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mmedit.models.editors.deepfillv1.contextual_attention

Module Contents

Classes

ContextualAttentionModule

Contexture attention module.

class mmedit.models.editors.deepfillv1.contextual_attention.ContextualAttentionModule(unfold_raw_kernel_size=4, unfold_raw_stride=2, unfold_raw_padding=1, unfold_corr_kernel_size=3, unfold_corr_stride=1, unfold_corr_dilation=1, unfold_corr_padding=1, scale=0.5, fuse_kernel_size=3, softmax_scale=10, return_attention_score=True)[源代码]

Bases: mmengine.model.BaseModule

Contexture attention module.

The details of this module can be found in: Generative Image Inpainting with Contextual Attention

参数
  • unfold_raw_kernel_size (int) – Kernel size used in unfolding raw feature. Default: 4.

  • unfold_raw_stride (int) – Stride used in unfolding raw feature. Default: 2.

  • unfold_raw_padding (int) – Padding used in unfolding raw feature. Default: 1.

  • unfold_corr_kernel_size (int) – Kernel size used in unfolding context for computing correlation maps. Default: 3.

  • unfold_corr_stride (int) – Stride used in unfolding context for computing correlation maps. Default: 1.

  • unfold_corr_dilation (int) – Dilation used in unfolding context for computing correlation maps. Default: 1.

  • unfold_corr_padding (int) – Padding used in unfolding context for computing correlation maps. Default: 1.

  • scale (float) – The resale factor used in resize input features. Default: 0.5.

  • fuse_kernel_size (int) – The kernel size used in fusion module. Default: 3.

  • softmax_scale (float) – The scale factor for softmax function. Default: 10.

  • return_attention_score (bool) – If True, the attention score will be returned. Default: True.

forward(x, context, mask=None)[源代码]

Forward Function.

参数
  • x (torch.Tensor) – Tensor with shape (n, c, h, w).

  • context (torch.Tensor) – Tensor with shape (n, c, h, w).

  • mask (torch.Tensor) – Tensor with shape (n, 1, h, w). Default: None.

返回

Features after contextural attention.

返回类型

tuple(torch.Tensor)

patch_correlation(x, kernel)[源代码]

Calculate patch correlation.

参数
  • x (torch.Tensor) – Input tensor.

  • kernel (torch.Tensor) – Kernel tensor.

返回

Tensor with shape of (n, l, h, w).

返回类型

torch.Tensor

patch_copy_deconv(attention_score, context_filter)[源代码]

Copy patches using deconv.

参数
  • attention_score (torch.Tensor) – Tensor with shape of (n, l , h, w).

  • context_filter (torch.Tensor) – Filter kernel.

返回

Tensor with shape of (n, c, h, w).

返回类型

torch.Tensor

fuse_correlation_map(correlation_map, h_unfold, w_unfold)[源代码]

Fuse correlation map.

This operation is to fuse correlation map for increasing large consistent correlation regions.

The mechanism behind this op is simple and easy to understand. A standard ‘Eye’ matrix will be applied as a filter on the correlation map in horizontal and vertical direction.

The shape of input correlation map is (n, h_unfold*w_unfold, h, w). When adopting fusing, we will apply convolutional filter in the reshaped feature map with shape of (n, 1, h_unfold*w_fold, h*w).

A simple specification for horizontal direction is shown below:

       (h, (h, (h, (h,
        0)  1)  2)  3)  ...
(h, 0)
(h, 1)      1
(h, 2)          1
(h, 3)              1
...
calculate_unfold_hw(input_size, kernel_size=3, stride=1, dilation=1, padding=0)[源代码]

Calculate (h, w) after unfolding.

The official implementation of unfold in pytorch will put the dimension (h, w) into L. Thus, this function is just to calculate the (h, w) according to the equation in: https://pytorch.org/docs/stable/nn.html#torch.nn.Unfold

calculate_overlap_factor(attention_score)[源代码]

Calculate the overlap factor after applying deconv.

参数

attention_score (torch.Tensor) – The attention score with shape of (n, c, h, w).

返回

The overlap factor will be returned.

返回类型

torch.Tensor

mask_correlation_map(correlation_map, mask)[源代码]

Add mask weight for correlation map.

Add a negative infinity number to the masked regions so that softmax function will result in ‘zero’ in those regions.

参数
  • correlation_map (torch.Tensor) – Correlation map with shape of (n, h_unfold*w_unfold, h_map, w_map).

  • mask (torch.Tensor) – Mask tensor with shape of (n, c, h, w). ‘1’ in the mask indicates masked region while ‘0’ indicates valid region.

返回

Updated correlation map with mask.

返回类型

torch.Tensor

im2col(img, kernel_size, stride=1, padding=0, dilation=1, normalize=False, return_cols=False)[源代码]

Reshape image-style feature to columns.

This function is used for unfold feature maps to columns. The details of this function can be found in: https://pytorch.org/docs/1.1.0/nn.html?highlight=unfold#torch.nn.Unfold

参数
  • img (torch.Tensor) – Features to be unfolded. The shape of this feature should be (n, c, h, w).

  • kernel_size (int) – In this function, we only support square kernel with same height and width.

  • stride (int) – Stride number in unfolding. Default: 1.

  • padding (int) – Padding number in unfolding. Default: 0.

  • dilation (int) – Dilation number in unfolding. Default: 1.

  • normalize (bool) – If True, the unfolded feature will be normalized. Default: False.

  • return_cols (bool) – The official implementation in PyTorch of unfolding will return features with shape of (n, c*$prod{kernel_size}$, L). If True, the features will be reshaped to (n, L, c, kernel_size, kernel_size). Otherwise, the results will maintain the shape as the official implementation.

返回

Unfolded columns. If return_cols is True, the shape of output tensor is (n, L, c, kernel_size, kernel_size). Otherwise, the shape will be (n, c*$prod{kernel_size}$, L).

返回类型

torch.Tensor

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