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HDM-interaction-recon / app.py

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add hdm demo v1

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	"""
	Demo built with gradio
	"""
	import pickle as pkl
	import sys, os
	import os.path as osp
	from typing import Iterable, Optional
	from functools import partial

	import trimesh
	from torch.utils.data import DataLoader
	import cv2
	from accelerate import Accelerator
	from tqdm import tqdm
	from glob import glob

	sys.path.append(os.getcwd())
	import hydra
	import torch
	import numpy as np
	import imageio
	import gradio as gr
	import plotly.graph_objs as go
	import training_utils

	from configs.structured import ProjectConfig
	from demo import DemoRunner
	from dataset.demo_dataset import DemoDataset


	md_description="""
	# HDM Interaction Reconstruction Demo
	### Official Implementation of the paper \"Template Free Reconstruction of Human Object Interaction\", CVPR'24.
	[Project Page](https://virtualhumans.mpi-inf.mpg.de/procigen-hdm/)\|[Code](https://github.com/xiexh20/HDM)\|[Dataset](https://edmond.mpg.de/dataset.xhtml?persistentId=doi:10.17617/3.2VUEUS )\|[Paper](https://virtualhumans.mpi-inf.mpg.de/procigen-hdm/paper-lowreso.pdf)


	Upload your own human object interaction image and get full 3D reconstruction!

	## Citation
	```
	@inproceedings{xie2023template_free,
	title = {Template Free Reconstruction of Human-object Interaction with Procedural Interaction Generation},
	author = {Xie, Xianghui and Bhatnagar, Bharat Lal and Lenssen, Jan Eric and Pons-Moll, Gerard},
	booktitle = {IEEE Conference on Computer Vision and Pattern Recognition (CVPR)},
	month = {June},
	year = {2024},
	}
	```
	"""

	def plot_points(colors, coords):
	"""
	use plotly to visualize 3D point with colors
	"""
	trace = go.Scatter3d(x=coords[:, 0], y=coords[:, 1], z=coords[:, 2], mode='markers',
	marker=dict(
	size=2,
	color=colors
	))
	layout = go.Layout(
	scene=dict(
	xaxis=dict(
	title="",
	showgrid=False,
	zeroline=False,
	showline=False,
	ticks='',
	showticklabels=False
	),
	yaxis=dict(
	title="",
	showgrid=False,
	zeroline=False,
	showline=False,
	ticks='',
	showticklabels=False
	),
	zaxis=dict(
	title="",
	showgrid=False,
	zeroline=False,
	showline=False,
	ticks='',
	showticklabels=False
	),
	),
	margin=dict(l=0, r=0, b=0, t=0),
	showlegend=False
	)
	fig = go.Figure(data=[trace], layout=layout)
	return fig


	def inference(runner: DemoRunner, cfg: ProjectConfig, rgb, mask_hum, mask_obj, std_coverage, input_seed):
	"""
	given user input, run inference
	:param runner:
	:param cfg:
	:param rgb: (h, w, 3), np array
	:param mask_hum: (h, w, 3), np array
	:param mask_obj: (h, w, 3), np array
	:param std_coverage: float value, used to estimate camera translation
	:param input_seed: random seed
	:return: path to the 3D reconstruction, and an interactive 3D figure for visualizing the point cloud
	"""
	# Set random seed
	training_utils.set_seed(int(input_seed))

	data = DemoDataset([], (cfg.dataset.image_size, cfg.dataset.image_size),
	std_coverage)
	batch = data.image2batch(rgb, mask_hum, mask_obj)

	out_stage1, out_stage2 = runner.forward_batch(batch, cfg)
	points = out_stage2.points_packed().cpu().numpy()
	colors = out_stage2.features_packed().cpu().numpy()
	fig = plot_points(colors, points)
	# save tmp point cloud
	outdir = './results'
	os.makedirs(outdir, exist_ok=True)
	trimesh.PointCloud(points, colors).export(outdir + f"/pred_std{std_coverage}_seed{input_seed}_stage2.ply")
	trimesh.PointCloud(out_stage1.points_packed().cpu().numpy(),
	out_stage1.features_packed().cpu().numpy()).export(outdir + f"/pred_std{std_coverage}_seed{input_seed}_stage1.ply")
	return fig, outdir + f"/pred_std{std_coverage}_seed{input_seed}_stage2.ply"


	@hydra.main(config_path='configs', config_name='configs', version_base='1.1')
	def main(cfg: ProjectConfig):
	# Setup model
	runner = DemoRunner(cfg)

	# Setup interface
	demo = gr.Blocks(title="HDM Interaction Reconstruction Demo")
	with demo:
	gr.Markdown(md_description)
	gr.HTML("""<h1 style="text-align:center; color:#10768c">HDM Demo</h1>""")
	gr.HTML("""<h3 style="text-align:center; color:#10768c">Instruction: Upload RGB, human, object masks and then click reconstruct.</h1>""")

	# Input data
	with gr.Row():
	input_rgb = gr.Image(label='Input RGB', type='numpy')
	input_mask_hum = gr.Image(label='Human mask', type='numpy')
	with gr.Row():
	input_mask_obj = gr.Image(label='Object mask', type='numpy')
	with gr.Column():
	# TODO: add hint for this value here
	input_std = gr.Number(label='Gaussian std coverage', value=3.5)
	input_seed = gr.Number(label='Random seed', value=42)
	# Output visualization
	with gr.Row():
	pc_plot = gr.Plot(label="Reconstructed point cloud")
	out_pc_download = gr.File(label="3D reconstruction for download") # this allows downloading

	gr.HTML("""<br/>""")
	# Control
	with gr.Row():
	button_recon = gr.Button("Start Reconstruction", interactive=True, variant='secondary')
	button_recon.click(fn=partial(inference, runner, cfg),
	inputs=[input_rgb, input_mask_hum, input_mask_obj, input_std, input_seed],
	outputs=[pc_plot, out_pc_download])
	gr.HTML("""<br/>""")
	# Example input
	example_dir = cfg.run.code_dir_abs+"/examples"
	rgb, ps, obj = 'k1.color.jpg', 'k1.person_mask.png', 'k1.obj_rend_mask.png'
	example_images = gr.Examples([
	[f"{example_dir}/017450/{rgb}", f"{example_dir}/017450/{ps}", f"{example_dir}/017450/{obj}", 3.0, 42],
	[f"{example_dir}/002446/{rgb}", f"{example_dir}/002446/{ps}", f"{example_dir}/002446/{obj}", 3.0, 42],
	[f"{example_dir}/053431/{rgb}", f"{example_dir}/053431/{ps}", f"{example_dir}/053431/{obj}", 3.8, 42],
	[f"{example_dir}/158107/{rgb}", f"{example_dir}/158107/{ps}", f"{example_dir}/158107/{obj}", 3.8, 42],

	], inputs=[input_rgb, input_mask_hum, input_mask_obj, input_std, input_seed],)

	# demo.launch(share=True)
	# Enabling queue for runtime>60s, see: https://github.com/tloen/alpaca-lora/issues/60#issuecomment-1510006062
	demo.queue(concurrency_count=3).launch(share=True)

	if __name__ == '__main__':
	main()