/* * Copyright (c) 2022, Andreas Kling * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include namespace Web::Layout { LayoutState::UsedValues& LayoutState::get_mutable(NodeWithStyleAndBoxModelMetrics const& box) { auto serial_id = box.serial_id(); if (used_values_per_layout_node[serial_id]) return *used_values_per_layout_node[serial_id]; for (auto const* ancestor = m_parent; ancestor; ancestor = ancestor->m_parent) { if (ancestor->used_values_per_layout_node[serial_id]) { auto cow_used_values = adopt_own(*new UsedValues(*ancestor->used_values_per_layout_node[serial_id])); auto* cow_used_values_ptr = cow_used_values.ptr(); used_values_per_layout_node[serial_id] = move(cow_used_values); return *cow_used_values_ptr; } } auto const* containing_block_used_values = box.is_initial_containing_block_box() ? nullptr : &get(*box.containing_block()); used_values_per_layout_node[serial_id] = adopt_own(*new UsedValues); used_values_per_layout_node[serial_id]->set_node(const_cast(box), containing_block_used_values); return *used_values_per_layout_node[serial_id]; } LayoutState::UsedValues const& LayoutState::get(NodeWithStyleAndBoxModelMetrics const& box) const { auto serial_id = box.serial_id(); if (used_values_per_layout_node[serial_id]) return *used_values_per_layout_node[serial_id]; for (auto* ancestor = m_parent; ancestor; ancestor = ancestor->m_parent) { if (ancestor->used_values_per_layout_node[serial_id]) return *ancestor->used_values_per_layout_node[serial_id]; } auto const* containing_block_used_values = box.is_initial_containing_block_box() ? nullptr : &get(*box.containing_block()); const_cast(this)->used_values_per_layout_node[serial_id] = adopt_own(*new UsedValues); const_cast(this)->used_values_per_layout_node[serial_id]->set_node(const_cast(box), containing_block_used_values); return *used_values_per_layout_node[serial_id]; } void LayoutState::commit() { // Only the top-level LayoutState should ever be committed. VERIFY(!m_parent); HashTable text_nodes; for (auto& used_values_ptr : used_values_per_layout_node) { if (!used_values_ptr) continue; auto& used_values = *used_values_ptr; auto& node = const_cast(used_values.node()); // Transfer box model metrics. node.box_model().inset = { used_values.inset_top, used_values.inset_right, used_values.inset_bottom, used_values.inset_left }; node.box_model().padding = { used_values.padding_top, used_values.padding_right, used_values.padding_bottom, used_values.padding_left }; node.box_model().border = { used_values.border_top, used_values.border_right, used_values.border_bottom, used_values.border_left }; node.box_model().margin = { used_values.margin_top, used_values.margin_right, used_values.margin_bottom, used_values.margin_left }; node.set_paintable(node.create_paintable()); // For boxes, transfer all the state needed for painting. if (is(node)) { auto& box = static_cast(node); auto& paint_box = const_cast(*box.paint_box()); paint_box.set_offset(used_values.offset); paint_box.set_content_size(used_values.content_width(), used_values.content_height()); paint_box.set_overflow_data(move(used_values.overflow_data)); paint_box.set_containing_line_box_fragment(used_values.containing_line_box_fragment); if (is(box)) { for (auto& line_box : used_values.line_boxes) { for (auto& fragment : line_box.fragments()) { if (fragment.layout_node().is_text_node()) text_nodes.set(static_cast(const_cast(&fragment.layout_node()))); } } static_cast(paint_box).set_line_boxes(move(used_values.line_boxes)); } } } for (auto* text_node : text_nodes) text_node->set_paintable(text_node->create_paintable()); } Gfx::FloatRect margin_box_rect(Box const& box, LayoutState const& state) { auto const& box_state = state.get(box); auto rect = Gfx::FloatRect { box_state.offset, { box_state.content_width(), box_state.content_height() } }; rect.set_x(rect.x() - box_state.margin_box_left()); rect.set_width(rect.width() + box_state.margin_box_left() + box_state.margin_box_right()); rect.set_y(rect.y() - box_state.margin_box_top()); rect.set_height(rect.height() + box_state.margin_box_top() + box_state.margin_box_bottom()); return rect; } Gfx::FloatRect border_box_rect(Box const& box, LayoutState const& state) { auto const& box_state = state.get(box); auto rect = Gfx::FloatRect { box_state.offset, { box_state.content_width(), box_state.content_height() } }; rect.set_x(rect.x() - box_state.border_box_left()); rect.set_width(rect.width() + box_state.border_box_left() + box_state.border_box_right()); rect.set_y(rect.y() - box_state.border_box_top()); rect.set_height(rect.height() + box_state.border_box_top() + box_state.border_box_bottom()); return rect; } Gfx::FloatRect border_box_rect_in_ancestor_coordinate_space(Box const& box, Box const& ancestor_box, LayoutState const& state) { auto rect = border_box_rect(box, state); if (&box == &ancestor_box) return rect; for (auto const* current = box.containing_block(); current; current = current->containing_block()) { if (current == &ancestor_box) return rect; auto const& current_state = state.get(static_cast(*current)); rect.translate_by(current_state.offset); } // If we get here, ancestor_box was not a containing block ancestor of `box`! VERIFY_NOT_REACHED(); } Gfx::FloatRect content_box_rect(Box const& box, LayoutState const& state) { auto const& box_state = state.get(box); return Gfx::FloatRect { box_state.offset, { box_state.content_width(), box_state.content_height() } }; } Gfx::FloatRect content_box_rect_in_ancestor_coordinate_space(Box const& box, Box const& ancestor_box, LayoutState const& state) { auto rect = content_box_rect(box, state); if (&box == &ancestor_box) return rect; for (auto const* current = box.containing_block(); current; current = current->containing_block()) { if (current == &ancestor_box) return rect; auto const& current_state = state.get(static_cast(*current)); rect.translate_by(current_state.offset); } // If we get here, ancestor_box was not a containing block ancestor of `box`! VERIFY_NOT_REACHED(); } Gfx::FloatRect margin_box_rect_in_ancestor_coordinate_space(Box const& box, Box const& ancestor_box, LayoutState const& state) { auto rect = margin_box_rect(box, state); if (&box == &ancestor_box) return rect; for (auto const* current = box.containing_block(); current; current = current->containing_block()) { if (current == &ancestor_box) return rect; auto const& current_state = state.get(static_cast(*current)); rect.translate_by(current_state.offset); } // If we get here, ancestor_box was not a containing block ancestor of `box`! VERIFY_NOT_REACHED(); } Gfx::FloatRect absolute_content_rect(Box const& box, LayoutState const& state) { auto const& box_state = state.get(box); Gfx::FloatRect rect { box_state.offset, { box_state.content_width(), box_state.content_height() } }; for (auto* block = box.containing_block(); block; block = block->containing_block()) rect.translate_by(state.get(*block).offset); return rect; } void LayoutState::UsedValues::set_node(NodeWithStyleAndBoxModelMetrics& node, UsedValues const* containing_block_used_values) { m_node = &node; // NOTE: In the code below, we decide if `node` has definite width and/or height. // This attempts to cover all the *general* cases where CSS considers sizes to be definite. // If `node` has definite values for min/max-width or min/max-height and a definite // preferred size in the same axis, we clamp the preferred size here as well. // // There are additional cases where CSS considers values to be definite. We model all of // those by having our engine consider sizes to be definite *once they are assigned to // the UsedValues by calling set_content_width() or set_content_height(). auto const& computed_values = node.computed_values(); auto is_definite_size = [&](CSS::Size const& size, float& resolved_definite_size, bool width) { // A size that can be determined without performing layout; that is, // a , // a measure of text (without consideration of line-wrapping), // a size of the initial containing block, // or a or other formula (such as the “stretch-fit” sizing of non-replaced blocks [CSS2]) that is resolved solely against definite sizes. auto containing_block_has_definite_size = containing_block_used_values ? (width ? containing_block_used_values->has_definite_width() : containing_block_used_values->has_definite_height()) : false; if (size.is_auto()) { // NOTE: The width of a non-flex-item block is considered definite if it's auto and the containing block has definite width. if (width && !node.is_floating() && node.display().is_block_outside() && node.parent() && !node.parent()->is_floating() && (node.parent()->display().is_flow_root_inside() || node.parent()->display().is_flow_inside())) { if (containing_block_has_definite_size) { float available_width = containing_block_used_values->content_width(); resolved_definite_size = available_width - margin_left - margin_right - padding_left - padding_right - border_left - border_right; return true; } return false; } return false; } if (size.is_length() && size.length().is_calculated()) { if (size.length().calculated_style_value()->contains_percentage()) { if (!containing_block_has_definite_size) return false; auto& calc_value = *size.length().calculated_style_value(); auto containing_block_size_as_length = width ? CSS::Length::make_px(containing_block_used_values->content_width()) : CSS::Length::make_px(containing_block_used_values->content_height()); resolved_definite_size = calc_value.resolve_length_percentage(node, containing_block_size_as_length).value_or(CSS::Length::make_auto()).to_px(node); return true; } resolved_definite_size = size.length().to_px(node); return true; } if (size.is_length()) { VERIFY(!size.is_auto()); // This should have been covered by the Size::is_auto() branch above. VERIFY(!size.length().is_calculated()); // Covered above. resolved_definite_size = size.length().to_px(node); return true; } if (size.is_percentage()) { if (containing_block_has_definite_size) { auto containing_block_size = width ? containing_block_used_values->content_width() : containing_block_used_values->content_height(); resolved_definite_size = containing_block_size * size.percentage().as_fraction(); return true; } return false; } // FIXME: Determine if calc() value is definite. return false; }; float min_width = 0; bool has_definite_min_width = is_definite_size(computed_values.min_width(), min_width, true); float max_width = 0; bool has_definite_max_width = is_definite_size(computed_values.max_width(), max_width, true); float min_height = 0; bool has_definite_min_height = is_definite_size(computed_values.min_height(), min_height, false); float max_height = 0; bool has_definite_max_height = is_definite_size(computed_values.max_height(), max_height, false); m_has_definite_width = is_definite_size(computed_values.width(), m_content_width, true); m_has_definite_height = is_definite_size(computed_values.height(), m_content_height, false); if (m_has_definite_width) { if (has_definite_min_width) m_content_width = max(min_width, m_content_width); if (has_definite_max_width) m_content_width = min(max_width, m_content_width); } if (m_has_definite_height) { if (has_definite_min_height) m_content_height = max(min_height, m_content_height); if (has_definite_max_height) m_content_height = min(max_height, m_content_height); } } void LayoutState::UsedValues::set_content_width(float width) { m_content_width = width; m_has_definite_width = true; } void LayoutState::UsedValues::set_content_height(float height) { m_content_height = height; m_has_definite_height = true; } void LayoutState::UsedValues::set_temporary_content_width(float width) { m_content_width = width; } void LayoutState::UsedValues::set_temporary_content_height(float height) { m_content_height = height; } float LayoutState::resolved_definite_width(Box const& box) const { return get(box).content_width(); } float LayoutState::resolved_definite_height(Box const& box) const { return get(box).content_height(); } AvailableSize LayoutState::UsedValues::available_width_inside() const { if (width_constraint == SizeConstraint::MinContent) return AvailableSize::make_min_content(); if (width_constraint == SizeConstraint::MaxContent) return AvailableSize::make_max_content(); if (has_definite_width()) return AvailableSize::make_definite(m_content_width); return AvailableSize::make_indefinite(); } AvailableSize LayoutState::UsedValues::available_height_inside() const { if (height_constraint == SizeConstraint::MinContent) return AvailableSize::make_min_content(); if (height_constraint == SizeConstraint::MaxContent) return AvailableSize::make_max_content(); if (has_definite_height()) return AvailableSize::make_definite(m_content_height); return AvailableSize::make_indefinite(); } AvailableSpace LayoutState::UsedValues::available_inner_space_or_constraints_from(AvailableSpace const& outer_space) const { auto inner_width = available_width_inside(); auto inner_height = available_height_inside(); if (inner_width.is_indefinite() && outer_space.width.is_intrinsic_sizing_constraint()) inner_width = outer_space.width; if (inner_height.is_indefinite() && outer_space.height.is_intrinsic_sizing_constraint()) inner_height = outer_space.height; return AvailableSpace(inner_width, inner_height); } void LayoutState::UsedValues::set_content_offset(Gfx::FloatPoint offset) { set_content_x(offset.x()); set_content_y(offset.y()); } void LayoutState::UsedValues::set_content_x(float x) { offset.set_x(x); } void LayoutState::UsedValues::set_content_y(float y) { offset.set_y(y); } }