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finegrain-object-cutter / src /app.py

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	import tempfile
	import time
	from collections.abc import Sequence
	from typing import Any, cast

	import gradio as gr
	import numpy as np
	import pillow_heif
	import spaces
	import torch
	from gradio_image_annotation import image_annotator
	from gradio_imageslider import ImageSlider
	from PIL import Image
	from pymatting.foreground.estimate_foreground_ml import estimate_foreground_ml
	from refiners.fluxion.utils import no_grad
	from refiners.solutions import BoxSegmenter
	from transformers import GroundingDinoForObjectDetection, GroundingDinoProcessor

	BoundingBox = tuple[int, int, int, int]

	pillow_heif.register_heif_opener()
	pillow_heif.register_avif_opener()

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

	# weird dance because ZeroGPU
	segmenter = BoxSegmenter(device="cpu")
	segmenter.device = device
	segmenter.model = segmenter.model.to(device=segmenter.device)

	gd_model_path = "IDEA-Research/grounding-dino-base"
	gd_processor = GroundingDinoProcessor.from_pretrained(gd_model_path)
	gd_model = GroundingDinoForObjectDetection.from_pretrained(gd_model_path, torch_dtype=torch.float32)
	gd_model = gd_model.to(device=device) # type: ignore
	assert isinstance(gd_model, GroundingDinoForObjectDetection)


	def bbox_union(bboxes: Sequence[list[int]]) -> BoundingBox \| None:
	if not bboxes:
	return None
	for bbox in bboxes:
	assert len(bbox) == 4
	assert all(isinstance(x, int) for x in bbox)
	return (
	min(bbox[0] for bbox in bboxes),
	min(bbox[1] for bbox in bboxes),
	max(bbox[2] for bbox in bboxes),
	max(bbox[3] for bbox in bboxes),
	)


	def corners_to_pixels_format(bboxes: torch.Tensor, width: int, height: int) -> torch.Tensor:
	x1, y1, x2, y2 = bboxes.round().to(torch.int32).unbind(-1)
	return torch.stack((x1.clamp_(0, width), y1.clamp_(0, height), x2.clamp_(0, width), y2.clamp_(0, height)), dim=-1)


	def gd_detect(img: Image.Image, prompt: str) -> BoundingBox \| None:
	assert isinstance(gd_processor, GroundingDinoProcessor)

	# Grounding Dino expects a dot after each category.
	inputs = gd_processor(images=img, text=f"{prompt}.", return_tensors="pt").to(device=device)

	with no_grad():
	outputs = gd_model(**inputs)
	width, height = img.size
	results: dict[str, Any] = gd_processor.post_process_grounded_object_detection(
	outputs,
	inputs["input_ids"],
	target_sizes=[(height, width)],
	)[0]
	assert "boxes" in results and isinstance(results["boxes"], torch.Tensor)

	bboxes = corners_to_pixels_format(results["boxes"].cpu(), width, height)
	return bbox_union(bboxes.numpy().tolist())


	def apply_mask(
	img: Image.Image,
	mask_img: Image.Image,
	defringe: bool = True,
	) -> Image.Image:
	assert img.size == mask_img.size
	img = img.convert("RGB")
	mask_img = mask_img.convert("L")

	if defringe:
	# Mitigate edge halo effects via color decontamination
	rgb, alpha = np.asarray(img) / 255.0, np.asarray(mask_img) / 255.0
	foreground = cast(np.ndarray[Any, np.dtype[np.uint8]], estimate_foreground_ml(rgb, alpha))
	img = Image.fromarray((foreground * 255).astype("uint8"))

	result = Image.new("RGBA", img.size)
	result.paste(img, (0, 0), mask_img)
	return result


	@spaces.GPU
	def _gpu_process(
	img: Image.Image,
	prompt: str \| BoundingBox \| None,
	) -> tuple[Image.Image, BoundingBox \| None, list[str]]:
	# Because of ZeroGPU shenanigans, we need a single function with the
	# `spaces.GPU` decorator that does not contain postprocessing.

	time_log: list[str] = []

	if isinstance(prompt, str):
	t0 = time.time()
	bbox = gd_detect(img, prompt)
	time_log.append(f"detect: {time.time() - t0}")
	if not bbox:
	print(time_log[0])
	raise gr.Error("No object detected")
	else:
	bbox = prompt

	t0 = time.time()
	mask = segmenter(img, bbox)
	time_log.append(f"segment: {time.time() - t0}")

	return mask, bbox, time_log


	def _process(
	img: Image.Image,
	prompt: str \| BoundingBox \| None,
	) -> tuple[tuple[Image.Image, Image.Image], gr.DownloadButton]:
	# enforce max dimensions for pymatting performance reasons
	if img.width > 2048 or img.height > 2048:
	orig_res = max(img.width, img.height)
	img.thumbnail((2048, 2048))
	if isinstance(prompt, tuple):
	x0, y0, x1, y1 = (int(x * 2048 / orig_res) for x in prompt)
	prompt = (x0, y0, x1, y1)

	mask, bbox, time_log = _gpu_process(img, prompt)

	t0 = time.time()
	masked_alpha = apply_mask(img, mask, defringe=True)
	time_log.append(f"crop: {time.time() - t0}")
	print(", ".join(time_log))

	masked_rgb = Image.alpha_composite(Image.new("RGBA", masked_alpha.size, "white"), masked_alpha)

	thresholded = mask.point(lambda p: 255 if p > 10 else 0)
	bbox = thresholded.getbbox()
	to_dl = masked_alpha.crop(bbox)

	temp = tempfile.NamedTemporaryFile(delete=False, suffix=".png")
	to_dl.save(temp, format="PNG")
	temp.close()

	return (img, masked_rgb), gr.DownloadButton(value=temp.name, interactive=True)


	def process_bbox(prompts: dict[str, Any]) -> tuple[tuple[Image.Image, Image.Image], gr.DownloadButton]:
	assert isinstance(img := prompts["image"], Image.Image)
	assert isinstance(boxes := prompts["boxes"], list)
	if len(boxes) == 1:
	assert isinstance(box := boxes[0], dict)
	bbox = tuple(box[k] for k in ["xmin", "ymin", "xmax", "ymax"])
	else:
	assert len(boxes) == 0
	bbox = None
	return _process(img, bbox)


	def on_change_bbox(prompts: dict[str, Any] \| None):
	return gr.update(interactive=prompts is not None)


	def process_prompt(img: Image.Image, prompt: str) -> tuple[tuple[Image.Image, Image.Image], gr.DownloadButton]:
	return _process(img, prompt)


	def on_change_prompt(img: Image.Image \| None, prompt: str \| None):
	return gr.update(interactive=bool(img and prompt))


	TITLE = """
	<center>

	<div style="
	background-color: #ff9100;
	color: #1f2937;
	padding: 0.5rem 1rem;
	font-size: 1.25rem;
	">
	🚀 NEW: all the Finegrain spaces are now reunited under the
	<a href="https://editor.finegrain.ai/signup?utm_source=hf&utm_campaign=object-cutter" target="_blank">Finegrain Editor</a>. Give it a shot! 🚀
	</div>

	<h1 style="font-size: 1.5rem; margin-bottom: 0.5rem;">
	Object Cutter Powered By Refiners
	</h1>

	<p>
	Create high-quality HD cutouts for any object in your image with just a text prompt — no manual work required!
	<br>
	The object will be available on a transparent background, ready to paste elsewhere.
	</p>

	<p>
	This space uses the
	<a
	href="https://huggingface.co/finegrain/finegrain-box-segmenter"
	target="_blank"
	>Finegrain Box Segmenter model</a>,
	trained with a mix of natural data curated by Finegrain and
	<a
	href="https://huggingface.co/datasets/Nfiniteai/product-masks-sample"
	target="_blank"
	>synthetic data provided by Nfinite</a>.
	<br>
	It is powered by Refiners, our open source micro-framework for simple foundation model adaptation.
	If you enjoyed it, please consider starring Refiners on GitHub!
	</p>

	<a href="https://github.com/finegrain-ai/refiners" target="_blank">
	<img src="https://img.shields.io/github/stars/finegrain-ai/refiners?style=social" />
	</a>

	</center>
	"""

	with gr.Blocks() as demo:
	gr.HTML(TITLE)

	with gr.Tab("By prompt", id="tab_prompt"):
	with gr.Row():
	with gr.Column():
	iimg = gr.Image(type="pil", label="Input")
	prompt = gr.Textbox(label="What should we cut?")
	btn = gr.ClearButton(value="Cut Out Object", interactive=False)
	with gr.Column():
	oimg = ImageSlider(label="Before / After", show_download_button=False, interactive=False)
	dlbt = gr.DownloadButton("Download Cutout", interactive=False)

	btn.add(oimg)

	for inp in [iimg, prompt]:
	inp.change(
	fn=on_change_prompt,
	inputs=[iimg, prompt],
	outputs=[btn],
	)
	btn.click(
	fn=process_prompt,
	inputs=[iimg, prompt],
	outputs=[oimg, dlbt],
	)

	examples = [
	[
	"examples/potted-plant.jpg",
	"potted plant",
	],
	[
	"examples/chair.jpg",
	"chair",
	],
	[
	"examples/black-lamp.jpg",
	"black lamp",
	],
	]

	ex = gr.Examples(
	examples=examples,
	inputs=[iimg, prompt],
	outputs=[oimg, dlbt],
	fn=process_prompt,
	cache_examples=True,
	)

	with gr.Tab("By bounding box", id="tab_bb"):
	with gr.Row():
	with gr.Column():
	annotator = image_annotator(
	image_type="pil",
	disable_edit_boxes=True,
	show_download_button=False,
	show_share_button=False,
	single_box=True,
	label="Input",
	)
	btn = gr.ClearButton(value="Cut Out Object", interactive=False)
	with gr.Column():
	oimg = ImageSlider(label="Before / After", show_download_button=False)
	dlbt = gr.DownloadButton("Download Cutout", interactive=False)

	btn.add(oimg)

	annotator.change(
	fn=on_change_bbox,
	inputs=[annotator],
	outputs=[btn],
	)
	btn.click(
	fn=process_bbox,
	inputs=[annotator],
	outputs=[oimg, dlbt],
	)

	examples = [
	{
	"image": "examples/potted-plant.jpg",
	"boxes": [{"xmin": 51, "ymin": 511, "xmax": 639, "ymax": 1255}],
	},
	{
	"image": "examples/chair.jpg",
	"boxes": [{"xmin": 98, "ymin": 330, "xmax": 973, "ymax": 1468}],
	},
	{
	"image": "examples/black-lamp.jpg",
	"boxes": [{"xmin": 88, "ymin": 148, "xmax": 700, "ymax": 1414}],
	},
	]

	ex = gr.Examples(
	examples=examples,
	inputs=[annotator],
	outputs=[oimg, dlbt],
	fn=process_bbox,
	cache_examples=True,
	)

	demo.launch(share=False)