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# modified from https://github.com/rosinality/stylegan2-pytorch/blob/master/op/fused_act.py # noqa:E501
# Copyright (c) 2021, NVIDIA Corporation. All rights reserved.
# NVIDIA Source Code License for StyleGAN2 with Adaptive Discriminator
# Augmentation (ADA)
# =======================================================================
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# provided, however, that for the purposes of this License, derivative
# works shall not include works that remain separable from, or merely
# link (or bind by name) to the interfaces of, the Work.
# Works, including the Software, are "made available" under this License
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# =======================================================================
import torch
import torch.nn.functional as F
from torch import nn
from torch.autograd import Function
from ..utils import ext_loader
ext_module = ext_loader.load_ext('_ext', ['fused_bias_leakyrelu'])
class FusedBiasLeakyReLUFunctionBackward(Function):
"""Calculate second order deviation.
This function is to compute the second order deviation for the fused leaky
relu operation.
"""
@staticmethod
def forward(ctx, grad_output, out, negative_slope, scale):
ctx.save_for_backward(out)
ctx.negative_slope = negative_slope
ctx.scale = scale
empty = grad_output.new_empty(0)
grad_input = ext_module.fused_bias_leakyrelu(
grad_output,
empty,
out,
act=3,
grad=1,
alpha=negative_slope,
scale=scale)
dim = [0]
if grad_input.ndim > 2:
dim += list(range(2, grad_input.ndim))
grad_bias = grad_input.sum(dim).detach()
return grad_input, grad_bias
@staticmethod
def backward(ctx, gradgrad_input, gradgrad_bias):
out, = ctx.saved_tensors
# The second order deviation, in fact, contains two parts, while the
# the first part is zero. Thus, we direct consider the second part
# which is similar with the first order deviation in implementation.
gradgrad_out = ext_module.fused_bias_leakyrelu(
gradgrad_input,
gradgrad_bias.to(out.dtype),
out,
act=3,
grad=1,
alpha=ctx.negative_slope,
scale=ctx.scale)
return gradgrad_out, None, None, None
class FusedBiasLeakyReLUFunction(Function):
@staticmethod
def forward(ctx, input, bias, negative_slope, scale):
empty = input.new_empty(0)
out = ext_module.fused_bias_leakyrelu(
input,
bias,
empty,
act=3,
grad=0,
alpha=negative_slope,
scale=scale)
ctx.save_for_backward(out)
ctx.negative_slope = negative_slope
ctx.scale = scale
return out
@staticmethod
def backward(ctx, grad_output):
out, = ctx.saved_tensors
grad_input, grad_bias = FusedBiasLeakyReLUFunctionBackward.apply(
grad_output, out, ctx.negative_slope, ctx.scale)
return grad_input, grad_bias, None, None
class FusedBiasLeakyReLU(nn.Module):
"""Fused bias leaky ReLU.
This function is introduced in the StyleGAN2:
http://arxiv.org/abs/1912.04958
The bias term comes from the convolution operation. In addition, to keep
the variance of the feature map or gradients unchanged, they also adopt a
scale similarly with Kaiming initialization. However, since the
:math:`1+{alpha}^2` : is too small, we can just ignore it. Therefore, the
final scale is just :math:`\sqrt{2}`:. Of course, you may change it with # noqa: W605, E501
your own scale.
TODO: Implement the CPU version.
Args:
channel (int): The channel number of the feature map.
negative_slope (float, optional): Same as nn.LeakyRelu.
Defaults to 0.2.
scale (float, optional): A scalar to adjust the variance of the feature
map. Defaults to 2**0.5.
"""
def __init__(self, num_channels, negative_slope=0.2, scale=2**0.5):
super(FusedBiasLeakyReLU, self).__init__()
self.bias = nn.Parameter(torch.zeros(num_channels))
self.negative_slope = negative_slope
self.scale = scale
def forward(self, input):
return fused_bias_leakyrelu(input, self.bias, self.negative_slope,
self.scale)
def fused_bias_leakyrelu(input, bias, negative_slope=0.2, scale=2**0.5):
"""Fused bias leaky ReLU function.
This function is introduced in the StyleGAN2:
http://arxiv.org/abs/1912.04958
The bias term comes from the convolution operation. In addition, to keep
the variance of the feature map or gradients unchanged, they also adopt a
scale similarly with Kaiming initialization. However, since the
:math:`1+{alpha}^2` : is too small, we can just ignore it. Therefore, the
final scale is just :math:`\sqrt{2}`:. Of course, you may change it with # noqa: W605, E501
your own scale.
Args:
input (torch.Tensor): Input feature map.
bias (nn.Parameter): The bias from convolution operation.
negative_slope (float, optional): Same as nn.LeakyRelu.
Defaults to 0.2.
scale (float, optional): A scalar to adjust the variance of the feature
map. Defaults to 2**0.5.
Returns:
torch.Tensor: Feature map after non-linear activation.
"""
if not input.is_cuda:
return bias_leakyrelu_ref(input, bias, negative_slope, scale)
return FusedBiasLeakyReLUFunction.apply(input, bias.to(input.dtype),
negative_slope, scale)
def bias_leakyrelu_ref(x, bias, negative_slope=0.2, scale=2**0.5):
if bias is not None:
assert bias.ndim == 1
assert bias.shape[0] == x.shape[1]
x = x + bias.reshape([-1 if i == 1 else 1 for i in range(x.ndim)])
x = F.leaky_relu(x, negative_slope)
if scale != 1:
x = x * scale
return x
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