#!/usr/bin/env python3 # The MASt3R Gradio demo, modified for predicting 3D Gaussian Splats # --- Original License --- # Copyright (C) 2024-present Naver Corporation. All rights reserved. # Licensed under CC BY-NC-SA 4.0 (non-commercial use only). import functools import os import sys import tempfile import gradio import torch from huggingface_hub import hf_hub_download sys.path.append('src/mast3r_src') sys.path.append('src/mast3r_src/dust3r') sys.path.append('src/pixelsplat_src') from dust3r.utils.image import load_images from mast3r.utils.misc import hash_md5 import main import utils.export as export def get_reconstructed_scene(outdir, model, device, silent, image_size, ios_mode, filelist): if ios_mode: filelist = [f[0] for f in filelist] if len(filelist) == 1: filelist = [filelist[0], filelist[0]] assert len(filelist) == 2, "Please provide two images" imgs = load_images(filelist, size=image_size, verbose=not silent) for img in imgs: img['img'] = img['img'].to(device) img['original_img'] = img['original_img'].to(device) img['true_shape'] = torch.from_numpy(img['true_shape']) output = model(imgs[0], imgs[1]) pred1, pred2 = output plyfile = os.path.join(outdir, 'gaussians.ply') export.save_as_ply(pred1, pred2, plyfile) return plyfile if __name__ == '__main__': image_size = 512 silent = False ios_mode = True device = torch.device('cuda' if torch.cuda.is_available() else 'cpu') model_name = "brandonsmart/splatt3r_v1.0" filename = "epoch=19-step=1200.ckpt" weights_path = hf_hub_download(repo_id=model_name, filename=filename) model = main.MAST3RGaussians.load_from_checkpoint(weights_path, device) chkpt_tag = hash_md5(weights_path) # Define example inputs and their corresponding precalculated outputs examples = [ ["assets/demo_examples/scannet++_1_img_1.jpg", "assets/demo_examples/scannet++_1_img_2.jpg", "assets/demo_examples/scannet++_1.ply"], ["assets/demo_examples/scannet++_2_img_1.jpg", "assets/demo_examples/scannet++_2_img_2.jpg", "assets/demo_examples/scannet++_2.ply"], ["assets/demo_examples/scannet++_3_img_1.jpg", "assets/demo_examples/scannet++_3_img_2.jpg", "assets/demo_examples/scannet++_3.ply"], ["assets/demo_examples/scannet++_4_img_1.jpg", "assets/demo_examples/scannet++_4_img_2.jpg", "assets/demo_examples/scannet++_4.ply"], ["assets/demo_examples/scannet++_5_img_1.jpg", "assets/demo_examples/scannet++_5_img_2.jpg", "assets/demo_examples/scannet++_5.ply"], ["assets/demo_examples/scannet++_6_img_1.jpg", "assets/demo_examples/scannet++_6_img_2.jpg", "assets/demo_examples/scannet++_6.ply"], ["assets/demo_examples/scannet++_7_img_1.jpg", "assets/demo_examples/scannet++_7_img_2.jpg", "assets/demo_examples/scannet++_7.ply"], ["assets/demo_examples/scannet++_8_img_1.jpg", "assets/demo_examples/scannet++_8_img_2.jpg", "assets/demo_examples/scannet++_8.ply"], ["assets/demo_examples/in_the_wild_1_img_1.jpg", "assets/demo_examples/in_the_wild_1_img_2.jpg", "assets/demo_examples/in_the_wild_1.ply"], ["assets/demo_examples/in_the_wild_2_img_1.jpg", "assets/demo_examples/in_the_wild_2_img_2.jpg", "assets/demo_examples/in_the_wild_2.ply"], ["assets/demo_examples/in_the_wild_3_img_1.jpg", "assets/demo_examples/in_the_wild_3_img_2.jpg", "assets/demo_examples/in_the_wild_3.ply"], ["assets/demo_examples/in_the_wild_4_img_1.jpg", "assets/demo_examples/in_the_wild_4_img_2.jpg", "assets/demo_examples/in_the_wild_4.ply"], ["assets/demo_examples/in_the_wild_5_img_1.jpg", "assets/demo_examples/in_the_wild_5_img_2.jpg", "assets/demo_examples/in_the_wild_5.ply"], ["assets/demo_examples/in_the_wild_6_img_1.jpg", "assets/demo_examples/in_the_wild_6_img_2.jpg", "assets/demo_examples/in_the_wild_6.ply"], ["assets/demo_examples/in_the_wild_7_img_1.jpg", "assets/demo_examples/in_the_wild_7_img_2.jpg", "assets/demo_examples/in_the_wild_7.ply"], ["assets/demo_examples/in_the_wild_8_img_1.jpg", "assets/demo_examples/in_the_wild_8_img_2.jpg", "assets/demo_examples/in_the_wild_8.ply"], ] with tempfile.TemporaryDirectory(suffix='_mast3r_gradio_demo') as tmpdirname: cache_path = os.path.join(tmpdirname, chkpt_tag) os.makedirs(cache_path, exist_ok=True) recon_fun = functools.partial(get_reconstructed_scene, tmpdirname, model, device, silent, image_size, ios_mode) if not ios_mode: for i in range(len(examples)): examples[i].insert(2, (examples[i][0], examples[i][1])) css = """.gradio-container {margin: 0 !important; min-width: 100%};""" with gradio.Blocks(css=css, title="Splatt3R Demo") as demo: gradio.HTML('

Splatt3R Demo

') with gradio.Column(): gradio.Markdown(''' Please upload exactly one or two images below to be used for reconstruction. If non-square images are uploaded, they will be cropped to squares for reconstruction. ''') if ios_mode: inputfiles = gradio.Gallery(type="filepath") else: inputfiles = gradio.File(file_count="multiple") run_btn = gradio.Button("Run") gradio.Markdown(''' ## Output Below we show the generated 3D Gaussian Splat. There may be a short delay as the reconstruction needs to be downloaded before rendering. The arrow in the top right of the window below can be used to download the .ply for rendering with other viewers, such as [here](https://projects.markkellogg.org/threejs/demo_gaussian_splats_3d.php?art=1&cu=0,-1,0&cp=0,1,0&cla=1,0,0&aa=false&2d=false&sh=0) or [here](https://playcanvas.com/supersplat/editor) ''') outmodel = gradio.Model3D( clear_color=[1.0, 1.0, 1.0, 0.0], ) run_btn.click(fn=recon_fun, inputs=[inputfiles], outputs=[outmodel]) gradio.Markdown(''' ## Examples A gallery of examples generated from ScanNet++ and from 'in the wild' images taken with a mobile phone. ''') snapshot_1 = gradio.Image(None, visible=False) snapshot_2 = gradio.Image(None, visible=False) if ios_mode: gradio.Examples( examples=examples, inputs=[snapshot_1, snapshot_2, outmodel], examples_per_page=5 ) else: gradio.Examples( examples=examples, inputs=[snapshot_1, snapshot_2, inputfiles, outmodel], examples_per_page=5 ) demo.launch()