/*
* Copyright (c) 2018-2022, Andreas Kling <kling@serenityos.org>
* Copyright (c) 2021, the SerenityOS developers.
* Copyright (c) 2021-2022, Sam Atkins <atkinssj@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/Debug.h>
#include <AK/QuickSort.h>
#include <AK/TemporaryChange.h>
#include <LibGfx/Font.h>
#include <LibGfx/FontDatabase.h>
#include <LibGfx/FontStyleMapping.h>
#include <LibGfx/TrueTypeFont/Font.h>
#include <LibWeb/CSS/CSSFontFaceRule.h>
#include <LibWeb/CSS/CSSStyleRule.h>
#include <LibWeb/CSS/Parser/Parser.h>
#include <LibWeb/CSS/SelectorEngine.h>
#include <LibWeb/CSS/StyleComputer.h>
#include <LibWeb/CSS/StyleSheet.h>
#include <LibWeb/DOM/Document.h>
#include <LibWeb/DOM/Element.h>
#include <LibWeb/FontCache.h>
#include <LibWeb/HTML/HTMLHtmlElement.h>
#include <LibWeb/Loader/ResourceLoader.h>
#include <stdio.h>
namespace Web::CSS {
StyleComputer::StyleComputer(DOM::Document& document)
: m_document(document)
{
}
StyleComputer::~StyleComputer() = default;
class StyleComputer::FontLoader : public ResourceClient {
public:
explicit FontLoader(StyleComputer& style_computer, FlyString family_name, AK::URL url)
: m_style_computer(style_computer)
, m_family_name(move(family_name))
{
LoadRequest request;
request.set_url(move(url));
set_resource(ResourceLoader::the().load_resource(Resource::Type::Generic, request));
}
virtual ~FontLoader() override { }
virtual void resource_did_load() override
{
auto result = TTF::Font::try_load_from_externally_owned_memory(resource()->encoded_data());
if (result.is_error())
return;
m_ttf_font = result.release_value();
m_style_computer.did_load_font(m_family_name);
}
virtual void resource_did_fail() override
{
}
RefPtr<Gfx::Font> font_with_point_size(float point_size) const
{
if (!m_ttf_font)
return nullptr;
return adopt_ref(*new TTF::ScaledFont(*m_ttf_font, point_size, point_size));
}
private:
StyleComputer& m_style_computer;
FlyString m_family_name;
RefPtr<TTF::Font> m_ttf_font;
};
static StyleSheet& default_stylesheet()
{
static StyleSheet* sheet;
if (!sheet) {
extern char const default_stylesheet_source[];
String css = default_stylesheet_source;
sheet = parse_css_stylesheet(CSS::ParsingContext(), css).leak_ref();
}
return *sheet;
}
static StyleSheet& quirks_mode_stylesheet()
{
static StyleSheet* sheet;
if (!sheet) {
extern char const quirks_mode_stylesheet_source[];
String css = quirks_mode_stylesheet_source;
sheet = parse_css_stylesheet(CSS::ParsingContext(), css).leak_ref();
}
return *sheet;
}
template<typename Callback>
void StyleComputer::for_each_stylesheet(CascadeOrigin cascade_origin, Callback callback) const
{
if (cascade_origin == CascadeOrigin::UserAgent) {
callback(default_stylesheet());
if (document().in_quirks_mode())
callback(quirks_mode_stylesheet());
}
if (cascade_origin == CascadeOrigin::Author) {
for (auto const& sheet : document().style_sheets().sheets()) {
callback(sheet);
}
}
}
Vector<MatchingRule> StyleComputer::collect_matching_rules(DOM::Element const& element, CascadeOrigin cascade_origin, Optional<CSS::Selector::PseudoElement> pseudo_element) const
{
if (cascade_origin == CascadeOrigin::Author) {
Vector<MatchingRule> rules_to_run;
if (pseudo_element.has_value()) {
if (auto it = m_rule_cache->rules_by_pseudo_element.find(pseudo_element.value()); it != m_rule_cache->rules_by_pseudo_element.end())
rules_to_run.extend(it->value);
} else {
for (auto const& class_name : element.class_names()) {
if (auto it = m_rule_cache->rules_by_class.find(class_name); it != m_rule_cache->rules_by_class.end())
rules_to_run.extend(it->value);
}
if (auto id = element.get_attribute(HTML::AttributeNames::id); !id.is_null()) {
if (auto it = m_rule_cache->rules_by_id.find(id); it != m_rule_cache->rules_by_id.end())
rules_to_run.extend(it->value);
}
if (auto it = m_rule_cache->rules_by_tag_name.find(element.local_name()); it != m_rule_cache->rules_by_tag_name.end())
rules_to_run.extend(it->value);
rules_to_run.extend(m_rule_cache->other_rules);
}
Vector<MatchingRule> matching_rules;
matching_rules.ensure_capacity(rules_to_run.size());
for (auto const& rule_to_run : rules_to_run) {
auto const& selector = rule_to_run.rule->selectors()[rule_to_run.selector_index];
if (SelectorEngine::matches(selector, element, pseudo_element))
matching_rules.append(rule_to_run);
}
return matching_rules;
}
Vector<MatchingRule> matching_rules;
size_t style_sheet_index = 0;
for_each_stylesheet(cascade_origin, [&](auto& sheet) {
size_t rule_index = 0;
static_cast<CSSStyleSheet const&>(sheet).for_each_effective_style_rule([&](auto const& rule) {
size_t selector_index = 0;
for (auto& selector : rule.selectors()) {
if (SelectorEngine::matches(selector, element, pseudo_element)) {
matching_rules.append({ rule, style_sheet_index, rule_index, selector_index, selector.specificity() });
break;
}
++selector_index;
}
++rule_index;
});
++style_sheet_index;
});
return matching_rules;
}
static void sort_matching_rules(Vector<MatchingRule>& matching_rules)
{
quick_sort(matching_rules, [&](MatchingRule& a, MatchingRule& b) {
auto const& a_selector = a.rule->selectors()[a.selector_index];
auto const& b_selector = b.rule->selectors()[b.selector_index];
auto a_specificity = a_selector.specificity();
auto b_specificity = b_selector.specificity();
if (a_selector.specificity() == b_selector.specificity()) {
if (a.style_sheet_index == b.style_sheet_index)
return a.rule_index < b.rule_index;
return a.style_sheet_index < b.style_sheet_index;
}
return a_specificity < b_specificity;
});
}
enum class Edge {
Top,
Right,
Bottom,
Left,
All,
};
static bool contains(Edge a, Edge b)
{
return a == b || b == Edge::All;
}
static void set_property_expanding_shorthands(StyleProperties& style, CSS::PropertyID property_id, StyleValue const& value, DOM::Document& document)
{
auto assign_edge_values = [&style](PropertyID top_property, PropertyID right_property, PropertyID bottom_property, PropertyID left_property, auto const& values) {
if (values.size() == 4) {
style.set_property(top_property, values[0]);
style.set_property(right_property, values[1]);
style.set_property(bottom_property, values[2]);
style.set_property(left_property, values[3]);
} else if (values.size() == 3) {
style.set_property(top_property, values[0]);
style.set_property(right_property, values[1]);
style.set_property(bottom_property, values[2]);
style.set_property(left_property, values[1]);
} else if (values.size() == 2) {
style.set_property(top_property, values[0]);
style.set_property(right_property, values[1]);
style.set_property(bottom_property, values[0]);
style.set_property(left_property, values[1]);
} else if (values.size() == 1) {
style.set_property(top_property, values[0]);
style.set_property(right_property, values[0]);
style.set_property(bottom_property, values[0]);
style.set_property(left_property, values[0]);
}
};
if (property_id == CSS::PropertyID::TextDecoration) {
if (value.is_text_decoration()) {
auto const& text_decoration = value.as_text_decoration();
style.set_property(CSS::PropertyID::TextDecorationLine, text_decoration.line());
style.set_property(CSS::PropertyID::TextDecorationThickness, text_decoration.thickness());
style.set_property(CSS::PropertyID::TextDecorationStyle, text_decoration.style());
style.set_property(CSS::PropertyID::TextDecorationColor, text_decoration.color());
return;
}
style.set_property(CSS::PropertyID::TextDecorationLine, value);
style.set_property(CSS::PropertyID::TextDecorationThickness, value);
style.set_property(CSS::PropertyID::TextDecorationStyle, value);
style.set_property(CSS::PropertyID::TextDecorationColor, value);
return;
}
if (property_id == CSS::PropertyID::Overflow) {
if (value.is_overflow()) {
auto const& overflow = value.as_overflow();
style.set_property(CSS::PropertyID::OverflowX, overflow.overflow_x());
style.set_property(CSS::PropertyID::OverflowY, overflow.overflow_y());
return;
}
style.set_property(CSS::PropertyID::OverflowX, value);
style.set_property(CSS::PropertyID::OverflowY, value);
return;
}
if (property_id == CSS::PropertyID::Border) {
set_property_expanding_shorthands(style, CSS::PropertyID::BorderTop, value, document);
set_property_expanding_shorthands(style, CSS::PropertyID::BorderRight, value, document);
set_property_expanding_shorthands(style, CSS::PropertyID::BorderBottom, value, document);
set_property_expanding_shorthands(style, CSS::PropertyID::BorderLeft, value, document);
// FIXME: Also reset border-image, in line with the spec: https://www.w3.org/TR/css-backgrounds-3/#border-shorthands
return;
}
if (property_id == CSS::PropertyID::BorderRadius) {
if (value.is_value_list()) {
auto const& values_list = value.as_value_list();
assign_edge_values(PropertyID::BorderTopLeftRadius, PropertyID::BorderTopRightRadius, PropertyID::BorderBottomRightRadius, PropertyID::BorderBottomLeftRadius, values_list.values());
return;
}
style.set_property(CSS::PropertyID::BorderTopLeftRadius, value);
style.set_property(CSS::PropertyID::BorderTopRightRadius, value);
style.set_property(CSS::PropertyID::BorderBottomRightRadius, value);
style.set_property(CSS::PropertyID::BorderBottomLeftRadius, value);
return;
}
if (property_id == CSS::PropertyID::BorderTop
|| property_id == CSS::PropertyID::BorderRight
|| property_id == CSS::PropertyID::BorderBottom
|| property_id == CSS::PropertyID::BorderLeft) {
Edge edge = Edge::All;
switch (property_id) {
case CSS::PropertyID::BorderTop:
edge = Edge::Top;
break;
case CSS::PropertyID::BorderRight:
edge = Edge::Right;
break;
case CSS::PropertyID::BorderBottom:
edge = Edge::Bottom;
break;
case CSS::PropertyID::BorderLeft:
edge = Edge::Left;
break;
default:
break;
}
if (value.is_border()) {
auto const& border = value.as_border();
if (contains(Edge::Top, edge)) {
style.set_property(PropertyID::BorderTopWidth, border.border_width());
style.set_property(PropertyID::BorderTopStyle, border.border_style());
style.set_property(PropertyID::BorderTopColor, border.border_color());
}
if (contains(Edge::Right, edge)) {
style.set_property(PropertyID::BorderRightWidth, border.border_width());
style.set_property(PropertyID::BorderRightStyle, border.border_style());
style.set_property(PropertyID::BorderRightColor, border.border_color());
}
if (contains(Edge::Bottom, edge)) {
style.set_property(PropertyID::BorderBottomWidth, border.border_width());
style.set_property(PropertyID::BorderBottomStyle, border.border_style());
style.set_property(PropertyID::BorderBottomColor, border.border_color());
}
if (contains(Edge::Left, edge)) {
style.set_property(PropertyID::BorderLeftWidth, border.border_width());
style.set_property(PropertyID::BorderLeftStyle, border.border_style());
style.set_property(PropertyID::BorderLeftColor, border.border_color());
}
return;
}
return;
}
if (property_id == CSS::PropertyID::BorderStyle) {
if (value.is_value_list()) {
auto const& values_list = value.as_value_list();
assign_edge_values(PropertyID::BorderTopStyle, PropertyID::BorderRightStyle, PropertyID::BorderBottomStyle, PropertyID::BorderLeftStyle, values_list.values());
return;
}
style.set_property(CSS::PropertyID::BorderTopStyle, value);
style.set_property(CSS::PropertyID::BorderRightStyle, value);
style.set_property(CSS::PropertyID::BorderBottomStyle, value);
style.set_property(CSS::PropertyID::BorderLeftStyle, value);
return;
}
if (property_id == CSS::PropertyID::BorderWidth) {
if (value.is_value_list()) {
auto const& values_list = value.as_value_list();
assign_edge_values(PropertyID::BorderTopWidth, PropertyID::BorderRightWidth, PropertyID::BorderBottomWidth, PropertyID::BorderLeftWidth, values_list.values());
return;
}
style.set_property(CSS::PropertyID::BorderTopWidth, value);
style.set_property(CSS::PropertyID::BorderRightWidth, value);
style.set_property(CSS::PropertyID::BorderBottomWidth, value);
style.set_property(CSS::PropertyID::BorderLeftWidth, value);
return;
}
if (property_id == CSS::PropertyID::BorderColor) {
if (value.is_value_list()) {
auto const& values_list = value.as_value_list();
assign_edge_values(PropertyID::BorderTopColor, PropertyID::BorderRightColor, PropertyID::BorderBottomColor, PropertyID::BorderLeftColor, values_list.values());
return;
}
style.set_property(CSS::PropertyID::BorderTopColor, value);
style.set_property(CSS::PropertyID::BorderRightColor, value);
style.set_property(CSS::PropertyID::BorderBottomColor, value);
style.set_property(CSS::PropertyID::BorderLeftColor, value);
return;
}
if (property_id == CSS::PropertyID::Background) {
if (value.is_background()) {
auto const& background = value.as_background();
set_property_expanding_shorthands(style, CSS::PropertyID::BackgroundColor, background.color(), document);
set_property_expanding_shorthands(style, CSS::PropertyID::BackgroundImage, background.image(), document);
set_property_expanding_shorthands(style, CSS::PropertyID::BackgroundPosition, background.position(), document);
set_property_expanding_shorthands(style, CSS::PropertyID::BackgroundSize, background.size(), document);
set_property_expanding_shorthands(style, CSS::PropertyID::BackgroundRepeat, background.repeat(), document);
set_property_expanding_shorthands(style, CSS::PropertyID::BackgroundAttachment, background.attachment(), document);
set_property_expanding_shorthands(style, CSS::PropertyID::BackgroundOrigin, background.origin(), document);
set_property_expanding_shorthands(style, CSS::PropertyID::BackgroundClip, background.clip(), document);
return;
}
set_property_expanding_shorthands(style, CSS::PropertyID::BackgroundColor, value, document);
set_property_expanding_shorthands(style, CSS::PropertyID::BackgroundImage, value, document);
set_property_expanding_shorthands(style, CSS::PropertyID::BackgroundPosition, value, document);
set_property_expanding_shorthands(style, CSS::PropertyID::BackgroundSize, value, document);
set_property_expanding_shorthands(style, CSS::PropertyID::BackgroundRepeat, value, document);
set_property_expanding_shorthands(style, CSS::PropertyID::BackgroundAttachment, value, document);
set_property_expanding_shorthands(style, CSS::PropertyID::BackgroundOrigin, value, document);
set_property_expanding_shorthands(style, CSS::PropertyID::BackgroundClip, value, document);
return;
}
if (property_id == CSS::PropertyID::Margin) {
if (value.is_value_list()) {
auto const& values_list = value.as_value_list();
assign_edge_values(PropertyID::MarginTop, PropertyID::MarginRight, PropertyID::MarginBottom, PropertyID::MarginLeft, values_list.values());
return;
}
style.set_property(CSS::PropertyID::MarginTop, value);
style.set_property(CSS::PropertyID::MarginRight, value);
style.set_property(CSS::PropertyID::MarginBottom, value);
style.set_property(CSS::PropertyID::MarginLeft, value);
return;
}
if (property_id == CSS::PropertyID::Padding) {
if (value.is_value_list()) {
auto const& values_list = value.as_value_list();
assign_edge_values(PropertyID::PaddingTop, PropertyID::PaddingRight, PropertyID::PaddingBottom, PropertyID::PaddingLeft, values_list.values());
return;
}
style.set_property(CSS::PropertyID::PaddingTop, value);
style.set_property(CSS::PropertyID::PaddingRight, value);
style.set_property(CSS::PropertyID::PaddingBottom, value);
style.set_property(CSS::PropertyID::PaddingLeft, value);
return;
}
if (property_id == CSS::PropertyID::ListStyle) {
if (value.is_list_style()) {
auto const& list_style = value.as_list_style();
style.set_property(CSS::PropertyID::ListStylePosition, list_style.position());
style.set_property(CSS::PropertyID::ListStyleImage, list_style.image());
style.set_property(CSS::PropertyID::ListStyleType, list_style.style_type());
return;
}
style.set_property(CSS::PropertyID::ListStylePosition, value);
style.set_property(CSS::PropertyID::ListStyleImage, value);
style.set_property(CSS::PropertyID::ListStyleType, value);
return;
}
if (property_id == CSS::PropertyID::Font) {
if (value.is_font()) {
auto const& font_shorthand = value.as_font();
style.set_property(CSS::PropertyID::FontSize, font_shorthand.font_size());
style.set_property(CSS::PropertyID::FontFamily, font_shorthand.font_families());
style.set_property(CSS::PropertyID::FontStyle, font_shorthand.font_style());
style.set_property(CSS::PropertyID::FontWeight, font_shorthand.font_weight());
style.set_property(CSS::PropertyID::LineHeight, font_shorthand.line_height());
// FIXME: Implement font-stretch and font-variant
return;
}
style.set_property(CSS::PropertyID::FontSize, value);
style.set_property(CSS::PropertyID::FontFamily, value);
style.set_property(CSS::PropertyID::FontStyle, value);
style.set_property(CSS::PropertyID::FontWeight, value);
style.set_property(CSS::PropertyID::LineHeight, value);
// FIXME: Implement font-stretch and font-variant
return;
}
if (property_id == CSS::PropertyID::Flex) {
if (value.is_flex()) {
auto const& flex = value.as_flex();
style.set_property(CSS::PropertyID::FlexGrow, flex.grow());
style.set_property(CSS::PropertyID::FlexShrink, flex.shrink());
style.set_property(CSS::PropertyID::FlexBasis, flex.basis());
return;
}
style.set_property(CSS::PropertyID::FlexGrow, value);
style.set_property(CSS::PropertyID::FlexShrink, value);
style.set_property(CSS::PropertyID::FlexBasis, value);
return;
}
if (property_id == CSS::PropertyID::FlexFlow) {
if (value.is_flex_flow()) {
auto const& flex_flow = value.as_flex_flow();
style.set_property(CSS::PropertyID::FlexDirection, flex_flow.flex_direction());
style.set_property(CSS::PropertyID::FlexWrap, flex_flow.flex_wrap());
return;
}
style.set_property(CSS::PropertyID::FlexDirection, value);
style.set_property(CSS::PropertyID::FlexWrap, value);
return;
}
style.set_property(property_id, value);
}
static RefPtr<StyleValue> get_custom_property(DOM::Element const& element, FlyString const& custom_property_name)
{
for (auto const* current_element = &element; current_element; current_element = current_element->parent_element()) {
if (auto it = current_element->custom_properties().find(custom_property_name); it != current_element->custom_properties().end())
return it->value.value;
}
return nullptr;
}
bool StyleComputer::expand_unresolved_values(DOM::Element& element, StringView property_name, HashMap<FlyString, NonnullRefPtr<PropertyDependencyNode>>& dependencies, Vector<StyleComponentValueRule> const& source, Vector<StyleComponentValueRule>& dest, size_t source_start_index) const
{
// FIXME: Do this better!
// We build a copy of the tree of StyleComponentValueRules, with all var()s and attr()s replaced with their contents.
// This is a very naive solution, and we could do better if the CSS Parser could accept tokens one at a time.
// Arbitrary large value chosen to avoid the billion-laughs attack.
// https://www.w3.org/TR/css-variables-1/#long-variables
const size_t MAX_VALUE_COUNT = 16384;
if (source.size() + dest.size() > MAX_VALUE_COUNT) {
dbgln("Stopped expanding CSS variables: maximum length reached.");
return false;
}
auto get_dependency_node = [&](auto name) -> NonnullRefPtr<PropertyDependencyNode> {
if (auto existing = dependencies.get(name); existing.has_value())
return *existing.value();
auto new_node = PropertyDependencyNode::create(name);
dependencies.set(name, new_node);
return new_node;
};
for (size_t source_index = source_start_index; source_index < source.size(); source_index++) {
auto const& value = source[source_index];
if (value.is_function()) {
if (value.function().name().equals_ignoring_case("var"sv)) {
auto const& var_contents = value.function().values();
if (var_contents.is_empty())
return false;
auto const& custom_property_name_token = var_contents.first();
if (!custom_property_name_token.is(Token::Type::Ident))
return false;
auto custom_property_name = custom_property_name_token.token().ident();
if (!custom_property_name.starts_with("--"))
return false;
// Detect dependency cycles. https://www.w3.org/TR/css-variables-1/#cycles
// We do not do this by the spec, since we are not keeping a graph of var dependencies around,
// but rebuilding it every time.
if (custom_property_name == property_name)
return false;
auto parent = get_dependency_node(property_name);
auto child = get_dependency_node(custom_property_name);
parent->add_child(child);
if (parent->has_cycles())
return false;
if (auto custom_property_value = get_custom_property(element, custom_property_name)) {
VERIFY(custom_property_value->is_unresolved());
if (!expand_unresolved_values(element, custom_property_name, dependencies, custom_property_value->as_unresolved().values(), dest, 0))
return false;
continue;
}
// Use the provided fallback value, if any.
if (var_contents.size() > 2 && var_contents[1].is(Token::Type::Comma)) {
if (!expand_unresolved_values(element, property_name, dependencies, var_contents, dest, 2))
return false;
continue;
}
} else if (value.function().name().equals_ignoring_case("attr"sv)) {
// https://drafts.csswg.org/css-values-5/#attr-substitution
auto const& attr_contents = value.function().values();
if (attr_contents.is_empty())
return false;
auto const& attr_name_token = attr_contents.first();
if (!attr_name_token.is(Token::Type::Ident))
return false;
auto attr_name = attr_name_token.token().ident();
auto attr_value = element.get_attribute(attr_name);
// 1. If the attr() function has a substitution value, replace the attr() function by the substitution value.
if (!attr_value.is_null()) {
// FIXME: attr() should also accept an optional type argument, not just strings.
dest.empend(Token::of_string(attr_value));
continue;
}
// 2. Otherwise, if the attr() function has a fallback value as its last argument, replace the attr() function by the fallback value.
// If there are any var() or attr() references in the fallback, substitute them as well.
if (attr_contents.size() > 2 && attr_contents[1].is(Token::Type::Comma)) {
if (!expand_unresolved_values(element, property_name, dependencies, attr_contents, dest, 2))
return false;
continue;
}
// 3. Otherwise, the property containing the attr() function is invalid at computed-value time.
return false;
}
auto const& source_function = value.function();
Vector<StyleComponentValueRule> function_values;
if (!expand_unresolved_values(element, property_name, dependencies, source_function.values(), function_values, 0))
return false;
NonnullRefPtr<StyleFunctionRule> function = adopt_ref(*new StyleFunctionRule(source_function.name(), move(function_values)));
dest.empend(function);
continue;
}
if (value.is_block()) {
auto const& source_block = value.block();
Vector<StyleComponentValueRule> block_values;
if (!expand_unresolved_values(element, property_name, dependencies, source_block.values(), block_values, 0))
return false;
NonnullRefPtr<StyleBlockRule> block = adopt_ref(*new StyleBlockRule(source_block.token(), move(block_values)));
dest.empend(block);
continue;
}
dest.empend(value.token());
}
return true;
}
RefPtr<StyleValue> StyleComputer::resolve_unresolved_style_value(DOM::Element& element, PropertyID property_id, UnresolvedStyleValue const& unresolved) const
{
// Unresolved always contains a var() or attr(), unless it is a custom property's value, in which case we shouldn't be trying
// to produce a different StyleValue from it.
VERIFY(unresolved.contains_var_or_attr());
Vector<StyleComponentValueRule> expanded_values;
HashMap<FlyString, NonnullRefPtr<PropertyDependencyNode>> dependencies;
if (!expand_unresolved_values(element, string_from_property_id(property_id), dependencies, unresolved.values(), expanded_values, 0))
return {};
if (auto parsed_value = Parser::parse_css_value({}, ParsingContext { document() }, property_id, expanded_values))
return parsed_value.release_nonnull();
return {};
}
void StyleComputer::cascade_declarations(StyleProperties& style, DOM::Element& element, Vector<MatchingRule> const& matching_rules, CascadeOrigin cascade_origin, Important important) const
{
for (auto const& match : matching_rules) {
for (auto const& property : verify_cast<PropertyOwningCSSStyleDeclaration>(match.rule->declaration()).properties()) {
if (important != property.important)
continue;
auto property_value = property.value;
if (property.value->is_unresolved()) {
if (auto resolved = resolve_unresolved_style_value(element, property.property_id, property.value->as_unresolved()))
property_value = resolved.release_nonnull();
}
set_property_expanding_shorthands(style, property.property_id, property_value, m_document);
}
}
if (cascade_origin == CascadeOrigin::Author) {
if (auto const* inline_style = verify_cast<ElementInlineCSSStyleDeclaration>(element.inline_style())) {
for (auto const& property : inline_style->properties()) {
if (important != property.important)
continue;
auto property_value = property.value;
if (property.value->is_unresolved()) {
if (auto resolved = resolve_unresolved_style_value(element, property.property_id, property.value->as_unresolved()))
property_value = resolved.release_nonnull();
}
set_property_expanding_shorthands(style, property.property_id, property_value, m_document);
}
}
}
}
static void cascade_custom_properties(DOM::Element& element, Vector<MatchingRule> const& matching_rules)
{
size_t needed_capacity = 0;
for (auto const& matching_rule : matching_rules)
needed_capacity += verify_cast<PropertyOwningCSSStyleDeclaration>(matching_rule.rule->declaration()).custom_properties().size();
if (auto const* inline_style = verify_cast<PropertyOwningCSSStyleDeclaration>(element.inline_style()))
needed_capacity += inline_style->custom_properties().size();
HashMap<FlyString, StyleProperty> custom_properties;
custom_properties.ensure_capacity(needed_capacity);
for (auto const& matching_rule : matching_rules) {
for (auto const& it : verify_cast<PropertyOwningCSSStyleDeclaration>(matching_rule.rule->declaration()).custom_properties())
custom_properties.set(it.key, it.value);
}
if (auto const* inline_style = verify_cast<PropertyOwningCSSStyleDeclaration>(element.inline_style())) {
for (auto const& it : inline_style->custom_properties())
custom_properties.set(it.key, it.value);
}
element.set_custom_properties(move(custom_properties));
}
// https://www.w3.org/TR/css-cascade/#cascading
void StyleComputer::compute_cascaded_values(StyleProperties& style, DOM::Element& element, Optional<CSS::Selector::PseudoElement> pseudo_element) const
{
// First, we collect all the CSS rules whose selectors match `element`:
MatchingRuleSet matching_rule_set;
matching_rule_set.user_agent_rules = collect_matching_rules(element, CascadeOrigin::UserAgent, pseudo_element);
sort_matching_rules(matching_rule_set.user_agent_rules);
matching_rule_set.author_rules = collect_matching_rules(element, CascadeOrigin::Author, pseudo_element);
sort_matching_rules(matching_rule_set.author_rules);
// Then we resolve all the CSS custom properties ("variables") for this element:
// FIXME: Look into how custom properties should interact with pseudo elements and support that properly.
if (!pseudo_element.has_value())
cascade_custom_properties(element, matching_rule_set.author_rules);
// Then we apply the declarations from the matched rules in cascade order:
// Normal user agent declarations
cascade_declarations(style, element, matching_rule_set.user_agent_rules, CascadeOrigin::UserAgent, Important::No);
// FIXME: Normal user declarations
// Author presentational hints (NOTE: The spec doesn't say exactly how to prioritize these.)
element.apply_presentational_hints(style);
// Normal author declarations
cascade_declarations(style, element, matching_rule_set.author_rules, CascadeOrigin::Author, Important::No);
// FIXME: Animation declarations [css-animations-1]
// Important author declarations
cascade_declarations(style, element, matching_rule_set.author_rules, CascadeOrigin::Author, Important::Yes);
// FIXME: Important user declarations
// Important user agent declarations
cascade_declarations(style, element, matching_rule_set.user_agent_rules, CascadeOrigin::UserAgent, Important::Yes);
// FIXME: Transition declarations [css-transitions-1]
}
static DOM::Element const* get_parent_element(DOM::Element const* element, Optional<CSS::Selector::PseudoElement> pseudo_element)
{
// Pseudo-elements treat their originating element as their parent.
DOM::Element const* parent_element = nullptr;
if (pseudo_element.has_value()) {
parent_element = element;
} else if (element) {
parent_element = element->parent_element();
}
return parent_element;
}
static NonnullRefPtr<StyleValue> get_inherit_value(CSS::PropertyID property_id, DOM::Element const* element, Optional<CSS::Selector::PseudoElement> pseudo_element)
{
auto* parent_element = get_parent_element(element, pseudo_element);
if (!parent_element || !parent_element->computed_css_values())
return property_initial_value(property_id);
return parent_element->computed_css_values()->property(property_id).release_value();
};
void StyleComputer::compute_defaulted_property_value(StyleProperties& style, DOM::Element const* element, CSS::PropertyID property_id, Optional<CSS::Selector::PseudoElement> pseudo_element) const
{
// FIXME: If we don't know the correct initial value for a property, we fall back to InitialStyleValue.
auto& value_slot = style.m_property_values[to_underlying(property_id)];
if (!value_slot) {
if (is_inherited_property(property_id))
style.m_property_values[to_underlying(property_id)] = get_inherit_value(property_id, element, pseudo_element);
else
style.m_property_values[to_underlying(property_id)] = property_initial_value(property_id);
return;
}
if (value_slot->is_initial()) {
value_slot = property_initial_value(property_id);
return;
}
if (value_slot->is_inherit()) {
value_slot = get_inherit_value(property_id, element, pseudo_element);
return;
}
// https://www.w3.org/TR/css-cascade-4/#inherit-initial
// If the cascaded value of a property is the unset keyword,
if (value_slot->is_unset()) {
if (is_inherited_property(property_id)) {
// then if it is an inherited property, this is treated as inherit,
value_slot = get_inherit_value(property_id, element, pseudo_element);
} else {
// and if it is not, this is treated as initial.
value_slot = property_initial_value(property_id);
}
}
}
// https://www.w3.org/TR/css-cascade/#defaulting
void StyleComputer::compute_defaulted_values(StyleProperties& style, DOM::Element const* element, Optional<CSS::Selector::PseudoElement> pseudo_element) const
{
// Walk the list of all known CSS properties and:
// - Add them to `style` if they are missing.
// - Resolve `inherit` and `initial` as needed.
for (auto i = to_underlying(CSS::first_longhand_property_id); i <= to_underlying(CSS::last_longhand_property_id); ++i) {
auto property_id = (CSS::PropertyID)i;
compute_defaulted_property_value(style, element, property_id, pseudo_element);
}
}
float StyleComputer::root_element_font_size() const
{
constexpr float default_root_element_font_size = 10;
auto const* root_element = m_document.first_child_of_type<HTML::HTMLHtmlElement>();
if (!root_element)
return default_root_element_font_size;
auto const* computed_root_style = root_element->computed_css_values();
if (!computed_root_style)
return default_root_element_font_size;
auto maybe_root_value = computed_root_style->property(CSS::PropertyID::FontSize);
if (!maybe_root_value.has_value())
return default_root_element_font_size;
return maybe_root_value.value()->to_length().to_px(viewport_rect(), computed_root_style->computed_font().pixel_metrics(), default_root_element_font_size, default_root_element_font_size);
}
void StyleComputer::compute_font(StyleProperties& style, DOM::Element const* element, Optional<CSS::Selector::PseudoElement> pseudo_element) const
{
// To compute the font, first ensure that we've defaulted the relevant CSS font properties.
// FIXME: This should be more sophisticated.
compute_defaulted_property_value(style, element, CSS::PropertyID::FontFamily, pseudo_element);
compute_defaulted_property_value(style, element, CSS::PropertyID::FontSize, pseudo_element);
compute_defaulted_property_value(style, element, CSS::PropertyID::FontStyle, pseudo_element);
compute_defaulted_property_value(style, element, CSS::PropertyID::FontWeight, pseudo_element);
auto* parent_element = get_parent_element(element, pseudo_element);
auto font_size = style.property(CSS::PropertyID::FontSize).value();
auto font_style = style.property(CSS::PropertyID::FontStyle).value();
auto font_weight = style.property(CSS::PropertyID::FontWeight).value();
int weight = Gfx::FontWeight::Regular;
if (font_weight->is_identifier()) {
switch (static_cast<IdentifierStyleValue const&>(*font_weight).id()) {
case CSS::ValueID::Normal:
weight = Gfx::FontWeight::Regular;
break;
case CSS::ValueID::Bold:
weight = Gfx::FontWeight::Bold;
break;
case CSS::ValueID::Lighter:
// FIXME: This should be relative to the parent.
weight = Gfx::FontWeight::Regular;
break;
case CSS::ValueID::Bolder:
// FIXME: This should be relative to the parent.
weight = Gfx::FontWeight::Bold;
break;
default:
break;
}
} else if (font_weight->has_integer()) {
int font_weight_integer = font_weight->to_integer();
if (font_weight_integer <= Gfx::FontWeight::Regular)
weight = Gfx::FontWeight::Regular;
else if (font_weight_integer <= Gfx::FontWeight::Bold)
weight = Gfx::FontWeight::Bold;
else
weight = Gfx::FontWeight::Black;
} else if (font_weight->is_calculated()) {
auto maybe_weight = font_weight->as_calculated().resolve_integer();
if (maybe_weight.has_value())
weight = maybe_weight.value();
}
bool bold = weight > Gfx::FontWeight::Regular;
float font_size_in_px = 10;
if (font_size->is_identifier()) {
switch (static_cast<IdentifierStyleValue const&>(*font_size).id()) {
case CSS::ValueID::XxSmall:
case CSS::ValueID::XSmall:
case CSS::ValueID::Small:
case CSS::ValueID::Medium:
// FIXME: Should be based on "user's default font size"
font_size_in_px = 10;
break;
case CSS::ValueID::Large:
case CSS::ValueID::XLarge:
case CSS::ValueID::XxLarge:
case CSS::ValueID::XxxLarge:
// FIXME: Should be based on "user's default font size"
font_size_in_px = 12;
break;
case CSS::ValueID::Smaller:
case CSS::ValueID::Larger:
// FIXME: Should be based on parent element
break;
default:
break;
}
} else {
float root_font_size = root_element_font_size();
Gfx::FontPixelMetrics font_metrics;
if (parent_element && parent_element->computed_css_values())
font_metrics = parent_element->computed_css_values()->computed_font().pixel_metrics();
else
font_metrics = Gfx::FontDatabase::default_font().pixel_metrics();
auto parent_font_size = [&]() -> float {
if (!parent_element || !parent_element->computed_css_values())
return font_size_in_px;
auto value = parent_element->computed_css_values()->property(CSS::PropertyID::FontSize).value();
if (value->is_length()) {
auto length = static_cast<LengthStyleValue const&>(*value).to_length();
if (length.is_absolute() || length.is_relative())
return length.to_px(viewport_rect(), font_metrics, font_size_in_px, root_font_size);
}
return font_size_in_px;
};
Optional<Length> maybe_length;
if (font_size->is_percentage()) {
// Percentages refer to parent element's font size
maybe_length = Length::make_px(font_size->as_percentage().percentage().as_fraction() * parent_font_size());
} else if (font_size->is_length()) {
maybe_length = font_size->to_length();
} else if (font_size->is_calculated()) {
maybe_length = Length::make_calculated(font_size->as_calculated());
}
if (maybe_length.has_value()) {
// FIXME: Support font-size: calc(...)
// Theoretically we can do this now, but to resolve it we need a layout_node which we might not have. :^(
if (!maybe_length->is_calculated()) {
auto px = maybe_length.value().to_px(viewport_rect(), font_metrics, parent_font_size(), root_font_size);
if (px != 0)
font_size_in_px = px;
}
}
}
int slope = Gfx::name_to_slope("Normal");
// FIXME: Implement oblique <angle>
if (font_style->is_identifier()) {
switch (static_cast<IdentifierStyleValue const&>(*font_style).id()) {
case CSS::ValueID::Italic:
slope = Gfx::name_to_slope("Italic");
break;
case CSS::ValueID::Oblique:
slope = Gfx::name_to_slope("Oblique");
break;
case CSS::ValueID::Normal:
default:
break;
}
}
// FIXME: Implement the full font-matching algorithm: https://www.w3.org/TR/css-fonts-4/#font-matching-algorithm
// Note: This is modified by the find_font() lambda
FontSelector font_selector;
bool monospace = false;
auto find_font = [&](String const& family) -> RefPtr<Gfx::Font> {
float font_size_in_pt = font_size_in_px * 0.75f;
font_selector = { family, font_size_in_pt, weight, slope };
if (auto it = m_loaded_fonts.find(family); it != m_loaded_fonts.end()) {
auto& loader = *it->value;
if (auto found_font = loader.font_with_point_size(font_size_in_pt))
return found_font;
}
if (auto found_font = FontCache::the().get(font_selector))
return found_font;
if (auto found_font = Gfx::FontDatabase::the().get(family, font_size_in_pt, weight, slope, Gfx::Font::AllowInexactSizeMatch::Yes))
return found_font;
return {};
};
// FIXME: Replace hard-coded font names with a relevant call to FontDatabase.
// Currently, we cannot request the default font's name, or request it at a specific size and weight.
// So, hard-coded font names it is.
auto find_generic_font = [&](ValueID font_id) -> RefPtr<Gfx::Font> {
switch (font_id) {
case ValueID::Monospace:
case ValueID::UiMonospace:
monospace = true;
return find_font("Csilla");
case ValueID::Serif:
return find_font("Roman");
case ValueID::Fantasy:
return find_font("Comic Book");
case ValueID::SansSerif:
case ValueID::Cursive:
case ValueID::UiSerif:
case ValueID::UiSansSerif:
case ValueID::UiRounded:
return find_font("Katica");
default:
return {};
}
};
RefPtr<Gfx::Font> found_font;
auto family_value = style.property(PropertyID::FontFamily).value();
if (family_value->is_value_list()) {
auto const& family_list = static_cast<StyleValueList const&>(*family_value).values();
for (auto const& family : family_list) {
if (family.is_identifier()) {
found_font = find_generic_font(family.to_identifier());
} else if (family.is_string()) {
found_font = find_font(family.to_string());
}
if (found_font)
break;
}
} else if (family_value->is_identifier()) {
found_font = find_generic_font(family_value->to_identifier());
} else if (family_value->is_string()) {
found_font = find_font(family_value->to_string());
}
if (!found_font) {
found_font = StyleProperties::font_fallback(monospace, bold);
}
FontCache::the().set(font_selector, *found_font);
style.set_property(CSS::PropertyID::FontSize, LengthStyleValue::create(CSS::Length::make_px(font_size_in_px)));
style.set_property(CSS::PropertyID::FontWeight, NumericStyleValue::create_integer(weight));
style.set_computed_font(found_font.release_nonnull());
}
Gfx::Font const& StyleComputer::initial_font() const
{
// FIXME: This is not correct.
return StyleProperties::font_fallback(false, false);
}
void StyleComputer::absolutize_values(StyleProperties& style, DOM::Element const*, Optional<CSS::Selector::PseudoElement>) const
{
auto font_metrics = style.computed_font().pixel_metrics();
float root_font_size = root_element_font_size();
float font_size = style.property(CSS::PropertyID::FontSize).value()->to_length().to_px(viewport_rect(), font_metrics, root_font_size, root_font_size);
for (size_t i = 0; i < style.m_property_values.size(); ++i) {
auto& value_slot = style.m_property_values[i];
if (!value_slot)
continue;
value_slot = value_slot->absolutized(viewport_rect(), font_metrics, font_size, root_font_size);
}
}
enum class BoxTypeTransformation {
None,
Blockify,
Inlinify,
};
static BoxTypeTransformation required_box_type_transformation(StyleProperties const& style, DOM::Element const& element, Optional<CSS::Selector::PseudoElement> const&)
{
// Absolute positioning or floating an element blockifies the box’s display type. [CSS2]
if (style.position() == CSS::Position::Absolute || style.position() == CSS::Position::Fixed || style.float_() != CSS::Float::None)
return BoxTypeTransformation::Blockify;
// FIXME: Containment in a ruby container inlinifies the box’s display type, as described in [CSS-RUBY-1].
// A parent with a grid or flex display value blockifies the box’s display type. [CSS-GRID-1] [CSS-FLEXBOX-1]
if (element.parent_element() && element.parent_element()->computed_css_values()) {
auto const& parent_display = element.parent_element()->computed_css_values()->display();
if (parent_display.is_grid_inside() || parent_display.is_flex_inside())
return BoxTypeTransformation::Blockify;
}
return BoxTypeTransformation::None;
}
// https://drafts.csswg.org/css-display/#transformations
void StyleComputer::transform_box_type_if_needed(StyleProperties& style, DOM::Element const& element, Optional<CSS::Selector::PseudoElement> pseudo_element) const
{
// 2.7. Automatic Box Type Transformations
// Some layout effects require blockification or inlinification of the box type,
// which sets the box’s computed outer display type to block or inline (respectively).
// (This has no effect on display types that generate no box at all, such as none or contents.)
// FIXME: If a block box (block flow) is inlinified, its inner display type is set to flow-root so that it remains a block container.
//
// FIXME: If an inline box (inline flow) is inlinified, it recursively inlinifies all of its in-flow children,
// so that no block-level descendants break up the inline formatting context in which it participates.
//
// FIXME: For legacy reasons, if an inline block box (inline flow-root) is blockified, it becomes a block box (losing its flow-root nature).
// For consistency, a run-in flow-root box also blockifies to a block box.
//
// FIXME: If a layout-internal box is blockified, its inner display type converts to flow so that it becomes a block container.
// Inlinification has no effect on layout-internal boxes. (However, placement in such an inline context will typically cause them
// to be wrapped in an appropriately-typed anonymous inline-level box.)
auto display = style.display();
if (display.is_none() || display.is_contents())
return;
switch (required_box_type_transformation(style, element, pseudo_element)) {
case BoxTypeTransformation::None:
break;
case BoxTypeTransformation::Blockify:
if (!display.is_block_outside())
style.set_property(CSS::PropertyID::Display, IdentifierStyleValue::create(CSS::ValueID::Block));
break;
case BoxTypeTransformation::Inlinify:
if (!display.is_inline_outside())
style.set_property(CSS::PropertyID::Display, IdentifierStyleValue::create(CSS::ValueID::Inline));
break;
}
}
NonnullRefPtr<StyleProperties> StyleComputer::create_document_style() const
{
auto style = StyleProperties::create();
compute_font(style, nullptr, {});
compute_defaulted_values(style, nullptr, {});
absolutize_values(style, nullptr, {});
style->set_property(CSS::PropertyID::Width, CSS::LengthStyleValue::create(CSS::Length::make_px(viewport_rect().width())));
style->set_property(CSS::PropertyID::Height, CSS::LengthStyleValue::create(CSS::Length::make_px(viewport_rect().height())));
return style;
}
NonnullRefPtr<StyleProperties> StyleComputer::compute_style(DOM::Element& element, Optional<CSS::Selector::PseudoElement> pseudo_element) const
{
load_fonts_if_needed();
build_rule_cache_if_needed();
auto style = StyleProperties::create();
// 1. Perform the cascade. This produces the "specified style"
compute_cascaded_values(style, element, pseudo_element);
// 2. Compute the font, since that may be needed for font-relative CSS units
compute_font(style, &element, pseudo_element);
// 3. Absolutize values, turning font/viewport relative lengths into absolute lengths
absolutize_values(style, &element, pseudo_element);
// 4. Default the values, applying inheritance and 'initial' as needed
compute_defaulted_values(style, &element, pseudo_element);
// 5. Run automatic box type transformations
transform_box_type_if_needed(style, element, pseudo_element);
return style;
}
PropertyDependencyNode::PropertyDependencyNode(String name)
: m_name(move(name))
{
}
void PropertyDependencyNode::add_child(NonnullRefPtr<PropertyDependencyNode> new_child)
{
for (auto const& child : m_children) {
if (child.m_name == new_child->m_name)
return;
}
// We detect self-reference already.
VERIFY(new_child->m_name != m_name);
m_children.append(move(new_child));
}
bool PropertyDependencyNode::has_cycles()
{
if (m_marked)
return true;
TemporaryChange change { m_marked, true };
for (auto& child : m_children) {
if (child.has_cycles())
return true;
}
return false;
}
void StyleComputer::build_rule_cache_if_needed() const
{
if (m_rule_cache)
return;
const_cast<StyleComputer&>(*this).build_rule_cache();
}
void StyleComputer::build_rule_cache()
{
// FIXME: Make a rule cache for UA style as well.
m_rule_cache = make<RuleCache>();
size_t num_class_rules = 0;
size_t num_id_rules = 0;
size_t num_tag_name_rules = 0;
size_t num_pseudo_element_rules = 0;
Vector<MatchingRule> matching_rules;
size_t style_sheet_index = 0;
for_each_stylesheet(CascadeOrigin::Author, [&](auto& sheet) {
size_t rule_index = 0;
static_cast<CSSStyleSheet const&>(sheet).for_each_effective_style_rule([&](auto const& rule) {
size_t selector_index = 0;
for (CSS::Selector const& selector : rule.selectors()) {
MatchingRule matching_rule { rule, style_sheet_index, rule_index, selector_index, selector.specificity() };
bool added_to_bucket = false;
for (auto const& simple_selector : selector.compound_selectors().last().simple_selectors) {
if (simple_selector.type == CSS::Selector::SimpleSelector::Type::PseudoElement) {
m_rule_cache->rules_by_pseudo_element.ensure(simple_selector.pseudo_element()).append(move(matching_rule));
++num_pseudo_element_rules;
added_to_bucket = true;
break;
}
}
if (!added_to_bucket) {
for (auto const& simple_selector : selector.compound_selectors().last().simple_selectors) {
if (simple_selector.type == CSS::Selector::SimpleSelector::Type::Id) {
m_rule_cache->rules_by_id.ensure(simple_selector.name()).append(move(matching_rule));
++num_id_rules;
added_to_bucket = true;
break;
}
if (simple_selector.type == CSS::Selector::SimpleSelector::Type::Class) {
m_rule_cache->rules_by_class.ensure(simple_selector.name()).append(move(matching_rule));
++num_class_rules;
added_to_bucket = true;
break;
}
if (simple_selector.type == CSS::Selector::SimpleSelector::Type::TagName) {
m_rule_cache->rules_by_tag_name.ensure(simple_selector.name()).append(move(matching_rule));
++num_tag_name_rules;
added_to_bucket = true;
break;
}
}
}
if (!added_to_bucket)
m_rule_cache->other_rules.append(move(matching_rule));
++selector_index;
}
++rule_index;
});
++style_sheet_index;
});
if constexpr (LIBWEB_CSS_DEBUG) {
dbgln("Built rule cache!");
dbgln(" ID: {}", num_id_rules);
dbgln(" Class: {}", num_class_rules);
dbgln(" TagName: {}", num_tag_name_rules);
dbgln("PseudoElement: {}", num_pseudo_element_rules);
dbgln(" Other: {}", m_rule_cache->other_rules.size());
dbgln(" Total: {}", num_class_rules + num_id_rules + num_tag_name_rules + m_rule_cache->other_rules.size());
}
}
void StyleComputer::invalidate_rule_cache()
{
m_rule_cache = nullptr;
}
Gfx::IntRect StyleComputer::viewport_rect() const
{
if (auto const* browsing_context = document().browsing_context())
return browsing_context->viewport_rect();
return {};
}
void StyleComputer::did_load_font([[maybe_unused]] FlyString const& family_name)
{
document().invalidate_style();
}
void StyleComputer::load_fonts_if_needed() const
{
for_each_stylesheet(CascadeOrigin::Author, [&](StyleSheet const& sheet) {
for (auto const& rule : static_cast<CSSStyleSheet const&>(sheet).rules()) {
if (!is<CSSFontFaceRule>(rule))
continue;
auto const& font_face = static_cast<CSSFontFaceRule const&>(rule).font_face();
if (font_face.sources().is_empty())
continue;
if (m_loaded_fonts.contains(font_face.font_family()))
continue;
LoadRequest request;
auto url = m_document.parse_url(font_face.sources().first().url.to_string());
auto loader = make<FontLoader>(const_cast<StyleComputer&>(*this), font_face.font_family(), move(url));
const_cast<StyleComputer&>(*this).m_loaded_fonts.set(font_face.font_family(), move(loader));
}
});
}
}