/*
* Copyright (c) 2018-2022, Andreas Kling <andreas@ladybird.org>
* Copyright (c) 2020-2021, the SerenityOS developers.
* Copyright (c) 2021-2023, Sam Atkins <atkinssj@serenityos.org>
* Copyright (c) 2021, Tobias Christiansen <tobyase@serenityos.org>
* Copyright (c) 2022, MacDue <macdue@dueutil.tech>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/Debug.h>
#include <AK/NonnullRawPtr.h>
#include <LibWeb/CSS/Parser/Parser.h>
#include <LibWeb/CSS/StyleValues/ConicGradientStyleValue.h>
#include <LibWeb/CSS/StyleValues/LinearGradientStyleValue.h>
#include <LibWeb/CSS/StyleValues/PositionStyleValue.h>
#include <LibWeb/CSS/StyleValues/RadialGradientStyleValue.h>
namespace Web::CSS::Parser {
template<typename TElement>
Optional<Vector<TElement>> Parser::parse_color_stop_list(TokenStream<ComponentValue>& tokens, auto parse_position)
{
enum class ElementType {
Garbage,
ColorStop,
ColorHint
};
auto parse_color_stop_list_element = [&](TElement& element) -> ElementType {
tokens.discard_whitespace();
if (!tokens.has_next_token())
return ElementType::Garbage;
RefPtr<CSSStyleValue> color;
Optional<typename TElement::PositionType> position;
Optional<typename TElement::PositionType> second_position;
if (position = parse_position(tokens); position.has_value()) {
// [<T-percentage> <color>] or [<T-percentage>]
tokens.discard_whitespace();
// <T-percentage>
if (!tokens.has_next_token() || tokens.next_token().is(Token::Type::Comma)) {
element.transition_hint = typename TElement::ColorHint { *position };
return ElementType::ColorHint;
}
// <T-percentage> <color>
auto maybe_color = parse_color_value(tokens);
if (!maybe_color)
return ElementType::Garbage;
color = maybe_color.release_nonnull();
} else {
// [<color> <T-percentage>?]
auto maybe_color = parse_color_value(tokens);
if (!maybe_color)
return ElementType::Garbage;
color = maybe_color.release_nonnull();
tokens.discard_whitespace();
// Allow up to [<color> <T-percentage> <T-percentage>] (double-position color stops)
// Note: Double-position color stops only appear to be valid in this order.
for (auto stop_position : Array { &position, &second_position }) {
if (tokens.has_next_token() && !tokens.next_token().is(Token::Type::Comma)) {
*stop_position = parse_position(tokens);
if (!stop_position->has_value())
return ElementType::Garbage;
tokens.discard_whitespace();
}
}
}
element.color_stop = typename TElement::ColorStop { color, position, second_position };
return ElementType::ColorStop;
};
TElement first_element {};
if (parse_color_stop_list_element(first_element) != ElementType::ColorStop)
return {};
Vector<TElement> color_stops { first_element };
while (tokens.has_next_token()) {
TElement list_element {};
tokens.discard_whitespace();
if (!tokens.consume_a_token().is(Token::Type::Comma))
return {};
auto element_type = parse_color_stop_list_element(list_element);
if (element_type == ElementType::ColorHint) {
// <color-hint>, <color-stop>
tokens.discard_whitespace();
if (!tokens.consume_a_token().is(Token::Type::Comma))
return {};
// Note: This fills in the color stop on the same list_element as the color hint (it does not overwrite it).
if (parse_color_stop_list_element(list_element) != ElementType::ColorStop)
return {};
} else if (element_type == ElementType::ColorStop) {
// <color-stop>
} else {
return {};
}
color_stops.append(list_element);
}
return color_stops;
}
static StringView consume_if_starts_with(StringView str, StringView start, auto found_callback)
{
if (str.starts_with(start, CaseSensitivity::CaseInsensitive)) {
found_callback();
return str.substring_view(start.length());
}
return str;
}
Optional<Vector<LinearColorStopListElement>> Parser::parse_linear_color_stop_list(TokenStream<ComponentValue>& tokens)
{
// <color-stop-list> =
// <linear-color-stop> , [ <linear-color-hint>? , <linear-color-stop> ]#
return parse_color_stop_list<LinearColorStopListElement>(
tokens,
[&](auto& it) { return parse_length_percentage(it); });
}
Optional<Vector<AngularColorStopListElement>> Parser::parse_angular_color_stop_list(TokenStream<ComponentValue>& tokens)
{
// <angular-color-stop-list> =
// <angular-color-stop> , [ <angular-color-hint>? , <angular-color-stop> ]#
return parse_color_stop_list<AngularColorStopListElement>(
tokens,
[&](auto& it) { return parse_angle_percentage(it); });
}
Optional<InterpolationMethod> Parser::parse_interpolation_method(TokenStream<ComponentValue>& tokens)
{
// <color-interpolation-method> = in [ <rectangular-color-space> | <polar-color-space> <hue-interpolation-method>? ]
auto transaction = tokens.begin_transaction();
if (!tokens.consume_a_token().is_ident("in"sv))
return {};
tokens.discard_whitespace();
auto first_value = tokens.consume_a_token();
if (!first_value.is(Token::Type::Ident))
return {};
auto color_space_name = first_value.token().ident();
GradientSpace color_space;
bool polar_space = false;
if (color_space_name.equals_ignoring_ascii_case("srgb"sv)) {
color_space = GradientSpace::sRGB;
} else if (color_space_name.equals_ignoring_ascii_case("srgb-linear"sv)) {
color_space = GradientSpace::sRGBLinear;
} else if (color_space_name.equals_ignoring_ascii_case("display-p3"sv)) {
color_space = GradientSpace::DisplayP3;
} else if (color_space_name.equals_ignoring_ascii_case("a98-rgb"sv)) {
color_space = GradientSpace::A98RGB;
} else if (color_space_name.equals_ignoring_ascii_case("prophoto-rgb"sv)) {
color_space = GradientSpace::ProPhotoRGB;
} else if (color_space_name.equals_ignoring_ascii_case("rec2020"sv)) {
color_space = GradientSpace::Rec2020;
} else if (color_space_name.equals_ignoring_ascii_case("lab"sv)) {
color_space = GradientSpace::Lab;
} else if (color_space_name.equals_ignoring_ascii_case("oklab"sv)) {
color_space = GradientSpace::OKLab;
} else if (color_space_name.equals_ignoring_ascii_case("xyz-d50"sv)) {
color_space = GradientSpace::XYZD50;
} else if (color_space_name.equals_ignoring_ascii_case("xyz-d65"sv)
|| color_space_name.equals_ignoring_ascii_case("xyz"sv)) {
color_space = GradientSpace::XYZD65;
} else {
polar_space = true;
if (color_space_name.equals_ignoring_ascii_case("hsl"sv)) {
color_space = GradientSpace::HSL;
} else if (color_space_name.equals_ignoring_ascii_case("hwb"sv)) {
color_space = GradientSpace::HWB;
} else if (color_space_name.equals_ignoring_ascii_case("lch"sv)) {
color_space = GradientSpace::LCH;
} else if (color_space_name.equals_ignoring_ascii_case("oklch"sv)) {
color_space = GradientSpace::OKLCH;
} else {
return {};
}
}
Optional<HueMethod> hue_method;
if (polar_space) {
[&]() {
auto hue_transaction = transaction.create_child();
tokens.discard_whitespace();
auto second_value = tokens.consume_a_token();
if (!second_value.is(Token::Type::Ident))
return;
auto hue_method_name = second_value.token().ident();
if (hue_method_name.equals_ignoring_ascii_case("shorter"sv)) {
hue_method = HueMethod::Shorter;
} else if (hue_method_name.equals_ignoring_ascii_case("longer"sv)) {
hue_method = HueMethod::Longer;
} else if (hue_method_name.equals_ignoring_ascii_case("increasing"sv)) {
hue_method = HueMethod::Increasing;
} else if (hue_method_name.equals_ignoring_ascii_case("decreasing"sv)) {
hue_method = HueMethod::Decreasing;
} else {
return;
}
tokens.discard_whitespace();
if (!tokens.consume_a_token().is_ident("hue"sv))
return;
hue_transaction.commit();
}();
}
transaction.commit();
InterpolationMethod interpolation_method;
interpolation_method.color_space = color_space;
if (hue_method.has_value())
interpolation_method.hue_method = hue_method.value();
return interpolation_method;
}
RefPtr<LinearGradientStyleValue> Parser::parse_linear_gradient_function(TokenStream<ComponentValue>& outer_tokens)
{
using GradientType = LinearGradientStyleValue::GradientType;
auto transaction = outer_tokens.begin_transaction();
auto& component_value = outer_tokens.consume_a_token();
if (!component_value.is_function())
return nullptr;
GradientRepeating repeating_gradient = GradientRepeating::No;
GradientType gradient_type { GradientType::Standard };
auto function_name = component_value.function().name.bytes_as_string_view();
function_name = consume_if_starts_with(function_name, "-webkit-"sv, [&] {
gradient_type = GradientType::WebKit;
});
auto context_guard = push_temporary_value_parsing_context(FunctionContext { function_name });
function_name = consume_if_starts_with(function_name, "repeating-"sv, [&] {
repeating_gradient = GradientRepeating::Yes;
});
if (!function_name.equals_ignoring_ascii_case("linear-gradient"sv))
return nullptr;
// <linear-gradient-syntax> = [ [ <angle> | <zero> | to <side-or-corner> ] || <color-interpolation-method> ]? , <color-stop-list>
TokenStream tokens { component_value.function().value };
tokens.discard_whitespace();
if (!tokens.has_next_token())
return nullptr;
bool has_direction_param = true;
LinearGradientStyleValue::GradientDirection gradient_direction = gradient_type == GradientType::Standard
? SideOrCorner::Bottom
: SideOrCorner::Top;
auto to_side = [](StringView value) -> Optional<SideOrCorner> {
if (value.equals_ignoring_ascii_case("top"sv))
return SideOrCorner::Top;
if (value.equals_ignoring_ascii_case("bottom"sv))
return SideOrCorner::Bottom;
if (value.equals_ignoring_ascii_case("left"sv))
return SideOrCorner::Left;
if (value.equals_ignoring_ascii_case("right"sv))
return SideOrCorner::Right;
return {};
};
auto is_to_side_or_corner = [&](auto const& token) {
if (!token.is(Token::Type::Ident))
return false;
if (gradient_type == GradientType::WebKit)
return to_side(token.token().ident()).has_value();
return token.token().ident().equals_ignoring_ascii_case("to"sv);
};
auto maybe_interpolation_method = parse_interpolation_method(tokens);
tokens.discard_whitespace();
auto const& first_param = tokens.next_token();
if (first_param.is(Token::Type::Dimension)) {
// <angle>
tokens.discard_a_token(); // <angle>
auto angle_value = first_param.token().dimension_value();
auto unit_string = first_param.token().dimension_unit();
auto angle_type = Angle::unit_from_name(unit_string);
if (!angle_type.has_value())
return nullptr;
gradient_direction = Angle { angle_value, angle_type.release_value() };
} else if (first_param.is(Token::Type::Number) && first_param.token().number().value() == 0) {
// <zero>
tokens.discard_a_token(); // <zero>
gradient_direction = Angle::make_degrees(0);
} else if (is_to_side_or_corner(first_param)) {
// <side-or-corner> = [left | right] || [top | bottom]
// Note: -webkit-linear-gradient does not include to the "to" prefix on the side or corner
if (gradient_type == GradientType::Standard) {
tokens.discard_a_token();
tokens.discard_whitespace();
if (!tokens.has_next_token())
return nullptr;
}
// [left | right] || [top | bottom]
auto const& first_side = tokens.consume_a_token();
if (!first_side.is(Token::Type::Ident))
return nullptr;
auto side_a = to_side(first_side.token().ident());
tokens.discard_whitespace();
Optional<SideOrCorner> side_b;
if (tokens.has_next_token() && tokens.next_token().is(Token::Type::Ident))
side_b = to_side(tokens.next_token().token().ident());
if (side_a.has_value() && !side_b.has_value()) {
gradient_direction = *side_a;
} else if (side_a.has_value() && side_b.has_value()) {
tokens.discard_a_token();
// Convert two sides to a corner
if (to_underlying(*side_b) < to_underlying(*side_a))
swap(side_a, side_b);
if (side_a == SideOrCorner::Top && side_b == SideOrCorner::Left)
gradient_direction = SideOrCorner::TopLeft;
else if (side_a == SideOrCorner::Top && side_b == SideOrCorner::Right)
gradient_direction = SideOrCorner::TopRight;
else if (side_a == SideOrCorner::Bottom && side_b == SideOrCorner::Left)
gradient_direction = SideOrCorner::BottomLeft;
else if (side_a == SideOrCorner::Bottom && side_b == SideOrCorner::Right)
gradient_direction = SideOrCorner::BottomRight;
else
return nullptr;
} else {
return nullptr;
}
} else {
has_direction_param = false;
}
if (!maybe_interpolation_method.has_value()) {
tokens.discard_whitespace();
maybe_interpolation_method = parse_interpolation_method(tokens);
}
tokens.discard_whitespace();
if (!tokens.has_next_token())
return nullptr;
if ((has_direction_param || maybe_interpolation_method.has_value()) && !tokens.consume_a_token().is(Token::Type::Comma))
return nullptr;
auto color_stops = parse_linear_color_stop_list(tokens);
if (!color_stops.has_value())
return nullptr;
transaction.commit();
return LinearGradientStyleValue::create(gradient_direction, move(*color_stops), gradient_type, repeating_gradient, maybe_interpolation_method);
}
RefPtr<ConicGradientStyleValue> Parser::parse_conic_gradient_function(TokenStream<ComponentValue>& outer_tokens)
{
auto transaction = outer_tokens.begin_transaction();
auto& component_value = outer_tokens.consume_a_token();
if (!component_value.is_function())
return nullptr;
GradientRepeating repeating_gradient = GradientRepeating::No;
auto function_name = component_value.function().name.bytes_as_string_view();
auto context_guard = push_temporary_value_parsing_context(FunctionContext { function_name });
function_name = consume_if_starts_with(function_name, "repeating-"sv, [&] {
repeating_gradient = GradientRepeating::Yes;
});
if (!function_name.equals_ignoring_ascii_case("conic-gradient"sv))
return nullptr;
TokenStream tokens { component_value.function().value };
tokens.discard_whitespace();
if (!tokens.has_next_token())
return nullptr;
Angle from_angle(0, Angle::Type::Deg);
RefPtr<PositionStyleValue> at_position;
Optional<InterpolationMethod> maybe_interpolation_method;
// conic-gradient( [ [ [ from [ <angle> | <zero> ] ]? [ at <position> ]? ] || <color-interpolation-method> ]? , <angular-color-stop-list> )
NonnullRawPtr<ComponentValue const> token = tokens.next_token();
bool got_from_angle = false;
bool got_color_interpolation_method = false;
bool got_at_position = false;
while (token->is(Token::Type::Ident)) {
auto consume_identifier = [&](auto identifier) {
auto token_string = token->token().ident();
if (token_string.equals_ignoring_ascii_case(identifier)) {
tokens.discard_a_token();
tokens.discard_whitespace();
return true;
}
return false;
};
if (consume_identifier("from"sv)) {
// from [ <angle> | <zero> ]
if (got_from_angle || got_at_position)
return nullptr;
if (!tokens.has_next_token())
return nullptr;
auto const& angle_token = tokens.consume_a_token();
if (angle_token.is(Token::Type::Dimension)) {
auto angle = angle_token.token().dimension_value();
auto angle_unit = angle_token.token().dimension_unit();
auto angle_type = Angle::unit_from_name(angle_unit);
if (!angle_type.has_value())
return nullptr;
from_angle = Angle(angle, *angle_type);
got_from_angle = true;
} else if (angle_token.is(Token::Type::Number) && angle_token.token().number().value() == 0) {
from_angle = Angle::make_degrees(0);
got_from_angle = true;
} else {
return nullptr;
}
} else if (consume_identifier("at"sv)) {
// at <position>
if (got_at_position)
return nullptr;
auto position = parse_position_value(tokens);
if (!position)
return nullptr;
at_position = position;
got_at_position = true;
} else if (token->token().ident().equals_ignoring_ascii_case("in"sv)) {
// <color-interpolation-method>
if (got_color_interpolation_method)
return nullptr;
got_color_interpolation_method = true;
maybe_interpolation_method = parse_interpolation_method(tokens);
if (!maybe_interpolation_method.has_value())
return nullptr;
} else {
break;
}
tokens.discard_whitespace();
if (!tokens.has_next_token())
return nullptr;
token = tokens.next_token();
}
tokens.discard_whitespace();
if (!tokens.has_next_token())
return nullptr;
if ((got_from_angle || got_at_position || got_color_interpolation_method) && !tokens.consume_a_token().is(Token::Type::Comma))
return nullptr;
auto color_stops = parse_angular_color_stop_list(tokens);
if (!color_stops.has_value())
return nullptr;
if (!at_position)
at_position = PositionStyleValue::create_center();
transaction.commit();
return ConicGradientStyleValue::create(from_angle, at_position.release_nonnull(), move(*color_stops), repeating_gradient, maybe_interpolation_method);
}
RefPtr<RadialGradientStyleValue> Parser::parse_radial_gradient_function(TokenStream<ComponentValue>& outer_tokens)
{
using EndingShape = RadialGradientStyleValue::EndingShape;
using Extent = RadialGradientStyleValue::Extent;
using CircleSize = RadialGradientStyleValue::CircleSize;
using EllipseSize = RadialGradientStyleValue::EllipseSize;
using Size = RadialGradientStyleValue::Size;
auto transaction = outer_tokens.begin_transaction();
auto& component_value = outer_tokens.consume_a_token();
if (!component_value.is_function())
return nullptr;
auto repeating_gradient = GradientRepeating::No;
auto function_name = component_value.function().name.bytes_as_string_view();
auto context_guard = push_temporary_value_parsing_context(FunctionContext { function_name });
function_name = consume_if_starts_with(function_name, "repeating-"sv, [&] {
repeating_gradient = GradientRepeating::Yes;
});
if (!function_name.equals_ignoring_ascii_case("radial-gradient"sv))
return nullptr;
TokenStream tokens { component_value.function().value };
tokens.discard_whitespace();
if (!tokens.has_next_token())
return nullptr;
bool expect_comma = false;
auto commit_value = [&]<typename... T>(auto value, T&... transactions) {
(transactions.commit(), ...);
return value;
};
// <radial-gradient-syntax> = [ [ [ <radial-shape> || <radial-size> ]? [ at <position> ]? ] || <color-interpolation-method> ]? , <color-stop-list>
// FIXME: Maybe rename ending-shape things to radial-shape
Size size = Extent::FarthestCorner;
EndingShape ending_shape = EndingShape::Circle;
RefPtr<PositionStyleValue> at_position;
auto parse_ending_shape = [&]() -> Optional<EndingShape> {
auto transaction = tokens.begin_transaction();
tokens.discard_whitespace();
auto& token = tokens.consume_a_token();
if (!token.is(Token::Type::Ident))
return {};
auto ident = token.token().ident();
if (ident.equals_ignoring_ascii_case("circle"sv))
return commit_value(EndingShape::Circle, transaction);
if (ident.equals_ignoring_ascii_case("ellipse"sv))
return commit_value(EndingShape::Ellipse, transaction);
return {};
};
auto parse_extent_keyword = [](StringView keyword) -> Optional<Extent> {
if (keyword.equals_ignoring_ascii_case("closest-corner"sv))
return Extent::ClosestCorner;
if (keyword.equals_ignoring_ascii_case("closest-side"sv))
return Extent::ClosestSide;
if (keyword.equals_ignoring_ascii_case("farthest-corner"sv))
return Extent::FarthestCorner;
if (keyword.equals_ignoring_ascii_case("farthest-side"sv))
return Extent::FarthestSide;
return {};
};
auto length_percentage_is_non_negative = [](LengthPercentage const& length_percentage) -> bool {
if (length_percentage.is_length() && length_percentage.length().raw_value() < 0)
return false;
if (length_percentage.is_percentage() && length_percentage.percentage().value() < 0)
return false;
return true;
};
auto parse_size = [&]() -> Optional<Size> {
// <size> =
// <extent-keyword> |
// <length [0,∞]> |
// <length-percentage [0,∞]>{2}
auto transaction_size = tokens.begin_transaction();
tokens.discard_whitespace();
if (!tokens.has_next_token())
return {};
if (tokens.next_token().is(Token::Type::Ident)) {
auto extent = parse_extent_keyword(tokens.consume_a_token().token().ident());
if (!extent.has_value())
return {};
return commit_value(*extent, transaction_size);
}
auto first_radius = parse_length_percentage(tokens);
if (!first_radius.has_value() || !length_percentage_is_non_negative(*first_radius))
return {};
auto transaction_second_dimension = tokens.begin_transaction();
tokens.discard_whitespace();
if (tokens.has_next_token()) {
auto second_radius = parse_length_percentage(tokens);
if (second_radius.has_value()) {
if (!length_percentage_is_non_negative(*second_radius))
return {};
return commit_value(EllipseSize { first_radius.release_value(), second_radius.release_value() },
transaction_size, transaction_second_dimension);
}
}
// FIXME: Support calculated lengths
if (first_radius->is_length())
return commit_value(CircleSize { first_radius->length() }, transaction_size);
return {};
};
auto maybe_interpolation_method = parse_interpolation_method(tokens);
tokens.discard_whitespace();
{
// [ <ending-shape> || <size> ]?
auto maybe_ending_shape = parse_ending_shape();
auto maybe_size = parse_size();
if (!maybe_ending_shape.has_value() && maybe_size.has_value())
maybe_ending_shape = parse_ending_shape();
if (maybe_size.has_value()) {
size = *maybe_size;
expect_comma = true;
}
if (maybe_ending_shape.has_value()) {
expect_comma = true;
ending_shape = *maybe_ending_shape;
if (ending_shape == EndingShape::Circle && size.has<EllipseSize>())
return nullptr;
if (ending_shape == EndingShape::Ellipse && size.has<CircleSize>())
return nullptr;
} else {
ending_shape = size.has<CircleSize>() ? EndingShape::Circle : EndingShape::Ellipse;
}
}
tokens.discard_whitespace();
if (!tokens.has_next_token())
return nullptr;
auto& token = tokens.next_token();
if (token.is_ident("at"sv)) {
tokens.discard_a_token();
auto position = parse_position_value(tokens);
if (!position)
return nullptr;
at_position = position;
expect_comma = true;
}
tokens.discard_whitespace();
if (!maybe_interpolation_method.has_value()) {
maybe_interpolation_method = parse_interpolation_method(tokens);
tokens.discard_whitespace();
}
if (maybe_interpolation_method.has_value())
expect_comma = true;
if (!tokens.has_next_token())
return nullptr;
if (expect_comma && !tokens.consume_a_token().is(Token::Type::Comma))
return nullptr;
// <color-stop-list>
auto color_stops = parse_linear_color_stop_list(tokens);
if (!color_stops.has_value())
return nullptr;
if (!at_position)
at_position = PositionStyleValue::create_center();
transaction.commit();
return RadialGradientStyleValue::create(ending_shape, size, at_position.release_nonnull(), move(*color_stops), repeating_gradient, maybe_interpolation_method);
}
}