SSL grid.rs Interaktion und
Portierbarkeitunbekannt

/* 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/. */

//! Generic types for the handling of
//! [grids](https://drafts.csswg.org/css-grid/).

use crate::parser::{Parse, ParserContext};
use crate::values::specified;
use crate::values::{CSSFloat, CustomIdent};
use crate::{One, Zero};
use cssparser::Parser;
use std::fmt::{self, Write};
use std::{cmp, usize};
use style_traits::{CssWriter, ParseError, StyleParseErrorKind, ToCss};

/// These are the limits that we choose to clamp grid line numbers to.
/// http://drafts.csswg.org/css-grid/#overlarge-grids
/// line_num is clamped to this range at parse time.
pub const MIN_GRID_LINE: i32 = -10000;
/// See above.
pub const MAX_GRID_LINE: i32 = 10000;

/// A `<grid-line>` type.
///
/// <https://drafts.csswg.org/css-grid/#typedef-grid-row-start-grid-line>
#[derive(
 Clone,
 Debug,
 Default,
 MallocSizeOf,
 PartialEq,
 SpecifiedValueInfo,
 ToComputedValue,
 ToResolvedValue,
 ToShmem,
)]
#[repr(C)]
pub struct GenericGridLine<Integer> {
 /// A custom identifier for named lines, or the empty atom otherwise.
 ///
 /// <https://drafts.csswg.org/css-grid/#grid-placement-slot>
 pub ident: CustomIdent,
 /// Denotes the nth grid line from grid item's placement.
 ///
 /// This is clamped by MIN_GRID_LINE and MAX_GRID_LINE.
 ///
 /// NOTE(emilio): If we ever allow animating these we need to either do
 /// something more complicated for the clamping, or do this clamping at
 /// used-value time.
 pub line_num: Integer,
 /// Flag to check whether it's a `span` keyword.
 pub is_span: bool,
}

pub use self::GenericGridLine as GridLine;

impl<Integer> GridLine<Integer>
where
 Integer: PartialEq + Zero,
{
 /// The `auto` value.
 pub fn auto() -> Self {
 Self {
 is_span: false,
 line_num: Zero::zero(),
 ident: CustomIdent(atom!("")),
 }
 }

 /// Check whether this `<grid-line>` represents an `auto` value.
 pub fn is_auto(&self) -> bool {
 self.ident.0 == atom!("") && self.line_num.is_zero() && !self.is_span
 }

 /// Check whether this `<grid-line>` represents a `<custom-ident>` value.
 pub fn is_ident_only(&self) -> bool {
 self.ident.0 != atom!("") && self.line_num.is_zero() && !self.is_span
 }

 /// Check if `self` makes `other` omittable according to the rules at:
 /// https://drafts.csswg.org/css-grid/#propdef-grid-column
 /// https://drafts.csswg.org/css-grid/#propdef-grid-area
 pub fn can_omit(&self, other: &Self) -> bool {
 if self.is_ident_only() {
 self == other
 } else {
 other.is_auto()
 }
 }
}

impl<Integer> ToCss for GridLine<Integer>
where
 Integer: ToCss + PartialEq + Zero + One,
{
 fn to_css<W>(&self, dest: &mut CssWriter<W>) -> fmt::Result
 where
 W: Write,
 {
 // 1. `auto`
 if self.is_auto() {
 return dest.write_str("auto");
 }

 // 2. `<custom-ident>`
 if self.is_ident_only() {
 return self.ident.to_css(dest);
 }

 // 3. `[ span && [ <integer [1,∞]> || <custom-ident> ] ]`
 let has_ident = self.ident.0 != atom!("");
 if self.is_span {
 dest.write_str("span")?;
 debug_assert!(!self.line_num.is_zero() || has_ident);

 // We omit `line_num` if
 // 1. we don't specify it, or
 // 2. it is the default value, i.e. 1.0, and the ident is specified.
 // https://drafts.csswg.org/css-grid/#grid-placement-span-int
 if !self.line_num.is_zero() && !(self.line_num.is_one() && has_ident) {
 dest.write_char(' ')?;
 self.line_num.to_css(dest)?;
 }

 if has_ident {
 dest.write_char(' ')?;
 self.ident.to_css(dest)?;
 }
 return Ok(());
 }

 // 4. `[ <integer [-∞,-1]> | <integer [1,∞]> ] && <custom-ident>? ]`
 debug_assert!(!self.line_num.is_zero());
 self.line_num.to_css(dest)?;
 if has_ident {
 dest.write_char(' ')?;
 self.ident.to_css(dest)?;
 }
 Ok(())
 }
}

impl Parse for GridLine<specified::Integer> {
 fn parse<'i, 't>(
 context: &ParserContext,
 input: &mut Parser<'i, 't>,
 ) -> Result<Self, ParseError<'i>> {
 let mut grid_line = Self::auto();
 if input.try_parse(|i| i.expect_ident_matching("auto")).is_ok() {
 return Ok(grid_line);
 }

 // <custom-ident> | [ <integer> && <custom-ident>? ] | [ span && [ <integer> || <custom-ident> ] ]
 // This <grid-line> horror is simply,
 // [ span? && [ <custom-ident> || <integer> ] ]
 // And, for some magical reason, "span" should be the first or last value and not in-between.
 let mut val_before_span = false;

 for _ in 0..3 {
 // Maximum possible entities for <grid-line>
 let location = input.current_source_location();
 if input.try_parse(|i| i.expect_ident_matching("span")).is_ok() {
 if grid_line.is_span {
 return Err(location.new_custom_error(StyleParseErrorKind::UnspecifiedError));
 }

 if !grid_line.line_num.is_zero() || grid_line.ident.0 != atom!("") {
 val_before_span = true;
 }

 grid_line.is_span = true;
 } else if let Ok(i) = input.try_parse(|i| specified::Integer::parse(context, i)) {
 // FIXME(emilio): Probably shouldn't reject if it's calc()...
 let value = i.value();
 if value == 0 || val_before_span || !grid_line.line_num.is_zero() {
 return Err(location.new_custom_error(StyleParseErrorKind::UnspecifiedError));
 }

 grid_line.line_num = specified::Integer::new(cmp::max(
 MIN_GRID_LINE,
 cmp::min(value, MAX_GRID_LINE),
 ));
 } else if let Ok(name) = input.try_parse(|i| CustomIdent::parse(i, &["auto"])) {
 if val_before_span || grid_line.ident.0 != atom!("") {
 return Err(location.new_custom_error(StyleParseErrorKind::UnspecifiedError));
 }
 // NOTE(emilio): `span` is consumed above, so we only need to
 // reject `auto`.
 grid_line.ident = name;
 } else {
 break;
 }
 }

 if grid_line.is_auto() {
 return Err(input.new_custom_error(StyleParseErrorKind::UnspecifiedError));
 }

 if grid_line.is_span {
 if !grid_line.line_num.is_zero() {
 if grid_line.line_num.value() <= 0 {
 // disallow negative integers for grid spans
 return Err(input.new_custom_error(StyleParseErrorKind::UnspecifiedError));
 }
 } else if grid_line.ident.0 == atom!("") {
 // integer could be omitted
 return Err(input.new_custom_error(StyleParseErrorKind::UnspecifiedError));
 }
 }

 Ok(grid_line)
 }
}

/// A track breadth for explicit grid track sizing. It's generic solely to
/// avoid re-implementing it for the computed type.
///
/// <https://drafts.csswg.org/css-grid/#typedef-track-breadth>
#[derive(
 Animate,
 Clone,
 Debug,
 MallocSizeOf,
 PartialEq,
 SpecifiedValueInfo,
 ToAnimatedValue,
 ToComputedValue,
 ToCss,
 ToResolvedValue,
 ToShmem,
)]
#[repr(C, u8)]
pub enum GenericTrackBreadth<L> {
 /// The generic type is almost always a non-negative `<length-percentage>`
 Breadth(L),
 /// A flex fraction specified in `fr` units.
 #[css(dimension)]
 Fr(CSSFloat),
 /// `auto`
 Auto,
 /// `min-content`
 MinContent,
 /// `max-content`
 MaxContent,
}

pub use self::GenericTrackBreadth as TrackBreadth;

impl<L> TrackBreadth<L> {
 /// Check whether this is a `<fixed-breadth>` (i.e., it only has `<length-percentage>`)
 ///
 /// <https://drafts.csswg.org/css-grid/#typedef-fixed-breadth>
 #[inline]
 pub fn is_fixed(&self) -> bool {
 matches!(*self, TrackBreadth::Breadth(..))
 }
}

/// A `<track-size>` type for explicit grid track sizing. Like `<track-breadth>`, this is
/// generic only to avoid code bloat. It only takes `<length-percentage>`
///
/// <https://drafts.csswg.org/css-grid/#typedef-track-size>
#[derive(
 Clone,
 Debug,
 MallocSizeOf,
 PartialEq,
 SpecifiedValueInfo,
 ToAnimatedValue,
 ToComputedValue,
 ToResolvedValue,
 ToShmem,
)]
#[repr(C, u8)]
pub enum GenericTrackSize<L> {
 /// A flexible `<track-breadth>`
 Breadth(GenericTrackBreadth<L>),
 /// A `minmax` function for a range over an inflexible `<track-breadth>`
 /// and a flexible `<track-breadth>`
 ///
 /// <https://drafts.csswg.org/css-grid/#valdef-grid-template-columns-minmax>
 #[css(function)]
 Minmax(GenericTrackBreadth<L>, GenericTrackBreadth<L>),
 /// A `fit-content` function.
 ///
 /// This stores a TrackBreadth<L> for convenience, but it can only be a
 /// LengthPercentage.
 ///
 /// <https://drafts.csswg.org/css-grid/#valdef-grid-template-columns-fit-content>
 #[css(function)]
 FitContent(GenericTrackBreadth<L>),
}

pub use self::GenericTrackSize as TrackSize;

impl<L> TrackSize<L> {
 /// The initial value.
 const INITIAL_VALUE: Self = TrackSize::Breadth(TrackBreadth::Auto);

 /// Returns the initial value.
 pub const fn initial_value() -> Self {
 Self::INITIAL_VALUE
 }

 /// Returns true if `self` is the initial value.
 pub fn is_initial(&self) -> bool {
 matches!(*self, TrackSize::Breadth(TrackBreadth::Auto)) // FIXME: can't use Self::INITIAL_VALUE here yet: https://github.com/rust-lang/rust/issues/66585
 }

 /// Check whether this is a `<fixed-size>`
 ///
 /// <https://drafts.csswg.org/css-grid/#typedef-fixed-size>
 pub fn is_fixed(&self) -> bool {
 match *self {
 TrackSize::Breadth(ref breadth) => breadth.is_fixed(),
 // For minmax function, it could be either
 // minmax(<fixed-breadth>, <track-breadth>) or minmax(<inflexible-breadth>, <fixed-breadth>),
 // and since both variants are a subset of minmax(<inflexible-breadth>, <track-breadth>), we only
 // need to make sure that they're fixed. So, we don't have to modify the parsing function.
 TrackSize::Minmax(ref breadth_1, ref breadth_2) => {
 if breadth_1.is_fixed() {
 return true; // the second value is always a <track-breadth>
 }

 match *breadth_1 {
 TrackBreadth::Fr(_) => false, // should be <inflexible-breadth> at this point
 _ => breadth_2.is_fixed(),
 }
 },
 TrackSize::FitContent(_) => false,
 }
 }
}

impl<L> Default for TrackSize<L> {
 fn default() -> Self {
 Self::initial_value()
 }
}

impl<L: ToCss> ToCss for TrackSize<L> {
 fn to_css<W>(&self, dest: &mut CssWriter<W>) -> fmt::Result
 where
 W: Write,
 {
 match *self {
 TrackSize::Breadth(ref breadth) => breadth.to_css(dest),
 TrackSize::Minmax(ref min, ref max) => {
 // According to gecko minmax(auto, <flex>) is equivalent to <flex>,
 // and both are serialized as <flex>.
 if let TrackBreadth::Auto = *min {
 if let TrackBreadth::Fr(_) = *max {
 return max.to_css(dest);
 }
 }

 dest.write_str("minmax(")?;
 min.to_css(dest)?;
 dest.write_str(", ")?;
 max.to_css(dest)?;
 dest.write_char(')')
 },
 TrackSize::FitContent(ref lp) => {
 dest.write_str("fit-content(")?;
 lp.to_css(dest)?;
 dest.write_char(')')
 },
 }
 }
}

/// A `<track-size>+`.
/// We use the empty slice as `auto`, and always parse `auto` as an empty slice.
/// This means it's impossible to have a slice containing only one auto item.
#[derive(
 Clone,
 Debug,
 Default,
 MallocSizeOf,
 PartialEq,
 SpecifiedValueInfo,
 ToComputedValue,
 ToCss,
 ToResolvedValue,
 ToShmem,
)]
#[repr(transparent)]
pub struct GenericImplicitGridTracks<T>(
 #[css(if_empty = "auto", iterable)] pub crate::OwnedSlice<T>,
);

pub use self::GenericImplicitGridTracks as ImplicitGridTracks;

impl<T: fmt::Debug + Default + PartialEq> ImplicitGridTracks<T> {
 /// Returns true if current value is same as its initial value (i.e. auto).
 pub fn is_initial(&self) -> bool {
 debug_assert_ne!(
 *self,
 ImplicitGridTracks(crate::OwnedSlice::from(vec![Default::default()]))
 );
 self.0.is_empty()
 }
}

/// Helper function for serializing identifiers with a prefix and suffix, used
/// for serializing <line-names> (in grid).
pub fn concat_serialize_idents<W>(
 prefix: &str,
 suffix: &str,
 slice: &[CustomIdent],
 sep: &str,
 dest: &mut CssWriter<W>,
) -> fmt::Result
where
 W: Write,
{
 if let Some((ref first, rest)) = slice.split_first() {
 dest.write_str(prefix)?;
 first.to_css(dest)?;
 for thing in rest {
 dest.write_str(sep)?;
 thing.to_css(dest)?;
 }

 dest.write_str(suffix)?;
 }

 Ok(())
}

/// The initial argument of the `repeat` function.
///
/// <https://drafts.csswg.org/css-grid/#typedef-track-repeat>
#[derive(
 Clone,
 Copy,
 Debug,
 MallocSizeOf,
 PartialEq,
 SpecifiedValueInfo,
 ToAnimatedValue,
 ToComputedValue,
 ToCss,
 ToResolvedValue,
 ToShmem,
)]
#[repr(C, u8)]
pub enum RepeatCount<Integer> {
 /// A positive integer. This is allowed only for `<track-repeat>` and `<fixed-repeat>`
 Number(Integer),
 /// An `<auto-fill>` keyword allowed only for `<auto-repeat>`
 AutoFill,
 /// An `<auto-fit>` keyword allowed only for `<auto-repeat>`
 AutoFit,
}

impl Parse for RepeatCount<specified::Integer> {
 fn parse<'i, 't>(
 context: &ParserContext,
 input: &mut Parser<'i, 't>,
 ) -> Result<Self, ParseError<'i>> {
 if let Ok(mut i) = input.try_parse(|i| specified::Integer::parse_positive(context, i)) {
 if i.value() > MAX_GRID_LINE {
 i = specified::Integer::new(MAX_GRID_LINE);
 }
 return Ok(RepeatCount::Number(i));
 }
 try_match_ident_ignore_ascii_case! { input,
 "auto-fill" => Ok(RepeatCount::AutoFill),
 "auto-fit" => Ok(RepeatCount::AutoFit),
 }
 }
}

/// The structure containing `<line-names>` and `<track-size>` values.
#[derive(
 Clone,
 Debug,
 MallocSizeOf,
 PartialEq,
 SpecifiedValueInfo,
 ToAnimatedValue,
 ToComputedValue,
 ToResolvedValue,
 ToShmem,
)]
#[css(function = "repeat")]
#[repr(C)]
pub struct GenericTrackRepeat<L, I> {
 /// The number of times for the value to be repeated (could also be `auto-fit` or `auto-fill`)
 pub count: RepeatCount,
 /// `<line-names>` accompanying `<track_size>` values.
 ///
 /// If there's no `<line-names>`, then it's represented by an empty vector.
 /// For N `<track-size>` values, there will be N+1 `<line-names>`, and so this vector's
 /// length is always one value more than that of the `<track-size>`.
 pub line_names: crate::OwnedSlice<crate::OwnedSlice<CustomIdent>>,
 /// `<track-size>` values.
 pub track_sizes: crate::OwnedSlice<GenericTrackSize<L>>,
}

pub use self::GenericTrackRepeat as TrackRepeat;

impl<L: ToCss, I: ToCss> ToCss for TrackRepeat<L, I> {
 fn to_css<W>(&self, dest: &mut CssWriter<W>) -> fmt::Result
 where
 W: Write,
 {
 dest.write_str("repeat(")?;
 self.count.to_css(dest)?;
 dest.write_str(", ")?;

 let mut line_names_iter = self.line_names.iter();
 for (i, (ref size, ref names)) in self
 .track_sizes
 .iter()
 .zip(&mut line_names_iter)
 .enumerate()
 {
 if i > 0 {
 dest.write_char(' ')?;
 }

 concat_serialize_idents("[", "] ", names, " ", dest)?;
 size.to_css(dest)?;
 }

 if let Some(line_names_last) = line_names_iter.next() {
 concat_serialize_idents(" [", "]", line_names_last, " ", dest)?;
 }

 dest.write_char(')')?;

 Ok(())
 }
}

/// Track list values. Can be <track-size> or <track-repeat>
#[derive(
 Animate,
 Clone,
 Debug,
 MallocSizeOf,
 PartialEq,
 SpecifiedValueInfo,
 ToAnimatedValue,
 ToComputedValue,
 ToCss,
 ToResolvedValue,
 ToShmem,
)]
#[repr(C, u8)]
pub enum GenericTrackListValue<LengthPercentage, Integer> {
 /// A <track-size> value.
 TrackSize(#[animation(field_bound)] GenericTrackSize<LengthPercentage>),
 /// A <track-repeat> value.
 TrackRepeat(#[animation(field_bound)] GenericTrackRepeat<LengthPercentage, Integer>),
}

pub use self::GenericTrackListValue as TrackListValue;

impl<L, I> TrackListValue<L, I> {
 // FIXME: can't use TrackSize::initial_value() here b/c rustc error "is not yet stable as a const fn"
 const INITIAL_VALUE: Self = TrackListValue::TrackSize(TrackSize::Breadth(TrackBreadth::Auto));

 fn is_repeat(&self) -> bool {
 matches!(*self, TrackListValue::TrackRepeat(..))
 }

 /// Returns true if `self` is the initial value.
 pub fn is_initial(&self) -> bool {
 matches!(
 *self,
 TrackListValue::TrackSize(TrackSize::Breadth(TrackBreadth::Auto))
 ) // FIXME: can't use Self::INITIAL_VALUE here yet: https://github.com/rust-lang/rust/issues/66585
 }
}

impl<L, I> Default for TrackListValue<L, I> {
 #[inline]
 fn default() -> Self {
 Self::INITIAL_VALUE
 }
}

/// A grid `<track-list>` type.
///
/// <https://drafts.csswg.org/css-grid/#typedef-track-list>
#[derive(
 Clone,
 Debug,
 MallocSizeOf,
 PartialEq,
 SpecifiedValueInfo,
 ToAnimatedValue,
 ToComputedValue,
 ToResolvedValue,
 ToShmem,
)]
#[repr(C)]
pub struct GenericTrackList<LengthPercentage, Integer> {
 /// The index in `values` where our `<auto-repeat>` value is, if in bounds.
 #[css(skip)]
 pub auto_repeat_index: usize,
 /// A vector of `<track-size> | <track-repeat>` values.
 pub values: crate::OwnedSlice<GenericTrackListValue<LengthPercentage, Integer>>,
 /// `<line-names>` accompanying `<track-size> | <track-repeat>` values.
 ///
 /// If there's no `<line-names>`, then it's represented by an empty vector.
 /// For N values, there will be N+1 `<line-names>`, and so this vector's
 /// length is always one value more than that of the `<track-size>`.
 pub line_names: crate::OwnedSlice<crate::OwnedSlice<CustomIdent>>,
}

pub use self::GenericTrackList as TrackList;

impl<L, I> TrackList<L, I> {
 /// Whether this track list is an explicit track list (that is, doesn't have
 /// any repeat values).
 pub fn is_explicit(&self) -> bool {
 !self.values.iter().any(|v| v.is_repeat())
 }

 /// Whether this track list has an `<auto-repeat>` value.
 pub fn has_auto_repeat(&self) -> bool {
 self.auto_repeat_index < self.values.len()
 }
}

impl<L: ToCss, I: ToCss> ToCss for TrackList<L, I> {
 fn to_css<W>(&self, dest: &mut CssWriter<W>) -> fmt::Result
 where
 W: Write,
 {
 let mut values_iter = self.values.iter().peekable();
 let mut line_names_iter = self.line_names.iter().peekable();

 for idx in 0.. {
 let names = line_names_iter.next().unwrap(); // This should exist!
 concat_serialize_idents("[", "]", names, " ", dest)?;

 match values_iter.next() {
 Some(value) => {
 if !names.is_empty() {
 dest.write_char(' ')?;
 }

 value.to_css(dest)?;
 },
 None => break,
 }

 if values_iter.peek().is_some() ||
 line_names_iter.peek().map_or(false, |v| !v.is_empty()) ||
 (idx + 1 == self.auto_repeat_index)
 {
 dest.write_char(' ')?;
 }
 }

 Ok(())
 }
}

/// The `<name-repeat>` for subgrids.
///
/// <name-repeat> = repeat( [ <integer [1,∞]> | auto-fill ], <line-names>+)
///
/// https://drafts.csswg.org/css-grid/#typedef-name-repeat
#[derive(
 Clone,
 Debug,
 MallocSizeOf,
 PartialEq,
 SpecifiedValueInfo,
 ToAnimatedValue,
 ToComputedValue,
 ToResolvedValue,
 ToShmem,
)]
#[repr(C)]
pub struct GenericNameRepeat {
 /// The number of times for the value to be repeated (could also be `auto-fill`).
 /// Note: `RepeatCount` accepts `auto-fit`, so we should reject it after parsing it.
 pub count: RepeatCount,
 /// This represents `<line-names>+`. The length of the outer vector is at least one.
 pub line_names: crate::OwnedSlice<crate::OwnedSlice<CustomIdent>>,
}

pub use self::GenericNameRepeat as NameRepeat;

impl<I: ToCss> ToCss for NameRepeat {
 fn to_css<W>(&self, dest: &mut CssWriter<W>) -> fmt::Result
 where
 W: Write,
 {
 dest.write_str("repeat(")?;
 self.count.to_css(dest)?;
 dest.write_char(',')?;

 for ref names in self.line_names.iter() {
 if names.is_empty() {
 // Note: concat_serialize_idents() skip the empty list so we have to handle it
 // manually for NameRepeat.
 dest.write_str(" []")?;
 } else {
 concat_serialize_idents(" [", "]", names, " ", dest)?;
 }
 }

 dest.write_char(')')
 }
}

impl NameRepeat {
 /// Returns true if it is auto-fill.
 #[inline]
 pub fn is_auto_fill(&self) -> bool {
 matches!(self.count, RepeatCount::AutoFill)
 }
}

/// A single value for `<line-names>` or `<name-repeat>`.
#[derive(
 Clone,
 Debug,
 MallocSizeOf,
 PartialEq,
 SpecifiedValueInfo,
 ToAnimatedValue,
 ToComputedValue,
 ToResolvedValue,
 ToShmem,
)]
#[repr(C, u8)]
pub enum GenericLineNameListValue {
 /// `<line-names>`.
 LineNames(crate::OwnedSlice<CustomIdent>),
 /// `<name-repeat>`.
 Repeat(GenericNameRepeat),
}

pub use self::GenericLineNameListValue as LineNameListValue;

impl<I: ToCss> ToCss for LineNameListValue {
 fn to_css<W>(&self, dest: &mut CssWriter<W>) -> fmt::Result
 where
 W: Write,
 {
 match *self {
 Self::Repeat(ref r) => r.to_css(dest),
 Self::LineNames(ref names) => {
 dest.write_char('[')?;

 if let Some((ref first, rest)) = names.split_first() {
 first.to_css(dest)?;
 for name in rest {
 dest.write_char(' ')?;
 name.to_css(dest)?;
 }
 }

 dest.write_char(']')
 },
 }
 }
}

/// The `<line-name-list>` for subgrids.
///
/// <line-name-list> = [ <line-names> | <name-repeat> ]+
/// <name-repeat> = repeat( [ <integer [1,∞]> | auto-fill ], <line-names>+)
///
/// https://drafts.csswg.org/css-grid/#typedef-line-name-list
#[derive(
 Clone,
 Debug,
 Default,
 MallocSizeOf,
 PartialEq,
 SpecifiedValueInfo,
 ToAnimatedValue,
 ToComputedValue,
 ToResolvedValue,
 ToShmem,
)]
#[repr(C)]
pub struct GenericLineNameList {
 /// The pre-computed length of line_names, without the length of repeat(auto-fill, ...).
 // We precomputed this at parsing time, so we can avoid an extra loop when expanding
 // repeat(auto-fill).
 pub expanded_line_names_length: usize,
 /// The line name list.
 pub line_names: crate::OwnedSlice<GenericLineNameListValue>,
}

pub use self::GenericLineNameList as LineNameList;

impl<I: ToCss> ToCss for LineNameList {
 fn to_css<W>(&self, dest: &mut CssWriter<W>) -> fmt::Result
 where
 W: Write,
 {
 dest.write_str("subgrid")?;

 for value in self.line_names.iter() {
 dest.write_char(' ')?;
 value.to_css(dest)?;
 }

 Ok(())
 }
}

/// Variants for `<grid-template-rows> | <grid-template-columns>`
#[derive(
 Animate,
 Clone,
 Debug,
 MallocSizeOf,
 PartialEq,
 SpecifiedValueInfo,
 ToAnimatedValue,
 ToComputedValue,
 ToCss,
 ToResolvedValue,
 ToShmem,
)]
#[value_info(other_values = "subgrid")]
#[repr(C, u8)]
pub enum GenericGridTemplateComponent<L, I> {
 /// `none` value.
 None,
 /// The grid `<track-list>`
 TrackList(
 #[animation(field_bound)]
 #[compute(field_bound)]
 #[resolve(field_bound)]
 #[shmem(field_bound)]
 Box<GenericTrackList<L, I>>,
 ),
 /// A `subgrid <line-name-list>?`
 /// TODO: Support animations for this after subgrid is addressed in [grid-2] spec.
 #[animation(error)]
 Subgrid(Box<GenericLineNameList>),
 /// `masonry` value.
 /// https://github.com/w3c/csswg-drafts/issues/4650
 Masonry,
}

pub use self::GenericGridTemplateComponent as GridTemplateComponent;

impl<L, I> GridTemplateComponent<L, I> {
 /// The initial value.
 const INITIAL_VALUE: Self = Self::None;

 /// Returns length of the <track-list>s <track-size>
 pub fn track_list_len(&self) -> usize {
 match *self {
 GridTemplateComponent::TrackList(ref tracklist) => tracklist.values.len(),
 _ => 0,
 }
 }

 /// Returns true if `self` is the initial value.
 pub fn is_initial(&self) -> bool {
 matches!(*self, Self::None) // FIXME: can't use Self::INITIAL_VALUE here yet: https://github.com/rust-lang/rust/issues/66585
 }
}

impl<L, I> Default for GridTemplateComponent<L, I> {
 #[inline]
 fn default() -> Self {
 Self::INITIAL_VALUE
 }
}

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SSL grid.rs Interaktion und
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