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import os | |
import random | |
import textwrap | |
import cv2 | |
import gradio as gr | |
import numpy as np | |
from PIL import Image | |
from cv2.ximgproc import guidedFilter | |
from imgutils.data import load_image | |
from imgutils.restore import restore_with_nafnet, restore_with_scunet | |
def dynamic_clean_adverse( | |
input_image: Image.Image, | |
diameter_min: int = 4, | |
diameter_max: int = 6, | |
sigma_color_min: float = 6.0, | |
sigma_color_max: float = 10.0, | |
sigma_space_min: float = 6.0, | |
sigma_space_max: float = 10.0, | |
radius_min: int = 3, | |
radius_max: int = 6, | |
eps_min: float = 16.0, | |
eps_max: float = 24.0, | |
b_iters: int = 64, | |
g_iters: int = 4, | |
): | |
img = np.array(input_image).astype(np.float32) | |
y = img.copy() | |
for _ in range(b_iters): | |
diameter = random.randint(diameter_min, diameter_max) | |
sigma_color = random.random() * (sigma_color_max - sigma_color_min) + sigma_color_min | |
sigma_space = random.random() * (sigma_space_max - sigma_space_min) + sigma_space_min | |
y = cv2.bilateralFilter(y, diameter, sigma_color, sigma_space) | |
for _ in range(g_iters): | |
radius = random.randint(radius_min, radius_max) | |
eps = random.random() * (eps_max - eps_min) + eps_min | |
y = guidedFilter(img, y, radius, eps) | |
output_image = Image.fromarray(y.clip(0, 255).astype(np.uint8)) | |
return output_image | |
def clean( | |
image: Image.Image, | |
diameter_min: int = 4, | |
diameter_max: int = 6, | |
sigma_color_min: float = 6.0, | |
sigma_color_max: float = 10.0, | |
sigma_space_min: float = 6.0, | |
sigma_space_max: float = 10.0, | |
radius_min: int = 3, | |
radius_max: int = 6, | |
eps_min: float = 16.0, | |
eps_max: float = 24.0, | |
b_iters: int = 64, | |
g_iters: int = 4, | |
use_scunet_clean: bool = False, | |
use_nafnet_clean: bool = False | |
) -> Image.Image: | |
image = load_image(image) | |
image = dynamic_clean_adverse( | |
image, | |
diameter_min, diameter_max, | |
sigma_color_min, sigma_color_max, | |
sigma_space_min, sigma_space_max, | |
radius_min, radius_max, | |
eps_min, eps_max, | |
b_iters, g_iters | |
) | |
if use_scunet_clean: | |
image = restore_with_scunet(image) | |
if use_nafnet_clean: | |
image = restore_with_nafnet(image) | |
return image | |
if __name__ == '__main__': | |
with gr.Blocks() as demo: | |
with gr.Row(): | |
gr_markdown = gr.Markdown(textwrap.dedent(""" | |
Cleaner for [MIST](https://github.com/mist-project/mist-v2)(**M**IST **I**s **S**tupid **T**rash) noises. | |
Inspired by https://github.com/lllyasviel/AdverseCleaner | |
* **Update 2023.12.18**, allow random dynamic adversarial clean and iterate steps. | |
""").strip()) | |
with gr.Row(): | |
with gr.Column(): | |
gr_input_image = gr.Image(label='Input Image', type="pil") | |
gr_submit = gr.Button(value='MIST = MIST is Stupid Trash', variant='primary') | |
with gr.Accordion("Advanced Config", open=False): | |
with gr.Row(): | |
gr_diameter_min = gr.Slider( | |
minimum=1, maximum=30, step=1, value=4, | |
label="Diameter Min (default = 4)", interactive=True, | |
) | |
gr_diameter_max = gr.Slider( | |
minimum=1, maximum=30, step=1, value=6, | |
label="Diameter Max (default = 6)", interactive=True, | |
) | |
with gr.Row(): | |
gr_sigma_color_min = gr.Slider( | |
minimum=1, maximum=30, step=1, value=6, | |
label="SigmaColor Min (default = 6)", interactive=True, | |
) | |
gr_sigma_color_max = gr.Slider( | |
minimum=1, maximum=30, step=1, value=10, | |
label="SigmaColor Max (default = 10)", interactive=True, | |
) | |
with gr.Row(): | |
gr_sigma_space_min = gr.Slider( | |
minimum=1, maximum=30, step=1, value=6, | |
label="SigmaSpace Min (default = 6)", interactive=True, | |
) | |
gr_sigma_space_max = gr.Slider( | |
minimum=1, maximum=30, step=1, value=10, | |
label="SigmaSpace Max (default = 10)", interactive=True, | |
) | |
with gr.Row(): | |
gr_radius_min = gr.Slider( | |
minimum=1, maximum=30, step=1, value=3, | |
label="Radius Min (default = 3)", interactive=True, | |
) | |
gr_radius_max = gr.Slider( | |
minimum=1, maximum=30, step=1, value=6, | |
label="Radius Max (default = 6)", interactive=True, | |
) | |
with gr.Row(): | |
gr_eps_min = gr.Slider( | |
minimum=1, maximum=30, step=1, value=16, | |
label="Accuracy Min (default = 16)", interactive=True, | |
) | |
gr_eps_max = gr.Slider( | |
minimum=1, maximum=30, step=1, value=24, | |
label="Accuracy Max (default = 24)", interactive=True, | |
) | |
with gr.Row(): | |
gr_b_iters = gr.Slider( | |
minimum=1, maximum=256, step=1, value=64, | |
label="Bilateral Filter Iters (default = 64)", interactive=True, | |
) | |
gr_g_iters = gr.Slider( | |
minimum=1, maximum=32, step=1, value=4, | |
label="Guided Filter Iters (default = 4)", interactive=True, | |
) | |
with gr.Accordion("Extra Restoration", open=False): | |
with gr.Row(): | |
gr_scunet = gr.Checkbox(label='Use SCUNET', value=False) | |
gr_nafnet = gr.Checkbox(label='Use NAFNET', value=False) | |
with gr.Column(): | |
gr_output_image = gr.Image(label='Output Image', type="pil") | |
gr_submit.click( | |
fn=clean, | |
inputs=[ | |
gr_input_image, | |
gr_diameter_min, | |
gr_diameter_max, | |
gr_sigma_color_min, | |
gr_sigma_color_max, | |
gr_sigma_space_min, | |
gr_sigma_space_max, | |
gr_radius_min, | |
gr_radius_max, | |
gr_eps_min, | |
gr_eps_max, | |
gr_b_iters, | |
gr_g_iters, | |
gr_scunet, | |
gr_nafnet, | |
], | |
outputs=[gr_output_image], | |
) | |
demo.queue(os.cpu_count()).launch() | |