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b068dcffb1324b82fb2cfab5454360760cb15f45
tubestation/servo/components/style/values/generics/grid.rs
Emilio Cobos Álvarez f49da1c698 Bug 1909153 - Fix interaction of transitions and zoom. r=firefox-style-system-reviewers,layout-reviewers,boris 
The main issue here is that we transition the zoomed value, which is
generally wrong because the animated value gets injected back into the
cascade (and thus zoomed again).

We happen to cancel the transition in [1], which is kinda nice because
otherwise we would've just transitioned to a completely wrong value (and
maybe indefinitely, since values would keep getting bigger and
bigger...).

We need to do something similar to to_resolved_value, and unzoom lengths
in to_animated_value, that is, interpolate "unzoomed" values.

The extra test to test_transitions_per_property caught some existing
issues with calc() and zoom which are fixed too for the test to pass.

Same for the ToResolvedValue for Au, that is needed for properties like
column-rule-width to return the correct resolved values.

Main thing I left unfixed is bug 1909280, but that deserves a more
subtle test and a bit more thought because only matrix components need
to be zoomed.

While at it, I simplified the animation setup a little bit, removing the
special animation_value_type="ComputedValue", which means that we need
to add a few ToAnimatedValue calls.

Now the only values are "none", "discrete", and "normal", and given it's
not a value type anymore I called it just "animation_type".

This got a bit bigger than I would've liked, but also it fixes more bugs
that what I was originally expecting, so... :)

[1]: https://searchfox.org/mozilla-central/rev/5756c5a3dea4f2896cdb3c8bb15d0ced5e2bf690/layout/style/nsTransitionManager.cpp#168-171

Differential Revision: https://phabricator.services.mozilla.com/D217308
2024-07-23 21:54:01 +00:00

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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/. */
//! 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<I>,
/// `<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<I> {
/// 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<I>,
/// 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<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_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<I> NameRepeat<I> {
/// 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<I> {
/// `<line-names>`.
LineNames(crate::OwnedSlice<CustomIdent>),
/// `<name-repeat>`.
Repeat(GenericNameRepeat<I>),
}
pub use self::GenericLineNameListValue as LineNameListValue;
impl<I: ToCss> ToCss for LineNameListValue<I> {
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<I> {
/// 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<I>>,
}
pub use self::GenericLineNameList as LineNameList;
impl<I: ToCss> ToCss for LineNameList<I> {
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<I>>),
/// `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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