/* * Copyright (c) 2018-2020, Andreas Kling * Copyright (c) 2021, Tobias Christiansen * Copyright (c) 2021, Sam Atkins * * SPDX-License-Identifier: BSD-2-Clause */ #pragma once #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace Web::CSS { enum class AlignItems { FlexStart, FlexEnd, Center, Baseline, Stretch, }; enum class Clear { None, Left, Right, Both, }; enum class Cursor { Auto, Default, None, ContextMenu, Help, Pointer, Progress, Wait, Cell, Crosshair, Text, VerticalText, Alias, Copy, Move, NoDrop, NotAllowed, Grab, Grabbing, EResize, NResize, NeResize, NwResize, SResize, SeResize, SwResize, WResize, EwResize, NsResize, NeswResize, NwseResize, ColResize, RowResize, AllScroll, ZoomIn, ZoomOut, }; enum class Display { None, Block, Inline, InlineBlock, ListItem, Table, TableRow, TableCell, TableHeaderGroup, TableRowGroup, TableFooterGroup, TableColumn, TableColumnGroup, TableCaption, Flex, }; enum class FlexBasis { Content, Length, Auto, }; enum class FlexDirection { Row, RowReverse, Column, ColumnReverse, }; enum class FlexWrap { Nowrap, Wrap, WrapReverse }; enum class Float { None, Left, Right, }; enum class JustifyContent { FlexStart, FlexEnd, Center, SpaceBetween, SpaceAround, }; enum class LineStyle { None, Hidden, Dotted, Dashed, Solid, Double, Groove, Ridge, Inset, Outset, }; enum class ListStyleType { None, Disc, Circle, Square, Decimal, DecimalLeadingZero, LowerAlpha, LowerLatin, LowerRoman, UpperAlpha, UpperLatin, UpperRoman, }; enum class Overflow : u8 { Auto, Clip, Hidden, Scroll, Visible, }; enum class Position { Static, Relative, Absolute, Fixed, Sticky, }; enum class Repeat : u8 { NoRepeat, Repeat, Round, Space, }; enum class TextAlign { Left, Center, Right, Justify, LibwebCenter, }; enum class TextDecorationLine { None, Underline, Overline, LineThrough, Blink, }; enum class TextTransform { None, Capitalize, Uppercase, Lowercase, FullWidth, FullSizeKana, }; enum class TransformFunction { TranslateY, }; enum class WhiteSpace { Normal, Pre, Nowrap, PreLine, PreWrap, }; class StyleValue : public RefCounted { public: virtual ~StyleValue(); enum class Type { Background, BackgroundRepeat, Border, BorderRadius, BoxShadow, Calculated, Color, CombinedBorderRadius, CustomProperty, Flex, FlexFlow, Font, Identifier, Image, Inherit, Initial, Invalid, Length, ListStyle, Numeric, Overflow, String, TextDecoration, Transformation, Unset, ValueList, }; Type type() const { return m_type; } bool is_background() const { return type() == Type::Background; } bool is_background_repeat() const { return type() == Type::BackgroundRepeat; } bool is_border() const { return type() == Type::Border; } bool is_border_radius() const { return type() == Type::BorderRadius; } bool is_box_shadow() const { return type() == Type::BoxShadow; } bool is_calculated() const { return type() == Type::Calculated; } bool is_color() const { return type() == Type::Color; } bool is_custom_property() const { return type() == Type::CustomProperty; } bool is_flex() const { return type() == Type::Flex; } bool is_flex_flow() const { return type() == Type::FlexFlow; } bool is_font() const { return type() == Type::Font; } bool is_identifier() const { return type() == Type::Identifier; } bool is_image() const { return type() == Type::Image; } bool is_inherit() const { return type() == Type::Inherit; } bool is_initial() const { return type() == Type::Initial; } bool is_length() const { return type() == Type::Length; } bool is_list_style() const { return type() == Type::ListStyle; } bool is_numeric() const { return type() == Type::Numeric; } bool is_overflow() const { return type() == Type::Overflow; } bool is_string() const { return type() == Type::String; } bool is_text_decoration() const { return type() == Type::TextDecoration; } bool is_transformation() const { return type() == Type::Transformation; } bool is_unset() const { return type() == Type::Unset; } bool is_value_list() const { return type() == Type::ValueList; } bool is_builtin() const { return is_inherit() || is_initial() || is_unset(); } BackgroundRepeatStyleValue const& as_background_repeat() const; BackgroundStyleValue const& as_background() const; BorderRadiusStyleValue const& as_border_radius() const; BorderStyleValue const& as_border() const; BoxShadowStyleValue const& as_box_shadow() const; CalculatedStyleValue const& as_calculated() const; ColorStyleValue const& as_color() const; CustomStyleValue const& as_custom_property() const; FlexFlowStyleValue const& as_flex_flow() const; FlexStyleValue const& as_flex() const; FontStyleValue const& as_font() const; IdentifierStyleValue const& as_identifier() const; ImageStyleValue const& as_image() const; InheritStyleValue const& as_inherit() const; InitialStyleValue const& as_initial() const; LengthStyleValue const& as_length() const; ListStyleStyleValue const& as_list_style() const; NumericStyleValue const& as_numeric() const; OverflowStyleValue const& as_overflow() const; StringStyleValue const& as_string() const; TextDecorationStyleValue const& as_text_decoration() const; TransformationStyleValue const& as_transformation() const; UnsetStyleValue const& as_unset() const; StyleValueList const& as_value_list() const; BackgroundRepeatStyleValue& as_background_repeat() { return const_cast(const_cast(*this).as_background_repeat()); } BackgroundStyleValue& as_background() { return const_cast(const_cast(*this).as_background()); } BorderRadiusStyleValue& as_border_radius() { return const_cast(const_cast(*this).as_border_radius()); } BorderStyleValue& as_border() { return const_cast(const_cast(*this).as_border()); } BoxShadowStyleValue& as_box_shadow() { return const_cast(const_cast(*this).as_box_shadow()); } CalculatedStyleValue& as_calculated() { return const_cast(const_cast(*this).as_calculated()); } ColorStyleValue& as_color() { return const_cast(const_cast(*this).as_color()); } CustomStyleValue& as_custom_property() { return const_cast(const_cast(*this).as_custom_property()); } FlexFlowStyleValue& as_flex_flow() { return const_cast(const_cast(*this).as_flex_flow()); } FlexStyleValue& as_flex() { return const_cast(const_cast(*this).as_flex()); } FontStyleValue& as_font() { return const_cast(const_cast(*this).as_font()); } IdentifierStyleValue& as_identifier() { return const_cast(const_cast(*this).as_identifier()); } ImageStyleValue& as_image() { return const_cast(const_cast(*this).as_image()); } InheritStyleValue& as_inherit() { return const_cast(const_cast(*this).as_inherit()); } InitialStyleValue& as_initial() { return const_cast(const_cast(*this).as_initial()); } LengthStyleValue& as_length() { return const_cast(const_cast(*this).as_length()); } ListStyleStyleValue& as_list_style() { return const_cast(const_cast(*this).as_list_style()); } NumericStyleValue& as_numeric() { return const_cast(const_cast(*this).as_numeric()); } OverflowStyleValue& as_overflow() { return const_cast(const_cast(*this).as_overflow()); } StringStyleValue& as_string() { return const_cast(const_cast(*this).as_string()); } TextDecorationStyleValue& as_text_decoration() { return const_cast(const_cast(*this).as_text_decoration()); } TransformationStyleValue& as_transformation() { return const_cast(const_cast(*this).as_transformation()); } UnsetStyleValue& as_unset() { return const_cast(const_cast(*this).as_unset()); } StyleValueList& as_value_list() { return const_cast(const_cast(*this).as_value_list()); } virtual bool has_auto() const { return false; } virtual bool has_color() const { return false; } virtual bool has_identifier() const { return false; } virtual bool has_length() const { return false; } virtual bool has_number() const { return false; } virtual Color to_color(Layout::NodeWithStyle const&) const { return {}; } virtual CSS::ValueID to_identifier() const { return ValueID::Invalid; } virtual Length to_length() const { return {}; } virtual float to_number() const { return {}; } virtual String to_string() const = 0; bool operator==(const StyleValue& other) const { return equals(other); } bool operator!=(const StyleValue& other) const { return !(*this == other); } virtual bool equals(const StyleValue& other) const { if (type() != other.type()) return false; return to_string() == other.to_string(); } virtual void visit_lengths(Function) { } protected: explicit StyleValue(Type); private: Type m_type { Type::Invalid }; }; class BackgroundStyleValue final : public StyleValue { public: static NonnullRefPtr create( NonnullRefPtr color, NonnullRefPtr image, NonnullRefPtr repeat_x, NonnullRefPtr repeat_y) { return adopt_ref(*new BackgroundStyleValue(color, image, repeat_x, repeat_y)); } virtual ~BackgroundStyleValue() override { } NonnullRefPtr color() const { return m_color; } NonnullRefPtr image() const { return m_image; } NonnullRefPtr repeat_x() const { return m_repeat_x; } NonnullRefPtr repeat_y() const { return m_repeat_y; } virtual String to_string() const override { return String::formatted("{} {} {} {}", m_color->to_string(), m_image->to_string(), m_repeat_x->to_string(), m_repeat_y->to_string()); } private: BackgroundStyleValue( NonnullRefPtr color, NonnullRefPtr image, NonnullRefPtr repeat_x, NonnullRefPtr repeat_y) : StyleValue(Type::Background) , m_color(color) , m_image(image) , m_repeat_x(repeat_x) , m_repeat_y(repeat_y) { } NonnullRefPtr m_color; NonnullRefPtr m_image; // FIXME: background-position // FIXME: background-size NonnullRefPtr m_repeat_x; NonnullRefPtr m_repeat_y; // FIXME: background-attachment // FIXME: background-clip // FIXME: background-origin }; class BackgroundRepeatStyleValue final : public StyleValue { public: static NonnullRefPtr create(NonnullRefPtr repeat_x, NonnullRefPtr repeat_y) { return adopt_ref(*new BackgroundRepeatStyleValue(repeat_x, repeat_y)); } virtual ~BackgroundRepeatStyleValue() override { } NonnullRefPtr repeat_x() const { return m_repeat_x; } NonnullRefPtr repeat_y() const { return m_repeat_y; } virtual String to_string() const override { return String::formatted("{} {}", m_repeat_x->to_string(), m_repeat_y->to_string()); } private: BackgroundRepeatStyleValue(NonnullRefPtr repeat_x, NonnullRefPtr repeat_y) : StyleValue(Type::BackgroundRepeat) , m_repeat_x(repeat_x) , m_repeat_y(repeat_y) { } NonnullRefPtr m_repeat_x; NonnullRefPtr m_repeat_y; }; class BorderStyleValue final : public StyleValue { public: static NonnullRefPtr create( NonnullRefPtr border_width, NonnullRefPtr border_style, NonnullRefPtr border_color) { return adopt_ref(*new BorderStyleValue(border_width, border_style, border_color)); } virtual ~BorderStyleValue() override { } NonnullRefPtr border_width() const { return m_border_width; } NonnullRefPtr border_style() const { return m_border_style; } NonnullRefPtr border_color() const { return m_border_color; } virtual String to_string() const override { return String::formatted("Border border_width: {}, border_style: {}, border_color: {}", m_border_width->to_string(), m_border_style->to_string(), m_border_color->to_string()); } private: BorderStyleValue( NonnullRefPtr border_width, NonnullRefPtr border_style, NonnullRefPtr border_color) : StyleValue(Type::Border) , m_border_width(border_width) , m_border_style(border_style) , m_border_color(border_color) { } NonnullRefPtr m_border_width; NonnullRefPtr m_border_style; NonnullRefPtr m_border_color; }; class BorderRadiusStyleValue final : public StyleValue { public: static NonnullRefPtr create(Length const& horizontal_radius, Length const& vertical_radius) { return adopt_ref(*new BorderRadiusStyleValue(horizontal_radius, vertical_radius)); } virtual ~BorderRadiusStyleValue() override { } Length const& horizontal_radius() const { return m_horizontal_radius; } Length const& vertical_radius() const { return m_vertical_radius; } bool is_elliptical() const { return m_is_elliptical; } // FIXME: Remove this once we support elliptical border-radius in Layout/Node. virtual Length to_length() const override { return horizontal_radius(); } virtual String to_string() const override { return String::formatted("{} / {}", m_horizontal_radius.to_string(), m_vertical_radius.to_string()); } virtual bool equals(StyleValue const& other) const override { if (type() != other.type()) return false; auto& other_value = static_cast(other); return m_is_elliptical == other_value.m_is_elliptical && m_horizontal_radius == other_value.m_horizontal_radius && m_vertical_radius == other_value.m_vertical_radius; } private: BorderRadiusStyleValue(Length const& horizontal_radius, Length const& vertical_radius) : StyleValue(Type::BorderRadius) , m_horizontal_radius(horizontal_radius) , m_vertical_radius(vertical_radius) { m_is_elliptical = (m_horizontal_radius != m_vertical_radius); } virtual void visit_lengths(Function visitor) override { visitor(m_horizontal_radius); visitor(m_vertical_radius); } bool m_is_elliptical; Length m_horizontal_radius; Length m_vertical_radius; }; class BoxShadowStyleValue final : public StyleValue { public: static NonnullRefPtr create(Length const& offset_x, Length const& offset_y, Length const& blur_radius, Color const& color) { return adopt_ref(*new BoxShadowStyleValue(offset_x, offset_y, blur_radius, color)); } virtual ~BoxShadowStyleValue() override { } Length const& offset_x() const { return m_offset_x; } Length const& offset_y() const { return m_offset_y; } Length const& blur_radius() const { return m_blur_radius; } Color const& color() const { return m_color; } String to_string() const override { return String::formatted("BoxShadow offset_x: {}, offset_y: {}, blur_radius: {}, color: {}", m_offset_x.to_string(), m_offset_y.to_string(), m_blur_radius.to_string(), m_color.to_string()); } private: explicit BoxShadowStyleValue(Length const& offset_x, Length const& offset_y, Length const& blur_radius, Color const& color) : StyleValue(Type::BoxShadow) , m_offset_x(offset_x) , m_offset_y(offset_y) , m_blur_radius(blur_radius) , m_color(color) { } virtual void visit_lengths(Function visitor) override { visitor(m_offset_x); visitor(m_offset_y); visitor(m_blur_radius); } Length m_offset_x; Length m_offset_y; Length m_blur_radius; Color m_color; }; class CalculatedStyleValue : public StyleValue { public: struct CalcSum; struct CalcSumPartWithOperator; struct CalcProduct; struct CalcProductPartWithOperator; struct CalcNumberSum; struct CalcNumberSumPartWithOperator; struct CalcNumberProduct; struct CalcNumberProductPartWithOperator; using CalcNumberValue = Variant>; using CalcValue = Variant>; // This represents that: https://drafts.csswg.org/css-values-3/#calc-syntax struct CalcSum { CalcSum(NonnullOwnPtr first_calc_product, NonnullOwnPtrVector additional) : first_calc_product(move(first_calc_product)) , zero_or_more_additional_calc_products(move(additional)) {}; NonnullOwnPtr first_calc_product; NonnullOwnPtrVector zero_or_more_additional_calc_products; }; struct CalcNumberSum { CalcNumberSum(NonnullOwnPtr first_calc_number_product, NonnullOwnPtrVector additional) : first_calc_number_product(move(first_calc_number_product)) , zero_or_more_additional_calc_number_products(move(additional)) {}; NonnullOwnPtr first_calc_number_product; NonnullOwnPtrVector zero_or_more_additional_calc_number_products; }; struct CalcProduct { CalcValue first_calc_value; NonnullOwnPtrVector zero_or_more_additional_calc_values; }; struct CalcSumPartWithOperator { enum Operation { Add, Subtract, }; CalcSumPartWithOperator(Operation op, NonnullOwnPtr calc_product) : op(op) , calc_product(move(calc_product)) {}; Operation op; NonnullOwnPtr calc_product; }; struct CalcProductPartWithOperator { enum { Multiply, Divide, } op; Variant value; }; struct CalcNumberProduct { CalcNumberValue first_calc_number_value; NonnullOwnPtrVector zero_or_more_additional_calc_number_values; }; struct CalcNumberProductPartWithOperator { enum { Multiply, Divide, } op; CalcNumberValue value; }; struct CalcNumberSumPartWithOperator { enum Operation { Add, Subtract, }; CalcNumberSumPartWithOperator(Operation op, NonnullOwnPtr calc_number_product) : op(op) , calc_number_product(move(calc_number_product)) {}; Operation op; NonnullOwnPtr calc_number_product; }; static NonnullRefPtr create(String const& expression_string, NonnullOwnPtr calc_sum) { return adopt_ref(*new CalculatedStyleValue(expression_string, move(calc_sum))); } String to_string() const override { return m_expression_string; } NonnullOwnPtr const& expression() const { return m_expression; } private: explicit CalculatedStyleValue(String const& expression_string, NonnullOwnPtr calc_sum) : StyleValue(Type::Calculated) , m_expression_string(expression_string) , m_expression(move(calc_sum)) { } String m_expression_string; NonnullOwnPtr m_expression; }; class ColorStyleValue : public StyleValue { public: static NonnullRefPtr create(Color color) { return adopt_ref(*new ColorStyleValue(color)); } virtual ~ColorStyleValue() override { } Color color() const { return m_color; } virtual String to_string() const override; virtual bool has_color() const override { return true; } virtual Color to_color(Layout::NodeWithStyle const&) const override { return m_color; } virtual bool equals(const StyleValue& other) const override { if (type() != other.type()) return false; return m_color == static_cast(other).m_color; } private: explicit ColorStyleValue(Color color) : StyleValue(Type::Color) , m_color(color) { } Color m_color; }; class CombinedBorderRadiusStyleValue final : public StyleValue { public: static NonnullRefPtr create(NonnullRefPtr top_left, NonnullRefPtr top_right, NonnullRefPtr bottom_right, NonnullRefPtr bottom_left) { return adopt_ref(*new CombinedBorderRadiusStyleValue(top_left, top_right, bottom_right, bottom_left)); } virtual ~CombinedBorderRadiusStyleValue() override { } NonnullRefPtr top_left() const { return m_top_left; } NonnullRefPtr top_right() const { return m_top_right; } NonnullRefPtr bottom_right() const { return m_bottom_right; } NonnullRefPtr bottom_left() const { return m_bottom_left; } virtual String to_string() const override { return String::formatted("{} {} {} {} / {} {} {} {}", m_top_left->horizontal_radius().to_string(), m_top_right->horizontal_radius().to_string(), m_bottom_right->horizontal_radius().to_string(), m_bottom_left->horizontal_radius().to_string(), m_top_left->vertical_radius().to_string(), m_top_right->vertical_radius().to_string(), m_bottom_right->vertical_radius().to_string(), m_bottom_left->vertical_radius().to_string()); } private: CombinedBorderRadiusStyleValue(NonnullRefPtr top_left, NonnullRefPtr top_right, NonnullRefPtr bottom_right, NonnullRefPtr bottom_left) : StyleValue(Type::CombinedBorderRadius) , m_top_left(top_left) , m_top_right(top_right) , m_bottom_right(bottom_right) , m_bottom_left(bottom_left) { } NonnullRefPtr m_top_left; NonnullRefPtr m_top_right; NonnullRefPtr m_bottom_right; NonnullRefPtr m_bottom_left; }; // FIXME: Allow for fallback class CustomStyleValue : public StyleValue { public: static NonnullRefPtr create(const String& custom_property_name) { return adopt_ref(*new CustomStyleValue(custom_property_name)); } String custom_property_name() const { return m_custom_property_name; } String to_string() const override { return m_custom_property_name; } private: explicit CustomStyleValue(const String& custom_property_name) : StyleValue(Type::CustomProperty) , m_custom_property_name(custom_property_name) { } String m_custom_property_name {}; }; class FlexStyleValue final : public StyleValue { public: static NonnullRefPtr create( NonnullRefPtr grow, NonnullRefPtr shrink, NonnullRefPtr basis) { return adopt_ref(*new FlexStyleValue(grow, shrink, basis)); } virtual ~FlexStyleValue() override { } NonnullRefPtr grow() const { return m_grow; } NonnullRefPtr shrink() const { return m_shrink; } NonnullRefPtr basis() const { return m_basis; } virtual String to_string() const override { return String::formatted("Flex grow: {}, shrink: {}, basis: {}", m_grow->to_string(), m_shrink->to_string(), m_basis->to_string()); } private: FlexStyleValue( NonnullRefPtr grow, NonnullRefPtr shrink, NonnullRefPtr basis) : StyleValue(Type::Flex) , m_grow(grow) , m_shrink(shrink) , m_basis(basis) { } NonnullRefPtr m_grow; NonnullRefPtr m_shrink; NonnullRefPtr m_basis; }; class FlexFlowStyleValue final : public StyleValue { public: static NonnullRefPtr create(NonnullRefPtr flex_direction, NonnullRefPtr flex_wrap) { return adopt_ref(*new FlexFlowStyleValue(flex_direction, flex_wrap)); } virtual ~FlexFlowStyleValue() override { } NonnullRefPtr flex_direction() const { return m_flex_direction; } NonnullRefPtr flex_wrap() const { return m_flex_wrap; } virtual String to_string() const override { return String::formatted("FlexFlow flex_direction: {}, flex_wrap: {}", m_flex_direction->to_string(), m_flex_wrap->to_string()); } private: FlexFlowStyleValue(NonnullRefPtr flex_direction, NonnullRefPtr flex_wrap) : StyleValue(Type::FlexFlow) , m_flex_direction(flex_direction) , m_flex_wrap(flex_wrap) { } NonnullRefPtr m_flex_direction; NonnullRefPtr m_flex_wrap; }; class FontStyleValue final : public StyleValue { public: static NonnullRefPtr create(NonnullRefPtr font_style, NonnullRefPtr font_weight, NonnullRefPtr font_size, NonnullRefPtr line_height, NonnullRefPtr font_families) { return adopt_ref(*new FontStyleValue(font_style, font_weight, font_size, line_height, font_families)); } virtual ~FontStyleValue() override { } NonnullRefPtr font_style() const { return m_font_style; } NonnullRefPtr font_weight() const { return m_font_weight; } NonnullRefPtr font_size() const { return m_font_size; } NonnullRefPtr line_height() const { return m_line_height; } NonnullRefPtr font_families() const { return m_font_families; } virtual String to_string() const override { return String::formatted("Font style: {}, weight: {}, size: {}, line_height: {}, families: {}", m_font_style->to_string(), m_font_weight->to_string(), m_font_size->to_string(), m_line_height->to_string(), m_font_families->to_string()); } private: FontStyleValue(NonnullRefPtr font_style, NonnullRefPtr font_weight, NonnullRefPtr font_size, NonnullRefPtr line_height, NonnullRefPtr font_families) : StyleValue(Type::Font) , m_font_style(font_style) , m_font_weight(font_weight) , m_font_size(font_size) , m_line_height(line_height) , m_font_families(font_families) { } NonnullRefPtr m_font_style; NonnullRefPtr m_font_weight; NonnullRefPtr m_font_size; NonnullRefPtr m_line_height; NonnullRefPtr m_font_families; // FIXME: Implement font-stretch and font-variant. }; class IdentifierStyleValue final : public StyleValue { public: static NonnullRefPtr create(CSS::ValueID id) { return adopt_ref(*new IdentifierStyleValue(id)); } virtual ~IdentifierStyleValue() override { } CSS::ValueID id() const { return m_id; } virtual bool has_auto() const override { return m_id == ValueID::Auto; } virtual bool has_identifier() const override { return true; } virtual CSS::ValueID to_identifier() const override { return m_id; } virtual bool has_color() const override; virtual Color to_color(Layout::NodeWithStyle const& node) const override; virtual String to_string() const override; virtual bool equals(const StyleValue& other) const override { if (type() != other.type()) return false; return m_id == static_cast(other).m_id; } private: explicit IdentifierStyleValue(CSS::ValueID id) : StyleValue(Type::Identifier) , m_id(id) { } CSS::ValueID m_id { CSS::ValueID::Invalid }; }; class ImageStyleValue final : public StyleValue , public ImageResourceClient { public: static NonnullRefPtr create(const AK::URL& url, DOM::Document* document) { return adopt_ref(*new ImageStyleValue(url, document)); } virtual ~ImageStyleValue() override { } String to_string() const override { return String::formatted("Image({})", m_url.to_string()); } const Gfx::Bitmap* bitmap() const { return m_bitmap; } private: ImageStyleValue(const AK::URL&, DOM::Document*); // ^ResourceClient virtual void resource_did_load() override; AK::URL m_url; WeakPtr m_document; RefPtr m_bitmap; }; class InheritStyleValue final : public StyleValue { public: static NonnullRefPtr the() { static NonnullRefPtr instance = adopt_ref(*new InheritStyleValue); return instance; } virtual ~InheritStyleValue() override { } String to_string() const override { return "inherit"; } private: InheritStyleValue() : StyleValue(Type::Inherit) { } }; class InitialStyleValue final : public StyleValue { public: static NonnullRefPtr the() { static NonnullRefPtr instance = adopt_ref(*new InitialStyleValue); return instance; } virtual ~InitialStyleValue() override { } String to_string() const override { return "initial"; } private: InitialStyleValue() : StyleValue(Type::Initial) { } }; class LengthStyleValue : public StyleValue { public: static NonnullRefPtr create(const Length& length) { return adopt_ref(*new LengthStyleValue(length)); } virtual ~LengthStyleValue() override { } Length const& length() const { return m_length; } virtual bool has_auto() const override { return m_length.is_auto(); } virtual bool has_length() const override { return true; } virtual String to_string() const override { return m_length.to_string(); } virtual Length to_length() const override { return m_length; } virtual bool equals(const StyleValue& other) const override { if (type() != other.type()) return false; return m_length == static_cast(other).m_length; } private: explicit LengthStyleValue(const Length& length) : StyleValue(Type::Length) , m_length(length) { } virtual void visit_lengths(Function visitor) override { visitor(m_length); } Length m_length; }; class ListStyleStyleValue final : public StyleValue { public: static NonnullRefPtr create( NonnullRefPtr position, NonnullRefPtr image, NonnullRefPtr style_type) { return adopt_ref(*new ListStyleStyleValue(position, image, style_type)); } virtual ~ListStyleStyleValue() override { } NonnullRefPtr position() const { return m_position; } NonnullRefPtr image() const { return m_image; } NonnullRefPtr style_type() const { return m_style_type; } virtual String to_string() const override { return String::formatted("ListStyle position: {}, image: {}, style_type: {}", m_position->to_string(), m_image->to_string(), m_style_type->to_string()); } private: ListStyleStyleValue( NonnullRefPtr position, NonnullRefPtr image, NonnullRefPtr style_type) : StyleValue(Type::ListStyle) , m_position(position) , m_image(image) , m_style_type(style_type) { } NonnullRefPtr m_position; NonnullRefPtr m_image; NonnullRefPtr m_style_type; }; class NumericStyleValue : public StyleValue { public: static NonnullRefPtr create(float value) { return adopt_ref(*new NumericStyleValue(value)); } virtual bool has_length() const override { return m_value == 0; } virtual Length to_length() const override { return Length(0, Length::Type::Px); } virtual bool has_number() const override { return true; } virtual float to_number() const override { return m_value; } float value() const { return m_value; } // FIXME: Store integer values separately i64 int_value() const { return roundf(m_value); } String to_string() const override { return String::formatted("{}", m_value); } virtual bool equals(StyleValue const& other) const override { if (type() != other.type()) return false; return m_value == static_cast(other).m_value; } private: explicit NumericStyleValue(float value) : StyleValue(Type::Numeric) , m_value(value) { } float m_value { 0 }; }; class OverflowStyleValue final : public StyleValue { public: static NonnullRefPtr create(NonnullRefPtr overflow_x, NonnullRefPtr overflow_y) { return adopt_ref(*new OverflowStyleValue(overflow_x, overflow_y)); } virtual ~OverflowStyleValue() override { } NonnullRefPtr overflow_x() const { return m_overflow_x; } NonnullRefPtr overflow_y() const { return m_overflow_y; } virtual String to_string() const override { return String::formatted("{} {}", m_overflow_x->to_string(), m_overflow_y->to_string()); } private: OverflowStyleValue(NonnullRefPtr overflow_x, NonnullRefPtr overflow_y) : StyleValue(Type::Overflow) , m_overflow_x(overflow_x) , m_overflow_y(overflow_y) { } NonnullRefPtr m_overflow_x; NonnullRefPtr m_overflow_y; }; class StringStyleValue : public StyleValue { public: static NonnullRefPtr create(const String& string) { return adopt_ref(*new StringStyleValue(string)); } virtual ~StringStyleValue() override { } String to_string() const override { return m_string; } private: explicit StringStyleValue(const String& string) : StyleValue(Type::String) , m_string(string) { } String m_string; }; class TextDecorationStyleValue final : public StyleValue { public: static NonnullRefPtr create( NonnullRefPtr line, NonnullRefPtr style, NonnullRefPtr color) { return adopt_ref(*new TextDecorationStyleValue(line, style, color)); } virtual ~TextDecorationStyleValue() override { } NonnullRefPtr line() const { return m_line; } NonnullRefPtr style() const { return m_style; } NonnullRefPtr color() const { return m_color; } virtual String to_string() const override { return String::formatted("TextDecoration line: {}, style: {}, color: {}", m_line->to_string(), m_style->to_string(), m_color->to_string()); } private: TextDecorationStyleValue( NonnullRefPtr line, NonnullRefPtr style, NonnullRefPtr color) : StyleValue(Type::TextDecoration) , m_line(line) , m_style(style) , m_color(color) { } NonnullRefPtr m_line; NonnullRefPtr m_style; NonnullRefPtr m_color; }; class TransformationStyleValue final : public StyleValue { public: static NonnullRefPtr create(CSS::TransformFunction transform_function, NonnullRefPtrVector&& values) { return adopt_ref(*new TransformationStyleValue(transform_function, move(values))); } virtual ~TransformationStyleValue() override { } CSS::TransformFunction transform_function() const { return m_transform_function; } NonnullRefPtrVector values() const { return m_values; } virtual String to_string() const override { return String::formatted("TransformationStyleValue"); } private: TransformationStyleValue(CSS::TransformFunction transform_function, NonnullRefPtrVector&& values) : StyleValue(Type::Transformation) , m_transform_function(transform_function) , m_values(move(values)) { } CSS::TransformFunction m_transform_function; NonnullRefPtrVector m_values; }; class UnsetStyleValue final : public StyleValue { public: static NonnullRefPtr the() { static NonnullRefPtr instance = adopt_ref(*new UnsetStyleValue); return instance; } virtual ~UnsetStyleValue() override { } String to_string() const override { return "unset"; } private: UnsetStyleValue() : StyleValue(Type::Unset) { } }; class StyleValueList final : public StyleValue { public: static NonnullRefPtr create(NonnullRefPtrVector&& values) { return adopt_ref(*new StyleValueList(move(values))); } NonnullRefPtrVector const& values() const { return m_values; } virtual String to_string() const { StringBuilder builder; builder.appendff("List[{}](", m_values.size()); for (size_t i = 0; i < m_values.size(); ++i) { if (i) builder.append(','); builder.append(m_values[i].to_string()); } builder.append(')'); return builder.to_string(); } private: StyleValueList(NonnullRefPtrVector&& values) : StyleValue(Type::ValueList) , m_values(move(values)) { } NonnullRefPtrVector m_values; }; }