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	import os
	import sys

	os.system("pip install imutils")
	os.system("python -m pip install 'git+https://github.com/facebookresearch/detectron2.git'")
	os.system("python frozenseg/modeling/pixel_decoder/ops/setup.py build && pip install -e frozenseg/modeling/pixel_decoder/ops/")
	os.system("pip install gdown")
	os.system("pip install gradio_client==0.16.1")
	os.system("pip install git+https://github.com/cocodataset/panopticapi.git")
	import gradio as gr
	from detectron2.utils.logger import setup_logger
	from contextlib import ExitStack
	import numpy as np
	import cv2
	import torch
	import itertools
	from detectron2.config import get_cfg
	from detectron2.utils.visualizer import ColorMode, random_color
	from detectron2.data import MetadataCatalog

	from frozenseg import add_maskformer2_config, add_frozenseg_config
	from demo.predictor import DefaultPredictor, OpenVocabVisualizer
	from PIL import Image
	import json

	setup_logger()
	logger = setup_logger(name="frozenseg")
	cfg = get_cfg()
	cfg.MODEL.DEVICE='cpu'
	add_maskformer2_config(cfg)
	add_frozenseg_config(cfg)
	cfg.merge_from_file("configs/coco/frozenseg/convnext_large_eval_ade20k.yaml")

	cfg.MODEL.WEIGHTS = './frozenseg_ConvNeXt-Large.pth'
	cfg.MODEL.MASK_FORMER.TEST.SEMANTIC_ON = False
	cfg.MODEL.MASK_FORMER.TEST.INSTANCE_ON = False
	cfg.MODEL.MASK_FORMER.TEST.PANOPTIC_ON = True
	predictor = DefaultPredictor(cfg)


	title = "FrozenSeg"
	article = "<p style='text-align: center'><a href='https://www.arxiv.org/abs/2409.03525' target='_blank'>FrozenSeg</a> \| <a href='https://github.com/chenxi52/FrozenSeg' target='_blank'>Github Repo</a></p>"

	examples = [
	[
	"demo/examples/ADE_val_00000001.jpg",
	"",
	["ADE (150 categories)"],
	],
	[
	"demo/examples/frankfurt_000000_005898_leftImg8bit.png",
	"",
	["Cityscapes (19 categories)"],
	]
	]


	coco_metadata = MetadataCatalog.get("openvocab_coco_2017_val_panoptic_with_sem_seg")
	ade20k_metadata = MetadataCatalog.get("openvocab_ade20k_panoptic_val")
	cityscapes_metadata = MetadataCatalog.get("openvocab_cityscapes_fine_panoptic_val")
	lvis_classes = open("./frozenseg/data/datasets/lvis_1203_with_prompt_eng.txt", 'r').read().splitlines()
	lvis_classes = [x[x.find(':')+1:] for x in lvis_classes]
	lvis_colors = list(
	itertools.islice(itertools.cycle(coco_metadata.stuff_colors), len(lvis_classes))
	)
	# rerrange to thing_classes, stuff_classes
	coco_thing_classes = coco_metadata.thing_classes
	coco_stuff_classes = [x for x in coco_metadata.stuff_classes if x not in coco_thing_classes]
	coco_thing_colors = coco_metadata.thing_colors
	coco_stuff_colors = [x for x in coco_metadata.stuff_colors if x not in coco_thing_colors]
	ade20k_thing_classes = ade20k_metadata.thing_classes
	ade20k_stuff_classes = [x for x in ade20k_metadata.stuff_classes if x not in ade20k_thing_classes]
	ade20k_thing_colors = ade20k_metadata.thing_colors
	ade20k_stuff_colors = [x for x in ade20k_metadata.stuff_colors if x not in ade20k_thing_colors]
	cityscapes_stuff_classes = cityscapes_metadata.stuff_classes
	cityscapes_stuff_color = cityscapes_metadata.stuff_colors
	cityscapes_thing_classes = cityscapes_metadata.thing_classes
	cityscapes_thing_color = cityscapes_metadata.thing_colors

	def build_demo_classes_and_metadata(vocab, label_list):
	extra_classes = []

	if vocab:
	for words in vocab.split(";"):
	extra_classes.append(words)
	extra_colors = [random_color(rgb=True, maximum=1) for _ in range(len(extra_classes))]
	print("extra_classes:", extra_classes)
	demo_thing_classes = extra_classes
	demo_stuff_classes = []
	demo_thing_colors = extra_colors
	demo_stuff_colors = []

	if any("COCO" in label for label in label_list):
	demo_thing_classes += coco_thing_classes
	demo_stuff_classes += coco_stuff_classes
	demo_thing_colors += coco_thing_colors
	demo_stuff_colors += coco_stuff_colors
	if any("ADE" in label for label in label_list):
	demo_thing_classes += ade20k_thing_classes
	demo_stuff_classes += ade20k_stuff_classes
	demo_thing_colors += ade20k_thing_colors
	demo_stuff_colors += ade20k_stuff_colors
	if any("LVIS" in label for label in label_list):
	demo_thing_classes += lvis_classes
	demo_thing_colors += lvis_colors
	if any("Cityscapes" in label for label in label_list):
	demo_thing_classes += cityscapes_thing_classes
	demo_thing_colors += cityscapes_thing_color
	demo_stuff_classes += cityscapes_stuff_classes
	demo_stuff_colors += cityscapes_stuff_color


	MetadataCatalog.pop("frozenseg_demo_metadata", None)
	demo_metadata = MetadataCatalog.get("frozenseg_demo_metadata")
	demo_metadata.thing_classes = demo_thing_classes
	demo_metadata.stuff_classes = demo_thing_classes + demo_stuff_classes
	demo_metadata.thing_colors = demo_thing_colors
	demo_metadata.stuff_colors = demo_thing_colors + demo_stuff_colors
	demo_metadata.stuff_dataset_id_to_contiguous_id = {
	idx: idx for idx in range(len(demo_metadata.stuff_classes))
	}
	demo_metadata.thing_dataset_id_to_contiguous_id = {
	idx: idx for idx in range(len(demo_metadata.thing_classes))
	}
	demo_classes = demo_thing_classes + demo_stuff_classes
	return demo_classes, demo_metadata


	def inference(image_path, vocab, label_list):
	logger.info("building class names")
	vocab = vocab.replace(", ", ",").replace("; ", ";")
	demo_classes, demo_metadata = build_demo_classes_and_metadata(vocab, label_list)
	predictor.set_metadata(demo_metadata)
	im = cv2.imread(image_path)
	outputs = predictor(im)
	v = OpenVocabVisualizer(im[:, :, ::-1], demo_metadata, instance_mode=ColorMode.IMAGE)
	panoptic_result = v.draw_panoptic_seg(outputs["panoptic_seg"][0].to("cpu"), outputs["panoptic_seg"][1]).get_image()
	return Image.fromarray(np.uint8(panoptic_result)).convert('RGB')


	with gr.Blocks(title=title,
	css="""
	#submit {background: #3498db; color: white; border: none; padding: 10px 20px; border-radius: 5px;width: 20%;margin: 0 auto; display: block;}
	"""
	) as demo:
	gr.Markdown("<h1 style='text-align: center; margin-bottom: 1rem'>" + title + "</h1>")
	input_components = []
	output_components = []

	with gr.Row():
	output_image_gr = gr.Image(label="Panoptic Segmentation Output", type="pil")
	output_components.append(output_image_gr)

	with gr.Row():
	with gr.Column(scale=3, variant="panel") as input_component_column:
	input_image_gr = gr.Image(type="filepath", label="Input Image")
	extra_vocab_gr = gr.Textbox(label="Extra Vocabulary (separated by ;)", placeholder="house;sky")
	category_list_gr = gr.CheckboxGroup(
	choices=["COCO (133 categories)", "ADE (150 categories)", "LVIS (1203 categories)", "Cityscapes (19 categories)"],
	label="Category to use",
	)
	input_components.extend([input_image_gr, extra_vocab_gr, category_list_gr])

	with gr.Column(scale=2):
	examples_handler = gr.Examples(
	examples=examples,
	inputs=[c for c in input_components if not isinstance(c, gr.State)],
	outputs=[c for c in output_components if not isinstance(c, gr.State)],
	fn=inference,
	cache_examples=torch.cuda.is_available(),
	examples_per_page=5,
	)
	with gr.Row():
	clear_btn = gr.Button("Clear")
	submit_btn = gr.Button("Submit", variant="primary")

	gr.Markdown(article)

	submit_btn.click(
	inference,
	input_components,
	output_components,
	api_name="predict",
	scroll_to_output=True,
	)

	# clear_btn.click(
	# None,
	# [],
	# (input_components + output_components),
	# _js=f"""() => {json.dumps(
	# [component.cleared_value if hasattr(component, "cleared_value") else None
	# for component in input_components + output_components] + (
	# [gr.Column(visible=True)]
	# )
	# + ([gr.Column(visible=False)])
	# )}
	# """,
	# )

	demo.launch()