forked from mrq/DL-Art-School
328afde9c0
SPSR_model really isn't that different from SRGAN_model. Rather than continuing to re-implement everything I've done in SRGAN_model, port the new stuff from SPSR over. This really demonstrates the need to refactor SRGAN_model a bit to make it cleaner. It is quite the beast these days..
164 lines
5.8 KiB
Python
164 lines
5.8 KiB
Python
from collections import OrderedDict
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import torch
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import torch.nn as nn
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####################
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# Basic blocks
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####################
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def act(act_type, inplace=True, neg_slope=0.2, n_prelu=1):
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# helper selecting activation
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# neg_slope: for leakyrelu and init of prelu
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# n_prelu: for p_relu num_parameters
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act_type = act_type.lower()
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if act_type == 'relu':
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layer = nn.ReLU(inplace)
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elif act_type == 'leakyrelu':
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layer = nn.LeakyReLU(neg_slope, inplace)
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elif act_type == 'prelu':
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layer = nn.PReLU(num_parameters=n_prelu, init=neg_slope)
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else:
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raise NotImplementedError('activation layer [{:s}] is not found'.format(act_type))
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return layer
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def norm(norm_type, nc):
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# helper selecting normalization layer
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norm_type = norm_type.lower()
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if norm_type == 'batch':
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layer = nn.BatchNorm2d(nc, affine=True)
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elif norm_type == 'instance':
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layer = nn.InstanceNorm2d(nc, affine=False)
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elif norm_type == 'group':
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layer = nn.GroupNorm(8, nc)
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else:
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raise NotImplementedError('normalization layer [{:s}] is not found'.format(norm_type))
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return layer
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def pad(pad_type, padding):
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# helper selecting padding layer
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# if padding is 'zero', do by conv layers
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pad_type = pad_type.lower()
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if padding == 0:
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return None
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if pad_type == 'reflect':
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layer = nn.ReflectionPad2d(padding)
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elif pad_type == 'replicate':
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layer = nn.ReplicationPad2d(padding)
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else:
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raise NotImplementedError('padding layer [{:s}] is not implemented'.format(pad_type))
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return layer
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def get_valid_padding(kernel_size, dilation):
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kernel_size = kernel_size + (kernel_size - 1) * (dilation - 1)
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padding = (kernel_size - 1) // 2
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return padding
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class ConcatBlock(nn.Module):
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# Concat the output of a submodule to its input
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def __init__(self, submodule):
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super(ConcatBlock, self).__init__()
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self.sub = submodule
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def forward(self, x):
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output = torch.cat((x, self.sub(x)), dim=1)
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return output
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def __repr__(self):
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tmpstr = 'Identity .. \n|'
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modstr = self.sub.__repr__().replace('\n', '\n|')
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tmpstr = tmpstr + modstr
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return tmpstr
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class ShortcutBlock(nn.Module):
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#Elementwise sum the output of a submodule to its input
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def __init__(self, submodule):
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super(ShortcutBlock, self).__init__()
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self.sub = submodule
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def forward(self, x):
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return x, self.sub
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def __repr__(self):
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tmpstr = 'Identity + \n|'
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modstr = self.sub.__repr__().replace('\n', '\n|')
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tmpstr = tmpstr + modstr
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return tmpstr
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def sequential(*args):
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# Flatten Sequential. It unwraps nn.Sequential.
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if len(args) == 1:
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if isinstance(args[0], OrderedDict):
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raise NotImplementedError('sequential does not support OrderedDict input.')
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return args[0] # No sequential is needed.
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modules = []
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for module in args:
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if isinstance(module, nn.Sequential):
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for submodule in module.children():
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modules.append(submodule)
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elif isinstance(module, nn.Module):
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modules.append(module)
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return nn.Sequential(*modules)
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def conv_block(in_nc, out_nc, kernel_size, stride=1, dilation=1, groups=1, bias=True, \
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pad_type='zero', norm_type=None, act_type='relu', mode='CNA'):
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'''
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Conv layer with padding, normalization, activation
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mode: CNA --> Conv -> Norm -> Act
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NAC --> Norm -> Act --> Conv (Identity Mappings in Deep Residual Networks, ECCV16)
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'''
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assert mode in ['CNA', 'NAC', 'CNAC'], 'Wrong conv mode [{:s}]'.format(mode)
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padding = get_valid_padding(kernel_size, dilation)
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p = pad(pad_type, padding) if pad_type and pad_type != 'zero' else None
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padding = padding if pad_type == 'zero' else 0
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c = nn.Conv2d(in_nc, out_nc, kernel_size=kernel_size, stride=stride, padding=padding, \
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dilation=dilation, bias=bias, groups=groups)
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a = act(act_type) if act_type else None
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if 'CNA' in mode:
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n = norm(norm_type, out_nc) if norm_type else None
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return sequential(p, c, n, a)
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elif mode == 'NAC':
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if norm_type is None and act_type is not None:
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a = act(act_type, inplace=False)
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# Important!
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# input----ReLU(inplace)----Conv--+----output
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# |________________________|
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# inplace ReLU will modify the input, therefore wrong output
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n = norm(norm_type, in_nc) if norm_type else None
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return sequential(n, a, p, c)
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####################
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# Upsampler
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####################
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def pixelshuffle_block(in_nc, out_nc, upscale_factor=2, kernel_size=3, stride=1, bias=True, \
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pad_type='zero', norm_type=None, act_type='relu'):
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'''
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Pixel shuffle layer
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(Real-Time Single Image and Video Super-Resolution Using an Efficient Sub-Pixel Convolutional
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Neural Network, CVPR17)
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'''
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conv = conv_block(in_nc, out_nc * (upscale_factor ** 2), kernel_size, stride, bias=bias, \
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pad_type=pad_type, norm_type=None, act_type=None)
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pixel_shuffle = nn.PixelShuffle(upscale_factor)
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n = norm(norm_type, out_nc) if norm_type else None
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a = act(act_type) if act_type else None
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return sequential(conv, pixel_shuffle, n, a)
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def upconv_blcok(in_nc, out_nc, upscale_factor=2, kernel_size=3, stride=1, bias=True, \
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pad_type='zero', norm_type=None, act_type='relu', mode='nearest'):
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# Up conv
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# described in https://distill.pub/2016/deconv-checkerboard/
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upsample = nn.Upsample(scale_factor=upscale_factor, mode=mode)
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conv = conv_block(in_nc, out_nc, kernel_size, stride, bias=bias, \
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pad_type=pad_type, norm_type=norm_type, act_type=act_type)
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return sequential(upsample, conv)
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