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	import functools
	import os
	import shutil
	import sys

	import git
	import gradio as gr
	import numpy as np
	import torch as torch
	from PIL import Image

	from gradio_imageslider import ImageSlider

	from extrude import extrude_depth_3d


	def process(
	pipe,
	path_input,
	ensemble_size,
	denoise_steps,
	processing_res,
	path_out_16bit=None,
	path_out_fp32=None,
	path_out_vis=None,
	_input_3d_plane_near=None,
	_input_3d_plane_far=None,
	_input_3d_embossing=None,
	_input_3d_filter_size=None,
	_input_3d_frame_near=None,
	):
	if path_out_vis is not None:
	return (
	[path_out_16bit, path_out_vis],
	[path_out_16bit, path_out_fp32, path_out_vis],
	)

	input_image = Image.open(path_input)

	pipe_out = pipe(
	input_image,
	ensemble_size=ensemble_size,
	denoising_steps=denoise_steps,
	processing_res=processing_res,
	batch_size=1 if processing_res == 0 else 0,
	show_progress_bar=True,
	)

	depth_pred = pipe_out.depth_np
	depth_colored = pipe_out.depth_colored
	depth_16bit = (depth_pred * 65535.0).astype(np.uint16)

	path_output_dir = os.path.splitext(path_input)[0] + "_output"
	os.makedirs(path_output_dir, exist_ok=True)

	name_base = os.path.splitext(os.path.basename(path_input))[0]
	path_out_fp32 = os.path.join(path_output_dir, f"{name_base}_depth_fp32.npy")
	path_out_16bit = os.path.join(path_output_dir, f"{name_base}_depth_16bit.png")
	path_out_vis = os.path.join(path_output_dir, f"{name_base}_depth_colored.png")

	np.save(path_out_fp32, depth_pred)
	Image.fromarray(depth_16bit).save(path_out_16bit, mode="I;16")
	depth_colored.save(path_out_vis)

	return (
	[path_out_16bit, path_out_vis],
	[path_out_16bit, path_out_fp32, path_out_vis],
	)


	def process_3d(
	input_image,
	files,
	size_longest_px,
	size_longest_cm,
	filter_size,
	plane_near,
	plane_far,
	embossing,
	frame_thickness,
	frame_near,
	frame_far,
	):
	if input_image is None or len(files) < 1:
	raise gr.Error("Please upload an image (or use examples) and compute depth first")

	if plane_near >= plane_far:
	raise gr.Error("NEAR plane must have a value smaller than the FAR plane")

	def _process_3d(size_longest_px, filter_size, vertex_colors, scene_lights, output_model_scale=None):
	image_rgb = input_image
	image_depth = files[0]

	image_rgb_basename, image_rgb_ext = os.path.splitext(image_rgb)
	image_depth_basename, image_depth_ext = os.path.splitext(image_depth)

	image_rgb_content = Image.open(image_rgb)
	image_rgb_w, image_rgb_h = image_rgb_content.width, image_rgb_content.height
	image_rgb_d = max(image_rgb_w, image_rgb_h)
	image_new_w = size_longest_px * image_rgb_w // image_rgb_d
	image_new_h = size_longest_px * image_rgb_h // image_rgb_d

	image_rgb_new = image_rgb_basename + f"_{size_longest_px}" + image_rgb_ext
	image_depth_new = image_depth_basename + f"_{size_longest_px}" + image_depth_ext
	image_rgb_content.resize((image_new_w, image_new_h), Image.LANCZOS).save(
	image_rgb_new
	)
	Image.open(image_depth).resize((image_new_w, image_new_h), Image.LANCZOS).save(
	image_depth_new
	)

	path_glb, path_stl = extrude_depth_3d(
	image_rgb_new,
	image_depth_new,
	output_model_scale=size_longest_cm * 10 if output_model_scale is None else output_model_scale,
	filter_size=filter_size,
	coef_near=plane_near,
	coef_far=plane_far,
	emboss=embossing / 100,
	f_thic=frame_thickness / 100,
	f_near=frame_near / 100,
	f_back=frame_far / 100,
	vertex_colors=vertex_colors,
	scene_lights=scene_lights,
	)

	return path_glb, path_stl

	path_viewer_glb, _ = _process_3d(256, filter_size, vertex_colors=False, scene_lights=True, output_model_scale=1)
	path_files_glb, path_files_stl = _process_3d(size_longest_px, filter_size, vertex_colors=True, scene_lights=False)

	# sanitize 3d viewer glb path to keep babylon.js happy
	path_viewer_glb_sanitized = os.path.join(os.path.dirname(path_viewer_glb), "preview.glb")
	if path_viewer_glb_sanitized != path_viewer_glb:
	os.rename(path_viewer_glb, path_viewer_glb_sanitized)
	path_viewer_glb = path_viewer_glb_sanitized

	return path_viewer_glb, [path_files_glb, path_files_stl]


	def run_demo_server(pipe):
	process_pipe = functools.partial(process, pipe)
	os.environ["GRADIO_ALLOW_FLAGGING"] = "never"

	with gr.Blocks(
	analytics_enabled=False,
	title="Marigold Depth Estimation",
	css="""
	#download {
	height: 118px;
	}
	.slider .inner {
	width: 5px;
	background: #FFF;
	}
	.viewport {
	aspect-ratio: 4/3;
	}
	""",
	) as demo:
	gr.Markdown(
	"""
	<h1 align="center">Marigold Depth Estimation</h1>
	<p align="center">
	<a title="Website" href="https://marigoldmonodepth.github.io/" target="_blank" rel="noopener noreferrer" style="display: inline-block;">
	<img src="https://www.obukhov.ai/img/badges/badge-website.svg">
	</a>
	<a title="arXiv" href="https://arxiv.org/abs/2312.02145" target="_blank" rel="noopener noreferrer" style="display: inline-block;">
	<img src="https://www.obukhov.ai/img/badges/badge-pdf.svg">
	</a>
	<a title="Github" href="https://github.com/prs-eth/marigold" target="_blank" rel="noopener noreferrer" style="display: inline-block;">
	<img src="https://img.shields.io/github/stars/prs-eth/marigold?label=GitHub%20%E2%98%85&logo=github&color=C8C" alt="badge-github-stars">
	</a>
	<a title="Social" href="https://twitter.com/antonobukhov1" target="_blank" rel="noopener noreferrer" style="display: inline-block;">
	<img src="https://www.obukhov.ai/img/badges/badge-social.svg" alt="social">
	</a>
	</p>
	<p align="justify">
	Marigold is the new state-of-the-art depth estimator for images in the wild.
	Upload your image into the <b>left</b> side, or click any of the <b>examples</b> below.
	The result will be computed and appear on the <b>right</b> in the output comparison window.
	<b style="color: red;">NEW</b>: Scroll down to the new 3D printing part of the demo!
	</p>
	"""
	)

	with gr.Row():
	with gr.Column():
	input_image = gr.Image(
	label="Input Image",
	type="filepath",
	)
	with gr.Accordion("Advanced options", open=False):
	ensemble_size = gr.Slider(
	label="Ensemble size",
	minimum=1,
	maximum=20,
	step=1,
	value=10,
	)
	denoise_steps = gr.Slider(
	label="Number of denoising steps",
	minimum=1,
	maximum=20,
	step=1,
	value=10,
	)
	processing_res = gr.Radio(
	[
	("Native", 0),
	("Recommended", 768),
	],
	label="Processing resolution",
	value=768,
	)
	input_output_16bit = gr.File(
	label="Predicted depth (16-bit)",
	visible=False,
	)
	input_output_fp32 = gr.File(
	label="Predicted depth (32-bit)",
	visible=False,
	)
	input_output_vis = gr.File(
	label="Predicted depth (red-near, blue-far)",
	visible=False,
	)
	with gr.Row():
	submit_btn = gr.Button(value="Compute Depth", variant="primary")
	clear_btn = gr.Button(value="Clear")
	with gr.Column():
	output_slider = ImageSlider(
	label="Predicted depth (red-near, blue-far)",
	type="filepath",
	show_download_button=True,
	show_share_button=True,
	interactive=False,
	elem_classes="slider",
	position=0.25,
	)
	files = gr.Files(
	label="Depth outputs",
	elem_id="download",
	interactive=False,
	)

	demo_3d_header = gr.Markdown(
	"""
	<h3 align="center">3D Printing Depth Maps</h3>
	<p align="justify">
	This part of the demo uses Marigold depth maps estimated in the previous step to create a
	3D-printable model. The models are watertight, with correct normals, and exported in the STL format.
	We recommended creating the first model with the default parameters and iterating on it until the best
	result (see Pro Tips below).
	</p>
	""",
	render=False,
	)

	demo_3d = gr.Row(render=False)
	with demo_3d:
	with gr.Column():
	with gr.Accordion("3D printing demo: Main options", open=True):
	plane_near = gr.Slider(
	label="Relative position of the near plane (between 0 and 1)",
	minimum=0.0,
	maximum=1.0,
	step=0.001,
	value=0.0,
	)
	plane_far = gr.Slider(
	label="Relative position of the far plane (between near and 1)",
	minimum=0.0,
	maximum=1.0,
	step=0.001,
	value=1.0,
	)
	embossing = gr.Slider(
	label="Embossing level",
	minimum=0,
	maximum=100,
	step=1,
	value=20,
	)
	with gr.Accordion("3D printing demo: Advanced options", open=False):
	size_longest_px = gr.Slider(
	label="Size (px) of the longest side",
	minimum=256,
	maximum=1024,
	step=256,
	value=512,
	)
	size_longest_cm = gr.Slider(
	label="Size (cm) of the longest side",
	minimum=1,
	maximum=100,
	step=1,
	value=10,
	)
	filter_size = gr.Slider(
	label="Size (px) of the smoothing filter",
	minimum=1,
	maximum=5,
	step=2,
	value=3,
	)
	frame_thickness = gr.Slider(
	label="Frame thickness",
	minimum=0,
	maximum=100,
	step=1,
	value=5,
	)
	frame_near = gr.Slider(
	label="Frame's near plane offset",
	minimum=-100,
	maximum=100,
	step=1,
	value=1,
	)
	frame_far = gr.Slider(
	label="Frame's far plane offset",
	minimum=1,
	maximum=10,
	step=1,
	value=1,
	)
	with gr.Row():
	submit_3d = gr.Button(value="Create 3D", variant="primary")
	clear_3d = gr.Button(value="Clear 3D")
	gr.Markdown(
	"""
	<h5 align="center">Pro Tips</h5>
	<ol>
	<li><b>Re-render with new parameters</b>: Click "Clear 3D" and then "Create 3D".</li>
	<li><b>Adjust 3D scale and cut-off focus</b>: Set the frame's near plane offset to the
	minimum and use 3D preview to evaluate depth scaling. Repeat until the scale is correct and
	everything important is in the focus. Set the optimal value for frame's near
	plane offset as a last step.</li>
	<li><b>Increase details</b>: Decrease size of the smoothing filter (also increases noise).</li>
	</ol>
	"""
	)

	with gr.Column():
	viewer_3d = gr.Model3D(
	camera_position=(75.0, 90.0, 1.25),
	elem_classes="viewport",
	label="3D preview (low-res, relief highlight)",
	interactive=False,
	)
	files_3d = gr.Files(
	label="3D model outputs (high-res)",
	elem_id="download",
	interactive=False,
	)

	blocks_settings_depth = [ensemble_size, denoise_steps, processing_res]
	blocks_settings_3d = [plane_near, plane_far, embossing, size_longest_px, size_longest_cm, filter_size,
	frame_thickness, frame_near, frame_far]
	blocks_settings = blocks_settings_depth + blocks_settings_3d
	map_id_to_default = {b._id: b.value for b in blocks_settings}

	inputs = [
	input_image,
	ensemble_size,
	denoise_steps,
	processing_res,
	input_output_16bit,
	input_output_fp32,
	input_output_vis,
	plane_near,
	plane_far,
	embossing,
	filter_size,
	frame_near,
	]
	outputs = [
	submit_btn,
	input_image,
	output_slider,
	files,
	]

	def submit_depth_fn(*args):
	out = list(process_pipe(*args))
	out = [gr.Button(interactive=False), gr.Image(interactive=False)] + out
	return out

	submit_btn.click(
	fn=submit_depth_fn,
	inputs=inputs,
	outputs=outputs,
	concurrency_limit=1,
	)

	gr.Examples(
	fn=submit_depth_fn,
	examples=[
	[
	"files/bee.jpg",
	10, # ensemble_size
	10, # denoise_steps
	768, # processing_res
	"files/bee_depth_16bit.png",
	"files/bee_depth_fp32.npy",
	"files/bee_depth_colored.png",
	0.0, # plane_near
	0.5, # plane_far
	20, # embossing
	3, # filter_size
	0, # frame_near
	],
	[
	"files/cat.jpg",
	10, # ensemble_size
	10, # denoise_steps
	768, # processing_res
	"files/cat_depth_16bit.png",
	"files/cat_depth_fp32.npy",
	"files/cat_depth_colored.png",
	0.0, # plane_near
	0.3, # plane_far
	20, # embossing
	3, # filter_size
	0, # frame_near
	],
	[
	"files/swings.jpg",
	10, # ensemble_size
	10, # denoise_steps
	768, # processing_res
	"files/swings_depth_16bit.png",
	"files/swings_depth_fp32.npy",
	"files/swings_depth_colored.png",
	0.05, # plane_near
	0.25, # plane_far
	10, # embossing
	1, # filter_size
	0, # frame_near
	],
	[
	"files/einstein.jpg",
	10, # ensemble_size
	10, # denoise_steps
	768, # processing_res
	"files/einstein_depth_16bit.png",
	"files/einstein_depth_fp32.npy",
	"files/einstein_depth_colored.png",
	0.0, # plane_near
	0.5, # plane_far
	50, # embossing
	3, # filter_size
	-15, # frame_near
	],
	],
	inputs=inputs,
	outputs=outputs,
	cache_examples=True,
	)

	demo_3d_header.render()
	demo_3d.render()

	def clear_fn():
	out = []
	for b in blocks_settings:
	out.append(map_id_to_default[b._id])
	out += [
	gr.Button(interactive=True),
	gr.Button(interactive=True),
	gr.Image(value=None, interactive=True),
	None, None, None, None, None, None, None,
	]
	return out

	clear_btn.click(
	fn=clear_fn,
	inputs=[],
	outputs=blocks_settings + [
	submit_btn,
	submit_3d,
	input_image,
	input_output_16bit,
	input_output_fp32,
	input_output_vis,
	output_slider,
	files,
	viewer_3d,
	files_3d,
	],
	)

	def submit_3d_fn(*args):
	out = list(process_3d(*args))
	out = [gr.Button(interactive=False)] + out
	return out

	submit_3d.click(
	fn=submit_3d_fn,
	inputs=[
	input_image,
	files,
	size_longest_px,
	size_longest_cm,
	filter_size,
	plane_near,
	plane_far,
	embossing,
	frame_thickness,
	frame_near,
	frame_far,
	],
	outputs=[submit_3d, viewer_3d, files_3d],
	concurrency_limit=1,
	)

	def clear_3d_fn():
	return [gr.Button(interactive=True), None, None]

	clear_3d.click(
	fn=clear_3d_fn,
	inputs=[],
	outputs=[submit_3d, viewer_3d, files_3d],
	)

	demo.queue(
	api_open=False,
	).launch(
	server_name="0.0.0.0",
	server_port=7860,
	)


	def prefetch_hf_cache(pipe):
	process(pipe, "files/bee.jpg", 1, 1, 64)
	shutil.rmtree("files/bee_output")


	def main():
	REPO_URL = "https://github.com/prs-eth/Marigold.git"
	REPO_HASH = "02cdfa52"
	REPO_DIR = "Marigold"
	CHECKPOINT = "Bingxin/Marigold"

	if os.path.isdir(REPO_DIR):
	shutil.rmtree(REPO_DIR)
	repo = git.Repo.clone_from(REPO_URL, REPO_DIR)
	repo.git.checkout(REPO_HASH)

	sys.path.append(os.path.join(os.getcwd(), REPO_DIR))

	from marigold import MarigoldPipeline

	device = torch.device("cuda" if torch.cuda.is_available() else "cpu")

	pipe = MarigoldPipeline.from_pretrained(CHECKPOINT)
	try:
	import xformers
	pipe.enable_xformers_memory_efficient_attention()
	except:
	pass # run without xformers

	pipe = pipe.to(device)
	prefetch_hf_cache(pipe)
	run_demo_server(pipe)


	if __name__ == "__main__":
	main()