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Upload arch_util.py
Browse files- arch_util.py +197 -0
arch_util.py
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import math
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import torch
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from torch import nn as nn
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from torch.nn import functional as F
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from torch.nn import init as init
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from torch.nn.modules.batchnorm import _BatchNorm
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@torch.no_grad()
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def default_init_weights(module_list, scale=1, bias_fill=0, **kwargs):
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"""Initialize network weights.
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Args:
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module_list (list[nn.Module] | nn.Module): Modules to be initialized.
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scale (float): Scale initialized weights, especially for residual
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blocks. Default: 1.
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bias_fill (float): The value to fill bias. Default: 0
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kwargs (dict): Other arguments for initialization function.
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"""
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if not isinstance(module_list, list):
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module_list = [module_list]
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for module in module_list:
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for m in module.modules():
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if isinstance(m, nn.Conv2d):
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init.kaiming_normal_(m.weight, **kwargs)
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m.weight.data *= scale
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if m.bias is not None:
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m.bias.data.fill_(bias_fill)
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elif isinstance(m, nn.Linear):
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init.kaiming_normal_(m.weight, **kwargs)
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m.weight.data *= scale
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if m.bias is not None:
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m.bias.data.fill_(bias_fill)
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elif isinstance(m, _BatchNorm):
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init.constant_(m.weight, 1)
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if m.bias is not None:
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m.bias.data.fill_(bias_fill)
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def make_layer(basic_block, num_basic_block, **kwarg):
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"""Make layers by stacking the same blocks.
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Args:
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basic_block (nn.module): nn.module class for basic block.
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num_basic_block (int): number of blocks.
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Returns:
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nn.Sequential: Stacked blocks in nn.Sequential.
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"""
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layers = []
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for _ in range(num_basic_block):
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layers.append(basic_block(**kwarg))
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return nn.Sequential(*layers)
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class ResidualBlockNoBN(nn.Module):
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"""Residual block without BN.
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It has a style of:
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---Conv-ReLU-Conv-+-
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|________________|
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Args:
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num_feat (int): Channel number of intermediate features.
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Default: 64.
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res_scale (float): Residual scale. Default: 1.
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pytorch_init (bool): If set to True, use pytorch default init,
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otherwise, use default_init_weights. Default: False.
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"""
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def __init__(self, num_feat=64, res_scale=1, pytorch_init=False):
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super(ResidualBlockNoBN, self).__init__()
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self.res_scale = res_scale
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self.conv1 = nn.Conv2d(num_feat, num_feat, 3, 1, 1, bias=True)
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self.conv2 = nn.Conv2d(num_feat, num_feat, 3, 1, 1, bias=True)
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self.relu = nn.ReLU(inplace=True)
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if not pytorch_init:
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default_init_weights([self.conv1, self.conv2], 0.1)
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def forward(self, x):
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identity = x
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out = self.conv2(self.relu(self.conv1(x)))
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return identity + out * self.res_scale
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class Upsample(nn.Sequential):
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"""Upsample module.
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Args:
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scale (int): Scale factor. Supported scales: 2^n and 3.
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num_feat (int): Channel number of intermediate features.
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"""
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def __init__(self, scale, num_feat):
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m = []
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if (scale & (scale - 1)) == 0: # scale = 2^n
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for _ in range(int(math.log(scale, 2))):
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m.append(nn.Conv2d(num_feat, 4 * num_feat, 3, 1, 1))
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m.append(nn.PixelShuffle(2))
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elif scale == 3:
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m.append(nn.Conv2d(num_feat, 9 * num_feat, 3, 1, 1))
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m.append(nn.PixelShuffle(3))
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else:
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raise ValueError(f'scale {scale} is not supported. ' 'Supported scales: 2^n and 3.')
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super(Upsample, self).__init__(*m)
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def flow_warp(x, flow, interp_mode='bilinear', padding_mode='zeros', align_corners=True):
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"""Warp an image or feature map with optical flow.
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Args:
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x (Tensor): Tensor with size (n, c, h, w).
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flow (Tensor): Tensor with size (n, h, w, 2), normal value.
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interp_mode (str): 'nearest' or 'bilinear'. Default: 'bilinear'.
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padding_mode (str): 'zeros' or 'border' or 'reflection'.
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Default: 'zeros'.
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align_corners (bool): Before pytorch 1.3, the default value is
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align_corners=True. After pytorch 1.3, the default value is
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align_corners=False. Here, we use the True as default.
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Returns:
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Tensor: Warped image or feature map.
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"""
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assert x.size()[-2:] == flow.size()[1:3]
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_, _, h, w = x.size()
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# create mesh grid
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grid_y, grid_x = torch.meshgrid(torch.arange(0, h).type_as(x), torch.arange(0, w).type_as(x))
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grid = torch.stack((grid_x, grid_y), 2).float() # W(x), H(y), 2
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grid.requires_grad = False
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vgrid = grid + flow
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# scale grid to [-1,1]
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vgrid_x = 2.0 * vgrid[:, :, :, 0] / max(w - 1, 1) - 1.0
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vgrid_y = 2.0 * vgrid[:, :, :, 1] / max(h - 1, 1) - 1.0
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vgrid_scaled = torch.stack((vgrid_x, vgrid_y), dim=3)
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output = F.grid_sample(x, vgrid_scaled, mode=interp_mode, padding_mode=padding_mode, align_corners=align_corners)
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# TODO, what if align_corners=False
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return output
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def resize_flow(flow, size_type, sizes, interp_mode='bilinear', align_corners=False):
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"""Resize a flow according to ratio or shape.
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Args:
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flow (Tensor): Precomputed flow. shape [N, 2, H, W].
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size_type (str): 'ratio' or 'shape'.
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sizes (list[int | float]): the ratio for resizing or the final output
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shape.
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1) The order of ratio should be [ratio_h, ratio_w]. For
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downsampling, the ratio should be smaller than 1.0 (i.e., ratio
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< 1.0). For upsampling, the ratio should be larger than 1.0 (i.e.,
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ratio > 1.0).
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2) The order of output_size should be [out_h, out_w].
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interp_mode (str): The mode of interpolation for resizing.
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Default: 'bilinear'.
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align_corners (bool): Whether align corners. Default: False.
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Returns:
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Tensor: Resized flow.
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"""
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_, _, flow_h, flow_w = flow.size()
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if size_type == 'ratio':
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output_h, output_w = int(flow_h * sizes[0]), int(flow_w * sizes[1])
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elif size_type == 'shape':
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output_h, output_w = sizes[0], sizes[1]
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else:
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raise ValueError(f'Size type should be ratio or shape, but got type {size_type}.')
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input_flow = flow.clone()
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ratio_h = output_h / flow_h
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ratio_w = output_w / flow_w
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input_flow[:, 0, :, :] *= ratio_w
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input_flow[:, 1, :, :] *= ratio_h
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resized_flow = F.interpolate(
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input=input_flow, size=(output_h, output_w), mode=interp_mode, align_corners=align_corners)
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return resized_flow
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# TODO: may write a cpp file
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def pixel_unshuffle(x, scale):
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""" Pixel unshuffle.
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184 |
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Args:
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185 |
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x (Tensor): Input feature with shape (b, c, hh, hw).
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186 |
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scale (int): Downsample ratio.
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187 |
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Returns:
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Tensor: the pixel unshuffled feature.
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190 |
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"""
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b, c, hh, hw = x.size()
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out_channel = c * (scale**2)
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assert hh % scale == 0 and hw % scale == 0
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h = hh // scale
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w = hw // scale
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x_view = x.view(b, c, h, scale, w, scale)
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return x_view.permute(0, 1, 3, 5, 2, 4).reshape(b, out_channel, h, w)
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