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# Copyright (c) 2021 PaddlePaddle Authors. 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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"""Deepspeech2 ASR Online Model"""
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from typing import Optional
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import paddle
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import paddle.nn.functional as F
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from paddle import nn
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from yacs.config import CfgNode
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from deepspeech.models.ds2_online.conv import Conv2dSubsampling4Online
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from deepspeech.modules.ctc import CTCDecoder
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from deepspeech.utils import layer_tools
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from deepspeech.utils.checkpoint import Checkpoint
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from deepspeech.utils.log import Log
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logger = Log(__name__).getlog()
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__all__ = ['DeepSpeech2ModelOnline', 'DeepSpeech2InferModelOnline']
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class CRNNEncoder(nn.Layer):
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def __init__(self,
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feat_size,
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dict_size,
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num_conv_layers=2,
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num_rnn_layers=4,
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rnn_size=1024,
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rnn_direction='forward',
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num_fc_layers=2,
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fc_layers_size_list=[512, 256],
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use_gru=False):
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super().__init__()
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self.rnn_size = rnn_size
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self.feat_size = feat_size # 161 for linear
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self.dict_size = dict_size
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self.num_rnn_layers = num_rnn_layers
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self.num_fc_layers = num_fc_layers
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self.rnn_direction = rnn_direction
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self.fc_layers_size_list = fc_layers_size_list
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self.use_gru = use_gru
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self.conv = Conv2dSubsampling4Online(feat_size, 32, dropout_rate=0.0)
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self.output_dim = self.conv.output_dim
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i_size = self.conv.output_dim
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self.rnn = nn.LayerList()
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self.layernorm_list = nn.LayerList()
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self.fc_layers_list = nn.LayerList()
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if rnn_direction == 'bidirect' or rnn_direction == 'bidirectional':
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layernorm_size = 2 * rnn_size
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elif rnn_direction == 'forward':
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layernorm_size = rnn_size
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else:
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raise Exception("Wrong rnn direction")
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for i in range(0, num_rnn_layers):
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if i == 0:
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rnn_input_size = i_size
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else:
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rnn_input_size = layernorm_size
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if use_gru is True:
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self.rnn.append(
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nn.GRU(
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input_size=rnn_input_size,
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hidden_size=rnn_size,
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num_layers=1,
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direction=rnn_direction))
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else:
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self.rnn.append(
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nn.LSTM(
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input_size=rnn_input_size,
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hidden_size=rnn_size,
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num_layers=1,
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direction=rnn_direction))
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self.layernorm_list.append(nn.LayerNorm(layernorm_size))
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self.output_dim = layernorm_size
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fc_input_size = layernorm_size
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for i in range(self.num_fc_layers):
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self.fc_layers_list.append(
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nn.Linear(fc_input_size, fc_layers_size_list[i]))
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fc_input_size = fc_layers_size_list[i]
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self.output_dim = fc_layers_size_list[i]
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@property
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def output_size(self):
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return self.output_dim
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def forward(self, x, x_lens, init_state_h_box=None, init_state_c_box=None):
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"""Compute Encoder outputs
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Args:
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x (Tensor): [B, T, D]
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x_lens (Tensor): [B]
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init_state_h_box(Tensor): init_states h for RNN layers: [num_rnn_layers * num_directions, batch_size, hidden_size]
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init_state_c_box(Tensor): init_states c for RNN layers: [num_rnn_layers * num_directions, batch_size, hidden_size]
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Return:
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x (Tensor): encoder outputs, [B, T, D]
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x_lens (Tensor): encoder length, [B]
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final_state_h_box(Tensor): final_states h for RNN layers: [num_rnn_layers * num_directions, batch_size, hidden_size]
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final_state_c_box(Tensor): final_states c for RNN layers: [num_rnn_layers * num_directions, batch_size, hidden_size]
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"""
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if init_state_h_box is not None:
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init_state_list = None
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if self.use_gru is True:
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init_state_h_list = paddle.split(
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init_state_h_box, self.num_rnn_layers, axis=0)
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init_state_list = init_state_h_list
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else:
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init_state_h_list = paddle.split(
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init_state_h_box, self.num_rnn_layers, axis=0)
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init_state_c_list = paddle.split(
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init_state_c_box, self.num_rnn_layers, axis=0)
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init_state_list = [(init_state_h_list[i], init_state_c_list[i])
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for i in range(self.num_rnn_layers)]
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else:
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init_state_list = [None] * self.num_rnn_layers
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x, x_lens = self.conv(x, x_lens)
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final_chunk_state_list = []
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for i in range(0, self.num_rnn_layers):
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x, final_state = self.rnn[i](x, init_state_list[i],
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x_lens) #[B, T, D]
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final_chunk_state_list.append(final_state)
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x = self.layernorm_list[i](x)
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for i in range(self.num_fc_layers):
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x = self.fc_layers_list[i](x)
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x = F.relu(x)
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if self.use_gru is True:
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final_chunk_state_h_box = paddle.concat(
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final_chunk_state_list, axis=0)
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final_chunk_state_c_box = init_state_c_box
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else:
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final_chunk_state_h_list = [
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final_chunk_state_list[i][0] for i in range(self.num_rnn_layers)
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]
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final_chunk_state_c_list = [
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final_chunk_state_list[i][1] for i in range(self.num_rnn_layers)
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]
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final_chunk_state_h_box = paddle.concat(
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final_chunk_state_h_list, axis=0)
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final_chunk_state_c_box = paddle.concat(
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final_chunk_state_c_list, axis=0)
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return x, x_lens, final_chunk_state_h_box, final_chunk_state_c_box
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def forward_chunk_by_chunk(self, x, x_lens, decoder_chunk_size=8):
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"""Compute Encoder outputs
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Args:
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x (Tensor): [B, T, D]
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x_lens (Tensor): [B]
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decoder_chunk_size: The chunk size of decoder
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Returns:
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eouts_list (List of Tensor): The list of encoder outputs in chunk_size: [B, chunk_size, D] * num_chunks
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eouts_lens_list (List of Tensor): The list of encoder length in chunk_size: [B] * num_chunks
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final_state_h_box(Tensor): final_states h for RNN layers: [num_rnn_layers * num_directions, batch_size, hidden_size]
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final_state_c_box(Tensor): final_states c for RNN layers: [num_rnn_layers * num_directions, batch_size, hidden_size]
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"""
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subsampling_rate = self.conv.subsampling_rate
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receptive_field_length = self.conv.receptive_field_length
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chunk_size = (decoder_chunk_size - 1
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) * subsampling_rate + receptive_field_length
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chunk_stride = subsampling_rate * decoder_chunk_size
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max_len = x.shape[1]
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assert (chunk_size <= max_len)
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eouts_chunk_list = []
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eouts_chunk_lens_list = []
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if (max_len - chunk_size) % chunk_stride != 0:
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padding_len = chunk_stride - (max_len - chunk_size) % chunk_stride
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else:
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padding_len = 0
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padding = paddle.zeros((x.shape[0], padding_len, x.shape[2]))
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padded_x = paddle.concat([x, padding], axis=1)
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num_chunk = (max_len + padding_len - chunk_size) / chunk_stride + 1
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num_chunk = int(num_chunk)
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chunk_state_h_box = None
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chunk_state_c_box = None
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final_state_h_box = None
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final_state_c_box = None
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for i in range(0, num_chunk):
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start = i * chunk_stride
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end = start + chunk_size
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x_chunk = padded_x[:, start:end, :]
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x_len_left = paddle.where(x_lens - i * chunk_stride < 0,
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paddle.zeros_like(x_lens),
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x_lens - i * chunk_stride)
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x_chunk_len_tmp = paddle.ones_like(x_lens) * chunk_size
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x_chunk_lens = paddle.where(x_len_left < x_chunk_len_tmp,
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x_len_left, x_chunk_len_tmp)
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eouts_chunk, eouts_chunk_lens, chunk_state_h_box, chunk_state_c_box = self.forward(
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x_chunk, x_chunk_lens, chunk_state_h_box, chunk_state_c_box)
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eouts_chunk_list.append(eouts_chunk)
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eouts_chunk_lens_list.append(eouts_chunk_lens)
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final_state_h_box = chunk_state_h_box
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final_state_c_box = chunk_state_c_box
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return eouts_chunk_list, eouts_chunk_lens_list, final_state_h_box, final_state_c_box
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class DeepSpeech2ModelOnline(nn.Layer):
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"""The DeepSpeech2 network structure for online.
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:param audio: Audio spectrogram data layer.
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:type audio: Variable
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:param text: Transcription text data layer.
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:type text: Variable
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:param audio_len: Valid sequence length data layer.
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:type audio_len: Variable
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:param feat_size: feature size for audio.
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:type feat_size: int
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:param dict_size: Dictionary size for tokenized transcription.
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:type dict_size: int
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:param num_conv_layers: Number of stacking convolution layers.
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:type num_conv_layers: int
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:param num_rnn_layers: Number of stacking RNN layers.
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:type num_rnn_layers: int
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:param rnn_size: RNN layer size (dimension of RNN cells).
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:type rnn_size: int
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:param num_fc_layers: Number of stacking FC layers.
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:type num_fc_layers: int
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:param fc_layers_size_list: The list of FC layer sizes.
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:type fc_layers_size_list: [int,]
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:param use_gru: Use gru if set True. Use simple rnn if set False.
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:type use_gru: bool
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:return: A tuple of an output unnormalized log probability layer (
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before softmax) and a ctc cost layer.
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:rtype: tuple of LayerOutput
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"""
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@classmethod
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def params(cls, config: Optional[CfgNode]=None) -> CfgNode:
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default = CfgNode(
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dict(
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num_conv_layers=2, #Number of stacking convolution layers.
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num_rnn_layers=4, #Number of stacking RNN layers.
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rnn_layer_size=1024, #RNN layer size (number of RNN cells).
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num_fc_layers=2,
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fc_layers_size_list=[512, 256],
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use_gru=True, #Use gru if set True. Use simple rnn if set False.
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blank_id=0, # index of blank in vocob.txt
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ctc_grad_norm_type='instance', ))
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if config is not None:
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config.merge_from_other_cfg(default)
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return default
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def __init__(
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self,
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feat_size,
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dict_size,
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num_conv_layers=2,
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num_rnn_layers=4,
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rnn_size=1024,
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rnn_direction='forward',
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num_fc_layers=2,
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fc_layers_size_list=[512, 256],
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use_gru=False,
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blank_id=0,
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ctc_grad_norm_type='instance', ):
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super().__init__()
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self.encoder = CRNNEncoder(
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feat_size=feat_size,
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dict_size=dict_size,
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num_conv_layers=num_conv_layers,
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num_rnn_layers=num_rnn_layers,
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rnn_direction=rnn_direction,
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num_fc_layers=num_fc_layers,
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fc_layers_size_list=fc_layers_size_list,
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rnn_size=rnn_size,
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use_gru=use_gru)
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self.decoder = CTCDecoder(
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odim=dict_size, # <blank> is in vocab
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enc_n_units=self.encoder.output_size,
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blank_id=blank_id,
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dropout_rate=0.0,
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reduction=True, # sum
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batch_average=True, # sum / batch_size
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grad_norm_type=ctc_grad_norm_type)
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def forward(self, audio, audio_len, text, text_len):
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"""Compute Model loss
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Args:
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audio (Tenosr): [B, T, D]
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audio_len (Tensor): [B]
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text (Tensor): [B, U]
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text_len (Tensor): [B]
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Returns:
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loss (Tenosr): [1]
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"""
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eouts, eouts_len, final_state_h_box, final_state_c_box = self.encoder(
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audio, audio_len, None, None)
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loss = self.decoder(eouts, eouts_len, text, text_len)
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return loss
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@paddle.no_grad()
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def decode(self, audio, audio_len, vocab_list, decoding_method,
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lang_model_path, beam_alpha, beam_beta, beam_size, cutoff_prob,
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cutoff_top_n, num_processes):
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# init once
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# decoders only accept string encoded in utf-8
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self.decoder.init_decode(
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beam_alpha=beam_alpha,
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beam_beta=beam_beta,
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lang_model_path=lang_model_path,
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vocab_list=vocab_list,
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decoding_method=decoding_method)
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eouts, eouts_len, final_state_h_box, final_state_c_box = self.encoder(
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audio, audio_len, None, None)
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probs = self.decoder.softmax(eouts)
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return self.decoder.decode_probs(
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probs.numpy(), eouts_len, vocab_list, decoding_method,
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lang_model_path, beam_alpha, beam_beta, beam_size, cutoff_prob,
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cutoff_top_n, num_processes)
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@classmethod
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def from_pretrained(cls, dataloader, config, checkpoint_path):
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"""Build a DeepSpeech2Model model from a pretrained model.
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Parameters
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----------
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dataloader: paddle.io.DataLoader
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config: yacs.config.CfgNode
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model configs
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checkpoint_path: Path or str
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the path of pretrained model checkpoint, without extension name
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Returns
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-------
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DeepSpeech2ModelOnline
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The model built from pretrained result.
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"""
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model = cls(
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feat_size=dataloader.collate_fn.feature_size,
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dict_size=dataloader.collate_fn.vocab_size,
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num_conv_layers=config.model.num_conv_layers,
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num_rnn_layers=config.model.num_rnn_layers,
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rnn_size=config.model.rnn_layer_size,
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rnn_direction=config.model.rnn_direction,
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num_fc_layers=config.model.num_fc_layers,
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fc_layers_size_list=config.model.fc_layers_size_list,
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use_gru=config.model.use_gru,
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blank_id=config.model.blank_id,
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ctc_grad_norm_type=config.model.ctc_grad_norm_type, )
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infos = Checkpoint().load_parameters(
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model, checkpoint_path=checkpoint_path)
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logger.info(f"checkpoint info: {infos}")
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layer_tools.summary(model)
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return model
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@classmethod
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def from_config(cls, config):
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"""Build a DeepSpeec2ModelOnline from config
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Parameters
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config: yacs.config.CfgNode
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config.model
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Returns
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-------
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DeepSpeech2ModelOnline
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The model built from config.
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"""
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model = cls(
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feat_size=config.feat_size,
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dict_size=config.dict_size,
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num_conv_layers=config.num_conv_layers,
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num_rnn_layers=config.num_rnn_layers,
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rnn_size=config.rnn_layer_size,
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rnn_direction=config.rnn_direction,
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num_fc_layers=config.num_fc_layers,
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fc_layers_size_list=config.fc_layers_size_list,
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use_gru=config.use_gru,
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blank_id=config.blank_id,
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ctc_grad_norm_type=config.ctc_grad_norm_type, )
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return model
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class DeepSpeech2InferModelOnline(DeepSpeech2ModelOnline):
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def __init__(self, *args, **kwargs):
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super().__init__(*args, **kwargs)
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def forward(self, audio_chunk, audio_chunk_lens, chunk_state_h_box,
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chunk_state_c_box):
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eouts_chunk, eouts_chunk_lens, final_state_h_box, final_state_c_box = self.encoder(
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audio_chunk, audio_chunk_lens, chunk_state_h_box, chunk_state_c_box)
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probs_chunk = self.decoder.softmax(eouts_chunk)
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return probs_chunk, eouts_chunk_lens, final_state_h_box, final_state_c_box
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def export(self):
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static_model = paddle.jit.to_static(
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self,
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input_spec=[
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paddle.static.InputSpec(
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|
shape=[None, None,
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self.encoder.feat_size], #[B, chunk_size, feat_dim]
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dtype='float32'),
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paddle.static.InputSpec(shape=[None],
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dtype='int64'), # audio_length, [B]
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paddle.static.InputSpec(
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|
shape=[None, None, None], dtype='float32'),
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paddle.static.InputSpec(
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|
shape=[None, None, None], dtype='float32')
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])
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|
return static_model
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