Create app.py
Browse files
app.py
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import torch
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import gradio as gr
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import os
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import numpy as np
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import trimesh
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import mcubes
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from torchvision.utils import save_image
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from PIL import Image
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from transformers import AutoModel, AutoConfig
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from rembg import remove, new_session
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from functools import partial
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from kiui.op import recenter
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import kiui
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# we load the pre-trained model from HF
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class LRMGeneratorWrapper:
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def __init__(self):
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self.config = AutoConfig.from_pretrained("jadechoghari/custom-llrm", trust_remote_code=True)
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self.model = AutoModel.from_pretrained("jadechoghari/custom-llrm", trust_remote_code=True)
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self.device = torch.device('cuda' if torch.cuda.is_available() else 'cpu')
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self.model.to(self.device)
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self.model.eval()
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def forward(self, image, camera):
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return self.model(image, camera)
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model_wrapper = LRMGeneratorWrapper()
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def preprocess_image(image, source_size):
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session = new_session("isnet-general-use")
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rembg_remove = partial(remove, session=session)
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image = np.array(image)
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image = rembg_remove(image)
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mask = rembg_remove(image, only_mask=True)
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image = recenter(image, mask, border_ratio=0.20)
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image = torch.tensor(image).permute(2, 0, 1).unsqueeze(0) / 255.0
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if image.shape[1] == 4:
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image = image[:, :3, ...] * image[:, 3:, ...] + (1 - image[:, 3:, ...])
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image = torch.nn.functional.interpolate(image, size=(source_size, source_size), mode='bicubic', align_corners=True)
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image = torch.clamp(image, 0, 1)
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return image
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def get_normalized_camera_intrinsics(intrinsics: torch.Tensor):
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"""
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intrinsics: (N, 3, 2), [[fx, fy], [cx, cy], [width, height]]
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Return batched fx, fy, cx, cy
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"""
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fx, fy = intrinsics[:, 0, 0], intrinsics[:, 0, 1]
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cx, cy = intrinsics[:, 1, 0], intrinsics[:, 1, 1]
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width, height = intrinsics[:, 2, 0], intrinsics[:, 2, 1]
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fx, fy = fx / width, fy / height
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cx, cy = cx / width, cy / height
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return fx, fy, cx, cy
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def build_camera_principle(RT: torch.Tensor, intrinsics: torch.Tensor):
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"""
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RT: (N, 3, 4)
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intrinsics: (N, 3, 2), [[fx, fy], [cx, cy], [width, height]]
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"""
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fx, fy, cx, cy = get_normalized_camera_intrinsics(intrinsics)
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return torch.cat([
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RT.reshape(-1, 12),
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fx.unsqueeze(-1), fy.unsqueeze(-1), cx.unsqueeze(-1), cy.unsqueeze(-1),
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], dim=-1)
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def _default_intrinsics():
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fx = fy = 384
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cx = cy = 256
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w = h = 512
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intrinsics = torch.tensor([
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[fx, fy],
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[cx, cy],
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[w, h],
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], dtype=torch.float32)
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return intrinsics
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def _default_source_camera(batch_size: int = 1):
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dist_to_center = 1.5
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canonical_camera_extrinsics = torch.tensor([[
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[0, 0, 1, 1],
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[1, 0, 0, 0],
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[0, 1, 0, 0],
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]], dtype=torch.float32)
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canonical_camera_intrinsics = _default_intrinsics().unsqueeze(0)
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source_camera = build_camera_principle(canonical_camera_extrinsics, canonical_camera_intrinsics)
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return source_camera.repeat(batch_size, 1)
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#Ref: https://github.com/jadechoghari/vfusion3d/blob/main/lrm/inferrer.py
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def generate_mesh(image, source_size=512, render_size=384, mesh_size=512, export_mesh=True):
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image = preprocess_image(image, source_size).to(model_wrapper.device)
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source_camera = _default_source_camera(batch_size=1).to(model_wrapper.device)
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# TODO: export video we need render_camera
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# render_camera = _default_render_cameras(batch_size=1).to(model_wrapper.device)
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with torch.no_grad():
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planes = model_wrapper.forward(image, source_camera)
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if export_mesh:
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grid_out = model_wrapper.model.synthesizer.forward_grid(planes=planes, grid_size=mesh_size)
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vtx, faces = mcubes.marching_cubes(grid_out['sigma'].float().squeeze(0).squeeze(-1).cpu().numpy(), 1.0)
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vtx = vtx / (mesh_size - 1) * 2 - 1
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vtx_tensor = torch.tensor(vtx, dtype=torch.float32, device=model_wrapper.device).unsqueeze(0)
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vtx_colors = model_wrapper.model.synthesizer.forward_points(planes, vtx_tensor)['rgb'].float().squeeze(0).cpu().numpy()
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vtx_colors = (vtx_colors * 255).astype(np.uint8)
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mesh = trimesh.Trimesh(vertices=vtx, faces=faces, vertex_colors=vtx_colors)
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mesh_path = "awesome_mesh.obj"
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mesh.export(mesh_path, 'obj')
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return mesh_path
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# we will convert image to mesh
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def step_1_generate_obj(image):
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mesh_path = generate_mesh(image)
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return mesh_path
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# we will convert mesh to 3d-image
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def step_2_display_3d_model(mesh_file):
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return mesh_file
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with gr.Blocks() as demo:
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with gr.Row():
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with gr.Column():
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img_input = gr.Image(type="pil", label="Input Image")
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generate_button = gr.Button("Generate and Visualize 3D Model")
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obj_file_output = gr.File(label="Download .obj File")
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with gr.Column():
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model_output = gr.Model3D(clear_color=[0.0, 0.0, 0.0, 0.0], label="3D Model Visualization")
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def generate_and_visualize(image):
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mesh_path = step_1_generate_obj(image)
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return mesh_path, mesh_path
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generate_button.click(generate_and_visualize, inputs=img_input, outputs=[obj_file_output, model_output])
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demo.launch()
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