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# coding=utf-8
import torch
import torch.nn as nn
import torch.nn.functional as F
import argparse
import os
import time
from cp_dataset import CPDataset, CPDataLoader
from networks import GMM, UnetGenerator, load_checkpoint
from tensorboardX import SummaryWriter
from visualization import board_add_image, board_add_images, save_images
def get_opt():
parser = argparse.ArgumentParser()
parser.add_argument("--name", default="GMM")
# parser.add_argument("--name", default="TOM")
parser.add_argument("--gpu_ids", default="")
parser.add_argument('-j', '--workers', type=int, default=1)
parser.add_argument('-b', '--batch-size', type=int, default=4)
parser.add_argument("--dataroot", default="data")
# parser.add_argument("--datamode", default="train")
parser.add_argument("--datamode", default="test")
parser.add_argument("--stage", default="GMM")
# parser.add_argument("--stage", default="TOM")
# parser.add_argument("--data_list", default="train_pairs.txt")
parser.add_argument("--data_list", default="test_pairs.txt")
# parser.add_argument("--data_list", default="test_pairs_same.txt")
parser.add_argument("--fine_width", type=int, default=192)
parser.add_argument("--fine_height", type=int, default=256)
parser.add_argument("--radius", type=int, default=5)
parser.add_argument("--grid_size", type=int, default=5)
parser.add_argument('--tensorboard_dir', type=str,
default='tensorboard', help='save tensorboard infos')
parser.add_argument('--result_dir', type=str,
default='result', help='save result infos')
parser.add_argument('--checkpoint', type=str, default='checkpoints/GMM/gmm_final.pth', help='model checkpoint for test')
# parser.add_argument('--checkpoint', type=str, default='checkpoints/TOM/tom_final.pth', help='model checkpoint for test')
parser.add_argument("--display_count", type=int, default=1)
parser.add_argument("--shuffle", action='store_true',
help='shuffle input data')
opt = parser.parse_args()
return opt
def test_gmm(opt, test_loader, model, board):
model.cuda()
model.eval()
base_name = os.path.basename(opt.checkpoint)
name = opt.name
save_dir = os.path.join(opt.result_dir, name, opt.datamode)
if not os.path.exists(save_dir):
os.makedirs(save_dir)
warp_cloth_dir = os.path.join(save_dir, 'warp-cloth')
if not os.path.exists(warp_cloth_dir):
os.makedirs(warp_cloth_dir)
warp_mask_dir = os.path.join(save_dir, 'warp-mask')
if not os.path.exists(warp_mask_dir):
os.makedirs(warp_mask_dir)
result_dir1 = os.path.join(save_dir, 'result_dir')
if not os.path.exists(result_dir1):
os.makedirs(result_dir1)
overlayed_TPS_dir = os.path.join(save_dir, 'overlayed_TPS')
if not os.path.exists(overlayed_TPS_dir):
os.makedirs(overlayed_TPS_dir)
warped_grid_dir = os.path.join(save_dir, 'warped_grid')
if not os.path.exists(warped_grid_dir):
os.makedirs(warped_grid_dir)
for step, inputs in enumerate(test_loader.data_loader):
iter_start_time = time.time()
c_names = inputs['c_name']
im_names = inputs['im_name']
im = inputs['image'].cuda()
im_pose = inputs['pose_image'].cuda()
im_h = inputs['head'].cuda()
shape = inputs['shape'].cuda()
agnostic = inputs['agnostic'].cuda()
c = inputs['cloth'].cuda()
cm = inputs['cloth_mask'].cuda()
im_c = inputs['parse_cloth'].cuda()
im_g = inputs['grid_image'].cuda()
shape_ori = inputs['shape_ori'] # original body shape without blurring
grid, theta = model(agnostic, cm)
warped_cloth = F.grid_sample(c, grid, padding_mode='border')
warped_mask = F.grid_sample(cm, grid, padding_mode='zeros')
warped_grid = F.grid_sample(im_g, grid, padding_mode='zeros')
overlay = 0.7 * warped_cloth + 0.3 * im
visuals = [[im_h, shape, im_pose],
[c, warped_cloth, im_c],
[warped_grid, (warped_cloth+im)*0.5, im]]
# save_images(warped_cloth, c_names, warp_cloth_dir)
# save_images(warped_mask*2-1, c_names, warp_mask_dir)
save_images(warped_cloth, im_names, warp_cloth_dir)
save_images(warped_mask * 2 - 1, im_names, warp_mask_dir)
save_images(shape_ori.cuda() * 0.2 + warped_cloth *
0.8, im_names, result_dir1)
save_images(warped_grid, im_names, warped_grid_dir)
save_images(overlay, im_names, overlayed_TPS_dir)
if (step+1) % opt.display_count == 0:
board_add_images(board, 'combine', visuals, step+1)
t = time.time() - iter_start_time
print('step: %8d, time: %.3f' % (step+1, t), flush=True)
def test_tom(opt, test_loader, model, board):
model.cuda()
model.eval()
base_name = os.path.basename(opt.checkpoint)
# save_dir = os.path.join(opt.result_dir, base_name, opt.datamode)
save_dir = os.path.join(opt.result_dir, opt.name, opt.datamode)
if not os.path.exists(save_dir):
os.makedirs(save_dir)
try_on_dir = os.path.join(save_dir, 'try-on')
if not os.path.exists(try_on_dir):
os.makedirs(try_on_dir)
p_rendered_dir = os.path.join(save_dir, 'p_rendered')
if not os.path.exists(p_rendered_dir):
os.makedirs(p_rendered_dir)
m_composite_dir = os.path.join(save_dir, 'm_composite')
if not os.path.exists(m_composite_dir):
os.makedirs(m_composite_dir)
im_pose_dir = os.path.join(save_dir, 'im_pose')
if not os.path.exists(im_pose_dir):
os.makedirs(im_pose_dir)
shape_dir = os.path.join(save_dir, 'shape')
if not os.path.exists(shape_dir):
os.makedirs(shape_dir)
im_h_dir = os.path.join(save_dir, 'im_h')
if not os.path.exists(im_h_dir):
os.makedirs(im_h_dir) # for test data
print('Dataset size: %05d!' % (len(test_loader.dataset)), flush=True)
for step, inputs in enumerate(test_loader.data_loader):
iter_start_time = time.time()
im_names = inputs['im_name']
im = inputs['image'].cuda()
im_pose = inputs['pose_image']
im_h = inputs['head']
shape = inputs['shape']
agnostic = inputs['agnostic'].cuda()
c = inputs['cloth'].cuda()
cm = inputs['cloth_mask'].cuda()
# outputs = model(torch.cat([agnostic, c], 1)) # CP-VTON
outputs = model(torch.cat([agnostic, c, cm], 1)) # CP-VTON+
p_rendered, m_composite = torch.split(outputs, 3, 1)
p_rendered = F.tanh(p_rendered)
m_composite = F.sigmoid(m_composite)
p_tryon = c * m_composite + p_rendered * (1 - m_composite)
visuals = [[im_h, shape, im_pose],
[c, 2*cm-1, m_composite],
[p_rendered, p_tryon, im]]
save_images(p_tryon, im_names, try_on_dir)
save_images(im_h, im_names, im_h_dir)
save_images(shape, im_names, shape_dir)
save_images(im_pose, im_names, im_pose_dir)
save_images(m_composite, im_names, m_composite_dir)
save_images(p_rendered, im_names, p_rendered_dir) # For test data
if (step+1) % opt.display_count == 0:
board_add_images(board, 'combine', visuals, step+1)
t = time.time() - iter_start_time
print('step: %8d, time: %.3f' % (step+1, t), flush=True)
def main():
opt = get_opt()
print(opt)
print("Start to test stage: %s, named: %s!" % (opt.stage, opt.name))
# create dataset
test_dataset = CPDataset(opt)
# create dataloader
test_loader = CPDataLoader(opt, test_dataset)
# visualization
if not os.path.exists(opt.tensorboard_dir):
os.makedirs(opt.tensorboard_dir)
board = SummaryWriter(logdir=os.path.join(opt.tensorboard_dir, opt.name))
# create model & test
if opt.stage == 'GMM':
model = GMM(opt)
load_checkpoint(model, opt.checkpoint)
with torch.no_grad():
test_gmm(opt, test_loader, model, board)
elif opt.stage == 'TOM':
# model = UnetGenerator(25, 4, 6, ngf=64, norm_layer=nn.InstanceNorm2d) # CP-VTON
model = UnetGenerator(26, 4, 6, ngf=64, norm_layer=nn.InstanceNorm2d) # CP-VTON+
load_checkpoint(model, opt.checkpoint)
with torch.no_grad():
test_tom(opt, test_loader, model, board)
else:
raise NotImplementedError('Model [%s] is not implemented' % opt.stage)
print('Finished test %s, named: %s!' % (opt.stage, opt.name))
if __name__ == "__main__":
main()
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