2024-06-29 16:55:37 +00:00
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use image::RgbImage;
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2024-07-17 18:27:31 +00:00
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use image::Rgb as imgRgb;
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2024-07-18 20:51:07 +00:00
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use palette::color_difference::Ciede2000;
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use palette::{cast::FromComponents, IntoColor, Lab, Srgb};
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2024-06-29 16:55:37 +00:00
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/// Palette used on the display; pixels can be one of these colors.
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///
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/// The RGB values are slightly adjusted to improve accuracy.
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const DISPLAY_PALETTE: [Srgb; 7] = [
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Srgb::new(0.047, 0.047, 0.055), // Black
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Srgb::new(0.824, 0.824, 0.816), // White
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Srgb::new(0.118, 0.376, 0.122), // Green
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Srgb::new(0.114, 0.118, 0.667), // Blue
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Srgb::new(0.549, 0.106, 0.114), // Red
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Srgb::new(0.827, 0.788, 0.239), // Yellow
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Srgb::new(0.757, 0.443, 0.165), // Orange
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];
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2024-07-17 17:37:43 +00:00
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// TODO: support different color palettes.
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2024-06-29 16:55:37 +00:00
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#[derive(Debug, Clone, Copy, PartialEq, Eq)]
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pub enum DisplayColor {
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Black,
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White,
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Green,
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Blue,
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Red,
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Yellow,
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Orange,
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}
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2024-07-02 15:57:29 +00:00
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impl From<DisplayColor> for Srgb {
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fn from(value: DisplayColor) -> Self {
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DISPLAY_PALETTE[value as usize]
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}
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}
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impl DisplayColor {
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fn from_u8(value: u8) -> Self {
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match value {
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0 => Self::Black,
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1 => Self::White,
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2 => Self::Green,
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3 => Self::Blue,
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4 => Self::Red,
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5 => Self::Yellow,
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6 => Self::Orange,
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_ => panic!("unexpected DisplayColor {value}"),
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}
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}
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fn into_byte(color1: Self, color2: Self) -> u8 {
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let upper: u8 = color1.into();
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let lower: u8 = color2.into();
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upper << 4 | lower
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}
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}
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impl From<DisplayColor> for u8 {
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fn from(value: DisplayColor) -> Self {
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value as Self
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}
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}
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/// Buffer to be sent to the ``EInk`` display.
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#[derive(Debug)]
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pub struct EInkImage {
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data: Vec<DisplayColor>,
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width: u32,
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height: u32,
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}
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impl EInkImage {
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#[must_use]
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pub fn into_display_buffer(&self) -> Vec<u8> {
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let mut buf = Vec::with_capacity(self.data.len() / 2);
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for colors in self.data.chunks_exact(2) {
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buf.push(DisplayColor::into_byte(colors[0], colors[1]));
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}
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buf
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}
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#[must_use]
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pub fn new(width: u32, height: u32) -> Self {
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let v = vec![DisplayColor::Black; (width * height) as usize];
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Self {
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data: v,
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width,
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height,
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}
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}
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/// Produces a regular RGB image from this image buffer using the given
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/// color palette.
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pub fn make_image(&self) -> RgbImage {
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RgbImage::from_fn(self.width, self.height, |x, y| {
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let srgb = Srgb::from(self.data[(y * self.width + x) as usize]);
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let arr: [u8; 3] = srgb.into_format().into();
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imgRgb(arr)
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})
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}
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/// Returns the dimensions (width, height) of the image buffer.
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pub const fn dimensions(&self) -> (u32, u32) {
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(self.width, self.height)
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}
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}
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pub trait Ditherer {
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fn dither(&self, img: &RgbImage, output: &mut EInkImage);
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}
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/// Find the closest approximate palette color to the given sRGB value.
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/// This uses euclidian distance in linear space.
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#[must_use]
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pub fn nearest_neighbor(input_color: Lab) -> (DisplayColor, Lab) {
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let (nearest, _, color_diff) = DISPLAY_PALETTE
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.iter()
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.enumerate()
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.map(|(idx, p_color)| {
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let c: Lab = (*p_color).into_color();
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(idx, input_color.difference(c), input_color - c)
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})
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.min_by(|(_, a, _), (_, b, _)| a.total_cmp(b))
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.expect("could not find a color");
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(DisplayColor::from_u8(nearest as u8), color_diff)
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}
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pub struct NNDither();
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impl Ditherer for NNDither {
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fn dither(&self, img: &RgbImage, output: &mut EInkImage) {
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assert!(img.width() == 800);
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assert!(img.height() == 480);
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// sRGB view into the given image. zero copy!
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let srgb = <&[Srgb<u8>]>::from_components(&**img);
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for (idx, pixel) in srgb.iter().enumerate() {
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let (n, _) = nearest_neighbor(pixel.into_format().into_color());
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output.data[idx] = n;
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}
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}
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}
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2024-07-17 05:24:11 +00:00
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/// Compute the vector index for a given image by using the size of rows. Assumes that images
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/// are indexed in row-major order.
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const fn coord_to_idx(x: u32, y: u32, xsize: u32) -> usize {
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(y * xsize + x) as usize
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}
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/// Compute the error-adjusted new lab value based on the error value of the currently scanned
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/// pixel multiplied by a scalar factor.
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fn get_error_adjusted(orig: &Lab, err: &Lab, scalar: f32) -> Lab {
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let (p_l, p_a, p_b) = orig.into_components();
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let (err_l, err_a, err_b) = err.into_components();
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Lab::from_components((
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p_l + err_l * scalar,
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p_a + err_a * scalar,
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p_b + err_b * scalar,
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))
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}
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/// ``DiffusionPoint`` is part of the diffusion matrix, represented by a shift in x and y and an error
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/// scaling factor.
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struct DiffusionPoint {
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xshift: i32,
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yshift: i32,
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scale: f32,
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}
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impl DiffusionPoint {
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/// Creates a new ``DiffusionPoint``
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const fn new(xshift: i32, yshift: i32, scale: f32) -> Self {
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Self {
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xshift,
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yshift,
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scale,
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}
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}
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}
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static FLOYD_STEINBERG_POINTS: &[DiffusionPoint] = &[
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DiffusionPoint::new(1, 0, 7.0 / 16.0),
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DiffusionPoint::new(-1, 1, 3.0 / 16.0),
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DiffusionPoint::new(0, 1, 5.0 / 16.0),
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DiffusionPoint::new(1, 1, 1.0 / 16.0),
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];
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static ATKINSON_DITHER_POINTS: &[DiffusionPoint] = &[
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DiffusionPoint::new(1, 0, 1.0 / 8.0),
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DiffusionPoint::new(2, 0, 1.0 / 8.0),
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DiffusionPoint::new(-1, 1, 1.0 / 8.0),
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DiffusionPoint::new(0, 1, 1.0 / 8.0),
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DiffusionPoint::new(1, 1, 1.0 / 8.0),
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DiffusionPoint::new(0, 2, 1.0 / 8.0),
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];
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static SIERRA_DITHER_POINTS: &[DiffusionPoint] = &[
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DiffusionPoint::new(1, 0, 5.0 / 32.0),
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DiffusionPoint::new(2, 0, 3.0 / 32.0),
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DiffusionPoint::new(-2, 1, 2.0 / 32.0),
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DiffusionPoint::new(-1, 1, 4.0 / 32.0),
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DiffusionPoint::new(0, 1, 5.0 / 32.0),
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DiffusionPoint::new(1, 1, 4.0 / 32.0),
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DiffusionPoint::new(2, 1, 2.0 / 32.0),
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DiffusionPoint::new(-1, 2, 2.0 / 32.0),
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DiffusionPoint::new(0, 2, 3.0 / 32.0),
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DiffusionPoint::new(1, 2, 2.0 / 32.0),
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];
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static STUKI_DITHER_POINTS: &[DiffusionPoint] = &[
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DiffusionPoint::new(1, 0, 8.0 / 42.0),
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DiffusionPoint::new(2, 0, 4.0 / 42.0),
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DiffusionPoint::new(-2, 1, 2.0 / 42.0),
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DiffusionPoint::new(-1, 1, 4.0 / 42.0),
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DiffusionPoint::new(0, 1, 8.0 / 42.0),
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DiffusionPoint::new(1, 1, 4.0 / 42.0),
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DiffusionPoint::new(2, 1, 2.0 / 42.0),
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DiffusionPoint::new(-2, 2, 1.0 / 42.0),
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DiffusionPoint::new(-1, 2, 2.0 / 42.0),
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DiffusionPoint::new(0, 2, 4.0 / 42.0),
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DiffusionPoint::new(1, 2, 2.0 / 42.0),
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DiffusionPoint::new(1, 2, 1.0 / 42.0),
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];
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pub enum DiffusionMatrix {
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FloydSteinberg,
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Atkinson,
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Sierra,
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Stuki,
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}
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impl DiffusionMatrix {
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fn value(&self) -> &'static [DiffusionPoint] {
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match *self {
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Self::FloydSteinberg => FLOYD_STEINBERG_POINTS,
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Self::Atkinson => ATKINSON_DITHER_POINTS,
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Self::Sierra => SIERRA_DITHER_POINTS,
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Self::Stuki => STUKI_DITHER_POINTS,
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}
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}
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}
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pub struct ErrorDiffusionDither(DiffusionMatrix);
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impl ErrorDiffusionDither {
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#[must_use]
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pub const fn new(dm: DiffusionMatrix) -> Self {
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Self(dm)
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}
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}
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impl Ditherer for ErrorDiffusionDither {
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fn dither(&self, img: &RgbImage, output: &mut EInkImage) {
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// create a copy of the image in Lab space, mutable.
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let srgb = <&[Srgb<u8>]>::from_components(&**img);
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let (xsize, ysize) = img.dimensions();
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let mut temp_img: Vec<Lab> = Vec::with_capacity((xsize * ysize) as usize);
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for pix in srgb {
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temp_img.push(pix.into_format().into_color());
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}
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// now we take our units.
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for y in 0..ysize {
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for x in 0..xsize {
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let index = coord_to_idx(x, y, xsize);
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let curr_pix = temp_img[index];
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let (nearest, err) = nearest_neighbor(curr_pix);
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// set the color in the output buffer.
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output.data[index] = nearest;
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// take the error, and propagate it.
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for point in self.0.value() {
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let Some(target_x) = x.checked_add_signed(point.xshift) else {
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continue;
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};
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let Some(target_y) = y.checked_add_signed(point.yshift) else {
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continue;
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};
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let target = coord_to_idx(target_x, target_y, xsize);
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if let Some(pix) = temp_img.get(target) {
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temp_img[target] = get_error_adjusted(pix, &err, point.scale);
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}
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}
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}
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}
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}
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}
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