Spaces:

sachinkidzure
/

PowerPaint

Runtime error

App Files Files Community

PowerPaint / app.py

sachinkidzure

Update app.py (#4)

4ef12bf verified about 1 month ago

raw

history blame contribute delete

No virus

17.1 kB

	import os
	import random

	import gradio as gr
	import numpy as np
	import torch
	from PIL import Image, ImageFilter
	from transformers import CLIPTextModel

	from diffusers import UniPCMultistepScheduler
	from model.BrushNet_CA import BrushNetModel
	from model.diffusers_c.models import UNet2DConditionModel
	from pipeline.pipeline_PowerPaint_Brushnet_CA import StableDiffusionPowerPaintBrushNetPipeline
	from utils.utils import TokenizerWrapper, add_tokens


	base_path = "./PowerPaint_v2"
	os.system("apt install git")
	os.system("apt install git-lfs")
	os.system(f"git lfs clone https://code.openxlab.org.cn/zhuangjunhao/PowerPaint_v2.git {base_path}")
	os.system(f"cd {base_path} && git lfs pull")
	os.system("cd ..")
	torch.set_grad_enabled(False)
	context_prompt = ""
	context_negative_prompt = ""
	base_model_path = "./PowerPaint_v2/realisticVisionV60B1_v51VAE/"
	dtype = torch.float16
	unet = UNet2DConditionModel.from_pretrained(
	"runwayml/stable-diffusion-v1-5", subfolder="unet", revision=None, torch_dtype=dtype
	)
	text_encoder_brushnet = CLIPTextModel.from_pretrained(
	"runwayml/stable-diffusion-v1-5", subfolder="text_encoder", revision=None, torch_dtype=dtype
	)
	brushnet = BrushNetModel.from_unet(unet)
	global pipe
	pipe = StableDiffusionPowerPaintBrushNetPipeline.from_pretrained(
	base_model_path,
	brushnet=brushnet,
	text_encoder_brushnet=text_encoder_brushnet,
	torch_dtype=dtype,
	low_cpu_mem_usage=False,
	safety_checker=None,
	)
	pipe.unet = UNet2DConditionModel.from_pretrained(base_model_path, subfolder="unet", revision=None, torch_dtype=dtype)
	pipe.tokenizer = TokenizerWrapper(from_pretrained=base_model_path, subfolder="tokenizer", revision=None)
	add_tokens(
	tokenizer=pipe.tokenizer,
	text_encoder=pipe.text_encoder_brushnet,
	placeholder_tokens=["P_ctxt", "P_shape", "P_obj"],
	initialize_tokens=["a", "a", "a"],
	num_vectors_per_token=10,
	)
	from safetensors.torch import load_model


	load_model(pipe.brushnet, "./PowerPaint_v2/PowerPaint_Brushnet/diffusion_pytorch_model.safetensors")

	pipe.text_encoder_brushnet.load_state_dict(
	torch.load("./PowerPaint_v2/PowerPaint_Brushnet/pytorch_model.bin"), strict=False
	)

	pipe.scheduler = UniPCMultistepScheduler.from_config(pipe.scheduler.config)

	pipe.enable_model_cpu_offload()
	global current_control
	current_control = "canny"
	# controlnet_conditioning_scale = 0.8


	def set_seed(seed):
	torch.manual_seed(seed)
	torch.cuda.manual_seed(seed)
	torch.cuda.manual_seed_all(seed)
	np.random.seed(seed)
	random.seed(seed)


	def add_task(control_type):
	# print(control_type)
	if control_type == "object-removal":
	promptA = "P_ctxt"
	promptB = "P_ctxt"
	negative_promptA = "P_obj"
	negative_promptB = "P_obj"
	elif control_type == "context-aware":
	promptA = "P_ctxt"
	promptB = "P_ctxt"
	negative_promptA = ""
	negative_promptB = ""
	elif control_type == "shape-guided":
	promptA = "P_shape"
	promptB = "P_ctxt"
	negative_promptA = "P_shape"
	negative_promptB = "P_ctxt"
	elif control_type == "image-outpainting":
	promptA = "P_ctxt"
	promptB = "P_ctxt"
	negative_promptA = "P_obj"
	negative_promptB = "P_obj"
	else:
	promptA = "P_obj"
	promptB = "P_obj"
	negative_promptA = "P_obj"
	negative_promptB = "P_obj"

	return promptA, promptB, negative_promptA, negative_promptB


	def predict(
	input_image,
	prompt,
	fitting_degree,
	ddim_steps,
	scale,
	seed,
	negative_prompt,
	task,
	left_expansion_ratio,
	right_expansion_ratio,
	top_expansion_ratio,
	bottom_expansion_ratio,
	):
	size1, size2 = input_image["image"].convert("RGB").size

	if task != "image-outpainting":
	if size1 < size2:
	input_image["image"] = input_image["image"].convert("RGB").resize((640, int(size2 / size1 * 640)))
	else:
	input_image["image"] = input_image["image"].convert("RGB").resize((int(size1 / size2 * 640), 640))
	else:
	if size1 < size2:
	input_image["image"] = input_image["image"].convert("RGB").resize((512, int(size2 / size1 * 512)))
	else:
	input_image["image"] = input_image["image"].convert("RGB").resize((int(size1 / size2 * 512), 512))

	if task == "image-outpainting" or task == "context-aware":
	prompt = prompt + " empty scene"
	if task == "object-removal":
	prompt = prompt + " empty scene blur"

	if (
	left_expansion_ratio is not None and right_expansion_ratio is not None
	and top_expansion_ratio is not None and bottom_expansion_ratio is not None
	):
	o_W, o_H = input_image["image"].convert("RGB").size
	c_W = int((1 + left_expansion_ratio + right_expansion_ratio) * o_W)
	c_H = int((1 + top_expansion_ratio + bottom_expansion_ratio) * o_H)

	expand_img = np.ones((c_H, c_W, 3), dtype=np.uint8) * 127
	original_img = np.array(input_image["image"])
	expand_img[
	int(top_expansion_ratio * o_H):int(top_expansion_ratio * o_H) + o_H,
	int(left_expansion_ratio * o_W):int(left_expansion_ratio * o_W) + o_W,
	:
	] = original_img

	blurry_gap = 10

	expand_mask = np.ones((c_H, c_W, 3), dtype=np.uint8) * 255
	expand_mask[
	int(top_expansion_ratio * o_H) + blurry_gap:int(top_expansion_ratio * o_H) + o_H - blurry_gap,
	int(left_expansion_ratio * o_W) + blurry_gap:int(left_expansion_ratio * o_W) + o_W - blurry_gap,
	:
	] = 0

	input_image["image"] = Image.fromarray(expand_img)
	input_image["mask"] = Image.fromarray(expand_mask)

	promptA, promptB, negative_promptA, negative_promptB = add_task(task)
	img = np.array(input_image["image"].convert("RGB"))

	W = int(np.shape(img)[0] - np.shape(img)[0] % 8)
	H = int(np.shape(img)[1] - np.shape(img)[1] % 8)
	input_image["image"] = input_image["image"].resize((H, W))
	input_image["mask"] = input_image["mask"].resize((H, W))

	np_inpimg = np.array(input_image["image"])
	np_inmask = np.array(input_image["mask"]) / 255.0
	if len(np_inmask.shape)==2:
	np_inmask = np.expand_dims(np_inmask, axis=-1)
	# return np_inpimg, np_inmask

	np_inpimg = np_inpimg * (1 - np_inmask)

	input_image["image"] = Image.fromarray(np_inpimg.astype(np.uint8)).convert("RGB")


	# return input_image
	set_seed(seed)
	global pipe
	result = pipe(
	promptA=promptA,
	promptB=promptB,
	promptU=prompt,
	tradoff=fitting_degree,
	tradoff_nag=fitting_degree,
	image=input_image["image"].convert("RGB"),
	mask=input_image["mask"].convert("RGB"),
	num_inference_steps=ddim_steps,
	generator=torch.Generator("cuda").manual_seed(seed),
	brushnet_conditioning_scale=1.0,
	negative_promptA=negative_promptA,
	negative_promptB=negative_promptB,
	negative_promptU=negative_prompt,
	guidance_scale=scale,
	width=H,
	height=W,
	).images[0]
	mask_np = np.array(input_image["mask"].convert("RGB"))
	red = np.array(result).astype("float") * 1
	red[:, :, 0] = 180.0
	red[:, :, 2] = 0
	red[:, :, 1] = 0
	result_m = np.array(result)
	result_m = Image.fromarray(
	(
	result_m.astype("float") * (1 - mask_np.astype("float") / 512.0) + mask_np.astype("float") / 512.0 * red
	).astype("uint8")
	)
	m_img = input_image["mask"].convert("RGB").filter(ImageFilter.GaussianBlur(radius=3))
	m_img = np.asarray(m_img) / 255.0
	img_np = np.asarray(input_image["image"].convert("RGB")) / 255.0
	ours_np = np.asarray(result) / 255.0
	ours_np = ours_np * m_img + (1 - m_img) * img_np
	result_paste = Image.fromarray(np.uint8(ours_np * 255))

	dict_res = [input_image["mask"].convert("RGB"), result_m]

	dict_out = [result]

	return dict_out, dict_res


	def infer(
	input_image,
	text_guided_prompt,
	text_guided_negative_prompt,
	shape_guided_prompt,
	shape_guided_negative_prompt,
	fitting_degree,
	ddim_steps,
	scale,
	seed,
	task,
	left_expansion_ratio,
	right_expansion_ratio,
	top_expansion_ratio,
	bottom_expansion_ratio,
	outpaint_prompt,
	outpaint_negative_prompt,
	removal_prompt,
	removal_negative_prompt,
	context_prompt,
	context_negative_prompt,
	):
	if task == "text-guided":
	prompt = text_guided_prompt
	negative_prompt = text_guided_negative_prompt
	elif task == "shape-guided":
	prompt = shape_guided_prompt
	negative_prompt = shape_guided_negative_prompt
	elif task == "object-removal":
	prompt = removal_prompt
	negative_prompt = removal_negative_prompt
	elif task == "context-aware":
	prompt = context_prompt
	negative_prompt = context_negative_prompt
	elif task == "image-outpainting":
	prompt = outpaint_prompt
	negative_prompt = outpaint_negative_prompt
	return predict(
	input_image,
	prompt,
	fitting_degree,
	ddim_steps,
	scale,
	seed,
	negative_prompt,
	task,
	left_expansion_ratio,
	right_expansion_ratio,
	top_expansion_ratio,
	bottom_expansion_ratio
	)
	else:
	task = "text-guided"
	prompt = text_guided_prompt
	negative_prompt = text_guided_negative_prompt

	return predict(input_image, prompt, fitting_degree, ddim_steps, scale, seed, negative_prompt, task, None, None)


	def select_tab_text_guided():
	return "text-guided"


	def select_tab_object_removal():
	return "object-removal"


	def select_tab_context_aware():
	return "context-aware"


	def select_tab_image_outpainting():
	return "image-outpainting"


	def select_tab_shape_guided():
	return "shape-guided"


	with gr.Blocks(css="style.css") as demo:
	with gr.Row():
	gr.Markdown(
	"<div align='center'><font size='18'>PowerPaint: High-Quality Versatile Image Inpainting</font></div>" # noqa
	)
	with gr.Row():
	gr.Markdown(
	"<div align='center'><font size='5'><a href='https://powerpaint.github.io/'>Project Page</a> &ensp;" # noqa
	"<a href='https://arxiv.org/abs/2312.03594/'>Paper</a> &ensp;"
	"<a href='https://github.com/zhuang2002/PowerPaint'>Code</a> </font></div>" # noqa
	)
	with gr.Row():
	gr.Markdown(
	"Note: Due to network-related factors, the page may experience occasional bugs！ If the inpainting results deviate significantly from expectations, consider toggling between task options to refresh the content." # noqa
	)
	# Attention: Due to network-related factors, the page may experience occasional bugs. If the inpainting results deviate significantly from expectations, consider toggling between task options to refresh the content.
	with gr.Row():
	with gr.Column():
	gr.Markdown("### Input image and draw mask")
	input_image = gr.Image(source="upload", tool="sketch", type="pil")

	task = gr.Radio(
	["text-guided", "object-removal", "shape-guided", "image-outpainting"], show_label=False, visible=False
	)

	# Text-guided object inpainting
	with gr.Tab("Text-guided object inpainting") as tab_text_guided:
	enable_text_guided = gr.Checkbox(
	label="Enable text-guided object inpainting", value=True, interactive=False
	)
	text_guided_prompt = gr.Textbox(label="Prompt")
	text_guided_negative_prompt = gr.Textbox(label="negative_prompt")
	tab_text_guided.select(fn=select_tab_text_guided, inputs=None, outputs=task)

	# Object removal inpainting
	with gr.Tab("Object removal inpainting") as tab_object_removal:
	enable_object_removal = gr.Checkbox(
	label="Enable object removal inpainting",
	value=True,
	info="The recommended configuration for the Guidance Scale is 10 or higher. \
	If undesired objects appear in the masked area, \
	you can address this by specifically increasing the Guidance Scale.",
	interactive=False,
	)
	removal_prompt = gr.Textbox(label="Prompt")
	removal_negative_prompt = gr.Textbox(label="negative_prompt")
	context_prompt = removal_prompt
	context_negative_prompt = removal_negative_prompt
	tab_object_removal.select(fn=select_tab_object_removal, inputs=None, outputs=task)

	# Object image outpainting
	with gr.Tab("Image outpainting") as tab_image_outpainting:
	enable_object_removal = gr.Checkbox(
	label="Enable image outpainting",
	value=True,
	info="The recommended configuration for the Guidance Scale is 15 or higher. \
	If unwanted random objects appear in the extended image region, \
	you can enhance the cleanliness of the extension area by increasing the Guidance Scale.",
	interactive=False,
	)
	outpaint_prompt = gr.Textbox(label="Outpainting_prompt")
	outpaint_negative_prompt = gr.Textbox(label="Outpainting_negative_prompt")
	left_expansion_ratio = gr.Slider(
	label="left expansion ratio",
	minimum=1,
	maximum=4,
	step=0.05,
	value=1,
	)
	right_expansion_ratio = gr.Slider(
	label="right expansion ratio",
	minimum=1,
	maximum=4,
	step=0.05,
	value=1,
	)
	top_expansion_ratio = gr.Slider(
	label="top expansion ratio",
	minimum=1,
	maximum=4,
	step=0.05,
	value=1,
	)
	bottom_expansion_ratio = gr.Slider(
	label="bottom expansion ratio",
	minimum=1,
	maximum=4,
	step=0.05,
	value=1,
	)
	tab_image_outpainting.select(fn=select_tab_image_outpainting, inputs=None, outputs=task)

	# Shape-guided object inpainting
	with gr.Tab("Shape-guided object inpainting") as tab_shape_guided:
	enable_shape_guided = gr.Checkbox(
	label="Enable shape-guided object inpainting", value=True, interactive=False
	)
	shape_guided_prompt = gr.Textbox(label="shape_guided_prompt")
	shape_guided_negative_prompt = gr.Textbox(label="shape_guided_negative_prompt")
	fitting_degree = gr.Slider(
	label="fitting degree",
	minimum=0.3,
	maximum=1,
	step=0.05,
	value=1,
	)
	tab_shape_guided.select(fn=select_tab_shape_guided, inputs=None, outputs=task)

	run_button = gr.Button(label="Run")
	with gr.Accordion("Advanced options", open=False):
	ddim_steps = gr.Slider(label="Steps", minimum=1, maximum=50, value=50, step=1)
	scale = gr.Slider(label="Guidance Scale", minimum=0.1, maximum=45.0, value=12, step=0.1)
	seed = gr.Slider(
	label="Seed",
	minimum=0,
	maximum=2147483647,
	step=1,
	randomize=True,
	)
	with gr.Column():
	gr.Markdown("### Inpainting result")
	inpaint_result = gr.Gallery(label="Generated images", show_label=False, columns=2)
	gr.Markdown("### Mask")
	gallery = gr.Gallery(label="Generated masks", show_label=False, columns=2)

	run_button.click(
	fn=infer,
	inputs=[
	input_image,
	text_guided_prompt,
	text_guided_negative_prompt,
	shape_guided_prompt,
	shape_guided_negative_prompt,
	fitting_degree,
	ddim_steps,
	scale,
	seed,
	task,
	left_expansion_ratio,
	right_expansion_ratio,
	top_expansion_ratio,
	bottom_expansion_ratio,
	outpaint_prompt,
	outpaint_negative_prompt,
	removal_prompt,
	removal_negative_prompt,
	context_prompt,
	context_negative_prompt,
	],
	outputs=[inpaint_result, gallery],
	)

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