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ladybird/Userland/Libraries/LibWeb/Layout/LayoutState.h
Andi Gallo a7166eb103 LibWeb: Complete table border conflict resolution 
Add the element type and grid position to the algorithm and change the
table borders painting to apply the new criteria to corners as well.
2023-07-25 15:21:04 +02:00

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/*
* Copyright (c) 2022, Andreas Kling <kling@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#pragma once
#include <AK/HashMap.h>
#include <LibGfx/Point.h>
#include <LibWeb/Layout/Box.h>
#include <LibWeb/Layout/LineBox.h>
#include <LibWeb/Painting/PaintableBox.h>
namespace Web::Layout {
enum class SizeConstraint {
None,
MinContent,
MaxContent,
};
class AvailableSize;
class AvailableSpace;
struct LayoutState {
LayoutState()
: m_root(*this)
{
}
explicit LayoutState(LayoutState const* parent);
~LayoutState();
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);
CSSPixels content_width() const { return m_content_width; }
CSSPixels content_height() const { return m_content_height; }
void set_content_width(CSSPixels);
void set_content_height(CSSPixels);
void set_indefinite_content_width();
void set_indefinite_content_height();
void set_min_content_width();
void set_max_content_width();
// NOTE: These are used by FlexFormattingContext to assign a temporary main size to items
// early on, so that descendants have something to resolve percentages against.
void set_temporary_content_width(CSSPixels);
void set_temporary_content_height(CSSPixels);
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(CSSPixelPoint);
void set_content_x(CSSPixels);
void set_content_y(CSSPixels);
CSSPixelPoint offset;
SizeConstraint width_constraint { SizeConstraint::None };
SizeConstraint height_constraint { SizeConstraint::None };
CSSPixels margin_left { 0 };
CSSPixels margin_right { 0 };
CSSPixels margin_top { 0 };
CSSPixels margin_bottom { 0 };
CSSPixels border_left { 0 };
CSSPixels border_right { 0 };
CSSPixels border_top { 0 };
CSSPixels border_bottom { 0 };
CSSPixels padding_left { 0 };
CSSPixels padding_right { 0 };
CSSPixels padding_top { 0 };
CSSPixels padding_bottom { 0 };
CSSPixels inset_left { 0 };
CSSPixels inset_right { 0 };
CSSPixels inset_top { 0 };
CSSPixels inset_bottom { 0 };
Vector<LineBox> line_boxes;
CSSPixels margin_box_left() const { return margin_left + border_left_collapsed() + padding_left; }
CSSPixels margin_box_right() const { return margin_right + border_right_collapsed() + padding_right; }
CSSPixels margin_box_top() const { return margin_top + border_top_collapsed() + padding_top; }
CSSPixels margin_box_bottom() const { return margin_bottom + border_bottom_collapsed() + padding_bottom; }
CSSPixels margin_box_width() const { return margin_box_left() + content_width() + margin_box_right(); }
CSSPixels margin_box_height() const { return margin_box_top() + content_height() + margin_box_bottom(); }
CSSPixels border_box_left() const { return border_left_collapsed() + padding_left; }
CSSPixels border_box_right() const { return border_right_collapsed() + padding_right; }
CSSPixels border_box_top() const { return border_top_collapsed() + padding_top; }
CSSPixels border_box_bottom() const { return border_bottom_collapsed() + padding_bottom; }
CSSPixels border_box_width() const { return border_box_left() + content_width() + border_box_right(); }
CSSPixels border_box_height() const { return border_box_top() + content_height() + border_box_bottom(); }
Optional<LineBoxFragmentCoordinate> 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; }
void set_override_borders_data(Painting::PaintableBox::BordersDataWithElementKind const& override_borders_data) { m_override_borders_data = override_borders_data; }
auto const& override_borders_data() const { return m_override_borders_data; }
void set_table_cell_coordinates(Painting::PaintableBox::TableCellCoordinates const& table_cell_coordinates) { m_table_cell_coordinates = table_cell_coordinates; }
auto const& table_cell_coordinates() const { return m_table_cell_coordinates; }
private:
AvailableSize available_width_inside() const;
AvailableSize available_height_inside() const;
bool use_collapsing_borders_model() const { return m_override_borders_data.has_value(); }
// Implement the collapsing border model https://www.w3.org/TR/CSS22/tables.html#collapsing-borders.
CSSPixels border_left_collapsed() const { return use_collapsing_borders_model() ? round(border_left / 2) : border_left; }
CSSPixels border_right_collapsed() const { return use_collapsing_borders_model() ? round(border_right / 2) : border_right; }
CSSPixels border_top_collapsed() const { return use_collapsing_borders_model() ? round(border_top / 2) : border_top; }
CSSPixels border_bottom_collapsed() const { return use_collapsing_borders_model() ? round(border_bottom / 2) : border_bottom; }
JS::GCPtr<Layout::NodeWithStyleAndBoxModelMetrics> m_node { nullptr };
CSSPixels m_content_width { 0 };
CSSPixels m_content_height { 0 };
bool m_has_definite_width { false };
bool m_has_definite_height { false };
HashTable<JS::GCPtr<Box const>> m_floating_descendants;
Optional<Painting::PaintableBox::BordersDataWithElementKind> m_override_borders_data;
Optional<Painting::PaintableBox::TableCellCoordinates> m_table_cell_coordinates;
};
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;
HashMap<Layout::Node const*, NonnullOwnPtr<UsedValues>> 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<CSSPixels> min_content_width;
Optional<CSSPixels> max_content_width;
// NOTE: Since intrinsic heights depend on the amount of available width, we have to cache
// three separate kinds of results, depending on the available width at the time of calculation.
HashMap<CSSPixels, Optional<CSSPixels>> min_content_height_with_definite_available_width;
HashMap<CSSPixels, Optional<CSSPixels>> max_content_height_with_definite_available_width;
Optional<CSSPixels> min_content_height_with_min_content_available_width;
Optional<CSSPixels> max_content_height_with_min_content_available_width;
Optional<CSSPixels> min_content_height_with_max_content_available_width;
Optional<CSSPixels> max_content_height_with_max_content_available_width;
};
HashMap<JS::GCPtr<NodeWithStyleAndBoxModelMetrics const>, NonnullOwnPtr<IntrinsicSizes>> mutable intrinsic_sizes;
LayoutState const* m_parent { nullptr };
LayoutState const& m_root;
};
}
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