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BrushNet / app.py

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(Hopefully) Final Touches

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	##!/usr/bin/env python3
	# -- coding: utf-8 --
	import os
	import gradio as gr
	import cv2
	from PIL import Image
	import numpy as np
	from segment_anything import SamPredictor, sam_model_registry
	import torch
	from diffusers import StableDiffusionBrushNetPipeline, BrushNetModel, UniPCMultistepScheduler
	import random

	mobile_sam = sam_model_registry['vit_h'](checkpoint='data/ckpt/sam_vit_h_4b8939.pth').to("cpu")
	mobile_sam.eval()
	mobile_predictor = SamPredictor(mobile_sam)
	colors = [(255, 0, 0), (0, 255, 0)]
	markers = [1, 5]

	# - - - - - examples - - - - - #
	image_examples = [
	["examples/brushnet/src/test_image.jpg", "A beautiful cake on the table", "examples/brushnet/src/test_mask.jpg", 0, [], [Image.open("examples/brushnet/src/test_result.png")]],
	["examples/brushnet/src/example_1.jpg", "A man in Chinese traditional clothes", "examples/brushnet/src/example_1_mask.jpg", 1, [], [Image.open("examples/brushnet/src/example_1_result.png")]],
	["examples/brushnet/src/example_3.jpg", "a cut toy on the table", "examples/brushnet/src/example_3_mask.jpg", 2, [], [Image.open("examples/brushnet/src/example_3_result.png")]],
	["examples/brushnet/src/example_4.jpeg", "a car driving in the wild", "examples/brushnet/src/example_4_mask.jpg", 3, [], [Image.open("examples/brushnet/src/example_4_result.png")]],
	["examples/brushnet/src/example_5.jpg", "a charming woman wearing dress standing in the dark forest", "examples/brushnet/src/example_5_mask.jpg", 4, [], [Image.open("examples/brushnet/src/example_5_result.png")]],
	]


	# choose the base model here
	base_model_path = "data/ckpt/realisticVisionV60B1_v51VAE"
	# base_model_path = "runwayml/stable-diffusion-v1-5"

	# input brushnet ckpt path
	brushnet_path = "data/ckpt/segmentation_mask_brushnet_ckpt"

	brushnet = BrushNetModel.from_pretrained(brushnet_path, torch_dtype=torch.float32)
	pipe = StableDiffusionBrushNetPipeline.from_pretrained(
	base_model_path, brushnet=brushnet, torch_dtype=torch.float32, low_cpu_mem_usage=True
	)

	# speed up diffusion process with faster scheduler and memory optimization
	pipe.scheduler = UniPCMultistepScheduler.from_config(pipe.scheduler.config)
	# remove following line if xformers is not installed or when using Torch 2.0.
	# pipe.enable_xformers_memory_efficient_attention()
	# memory optimization.
	# pipe.enable_model_cpu_offload()

	def resize_image(input_image, resolution):
	H, W, C = input_image.shape
	H = float(H)
	W = float(W)
	k = float(resolution) / min(H, W)
	H *= k
	W *= k
	H = int(np.round(H / 64.0)) * 64
	W = int(np.round(W / 64.0)) * 64
	img = cv2.resize(input_image, (W, H), interpolation=cv2.INTER_LANCZOS4 if k > 1 else cv2.INTER_AREA)
	return img


	def process(input_image,
	original_image,
	original_mask,
	input_mask,
	selected_points,
	prompt,
	negative_prompt,
	blended,
	invert_mask,
	control_strength,
	seed,
	randomize_seed,
	guidance_scale,
	num_inference_steps):
	if original_image is None:
	raise gr.Error('Please upload the input image')
	if (original_mask is None or len(selected_points)==0) and input_mask is None:
	raise gr.Error("Please click the region where you hope unchanged/changed, or upload a white-black Mask image")

	# load example image
	if isinstance(original_image, int):
	image_name = image_examples[original_image][0]
	original_image = cv2.imread(image_name)
	original_image = cv2.cvtColor(original_image, cv2.COLOR_BGR2RGB)

	if input_mask is not None:
	H,W=original_image.shape[:2]
	original_mask = cv2.resize(input_mask, (W, H))
	else:
	original_mask = np.clip(255 - original_mask, 0, 255).astype(np.uint8)

	if invert_mask:
	original_mask=255-original_mask

	mask = 1.*(original_mask.sum(-1)>255)[:,:,np.newaxis]
	masked_image = original_image * (1-mask)

	init_image = Image.fromarray(masked_image.astype(np.uint8)).convert("RGB")
	mask_image = Image.fromarray(original_mask.astype(np.uint8)).convert("RGB")

	generator = torch.Generator("cpu").manual_seed(random.randint(0,2147483647) if randomize_seed else seed)

	image = pipe(
	[prompt]*2,
	init_image,
	mask_image,
	num_inference_steps=num_inference_steps,
	guidance_scale=guidance_scale,
	generator=generator,
	brushnet_conditioning_scale=float(control_strength),
	negative_prompt=[negative_prompt]*2,
	).images

	if blended:
	if control_strength<1.0:
	raise gr.Error('Using blurred blending with control strength less than 1.0 is not allowed')
	blended_image=[]
	# blur, you can adjust the parameters for better performance
	mask_blurred = cv2.GaussianBlur(mask*255, (21, 21), 0)/255
	mask_blurred = mask_blurred[:,:,np.newaxis]
	mask = 1-(1-mask) * (1-mask_blurred)
	for image_i in image:
	image_np=np.array(image_i)
	image_pasted=original_image * (1-mask) + image_np*mask

	image_pasted=image_pasted.astype(image_np.dtype)
	blended_image.append(Image.fromarray(image_pasted))

	image=blended_image

	return image

	block = gr.Blocks(
	theme=gr.themes.Soft(
	radius_size=gr.themes.sizes.radius_none,
	text_size=gr.themes.sizes.text_md
	)
	).queue()
	with block:
	with gr.Row():
	with gr.Column():

	gr.HTML(f"""
	<div style="text-align: center;">
	<h1>BrushNet: A Plug-and-Play Image Inpainting Model with Decomposed Dual-Branch Diffusion</h1>
	<div style="display: flex; justify-content: center; align-items: center; text-align: center;">
	<a href=""></a>
	<a href='https://tencentarc.github.io/BrushNet/'><img src='https://img.shields.io/badge/Project_Page-BrushNet-green' alt='Project Page'></a>
	<a href='https://arxiv.org/abs/2403.06976'><img src='https://img.shields.io/badge/Paper-Arxiv-blue'></a>
	</div>
	</br>
	</div>
	""")


	with gr.Accordion(label="🧭 Instructions:", open=True, elem_id="accordion"):
	with gr.Row(equal_height=True):
	gr.Markdown("""
	- ⭐️ <b>step1: </b>Upload or select one image from Example
	- ⭐️ <b>step2: </b>Click on Input-image to select the object to be retained (or upload a white-black Mask image, in which white color indicates the region you want to keep unchanged). You can tick the 'Invert Mask' box to switch region unchanged and change.
	- ⭐️ <b>step3: </b>Input prompt for generating new contents
	- ⭐️ <b>step4: </b>Click Run button
	""")
	with gr.Row():
	with gr.Column():
	with gr.Column(elem_id="Input"):
	with gr.Row():
	with gr.Tabs(elem_classes=["feedback"]):
	with gr.TabItem("Input Image"):
	input_image = gr.Image(type="numpy", label="input",scale=2, height=640)
	original_image = gr.State(value=None)
	original_mask = gr.State(value=None)
	selected_points = gr.State([])
	with gr.Row(elem_id="Seg"):
	radio = gr.Radio(['foreground', 'background'], label='Click to seg: ', value='foreground',scale=2)
	undo_button = gr.Button('Undo seg', elem_id="btnSEG",scale=1)
	prompt = gr.Textbox(label="Prompt", placeholder="Please input your prompt",value='',lines=1)
	negative_prompt = gr.Text(
	label="Negative Prompt",
	max_lines=5,
	placeholder="Please input your negative prompt",
	value='ugly, low quality, amateur, doodle, sketch',lines=1
	)
	with gr.Group():
	with gr.Row():
	blending = gr.Checkbox(label="Blurred Blending", value=False)
	invert_mask = gr.Checkbox(label="Invert Mask", value=True)
	run_button = gr.Button("Run",elem_id="btn")

	with gr.Accordion("More input params (highly-recommended)", open=False, elem_id="accordion1"):
	control_strength = gr.Slider(
	label="Control Strength: ", show_label=True, minimum=0, maximum=1.1, value=1, step=0.01
	)
	with gr.Group():
	seed = gr.Slider(
	label="Seed: ", minimum=0, maximum=2147483647, step=1, value=694201337
	)
	randomize_seed = gr.Checkbox(label="Randomize seed", value=False)

	with gr.Group():
	with gr.Row():
	guidance_scale = gr.Slider(
	label="Guidance scale",
	minimum=1,
	maximum=12,
	step=0.1,
	value=3.5,
	)
	num_inference_steps = gr.Slider(
	label="Number of inference steps",
	minimum=1,
	maximum=100,
	step=1,
	value=50,
	)
	with gr.Row(elem_id="Image"):
	with gr.Tabs(elem_classes=["feedback1"]):
	with gr.TabItem("User-specified Mask Image (Optional)"):
	input_mask = gr.Image(type="numpy", label="Mask Image", height=640)

	with gr.Column():
	with gr.Tabs(elem_classes=["feedback"]):
	with gr.TabItem("Outputs"):
	result_gallery = gr.Gallery(label='Output', show_label=False, elem_id="gallery", preview=True)
	with gr.Row():
	def process_example(input_image, prompt, input_mask, original_image, selected_points,result_gallery): #
	return input_image, prompt, input_mask, original_image, [], result_gallery
	example = gr.Examples(
	label="Input Example",
	examples=image_examples,
	inputs=[input_image, prompt, input_mask, original_image, selected_points,result_gallery],
	outputs=[input_image, prompt, input_mask, original_image, selected_points],
	fn=process_example,
	run_on_click=True,
	examples_per_page=10
	)

	# once user upload an image, the original image is stored in `original_image`
	def store_img(img):
	# image upload is too slow
	if min(img.shape[0], img.shape[1]) > 512:
	img = resize_image(img, 512)
	if max(img.shape[0], img.shape[1])*1.0/min(img.shape[0], img.shape[1])>2.0:
	raise gr.Error('image aspect ratio cannot be larger than 2.0')
	return img, img, [], None # when new image is uploaded, `selected_points` should be empty

	input_image.upload(
	store_img,
	[input_image],
	[input_image, original_image, selected_points]
	)

	# user click the image to get points, and show the points on the image
	def segmentation(img, sel_pix):
	# online show seg mask
	points = []
	labels = []
	for p, l in sel_pix:
	points.append(p)
	labels.append(l)
	mobile_predictor.set_image(img if isinstance(img, np.ndarray) else np.array(img))
	with torch.no_grad():
	masks, _, _ = mobile_predictor.predict(point_coords=np.array(points), point_labels=np.array(labels), multimask_output=False)

	output_mask = np.ones((masks.shape[1], masks.shape[2], 3))*255
	for i in range(3):
	output_mask[masks[0] == True, i] = 0.0

	mask_all = np.ones((masks.shape[1], masks.shape[2], 3))
	color_mask = np.random.random((1, 3)).tolist()[0]
	for i in range(3):
	mask_all[masks[0] == True, i] = color_mask[i]
	masked_img = img / 255 * 0.3 + mask_all * 0.7
	masked_img = masked_img*255
	## draw points
	for point, label in sel_pix:
	cv2.drawMarker(masked_img, point, colors[label], markerType=markers[label], markerSize=20, thickness=5)
	return masked_img, output_mask

	def get_point(img, sel_pix, point_type, evt: gr.SelectData):
	if point_type == 'foreground':
	sel_pix.append((evt.index, 1)) # append the foreground_point
	elif point_type == 'background':
	sel_pix.append((evt.index, 0)) # append the background_point
	else:
	sel_pix.append((evt.index, 1)) # default foreground_point

	if isinstance(img, int):
	image_name = image_examples[img][0]
	img = cv2.imread(image_name)
	img = cv2.cvtColor(img, cv2.COLOR_BGR2RGB)

	# online show seg mask
	masked_img, output_mask = segmentation(img, sel_pix)
	return masked_img.astype(np.uint8), output_mask

	input_image.select(
	get_point,
	[original_image, selected_points, radio],
	[input_image, original_mask],
	)

	# undo the selected point
	def undo_points(orig_img, sel_pix):
	# draw points
	output_mask = None
	if len(sel_pix) != 0:
	if isinstance(orig_img, int): # if orig_img is int, select the image from examples
	temp = cv2.imread(image_examples[orig_img][0])
	temp = cv2.cvtColor(temp, cv2.COLOR_BGR2RGB)
	else:
	temp = orig_img.copy()
	sel_pix.pop()
	# online show seg mask
	if len(sel_pix) !=0:
	temp, output_mask = segmentation(temp, sel_pix)
	return temp.astype(np.uint8), output_mask
	else:
	gr.Error("Nothing to Undo")

	undo_button.click(
	undo_points,
	[original_image, selected_points],
	[input_image, original_mask]
	)

	ips=[input_image, original_image, original_mask, input_mask, selected_points, prompt, negative_prompt, blending, invert_mask, control_strength, seed, randomize_seed, guidance_scale, num_inference_steps]
	run_button.click(fn=process, inputs=ips, outputs=[result_gallery])


	block.launch()