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import gradio as gr | |
import numpy as np | |
import time | |
import math | |
import random | |
import imageio | |
import torch | |
from diffusers import StableDiffusionXLInpaintPipeline | |
from PIL import Image, ImageFilter | |
max_64_bit_int = 2**63 - 1 | |
device = "cuda" if torch.cuda.is_available() else "cpu" | |
floatType = torch.float16 if torch.cuda.is_available() else torch.float32 | |
variant = "fp16" if torch.cuda.is_available() else None | |
pipe = StableDiffusionXLInpaintPipeline.from_pretrained("diffusers/stable-diffusion-xl-1.0-inpainting-0.1", torch_dtype = floatType, variant = variant) | |
pipe = pipe.to(device) | |
def update_seed(is_randomize_seed, seed): | |
if is_randomize_seed: | |
return random.randint(0, max_64_bit_int) | |
return seed | |
def toggle_debug(is_debug_mode): | |
if is_debug_mode: | |
return [gr.update(visible = True)] * 3 | |
return [gr.update(visible = False)] * 3 | |
def noise_color(color, noise): | |
return color + random.randint(- noise, noise) | |
def check( | |
input_image, | |
enlarge_top, | |
enlarge_right, | |
enlarge_bottom, | |
enlarge_left, | |
prompt, | |
negative_prompt, | |
smooth_border, | |
num_inference_steps, | |
guidance_scale, | |
image_guidance_scale, | |
strength, | |
denoising_steps, | |
seed, | |
debug_mode, | |
progress = gr.Progress()): | |
if input_image is None: | |
raise gr.Error("Please provide an image.") | |
if prompt is None or prompt == "": | |
raise gr.Error("Please provide a prompt input.") | |
if (not (enlarge_top is None)) and enlarge_top < 0: | |
raise gr.Error("Please provide positive top margin.") | |
if (not (enlarge_right is None)) and enlarge_right < 0: | |
raise gr.Error("Please provide positive right margin.") | |
if (not (enlarge_bottom is None)) and enlarge_bottom < 0: | |
raise gr.Error("Please provide positive bottom margin.") | |
if (not (enlarge_left is None)) and enlarge_left < 0: | |
raise gr.Error("Please provide positive left margin.") | |
if ( | |
(enlarge_top is None or enlarge_top == 0) | |
and (enlarge_right is None or enlarge_right == 0) | |
and (enlarge_bottom is None or enlarge_bottom == 0) | |
and (enlarge_left is None or enlarge_left == 0) | |
): | |
raise gr.Error("At least one border must be enlarged.") | |
def uncrop( | |
input_image, | |
enlarge_top, | |
enlarge_right, | |
enlarge_bottom, | |
enlarge_left, | |
prompt, | |
negative_prompt, | |
smooth_border, | |
num_inference_steps, | |
guidance_scale, | |
image_guidance_scale, | |
strength, | |
denoising_steps, | |
seed, | |
debug_mode, | |
progress = gr.Progress()): | |
check( | |
input_image, | |
enlarge_top, | |
enlarge_right, | |
enlarge_bottom, | |
enlarge_left, | |
prompt, | |
negative_prompt, | |
smooth_border, | |
num_inference_steps, | |
guidance_scale, | |
image_guidance_scale, | |
strength, | |
denoising_steps, | |
seed, | |
debug_mode | |
) | |
start = time.time() | |
progress(0, desc = "Preparing data...") | |
if enlarge_top is None or enlarge_top == "": | |
enlarge_top = 0 | |
if enlarge_right is None or enlarge_right == "": | |
enlarge_right = 0 | |
if enlarge_bottom is None or enlarge_bottom == "": | |
enlarge_bottom = 0 | |
if enlarge_left is None or enlarge_left == "": | |
enlarge_left = 0 | |
if negative_prompt is None: | |
negative_prompt = "" | |
if smooth_border is None: | |
smooth_border = 0 | |
if num_inference_steps is None: | |
num_inference_steps = 50 | |
if guidance_scale is None: | |
guidance_scale = 7 | |
if image_guidance_scale is None: | |
image_guidance_scale = 1.5 | |
if strength is None: | |
strength = 0.99 | |
if denoising_steps is None: | |
denoising_steps = 1000 | |
if seed is None: | |
seed = random.randint(0, max_64_bit_int) | |
random.seed(seed) | |
torch.manual_seed(seed) | |
original_height, original_width, original_channel = np.array(input_image).shape | |
output_width = enlarge_left + original_width + enlarge_right | |
output_height = enlarge_top + original_height + enlarge_bottom | |
# Enlarged image | |
enlarged_image = Image.new(mode = input_image.mode, size = (original_width, original_height), color = "black") | |
enlarged_image.paste(input_image, (0, 0)) | |
enlarged_image = enlarged_image.resize((output_width, output_height)) | |
enlarged_image = enlarged_image.filter(ImageFilter.BoxBlur(20)) | |
enlarged_image.paste(input_image, (enlarge_left, enlarge_top)) | |
horizontally_mirrored_input_image = input_image.transpose(Image.FLIP_LEFT_RIGHT).resize((original_width * 2, original_height)) | |
enlarged_image.paste(horizontally_mirrored_input_image, (enlarge_left - (original_width * 2), enlarge_top)) | |
enlarged_image.paste(horizontally_mirrored_input_image, (enlarge_left + original_width, enlarge_top)) | |
vertically_mirrored_input_image = input_image.transpose(Image.FLIP_TOP_BOTTOM).resize((original_width, original_height * 2)) | |
enlarged_image.paste(vertically_mirrored_input_image, (enlarge_left, enlarge_top - (original_height * 2))) | |
enlarged_image.paste(vertically_mirrored_input_image, (enlarge_left, enlarge_top + original_height)) | |
returned_input_image = input_image.transpose(Image.ROTATE_180).resize((original_width * 2, original_height * 2)) | |
enlarged_image.paste(returned_input_image, (enlarge_left - (original_width * 2), enlarge_top - (original_height * 2))) | |
enlarged_image.paste(returned_input_image, (enlarge_left - (original_width * 2), enlarge_top + original_height)) | |
enlarged_image.paste(returned_input_image, (enlarge_left + original_width, enlarge_top - (original_height * 2))) | |
enlarged_image.paste(returned_input_image, (enlarge_left + original_width, enlarge_top + original_height)) | |
enlarged_image = enlarged_image.filter(ImageFilter.BoxBlur(20)) | |
# Noise image | |
noise_image = Image.new(mode = input_image.mode, size = (output_width, output_height), color = "black") | |
enlarged_pixels = enlarged_image.load() | |
for i in range(output_width): | |
for j in range(output_height): | |
enlarged_pixel = enlarged_pixels[i, j] | |
noise = min(max(enlarge_left - i, i - (enlarge_left + original_width), enlarge_top - j, j - (enlarge_top + original_height), 0), 255) | |
noise_image.putpixel((i, j), (noise_color(enlarged_pixel[0], noise), noise_color(enlarged_pixel[1], noise), noise_color(enlarged_pixel[2], noise), 255)) | |
enlarged_image.paste(noise_image, (0, 0)) | |
enlarged_image.paste(input_image, (enlarge_left, enlarge_top)) | |
# Mask | |
mask_image = Image.new(mode = input_image.mode, size = (output_width, output_height), color = (255, 255, 255, 0)) | |
black_mask = Image.new(mode = input_image.mode, size = (original_width - smooth_border, original_height - smooth_border), color = (0, 0, 0, 0)) | |
mask_image.paste(black_mask, (enlarge_left + (smooth_border // 2), enlarge_top + (smooth_border // 2))) | |
mask_image = mask_image.filter(ImageFilter.BoxBlur((smooth_border // 2))) | |
# Limited to 1 million pixels | |
if 1024 * 1024 < output_width * output_height: | |
factor = ((1024 * 1024) / (output_width * output_height))**0.5 | |
process_width = math.floor(output_width * factor) | |
process_height = math.floor(output_height * factor) | |
limitation = " Due to technical limitation, the image have been downscaled and then upscaled."; | |
else: | |
process_width = output_width | |
process_height = output_height | |
limitation = ""; | |
# Width and height must be multiple of 8 | |
if (process_width % 8) != 0 or (process_height % 8) != 0: | |
if ((process_width - (process_width % 8) + 8) * (process_height - (process_height % 8) + 8)) <= (1024 * 1024): | |
process_width = process_width - (process_width % 8) + 8 | |
process_height = process_height - (process_height % 8) + 8 | |
elif (process_height % 8) <= (process_width % 8) and ((process_width - (process_width % 8) + 8) * process_height) <= (1024 * 1024): | |
process_width = process_width - (process_width % 8) + 8 | |
process_height = process_height - (process_height % 8) | |
elif (process_width % 8) <= (process_height % 8) and (process_width * (process_height - (process_height % 8) + 8)) <= (1024 * 1024): | |
process_width = process_width - (process_width % 8) | |
process_height = process_height - (process_height % 8) + 8 | |
else: | |
process_width = process_width - (process_width % 8) | |
process_height = process_height - (process_height % 8) | |
progress(None, desc = "Processing...") | |
output_image = pipe( | |
seeds = [seed], | |
width = process_width, | |
height = process_height, | |
prompt = prompt, | |
negative_prompt = negative_prompt, | |
image = enlarged_image, | |
mask_image = mask_image, | |
num_inference_steps = num_inference_steps, | |
guidance_scale = guidance_scale, | |
image_guidance_scale = image_guidance_scale, | |
strength = strength, | |
denoising_steps = denoising_steps, | |
show_progress_bar = True | |
).images[0] | |
if limitation != "": | |
output_image = output_image.resize((output_width, output_height)) | |
if debug_mode == False: | |
input_image = None | |
enlarged_image = None | |
mask_image = None | |
end = time.time() | |
secondes = int(end - start) | |
minutes = secondes // 60 | |
secondes = secondes - (minutes * 60) | |
hours = minutes // 60 | |
minutes = minutes - (hours * 60) | |
return [ | |
output_image, | |
"Start again to get a different result. The new image is " + str(output_width) + " pixels large and " + str(output_height) + " pixels high, so an image of " + f'{output_width * output_height:,}' + " pixels. The image have been generated in " + str(hours) + " h, " + str(minutes) + " min, " + str(secondes) + " sec." + limitation, | |
input_image, | |
enlarged_image, | |
mask_image | |
] | |
with gr.Blocks() as interface: | |
gr.Markdown( | |
""" | |
<p style="text-align: center;"><b><big><big><big>Uncrop</big></big></big></b></p> | |
<p style="text-align: center;">Enlarges the point of view of your image, freely, without account, without watermark, without installation, which can be downloaded</p> | |
<br/> | |
<br/> | |
🚀 Powered by <i>SDXL 1.0</i> artificial intellingence. For illustration purpose, not information purpose. The new content is not based on real information but imagination. | |
<br/> | |
<ul> | |
<li>To change the <b>view angle</b> of your image, I recommend to use <i>Zero123</i>,</li> | |
<li>To <b>upscale</b> your image, I recommend to use <i>Ilaria Upscaler</i>,</li> | |
<li>To <b>slightly change</b> your image, I recommend to use <i>Image-to-Image SDXL</i>,</li> | |
<li>To change <b>one detail</b> on your image, I recommend to use <i>Inpaint SDXL</i>,</li> | |
<li>To remove the <b>background</b> of your image, I recommend to use <i>BRIA</i>,</li> | |
<li>To make a <b>tile</b> of your image, I recommend to use <i>Make My Image Tile</i>,</li> | |
<li>To modify <b>anything else</b> on your image, I recommend to use <i>Instruct Pix2Pix</i>.</li> | |
</ul> | |
<br/> | |
🐌 Slow process... ~1 hour. Your computer must not enter into standby mode.<br/>You can duplicate this space on a free account, it works on CPU and should also run on CUDA.<br/> | |
<a href='https://huggingface.co/spaces/Fabrice-TIERCELIN/Uncrop?duplicate=true'><img src='https://img.shields.io/badge/-Duplicate%20Space-blue?labelColor=white&style=flat&logo=data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAABAAAAAQCAYAAAAf8/9hAAAAAXNSR0IArs4c6QAAAP5JREFUOE+lk7FqAkEURY+ltunEgFXS2sZGIbXfEPdLlnxJyDdYB62sbbUKpLbVNhyYFzbrrA74YJlh9r079973psed0cvUD4A+4HoCjsA85X0Dfn/RBLBgBDxnQPfAEJgBY+A9gALA4tcbamSzS4xq4FOQAJgCDwV2CPKV8tZAJcAjMMkUe1vX+U+SMhfAJEHasQIWmXNN3abzDwHUrgcRGmYcgKe0bxrblHEB4E/pndMazNpSZGcsZdBlYJcEL9Afo75molJyM2FxmPgmgPqlWNLGfwZGG6UiyEvLzHYDmoPkDDiNm9JR9uboiONcBXrpY1qmgs21x1QwyZcpvxt9NS09PlsPAAAAAElFTkSuQmCC&logoWidth=14'></a> | |
<br/> | |
⚖️ You can use, modify and share the generated images but not for commercial uses. | |
""" | |
) | |
with gr.Row(): | |
with gr.Column(): | |
dummy_1 = gr.Label(visible = False) | |
with gr.Column(): | |
enlarge_top = gr.Number(minimum = 0, value = 64, precision = 0, label = "Enlarge on top ⬆️", info = "in pixels") | |
with gr.Column(): | |
dummy_2 = gr.Label(visible = False) | |
with gr.Row(): | |
with gr.Column(): | |
enlarge_left = gr.Number(minimum = 0, value = 64, precision = 0, label = "Enlarge on left ⬅️", info = "in pixels") | |
with gr.Column(): | |
input_image = gr.Image(label = "Your image", sources = ["upload", "webcam", "clipboard"], type = "pil") | |
with gr.Column(): | |
enlarge_right = gr.Number(minimum = 0, value = 64, precision = 0, label = "Enlarge on right ➡️", info = "in pixels") | |
with gr.Row(): | |
with gr.Column(): | |
dummy_3 = gr.Label(visible = False) | |
with gr.Column(): | |
enlarge_bottom = gr.Number(minimum = 0, value = 64, precision = 0, label = "Enlarge on bottom ⬇️", info = "in pixels") | |
with gr.Column(): | |
dummy_4 = gr.Label(visible = False) | |
with gr.Row(): | |
prompt = gr.Textbox(label = 'Prompt', info = "Describe the subject, the background and the style of image; 77 token limit", placeholder = 'Describe what you want to see in the entire image') | |
with gr.Row(): | |
with gr.Accordion("Advanced options", open = False): | |
negative_prompt = gr.Textbox(label = 'Negative prompt', placeholder = 'Describe what you do NOT want to see in the entire image', value = 'Border, frame, painting, scribbling, smear, noise, blur, watermark') | |
smooth_border = gr.Slider(minimum = 0, maximum = 1024, value = 0, step = 2, label = "Smooth border", info = "lower=preserve original, higher=seamless") | |
num_inference_steps = gr.Slider(minimum = 10, maximum = 100, value = 50, step = 1, label = "Number of inference steps", info = "lower=faster, higher=image quality") | |
guidance_scale = gr.Slider(minimum = 1, maximum = 13, value = 7, step = 0.1, label = "Classifier-Free Guidance Scale", info = "lower=image quality, higher=follow the prompt") | |
image_guidance_scale = gr.Slider(minimum = 1, value = 1.5, step = 0.1, label = "Image Guidance Scale", info = "lower=image quality, higher=follow the image") | |
strength = gr.Slider(value = 0.99, minimum = 0.01, maximum = 1.0, step = 0.01, label = "Strength", info = "lower=follow the original area (discouraged), higher=redraw from scratch") | |
denoising_steps = gr.Number(minimum = 0, value = 1000, step = 1, label = "Denoising", info = "lower=irrelevant result, higher=relevant result") | |
randomize_seed = gr.Checkbox(label = "\U0001F3B2 Randomize seed", value = True, info = "If checked, result is always different") | |
seed = gr.Slider(minimum = 0, maximum = max_64_bit_int, step = 1, randomize = True, label = "Seed") | |
debug_mode = gr.Checkbox(label = "Debug mode", value = False, info = "Show intermediate results") | |
with gr.Row(): | |
submit = gr.Button("Uncrop", variant = "primary") | |
with gr.Row(): | |
uncropped_image = gr.Image(label = "Uncropped image") | |
with gr.Row(): | |
information = gr.Label(label = "Information") | |
with gr.Row(): | |
original_image = gr.Image(label = "Original image", visible = False) | |
with gr.Row(): | |
enlarged_image = gr.Image(label = "Enlarged image", visible = False) | |
with gr.Row(): | |
mask_image = gr.Image(label = "Mask image", visible = False) | |
submit.click(fn = update_seed, inputs = [ | |
randomize_seed, | |
seed | |
], outputs = [ | |
seed | |
], queue = False, show_progress = False).then(toggle_debug, debug_mode, [ | |
original_image, | |
enlarged_image, | |
mask_image | |
], queue = False, show_progress = False).then(check, inputs = [ | |
input_image, | |
enlarge_top, | |
enlarge_right, | |
enlarge_bottom, | |
enlarge_left, | |
prompt, | |
negative_prompt, | |
smooth_border, | |
num_inference_steps, | |
guidance_scale, | |
image_guidance_scale, | |
strength, | |
denoising_steps, | |
seed, | |
debug_mode | |
], outputs = [], queue = False, | |
show_progress = False).success(uncrop, inputs = [ | |
input_image, | |
enlarge_top, | |
enlarge_right, | |
enlarge_bottom, | |
enlarge_left, | |
prompt, | |
negative_prompt, | |
smooth_border, | |
num_inference_steps, | |
guidance_scale, | |
image_guidance_scale, | |
strength, | |
denoising_steps, | |
seed, | |
debug_mode | |
], outputs = [ | |
uncropped_image, | |
information, | |
original_image, | |
enlarged_image, | |
mask_image | |
], scroll_to_output = True) | |
gr.Examples( | |
fn = uncrop, | |
inputs = [ | |
input_image, | |
enlarge_top, | |
enlarge_right, | |
enlarge_bottom, | |
enlarge_left, | |
prompt, | |
negative_prompt, | |
smooth_border, | |
num_inference_steps, | |
guidance_scale, | |
image_guidance_scale, | |
strength, | |
denoising_steps, | |
seed, | |
debug_mode | |
], | |
outputs = [ | |
uncropped_image, | |
information, | |
original_image, | |
enlarged_image, | |
mask_image | |
], | |
examples = [ | |
[ | |
"./Examples/Example1.webp", | |
1024, | |
1024, | |
1024, | |
1024, | |
"A woman, black hair, nowadays, in the street, ultrarealistic, realistic, photorealistic, 8k", | |
"Border, frame, painting, drawing, cartoon, 3d, scribbling, smear, noise, blur, watermark", | |
0, | |
50, | |
7, | |
1.5, | |
0.99, | |
1000, | |
42, | |
False | |
], | |
[ | |
"./Examples/Example2.png", | |
1024, | |
1024, | |
1024, | |
1024, | |
"A man, jumping in the air, outside, ultrarealistic, realistic, photorealistic, 8k", | |
"Border, frame, painting, drawing, cartoon, 3d, scribbling, smear, noise, blur, watermark", | |
0, | |
50, | |
7, | |
1.5, | |
0.99, | |
1000, | |
42, | |
False | |
], | |
[ | |
"./Examples/Example3.jpg", | |
0, | |
512, | |
0, | |
512, | |
"An old yellow car, in a town, ultrarealistic, realistic, photorealistic, 8k", | |
"Border, frame, painting, drawing, cartoon, 3d, scribbling, smear, noise, blur, watermark", | |
0, | |
50, | |
7, | |
1.5, | |
0.99, | |
1000, | |
42, | |
False | |
], | |
], | |
cache_examples = False, | |
) | |
gr.Markdown( | |
""" | |
## How to prompt your image | |
To easily read your prompt, start with the subject, then describ the pose or action, then secondary elements, then the background, then the graphical style, then the image quality: | |
``` | |
A Vietnamese woman, red clothes, walking, smilling, in the street, a car on the left, in a modern city, photorealistic, 8k | |
``` | |
You can use round brackets to increase the importance of a part: | |
``` | |
A Vietnamese woman, (red clothes), walking, smilling, in the street, a car on the left, in a modern city, photorealistic, 8k | |
``` | |
You can use several levels of round brackets to even more increase the importance of a part: | |
``` | |
A Vietnamese woman, ((red clothes)), (walking), smilling, in the street, a car on the left, in a modern city, photorealistic, 8k | |
``` | |
You can use number instead of several round brackets: | |
``` | |
A Vietnamese woman, (red clothes:1.5), (walking), smilling, in the street, a car on the left, in a modern city, photorealistic, 8k | |
``` | |
You can do the same thing with square brackets to decrease the importance of a part: | |
``` | |
A [Vietnamese] woman, (red clothes:1.5), (walking), smilling, in the street, a car on the left, in a modern city, photorealistic, 8k | |
``` | |
To easily read your negative prompt, organize it the same way as your prompt (not important for the AI): | |
``` | |
man, boy, hat, running, tree, bicycle, forest, drawing, painting, cartoon, 3d, monochrome, blurry, noisy, bokeh | |
``` | |
""" | |
) | |
interface.queue().launch() |