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ladybird/Libraries/LibWeb/CSS/Parser/RuleParsing.cpp

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/*
* Copyright (c) 2018-2022, Andreas Kling <andreas@ladybird.org>
* Copyright (c) 2020-2021, the SerenityOS developers.
* Copyright (c) 2021-2024, 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 <LibWeb/CSS/CSSFontFaceRule.h>
#include <LibWeb/CSS/CSSImportRule.h>
#include <LibWeb/CSS/CSSKeyframeRule.h>
#include <LibWeb/CSS/CSSKeyframesRule.h>
#include <LibWeb/CSS/CSSLayerBlockRule.h>
#include <LibWeb/CSS/CSSLayerStatementRule.h>
#include <LibWeb/CSS/CSSMediaRule.h>
#include <LibWeb/CSS/CSSNamespaceRule.h>
#include <LibWeb/CSS/CSSNestedDeclarations.h>
#include <LibWeb/CSS/CSSPropertyRule.h>
#include <LibWeb/CSS/CSSStyleRule.h>
#include <LibWeb/CSS/CSSSupportsRule.h>
#include <LibWeb/CSS/Parser/Parser.h>
#include <LibWeb/CSS/PropertyName.h>
#include <LibWeb/CSS/StyleValues/IntegerStyleValue.h>
#include <LibWeb/CSS/StyleValues/NumberStyleValue.h>
#include <LibWeb/CSS/StyleValues/OpenTypeTaggedStyleValue.h>
#include <LibWeb/CSS/StyleValues/PercentageStyleValue.h>
#include <LibWeb/CSS/StyleValues/StringStyleValue.h>
#include <LibWeb/CSS/StyleValues/StyleValueList.h>
namespace Web::CSS::Parser {
GC::Ptr<CSSRule> Parser::convert_to_rule(Rule const& rule, Nested nested)
{
return rule.visit(
[this, nested](AtRule const& at_rule) -> GC::Ptr<CSSRule> {
if (has_ignored_vendor_prefix(at_rule.name))
return {};
if (at_rule.name.equals_ignoring_ascii_case("font-face"sv))
return convert_to_font_face_rule(at_rule);
if (at_rule.name.equals_ignoring_ascii_case("import"sv))
return convert_to_import_rule(at_rule);
if (at_rule.name.equals_ignoring_ascii_case("keyframes"sv))
return convert_to_keyframes_rule(at_rule);
if (at_rule.name.equals_ignoring_ascii_case("layer"sv))
return convert_to_layer_rule(at_rule, nested);
if (at_rule.name.equals_ignoring_ascii_case("media"sv))
return convert_to_media_rule(at_rule, nested);
if (at_rule.name.equals_ignoring_ascii_case("namespace"sv))
return convert_to_namespace_rule(at_rule);
if (at_rule.name.equals_ignoring_ascii_case("supports"sv))
return convert_to_supports_rule(at_rule, nested);
if (at_rule.name.equals_ignoring_ascii_case("property"sv))
return convert_to_property_rule(at_rule);
// FIXME: More at rules!
dbgln_if(CSS_PARSER_DEBUG, "Unrecognized CSS at-rule: @{}", at_rule.name);
return {};
},
[this, nested](QualifiedRule const& qualified_rule) -> GC::Ptr<CSSRule> {
return convert_to_style_rule(qualified_rule, nested);
});
}
GC::Ptr<CSSStyleRule> Parser::convert_to_style_rule(QualifiedRule const& qualified_rule, Nested nested)
{
TokenStream prelude_stream { qualified_rule.prelude };
auto maybe_selectors = parse_a_selector_list(prelude_stream,
nested == Nested::Yes ? SelectorType::Relative : SelectorType::Standalone);
if (maybe_selectors.is_error()) {
if (maybe_selectors.error() == ParseError::SyntaxError) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: style rule selectors invalid; discarding.");
if constexpr (CSS_PARSER_DEBUG) {
prelude_stream.dump_all_tokens();
}
}
return {};
}
if (maybe_selectors.value().is_empty()) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: empty selector; discarding.");
return {};
}
SelectorList selectors = maybe_selectors.release_value();
if (nested == Nested::Yes)
selectors = adapt_nested_relative_selector_list(selectors);
auto* declaration = convert_to_style_declaration(qualified_rule.declarations);
if (!declaration) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: style rule declaration invalid; discarding.");
return {};
}
GC::MarkedVector<CSSRule*> child_rules { m_context.realm().heap() };
for (auto& child : qualified_rule.child_rules) {
child.visit(
[&](Rule const& rule) {
// "In addition to nested style rules, this specification allows nested group rules inside of style rules:
// any at-rule whose body contains style rules can be nested inside of a style rule as well."
// https://drafts.csswg.org/css-nesting-1/#nested-group-rules
if (auto converted_rule = convert_to_rule(rule, Nested::Yes)) {
if (is<CSSGroupingRule>(*converted_rule)) {
child_rules.append(converted_rule);
} else {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: nested {} is not allowed inside style rule; discarding.", converted_rule->class_name());
}
}
},
[&](Vector<Declaration> const& declarations) {
auto* declaration = convert_to_style_declaration(declarations);
if (!declaration) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: nested declarations invalid; discarding.");
return;
}
child_rules.append(CSSNestedDeclarations::create(m_context.realm(), *declaration));
});
}
auto nested_rules = CSSRuleList::create(m_context.realm(), move(child_rules));
return CSSStyleRule::create(m_context.realm(), move(selectors), *declaration, *nested_rules);
}
GC::Ptr<CSSImportRule> Parser::convert_to_import_rule(AtRule const& rule)
{
// https://drafts.csswg.org/css-cascade-5/#at-import
// @import [ <url> | <string> ]
// [ layer | layer(<layer-name>) ]?
// <import-conditions> ;
//
// <import-conditions> = [ supports( [ <supports-condition> | <declaration> ] ) ]?
// <media-query-list>?
if (rule.prelude.is_empty()) {
dbgln_if(CSS_PARSER_DEBUG, "Failed to parse @import rule: Empty prelude.");
return {};
}
if (!rule.child_rules_and_lists_of_declarations.is_empty()) {
dbgln_if(CSS_PARSER_DEBUG, "Failed to parse @import rule: Block is not allowed.");
return {};
}
TokenStream tokens { rule.prelude };
tokens.discard_whitespace();
Optional<URL::URL> url = parse_url_function(tokens);
if (!url.has_value() && tokens.next_token().is(Token::Type::String))
url = m_context.complete_url(tokens.consume_a_token().token().string());
if (!url.has_value()) {
dbgln_if(CSS_PARSER_DEBUG, "Failed to parse @import rule: Unable to parse `{}` as URL.", tokens.next_token().to_debug_string());
return {};
}
tokens.discard_whitespace();
// TODO: Support layers and import-conditions
if (tokens.has_next_token()) {
if constexpr (CSS_PARSER_DEBUG) {
dbgln("Failed to parse @import rule: Trailing tokens after URL are not yet supported.");
tokens.dump_all_tokens();
}
return {};
}
return CSSImportRule::create(url.value(), const_cast<DOM::Document&>(*m_context.document()));
}
Optional<FlyString> Parser::parse_layer_name(TokenStream<ComponentValue>& tokens, AllowBlankLayerName allow_blank_layer_name)
{
// https://drafts.csswg.org/css-cascade-5/#typedef-layer-name
// <layer-name> = <ident> [ '.' <ident> ]*
// "The CSS-wide keywords are reserved for future use, and cause the rule to be invalid at parse time if used as an <ident> in the <layer-name>."
auto is_valid_layer_name_part = [](auto& token) {
return token.is(Token::Type::Ident) && !is_css_wide_keyword(token.token().ident());
};
auto transaction = tokens.begin_transaction();
tokens.discard_whitespace();
if (!tokens.has_next_token() && allow_blank_layer_name == AllowBlankLayerName::Yes) {
// No name present, just return a blank one
return FlyString();
}
auto& first_name_token = tokens.consume_a_token();
if (!is_valid_layer_name_part(first_name_token))
return {};
StringBuilder builder;
builder.append(first_name_token.token().ident());
while (tokens.has_next_token()) {
// Repeatedly parse `'.' <ident>`
if (!tokens.next_token().is_delim('.'))
break;
tokens.discard_a_token(); // '.'
auto& name_token = tokens.consume_a_token();
if (!is_valid_layer_name_part(name_token))
return {};
builder.appendff(".{}", name_token.token().ident());
}
transaction.commit();
return builder.to_fly_string_without_validation();
}
GC::Ptr<CSSRule> Parser::convert_to_layer_rule(AtRule const& rule, Nested nested)
{
// https://drafts.csswg.org/css-cascade-5/#at-layer
if (!rule.child_rules_and_lists_of_declarations.is_empty()) {
// CSSLayerBlockRule
// @layer <layer-name>? {
// <rule-list>
// }
// First, the name
FlyString layer_name = {};
auto prelude_tokens = TokenStream { rule.prelude };
if (auto maybe_name = parse_layer_name(prelude_tokens, AllowBlankLayerName::Yes); maybe_name.has_value()) {
layer_name = maybe_name.release_value();
} else {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: @layer has invalid prelude, (not a valid layer name) prelude = {}; discarding.", rule.prelude);
return {};
}
prelude_tokens.discard_whitespace();
if (prelude_tokens.has_next_token()) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: @layer has invalid prelude, (tokens after layer name) prelude = {}; discarding.", rule.prelude);
return {};
}
// Then the rules
GC::MarkedVector<CSSRule*> child_rules { m_context.realm().heap() };
for (auto const& child : rule.child_rules_and_lists_of_declarations) {
child.visit(
[&](Rule const& rule) {
if (auto child_rule = convert_to_rule(rule, nested))
child_rules.append(child_rule);
},
[&](Vector<Declaration> const& declarations) {
auto* declaration = convert_to_style_declaration(declarations);
if (!declaration) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: nested declarations invalid; discarding.");
return;
}
child_rules.append(CSSNestedDeclarations::create(m_context.realm(), *declaration));
});
}
auto rule_list = CSSRuleList::create(m_context.realm(), child_rules);
return CSSLayerBlockRule::create(m_context.realm(), layer_name, rule_list);
}
// CSSLayerStatementRule
// @layer <layer-name>#;
auto tokens = TokenStream { rule.prelude };
tokens.discard_whitespace();
Vector<FlyString> layer_names;
while (tokens.has_next_token()) {
// Comma
if (!layer_names.is_empty()) {
if (auto comma = tokens.consume_a_token(); !comma.is(Token::Type::Comma)) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: @layer missing separating comma, ({}) prelude = {}; discarding.", comma.to_debug_string(), rule.prelude);
return {};
}
tokens.discard_whitespace();
}
if (auto name = parse_layer_name(tokens, AllowBlankLayerName::No); name.has_value()) {
layer_names.append(name.release_value());
} else {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: @layer contains invalid name, prelude = {}; discarding.", rule.prelude);
return {};
}
tokens.discard_whitespace();
}
if (layer_names.is_empty()) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: @layer statement has no layer names, prelude = {}; discarding.", rule.prelude);
return {};
}
return CSSLayerStatementRule::create(m_context.realm(), move(layer_names));
}
GC::Ptr<CSSKeyframesRule> Parser::convert_to_keyframes_rule(AtRule const& rule)
{
// https://drafts.csswg.org/css-animations/#keyframes
// @keyframes = @keyframes <keyframes-name> { <qualified-rule-list> }
// <keyframes-name> = <custom-ident> | <string>
// <keyframe-block> = <keyframe-selector># { <declaration-list> }
// <keyframe-selector> = from | to | <percentage [0,100]>
if (rule.prelude.is_empty()) {
dbgln_if(CSS_PARSER_DEBUG, "Failed to parse @keyframes rule: Empty prelude.");
return {};
}
// FIXME: Is there some way of detecting if there is a block or not?
auto prelude_stream = TokenStream { rule.prelude };
prelude_stream.discard_whitespace();
auto& token = prelude_stream.consume_a_token();
if (!token.is_token()) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: @keyframes has invalid prelude, prelude = {}; discarding.", rule.prelude);
return {};
}
auto name_token = token.token();
prelude_stream.discard_whitespace();
if (prelude_stream.has_next_token()) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: @keyframes has invalid prelude, prelude = {}; discarding.", rule.prelude);
return {};
}
if (name_token.is(Token::Type::Ident) && (is_css_wide_keyword(name_token.ident()) || name_token.ident().equals_ignoring_ascii_case("none"sv))) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: @keyframes rule name is invalid: {}; discarding.", name_token.ident());
return {};
}
if (!name_token.is(Token::Type::String) && !name_token.is(Token::Type::Ident)) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: @keyframes rule name is invalid: {}; discarding.", name_token.to_debug_string());
return {};
}
auto name = name_token.to_string();
GC::MarkedVector<CSSRule*> keyframes(m_context.realm().heap());
rule.for_each_as_qualified_rule_list([&](auto& qualified_rule) {
if (!qualified_rule.child_rules.is_empty()) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: @keyframes keyframe rule contains at-rules; discarding them.");
}
auto selectors = Vector<CSS::Percentage> {};
TokenStream child_tokens { qualified_rule.prelude };
while (child_tokens.has_next_token()) {
child_tokens.discard_whitespace();
if (!child_tokens.has_next_token())
break;
auto tok = child_tokens.consume_a_token();
if (!tok.is_token()) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: @keyframes rule has invalid selector: {}; discarding.", tok.to_debug_string());
child_tokens.reconsume_current_input_token();
break;
}
auto token = tok.token();
auto read_a_selector = false;
if (token.is(Token::Type::Ident)) {
if (token.ident().equals_ignoring_ascii_case("from"sv)) {
selectors.append(CSS::Percentage(0));
read_a_selector = true;
}
if (token.ident().equals_ignoring_ascii_case("to"sv)) {
selectors.append(CSS::Percentage(100));
read_a_selector = true;
}
} else if (token.is(Token::Type::Percentage)) {
selectors.append(CSS::Percentage(token.percentage()));
read_a_selector = true;
}
if (read_a_selector) {
child_tokens.discard_whitespace();
if (child_tokens.consume_a_token().is(Token::Type::Comma))
continue;
}
child_tokens.reconsume_current_input_token();
break;
}
PropertiesAndCustomProperties properties;
qualified_rule.for_each_as_declaration_list([&](auto const& declaration) {
extract_property(declaration, properties);
});
auto style = PropertyOwningCSSStyleDeclaration::create(m_context.realm(), move(properties.properties), move(properties.custom_properties));
for (auto& selector : selectors) {
auto keyframe_rule = CSSKeyframeRule::create(m_context.realm(), selector, *style);
keyframes.append(keyframe_rule);
}
});
return CSSKeyframesRule::create(m_context.realm(), name, CSSRuleList::create(m_context.realm(), move(keyframes)));
}
GC::Ptr<CSSNamespaceRule> Parser::convert_to_namespace_rule(AtRule const& rule)
{
// https://drafts.csswg.org/css-namespaces/#syntax
// @namespace <namespace-prefix>? [ <string> | <url> ] ;
// <namespace-prefix> = <ident>
if (rule.prelude.is_empty()) {
dbgln_if(CSS_PARSER_DEBUG, "Failed to parse @namespace rule: Empty prelude.");
return {};
}
if (!rule.child_rules_and_lists_of_declarations.is_empty()) {
dbgln_if(CSS_PARSER_DEBUG, "Failed to parse @namespace rule: Block is not allowed.");
return {};
}
auto tokens = TokenStream { rule.prelude };
tokens.discard_whitespace();
Optional<FlyString> prefix = {};
if (tokens.next_token().is(Token::Type::Ident)) {
prefix = tokens.consume_a_token().token().ident();
tokens.discard_whitespace();
}
FlyString namespace_uri;
if (auto url = parse_url_function(tokens); url.has_value()) {
namespace_uri = url.value().to_string();
} else if (auto& url_token = tokens.consume_a_token(); url_token.is(Token::Type::String)) {
namespace_uri = url_token.token().string();
} else {
dbgln_if(CSS_PARSER_DEBUG, "Failed to parse @namespace rule: Unable to parse `{}` as URL.", tokens.next_token().to_debug_string());
return {};
}
tokens.discard_whitespace();
if (tokens.has_next_token()) {
if constexpr (CSS_PARSER_DEBUG) {
dbgln("Failed to parse @namespace rule: Trailing tokens after URL.");
tokens.dump_all_tokens();
}
return {};
}
return CSSNamespaceRule::create(m_context.realm(), prefix, namespace_uri);
}
GC::Ptr<CSSSupportsRule> Parser::convert_to_supports_rule(AtRule const& rule, Nested nested)
{
// https://drafts.csswg.org/css-conditional-3/#at-supports
// @supports <supports-condition> {
// <rule-list>
// }
if (rule.prelude.is_empty()) {
dbgln_if(CSS_PARSER_DEBUG, "Failed to parse @supports rule: Empty prelude.");
return {};
}
auto supports_tokens = TokenStream { rule.prelude };
auto supports = parse_a_supports(supports_tokens);
if (!supports) {
if constexpr (CSS_PARSER_DEBUG) {
dbgln("Failed to parse @supports rule: supports clause invalid.");
supports_tokens.dump_all_tokens();
}
return {};
}
GC::MarkedVector<CSSRule*> child_rules { m_context.realm().heap() };
for (auto const& child : rule.child_rules_and_lists_of_declarations) {
child.visit(
[&](Rule const& rule) {
if (auto child_rule = convert_to_rule(rule, nested))
child_rules.append(child_rule);
},
[&](Vector<Declaration> const& declarations) {
auto* declaration = convert_to_style_declaration(declarations);
if (!declaration) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: nested declarations invalid; discarding.");
return;
}
child_rules.append(CSSNestedDeclarations::create(m_context.realm(), *declaration));
});
}
auto rule_list = CSSRuleList::create(m_context.realm(), child_rules);
return CSSSupportsRule::create(m_context.realm(), supports.release_nonnull(), rule_list);
}
GC::Ptr<CSSPropertyRule> Parser::convert_to_property_rule(AtRule const& rule)
{
// https://drafts.css-houdini.org/css-properties-values-api-1/#at-ruledef-property
// @property <custom-property-name> {
// <declaration-list>
// }
if (rule.prelude.is_empty()) {
dbgln_if(CSS_PARSER_DEBUG, "Failed to parse @property rule: Empty prelude.");
return {};
}
auto prelude_stream = TokenStream { rule.prelude };
prelude_stream.discard_whitespace();
auto const& token = prelude_stream.consume_a_token();
if (!token.is_token()) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: @property has invalid prelude, prelude = {}; discarding.", rule.prelude);
return {};
}
auto name_token = token.token();
prelude_stream.discard_whitespace();
if (prelude_stream.has_next_token()) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: @property has invalid prelude, prelude = {}; discarding.", rule.prelude);
return {};
}
if (!name_token.is(Token::Type::Ident)) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: @property name is invalid: {}; discarding.", name_token.to_debug_string());
return {};
}
if (!is_a_custom_property_name_string(name_token.ident())) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: @property name doesn't start with '--': {}; discarding.", name_token.ident());
return {};
}
auto const& name = name_token.ident();
Optional<FlyString> syntax_maybe;
Optional<bool> inherits_maybe;
Optional<String> initial_value_maybe;
rule.for_each_as_declaration_list([&](auto& declaration) {
if (declaration.name.equals_ignoring_ascii_case("syntax"sv)) {
TokenStream token_stream { declaration.value };
token_stream.discard_whitespace();
auto const& syntax_token = token_stream.consume_a_token();
if (syntax_token.is(Token::Type::String)) {
token_stream.discard_whitespace();
if (token_stream.has_next_token()) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: Unexpected trailing tokens in syntax");
} else {
syntax_maybe = syntax_token.token().string();
}
} else {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: Unexpected value for @property \"syntax\": {}; discarding.", declaration.to_string());
}
return;
}
if (declaration.name.equals_ignoring_ascii_case("inherits"sv)) {
TokenStream token_stream { declaration.value };
token_stream.discard_whitespace();
auto const& inherits_token = token_stream.consume_a_token();
if (inherits_token.is_ident("true"sv) || inherits_token.is_ident("false"sv)) {
auto const& ident = inherits_token.token().ident();
token_stream.discard_whitespace();
if (token_stream.has_next_token()) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: Unexpected trailing tokens in inherits");
} else {
inherits_maybe = (ident == "true");
}
} else {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: Expected true/false for @property \"inherits\" value, got: {}; discarding.", inherits_token.to_debug_string());
}
return;
}
if (declaration.name.equals_ignoring_ascii_case("initial-value"sv)) {
// FIXME: Ensure that the initial value matches the syntax, and parse the correct CSSValue out
StringBuilder initial_value_sb;
for (auto const& component : declaration.value) {
initial_value_sb.append(component.to_string());
}
initial_value_maybe = MUST(initial_value_sb.to_string());
return;
}
});
if (syntax_maybe.has_value() && inherits_maybe.has_value()) {
return CSSPropertyRule::create(m_context.realm(), name, syntax_maybe.value(), inherits_maybe.value(), std::move(initial_value_maybe));
}
return {};
}
GC::Ptr<CSSFontFaceRule> Parser::convert_to_font_face_rule(AtRule const& rule)
{
// https://drafts.csswg.org/css-fonts/#font-face-rule
Optional<FlyString> font_family;
Optional<FlyString> font_named_instance;
Vector<ParsedFontFace::Source> src;
Vector<Gfx::UnicodeRange> unicode_range;
Optional<int> weight;
Optional<int> slope;
Optional<int> width;
Optional<Percentage> ascent_override;
Optional<Percentage> descent_override;
Optional<Percentage> line_gap_override;
FontDisplay font_display = FontDisplay::Auto;
Optional<FlyString> language_override;
Optional<OrderedHashMap<FlyString, i64>> font_feature_settings;
Optional<OrderedHashMap<FlyString, double>> font_variation_settings;
// "normal" is returned as nullptr
auto parse_as_percentage_or_normal = [&](Vector<ComponentValue> const& values) -> ErrorOr<Optional<Percentage>> {
// normal | <percentage [0,∞]>
TokenStream tokens { values };
if (auto percentage_value = parse_percentage_value(tokens)) {
tokens.discard_whitespace();
if (tokens.has_next_token())
return Error::from_string_literal("Unexpected trailing tokens");
if (percentage_value->is_percentage() && percentage_value->as_percentage().percentage().value() >= 0)
return percentage_value->as_percentage().percentage();
// TODO: Once we implement calc-simplification in the parser, we should no longer see math values here,
// unless they're impossible to resolve and thus invalid.
if (percentage_value->is_math()) {
if (auto result = percentage_value->as_math().resolve_percentage(); result.has_value())
return result.value();
}
return Error::from_string_literal("Invalid percentage");
}
tokens.discard_whitespace();
if (!tokens.consume_a_token().is_ident("normal"sv))
return Error::from_string_literal("Expected `normal | <percentage [0,∞]>`");
tokens.discard_whitespace();
if (tokens.has_next_token())
return Error::from_string_literal("Unexpected trailing tokens");
return OptionalNone {};
};
rule.for_each_as_declaration_list([&](auto& declaration) {
if (declaration.name.equals_ignoring_ascii_case("ascent-override"sv)) {
auto value = parse_as_percentage_or_normal(declaration.value);
if (value.is_error()) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: Failed to parse @font-face ascent-override: {}", value.error());
} else {
ascent_override = value.release_value();
}
return;
}
if (declaration.name.equals_ignoring_ascii_case("descent-override"sv)) {
auto value = parse_as_percentage_or_normal(declaration.value);
if (value.is_error()) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: Failed to parse @font-face descent-override: {}", value.error());
} else {
descent_override = value.release_value();
}
return;
}
if (declaration.name.equals_ignoring_ascii_case("font-display"sv)) {
TokenStream token_stream { declaration.value };
if (auto keyword_value = parse_keyword_value(token_stream)) {
token_stream.discard_whitespace();
if (token_stream.has_next_token()) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: Unexpected trailing tokens in font-display");
} else {
auto value = keyword_to_font_display(keyword_value->to_keyword());
if (value.has_value()) {
font_display = *value;
} else {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: `{}` is not a valid value for font-display", keyword_value->to_string(CSSStyleValue::SerializationMode::Normal));
}
}
}
return;
}
if (declaration.name.equals_ignoring_ascii_case("font-family"sv)) {
// FIXME: This is very similar to, but different from, the logic in parse_font_family_value().
// Ideally they could share code.
Vector<FlyString> font_family_parts;
bool had_syntax_error = false;
for (size_t i = 0; i < declaration.value.size(); ++i) {
auto const& part = declaration.value[i];
if (part.is(Token::Type::Whitespace))
continue;
if (part.is(Token::Type::String)) {
if (!font_family_parts.is_empty()) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: @font-face font-family format invalid; discarding.");
had_syntax_error = true;
break;
}
font_family_parts.append(part.token().string());
continue;
}
if (part.is(Token::Type::Ident)) {
if (is_css_wide_keyword(part.token().ident())) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: @font-face font-family format invalid; discarding.");
had_syntax_error = true;
break;
}
auto keyword = keyword_from_string(part.token().ident());
if (keyword.has_value() && is_generic_font_family(keyword.value())) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: @font-face font-family format invalid; discarding.");
had_syntax_error = true;
break;
}
font_family_parts.append(part.token().ident());
continue;
}
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: @font-face font-family format invalid; discarding.");
had_syntax_error = true;
break;
}
if (had_syntax_error || font_family_parts.is_empty())
return;
font_family = String::join(' ', font_family_parts).release_value_but_fixme_should_propagate_errors();
return;
}
if (declaration.name.equals_ignoring_ascii_case("font-feature-settings"sv)) {
TokenStream token_stream { declaration.value };
if (auto value = parse_css_value(CSS::PropertyID::FontFeatureSettings, token_stream); !value.is_error()) {
if (value.value()->to_keyword() == Keyword::Normal) {
font_feature_settings.clear();
} else if (value.value()->is_value_list()) {
auto const& feature_tags = value.value()->as_value_list().values();
OrderedHashMap<FlyString, i64> settings;
settings.ensure_capacity(feature_tags.size());
for (auto const& feature_tag : feature_tags) {
if (!feature_tag->is_open_type_tagged()) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: Value in font-feature-settings descriptor is not an OpenTypeTaggedStyleValue; skipping");
continue;
}
auto const& setting_value = feature_tag->as_open_type_tagged().value();
if (setting_value->is_integer()) {
settings.set(feature_tag->as_open_type_tagged().tag(), setting_value->as_integer().integer());
} else if (setting_value->is_math() && setting_value->as_math().resolves_to_number()) {
if (auto integer = setting_value->as_math().resolve_integer(); integer.has_value()) {
settings.set(feature_tag->as_open_type_tagged().tag(), *integer);
} else {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: Calculated value in font-feature-settings descriptor cannot be resolved at parse time; skipping");
}
} else {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: Value in font-feature-settings descriptor is not an OpenTypeTaggedStyleValue holding a <integer>; skipping");
}
}
font_feature_settings = move(settings);
} else {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: Failed to parse font-feature-settings descriptor, not compatible with value returned from parsing font-feature-settings property: {}", value.value()->to_string(CSSStyleValue::SerializationMode::Normal));
}
}
return;
}
if (declaration.name.equals_ignoring_ascii_case("font-language-override"sv)) {
TokenStream token_stream { declaration.value };
if (auto maybe_value = parse_css_value(CSS::PropertyID::FontLanguageOverride, token_stream); !maybe_value.is_error()) {
auto& value = maybe_value.value();
if (value->is_string()) {
language_override = value->as_string().string_value();
} else {
language_override.clear();
}
}
return;
}
if (declaration.name.equals_ignoring_ascii_case("font-named-instance"sv)) {
// auto | <string>
TokenStream token_stream { declaration.value };
token_stream.discard_whitespace();
auto& token = token_stream.consume_a_token();
token_stream.discard_whitespace();
if (token_stream.has_next_token()) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: Unexpected trailing tokens in font-named-instance");
return;
}
if (token.is_ident("auto"sv)) {
font_named_instance.clear();
} else if (token.is(Token::Type::String)) {
font_named_instance = token.token().string();
} else {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: Failed to parse font-named-instance from {}", token.to_debug_string());
}
return;
}
if (declaration.name.equals_ignoring_ascii_case("font-style"sv)) {
TokenStream token_stream { declaration.value };
if (auto value = parse_css_value(CSS::PropertyID::FontStyle, token_stream); !value.is_error()) {
slope = value.value()->to_font_slope();
}
return;
}
if (declaration.name.equals_ignoring_ascii_case("font-variation-settings"sv)) {
TokenStream token_stream { declaration.value };
if (auto value = parse_css_value(CSS::PropertyID::FontVariationSettings, token_stream); !value.is_error()) {
if (value.value()->to_keyword() == Keyword::Normal) {
font_variation_settings.clear();
} else if (value.value()->is_value_list()) {
auto const& variation_tags = value.value()->as_value_list().values();
OrderedHashMap<FlyString, double> settings;
settings.ensure_capacity(variation_tags.size());
for (auto const& variation_tag : variation_tags) {
if (!variation_tag->is_open_type_tagged()) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: Value in font-variation-settings descriptor is not an OpenTypeTaggedStyleValue; skipping");
continue;
}
auto const& setting_value = variation_tag->as_open_type_tagged().value();
if (setting_value->is_number()) {
settings.set(variation_tag->as_open_type_tagged().tag(), setting_value->as_number().number());
} else if (setting_value->is_math() && setting_value->as_math().resolves_to_number()) {
if (auto number = setting_value->as_math().resolve_number(); number.has_value()) {
settings.set(variation_tag->as_open_type_tagged().tag(), *number);
} else {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: Calculated value in font-variation-settings descriptor cannot be resolved at parse time; skipping");
}
} else {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: Value in font-variation-settings descriptor is not an OpenTypeTaggedStyleValue holding a <number>; skipping");
}
}
font_variation_settings = move(settings);
} else {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: Failed to parse font-variation-settings descriptor, not compatible with value returned from parsing font-variation-settings property: {}", value.value()->to_string(CSSStyleValue::SerializationMode::Normal));
}
}
return;
}
if (declaration.name.equals_ignoring_ascii_case("font-weight"sv)) {
TokenStream token_stream { declaration.value };
if (auto value = parse_css_value(CSS::PropertyID::FontWeight, token_stream); !value.is_error()) {
weight = value.value()->to_font_weight();
}
return;
}
if (declaration.name.equals_ignoring_ascii_case("font-width"sv)
|| declaration.name.equals_ignoring_ascii_case("font-stretch"sv)) {
TokenStream token_stream { declaration.value };
if (auto value = parse_css_value(CSS::PropertyID::FontWidth, token_stream); !value.is_error()) {
width = value.value()->to_font_width();
}
return;
}
if (declaration.name.equals_ignoring_ascii_case("line-gap-override"sv)) {
auto value = parse_as_percentage_or_normal(declaration.value);
if (value.is_error()) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: Failed to parse @font-face line-gap-override: {}", value.error());
} else {
line_gap_override = value.release_value();
}
return;
}
if (declaration.name.equals_ignoring_ascii_case("src"sv)) {
TokenStream token_stream { declaration.value };
Vector<ParsedFontFace::Source> supported_sources = parse_font_face_src(token_stream);
if (!supported_sources.is_empty())
src = move(supported_sources);
return;
}
if (declaration.name.equals_ignoring_ascii_case("unicode-range"sv)) {
TokenStream token_stream { declaration.value };
auto unicode_ranges = parse_unicode_ranges(token_stream);
if (unicode_ranges.is_empty())
return;
unicode_range = move(unicode_ranges);
return;
}
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: Unrecognized descriptor '{}' in @font-face; discarding.", declaration.name);
});
if (!font_family.has_value()) {
dbgln_if(CSS_PARSER_DEBUG, "CSSParser: Failed to parse @font-face: no font-family!");
return {};
}
if (unicode_range.is_empty()) {
unicode_range.empend(0x0u, 0x10FFFFu);
}
return CSSFontFaceRule::create(m_context.realm(), ParsedFontFace { font_family.release_value(), move(weight), move(slope), move(width), move(src), move(unicode_range), move(ascent_override), move(descent_override), move(line_gap_override), font_display, move(font_named_instance), move(language_override), move(font_feature_settings), move(font_variation_settings) });
}
}
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