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	import spaces
	import os
	from stablepy.diffusers_vanilla.style_prompt_config import STYLE_NAMES
	import re
	from stablepy import (
	CONTROLNET_MODEL_IDS,
	VALID_TASKS,
	T2I_PREPROCESSOR_NAME,
	FLASH_LORA,
	SCHEDULER_CONFIG_MAP,
	scheduler_names,
	IP_ADAPTER_MODELS,
	IP_ADAPTERS_SD,
	IP_ADAPTERS_SDXL,
	REPO_IMAGE_ENCODER,
	ALL_PROMPT_WEIGHT_OPTIONS,
	SD15_TASKS,
	SDXL_TASKS,
	)
	from config import (
	MINIMUM_IMAGE_NUMBER,
	MAXIMUM_IMAGE_NUMBER,
	DEFAULT_NEGATIVE_PROMPT,
	DEFAULT_POSITIVE_PROMPT,
	task_stablepy
	)
	from models.vae import VAE_LIST as download_vae
	from models.checkpoints import CHECKPOINT_LIST as download_model
	from models.loras import LORA_LIST as download_lora
	from models.format_models import FORMAT_MODELS as load_diffusers_format_model
	from models.upscaler import upscaler_dict_gui
	from models.controlnet import preprocessor_controlnet
	from models.embeds import download_embeds
	from examples.examples import example_prompts
	from utils.download_utils import download_things
	from utils.model_utils import get_model_list

	# LOAD ALL ENV TOKEN
	CIVITAI_API_KEY: str = os.environ.get("CIVITAI_API_KEY")
	hf_token: str = os.environ.get("HF_TOKEN")

	task_model_list = list(task_stablepy.keys())

	directory_models: str = 'models'
	os.makedirs(
	directory_models,
	exist_ok=True
	)
	directory_loras: str = 'loras'
	os.makedirs(
	directory_loras,
	exist_ok=True
	)
	directory_vaes: str = 'vaes'
	os.makedirs(
	directory_vaes,
	exist_ok=True
	)
	directory_embeds: str = 'embedings'
	os.makedirs(
	directory_embeds,
	exist_ok=True
	)

	# Download stuffs
	for url in [url.strip() for url in download_model.split(',')]:
	if not os.path.exists(f"./models/{url.split('/')[-1]}"):
	download_things(
	directory_models,
	url,
	hf_token,
	CIVITAI_API_KEY
	)

	for url in [url.strip() for url in download_vae.split(',')]:
	if not os.path.exists(f"./vaes/{url.split('/')[-1]}"):
	download_things(
	directory_vaes,
	url,
	hf_token,
	CIVITAI_API_KEY
	)

	for url in [url.strip() for url in download_lora.split(',')]:
	if not os.path.exists(f"./loras/{url.split('/')[-1]}"):
	download_things(
	directory_loras,
	url,
	hf_token,
	CIVITAI_API_KEY
	)

	for url_embed in download_embeds:
	if not os.path.exists(f"./embedings/{url_embed.split('/')[-1]}"):
	download_things(
	directory_embeds,
	url_embed,
	hf_token,
	CIVITAI_API_KEY
	)

	# Build list models
	embed_list: list = get_model_list(directory_embeds)
	model_list: list = get_model_list(directory_models)
	model_list: list = load_diffusers_format_model + model_list
	lora_model_list: list = get_model_list(directory_loras)
	lora_model_list.insert(0, "None")
	vae_model_list: list = get_model_list(directory_vaes)
	vae_model_list.insert(0, "None")


	def get_my_lora(link_url) -> tuple:
	for __url in [_url.strip() for _url in link_url.split(',')]:
	if not os.path.exists(f"./loras/{__url.split('/')[-1]}"):
	download_things(
	directory_loras,
	__url,
	hf_token,
	CIVITAI_API_KEY
	)

	new_lora_model_list: list = get_model_list(directory_loras)
	new_lora_model_list.insert(0, "None")

	return gr.update(
	choices=new_lora_model_list
	), gr.update(
	choices=new_lora_model_list
	), gr.update(
	choices=new_lora_model_list
	), gr.update(
	choices=new_lora_model_list
	), gr.update(
	choices=new_lora_model_list
	)


	print('\033[33m🏁 Download and listing of valid models completed.\033[0m')

	#######################
	# GUI
	#######################
	import gradio as gr
	import logging
	from utils.string_utils import extract_parameters
	from stablepy import logger

	logging.getLogger("diffusers").setLevel(logging.ERROR)
	import diffusers

	diffusers.utils.logging.set_verbosity(40)
	import warnings
	from gui import GuiSD

	warnings.filterwarnings(
	action="ignore",
	category=FutureWarning,
	module="diffusers"
	)
	warnings.filterwarnings(
	action="ignore",
	category=UserWarning,
	module="diffusers"
	)
	warnings.filterwarnings(
	action="ignore",
	category=FutureWarning,
	module="transformers"
	)

	logger.setLevel(logging.DEBUG)

	# init GuiSD
	sd_gen: object = GuiSD(
	model_list=model_list,
	task_stablepy=task_stablepy,
	lora_model_list=lora_model_list,
	embed_list=embed_list,
	)

	with open("app.css", "r") as f:
	CSS: str = f.read()

	sdxl_task = [k for k, v in task_stablepy.items() if v in SDXL_TASKS]
	sd_task = [k for k, v in task_stablepy.items() if v in SD15_TASKS]


	def update_task_options(
	model_name: str,
	task_name: str):
	"""
	:param model_name:
	:param task_name:
	:return:
	"""
	if model_name in model_list:
	if "xl" in model_name.lower():
	new_choices = sdxl_task
	else:
	new_choices = sd_task

	if task_name not in new_choices:
	task_name = "txt2img"

	return gr.update(
	value=task_name,
	choices=new_choices
	)
	else:
	return gr.update(
	value=task_name,
	choices=task_model_list
	)


	# APP
	with gr.Blocks(css=CSS) as app:
	gr.Markdown("# 🧩 (Ivan) DiffuseCraft")
	with gr.Tab("Generation"):
	with gr.Row():
	with gr.Column(scale=2):

	task_gui = gr.Dropdown(
	label="Task",
	choices=sdxl_task,
	value=task_model_list[0],
	)
	model_name_gui = gr.Dropdown(
	label="Model",
	choices=model_list,
	value="models/animaPencilXL_v500.safetensors" or model_list[0],
	allow_custom_value=True
	)
	prompt_gui = gr.Textbox(
	lines=5,
	placeholder="Enter Positive prompt",
	label="Positive Prompt",
	value=DEFAULT_POSITIVE_PROMPT
	)
	neg_prompt_gui = gr.Textbox(
	lines=3,
	placeholder="Enter Negative prompt",
	label="Negative prompt",
	value=DEFAULT_NEGATIVE_PROMPT
	)
	with gr.Row(equal_height=False):
	set_params_gui = gr.Button(value="↙️")
	clear_prompt_gui = gr.Button(value="🗑️")
	set_random_seed = gr.Button(value="🎲")

	generate_button = gr.Button(
	value="GENERATE",
	variant="primary"
	)

	model_name_gui.change(
	update_task_options,
	[model_name_gui, task_gui],
	[task_gui],
	)

	load_model_gui = gr.HTML()

	result_images = gr.Gallery(
	label="Generated images",
	show_label=False,
	elem_id="gallery",
	columns=[2],
	rows=[2],
	object_fit="contain",
	# height="auto",
	interactive=False,
	preview=False,
	selected_index=50,
	)

	actual_task_info = gr.HTML()

	with gr.Column(scale=1):
	steps_gui = gr.Slider(
	minimum=1,
	maximum=100,
	step=1,
	value=43,
	label="Steps"
	)
	cfg_gui = gr.Slider(
	minimum=0,
	maximum=30,
	step=0.5,
	value=7.5,
	label="CFG"
	)
	sampler_gui = gr.Dropdown(
	label="Sampler",
	choices=scheduler_names,
	value="DPM++ 2M Karras"
	)
	img_width_gui = gr.Slider(
	minimum=64,
	maximum=4096,
	step=8,
	value=1024,
	label="Img Width"
	)
	img_height_gui = gr.Slider(
	minimum=64,
	maximum=4096,
	step=8,
	value=1024,
	label="Img Height"
	)
	seed_gui = gr.Number(
	minimum=-1,
	maximum=9999999999,
	value=-1,
	label="Seed"
	)
	with gr.Row():
	clip_skip_gui = gr.Checkbox(
	value=True,
	label="Layer 2 Clip Skip"
	)
	free_u_gui = gr.Checkbox(
	value=True,
	label="FreeU"
	)

	with gr.Row(equal_height=False):

	def run_set_params_gui(base_prompt):
	valid_receptors: dict = { # default values
	"prompt": gr.update(value=base_prompt),
	"neg_prompt": gr.update(value=""),
	"Steps": gr.update(value=30),
	"width": gr.update(value=1024),
	"height": gr.update(value=1024),
	"Seed": gr.update(value=-1),
	"Sampler": gr.update(value="Euler a"),
	"scale": gr.update(value=7.5), # cfg
	"skip": gr.update(value=True),
	}
	valid_keys = list(valid_receptors.keys())

	parameters: dict = extract_parameters(base_prompt)
	for key, val in parameters.items():
	# print(val)
	if key in valid_keys:
	if key == "Sampler":
	if val not in scheduler_names:
	continue
	elif key == "skip":
	if int(val) >= 2:
	val = True
	if key == "prompt":
	if ">" in val and "<" in val:
	val = re.sub(r'<[^>]+>', '', val)
	print("Removed LoRA written in the prompt")
	if key in ["prompt", "neg_prompt"]:
	val = val.strip()
	if key in ["Steps", "width", "height", "Seed"]:
	val = int(val)
	if key == "scale":
	val = float(val)
	if key == "Seed":
	continue
	valid_receptors[key] = gr.update(value=val)
	# print(val, type(val))
	# print(valid_receptors)
	return [value for value in valid_receptors.values()]


	set_params_gui.click(
	run_set_params_gui, [prompt_gui], [
	prompt_gui,
	neg_prompt_gui,
	steps_gui,
	img_width_gui,
	img_height_gui,
	seed_gui,
	sampler_gui,
	cfg_gui,
	clip_skip_gui,
	],
	)


	def run_clear_prompt_gui():
	return gr.update(value=""), gr.update(value="")


	clear_prompt_gui.click(
	run_clear_prompt_gui, [], [prompt_gui, neg_prompt_gui]
	)


	def run_set_random_seed():
	return -1


	set_random_seed.click(
	run_set_random_seed, [], seed_gui
	)

	num_images_gui = gr.Slider(
	minimum=MINIMUM_IMAGE_NUMBER,
	maximum=MAXIMUM_IMAGE_NUMBER,
	step=1,
	value=1,
	label="Images"
	)
	prompt_s_options = [
	("Classic format: (word:weight)", "Classic"),
	("Compel format: (word)weight", "Compel"),
	("Classic-original format: (word:weight)", "Classic-original"),
	("Classic-no_norm format: (word:weight)", "Classic-no_norm"),
	("Classic-ignore", "Classic-ignore"),
	("None", "None"),
	]
	prompt_syntax_gui = gr.Dropdown(
	label="Prompt Syntax",
	choices=prompt_s_options,
	value=prompt_s_options[0][1]
	)

	vae_model_gui = gr.Dropdown(
	label="VAE Model",
	choices=vae_model_list,
	value=vae_model_list[1]
	)

	with gr.Accordion(
	"Hires fix",
	open=False,
	visible=True):

	upscaler_keys = list(upscaler_dict_gui.keys())

	upscaler_model_path_gui = gr.Dropdown(
	label="Upscaler",
	choices=upscaler_keys,
	value=upscaler_keys[0]
	)
	upscaler_increases_size_gui = gr.Slider(
	minimum=1.1,
	maximum=6.,
	step=0.1,
	value=1.4,
	label="Upscale by"
	)
	esrgan_tile_gui = gr.Slider(
	minimum=0,
	value=100,
	maximum=500,
	step=1,
	label="ESRGAN Tile"
	)
	esrgan_tile_overlap_gui = gr.Slider(
	minimum=1,
	maximum=200,
	step=1,
	value=10,
	label="ESRGAN Tile Overlap"
	)
	hires_steps_gui = gr.Slider(
	minimum=0,
	value=30,
	maximum=100,
	step=1,
	label="Hires Steps"
	)
	hires_denoising_strength_gui = gr.Slider(
	minimum=0.1,
	maximum=1.0,
	step=0.01,
	value=0.55,
	label="Hires Denoising Strength"
	)
	hires_sampler_gui = gr.Dropdown(
	label="Hires Sampler",
	choices=["Use same sampler"] + scheduler_names[:-1],
	value="Use same sampler"
	)
	hires_prompt_gui = gr.Textbox(
	label="Hires Prompt",
	placeholder="Main prompt will be use",
	lines=3
	)
	hires_negative_prompt_gui = gr.Textbox(
	label="Hires Negative Prompt",
	placeholder="Main negative prompt will be use",
	lines=3
	)

	with gr.Accordion("LoRA", open=False, visible=True):
	lora1_gui = gr.Dropdown(
	label="Lora1",
	choices=lora_model_list
	)
	lora_scale_1_gui = gr.Slider(
	minimum=-2,
	maximum=2,
	step=0.01,
	value=0.33,
	label="Lora Scale 1"
	)
	lora2_gui = gr.Dropdown(
	label="Lora2",
	choices=lora_model_list
	)
	lora_scale_2_gui = gr.Slider(
	minimum=-2,
	maximum=2,
	step=0.01,
	value=0.33,
	label="Lora Scale 2"
	)
	lora3_gui = gr.Dropdown(
	label="Lora3",
	choices=lora_model_list
	)
	lora_scale_3_gui = gr.Slider(
	minimum=-2,
	maximum=2,
	step=0.01,
	value=0.33,
	label="Lora Scale 3"
	)
	lora4_gui = gr.Dropdown(
	label="Lora4",
	choices=lora_model_list
	)
	lora_scale_4_gui = gr.Slider(
	minimum=-2,
	maximum=2,
	step=0.01,
	value=0.33,
	label="Lora Scale 4"
	)
	lora5_gui = gr.Dropdown(
	label="Lora5",
	choices=lora_model_list
	)
	lora_scale_5_gui = gr.Slider(
	minimum=-2,
	maximum=2,
	step=0.01,
	value=0.33,
	label="Lora Scale 5"
	)

	with gr.Accordion(
	"From URL",
	open=False,
	visible=True):
	text_lora = gr.Textbox(
	label="URL",
	placeholder="http://...my_lora_url.safetensors",
	lines=1
	)
	button_lora = gr.Button("Get and update lists of LoRAs")
	button_lora.click(
	get_my_lora,
	[text_lora],
	[
	lora1_gui,
	lora2_gui,
	lora3_gui,
	lora4_gui,
	lora5_gui
	]
	)

	with gr.Accordion("IP-Adapter", open=False, visible=True): # IP-Adapter
	IP_MODELS = sorted(
	list(
	set(
	IP_ADAPTERS_SD + IP_ADAPTERS_SDXL
	)
	)
	)
	MODE_IP_OPTIONS = [
	"original",
	"style",
	"layout",
	"style+layout"
	]

	with gr.Accordion("IP-Adapter 1", open=False, visible=True):
	image_ip1 = gr.Image(
	label="IP Image",
	type="filepath"
	)
	mask_ip1 = gr.Image(
	label="IP Mask",
	type="filepath"
	)
	model_ip1 = gr.Dropdown(
	value="plus_face",
	label="Model",
	choices=IP_MODELS
	)
	mode_ip1 = gr.Dropdown(
	value="original",
	label="Mode",
	choices=MODE_IP_OPTIONS
	)
	scale_ip1 = gr.Slider(
	minimum=0.,
	maximum=2.,
	step=0.01,
	value=0.7,
	label="Scale"
	)

	with gr.Accordion("IP-Adapter 2", open=False, visible=True):
	image_ip2 = gr.Image(
	label="IP Image",
	type="filepath"
	)
	mask_ip2 = gr.Image(
	label="IP Mask (optional)",
	type="filepath"
	)
	model_ip2 = gr.Dropdown(
	value="base",
	label="Model",
	choices=IP_MODELS
	)
	mode_ip2 = gr.Dropdown(
	value="style",
	label="Mode",
	choices=MODE_IP_OPTIONS
	)
	scale_ip2 = gr.Slider(
	minimum=0.,
	maximum=2.,
	step=0.01,
	value=0.7,
	label="Scale"
	)

	with gr.Accordion(
	"ControlNet / Img2img / Inpaint",
	open=False,
	visible=True):
	image_control = gr.Image(
	label="Image ControlNet/Inpaint/Img2img",
	type="filepath"
	)
	image_mask_gui = gr.Image(
	label="Image Mask",
	type="filepath"
	)
	strength_gui = gr.Slider(
	minimum=0.01,
	maximum=1.0,
	step=0.01,
	value=0.55,
	label="Strength",
	info="This option adjusts the level of changes for img2img and inpainting."
	)
	image_resolution_gui = gr.Slider(
	minimum=64,
	maximum=2048,
	step=64, value=1024,
	label="Image Resolution"
	)
	preprocessor_name_gui = gr.Dropdown(
	label="Preprocessor Name",
	choices=preprocessor_controlnet["canny"]
	)


	def change_preprocessor_choices(task):
	task = task_stablepy[task]
	if task in preprocessor_controlnet.keys():
	choices_task = preprocessor_controlnet[task]
	else:
	choices_task = preprocessor_controlnet["canny"]
	return gr.update(
	choices=choices_task,
	value=choices_task[0]
	)


	task_gui.change(
	change_preprocessor_choices,
	[task_gui],
	[preprocessor_name_gui],
	)
	preprocess_resolution_gui = gr.Slider(
	minimum=64,
	maximum=2048,
	step=64,
	value=512,
	label="Preprocess Resolution"
	)
	low_threshold_gui = gr.Slider(
	minimum=1,
	maximum=255,
	step=1,
	value=100,
	label="Canny low threshold"
	)
	high_threshold_gui = gr.Slider(
	minimum=1,
	maximum=255,
	step=1,
	value=200,
	label="Canny high threshold"
	)
	value_threshold_gui = gr.Slider(
	minimum=1,
	maximum=2.0,
	step=0.01, value=0.1,
	label="Hough value threshold (MLSD)"
	)
	distance_threshold_gui = gr.Slider(
	minimum=1,
	maximum=20.0,
	step=0.01,
	value=0.1,
	label="Hough distance threshold (MLSD)"
	)
	control_net_output_scaling_gui = gr.Slider(
	minimum=0,
	maximum=5.0,
	step=0.1,
	value=1,
	label="ControlNet Output Scaling in UNet"
	)
	control_net_start_threshold_gui = gr.Slider(
	minimum=0,
	maximum=1,
	step=0.01,
	value=0,
	label="ControlNet Start Threshold (%)"
	)
	control_net_stop_threshold_gui = gr.Slider(
	minimum=0,
	maximum=1,
	step=0.01,
	value=1,
	label="ControlNet Stop Threshold (%)"
	)

	with gr.Accordion(
	"T2I adapter",
	open=False,
	visible=True):
	t2i_adapter_preprocessor_gui = gr.Checkbox(
	value=True,
	label="T2i Adapter Preprocessor"
	)
	adapter_conditioning_scale_gui = gr.Slider(
	minimum=0,
	maximum=5.,
	step=0.1,
	value=1,
	label="Adapter Conditioning Scale"
	)
	adapter_conditioning_factor_gui = gr.Slider(
	minimum=0,
	maximum=1.,
	step=0.01,
	value=0.55,
	label="Adapter Conditioning Factor (%)"
	)

	with gr.Accordion(
	"Styles",
	open=False,
	visible=True):

	try:
	style_names_found = sd_gen.model.STYLE_NAMES
	except:
	style_names_found = STYLE_NAMES

	style_prompt_gui = gr.Dropdown(
	style_names_found,
	multiselect=True,
	value=None,
	label="Style Prompt",
	interactive=True,
	)
	style_json_gui = gr.File(label="Style JSON File")
	style_button = gr.Button("Load styles")


	def load_json_style_file(json):
	if not sd_gen.model:
	gr.Info("First load the model")
	return gr.update(
	value=None,
	choices=STYLE_NAMES
	)

	sd_gen.model.load_style_file(json)
	gr.Info(f"{len(sd_gen.model.STYLE_NAMES)} styles loaded")
	return gr.update(
	value=None,
	choices=sd_gen.model.STYLE_NAMES
	)


	style_button.click(
	load_json_style_file,
	[style_json_gui],
	[style_prompt_gui]
	)

	with gr.Accordion(
	"Textual inversion",
	open=False,
	visible=False):
	active_textual_inversion_gui = gr.Checkbox(
	value=False,
	label="Active Textual Inversion in prompt"
	)

	with gr.Accordion(
	"Detailfix",
	open=False,
	visible=True):
	# Adetailer Inpaint Only
	adetailer_inpaint_only_gui = gr.Checkbox(label="Inpaint only", value=True)

	# Adetailer Verbose
	adetailer_verbose_gui = gr.Checkbox(label="Verbose", value=False)

	# Adetailer Sampler
	adetailer_sampler_options = ["Use same sampler"] + scheduler_names[:-1]
	adetailer_sampler_gui = gr.Dropdown(
	label="Adetailer sampler:",
	choices=adetailer_sampler_options,
	value="Use same sampler"
	)

	with gr.Accordion(
	"Detailfix A",
	open=False,
	visible=True):
	# Adetailer A
	adetailer_active_a_gui = gr.Checkbox(
	label="Enable Adetailer A",
	value=False
	)
	prompt_ad_a_gui = gr.Textbox(
	label="Main prompt",
	placeholder="Main prompt will be use",
	lines=3
	)
	negative_prompt_ad_a_gui = gr.Textbox(
	label="Negative prompt",
	placeholder="Main negative prompt will be use",
	lines=3
	)
	strength_ad_a_gui = gr.Number(
	label="Strength:",
	value=0.35, step=0.01,
	minimum=0.01,
	maximum=1.0
	)
	face_detector_ad_a_gui = gr.Checkbox(
	label="Face detector",
	value=True
	)
	person_detector_ad_a_gui = gr.Checkbox(
	label="Person detector",
	value=True
	)
	hand_detector_ad_a_gui = gr.Checkbox(
	label="Hand detector",
	value=False
	)
	mask_dilation_a_gui = gr.Number(
	label="Mask dilation:",
	value=4,
	minimum=1
	)
	mask_blur_a_gui = gr.Number(
	label="Mask blur:",
	value=4,
	minimum=1
	)
	mask_padding_a_gui = gr.Number(
	label="Mask padding:",
	value=32,
	minimum=1
	)

	with gr.Accordion(
	"Detailfix B",
	open=False,
	visible=True):
	# Adetailer B
	adetailer_active_b_gui = gr.Checkbox(
	label="Enable Adetailer B",
	value=False
	)
	prompt_ad_b_gui = gr.Textbox(
	label="Main prompt",
	placeholder="Main prompt will be use",
	lines=3
	)
	negative_prompt_ad_b_gui = gr.Textbox(
	label="Negative prompt",
	placeholder="Main negative prompt will be use",
	lines=3
	)
	strength_ad_b_gui = gr.Number(
	label="Strength:",
	value=0.35,
	step=0.01,
	minimum=0.01,
	maximum=1.0
	)
	face_detector_ad_b_gui = gr.Checkbox(
	label="Face detector",
	value=True
	)
	person_detector_ad_b_gui = gr.Checkbox(
	label="Person detector",
	value=True
	)
	hand_detector_ad_b_gui = gr.Checkbox(
	label="Hand detector",
	value=False
	)
	mask_dilation_b_gui = gr.Number(
	label="Mask dilation:",
	value=4,
	minimum=1
	)
	mask_blur_b_gui = gr.Number(
	label="Mask blur:",
	value=4,
	minimum=1
	)
	mask_padding_b_gui = gr.Number(
	label="Mask padding:",
	value=32,
	minimum=1
	)

	with gr.Accordion(
	"Other settings",
	open=False,
	visible=True):
	image_previews_gui = gr.Checkbox(
	value=True,
	label="Image Previews"
	)
	hires_before_adetailer_gui = gr.Checkbox(
	value=False,
	label="Hires Before Adetailer"
	)
	hires_after_adetailer_gui = gr.Checkbox(
	value=True,
	label="Hires After Adetailer"
	)
	generator_in_cpu_gui = gr.Checkbox(
	value=False,
	label="Generator in CPU"
	)

	with gr.Accordion(
	"More settings",
	open=False,
	visible=False):
	loop_generation_gui = gr.Slider(
	minimum=1,
	value=1,
	label="Loop Generation"
	)
	retain_task_cache_gui = gr.Checkbox(
	value=False,
	label="Retain task model in cache"
	)
	leave_progress_bar_gui = gr.Checkbox(
	value=True,
	label="Leave Progress Bar"
	)
	disable_progress_bar_gui = gr.Checkbox(
	value=False,
	label="Disable Progress Bar"
	)
	display_images_gui = gr.Checkbox(
	value=True,
	label="Display Images"
	)
	save_generated_images_gui = gr.Checkbox(
	value=False,
	label="Save Generated Images"
	)
	image_storage_location_gui = gr.Textbox(
	value="./images",
	label="Image Storage Location"
	)
	retain_compel_previous_load_gui = gr.Checkbox(
	value=False,
	label="Retain Compel Previous Load"
	)
	retain_detailfix_model_previous_load_gui = gr.Checkbox(
	value=False,
	label="Retain Detailfix Model Previous Load"
	)
	retain_hires_model_previous_load_gui = gr.Checkbox(
	value=False,
	label="Retain Hires Model Previous Load"
	)
	xformers_memory_efficient_attention_gui = gr.Checkbox(
	value=False,
	label="Xformers Memory Efficient Attention"
	)

	# example and Help Section
	with gr.Accordion("Examples and help", open=False, visible=True):
	gr.Markdown(
	"""### Help:
	- The current space runs on a ZERO GPU which is assigned for approximately 60 seconds; Therefore, \
	if you submit expensive tasks, the operation may be canceled upon reaching the \
	maximum allowed time with 'GPU TASK ABORTED'.
	- Distorted or strange images often result from high prompt weights, \
	so it's best to use low weights and scales, and consider using Classic variants like 'Classic-original'.
	- For better results with Pony Diffusion, \
	try using sampler DPM++ 1s or DPM2 with Compel or Classic prompt weights.
	"""
	)

	gr.Markdown(
	"""### The following examples perform specific tasks:
	1. Generation with SDXL and upscale
	2. Generation with SDXL
	3. ControlNet Canny SDXL
	4. Optical pattern (Optical illusion) SDXL
	5. Convert an image to a coloring drawing
	6. ControlNet OpenPose SD 1.5

	- Different tasks can be performed, such as img2img or using the IP adapter, \
	to preserve a person's appearance or a specific style based on an image.
	"""
	)

	gr.Examples(
	examples=example_prompts,
	fn=sd_gen.generate_pipeline,
	inputs=[
	prompt_gui,
	neg_prompt_gui,
	num_images_gui,
	steps_gui,
	cfg_gui,
	clip_skip_gui,
	seed_gui,
	lora1_gui,
	lora_scale_1_gui,
	lora2_gui,
	lora_scale_2_gui,
	lora3_gui,
	lora_scale_3_gui,
	lora4_gui,
	lora_scale_4_gui,
	lora5_gui,
	lora_scale_5_gui,
	sampler_gui,
	img_height_gui,
	img_width_gui,
	model_name_gui,
	vae_model_gui,
	task_gui,
	image_control,
	preprocessor_name_gui,
	preprocess_resolution_gui,
	image_resolution_gui,
	style_prompt_gui,
	style_json_gui,
	image_mask_gui,
	strength_gui,
	low_threshold_gui,
	high_threshold_gui,
	value_threshold_gui,
	distance_threshold_gui,
	control_net_output_scaling_gui,
	control_net_start_threshold_gui,
	control_net_stop_threshold_gui,
	active_textual_inversion_gui,
	prompt_syntax_gui,
	upscaler_model_path_gui,
	],
	outputs=[result_images],
	cache_examples=False,
	)

	with gr.Tab("Inpaint mask maker", render=True):

	def create_mask_now(img, invert):
	import numpy as np
	import time

	time.sleep(0.5)

	transparent_image = img["layers"][0]

	# Extract the alpha channel
	alpha_channel = np.array(transparent_image)[:, :, 3]

	# Create a binary mask by thresholding the alpha channel
	binary_mask = alpha_channel > 1

	if invert:
	print("Invert")
	# Invert the binary mask so that the drawn shape is white and the rest is black
	binary_mask = np.invert(binary_mask)

	# Convert the binary mask to a 3-channel RGB mask
	rgb_mask = np.stack((binary_mask,) * 3, axis=-1)

	# Convert the mask to uint8
	rgb_mask = rgb_mask.astype(np.uint8) * 255

	return img["background"], rgb_mask


	with gr.Row():
	with gr.Column(scale=2):
	# image_base = gr.ImageEditor(label="Base image", show_label=True, brush=gr.Brush(colors=["#000000"]))
	image_base = gr.ImageEditor(
	sources=[
	"upload",
	"clipboard"
	],
	# crop_size="1:1",
	# enable crop (or disable it)
	# transforms=["crop"],
	brush=gr.Brush(
	default_size="16", # or leave it as 'auto'
	color_mode="fixed", # 'fixed' hides the user swatches and colorpicker, 'defaults' shows it
	# default_color="black", # html names are supported
	colors=[
	"rgba(0, 0, 0, 1)", # rgb(a)
	"rgba(0, 0, 0, 0.1)",
	"rgba(255, 255, 255, 0.1)",
	# "hsl(360, 120, 120)" # in fact any valid colorstring
	]
	),
	eraser=gr.Eraser(default_size="16")
	)
	invert_mask = gr.Checkbox(
	value=False,
	label="Invert mask"
	)
	btn = gr.Button("Create mask")

	with gr.Column(scale=1):
	img_source = gr.Image(interactive=False)
	img_result = gr.Image(
	label="Mask image",
	show_label=True,
	interactive=False
	)
	btn_send = gr.Button("Send to the first tab")

	btn.click(
	create_mask_now,
	[image_base, invert_mask],
	[img_source, img_result]
	)


	def send_img(img_source, img_result) -> tuple:
	return img_source, img_result


	btn_send.click(
	send_img,
	[img_source, img_result],
	[image_control, image_mask_gui]
	)

	generate_button.click(
	fn=sd_gen.load_new_model,
	inputs=[
	model_name_gui,
	vae_model_gui,
	task_gui
	],
	outputs=[load_model_gui],
	queue=True,
	show_progress="minimal",
	).success(
	fn=sd_gen.generate_pipeline,
	inputs=[
	prompt_gui,
	neg_prompt_gui,
	num_images_gui,
	steps_gui,
	cfg_gui,
	clip_skip_gui,
	seed_gui,
	lora1_gui,
	lora_scale_1_gui,
	lora2_gui,
	lora_scale_2_gui,
	lora3_gui,
	lora_scale_3_gui,
	lora4_gui,
	lora_scale_4_gui,
	lora5_gui,
	lora_scale_5_gui,
	sampler_gui,
	img_height_gui,
	img_width_gui,
	model_name_gui,
	vae_model_gui,
	task_gui,
	image_control,
	preprocessor_name_gui,
	preprocess_resolution_gui,
	image_resolution_gui,
	style_prompt_gui,
	style_json_gui,
	image_mask_gui,
	strength_gui,
	low_threshold_gui,
	high_threshold_gui,
	value_threshold_gui,
	distance_threshold_gui,
	control_net_output_scaling_gui,
	control_net_start_threshold_gui,
	control_net_stop_threshold_gui,
	active_textual_inversion_gui,
	prompt_syntax_gui,
	upscaler_model_path_gui,
	upscaler_increases_size_gui,
	esrgan_tile_gui,
	esrgan_tile_overlap_gui,
	hires_steps_gui,
	hires_denoising_strength_gui,
	hires_sampler_gui,
	hires_prompt_gui,
	hires_negative_prompt_gui,
	hires_before_adetailer_gui,
	hires_after_adetailer_gui,
	loop_generation_gui,
	leave_progress_bar_gui,
	disable_progress_bar_gui,
	image_previews_gui,
	display_images_gui,
	save_generated_images_gui,
	image_storage_location_gui,
	retain_compel_previous_load_gui,
	retain_detailfix_model_previous_load_gui,
	retain_hires_model_previous_load_gui,
	t2i_adapter_preprocessor_gui,
	adapter_conditioning_scale_gui,
	adapter_conditioning_factor_gui,
	xformers_memory_efficient_attention_gui,
	free_u_gui,
	generator_in_cpu_gui,
	adetailer_inpaint_only_gui,
	adetailer_verbose_gui,
	adetailer_sampler_gui,
	adetailer_active_a_gui,
	prompt_ad_a_gui,
	negative_prompt_ad_a_gui,
	strength_ad_a_gui,
	face_detector_ad_a_gui,
	person_detector_ad_a_gui,
	hand_detector_ad_a_gui,
	mask_dilation_a_gui,
	mask_blur_a_gui,
	mask_padding_a_gui,
	adetailer_active_b_gui,
	prompt_ad_b_gui,
	negative_prompt_ad_b_gui,
	strength_ad_b_gui,
	face_detector_ad_b_gui,
	person_detector_ad_b_gui,
	hand_detector_ad_b_gui,
	mask_dilation_b_gui,
	mask_blur_b_gui,
	mask_padding_b_gui,
	retain_task_cache_gui,
	image_ip1,
	mask_ip1,
	model_ip1,
	mode_ip1,
	scale_ip1,
	image_ip2,
	mask_ip2,
	model_ip2,
	mode_ip2,
	scale_ip2,
	],
	outputs=[
	result_images,
	actual_task_info
	],
	queue=True,
	show_progress="minimal",
	)

	app.queue()
	app.launch(
	show_error=True,
	debug=True,
	)