126 lines
3.6 KiB
Python
126 lines
3.6 KiB
Python
# Copyright (c) Facebook, Inc. and its affiliates.
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#
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# This source code is licensed under the MIT license found in the
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# LICENSE file in the root directory of this source tree.
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import torch
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def prob_check(tensor, eps=1e-10):
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assert not torch.isnan(tensor).any(), (
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"Nan in a probability tensor."
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)
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# Add the eps here to prevent errors introduced by precision
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assert tensor.le(1.0 + eps).all() and tensor.ge(0.0 - eps).all(), (
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"Incorrect values in a probability tensor"
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", 0.0 <= tensor <= 1.0"
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)
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def exclusive_cumprod(tensor, dim: int, eps: float = 1e-10):
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"""
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Implementing exclusive cumprod.
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There is cumprod in pytorch, however there is no exclusive mode.
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cumprod(x) = [x1, x1x2, x2x3x4, ..., prod_{i=1}^n x_i]
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exclusive means
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cumprod(x) = [1, x1, x1x2, x1x2x3, ..., prod_{i=1}^{n-1} x_i]
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"""
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tensor_size = list(tensor.size())
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tensor_size[dim] = 1
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return_tensor = safe_cumprod(
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torch.cat([torch.ones(tensor_size).type_as(tensor), tensor], dim=dim),
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dim=dim,
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eps=eps,
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)
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if dim == 0:
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return return_tensor[:-1]
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elif dim == 1:
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return return_tensor[:, :-1]
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elif dim == 2:
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return return_tensor[:, :, :-1]
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else:
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raise RuntimeError(
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"Cumprod on dimension 3 and more is not implemented"
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)
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def safe_cumprod(tensor, dim: int, eps: float = 1e-10):
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"""
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An implementation of cumprod to prevent precision issue.
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cumprod(x)
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= [x1, x1x2, x1x2x3, ....]
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= [exp(log(x1)), exp(log(x1) + log(x2)), exp(log(x1) + log(x2) + log(x3)), ...]
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= exp(cumsum(log(x)))
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"""
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if (tensor + eps < 0).any().item():
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raise RuntimeError(
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"Safe cumprod can only take non-negative tensors as input."
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"Consider use torch.cumprod if you want to calculate negative values."
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)
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log_tensor = torch.log(tensor + eps)
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cumsum_log_tensor = torch.cumsum(log_tensor, dim)
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exp_cumsum_log_tensor = torch.exp(cumsum_log_tensor)
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return exp_cumsum_log_tensor
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def moving_sum(x, start_idx: int, end_idx: int):
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"""
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From MONOTONIC CHUNKWISE ATTENTION
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https://arxiv.org/pdf/1712.05382.pdf
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Equation (18)
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x = [x_1, x_2, ..., x_N]
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MovingSum(x, start_idx, end_idx)_n = Sigma_{m=n−(start_idx−1)}^{n+end_idx-1} x_m
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for n in {1, 2, 3, ..., N}
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x : src_len, batch_size
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start_idx : start idx
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end_idx : end idx
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Example
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src_len = 5
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batch_size = 3
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x =
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[[ 0, 5, 10],
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[ 1, 6, 11],
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[ 2, 7, 12],
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[ 3, 8, 13],
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[ 4, 9, 14]]
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MovingSum(x, 3, 1) =
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[[ 0, 5, 10],
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[ 1, 11, 21],
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[ 3, 18, 33],
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[ 6, 21, 36],
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[ 9, 24, 39]]
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MovingSum(x, 1, 3) =
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[[ 3, 18, 33],
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[ 6, 21, 36],
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[ 9, 24, 39],
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[ 7, 17, 27],
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[ 4, 9, 14]]
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"""
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# TODO: Make dimension configurable
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assert start_idx > 0 and end_idx > 0
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batch_size, tgt_len, src_len = x.size()
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x = x.view(-1, src_len).unsqueeze(1)
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# batch_size, 1, src_len
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moving_sum_weight = torch.ones([1, 1, end_idx + start_idx - 1]).type_as(x)
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moving_sum = torch.nn.functional.conv1d(
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x, moving_sum_weight, padding=start_idx + end_idx - 1
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).squeeze(1)
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moving_sum = moving_sum[:, end_idx:-start_idx]
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assert src_len == moving_sum.size(1)
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assert batch_size * tgt_len == moving_sum.size(0)
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moving_sum = moving_sum.view(batch_size, tgt_len, src_len)
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return moving_sum
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