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test.py
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test.py
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"""This script is the test script for Deep3DFaceRecon_pytorch
"""
import os
from options.test_options import TestOptions
from data import create_dataset
from models import create_model
from util.visualizer import MyVisualizer
from util.preprocess import align_img
from PIL import Image
import numpy as np
from util.load_mats import load_lm3d
import torch
from data.flist_dataset import default_flist_reader
from scipy.io import loadmat, savemat
def get_data_path(root='examples'):
im_path = [os.path.join(root, i) for i in sorted(os.listdir(root)) if i.endswith('png') or i.endswith('jpg')]
lm_path = [i.replace('png', 'txt').replace('jpg', 'txt') for i in im_path]
lm_path = [os.path.join(i.replace(i.split(os.path.sep)[-1],''),'detections',i.split(os.path.sep)[-1]) for i in lm_path]
return im_path, lm_path
def read_data(im_path, lm_path, lm3d_std, to_tensor=True):
# to RGB
im = Image.open(im_path).convert('RGB')
W,H = im.size
lm = np.loadtxt(lm_path).astype(np.float32)
lm = lm.reshape([-1, 2])
lm[:, -1] = H - 1 - lm[:, -1]
_, im, lm, _ = align_img(im, lm, lm3d_std)
if to_tensor:
im = torch.tensor(np.array(im)/255., dtype=torch.float32).permute(2, 0, 1).unsqueeze(0)
lm = torch.tensor(lm).unsqueeze(0)
return im, lm
def main(rank, opt, name='examples'):
device = torch.device(rank)
torch.cuda.set_device(device)
model = create_model(opt)
model.setup(opt)
model.device = device
model.parallelize()
model.eval()
visualizer = MyVisualizer(opt)
im_path, lm_path = get_data_path(name)
lm3d_std = load_lm3d(opt.bfm_folder)
for i in range(len(im_path)):
print(i, im_path[i])
img_name = im_path[i].split(os.path.sep)[-1].replace('.png','').replace('.jpg','')
if not os.path.isfile(lm_path[i]):
print("%s is not found !!!"%lm_path[i])
continue
im_tensor, lm_tensor = read_data(im_path[i], lm_path[i], lm3d_std)
data = {
'imgs': im_tensor,
'lms': lm_tensor
}
model.set_input(data) # unpack data from data loader
model.test() # run inference
visuals = model.get_current_visuals() # get image results
visualizer.display_current_results(visuals, 0, opt.epoch, dataset=name.split(os.path.sep)[-1],
save_results=True, count=i, name=img_name, add_image=False)
model.save_mesh(os.path.join(visualizer.img_dir, name.split(os.path.sep)[-1], 'epoch_%s_%06d'%(opt.epoch, 0),img_name+'.obj')) # save reconstruction meshes
model.save_coeff(os.path.join(visualizer.img_dir, name.split(os.path.sep)[-1], 'epoch_%s_%06d'%(opt.epoch, 0),img_name+'.mat')) # save predicted coefficients
if __name__ == '__main__':
opt = TestOptions().parse() # get test options
main(0, opt,opt.img_folder)