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Auto merge of #12680 - Manishearth:basic-shape, r=SimonSapin

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style: Add support for parsing and serialization of <basic-shape>s

Still WIP: I still need to use this somewhere and make serialization minimal. I'm not sure if I should do either in this PR.
The only other browser that handles basic shapes doesn't serialize correctly either (https://bugzilla.mozilla.org/show_bug.cgi?id=1290864), so that's not something we need to get done now.

As far as using this somewhere, I have the following options:

 - Merge this now, work on using it in stylo in a followup.
 - Just write extensive unit tests for parsing/serialization for now (stylo in a followup)
 - Use this for clip-path in stylo only (which I intend to do anyway, just not sure if I should do it in this PR)
 - Use this for clip-path in Servo (I'd rather not do this; this would be a huge change requiring a lot more layout knowledge than I currently have)

Thoughts? Review? @SimonSapin @bholley

<!-- Reviewable:start -->
---
This change is [<img src="https://reviewable.io/review_button.svg" height="34" align="absmiddle" alt="Reviewable"/>](https://reviewable.io/reviews/servo/servo/12680)
<!-- Reviewable:end -->
This commit is contained in:
bors-servo 2016-08-05 06:27:24 -05:00 committed by GitHub
commit 0fc0db67c6
16 changed files with 1188 additions and 181 deletions
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4
components/layout/display_list_builder.rs
View file

@ -520,9 +520,9 @@ impl FragmentDisplayListBuilding for Fragment {
};
// Use `background-position` to get the offset.
let horizontal_position = model::specified(background.background_position.horizontal,
let horizontal_position = model::specified(background.background_position.0.horizontal,
bounds.size.width - image_size.width);
let vertical_position = model::specified(background.background_position.vertical,
let vertical_position = model::specified(background.background_position.0.vertical,
bounds.size.height - image_size.height);
let abs_x = border.left + virtual_origin_x + horizontal_position + origin_x;

9
components/style/properties/gecko.mako.rs
View file

@ -1042,17 +1042,18 @@ fn static_assert() {
}
pub fn clone_background_position(&self) -> longhands::background_position::computed_value::T {
use values::computed::position::Position;
let position = &self.gecko.mImage.mLayers.mFirstElement.mPosition;
longhands::background_position::computed_value::T {
longhands::background_position::computed_value::T(Position {
horizontal: position.mXPosition.into(),
vertical: position.mYPosition.into(),
}
})
}
pub fn set_background_position(&mut self, v: longhands::background_position::computed_value::T) {
let position = &mut self.gecko.mImage.mLayers.mFirstElement.mPosition;
position.mXPosition = v.horizontal.into();
position.mYPosition = v.vertical.into();
position.mXPosition = v.0.horizontal.into();
position.mYPosition = v.0.vertical.into();
self.gecko.mImage.mPositionXCount = 1;
self.gecko.mImage.mPositionYCount = 1;
}

12
components/style/properties/helpers/animated_properties.mako.rs
View file

@ -30,6 +30,7 @@ use super::ComputedValues;
use values::computed::{Angle, LengthOrPercentageOrAuto, LengthOrPercentageOrNone};
use values::computed::{BorderRadiusSize, LengthOrNone};
use values::computed::{CalcLengthOrPercentage, LengthOrPercentage};
use values::computed::position::Position;
// NB: This needs to be here because it needs all the longhands generated
// beforehand.
@ -469,16 +470,23 @@ impl Interpolate for ClipRect {
}
/// https://drafts.csswg.org/css-transitions/#animtype-simple-list
impl Interpolate for BackgroundPosition {
impl Interpolate for Position {
#[inline]
fn interpolate(&self, other: &Self, time: f64) -> Result<Self, ()> {
Ok(BackgroundPosition {
Ok(Position {
horizontal: try!(self.horizontal.interpolate(&other.horizontal, time)),
vertical: try!(self.vertical.interpolate(&other.vertical, time)),
})
}
}
impl Interpolate for BackgroundPosition {
#[inline]
fn interpolate(&self, other: &Self, time: f64) -> Result<Self, ()> {
Ok(BackgroundPosition(try!(self.0.interpolate(&other.0, time))))
}
}
impl Interpolate for BackgroundSize {
fn interpolate(&self, other: &Self, time: f64) -> Result<Self, ()> {
use properties::longhands::background_size::computed_value::ExplicitSize;

85
components/style/properties/longhand/background.mako.rs
View file

@ -80,91 +80,35 @@ ${helpers.predefined_type("background-color", "CSSColor",
use std::fmt;
use values::LocalToCss;
use values::HasViewportPercentage;
use values::specified::position::Position;
pub mod computed_value {
use values::computed::LengthOrPercentage;
use values::computed::position::Position;
#[derive(PartialEq, Copy, Clone, Debug)]
#[cfg_attr(feature = "servo", derive(HeapSizeOf))]
pub struct T {
pub horizontal: LengthOrPercentage,
pub vertical: LengthOrPercentage,
}
pub struct T(pub Position);
}
impl HasViewportPercentage for SpecifiedValue {
fn has_viewport_percentage(&self) -> bool {
return self.horizontal.has_viewport_percentage() || self.vertical.has_viewport_percentage();
self.0.has_viewport_percentage()
}
}
#[derive(Debug, Clone, PartialEq, Copy)]
#[cfg_attr(feature = "servo", derive(HeapSizeOf))]
pub struct SpecifiedValue {
pub horizontal: specified::LengthOrPercentage,
pub vertical: specified::LengthOrPercentage,
}
pub struct SpecifiedValue(pub Position);
impl ToCss for SpecifiedValue {
fn to_css<W>(&self, dest: &mut W) -> fmt::Result where W: fmt::Write {
try!(self.horizontal.to_css(dest));
try!(dest.write_str(" "));
try!(self.vertical.to_css(dest));
Ok(())
self.0.to_css(dest)
}
}
impl ToCss for computed_value::T {
fn to_css<W>(&self, dest: &mut W) -> fmt::Result where W: fmt::Write {
try!(self.horizontal.to_css(dest));
try!(dest.write_str(" "));
try!(self.vertical.to_css(dest));
Ok(())
}
}
impl SpecifiedValue {
fn new(first: specified::PositionComponent, second: specified::PositionComponent)
-> Result<SpecifiedValue, ()> {
let (horiz, vert) = match (category(first), category(second)) {
// Don't allow two vertical keywords or two horizontal keywords.
(PositionCategory::HorizontalKeyword, PositionCategory::HorizontalKeyword) |
(PositionCategory::VerticalKeyword, PositionCategory::VerticalKeyword) => return Err(()),
// Swap if both are keywords and vertical precedes horizontal.
(PositionCategory::VerticalKeyword, PositionCategory::HorizontalKeyword) |
(PositionCategory::VerticalKeyword, PositionCategory::OtherKeyword) |
(PositionCategory::OtherKeyword, PositionCategory::HorizontalKeyword) => (second, first),
// By default, horizontal is first.
_ => (first, second),
};
Ok(SpecifiedValue {
horizontal: horiz.to_length_or_percentage(),
vertical: vert.to_length_or_percentage(),
})
}
}
// Collapse `Position` into a few categories to simplify the above `match` expression.
enum PositionCategory {
HorizontalKeyword,
VerticalKeyword,
OtherKeyword,
LengthOrPercentage,
}
fn category(p: specified::PositionComponent) -> PositionCategory {
match p {
specified::PositionComponent::Left |
specified::PositionComponent::Right =>
PositionCategory::HorizontalKeyword,
specified::PositionComponent::Top |
specified::PositionComponent::Bottom =>
PositionCategory::VerticalKeyword,
specified::PositionComponent::Center =>
PositionCategory::OtherKeyword,
specified::PositionComponent::LengthOrPercentage(_) =>
PositionCategory::LengthOrPercentage,
self.0.to_css(dest)
}
}
@ -173,27 +117,22 @@ ${helpers.predefined_type("background-color", "CSSColor",
#[inline]
fn to_computed_value(&self, context: &Context) -> computed_value::T {
computed_value::T {
horizontal: self.horizontal.to_computed_value(context),
vertical: self.vertical.to_computed_value(context),
}
computed_value::T(self.0.to_computed_value(context))
}
}
#[inline]
pub fn get_initial_value() -> computed_value::T {
computed_value::T {
use values::computed::position::Position;
computed_value::T(Position {
horizontal: computed::LengthOrPercentage::Percentage(0.0),
vertical: computed::LengthOrPercentage::Percentage(0.0),
}
})
}
pub fn parse(_context: &ParserContext, input: &mut Parser)
-> Result<SpecifiedValue, ()> {
let first = try!(specified::PositionComponent::parse(input));
let second = input.try(specified::PositionComponent::parse)
.unwrap_or(specified::PositionComponent::Center);
SpecifiedValue::new(first, second)
Ok(SpecifiedValue(try!(Position::parse(input))))
}
</%helpers:longhand>

32
components/style/properties/properties.mako.rs
View file

@ -73,11 +73,12 @@ pub mod longhands {
}
pub mod shorthands {
use cssparser::Parser;
use cssparser::{Parser, ToCss};
use std::fmt;
use parser::ParserContext;
use values::specified;
fn parse_four_sides<F, T>(input: &mut Parser, parse_one: F) -> Result<(T, T, T, T), ()>
pub fn parse_four_sides<F, T>(input: &mut Parser, parse_one: F) -> Result<(T, T, T, T), ()>
where F: Fn(&mut Parser) -> Result<T, ()>, F: Copy, T: Clone {
// zero or more than four values is invalid.
// one value sets them all
@ -120,6 +121,33 @@ pub mod shorthands {
Ok((top, right, bottom, left))
}
/// Serialize a set of top,left,bottom,right values, in <margin>-shorthand style,
/// attempting to minimize the output
pub fn serialize_four_sides<T, W>(sides: (&T, &T, &T, &T), dest: &mut W) -> fmt::Result
where W: fmt::Write, T: ToCss+PartialEq {
if sides.0 == sides.1 && sides.0 == sides.2 && sides.0 == sides.3 {
sides.0.to_css(dest)
} else if sides.0 == sides.2 && sides.1 == sides.3 {
try!(sides.0.to_css(dest));
try!(dest.write_str(" "));
sides.1.to_css(dest)
} else if sides.1 == sides.3 {
try!(sides.0.to_css(dest));
try!(dest.write_str(" "));
try!(sides.1.to_css(dest));
try!(dest.write_str(" "));
sides.2.to_css(dest)
} else {
try!(sides.0.to_css(dest));
try!(dest.write_str(" "));
try!(sides.1.to_css(dest));
try!(dest.write_str(" "));
try!(sides.2.to_css(dest));
try!(dest.write_str(" "));
sides.3.to_css(dest)
}
}
<%include file="/shorthand/background.mako.rs" />
<%include file="/shorthand/border.mako.rs" />
<%include file="/shorthand/box.mako.rs" />

50
components/style/properties/shorthand/border.mako.rs
View file

@ -97,53 +97,15 @@ pub fn parse_border(context: &ParserContext, input: &mut Parser)
'border-%s-radius' % (corner)
for corner in ['top-left', 'top-right', 'bottom-right', 'bottom-left']
)}">
use app_units::Au;
use values::specified::{Length, LengthOrPercentage};
use values::specified::BorderRadiusSize;
use values::specified::basic_shape::BorderRadius;
let _ignored = context;
fn parse_one_set_of_border_values(mut input: &mut Parser)
-> Result<[LengthOrPercentage; 4], ()> {
let mut count = 0;
let mut values = [LengthOrPercentage::Length(Length::Absolute(Au(0))); 4];
while count < 4 {
if let Ok(value) = input.try(LengthOrPercentage::parse) {
values[count] = value;
count += 1;
} else {
break
}
}
match count {
1 => Ok([values[0], values[0], values[0], values[0]]),
2 => Ok([values[0], values[1], values[0], values[1]]),
3 => Ok([values[0], values[1], values[2], values[1]]),
4 => Ok([values[0], values[1], values[2], values[3]]),
_ => Err(()),
}
}
fn parse_one_set_of_border_radii(mut input: &mut Parser)
-> Result<[BorderRadiusSize; 4], ()> {
let widths = try!(parse_one_set_of_border_values(input));
let mut heights = widths.clone();
let mut radii_values = [BorderRadiusSize::zero(); 4];
if input.try(|input| input.expect_delim('/')).is_ok() {
heights = try!(parse_one_set_of_border_values(input));
}
for i in 0..radii_values.len() {
radii_values[i] = BorderRadiusSize::new(widths[i], heights[i]);
}
Ok(radii_values)
}
let radii = try!(parse_one_set_of_border_radii(input));
let radii = try!(BorderRadius::parse(input));
Ok(Longhands {
border_top_left_radius: Some(radii[0]),
border_top_right_radius: Some(radii[1]),
border_bottom_right_radius: Some(radii[2]),
border_bottom_left_radius: Some(radii[3]),
border_top_left_radius: Some(radii.top_left),
border_top_right_radius: Some(radii.top_right),
border_bottom_right_radius: Some(radii.bottom_right),
border_bottom_left_radius: Some(radii.bottom_left),
})
</%helpers:shorthand>

194
components/style/values/computed/basic_shape.rs Normal file
View file

@ -0,0 +1,194 @@
/* 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 http://mozilla.org/MPL/2.0/. */
//! CSS handling for the computed value of
//! [`basic-shape`][basic-shape]s
//!
//! [basic-shape]: https://drafts.csswg.org/css-shapes/#typedef-basic-shape
use cssparser::ToCss;
use properties::shorthands::serialize_four_sides;
use std::fmt;
use values::computed::position::Position;
use values::computed::{BorderRadiusSize, LengthOrPercentage};
pub use values::specified::basic_shape::FillRule;
#[derive(Clone, PartialEq, Debug)]
#[cfg_attr(feature = "servo", derive(HeapSizeOf))]
pub enum BasicShape {
Inset(InsetRect),
Circle(Circle),
Ellipse(Ellipse),
Polygon(Polygon),
}
impl ToCss for BasicShape {
fn to_css<W>(&self, dest: &mut W) -> fmt::Result where W: fmt::Write {
match *self {
BasicShape::Inset(ref rect) => rect.to_css(dest),
BasicShape::Circle(ref circle) => circle.to_css(dest),
BasicShape::Ellipse(ref e) => e.to_css(dest),
BasicShape::Polygon(ref poly) => poly.to_css(dest),
}
}
}
#[derive(Clone, PartialEq, Copy, Debug)]
#[cfg_attr(feature = "servo", derive(HeapSizeOf))]
pub struct InsetRect {
pub top: LengthOrPercentage,
pub right: LengthOrPercentage,
pub bottom: LengthOrPercentage,
pub left: LengthOrPercentage,
pub round: Option<BorderRadius>,
}
impl ToCss for InsetRect {
// XXXManishearth again, we should try to reduce the number of values printed here
fn to_css<W>(&self, dest: &mut W) -> fmt::Result where W: fmt::Write {
try!(dest.write_str("inset("));
try!(self.top.to_css(dest));
try!(dest.write_str(" "));
try!(self.right.to_css(dest));
try!(dest.write_str(" "));
try!(self.bottom.to_css(dest));
try!(dest.write_str(" "));
try!(self.left.to_css(dest));
if let Some(ref radius) = self.round {
try!(dest.write_str(" round "));
try!(radius.to_css(dest));
}
dest.write_str(")")
}
}
#[derive(Clone, PartialEq, Copy, Debug)]
#[cfg_attr(feature = "servo", derive(HeapSizeOf))]
pub struct Circle {
pub radius: ShapeRadius,
pub position: Position,
}
impl ToCss for Circle {
fn to_css<W>(&self, dest: &mut W) -> fmt::Result where W: fmt::Write {
try!(self.radius.to_css(dest));
try!(dest.write_str(" at "));
self.position.to_css(dest)
}
}
#[derive(Clone, PartialEq, Copy, Debug)]
#[cfg_attr(feature = "servo", derive(HeapSizeOf))]
pub struct Ellipse {
pub semiaxis_x: ShapeRadius,
pub semiaxis_y: ShapeRadius,
pub position: Position,
}
impl ToCss for Ellipse {
fn to_css<W>(&self, dest: &mut W) -> fmt::Result where W: fmt::Write {
try!(dest.write_str("ellipse("));
if (self.semiaxis_x, self.semiaxis_y) != Default::default() {
try!(self.semiaxis_x.to_css(dest));
try!(dest.write_str(" "));
try!(self.semiaxis_y.to_css(dest));
try!(dest.write_str(" "));
}
try!(dest.write_str("at "));
try!(self.position.to_css(dest));
dest.write_str(")")
}
}
#[derive(Clone, PartialEq, Debug)]
#[cfg_attr(feature = "servo", derive(HeapSizeOf))]
/// https://drafts.csswg.org/css-shapes/#funcdef-polygon
pub struct Polygon {
pub fill: FillRule,
pub coordinates: Vec<(LengthOrPercentage, LengthOrPercentage)>,
}
impl ToCss for Polygon {
fn to_css<W>(&self, dest: &mut W) -> fmt::Result where W: fmt::Write {
try!(dest.write_str("polygon("));
let mut need_space = false;
if self.fill != Default::default() {
try!(self.fill.to_css(dest));
try!(dest.write_str(", "));
}
for coord in &self.coordinates {
if need_space {
try!(dest.write_str(", "));
}
try!(coord.0.to_css(dest));
try!(dest.write_str(" "));
try!(coord.1.to_css(dest));
need_space = true;
}
dest.write_str(")")
}
}
/// https://drafts.csswg.org/css-shapes/#typedef-shape-radius
#[derive(Clone, PartialEq, Copy, Debug)]
#[cfg_attr(feature = "servo", derive(HeapSizeOf))]
pub enum ShapeRadius {
Length(LengthOrPercentage),
ClosestSide,
FarthestSide,
}
impl Default for ShapeRadius {
fn default() -> Self {
ShapeRadius::ClosestSide
}
}
impl ToCss for ShapeRadius {
fn to_css<W>(&self, dest: &mut W) -> fmt::Result where W: fmt::Write {
match *self {
ShapeRadius::Length(lop) => lop.to_css(dest),
ShapeRadius::ClosestSide => dest.write_str("closest-side"),
ShapeRadius::FarthestSide => dest.write_str("farthest-side"),
}
}
}
/// https://drafts.csswg.org/css-backgrounds-3/#border-radius
#[derive(Clone, PartialEq, Copy, Debug)]
#[cfg_attr(feature = "servo", derive(HeapSizeOf))]
pub struct BorderRadius {
pub top_left: BorderRadiusSize,
pub top_right: BorderRadiusSize,
pub bottom_right: BorderRadiusSize,
pub bottom_left: BorderRadiusSize,
}
impl ToCss for BorderRadius {
fn to_css<W>(&self, dest: &mut W) -> fmt::Result where W: fmt::Write {
if self.top_left.0.width == self.top_left.0.height &&
self.top_right.0.width == self.top_right.0.height &&
self.bottom_right.0.width == self.bottom_right.0.height &&
self.bottom_left.0.width == self.bottom_left.0.height {
serialize_four_sides((&self.top_left.0.width,
&self.top_right.0.width,
&self.bottom_right.0.width,
&self.bottom_left.0.width),
dest)
} else {
try!(serialize_four_sides((&self.top_left.0.width,
&self.top_right.0.width,
&self.bottom_right.0.width,
&self.bottom_left.0.width),
dest));
try!(dest.write_str(" / "));
serialize_four_sides((&self.top_left.0.height,
&self.top_right.0.height,
&self.bottom_right.0.height,
&self.bottom_left.0.height),
dest)
}
}
}

3
components/style/values/computed/mod.rs
View file

@ -13,6 +13,9 @@ use url::Url;
pub use cssparser::Color as CSSColor;
pub use super::specified::{Angle, BorderStyle, Time, UrlExtraData};
pub mod basic_shape;
pub mod position;
pub struct Context<'a> {
pub is_root_element: bool,
pub viewport_size: Size2D<Au>,

28
components/style/values/computed/position.rs Normal file
View file

@ -0,0 +1,28 @@
/* 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 http://mozilla.org/MPL/2.0/. */
//! CSS handling for the computed value of
//! [`position`][position]s
//!
//! [position]: https://drafts.csswg.org/css-backgrounds-3/#position
use cssparser::ToCss;
use std::fmt;
use values::computed::LengthOrPercentage;
#[derive(Debug, Clone, PartialEq, Copy)]
#[cfg_attr(feature = "servo", derive(HeapSizeOf))]
pub struct Position {
pub horizontal: LengthOrPercentage,
pub vertical: LengthOrPercentage,
}
impl ToCss for Position {
fn to_css<W>(&self, dest: &mut W) -> fmt::Result where W: fmt::Write {
try!(self.horizontal.to_css(dest));
try!(dest.write_str(" "));
try!(self.vertical.to_css(dest));
Ok(())
}
}

531
components/style/values/specified/basic_shape.rs Normal file
View file

@ -0,0 +1,531 @@
/* 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 http://mozilla.org/MPL/2.0/. */
//! CSS handling for the specified value of
//! [`basic-shape`][basic-shape]s
//!
//! [basic-shape]: https://drafts.csswg.org/css-shapes/#typedef-basic-shape
use app_units::Au;
use cssparser::{Parser, ToCss};
use properties::shorthands::{parse_four_sides, serialize_four_sides};
use std::fmt;
use values::computed::basic_shape as computed_basic_shape;
use values::computed::{Context, ToComputedValue, ComputedValueAsSpecified};
use values::specified::position::{Position, PositionComponent};
use values::specified::{BorderRadiusSize, Length, LengthOrPercentage, Percentage};
#[derive(Clone, PartialEq, Debug)]
#[cfg_attr(feature = "servo", derive(HeapSizeOf))]
pub enum BasicShape {
Inset(InsetRect),
Circle(Circle),
Ellipse(Ellipse),
Polygon(Polygon),
}
impl BasicShape {
pub fn parse(input: &mut Parser) -> Result<BasicShape, ()> {
match_ignore_ascii_case! { try!(input.expect_function()),
"inset" => {
Ok(BasicShape::Inset(
try!(input.parse_nested_block(InsetRect::parse_function_arguments))))
},
"circle" => {
Ok(BasicShape::Circle(
try!(input.parse_nested_block(Circle::parse_function_arguments))))
},
"ellipse" => {
Ok(BasicShape::Ellipse(
try!(input.parse_nested_block(Ellipse::parse_function_arguments))))
},
"polygon" => {
Ok(BasicShape::Polygon(
try!(input.parse_nested_block(Polygon::parse_function_arguments))))
},
_ => Err(())
}
}
}
impl ToCss for BasicShape {
fn to_css<W>(&self, dest: &mut W) -> fmt::Result where W: fmt::Write {
match *self {
BasicShape::Inset(rect) => rect.to_css(dest),
BasicShape::Circle(circle) => circle.to_css(dest),
BasicShape::Ellipse(e) => e.to_css(dest),
BasicShape::Polygon(ref poly) => poly.to_css(dest),
}
}
}
impl ToComputedValue for BasicShape {
type ComputedValue = computed_basic_shape::BasicShape;
#[inline]
fn to_computed_value(&self, cx: &Context) -> Self::ComputedValue {
match *self {
BasicShape::Inset(rect) => computed_basic_shape::BasicShape::Inset(rect.to_computed_value(cx)),
BasicShape::Circle(circle) => computed_basic_shape::BasicShape::Circle(circle.to_computed_value(cx)),
BasicShape::Ellipse(e) => computed_basic_shape::BasicShape::Ellipse(e.to_computed_value(cx)),
BasicShape::Polygon(ref poly) => computed_basic_shape::BasicShape::Polygon(poly.to_computed_value(cx)),
}
}
}
#[derive(Clone, PartialEq, Copy, Debug)]
#[cfg_attr(feature = "servo", derive(HeapSizeOf))]
/// https://drafts.csswg.org/css-shapes/#funcdef-inset
pub struct InsetRect {
pub top: LengthOrPercentage,
pub right: LengthOrPercentage,
pub bottom: LengthOrPercentage,
pub left: LengthOrPercentage,
pub round: Option<BorderRadius>,
}
impl InsetRect {
pub fn parse(input: &mut Parser) -> Result<InsetRect, ()> {
match_ignore_ascii_case! { try!(input.expect_function()),
"inset" => {
Ok(try!(input.parse_nested_block(InsetRect::parse_function_arguments)))
},
_ => Err(())
}
}
pub fn parse_function_arguments(input: &mut Parser) -> Result<InsetRect, ()> {
let (t, r, b, l) = try!(parse_four_sides(input, LengthOrPercentage::parse));
let mut rect = InsetRect {
top: t,
right: r,
bottom: b,
left: l,
round: None,
};
if let Ok(_) = input.try(|input| input.expect_ident_matching("round")) {
rect.round = Some(try!(BorderRadius::parse(input)));
}
Ok(rect)
}
}
impl ToCss for InsetRect {
// XXXManishearth again, we should try to reduce the number of values printed here
fn to_css<W>(&self, dest: &mut W) -> fmt::Result where W: fmt::Write {
try!(dest.write_str("inset("));
try!(self.top.to_css(dest));
try!(dest.write_str(" "));
try!(self.right.to_css(dest));
try!(dest.write_str(" "));
try!(self.bottom.to_css(dest));
try!(dest.write_str(" "));
try!(self.left.to_css(dest));
if let Some(ref radius) = self.round {
try!(dest.write_str(" round "));
try!(radius.to_css(dest));
}
dest.write_str(")")
}
}
impl ToComputedValue for InsetRect {
type ComputedValue = computed_basic_shape::InsetRect;
#[inline]
fn to_computed_value(&self, cx: &Context) -> Self::ComputedValue {
computed_basic_shape::InsetRect {
top: self.top.to_computed_value(cx),
right: self.right.to_computed_value(cx),
bottom: self.bottom.to_computed_value(cx),
left: self.left.to_computed_value(cx),
round: self.round.map(|r| r.to_computed_value(cx)),
}
}
}
#[derive(Clone, PartialEq, Copy, Debug)]
#[cfg_attr(feature = "servo", derive(HeapSizeOf))]
/// https://drafts.csswg.org/css-shapes/#funcdef-circle
pub struct Circle {
pub radius: ShapeRadius,
pub position: Position,
}
impl Circle {
pub fn parse(input: &mut Parser) -> Result<Circle, ()> {
match_ignore_ascii_case! { try!(input.expect_function()),
"circle" => {
Ok(try!(input.parse_nested_block(Circle::parse_function_arguments)))
},
_ => Err(())
}
}
pub fn parse_function_arguments(input: &mut Parser) -> Result<Circle, ()> {
let radius = input.try(ShapeRadius::parse).ok().unwrap_or_else(Default::default);
let position = if let Ok(_) = input.try(|input| input.expect_ident_matching("at")) {
try!(Position::parse(input))
} else {
// Defaults to origin
Position {
horizontal: LengthOrPercentage::Percentage(Percentage(0.5)),
vertical: LengthOrPercentage::Percentage(Percentage(0.5)),
}
};
Ok(Circle {
radius: radius,
position: position,
})
}
}
impl ToCss for Circle {
fn to_css<W>(&self, dest: &mut W) -> fmt::Result where W: fmt::Write {
try!(dest.write_str("circle("));
if ShapeRadius::ClosestSide != self.radius {
try!(self.radius.to_css(dest));
try!(dest.write_str(" "));
}
try!(dest.write_str("at "));
try!(self.position.to_css(dest));
dest.write_str(")")
}
}
impl ToComputedValue for Circle {
type ComputedValue = computed_basic_shape::Circle;
#[inline]
fn to_computed_value(&self, cx: &Context) -> Self::ComputedValue {
computed_basic_shape::Circle {
radius: self.radius.to_computed_value(cx),
position: self.position.to_computed_value(cx),
}
}
}
#[derive(Clone, PartialEq, Copy, Debug)]
#[cfg_attr(feature = "servo", derive(HeapSizeOf))]
/// https://drafts.csswg.org/css-shapes/#funcdef-ellipse
pub struct Ellipse {
pub semiaxis_x: ShapeRadius,
pub semiaxis_y: ShapeRadius,
pub position: Position,
}
impl Ellipse {
pub fn parse(input: &mut Parser) -> Result<Ellipse, ()> {
match_ignore_ascii_case! { try!(input.expect_function()),
"ellipse" => {
Ok(try!(input.parse_nested_block(Ellipse::parse_function_arguments)))
},
_ => Err(())
}
}
pub fn parse_function_arguments(input: &mut Parser) -> Result<Ellipse, ()> {
let (a, b) = input.try(|input| -> Result<_, ()> {
Ok((try!(ShapeRadius::parse(input)), try!(ShapeRadius::parse(input))))
}).ok().unwrap_or_default();
let position = if let Ok(_) = input.try(|input| input.expect_ident_matching("at")) {
try!(Position::parse(input))
} else {
// Defaults to origin
Position {
horizontal: LengthOrPercentage::Percentage(Percentage(0.5)),
vertical: LengthOrPercentage::Percentage(Percentage(0.5)),
}
};
Ok(Ellipse {
semiaxis_x: a,
semiaxis_y: b,
position: position,
})
}
}
impl ToCss for Ellipse {
fn to_css<W>(&self, dest: &mut W) -> fmt::Result where W: fmt::Write {
try!(dest.write_str("ellipse("));
if (self.semiaxis_x, self.semiaxis_y) != Default::default() {
try!(self.semiaxis_x.to_css(dest));
try!(dest.write_str(" "));
try!(self.semiaxis_y.to_css(dest));
try!(dest.write_str(" "));
}
try!(dest.write_str("at "));
try!(self.position.to_css(dest));
dest.write_str(")")
}
}
impl ToComputedValue for Ellipse {
type ComputedValue = computed_basic_shape::Ellipse;
#[inline]
fn to_computed_value(&self, cx: &Context) -> Self::ComputedValue {
computed_basic_shape::Ellipse {
semiaxis_x: self.semiaxis_x.to_computed_value(cx),
semiaxis_y: self.semiaxis_y.to_computed_value(cx),
position: self.position.to_computed_value(cx),
}
}
}
#[derive(Clone, PartialEq, Debug)]
#[cfg_attr(feature = "servo", derive(HeapSizeOf))]
/// https://drafts.csswg.org/css-shapes/#funcdef-polygon
pub struct Polygon {
pub fill: FillRule,
pub coordinates: Vec<(LengthOrPercentage, LengthOrPercentage)>,
}
impl Polygon {
pub fn parse(input: &mut Parser) -> Result<Polygon, ()> {
match_ignore_ascii_case! { try!(input.expect_function()),
"polygon" => {
Ok(try!(input.parse_nested_block(Polygon::parse_function_arguments)))
},
_ => Err(())
}
}
pub fn parse_function_arguments(input: &mut Parser) -> Result<Polygon, ()> {
let fill = input.try(|input| {
let fill = FillRule::parse(input);
// only eat the comma if there is something before it
try!(input.expect_comma());
fill
}).ok().unwrap_or_else(Default::default);
let buf = try!(input.parse_comma_separated(|input| {
Ok((try!(LengthOrPercentage::parse(input)),
try!(LengthOrPercentage::parse(input))))
}));
Ok(Polygon {
fill: fill,
coordinates: buf,
})
}
}
impl ToCss for Polygon {
fn to_css<W>(&self, dest: &mut W) -> fmt::Result where W: fmt::Write {
try!(dest.write_str("polygon("));
let mut need_space = false;
if self.fill != Default::default() {
try!(self.fill.to_css(dest));
try!(dest.write_str(", "));
}
for coord in &self.coordinates {
if need_space {
try!(dest.write_str(", "));
}
try!(coord.0.to_css(dest));
try!(dest.write_str(" "));
try!(coord.1.to_css(dest));
need_space = true;
}
dest.write_str(")")
}
}
impl ToComputedValue for Polygon {
type ComputedValue = computed_basic_shape::Polygon;
#[inline]
fn to_computed_value(&self, cx: &Context) -> Self::ComputedValue {
computed_basic_shape::Polygon {
fill: self.fill.to_computed_value(cx),
coordinates: self.coordinates.iter()
.map(|c| {
(c.0.to_computed_value(cx),
c.1.to_computed_value(cx))
})
.collect(),
}
}
}
/// https://drafts.csswg.org/css-shapes/#typedef-shape-radius
#[derive(Clone, PartialEq, Copy, Debug)]
#[cfg_attr(feature = "servo", derive(HeapSizeOf))]
pub enum ShapeRadius {
Length(LengthOrPercentage),
ClosestSide,
FarthestSide,
}
impl Default for ShapeRadius {
fn default() -> Self {
ShapeRadius::ClosestSide
}
}
impl ShapeRadius {
pub fn parse(input: &mut Parser) -> Result<ShapeRadius, ()> {
input.try(LengthOrPercentage::parse).map(ShapeRadius::Length)
.or_else(|_| {
match_ignore_ascii_case! { try!(input.expect_ident()),
"closest-side" => Ok(ShapeRadius::ClosestSide),
"farthest-side" => Ok(ShapeRadius::FarthestSide),
_ => Err(())
}
})
}
}
impl ToCss for ShapeRadius {
fn to_css<W>(&self, dest: &mut W) -> fmt::Result where W: fmt::Write {
match *self {
ShapeRadius::Length(lop) => lop.to_css(dest),
ShapeRadius::ClosestSide => dest.write_str("closest-side"),
ShapeRadius::FarthestSide => dest.write_str("farthest-side"),
}
}
}
impl ToComputedValue for ShapeRadius {
type ComputedValue = computed_basic_shape::ShapeRadius;
#[inline]
fn to_computed_value(&self, cx: &Context) -> Self::ComputedValue {
match *self {
ShapeRadius::Length(lop) => {
computed_basic_shape::ShapeRadius::Length(lop.to_computed_value(cx))
}
ShapeRadius::ClosestSide => computed_basic_shape::ShapeRadius::ClosestSide,
ShapeRadius::FarthestSide => computed_basic_shape::ShapeRadius::FarthestSide,
}
}
}
/// https://drafts.csswg.org/css-backgrounds-3/#border-radius
#[derive(Clone, PartialEq, Copy, Debug)]
#[cfg_attr(feature = "servo", derive(HeapSizeOf))]
pub struct BorderRadius {
pub top_left: BorderRadiusSize,
pub top_right: BorderRadiusSize,
pub bottom_right: BorderRadiusSize,
pub bottom_left: BorderRadiusSize,
}
impl ToCss for BorderRadius {
fn to_css<W>(&self, dest: &mut W) -> fmt::Result where W: fmt::Write {
if self.top_left.0.width == self.top_left.0.height &&
self.top_right.0.width == self.top_right.0.height &&
self.bottom_right.0.width == self.bottom_right.0.height &&
self.bottom_left.0.width == self.bottom_left.0.height {
serialize_four_sides((&self.top_left.0.width,
&self.top_right.0.width,
&self.bottom_right.0.width,
&self.bottom_left.0.width),
dest)
} else {
try!(serialize_four_sides((&self.top_left.0.width,
&self.top_right.0.width,
&self.bottom_right.0.width,
&self.bottom_left.0.width),
dest));
try!(dest.write_str(" / "));
serialize_four_sides((&self.top_left.0.height,
&self.top_right.0.height,
&self.bottom_right.0.height,
&self.bottom_left.0.height),
dest)
}
}
}
impl BorderRadius {
pub fn parse(input: &mut Parser) -> Result<BorderRadius, ()> {
let widths = try!(parse_one_set_of_border_values(input));
let heights = if input.try(|input| input.expect_delim('/')).is_ok() {
try!(parse_one_set_of_border_values(input))
} else {
widths.clone()
};
Ok(BorderRadius {
top_left: BorderRadiusSize::new(widths[0], heights[0]),
top_right: BorderRadiusSize::new(widths[1], heights[1]),
bottom_right: BorderRadiusSize::new(widths[2], heights[2]),
bottom_left: BorderRadiusSize::new(widths[3], heights[3]),
})
}
}
fn parse_one_set_of_border_values(mut input: &mut Parser)
-> Result<[LengthOrPercentage; 4], ()> {
let a = try!(LengthOrPercentage::parse(input));
let b = if let Ok(b) = input.try(LengthOrPercentage::parse) {
b
} else {
return Ok([a, a, a, a])
};
let c = if let Ok(c) = input.try(LengthOrPercentage::parse) {
c
} else {
return Ok([a, b, a, b])
};
if let Ok(d) = input.try(LengthOrPercentage::parse) {
Ok([a, b, c, d])
} else {
Ok([a, b, c, b])
}
}
impl ToComputedValue for BorderRadius {
type ComputedValue = computed_basic_shape::BorderRadius;
#[inline]
fn to_computed_value(&self, cx: &Context) -> Self::ComputedValue {
computed_basic_shape::BorderRadius {
top_left: self.top_left.to_computed_value(cx),
top_right: self.top_right.to_computed_value(cx),
bottom_right: self.bottom_right.to_computed_value(cx),
bottom_left: self.bottom_left.to_computed_value(cx),
}
}
}
/// https://drafts.csswg.org/css-shapes/#typedef-fill-rule
#[derive(Clone, PartialEq, Copy, Debug)]
#[cfg_attr(feature = "servo", derive(HeapSizeOf))]
pub enum FillRule {
NonZero,
EvenOdd,
// basic-shapes spec says that these are the only two values, however
// https://www.w3.org/TR/SVG/painting.html#FillRuleProperty
// says that it can also be `inherit`
}
impl ComputedValueAsSpecified for FillRule {}
impl FillRule {
pub fn parse(input: &mut Parser) -> Result<FillRule, ()> {
match_ignore_ascii_case! { try!(input.expect_ident()),
"nonzero" => Ok(FillRule::NonZero),
"evenodd" => Ok(FillRule::EvenOdd),
_ => Err(())
}
}
}
impl Default for FillRule {
fn default() -> Self {
FillRule::NonZero
}
}
impl ToCss for FillRule {
fn to_css<W>(&self, dest: &mut W) -> fmt::Result where W: fmt::Write {
match *self {
FillRule::NonZero => dest.write_str("nonzero"),
FillRule::EvenOdd => dest.write_str("evenodd"),
}
}
}

58
components/style/values/specified/mod.rs
View file

@ -18,6 +18,9 @@ use super::computed::{Context, ToComputedValue};
use super::{CSSFloat, FONT_MEDIUM_PX, HasViewportPercentage, LocalToCss, NoViewportPercentage};
use url::Url;
pub mod basic_shape;
pub mod position;
impl NoViewportPercentage for i32 {} // For PropertyDeclaration::Order
#[derive(Clone, PartialEq, Debug)]
@ -1122,59 +1125,6 @@ impl ToCss for BorderRadiusSize {
}
}
// http://dev.w3.org/csswg/css2/colors.html#propdef-background-position
#[derive(Clone, PartialEq, Copy)]
pub enum PositionComponent {
LengthOrPercentage(LengthOrPercentage),
Center,
Left,
Right,
Top,
Bottom,
}
impl HasViewportPercentage for PositionComponent {
fn has_viewport_percentage(&self) -> bool {
match *self {
PositionComponent::LengthOrPercentage(length) => length.has_viewport_percentage(),
_ => false
}
}
}
impl PositionComponent {
pub fn parse(input: &mut Parser) -> Result<PositionComponent, ()> {
input.try(LengthOrPercentage::parse)
.map(PositionComponent::LengthOrPercentage)
.or_else(|()| {
match try!(input.next()) {
Token::Ident(value) => {
match_ignore_ascii_case! { value,
"center" => Ok(PositionComponent::Center),
"left" => Ok(PositionComponent::Left),
"right" => Ok(PositionComponent::Right),
"top" => Ok(PositionComponent::Top),
"bottom" => Ok(PositionComponent::Bottom),
_ => Err(())
}
},
_ => Err(())
}
})
}
#[inline]
pub fn to_length_or_percentage(self) -> LengthOrPercentage {
match self {
PositionComponent::LengthOrPercentage(value) => value,
PositionComponent::Center => LengthOrPercentage::Percentage(Percentage(0.5)),
PositionComponent::Left |
PositionComponent::Top => LengthOrPercentage::Percentage(Percentage(0.0)),
PositionComponent::Right |
PositionComponent::Bottom => LengthOrPercentage::Percentage(Percentage(1.0)),
}
}
}
#[derive(Clone, PartialEq, PartialOrd, Copy, Debug)]
#[cfg_attr(feature = "servo", derive(HeapSizeOf, Deserialize, Serialize))]
/// An angle, normalized to radians.
@ -1239,7 +1189,7 @@ pub struct UrlExtraData {
impl UrlExtraData {
#[cfg(feature = "servo")]
pub fn make_from(_context: &ParserContext) -> Option<UrlExtraData> {
pub fn make_from(_: &ParserContext) -> Option<UrlExtraData> {
Some(UrlExtraData { })
}

156
components/style/values/specified/position.rs Normal file
View file

@ -0,0 +1,156 @@
/* 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 http://mozilla.org/MPL/2.0/. */
//! CSS handling for the specified value of
//! [`position`][position]s
//!
//! [position]: https://drafts.csswg.org/css-backgrounds-3/#position
use cssparser::{Parser, ToCss, Token};
use std::fmt;
use values::HasViewportPercentage;
use values::computed::position as computed_position;
use values::computed::{Context, ToComputedValue};
use values::specified::{LengthOrPercentage, Percentage};
#[derive(Debug, Clone, PartialEq, Copy)]
#[cfg_attr(feature = "servo", derive(HeapSizeOf))]
pub struct Position {
pub horizontal: LengthOrPercentage,
pub vertical: LengthOrPercentage,
}
impl ToCss for Position {
fn to_css<W>(&self, dest: &mut W) -> fmt::Result where W: fmt::Write {
try!(self.horizontal.to_css(dest));
try!(dest.write_str(" "));
try!(self.vertical.to_css(dest));
Ok(())
}
}
impl HasViewportPercentage for Position {
fn has_viewport_percentage(&self) -> bool {
self.horizontal.has_viewport_percentage() || self.vertical.has_viewport_percentage()
}
}
// http://dev.w3.org/csswg/css2/colors.html#propdef-background-position
#[derive(Clone, PartialEq, Copy)]
pub enum PositionComponent {
LengthOrPercentage(LengthOrPercentage),
Center,
Left,
Right,
Top,
Bottom,
}
impl Position {
pub fn new(first: PositionComponent, second: PositionComponent)
-> Result<Position, ()> {
let (horiz, vert) = match (category(first), category(second)) {
// Don't allow two vertical keywords or two horizontal keywords.
// also don't allow length/percentage values in the wrong position
(PositionCategory::HorizontalKeyword, PositionCategory::HorizontalKeyword) |
(PositionCategory::VerticalKeyword, PositionCategory::VerticalKeyword) |
(PositionCategory::LengthOrPercentage, PositionCategory::HorizontalKeyword) |
(PositionCategory::VerticalKeyword, PositionCategory::LengthOrPercentage) => return Err(()),
// Swap if both are keywords and vertical precedes horizontal.
(PositionCategory::VerticalKeyword, PositionCategory::HorizontalKeyword) |
(PositionCategory::VerticalKeyword, PositionCategory::OtherKeyword) |
(PositionCategory::OtherKeyword, PositionCategory::HorizontalKeyword) => (second, first),
// By default, horizontal is first.
_ => (first, second),
};
Ok(Position {
horizontal: horiz.to_length_or_percentage(),
vertical: vert.to_length_or_percentage(),
})
}
pub fn parse(input: &mut Parser) -> Result<Position, ()> {
let first = try!(PositionComponent::parse(input));
let second = input.try(PositionComponent::parse)
.unwrap_or(PositionComponent::Center);
Position::new(first, second)
}
}
// Collapse `Position` into a few categories to simplify the above `match` expression.
enum PositionCategory {
HorizontalKeyword,
VerticalKeyword,
OtherKeyword,
LengthOrPercentage,
}
fn category(p: PositionComponent) -> PositionCategory {
match p {
PositionComponent::Left |
PositionComponent::Right =>
PositionCategory::HorizontalKeyword,
PositionComponent::Top |
PositionComponent::Bottom =>
PositionCategory::VerticalKeyword,
PositionComponent::Center =>
PositionCategory::OtherKeyword,
PositionComponent::LengthOrPercentage(_) =>
PositionCategory::LengthOrPercentage,
}
}
impl ToComputedValue for Position {
type ComputedValue = computed_position::Position;
#[inline]
fn to_computed_value(&self, context: &Context) -> computed_position::Position {
computed_position::Position {
horizontal: self.horizontal.to_computed_value(context),
vertical: self.vertical.to_computed_value(context),
}
}
}
impl HasViewportPercentage for PositionComponent {
fn has_viewport_percentage(&self) -> bool {
match *self {
PositionComponent::LengthOrPercentage(length) => length.has_viewport_percentage(),
_ => false
}
}
}
impl PositionComponent {
pub fn parse(input: &mut Parser) -> Result<PositionComponent, ()> {
input.try(LengthOrPercentage::parse)
.map(PositionComponent::LengthOrPercentage)
.or_else(|()| {
match try!(input.next()) {
Token::Ident(value) => {
match_ignore_ascii_case! { value,
"center" => Ok(PositionComponent::Center),
"left" => Ok(PositionComponent::Left),
"right" => Ok(PositionComponent::Right),
"top" => Ok(PositionComponent::Top),
"bottom" => Ok(PositionComponent::Bottom),
_ => Err(())
}
},
_ => Err(())
}
})
}
#[inline]
pub fn to_length_or_percentage(self) -> LengthOrPercentage {
match self {
PositionComponent::LengthOrPercentage(value) => value,
PositionComponent::Center => LengthOrPercentage::Percentage(Percentage(0.5)),
PositionComponent::Left |
PositionComponent::Top => LengthOrPercentage::Percentage(Percentage(0.0)),
PositionComponent::Right |
PositionComponent::Bottom => LengthOrPercentage::Percentage(Percentage(1.0)),
}
}
}

1
tests/unit/style/lib.rs
View file

@ -21,6 +21,7 @@ mod attr;
mod cache;
mod logical_geometry;
mod media_queries;
mod parsing;
mod properties;
mod str;
mod stylesheets;

139
tests/unit/style/parsing/basic_shape.rs Normal file
View file

@ -0,0 +1,139 @@
/* 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 http://mozilla.org/MPL/2.0/. */
use parsing::parse;
use style::values::specified::basic_shape::*;
// Ensure that basic-shape sub-functions parse as both basic shapes
// and their individual components
macro_rules! assert_roundtrip_basicshape {
($fun:expr, $input:expr, $output:expr) => {
assert_roundtrip!($fun, $input, $output);
assert_roundtrip!(BasicShape::parse, $input, $output);
}
}
macro_rules! assert_border_radius_values {
($input:expr; $tlw:expr, $trw:expr, $brw:expr, $blw:expr ;
$tlh:expr, $trh:expr, $brh:expr, $blh:expr) => {
let input = parse(BorderRadius::parse, $input)
.expect(&format!("Failed parsing {} as border radius",
$input));
assert_eq!(::cssparser::ToCss::to_css_string(&input.top_left.0.width), $tlw);
assert_eq!(::cssparser::ToCss::to_css_string(&input.top_right.0.width), $trw);
assert_eq!(::cssparser::ToCss::to_css_string(&input.bottom_right.0.width), $brw);
assert_eq!(::cssparser::ToCss::to_css_string(&input.bottom_left.0.width), $blw);
assert_eq!(::cssparser::ToCss::to_css_string(&input.top_left.0.height), $tlh);
assert_eq!(::cssparser::ToCss::to_css_string(&input.top_right.0.height), $trh);
assert_eq!(::cssparser::ToCss::to_css_string(&input.bottom_right.0.height), $brh);
assert_eq!(::cssparser::ToCss::to_css_string(&input.bottom_left.0.height), $blh);
}
}
#[test]
fn test_inset() {
// these are actually wrong, we should be serializing to the minimum possible result
// the advantage of being wrong is that the roundtrip test actually suffices
// for testing the intermediate state
assert_roundtrip_basicshape!(InsetRect::parse, "inset(10px)", "inset(10px 10px 10px 10px)");
assert_roundtrip_basicshape!(InsetRect::parse, "inset(10px 20%)", "inset(10px 20% 10px 20%)");
assert_roundtrip_basicshape!(InsetRect::parse, "inset(10px round 10px)",
"inset(10px 10px 10px 10px round 10px)");
assert_roundtrip_basicshape!(InsetRect::parse, "inset(10px round 10px 20px 30px 40px)",
"inset(10px 10px 10px 10px round 10px 20px 30px 40px)");
assert_roundtrip_basicshape!(InsetRect::parse, "inset(10px 10px 10px 10px round 10px 20px 30px 40px \
/ 1px 2px 3px 4px)",
"inset(10px 10px 10px 10px round 10px 20px 30px 40px \
/ 1px 2px 3px 4px)");
}
#[test]
fn test_border_radius() {
assert_border_radius_values!("10px";
"10px", "10px", "10px", "10px" ;
"10px", "10px", "10px", "10px");
assert_border_radius_values!("10px 20px";
"10px", "20px", "10px", "20px" ;
"10px", "20px", "10px", "20px");
assert_border_radius_values!("10px 20px 30px";
"10px", "20px", "30px", "20px" ;
"10px", "20px", "30px", "20px");
assert_border_radius_values!("10px 20px 30px 40px";
"10px", "20px", "30px", "40px" ;
"10px", "20px", "30px", "40px");
assert_border_radius_values!("10% / 20px";
"10%", "10%", "10%", "10%" ;
"20px", "20px", "20px", "20px");
assert_border_radius_values!("10px / 20px 30px";
"10px", "10px", "10px", "10px" ;
"20px", "30px", "20px", "30px");
assert_border_radius_values!("10px 20px 30px 40px / 1px 2px 3px 4px";
"10px", "20px", "30px", "40px" ;
"1px", "2px", "3px", "4px");
}
#[test]
fn test_circle() {
assert_roundtrip_basicshape!(Circle::parse, "circle(at center)", "circle(at 50% 50%)");
assert_roundtrip_basicshape!(Circle::parse, "circle()", "circle(at 50% 50%)");
assert_roundtrip_basicshape!(Circle::parse, "circle(at left bottom)", "circle(at 0% 100%)");
assert_roundtrip_basicshape!(Circle::parse, "circle(at bottom left)", "circle(at 0% 100%)");
assert_roundtrip_basicshape!(Circle::parse, "circle(at top left)", "circle(at 0% 0%)");
assert_roundtrip_basicshape!(Circle::parse, "circle(at center left)", "circle(at 0% 50%)");
assert_roundtrip_basicshape!(Circle::parse, "circle(at left center)", "circle(at 0% 50%)");
assert_roundtrip_basicshape!(Circle::parse, "circle(at top center)", "circle(at 50% 0%)");
assert_roundtrip_basicshape!(Circle::parse, "circle(at center top)", "circle(at 50% 0%)");
assert_roundtrip_basicshape!(Circle::parse, "circle(at 40% top)", "circle(at 40% 0%)");
assert_roundtrip_basicshape!(Circle::parse, "circle(at 10px 100px)", "circle(at 10px 100px)");
// closest-side is omitted, because it is the default
assert_roundtrip_basicshape!(Circle::parse, "circle(closest-side at center)", "circle(at 50% 50%)");
assert_roundtrip_basicshape!(Circle::parse, "circle(farthest-side at center)",
"circle(farthest-side at 50% 50%)");
assert_roundtrip_basicshape!(Circle::parse, "circle(20px at center)", "circle(20px at 50% 50%)");
assert_roundtrip_basicshape!(Circle::parse, "circle(calc(1px + 50%) at center)",
"circle(calc(1px + 50%) at 50% 50%)");
assert!(parse(Circle::parse, "circle(at top 40%)").is_err());
}
#[test]
fn test_ellipse() {
assert_roundtrip_basicshape!(Ellipse::parse, "ellipse(at center)", "ellipse(at 50% 50%)");
assert_roundtrip_basicshape!(Ellipse::parse, "ellipse()", "ellipse(at 50% 50%)");
assert_roundtrip_basicshape!(Ellipse::parse, "ellipse(at left bottom)", "ellipse(at 0% 100%)");
assert_roundtrip_basicshape!(Ellipse::parse, "ellipse(at bottom left)", "ellipse(at 0% 100%)");
assert_roundtrip_basicshape!(Ellipse::parse, "ellipse(at 10px 100px)", "ellipse(at 10px 100px)");
// closest-side is omitted, because it is the default
assert_roundtrip_basicshape!(Ellipse::parse, "ellipse(closest-side closest-side at center)",
"ellipse(at 50% 50%)");
assert_roundtrip_basicshape!(Ellipse::parse, "ellipse(farthest-side closest-side at center)",
"ellipse(farthest-side closest-side at 50% 50%)");
assert_roundtrip_basicshape!(Ellipse::parse, "ellipse(20px 10% at center)", "ellipse(20px 10% at 50% 50%)");
assert_roundtrip_basicshape!(Ellipse::parse, "ellipse(calc(1px + 50%) 10px at center)",
"ellipse(calc(1px + 50%) 10px at 50% 50%)");
}
#[test]
fn test_polygon() {
// surprisingly, polygons are only required to have at least one vertex,
// not at least 3
assert_roundtrip_basicshape!(Polygon::parse, "polygon(10px 10px)", "polygon(10px 10px)");
assert_roundtrip_basicshape!(Polygon::parse, "polygon(10px 10px, 10px 10px)", "polygon(10px 10px, 10px 10px)");
assert_roundtrip_basicshape!(Polygon::parse, "polygon(nonzero, 10px 10px, 10px 10px)",
"polygon(10px 10px, 10px 10px)");
assert_roundtrip_basicshape!(Polygon::parse, "polygon(evenodd, 10px 10px, 10px 10px)",
"polygon(evenodd, 10px 10px, 10px 10px)");
assert_roundtrip_basicshape!(Polygon::parse, "polygon(evenodd, 10px 10px, 10px calc(10px + 50%))",
"polygon(evenodd, 10px 10px, 10px calc(10px + 50%))");
assert_roundtrip_basicshape!(Polygon::parse, "polygon(evenodd, 10px 10px, 10px 10px, 10px 10px, 10px 10px, 10px \
10px, 10px 10px, 10px 10px, 10px 10px, 10px 10px, 10px 10px, \
10px 10px, 10px 10px, 10px 10px)",
"polygon(evenodd, 10px 10px, 10px 10px, 10px 10px, 10px 10px, 10px \
10px, 10px 10px, 10px 10px, 10px 10px, 10px 10px, 10px 10px, \
10px 10px, 10px 10px, 10px 10px)");
assert!(parse(Polygon::parse, "polygon()").is_err());
}

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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 http://mozilla.org/MPL/2.0/. */
//! Tests for parsing and serialization of values/properties
use cssparser::Parser;
fn parse<T, F: Fn(&mut Parser) -> Result<T, ()>>(f: F, s: &str) -> Result<T, ()> {
let mut parser = Parser::new(s);
f(&mut parser)
}
// This is a macro so that the file/line information
// is preserved in the panic
macro_rules! assert_roundtrip {
($fun:expr, $input:expr, $output:expr) => {
let parsed = $crate::parsing::parse($fun, $input)
.expect(&format!("Failed to parse {}", $input));
let serialized = ::cssparser::ToCss::to_css_string(&parsed);
assert_eq!(serialized, $output);
let re_parsed = $crate::parsing::parse($fun, &serialized)
.expect(&format!("Failed to parse serialization {}", $input));
let re_serialized = ::cssparser::ToCss::to_css_string(&re_parsed);
assert_eq!(serialized, re_serialized);
}
}
mod basic_shape;
mod position;

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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 http://mozilla.org/MPL/2.0/. */
use parsing::parse;
use style::values::specified::position::*;
#[test]
fn test_position() {
// Serialization is not actually specced
// though these are the values expected by basic-shape
// https://github.com/w3c/csswg-drafts/issues/368
assert_roundtrip!(Position::parse, "center", "50% 50%");
assert_roundtrip!(Position::parse, "top left", "0% 0%");
assert_roundtrip!(Position::parse, "left top", "0% 0%");
assert_roundtrip!(Position::parse, "top right", "100% 0%");
assert_roundtrip!(Position::parse, "right top", "100% 0%");
assert_roundtrip!(Position::parse, "bottom left", "0% 100%");
assert_roundtrip!(Position::parse, "left bottom", "0% 100%");
assert_roundtrip!(Position::parse, "left center", "0% 50%");
assert_roundtrip!(Position::parse, "right center", "100% 50%");
assert_roundtrip!(Position::parse, "center top", "50% 0%");
assert_roundtrip!(Position::parse, "center bottom", "50% 100%");
assert_roundtrip!(Position::parse, "center 10px", "50% 10px");
assert_roundtrip!(Position::parse, "center 10%", "50% 10%");
assert_roundtrip!(Position::parse, "right 10%", "100% 10%");
// Only keywords can be reordered
assert!(parse(Position::parse, "top 40%").is_err());
assert!(parse(Position::parse, "40% left").is_err());
// we don't yet handle 4-valued positions
// https://github.com/servo/servo/issues/12690
}