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3d_animation_toolkit / launch /model_generation.py
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import os
import tempfile
import gradio as gr
import numpy as np
from launch.utils import find_cuda
import spaces
import torch
from diffusers import DiffusionPipeline, EulerAncestralDiscreteScheduler
from einops import rearrange
from huggingface_hub import hf_hub_download
from omegaconf import OmegaConf
from PIL import Image
from pytorch_lightning import seed_everything
from torchvision.transforms import v2
from src.utils.camera_util import (FOV_to_intrinsics, get_circular_camera_poses,
get_zero123plus_input_cameras)
from src.utils.mesh_util import save_glb, save_obj
from src.utils.train_util import instantiate_from_config
# Configuration
cuda_path = find_cuda()
config_path = 'configs/instant-mesh-large.yaml'
config = OmegaConf.load(config_path)
config_name = os.path.basename(config_path).replace('.yaml', '')
model_config = config.model_config
infer_config = config.infer_config
IS_FLEXICUBES = config_name.startswith('instant-mesh')
device = torch.device('cuda')
# Load diffusion model
print('Loading diffusion model ...')
pipeline = DiffusionPipeline.from_pretrained(
"sudo-ai/zero123plus-v1.2",
custom_pipeline="zero123plus",
torch_dtype=torch.float16,
)
pipeline.scheduler = EulerAncestralDiscreteScheduler.from_config(
pipeline.scheduler.config, timestep_spacing='trailing'
)
unet_ckpt_path = hf_hub_download(
repo_id="TencentARC/InstantMesh", filename="diffusion_pytorch_model.bin", repo_type="model")
state_dict = torch.load(unet_ckpt_path, map_location='cpu')
pipeline.unet.load_state_dict(state_dict, strict=True)
pipeline = pipeline.to(device)
# Load reconstruction model
print('Loading reconstruction model ...')
model_ckpt_path = hf_hub_download(
repo_id="TencentARC/InstantMesh", filename="instant_mesh_large.ckpt", repo_type="model")
model = instantiate_from_config(model_config)
state_dict = torch.load(model_ckpt_path, map_location='cpu')['state_dict']
state_dict = {k[14:]: v for k, v in state_dict.items() if k.startswith(
'lrm_generator.') and 'source_camera' not in k}
model.load_state_dict(state_dict, strict=True)
model = model.to(device)
def get_render_cameras(batch_size=1, M=120, radius=2.5, elevation=10.0, is_flexicubes=False):
c2ws = get_circular_camera_poses(M=M, radius=radius, elevation=elevation)
if is_flexicubes:
cameras = torch.linalg.inv(c2ws)
cameras = cameras.unsqueeze(0).repeat(batch_size, 1, 1, 1)
else:
extrinsics = c2ws.flatten(-2)
intrinsics = FOV_to_intrinsics(50.0).unsqueeze(
0).repeat(M, 1, 1).float().flatten(-2)
cameras = torch.cat([extrinsics, intrinsics], dim=-1)
cameras = cameras.unsqueeze(0).repeat(batch_size, 1, 1)
return cameras
@spaces.GPU
def generate_mvs(input_image, sample_steps, sample_seed):
seed_everything(sample_seed)
z123_image = pipeline(
input_image, num_inference_steps=sample_steps).images[0]
show_image = np.asarray(z123_image, dtype=np.uint8)
show_image = torch.from_numpy(show_image)
show_image = rearrange(
show_image, '(n h) (m w) c -> (n m) h w c', n=3, m=2)
show_image = rearrange(
show_image, '(n m) h w c -> (n h) (m w) c', n=2, m=3)
show_image = Image.fromarray(show_image.numpy())
return z123_image, show_image
@spaces.GPU
def make3d(images):
global model
if IS_FLEXICUBES:
model.init_flexicubes_geometry(device, use_renderer=False)
model = model.eval()
images = np.asarray(images, dtype=np.float32) / 255.0
images = torch.from_numpy(images).permute(2, 0, 1).contiguous().float()
images = rearrange(images, 'c (n h) (m w) -> (n m) c h w', n=3, m=2)
input_cameras = get_zero123plus_input_cameras(
batch_size=1, radius=4.0).to(device)
render_cameras = get_render_cameras(
batch_size=1, radius=2.5, is_flexicubes=IS_FLEXICUBES).to(device)
images = images.unsqueeze(0).to(device)
images = v2.functional.resize(
images, (320, 320), interpolation=3, antialias=True).clamp(0, 1)
mesh_fpath = tempfile.NamedTemporaryFile(suffix=f".obj", delete=False).name
print(mesh_fpath)
mesh_basename = os.path.basename(mesh_fpath).split('.')[0]
mesh_dirname = os.path.dirname(mesh_fpath)
mesh_glb_fpath = os.path.join(mesh_dirname, f"{mesh_basename}.glb")
with torch.no_grad():
planes = model.forward_planes(images, input_cameras)
mesh_out = model.extract_mesh(
planes, use_texture_map=False, **infer_config)
vertices, faces, vertex_colors = mesh_out
vertices = vertices[:, [1, 2, 0]]
save_glb(vertices, faces, vertex_colors, mesh_glb_fpath)
save_obj(vertices, faces, vertex_colors, mesh_fpath)
print(f"Mesh saved to {mesh_fpath}")
return mesh_fpath, mesh_glb_fpath
def model_generation_ui(processed_image):
with gr.Column():
with gr.Row():
with gr.Column():
mv_show_images = gr.Image(
label="Generated Multi-views",
type="pil",
width=379,
interactive=False
)
with gr.Row():
with gr.Group():
sample_seed = gr.Number(
value=42, label="Seed Value", precision=0)
sample_steps = gr.Slider(
label="Sample Steps", minimum=30, maximum=75, value=75, step=5)
with gr.Row():
submit_mesh = gr.Button(
"Generate 3D Model", elem_id="generate", variant="primary")
with gr.Row():
with gr.Tab("OBJ"):
output_model_obj = gr.Model3D(
label="Output Model (OBJ Format)",
interactive=False,
)
gr.Markdown(
"Note: Downloaded .obj model will be flipped. Export .glb instead or manually flip it before usage.")
with gr.Tab("GLB"):
output_model_glb = gr.Model3D(
label="Output Model (GLB Format)",
interactive=False,
)
gr.Markdown(
"Note: The model shown here has a darker appearance. Download to get correct results.")
with gr.Row():
gr.Markdown(
'''Try a different <b>seed value</b> if the result is unsatisfying (Default: 42).''')
mv_images = gr.State()
submit_mesh.click(fn=generate_mvs, inputs=[processed_image, sample_steps, sample_seed], outputs=[mv_images, mv_show_images]).success(
fn=make3d, inputs=[mv_images], outputs=[
output_model_obj, output_model_glb]
)
return output_model_obj, output_model_glb