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Add trait for clamping colors (#12525)
# Objective - Resolves #12463 ## Solution - Added `ClampColor` Due to consistency, `is_within_bounds` is a method of `ClampColor`, like `is_fully_transparent` is a method of `Alpha` --- ## Changelog ### Added - `ClampColor` trait --------- Co-authored-by: Alice Cecile <alice.i.cecile@gmail.com>
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11 changed files with 384 additions and 12 deletions
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@ -61,3 +61,20 @@ pub trait Alpha: Sized {
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self.alpha() >= 1.0
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}
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}
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/// Trait with methods for asserting a colorspace is within bounds.
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///
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/// During ordinary usage (e.g. reading images from disk, rendering images, picking colors for UI), colors should always be within their ordinary bounds (such as 0 to 1 for RGB colors).
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/// However, some applications, such as high dynamic range rendering or bloom rely on unbounded colors to naturally represent a wider array of choices.
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pub trait ClampColor: Sized {
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/// Return a new version of this color clamped, with all fields in bounds.
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fn clamped(&self) -> Self;
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/// Changes all the fields of this color to ensure they are within bounds.
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fn clamp(&mut self) {
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*self = self.clamped();
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}
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/// Are all the fields of this color in bounds?
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fn is_within_bounds(&self) -> bool;
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}
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@ -1,4 +1,6 @@
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use crate::{Alpha, Hsva, Hwba, Lcha, LinearRgba, Luminance, Mix, Srgba, StandardColor, Xyza};
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use crate::{
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Alpha, ClampColor, Hsva, Hwba, Lcha, LinearRgba, Luminance, Mix, Srgba, StandardColor, Xyza,
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};
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use bevy_reflect::prelude::*;
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use serde::{Deserialize, Serialize};
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@ -166,6 +168,24 @@ impl Luminance for Hsla {
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}
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}
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impl ClampColor for Hsla {
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fn clamped(&self) -> Self {
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Self {
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hue: self.hue.rem_euclid(360.),
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saturation: self.saturation.clamp(0., 1.),
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lightness: self.lightness.clamp(0., 1.),
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alpha: self.alpha.clamp(0., 1.),
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}
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}
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fn is_within_bounds(&self) -> bool {
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(0. ..=360.).contains(&self.hue)
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&& (0. ..=1.).contains(&self.saturation)
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&& (0. ..=1.).contains(&self.lightness)
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&& (0. ..=1.).contains(&self.alpha)
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}
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}
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impl From<Hsla> for Hsva {
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fn from(
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Hsla {
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@ -357,4 +377,21 @@ mod tests {
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assert_approx_eq!(color.hue, reference.hue, 0.001);
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}
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}
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#[test]
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fn test_clamp() {
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let color_1 = Hsla::hsl(361., 2., -1.);
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let color_2 = Hsla::hsl(250.2762, 1., 0.67);
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let mut color_3 = Hsla::hsl(-50., 1., 1.);
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assert!(!color_1.is_within_bounds());
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assert_eq!(color_1.clamped(), Hsla::hsl(1., 1., 0.));
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assert!(color_2.is_within_bounds());
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assert_eq!(color_2, color_2.clamped());
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color_3.clamp();
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assert!(color_3.is_within_bounds());
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assert_eq!(color_3, Hsla::hsl(310., 1., 1.));
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}
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}
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@ -1,4 +1,4 @@
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use crate::{Alpha, Hwba, Lcha, LinearRgba, Srgba, StandardColor, Xyza};
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use crate::{Alpha, ClampColor, Hwba, Lcha, LinearRgba, Srgba, StandardColor, Xyza};
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use bevy_reflect::prelude::*;
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use serde::{Deserialize, Serialize};
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@ -91,6 +91,24 @@ impl Alpha for Hsva {
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}
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}
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impl ClampColor for Hsva {
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fn clamped(&self) -> Self {
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Self {
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hue: self.hue.rem_euclid(360.),
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saturation: self.saturation.clamp(0., 1.),
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value: self.value.clamp(0., 1.),
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alpha: self.alpha.clamp(0., 1.),
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}
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}
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fn is_within_bounds(&self) -> bool {
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(0. ..=360.).contains(&self.hue)
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&& (0. ..=1.).contains(&self.saturation)
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&& (0. ..=1.).contains(&self.value)
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&& (0. ..=1.).contains(&self.alpha)
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}
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}
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impl From<Hsva> for Hwba {
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fn from(
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Hsva {
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@ -212,4 +230,21 @@ mod tests {
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assert_approx_eq!(color.hsv.alpha, hsv2.alpha, 0.001);
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}
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}
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#[test]
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fn test_clamp() {
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let color_1 = Hsva::hsv(361., 2., -1.);
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let color_2 = Hsva::hsv(250.2762, 1., 0.67);
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let mut color_3 = Hsva::hsv(-50., 1., 1.);
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assert!(!color_1.is_within_bounds());
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assert_eq!(color_1.clamped(), Hsva::hsv(1., 1., 0.));
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assert!(color_2.is_within_bounds());
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assert_eq!(color_2, color_2.clamped());
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color_3.clamp();
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assert!(color_3.is_within_bounds());
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assert_eq!(color_3, Hsva::hsv(310., 1., 1.));
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}
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}
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@ -2,7 +2,7 @@
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//! in [_HWB - A More Intuitive Hue-Based Color Model_] by _Smith et al_.
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//!
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//! [_HWB - A More Intuitive Hue-Based Color Model_]: https://web.archive.org/web/20240226005220/http://alvyray.com/Papers/CG/HWB_JGTv208.pdf
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use crate::{Alpha, Lcha, LinearRgba, Srgba, StandardColor, Xyza};
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use crate::{Alpha, ClampColor, Lcha, LinearRgba, Srgba, StandardColor, Xyza};
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use bevy_reflect::prelude::*;
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use serde::{Deserialize, Serialize};
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@ -95,6 +95,24 @@ impl Alpha for Hwba {
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}
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}
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impl ClampColor for Hwba {
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fn clamped(&self) -> Self {
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Self {
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hue: self.hue.rem_euclid(360.),
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whiteness: self.whiteness.clamp(0., 1.),
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blackness: self.blackness.clamp(0., 1.),
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alpha: self.alpha.clamp(0., 1.),
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}
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}
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fn is_within_bounds(&self) -> bool {
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(0. ..=360.).contains(&self.hue)
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&& (0. ..=1.).contains(&self.whiteness)
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&& (0. ..=1.).contains(&self.blackness)
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&& (0. ..=1.).contains(&self.alpha)
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}
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}
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impl From<Srgba> for Hwba {
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fn from(
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Srgba {
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@ -245,4 +263,21 @@ mod tests {
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assert_approx_eq!(color.hwb.alpha, hwb2.alpha, 0.001);
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}
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}
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#[test]
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fn test_clamp() {
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let color_1 = Hwba::hwb(361., 2., -1.);
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let color_2 = Hwba::hwb(250.2762, 1., 0.67);
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let mut color_3 = Hwba::hwb(-50., 1., 1.);
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assert!(!color_1.is_within_bounds());
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assert_eq!(color_1.clamped(), Hwba::hwb(1., 1., 0.));
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assert!(color_2.is_within_bounds());
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assert_eq!(color_2, color_2.clamped());
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color_3.clamp();
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assert!(color_3.is_within_bounds());
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assert_eq!(color_3, Hwba::hwb(310., 1., 1.));
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}
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}
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@ -1,5 +1,6 @@
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use crate::{
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Alpha, Hsla, Hsva, Hwba, LinearRgba, Luminance, Mix, Oklaba, Srgba, StandardColor, Xyza,
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Alpha, ClampColor, Hsla, Hsva, Hwba, LinearRgba, Luminance, Mix, Oklaba, Srgba, StandardColor,
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Xyza,
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};
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use bevy_reflect::prelude::*;
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use serde::{Deserialize, Serialize};
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@ -110,6 +111,24 @@ impl Alpha for Laba {
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}
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}
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impl ClampColor for Laba {
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fn clamped(&self) -> Self {
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Self {
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lightness: self.lightness.clamp(0., 1.5),
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a: self.a.clamp(-1.5, 1.5),
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b: self.b.clamp(-1.5, 1.5),
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alpha: self.alpha.clamp(0., 1.),
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}
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}
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fn is_within_bounds(&self) -> bool {
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(0. ..=1.5).contains(&self.lightness)
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&& (-1.5..=1.5).contains(&self.a)
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&& (-1.5..=1.5).contains(&self.b)
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&& (0. ..=1.).contains(&self.alpha)
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}
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}
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impl Luminance for Laba {
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#[inline]
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fn with_luminance(&self, lightness: f32) -> Self {
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@ -353,4 +372,21 @@ mod tests {
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assert_approx_eq!(color.lab.alpha, laba.alpha, 0.001);
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}
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}
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#[test]
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fn test_clamp() {
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let color_1 = Laba::lab(-1., 2., -2.);
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let color_2 = Laba::lab(1., 1.5, -1.2);
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let mut color_3 = Laba::lab(-0.4, 1., 1.);
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assert!(!color_1.is_within_bounds());
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assert_eq!(color_1.clamped(), Laba::lab(0., 1.5, -1.5));
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assert!(color_2.is_within_bounds());
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assert_eq!(color_2, color_2.clamped());
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color_3.clamp();
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assert!(color_3.is_within_bounds());
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assert_eq!(color_3, Laba::lab(0., 1., 1.));
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}
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}
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@ -1,4 +1,4 @@
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use crate::{Alpha, Laba, LinearRgba, Luminance, Mix, Srgba, StandardColor, Xyza};
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use crate::{Alpha, ClampColor, Laba, LinearRgba, Luminance, Mix, Srgba, StandardColor, Xyza};
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use bevy_reflect::prelude::*;
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use serde::{Deserialize, Serialize};
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@ -166,6 +166,24 @@ impl Luminance for Lcha {
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}
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}
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impl ClampColor for Lcha {
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fn clamped(&self) -> Self {
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Self {
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lightness: self.lightness.clamp(0., 1.5),
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chroma: self.chroma.clamp(0., 1.5),
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hue: self.hue.rem_euclid(360.),
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alpha: self.alpha.clamp(0., 1.),
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}
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}
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fn is_within_bounds(&self) -> bool {
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(0. ..=1.5).contains(&self.lightness)
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&& (0. ..=1.5).contains(&self.chroma)
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&& (0. ..=360.).contains(&self.hue)
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&& (0. ..=1.).contains(&self.alpha)
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}
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}
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impl From<Lcha> for Laba {
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fn from(
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Lcha {
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@ -313,4 +331,21 @@ mod tests {
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assert_approx_eq!(color.lch.alpha, lcha.alpha, 0.001);
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}
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}
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#[test]
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fn test_clamp() {
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let color_1 = Lcha::lch(-1., 2., 400.);
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let color_2 = Lcha::lch(1., 1.5, 249.54);
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let mut color_3 = Lcha::lch(-0.4, 1., 1.);
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assert!(!color_1.is_within_bounds());
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assert_eq!(color_1.clamped(), Lcha::lch(0., 1.5, 40.));
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assert!(color_2.is_within_bounds());
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assert_eq!(color_2, color_2.clamped());
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color_3.clamp();
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assert!(color_3.is_within_bounds());
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assert_eq!(color_3, Lcha::lch(0., 1., 1.));
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}
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}
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@ -1,6 +1,8 @@
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use std::ops::{Div, Mul};
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use crate::{color_difference::EuclideanDistance, Alpha, Luminance, Mix, StandardColor};
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use crate::{
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color_difference::EuclideanDistance, Alpha, ClampColor, Luminance, Mix, StandardColor,
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};
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use bevy_math::Vec4;
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use bevy_reflect::prelude::*;
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use bytemuck::{Pod, Zeroable};
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@ -256,6 +258,24 @@ impl EuclideanDistance for LinearRgba {
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}
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}
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impl ClampColor for LinearRgba {
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fn clamped(&self) -> Self {
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Self {
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red: self.red.clamp(0., 1.),
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green: self.green.clamp(0., 1.),
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blue: self.blue.clamp(0., 1.),
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alpha: self.alpha.clamp(0., 1.),
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}
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}
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fn is_within_bounds(&self) -> bool {
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(0. ..=1.).contains(&self.red)
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&& (0. ..=1.).contains(&self.green)
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&& (0. ..=1.).contains(&self.blue)
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&& (0. ..=1.).contains(&self.alpha)
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}
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}
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impl From<LinearRgba> for [f32; 4] {
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fn from(color: LinearRgba) -> Self {
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[color.red, color.green, color.blue, color.alpha]
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@ -455,4 +475,21 @@ mod tests {
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let twice_as_light = color.lighter(0.2);
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assert!(lighter2.distance_squared(&twice_as_light) < 0.0001);
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}
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#[test]
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fn test_clamp() {
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let color_1 = LinearRgba::rgb(2., -1., 0.4);
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let color_2 = LinearRgba::rgb(0.031, 0.749, 1.);
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let mut color_3 = LinearRgba::rgb(-1., 1., 1.);
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assert!(!color_1.is_within_bounds());
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assert_eq!(color_1.clamped(), LinearRgba::rgb(1., 0., 0.4));
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assert!(color_2.is_within_bounds());
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assert_eq!(color_2, color_2.clamped());
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color_3.clamp();
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assert!(color_3.is_within_bounds());
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assert_eq!(color_3, LinearRgba::rgb(0., 1., 1.));
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}
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}
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@ -1,6 +1,6 @@
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use crate::{
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color_difference::EuclideanDistance, Alpha, Hsla, Hsva, Hwba, Lcha, LinearRgba, Luminance, Mix,
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Srgba, StandardColor, Xyza,
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color_difference::EuclideanDistance, Alpha, ClampColor, Hsla, Hsva, Hwba, Lcha, LinearRgba,
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Luminance, Mix, Srgba, StandardColor, Xyza,
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};
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use bevy_reflect::prelude::*;
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use serde::{Deserialize, Serialize};
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@ -149,6 +149,24 @@ impl EuclideanDistance for Oklaba {
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}
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}
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impl ClampColor for Oklaba {
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fn clamped(&self) -> Self {
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Self {
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lightness: self.lightness.clamp(0., 1.),
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a: self.a.clamp(-1., 1.),
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b: self.b.clamp(-1., 1.),
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alpha: self.alpha.clamp(0., 1.),
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}
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}
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fn is_within_bounds(&self) -> bool {
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(0. ..=1.).contains(&self.lightness)
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&& (-1. ..=1.).contains(&self.a)
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&& (-1. ..=1.).contains(&self.b)
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&& (0. ..=1.).contains(&self.alpha)
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}
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}
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#[allow(clippy::excessive_precision)]
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impl From<LinearRgba> for Oklaba {
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fn from(value: LinearRgba) -> Self {
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assert_approx_eq!(oklaba.b, oklaba2.b, 0.001);
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assert_approx_eq!(oklaba.alpha, oklaba2.alpha, 0.001);
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}
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#[test]
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fn test_clamp() {
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let color_1 = Oklaba::lab(-1., 2., -2.);
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let color_2 = Oklaba::lab(1., 0.42, -0.4);
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let mut color_3 = Oklaba::lab(-0.4, 1., 1.);
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assert!(!color_1.is_within_bounds());
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assert_eq!(color_1.clamped(), Oklaba::lab(0., 1., -1.));
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assert!(color_2.is_within_bounds());
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assert_eq!(color_2, color_2.clamped());
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color_3.clamp();
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assert!(color_3.is_within_bounds());
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assert_eq!(color_3, Oklaba::lab(0., 1., 1.));
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}
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}
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@ -1,6 +1,6 @@
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use crate::{
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color_difference::EuclideanDistance, Alpha, Hsla, Hsva, Hwba, Laba, Lcha, LinearRgba,
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Luminance, Mix, Oklaba, Srgba, StandardColor, Xyza,
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color_difference::EuclideanDistance, Alpha, ClampColor, Hsla, Hsva, Hwba, Laba, Lcha,
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LinearRgba, Luminance, Mix, Oklaba, Srgba, StandardColor, Xyza,
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};
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use bevy_reflect::prelude::*;
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use serde::{Deserialize, Serialize};
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@ -209,6 +209,24 @@ impl From<Oklcha> for Oklaba {
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}
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}
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impl ClampColor for Oklcha {
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fn clamped(&self) -> Self {
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Self {
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lightness: self.lightness.clamp(0., 1.),
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chroma: self.chroma.clamp(0., 1.),
|
||||
hue: self.hue.rem_euclid(360.),
|
||||
alpha: self.alpha.clamp(0., 1.),
|
||||
}
|
||||
}
|
||||
|
||||
fn is_within_bounds(&self) -> bool {
|
||||
(0. ..=1.).contains(&self.lightness)
|
||||
&& (0. ..=1.).contains(&self.chroma)
|
||||
&& (0. ..=360.).contains(&self.hue)
|
||||
&& (0. ..=1.).contains(&self.alpha)
|
||||
}
|
||||
}
|
||||
|
||||
// Derived Conversions
|
||||
|
||||
impl From<Hsla> for Oklcha {
|
||||
|
@ -355,4 +373,21 @@ mod tests {
|
|||
assert_approx_eq!(oklcha.hue, oklcha2.hue, 0.001);
|
||||
assert_approx_eq!(oklcha.alpha, oklcha2.alpha, 0.001);
|
||||
}
|
||||
|
||||
#[test]
|
||||
fn test_clamp() {
|
||||
let color_1 = Oklcha::lch(-1., 2., 400.);
|
||||
let color_2 = Oklcha::lch(1., 1., 249.54);
|
||||
let mut color_3 = Oklcha::lch(-0.4, 1., 1.);
|
||||
|
||||
assert!(!color_1.is_within_bounds());
|
||||
assert_eq!(color_1.clamped(), Oklcha::lch(0., 1., 40.));
|
||||
|
||||
assert!(color_2.is_within_bounds());
|
||||
assert_eq!(color_2, color_2.clamped());
|
||||
|
||||
color_3.clamp();
|
||||
assert!(color_3.is_within_bounds());
|
||||
assert_eq!(color_3, Oklcha::lch(0., 1., 1.));
|
||||
}
|
||||
}
|
||||
|
|
|
@ -1,7 +1,7 @@
|
|||
use std::ops::{Div, Mul};
|
||||
|
||||
use crate::color_difference::EuclideanDistance;
|
||||
use crate::{Alpha, LinearRgba, Luminance, Mix, StandardColor, Xyza};
|
||||
use crate::{Alpha, ClampColor, LinearRgba, Luminance, Mix, StandardColor, Xyza};
|
||||
use bevy_math::Vec4;
|
||||
use bevy_reflect::prelude::*;
|
||||
use serde::{Deserialize, Serialize};
|
||||
|
@ -307,6 +307,24 @@ impl EuclideanDistance for Srgba {
|
|||
}
|
||||
}
|
||||
|
||||
impl ClampColor for Srgba {
|
||||
fn clamped(&self) -> Self {
|
||||
Self {
|
||||
red: self.red.clamp(0., 1.),
|
||||
green: self.green.clamp(0., 1.),
|
||||
blue: self.blue.clamp(0., 1.),
|
||||
alpha: self.alpha.clamp(0., 1.),
|
||||
}
|
||||
}
|
||||
|
||||
fn is_within_bounds(&self) -> bool {
|
||||
(0. ..=1.).contains(&self.red)
|
||||
&& (0. ..=1.).contains(&self.green)
|
||||
&& (0. ..=1.).contains(&self.blue)
|
||||
&& (0. ..=1.).contains(&self.alpha)
|
||||
}
|
||||
}
|
||||
|
||||
impl From<LinearRgba> for Srgba {
|
||||
#[inline]
|
||||
fn from(value: LinearRgba) -> Self {
|
||||
|
@ -490,4 +508,21 @@ mod tests {
|
|||
assert!(matches!(Srgba::hex("yyy"), Err(HexColorError::Parse(_))));
|
||||
assert!(matches!(Srgba::hex("##fff"), Err(HexColorError::Parse(_))));
|
||||
}
|
||||
|
||||
#[test]
|
||||
fn test_clamp() {
|
||||
let color_1 = Srgba::rgb(2., -1., 0.4);
|
||||
let color_2 = Srgba::rgb(0.031, 0.749, 1.);
|
||||
let mut color_3 = Srgba::rgb(-1., 1., 1.);
|
||||
|
||||
assert!(!color_1.is_within_bounds());
|
||||
assert_eq!(color_1.clamped(), Srgba::rgb(1., 0., 0.4));
|
||||
|
||||
assert!(color_2.is_within_bounds());
|
||||
assert_eq!(color_2, color_2.clamped());
|
||||
|
||||
color_3.clamp();
|
||||
assert!(color_3.is_within_bounds());
|
||||
assert_eq!(color_3, Srgba::rgb(0., 1., 1.));
|
||||
}
|
||||
}
|
||||
|
|
|
@ -1,4 +1,4 @@
|
|||
use crate::{Alpha, LinearRgba, Luminance, Mix, StandardColor};
|
||||
use crate::{Alpha, ClampColor, LinearRgba, Luminance, Mix, StandardColor};
|
||||
use bevy_reflect::prelude::*;
|
||||
use serde::{Deserialize, Serialize};
|
||||
|
||||
|
@ -134,6 +134,24 @@ impl Mix for Xyza {
|
|||
}
|
||||
}
|
||||
|
||||
impl ClampColor for Xyza {
|
||||
fn clamped(&self) -> Self {
|
||||
Self {
|
||||
x: self.x.clamp(0., 1.),
|
||||
y: self.y.clamp(0., 1.),
|
||||
z: self.z.clamp(0., 1.),
|
||||
alpha: self.alpha.clamp(0., 1.),
|
||||
}
|
||||
}
|
||||
|
||||
fn is_within_bounds(&self) -> bool {
|
||||
(0. ..=1.).contains(&self.x)
|
||||
&& (0. ..=1.).contains(&self.y)
|
||||
&& (0. ..=1.).contains(&self.z)
|
||||
&& (0. ..=1.).contains(&self.alpha)
|
||||
}
|
||||
}
|
||||
|
||||
impl From<LinearRgba> for Xyza {
|
||||
fn from(
|
||||
LinearRgba {
|
||||
|
@ -208,4 +226,21 @@ mod tests {
|
|||
assert_approx_eq!(color.xyz.alpha, xyz2.alpha, 0.001);
|
||||
}
|
||||
}
|
||||
|
||||
#[test]
|
||||
fn test_clamp() {
|
||||
let color_1 = Xyza::xyz(2., -1., 0.4);
|
||||
let color_2 = Xyza::xyz(0.031, 0.749, 1.);
|
||||
let mut color_3 = Xyza::xyz(-1., 1., 1.);
|
||||
|
||||
assert!(!color_1.is_within_bounds());
|
||||
assert_eq!(color_1.clamped(), Xyza::xyz(1., 0., 0.4));
|
||||
|
||||
assert!(color_2.is_within_bounds());
|
||||
assert_eq!(color_2, color_2.clamped());
|
||||
|
||||
color_3.clamp();
|
||||
assert!(color_3.is_within_bounds());
|
||||
assert_eq!(color_3, Xyza::xyz(0., 1., 1.));
|
||||
}
|
||||
}
|
||||
|
|
Loading…
Reference in a new issue