Spaces:
Running
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Running
on
Zero
File size: 8,654 Bytes
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import gradio as gr
import spaces
import os
import shutil
os.environ['TOKENIZERS_PARALLELISM'] = 'true'
os.environ['SPCONV_ALGO'] = 'native'
from typing import *
import torch
import numpy as np
import imageio
from easydict import EasyDict as edict
from trellis.pipelines import TrellisTextTo3DPipeline
from trellis.representations import Gaussian, MeshExtractResult
from trellis.utils import render_utils, postprocessing_utils
import traceback
import sys
MAX_SEED = np.iinfo(np.int32).max
TMP_DIR = os.path.join(os.path.dirname(os.path.abspath(__file__)), 'tmp')
os.makedirs(TMP_DIR, exist_ok=True)
def start_session(req: gr.Request):
user_dir = os.path.join(TMP_DIR, str(req.session_hash))
os.makedirs(user_dir, exist_ok=True)
def end_session(req: gr.Request):
user_dir = os.path.join(TMP_DIR, str(req.session_hash))
shutil.rmtree(user_dir)
def pack_state(gs: Gaussian, mesh: MeshExtractResult) -> dict:
return {
'gaussian': {
**gs.init_params,
'_xyz': gs._xyz.cpu().numpy(),
'_features_dc': gs._features_dc.cpu().numpy(),
'_scaling': gs._scaling.cpu().numpy(),
'_rotation': gs._rotation.cpu().numpy(),
'_opacity': gs._opacity.cpu().numpy(),
},
'mesh': {
'vertices': mesh.vertices.cpu().numpy(),
'faces': mesh.faces.cpu().numpy(),
},
}
def unpack_state(state: dict) -> Tuple[Gaussian, edict, str]:
gs = Gaussian(
aabb=state['gaussian']['aabb'],
sh_degree=state['gaussian']['sh_degree'],
mininum_kernel_size=state['gaussian']['mininum_kernel_size'],
scaling_bias=state['gaussian']['scaling_bias'],
opacity_bias=state['gaussian']['opacity_bias'],
scaling_activation=state['gaussian']['scaling_activation'],
)
gs._xyz = torch.tensor(state['gaussian']['_xyz'], device='cuda')
gs._features_dc = torch.tensor(state['gaussian']['_features_dc'], device='cuda')
gs._scaling = torch.tensor(state['gaussian']['_scaling'], device='cuda')
gs._rotation = torch.tensor(state['gaussian']['_rotation'], device='cuda')
gs._opacity = torch.tensor(state['gaussian']['_opacity'], device='cuda')
mesh = edict(
vertices=torch.tensor(state['mesh']['vertices'], device='cuda'),
faces=torch.tensor(state['mesh']['faces'], device='cuda'),
)
return gs, mesh
def get_seed(randomize_seed: bool, seed: int) -> int:
return np.random.randint(0, MAX_SEED) if randomize_seed else seed
@spaces.GPU
def text_to_3d(
prompt: str,
seed: int,
ss_guidance_strength: float,
ss_sampling_steps: int,
slat_guidance_strength: float,
slat_sampling_steps: int,
req: gr.Request,
) -> Tuple[dict, str]:
user_dir = os.path.join(TMP_DIR, str(req.session_hash))
outputs = pipeline.run(
prompt,
seed=seed,
formats=["gaussian", "mesh"],
sparse_structure_sampler_params={
"steps": ss_sampling_steps,
"cfg_strength": ss_guidance_strength,
},
slat_sampler_params={
"steps": slat_sampling_steps,
"cfg_strength": slat_guidance_strength,
},
)
video = render_utils.render_video(outputs['gaussian'][0], num_frames=120)['color']
video_geo = render_utils.render_video(outputs['mesh'][0], num_frames=120)['normal']
video = [np.concatenate([video[i], video_geo[i]], axis=1) for i in range(len(video))]
video_path = os.path.join(user_dir, 'sample.mp4')
imageio.mimsave(video_path, video, fps=15)
state = pack_state(outputs['gaussian'][0], outputs['mesh'][0])
torch.cuda.empty_cache()
return state, video_path
@spaces.GPU(duration=90)
def extract_glb(
state: dict,
mesh_simplify: float,
texture_size: int,
req: gr.Request,
) -> Tuple[str, str]:
user_dir = os.path.join(TMP_DIR, str(req.session_hash))
gs, mesh = unpack_state(state)
glb = postprocessing_utils.to_glb(gs, mesh, simplify=mesh_simplify, texture_size=texture_size, verbose=False)
glb_path = os.path.join(user_dir, 'sample.glb')
glb.export(glb_path)
torch.cuda.empty_cache()
return glb_path, glb_path
@spaces.GPU
def extract_gaussian(state: dict, req: gr.Request) -> Tuple[str, str]:
user_dir = os.path.join(TMP_DIR, str(req.session_hash))
gs, _ = unpack_state(state)
gaussian_path = os.path.join(user_dir, 'sample.ply')
gs.save_ply(gaussian_path)
torch.cuda.empty_cache()
return gaussian_path, gaussian_path
with gr.Blocks(delete_cache=(600, 600)) as demo:
gr.Markdown("""
# UTPL - Conversi贸n de Texto a objetos 3D usando IA
### Tesis: *"Objetos tridimensionales creados por IA: Innovaci贸n en entornos virtuales"*
**Autor:** Carlos Vargas
**Base t茅cnica:** Adaptaci贸n de [TRELLIS](https://trellis3d.github.io/) (herramienta de c贸digo abierto para generaci贸n 3D)
**Prop贸sito educativo:** Demostraciones acad茅micas e Investigaci贸n en modelado 3D autom谩tico
""")
with gr.Row():
with gr.Column():
text_prompt = gr.Textbox(label="Text Prompt", lines=5)
with gr.Accordion(label="Generation Settings", open=False):
seed = gr.Slider(0, MAX_SEED, label="Seed", value=0, step=1)
randomize_seed = gr.Checkbox(label="Randomize Seed", value=True)
gr.Markdown("Stage 1: Sparse Structure Generation")
with gr.Row():
ss_guidance_strength = gr.Slider(0.0, 10.0, label="Guidance Strength", value=7.5, step=0.1)
ss_sampling_steps = gr.Slider(1, 50, label="Sampling Steps", value=25, step=1)
gr.Markdown("Stage 2: Structured Latent Generation")
with gr.Row():
slat_guidance_strength = gr.Slider(0.0, 10.0, label="Guidance Strength", value=7.5, step=0.1)
slat_sampling_steps = gr.Slider(1, 50, label="Sampling Steps", value=25, step=1)
generate_btn = gr.Button("Generate")
with gr.Accordion(label="GLB Extraction Settings", open=False):
mesh_simplify = gr.Slider(0.9, 0.98, label="Simplify", value=0.95, step=0.01)
texture_size = gr.Slider(512, 2048, label="Texture Size", value=1024, step=512)
with gr.Row():
extract_glb_btn = gr.Button("Extract GLB", interactive=False)
extract_gs_btn = gr.Button("Extract Gaussian", interactive=False)
gr.Markdown("""
*NOTE: Gaussian file can be very large (~50MB), it will take a while to display and download.*
""")
with gr.Column():
video_output = gr.Video(label="Generated 3D Asset", autoplay=True, loop=True, height=300)
model_output = gr.Model3D(label="Extracted GLB/Gaussian", height=300)
with gr.Row():
download_glb = gr.DownloadButton(label="Download GLB", interactive=False)
download_gs = gr.DownloadButton(label="Download Gaussian", interactive=False)
output_buf = gr.State()
# Handlers
demo.load(start_session)
demo.unload(end_session)
generate_btn.click(
get_seed,
inputs=[randomize_seed, seed],
outputs=[seed],
).then(
text_to_3d,
inputs=[text_prompt, seed, ss_guidance_strength, ss_sampling_steps, slat_guidance_strength, slat_sampling_steps],
outputs=[output_buf, video_output],
).then(
lambda: tuple([gr.Button(interactive=True), gr.Button(interactive=True)]),
outputs=[extract_glb_btn, extract_gs_btn],
)
video_output.clear(
lambda: tuple([gr.Button(interactive=False), gr.Button(interactive=False)]),
outputs=[extract_glb_btn, extract_gs_btn],
)
extract_glb_btn.click(
extract_glb,
inputs=[output_buf, mesh_simplify, texture_size],
outputs=[model_output, download_glb],
).then(
lambda: gr.Button(interactive=True),
outputs=[download_glb],
)
extract_gs_btn.click(
extract_gaussian,
inputs=[output_buf],
outputs=[model_output, download_gs],
).then(
lambda: gr.Button(interactive=True),
outputs=[download_gs],
)
model_output.clear(
lambda: gr.Button(interactive=False),
outputs=[download_glb],
)
# Launch the Gradio app
if __name__ == "__main__":
pipeline = TrellisTextTo3DPipeline.from_pretrained("cavargas10/TRELLIS-text-xlarge")
pipeline.cuda()
demo.launch() |