Spaces:

endlesstools
/

etTripoSg-api-gradio

Sleeping

etTripoSg-api-gradio / app_backlog.py

staswrs

clean scene 11

4763a4b 22 days ago

9.2 kB



	# import os
	# import subprocess

	# # Убираем pyenv, если вдруг остался .python-version
	# os.environ.pop("PYENV_VERSION", None)

	# # Установка зависимостей
	# subprocess.run(["pip", "install", "torch", "wheel"], check=True)
	# subprocess.run([
	# "pip", "install", "--no-build-isolation",
	# "diso@git+https://github.com/SarahWeiii/diso.git"
	# ], check=True)

	# # Импорты
	# import gradio as gr
	# import uuid
	# import torch
	# import zipfile
	# import requests
	# import traceback
	# import trimesh
	# from trimesh.exchange.gltf import export_glb

	# print("Trimesh version:", trimesh.__version__)


	# from inference_triposg import run_triposg
	# from triposg.pipelines.pipeline_triposg import TripoSGPipeline
	# from briarmbg import BriaRMBG

	# # Настройки устройства
	# device = "cuda" if torch.cuda.is_available() else "cpu"
	# dtype = torch.float16 if device == "cuda" else torch.float32

	# # Загрузка весов
	# weights_dir = "pretrained_weights"
	# triposg_path = os.path.join(weights_dir, "TripoSG")
	# rmbg_path = os.path.join(weights_dir, "RMBG-1.4")

	# if not (os.path.exists(triposg_path) and os.path.exists(rmbg_path)):
	# print("📦 Downloading pretrained weights...")
	# url = "https://huggingface.co/datasets/endlesstools/pretrained-assets/resolve/main/pretrained_models.zip"
	# zip_path = "pretrained_models.zip"

	# with requests.get(url, stream=True) as r:
	# r.raise_for_status()
	# with open(zip_path, "wb") as f:
	# for chunk in r.iter_content(chunk_size=8192):
	# f.write(chunk)

	# print("📦 Extracting weights...")
	# with zipfile.ZipFile(zip_path, "r") as zip_ref:
	# zip_ref.extractall(weights_dir)

	# os.remove(zip_path)
	# print("✅ Weights ready.")

	# # Загрузка моделей
	# pipe = TripoSGPipeline.from_pretrained(triposg_path).to(device, dtype)
	# rmbg_net = BriaRMBG.from_pretrained(rmbg_path).to(device)
	# rmbg_net.eval()

	# # Генерация .glb
	# # def generate(image_path):
	# def generate(image_path, face_number=50000, guidance_scale=5.0, num_steps=25):
	# print("[API CALL] image_path received:", image_path)
	# print("[API CALL] File exists:", os.path.exists(image_path))

	# temp_id = str(uuid.uuid4())
	# output_path = f"/tmp/{temp_id}.glb"

	# print("[DEBUG] Generating mesh from:", image_path)

	# try:
	# # mesh = run_triposg(
	# # pipe=pipe,
	# # image_input=image_path,
	# # rmbg_net=rmbg_net,
	# # seed=42,
	# # num_inference_steps=25,
	# # guidance_scale=5.0,
	# # faces=-1,
	# # )
	# mesh = run_triposg(
	# pipe=pipe,
	# image_input=image_path,
	# rmbg_net=rmbg_net,
	# seed=42,
	# num_inference_steps=int(num_steps),
	# guidance_scale=float(guidance_scale),
	# faces=int(face_number),
	# )

	# # if mesh is None:
	# # raise ValueError("Mesh generation failed")

	# # mesh.export(output_path)
	# # print(f"[DEBUG] Mesh saved to {output_path}")

	# # return output_path if os.path.exists(output_path) else "Error: output file not found"


	# # if mesh is None:
	# # raise ValueError("Mesh generation failed")

	# # # Убираем визуал, метаданные, обертки
	# # mesh.visual = None
	# # mesh.metadata.clear()
	# # mesh.name = "endless_tools"

	# # # Экспорт только геометрии
	# # glb_data = mesh.export(file_type="glb")
	# # with open(output_path, "wb") as f:
	# # f.write(glb_data)

	# # print(f"[DEBUG] Mesh saved to {output_path}")

	# # return output_path if os.path.exists(output_path) else "Error: output file not found"

	# if mesh is None:
	# raise ValueError("Mesh generation returned None")

	# # Очистка визуала, метаданных и имени
	# mesh.visual = None
	# mesh.metadata.clear()
	# mesh.name = "geometry_0"

	# # glb_data = mesh.export(file_type="glb")
	# glb_data = export_glb(mesh)
	# with open(output_path, "wb") as f:
	# f.write(glb_data)

	# # Экспорт .glb вручную (иначе Trimesh добавляет сцену)
	# # glb_data = mesh.export(file_type="glb")
	# # with open(output_path, "wb") as f:
	# # f.write(glb_data)


	# print(f"[DEBUG] Mesh saved to {output_path}")
	# return output_path if os.path.exists(output_path) else None
	# # except Exception as e:
	# # print("[ERROR]", e)
	# # return f"Error: {e}"
	# except Exception as e:
	# # import traceback
	# print("[ERROR]", e)
	# traceback.print_exc() # ← выведет полную трассировку в логи
	# return f"Error: {e}"

	# # Интерфейс Gradio
	# demo = gr.Interface(
	# fn=generate,
	# inputs=gr.Image(type="filepath", label="Upload image"),
	# outputs=gr.File(label="Download .glb"),
	# title="TripoSG Image to 3D",
	# description="Upload an image to generate a 3D model (.glb)",
	# )

	# # Запуск
	# demo.launch()













	import os
	import subprocess

	# Убираем pyenv
	os.environ.pop("PYENV_VERSION", None)

	# Установка зависимостей
	subprocess.run(["pip", "install", "torch", "wheel"], check=True)
	subprocess.run([
	"pip", "install", "--no-build-isolation",
	"diso@git+https://github.com/SarahWeiii/diso.git"
	], check=True)

	# Импорты (перенесены после установки зависимостей)
	import gradio as gr
	import uuid
	import torch
	import zipfile
	import requests
	import traceback
	import trimesh
	from trimesh.exchange.gltf import export_glb

	from inference_triposg import run_triposg
	from triposg.pipelines.pipeline_triposg import TripoSGPipeline
	from briarmbg import BriaRMBG


	print("Trimesh version:", trimesh.__version__)

	# Настройки устройства
	device = "cuda" if torch.cuda.is_available() else "cpu"
	dtype = torch.float16 if device == "cuda" else torch.float32

	# Загрузка весов
	weights_dir = "pretrained_weights"
	triposg_path = os.path.join(weights_dir, "TripoSG")
	rmbg_path = os.path.join(weights_dir, "RMBG-1.4")

	if not (os.path.exists(triposg_path) and os.path.exists(rmbg_path)):
	print("📦 Downloading pretrained weights...")
	url = "https://huggingface.co/datasets/endlesstools/pretrained-assets/resolve/main/pretrained_models.zip"
	zip_path = "pretrained_models.zip"

	with requests.get(url, stream=True) as r:
	r.raise_for_status()
	with open(zip_path, "wb") as f:
	for chunk in r.iter_content(chunk_size=8192):
	f.write(chunk)

	print("📦 Extracting weights...")
	with zipfile.ZipFile(zip_path, "r") as zip_ref:
	zip_ref.extractall(weights_dir)

	os.remove(zip_path)
	print("✅ Weights ready.")

	# Загрузка моделей
	pipe = TripoSGPipeline.from_pretrained(triposg_path).to(device, dtype)
	rmbg_net = BriaRMBG.from_pretrained(rmbg_path).to(device)
	rmbg_net.eval()

	# Генерация .glb
	def generate(image_path, face_number=50000, guidance_scale=5.0, num_steps=25):
	print("[API CALL] image_path received:", image_path)
	print("[API CALL] File exists:", os.path.exists(image_path))

	temp_id = str(uuid.uuid4())
	output_path = f"/tmp/{temp_id}.glb"
	print("[DEBUG] Generating mesh from:", image_path)

	try:
	mesh = run_triposg(
	pipe=pipe,
	image_input=image_path,
	rmbg_net=rmbg_net,
	seed=42,
	num_inference_steps=int(num_steps),
	guidance_scale=float(guidance_scale),
	faces=int(face_number),
	)

	if mesh is None or mesh.vertices.shape[0] == 0 or mesh.faces.shape[0] == 0:
	raise ValueError("Mesh generation returned an empty mesh")

	# Безопасная очистка визуала
	if hasattr(mesh, "visual") and mesh.visual is not None:
	try:
	mesh.visual = None
	except Exception:
	print("[WARN] Failed to clear visual, skipping")

	mesh.metadata.clear()
	mesh.name = "endless_tools_mesh"

	# Экспорт .glb
	# glb_data = export_glb(mesh)
	glb_data = mesh.export(file_type='glb')
	with open(output_path, "wb") as f:
	f.write(glb_data)

	print(f"[DEBUG] Mesh saved to {output_path}")
	return output_path if os.path.exists(output_path) else None

	except Exception as e:
	print("[ERROR]", e)
	traceback.print_exc()
	return f"Error: {e}"

	# Интерфейс Gradio
	demo = gr.Interface(
	fn=generate,
	inputs=gr.Image(type="filepath", label="Upload image"),
	outputs=gr.File(label="Download .glb"),
	title="TripoSG Image to 3D",
	description="Upload an image to generate a 3D model (.glb)",
	)

	# Запуск
	demo.launch()