mirrors/ladybird
0
0
Fork 0
mirror of https://github.com/LadybirdBrowser/ladybird.git synced 2025-04-25 14:05:15 +00:00
Code Issues Projects Releases Packages Wiki Activity Actions 9
ladybird/Libraries/LibWeb/CSS/Parser/PropertyParsing.cpp

4559 lines
190 KiB
C++
Raw Blame History

/*
* Copyright (c) 2018-2025, Andreas Kling <andreas@ladybird.org>
* Copyright (c) 2020-2021, the SerenityOS developers.
* Copyright (c) 2021-2025, Sam Atkins <sam@ladybird.org>
* Copyright (c) 2021, Tobias Christiansen <tobyase@serenityos.org>
* Copyright (c) 2022, MacDue <macdue@dueutil.tech>
* Copyright (c) 2024, Shannon Booth <shannon@serenityos.org>
* Copyright (c) 2024, Tommy van der Vorst <tommy@pixelspark.nl>
* Copyright (c) 2024, Matthew Olsson <mattco@serenityos.org>
* Copyright (c) 2024, Glenn Skrzypczak <glenn.skrzypczak@gmail.com>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/Debug.h>
#include <AK/QuickSort.h>
#include <LibWeb/CSS/CSSStyleValue.h>
#include <LibWeb/CSS/CharacterTypes.h>
#include <LibWeb/CSS/Parser/Parser.h>
#include <LibWeb/CSS/StyleValues/AngleStyleValue.h>
#include <LibWeb/CSS/StyleValues/BackgroundRepeatStyleValue.h>
#include <LibWeb/CSS/StyleValues/BackgroundSizeStyleValue.h>
#include <LibWeb/CSS/StyleValues/BorderRadiusStyleValue.h>
#include <LibWeb/CSS/StyleValues/CSSColorValue.h>
#include <LibWeb/CSS/StyleValues/CSSKeywordValue.h>
#include <LibWeb/CSS/StyleValues/ColorSchemeStyleValue.h>
#include <LibWeb/CSS/StyleValues/ContentStyleValue.h>
#include <LibWeb/CSS/StyleValues/CounterDefinitionsStyleValue.h>
#include <LibWeb/CSS/StyleValues/CursorStyleValue.h>
#include <LibWeb/CSS/StyleValues/CustomIdentStyleValue.h>
#include <LibWeb/CSS/StyleValues/DisplayStyleValue.h>
#include <LibWeb/CSS/StyleValues/EasingStyleValue.h>
#include <LibWeb/CSS/StyleValues/EdgeStyleValue.h>
#include <LibWeb/CSS/StyleValues/FilterValueListStyleValue.h>
#include <LibWeb/CSS/StyleValues/FitContentStyleValue.h>
#include <LibWeb/CSS/StyleValues/FlexStyleValue.h>
#include <LibWeb/CSS/StyleValues/FrequencyStyleValue.h>
#include <LibWeb/CSS/StyleValues/GridAutoFlowStyleValue.h>
#include <LibWeb/CSS/StyleValues/GridTemplateAreaStyleValue.h>
#include <LibWeb/CSS/StyleValues/GridTrackPlacementStyleValue.h>
#include <LibWeb/CSS/StyleValues/GridTrackSizeListStyleValue.h>
#include <LibWeb/CSS/StyleValues/IntegerStyleValue.h>
#include <LibWeb/CSS/StyleValues/LengthStyleValue.h>
#include <LibWeb/CSS/StyleValues/MathDepthStyleValue.h>
#include <LibWeb/CSS/StyleValues/NumberStyleValue.h>
#include <LibWeb/CSS/StyleValues/OpenTypeTaggedStyleValue.h>
#include <LibWeb/CSS/StyleValues/PercentageStyleValue.h>
#include <LibWeb/CSS/StyleValues/PositionStyleValue.h>
#include <LibWeb/CSS/StyleValues/ResolutionStyleValue.h>
#include <LibWeb/CSS/StyleValues/ScrollbarGutterStyleValue.h>
#include <LibWeb/CSS/StyleValues/ShadowStyleValue.h>
#include <LibWeb/CSS/StyleValues/ShorthandStyleValue.h>
#include <LibWeb/CSS/StyleValues/StringStyleValue.h>
#include <LibWeb/CSS/StyleValues/StyleValueList.h>
#include <LibWeb/CSS/StyleValues/TimeStyleValue.h>
#include <LibWeb/CSS/StyleValues/TransformationStyleValue.h>
#include <LibWeb/CSS/StyleValues/TransitionStyleValue.h>
#include <LibWeb/CSS/StyleValues/UnresolvedStyleValue.h>
#include <LibWeb/Dump.h>
#include <LibWeb/Infra/Strings.h>
namespace Web::CSS::Parser {
static void remove_property(Vector<PropertyID>& properties, PropertyID property_to_remove)
{
properties.remove_first_matching([&](auto it) { return it == property_to_remove; });
}
RefPtr<CSSStyleValue> Parser::parse_all_as_single_keyword_value(TokenStream<ComponentValue>& tokens, Keyword keyword)
{
auto transaction = tokens.begin_transaction();
tokens.discard_whitespace();
auto keyword_value = parse_keyword_value(tokens);
tokens.discard_whitespace();
if (tokens.has_next_token() || !keyword_value || keyword_value->to_keyword() != keyword)
return {};
transaction.commit();
return keyword_value;
}
template<typename ParseFunction>
RefPtr<CSSStyleValue> Parser::parse_comma_separated_value_list(TokenStream<ComponentValue>& tokens, ParseFunction parse_one_value)
{
auto first = parse_one_value(tokens);
if (!first || !tokens.has_next_token())
return first;
StyleValueVector values;
values.append(first.release_nonnull());
while (tokens.has_next_token()) {
if (!tokens.consume_a_token().is(Token::Type::Comma))
return nullptr;
if (auto maybe_value = parse_one_value(tokens)) {
values.append(maybe_value.release_nonnull());
continue;
}
return nullptr;
}
return StyleValueList::create(move(values), StyleValueList::Separator::Comma);
}
RefPtr<CSSStyleValue> Parser::parse_simple_comma_separated_value_list(PropertyID property_id, TokenStream<ComponentValue>& tokens)
{
return parse_comma_separated_value_list(tokens, [this, property_id](auto& tokens) -> RefPtr<CSSStyleValue> {
if (auto value = parse_css_value_for_property(property_id, tokens))
return value;
tokens.reconsume_current_input_token();
return nullptr;
});
}
RefPtr<CSSStyleValue> Parser::parse_css_value_for_property(PropertyID property_id, TokenStream<ComponentValue>& tokens)
{
return parse_css_value_for_properties({ &property_id, 1 }, tokens)
.map([](auto& it) { return it.style_value; })
.value_or(nullptr);
}
Optional<Parser::PropertyAndValue> Parser::parse_css_value_for_properties(ReadonlySpan<PropertyID> property_ids, TokenStream<ComponentValue>& tokens)
{
auto any_property_accepts_type = [](ReadonlySpan<PropertyID> property_ids, ValueType value_type) -> Optional<PropertyID> {
for (auto const& property : property_ids) {
if (property_accepts_type(property, value_type))
return property;
}
return {};
};
auto any_property_accepts_keyword = [](ReadonlySpan<PropertyID> property_ids, Keyword keyword) -> Optional<PropertyID> {
for (auto const& property : property_ids) {
if (property_accepts_keyword(property, keyword))
return property;
}
return {};
};
auto& peek_token = tokens.next_token();
if (auto property = any_property_accepts_type(property_ids, ValueType::EasingFunction); property.has_value()) {
auto context_guard = push_temporary_value_parsing_context(*property);
if (auto maybe_easing_function = parse_easing_value(tokens))
return PropertyAndValue { *property, maybe_easing_function };
}
if (peek_token.is(Token::Type::Ident)) {
// NOTE: We do not try to parse "CSS-wide keywords" here. https://www.w3.org/TR/css-values-4/#common-keywords
// These are only valid on their own, and so should be parsed directly in `parse_css_value()`.
auto keyword = keyword_from_string(peek_token.token().ident());
if (keyword.has_value()) {
if (auto property = any_property_accepts_keyword(property_ids, keyword.value()); property.has_value()) {
tokens.discard_a_token();
return PropertyAndValue { *property, CSSKeywordValue::create(keyword.value()) };
}
}
// Custom idents
if (auto property = any_property_accepts_type(property_ids, ValueType::CustomIdent); property.has_value()) {
auto context_guard = push_temporary_value_parsing_context(*property);
if (auto custom_ident = parse_custom_ident_value(tokens, property_custom_ident_blacklist(*property)))
return PropertyAndValue { *property, custom_ident };
}
}
if (auto property = any_property_accepts_type(property_ids, ValueType::Color); property.has_value()) {
auto context_guard = push_temporary_value_parsing_context(*property);
if (auto maybe_color = parse_color_value(tokens))
return PropertyAndValue { *property, maybe_color };
}
if (auto property = any_property_accepts_type(property_ids, ValueType::Counter); property.has_value()) {
auto context_guard = push_temporary_value_parsing_context(*property);
if (auto maybe_counter = parse_counter_value(tokens))
return PropertyAndValue { *property, maybe_counter };
}
if (auto property = any_property_accepts_type(property_ids, ValueType::Image); property.has_value()) {
auto context_guard = push_temporary_value_parsing_context(*property);
if (auto maybe_image = parse_image_value(tokens))
return PropertyAndValue { *property, maybe_image };
}
if (auto property = any_property_accepts_type(property_ids, ValueType::Position); property.has_value()) {
auto context_guard = push_temporary_value_parsing_context(*property);
if (auto maybe_position = parse_position_value(tokens))
return PropertyAndValue { *property, maybe_position };
}
if (auto property = any_property_accepts_type(property_ids, ValueType::BackgroundPosition); property.has_value()) {
auto context_guard = push_temporary_value_parsing_context(*property);
if (auto maybe_position = parse_position_value(tokens, PositionParsingMode::BackgroundPosition))
return PropertyAndValue { *property, maybe_position };
}
if (auto property = any_property_accepts_type(property_ids, ValueType::BasicShape); property.has_value()) {
auto context_guard = push_temporary_value_parsing_context(*property);
if (auto maybe_basic_shape = parse_basic_shape_value(tokens))
return PropertyAndValue { *property, maybe_basic_shape };
}
if (auto property = any_property_accepts_type(property_ids, ValueType::Ratio); property.has_value()) {
auto context_guard = push_temporary_value_parsing_context(*property);
if (auto maybe_ratio = parse_ratio_value(tokens))
return PropertyAndValue { *property, maybe_ratio };
}
if (auto property = any_property_accepts_type(property_ids, ValueType::OpenTypeTag); property.has_value()) {
auto context_guard = push_temporary_value_parsing_context(*property);
if (auto maybe_rect = parse_opentype_tag_value(tokens))
return PropertyAndValue { *property, maybe_rect };
}
if (auto property = any_property_accepts_type(property_ids, ValueType::Rect); property.has_value()) {
auto context_guard = push_temporary_value_parsing_context(*property);
if (auto maybe_rect = parse_rect_value(tokens))
return PropertyAndValue { *property, maybe_rect };
}
if (peek_token.is(Token::Type::String)) {
if (auto property = any_property_accepts_type(property_ids, ValueType::String); property.has_value()) {
auto context_guard = push_temporary_value_parsing_context(*property);
return PropertyAndValue { *property, StringStyleValue::create(tokens.consume_a_token().token().string()) };
}
}
if (auto property = any_property_accepts_type(property_ids, ValueType::Url); property.has_value()) {
auto context_guard = push_temporary_value_parsing_context(*property);
if (auto url = parse_url_value(tokens))
return PropertyAndValue { *property, url };
}
// <integer>/<number> come before <length>, so that 0 is not interpreted as a <length> in case both are allowed.
if (auto property = any_property_accepts_type(property_ids, ValueType::Integer); property.has_value()) {
auto context_guard = push_temporary_value_parsing_context(*property);
if (auto value = parse_integer_value(tokens)) {
if (value->is_calculated())
return PropertyAndValue { *property, value };
if (value->is_integer() && property_accepts_integer(*property, value->as_integer().integer()))
return PropertyAndValue { *property, value };
}
}
if (auto property = any_property_accepts_type(property_ids, ValueType::Number); property.has_value()) {
auto context_guard = push_temporary_value_parsing_context(*property);
if (auto value = parse_number_value(tokens)) {
if (value->is_calculated())
return PropertyAndValue { *property, value };
if (value->is_number() && property_accepts_number(*property, value->as_number().number()))
return PropertyAndValue { *property, value };
}
}
if (auto property = any_property_accepts_type(property_ids, ValueType::Angle); property.has_value()) {
auto context_guard = push_temporary_value_parsing_context(*property);
if (property_accepts_type(*property, ValueType::Percentage)) {
if (auto value = parse_angle_percentage_value(tokens)) {
if (value->is_calculated())
return PropertyAndValue { *property, value };
if (value->is_angle() && property_accepts_angle(*property, value->as_angle().angle()))
return PropertyAndValue { *property, value };
if (value->is_percentage() && property_accepts_percentage(*property, value->as_percentage().percentage()))
return PropertyAndValue { *property, value };
}
}
if (auto value = parse_angle_value(tokens)) {
if (value->is_calculated())
return PropertyAndValue { *property, value };
if (value->is_angle() && property_accepts_angle(*property, value->as_angle().angle()))
return PropertyAndValue { *property, value };
}
}
if (auto property = any_property_accepts_type(property_ids, ValueType::Flex); property.has_value()) {
auto context_guard = push_temporary_value_parsing_context(*property);
if (auto value = parse_flex_value(tokens)) {
if (value->is_calculated())
return PropertyAndValue { *property, value };
if (value->is_flex() && property_accepts_flex(*property, value->as_flex().flex()))
return PropertyAndValue { *property, value };
}
}
if (auto property = any_property_accepts_type(property_ids, ValueType::Frequency); property.has_value()) {
auto context_guard = push_temporary_value_parsing_context(*property);
if (property_accepts_type(*property, ValueType::Percentage)) {
if (auto value = parse_frequency_percentage_value(tokens)) {
if (value->is_calculated())
return PropertyAndValue { *property, value };
if (value->is_frequency() && property_accepts_frequency(*property, value->as_frequency().frequency()))
return PropertyAndValue { *property, value };
if (value->is_percentage() && property_accepts_percentage(*property, value->as_percentage().percentage()))
return PropertyAndValue { *property, value };
}
}
if (auto value = parse_frequency_value(tokens)) {
if (value->is_calculated())
return PropertyAndValue { *property, value };
if (value->is_frequency() && property_accepts_frequency(*property, value->as_frequency().frequency()))
return PropertyAndValue { *property, value };
}
}
if (auto property = any_property_accepts_type(property_ids, ValueType::FitContent); property.has_value()) {
auto context_guard = push_temporary_value_parsing_context(*property);
if (auto value = parse_fit_content_value(tokens))
return PropertyAndValue { *property, value };
}
if (auto property = any_property_accepts_type(property_ids, ValueType::Length); property.has_value()) {
auto context_guard = push_temporary_value_parsing_context(*property);
if (property_accepts_type(*property, ValueType::Percentage)) {
if (auto value = parse_length_percentage_value(tokens)) {
if (value->is_calculated())
return PropertyAndValue { *property, value };
if (value->is_length() && property_accepts_length(*property, value->as_length().length()))
return PropertyAndValue { *property, value };
if (value->is_percentage() && property_accepts_percentage(*property, value->as_percentage().percentage()))
return PropertyAndValue { *property, value };
}
}
if (auto value = parse_length_value(tokens)) {
if (value->is_calculated())
return PropertyAndValue { *property, value };
if (value->is_length() && property_accepts_length(*property, value->as_length().length()))
return PropertyAndValue { *property, value };
}
}
if (auto property = any_property_accepts_type(property_ids, ValueType::Resolution); property.has_value()) {
auto context_guard = push_temporary_value_parsing_context(*property);
if (auto value = parse_resolution_value(tokens)) {
if (value->is_calculated())
return PropertyAndValue { *property, value };
if (value->is_resolution() && property_accepts_resolution(*property, value->as_resolution().resolution()))
return PropertyAndValue { *property, value };
}
}
if (auto property = any_property_accepts_type(property_ids, ValueType::Time); property.has_value()) {
auto context_guard = push_temporary_value_parsing_context(*property);
if (property_accepts_type(*property, ValueType::Percentage)) {
if (auto value = parse_time_percentage_value(tokens)) {
if (value->is_calculated())
return PropertyAndValue { *property, value };
if (value->is_time() && property_accepts_time(*property, value->as_time().time()))
return PropertyAndValue { *property, value };
if (value->is_percentage() && property_accepts_percentage(*property, value->as_percentage().percentage()))
return PropertyAndValue { *property, value };
}
}
if (auto value = parse_time_value(tokens)) {
if (value->is_calculated())
return PropertyAndValue { *property, value };
if (value->is_time() && property_accepts_time(*property, value->as_time().time()))
return PropertyAndValue { *property, value };
}
}
// <percentage> is checked after the <foo-percentage> types.
if (auto property = any_property_accepts_type(property_ids, ValueType::Percentage); property.has_value()) {
auto context_guard = push_temporary_value_parsing_context(*property);
if (auto value = parse_percentage_value(tokens)) {
if (value->is_calculated())
return PropertyAndValue { *property, value };
if (value->is_percentage() && property_accepts_percentage(*property, value->as_percentage().percentage()))
return PropertyAndValue { *property, value };
}
}
if (auto property = any_property_accepts_type(property_ids, ValueType::Paint); property.has_value()) {
auto context_guard = push_temporary_value_parsing_context(*property);
if (auto value = parse_paint_value(tokens))
return PropertyAndValue { *property, value.release_nonnull() };
}
return OptionalNone {};
}
static bool block_contains_var_or_attr(SimpleBlock const& block);
static bool function_contains_var_or_attr(Function const& function)
{
if (function.name.equals_ignoring_ascii_case("var"sv) || function.name.equals_ignoring_ascii_case("attr"sv))
return true;
for (auto const& token : function.value) {
if (token.is_function() && function_contains_var_or_attr(token.function()))
return true;
if (token.is_block() && block_contains_var_or_attr(token.block()))
return true;
}
return false;
}
bool block_contains_var_or_attr(SimpleBlock const& block)
{
for (auto const& token : block.value) {
if (token.is_function() && function_contains_var_or_attr(token.function()))
return true;
if (token.is_block() && block_contains_var_or_attr(token.block()))
return true;
}
return false;
}
Parser::ParseErrorOr<NonnullRefPtr<CSSStyleValue>> Parser::parse_css_value(PropertyID property_id, TokenStream<ComponentValue>& unprocessed_tokens, Optional<String> original_source_text)
{
auto context_guard = push_temporary_value_parsing_context(property_id);
Vector<ComponentValue> component_values;
bool contains_var_or_attr = false;
bool const property_accepts_custom_ident = property_accepts_type(property_id, ValueType::CustomIdent);
while (unprocessed_tokens.has_next_token()) {
auto const& token = unprocessed_tokens.consume_a_token();
if (token.is(Token::Type::Semicolon)) {
unprocessed_tokens.reconsume_current_input_token();
break;
}
if (property_id != PropertyID::Custom) {
if (token.is(Token::Type::Whitespace))
continue;
if (!property_accepts_custom_ident && token.is(Token::Type::Ident) && has_ignored_vendor_prefix(token.token().ident()))
return ParseError::IncludesIgnoredVendorPrefix;
}
if (!contains_var_or_attr) {
if (token.is_function() && function_contains_var_or_attr(token.function()))
contains_var_or_attr = true;
else if (token.is_block() && block_contains_var_or_attr(token.block()))
contains_var_or_attr = true;
}
component_values.append(token);
}
if (property_id == PropertyID::Custom || contains_var_or_attr)
return UnresolvedStyleValue::create(move(component_values), contains_var_or_attr, original_source_text);
if (component_values.is_empty())
return ParseError::SyntaxError;
auto tokens = TokenStream { component_values };
if (component_values.size() == 1) {
if (auto parsed_value = parse_builtin_value(tokens))
return parsed_value.release_nonnull();
}
// Special-case property handling
switch (property_id) {
case PropertyID::AspectRatio:
if (auto parsed_value = parse_aspect_ratio_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::BackdropFilter:
case PropertyID::Filter:
if (auto parsed_value = parse_filter_value_list_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::Background:
if (auto parsed_value = parse_background_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::BackgroundAttachment:
case PropertyID::BackgroundClip:
case PropertyID::BackgroundImage:
case PropertyID::BackgroundOrigin:
if (auto parsed_value = parse_simple_comma_separated_value_list(property_id, tokens))
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::BackgroundPosition:
if (auto parsed_value = parse_comma_separated_value_list(tokens, [this](auto& tokens) { return parse_position_value(tokens, PositionParsingMode::BackgroundPosition); }))
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::BackgroundPositionX:
case PropertyID::BackgroundPositionY:
if (auto parsed_value = parse_comma_separated_value_list(tokens, [this, property_id](auto& tokens) { return parse_single_background_position_x_or_y_value(tokens, property_id); }))
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::BackgroundRepeat:
if (auto parsed_value = parse_comma_separated_value_list(tokens, [this](auto& tokens) { return parse_single_background_repeat_value(tokens); }))
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::BackgroundSize:
if (auto parsed_value = parse_comma_separated_value_list(tokens, [this](auto& tokens) { return parse_single_background_size_value(tokens); }))
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::Border:
case PropertyID::BorderBottom:
case PropertyID::BorderLeft:
case PropertyID::BorderRight:
case PropertyID::BorderTop:
if (auto parsed_value = parse_border_value(property_id, tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::BorderTopLeftRadius:
case PropertyID::BorderTopRightRadius:
case PropertyID::BorderBottomRightRadius:
case PropertyID::BorderBottomLeftRadius:
if (auto parsed_value = parse_border_radius_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::BorderRadius:
if (auto parsed_value = parse_border_radius_shorthand_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::BoxShadow:
if (auto parsed_value = parse_shadow_value(tokens, AllowInsetKeyword::Yes); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::ColorScheme:
if (auto parsed_value = parse_color_scheme_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::Columns:
if (auto parsed_value = parse_columns_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::Content:
if (auto parsed_value = parse_content_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::CounterIncrement:
if (auto parsed_value = parse_counter_increment_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::CounterReset:
if (auto parsed_value = parse_counter_reset_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::CounterSet:
if (auto parsed_value = parse_counter_set_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::Cursor:
if (auto parsed_value = parse_cursor_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::Display:
if (auto parsed_value = parse_display_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::Flex:
if (auto parsed_value = parse_flex_shorthand_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::FlexFlow:
if (auto parsed_value = parse_flex_flow_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::Font:
if (auto parsed_value = parse_font_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::FontFamily:
if (auto parsed_value = parse_font_family_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::FontFeatureSettings:
if (auto parsed_value = parse_font_feature_settings_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::FontLanguageOverride:
if (auto parsed_value = parse_font_language_override_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::FontVariationSettings:
if (auto parsed_value = parse_font_variation_settings_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::FontVariant:
if (auto parsed_value = parse_font_variant(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::FontVariantAlternates:
if (auto parsed_value = parse_font_variant_alternates_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::FontVariantEastAsian:
if (auto parsed_value = parse_font_variant_east_asian_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::FontVariantLigatures:
if (auto parsed_value = parse_font_variant_ligatures_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::FontVariantNumeric:
if (auto parsed_value = parse_font_variant_numeric_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::GridArea:
if (auto parsed_value = parse_grid_area_shorthand_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::GridAutoFlow:
if (auto parsed_value = parse_grid_auto_flow_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::GridColumn:
if (auto parsed_value = parse_grid_track_placement_shorthand_value(property_id, tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::GridColumnEnd:
if (auto parsed_value = parse_grid_track_placement(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::GridColumnStart:
if (auto parsed_value = parse_grid_track_placement(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::GridRow:
if (auto parsed_value = parse_grid_track_placement_shorthand_value(property_id, tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::GridRowEnd:
if (auto parsed_value = parse_grid_track_placement(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::GridRowStart:
if (auto parsed_value = parse_grid_track_placement(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::Grid:
if (auto parsed_value = parse_grid_shorthand_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::GridTemplate:
if (auto parsed_value = parse_grid_track_size_list_shorthand_value(property_id, tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::GridTemplateAreas:
if (auto parsed_value = parse_grid_template_areas_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::GridTemplateColumns:
if (auto parsed_value = parse_grid_track_size_list(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::GridTemplateRows:
if (auto parsed_value = parse_grid_track_size_list(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::GridAutoColumns:
if (auto parsed_value = parse_grid_auto_track_sizes(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::GridAutoRows:
if (auto parsed_value = parse_grid_auto_track_sizes(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::ListStyle:
if (auto parsed_value = parse_list_style_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::MathDepth:
if (auto parsed_value = parse_math_depth_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::Overflow:
if (auto parsed_value = parse_overflow_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::PlaceContent:
if (auto parsed_value = parse_place_content_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::PlaceItems:
if (auto parsed_value = parse_place_items_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::PlaceSelf:
if (auto parsed_value = parse_place_self_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::Quotes:
if (auto parsed_value = parse_quotes_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::Rotate:
if (auto parsed_value = parse_rotate_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::ScrollbarGutter:
if (auto parsed_value = parse_scrollbar_gutter_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::StrokeDasharray:
if (auto parsed_value = parse_stroke_dasharray_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::TextDecoration:
if (auto parsed_value = parse_text_decoration_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::TextDecorationLine:
if (auto parsed_value = parse_text_decoration_line_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::TextShadow:
if (auto parsed_value = parse_shadow_value(tokens, AllowInsetKeyword::No); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::Transform:
if (auto parsed_value = parse_transform_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::TransformOrigin:
if (auto parsed_value = parse_transform_origin_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::Transition:
if (auto parsed_value = parse_transition_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::Translate:
if (auto parsed_value = parse_translate_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
case PropertyID::Scale:
if (auto parsed_value = parse_scale_value(tokens); parsed_value && !tokens.has_next_token())
return parsed_value.release_nonnull();
return ParseError::SyntaxError;
default:
break;
}
// If there's only 1 ComponentValue, we can only produce a single CSSStyleValue.
if (component_values.size() == 1) {
auto stream = TokenStream { component_values };
if (auto parsed_value = parse_css_value_for_property(property_id, stream))
return parsed_value.release_nonnull();
} else {
StyleValueVector parsed_values;
auto stream = TokenStream { component_values };
while (auto parsed_value = parse_css_value_for_property(property_id, stream)) {
parsed_values.append(parsed_value.release_nonnull());
if (!stream.has_next_token())
break;
}
if (!stream.has_next_token()) {
// Some types (such as <ratio>) can be made from multiple ComponentValues, so if we only made 1 CSSStyleValue, return it directly.
if (parsed_values.size() == 1)
return *parsed_values.take_first();
if (!parsed_values.is_empty() && parsed_values.size() <= property_maximum_value_count(property_id))
return StyleValueList::create(move(parsed_values), StyleValueList::Separator::Space);
}
}
// We have multiple values, but the property claims to accept only a single one, check if it's a shorthand property.
auto unassigned_properties = longhands_for_shorthand(property_id);
if (unassigned_properties.is_empty())
return ParseError::SyntaxError;
auto stream = TokenStream { component_values };
HashMap<UnderlyingType<PropertyID>, Vector<ValueComparingNonnullRefPtr<CSSStyleValue const>>> assigned_values;
while (stream.has_next_token() && !unassigned_properties.is_empty()) {
auto property_and_value = parse_css_value_for_properties(unassigned_properties, stream);
if (property_and_value.has_value()) {
auto property = property_and_value->property;
auto value = property_and_value->style_value;
auto& values = assigned_values.ensure(to_underlying(property));
if (values.size() + 1 == property_maximum_value_count(property)) {
// We're done with this property, move on to the next one.
unassigned_properties.remove_first_matching([&](auto& unassigned_property) { return unassigned_property == property; });
}
values.append(value.release_nonnull());
continue;
}
// No property matched, so we're done.
if constexpr (CSS_PARSER_DEBUG) {
dbgln("No property (from {} properties) matched {}", unassigned_properties.size(), stream.next_token().to_debug_string());
for (auto id : unassigned_properties)
dbgln(" {}", string_from_property_id(id));
}
break;
}
for (auto& property : unassigned_properties)
assigned_values.ensure(to_underlying(property)).append(property_initial_value(property));
stream.discard_whitespace();
if (stream.has_next_token())
return ParseError::SyntaxError;
Vector<PropertyID> longhand_properties;
longhand_properties.ensure_capacity(assigned_values.size());
for (auto& it : assigned_values)
longhand_properties.unchecked_append(static_cast<PropertyID>(it.key));
StyleValueVector longhand_values;
longhand_values.ensure_capacity(assigned_values.size());
for (auto& it : assigned_values) {
if (it.value.size() == 1)
longhand_values.unchecked_append(it.value.take_first());
else
longhand_values.unchecked_append(StyleValueList::create(move(it.value), StyleValueList::Separator::Space));
}
return { ShorthandStyleValue::create(property_id, move(longhand_properties), move(longhand_values)) };
}
RefPtr<CSSStyleValue> Parser::parse_color_scheme_value(TokenStream<ComponentValue>& tokens)
{
// normal | [ light | dark | <custom-ident> ]+ && only?
// normal
{
auto transaction = tokens.begin_transaction();
tokens.discard_whitespace();
if (tokens.consume_a_token().is_ident("normal"sv)) {
if (tokens.has_next_token())
return {};
transaction.commit();
return ColorSchemeStyleValue::normal();
}
}
bool only = false;
Vector<String> schemes;
// only? && (..)
{
auto transaction = tokens.begin_transaction();
tokens.discard_whitespace();
if (tokens.consume_a_token().is_ident("only"sv)) {
only = true;
transaction.commit();
}
}
// [ light | dark | <custom-ident> ]+
tokens.discard_whitespace();
while (tokens.has_next_token()) {
auto transaction = tokens.begin_transaction();
// The 'normal', 'light', 'dark', and 'only' keywords are not valid <custom-ident>s in this property.
// Note: only 'normal' is blacklisted here because 'light' and 'dark' aren't parsed differently and 'only' is checked for afterwards
auto ident = parse_custom_ident_value(tokens, { { "normal"sv } });
if (!ident)
return {};
if (ident->custom_ident() == "only"_fly_string)
break;
schemes.append(ident->custom_ident().to_string());
tokens.discard_whitespace();
transaction.commit();
}
// (..) && only?
if (!only) {
auto transaction = tokens.begin_transaction();
tokens.discard_whitespace();
if (tokens.consume_a_token().is_ident("only"sv)) {
only = true;
transaction.commit();
}
}
tokens.discard_whitespace();
if (tokens.has_next_token() || schemes.is_empty())
return {};
return ColorSchemeStyleValue::create(schemes, only);
}
RefPtr<CSSStyleValue> Parser::parse_counter_definitions_value(TokenStream<ComponentValue>& tokens, AllowReversed allow_reversed, i32 default_value_if_not_reversed)
{
// If AllowReversed is Yes, parses:
// [ <counter-name> <integer>? | <reversed-counter-name> <integer>? ]+
// Otherwise parses:
// [ <counter-name> <integer>? ]+
// FIXME: This disabled parsing of `reversed()` counters. Remove this line once they're supported.
allow_reversed = AllowReversed::No;
auto transaction = tokens.begin_transaction();
tokens.discard_whitespace();
Vector<CounterDefinition> counter_definitions;
while (tokens.has_next_token()) {
auto per_item_transaction = tokens.begin_transaction();
CounterDefinition definition {};
// <counter-name> | <reversed-counter-name>
auto& token = tokens.next_token();
// A <counter-name> name cannot match the keyword none; such an identifier is invalid as a <counter-name>.
if (auto counter_name = parse_custom_ident_value(tokens, { { "none"sv } })) {
definition.name = counter_name->custom_ident();
definition.is_reversed = false;
} else if (allow_reversed == AllowReversed::Yes && token.is_function("reversed"sv)) {
TokenStream function_tokens { token.function().value };
tokens.discard_a_token();
function_tokens.discard_whitespace();
auto& name_token = function_tokens.consume_a_token();
if (!name_token.is(Token::Type::Ident))
break;
function_tokens.discard_whitespace();
if (function_tokens.has_next_token())
break;
definition.name = name_token.token().ident();
definition.is_reversed = true;
} else {
break;
}
tokens.discard_whitespace();
// <integer>?
definition.value = parse_integer_value(tokens);
if (!definition.value && !definition.is_reversed)
definition.value = IntegerStyleValue::create(default_value_if_not_reversed);
counter_definitions.append(move(definition));
tokens.discard_whitespace();
per_item_transaction.commit();
}
if (counter_definitions.is_empty())
return {};
transaction.commit();
return CounterDefinitionsStyleValue::create(move(counter_definitions));
}
// https://drafts.csswg.org/css-lists-3/#propdef-counter-increment
RefPtr<CSSStyleValue> Parser::parse_counter_increment_value(TokenStream<ComponentValue>& tokens)
{
// [ <counter-name> <integer>? ]+ | none
if (auto none = parse_all_as_single_keyword_value(tokens, Keyword::None))
return none;
return parse_counter_definitions_value(tokens, AllowReversed::No, 1);
}
// https://drafts.csswg.org/css-lists-3/#propdef-counter-reset
RefPtr<CSSStyleValue> Parser::parse_counter_reset_value(TokenStream<ComponentValue>& tokens)
{
// [ <counter-name> <integer>? | <reversed-counter-name> <integer>? ]+ | none
if (auto none = parse_all_as_single_keyword_value(tokens, Keyword::None))
return none;
return parse_counter_definitions_value(tokens, AllowReversed::Yes, 0);
}
// https://drafts.csswg.org/css-lists-3/#propdef-counter-set
RefPtr<CSSStyleValue> Parser::parse_counter_set_value(TokenStream<ComponentValue>& tokens)
{
// [ <counter-name> <integer>? ]+ | none
if (auto none = parse_all_as_single_keyword_value(tokens, Keyword::None))
return none;
return parse_counter_definitions_value(tokens, AllowReversed::No, 0);
}
// https://drafts.csswg.org/css-ui-3/#cursor
RefPtr<CSSStyleValue> Parser::parse_cursor_value(TokenStream<ComponentValue>& tokens)
{
// [ [<url> [<x> <y>]?,]* <built-in-cursor> ]
// So, any number of custom cursor definitions, and then a mandatory cursor name keyword, all comma-separated.
auto transaction = tokens.begin_transaction();
StyleValueVector cursors;
auto parts = parse_a_comma_separated_list_of_component_values(tokens);
for (auto i = 0u; i < parts.size(); ++i) {
auto& part = parts[i];
TokenStream part_tokens { part };
if (i == parts.size() - 1) {
// Cursor keyword
part_tokens.discard_whitespace();
auto keyword_value = parse_keyword_value(part_tokens);
if (!keyword_value || !keyword_to_cursor(keyword_value->to_keyword()).has_value())
return {};
part_tokens.discard_whitespace();
if (part_tokens.has_next_token())
return {};
cursors.append(keyword_value.release_nonnull());
} else {
// Custom cursor definition
// <url> [<x> <y>]?
// "Conforming user agents may, instead of <url>, support <image> which is a superset."
part_tokens.discard_whitespace();
auto image_value = parse_image_value(part_tokens);
if (!image_value)
return {};
part_tokens.discard_whitespace();
if (part_tokens.has_next_token()) {
// x and y, which are both <number>
auto x = parse_number(part_tokens);
part_tokens.discard_whitespace();
auto y = parse_number(part_tokens);
part_tokens.discard_whitespace();
if (!x.has_value() || !y.has_value() || part_tokens.has_next_token())
return nullptr;
cursors.append(CursorStyleValue::create(image_value.release_nonnull(), x.release_value(), y.release_value()));
continue;
}
cursors.append(CursorStyleValue::create(image_value.release_nonnull(), {}, {}));
}
}
if (cursors.is_empty())
return nullptr;
transaction.commit();
if (cursors.size() == 1)
return *cursors.first();
return StyleValueList::create(move(cursors), StyleValueList::Separator::Comma);
}
// https://www.w3.org/TR/css-sizing-4/#aspect-ratio
RefPtr<CSSStyleValue> Parser::parse_aspect_ratio_value(TokenStream<ComponentValue>& tokens)
{
// `auto || <ratio>`
RefPtr<CSSStyleValue> auto_value;
RefPtr<CSSStyleValue> ratio_value;
auto transaction = tokens.begin_transaction();
while (tokens.has_next_token()) {
auto maybe_value = parse_css_value_for_property(PropertyID::AspectRatio, tokens);
if (!maybe_value)
return nullptr;
if (maybe_value->is_ratio()) {
if (ratio_value)
return nullptr;
ratio_value = maybe_value.release_nonnull();
continue;
}
if (maybe_value->is_keyword() && maybe_value->as_keyword().keyword() == Keyword::Auto) {
if (auto_value)
return nullptr;
auto_value = maybe_value.release_nonnull();
continue;
}
return nullptr;
}
if (auto_value && ratio_value) {
transaction.commit();
return StyleValueList::create(
StyleValueVector { auto_value.release_nonnull(), ratio_value.release_nonnull() },
StyleValueList::Separator::Space);
}
if (ratio_value) {
transaction.commit();
return ratio_value.release_nonnull();
}
if (auto_value) {
transaction.commit();
return auto_value.release_nonnull();
}
return nullptr;
}
RefPtr<CSSStyleValue> Parser::parse_background_value(TokenStream<ComponentValue>& tokens)
{
auto transaction = tokens.begin_transaction();
auto make_background_shorthand = [&](auto background_color, auto background_image, auto background_position, auto background_size, auto background_repeat, auto background_attachment, auto background_origin, auto background_clip) {
return ShorthandStyleValue::create(PropertyID::Background,
{ PropertyID::BackgroundColor, PropertyID::BackgroundImage, PropertyID::BackgroundPosition, PropertyID::BackgroundSize, PropertyID::BackgroundRepeat, PropertyID::BackgroundAttachment, PropertyID::BackgroundOrigin, PropertyID::BackgroundClip },
{ move(background_color), move(background_image), move(background_position), move(background_size), move(background_repeat), move(background_attachment), move(background_origin), move(background_clip) });
};
StyleValueVector background_images;
StyleValueVector background_position_xs;
StyleValueVector background_position_ys;
StyleValueVector background_sizes;
StyleValueVector background_repeats;
StyleValueVector background_attachments;
StyleValueVector background_clips;
StyleValueVector background_origins;
RefPtr<CSSStyleValue> background_color;
auto initial_background_image = property_initial_value(PropertyID::BackgroundImage);
auto initial_background_position_x = property_initial_value(PropertyID::BackgroundPositionX);
auto initial_background_position_y = property_initial_value(PropertyID::BackgroundPositionY);
auto initial_background_size = property_initial_value(PropertyID::BackgroundSize);
auto initial_background_repeat = property_initial_value(PropertyID::BackgroundRepeat);
auto initial_background_attachment = property_initial_value(PropertyID::BackgroundAttachment);
auto initial_background_clip = property_initial_value(PropertyID::BackgroundClip);
auto initial_background_origin = property_initial_value(PropertyID::BackgroundOrigin);
auto initial_background_color = property_initial_value(PropertyID::BackgroundColor);
// Per-layer values
RefPtr<CSSStyleValue> background_image;
RefPtr<CSSStyleValue> background_position_x;
RefPtr<CSSStyleValue> background_position_y;
RefPtr<CSSStyleValue> background_size;
RefPtr<CSSStyleValue> background_repeat;
RefPtr<CSSStyleValue> background_attachment;
RefPtr<CSSStyleValue> background_clip;
RefPtr<CSSStyleValue> background_origin;
bool has_multiple_layers = false;
// BackgroundSize is always parsed as part of BackgroundPosition, so we don't include it here.
Vector<PropertyID> remaining_layer_properties {
PropertyID::BackgroundAttachment,
PropertyID::BackgroundClip,
PropertyID::BackgroundColor,
PropertyID::BackgroundImage,
PropertyID::BackgroundOrigin,
PropertyID::BackgroundPosition,
PropertyID::BackgroundRepeat,
};
auto background_layer_is_valid = [&](bool allow_background_color) -> bool {
if (allow_background_color) {
if (background_color)
return true;
} else {
if (background_color)
return false;
}
return background_image || background_position_x || background_position_y || background_size || background_repeat || background_attachment || background_clip || background_origin;
};
auto complete_background_layer = [&]() {
background_images.append(background_image ? background_image.release_nonnull() : initial_background_image);
background_position_xs.append(background_position_x ? background_position_x.release_nonnull() : initial_background_position_x);
background_position_ys.append(background_position_y ? background_position_y.release_nonnull() : initial_background_position_y);
background_sizes.append(background_size ? background_size.release_nonnull() : initial_background_size);
background_repeats.append(background_repeat ? background_repeat.release_nonnull() : initial_background_repeat);
background_attachments.append(background_attachment ? background_attachment.release_nonnull() : initial_background_attachment);
if (!background_origin && !background_clip) {
background_origin = initial_background_origin;
background_clip = initial_background_clip;
} else if (!background_clip) {
background_clip = background_origin;
}
background_origins.append(background_origin.release_nonnull());
background_clips.append(background_clip.release_nonnull());
background_image = nullptr;
background_position_x = nullptr;
background_position_y = nullptr;
background_size = nullptr;
background_repeat = nullptr;
background_attachment = nullptr;
background_clip = nullptr;
background_origin = nullptr;
remaining_layer_properties.clear_with_capacity();
remaining_layer_properties.unchecked_append(PropertyID::BackgroundAttachment);
remaining_layer_properties.unchecked_append(PropertyID::BackgroundClip);
remaining_layer_properties.unchecked_append(PropertyID::BackgroundColor);
remaining_layer_properties.unchecked_append(PropertyID::BackgroundImage);
remaining_layer_properties.unchecked_append(PropertyID::BackgroundOrigin);
remaining_layer_properties.unchecked_append(PropertyID::BackgroundPosition);
remaining_layer_properties.unchecked_append(PropertyID::BackgroundRepeat);
};
while (tokens.has_next_token()) {
if (tokens.next_token().is(Token::Type::Comma)) {
has_multiple_layers = true;
if (!background_layer_is_valid(false))
return nullptr;
complete_background_layer();
tokens.discard_a_token();
continue;
}
auto value_and_property = parse_css_value_for_properties(remaining_layer_properties, tokens);
if (!value_and_property.has_value())
return nullptr;
auto& value = value_and_property->style_value;
remove_property(remaining_layer_properties, value_and_property->property);
switch (value_and_property->property) {
case PropertyID::BackgroundAttachment:
VERIFY(!background_attachment);
background_attachment = value.release_nonnull();
continue;
case PropertyID::BackgroundColor:
VERIFY(!background_color);
background_color = value.release_nonnull();
continue;
case PropertyID::BackgroundImage:
VERIFY(!background_image);
background_image = value.release_nonnull();
continue;
case PropertyID::BackgroundClip:
case PropertyID::BackgroundOrigin: {
// background-origin and background-clip accept the same values. From the spec:
// "If one <box> value is present then it sets both background-origin and background-clip to that value.
// If two values are present, then the first sets background-origin and the second background-clip."
// - https://www.w3.org/TR/css-backgrounds-3/#background
// So, we put the first one in background-origin, then if we get a second, we put it in background-clip.
// If we only get one, we copy the value before creating the ShorthandStyleValue.
if (!background_origin) {
background_origin = value.release_nonnull();
} else if (!background_clip) {
background_clip = value.release_nonnull();
} else {
VERIFY_NOT_REACHED();
}
continue;
}
case PropertyID::BackgroundPosition: {
VERIFY(!background_position_x && !background_position_y);
auto position = value.release_nonnull();
background_position_x = position->as_position().edge_x();
background_position_y = position->as_position().edge_y();
// Attempt to parse `/ <background-size>`
auto background_size_transaction = tokens.begin_transaction();
auto& maybe_slash = tokens.consume_a_token();
if (maybe_slash.is_delim('/')) {
if (auto maybe_background_size = parse_single_background_size_value(tokens)) {
background_size_transaction.commit();
background_size = maybe_background_size.release_nonnull();
continue;
}
return nullptr;
}
continue;
}
case PropertyID::BackgroundRepeat: {
VERIFY(!background_repeat);
tokens.reconsume_current_input_token();
if (auto maybe_repeat = parse_single_background_repeat_value(tokens)) {
background_repeat = maybe_repeat.release_nonnull();
continue;
}
return nullptr;
}
default:
VERIFY_NOT_REACHED();
}
return nullptr;
}
if (!background_layer_is_valid(true))
return nullptr;
// We only need to create StyleValueLists if there are multiple layers.
// Otherwise, we can pass the single StyleValues directly.
if (has_multiple_layers) {
complete_background_layer();
if (!background_color)
background_color = initial_background_color;
transaction.commit();
return make_background_shorthand(
background_color.release_nonnull(),
StyleValueList::create(move(background_images), StyleValueList::Separator::Comma),
ShorthandStyleValue::create(PropertyID::BackgroundPosition,
{ PropertyID::BackgroundPositionX, PropertyID::BackgroundPositionY },
{ StyleValueList::create(move(background_position_xs), StyleValueList::Separator::Comma),
StyleValueList::create(move(background_position_ys), StyleValueList::Separator::Comma) }),
StyleValueList::create(move(background_sizes), StyleValueList::Separator::Comma),
StyleValueList::create(move(background_repeats), StyleValueList::Separator::Comma),
StyleValueList::create(move(background_attachments), StyleValueList::Separator::Comma),
StyleValueList::create(move(background_origins), StyleValueList::Separator::Comma),
StyleValueList::create(move(background_clips), StyleValueList::Separator::Comma));
}
if (!background_color)
background_color = initial_background_color;
if (!background_image)
background_image = initial_background_image;
if (!background_position_x)
background_position_x = initial_background_position_x;
if (!background_position_y)
background_position_y = initial_background_position_y;
if (!background_size)
background_size = initial_background_size;
if (!background_repeat)
background_repeat = initial_background_repeat;
if (!background_attachment)
background_attachment = initial_background_attachment;
if (!background_origin && !background_clip) {
background_origin = initial_background_origin;
background_clip = initial_background_clip;
} else if (!background_clip) {
background_clip = background_origin;
}
transaction.commit();
return make_background_shorthand(
background_color.release_nonnull(),
background_image.release_nonnull(),
ShorthandStyleValue::create(PropertyID::BackgroundPosition,
{ PropertyID::BackgroundPositionX, PropertyID::BackgroundPositionY },
{ background_position_x.release_nonnull(), background_position_y.release_nonnull() }),
background_size.release_nonnull(),
background_repeat.release_nonnull(),
background_attachment.release_nonnull(),
background_origin.release_nonnull(),
background_clip.release_nonnull());
}
static Optional<LengthPercentage> style_value_to_length_percentage(auto value)
{
if (value->is_percentage())
return LengthPercentage { value->as_percentage().percentage() };
if (value->is_length())
return LengthPercentage { value->as_length().length() };
if (value->is_calculated())
return LengthPercentage { value->as_calculated() };
return {};
}
RefPtr<CSSStyleValue> Parser::parse_single_background_position_x_or_y_value(TokenStream<ComponentValue>& tokens, PropertyID property)
{
Optional<PositionEdge> relative_edge {};
auto transaction = tokens.begin_transaction();
if (!tokens.has_next_token())
return nullptr;
auto value = parse_css_value_for_property(property, tokens);
if (!value)
return nullptr;
if (value->is_keyword()) {
auto keyword = value->to_keyword();
if (keyword == Keyword::Center) {
transaction.commit();
return EdgeStyleValue::create(PositionEdge::Center, {});
}
if (auto edge = keyword_to_position_edge(keyword); edge.has_value()) {
relative_edge = edge;
} else {
return nullptr;
}
if (tokens.has_next_token()) {
value = parse_css_value_for_property(property, tokens);
if (!value) {
transaction.commit();
return EdgeStyleValue::create(relative_edge, {});
}
if (value->is_keyword())
return {};
}
}
auto offset = style_value_to_length_percentage(value);
if (offset.has_value()) {
transaction.commit();
return EdgeStyleValue::create(relative_edge, *offset);
}
if (!relative_edge.has_value()) {
if (property == PropertyID::BackgroundPositionX) {
// [ center | [ [ left | right | x-start | x-end ]? <length-percentage>? ]! ]#
relative_edge = PositionEdge::Left;
} else if (property == PropertyID::BackgroundPositionY) {
// [ center | [ [ top | bottom | y-start | y-end ]? <length-percentage>? ]! ]#
relative_edge = PositionEdge::Top;
} else {
VERIFY_NOT_REACHED();
}
}
// If no offset is provided create this element but with an offset of default value of zero
transaction.commit();
return EdgeStyleValue::create(relative_edge, {});
}
RefPtr<CSSStyleValue> Parser::parse_single_background_repeat_value(TokenStream<ComponentValue>& tokens)
{
auto transaction = tokens.begin_transaction();
auto is_directional_repeat = [](CSSStyleValue const& value) -> bool {
auto keyword = value.to_keyword();
return keyword == Keyword::RepeatX || keyword == Keyword::RepeatY;
};
auto as_repeat = [](Keyword keyword) -> Optional<Repeat> {
switch (keyword) {
case Keyword::NoRepeat:
return Repeat::NoRepeat;
case Keyword::Repeat:
return Repeat::Repeat;
case Keyword::Round:
return Repeat::Round;
case Keyword::Space:
return Repeat::Space;
default:
return {};
}
};
auto maybe_x_value = parse_css_value_for_property(PropertyID::BackgroundRepeat, tokens);
if (!maybe_x_value)
return nullptr;
auto x_value = maybe_x_value.release_nonnull();
if (is_directional_repeat(*x_value)) {
auto keyword = x_value->to_keyword();
transaction.commit();
return BackgroundRepeatStyleValue::create(
keyword == Keyword::RepeatX ? Repeat::Repeat : Repeat::NoRepeat,
keyword == Keyword::RepeatX ? Repeat::NoRepeat : Repeat::Repeat);
}
auto x_repeat = as_repeat(x_value->to_keyword());
if (!x_repeat.has_value())
return nullptr;
// See if we have a second value for Y
auto maybe_y_value = parse_css_value_for_property(PropertyID::BackgroundRepeat, tokens);
if (!maybe_y_value) {
// We don't have a second value, so use x for both
transaction.commit();
return BackgroundRepeatStyleValue::create(x_repeat.value(), x_repeat.value());
}
auto y_value = maybe_y_value.release_nonnull();
if (is_directional_repeat(*y_value))
return nullptr;
auto y_repeat = as_repeat(y_value->to_keyword());
if (!y_repeat.has_value())
return nullptr;
transaction.commit();
return BackgroundRepeatStyleValue::create(x_repeat.value(), y_repeat.value());
}
RefPtr<CSSStyleValue> Parser::parse_single_background_size_value(TokenStream<ComponentValue>& tokens)
{
auto transaction = tokens.begin_transaction();
auto get_length_percentage = [](CSSStyleValue& style_value) -> Optional<LengthPercentage> {
if (style_value.has_auto())
return LengthPercentage { Length::make_auto() };
if (style_value.is_percentage())
return LengthPercentage { style_value.as_percentage().percentage() };
if (style_value.is_length())
return LengthPercentage { style_value.as_length().length() };
if (style_value.is_calculated())
return LengthPercentage { style_value.as_calculated() };
return {};
};
auto maybe_x_value = parse_css_value_for_property(PropertyID::BackgroundSize, tokens);
if (!maybe_x_value)
return nullptr;
auto x_value = maybe_x_value.release_nonnull();
if (x_value->to_keyword() == Keyword::Cover || x_value->to_keyword() == Keyword::Contain) {
transaction.commit();
return x_value;
}
auto maybe_y_value = parse_css_value_for_property(PropertyID::BackgroundSize, tokens);
if (!maybe_y_value) {
auto y_value = LengthPercentage { Length::make_auto() };
auto x_size = get_length_percentage(*x_value);
if (!x_size.has_value())
return nullptr;
transaction.commit();
return BackgroundSizeStyleValue::create(x_size.value(), y_value);
}
auto y_value = maybe_y_value.release_nonnull();
auto x_size = get_length_percentage(*x_value);
auto y_size = get_length_percentage(*y_value);
if (!x_size.has_value() || !y_size.has_value())
return nullptr;
transaction.commit();
return BackgroundSizeStyleValue::create(x_size.release_value(), y_size.release_value());
}
RefPtr<CSSStyleValue> Parser::parse_border_value(PropertyID property_id, TokenStream<ComponentValue>& tokens)
{
RefPtr<CSSStyleValue> border_width;
RefPtr<CSSStyleValue> border_color;
RefPtr<CSSStyleValue> border_style;
auto color_property = PropertyID::Invalid;
auto style_property = PropertyID::Invalid;
auto width_property = PropertyID::Invalid;
switch (property_id) {
case PropertyID::Border:
color_property = PropertyID::BorderColor;
style_property = PropertyID::BorderStyle;
width_property = PropertyID::BorderWidth;
break;
case PropertyID::BorderBottom:
color_property = PropertyID::BorderBottomColor;
style_property = PropertyID::BorderBottomStyle;
width_property = PropertyID::BorderBottomWidth;
break;
case PropertyID::BorderLeft:
color_property = PropertyID::BorderLeftColor;
style_property = PropertyID::BorderLeftStyle;
width_property = PropertyID::BorderLeftWidth;
break;
case PropertyID::BorderRight:
color_property = PropertyID::BorderRightColor;
style_property = PropertyID::BorderRightStyle;
width_property = PropertyID::BorderRightWidth;
break;
case PropertyID::BorderTop:
color_property = PropertyID::BorderTopColor;
style_property = PropertyID::BorderTopStyle;
width_property = PropertyID::BorderTopWidth;
break;
default:
VERIFY_NOT_REACHED();
}
auto remaining_longhands = Vector { width_property, color_property, style_property };
auto transaction = tokens.begin_transaction();
while (tokens.has_next_token()) {
auto property_and_value = parse_css_value_for_properties(remaining_longhands, tokens);
if (!property_and_value.has_value())
return nullptr;
auto& value = property_and_value->style_value;
remove_property(remaining_longhands, property_and_value->property);
if (property_and_value->property == width_property) {
VERIFY(!border_width);
border_width = value.release_nonnull();
} else if (property_and_value->property == color_property) {
VERIFY(!border_color);
border_color = value.release_nonnull();
} else if (property_and_value->property == style_property) {
VERIFY(!border_style);
border_style = value.release_nonnull();
} else {
VERIFY_NOT_REACHED();
}
}
if (!border_width)
border_width = property_initial_value(width_property);
if (!border_style)
border_style = property_initial_value(style_property);
if (!border_color)
border_color = property_initial_value(color_property);
transaction.commit();
return ShorthandStyleValue::create(property_id,
{ width_property, style_property, color_property },
{ border_width.release_nonnull(), border_style.release_nonnull(), border_color.release_nonnull() });
}
RefPtr<CSSStyleValue> Parser::parse_border_radius_value(TokenStream<ComponentValue>& tokens)
{
if (tokens.remaining_token_count() == 2) {
auto transaction = tokens.begin_transaction();
auto horizontal = parse_length_percentage(tokens);
auto vertical = parse_length_percentage(tokens);
if (horizontal.has_value() && vertical.has_value()) {
transaction.commit();
return BorderRadiusStyleValue::create(horizontal.release_value(), vertical.release_value());
}
}
if (tokens.remaining_token_count() == 1) {
auto transaction = tokens.begin_transaction();
auto radius = parse_length_percentage(tokens);
if (radius.has_value()) {
transaction.commit();
return BorderRadiusStyleValue::create(radius.value(), radius.value());
}
}
return nullptr;
}
RefPtr<CSSStyleValue> Parser::parse_border_radius_shorthand_value(TokenStream<ComponentValue>& tokens)
{
auto top_left = [&](Vector<LengthPercentage>& radii) { return radii[0]; };
auto top_right = [&](Vector<LengthPercentage>& radii) {
switch (radii.size()) {
case 4:
case 3:
case 2:
return radii[1];
case 1:
return radii[0];
default:
VERIFY_NOT_REACHED();
}
};
auto bottom_right = [&](Vector<LengthPercentage>& radii) {
switch (radii.size()) {
case 4:
case 3:
return radii[2];
case 2:
case 1:
return radii[0];
default:
VERIFY_NOT_REACHED();
}
};
auto bottom_left = [&](Vector<LengthPercentage>& radii) {
switch (radii.size()) {
case 4:
return radii[3];
case 3:
case 2:
return radii[1];
case 1:
return radii[0];
default:
VERIFY_NOT_REACHED();
}
};
Vector<LengthPercentage> horizontal_radii;
Vector<LengthPercentage> vertical_radii;
bool reading_vertical = false;
auto transaction = tokens.begin_transaction();
while (tokens.has_next_token()) {
if (tokens.next_token().is_delim('/')) {
if (reading_vertical || horizontal_radii.is_empty())
return nullptr;
reading_vertical = true;
tokens.discard_a_token(); // `/`
continue;
}
auto maybe_dimension = parse_length_percentage(tokens);
if (!maybe_dimension.has_value())
return nullptr;
if (maybe_dimension->is_length() && !property_accepts_length(PropertyID::BorderRadius, maybe_dimension->length()))
return nullptr;
if (maybe_dimension->is_percentage() && !property_accepts_percentage(PropertyID::BorderRadius, maybe_dimension->percentage()))
return nullptr;
if (reading_vertical) {
vertical_radii.append(maybe_dimension.release_value());
} else {
horizontal_radii.append(maybe_dimension.release_value());
}
}
if (horizontal_radii.size() > 4 || vertical_radii.size() > 4
|| horizontal_radii.is_empty()
|| (reading_vertical && vertical_radii.is_empty()))
return nullptr;
auto top_left_radius = BorderRadiusStyleValue::create(top_left(horizontal_radii),
vertical_radii.is_empty() ? top_left(horizontal_radii) : top_left(vertical_radii));
auto top_right_radius = BorderRadiusStyleValue::create(top_right(horizontal_radii),
vertical_radii.is_empty() ? top_right(horizontal_radii) : top_right(vertical_radii));
auto bottom_right_radius = BorderRadiusStyleValue::create(bottom_right(horizontal_radii),
vertical_radii.is_empty() ? bottom_right(horizontal_radii) : bottom_right(vertical_radii));
auto bottom_left_radius = BorderRadiusStyleValue::create(bottom_left(horizontal_radii),
vertical_radii.is_empty() ? bottom_left(horizontal_radii) : bottom_left(vertical_radii));
transaction.commit();
return ShorthandStyleValue::create(PropertyID::BorderRadius,
{ PropertyID::BorderTopLeftRadius, PropertyID::BorderTopRightRadius, PropertyID::BorderBottomRightRadius, PropertyID::BorderBottomLeftRadius },
{ move(top_left_radius), move(top_right_radius), move(bottom_right_radius), move(bottom_left_radius) });
}
RefPtr<CSSStyleValue> Parser::parse_columns_value(TokenStream<ComponentValue>& tokens)
{
if (tokens.remaining_token_count() > 2)
return nullptr;
RefPtr<CSSStyleValue> column_count;
RefPtr<CSSStyleValue> column_width;
Vector<PropertyID> remaining_longhands { PropertyID::ColumnCount, PropertyID::ColumnWidth };
int found_autos = 0;
auto transaction = tokens.begin_transaction();
while (tokens.has_next_token()) {
auto property_and_value = parse_css_value_for_properties(remaining_longhands, tokens);
if (!property_and_value.has_value())
return nullptr;
auto& value = property_and_value->style_value;
// since the values can be in either order, we want to skip over autos
if (value->has_auto()) {
found_autos++;
continue;
}
remove_property(remaining_longhands, property_and_value->property);
switch (property_and_value->property) {
case PropertyID::ColumnCount: {
VERIFY(!column_count);
column_count = value.release_nonnull();
continue;
}
case PropertyID::ColumnWidth: {
VERIFY(!column_width);
column_width = value.release_nonnull();
continue;
}
default:
VERIFY_NOT_REACHED();
}
}
if (found_autos > 2)
return nullptr;
if (found_autos == 2) {
column_count = CSSKeywordValue::create(Keyword::Auto);
column_width = CSSKeywordValue::create(Keyword::Auto);
}
if (found_autos == 1) {
if (!column_count)
column_count = CSSKeywordValue::create(Keyword::Auto);
if (!column_width)
column_width = CSSKeywordValue::create(Keyword::Auto);
}
if (!column_count)
column_count = property_initial_value(PropertyID::ColumnCount);
if (!column_width)
column_width = property_initial_value(PropertyID::ColumnWidth);
transaction.commit();
return ShorthandStyleValue::create(PropertyID::Columns,
{ PropertyID::ColumnCount, PropertyID::ColumnWidth },
{ column_count.release_nonnull(), column_width.release_nonnull() });
}
RefPtr<CSSStyleValue> Parser::parse_shadow_value(TokenStream<ComponentValue>& tokens, AllowInsetKeyword allow_inset_keyword)
{
// "none"
if (auto none = parse_all_as_single_keyword_value(tokens, Keyword::None))
return none;
return parse_comma_separated_value_list(tokens, [this, allow_inset_keyword](auto& tokens) {
return parse_single_shadow_value(tokens, allow_inset_keyword);
});
}
RefPtr<CSSStyleValue> Parser::parse_single_shadow_value(TokenStream<ComponentValue>& tokens, AllowInsetKeyword allow_inset_keyword)
{
auto transaction = tokens.begin_transaction();
RefPtr<CSSStyleValue> color;
RefPtr<CSSStyleValue> offset_x;
RefPtr<CSSStyleValue> offset_y;
RefPtr<CSSStyleValue> blur_radius;
RefPtr<CSSStyleValue> spread_distance;
Optional<ShadowPlacement> placement;
auto possibly_dynamic_length = [&](ComponentValue const& token) -> RefPtr<CSSStyleValue> {
auto tokens = TokenStream<ComponentValue>::of_single_token(token);
auto maybe_length = parse_length(tokens);
if (!maybe_length.has_value())
return nullptr;
return maybe_length->as_style_value();
};
while (tokens.has_next_token()) {
if (auto maybe_color = parse_color_value(tokens); maybe_color) {
if (color)
return nullptr;
color = maybe_color.release_nonnull();
continue;
}
auto const& token = tokens.next_token();
if (auto maybe_offset_x = possibly_dynamic_length(token); maybe_offset_x) {
// horizontal offset
if (offset_x)
return nullptr;
offset_x = maybe_offset_x;
tokens.discard_a_token();
// vertical offset
if (!tokens.has_next_token())
return nullptr;
auto maybe_offset_y = possibly_dynamic_length(tokens.next_token());
if (!maybe_offset_y)
return nullptr;
offset_y = maybe_offset_y;
tokens.discard_a_token();
// blur radius (optional)
if (!tokens.has_next_token())
break;
auto maybe_blur_radius = possibly_dynamic_length(tokens.next_token());
if (!maybe_blur_radius)
continue;
blur_radius = maybe_blur_radius;
if (blur_radius->is_length() && blur_radius->as_length().length().raw_value() < 0)
return nullptr;
if (blur_radius->is_percentage() && blur_radius->as_percentage().value() < 0)
return nullptr;
tokens.discard_a_token();
// spread distance (optional)
if (!tokens.has_next_token())
break;
auto maybe_spread_distance = possibly_dynamic_length(tokens.next_token());
if (!maybe_spread_distance)
continue;
spread_distance = maybe_spread_distance;
tokens.discard_a_token();
continue;
}
if (allow_inset_keyword == AllowInsetKeyword::Yes && token.is_ident("inset"sv)) {
if (placement.has_value())
return nullptr;
placement = ShadowPlacement::Inner;
tokens.discard_a_token();
continue;
}
if (token.is(Token::Type::Comma))
break;
return nullptr;
}
// If color is absent, default to `currentColor`
if (!color)
color = CSSKeywordValue::create(Keyword::Currentcolor);
// x/y offsets are required
if (!offset_x || !offset_y)
return nullptr;
// Other lengths default to 0
if (!blur_radius)
blur_radius = LengthStyleValue::create(Length::make_px(0));
if (!spread_distance)
spread_distance = LengthStyleValue::create(Length::make_px(0));
// Placement is outer by default
if (!placement.has_value())
placement = ShadowPlacement::Outer;
transaction.commit();
return ShadowStyleValue::create(color.release_nonnull(), offset_x.release_nonnull(), offset_y.release_nonnull(), blur_radius.release_nonnull(), spread_distance.release_nonnull(), placement.release_value());
}
RefPtr<CSSStyleValue> Parser::parse_rotate_value(TokenStream<ComponentValue>& tokens)
{
// Value: none | <angle> | [ x | y | z | <number>{3} ] && <angle>
if (tokens.remaining_token_count() == 1) {
// "none"
if (auto none = parse_all_as_single_keyword_value(tokens, Keyword::None))
return none;
// <angle>
if (auto angle = parse_angle_value(tokens))
return TransformationStyleValue::create(PropertyID::Rotate, TransformFunction::Rotate, { angle.release_nonnull() });
}
auto parse_one_of_xyz = [&]() -> Optional<ComponentValue const&> {
auto transaction = tokens.begin_transaction();
auto const& axis = tokens.consume_a_token();
if (axis.is_ident("x"sv) || axis.is_ident("y"sv) || axis.is_ident("z"sv)) {
transaction.commit();
return axis;
}
return {};
};
// [ x | y | z ] && <angle>
if (tokens.remaining_token_count() == 2) {
// Try parsing `x <angle>`
if (auto axis = parse_one_of_xyz(); axis.has_value()) {
if (auto angle = parse_angle_value(tokens); angle) {
if (axis->is_ident("x"sv))
return TransformationStyleValue::create(PropertyID::Rotate, TransformFunction::RotateX, { angle.release_nonnull() });
if (axis->is_ident("y"sv))
return TransformationStyleValue::create(PropertyID::Rotate, TransformFunction::RotateY, { angle.release_nonnull() });
if (axis->is_ident("z"sv))
return TransformationStyleValue::create(PropertyID::Rotate, TransformFunction::RotateZ, { angle.release_nonnull() });
}
}
// Try parsing `<angle> x`
if (auto angle = parse_angle_value(tokens); angle) {
if (auto axis = parse_one_of_xyz(); axis.has_value()) {
if (axis->is_ident("x"sv))
return TransformationStyleValue::create(PropertyID::Rotate, TransformFunction::RotateX, { angle.release_nonnull() });
if (axis->is_ident("y"sv))
return TransformationStyleValue::create(PropertyID::Rotate, TransformFunction::RotateY, { angle.release_nonnull() });
if (axis->is_ident("z"sv))
return TransformationStyleValue::create(PropertyID::Rotate, TransformFunction::RotateZ, { angle.release_nonnull() });
}
}
}
auto parse_three_numbers = [&]() -> Optional<StyleValueVector> {
auto transaction = tokens.begin_transaction();
StyleValueVector numbers;
for (size_t i = 0; i < 3; ++i) {
if (auto number = parse_number_value(tokens); number) {
numbers.append(number.release_nonnull());
} else {
return {};
}
}
transaction.commit();
return numbers;
};
// <number>{3} && <angle>
if (tokens.remaining_token_count() == 4) {
// Try parsing <number>{3} <angle>
if (auto maybe_numbers = parse_three_numbers(); maybe_numbers.has_value()) {
if (auto angle = parse_angle_value(tokens); angle) {
auto numbers = maybe_numbers.release_value();
return TransformationStyleValue::create(PropertyID::Rotate, TransformFunction::Rotate3d, { numbers[0], numbers[1], numbers[2], angle.release_nonnull() });
}
}
// Try parsing <angle> <number>{3}
if (auto angle = parse_angle_value(tokens); angle) {
if (auto maybe_numbers = parse_three_numbers(); maybe_numbers.has_value()) {
auto numbers = maybe_numbers.release_value();
return TransformationStyleValue::create(PropertyID::Rotate, TransformFunction::Rotate3d, { numbers[0], numbers[1], numbers[2], angle.release_nonnull() });
}
}
}
return nullptr;
}
RefPtr<CSSStyleValue> Parser::parse_stroke_dasharray_value(TokenStream<ComponentValue>& tokens)
{
// https://svgwg.org/svg2-draft/painting.html#StrokeDashing
// Value: none | <dasharray>
if (auto none = parse_all_as_single_keyword_value(tokens, Keyword::None))
return none;
// https://svgwg.org/svg2-draft/painting.html#DataTypeDasharray
// <dasharray> = [ [ <length-percentage> | <number> ]+ ]#
Vector<ValueComparingNonnullRefPtr<CSSStyleValue const>> dashes;
while (tokens.has_next_token()) {
tokens.discard_whitespace();
// A <dasharray> is a list of comma and/or white space separated <number> or <length-percentage> values. A <number> value represents a value in user units.
auto value = parse_number_value(tokens);
if (value) {
dashes.append(value.release_nonnull());
} else {
auto value = parse_length_percentage_value(tokens);
if (!value)
return {};
dashes.append(value.release_nonnull());
}
tokens.discard_whitespace();
if (tokens.has_next_token() && tokens.next_token().is(Token::Type::Comma))
tokens.discard_a_token();
}
return StyleValueList::create(move(dashes), StyleValueList::Separator::Comma);
}
RefPtr<CSSStyleValue> Parser::parse_content_value(TokenStream<ComponentValue>& tokens)
{
// FIXME: `content` accepts several kinds of function() type, which we don't handle in property_accepts_value() yet.
auto is_single_value_keyword = [](Keyword keyword) -> bool {
switch (keyword) {
case Keyword::None:
case Keyword::Normal:
return true;
default:
return false;
}
};
if (tokens.remaining_token_count() == 1) {
auto transaction = tokens.begin_transaction();
if (auto keyword = parse_keyword_value(tokens)) {
if (is_single_value_keyword(keyword->to_keyword())) {
transaction.commit();
return keyword;
}
}
}
auto transaction = tokens.begin_transaction();
StyleValueVector content_values;
StyleValueVector alt_text_values;
bool in_alt_text = false;
while (tokens.has_next_token()) {
auto& next = tokens.next_token();
if (next.is_delim('/')) {
if (in_alt_text || content_values.is_empty())
return nullptr;
in_alt_text = true;
tokens.discard_a_token();
continue;
}
if (auto style_value = parse_css_value_for_property(PropertyID::Content, tokens)) {
if (is_single_value_keyword(style_value->to_keyword()))
return nullptr;
if (in_alt_text) {
alt_text_values.append(style_value.release_nonnull());
} else {
content_values.append(style_value.release_nonnull());
}
continue;
}
return nullptr;
}
if (content_values.is_empty())
return nullptr;
if (in_alt_text && alt_text_values.is_empty())
return nullptr;
RefPtr<StyleValueList> alt_text;
if (!alt_text_values.is_empty())
alt_text = StyleValueList::create(move(alt_text_values), StyleValueList::Separator::Space);
transaction.commit();
return ContentStyleValue::create(StyleValueList::create(move(content_values), StyleValueList::Separator::Space), move(alt_text));
}
// https://www.w3.org/TR/css-display-3/#the-display-properties
RefPtr<CSSStyleValue> Parser::parse_display_value(TokenStream<ComponentValue>& tokens)
{
auto parse_single_component_display = [this](TokenStream<ComponentValue>& tokens) -> Optional<Display> {
auto transaction = tokens.begin_transaction();
if (auto keyword_value = parse_keyword_value(tokens)) {
auto keyword = keyword_value->to_keyword();
if (keyword == Keyword::ListItem) {
transaction.commit();
return Display::from_short(Display::Short::ListItem);
}
if (auto display_outside = keyword_to_display_outside(keyword); display_outside.has_value()) {
transaction.commit();
switch (display_outside.value()) {
case DisplayOutside::Block:
return Display::from_short(Display::Short::Block);
case DisplayOutside::Inline:
return Display::from_short(Display::Short::Inline);
case DisplayOutside::RunIn:
return Display::from_short(Display::Short::RunIn);
}
}
if (auto display_inside = keyword_to_display_inside(keyword); display_inside.has_value()) {
transaction.commit();
switch (display_inside.value()) {
case DisplayInside::Flow:
return Display::from_short(Display::Short::Flow);
case DisplayInside::FlowRoot:
return Display::from_short(Display::Short::FlowRoot);
case DisplayInside::Table:
return Display::from_short(Display::Short::Table);
case DisplayInside::Flex:
return Display::from_short(Display::Short::Flex);
case DisplayInside::Grid:
return Display::from_short(Display::Short::Grid);
case DisplayInside::Ruby:
return Display::from_short(Display::Short::Ruby);
case DisplayInside::Math:
return Display::from_short(Display::Short::Math);
}
}
if (auto display_internal = keyword_to_display_internal(keyword); display_internal.has_value()) {
transaction.commit();
return Display { display_internal.value() };
}
if (auto display_box = keyword_to_display_box(keyword); display_box.has_value()) {
transaction.commit();
switch (display_box.value()) {
case DisplayBox::Contents:
return Display::from_short(Display::Short::Contents);
case DisplayBox::None:
return Display::from_short(Display::Short::None);
}
}
if (auto display_legacy = keyword_to_display_legacy(keyword); display_legacy.has_value()) {
transaction.commit();
switch (display_legacy.value()) {
case DisplayLegacy::InlineBlock:
return Display::from_short(Display::Short::InlineBlock);
case DisplayLegacy::InlineTable:
return Display::from_short(Display::Short::InlineTable);
case DisplayLegacy::InlineFlex:
return Display::from_short(Display::Short::InlineFlex);
case DisplayLegacy::InlineGrid:
return Display::from_short(Display::Short::InlineGrid);
}
}
}
return OptionalNone {};
};
auto parse_multi_component_display = [this](TokenStream<ComponentValue>& tokens) -> Optional<Display> {
auto list_item = Display::ListItem::No;
Optional<DisplayInside> inside;
Optional<DisplayOutside> outside;
auto transaction = tokens.begin_transaction();
while (tokens.has_next_token()) {
if (auto value = parse_keyword_value(tokens)) {
auto keyword = value->to_keyword();
if (keyword == Keyword::ListItem) {
if (list_item == Display::ListItem::Yes)
return {};
list_item = Display::ListItem::Yes;
continue;
}
if (auto inside_value = keyword_to_display_inside(keyword); inside_value.has_value()) {
if (inside.has_value())
return {};
inside = inside_value.value();
continue;
}
if (auto outside_value = keyword_to_display_outside(keyword); outside_value.has_value()) {
if (outside.has_value())
return {};
outside = outside_value.value();
continue;
}
}
// Not a display value, abort.
dbgln_if(CSS_PARSER_DEBUG, "Unrecognized display value: `{}`", tokens.next_token().to_string());
return {};
}
// The spec does not allow any other inside values to be combined with list-item
// <display-outside>? && [ flow | flow-root ]? && list-item
if (list_item == Display::ListItem::Yes && inside.has_value() && inside != DisplayInside::Flow && inside != DisplayInside::FlowRoot)
return {};
transaction.commit();
return Display { outside.value_or(DisplayOutside::Block), inside.value_or(DisplayInside::Flow), list_item };
};
Optional<Display> display;
if (tokens.remaining_token_count() == 1)
display = parse_single_component_display(tokens);
else
display = parse_multi_component_display(tokens);
if (display.has_value())
return DisplayStyleValue::create(display.value());
return nullptr;
}
RefPtr<CSSStyleValue> Parser::parse_flex_shorthand_value(TokenStream<ComponentValue>& tokens)
{
auto transaction = tokens.begin_transaction();
auto make_flex_shorthand = [&](NonnullRefPtr<CSSStyleValue> flex_grow, NonnullRefPtr<CSSStyleValue> flex_shrink, NonnullRefPtr<CSSStyleValue> flex_basis) {
transaction.commit();
return ShorthandStyleValue::create(PropertyID::Flex,
{ PropertyID::FlexGrow, PropertyID::FlexShrink, PropertyID::FlexBasis },
{ move(flex_grow), move(flex_shrink), move(flex_basis) });
};
if (tokens.remaining_token_count() == 1) {
// One-value syntax: <flex-grow> | <flex-basis> | none
auto properties = Array { PropertyID::FlexGrow, PropertyID::FlexBasis, PropertyID::Flex };
auto property_and_value = parse_css_value_for_properties(properties, tokens);
if (!property_and_value.has_value())
return nullptr;
auto& value = property_and_value->style_value;
switch (property_and_value->property) {
case PropertyID::FlexGrow: {
// NOTE: The spec says that flex-basis should be 0 here, but other engines currently use 0%.
// https://github.com/w3c/csswg-drafts/issues/5742
auto flex_basis = PercentageStyleValue::create(Percentage(0));
auto one = NumberStyleValue::create(1);
return make_flex_shorthand(*value, one, flex_basis);
}
case PropertyID::FlexBasis: {
auto one = NumberStyleValue::create(1);
return make_flex_shorthand(one, one, *value);
}
case PropertyID::Flex: {
if (value->is_keyword() && value->to_keyword() == Keyword::None) {
auto zero = NumberStyleValue::create(0);
return make_flex_shorthand(zero, zero, CSSKeywordValue::create(Keyword::Auto));
}
break;
}
default:
VERIFY_NOT_REACHED();
}
return nullptr;
}
RefPtr<CSSStyleValue> flex_grow;
RefPtr<CSSStyleValue> flex_shrink;
RefPtr<CSSStyleValue> flex_basis;
// NOTE: FlexGrow has to be before FlexBasis. `0` is a valid FlexBasis, but only
// if FlexGrow (along with optional FlexShrink) have already been specified.
auto remaining_longhands = Vector { PropertyID::FlexGrow, PropertyID::FlexBasis };
while (tokens.has_next_token()) {
auto property_and_value = parse_css_value_for_properties(remaining_longhands, tokens);
if (!property_and_value.has_value())
return nullptr;
auto& value = property_and_value->style_value;
remove_property(remaining_longhands, property_and_value->property);
switch (property_and_value->property) {
case PropertyID::FlexGrow: {
VERIFY(!flex_grow);
flex_grow = value.release_nonnull();
// Flex-shrink may optionally follow directly after.
auto maybe_flex_shrink = parse_css_value_for_property(PropertyID::FlexShrink, tokens);
if (maybe_flex_shrink)
flex_shrink = maybe_flex_shrink.release_nonnull();
continue;
}
case PropertyID::FlexBasis: {
VERIFY(!flex_basis);
flex_basis = value.release_nonnull();
continue;
}
default:
VERIFY_NOT_REACHED();
}
}
if (!flex_grow)
flex_grow = property_initial_value(PropertyID::FlexGrow);
if (!flex_shrink)
flex_shrink = property_initial_value(PropertyID::FlexShrink);
if (!flex_basis) {
// NOTE: The spec says that flex-basis should be 0 here, but other engines currently use 0%.
// https://github.com/w3c/csswg-drafts/issues/5742
flex_basis = PercentageStyleValue::create(Percentage(0));
}
return make_flex_shorthand(flex_grow.release_nonnull(), flex_shrink.release_nonnull(), flex_basis.release_nonnull());
}
RefPtr<CSSStyleValue> Parser::parse_flex_flow_value(TokenStream<ComponentValue>& tokens)
{
RefPtr<CSSStyleValue> flex_direction;
RefPtr<CSSStyleValue> flex_wrap;
auto remaining_longhands = Vector { PropertyID::FlexDirection, PropertyID::FlexWrap };
auto transaction = tokens.begin_transaction();
while (tokens.has_next_token()) {
auto property_and_value = parse_css_value_for_properties(remaining_longhands, tokens);
if (!property_and_value.has_value())
return nullptr;
auto& value = property_and_value->style_value;
remove_property(remaining_longhands, property_and_value->property);
switch (property_and_value->property) {
case PropertyID::FlexDirection:
VERIFY(!flex_direction);
flex_direction = value.release_nonnull();
continue;
case PropertyID::FlexWrap:
VERIFY(!flex_wrap);
flex_wrap = value.release_nonnull();
continue;
default:
VERIFY_NOT_REACHED();
}
}
if (!flex_direction)
flex_direction = property_initial_value(PropertyID::FlexDirection);
if (!flex_wrap)
flex_wrap = property_initial_value(PropertyID::FlexWrap);
transaction.commit();
return ShorthandStyleValue::create(PropertyID::FlexFlow,
{ PropertyID::FlexDirection, PropertyID::FlexWrap },
{ flex_direction.release_nonnull(), flex_wrap.release_nonnull() });
}
RefPtr<CSSStyleValue> Parser::parse_font_value(TokenStream<ComponentValue>& tokens)
{
RefPtr<CSSStyleValue> font_width;
RefPtr<CSSStyleValue> font_style;
RefPtr<CSSStyleValue> font_weight;
RefPtr<CSSStyleValue> font_size;
RefPtr<CSSStyleValue> line_height;
RefPtr<CSSStyleValue> font_families;
RefPtr<CSSStyleValue> font_variant;
// FIXME: Handle system fonts. (caption, icon, menu, message-box, small-caption, status-bar)
// Several sub-properties can be "normal", and appear in any order: style, variant, weight, stretch
// So, we have to handle that separately.
int normal_count = 0;
// FIXME: `font-variant` allows a lot of different values which aren't allowed in the `font` shorthand.
// FIXME: `font-width` allows <percentage> values, which aren't allowed in the `font` shorthand.
auto remaining_longhands = Vector { PropertyID::FontSize, PropertyID::FontStyle, PropertyID::FontVariant, PropertyID::FontWeight, PropertyID::FontWidth };
auto transaction = tokens.begin_transaction();
while (tokens.has_next_token()) {
auto& peek_token = tokens.next_token();
if (peek_token.is_ident("normal"sv)) {
normal_count++;
tokens.discard_a_token();
continue;
}
auto property_and_value = parse_css_value_for_properties(remaining_longhands, tokens);
if (!property_and_value.has_value())
return nullptr;
auto& value = property_and_value->style_value;
remove_property(remaining_longhands, property_and_value->property);
switch (property_and_value->property) {
case PropertyID::FontSize: {
VERIFY(!font_size);
font_size = value.release_nonnull();
// Consume `/ line-height` if present
if (tokens.next_token().is_delim('/')) {
tokens.discard_a_token();
auto maybe_line_height = parse_css_value_for_property(PropertyID::LineHeight, tokens);
if (!maybe_line_height)
return nullptr;
line_height = maybe_line_height.release_nonnull();
}
// Consume font-families
auto maybe_font_families = parse_font_family_value(tokens);
// font-family comes last, so we must not have any tokens left over.
if (!maybe_font_families || tokens.has_next_token())
return nullptr;
font_families = maybe_font_families.release_nonnull();
continue;
}
case PropertyID::FontWidth: {
VERIFY(!font_width);
font_width = value.release_nonnull();
continue;
}
case PropertyID::FontStyle: {
VERIFY(!font_style);
font_style = value.release_nonnull();
continue;
}
case PropertyID::FontVariant: {
VERIFY(!font_variant);
font_variant = value.release_nonnull();
continue;
}
case PropertyID::FontWeight: {
VERIFY(!font_weight);
font_weight = value.release_nonnull();
continue;
}
default:
VERIFY_NOT_REACHED();
}
return nullptr;
}
// Since normal is the default value for all the properties that can have it, we don't have to actually
// set anything to normal here. It'll be set when we create the ShorthandStyleValue below.
// We just need to make sure we were not given more normals than will fit.
int unset_value_count = (font_style ? 0 : 1) + (font_weight ? 0 : 1) + (font_variant ? 0 : 1) + (font_width ? 0 : 1);
if (unset_value_count < normal_count)
return nullptr;
if (!font_size || !font_families)
return nullptr;
if (!font_style)
font_style = property_initial_value(PropertyID::FontStyle);
if (!font_variant)
font_variant = property_initial_value(PropertyID::FontVariant);
if (!font_weight)
font_weight = property_initial_value(PropertyID::FontWeight);
if (!font_width)
font_width = property_initial_value(PropertyID::FontWidth);
if (!line_height)
line_height = property_initial_value(PropertyID::LineHeight);
transaction.commit();
auto initial_value = CSSKeywordValue::create(Keyword::Initial);
return ShorthandStyleValue::create(PropertyID::Font,
{
// Set explicitly https://drafts.csswg.org/css-fonts/#set-explicitly
PropertyID::FontFamily,
PropertyID::FontSize,
PropertyID::FontWidth,
// FIXME: PropertyID::FontStretch
PropertyID::FontStyle,
PropertyID::FontVariant,
PropertyID::FontWeight,
PropertyID::LineHeight,
// Reset implicitly https://drafts.csswg.org/css-fonts/#reset-implicitly
PropertyID::FontFeatureSettings,
// FIXME: PropertyID::FontKerning,
PropertyID::FontLanguageOverride,
// FIXME: PropertyID::FontOpticalSizing,
// FIXME: PropertyID::FontSizeAdjust,
PropertyID::FontVariantAlternates,
PropertyID::FontVariantCaps,
PropertyID::FontVariantEastAsian,
PropertyID::FontVariantEmoji,
PropertyID::FontVariantLigatures,
PropertyID::FontVariantNumeric,
PropertyID::FontVariantPosition,
PropertyID::FontVariationSettings,
},
{
// Set explicitly
font_families.release_nonnull(),
font_size.release_nonnull(),
font_width.release_nonnull(),
// FIXME: font-stretch
font_style.release_nonnull(),
font_variant.release_nonnull(),
font_weight.release_nonnull(),
line_height.release_nonnull(),
// Reset implicitly
initial_value, // font-feature-settings
// FIXME: font-kerning,
initial_value, // font-language-override
// FIXME: font-optical-sizing,
// FIXME: font-size-adjust,
initial_value, // font-variant-alternates
initial_value, // font-variant-caps
initial_value, // font-variant-east-asian
initial_value, // font-variant-emoji
initial_value, // font-variant-ligatures
initial_value, // font-variant-numeric
initial_value, // font-variant-position
initial_value, // font-variation-settings
});
}
RefPtr<CSSStyleValue> Parser::parse_font_family_value(TokenStream<ComponentValue>& tokens)
{
auto next_is_comma_or_eof = [&]() -> bool {
return !tokens.has_next_token() || tokens.next_token().is(Token::Type::Comma);
};
// Note: Font-family names can either be a quoted string, or a keyword, or a series of custom-idents.
// eg, these are equivalent:
// font-family: my cool font\!, serif;
// font-family: "my cool font!", serif;
StyleValueVector font_families;
Vector<String> current_name_parts;
while (tokens.has_next_token()) {
auto const& peek = tokens.next_token();
if (peek.is(Token::Type::String)) {
// `font-family: my cool "font";` is invalid.
if (!current_name_parts.is_empty())
return nullptr;
tokens.discard_a_token(); // String
if (!next_is_comma_or_eof())
return nullptr;
font_families.append(StringStyleValue::create(peek.token().string()));
tokens.discard_a_token(); // Comma
continue;
}
if (peek.is(Token::Type::Ident)) {
// If this is a valid identifier, it's NOT a custom-ident and can't be part of a larger name.
// CSS-wide keywords are not allowed
if (auto builtin = parse_builtin_value(tokens))
return nullptr;
auto maybe_keyword = keyword_from_string(peek.token().ident());
// Can't have a generic-font-name as a token in an unquoted font name.
if (maybe_keyword.has_value() && keyword_to_generic_font_family(maybe_keyword.value()).has_value()) {
if (!current_name_parts.is_empty())
return nullptr;
tokens.discard_a_token(); // Ident
if (!next_is_comma_or_eof())
return nullptr;
font_families.append(CSSKeywordValue::create(maybe_keyword.value()));
tokens.discard_a_token(); // Comma
continue;
}
current_name_parts.append(tokens.consume_a_token().token().ident().to_string());
continue;
}
if (peek.is(Token::Type::Comma)) {
if (current_name_parts.is_empty())
return nullptr;
tokens.discard_a_token(); // Comma
// This is really a series of custom-idents, not just one. But for the sake of simplicity we'll make it one.
font_families.append(CustomIdentStyleValue::create(MUST(String::join(' ', current_name_parts))));
current_name_parts.clear();
// Can't have a trailing comma
if (!tokens.has_next_token())
return nullptr;
continue;
}
return nullptr;
}
if (!current_name_parts.is_empty()) {
// This is really a series of custom-idents, not just one. But for the sake of simplicity we'll make it one.
font_families.append(CustomIdentStyleValue::create(MUST(String::join(' ', current_name_parts))));
current_name_parts.clear();
}
if (font_families.is_empty())
return nullptr;
return StyleValueList::create(move(font_families), StyleValueList::Separator::Comma);
}
RefPtr<CSSStyleValue> Parser::parse_font_language_override_value(TokenStream<ComponentValue>& tokens)
{
// https://drafts.csswg.org/css-fonts/#propdef-font-language-override
// This is `normal | <string>` but with the constraint that the string has to be 4 characters long:
// Shorter strings are right-padded with spaces, and longer strings are invalid.
if (auto normal = parse_all_as_single_keyword_value(tokens, Keyword::Normal))
return normal;
auto transaction = tokens.begin_transaction();
tokens.discard_whitespace();
if (auto string = parse_string_value(tokens)) {
auto string_value = string->string_value();
tokens.discard_whitespace();
if (tokens.has_next_token()) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: Failed to parse font-language-override: unexpected trailing tokens");
return nullptr;
}
auto length = string_value.code_points().length();
if (length > 4) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: Failed to parse font-language-override: <string> value \"{}\" is too long", string_value);
return nullptr;
}
transaction.commit();
if (length < 4)
return StringStyleValue::create(MUST(String::formatted("{:<4}", string_value)));
return string;
}
return nullptr;
}
RefPtr<CSSStyleValue> Parser::parse_font_feature_settings_value(TokenStream<ComponentValue>& tokens)
{
// https://drafts.csswg.org/css-fonts/#propdef-font-feature-settings
// normal | <feature-tag-value>#
// normal
if (auto normal = parse_all_as_single_keyword_value(tokens, Keyword::Normal))
return normal;
// <feature-tag-value>#
auto transaction = tokens.begin_transaction();
auto tag_values = parse_a_comma_separated_list_of_component_values(tokens);
// "The computed value of font-feature-settings is a map, so any duplicates in the specified value must not be preserved.
// If the same feature tag appears more than once, the value associated with the last appearance supersedes any previous
// value for that axis."
// So, we deduplicate them here using a HashSet.
OrderedHashMap<FlyString, NonnullRefPtr<OpenTypeTaggedStyleValue>> feature_tags_map;
for (auto const& values : tag_values) {
// <feature-tag-value> = <opentype-tag> [ <integer [0,∞]> | on | off ]?
TokenStream tag_tokens { values };
tag_tokens.discard_whitespace();
auto opentype_tag = parse_opentype_tag_value(tag_tokens);
tag_tokens.discard_whitespace();
RefPtr<CSSStyleValue> value;
if (tag_tokens.has_next_token()) {
if (auto integer = parse_integer_value(tag_tokens)) {
if (integer->is_integer() && integer->as_integer().value() < 0)
return nullptr;
value = integer;
} else {
// A value of on is synonymous with 1 and off is synonymous with 0.
auto keyword = parse_keyword_value(tag_tokens);
if (!keyword)
return nullptr;
switch (keyword->to_keyword()) {
case Keyword::On:
value = IntegerStyleValue::create(1);
break;
case Keyword::Off:
value = IntegerStyleValue::create(0);
break;
default:
return nullptr;
}
}
tag_tokens.discard_whitespace();
} else {
// "If the value is omitted, a value of 1 is assumed."
value = IntegerStyleValue::create(1);
}
if (!opentype_tag || !value || tag_tokens.has_next_token())
return nullptr;
feature_tags_map.set(opentype_tag->string_value(), OpenTypeTaggedStyleValue::create(opentype_tag->string_value(), value.release_nonnull()));
}
// "The computed value contains the de-duplicated feature tags, sorted in ascending order by code unit."
StyleValueVector feature_tags;
feature_tags.ensure_capacity(feature_tags_map.size());
for (auto const& [key, feature_tag] : feature_tags_map)
feature_tags.append(feature_tag);
quick_sort(feature_tags, [](auto& a, auto& b) {
return a->as_open_type_tagged().tag() < b->as_open_type_tagged().tag();
});
transaction.commit();
return StyleValueList::create(move(feature_tags), StyleValueList::Separator::Comma);
}
RefPtr<CSSStyleValue> Parser::parse_font_variation_settings_value(TokenStream<ComponentValue>& tokens)
{
// https://drafts.csswg.org/css-fonts/#propdef-font-variation-settings
// normal | [ <opentype-tag> <number>]#
// normal
if (auto normal = parse_all_as_single_keyword_value(tokens, Keyword::Normal))
return normal;
// [ <opentype-tag> <number>]#
auto transaction = tokens.begin_transaction();
auto tag_values = parse_a_comma_separated_list_of_component_values(tokens);
// "If the same axis name appears more than once, the value associated with the last appearance supersedes any
// previous value for that axis. This deduplication is observable by accessing the computed value of this property."
// So, we deduplicate them here using a HashSet.
OrderedHashMap<FlyString, NonnullRefPtr<OpenTypeTaggedStyleValue>> axis_tags_map;
for (auto const& values : tag_values) {
TokenStream tag_tokens { values };
tag_tokens.discard_whitespace();
auto opentype_tag = parse_opentype_tag_value(tag_tokens);
tag_tokens.discard_whitespace();
auto number = parse_number_value(tag_tokens);
tag_tokens.discard_whitespace();
if (!opentype_tag || !number || tag_tokens.has_next_token())
return nullptr;
axis_tags_map.set(opentype_tag->string_value(), OpenTypeTaggedStyleValue::create(opentype_tag->string_value(), number.release_nonnull()));
}
// "The computed value contains the de-duplicated axis names, sorted in ascending order by code unit."
StyleValueVector axis_tags;
axis_tags.ensure_capacity(axis_tags_map.size());
for (auto const& [key, axis_tag] : axis_tags_map)
axis_tags.append(axis_tag);
quick_sort(axis_tags, [](auto& a, auto& b) {
return a->as_open_type_tagged().tag() < b->as_open_type_tagged().tag();
});
transaction.commit();
return StyleValueList::create(move(axis_tags), StyleValueList::Separator::Comma);
}
RefPtr<CSSStyleValue> Parser::parse_font_variant(TokenStream<ComponentValue>& tokens)
{
// 6.11 https://drafts.csswg.org/css-fonts/#propdef-font-variant
// normal | none |
// [ [ <common-lig-values> || <discretionary-lig-values> || <historical-lig-values> || <contextual-alt-values> ]
// || [ small-caps | all-small-caps | petite-caps | all-petite-caps | unicase | titling-caps ] ||
// [ FIXME: stylistic(<feature-value-name>) ||
// historical-forms ||
// FIXME: styleset(<feature-value-name>#) ||
// FIXME: character-variant(<feature-value-name>#) ||
// FIXME: swash(<feature-value-name>) ||
// FIXME: ornaments(<feature-value-name>) ||
// FIXME: annotation(<feature-value-name>) ] ||
// [ <numeric-figure-values> || <numeric-spacing-values> || <numeric-fraction-values> ||
// ordinal || slashed-zero ] || [ <east-asian-variant-values> || <east-asian-width-values> || ruby ] ||
// [ sub | super ] || [ text | emoji | unicode ] ]
bool has_common_ligatures = false;
bool has_discretionary_ligatures = false;
bool has_historical_ligatures = false;
bool has_contextual = false;
bool has_numeric_figures = false;
bool has_numeric_spacing = false;
bool has_numeric_fractions = false;
bool has_numeric_ordinals = false;
bool has_numeric_slashed_zero = false;
bool has_east_asian_variant = false;
bool has_east_asian_width = false;
bool has_east_asian_ruby = false;
RefPtr<CSSStyleValue> alternates_value {};
RefPtr<CSSStyleValue> caps_value {};
RefPtr<CSSStyleValue> emoji_value {};
RefPtr<CSSStyleValue> position_value {};
StyleValueVector east_asian_values;
StyleValueVector ligatures_values;
StyleValueVector numeric_values;
if (auto parsed_value = parse_all_as_single_keyword_value(tokens, Keyword::Normal)) {
// normal, do nothing
} else if (auto parsed_value = parse_all_as_single_keyword_value(tokens, Keyword::None)) {
// none
ligatures_values.append(parsed_value.release_nonnull());
} else {
while (tokens.has_next_token()) {
auto maybe_value = parse_keyword_value(tokens);
if (!maybe_value)
break;
auto value = maybe_value.release_nonnull();
if (!value->is_keyword()) {
// FIXME: alternate functions such as stylistic()
return nullptr;
}
auto keyword = value->to_keyword();
switch (keyword) {
// <common-lig-values> = [ common-ligatures | no-common-ligatures ]
case Keyword::CommonLigatures:
case Keyword::NoCommonLigatures:
if (has_common_ligatures)
return nullptr;
ligatures_values.append(move(value));
has_common_ligatures = true;
break;
// <discretionary-lig-values> = [ discretionary-ligatures | no-discretionary-ligatures ]
case Keyword::DiscretionaryLigatures:
case Keyword::NoDiscretionaryLigatures:
if (has_discretionary_ligatures)
return nullptr;
ligatures_values.append(move(value));
has_discretionary_ligatures = true;
break;
// <historical-lig-values> = [ historical-ligatures | no-historical-ligatures ]
case Keyword::HistoricalLigatures:
case Keyword::NoHistoricalLigatures:
if (has_historical_ligatures)
return nullptr;
ligatures_values.append(move(value));
has_historical_ligatures = true;
break;
// <contextual-alt-values> = [ contextual | no-contextual ]
case Keyword::Contextual:
case Keyword::NoContextual:
if (has_contextual)
return nullptr;
ligatures_values.append(move(value));
has_contextual = true;
break;
// historical-forms
case Keyword::HistoricalForms:
if (alternates_value != nullptr)
return nullptr;
alternates_value = value.ptr();
break;
// [ small-caps | all-small-caps | petite-caps | all-petite-caps | unicase | titling-caps ]
case Keyword::SmallCaps:
case Keyword::AllSmallCaps:
case Keyword::PetiteCaps:
case Keyword::AllPetiteCaps:
case Keyword::Unicase:
case Keyword::TitlingCaps:
if (caps_value != nullptr)
return nullptr;
caps_value = value.ptr();
break;
// <numeric-figure-values> = [ lining-nums | oldstyle-nums ]
case Keyword::LiningNums:
case Keyword::OldstyleNums:
if (has_numeric_figures)
return nullptr;
numeric_values.append(move(value));
has_numeric_figures = true;
break;
// <numeric-spacing-values> = [ proportional-nums | tabular-nums ]
case Keyword::ProportionalNums:
case Keyword::TabularNums:
if (has_numeric_spacing)
return nullptr;
numeric_values.append(move(value));
has_numeric_spacing = true;
break;
// <numeric-fraction-values> = [ diagonal-fractions | stacked-fractions]
case Keyword::DiagonalFractions:
case Keyword::StackedFractions:
if (has_numeric_fractions)
return nullptr;
numeric_values.append(move(value));
has_numeric_fractions = true;
break;
// ordinal
case Keyword::Ordinal:
if (has_numeric_ordinals)
return nullptr;
numeric_values.append(move(value));
has_numeric_ordinals = true;
break;
case Keyword::SlashedZero:
if (has_numeric_slashed_zero)
return nullptr;
numeric_values.append(move(value));
has_numeric_slashed_zero = true;
break;
// <east-asian-variant-values> = [ jis78 | jis83 | jis90 | jis04 | simplified | traditional ]
case Keyword::Jis78:
case Keyword::Jis83:
case Keyword::Jis90:
case Keyword::Jis04:
case Keyword::Simplified:
case Keyword::Traditional:
if (has_east_asian_variant)
return nullptr;
east_asian_values.append(move(value));
has_east_asian_variant = true;
break;
// <east-asian-width-values> = [ full-width | proportional-width ]
case Keyword::FullWidth:
case Keyword::ProportionalWidth:
if (has_east_asian_width)
return nullptr;
east_asian_values.append(move(value));
has_east_asian_width = true;
break;
// ruby
case Keyword::Ruby:
if (has_east_asian_ruby)
return nullptr;
east_asian_values.append(move(value));
has_east_asian_ruby = true;
break;
// text | emoji | unicode
case Keyword::Text:
case Keyword::Emoji:
case Keyword::Unicode:
if (emoji_value != nullptr)
return nullptr;
emoji_value = value.ptr();
break;
// sub | super
case Keyword::Sub:
case Keyword::Super:
if (position_value != nullptr)
return nullptr;
position_value = value.ptr();
break;
default:
break;
}
}
}
auto normal_value = CSSKeywordValue::create(Keyword::Normal);
auto resolve_list = [&normal_value](StyleValueVector values) -> NonnullRefPtr<CSSStyleValue> {
if (values.is_empty())
return normal_value;
if (values.size() == 1)
return *values.first();
return StyleValueList::create(move(values), StyleValueList::Separator::Space);
};
if (!alternates_value)
alternates_value = normal_value;
if (!caps_value)
caps_value = normal_value;
if (!emoji_value)
emoji_value = normal_value;
if (!position_value)
position_value = normal_value;
quick_sort(east_asian_values, [](auto& left, auto& right) { return *keyword_to_font_variant_east_asian(left->to_keyword()) < *keyword_to_font_variant_east_asian(right->to_keyword()); });
auto east_asian_value = resolve_list(east_asian_values);
quick_sort(ligatures_values, [](auto& left, auto& right) { return *keyword_to_font_variant_ligatures(left->to_keyword()) < *keyword_to_font_variant_ligatures(right->to_keyword()); });
auto ligatures_value = resolve_list(ligatures_values);
quick_sort(numeric_values, [](auto& left, auto& right) { return *keyword_to_font_variant_numeric(left->to_keyword()) < *keyword_to_font_variant_numeric(right->to_keyword()); });
auto numeric_value = resolve_list(numeric_values);
return ShorthandStyleValue::create(PropertyID::FontVariant,
{ PropertyID::FontVariantAlternates,
PropertyID::FontVariantCaps,
PropertyID::FontVariantEastAsian,
PropertyID::FontVariantEmoji,
PropertyID::FontVariantLigatures,
PropertyID::FontVariantNumeric,
PropertyID::FontVariantPosition },
{
alternates_value.release_nonnull(),
caps_value.release_nonnull(),
move(east_asian_value),
emoji_value.release_nonnull(),
move(ligatures_value),
move(numeric_value),
position_value.release_nonnull(),
});
}
RefPtr<CSSStyleValue> Parser::parse_font_variant_alternates_value(TokenStream<ComponentValue>& tokens)
{
// 6.8 https://drafts.csswg.org/css-fonts/#font-variant-alternates-prop
// normal |
// [ FIXME: stylistic(<feature-value-name>) ||
// historical-forms ||
// FIXME: styleset(<feature-value-name>#) ||
// FIXME: character-variant(<feature-value-name>#) ||
// FIXME: swash(<feature-value-name>) ||
// FIXME: ornaments(<feature-value-name>) ||
// FIXME: annotation(<feature-value-name>) ]
// normal
if (auto normal = parse_all_as_single_keyword_value(tokens, Keyword::Normal))
return normal;
// historical-forms
// FIXME: Support this together with other values when we parse them.
if (auto historical_forms = parse_all_as_single_keyword_value(tokens, Keyword::HistoricalForms))
return historical_forms;
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: @font-variant-alternate: parsing {} not implemented.", tokens.next_token().to_debug_string());
return nullptr;
}
RefPtr<CSSStyleValue> Parser::parse_font_variant_east_asian_value(TokenStream<ComponentValue>& tokens)
{
// 6.10 https://drafts.csswg.org/css-fonts/#propdef-font-variant-east-asian
// normal | [ <east-asian-variant-values> || <east-asian-width-values> || ruby ]
// <east-asian-variant-values> = [ jis78 | jis83 | jis90 | jis04 | simplified | traditional ]
// <east-asian-width-values> = [ full-width | proportional-width ]
// normal
if (auto normal = parse_all_as_single_keyword_value(tokens, Keyword::Normal))
return normal.release_nonnull();
// [ <east-asian-variant-values> || <east-asian-width-values> || ruby ]
RefPtr<CSSStyleValue> ruby_value;
RefPtr<CSSStyleValue> variant_value;
RefPtr<CSSStyleValue> width_value;
while (tokens.has_next_token()) {
auto maybe_value = parse_keyword_value(tokens);
if (!maybe_value)
break;
auto font_variant_east_asian = keyword_to_font_variant_east_asian(maybe_value->to_keyword());
if (!font_variant_east_asian.has_value())
return nullptr;
switch (font_variant_east_asian.value()) {
case FontVariantEastAsian::Ruby:
if (ruby_value)
return nullptr;
ruby_value = maybe_value.release_nonnull();
break;
case FontVariantEastAsian::FullWidth:
case FontVariantEastAsian::ProportionalWidth:
if (width_value)
return nullptr;
width_value = maybe_value.release_nonnull();
break;
case FontVariantEastAsian::Jis78:
case FontVariantEastAsian::Jis83:
case FontVariantEastAsian::Jis90:
case FontVariantEastAsian::Jis04:
case FontVariantEastAsian::Simplified:
case FontVariantEastAsian::Traditional:
if (variant_value)
return nullptr;
variant_value = maybe_value.release_nonnull();
break;
case FontVariantEastAsian::Normal:
return nullptr;
}
}
StyleValueVector values;
if (variant_value)
values.append(variant_value.release_nonnull());
if (width_value)
values.append(width_value.release_nonnull());
if (ruby_value)
values.append(ruby_value.release_nonnull());
if (values.is_empty())
return nullptr;
if (values.size() == 1)
return *values.first();
return StyleValueList::create(move(values), StyleValueList::Separator::Space);
}
RefPtr<CSSStyleValue> Parser::parse_font_variant_ligatures_value(TokenStream<ComponentValue>& tokens)
{
// 6.4 https://drafts.csswg.org/css-fonts/#propdef-font-variant-ligatures
// normal | none | [ <common-lig-values> || <discretionary-lig-values> || <historical-lig-values> || <contextual-alt-values> ]
// <common-lig-values> = [ common-ligatures | no-common-ligatures ]
// <discretionary-lig-values> = [ discretionary-ligatures | no-discretionary-ligatures ]
// <historical-lig-values> = [ historical-ligatures | no-historical-ligatures ]
// <contextual-alt-values> = [ contextual | no-contextual ]
// normal
if (auto normal = parse_all_as_single_keyword_value(tokens, Keyword::Normal))
return normal.release_nonnull();
// none
if (auto none = parse_all_as_single_keyword_value(tokens, Keyword::None))
return none.release_nonnull();
// [ <common-lig-values> || <discretionary-lig-values> || <historical-lig-values> || <contextual-alt-values> ]
RefPtr<CSSStyleValue> common_ligatures_value;
RefPtr<CSSStyleValue> discretionary_ligatures_value;
RefPtr<CSSStyleValue> historical_ligatures_value;
RefPtr<CSSStyleValue> contextual_value;
while (tokens.has_next_token()) {
auto maybe_value = parse_keyword_value(tokens);
if (!maybe_value)
break;
auto font_variant_ligatures = keyword_to_font_variant_ligatures(maybe_value->to_keyword());
if (!font_variant_ligatures.has_value())
return nullptr;
switch (font_variant_ligatures.value()) {
// <common-lig-values> = [ common-ligatures | no-common-ligatures ]
case FontVariantLigatures::CommonLigatures:
case FontVariantLigatures::NoCommonLigatures:
if (common_ligatures_value)
return nullptr;
common_ligatures_value = maybe_value.release_nonnull();
break;
// <discretionary-lig-values> = [ discretionary-ligatures | no-discretionary-ligatures ]
case FontVariantLigatures::DiscretionaryLigatures:
case FontVariantLigatures::NoDiscretionaryLigatures:
if (discretionary_ligatures_value)
return nullptr;
discretionary_ligatures_value = maybe_value.release_nonnull();
break;
// <historical-lig-values> = [ historical-ligatures | no-historical-ligatures ]
case FontVariantLigatures::HistoricalLigatures:
case FontVariantLigatures::NoHistoricalLigatures:
if (historical_ligatures_value)
return nullptr;
historical_ligatures_value = maybe_value.release_nonnull();
break;
// <contextual-alt-values> = [ contextual | no-contextual ]
case FontVariantLigatures::Contextual:
case FontVariantLigatures::NoContextual:
if (contextual_value)
return nullptr;
contextual_value = maybe_value.release_nonnull();
break;
case FontVariantLigatures::Normal:
case FontVariantLigatures::None:
return nullptr;
}
}
StyleValueVector values;
if (common_ligatures_value)
values.append(common_ligatures_value.release_nonnull());
if (discretionary_ligatures_value)
values.append(discretionary_ligatures_value.release_nonnull());
if (historical_ligatures_value)
values.append(historical_ligatures_value.release_nonnull());
if (contextual_value)
values.append(contextual_value.release_nonnull());
if (values.is_empty())
return nullptr;
if (values.size() == 1)
return *values.first();
return StyleValueList::create(move(values), StyleValueList::Separator::Space);
}
RefPtr<CSSStyleValue> Parser::parse_font_variant_numeric_value(TokenStream<ComponentValue>& tokens)
{
// 6.7 https://drafts.csswg.org/css-fonts/#propdef-font-variant-numeric
// normal | [ <numeric-figure-values> || <numeric-spacing-values> || <numeric-fraction-values> || ordinal || slashed-zero]
// <numeric-figure-values> = [ lining-nums | oldstyle-nums ]
// <numeric-spacing-values> = [ proportional-nums | tabular-nums ]
// <numeric-fraction-values> = [ diagonal-fractions | stacked-fractions ]
// normal
if (auto normal = parse_all_as_single_keyword_value(tokens, Keyword::Normal))
return normal.release_nonnull();
RefPtr<CSSStyleValue> figures_value;
RefPtr<CSSStyleValue> spacing_value;
RefPtr<CSSStyleValue> fractions_value;
RefPtr<CSSStyleValue> ordinals_value;
RefPtr<CSSStyleValue> slashed_zero_value;
// [ <numeric-figure-values> || <numeric-spacing-values> || <numeric-fraction-values> || ordinal || slashed-zero]
while (tokens.has_next_token()) {
auto maybe_value = parse_keyword_value(tokens);
if (!maybe_value)
break;
auto font_variant_numeric = keyword_to_font_variant_numeric(maybe_value->to_keyword());
if (!font_variant_numeric.has_value())
return nullptr;
switch (font_variant_numeric.value()) {
// ... || ordinal
case FontVariantNumeric::Ordinal:
if (ordinals_value)
return nullptr;
ordinals_value = maybe_value.release_nonnull();
break;
// ... || slashed-zero
case FontVariantNumeric::SlashedZero:
if (slashed_zero_value)
return nullptr;
slashed_zero_value = maybe_value.release_nonnull();
break;
// <numeric-figure-values> = [ lining-nums | oldstyle-nums ]
case FontVariantNumeric::LiningNums:
case FontVariantNumeric::OldstyleNums:
if (figures_value)
return nullptr;
figures_value = maybe_value.release_nonnull();
break;
// <numeric-spacing-values> = [ proportional-nums | tabular-nums ]
case FontVariantNumeric::ProportionalNums:
case FontVariantNumeric::TabularNums:
if (spacing_value)
return nullptr;
spacing_value = maybe_value.release_nonnull();
break;
// <numeric-fraction-values> = [ diagonal-fractions | stacked-fractions ]
case FontVariantNumeric::DiagonalFractions:
case FontVariantNumeric::StackedFractions:
if (fractions_value)
return nullptr;
fractions_value = maybe_value.release_nonnull();
break;
case FontVariantNumeric::Normal:
return nullptr;
}
}
StyleValueVector values;
if (figures_value)
values.append(figures_value.release_nonnull());
if (spacing_value)
values.append(spacing_value.release_nonnull());
if (fractions_value)
values.append(fractions_value.release_nonnull());
if (ordinals_value)
values.append(ordinals_value.release_nonnull());
if (slashed_zero_value)
values.append(slashed_zero_value.release_nonnull());
if (values.is_empty())
return nullptr;
if (values.size() == 1)
return *values.first();
return StyleValueList::create(move(values), StyleValueList::Separator::Space);
}
RefPtr<CSSStyleValue> Parser::parse_list_style_value(TokenStream<ComponentValue>& tokens)
{
RefPtr<CSSStyleValue> list_position;
RefPtr<CSSStyleValue> list_image;
RefPtr<CSSStyleValue> list_type;
int found_nones = 0;
Vector<PropertyID> remaining_longhands { PropertyID::ListStyleImage, PropertyID::ListStylePosition, PropertyID::ListStyleType };
auto transaction = tokens.begin_transaction();
while (tokens.has_next_token()) {
if (auto const& peek = tokens.next_token(); peek.is_ident("none"sv)) {
tokens.discard_a_token();
found_nones++;
continue;
}
auto property_and_value = parse_css_value_for_properties(remaining_longhands, tokens);
if (!property_and_value.has_value())
return nullptr;
auto& value = property_and_value->style_value;
remove_property(remaining_longhands, property_and_value->property);
switch (property_and_value->property) {
case PropertyID::ListStylePosition: {
VERIFY(!list_position);
list_position = value.release_nonnull();
continue;
}
case PropertyID::ListStyleImage: {
VERIFY(!list_image);
list_image = value.release_nonnull();
continue;
}
case PropertyID::ListStyleType: {
VERIFY(!list_type);
list_type = value.release_nonnull();
continue;
}
default:
VERIFY_NOT_REACHED();
}
}
if (found_nones > 2)
return nullptr;
if (found_nones == 2) {
if (list_image || list_type)
return nullptr;
auto none = CSSKeywordValue::create(Keyword::None);
list_image = none;
list_type = none;
} else if (found_nones == 1) {
if (list_image && list_type)
return nullptr;
auto none = CSSKeywordValue::create(Keyword::None);
if (!list_image)
list_image = none;
if (!list_type)
list_type = none;
}
if (!list_position)
list_position = property_initial_value(PropertyID::ListStylePosition);
if (!list_image)
list_image = property_initial_value(PropertyID::ListStyleImage);
if (!list_type)
list_type = property_initial_value(PropertyID::ListStyleType);
transaction.commit();
return ShorthandStyleValue::create(PropertyID::ListStyle,
{ PropertyID::ListStylePosition, PropertyID::ListStyleImage, PropertyID::ListStyleType },
{ list_position.release_nonnull(), list_image.release_nonnull(), list_type.release_nonnull() });
}
RefPtr<CSSStyleValue> Parser::parse_math_depth_value(TokenStream<ComponentValue>& tokens)
{
// https://w3c.github.io/mathml-core/#propdef-math-depth
// auto-add | add(<integer>) | <integer>
auto transaction = tokens.begin_transaction();
// auto-add
if (tokens.next_token().is_ident("auto-add"sv)) {
tokens.discard_a_token(); // auto-add
transaction.commit();
return MathDepthStyleValue::create_auto_add();
}
// add(<integer>)
if (tokens.next_token().is_function("add"sv)) {
auto const& function = tokens.next_token().function();
auto context_guard = push_temporary_value_parsing_context(FunctionContext { function.name });
auto add_tokens = TokenStream { function.value };
add_tokens.discard_whitespace();
if (auto integer_value = parse_integer_value(add_tokens)) {
add_tokens.discard_whitespace();
if (add_tokens.has_next_token())
return nullptr;
tokens.discard_a_token(); // add()
transaction.commit();
return MathDepthStyleValue::create_add(integer_value.release_nonnull());
}
return nullptr;
}
// <integer>
if (auto integer_value = parse_integer_value(tokens)) {
transaction.commit();
return MathDepthStyleValue::create_integer(integer_value.release_nonnull());
}
return nullptr;
}
RefPtr<CSSStyleValue> Parser::parse_overflow_value(TokenStream<ComponentValue>& tokens)
{
auto transaction = tokens.begin_transaction();
auto maybe_x_value = parse_css_value_for_property(PropertyID::OverflowX, tokens);
if (!maybe_x_value)
return nullptr;
auto maybe_y_value = parse_css_value_for_property(PropertyID::OverflowY, tokens);
transaction.commit();
if (maybe_y_value) {
return ShorthandStyleValue::create(PropertyID::Overflow,
{ PropertyID::OverflowX, PropertyID::OverflowY },
{ maybe_x_value.release_nonnull(), maybe_y_value.release_nonnull() });
}
return ShorthandStyleValue::create(PropertyID::Overflow,
{ PropertyID::OverflowX, PropertyID::OverflowY },
{ *maybe_x_value, *maybe_x_value });
}
RefPtr<CSSStyleValue> Parser::parse_place_content_value(TokenStream<ComponentValue>& tokens)
{
auto transaction = tokens.begin_transaction();
auto maybe_align_content_value = parse_css_value_for_property(PropertyID::AlignContent, tokens);
if (!maybe_align_content_value)
return nullptr;
if (!tokens.has_next_token()) {
if (!property_accepts_keyword(PropertyID::JustifyContent, maybe_align_content_value->to_keyword()))
return nullptr;
transaction.commit();
return ShorthandStyleValue::create(PropertyID::PlaceContent,
{ PropertyID::AlignContent, PropertyID::JustifyContent },
{ *maybe_align_content_value, *maybe_align_content_value });
}
auto maybe_justify_content_value = parse_css_value_for_property(PropertyID::JustifyContent, tokens);
if (!maybe_justify_content_value)
return nullptr;
transaction.commit();
return ShorthandStyleValue::create(PropertyID::PlaceContent,
{ PropertyID::AlignContent, PropertyID::JustifyContent },
{ maybe_align_content_value.release_nonnull(), maybe_justify_content_value.release_nonnull() });
}
RefPtr<CSSStyleValue> Parser::parse_place_items_value(TokenStream<ComponentValue>& tokens)
{
auto transaction = tokens.begin_transaction();
auto maybe_align_items_value = parse_css_value_for_property(PropertyID::AlignItems, tokens);
if (!maybe_align_items_value)
return nullptr;
if (!tokens.has_next_token()) {
if (!property_accepts_keyword(PropertyID::JustifyItems, maybe_align_items_value->to_keyword()))
return nullptr;
transaction.commit();
return ShorthandStyleValue::create(PropertyID::PlaceItems,
{ PropertyID::AlignItems, PropertyID::JustifyItems },
{ *maybe_align_items_value, *maybe_align_items_value });
}
auto maybe_justify_items_value = parse_css_value_for_property(PropertyID::JustifyItems, tokens);
if (!maybe_justify_items_value)
return nullptr;
transaction.commit();
return ShorthandStyleValue::create(PropertyID::PlaceItems,
{ PropertyID::AlignItems, PropertyID::JustifyItems },
{ *maybe_align_items_value, *maybe_justify_items_value });
}
RefPtr<CSSStyleValue> Parser::parse_place_self_value(TokenStream<ComponentValue>& tokens)
{
auto transaction = tokens.begin_transaction();
auto maybe_align_self_value = parse_css_value_for_property(PropertyID::AlignSelf, tokens);
if (!maybe_align_self_value)
return nullptr;
if (!tokens.has_next_token()) {
if (!property_accepts_keyword(PropertyID::JustifySelf, maybe_align_self_value->to_keyword()))
return nullptr;
transaction.commit();
return ShorthandStyleValue::create(PropertyID::PlaceSelf,
{ PropertyID::AlignSelf, PropertyID::JustifySelf },
{ *maybe_align_self_value, *maybe_align_self_value });
}
auto maybe_justify_self_value = parse_css_value_for_property(PropertyID::JustifySelf, tokens);
if (!maybe_justify_self_value)
return nullptr;
transaction.commit();
return ShorthandStyleValue::create(PropertyID::PlaceSelf,
{ PropertyID::AlignSelf, PropertyID::JustifySelf },
{ *maybe_align_self_value, *maybe_justify_self_value });
}
RefPtr<CSSStyleValue> Parser::parse_quotes_value(TokenStream<ComponentValue>& tokens)
{
// https://www.w3.org/TR/css-content-3/#quotes-property
// auto | none | [ <string> <string> ]+
auto transaction = tokens.begin_transaction();
if (tokens.remaining_token_count() == 1) {
auto keyword = parse_keyword_value(tokens);
if (keyword && property_accepts_keyword(PropertyID::Quotes, keyword->to_keyword())) {
transaction.commit();
return keyword;
}
return nullptr;
}
// Parse an even number of <string> values.
if (tokens.remaining_token_count() % 2 != 0)
return nullptr;
StyleValueVector string_values;
while (tokens.has_next_token()) {
auto maybe_string = parse_string_value(tokens);
if (!maybe_string)
return nullptr;
string_values.append(maybe_string.release_nonnull());
}
transaction.commit();
return StyleValueList::create(move(string_values), StyleValueList::Separator::Space);
}
RefPtr<CSSStyleValue> Parser::parse_text_decoration_value(TokenStream<ComponentValue>& tokens)
{
RefPtr<CSSStyleValue> decoration_line;
RefPtr<CSSStyleValue> decoration_thickness;
RefPtr<CSSStyleValue> decoration_style;
RefPtr<CSSStyleValue> decoration_color;
auto remaining_longhands = Vector { PropertyID::TextDecorationColor, PropertyID::TextDecorationLine, PropertyID::TextDecorationStyle, PropertyID::TextDecorationThickness };
auto transaction = tokens.begin_transaction();
while (tokens.has_next_token()) {
auto property_and_value = parse_css_value_for_properties(remaining_longhands, tokens);
if (!property_and_value.has_value())
return nullptr;
auto& value = property_and_value->style_value;
remove_property(remaining_longhands, property_and_value->property);
switch (property_and_value->property) {
case PropertyID::TextDecorationColor: {
VERIFY(!decoration_color);
decoration_color = value.release_nonnull();
continue;
}
case PropertyID::TextDecorationLine: {
VERIFY(!decoration_line);
tokens.reconsume_current_input_token();
auto parsed_decoration_line = parse_text_decoration_line_value(tokens);
if (!parsed_decoration_line)
return nullptr;
decoration_line = parsed_decoration_line.release_nonnull();
continue;
}
case PropertyID::TextDecorationThickness: {
VERIFY(!decoration_thickness);
decoration_thickness = value.release_nonnull();
continue;
}
case PropertyID::TextDecorationStyle: {
VERIFY(!decoration_style);
decoration_style = value.release_nonnull();
continue;
}
default:
VERIFY_NOT_REACHED();
}
}
if (!decoration_line)
decoration_line = property_initial_value(PropertyID::TextDecorationLine);
if (!decoration_thickness)
decoration_thickness = property_initial_value(PropertyID::TextDecorationThickness);
if (!decoration_style)
decoration_style = property_initial_value(PropertyID::TextDecorationStyle);
if (!decoration_color)
decoration_color = property_initial_value(PropertyID::TextDecorationColor);
transaction.commit();
return ShorthandStyleValue::create(PropertyID::TextDecoration,
{ PropertyID::TextDecorationLine, PropertyID::TextDecorationThickness, PropertyID::TextDecorationStyle, PropertyID::TextDecorationColor },
{ decoration_line.release_nonnull(), decoration_thickness.release_nonnull(), decoration_style.release_nonnull(), decoration_color.release_nonnull() });
}
RefPtr<CSSStyleValue> Parser::parse_text_decoration_line_value(TokenStream<ComponentValue>& tokens)
{
StyleValueVector style_values;
bool includes_spelling_or_grammar_error_value = false;
while (tokens.has_next_token()) {
auto maybe_value = parse_css_value_for_property(PropertyID::TextDecorationLine, tokens);
if (!maybe_value)
break;
auto value = maybe_value.release_nonnull();
if (auto maybe_line = keyword_to_text_decoration_line(value->to_keyword()); maybe_line.has_value()) {
if (maybe_line == TextDecorationLine::None) {
if (!style_values.is_empty())
break;
return value;
}
if (first_is_one_of(*maybe_line, TextDecorationLine::SpellingError, TextDecorationLine::GrammarError)) {
includes_spelling_or_grammar_error_value = true;
}
if (style_values.contains_slow(value))
break;
style_values.append(move(value));
continue;
}
break;
}
if (style_values.is_empty())
return nullptr;
// These can only appear on their own.
if (style_values.size() > 1 && includes_spelling_or_grammar_error_value)
return nullptr;
if (style_values.size() == 1)
return *style_values.first();
quick_sort(style_values, [](auto& left, auto& right) {
return *keyword_to_text_decoration_line(left->to_keyword()) < *keyword_to_text_decoration_line(right->to_keyword());
});
return StyleValueList::create(move(style_values), StyleValueList::Separator::Space);
}
// https://www.w3.org/TR/css-transforms-1/#transform-property
RefPtr<CSSStyleValue> Parser::parse_transform_value(TokenStream<ComponentValue>& tokens)
{
// <transform> = none | <transform-list>
// <transform-list> = <transform-function>+
if (auto none = parse_all_as_single_keyword_value(tokens, Keyword::None))
return none;
StyleValueVector transformations;
auto transaction = tokens.begin_transaction();
while (tokens.has_next_token()) {
auto const& part = tokens.consume_a_token();
if (!part.is_function())
return nullptr;
auto maybe_function = transform_function_from_string(part.function().name);
if (!maybe_function.has_value())
return nullptr;
auto context_guard = push_temporary_value_parsing_context(FunctionContext { part.function().name });
auto function = maybe_function.release_value();
auto function_metadata = transform_function_metadata(function);
auto function_tokens = TokenStream { part.function().value };
auto arguments = parse_a_comma_separated_list_of_component_values(function_tokens);
if (arguments.size() > function_metadata.parameters.size()) {
dbgln_if(CSS_PARSER_DEBUG, "Too many arguments to {}. max: {}", part.function().name, function_metadata.parameters.size());
return nullptr;
}
if (arguments.size() < function_metadata.parameters.size() && function_metadata.parameters[arguments.size()].required) {
dbgln_if(CSS_PARSER_DEBUG, "Required parameter at position {} is missing", arguments.size());
return nullptr;
}
StyleValueVector values;
for (auto argument_index = 0u; argument_index < arguments.size(); ++argument_index) {
TokenStream argument_tokens { arguments[argument_index] };
argument_tokens.discard_whitespace();
switch (function_metadata.parameters[argument_index].type) {
case TransformFunctionParameterType::Angle: {
// These are `<angle> | <zero>` in the spec, so we have to check for both kinds.
if (auto angle_value = parse_angle_value(argument_tokens)) {
values.append(angle_value.release_nonnull());
break;
}
if (argument_tokens.next_token().is(Token::Type::Number) && argument_tokens.next_token().token().number_value() == 0) {
argument_tokens.discard_a_token(); // 0
values.append(AngleStyleValue::create(Angle::make_degrees(0)));
break;
}
return nullptr;
}
case TransformFunctionParameterType::Length:
case TransformFunctionParameterType::LengthNone: {
if (auto length_value = parse_length_value(argument_tokens)) {
values.append(length_value.release_nonnull());
break;
}
if (function_metadata.parameters[argument_index].type == TransformFunctionParameterType::LengthNone
&& argument_tokens.next_token().is_ident("none"sv)) {
argument_tokens.discard_a_token(); // none
values.append(CSSKeywordValue::create(Keyword::None));
break;
}
return nullptr;
}
case TransformFunctionParameterType::LengthPercentage: {
if (auto length_percentage_value = parse_length_percentage_value(argument_tokens)) {
values.append(length_percentage_value.release_nonnull());
break;
}
return nullptr;
}
case TransformFunctionParameterType::Number: {
if (auto number_value = parse_number_value(argument_tokens)) {
values.append(number_value.release_nonnull());
break;
}
return nullptr;
}
case TransformFunctionParameterType::NumberPercentage: {
if (auto number_percentage_value = parse_number_percentage_value(argument_tokens)) {
values.append(number_percentage_value.release_nonnull());
break;
}
return nullptr;
}
}
argument_tokens.discard_whitespace();
if (argument_tokens.has_next_token())
return nullptr;
}
transformations.append(TransformationStyleValue::create(PropertyID::Transform, function, move(values)));
}
transaction.commit();
return StyleValueList::create(move(transformations), StyleValueList::Separator::Space);
}
// https://www.w3.org/TR/css-transforms-1/#propdef-transform-origin
// FIXME: This only supports a 2D position
RefPtr<CSSStyleValue> Parser::parse_transform_origin_value(TokenStream<ComponentValue>& tokens)
{
enum class Axis {
None,
X,
Y,
};
struct AxisOffset {
Axis axis;
NonnullRefPtr<CSSStyleValue> offset;
};
auto to_axis_offset = [](RefPtr<CSSStyleValue> value) -> Optional<AxisOffset> {
if (!value)
return OptionalNone {};
if (value->is_percentage())
return AxisOffset { Axis::None, value->as_percentage() };
if (value->is_length())
return AxisOffset { Axis::None, value->as_length() };
if (value->is_keyword()) {
switch (value->to_keyword()) {
case Keyword::Top:
return AxisOffset { Axis::Y, PercentageStyleValue::create(Percentage(0)) };
case Keyword::Left:
return AxisOffset { Axis::X, PercentageStyleValue::create(Percentage(0)) };
case Keyword::Center:
return AxisOffset { Axis::None, PercentageStyleValue::create(Percentage(50)) };
case Keyword::Bottom:
return AxisOffset { Axis::Y, PercentageStyleValue::create(Percentage(100)) };
case Keyword::Right:
return AxisOffset { Axis::X, PercentageStyleValue::create(Percentage(100)) };
default:
return OptionalNone {};
}
}
if (value->is_calculated()) {
return AxisOffset { Axis::None, value->as_calculated() };
}
return OptionalNone {};
};
auto transaction = tokens.begin_transaction();
auto make_list = [&transaction](NonnullRefPtr<CSSStyleValue> const& x_value, NonnullRefPtr<CSSStyleValue> const& y_value) -> NonnullRefPtr<StyleValueList> {
transaction.commit();
return StyleValueList::create(StyleValueVector { x_value, y_value }, StyleValueList::Separator::Space);
};
switch (tokens.remaining_token_count()) {
case 1: {
auto single_value = to_axis_offset(parse_css_value_for_property(PropertyID::TransformOrigin, tokens));
if (!single_value.has_value())
return nullptr;
// If only one value is specified, the second value is assumed to be center.
// FIXME: If one or two values are specified, the third value is assumed to be 0px.
switch (single_value->axis) {
case Axis::None:
case Axis::X:
return make_list(single_value->offset, PercentageStyleValue::create(Percentage(50)));
case Axis::Y:
return make_list(PercentageStyleValue::create(Percentage(50)), single_value->offset);
}
VERIFY_NOT_REACHED();
}
case 2: {
auto first_value = to_axis_offset(parse_css_value_for_property(PropertyID::TransformOrigin, tokens));
auto second_value = to_axis_offset(parse_css_value_for_property(PropertyID::TransformOrigin, tokens));
if (!first_value.has_value() || !second_value.has_value())
return nullptr;
RefPtr<CSSStyleValue> x_value;
RefPtr<CSSStyleValue> y_value;
if (first_value->axis == Axis::X) {
x_value = first_value->offset;
} else if (first_value->axis == Axis::Y) {
y_value = first_value->offset;
}
if (second_value->axis == Axis::X) {
if (x_value)
return nullptr;
x_value = second_value->offset;
// Put the other in Y since its axis can't have been X
y_value = first_value->offset;
} else if (second_value->axis == Axis::Y) {
if (y_value)
return nullptr;
y_value = second_value->offset;
// Put the other in X since its axis can't have been Y
x_value = first_value->offset;
} else {
if (x_value) {
VERIFY(!y_value);
y_value = second_value->offset;
} else {
VERIFY(!x_value);
x_value = second_value->offset;
}
}
// If two or more values are defined and either no value is a keyword, or the only used keyword is center,
// then the first value represents the horizontal position (or offset) and the second represents the vertical position (or offset).
// FIXME: A third value always represents the Z position (or offset) and must be of type <length>.
if (first_value->axis == Axis::None && second_value->axis == Axis::None) {
x_value = first_value->offset;
y_value = second_value->offset;
}
return make_list(x_value.release_nonnull(), y_value.release_nonnull());
}
}
return nullptr;
}
RefPtr<CSSStyleValue> Parser::parse_transition_value(TokenStream<ComponentValue>& tokens)
{
if (auto none = parse_all_as_single_keyword_value(tokens, Keyword::None))
return none;
Vector<TransitionStyleValue::Transition> transitions;
auto transaction = tokens.begin_transaction();
while (tokens.has_next_token()) {
TransitionStyleValue::Transition transition;
auto time_value_count = 0;
while (tokens.has_next_token() && !tokens.next_token().is(Token::Type::Comma)) {
if (auto maybe_time = parse_time(tokens); maybe_time.has_value()) {
auto time = maybe_time.release_value();
switch (time_value_count) {
case 0:
if (!time.is_calculated() && !property_accepts_time(PropertyID::TransitionDuration, time.value()))
return nullptr;
transition.duration = move(time);
break;
case 1:
if (!time.is_calculated() && !property_accepts_time(PropertyID::TransitionDelay, time.value()))
return nullptr;
transition.delay = move(time);
break;
default:
dbgln_if(CSS_PARSER_DEBUG, "Transition property has more than two time values");
return {};
}
time_value_count++;
continue;
}
if (auto easing = parse_easing_value(tokens)) {
if (transition.easing) {
dbgln_if(CSS_PARSER_DEBUG, "Transition property has multiple easing values");
return {};
}
transition.easing = easing->as_easing();
continue;
}
if (auto transition_property = parse_custom_ident_value(tokens, { { "none"sv } })) {
if (transition.property_name) {
dbgln_if(CSS_PARSER_DEBUG, "Transition property has multiple property identifiers");
return {};
}
auto custom_ident = transition_property->custom_ident();
if (auto property = property_id_from_string(custom_ident); property.has_value())
transition.property_name = CustomIdentStyleValue::create(custom_ident);
continue;
}
dbgln_if(CSS_PARSER_DEBUG, "Transition property has unexpected token \"{}\"", tokens.next_token().to_string());
return {};
}
if (!transition.property_name)
transition.property_name = CustomIdentStyleValue::create("all"_fly_string);
if (!transition.easing)
transition.easing = EasingStyleValue::create(EasingStyleValue::CubicBezier::ease());
transitions.append(move(transition));
if (!tokens.next_token().is(Token::Type::Comma))
break;
tokens.discard_a_token();
}
transaction.commit();
return TransitionStyleValue::create(move(transitions));
}
RefPtr<CSSStyleValue> Parser::parse_translate_value(TokenStream<ComponentValue>& tokens)
{
if (tokens.remaining_token_count() == 1) {
// "none"
if (auto none = parse_all_as_single_keyword_value(tokens, Keyword::None))
return none;
}
auto transaction = tokens.begin_transaction();
auto maybe_x = parse_length_percentage_value(tokens);
if (!maybe_x)
return nullptr;
if (!tokens.has_next_token()) {
transaction.commit();
return TransformationStyleValue::create(PropertyID::Translate, TransformFunction::Translate, { maybe_x.release_nonnull(), LengthStyleValue::create(Length::make_px(0)) });
}
auto maybe_y = parse_length_percentage_value(tokens);
if (!maybe_y)
return nullptr;
transaction.commit();
return TransformationStyleValue::create(PropertyID::Translate, TransformFunction::Translate, { maybe_x.release_nonnull(), maybe_y.release_nonnull() });
}
RefPtr<CSSStyleValue> Parser::parse_scale_value(TokenStream<ComponentValue>& tokens)
{
if (tokens.remaining_token_count() == 1) {
// "none"
if (auto none = parse_all_as_single_keyword_value(tokens, Keyword::None))
return none;
}
auto transaction = tokens.begin_transaction();
auto maybe_x = parse_number_percentage_value(tokens);
if (!maybe_x)
return nullptr;
if (!tokens.has_next_token()) {
transaction.commit();
return TransformationStyleValue::create(PropertyID::Scale, TransformFunction::Scale, { *maybe_x, *maybe_x });
}
auto maybe_y = parse_number_percentage_value(tokens);
if (!maybe_y)
return nullptr;
transaction.commit();
return TransformationStyleValue::create(PropertyID::Scale, TransformFunction::Scale, { maybe_x.release_nonnull(), maybe_y.release_nonnull() });
}
// https://drafts.csswg.org/css-overflow/#propdef-scrollbar-gutter
RefPtr<CSSStyleValue> Parser::parse_scrollbar_gutter_value(TokenStream<ComponentValue>& tokens)
{
// auto | stable && both-edges?
if (!tokens.has_next_token())
return nullptr;
auto transaction = tokens.begin_transaction();
auto parse_stable = [&]() -> Optional<bool> {
auto transaction = tokens.begin_transaction();
auto const& token = tokens.consume_a_token();
if (!token.is(Token::Type::Ident))
return {};
auto const& ident = token.token().ident();
if (ident.equals_ignoring_ascii_case("auto"sv)) {
transaction.commit();
return false;
} else if (ident.equals_ignoring_ascii_case("stable"sv)) {
transaction.commit();
return true;
}
return {};
};
auto parse_both_edges = [&]() -> Optional<bool> {
auto transaction = tokens.begin_transaction();
auto const& token = tokens.consume_a_token();
if (!token.is(Token::Type::Ident))
return {};
auto const& ident = token.token().ident();
if (ident.equals_ignoring_ascii_case("both-edges"sv)) {
transaction.commit();
return true;
}
return {};
};
Optional<bool> stable;
Optional<bool> both_edges;
if (stable = parse_stable(); stable.has_value()) {
if (stable.value())
both_edges = parse_both_edges();
} else if (both_edges = parse_both_edges(); both_edges.has_value()) {
stable = parse_stable();
if (!stable.has_value() || !stable.value())
return nullptr;
}
if (tokens.has_next_token())
return nullptr;
transaction.commit();
ScrollbarGutter gutter_value;
if (both_edges.has_value())
gutter_value = ScrollbarGutter::BothEdges;
else if (stable.has_value() && stable.value())
gutter_value = ScrollbarGutter::Stable;
else
gutter_value = ScrollbarGutter::Auto;
return ScrollbarGutterStyleValue::create(gutter_value);
}
RefPtr<CSSStyleValue> Parser::parse_grid_track_placement_shorthand_value(PropertyID property_id, TokenStream<ComponentValue>& tokens)
{
auto start_property = (property_id == PropertyID::GridColumn) ? PropertyID::GridColumnStart : PropertyID::GridRowStart;
auto end_property = (property_id == PropertyID::GridColumn) ? PropertyID::GridColumnEnd : PropertyID::GridRowEnd;
auto transaction = tokens.begin_transaction();
NonnullRawPtr<ComponentValue const> current_token = tokens.consume_a_token();
Vector<ComponentValue> track_start_placement_tokens;
while (true) {
if (current_token->is_delim('/')) {
if (!tokens.has_next_token())
return nullptr;
break;
}
track_start_placement_tokens.append(current_token);
if (!tokens.has_next_token())
break;
current_token = tokens.consume_a_token();
}
Vector<ComponentValue> track_end_placement_tokens;
if (tokens.has_next_token()) {
current_token = tokens.consume_a_token();
while (true) {
track_end_placement_tokens.append(current_token);
if (!tokens.has_next_token())
break;
current_token = tokens.consume_a_token();
}
}
TokenStream track_start_placement_token_stream { track_start_placement_tokens };
auto parsed_start_value = parse_grid_track_placement(track_start_placement_token_stream);
if (parsed_start_value && track_end_placement_tokens.is_empty()) {
transaction.commit();
if (parsed_start_value->grid_track_placement().has_identifier()) {
auto custom_ident = parsed_start_value.release_nonnull();
return ShorthandStyleValue::create(property_id, { start_property, end_property }, { custom_ident, custom_ident });
}
return ShorthandStyleValue::create(property_id,
{ start_property, end_property },
{ parsed_start_value.release_nonnull(), GridTrackPlacementStyleValue::create(GridTrackPlacement::make_auto()) });
}
TokenStream track_end_placement_token_stream { track_end_placement_tokens };
auto parsed_end_value = parse_grid_track_placement(track_end_placement_token_stream);
if (parsed_start_value && parsed_end_value) {
transaction.commit();
return ShorthandStyleValue::create(property_id,
{ start_property, end_property },
{ parsed_start_value.release_nonnull(), parsed_end_value.release_nonnull() });
}
return nullptr;
}
// https://www.w3.org/TR/css-grid-2/#explicit-grid-shorthand
// 7.4. Explicit Grid Shorthand: the grid-template property
RefPtr<CSSStyleValue> Parser::parse_grid_track_size_list_shorthand_value(PropertyID property_id, TokenStream<ComponentValue>& tokens)
{
// The grid-template property is a shorthand for setting grid-template-columns, grid-template-rows,
// and grid-template-areas in a single declaration. It has several distinct syntax forms:
// none
// - Sets all three properties to their initial values (none).
// <'grid-template-rows'> / <'grid-template-columns'>
// - Sets grid-template-rows and grid-template-columns to the specified values, respectively, and sets grid-template-areas to none.
// [ <line-names>? <string> <track-size>? <line-names>? ]+ [ / <explicit-track-list> ]?
// - Sets grid-template-areas to the strings listed.
// - Sets grid-template-rows to the <track-size>s following each string (filling in auto for any missing sizes),
// and splicing in the named lines defined before/after each size.
// - Sets grid-template-columns to the track listing specified after the slash (or none, if not specified).
auto transaction = tokens.begin_transaction();
// FIXME: Read the parts in place if possible, instead of constructing separate vectors and streams.
Vector<ComponentValue> template_rows_tokens;
Vector<ComponentValue> template_columns_tokens;
Vector<ComponentValue> template_area_tokens;
bool found_forward_slash = false;
while (tokens.has_next_token()) {
auto& token = tokens.consume_a_token();
if (token.is_delim('/')) {
if (found_forward_slash)
return nullptr;
found_forward_slash = true;
continue;
}
if (found_forward_slash) {
template_columns_tokens.append(token);
continue;
}
if (token.is(Token::Type::String))
template_area_tokens.append(token);
else
template_rows_tokens.append(token);
}
TokenStream template_area_token_stream { template_area_tokens };
TokenStream template_rows_token_stream { template_rows_tokens };
TokenStream template_columns_token_stream { template_columns_tokens };
auto parsed_template_areas_values = parse_grid_template_areas_value(template_area_token_stream);
auto parsed_template_rows_values = parse_grid_track_size_list(template_rows_token_stream, true);
auto parsed_template_columns_values = parse_grid_track_size_list(template_columns_token_stream);
if (template_area_token_stream.has_next_token()
|| template_rows_token_stream.has_next_token()
|| template_columns_token_stream.has_next_token())
return nullptr;
transaction.commit();
return ShorthandStyleValue::create(property_id,
{ PropertyID::GridTemplateAreas, PropertyID::GridTemplateRows, PropertyID::GridTemplateColumns },
{ parsed_template_areas_values.release_nonnull(), parsed_template_rows_values.release_nonnull(), parsed_template_columns_values.release_nonnull() });
}
RefPtr<CSSStyleValue> Parser::parse_grid_area_shorthand_value(TokenStream<ComponentValue>& tokens)
{
auto transaction = tokens.begin_transaction();
auto parse_placement_tokens = [&](Vector<ComponentValue>& placement_tokens, bool check_for_delimiter = true) -> void {
while (tokens.has_next_token()) {
auto& current_token = tokens.consume_a_token();
if (check_for_delimiter && current_token.is_delim('/'))
break;
placement_tokens.append(current_token);
}
};
Vector<ComponentValue> row_start_placement_tokens;
parse_placement_tokens(row_start_placement_tokens);
Vector<ComponentValue> column_start_placement_tokens;
if (tokens.has_next_token())
parse_placement_tokens(column_start_placement_tokens);
Vector<ComponentValue> row_end_placement_tokens;
if (tokens.has_next_token())
parse_placement_tokens(row_end_placement_tokens);
Vector<ComponentValue> column_end_placement_tokens;
if (tokens.has_next_token())
parse_placement_tokens(column_end_placement_tokens, false);
// https://www.w3.org/TR/css-grid-2/#placement-shorthands
// The grid-area property is a shorthand for grid-row-start, grid-column-start, grid-row-end and
// grid-column-end.
TokenStream row_start_placement_token_stream { row_start_placement_tokens };
auto row_start_style_value = parse_grid_track_placement(row_start_placement_token_stream);
if (row_start_placement_token_stream.has_next_token())
return nullptr;
TokenStream column_start_placement_token_stream { column_start_placement_tokens };
auto column_start_style_value = parse_grid_track_placement(column_start_placement_token_stream);
if (column_start_placement_token_stream.has_next_token())
return nullptr;
TokenStream row_end_placement_token_stream { row_end_placement_tokens };
auto row_end_style_value = parse_grid_track_placement(row_end_placement_token_stream);
if (row_end_placement_token_stream.has_next_token())
return nullptr;
TokenStream column_end_placement_token_stream { column_end_placement_tokens };
auto column_end_style_value = parse_grid_track_placement(column_end_placement_token_stream);
if (column_end_placement_token_stream.has_next_token())
return nullptr;
// If four <grid-line> values are specified, grid-row-start is set to the first value, grid-column-start
// is set to the second value, grid-row-end is set to the third value, and grid-column-end is set to the
// fourth value.
auto row_start = GridTrackPlacement::make_auto();
auto column_start = GridTrackPlacement::make_auto();
auto row_end = GridTrackPlacement::make_auto();
auto column_end = GridTrackPlacement::make_auto();
if (row_start_style_value)
row_start = row_start_style_value.release_nonnull()->as_grid_track_placement().grid_track_placement();
// When grid-column-start is omitted, if grid-row-start is a <custom-ident>, all four longhands are set to
// that value. Otherwise, it is set to auto.
if (column_start_style_value)
column_start = column_start_style_value.release_nonnull()->as_grid_track_placement().grid_track_placement();
else
column_start = row_start;
// When grid-row-end is omitted, if grid-row-start is a <custom-ident>, grid-row-end is set to that
// <custom-ident>; otherwise, it is set to auto.
if (row_end_style_value)
row_end = row_end_style_value.release_nonnull()->as_grid_track_placement().grid_track_placement();
else
row_end = row_start;
// When grid-column-end is omitted, if grid-column-start is a <custom-ident>, grid-column-end is set to
// that <custom-ident>; otherwise, it is set to auto.
if (column_end_style_value)
column_end = column_end_style_value.release_nonnull()->as_grid_track_placement().grid_track_placement();
else
column_end = column_start;
transaction.commit();
return ShorthandStyleValue::create(PropertyID::GridArea,
{ PropertyID::GridRowStart, PropertyID::GridColumnStart, PropertyID::GridRowEnd, PropertyID::GridColumnEnd },
{ GridTrackPlacementStyleValue::create(row_start), GridTrackPlacementStyleValue::create(column_start), GridTrackPlacementStyleValue::create(row_end), GridTrackPlacementStyleValue::create(column_end) });
}
RefPtr<CSSStyleValue> Parser::parse_grid_shorthand_value(TokenStream<ComponentValue>& tokens)
{
// <'grid-template'> |
// FIXME: <'grid-template-rows'> / [ auto-flow && dense? ] <'grid-auto-columns'>? |
// FIXME: [ auto-flow && dense? ] <'grid-auto-rows'>? / <'grid-template-columns'>
return parse_grid_track_size_list_shorthand_value(PropertyID::Grid, tokens);
}
// https://www.w3.org/TR/css-grid-1/#grid-template-areas-property
RefPtr<CSSStyleValue> Parser::parse_grid_template_areas_value(TokenStream<ComponentValue>& tokens)
{
// none | <string>+
if (auto none = parse_all_as_single_keyword_value(tokens, Keyword::None))
return GridTemplateAreaStyleValue::create({});
auto is_full_stop = [](u32 code_point) {
return code_point == '.';
};
auto consume_while = [](Utf8CodePointIterator& code_points, AK::Function<bool(u32)> predicate) {
StringBuilder builder;
while (!code_points.done() && predicate(*code_points)) {
builder.append_code_point(*code_points);
++code_points;
}
return MUST(builder.to_string());
};
Vector<Vector<String>> grid_area_rows;
Optional<size_t> column_count;
auto transaction = tokens.begin_transaction();
while (tokens.has_next_token() && tokens.next_token().is(Token::Type::String)) {
Vector<String> grid_area_columns;
auto string = tokens.consume_a_token().token().string().code_points();
auto code_points = string.begin();
while (!code_points.done()) {
if (is_whitespace(*code_points)) {
consume_while(code_points, is_whitespace);
} else if (is_full_stop(*code_points)) {
consume_while(code_points, *is_full_stop);
grid_area_columns.append("."_string);
} else if (is_ident_code_point(*code_points)) {
auto token = consume_while(code_points, is_ident_code_point);
grid_area_columns.append(move(token));
} else {
return nullptr;
}
}
if (grid_area_columns.is_empty())
return nullptr;
if (column_count.has_value()) {
if (grid_area_columns.size() != column_count)
return nullptr;
} else {
column_count = grid_area_columns.size();
}
grid_area_rows.append(move(grid_area_columns));
}
// FIXME: If a named grid area spans multiple grid cells, but those cells do not form a single filled-in rectangle, the declaration is invalid.
transaction.commit();
return GridTemplateAreaStyleValue::create(grid_area_rows);
}
RefPtr<CSSStyleValue> Parser::parse_grid_auto_track_sizes(TokenStream<ComponentValue>& tokens)
{
// https://www.w3.org/TR/css-grid-2/#auto-tracks
// <track-size>+
Vector<Variant<ExplicitGridTrack, GridLineNames>> track_list;
auto transaction = tokens.begin_transaction();
while (tokens.has_next_token()) {
auto const& token = tokens.consume_a_token();
auto track_sizing_function = parse_track_sizing_function(token);
if (!track_sizing_function.has_value()) {
transaction.commit();
return GridTrackSizeListStyleValue::make_auto();
}
// FIXME: Handle multiple repeat values (should combine them here, or remove
// any other ones if the first one is auto-fill, etc.)
track_list.append(track_sizing_function.value());
}
transaction.commit();
return GridTrackSizeListStyleValue::create(GridTrackSizeList(move(track_list)));
}
// https://www.w3.org/TR/css-grid-1/#grid-auto-flow-property
RefPtr<GridAutoFlowStyleValue> Parser::parse_grid_auto_flow_value(TokenStream<ComponentValue>& tokens)
{
// [ row | column ] || dense
if (!tokens.has_next_token())
return nullptr;
auto transaction = tokens.begin_transaction();
auto parse_axis = [&]() -> Optional<GridAutoFlowStyleValue::Axis> {
auto transaction = tokens.begin_transaction();
auto const& token = tokens.consume_a_token();
if (!token.is(Token::Type::Ident))
return {};
auto const& ident = token.token().ident();
if (ident.equals_ignoring_ascii_case("row"sv)) {
transaction.commit();
return GridAutoFlowStyleValue::Axis::Row;
} else if (ident.equals_ignoring_ascii_case("column"sv)) {
transaction.commit();
return GridAutoFlowStyleValue::Axis::Column;
}
return {};
};
auto parse_dense = [&]() -> Optional<GridAutoFlowStyleValue::Dense> {
auto transaction = tokens.begin_transaction();
auto const& token = tokens.consume_a_token();
if (!token.is(Token::Type::Ident))
return {};
auto const& ident = token.token().ident();
if (ident.equals_ignoring_ascii_case("dense"sv)) {
transaction.commit();
return GridAutoFlowStyleValue::Dense::Yes;
}
return {};
};
Optional<GridAutoFlowStyleValue::Axis> axis;
Optional<GridAutoFlowStyleValue::Dense> dense;
if (axis = parse_axis(); axis.has_value()) {
dense = parse_dense();
} else if (dense = parse_dense(); dense.has_value()) {
axis = parse_axis();
}
if (tokens.has_next_token())
return nullptr;
transaction.commit();
return GridAutoFlowStyleValue::create(axis.value_or(GridAutoFlowStyleValue::Axis::Row), dense.value_or(GridAutoFlowStyleValue::Dense::No));
}
RefPtr<CSSStyleValue> Parser::parse_grid_track_size_list(TokenStream<ComponentValue>& tokens, bool allow_separate_line_name_blocks)
{
if (auto none = parse_all_as_single_keyword_value(tokens, Keyword::None))
return GridTrackSizeListStyleValue::make_none();
auto transaction = tokens.begin_transaction();
Vector<Variant<ExplicitGridTrack, GridLineNames>> track_list;
auto last_object_was_line_names = false;
while (tokens.has_next_token()) {
auto const& token = tokens.consume_a_token();
if (token.is_block()) {
if (last_object_was_line_names && !allow_separate_line_name_blocks) {
transaction.commit();
return GridTrackSizeListStyleValue::make_auto();
}
last_object_was_line_names = true;
Vector<String> line_names;
if (!token.block().is_square()) {
transaction.commit();
return GridTrackSizeListStyleValue::make_auto();
}
TokenStream block_tokens { token.block().value };
block_tokens.discard_whitespace();
while (block_tokens.has_next_token()) {
auto const& current_block_token = block_tokens.consume_a_token();
line_names.append(current_block_token.token().ident().to_string());
block_tokens.discard_whitespace();
}
track_list.append(GridLineNames { move(line_names) });
} else {
last_object_was_line_names = false;
auto track_sizing_function = parse_track_sizing_function(token);
if (!track_sizing_function.has_value()) {
transaction.commit();
return GridTrackSizeListStyleValue::make_auto();
}
// FIXME: Handle multiple repeat values (should combine them here, or remove
// any other ones if the first one is auto-fill, etc.)
track_list.append(track_sizing_function.value());
}
}
transaction.commit();
return GridTrackSizeListStyleValue::create(GridTrackSizeList(move(track_list)));
}
RefPtr<CSSStyleValue> Parser::parse_filter_value_list_value(TokenStream<ComponentValue>& tokens)
{
if (auto none = parse_all_as_single_keyword_value(tokens, Keyword::None))
return none;
auto transaction = tokens.begin_transaction();
// FIXME: <url>s are ignored for now
// <filter-value-list> = [ <filter-function> | <url> ]+
enum class FilterToken {
// Color filters:
Brightness,
Contrast,
Grayscale,
Invert,
Opacity,
Saturate,
Sepia,
// Special filters:
Blur,
DropShadow,
HueRotate
};
auto filter_token_to_operation = [&](auto filter) {
VERIFY(to_underlying(filter) < to_underlying(FilterToken::Blur));
return static_cast<Gfx::ColorFilter::Type>(filter);
};
auto parse_filter_function_name = [&](auto name) -> Optional<FilterToken> {
if (name.equals_ignoring_ascii_case("blur"sv))
return FilterToken::Blur;
if (name.equals_ignoring_ascii_case("brightness"sv))
return FilterToken::Brightness;
if (name.equals_ignoring_ascii_case("contrast"sv))
return FilterToken::Contrast;
if (name.equals_ignoring_ascii_case("drop-shadow"sv))
return FilterToken::DropShadow;
if (name.equals_ignoring_ascii_case("grayscale"sv))
return FilterToken::Grayscale;
if (name.equals_ignoring_ascii_case("hue-rotate"sv))
return FilterToken::HueRotate;
if (name.equals_ignoring_ascii_case("invert"sv))
return FilterToken::Invert;
if (name.equals_ignoring_ascii_case("opacity"sv))
return FilterToken::Opacity;
if (name.equals_ignoring_ascii_case("saturate"sv))
return FilterToken::Saturate;
if (name.equals_ignoring_ascii_case("sepia"sv))
return FilterToken::Sepia;
return {};
};
auto parse_filter_function = [&](auto filter_token, auto const& function_values) -> Optional<FilterFunction> {
TokenStream tokens { function_values };
tokens.discard_whitespace();
auto if_no_more_tokens_return = [&](auto filter) -> Optional<FilterFunction> {
tokens.discard_whitespace();
if (tokens.has_next_token())
return {};
return filter;
};
if (filter_token == FilterToken::Blur) {
// blur( <length>? )
if (!tokens.has_next_token())
return FilterOperation::Blur {};
auto blur_radius = parse_length(tokens);
tokens.discard_whitespace();
if (!blur_radius.has_value() || (!blur_radius->is_calculated() && blur_radius->value().raw_value() < 0))
return {};
return if_no_more_tokens_return(FilterOperation::Blur { blur_radius.value() });
} else if (filter_token == FilterToken::DropShadow) {
if (!tokens.has_next_token())
return {};
// drop-shadow( [ <color>? && <length>{2,3} ] )
// Note: The following code is a little awkward to allow the color to be before or after the lengths.
Optional<LengthOrCalculated> maybe_radius = {};
auto maybe_color = parse_color_value(tokens);
tokens.discard_whitespace();
auto x_offset = parse_length(tokens);
tokens.discard_whitespace();
if (!x_offset.has_value() || !tokens.has_next_token())
return {};
auto y_offset = parse_length(tokens);
tokens.discard_whitespace();
if (!y_offset.has_value())
return {};
if (tokens.has_next_token()) {
maybe_radius = parse_length(tokens);
tokens.discard_whitespace();
if (!maybe_color && (!maybe_radius.has_value() || tokens.has_next_token())) {
maybe_color = parse_color_value(tokens);
if (!maybe_color)
return {};
} else if (!maybe_radius.has_value()) {
return {};
}
}
Optional<Color> color = {};
if (maybe_color)
color = maybe_color->to_color({});
return if_no_more_tokens_return(FilterOperation::DropShadow { x_offset.value(), y_offset.value(), maybe_radius, color });
} else if (filter_token == FilterToken::HueRotate) {
// hue-rotate( [ <angle> | <zero> ]? )
if (!tokens.has_next_token())
return FilterOperation::HueRotate {};
if (tokens.next_token().is(Token::Type::Number)) {
// hue-rotate(0)
auto number = tokens.consume_a_token().token().number();
if (number.is_integer() && number.integer_value() == 0)
return if_no_more_tokens_return(FilterOperation::HueRotate { FilterOperation::HueRotate::Zero {} });
return {};
}
if (auto angle = parse_angle(tokens); angle.has_value())
return if_no_more_tokens_return(FilterOperation::HueRotate { angle.value() });
return {};
} else {
// Simple filters:
// brightness( <number-percentage>? )
// contrast( <number-percentage>? )
// grayscale( <number-percentage>? )
// invert( <number-percentage>? )
// opacity( <number-percentage>? )
// sepia( <number-percentage>? )
// saturate( <number-percentage>? )
if (!tokens.has_next_token())
return FilterOperation::Color { filter_token_to_operation(filter_token) };
auto amount = parse_number_percentage(tokens);
if (amount.has_value()) {
if (amount->is_percentage() && amount->percentage().value() < 0)
return {};
if (amount->is_number() && amount->number().value() < 0)
return {};
}
return if_no_more_tokens_return(FilterOperation::Color { filter_token_to_operation(filter_token), amount });
}
};
Vector<FilterFunction> filter_value_list {};
while (tokens.has_next_token()) {
tokens.discard_whitespace();
if (!tokens.has_next_token())
break;
auto& token = tokens.consume_a_token();
if (!token.is_function())
return nullptr;
auto filter_token = parse_filter_function_name(token.function().name);
if (!filter_token.has_value())
return nullptr;
auto context_guard = push_temporary_value_parsing_context(FunctionContext { token.function().name });
auto filter_function = parse_filter_function(*filter_token, token.function().value);
if (!filter_function.has_value())
return nullptr;
filter_value_list.append(*filter_function);
}
if (filter_value_list.is_empty())
return nullptr;
transaction.commit();
return FilterValueListStyleValue::create(move(filter_value_list));
}
}
Reference in a new issue View git blame Copy permalink