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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-07 19:33:14 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-07 19:33:14 +0000 |
commit | 36d22d82aa202bb199967e9512281e9a53db42c9 (patch) | |
tree | 105e8c98ddea1c1e4784a60a5a6410fa416be2de /servo/components/style/values/animated/mod.rs | |
parent | Initial commit. (diff) | |
download | firefox-esr-36d22d82aa202bb199967e9512281e9a53db42c9.tar.xz firefox-esr-36d22d82aa202bb199967e9512281e9a53db42c9.zip |
Adding upstream version 115.7.0esr.upstream/115.7.0esrupstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'servo/components/style/values/animated/mod.rs')
-rw-r--r-- | servo/components/style/values/animated/mod.rs | 488 |
1 files changed, 488 insertions, 0 deletions
diff --git a/servo/components/style/values/animated/mod.rs b/servo/components/style/values/animated/mod.rs new file mode 100644 index 0000000000..04a05a81ac --- /dev/null +++ b/servo/components/style/values/animated/mod.rs @@ -0,0 +1,488 @@ +/* This Source Code Form is subject to the terms of the Mozilla Public + * License, v. 2.0. If a copy of the MPL was not distributed with this + * file, You can obtain one at https://mozilla.org/MPL/2.0/. */ + +//! Animated values. +//! +//! Some values, notably colors, cannot be interpolated directly with their +//! computed values and need yet another intermediate representation. This +//! module's raison d'ĂȘtre is to ultimately contain all these types. + +use crate::color::AbsoluteColor; +use crate::properties::PropertyId; +use crate::values::computed::length::LengthPercentage; +use crate::values::computed::url::ComputedUrl; +use crate::values::computed::Angle as ComputedAngle; +use crate::values::computed::Image; +use crate::values::specified::SVGPathData; +use crate::values::CSSFloat; +use app_units::Au; +use smallvec::SmallVec; +use std::cmp; + +pub mod color; +pub mod effects; +mod font; +mod grid; +pub mod lists; +mod svg; +pub mod transform; + +/// The category a property falls into for ordering purposes. +/// +/// https://drafts.csswg.org/web-animations/#calculating-computed-keyframes +#[derive(Clone, Copy, Eq, Ord, PartialEq, PartialOrd)] +enum PropertyCategory { + Custom, + PhysicalLonghand, + LogicalLonghand, + Shorthand, +} + +impl PropertyCategory { + fn of(id: &PropertyId) -> Self { + match *id { + PropertyId::Shorthand(..) | PropertyId::ShorthandAlias(..) => { + PropertyCategory::Shorthand + }, + PropertyId::Longhand(id) | PropertyId::LonghandAlias(id, ..) => { + if id.is_logical() { + PropertyCategory::LogicalLonghand + } else { + PropertyCategory::PhysicalLonghand + } + }, + PropertyId::Custom(..) => PropertyCategory::Custom, + } + } +} + +/// A comparator to sort PropertyIds such that physical longhands are sorted +/// before logical longhands and shorthands, shorthands with fewer components +/// are sorted before shorthands with more components, and otherwise shorthands +/// are sorted by IDL name as defined by [Web Animations][property-order]. +/// +/// Using this allows us to prioritize values specified by longhands (or smaller +/// shorthand subsets) when longhands and shorthands are both specified on the +/// one keyframe. +/// +/// [property-order] https://drafts.csswg.org/web-animations/#calculating-computed-keyframes +pub fn compare_property_priority(a: &PropertyId, b: &PropertyId) -> cmp::Ordering { + let a_category = PropertyCategory::of(a); + let b_category = PropertyCategory::of(b); + + if a_category != b_category { + return a_category.cmp(&b_category); + } + + if a_category != PropertyCategory::Shorthand { + return cmp::Ordering::Equal; + } + + let a = a.as_shorthand().unwrap(); + let b = b.as_shorthand().unwrap(); + // Within shorthands, sort by the number of subproperties, then by IDL + // name. + let subprop_count_a = a.longhands().count(); + let subprop_count_b = b.longhands().count(); + subprop_count_a + .cmp(&subprop_count_b) + .then_with(|| a.idl_name_sort_order().cmp(&b.idl_name_sort_order())) +} + +/// A helper function to animate two multiplicative factor. +pub fn animate_multiplicative_factor( + this: CSSFloat, + other: CSSFloat, + procedure: Procedure, +) -> Result<CSSFloat, ()> { + Ok((this - 1.).animate(&(other - 1.), procedure)? + 1.) +} + +/// Animate from one value to another. +/// +/// This trait is derivable with `#[derive(Animate)]`. The derived +/// implementation uses a `match` expression with identical patterns for both +/// `self` and `other`, calling `Animate::animate` on each fields of the values. +/// If a field is annotated with `#[animation(constant)]`, the two values should +/// be equal or an error is returned. +/// +/// If a variant is annotated with `#[animation(error)]`, the corresponding +/// `match` arm returns an error. +/// +/// Trait bounds for type parameter `Foo` can be opted out of with +/// `#[animation(no_bound(Foo))]` on the type definition, trait bounds for +/// fields can be opted into with `#[animation(field_bound)]` on the field. +pub trait Animate: Sized { + /// Animate a value towards another one, given an animation procedure. + fn animate(&self, other: &Self, procedure: Procedure) -> Result<Self, ()>; +} + +/// An animation procedure. +/// +/// <https://drafts.csswg.org/web-animations/#procedures-for-animating-properties> +#[allow(missing_docs)] +#[derive(Clone, Copy, Debug, PartialEq)] +pub enum Procedure { + /// <https://drafts.csswg.org/web-animations/#animation-interpolation> + Interpolate { progress: f64 }, + /// <https://drafts.csswg.org/web-animations/#animation-addition> + Add, + /// <https://drafts.csswg.org/web-animations/#animation-accumulation> + Accumulate { count: u64 }, +} + +/// Conversion between computed values and intermediate values for animations. +/// +/// Notably, colors are represented as four floats during animations. +/// +/// This trait is derivable with `#[derive(ToAnimatedValue)]`. +pub trait ToAnimatedValue { + /// The type of the animated value. + type AnimatedValue; + + /// Converts this value to an animated value. + fn to_animated_value(self) -> Self::AnimatedValue; + + /// Converts back an animated value into a computed value. + fn from_animated_value(animated: Self::AnimatedValue) -> Self; +} + +/// Returns a value similar to `self` that represents zero. +/// +/// This trait is derivable with `#[derive(ToAnimatedValue)]`. If a field is +/// annotated with `#[animation(constant)]`, a clone of its value will be used +/// instead of calling `ToAnimatedZero::to_animated_zero` on it. +/// +/// If a variant is annotated with `#[animation(error)]`, the corresponding +/// `match` arm is not generated. +/// +/// Trait bounds for type parameter `Foo` can be opted out of with +/// `#[animation(no_bound(Foo))]` on the type definition. +pub trait ToAnimatedZero: Sized { + /// Returns a value that, when added with an underlying value, will produce the underlying + /// value. This is used for SMIL animation's "by-animation" where SMIL first interpolates from + /// the zero value to the 'by' value, and then adds the result to the underlying value. + /// + /// This is not the necessarily the same as the initial value of a property. For example, the + /// initial value of 'stroke-width' is 1, but the zero value is 0, since adding 1 to the + /// underlying value will not produce the underlying value. + fn to_animated_zero(&self) -> Result<Self, ()>; +} + +impl Procedure { + /// Returns this procedure as a pair of weights. + /// + /// This is useful for animations that don't animate differently + /// depending on the used procedure. + #[inline] + pub fn weights(self) -> (f64, f64) { + match self { + Procedure::Interpolate { progress } => (1. - progress, progress), + Procedure::Add => (1., 1.), + Procedure::Accumulate { count } => (count as f64, 1.), + } + } +} + +/// <https://drafts.csswg.org/css-transitions/#animtype-number> +impl Animate for i32 { + #[inline] + fn animate(&self, other: &Self, procedure: Procedure) -> Result<Self, ()> { + Ok(((*self as f64).animate(&(*other as f64), procedure)? + 0.5).floor() as i32) + } +} + +/// <https://drafts.csswg.org/css-transitions/#animtype-number> +impl Animate for f32 { + #[inline] + fn animate(&self, other: &Self, procedure: Procedure) -> Result<Self, ()> { + let ret = (*self as f64).animate(&(*other as f64), procedure)?; + Ok(ret.min(f32::MAX as f64).max(f32::MIN as f64) as f32) + } +} + +/// <https://drafts.csswg.org/css-transitions/#animtype-number> +impl Animate for f64 { + #[inline] + fn animate(&self, other: &Self, procedure: Procedure) -> Result<Self, ()> { + let (self_weight, other_weight) = procedure.weights(); + + let ret = *self * self_weight + *other * other_weight; + Ok(ret.min(f64::MAX).max(f64::MIN)) + } +} + +impl<T> Animate for Option<T> +where + T: Animate, +{ + #[inline] + fn animate(&self, other: &Self, procedure: Procedure) -> Result<Self, ()> { + match (self.as_ref(), other.as_ref()) { + (Some(ref this), Some(ref other)) => Ok(Some(this.animate(other, procedure)?)), + (None, None) => Ok(None), + _ => Err(()), + } + } +} + +impl Animate for Au { + #[inline] + fn animate(&self, other: &Self, procedure: Procedure) -> Result<Self, ()> { + Ok(Au::new(self.0.animate(&other.0, procedure)?)) + } +} + +impl<T: Animate> Animate for Box<T> { + #[inline] + fn animate(&self, other: &Self, procedure: Procedure) -> Result<Self, ()> { + Ok(Box::new((**self).animate(&other, procedure)?)) + } +} + +impl<T> ToAnimatedValue for Option<T> +where + T: ToAnimatedValue, +{ + type AnimatedValue = Option<<T as ToAnimatedValue>::AnimatedValue>; + + #[inline] + fn to_animated_value(self) -> Self::AnimatedValue { + self.map(T::to_animated_value) + } + + #[inline] + fn from_animated_value(animated: Self::AnimatedValue) -> Self { + animated.map(T::from_animated_value) + } +} + +impl<T> ToAnimatedValue for Vec<T> +where + T: ToAnimatedValue, +{ + type AnimatedValue = Vec<<T as ToAnimatedValue>::AnimatedValue>; + + #[inline] + fn to_animated_value(self) -> Self::AnimatedValue { + self.into_iter().map(T::to_animated_value).collect() + } + + #[inline] + fn from_animated_value(animated: Self::AnimatedValue) -> Self { + animated.into_iter().map(T::from_animated_value).collect() + } +} + +impl<T> ToAnimatedValue for Box<T> +where + T: ToAnimatedValue, +{ + type AnimatedValue = Box<<T as ToAnimatedValue>::AnimatedValue>; + + #[inline] + fn to_animated_value(self) -> Self::AnimatedValue { + Box::new((*self).to_animated_value()) + } + + #[inline] + fn from_animated_value(animated: Self::AnimatedValue) -> Self { + Box::new(T::from_animated_value(*animated)) + } +} + +impl<T> ToAnimatedValue for Box<[T]> +where + T: ToAnimatedValue, +{ + type AnimatedValue = Box<[<T as ToAnimatedValue>::AnimatedValue]>; + + #[inline] + fn to_animated_value(self) -> Self::AnimatedValue { + self.into_vec() + .into_iter() + .map(T::to_animated_value) + .collect::<Vec<_>>() + .into_boxed_slice() + } + + #[inline] + fn from_animated_value(animated: Self::AnimatedValue) -> Self { + animated + .into_vec() + .into_iter() + .map(T::from_animated_value) + .collect::<Vec<_>>() + .into_boxed_slice() + } +} + +impl<T> ToAnimatedValue for crate::OwnedSlice<T> +where + T: ToAnimatedValue, +{ + type AnimatedValue = crate::OwnedSlice<<T as ToAnimatedValue>::AnimatedValue>; + + #[inline] + fn to_animated_value(self) -> Self::AnimatedValue { + self.into_box().to_animated_value().into() + } + + #[inline] + fn from_animated_value(animated: Self::AnimatedValue) -> Self { + Self::from(Box::from_animated_value(animated.into_box())) + } +} + +impl<T> ToAnimatedValue for SmallVec<[T; 1]> +where + T: ToAnimatedValue, +{ + type AnimatedValue = SmallVec<[T::AnimatedValue; 1]>; + + #[inline] + fn to_animated_value(self) -> Self::AnimatedValue { + self.into_iter().map(T::to_animated_value).collect() + } + + #[inline] + fn from_animated_value(animated: Self::AnimatedValue) -> Self { + animated.into_iter().map(T::from_animated_value).collect() + } +} + +macro_rules! trivial_to_animated_value { + ($ty:ty) => { + impl $crate::values::animated::ToAnimatedValue for $ty { + type AnimatedValue = Self; + + #[inline] + fn to_animated_value(self) -> Self { + self + } + + #[inline] + fn from_animated_value(animated: Self::AnimatedValue) -> Self { + animated + } + } + }; +} + +trivial_to_animated_value!(Au); +trivial_to_animated_value!(LengthPercentage); +trivial_to_animated_value!(ComputedAngle); +trivial_to_animated_value!(ComputedUrl); +trivial_to_animated_value!(bool); +trivial_to_animated_value!(f32); +trivial_to_animated_value!(i32); +trivial_to_animated_value!(AbsoluteColor); +// Note: This implementation is for ToAnimatedValue of ShapeSource. +// +// SVGPathData uses Box<[T]>. If we want to derive ToAnimatedValue for all the +// types, we have to do "impl ToAnimatedValue for Box<[T]>" first. +// However, the general version of "impl ToAnimatedValue for Box<[T]>" needs to +// clone |T| and convert it into |T::AnimatedValue|. However, for SVGPathData +// that is unnecessary--moving |T| is sufficient. So here, we implement this +// trait manually. +trivial_to_animated_value!(SVGPathData); +// FIXME: Bug 1514342, Image is not animatable, but we still need to implement +// this to avoid adding this derive to generic::Image and all its arms. We can +// drop this after landing Bug 1514342. +trivial_to_animated_value!(Image); + +impl ToAnimatedZero for Au { + #[inline] + fn to_animated_zero(&self) -> Result<Self, ()> { + Ok(Au(0)) + } +} + +impl ToAnimatedZero for f32 { + #[inline] + fn to_animated_zero(&self) -> Result<Self, ()> { + Ok(0.) + } +} + +impl ToAnimatedZero for f64 { + #[inline] + fn to_animated_zero(&self) -> Result<Self, ()> { + Ok(0.) + } +} + +impl ToAnimatedZero for i32 { + #[inline] + fn to_animated_zero(&self) -> Result<Self, ()> { + Ok(0) + } +} + +impl<T> ToAnimatedZero for Box<T> +where + T: ToAnimatedZero, +{ + #[inline] + fn to_animated_zero(&self) -> Result<Self, ()> { + Ok(Box::new((**self).to_animated_zero()?)) + } +} + +impl<T> ToAnimatedZero for Option<T> +where + T: ToAnimatedZero, +{ + #[inline] + fn to_animated_zero(&self) -> Result<Self, ()> { + match *self { + Some(ref value) => Ok(Some(value.to_animated_zero()?)), + None => Ok(None), + } + } +} + +impl<T> ToAnimatedZero for Vec<T> +where + T: ToAnimatedZero, +{ + #[inline] + fn to_animated_zero(&self) -> Result<Self, ()> { + self.iter().map(|v| v.to_animated_zero()).collect() + } +} + +impl<T> ToAnimatedZero for Box<[T]> +where + T: ToAnimatedZero, +{ + #[inline] + fn to_animated_zero(&self) -> Result<Self, ()> { + self.iter().map(|v| v.to_animated_zero()).collect() + } +} + +impl<T> ToAnimatedZero for crate::OwnedSlice<T> +where + T: ToAnimatedZero, +{ + #[inline] + fn to_animated_zero(&self) -> Result<Self, ()> { + self.iter().map(|v| v.to_animated_zero()).collect() + } +} + +impl<T> ToAnimatedZero for crate::ArcSlice<T> +where + T: ToAnimatedZero, +{ + #[inline] + fn to_animated_zero(&self) -> Result<Self, ()> { + let v = self + .iter() + .map(|v| v.to_animated_zero()) + .collect::<Result<Vec<_>, _>>()?; + Ok(crate::ArcSlice::from_iter(v.into_iter())) + } +} |