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pipeline_paint3d_stage1.py
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pipeline_paint3d_stage1.py
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import sys
import argparse
import os
import cv2
from tqdm import tqdm
import torch
import torchvision
import time
import numpy as np
from PIL import Image
from pathlib import Path
from omegaconf import OmegaConf
from controlnet.diffusers_cnet_txt2img import txt2imgControlNet
from controlnet.diffusers_cnet_inpaint import inpaintControlNet
from paint3d import utils
from paint3d.models.textured_mesh import TexturedMeshModel
from paint3d.dataset import init_dataloaders
from paint3d.trainer import dr_eval, forward_texturing
def inpaint_viewpoint(sd_cfg, cnet, save_result_dir, mesh_model, dataloaders, inpaint_view_ids=[(5, 6)]):
# projection
print(f"Project inpaint view {inpaint_view_ids}...")
view_angle_info = {i:data for i, data in enumerate(dataloaders['train'])}
inpaint_used_key = ["image", "depth", "uncolored_mask"]
for i, one_batch_id in tqdm(enumerate(inpaint_view_ids)):
one_batch_img = []
for view_id in one_batch_id:
data = view_angle_info[view_id]
theta, phi, radius = data['theta'], data['phi'], data['radius']
outputs = mesh_model.render(theta=theta, phi=phi, radius=radius)
view_img_info = [outputs[k] for k in inpaint_used_key]
one_batch_img.append(view_img_info)
for i, img in enumerate(zip(*one_batch_img)):
img = torch.cat(img, dim=3)
if img.size(1) == 1:
img = img.repeat(1, 3, 1, 1)
t = '_'.join(map(str, one_batch_id))
name = inpaint_used_key[i]
if name == "uncolored_mask":
img[img>0] = 1
save_path = os.path.join(save_result_dir, f"view_{t}_{name}.png")
utils.save_tensor_image(img, save_path=save_path)
# inpaint view point
txt_cfg = sd_cfg.txt2img
img_cfg = sd_cfg.inpaint
copy_list = ["prompt", "negative_prompt", "seed", ]
for k in copy_list:
img_cfg[k] = txt_cfg[k]
for i, one_batch_id in tqdm(enumerate(inpaint_view_ids)):
t = '_'.join(map(str, one_batch_id))
rgb_path = os.path.join(save_result_dir, f"view_{t}_{inpaint_used_key[0]}.png")
depth_path = os.path.join(save_result_dir, f"view_{t}_{inpaint_used_key[1]}.png")
mask_path = os.path.join(save_result_dir, f"view_{t}_{inpaint_used_key[2]}.png")
# pre-processing inpaint mask: dilate
mask = cv2.imread(mask_path)
dilate_kernel = 10
mask = cv2.dilate(mask, np.ones((dilate_kernel, dilate_kernel), np.uint8))
mask_path = os.path.join(save_result_dir, f"view_{t}_{inpaint_used_key[2]}_d{dilate_kernel}.png")
cv2.imwrite(mask_path, mask)
img_cfg.image_path = rgb_path
img_cfg.mask_path = mask_path
img_cfg.controlnet_units[0].condition_image_path = depth_path
images = cnet.infernece(config=img_cfg)
for i, img in enumerate(images):
save_path = os.path.join(save_result_dir, f"view_{t}_rgb_inpaint_{i}.png")
img.save(save_path)
return images
def gen_init_view(sd_cfg, cnet, mesh_model, dataloaders, outdir, view_ids=[]):
print(f"Project init view {view_ids}...")
init_depth_map = []
view_angle_info = {i: data for i, data in enumerate(dataloaders['train'])}
for view_id in view_ids:
data = view_angle_info[view_id]
theta, phi, radius = data['theta'], data['phi'], data['radius']
outputs = mesh_model.render(theta=theta, phi=phi, radius=radius)
depth_render = outputs['depth']
init_depth_map.append(depth_render)
init_depth_map = torch.cat(init_depth_map, dim=0).repeat(1, 3, 1, 1)
init_depth_map = torchvision.utils.make_grid(init_depth_map, nrow=2, padding=0)
save_path = os.path.join(outdir, f"init_depth_render.png")
utils.save_tensor_image(init_depth_map.unsqueeze(0), save_path=save_path)
# post-processing depth,dilate
depth_dilated = utils.dilate_depth_outline(save_path, iters=5, dilate_kernel=3)
save_path = os.path.join(outdir, f"init_depth_dilated.png")
cv2.imwrite(save_path, depth_dilated)
print("Generating init view...")
p_cfg = sd_cfg.txt2img
p_cfg.controlnet_units[0].condition_image_path = save_path
images = cnet.infernece(config=p_cfg)
for i, img in enumerate(images):
save_path = os.path.join(outdir, f'init-img-{i}.png')
img.save(save_path)
return images
def init_process(opt):
outdir = opt.outdir
os.makedirs(outdir, exist_ok=True)
pathdir, filename = Path(opt.render_config).parent, Path(opt.render_config).stem
sys.path.append(str(pathdir))
render_cfg = __import__(filename, ).TrainConfig()
utils.seed_everything(render_cfg.optim.seed)
sd_cfg = OmegaConf.load(opt.sd_config)
render_cfg.log.exp_path = str(outdir)
if opt.prompt is not None:
sd_cfg.txt2img.prompt = opt.prompt
if opt.ip_adapter_image_path is not None:
sd_cfg.txt2img.ip_adapter_image_path = opt.ip_adapter_image_path
sd_cfg.inpaint.ip_adapter_image_path = opt.ip_adapter_image_path
if opt.mesh_path is not None:
render_cfg.guide.shape_path = opt.mesh_path
if opt.texture_path is not None:
render_cfg.guide.initial_texture = opt.texture_path
img = Image.open(opt.texture_path)
render_cfg.guide.texture_resolution = img.size
return sd_cfg, render_cfg
def parse():
parser = argparse.ArgumentParser()
parser.add_argument(
"--sd_config",
type=str,
default="stable-diffusion/v2-inpainting-inference.yaml",
help="path to config which constructs model",
)
parser.add_argument(
"--render_config",
type=str,
default=" ",
help="path to config which constructs model",
)
parser.add_argument(
"--prompt",
type=str,
help="prompt",
default=None,
)
parser.add_argument(
"--ip_adapter_image_path",
type=str,
help="prompt",
default=None,
)
parser.add_argument(
"--mesh_path",
type=str,
help="path of mesh",
default=None,
)
parser.add_argument(
"--texture_path",
type=str,
help="path of texture image",
default=None,
)
parser.add_argument(
"--outdir",
type=str,
nargs="?",
help="dir to write results to",
default="outputs/inpainting-samples"
)
opt = parser.parse_args()
return opt
def main():
print("Depth-based 3D Texturing")
opt = parse()
sd_cfg, render_cfg = init_process(opt)
# === 1. create model and data
device = torch.device("cuda")
dataloaders = init_dataloaders(render_cfg, device)
mesh_model = TexturedMeshModel(cfg=render_cfg, device=device,).to(device)
depth_cnet = txt2imgControlNet(sd_cfg.txt2img)
inpaint_cnet = inpaintControlNet(sd_cfg.inpaint)
# === 2. init view generation
total_start = time.time()
start_t = time.time()
init_images = gen_init_view(
sd_cfg=sd_cfg,
cnet=depth_cnet,
mesh_model=mesh_model,
dataloaders=dataloaders,
outdir=opt.outdir,
view_ids=render_cfg.render.views_init,
)
print(f"init view generation time: {time.time() - start_t}")
# init_image_paths = Path(opt.outdir)
# init_image_paths = list(init_image_paths.glob("init-img-*.png"))
# init_image_paths.sort()
# init_images = [Image.open(str(p)) for p in init_image_paths]
for i, init_image in enumerate(init_images):
outdir = Path(opt.outdir) / f"res-{i}"
outdir.mkdir(exist_ok=True)
# back-projection init view
start_t = time.time()
mesh_model.initial_texture_path = None
mesh_model.refresh_texture()
view_imgs = utils.split_grid_image(img=np.array(init_image), size=(1, 2))
forward_texturing(
cfg=render_cfg,
dataloaders=dataloaders,
mesh_model=mesh_model,
save_result_dir=outdir,
device=device,
view_imgs=view_imgs,
view_ids=render_cfg.render.views_init,
verbose=False,
)
print(f"init DR time: {time.time() - start_t}")
# === 3. depth based inpaint
for view_group in render_cfg.render.views_inpaint: # cloth 4 view
start_t = time.time()
print("View inpainting ...")
outdir = Path(opt.outdir) / f"res-{i}"
outdir.mkdir(exist_ok=True)
inpainted_images = inpaint_viewpoint(
sd_cfg=sd_cfg,
cnet=inpaint_cnet,
save_result_dir=outdir,
mesh_model=mesh_model,
dataloaders=dataloaders,
inpaint_view_ids=[view_group],
)
print(f"inpaint view generation time: {time.time() - start_t}")
start_t = time.time()
view_imgs = []
for img_t in inpainted_images:
view_imgs.extend(utils.split_grid_image(img=np.array(img_t), size=(1, 2)))
forward_texturing(
cfg=render_cfg,
dataloaders=dataloaders,
mesh_model=mesh_model,
save_result_dir=outdir,
device=device,
view_imgs=view_imgs,
view_ids=view_group,
verbose=False,
)
print(f"inpaint DR time: {time.time() - start_t}")
print(f"total processed time:{time.time() - total_start}")
mesh_model.initial_texture_path = f"{outdir}/albedo.png"
mesh_model.refresh_texture()
dr_eval(
cfg=render_cfg,
dataloaders=dataloaders,
mesh_model=mesh_model,
save_result_dir=outdir,
valset=True,
verbose=False,
)
mesh_model.empty_texture_cache()
torch.cuda.empty_cache()
if __name__ == '__main__':
main()