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/* 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/. */

//! Computed types for box properties.

use crate::values::animated::{Animate, Procedure, ToAnimatedValue};

use crate::values::computed::font::FixedPoint;

use crate::values::computed::length::{LengthPercentage, NonNegativeLength};

use crate::values::computed::{Context, Integer, Number, ToComputedValue};

use crate::values::generics::box_::{

    GenericContainIntrinsicSize, GenericLineClamp, GenericPerspective, GenericVerticalAlign,

};

use crate::values::specified::box_ as specified;

use std::fmt;

use style_traits::{CssWriter, ToCss};

pub use crate::values::specified::box_::{

    Appearance, BaselineSource, BreakBetween, BreakWithin, Clear as SpecifiedClear, Contain,

    ContainerName, ContainerType, ContentVisibility, Display, Float as SpecifiedFloat, Overflow,

    OverflowAnchor, OverflowClipBox, OverscrollBehavior, ScrollSnapAlign, ScrollSnapAxis,

    ScrollSnapStop, ScrollSnapStrictness, ScrollSnapType, ScrollbarGutter, TouchAction, WillChange,

};

/// A computed value for the `vertical-align` property.

pub type VerticalAlign = GenericVerticalAlign<LengthPercentage>;

/// A computed value for the `contain-intrinsic-size` property.

pub type ContainIntrinsicSize = GenericContainIntrinsicSize<NonNegativeLength>;

impl ContainIntrinsicSize {

    /// Converts contain-intrinsic-size to auto style.

    pub fn add_auto_if_needed(&self) -> Option<Self> {

        Some(match *self {

            Self::None => Self::AutoNone,

            Self::Length(ref l) => Self::AutoLength(*l),

            Self::AutoNone | Self::AutoLength(..) => return None,

})

/// A computed value for the `line-clamp` property.

pub type LineClamp = GenericLineClamp<Integer>;

impl Animate for LineClamp {

    #[inline]

    fn animate(&self, other: &Self, procedure: Procedure) -> Result<Self, ()> {

        if self.is_none() != other.is_none() {

            return Err(());

        if self.is_none() {

            return Ok(Self::none());

        Ok(Self(self.0.animate(&other.0, procedure)?.max(1)))

/// A computed value for the `perspective` property.

pub type Perspective = GenericPerspective<NonNegativeLength>;

#[allow(missing_docs)]

#[cfg_attr(feature = "servo", derive(Deserialize, Serialize))]

#[derive(

    Clone,

    Copy,

    Debug,

Eq,

    FromPrimitive,

    Hash,

    MallocSizeOf,

    Parse,

    PartialEq,

    SpecifiedValueInfo,

    ToCss,

    ToResolvedValue,

)]

#[repr(u8)]

/// A computed value for the `float` property.

pub enum Float {

    Left,

    Right,

    None,

impl Float {

    /// Returns true if `self` is not `None`.

    pub fn is_floating(self) -> bool {

        self != Self::None

impl ToComputedValue for SpecifiedFloat {

    type ComputedValue = Float;

    #[inline]

    fn to_computed_value(&self, context: &Context) -> Self::ComputedValue {

        let ltr = context.style().writing_mode.is_bidi_ltr();

        // https://drafts.csswg.org/css-logical-props/#float-clear

        match *self {

            SpecifiedFloat::InlineStart => {

                context

                    .rule_cache_conditions

                    .borrow_mut()

                    .set_writing_mode_dependency(context.builder.writing_mode);

                if ltr {

                    Float::Left

                } else {

                    Float::Right

},

            SpecifiedFloat::InlineEnd => {

                context

                    .rule_cache_conditions

                    .borrow_mut()

                    .set_writing_mode_dependency(context.builder.writing_mode);

                if ltr {

                    Float::Right

                } else {

                    Float::Left

},

            SpecifiedFloat::Left => Float::Left,

            SpecifiedFloat::Right => Float::Right,

            SpecifiedFloat::None => Float::None,

    #[inline]

    fn from_computed_value(computed: &Self::ComputedValue) -> SpecifiedFloat {

        match *computed {

            Float::Left => SpecifiedFloat::Left,

            Float::Right => SpecifiedFloat::Right,

            Float::None => SpecifiedFloat::None,

#[allow(missing_docs)]

#[cfg_attr(feature = "servo", derive(Deserialize, Serialize))]

#[derive(

    Clone,

    Copy,

    Debug,

Eq,

    FromPrimitive,

    Hash,

    MallocSizeOf,

    Parse,

    PartialEq,

    SpecifiedValueInfo,

    ToCss,

    ToResolvedValue,

)]

/// A computed value for the `clear` property.

#[repr(u8)]

pub enum Clear {

    None,

    Left,

    Right,

    Both,

impl ToComputedValue for SpecifiedClear {

    type ComputedValue = Clear;

    #[inline]

    fn to_computed_value(&self, context: &Context) -> Self::ComputedValue {

        let ltr = context.style().writing_mode.is_bidi_ltr();

        // https://drafts.csswg.org/css-logical-props/#float-clear

        match *self {

            SpecifiedClear::InlineStart => {

                context

                    .rule_cache_conditions

                    .borrow_mut()

                    .set_writing_mode_dependency(context.builder.writing_mode);

                if ltr {

                    Clear::Left

                } else {

                    Clear::Right

},

            SpecifiedClear::InlineEnd => {

                context

                    .rule_cache_conditions

                    .borrow_mut()

                    .set_writing_mode_dependency(context.builder.writing_mode);

                if ltr {

                    Clear::Right

                } else {

                    Clear::Left

},

            SpecifiedClear::None => Clear::None,

            SpecifiedClear::Left => Clear::Left,

            SpecifiedClear::Right => Clear::Right,

            SpecifiedClear::Both => Clear::Both,

    #[inline]

    fn from_computed_value(computed: &Self::ComputedValue) -> SpecifiedClear {

        match *computed {

            Clear::None => SpecifiedClear::None,

            Clear::Left => SpecifiedClear::Left,

            Clear::Right => SpecifiedClear::Right,

            Clear::Both => SpecifiedClear::Both,

/// A computed value for the `resize` property.

#[allow(missing_docs)]

#[cfg_attr(feature = "servo", derive(Deserialize, Serialize))]

#[derive(Clone, Copy, Debug, Eq, Hash, MallocSizeOf, Parse, PartialEq, ToCss, ToResolvedValue)]

#[repr(u8)]

pub enum Resize {

    None,

    Both,

    Horizontal,

    Vertical,

impl ToComputedValue for specified::Resize {

    type ComputedValue = Resize;

    #[inline]

    fn to_computed_value(&self, context: &Context) -> Resize {

        let is_vertical = context.style().writing_mode.is_vertical();

        match self {

            specified::Resize::Inline => {

                context

                    .rule_cache_conditions

                    .borrow_mut()

                    .set_writing_mode_dependency(context.builder.writing_mode);

                if is_vertical {

                    Resize::Vertical

                } else {

                    Resize::Horizontal

},

            specified::Resize::Block => {

                context

                    .rule_cache_conditions

                    .borrow_mut()

                    .set_writing_mode_dependency(context.builder.writing_mode);

                if is_vertical {

                    Resize::Horizontal

                } else {

                    Resize::Vertical

},

            specified::Resize::None => Resize::None,

            specified::Resize::Both => Resize::Both,

            specified::Resize::Horizontal => Resize::Horizontal,

            specified::Resize::Vertical => Resize::Vertical,

    #[inline]

    fn from_computed_value(computed: &Resize) -> specified::Resize {

        match computed {

            Resize::None => specified::Resize::None,

            Resize::Both => specified::Resize::Both,

            Resize::Horizontal => specified::Resize::Horizontal,

            Resize::Vertical => specified::Resize::Vertical,

/// We use an unsigned 10.6 fixed-point value (range 0.0 - 1023.984375).

pub const ZOOM_FRACTION_BITS: u16 = 6;

/// This is an alias which is useful mostly as a cbindgen / C++ inference workaround.

pub type ZoomFixedPoint = FixedPoint<u16, ZOOM_FRACTION_BITS>;

/// The computed `zoom` property value. We store it as a 16-bit fixed point because we need to

/// store it efficiently in the ComputedStyle representation. The assumption being that zooms over

/// 1000 aren't quite useful.

#[derive(

    Clone,

    ComputeSquaredDistance,

    Copy,

    Debug,

    Hash,

    MallocSizeOf,

    PartialEq,

    PartialOrd,

    ToResolvedValue,

)]

#[cfg_attr(feature = "servo", derive(Deserialize, Serialize))]

#[repr(C)]

pub struct Zoom(ZoomFixedPoint);

impl ToComputedValue for specified::Zoom {

    type ComputedValue = Zoom;

    #[inline]

    fn to_computed_value(&self, _: &Context) -> Self::ComputedValue {

        let n = match *self {

            Self::Normal => return Zoom::ONE,

            Self::Document => return Zoom::DOCUMENT,

            Self::Value(ref n) => n.0.to_number().get(),

};

        if n == 0.0 {

            // For legacy reasons, zoom: 0 (and 0%) computes to 1. ¯\_(ツ)_/¯

            return Zoom::ONE;

        Zoom(ZoomFixedPoint::from_float(n))

    #[inline]

    fn from_computed_value(computed: &Self::ComputedValue) -> Self {

        Self::new_number(computed.value())

impl ToCss for Zoom {

    fn to_css<W>(&self, dest: &mut CssWriter<W>) -> fmt::Result

    where

        W: fmt::Write,

        use std::fmt::Write;

        if *self == Self::DOCUMENT {

            return dest.write_str("document");

        self.value().to_css(dest)

impl ToAnimatedValue for Zoom {

    type AnimatedValue = Number;

    #[inline]

    fn to_animated_value(self) -> Self::AnimatedValue {

        self.value()

    #[inline]

    fn from_animated_value(animated: Self::AnimatedValue) -> Self {

        Zoom(ZoomFixedPoint::from_float(animated.max(0.0)))

impl Zoom {

    /// The value 1. This is by far the most common value.

    pub const ONE: Zoom = Zoom(ZoomFixedPoint {

        value: 1 << ZOOM_FRACTION_BITS,

});

    /// The `document` value. This can appear in the computed zoom property value, but not in the

    /// `effective_zoom` field.

    pub const DOCUMENT: Zoom = Zoom(ZoomFixedPoint { value: 0 });

    /// Returns whether we're the number 1.

    #[inline]

    pub fn is_one(self) -> bool {

        self == Self::ONE

    /// Returns the value as a float.

    #[inline]

    pub fn value(&self) -> f32 {

        self.0.to_float()

    /// Computes the effective zoom for a given new zoom value in rhs.

    pub fn compute_effective(self, specified: Self) -> Self {

        if specified == Self::DOCUMENT {

            return Self::ONE;

        if self == Self::ONE {

            return specified;

        if specified == Self::ONE {

            return self;

        Zoom(self.0 * specified.0)

    /// Returns the zoomed value.

    #[inline]

    pub fn zoom(self, value: f32) -> f32 {

        if self == Self::ONE {

            return value;

        value * self.value()

    /// Returns the un-zoomed value.

    #[inline]

    pub fn unzoom(self, value: f32) -> f32 {

        if self == Self::ONE {

            return value;

        value / self.value()