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kolcontrl / app-backup.py

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Rename app (14).py to app-backup.py

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	import spaces
	import random
	import torch
	import cv2
	import gradio as gr
	import numpy as np
	from huggingface_hub import snapshot_download
	from transformers import CLIPVisionModelWithProjection,CLIPImageProcessor
	from diffusers.utils import load_image
	from kolors.pipelines.pipeline_controlnet_xl_kolors_img2img import StableDiffusionXLControlNetImg2ImgPipeline
	from kolors.models.modeling_chatglm import ChatGLMModel
	from kolors.models.tokenization_chatglm import ChatGLMTokenizer
	from kolors.models.controlnet import ControlNetModel
	from diffusers import AutoencoderKL
	from kolors.models.unet_2d_condition import UNet2DConditionModel
	from diffusers import EulerDiscreteScheduler
	from PIL import Image
	from annotator.midas import MidasDetector
	from annotator.dwpose import DWposeDetector
	from annotator.util import resize_image, HWC3


	device = "cuda"
	ckpt_dir = snapshot_download(repo_id="Kwai-Kolors/Kolors")
	ckpt_dir_depth = snapshot_download(repo_id="Kwai-Kolors/Kolors-ControlNet-Depth")
	ckpt_dir_canny = snapshot_download(repo_id="Kwai-Kolors/Kolors-ControlNet-Canny")
	ckpt_dir_pose = snapshot_download(repo_id="Kwai-Kolors/Kolors-ControlNet-Pose")

	text_encoder = ChatGLMModel.from_pretrained(f'{ckpt_dir}/text_encoder', torch_dtype=torch.float16).half().to(device)
	tokenizer = ChatGLMTokenizer.from_pretrained(f'{ckpt_dir}/text_encoder')
	vae = AutoencoderKL.from_pretrained(f"{ckpt_dir}/vae", revision=None).half().to(device)
	scheduler = EulerDiscreteScheduler.from_pretrained(f"{ckpt_dir}/scheduler")
	unet = UNet2DConditionModel.from_pretrained(f"{ckpt_dir}/unet", revision=None).half().to(device)
	controlnet_depth = ControlNetModel.from_pretrained(f"{ckpt_dir_depth}", revision=None).half().to(device)
	controlnet_canny = ControlNetModel.from_pretrained(f"{ckpt_dir_canny}", revision=None).half().to(device)
	controlnet_pose = ControlNetModel.from_pretrained(f"{ckpt_dir_pose}", revision=None).half().to(device)

	pipe_depth = StableDiffusionXLControlNetImg2ImgPipeline(
	vae=vae,
	controlnet = controlnet_depth,
	text_encoder=text_encoder,
	tokenizer=tokenizer,
	unet=unet,
	scheduler=scheduler,
	force_zeros_for_empty_prompt=False
	)

	pipe_canny = StableDiffusionXLControlNetImg2ImgPipeline(
	vae=vae,
	controlnet = controlnet_canny,
	text_encoder=text_encoder,
	tokenizer=tokenizer,
	unet=unet,
	scheduler=scheduler,
	force_zeros_for_empty_prompt=False
	)

	pipe_pose = StableDiffusionXLControlNetImg2ImgPipeline(
	vae=vae,
	controlnet = controlnet_pose,
	text_encoder=text_encoder,
	tokenizer=tokenizer,
	unet=unet,
	scheduler=scheduler,
	force_zeros_for_empty_prompt=False
	)

	@spaces.GPU
	def process_canny_condition(image, canny_threods=[100,200]):
	np_image = image.copy()
	np_image = cv2.Canny(np_image, canny_threods[0], canny_threods[1])
	np_image = np_image[:, :, None]
	np_image = np.concatenate([np_image, np_image, np_image], axis=2)
	np_image = HWC3(np_image)
	return Image.fromarray(np_image)

	model_midas = MidasDetector()
	@spaces.GPU
	def process_depth_condition_midas(img, res = 1024):
	h,w,_ = img.shape
	img = resize_image(HWC3(img), res)
	result = HWC3(model_midas(img))
	result = cv2.resize(result, (w,h))
	return Image.fromarray(result)

	model_dwpose = DWposeDetector()
	@spaces.GPU
	def process_dwpose_condition(image, res=1024):
	h,w,_ = image.shape
	img = resize_image(HWC3(image), res)
	out_res, out_img = model_dwpose(image)
	result = HWC3(out_img)
	result = cv2.resize( result, (w,h) )
	return Image.fromarray(result)

	MAX_SEED = np.iinfo(np.int32).max
	MAX_IMAGE_SIZE = 1024

	@spaces.GPU
	def infer_depth(prompt,
	image = None,
	negative_prompt = "nsfw，脸部阴影，低分辨率，jpeg伪影、模糊、糟糕，黑脸，霓虹灯",
	seed = 397886929,
	randomize_seed = False,
	guidance_scale = 6.0,
	num_inference_steps = 50,
	controlnet_conditioning_scale = 0.7,
	control_guidance_end = 0.9,
	strength = 1.0
	):
	if randomize_seed:
	seed = random.randint(0, MAX_SEED)
	generator = torch.Generator().manual_seed(seed)
	init_image = resize_image(image, MAX_IMAGE_SIZE)
	pipe = pipe_depth.to("cuda")
	condi_img = process_depth_condition_midas( np.array(init_image), MAX_IMAGE_SIZE)
	image = pipe(
	prompt= prompt ,
	image = init_image,
	controlnet_conditioning_scale = controlnet_conditioning_scale,
	control_guidance_end = control_guidance_end,
	strength= strength ,
	control_image = condi_img,
	negative_prompt= negative_prompt ,
	num_inference_steps= num_inference_steps,
	guidance_scale= guidance_scale,
	num_images_per_prompt=1,
	generator=generator,
	).images[0]
	return [condi_img, image], seed

	@spaces.GPU
	def infer_canny(prompt,
	image = None,
	negative_prompt = "nsfw，脸部阴影，低分辨率，jpeg伪影、模糊、糟糕，黑脸，霓虹灯",
	seed = 397886929,
	randomize_seed = False,
	guidance_scale = 6.0,
	num_inference_steps = 50,
	controlnet_conditioning_scale = 0.7,
	control_guidance_end = 0.9,
	strength = 1.0
	):
	if randomize_seed:
	seed = random.randint(0, MAX_SEED)
	generator = torch.Generator().manual_seed(seed)
	init_image = resize_image(image, MAX_IMAGE_SIZE)
	pipe = pipe_canny.to("cuda")
	condi_img = process_canny_condition(np.array(init_image))
	image = pipe(
	prompt= prompt ,
	image = init_image,
	controlnet_conditioning_scale = controlnet_conditioning_scale,
	control_guidance_end = control_guidance_end,
	strength= strength ,
	control_image = condi_img,
	negative_prompt= negative_prompt ,
	num_inference_steps= num_inference_steps,
	guidance_scale= guidance_scale,
	num_images_per_prompt=1,
	generator=generator,
	).images[0]
	return [condi_img, image], seed

	@spaces.GPU
	def infer_pose(prompt,
	image = None,
	negative_prompt = "nsfw，脸部阴影，低分辨率，jpeg伪影、模糊、糟糕，黑脸，霓虹灯",
	seed = 66,
	randomize_seed = False,
	guidance_scale = 6.0,
	num_inference_steps = 50,
	controlnet_conditioning_scale = 0.7,
	control_guidance_end = 0.9,
	strength = 1.0
	):
	if randomize_seed:
	seed = random.randint(0, MAX_SEED)
	generator = torch.Generator().manual_seed(seed)
	init_image = resize_image(image, MAX_IMAGE_SIZE)
	pipe = pipe_pose.to("cuda")
	condi_img = process_dwpose_condition(np.array(init_image), MAX_IMAGE_SIZE)
	image = pipe(
	prompt= prompt ,
	image = init_image,
	controlnet_conditioning_scale = controlnet_conditioning_scale,
	control_guidance_end = control_guidance_end,
	strength= strength ,
	control_image = condi_img,
	negative_prompt= negative_prompt ,
	num_inference_steps= num_inference_steps,
	guidance_scale= guidance_scale,
	num_images_per_prompt=1,
	generator=generator,
	).images[0]
	return [condi_img, image], seed


	canny_examples = [
	["아름다운 소녀, 고품질, 매우 선명, 생생한 색상, 초고해상도, 최상의 품질, 8k, 고화질, 4K",
	"image/woman_1.png"],
	["파노라마, 컵 안에 앉아있는 귀여운 흰 강아지, 카메라를 바라보는, 애니메이션 스타일, 3D 렌더링, 옥테인 렌더",
	"image/dog.png"]
	]

	depth_examples = [
	["신카이 마코토 스타일, 풍부한 색감, 초록 셔츠를 입은 여성이 들판에 서 있는, 아름다운 풍경, 맑고 밝은, 얼룩진 빛과 그림자, 최고의 품질, 초세밀, 8K 화질",
	"image/woman_2.png"],
	["화려한 색상의 작은 새, 고품질, 매우 선명, 생생한 색상, 초고해상도, 최상의 품질, 8k, 고화질, 4K",
	"image/bird.png"]
	]

	pose_examples = [
	["보라색 퍼프 슬리브 드레스를 입고 왕관과 흰색 레이스 장갑을 낀 소녀가 양 손으로 얼굴을 감싸고 있는, 고품질, 매우 선명, 생생한 색상, 초고해상도, 최상의 품질, 8k, 고화질, 4K",
	"image/woman_3.png"],
	["검은색 스포츠 재킷과 흰색 이너를 입고 목걸이를 한 여성이 거리에 서 있는, 배경은 빨간 건물과 녹색 나무, 고품질, 매우 선명, 생생한 색상, 초고해상도, 최상의 품질, 8k, 고화질, 4K",
	"image/woman_4.png"]
	]

	css = """
	footer {
	visibility: hidden;
	}
	"""


	def load_description(fp):
	with open(fp, 'r', encoding='utf-8') as f:
	content = f.read()
	return content

	with gr.Blocks(theme="Nymbo/Nymbo_Theme", css=css) as Kolors:
	with gr.Row():
	with gr.Column(elem_id="col-left"):
	with gr.Row():
	prompt = gr.Textbox(
	label="프롬프트",
	placeholder="프롬프트를 입력하세요",
	lines=2
	)
	with gr.Row():
	image = gr.Image(label="이미지", type="pil")
	with gr.Accordion("고급 설정", open=False):
	negative_prompt = gr.Textbox(
	label="네거티브 프롬프트",
	placeholder="네거티브 프롬프트를 입력하세요",
	visible=True,
	value="nsfw, 얼굴 그림자, 저해상도, jpeg 아티팩트, 흐릿함, 열악함, 검은 얼굴, 네온 조명"
	)
	seed = gr.Slider(
	label="시드",
	minimum=0,
	maximum=MAX_SEED,
	step=1,
	value=0,
	)
	randomize_seed = gr.Checkbox(label="시드 무작위화", value=True)
	with gr.Row():
	guidance_scale = gr.Slider(
	label="가이던스 스케일",
	minimum=0.0,
	maximum=10.0,
	step=0.1,
	value=6.0,
	)
	num_inference_steps = gr.Slider(
	label="추론 단계 수",
	minimum=10,
	maximum=50,
	step=1,
	value=30,
	)
	with gr.Row():
	controlnet_conditioning_scale = gr.Slider(
	label="컨트롤넷 컨디셔닝 스케일",
	minimum=0.0,
	maximum=1.0,
	step=0.1,
	value=0.7,
	)
	control_guidance_end = gr.Slider(
	label="컨트롤 가이던스 종료",
	minimum=0.0,
	maximum=1.0,
	step=0.1,
	value=0.9,
	)
	with gr.Row():
	strength = gr.Slider(
	label="강도",
	minimum=0.0,
	maximum=1.0,
	step=0.1,
	value=1.0,
	)
	with gr.Row():
	canny_button = gr.Button("캐니", elem_id="button")
	depth_button = gr.Button("깊이", elem_id="button")
	pose_button = gr.Button("포즈", elem_id="button")

	with gr.Column(elem_id="col-right"):
	result = gr.Gallery(label="결과", show_label=False, columns=2)
	seed_used = gr.Number(label="사용된 시드")



	with gr.Row():
	gr.Examples(
	fn = infer_canny,
	examples = canny_examples,
	inputs = [prompt, image],
	outputs = [result, seed_used],
	label = "Canny"
	)
	with gr.Row():
	gr.Examples(
	fn = infer_depth,
	examples = depth_examples,
	inputs = [prompt, image],
	outputs = [result, seed_used],
	label = "Depth"
	)

	with gr.Row():
	gr.Examples(
	fn = infer_pose,
	examples = pose_examples,
	inputs = [prompt, image],
	outputs = [result, seed_used],
	label = "Pose"
	)

	canny_button.click(
	fn = infer_canny,
	inputs = [prompt, image, negative_prompt, seed, randomize_seed, guidance_scale, num_inference_steps, controlnet_conditioning_scale, control_guidance_end, strength],
	outputs = [result, seed_used]
	)

	depth_button.click(
	fn = infer_depth,
	inputs = [prompt, image, negative_prompt, seed, randomize_seed, guidance_scale, num_inference_steps, controlnet_conditioning_scale, control_guidance_end, strength],
	outputs = [result, seed_used]
	)

	pose_button.click(
	fn = infer_pose,
	inputs = [prompt, image, negative_prompt, seed, randomize_seed, guidance_scale, num_inference_steps, controlnet_conditioning_scale, control_guidance_end, strength],
	outputs = [result, seed_used]
	)

	Kolors.queue().launch(debug=True)