463 lines
14 KiB
Python
463 lines
14 KiB
Python
import cv2
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import torch
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import torch.nn as nn
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import torch.nn.functional as F
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import numpy as np
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from PIL import Image
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from iopaint.helper import load_model
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from iopaint.plugins.base_plugin import BasePlugin
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from iopaint.schema import RunPluginRequest
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class REBNCONV(nn.Module):
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def __init__(self, in_ch=3, out_ch=3, dirate=1, stride=1):
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super(REBNCONV, self).__init__()
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self.conv_s1 = nn.Conv2d(
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in_ch, out_ch, 3, padding=1 * dirate, dilation=1 * dirate, stride=stride
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)
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self.bn_s1 = nn.BatchNorm2d(out_ch)
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self.relu_s1 = nn.ReLU(inplace=True)
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def forward(self, x):
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hx = x
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xout = self.relu_s1(self.bn_s1(self.conv_s1(hx)))
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return xout
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## upsample tensor 'src' to have the same spatial size with tensor 'tar'
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def _upsample_like(src, tar):
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src = F.interpolate(src, size=tar.shape[2:], mode="bilinear", align_corners=False)
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return src
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### RSU-7 ###
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class RSU7(nn.Module):
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def __init__(self, in_ch=3, mid_ch=12, out_ch=3, img_size=512):
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super(RSU7, self).__init__()
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self.in_ch = in_ch
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self.mid_ch = mid_ch
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self.out_ch = out_ch
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self.rebnconvin = REBNCONV(in_ch, out_ch, dirate=1) ## 1 -> 1/2
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self.rebnconv1 = REBNCONV(out_ch, mid_ch, dirate=1)
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self.pool1 = nn.MaxPool2d(2, stride=2, ceil_mode=True)
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self.rebnconv2 = REBNCONV(mid_ch, mid_ch, dirate=1)
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self.pool2 = nn.MaxPool2d(2, stride=2, ceil_mode=True)
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self.rebnconv3 = REBNCONV(mid_ch, mid_ch, dirate=1)
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self.pool3 = nn.MaxPool2d(2, stride=2, ceil_mode=True)
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self.rebnconv4 = REBNCONV(mid_ch, mid_ch, dirate=1)
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self.pool4 = nn.MaxPool2d(2, stride=2, ceil_mode=True)
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self.rebnconv5 = REBNCONV(mid_ch, mid_ch, dirate=1)
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self.pool5 = nn.MaxPool2d(2, stride=2, ceil_mode=True)
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self.rebnconv6 = REBNCONV(mid_ch, mid_ch, dirate=1)
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self.rebnconv7 = REBNCONV(mid_ch, mid_ch, dirate=2)
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self.rebnconv6d = REBNCONV(mid_ch * 2, mid_ch, dirate=1)
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self.rebnconv5d = REBNCONV(mid_ch * 2, mid_ch, dirate=1)
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self.rebnconv4d = REBNCONV(mid_ch * 2, mid_ch, dirate=1)
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self.rebnconv3d = REBNCONV(mid_ch * 2, mid_ch, dirate=1)
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self.rebnconv2d = REBNCONV(mid_ch * 2, mid_ch, dirate=1)
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self.rebnconv1d = REBNCONV(mid_ch * 2, out_ch, dirate=1)
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def forward(self, x):
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b, c, h, w = x.shape
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hx = x
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hxin = self.rebnconvin(hx)
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hx1 = self.rebnconv1(hxin)
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hx = self.pool1(hx1)
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hx2 = self.rebnconv2(hx)
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hx = self.pool2(hx2)
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hx3 = self.rebnconv3(hx)
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hx = self.pool3(hx3)
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hx4 = self.rebnconv4(hx)
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hx = self.pool4(hx4)
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hx5 = self.rebnconv5(hx)
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hx = self.pool5(hx5)
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hx6 = self.rebnconv6(hx)
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hx7 = self.rebnconv7(hx6)
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hx6d = self.rebnconv6d(torch.cat((hx7, hx6), 1))
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hx6dup = _upsample_like(hx6d, hx5)
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hx5d = self.rebnconv5d(torch.cat((hx6dup, hx5), 1))
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hx5dup = _upsample_like(hx5d, hx4)
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hx4d = self.rebnconv4d(torch.cat((hx5dup, hx4), 1))
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hx4dup = _upsample_like(hx4d, hx3)
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hx3d = self.rebnconv3d(torch.cat((hx4dup, hx3), 1))
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hx3dup = _upsample_like(hx3d, hx2)
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hx2d = self.rebnconv2d(torch.cat((hx3dup, hx2), 1))
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hx2dup = _upsample_like(hx2d, hx1)
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hx1d = self.rebnconv1d(torch.cat((hx2dup, hx1), 1))
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return hx1d + hxin
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### RSU-6 ###
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class RSU6(nn.Module):
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def __init__(self, in_ch=3, mid_ch=12, out_ch=3):
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super(RSU6, self).__init__()
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self.rebnconvin = REBNCONV(in_ch, out_ch, dirate=1)
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self.rebnconv1 = REBNCONV(out_ch, mid_ch, dirate=1)
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self.pool1 = nn.MaxPool2d(2, stride=2, ceil_mode=True)
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self.rebnconv2 = REBNCONV(mid_ch, mid_ch, dirate=1)
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self.pool2 = nn.MaxPool2d(2, stride=2, ceil_mode=True)
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self.rebnconv3 = REBNCONV(mid_ch, mid_ch, dirate=1)
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self.pool3 = nn.MaxPool2d(2, stride=2, ceil_mode=True)
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self.rebnconv4 = REBNCONV(mid_ch, mid_ch, dirate=1)
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self.pool4 = nn.MaxPool2d(2, stride=2, ceil_mode=True)
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self.rebnconv5 = REBNCONV(mid_ch, mid_ch, dirate=1)
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self.rebnconv6 = REBNCONV(mid_ch, mid_ch, dirate=2)
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self.rebnconv5d = REBNCONV(mid_ch * 2, mid_ch, dirate=1)
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self.rebnconv4d = REBNCONV(mid_ch * 2, mid_ch, dirate=1)
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self.rebnconv3d = REBNCONV(mid_ch * 2, mid_ch, dirate=1)
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self.rebnconv2d = REBNCONV(mid_ch * 2, mid_ch, dirate=1)
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self.rebnconv1d = REBNCONV(mid_ch * 2, out_ch, dirate=1)
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def forward(self, x):
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hx = x
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hxin = self.rebnconvin(hx)
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hx1 = self.rebnconv1(hxin)
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hx = self.pool1(hx1)
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hx2 = self.rebnconv2(hx)
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hx = self.pool2(hx2)
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hx3 = self.rebnconv3(hx)
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hx = self.pool3(hx3)
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hx4 = self.rebnconv4(hx)
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hx = self.pool4(hx4)
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hx5 = self.rebnconv5(hx)
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hx6 = self.rebnconv6(hx5)
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hx5d = self.rebnconv5d(torch.cat((hx6, hx5), 1))
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hx5dup = _upsample_like(hx5d, hx4)
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hx4d = self.rebnconv4d(torch.cat((hx5dup, hx4), 1))
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hx4dup = _upsample_like(hx4d, hx3)
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hx3d = self.rebnconv3d(torch.cat((hx4dup, hx3), 1))
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hx3dup = _upsample_like(hx3d, hx2)
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hx2d = self.rebnconv2d(torch.cat((hx3dup, hx2), 1))
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hx2dup = _upsample_like(hx2d, hx1)
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hx1d = self.rebnconv1d(torch.cat((hx2dup, hx1), 1))
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return hx1d + hxin
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### RSU-5 ###
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class RSU5(nn.Module):
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def __init__(self, in_ch=3, mid_ch=12, out_ch=3):
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super(RSU5, self).__init__()
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self.rebnconvin = REBNCONV(in_ch, out_ch, dirate=1)
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self.rebnconv1 = REBNCONV(out_ch, mid_ch, dirate=1)
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self.pool1 = nn.MaxPool2d(2, stride=2, ceil_mode=True)
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self.rebnconv2 = REBNCONV(mid_ch, mid_ch, dirate=1)
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self.pool2 = nn.MaxPool2d(2, stride=2, ceil_mode=True)
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self.rebnconv3 = REBNCONV(mid_ch, mid_ch, dirate=1)
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self.pool3 = nn.MaxPool2d(2, stride=2, ceil_mode=True)
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self.rebnconv4 = REBNCONV(mid_ch, mid_ch, dirate=1)
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self.rebnconv5 = REBNCONV(mid_ch, mid_ch, dirate=2)
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self.rebnconv4d = REBNCONV(mid_ch * 2, mid_ch, dirate=1)
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self.rebnconv3d = REBNCONV(mid_ch * 2, mid_ch, dirate=1)
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self.rebnconv2d = REBNCONV(mid_ch * 2, mid_ch, dirate=1)
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self.rebnconv1d = REBNCONV(mid_ch * 2, out_ch, dirate=1)
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def forward(self, x):
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hx = x
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hxin = self.rebnconvin(hx)
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hx1 = self.rebnconv1(hxin)
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hx = self.pool1(hx1)
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hx2 = self.rebnconv2(hx)
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hx = self.pool2(hx2)
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hx3 = self.rebnconv3(hx)
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hx = self.pool3(hx3)
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hx4 = self.rebnconv4(hx)
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hx5 = self.rebnconv5(hx4)
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hx4d = self.rebnconv4d(torch.cat((hx5, hx4), 1))
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hx4dup = _upsample_like(hx4d, hx3)
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hx3d = self.rebnconv3d(torch.cat((hx4dup, hx3), 1))
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hx3dup = _upsample_like(hx3d, hx2)
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hx2d = self.rebnconv2d(torch.cat((hx3dup, hx2), 1))
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hx2dup = _upsample_like(hx2d, hx1)
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hx1d = self.rebnconv1d(torch.cat((hx2dup, hx1), 1))
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return hx1d + hxin
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### RSU-4 ###
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class RSU4(nn.Module):
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def __init__(self, in_ch=3, mid_ch=12, out_ch=3):
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super(RSU4, self).__init__()
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self.rebnconvin = REBNCONV(in_ch, out_ch, dirate=1)
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self.rebnconv1 = REBNCONV(out_ch, mid_ch, dirate=1)
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self.pool1 = nn.MaxPool2d(2, stride=2, ceil_mode=True)
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self.rebnconv2 = REBNCONV(mid_ch, mid_ch, dirate=1)
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self.pool2 = nn.MaxPool2d(2, stride=2, ceil_mode=True)
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self.rebnconv3 = REBNCONV(mid_ch, mid_ch, dirate=1)
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self.rebnconv4 = REBNCONV(mid_ch, mid_ch, dirate=2)
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self.rebnconv3d = REBNCONV(mid_ch * 2, mid_ch, dirate=1)
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self.rebnconv2d = REBNCONV(mid_ch * 2, mid_ch, dirate=1)
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self.rebnconv1d = REBNCONV(mid_ch * 2, out_ch, dirate=1)
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def forward(self, x):
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hx = x
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hxin = self.rebnconvin(hx)
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hx1 = self.rebnconv1(hxin)
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hx = self.pool1(hx1)
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hx2 = self.rebnconv2(hx)
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hx = self.pool2(hx2)
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hx3 = self.rebnconv3(hx)
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hx4 = self.rebnconv4(hx3)
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hx3d = self.rebnconv3d(torch.cat((hx4, hx3), 1))
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hx3dup = _upsample_like(hx3d, hx2)
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hx2d = self.rebnconv2d(torch.cat((hx3dup, hx2), 1))
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hx2dup = _upsample_like(hx2d, hx1)
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hx1d = self.rebnconv1d(torch.cat((hx2dup, hx1), 1))
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return hx1d + hxin
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### RSU-4F ###
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class RSU4F(nn.Module):
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def __init__(self, in_ch=3, mid_ch=12, out_ch=3):
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super(RSU4F, self).__init__()
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self.rebnconvin = REBNCONV(in_ch, out_ch, dirate=1)
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self.rebnconv1 = REBNCONV(out_ch, mid_ch, dirate=1)
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self.rebnconv2 = REBNCONV(mid_ch, mid_ch, dirate=2)
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self.rebnconv3 = REBNCONV(mid_ch, mid_ch, dirate=4)
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self.rebnconv4 = REBNCONV(mid_ch, mid_ch, dirate=8)
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self.rebnconv3d = REBNCONV(mid_ch * 2, mid_ch, dirate=4)
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self.rebnconv2d = REBNCONV(mid_ch * 2, mid_ch, dirate=2)
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self.rebnconv1d = REBNCONV(mid_ch * 2, out_ch, dirate=1)
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def forward(self, x):
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hx = x
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hxin = self.rebnconvin(hx)
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hx1 = self.rebnconv1(hxin)
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hx2 = self.rebnconv2(hx1)
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hx3 = self.rebnconv3(hx2)
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hx4 = self.rebnconv4(hx3)
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hx3d = self.rebnconv3d(torch.cat((hx4, hx3), 1))
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hx2d = self.rebnconv2d(torch.cat((hx3d, hx2), 1))
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hx1d = self.rebnconv1d(torch.cat((hx2d, hx1), 1))
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return hx1d + hxin
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class ISNetDIS(nn.Module):
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def __init__(self, in_ch=3, out_ch=1):
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super(ISNetDIS, self).__init__()
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self.conv_in = nn.Conv2d(in_ch, 64, 3, stride=2, padding=1)
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self.pool_in = nn.MaxPool2d(2, stride=2, ceil_mode=True)
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self.stage1 = RSU7(64, 32, 64)
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self.pool12 = nn.MaxPool2d(2, stride=2, ceil_mode=True)
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self.stage2 = RSU6(64, 32, 128)
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self.pool23 = nn.MaxPool2d(2, stride=2, ceil_mode=True)
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self.stage3 = RSU5(128, 64, 256)
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self.pool34 = nn.MaxPool2d(2, stride=2, ceil_mode=True)
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self.stage4 = RSU4(256, 128, 512)
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self.pool45 = nn.MaxPool2d(2, stride=2, ceil_mode=True)
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self.stage5 = RSU4F(512, 256, 512)
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self.pool56 = nn.MaxPool2d(2, stride=2, ceil_mode=True)
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self.stage6 = RSU4F(512, 256, 512)
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# decoder
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self.stage5d = RSU4F(1024, 256, 512)
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self.stage4d = RSU4(1024, 128, 256)
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self.stage3d = RSU5(512, 64, 128)
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self.stage2d = RSU6(256, 32, 64)
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self.stage1d = RSU7(128, 16, 64)
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self.side1 = nn.Conv2d(64, out_ch, 3, padding=1)
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def forward(self, x):
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hx = x
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hxin = self.conv_in(hx)
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hx = self.pool_in(hxin)
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# stage 1
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hx1 = self.stage1(hxin)
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hx = self.pool12(hx1)
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# stage 2
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hx2 = self.stage2(hx)
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hx = self.pool23(hx2)
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# stage 3
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hx3 = self.stage3(hx)
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hx = self.pool34(hx3)
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# stage 4
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hx4 = self.stage4(hx)
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hx = self.pool45(hx4)
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# stage 5
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hx5 = self.stage5(hx)
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hx = self.pool56(hx5)
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# stage 6
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hx6 = self.stage6(hx)
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hx6up = _upsample_like(hx6, hx5)
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# -------------------- decoder --------------------
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hx5d = self.stage5d(torch.cat((hx6up, hx5), 1))
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hx5dup = _upsample_like(hx5d, hx4)
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hx4d = self.stage4d(torch.cat((hx5dup, hx4), 1))
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hx4dup = _upsample_like(hx4d, hx3)
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hx3d = self.stage3d(torch.cat((hx4dup, hx3), 1))
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hx3dup = _upsample_like(hx3d, hx2)
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hx2d = self.stage2d(torch.cat((hx3dup, hx2), 1))
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hx2dup = _upsample_like(hx2d, hx1)
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hx1d = self.stage1d(torch.cat((hx2dup, hx1), 1))
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# side output
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d1 = self.side1(hx1d)
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d1 = _upsample_like(d1, x)
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return d1.sigmoid()
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# 从小到大
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ANIME_SEG_MODELS = {
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"url": "https://github.com/Sanster/models/releases/download/isnetis/isnetis.pth",
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"md5": "5f25479076b73074730ab8de9e8f2051",
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}
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class AnimeSeg(BasePlugin):
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# Model from: https://github.com/SkyTNT/anime-segmentation
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name = "AnimeSeg"
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support_gen_image = True
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support_gen_mask = True
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def __init__(self):
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super().__init__()
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self.model = load_model(
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ISNetDIS(),
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ANIME_SEG_MODELS["url"],
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"cpu",
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ANIME_SEG_MODELS["md5"],
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)
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def gen_image(self, rgb_np_img, req: RunPluginRequest) -> np.ndarray:
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mask = self.forward(rgb_np_img)
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mask = Image.fromarray(mask, mode="L")
|
|
h0, w0 = rgb_np_img.shape[0], rgb_np_img.shape[1]
|
|
empty = Image.new("RGBA", (w0, h0), 0)
|
|
img = Image.fromarray(rgb_np_img)
|
|
cutout = Image.composite(img, empty, mask)
|
|
return np.asarray(cutout)
|
|
|
|
def gen_mask(self, rgb_np_img, req: RunPluginRequest) -> np.ndarray:
|
|
return self.forward(rgb_np_img)
|
|
|
|
@torch.inference_mode()
|
|
def forward(self, rgb_np_img):
|
|
s = 1024
|
|
|
|
h0, w0 = h, w = rgb_np_img.shape[0], rgb_np_img.shape[1]
|
|
if h > w:
|
|
h, w = s, int(s * w / h)
|
|
else:
|
|
h, w = int(s * h / w), s
|
|
ph, pw = s - h, s - w
|
|
tmpImg = np.zeros([s, s, 3], dtype=np.float32)
|
|
tmpImg[ph // 2 : ph // 2 + h, pw // 2 : pw // 2 + w] = (
|
|
cv2.resize(rgb_np_img, (w, h)) / 255
|
|
)
|
|
tmpImg = tmpImg.transpose((2, 0, 1))
|
|
tmpImg = torch.from_numpy(tmpImg).unsqueeze(0).type(torch.FloatTensor)
|
|
mask = self.model(tmpImg)
|
|
mask = mask[0, :, ph // 2 : ph // 2 + h, pw // 2 : pw // 2 + w]
|
|
mask = cv2.resize(mask.cpu().numpy().transpose((1, 2, 0)), (w0, h0))
|
|
return (mask * 255).astype("uint8")
|