[−][src]Struct valora::prelude::Yxy
The CIE 1931 Yxy (xyY) color space.
Yxy is a luminance-chromaticity color space derived from the CIE XYZ color space. It is widely used to define colors. The chromacity diagrams for the color spaces are a plot of this color space's x and y coordiantes.
Conversions and operations on this color space depend on the white point.
Fields
x: T
x chromacity co-ordinate derived from XYZ color space as X/(X+Y+Z). Typical range is between 0 and 1
y: T
y chromacity co-ordinate derived from XYZ color space as Y/(X+Y+Z). Typical range is between 0 and 1
luma: T
luma (Y) was a measure of the brightness or luminance of a color. It is the same as the Y from the XYZ color space. Its range is from 0 to 1, where 0 is black and 1 is white.
white_point: PhantomData<Wp>
The white point associated with the color's illuminant and observer. D65 for 2 degree observer is used by default.
Methods
impl<T> Yxy<D65, T> where
T: Component + Float,
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T: Component + Float,
impl<Wp, T> Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
pub fn with_wp(x: T, y: T, luma: T) -> Yxy<Wp, T>
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CIE Yxy.
pub fn into_components(self) -> (T, T, T)
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Convert to a (x, y, luma)
, a.k.a. (x, y, Y)
tuple.
pub fn from_components((T, T, T)) -> Yxy<Wp, T>
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Convert from a (x, y, luma)
, a.k.a. (x, y, Y)
tuple.
Trait Implementations
impl<Wp, T> AbsDiffEq<Yxy<Wp, T>> for Yxy<Wp, T> where
T: Component + Float + AbsDiffEq<T>,
Wp: WhitePoint + PartialEq<Wp>,
<T as AbsDiffEq<T>>::Epsilon: Copy,
<T as AbsDiffEq<T>>::Epsilon: Float,
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T: Component + Float + AbsDiffEq<T>,
Wp: WhitePoint + PartialEq<Wp>,
<T as AbsDiffEq<T>>::Epsilon: Copy,
<T as AbsDiffEq<T>>::Epsilon: Float,
type Epsilon = <T as AbsDiffEq<T>>::Epsilon
Used for specifying relative comparisons.
fn default_epsilon() -> <Yxy<Wp, T> as AbsDiffEq<Yxy<Wp, T>>>::Epsilon
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fn abs_diff_eq(
&self,
other: &Yxy<Wp, T>,
epsilon: <T as AbsDiffEq<T>>::Epsilon
) -> bool
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&self,
other: &Yxy<Wp, T>,
epsilon: <T as AbsDiffEq<T>>::Epsilon
) -> bool
fn abs_diff_ne(
&self,
other: &Yxy<Wp, T>,
epsilon: <T as AbsDiffEq<T>>::Epsilon
) -> bool
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&self,
other: &Yxy<Wp, T>,
epsilon: <T as AbsDiffEq<T>>::Epsilon
) -> bool
impl<Wp, T> Add<T> for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
type Output = Yxy<Wp, T>
The resulting type after applying the +
operator.
fn add(self, c: T) -> <Yxy<Wp, T> as Add<T>>::Output
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impl<Wp, T> Add<Yxy<Wp, T>> for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
type Output = Yxy<Wp, T>
The resulting type after applying the +
operator.
fn add(self, other: Yxy<Wp, T>) -> <Yxy<Wp, T> as Add<Yxy<Wp, T>>>::Output
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impl<Wp, T> AddAssign<T> for Yxy<Wp, T> where
T: Component + Float + AddAssign<T>,
Wp: WhitePoint,
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T: Component + Float + AddAssign<T>,
Wp: WhitePoint,
fn add_assign(&mut self, c: T)
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impl<Wp, T> AddAssign<Yxy<Wp, T>> for Yxy<Wp, T> where
T: Component + Float + AddAssign<T>,
Wp: WhitePoint,
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T: Component + Float + AddAssign<T>,
Wp: WhitePoint,
fn add_assign(&mut self, other: Yxy<Wp, T>)
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impl<Wp, T, P> AsMut<P> for Yxy<Wp, T> where
P: RawPixel<T> + ?Sized,
T: Component + Float,
Wp: WhitePoint,
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P: RawPixel<T> + ?Sized,
T: Component + Float,
Wp: WhitePoint,
impl<Wp, T, P> AsRef<P> for Yxy<Wp, T> where
P: RawPixel<T> + ?Sized,
T: Component + Float,
Wp: WhitePoint,
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P: RawPixel<T> + ?Sized,
T: Component + Float,
Wp: WhitePoint,
impl<Wp, T> Clone for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
impl<Wp, T> ComponentWise for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
type Scalar = T
The scalar type for color components.
fn component_wise<F>(&self, other: &Yxy<Wp, T>, f: F) -> Yxy<Wp, T> where
F: FnMut(T, T) -> T,
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F: FnMut(T, T) -> T,
fn component_wise_self<F>(&self, f: F) -> Yxy<Wp, T> where
F: FnMut(T) -> T,
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F: FnMut(T) -> T,
impl<Wp, T> Copy for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
impl<Wp, T> Debug for Yxy<Wp, T> where
T: Debug + Component + Float,
Wp: Debug + WhitePoint,
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T: Debug + Component + Float,
Wp: Debug + WhitePoint,
impl<Wp, T> Default for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
impl<Wp, T> Div<T> for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
type Output = Yxy<Wp, T>
The resulting type after applying the /
operator.
fn div(self, c: T) -> <Yxy<Wp, T> as Div<T>>::Output
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impl<Wp, T> Div<Yxy<Wp, T>> for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
type Output = Yxy<Wp, T>
The resulting type after applying the /
operator.
fn div(self, other: Yxy<Wp, T>) -> <Yxy<Wp, T> as Div<Yxy<Wp, T>>>::Output
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impl<Wp, T> DivAssign<T> for Yxy<Wp, T> where
T: Component + Float + DivAssign<T>,
Wp: WhitePoint,
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T: Component + Float + DivAssign<T>,
Wp: WhitePoint,
fn div_assign(&mut self, c: T)
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impl<Wp, T> DivAssign<Yxy<Wp, T>> for Yxy<Wp, T> where
T: Component + Float + DivAssign<T>,
Wp: WhitePoint,
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T: Component + Float + DivAssign<T>,
Wp: WhitePoint,
fn div_assign(&mut self, other: Yxy<Wp, T>)
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impl<Wp, T> From<(T, T, T)> for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
impl<Wp, T, _S> From<Alpha<Hsl<_S, T>, T>> for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
_S: RgbSpace<WhitePoint = Wp>,
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T: Component + Float,
Wp: WhitePoint,
_S: RgbSpace<WhitePoint = Wp>,
impl<Wp, T, _S> From<Alpha<Hsv<_S, T>, T>> for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
_S: RgbSpace<WhitePoint = Wp>,
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T: Component + Float,
Wp: WhitePoint,
_S: RgbSpace<WhitePoint = Wp>,
impl<Wp, T, _S> From<Alpha<Hwb<_S, T>, T>> for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
_S: RgbSpace<WhitePoint = Wp>,
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T: Component + Float,
Wp: WhitePoint,
_S: RgbSpace<WhitePoint = Wp>,
impl<Wp, T> From<Alpha<Lab<Wp, T>, T>> for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
impl<Wp, T> From<Alpha<Lch<Wp, T>, T>> for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
impl<Wp, T, _S> From<Alpha<Luma<_S, T>, T>> for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
_S: LumaStandard<WhitePoint = Wp>,
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T: Component + Float,
Wp: WhitePoint,
_S: LumaStandard<WhitePoint = Wp>,
impl<Wp, T, _S> From<Alpha<Rgb<_S, T>, T>> for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
_S: RgbStandard,
<_S as RgbStandard>::Space: RgbSpace,
<<_S as RgbStandard>::Space as RgbSpace>::WhitePoint == Wp,
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T: Component + Float,
Wp: WhitePoint,
_S: RgbStandard,
<_S as RgbStandard>::Space: RgbSpace,
<<_S as RgbStandard>::Space as RgbSpace>::WhitePoint == Wp,
impl<Wp, T> From<Alpha<Xyz<Wp, T>, T>> for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
impl<Wp, T> From<Alpha<Yxy<Wp, T>, T>> for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
impl<Wp, T, _S> From<Hsl<_S, T>> for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
_S: RgbSpace<WhitePoint = Wp>,
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T: Component + Float,
Wp: WhitePoint,
_S: RgbSpace<WhitePoint = Wp>,
impl<Wp, T, _S> From<Hsv<_S, T>> for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
_S: RgbSpace<WhitePoint = Wp>,
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T: Component + Float,
Wp: WhitePoint,
_S: RgbSpace<WhitePoint = Wp>,
impl<Wp, T, _S> From<Hwb<_S, T>> for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
_S: RgbSpace<WhitePoint = Wp>,
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T: Component + Float,
Wp: WhitePoint,
_S: RgbSpace<WhitePoint = Wp>,
impl<Wp, T> From<Lab<Wp, T>> for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
impl<Wp, T> From<Lch<Wp, T>> for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
impl<S, T> From<Luma<S, T>> for Yxy<<S as LumaStandard>::WhitePoint, T> where
S: LumaStandard,
T: Component + Float,
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S: LumaStandard,
T: Component + Float,
fn from(luma: Luma<S, T>) -> Yxy<<S as LumaStandard>::WhitePoint, T>
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impl<Wp, T, _S> From<Rgb<_S, T>> for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
_S: RgbStandard,
<_S as RgbStandard>::Space: RgbSpace,
<<_S as RgbStandard>::Space as RgbSpace>::WhitePoint == Wp,
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T: Component + Float,
Wp: WhitePoint,
_S: RgbStandard,
<_S as RgbStandard>::Space: RgbSpace,
<<_S as RgbStandard>::Space as RgbSpace>::WhitePoint == Wp,
impl<Wp, T> From<Xyz<Wp, T>> for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
impl<S, T> From<Yxy<<<S as RgbStandard>::Space as RgbSpace>::WhitePoint, T>> for Rgb<S, T> where
S: RgbStandard,
T: Component + Float,
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S: RgbStandard,
T: Component + Float,
fn from(
color: Yxy<<<S as RgbStandard>::Space as RgbSpace>::WhitePoint, T>
) -> Rgb<S, T>
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color: Yxy<<<S as RgbStandard>::Space as RgbSpace>::WhitePoint, T>
) -> Rgb<S, T>
impl<S, T> From<Yxy<<<S as RgbStandard>::Space as RgbSpace>::WhitePoint, T>> for Alpha<Rgb<S, T>, T> where
S: RgbStandard,
T: Component + Float,
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S: RgbStandard,
T: Component + Float,
fn from(
color: Yxy<<<S as RgbStandard>::Space as RgbSpace>::WhitePoint, T>
) -> Alpha<Rgb<S, T>, T>
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color: Yxy<<<S as RgbStandard>::Space as RgbSpace>::WhitePoint, T>
) -> Alpha<Rgb<S, T>, T>
impl<S, T> From<Yxy<<S as LumaStandard>::WhitePoint, T>> for Alpha<Luma<S, T>, T> where
S: LumaStandard,
T: Component + Float,
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S: LumaStandard,
T: Component + Float,
fn from(color: Yxy<<S as LumaStandard>::WhitePoint, T>) -> Alpha<Luma<S, T>, T>
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impl<S, T> From<Yxy<<S as LumaStandard>::WhitePoint, T>> for Luma<S, T> where
S: LumaStandard,
T: Component + Float,
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S: LumaStandard,
T: Component + Float,
fn from(color: Yxy<<S as LumaStandard>::WhitePoint, T>) -> Luma<S, T>
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impl<S, T> From<Yxy<<S as RgbSpace>::WhitePoint, T>> for Alpha<Hsv<S, T>, T> where
S: RgbSpace,
T: Component + Float,
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S: RgbSpace,
T: Component + Float,
impl<S, T> From<Yxy<<S as RgbSpace>::WhitePoint, T>> for Hsv<S, T> where
S: RgbSpace,
T: Component + Float,
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S: RgbSpace,
T: Component + Float,
impl<S, T> From<Yxy<<S as RgbSpace>::WhitePoint, T>> for Hwb<S, T> where
S: RgbSpace,
T: Component + Float,
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S: RgbSpace,
T: Component + Float,
impl<S, T> From<Yxy<<S as RgbSpace>::WhitePoint, T>> for Alpha<Hsl<S, T>, T> where
S: RgbSpace,
T: Component + Float,
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S: RgbSpace,
T: Component + Float,
impl<S, T> From<Yxy<<S as RgbSpace>::WhitePoint, T>> for Hsl<S, T> where
S: RgbSpace,
T: Component + Float,
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S: RgbSpace,
T: Component + Float,
impl<S, T> From<Yxy<<S as RgbSpace>::WhitePoint, T>> for Alpha<Hwb<S, T>, T> where
S: RgbSpace,
T: Component + Float,
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S: RgbSpace,
T: Component + Float,
impl<Wp, T> From<Yxy<Wp, T>> for Lch<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
impl<Wp, T> From<Yxy<Wp, T>> for Alpha<Xyz<Wp, T>, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
impl<Wp, T> From<Yxy<Wp, T>> for Alpha<Lab<Wp, T>, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
impl<Wp, T> From<Yxy<Wp, T>> for Lab<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
impl<Wp, T> From<Yxy<Wp, T>> for Xyz<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
impl<Wp, T> From<Yxy<Wp, T>> for Alpha<Lch<Wp, T>, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
impl<Wp, T> FromColor<Wp, T> for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
fn from_xyz(color: Xyz<Wp, T>) -> Yxy<Wp, T>
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fn from_yxy(color: Yxy<Wp, T>) -> Yxy<Wp, T>
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fn from_luma(color: Luma<Linear<Wp>, T>) -> Yxy<Wp, T>
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fn from_lab(inp: Lab<Wp, T>) -> Self
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fn from_lch(inp: Lch<Wp, T>) -> Self
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fn from_rgb<S>(inp: Rgb<Linear<S>, T>) -> Self where
S: RgbSpace<WhitePoint = Wp>,
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S: RgbSpace<WhitePoint = Wp>,
fn from_hsl<S>(inp: Hsl<S, T>) -> Self where
S: RgbSpace<WhitePoint = Wp>,
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S: RgbSpace<WhitePoint = Wp>,
fn from_hsv<S>(inp: Hsv<S, T>) -> Self where
S: RgbSpace<WhitePoint = Wp>,
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S: RgbSpace<WhitePoint = Wp>,
fn from_hwb<S>(inp: Hwb<S, T>) -> Self where
S: RgbSpace<WhitePoint = Wp>,
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S: RgbSpace<WhitePoint = Wp>,
impl<Wp, T> Into<(T, T, T)> for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
impl<Wp, T> IntoColor<Wp, T> for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
fn into_xyz(self) -> Xyz<Wp, T>
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fn into_yxy(self) -> Yxy<Wp, T>
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fn into_lab(self) -> Lab<Wp, T>
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fn into_lch(self) -> Lch<Wp, T>
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fn into_rgb<S>(self) -> Rgb<Linear<S>, T> where
S: RgbSpace<WhitePoint = Wp>,
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S: RgbSpace<WhitePoint = Wp>,
fn into_hsl<S>(self) -> Hsl<S, T> where
S: RgbSpace<WhitePoint = Wp>,
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S: RgbSpace<WhitePoint = Wp>,
fn into_hsv<S>(self) -> Hsv<S, T> where
S: RgbSpace<WhitePoint = Wp>,
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S: RgbSpace<WhitePoint = Wp>,
fn into_luma(self) -> Luma<Linear<Wp>, T>
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fn into_hwb<S>(self) -> Hwb<S, T> where
S: RgbSpace<WhitePoint = Wp>,
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S: RgbSpace<WhitePoint = Wp>,
impl<Wp, T> Limited for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
impl<Wp, T> Mix for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
type Scalar = T
The type of the mixing factor.
fn mix(&self, other: &Yxy<Wp, T>, factor: T) -> Yxy<Wp, T>
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impl<Wp, T> Mul<T> for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
type Output = Yxy<Wp, T>
The resulting type after applying the *
operator.
fn mul(self, c: T) -> <Yxy<Wp, T> as Mul<T>>::Output
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impl<Wp, T> Mul<Yxy<Wp, T>> for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
type Output = Yxy<Wp, T>
The resulting type after applying the *
operator.
fn mul(self, other: Yxy<Wp, T>) -> <Yxy<Wp, T> as Mul<Yxy<Wp, T>>>::Output
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impl<Wp, T> MulAssign<T> for Yxy<Wp, T> where
T: Component + Float + MulAssign<T>,
Wp: WhitePoint,
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T: Component + Float + MulAssign<T>,
Wp: WhitePoint,
fn mul_assign(&mut self, c: T)
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impl<Wp, T> MulAssign<Yxy<Wp, T>> for Yxy<Wp, T> where
T: Component + Float + MulAssign<T>,
Wp: WhitePoint,
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T: Component + Float + MulAssign<T>,
Wp: WhitePoint,
fn mul_assign(&mut self, other: Yxy<Wp, T>)
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impl<Wp, T> PartialEq<Yxy<Wp, T>> for Yxy<Wp, T> where
T: PartialEq<T> + Component + Float,
Wp: PartialEq<Wp> + WhitePoint,
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T: PartialEq<T> + Component + Float,
Wp: PartialEq<Wp> + WhitePoint,
impl<Wp, T> Pixel<T> for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
const CHANNELS: usize
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fn as_raw<P>(&self) -> &P where
P: RawPixel<T> + ?Sized,
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P: RawPixel<T> + ?Sized,
fn as_raw_mut<P>(&mut self) -> &mut P where
P: RawPixel<T> + ?Sized,
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P: RawPixel<T> + ?Sized,
fn into_raw<P>(self) -> P where
P: RawPixelSized<T>,
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P: RawPixelSized<T>,
fn from_raw<P>(pixel: &P) -> &Self where
P: RawPixel<T> + ?Sized,
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P: RawPixel<T> + ?Sized,
fn from_raw_mut<P>(pixel: &mut P) -> &mut Self where
P: RawPixel<T> + ?Sized,
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P: RawPixel<T> + ?Sized,
fn from_raw_slice(slice: &[T]) -> &[Self]
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fn from_raw_slice_mut(slice: &mut [T]) -> &mut [Self]
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fn into_raw_slice(slice: &[Self]) -> &[T]
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fn into_raw_slice_mut(slice: &mut [Self]) -> &mut [T]
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impl<Wp, T> RelativeEq<Yxy<Wp, T>> for Yxy<Wp, T> where
T: Component + Float + RelativeEq<T>,
Wp: WhitePoint + PartialEq<Wp>,
<T as AbsDiffEq<T>>::Epsilon: Copy,
<T as AbsDiffEq<T>>::Epsilon: Float,
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T: Component + Float + RelativeEq<T>,
Wp: WhitePoint + PartialEq<Wp>,
<T as AbsDiffEq<T>>::Epsilon: Copy,
<T as AbsDiffEq<T>>::Epsilon: Float,
fn default_max_relative() -> <T as AbsDiffEq<T>>::Epsilon
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fn relative_eq(
&self,
other: &Yxy<Wp, T>,
epsilon: <T as AbsDiffEq<T>>::Epsilon,
max_relative: <T as AbsDiffEq<T>>::Epsilon
) -> bool
[src]
&self,
other: &Yxy<Wp, T>,
epsilon: <T as AbsDiffEq<T>>::Epsilon,
max_relative: <T as AbsDiffEq<T>>::Epsilon
) -> bool
fn relative_ne(
&self,
other: &Yxy<Wp, T>,
epsilon: <T as AbsDiffEq<T>>::Epsilon,
max_relative: <T as AbsDiffEq<T>>::Epsilon
) -> bool
[src]
&self,
other: &Yxy<Wp, T>,
epsilon: <T as AbsDiffEq<T>>::Epsilon,
max_relative: <T as AbsDiffEq<T>>::Epsilon
) -> bool
impl<Wp, T> Shade for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
type Scalar = T
The type of the lighten/darken amount.
fn lighten(&self, amount: T) -> Yxy<Wp, T>
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fn darken(&self, amount: Self::Scalar) -> Self
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impl<Wp, T> StructuralPartialEq for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
impl<Wp, T> Sub<T> for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
type Output = Yxy<Wp, T>
The resulting type after applying the -
operator.
fn sub(self, c: T) -> <Yxy<Wp, T> as Sub<T>>::Output
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impl<Wp, T> Sub<Yxy<Wp, T>> for Yxy<Wp, T> where
T: Component + Float,
Wp: WhitePoint,
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T: Component + Float,
Wp: WhitePoint,
type Output = Yxy<Wp, T>
The resulting type after applying the -
operator.
fn sub(self, other: Yxy<Wp, T>) -> <Yxy<Wp, T> as Sub<Yxy<Wp, T>>>::Output
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impl<Wp, T> SubAssign<T> for Yxy<Wp, T> where
T: Component + Float + SubAssign<T>,
Wp: WhitePoint,
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T: Component + Float + SubAssign<T>,
Wp: WhitePoint,
fn sub_assign(&mut self, c: T)
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impl<Wp, T> SubAssign<Yxy<Wp, T>> for Yxy<Wp, T> where
T: Component + Float + SubAssign<T>,
Wp: WhitePoint,
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T: Component + Float + SubAssign<T>,
Wp: WhitePoint,
fn sub_assign(&mut self, other: Yxy<Wp, T>)
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impl<Wp, T> UlpsEq<Yxy<Wp, T>> for Yxy<Wp, T> where
T: Component + Float + UlpsEq<T>,
Wp: WhitePoint + PartialEq<Wp>,
<T as AbsDiffEq<T>>::Epsilon: Copy,
<T as AbsDiffEq<T>>::Epsilon: Float,
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T: Component + Float + UlpsEq<T>,
Wp: WhitePoint + PartialEq<Wp>,
<T as AbsDiffEq<T>>::Epsilon: Copy,
<T as AbsDiffEq<T>>::Epsilon: Float,
Auto Trait Implementations
impl<Wp, T> RefUnwindSafe for Yxy<Wp, T> where
T: RefUnwindSafe,
Wp: RefUnwindSafe,
T: RefUnwindSafe,
Wp: RefUnwindSafe,
impl<Wp, T> Send for Yxy<Wp, T> where
T: Send,
Wp: Send,
T: Send,
Wp: Send,
impl<Wp, T> Sync for Yxy<Wp, T> where
T: Sync,
Wp: Sync,
T: Sync,
Wp: Sync,
impl<Wp, T> Unpin for Yxy<Wp, T> where
T: Unpin,
Wp: Unpin,
T: Unpin,
Wp: Unpin,
impl<Wp, T> UnwindSafe for Yxy<Wp, T> where
T: UnwindSafe,
Wp: UnwindSafe,
T: UnwindSafe,
Wp: UnwindSafe,
Blanket Implementations
impl<S, D, Swp, Dwp, T> AdaptFrom<S, Swp, Dwp, T> for D where
D: FromColor<Dwp, T>,
Dwp: WhitePoint,
S: IntoColor<Swp, T>,
Swp: WhitePoint,
T: Component + Float,
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D: FromColor<Dwp, T>,
Dwp: WhitePoint,
S: IntoColor<Swp, T>,
Swp: WhitePoint,
T: Component + Float,
fn adapt_from_using<M>(color: S, method: M) -> D where
M: TransformMatrix<Swp, Dwp, T>,
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M: TransformMatrix<Swp, Dwp, T>,
fn adapt_from(color: S) -> Self
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impl<S, D, Swp, Dwp, T> AdaptInto<D, Swp, Dwp, T> for S where
D: AdaptFrom<S, Swp, Dwp, T>,
Dwp: WhitePoint,
Swp: WhitePoint,
T: Component + Float,
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D: AdaptFrom<S, Swp, Dwp, T>,
Dwp: WhitePoint,
Swp: WhitePoint,
T: Component + Float,
fn adapt_into_using<M>(self, method: M) -> D where
M: TransformMatrix<Swp, Dwp, T>,
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M: TransformMatrix<Swp, Dwp, T>,
fn adapt_into(self) -> D
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impl<T> Any for T where
T: 'static + ?Sized,
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T: 'static + ?Sized,
impl<T> Borrow<T> for T where
T: ?Sized,
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T: ?Sized,
impl<T> BorrowMut<T> for T where
T: ?Sized,
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T: ?Sized,
fn borrow_mut(&mut self) -> &mut T
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impl<T, Right> ClosedAdd<Right> for T where
T: Add<Right, Output = T> + AddAssign<Right>,
T: Add<Right, Output = T> + AddAssign<Right>,
impl<T, Right> ClosedDiv<Right> for T where
T: Div<Right, Output = T> + DivAssign<Right>,
T: Div<Right, Output = T> + DivAssign<Right>,
impl<T, Right> ClosedMul<Right> for T where
T: Mul<Right, Output = T> + MulAssign<Right>,
T: Mul<Right, Output = T> + MulAssign<Right>,
impl<T, Right> ClosedSub<Right> for T where
T: Sub<Right, Output = T> + SubAssign<Right>,
T: Sub<Right, Output = T> + SubAssign<Right>,
impl<T> Content for T where
T: Copy,
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T: Copy,
type Owned = T
A type that holds a sized version of the content.
fn read<F, E>(size: usize, f: F) -> Result<T, E> where
F: FnOnce(&mut T) -> Result<(), E>,
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F: FnOnce(&mut T) -> Result<(), E>,
fn get_elements_size() -> usize
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fn to_void_ptr(&self) -> *const ()
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fn ref_from_ptr(ptr: *mut (), size: usize) -> Option<*mut T>
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fn is_size_suitable(size: usize) -> bool
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impl<T, U> ConvertFrom<T> for U where
U: From<T> + Limited,
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U: From<T> + Limited,
fn convert_from(t: T) -> U
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fn try_convert_from(t: T) -> Result<U, OutOfBounds<U>>
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fn convert_unclamped_from(val: T) -> Self
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impl<T, U> ConvertInto<U> for T where
U: ConvertFrom<T>,
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U: ConvertFrom<T>,
fn convert_into(self) -> U
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fn convert_unclamped_into(self) -> U
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fn try_convert_into(self) -> Result<U, OutOfBounds<U>>
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impl<T> From<T> for T
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impl<T, U> Into<U> for T where
U: From<T>,
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U: From<T>,
impl<T> Same<T> for T
type Output = T
Should always be Self
impl<T> Scalar for T where
T: Copy + PartialEq<T> + Any + Debug,
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T: Copy + PartialEq<T> + Any + Debug,
impl<T> SetParameter for T
fn set<T>(&mut self, value: T) -> <T as Parameter<Self>>::Result where
T: Parameter<Self>,
T: Parameter<Self>,
impl<T> SetParameter for T
fn set<T>(&mut self, value: T) -> <T as Parameter<Self>>::Result where
T: Parameter<Self>,
T: Parameter<Self>,
impl<SS, SP> SupersetOf<SS> for SP where
SS: SubsetOf<SP>,
SS: SubsetOf<SP>,
fn to_subset(&self) -> Option<SS>
fn is_in_subset(&self) -> bool
unsafe fn to_subset_unchecked(&self) -> SS
fn from_subset(element: &SS) -> SP
impl<T> ToOwned for T where
T: Clone,
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T: Clone,
type Owned = T
The resulting type after obtaining ownership.
fn to_owned(&self) -> T
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fn clone_into(&self, target: &mut T)
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impl<T, U> TryFrom<U> for T where
U: Into<T>,
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U: Into<T>,
type Error = Infallible
The type returned in the event of a conversion error.
fn try_from(value: U) -> Result<T, <T as TryFrom<U>>::Error>
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impl<T, U> TryInto<U> for T where
U: TryFrom<T>,
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U: TryFrom<T>,
type Error = <U as TryFrom<T>>::Error
The type returned in the event of a conversion error.
fn try_into(self) -> Result<U, <U as TryFrom<T>>::Error>
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impl<V, T> VZip<V> for T where
V: MultiLane<T>,
V: MultiLane<T>,