output_size (int): dimension of attention, d_model
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attention_heads (int): the number of heads of multi head attention
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linear_units (int): the hidden units number of position-wise feed
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forward
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num_blocks (int): the number of encoder blocks
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dropout_rate (float): dropout rate
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attention_dropout_rate (float): dropout rate in attention
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positional_dropout_rate (float): dropout rate after adding
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positional encoding
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input_layer (str): input layer type.
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optional [linear, conv2d, conv2d6, conv2d8]
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pos_enc_layer_type (str): Encoder positional encoding layer type.
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opitonal [abs_pos, scaled_abs_pos, rel_pos, no_pos]
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normalize_before (bool):
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True: use layer_norm before each sub-block of a layer.
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False: use layer_norm after each sub-block of a layer.
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concat_after (bool): whether to concat attention layer's input
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and output.
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True: x -> x + linear(concat(x, att(x)))
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False: x -> x + att(x)
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static_chunk_size (int): chunk size for static chunk training and
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decoding
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use_dynamic_chunk (bool): whether use dynamic chunk size for
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training or not, You can only use fixed chunk(chunk_size > 0)
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or dyanmic chunk size(use_dynamic_chunk = True)
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global_cmvn (Optional[paddle.nn.Layer]): Optional GlobalCMVN layer
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use_dynamic_left_chunk (bool): whether use dynamic left chunk in
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dynamic chunk training
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"""
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assert check_argument_types()
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super().__init__()
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self._output_size = output_size
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if pos_enc_layer_type == "abs_pos":
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pos_enc_class = PositionalEncoding
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elif pos_enc_layer_type == "rel_pos":
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pos_enc_class = RelPositionalEncoding
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elif pos_enc_layer_type == "no_pos":
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pos_enc_class = NoPositionalEncoding
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else:
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raise ValueError("unknown pos_enc_layer: " + pos_enc_layer_type)
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if input_layer == "linear":
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subsampling_class = LinearNoSubsampling
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elif input_layer == "conv2d":
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subsampling_class = Conv2dSubsampling4
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elif input_layer == "conv2d6":
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subsampling_class = Conv2dSubsampling6
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elif input_layer == "conv2d8":
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subsampling_class = Conv2dSubsampling8
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else:
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raise ValueError("unknown input_layer: " + input_layer)
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self.global_cmvn = global_cmvn
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self.embed = subsampling_class(
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idim=input_size,
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odim=output_size,
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dropout_rate=dropout_rate,
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pos_enc_class=pos_enc_class(
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d_model=output_size,
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dropout_rate=positional_dropout_rate,
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max_len=max_len), )
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self.normalize_before = normalize_before
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self.after_norm = LayerNorm(output_size, epsilon=1e-12)
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self.static_chunk_size = static_chunk_size
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self.use_dynamic_chunk = use_dynamic_chunk
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self.use_dynamic_left_chunk = use_dynamic_left_chunk
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def output_size(self) -> int:
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return self._output_size
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def forward(
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self,
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xs: paddle.Tensor,
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xs_lens: paddle.Tensor,
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decoding_chunk_size: int=0,
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num_decoding_left_chunks: int=-1,
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) -> Tuple[paddle.Tensor, paddle.Tensor]:
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"""Embed positions in tensor.
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Args:
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xs: padded input tensor (B, L, D)
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xs_lens: input length (B)
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decoding_chunk_size: decoding chunk size for dynamic chunk
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0: default for training, use random dynamic chunk.
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<0: for decoding, use full chunk.
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>0: for decoding, use fixed chunk size as set.
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num_decoding_left_chunks: number of left chunks, this is for decoding,
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the chunk size is decoding_chunk_size.
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>=0: use num_decoding_left_chunks
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<0: use all left chunks
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Returns:
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encoder output tensor, lens and mask
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"""
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masks = make_non_pad_mask(xs_lens).unsqueeze(1) # (B, 1, L)
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if self.global_cmvn is not None:
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xs = self.global_cmvn(xs)
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xs, pos_emb, masks = self.embed(xs, masks, offset=0)
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mask_pad = ~masks
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chunk_masks = add_optional_chunk_mask(
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xs, masks, self.use_dynamic_chunk, self.use_dynamic_left_chunk,
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decoding_chunk_size, self.static_chunk_size,
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num_decoding_left_chunks)
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for layer in self.encoders:
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xs, chunk_masks, _, _ = layer(xs, chunk_masks, pos_emb, mask_pad)
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if self.normalize_before:
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xs = self.after_norm(xs)
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# Here we assume the mask is not changed in encoder layers, so just
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# return the masks before encoder layers, and the masks will be used
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# for cross attention with decoder later
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return xs, masks
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def forward_chunk(
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self,
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xs: paddle.Tensor,
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offset: int,
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required_cache_size: int,
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att_cache: paddle.Tensor=paddle.zeros([0, 0, 0, 0]),
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cnn_cache: paddle.Tensor=paddle.zeros([0, 0, 0, 0]),
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att_mask: paddle.Tensor=paddle.ones([0, 0, 0], dtype=paddle.bool)
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) -> Tuple[paddle.Tensor, paddle.Tensor, paddle.Tensor]:
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""" Forward just one chunk
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Args:
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xs (paddle.Tensor): chunk audio feat input, [B=1, T, D], where
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`T==(chunk_size-1)*subsampling_rate + subsample.right_context + 1`
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offset (int): current offset in encoder output time stamp
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required_cache_size (int): cache size required for next chunk
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compuation
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>=0: actual cache size
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<0: means all history cache is required
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att_cache(paddle.Tensor): cache tensor for key & val in
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transformer/conformer attention. Shape is
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(elayers, head, cache_t1, d_k * 2), where`head * d_k == hidden-dim`
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and `cache_t1 == chunk_size * num_decoding_left_chunks`.
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cnn_cache (paddle.Tensor): cache tensor for cnn_module in conformer,
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(elayers, B=1, hidden-dim, cache_t2), where `cache_t2 == cnn.lorder - 1`
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Returns:
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paddle.Tensor: output of current input xs, (B=1, chunk_size, hidden-dim)
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paddle.Tensor: new attention cache required for next chunk, dyanmic shape
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(elayers, head, T, d_k*2) depending on required_cache_size
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paddle.Tensor: new conformer cnn cache required for next chunk, with
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same shape as the original cnn_cache
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"""
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assert xs.shape[0] == 1 # batch size must be one
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# tmp_masks is just for interface compatibility, [B=1, C=1, T]
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tmp_masks = paddle.ones([1, 1, xs.shape[1]], dtype=paddle.bool)
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if self.global_cmvn is not None:
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xs = self.global_cmvn(xs)
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# before embed, xs=(B, T, D1), pos_emb=(B=1, T, D)
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xs, pos_emb, _ = self.embed(xs, tmp_masks, offset=offset)
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# after embed, xs=(B=1, chunk_size, hidden-dim)
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elayers, _, cache_t1, _ = att_cache.shape
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chunk_size = xs.shape[1]
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attention_key_size = cache_t1 + chunk_size
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# only used when using `RelPositionMultiHeadedAttention`
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pos_emb = self.embed.position_encoding(
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offset=offset - cache_t1, size=attention_key_size)
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if required_cache_size < 0:
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next_cache_start = 0
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elif required_cache_size == 0:
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next_cache_start = attention_key_size
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else:
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next_cache_start = max(attention_key_size - required_cache_size, 0)
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r_att_cache = []
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r_cnn_cache = []
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for i, layer in enumerate(self.encoders):
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# att_cache[i:i+1] = (1, head, cache_t1, d_k*2)
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# cnn_cache[i:i+1] = (1, B=1, hidden-dim, cache_t2)
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# WARNING: eliminate if-else cond op in graph
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# tensor zeros([0,0,0,0]) support [i:i+1] slice, will return zeros([0,0,0,0]) tensor
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# raw code as below:
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# att_cache=att_cache[i:i+1] if elayers > 0 else att_cache,
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# cnn_cache=cnn_cache[i:i+1] if paddle.shape(cnn_cache)[0] > 0 else cnn_cache,
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xs, _, new_att_cache, new_cnn_cache = layer(
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xs,
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att_mask,
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pos_emb,
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att_cache=att_cache[i:i + 1],
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cnn_cache=cnn_cache[i:i + 1], )
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# new_att_cache = (1, head, attention_key_size, d_k*2)
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# new_cnn_cache = (B=1, hidden-dim, cache_t2)
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r_att_cache.append(new_att_cache[:, :, next_cache_start:, :])
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r_cnn_cache.append(new_cnn_cache) # add elayer dim
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if self.normalize_before:
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xs = self.after_norm(xs)
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# r_att_cache (elayers, head, T, d_k*2)
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# r_cnn_cache (elayers, B=1, hidden-dim, cache_t2)
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r_att_cache = paddle.concat(r_att_cache, axis=0)
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r_cnn_cache = paddle.stack(r_cnn_cache, axis=0)
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return xs, r_att_cache, r_cnn_cache
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def forward_chunk_by_chunk(
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self,
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xs: paddle.Tensor,
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decoding_chunk_size: int,
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num_decoding_left_chunks: int=-1,
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) -> Tuple[paddle.Tensor, paddle.Tensor]:
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""" Forward input chunk by chunk with chunk_size like a streaming
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fashion
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Here we should pay special attention to computation cache in the
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streaming style forward chunk by chunk. Three things should be taken
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into account for computation in the current network:
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1. transformer/conformer encoder layers output cache
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2. convolution in conformer
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3. convolution in subsampling
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However, we don't implement subsampling cache for:
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1. We can control subsampling module to output the right result by
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overlapping input instead of cache left context, even though it
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wastes some computation, but subsampling only takes a very
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small fraction of computation in the whole model.
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2. Typically, there are several covolution layers with subsampling
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in subsampling module, it is tricky and complicated to do cache
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with different convolution layers with different subsampling
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rate.
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3. Currently, nn.Sequential is used to stack all the convolution
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layers in subsampling, we need to rewrite it to make it work
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with cache, which is not prefered.
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Args:
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xs (paddle.Tensor): (1, max_len, dim)
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chunk_size (int): decoding chunk size.
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num_left_chunks (int): decoding with num left chunks.
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"""
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assert decoding_chunk_size > 0
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# The model is trained by static or dynamic chunk
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assert self.static_chunk_size > 0 or self.use_dynamic_chunk
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# feature stride and window for `subsampling` module
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subsampling = self.embed.subsampling_rate
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context = self.embed.right_context + 1 # Add current frame
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stride = subsampling * decoding_chunk_size
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decoding_window = (decoding_chunk_size - 1) * subsampling + context
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num_frames = xs.shape[1]
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required_cache_size = decoding_chunk_size * num_decoding_left_chunks
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att_cache: paddle.Tensor = paddle.zeros([0, 0, 0, 0])
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cnn_cache: paddle.Tensor = paddle.zeros([0, 0, 0, 0])
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outputs = []
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offset = 0
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# Feed forward overlap input step by step
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for cur in range(0, num_frames - context + 1, stride):
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end = min(cur + decoding_window, num_frames)
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chunk_xs = xs[:, cur:end, :]
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(y, att_cache, cnn_cache) = self.forward_chunk(
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chunk_xs, offset, required_cache_size, att_cache, cnn_cache)
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outputs.append(y)
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offset += y.shape[1]
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ys = paddle.cat(outputs, 1)
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masks = paddle.ones([1, 1, ys.shape[1]], dtype=paddle.bool)
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return ys, masks
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class TransformerEncoder(BaseEncoder):
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"""Transformer encoder module."""
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def __init__(
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self,
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input_size: int,
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output_size: int=256,
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attention_heads: int=4,
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linear_units: int=2048,
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num_blocks: int=6,
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dropout_rate: float=0.1,
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positional_dropout_rate: float=0.1,
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attention_dropout_rate: float=0.0,
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input_layer: str="conv2d",
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pos_enc_layer_type: str="abs_pos",
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normalize_before: bool=True,
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concat_after: bool=False,
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static_chunk_size: int=0,
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use_dynamic_chunk: bool=False,
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global_cmvn: nn.Layer=None,
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use_dynamic_left_chunk: bool=False, ):
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""" Construct TransformerEncoder
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See Encoder for the meaning of each parameter.
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"""
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assert check_argument_types()
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super().__init__(input_size, output_size, attention_heads, linear_units,
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num_blocks, dropout_rate, positional_dropout_rate,
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attention_dropout_rate, input_layer,
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pos_enc_layer_type, normalize_before, concat_after,
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static_chunk_size, use_dynamic_chunk, global_cmvn,
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use_dynamic_left_chunk)
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self.encoders = nn.LayerList([
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TransformerEncoderLayer(
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size=output_size,
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self_attn=MultiHeadedAttention(attention_heads, output_size,
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attention_dropout_rate),
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feed_forward=PositionwiseFeedForward(output_size, linear_units,
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dropout_rate),
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dropout_rate=dropout_rate,
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normalize_before=normalize_before,
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concat_after=concat_after) for _ in range(num_blocks)
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])
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def forward_one_step(
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self,
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xs: paddle.Tensor,
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masks: paddle.Tensor,
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cache=None, ) -> Tuple[paddle.Tensor, paddle.Tensor]:
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"""Encode input frame.
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Args:
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xs (paddle.Tensor): (Prefix) Input tensor. (B, T, D)
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masks (paddle.Tensor): Mask tensor. (B, T, T)
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cache (List[paddle.Tensor]): List of cache tensors.
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Returns:
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paddle.Tensor: Output tensor.
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paddle.Tensor: Mask tensor.
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List[paddle.Tensor]: List of new cache tensors.
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"""
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if self.global_cmvn is not None:
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xs = self.global_cmvn(xs)
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xs, pos_emb, masks = self.embed(xs, masks, offset=0)
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if cache is None:
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cache = [None for _ in range(len(self.encoders))]
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new_cache = []
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for c, e in zip(cache, self.encoders):
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xs, masks, _ = e(xs, masks, output_cache=c)
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new_cache.append(xs)
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if self.normalize_before:
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xs = self.after_norm(xs)
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return xs, masks, new_cache
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class ConformerEncoder(BaseEncoder):
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"""Conformer encoder module."""
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def __init__(self,
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input_size: int,
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output_size: int=256,
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attention_heads: int=4,
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linear_units: int=2048,
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num_blocks: int=6,
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dropout_rate: float=0.1,
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positional_dropout_rate: float=0.1,
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attention_dropout_rate: float=0.0,
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input_layer: str="conv2d",
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pos_enc_layer_type: str="rel_pos",
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normalize_before: bool=True,
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concat_after: bool=False,
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static_chunk_size: int=0,
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use_dynamic_chunk: bool=False,
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global_cmvn: nn.Layer=None,
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use_dynamic_left_chunk: bool=False,
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positionwise_conv_kernel_size: int=1,
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macaron_style: bool=True,
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selfattention_layer_type: str="rel_selfattn",
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activation_type: str="swish",
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use_cnn_module: bool=True,
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cnn_module_kernel: int=15,
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causal: bool=False,
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cnn_module_norm: str="batch_norm",
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max_len: int=5000):
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"""Construct ConformerEncoder
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Args:
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input_size to use_dynamic_chunk, see in BaseEncoder
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positionwise_conv_kernel_size (int): Kernel size of positionwise
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conv1d layer.
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macaron_style (bool): Whether to use macaron style for
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positionwise layer.
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selfattention_layer_type (str): Encoder attention layer type,
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the parameter has no effect now, it's just for configure
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compatibility.
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activation_type (str): Encoder activation function type.
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use_cnn_module (bool): Whether to use convolution module.
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cnn_module_kernel (int): Kernel size of convolution module.
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causal (bool): whether to use causal convolution or not.
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cnn_module_norm (str): cnn conv norm type, Optional['batch_norm','layer_norm']
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"""
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assert check_argument_types()
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super().__init__(input_size, output_size, attention_heads, linear_units,
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num_blocks, dropout_rate, positional_dropout_rate,
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attention_dropout_rate, input_layer,
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pos_enc_layer_type, normalize_before, concat_after,
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static_chunk_size, use_dynamic_chunk, global_cmvn,
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use_dynamic_left_chunk, max_len)
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activation = get_activation(activation_type)
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# self-attention module definition
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encoder_selfattn_layer = RelPositionMultiHeadedAttention
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encoder_selfattn_layer_args = (attention_heads, output_size,
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attention_dropout_rate)
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# feed-forward module definition
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positionwise_layer = PositionwiseFeedForward
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positionwise_layer_args = (output_size, linear_units, dropout_rate,
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activation)
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# convolution module definition
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convolution_layer = ConvolutionModule
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convolution_layer_args = (output_size, cnn_module_kernel, activation,
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cnn_module_norm, causal)
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self.encoders = nn.LayerList([
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ConformerEncoderLayer(
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size=output_size,
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self_attn=encoder_selfattn_layer(*encoder_selfattn_layer_args),
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feed_forward=positionwise_layer(*positionwise_layer_args),
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feed_forward_macaron=positionwise_layer(
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*positionwise_layer_args) if macaron_style else None,
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conv_module=convolution_layer(*convolution_layer_args)
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if use_cnn_module else None,
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dropout_rate=dropout_rate,
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normalize_before=normalize_before,
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concat_after=concat_after) for _ in range(num_blocks)
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])
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