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import gradio as gr |
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import spaces |
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from gradio_litmodel3d import LitModel3D |
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import os |
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os.environ['SPCONV_ALGO'] = 'native' |
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from typing import * |
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import torch |
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import numpy as np |
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import imageio |
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import uuid |
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from easydict import EasyDict as edict |
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from PIL import Image |
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from trellis.pipelines import TrellisImageTo3DPipeline |
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from trellis.representations import Gaussian, MeshExtractResult |
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from trellis.utils import render_utils, postprocessing_utils |
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MAX_SEED = np.iinfo(np.int32).max |
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TMP_DIR = "/tmp/Trellis-demo" |
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os.makedirs(TMP_DIR, exist_ok=True) |
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def preprocess_image(image: Image.Image) -> Tuple[str, Image.Image]: |
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""" |
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Preprocess the input image. |
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Args: |
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image (Image.Image): The input image. |
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Returns: |
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str: uuid of the trial. |
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Image.Image: The preprocessed image. |
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""" |
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trial_id = str(uuid.uuid4()) |
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processed_image = pipeline.preprocess_image(image) |
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processed_image.save(f"{TMP_DIR}/{trial_id}.png") |
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return trial_id, processed_image |
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def pack_state(gs: Gaussian, mesh: MeshExtractResult, trial_id: str) -> dict: |
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return { |
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'gaussian': { |
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**gs.init_params, |
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'_xyz': gs._xyz.cpu().numpy(), |
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'_features_dc': gs._features_dc.cpu().numpy(), |
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'_scaling': gs._scaling.cpu().numpy(), |
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'_rotation': gs._rotation.cpu().numpy(), |
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'_opacity': gs._opacity.cpu().numpy(), |
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}, |
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'mesh': { |
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'vertices': mesh.vertices.cpu().numpy(), |
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'faces': mesh.faces.cpu().numpy(), |
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}, |
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'trial_id': trial_id, |
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} |
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def unpack_state(state: dict) -> Tuple[Gaussian, edict, str]: |
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gs = Gaussian( |
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aabb=state['gaussian']['aabb'], |
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sh_degree=state['gaussian']['sh_degree'], |
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mininum_kernel_size=state['gaussian']['mininum_kernel_size'], |
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scaling_bias=state['gaussian']['scaling_bias'], |
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opacity_bias=state['gaussian']['opacity_bias'], |
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scaling_activation=state['gaussian']['scaling_activation'], |
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) |
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gs._xyz = torch.tensor(state['gaussian']['_xyz'], device='cuda') |
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gs._features_dc = torch.tensor(state['gaussian']['_features_dc'], device='cuda') |
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gs._scaling = torch.tensor(state['gaussian']['_scaling'], device='cuda') |
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gs._rotation = torch.tensor(state['gaussian']['_rotation'], device='cuda') |
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gs._opacity = torch.tensor(state['gaussian']['_opacity'], device='cuda') |
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mesh = edict( |
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vertices=torch.tensor(state['mesh']['vertices'], device='cuda'), |
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faces=torch.tensor(state['mesh']['faces'], device='cuda'), |
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) |
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return gs, mesh, state['trial_id'] |
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@spaces.GPU |
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def image_to_3d(trial_id: str, seed: int, randomize_seed: bool, ss_guidance_strength: float, ss_sampling_steps: int, slat_guidance_strength: float, slat_sampling_steps: int) -> Tuple[dict, str]: |
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""" |
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Convert an image to a 3D model. |
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Args: |
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trial_id (str): The uuid of the trial. |
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seed (int): The random seed. |
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randomize_seed (bool): Whether to randomize the seed. |
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ss_guidance_strength (float): The guidance strength for sparse structure generation. |
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ss_sampling_steps (int): The number of sampling steps for sparse structure generation. |
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slat_guidance_strength (float): The guidance strength for structured latent generation. |
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slat_sampling_steps (int): The number of sampling steps for structured latent generation. |
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Returns: |
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dict: The information of the generated 3D model. |
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str: The path to the video of the 3D model. |
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""" |
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if randomize_seed: |
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seed = np.random.randint(0, MAX_SEED) |
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outputs = pipeline.run( |
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Image.open(f"{TMP_DIR}/{trial_id}.png"), |
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seed=seed, |
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formats=["gaussian", "mesh"], |
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preprocess_image=False, |
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sparse_structure_sampler_params={ |
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"steps": ss_sampling_steps, |
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"cfg_strength": ss_guidance_strength, |
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}, |
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slat_sampler_params={ |
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"steps": slat_sampling_steps, |
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"cfg_strength": slat_guidance_strength, |
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}, |
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) |
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video = render_utils.render_video(outputs['gaussian'][0], num_frames=120)['color'] |
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video_geo = render_utils.render_video(outputs['mesh'][0], num_frames=120)['normal'] |
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video = [np.concatenate([video[i], video_geo[i]], axis=1) for i in range(len(video))] |
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trial_id = uuid.uuid4() |
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video_path = f"{TMP_DIR}/{trial_id}.mp4" |
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os.makedirs(os.path.dirname(video_path), exist_ok=True) |
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imageio.mimsave(video_path, video, fps=15) |
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state = pack_state(outputs['gaussian'][0], outputs['mesh'][0], trial_id) |
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return state, video_path |
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@spaces.GPU |
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def extract_glb(state: dict, mesh_simplify: float, texture_size: int) -> Tuple[str, str]: |
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""" |
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Extract a GLB file from the 3D model. |
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Args: |
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state (dict): The state of the generated 3D model. |
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mesh_simplify (float): The mesh simplification factor. |
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texture_size (int): The texture resolution. |
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Returns: |
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str: The path to the extracted GLB file. |
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""" |
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gs, mesh, trial_id = unpack_state(state) |
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glb = postprocessing_utils.to_glb(gs, mesh, simplify=mesh_simplify, texture_size=texture_size, verbose=False) |
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glb_path = f"{TMP_DIR}/{trial_id}.glb" |
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glb.export(glb_path) |
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return glb_path, glb_path |
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def activate_button() -> gr.Button: |
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return gr.Button(interactive=True) |
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def deactivate_button() -> gr.Button: |
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return gr.Button(interactive=False) |
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with gr.Blocks() as demo: |
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gr.Markdown(""" |
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## Image to 3D Asset with [TRELLIS](https://trellis3d.github.io/) |
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* Upload an image and click "Generate" to create a 3D asset. If the image has alpha channel, it be used as the mask. Otherwise, we use `rembg` to remove the background. |
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* If you find the generated 3D asset satisfactory, click "Extract GLB" to extract the GLB file and download it. |
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""") |
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with gr.Row(): |
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with gr.Column(): |
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image_prompt = gr.Image(label="Image Prompt", image_mode="RGBA", type="pil", height=300) |
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with gr.Accordion(label="Generation Settings", open=False): |
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seed = gr.Slider(0, MAX_SEED, label="Seed", value=0, step=1) |
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randomize_seed = gr.Checkbox(label="Randomize Seed", value=True) |
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gr.Markdown("Stage 1: Sparse Structure Generation") |
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with gr.Row(): |
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ss_guidance_strength = gr.Slider(0.0, 10.0, label="Guidance Strength", value=7.5, step=0.1) |
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ss_sampling_steps = gr.Slider(1, 50, label="Sampling Steps", value=12, step=1) |
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gr.Markdown("Stage 2: Structured Latent Generation") |
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with gr.Row(): |
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slat_guidance_strength = gr.Slider(0.0, 10.0, label="Guidance Strength", value=3.0, step=0.1) |
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slat_sampling_steps = gr.Slider(1, 50, label="Sampling Steps", value=12, step=1) |
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generate_btn = gr.Button("Generate") |
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with gr.Accordion(label="GLB Extraction Settings", open=False): |
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mesh_simplify = gr.Slider(0.9, 0.98, label="Simplify", value=0.95, step=0.01) |
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texture_size = gr.Slider(512, 2048, label="Texture Size", value=1024, step=512) |
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extract_glb_btn = gr.Button("Extract GLB", interactive=False) |
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with gr.Column(): |
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video_output = gr.Video(label="Generated 3D Asset", autoplay=True, loop=True, height=300) |
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model_output = LitModel3D(label="Extracted GLB", exposure=20.0, height=300) |
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download_glb = gr.DownloadButton(label="Download GLB", interactive=False) |
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trial_id = gr.Textbox(visible=False) |
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output_buf = gr.State() |
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with gr.Row(): |
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examples = gr.Examples( |
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examples=[ |
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f'assets/example_image/{image}' |
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for image in os.listdir("assets/example_image") |
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], |
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inputs=[image_prompt], |
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fn=preprocess_image, |
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outputs=[trial_id, image_prompt], |
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run_on_click=True, |
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examples_per_page=64, |
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) |
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image_prompt.upload( |
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preprocess_image, |
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inputs=[image_prompt], |
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outputs=[trial_id, image_prompt], |
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) |
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image_prompt.clear( |
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lambda: '', |
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outputs=[trial_id], |
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) |
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generate_btn.click( |
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image_to_3d, |
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inputs=[trial_id, seed, randomize_seed, ss_guidance_strength, ss_sampling_steps, slat_guidance_strength, slat_sampling_steps], |
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outputs=[output_buf, video_output], |
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).then( |
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activate_button, |
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outputs=[extract_glb_btn], |
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) |
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video_output.clear( |
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deactivate_button, |
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outputs=[extract_glb_btn], |
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) |
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extract_glb_btn.click( |
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extract_glb, |
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inputs=[output_buf, mesh_simplify, texture_size], |
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outputs=[model_output, download_glb], |
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).then( |
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activate_button, |
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outputs=[download_glb], |
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) |
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model_output.clear( |
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deactivate_button, |
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outputs=[download_glb], |
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) |
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if __name__ == "__main__": |
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pipeline = TrellisImageTo3DPipeline.from_pretrained("JeffreyXiang/TRELLIS-image-large") |
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pipeline.cuda() |
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try: |
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pipeline.preprocess_image(Image.fromarray(np.zeros((512, 512, 3), dtype=np.uint8))) |
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except: |
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pass |
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demo.launch() |
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