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273 lines
10 KiB
273 lines
10 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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import paddle
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from paddlespeech.s2t.utils.log import Log
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logger = Log(__name__).getlog()
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__all__ = [
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"make_xs_mask", "make_pad_mask", "make_non_pad_mask", "subsequent_mask",
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"subsequent_chunk_mask", "add_optional_chunk_mask", "mask_finished_scores",
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"mask_finished_preds"
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]
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def make_xs_mask(xs: paddle.Tensor, pad_value=0.0) -> paddle.Tensor:
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"""Maks mask tensor containing indices of non-padded part.
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Args:
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xs (paddle.Tensor): (B, T, D), zeros for pad.
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Returns:
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paddle.Tensor: Mask Tensor indices of non-padded part. (B, T)
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"""
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pad_frame = paddle.full([1, 1, xs.shape[-1]], pad_value, dtype=xs.dtype)
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mask = xs != pad_frame
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mask = mask.all(axis=-1)
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return mask
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def make_pad_mask(lengths: paddle.Tensor) -> paddle.Tensor:
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"""Make mask tensor containing indices of padded part.
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See description of make_non_pad_mask.
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Args:
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lengths (paddle.Tensor): Batch of lengths (B,).
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Returns:
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paddle.Tensor: Mask tensor containing indices of padded part.
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(B, T)
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Examples:
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>>> lengths = [5, 3, 2]
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>>> make_pad_mask(lengths)
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masks = [[0, 0, 0, 0 ,0],
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[0, 0, 0, 1, 1],
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[0, 0, 1, 1, 1]]
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"""
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# (TODO: Hui Zhang): jit not support Tensor.dim() and Tensor.ndim
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# assert lengths.dim() == 1
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batch_size = int(lengths.shape[0])
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max_len = int(lengths.max())
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seq_range = paddle.arange(0, max_len, dtype=paddle.int64)
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seq_range_expand = seq_range.unsqueeze(0).expand([batch_size, max_len])
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seq_length_expand = lengths.unsqueeze(-1)
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mask = seq_range_expand >= seq_length_expand
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return mask
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def make_non_pad_mask(lengths: paddle.Tensor) -> paddle.Tensor:
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"""Make mask tensor containing indices of non-padded part.
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The sequences in a batch may have different lengths. To enable
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batch computing, padding is need to make all sequence in same
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size. To avoid the padding part pass value to context dependent
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block such as attention or convolution , this padding part is
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masked.
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This pad_mask is used in both encoder and decoder.
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1 for non-padded part and 0 for padded part.
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Args:
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lengths (paddle.Tensor): Batch of lengths (B,).
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Returns:
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paddle.Tensor: mask tensor containing indices of padded part.
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(B, T)
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Examples:
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>>> lengths = [5, 3, 2]
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>>> make_non_pad_mask(lengths)
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masks = [[1, 1, 1, 1 ,1],
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[1, 1, 1, 0, 0],
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[1, 1, 0, 0, 0]]
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"""
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#return ~make_pad_mask(lengths)
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return make_pad_mask(lengths).logical_not()
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def subsequent_mask(size: int) -> paddle.Tensor:
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"""Create mask for subsequent steps (size, size).
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This mask is used only in decoder which works in an auto-regressive mode.
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This means the current step could only do attention with its left steps.
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In encoder, fully attention is used when streaming is not necessary and
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the sequence is not long. In this case, no attention mask is needed.
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When streaming is need, chunk-based attention is used in encoder. See
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subsequent_chunk_mask for the chunk-based attention mask.
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Args:
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size (int): size of mask
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Returns:
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paddle.Tensor: mask, [size, size]
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Examples:
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>>> subsequent_mask(3)
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[[1, 0, 0],
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[1, 1, 0],
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[1, 1, 1]]
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"""
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ret = paddle.ones([size, size], dtype=paddle.bool)
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return paddle.tril(ret)
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def subsequent_chunk_mask(
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size: int,
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chunk_size: int,
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num_left_chunks: int=-1, ) -> paddle.Tensor:
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"""Create mask for subsequent steps (size, size) with chunk size,
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this is for streaming encoder
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Args:
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size (int): size of mask
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chunk_size (int): size of chunk
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num_left_chunks (int): number of left chunks
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<0: use full chunk
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>=0: use num_left_chunks
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Returns:
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paddle.Tensor: mask, [size, size]
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Examples:
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>>> subsequent_chunk_mask(4, 2)
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[[1, 1, 0, 0],
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[1, 1, 0, 0],
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[1, 1, 1, 1],
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[1, 1, 1, 1]]
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"""
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ret = paddle.zeros([size, size], dtype=paddle.bool)
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for i in range(size):
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if num_left_chunks < 0:
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start = 0
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else:
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start = max(0, (i // chunk_size - num_left_chunks) * chunk_size)
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ending = min(size, (i // chunk_size + 1) * chunk_size)
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ret[i, start:ending] = True
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return ret
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def add_optional_chunk_mask(xs: paddle.Tensor,
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masks: paddle.Tensor,
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use_dynamic_chunk: bool,
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use_dynamic_left_chunk: bool,
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decoding_chunk_size: int,
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static_chunk_size: int,
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num_decoding_left_chunks: int):
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""" Apply optional mask for encoder.
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Args:
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xs (paddle.Tensor): padded input, (B, L, D), L for max length
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mask (paddle.Tensor): mask for xs, (B, 1, L)
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use_dynamic_chunk (bool): whether to use dynamic chunk or not
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use_dynamic_left_chunk (bool): whether to use dynamic left chunk for
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training.
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decoding_chunk_size (int): decoding chunk size for dynamic chunk, it's
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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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static_chunk_size (int): chunk size for static chunk training/decoding
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if it's greater than 0, if use_dynamic_chunk is true,
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this parameter will be ignored
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num_decoding_left_chunks (int): 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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paddle.Tensor: chunk mask of the input xs.
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"""
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# Whether to use chunk mask or not
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if use_dynamic_chunk:
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max_len = xs.shape[1]
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if decoding_chunk_size < 0:
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chunk_size = max_len
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num_left_chunks = -1
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elif decoding_chunk_size > 0:
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chunk_size = decoding_chunk_size
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num_left_chunks = num_decoding_left_chunks
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else:
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# chunk size is either [1, 25] or full context(max_len).
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# Since we use 4 times subsampling and allow up to 1s(100 frames)
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# delay, the maximum frame is 100 / 4 = 25.
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chunk_size = int(paddle.randint(1, max_len, (1, )))
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num_left_chunks = -1
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if chunk_size > max_len // 2:
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chunk_size = max_len
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else:
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chunk_size = chunk_size % 25 + 1
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if use_dynamic_left_chunk:
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max_left_chunks = (max_len - 1) // chunk_size
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num_left_chunks = int(
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paddle.randint(0, max_left_chunks, (1, )))
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chunk_masks = subsequent_chunk_mask(xs.shape[1], chunk_size,
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num_left_chunks) # (L, L)
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chunk_masks = chunk_masks.unsqueeze(0) # (1, L, L)
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# chunk_masks = masks & chunk_masks # (B, L, L)
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chunk_masks = masks.logical_and(chunk_masks) # (B, L, L)
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elif static_chunk_size > 0:
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num_left_chunks = num_decoding_left_chunks
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chunk_masks = subsequent_chunk_mask(xs.shape[1], static_chunk_size,
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num_left_chunks) # (L, L)
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chunk_masks = chunk_masks.unsqueeze(0) # (1, L, L)
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# chunk_masks = masks & chunk_masks # (B, L, L)
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chunk_masks = masks.logical_and(chunk_masks) # (B, L, L)
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else:
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chunk_masks = masks
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return chunk_masks
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def mask_finished_scores(score: paddle.Tensor,
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flag: paddle.Tensor) -> paddle.Tensor:
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"""
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If a sequence is finished, we only allow one alive branch. This function
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aims to give one branch a zero score and the rest -inf score.
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Args:
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score (paddle.Tensor): A real value array with shape
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(batch_size * beam_size, beam_size).
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flag (paddle.Tensor): A bool array with shape
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(batch_size * beam_size, 1).
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Returns:
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paddle.Tensor: (batch_size * beam_size, beam_size).
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Examples:
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flag: tensor([[ True],
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[False]])
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score: tensor([[-0.3666, -0.6664, 0.6019],
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[-1.1490, -0.2948, 0.7460]])
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unfinished: tensor([[False, True, True],
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[False, False, False]])
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finished: tensor([[ True, False, False],
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[False, False, False]])
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return: tensor([[ 0.0000, -inf, -inf],
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[-1.1490, -0.2948, 0.7460]])
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"""
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beam_size = score.shape[-1]
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zero_mask = paddle.zeros_like(flag, dtype=paddle.bool)
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if beam_size > 1:
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unfinished = paddle.concat(
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(zero_mask, flag.tile([1, beam_size - 1])), axis=1)
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finished = paddle.concat(
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(flag, zero_mask.tile([1, beam_size - 1])), axis=1)
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else:
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unfinished = zero_mask
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finished = flag
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# infs = paddle.ones_like(score) * -float('inf')
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# score = paddle.where(unfinished, infs, score)
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# score = paddle.where(finished, paddle.zeros_like(score), score)
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score.masked_fill_(unfinished, -float('inf'))
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score.masked_fill_(finished, 0)
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return score
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def mask_finished_preds(pred: paddle.Tensor, flag: paddle.Tensor,
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eos: int) -> paddle.Tensor:
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"""
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If a sequence is finished, all of its branch should be <eos>
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Args:
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pred (paddle.Tensor): A int array with shape
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(batch_size * beam_size, beam_size).
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flag (paddle.Tensor): A bool array with shape
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(batch_size * beam_size, 1).
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Returns:
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paddle.Tensor: (batch_size * beam_size).
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"""
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beam_size = pred.shape[-1]
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finished = flag.repeat(1, beam_size)
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return pred.masked_fill_(finished, eos)
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