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3D_Photo_Inpainting

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Saini

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0b9f920 over 2 years ago

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	import numpy as np
	import argparse
	import glob
	import os
	from functools import partial
	import vispy
	import scipy.misc as misc
	from tqdm import tqdm
	import yaml
	import time
	import sys
	from mesh import write_ply, read_ply, output_3d_photo
	from utils import get_MiDaS_samples, read_MiDaS_depth
	import torch
	import cv2
	from skimage.transform import resize
	import imageio
	import copy
	from networks import Inpaint_Color_Net, Inpaint_Depth_Net, Inpaint_Edge_Net
	from MiDaS.run import run_depth
	from boostmonodepth_utils import run_boostmonodepth
	from MiDaS.monodepth_net import MonoDepthNet
	import MiDaS.MiDaS_utils as MiDaS_utils
	from bilateral_filtering import sparse_bilateral_filtering

	parser = argparse.ArgumentParser()
	parser.add_argument('--config', type=str, default='argument.yml',help='Configure of post processing')
	args = parser.parse_args()
	config = yaml.load(open(args.config, 'r'))
	if config['offscreen_rendering'] is True:
	vispy.use(app='egl')
	os.makedirs(config['mesh_folder'], exist_ok=True)
	os.makedirs(config['video_folder'], exist_ok=True)
	os.makedirs(config['depth_folder'], exist_ok=True)
	sample_list = get_MiDaS_samples(config['src_folder'], config['depth_folder'], config, config['specific'])
	normal_canvas, all_canvas = None, None

	if isinstance(config["gpu_ids"], int) and (config["gpu_ids"] >= 0):
	device = config["gpu_ids"]
	else:
	device = "cpu"

	print(f"running on device {device}")

	for idx in tqdm(range(len(sample_list))):
	depth = None
	sample = sample_list[idx]
	print("Current Source ==> ", sample['src_pair_name'])
	mesh_fi = os.path.join(config['mesh_folder'], sample['src_pair_name'] +'.ply')
	image = imageio.imread(sample['ref_img_fi'])

	print(f"Running depth extraction at {time.time()}")
	if config['use_boostmonodepth'] is True:
	run_boostmonodepth(sample['ref_img_fi'], config['src_folder'], config['depth_folder'])
	elif config['require_midas'] is True:
	run_depth([sample['ref_img_fi']], config['src_folder'], config['depth_folder'],
	config['MiDaS_model_ckpt'], MonoDepthNet, MiDaS_utils, target_w=640)

	if 'npy' in config['depth_format']:
	config['output_h'], config['output_w'] = np.load(sample['depth_fi']).shape[:2]
	else:
	config['output_h'], config['output_w'] = imageio.imread(sample['depth_fi']).shape[:2]
	frac = config['longer_side_len'] / max(config['output_h'], config['output_w'])
	config['output_h'], config['output_w'] = int(config['output_h'] * frac), int(config['output_w'] * frac)
	config['original_h'], config['original_w'] = config['output_h'], config['output_w']
	if image.ndim == 2:
	image = image[..., None].repeat(3, -1)
	if np.sum(np.abs(image[..., 0] - image[..., 1])) == 0 and np.sum(np.abs(image[..., 1] - image[..., 2])) == 0:
	config['gray_image'] = True
	else:
	config['gray_image'] = False
	image = cv2.resize(image, (config['output_w'], config['output_h']), interpolation=cv2.INTER_AREA)
	depth = read_MiDaS_depth(sample['depth_fi'], 3.0, config['output_h'], config['output_w'])
	mean_loc_depth = depth[depth.shape[0]//2, depth.shape[1]//2]
	if not(config['load_ply'] is True and os.path.exists(mesh_fi)):
	vis_photos, vis_depths = sparse_bilateral_filtering(depth.copy(), image.copy(), config, num_iter=config['sparse_iter'], spdb=False)
	depth = vis_depths[-1]
	model = None
	torch.cuda.empty_cache()
	print("Start Running 3D_Photo ...")
	print(f"Loading edge model at {time.time()}")
	depth_edge_model = Inpaint_Edge_Net(init_weights=True)
	depth_edge_weight = torch.load(config['depth_edge_model_ckpt'],
	map_location=torch.device(device))
	depth_edge_model.load_state_dict(depth_edge_weight)
	depth_edge_model = depth_edge_model.to(device)
	depth_edge_model.eval()

	print(f"Loading depth model at {time.time()}")
	depth_feat_model = Inpaint_Depth_Net()
	depth_feat_weight = torch.load(config['depth_feat_model_ckpt'],
	map_location=torch.device(device))
	depth_feat_model.load_state_dict(depth_feat_weight, strict=True)
	depth_feat_model = depth_feat_model.to(device)
	depth_feat_model.eval()
	depth_feat_model = depth_feat_model.to(device)
	print(f"Loading rgb model at {time.time()}")
	rgb_model = Inpaint_Color_Net()
	rgb_feat_weight = torch.load(config['rgb_feat_model_ckpt'],
	map_location=torch.device(device))
	rgb_model.load_state_dict(rgb_feat_weight)
	rgb_model.eval()
	rgb_model = rgb_model.to(device)
	graph = None


	print(f"Writing depth ply (and basically doing everything) at {time.time()}")
	rt_info = write_ply(image,
	depth,
	sample['int_mtx'],
	mesh_fi,
	config,
	rgb_model,
	depth_edge_model,
	depth_edge_model,
	depth_feat_model)

	if rt_info is False:
	continue
	rgb_model = None
	color_feat_model = None
	depth_edge_model = None
	depth_feat_model = None
	torch.cuda.empty_cache()
	if config['save_ply'] is True or config['load_ply'] is True:
	verts, colors, faces, Height, Width, hFov, vFov = read_ply(mesh_fi)
	else:
	verts, colors, faces, Height, Width, hFov, vFov = rt_info


	print(f"Making video at {time.time()}")
	videos_poses, video_basename = copy.deepcopy(sample['tgts_poses']), sample['tgt_name']
	top = (config.get('original_h') // 2 - sample['int_mtx'][1, 2] * config['output_h'])
	left = (config.get('original_w') // 2 - sample['int_mtx'][0, 2] * config['output_w'])
	down, right = top + config['output_h'], left + config['output_w']
	border = [int(xx) for xx in [top, down, left, right]]
	normal_canvas, all_canvas = output_3d_photo(verts.copy(), colors.copy(), faces.copy(), copy.deepcopy(Height), copy.deepcopy(Width), copy.deepcopy(hFov), copy.deepcopy(vFov),
	copy.deepcopy(sample['tgt_pose']), sample['video_postfix'], copy.deepcopy(sample['ref_pose']), copy.deepcopy(config['video_folder']),
	image.copy(), copy.deepcopy(sample['int_mtx']), config, image,
	videos_poses, video_basename, config.get('original_h'), config.get('original_w'), border=border, depth=depth, normal_canvas=normal_canvas, all_canvas=all_canvas,
	mean_loc_depth=mean_loc_depth)