/* * Copyright (c) 2022, Andreas Kling * * SPDX-License-Identifier: BSD-2-Clause */ #pragma once #include #include #include #include #include namespace Web::Layout { enum class SizeConstraint { None, MinContent, MaxContent, }; class AvailableSize; class AvailableSpace; struct LayoutState { LayoutState() : m_root(*this) { } explicit LayoutState(LayoutState const* parent) : m_parent(parent) , m_root(find_root()) { used_values_per_layout_node.resize(m_root.used_values_per_layout_node.size()); } LayoutState const& find_root() const { LayoutState const* root = this; for (auto* state = m_parent; state; state = state->m_parent) root = state; return *root; } struct UsedValues { NodeWithStyleAndBoxModelMetrics const& node() const { return *m_node; } void set_node(NodeWithStyleAndBoxModelMetrics&, UsedValues const* containing_block_used_values); float content_width() const { return m_content_width; } float content_height() const { return m_content_height; } void set_content_width(float); void set_content_height(float); bool has_definite_width() const { return m_has_definite_width && width_constraint == SizeConstraint::None; } bool has_definite_height() const { return m_has_definite_height && height_constraint == SizeConstraint::None; } // Returns the available space for content inside this layout box. // If the space in an axis is indefinite, and the outer space is an intrinsic sizing constraint, // the constraint is used in that axis instead. AvailableSpace available_inner_space_or_constraints_from(AvailableSpace const& outer_space) const; void set_content_offset(Gfx::FloatPoint); void set_content_x(float); void set_content_y(float); Gfx::FloatPoint offset; SizeConstraint width_constraint { SizeConstraint::None }; SizeConstraint height_constraint { SizeConstraint::None }; float margin_left { 0 }; float margin_right { 0 }; float margin_top { 0 }; float margin_bottom { 0 }; float border_left { 0 }; float border_right { 0 }; float border_top { 0 }; float border_bottom { 0 }; float padding_left { 0 }; float padding_right { 0 }; float padding_top { 0 }; float padding_bottom { 0 }; float inset_left { 0 }; float inset_right { 0 }; float inset_top { 0 }; float inset_bottom { 0 }; Vector line_boxes; float margin_box_left() const { return margin_left + border_left + padding_left; } float margin_box_right() const { return margin_right + border_right + padding_right; } float margin_box_top() const { return margin_top + border_top + padding_top; } float margin_box_bottom() const { return margin_bottom + border_bottom + padding_bottom; } float margin_box_width() const { return margin_box_left() + content_width() + margin_box_right(); } float margin_box_height() const { return margin_box_top() + content_height() + margin_box_bottom(); } float border_box_left() const { return border_left + padding_left; } float border_box_right() const { return border_right + padding_right; } float border_box_top() const { return border_top + padding_top; } float border_box_bottom() const { return border_bottom + padding_bottom; } float border_box_width() const { return border_box_left() + content_width() + border_box_right(); } float border_box_height() const { return border_box_top() + content_height() + border_box_bottom(); } Optional overflow_data; Painting::PaintableBox::OverflowData& ensure_overflow_data() { if (!overflow_data.has_value()) overflow_data = Painting::PaintableBox::OverflowData {}; return *overflow_data; } Optional containing_line_box_fragment; void add_floating_descendant(Box const& box) { m_floating_descendants.set(&box); } auto const& floating_descendants() const { return m_floating_descendants; } private: AvailableSize available_width_inside() const; AvailableSize available_height_inside() const; Layout::NodeWithStyleAndBoxModelMetrics* m_node { nullptr }; float m_content_width { 0 }; float m_content_height { 0 }; bool m_has_definite_width { false }; bool m_has_definite_height { false }; HashTable m_floating_descendants; }; float resolved_definite_width(Box const&) const; float resolved_definite_height(Box const&) const; void commit(); // NOTE: get_mutable() will CoW the UsedValues if it's inherited from an ancestor state; UsedValues& get_mutable(NodeWithStyleAndBoxModelMetrics const&); // NOTE: get() will not CoW the UsedValues. UsedValues const& get(NodeWithStyleAndBoxModelMetrics const&) const; Vector> used_values_per_layout_node; // We cache intrinsic sizes once determined, as they will not change over the course of a full layout. // This avoids computing them several times while performing flex layout. struct IntrinsicSizes { Optional min_content_width; Optional max_content_width; Optional min_content_height; Optional max_content_height; }; HashMap> mutable intrinsic_sizes; LayoutState const* m_parent { nullptr }; LayoutState const& m_root; }; Gfx::FloatRect absolute_content_rect(Box const&, LayoutState const&); Gfx::FloatRect margin_box_rect(Box const&, LayoutState const&); Gfx::FloatRect margin_box_rect_in_ancestor_coordinate_space(Box const& box, Box const& ancestor_box, LayoutState const&); Gfx::FloatRect border_box_rect(Box const&, LayoutState const&); Gfx::FloatRect border_box_rect_in_ancestor_coordinate_space(Box const& box, Box const& ancestor_box, LayoutState const&); Gfx::FloatRect content_box_rect(Box const&, LayoutState const&); Gfx::FloatRect content_box_rect_in_ancestor_coordinate_space(Box const& box, Box const& ancestor_box, LayoutState const&); }