onnx-web/api/onnx_web/image.py

from numpy import random
from PIL import Image, ImageChops, ImageFilter
from typing import Tuple

import numpy as np

from .utils import (
    Border,
    Point,
)


def get_pixel_index(x: int, y: int, width: int) -> int:
    return (y * width) + x


def mask_filter_none(mask_image: Image, dims: Point, origin: Point, fill='white', **kw) -> Image:
    width, height = dims

    noise = Image.new('RGB', (width, height), fill)
    noise.paste(mask_image, origin)

    return noise


def mask_filter_gaussian_multiply(mask_image: Image, dims: Point, origin: Point, rounds=3, **kw) -> Image:
    '''
    Gaussian blur with multiply, source image centered on white canvas.
    '''
    noise = mask_filter_none(mask_image, dims, origin)

    for i in range(rounds):
        blur = noise.filter(ImageFilter.GaussianBlur(5))
        noise = ImageChops.multiply(noise, blur)

    return noise


def mask_filter_gaussian_screen(mask_image: Image, dims: Point, origin: Point, rounds=3, **kw) -> Image:
    '''
    Gaussian blur, source image centered on white canvas.
    '''
    noise = mask_filter_none(mask_image, dims, origin)

    for i in range(rounds):
        blur = noise.filter(ImageFilter.GaussianBlur(5))
        noise = ImageChops.screen(noise, blur)

    return noise


def noise_source_fill_edge(source_image: Image, dims: Point, origin: Point, fill='white', **kw) -> Image:
    '''
    Identity transform, source image centered on white canvas.
    '''
    width, height = dims

    noise = Image.new('RGB', (width, height), fill)
    noise.paste(source_image, origin)

    return noise


def noise_source_fill_mask(source_image: Image, dims: Point, origin: Point, fill='white', **kw) -> Image:
    '''
    Fill the whole canvas, no source or noise.
    '''
    width, height = dims

    noise = Image.new('RGB', (width, height), fill)

    return noise


def noise_source_gaussian(source_image: Image, dims: Point, origin: Point, rounds=3, **kw) -> Image:
    '''
    Gaussian blur, source image centered on white canvas.
    '''
    noise = noise_source_uniform(source_image, dims, origin)
    noise.paste(source_image, origin)

    for i in range(rounds):
        noise = noise.filter(ImageFilter.GaussianBlur(5))

    return noise


def noise_source_uniform(source_image: Image, dims: Point, origin: Point, **kw) -> Image:
    width, height = dims
    size = width * height

    noise_r = random.uniform(0, 256, size=size)
    noise_g = random.uniform(0, 256, size=size)
    noise_b = random.uniform(0, 256, size=size)

    noise = Image.new('RGB', (width, height))

    for x in range(width):
        for y in range(height):
            i = get_pixel_index(x, y, width)
            noise.putpixel((x, y), (
                int(noise_r[i]),
                int(noise_g[i]),
                int(noise_b[i])
            ))

    return noise


def noise_source_normal(source_image: Image, dims: Point, origin: Point, **kw) -> Image:
    width, height = dims
    size = width * height

    noise_r = random.normal(128, 32, size=size)
    noise_g = random.normal(128, 32, size=size)
    noise_b = random.normal(128, 32, size=size)

    noise = Image.new('RGB', (width, height))

    for x in range(width):
        for y in range(height):
            i = get_pixel_index(x, y, width)
            noise.putpixel((x, y), (
                int(noise_r[i]),
                int(noise_g[i]),
                int(noise_b[i])
            ))

    return noise


def noise_source_histogram(source_image: Image, dims: Point, origin: Point, **kw) -> Image:
    r, g, b = source_image.split()
    width, height = dims
    size = width * height

    hist_r = r.histogram()
    hist_g = g.histogram()
    hist_b = b.histogram()

    noise_r = random.choice(256, p=np.divide(
        np.copy(hist_r), np.sum(hist_r)), size=size)
    noise_g = random.choice(256, p=np.divide(
        np.copy(hist_g), np.sum(hist_g)), size=size)
    noise_b = random.choice(256, p=np.divide(
        np.copy(hist_b), np.sum(hist_b)), size=size)

    noise = Image.new('RGB', (width, height))

    for x in range(width):
        for y in range(height):
            i = get_pixel_index(x, y, width)
            noise.putpixel((x, y), (
                noise_r[i],
                noise_g[i],
                noise_b[i]
            ))

    return noise


# very loosely based on https://github.com/AUTOMATIC1111/stable-diffusion-webui/blob/master/scripts/outpainting_mk_2.py#L175-L232
def expand_image(
        source_image: Image,
        mask_image: Image,
        expand: Border,
        fill='white',
        noise_source=noise_source_histogram,
        mask_filter=mask_filter_none,
):
    full_width = expand.left + source_image.width + expand.right
    full_height = expand.top + source_image.height + expand.bottom

    dims = (full_width, full_height)
    origin = (expand.top, expand.left)

    full_source = Image.new('RGB', dims, fill)
    full_source.paste(source_image, origin)

    full_mask = mask_filter(mask_image, dims, origin, fill=fill)
    full_noise = noise_source(source_image, dims, origin, fill=fill)
    full_noise = ImageChops.multiply(full_noise, full_mask)

    full_source = Image.composite(full_noise, full_source, full_mask.convert('L'))

    return (full_source, full_mask, full_noise, (full_width, full_height))
feat(gui): produce noise based on source image histogram 2023-01-14 21:19:41 +00:00			`from numpy import random`
feat(api): add a mask filter to blend outpainting edges 2023-01-15 15:54:55 +00:00			`from PIL import Image, ImageChops, ImageFilter`
feat(gui): produce noise based on source image histogram 2023-01-14 21:19:41 +00:00			`from typing import Tuple`

			`import numpy as np`

lint(api): add class for params, size, other common data 2023-01-16 01:14:58 +00:00			`from .utils import (`
			`Border,`
			`Point,`
			`)`
feat(api): add normal and uniform noise sources 2023-01-15 03:46:14 +00:00
lint(api): add class for params, size, other common data 2023-01-16 01:14:58 +00:00
fix(api): look up noise coordinates correctly 2023-01-16 13:49:25 +00:00			`def get_pixel_index(x: int, y: int, width: int) -> int:`
			`return (y * width) + x`


feat: add fill color control to inpaint 2023-01-18 14:41:02 +00:00			`def mask_filter_none(mask_image: Image, dims: Point, origin: Point, fill='white', **kw) -> Image:`
feat(api): add a mask filter to blend outpainting edges 2023-01-15 15:54:55 +00:00			`width, height = dims`

fix(api): reduce copies, fix function signatures 2023-01-15 17:09:47 +00:00			`noise = Image.new('RGB', (width, height), fill)`
feat(api): add a mask filter to blend outpainting edges 2023-01-15 15:54:55 +00:00			`noise.paste(mask_image, origin)`

fix(api): reduce copies, fix function signatures 2023-01-15 17:09:47 +00:00			`return noise`


feat: add fill color control to inpaint 2023-01-18 14:41:02 +00:00			`def mask_filter_gaussian_multiply(mask_image: Image, dims: Point, origin: Point, rounds=3, **kw) -> Image:`
feat: add gaussian multiply to mask filters 2023-01-15 20:04:54 +00:00			`'''`
			`Gaussian blur with multiply, source image centered on white canvas.`
			`'''`
			`noise = mask_filter_none(mask_image, dims, origin)`

			`for i in range(rounds):`
			`blur = noise.filter(ImageFilter.GaussianBlur(5))`
			`noise = ImageChops.multiply(noise, blur)`

			`return noise`


feat: add fill color control to inpaint 2023-01-18 14:41:02 +00:00			`def mask_filter_gaussian_screen(mask_image: Image, dims: Point, origin: Point, rounds=3, **kw) -> Image:`
fix(api): reduce copies, fix function signatures 2023-01-15 17:09:47 +00:00			`'''`
			`Gaussian blur, source image centered on white canvas.`
			`'''`
			`noise = mask_filter_none(mask_image, dims, origin)`

feat(api): add a mask filter to blend outpainting edges 2023-01-15 15:54:55 +00:00			`for i in range(rounds):`
fix(api): reuse results of blur modes 2023-01-15 16:54:17 +00:00			`blur = noise.filter(ImageFilter.GaussianBlur(5))`
feat(api): add a mask filter to blend outpainting edges 2023-01-15 15:54:55 +00:00			`noise = ImageChops.screen(noise, blur)`

			`return noise`


feat: add fill color control to inpaint 2023-01-18 14:41:02 +00:00			`def noise_source_fill_edge(source_image: Image, dims: Point, origin: Point, fill='white', **kw) -> Image:`
feat(api): add parameters for noise source and blend op to inpaint 2023-01-15 15:21:09 +00:00			`'''`
			`Identity transform, source image centered on white canvas.`
			`'''`
feat(api): add original source and gaussian blur noise sources 2023-01-15 06:14:05 +00:00			`width, height = dims`

feat(api): add parameters for noise source and blend op to inpaint 2023-01-15 15:21:09 +00:00			`noise = Image.new('RGB', (width, height), fill)`
feat(api): add original source and gaussian blur noise sources 2023-01-15 06:14:05 +00:00			`noise.paste(source_image, origin)`

			`return noise`


feat: add fill color control to inpaint 2023-01-18 14:41:02 +00:00			`def noise_source_fill_mask(source_image: Image, dims: Point, origin: Point, fill='white', **kw) -> Image:`
feat: add noise source with solid color 2023-01-15 20:26:04 +00:00			`'''`
			`Fill the whole canvas, no source or noise.`
			`'''`
			`width, height = dims`

			`noise = Image.new('RGB', (width, height), fill)`

			`return noise`


feat: add fill color control to inpaint 2023-01-18 14:41:02 +00:00			`def noise_source_gaussian(source_image: Image, dims: Point, origin: Point, rounds=3, **kw) -> Image:`
feat(api): add parameters for noise source and blend op to inpaint 2023-01-15 15:21:09 +00:00			`'''`
			`Gaussian blur, source image centered on white canvas.`
			`'''`
fix(api): fill gaussian blur with noise first 2023-01-15 16:49:09 +00:00			`noise = noise_source_uniform(source_image, dims, origin)`
feat(api): add original source and gaussian blur noise sources 2023-01-15 06:14:05 +00:00			`noise.paste(source_image, origin)`
feat(api): add parameters for noise source and blend op to inpaint 2023-01-15 15:21:09 +00:00
			`for i in range(rounds):`
fix(api): reuse results of blur modes 2023-01-15 16:54:17 +00:00			`noise = noise.filter(ImageFilter.GaussianBlur(5))`
feat(api): add original source and gaussian blur noise sources 2023-01-15 06:14:05 +00:00
			`return noise`


feat: add fill color control to inpaint 2023-01-18 14:41:02 +00:00			`def noise_source_uniform(source_image: Image, dims: Point, origin: Point, **kw) -> Image:`
feat(api): add normal and uniform noise sources 2023-01-15 03:46:14 +00:00			`width, height = dims`
			`size = width * height`

			`noise_r = random.uniform(0, 256, size=size)`
			`noise_g = random.uniform(0, 256, size=size)`
			`noise_b = random.uniform(0, 256, size=size)`

			`noise = Image.new('RGB', (width, height))`

			`for x in range(width):`
			`for y in range(height):`
fix(api): look up noise coordinates correctly 2023-01-16 13:49:25 +00:00			`i = get_pixel_index(x, y, width)`
feat(api): add normal and uniform noise sources 2023-01-15 03:46:14 +00:00			`noise.putpixel((x, y), (`
			`int(noise_r[i]),`
			`int(noise_g[i]),`
			`int(noise_b[i])`
			`))`

			`return noise`


feat: add fill color control to inpaint 2023-01-18 14:41:02 +00:00			`def noise_source_normal(source_image: Image, dims: Point, origin: Point, **kw) -> Image:`
feat(api): add normal and uniform noise sources 2023-01-15 03:46:14 +00:00			`width, height = dims`
			`size = width * height`

			`noise_r = random.normal(128, 32, size=size)`
			`noise_g = random.normal(128, 32, size=size)`
			`noise_b = random.normal(128, 32, size=size)`

			`noise = Image.new('RGB', (width, height))`

			`for x in range(width):`
			`for y in range(height):`
fix(api): look up noise coordinates correctly 2023-01-16 13:49:25 +00:00			`i = get_pixel_index(x, y, width)`
feat(api): add normal and uniform noise sources 2023-01-15 03:46:14 +00:00			`noise.putpixel((x, y), (`
			`int(noise_r[i]),`
			`int(noise_g[i]),`
			`int(noise_b[i])`
			`))`

			`return noise`


feat: add fill color control to inpaint 2023-01-18 14:41:02 +00:00			`def noise_source_histogram(source_image: Image, dims: Point, origin: Point, **kw) -> Image:`
feat(gui): produce noise based on source image histogram 2023-01-14 21:19:41 +00:00			`r, g, b = source_image.split()`
			`width, height = dims`
flatten noise data 2023-01-14 21:44:19 +00:00			`size = width * height`
feat(gui): produce noise based on source image histogram 2023-01-14 21:19:41 +00:00
			`hist_r = r.histogram()`
			`hist_g = g.histogram()`
			`hist_b = b.histogram()`

feat(api): add normal and uniform noise sources 2023-01-15 03:46:14 +00:00			`noise_r = random.choice(256, p=np.divide(`
			`np.copy(hist_r), np.sum(hist_r)), size=size)`
			`noise_g = random.choice(256, p=np.divide(`
			`np.copy(hist_g), np.sum(hist_g)), size=size)`
			`noise_b = random.choice(256, p=np.divide(`
			`np.copy(hist_b), np.sum(hist_b)), size=size)`
feat(gui): produce noise based on source image histogram 2023-01-14 21:19:41 +00:00
build noise by pixels 2023-01-14 22:14:37 +00:00			`noise = Image.new('RGB', (width, height))`

			`for x in range(width):`
			`for y in range(height):`
fix(api): look up noise coordinates correctly 2023-01-16 13:49:25 +00:00			`i = get_pixel_index(x, y, width)`
build noise by pixels 2023-01-14 22:14:37 +00:00			`noise.putpixel((x, y), (`
			`noise_r[i],`
			`noise_g[i],`
			`noise_b[i]`
			`))`
feat(gui): produce noise based on source image histogram 2023-01-14 21:19:41 +00:00
			`return noise`


feat(api): add conversion script for models 2023-01-16 15:57:59 +00:00			`# very loosely based on https://github.com/AUTOMATIC1111/stable-diffusion-webui/blob/master/scripts/outpainting_mk_2.py#L175-L232`
feat(api): add normal and uniform noise sources 2023-01-15 03:46:14 +00:00			`def expand_image(`
			`source_image: Image,`
			`mask_image: Image,`
lint(api): add class for params, size, other common data 2023-01-16 01:14:58 +00:00			`expand: Border,`
feat(api): add normal and uniform noise sources 2023-01-15 03:46:14 +00:00			`fill='white',`
			`noise_source=noise_source_histogram,`
fix(api): set default mask filter to none, matching the client 2023-01-15 20:06:37 +00:00			`mask_filter=mask_filter_none,`
feat(api): add normal and uniform noise sources 2023-01-15 03:46:14 +00:00			`):`
lint(api): add class for params, size, other common data 2023-01-16 01:14:58 +00:00			`full_width = expand.left + source_image.width + expand.right`
			`full_height = expand.top + source_image.height + expand.bottom`
feat(gui): produce noise based on source image histogram 2023-01-14 21:19:41 +00:00
feat(api): add a mask filter to blend outpainting edges 2023-01-15 15:54:55 +00:00			`dims = (full_width, full_height)`
lint(api): add class for params, size, other common data 2023-01-16 01:14:58 +00:00			`origin = (expand.top, expand.left)`
feat(api): add a mask filter to blend outpainting edges 2023-01-15 15:54:55 +00:00
			`full_source = Image.new('RGB', dims, fill)`
			`full_source.paste(source_image, origin)`
feat(gui): produce noise based on source image histogram 2023-01-14 21:19:41 +00:00
feat: add fill color control to inpaint 2023-01-18 14:41:02 +00:00			`full_mask = mask_filter(mask_image, dims, origin, fill=fill)`
			`full_noise = noise_source(source_image, dims, origin, fill=fill)`
fix(api): premultiply noise before compositing 2023-01-17 23:49:46 +00:00			`full_noise = ImageChops.multiply(full_noise, full_mask)`

fix(api): blend source and noise in correct order 2023-01-15 19:47:39 +00:00			`full_source = Image.composite(full_noise, full_source, full_mask.convert('L'))`
feat(gui): produce noise based on source image histogram 2023-01-14 21:19:41 +00:00
syntax fix, save noise image 2023-01-14 22:03:56 +00:00			`return (full_source, full_mask, full_noise, (full_width, full_height))`