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/*
* Copyright (c) 2020-2022, Andreas Kling <kling@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <LibWeb/CSS/Length.h>
#include <LibWeb/DOM/Node.h>
#include <LibWeb/HTML/BrowsingContext.h>
#include <LibWeb/Layout/BlockContainer.h>
#include <LibWeb/Layout/BlockFormattingContext.h>
#include <LibWeb/Layout/Box.h>
#include <LibWeb/Layout/InitialContainingBlock.h>
#include <LibWeb/Layout/InlineFormattingContext.h>
#include <LibWeb/Layout/LineBuilder.h>
#include <LibWeb/Layout/ListItemBox.h>
#include <LibWeb/Layout/ListItemMarkerBox.h>
#include <LibWeb/Layout/ReplacedBox.h>
namespace Web::Layout {
BlockFormattingContext::BlockFormattingContext(LayoutState& state, BlockContainer const& root, FormattingContext* parent)
: FormattingContext(Type::Block, state, root, parent)
{
}
BlockFormattingContext::~BlockFormattingContext()
{
if (!m_was_notified_after_parent_dimensioned_my_root_box) {
// HACK: The parent formatting context never notified us after assigning dimensions to our root box.
// Pretend that it did anyway, to make sure absolutely positioned children get laid out.
// FIXME: Get rid of this hack once parent contexts behave properly.
parent_context_did_dimension_child_root_box();
}
}
bool BlockFormattingContext::is_initial() const
{
return is<InitialContainingBlock>(root());
}
void BlockFormattingContext::run(Box const&, LayoutMode layout_mode)
{
if (is_initial()) {
layout_initial_containing_block(layout_mode);
return;
}
if (root().children_are_inline())
layout_inline_children(root(), layout_mode);
else
layout_block_level_children(root(), layout_mode);
}
void BlockFormattingContext::parent_context_did_dimension_child_root_box()
{
m_was_notified_after_parent_dimensioned_my_root_box = true;
// Left-side floats: offset_from_edge is from left edge (0) to left content edge of floating_box.
for (auto& floating_box : m_left_floats.all_boxes) {
auto& box_state = m_state.get_mutable(floating_box->box);
box_state.offset.set_x(floating_box->offset_from_edge);
}
// Right-side floats: offset_from_edge is from right edge (float_containing_block_width) to the left content edge of floating_box.
for (auto& floating_box : m_right_floats.all_boxes) {
auto float_containing_block_width = containing_block_width_for(floating_box->box);
auto& box_state = m_state.get_mutable(floating_box->box);
box_state.offset.set_x(float_containing_block_width - floating_box->offset_from_edge);
}
// We can also layout absolutely positioned boxes within this BFC.
for (auto& box : m_absolutely_positioned_boxes)
layout_absolutely_positioned_element(box);
}
void BlockFormattingContext::compute_width(Box const& box, LayoutMode layout_mode)
{
if (box.is_absolutely_positioned()) {
compute_width_for_absolutely_positioned_element(box);
return;
}
if (is<ReplacedBox>(box)) {
// FIXME: This should not be done *by* ReplacedBox
auto& replaced = verify_cast<ReplacedBox>(box);
// FIXME: This const_cast is gross.
const_cast<ReplacedBox&>(replaced).prepare_for_replaced_layout();
compute_width_for_block_level_replaced_element_in_normal_flow(replaced);
// NOTE: We don't return here.
}
if (box.is_floating()) {
compute_width_for_floating_box(box, layout_mode);
return;
}
auto const& computed_values = box.computed_values();
float width_of_containing_block = containing_block_width_for(box);
auto width_of_containing_block_as_length = CSS::Length::make_px(width_of_containing_block);
auto zero_value = CSS::Length::make_px(0);
auto margin_left = CSS::Length::make_auto();
auto margin_right = CSS::Length::make_auto();
auto padding_left = computed_values.padding().left.resolved(box, width_of_containing_block_as_length).resolved(box);
auto padding_right = computed_values.padding().right.resolved(box, width_of_containing_block_as_length).resolved(box);
auto try_compute_width = [&](auto const& a_width) {
CSS::Length width = a_width;
margin_left = computed_values.margin().left.resolved(box, width_of_containing_block_as_length).resolved(box);
margin_right = computed_values.margin().right.resolved(box, width_of_containing_block_as_length).resolved(box);
float total_px = computed_values.border_left().width + computed_values.border_right().width;
for (auto& value : { margin_left, padding_left, width, padding_right, margin_right }) {
total_px += value.to_px(box);
}
if (!box.is_inline()) {
// 10.3.3 Block-level, non-replaced elements in normal flow
// If 'width' is not 'auto' and 'border-left-width' + 'padding-left' + 'width' + 'padding-right' + 'border-right-width' (plus any of 'margin-left' or 'margin-right' that are not 'auto') is larger than the width of the containing block, then any 'auto' values for 'margin-left' or 'margin-right' are, for the following rules, treated as zero.
if (width.is_auto() && total_px > width_of_containing_block) {
if (margin_left.is_auto())
margin_left = zero_value;
if (margin_right.is_auto())
margin_right = zero_value;
}
// 10.3.3 cont'd.
auto underflow_px = width_of_containing_block - total_px;
if (width.is_auto()) {
if (margin_left.is_auto())
margin_left = zero_value;
if (margin_right.is_auto())
margin_right = zero_value;
if (width_of_containing_block == INFINITY) {
// If width of containing block is infinity
// then we might as well behave like we don't have a containing block
// and remove it from the calculation. In that case, our width
// will end up being the sum of margin_*, padding_*, border_*
float sum_of_all = computed_values.border_left().width + computed_values.border_right().width;
for (const auto& value : { margin_left, padding_left, width, padding_right, margin_right }) {
sum_of_all += value.to_px(box);
}
width = CSS::Length(sum_of_all, CSS::Length::Type::Px);
} else {
if (underflow_px >= 0) {
width = CSS::Length(underflow_px, CSS::Length::Type::Px);
} else {
width = zero_value;
margin_right = CSS::Length(margin_right.to_px(box) + underflow_px, CSS::Length::Type::Px);
}
}
} else {
if (!margin_left.is_auto() && !margin_right.is_auto()) {
margin_right = CSS::Length(margin_right.to_px(box) + underflow_px, CSS::Length::Type::Px);
} else if (!margin_left.is_auto() && margin_right.is_auto()) {
margin_right = CSS::Length(underflow_px, CSS::Length::Type::Px);
} else if (margin_left.is_auto() && !margin_right.is_auto()) {
margin_left = CSS::Length(underflow_px, CSS::Length::Type::Px);
} else { // margin_left.is_auto() && margin_right.is_auto()
auto half_of_the_underflow = CSS::Length(underflow_px / 2, CSS::Length::Type::Px);
margin_left = half_of_the_underflow;
margin_right = half_of_the_underflow;
}
}
} else if (box.is_inline_block()) {
// 10.3.9 'Inline-block', non-replaced elements in normal flow
// A computed value of 'auto' for 'margin-left' or 'margin-right' becomes a used value of '0'.
if (margin_left.is_auto())
margin_left = zero_value;
if (margin_right.is_auto())
margin_right = zero_value;
// If 'width' is 'auto', the used value is the shrink-to-fit width as for floating elements.
if (width.is_auto()) {
// Find the available width: in this case, this is the width of the containing
// block minus the used values of 'margin-left', 'border-left-width', 'padding-left',
// 'padding-right', 'border-right-width', 'margin-right', and the widths of any relevant scroll bars.
float available_width = width_of_containing_block
- margin_left.to_px(box) - computed_values.border_left().width - padding_left.to_px(box)
- padding_right.to_px(box) - computed_values.border_right().width - margin_right.to_px(box);
auto result = calculate_shrink_to_fit_widths(box);
// Then the shrink-to-fit width is: min(max(preferred minimum width, available width), preferred width).
width = CSS::Length(min(max(result.preferred_minimum_width, available_width), result.preferred_width), CSS::Length::Type::Px);
}
}
return width;
};
auto specified_width = computed_values.width().resolved(box, width_of_containing_block_as_length).resolved(box);
// 1. The tentative used width is calculated (without 'min-width' and 'max-width')
auto used_width = try_compute_width(specified_width);
// 2. The tentative used width is greater than 'max-width', the rules above are applied again,
// but this time using the computed value of 'max-width' as the computed value for 'width'.
auto specified_max_width = computed_values.max_width().resolved(box, width_of_containing_block_as_length).resolved(box);
if (!specified_max_width.is_auto()) {
if (used_width.to_px(box) > specified_max_width.to_px(box)) {
used_width = try_compute_width(specified_max_width);
}
}
// 3. If the resulting width is smaller than 'min-width', the rules above are applied again,
// but this time using the value of 'min-width' as the computed value for 'width'.
auto specified_min_width = computed_values.min_width().resolved(box, width_of_containing_block_as_length).resolved(box);
if (!specified_min_width.is_auto()) {
if (used_width.to_px(box) < specified_min_width.to_px(box)) {
used_width = try_compute_width(specified_min_width);
}
}
auto& box_state = m_state.get_mutable(box);
if (!is<ReplacedBox>(box))
box_state.set_content_width(used_width.to_px(box));
box_state.margin_left = margin_left.to_px(box);
box_state.margin_right = margin_right.to_px(box);
box_state.border_left = computed_values.border_left().width;
box_state.border_right = computed_values.border_right().width;
box_state.padding_left = padding_left.to_px(box);
box_state.padding_right = padding_right.to_px(box);
}
void BlockFormattingContext::compute_width_for_floating_box(Box const& box, LayoutMode)
{
// 10.3.5 Floating, non-replaced elements
auto& computed_values = box.computed_values();
float width_of_containing_block = containing_block_width_for(box);
auto width_of_containing_block_as_length = CSS::Length::make_px(width_of_containing_block);
auto zero_value = CSS::Length::make_px(0);
auto margin_left = computed_values.margin().left.resolved(box, width_of_containing_block_as_length).resolved(box);
auto margin_right = computed_values.margin().right.resolved(box, width_of_containing_block_as_length).resolved(box);
auto const padding_left = computed_values.padding().left.resolved(box, width_of_containing_block_as_length).resolved(box);
auto const padding_right = computed_values.padding().right.resolved(box, width_of_containing_block_as_length).resolved(box);
// If 'margin-left', or 'margin-right' are computed as 'auto', their used value is '0'.
if (margin_left.is_auto())
margin_left = zero_value;
if (margin_right.is_auto())
margin_right = zero_value;
auto compute_width = [&](auto width) {
// If 'width' is computed as 'auto', the used value is the "shrink-to-fit" width.
if (width.is_auto()) {
// Find the available width: in this case, this is the width of the containing
// block minus the used values of 'margin-left', 'border-left-width', 'padding-left',
// 'padding-right', 'border-right-width', 'margin-right', and the widths of any relevant scroll bars.
float available_width = width_of_containing_block
- margin_left.to_px(box) - computed_values.border_left().width - padding_left.to_px(box)
- padding_right.to_px(box) - computed_values.border_right().width - margin_right.to_px(box);
auto result = calculate_shrink_to_fit_widths(box);
// Then the shrink-to-fit width is: min(max(preferred minimum width, available width), preferred width).
width = CSS::Length(min(max(result.preferred_minimum_width, available_width), result.preferred_width), CSS::Length::Type::Px);
}
return width;
};
auto specified_width = computed_values.width().resolved(box, width_of_containing_block_as_length).resolved(box);
// 1. The tentative used width is calculated (without 'min-width' and 'max-width')
auto width = compute_width(specified_width);
// 2. The tentative used width is greater than 'max-width', the rules above are applied again,
// but this time using the computed value of 'max-width' as the computed value for 'width'.
auto specified_max_width = computed_values.max_width().resolved(box, width_of_containing_block_as_length).resolved(box);
if (!specified_max_width.is_auto()) {
if (width.to_px(box) > specified_max_width.to_px(box))
width = compute_width(specified_max_width);
}
// 3. If the resulting width is smaller than 'min-width', the rules above are applied again,
// but this time using the value of 'min-width' as the computed value for 'width'.
auto specified_min_width = computed_values.min_width().resolved(box, width_of_containing_block_as_length).resolved(box);
if (!specified_min_width.is_auto()) {
if (width.to_px(box) < specified_min_width.to_px(box))
width = compute_width(specified_min_width);
}
auto& box_state = m_state.get_mutable(box);
box_state.set_content_width(width.to_px(box));
box_state.margin_left = margin_left.to_px(box);
box_state.margin_right = margin_right.to_px(box);
box_state.border_left = computed_values.border_left().width;
box_state.border_right = computed_values.border_right().width;
box_state.padding_left = padding_left.to_px(box);
box_state.padding_right = padding_right.to_px(box);
}
void BlockFormattingContext::compute_width_for_block_level_replaced_element_in_normal_flow(ReplacedBox const& box)
{
m_state.get_mutable(box).set_content_width(compute_width_for_replaced_element(m_state, box));
}
float BlockFormattingContext::compute_theoretical_height(LayoutState const& state, Box const& box)
{
auto const& computed_values = box.computed_values();
auto containing_block_height = CSS::Length::make_px(containing_block_height_for(box, state));
// Then work out what the height is, based on box type and CSS properties.
float height = 0;
if (is<ReplacedBox>(box)) {
height = compute_height_for_replaced_element(state, verify_cast<ReplacedBox>(box));
} else {
if (box.computed_values().height().is_auto())
height = compute_auto_height_for_block_level_element(state, box);
else
height = computed_values.height().resolved(box, containing_block_height).to_px(box);
}
auto specified_max_height = computed_values.max_height().resolved(box, containing_block_height).resolved(box);
if (!specified_max_height.is_auto())
height = min(height, specified_max_height.to_px(box));
auto specified_min_height = computed_values.min_height().resolved(box, containing_block_height).resolved(box);
if (!specified_min_height.is_auto())
height = max(height, specified_min_height.to_px(box));
return height;
}
void BlockFormattingContext::compute_height(Box const& box, LayoutState& state)
{
auto const& computed_values = box.computed_values();
auto width_of_containing_block_as_length = CSS::Length::make_px(containing_block_width_for(box, state));
// First, resolve the top/bottom parts of the surrounding box model.
auto& box_state = state.get_mutable(box);
box_state.margin_top = computed_values.margin().top.resolved(box, width_of_containing_block_as_length).to_px(box);
box_state.margin_bottom = computed_values.margin().bottom.resolved(box, width_of_containing_block_as_length).to_px(box);
box_state.border_top = computed_values.border_top().width;
box_state.border_bottom = computed_values.border_bottom().width;
box_state.padding_top = computed_values.padding().top.resolved(box, width_of_containing_block_as_length).to_px(box);
box_state.padding_bottom = computed_values.padding().bottom.resolved(box, width_of_containing_block_as_length).to_px(box);
box_state.set_content_height(compute_theoretical_height(state, box));
}
void BlockFormattingContext::layout_inline_children(BlockContainer const& block_container, LayoutMode layout_mode)
{
VERIFY(block_container.children_are_inline());
auto& block_container_state = m_state.get_mutable(block_container);
if (layout_mode == LayoutMode::IntrinsicSizing) {
if (block_container.computed_values().width().is_auto() || block_container_state.width_constraint != SizeConstraint::None)
block_container_state.set_content_width(containing_block_width_for(block_container));
if (block_container.computed_values().height().is_auto() || block_container_state.height_constraint != SizeConstraint::None)
block_container_state.set_content_height(containing_block_height_for(block_container));
}
InlineFormattingContext context(m_state, block_container, *this);
context.run(block_container, layout_mode);
float max_line_width = 0;
float content_height = 0;
for (auto& line_box : block_container_state.line_boxes) {
max_line_width = max(max_line_width, line_box.width());
content_height += line_box.height();
}
if (layout_mode == LayoutMode::IntrinsicSizing) {
if (block_container.computed_values().width().is_auto() || block_container_state.width_constraint != SizeConstraint::None)
block_container_state.set_content_width(max_line_width);
}
// FIXME: This is weird. Figure out a way to make callers responsible for setting the content height.
block_container_state.set_content_height(content_height);
}
void BlockFormattingContext::layout_block_level_box(Box const& box, BlockContainer const& block_container, LayoutMode layout_mode, float& content_height)
{
auto& box_state = m_state.get_mutable(box);
if (box.is_absolutely_positioned()) {
m_absolutely_positioned_boxes.append(box);
return;
}
// NOTE: ListItemMarkerBoxes are placed by their corresponding ListItemBox.
if (is<ListItemMarkerBox>(box))
return;
if (box.is_floating()) {
layout_floating_box(box, block_container, layout_mode);
content_height = max(content_height, box_state.offset.y() + box_state.content_height() + box_state.margin_box_bottom());
return;
}
compute_width(box, layout_mode);
if (is<ReplacedBox>(box) || is<BlockContainer>(box))
place_block_level_element_in_normal_flow_vertically(box, block_container);
if (box_state.has_definite_height()) {
compute_height(box, m_state);
}
OwnPtr<FormattingContext> independent_formatting_context;
if (box.can_have_children()) {
if (box.children_are_inline()) {
layout_inline_children(verify_cast<BlockContainer>(box), layout_mode);
} else {
independent_formatting_context = create_independent_formatting_context_if_needed(m_state, box);
if (independent_formatting_context)
independent_formatting_context->run(box, layout_mode);
else
layout_block_level_children(verify_cast<BlockContainer>(box), layout_mode);
}
}
compute_height(box, m_state);
compute_inset(box);
if (is<ReplacedBox>(box) || is<BlockContainer>(box))
place_block_level_element_in_normal_flow_horizontally(box, block_container);
if (is<ListItemBox>(box)) {
layout_list_item_marker(static_cast<ListItemBox const&>(box));
}
content_height = max(content_height, box_state.offset.y() + box_state.content_height() + box_state.margin_box_bottom());
if (independent_formatting_context)
independent_formatting_context->parent_context_did_dimension_child_root_box();
}
void BlockFormattingContext::run_intrinsic_sizing(Box const& box)
{
auto& box_state = m_state.get_mutable(box);
if (box_state.has_definite_width())
box_state.set_content_width(box.computed_values().width().resolved(box, CSS::Length::make_px(containing_block_width_for(box))).to_px(box));
if (box_state.has_definite_height())
box_state.set_content_height(box.computed_values().height().resolved(box, CSS::Length::make_px(containing_block_height_for(box))).to_px(box));
run(box, LayoutMode::IntrinsicSizing);
}
void BlockFormattingContext::layout_block_level_children(BlockContainer const& block_container, LayoutMode layout_mode)
{
VERIFY(!block_container.children_are_inline());
float content_height = 0;
if (layout_mode == LayoutMode::IntrinsicSizing) {
auto& block_container_state = m_state.get_mutable(block_container);
if (block_container.computed_values().width().is_auto() || block_container_state.width_constraint != SizeConstraint::None)
block_container_state.set_content_width(containing_block_width_for(block_container));
if (block_container.computed_values().height().is_auto() || block_container_state.height_constraint != SizeConstraint::None)
block_container_state.set_content_height(containing_block_height_for(block_container));
}
block_container.for_each_child_of_type<Box>([&](Box& box) {
layout_block_level_box(box, block_container, layout_mode, content_height);
return IterationDecision::Continue;
});
if (layout_mode == LayoutMode::IntrinsicSizing) {
auto& block_container_state = m_state.get_mutable(block_container);
if (block_container.computed_values().width().is_auto() || block_container_state.width_constraint != SizeConstraint::None)
block_container_state.set_content_width(greatest_child_width(block_container));
if (block_container.computed_values().height().is_auto() || block_container_state.height_constraint != SizeConstraint::None)
block_container_state.set_content_height(content_height);
}
}
void BlockFormattingContext::compute_vertical_box_model_metrics(Box const& box, BlockContainer const& containing_block)
{
auto& box_state = m_state.get_mutable(box);
auto const& computed_values = box.computed_values();
auto width_of_containing_block = CSS::Length::make_px(containing_block_width_for(box));
box_state.margin_top = computed_values.margin().top.resolved(box, width_of_containing_block).resolved(containing_block).to_px(box);
box_state.margin_bottom = computed_values.margin().bottom.resolved(box, width_of_containing_block).resolved(containing_block).to_px(box);
box_state.border_top = computed_values.border_top().width;
box_state.border_bottom = computed_values.border_bottom().width;
box_state.padding_top = computed_values.padding().top.resolved(box, width_of_containing_block).resolved(containing_block).to_px(box);
box_state.padding_bottom = computed_values.padding().bottom.resolved(box, width_of_containing_block).resolved(containing_block).to_px(box);
}
void BlockFormattingContext::place_block_level_element_in_normal_flow_vertically(Box const& child_box, BlockContainer const& containing_block)
{
auto& box_state = m_state.get_mutable(child_box);
auto const& computed_values = child_box.computed_values();
compute_vertical_box_model_metrics(child_box, containing_block);
auto y = FormattingContext::compute_box_y_position_with_respect_to_siblings(child_box, box_state);
auto clear_floating_boxes = [&](FloatSideData& float_side) {
if (!float_side.current_boxes.is_empty()) {
float clearance_y = 0;
for (auto const& floating_box : float_side.current_boxes) {
auto const& floating_box_state = m_state.get(floating_box.box);
clearance_y = max(clearance_y, floating_box_state.offset.y() + floating_box_state.border_box_height());
}
y = max(y, clearance_y);
float_side.clear();
}
};
// Flex-items don't float and also don't clear.
if ((computed_values.clear() == CSS::Clear::Left || computed_values.clear() == CSS::Clear::Both) && !child_box.is_flex_item())
clear_floating_boxes(m_left_floats);
if ((computed_values.clear() == CSS::Clear::Right || computed_values.clear() == CSS::Clear::Both) && !child_box.is_flex_item())
clear_floating_boxes(m_right_floats);
box_state.offset = Gfx::FloatPoint { box_state.offset.x(), y };
}
void BlockFormattingContext::place_block_level_element_in_normal_flow_horizontally(Box const& child_box, BlockContainer const& containing_block)
{
auto& box_state = m_state.get_mutable(child_box);
float x = 0;
float available_width_within_containing_block = containing_block_width_for(child_box);
if ((!m_left_floats.current_boxes.is_empty() || !m_right_floats.current_boxes.is_empty())
&& creates_block_formatting_context(child_box)) {
available_width_within_containing_block -= m_left_floats.current_width + m_right_floats.current_width;
x += m_left_floats.current_width;
}
if (containing_block.computed_values().text_align() == CSS::TextAlign::LibwebCenter) {
x += (available_width_within_containing_block / 2) - box_state.content_width() / 2;
} else {
x += box_state.margin_box_left();
}
box_state.offset = Gfx::FloatPoint { x, box_state.offset.y() };
}
static void measure_scrollable_overflow(LayoutState const& state, Box const& box, float& bottom_edge, float& right_edge)
{
auto const& child_state = state.get(box);
auto child_rect = absolute_content_rect(box, state);
child_rect.inflate(child_state.border_box_top(), child_state.border_box_right(), child_state.border_box_bottom(), child_state.border_box_left());
bottom_edge = max(bottom_edge, child_rect.bottom());
right_edge = max(right_edge, child_rect.right());
if (box.computed_values().overflow_x() == CSS::Overflow::Hidden && box.computed_values().overflow_y() == CSS::Overflow::Hidden)
return;
box.for_each_child_of_type<Box>([&](Box const& child) {
measure_scrollable_overflow(state, child, bottom_edge, right_edge);
return IterationDecision::Continue;
});
}
void BlockFormattingContext::layout_initial_containing_block(LayoutMode layout_mode)
{
auto viewport_rect = root().browsing_context().viewport_rect();
auto& icb = verify_cast<Layout::InitialContainingBlock>(root());
auto& icb_state = m_state.get_mutable(icb);
if (root().children_are_inline())
layout_inline_children(root(), layout_mode);
else
layout_block_level_children(root(), layout_mode);
float bottom_edge = 0;
float right_edge = 0;
measure_scrollable_overflow(m_state, icb, bottom_edge, right_edge);
if (bottom_edge >= viewport_rect.height() || right_edge >= viewport_rect.width()) {
// FIXME: Move overflow data to LayoutState!
auto& overflow_data = icb_state.ensure_overflow_data();
overflow_data.scrollable_overflow_rect = viewport_rect.to_type<float>();
// NOTE: The edges are *within* the rectangle, so we add 1 to get the width and height.
overflow_data.scrollable_overflow_rect.set_size(right_edge + 1, bottom_edge + 1);
}
}
void BlockFormattingContext::layout_floating_box(Box const& box, BlockContainer const& containing_block, LayoutMode layout_mode, LineBuilder* line_builder)
{
VERIFY(box.is_floating());
auto& box_state = m_state.get_mutable(box);
float width_of_containing_block = containing_block_width_for(box);
compute_width(box, layout_mode);
(void)layout_inside(box, layout_mode);
compute_height(box, m_state);
// First we place the box normally (to get the right y coordinate.)
// If we have a LineBuilder, we're in the middle of inline layout, otherwise this is block layout.
if (line_builder) {
float y_offset = box_state.margin_box_top();
line_builder->break_if_needed(box_state.margin_box_width());
box_state.offset.set_y(line_builder->current_y() + y_offset);
line_builder->adjust_last_line_after_inserting_floating_box({}, box.computed_values().float_(), box_state.margin_box_width());
} else {
place_block_level_element_in_normal_flow_vertically(box, containing_block);
place_block_level_element_in_normal_flow_horizontally(box, containing_block);
}
// Then we float it to the left or right.
auto float_box = [&](FloatSide side, FloatSideData& side_data) {
float offset_from_edge = 0;
auto float_to_edge = [&] {
if (side == FloatSide::Left)
offset_from_edge = box_state.margin_box_left();
else
offset_from_edge = box_state.content_width() + box_state.margin_box_right();
};
auto box_in_root_rect = margin_box_rect_in_ancestor_coordinate_space(box, root(), m_state);
float y_in_root = box_in_root_rect.y();
float y = box_state.offset.y();
if (side_data.current_boxes.is_empty()) {
// This is the first floating box on this side. Go all the way to the edge.
float_to_edge();
side_data.y_offset = 0;
} else {
auto& previous_box = side_data.current_boxes.last();
float wanted_offset_from_edge = 0;
bool fits_on_line = false;
if (side == FloatSide::Left) {
wanted_offset_from_edge = side_data.current_width + box_state.margin_box_left();
fits_on_line = (wanted_offset_from_edge + box_state.content_width() + box_state.margin_box_right()) <= width_of_containing_block;
} else {
wanted_offset_from_edge = side_data.current_width + box_state.margin_box_right() + box_state.content_width();
fits_on_line = (wanted_offset_from_edge - box_state.margin_box_left()) >= 0;
}
if (fits_on_line) {
auto const previous_rect = margin_box_rect_in_ancestor_coordinate_space(previous_box.box, root(), m_state);
if (previous_rect.contains_vertically(y_in_root + side_data.y_offset)) {
// This box touches another already floating box. Stack after others.
offset_from_edge = wanted_offset_from_edge;
} else {
// This box does not touch another floating box, go all the way to the edge.
float_to_edge();
// Also, forget all previous boxes floated to this side while since they're no longer relevant.
side_data.clear();
}
} else {
// We ran out of horizontal space on this "float line", and need to break.
float_to_edge();
float lowest_border_edge = 0;
for (auto const& box : side_data.current_boxes) {
auto const& box_state = m_state.get(box.box);
lowest_border_edge = max(lowest_border_edge, box_state.border_box_height());
}
side_data.y_offset += lowest_border_edge;
// Also, forget all previous boxes floated to this side while since they're no longer relevant.
side_data.clear();
}
}
y += side_data.y_offset;
side_data.all_boxes.append(adopt_own(*new FloatingBox {
.box = box,
.offset_from_edge = offset_from_edge,
.top_margin_edge = y - box_state.margin_box_top(),
.bottom_margin_edge = y + box_state.content_height() + box_state.margin_box_bottom(),
}));
side_data.current_boxes.append(*side_data.all_boxes.last());
if (side == FloatSide::Left) {
side_data.current_width = offset_from_edge + box_state.content_width() + box_state.margin_box_right();
} else {
side_data.current_width = offset_from_edge + box_state.margin_box_left();
}
side_data.max_width = max(side_data.current_width, side_data.max_width);
// NOTE: We don't set the X position here, that happens later, once we know the root block width.
// See parent_context_did_dimension_child_root_box() for that logic.
box_state.offset.set_y(y);
};
// Next, float to the left and/or right
if (box.computed_values().float_() == CSS::Float::Left) {
float_box(FloatSide::Left, m_left_floats);
} else if (box.computed_values().float_() == CSS::Float::Right) {
float_box(FloatSide::Right, m_right_floats);
}
}
void BlockFormattingContext::layout_list_item_marker(ListItemBox const& list_item_box)
{
if (!list_item_box.marker())
return;
auto& marker = *list_item_box.marker();
auto& marker_state = m_state.get_mutable(marker);
auto& list_item_state = m_state.get_mutable(list_item_box);
int image_width = 0;
int image_height = 0;
if (auto const* list_style_image = marker.list_style_image()) {
image_width = list_style_image->natural_width().value_or(0);
image_height = list_style_image->natural_height().value_or(0);
}
int default_marker_width = max(4, marker.font().glyph_height() - 4);
if (marker.text().is_empty()) {
marker_state.set_content_width(image_width + default_marker_width);
} else {
auto text_width = marker.font().width(marker.text());
marker_state.set_content_width(image_width + text_width);
}
marker_state.set_content_height(max(image_height, marker.font().glyph_height() + 1));
marker_state.offset = {
-(marker_state.content_width() + default_marker_width),
max(0.f, (marker.line_height() - marker_state.content_height()) / 2.f)
};
if (marker_state.content_height() > list_item_state.content_height())
list_item_state.set_content_height(marker_state.content_height());
}
BlockFormattingContext::SpaceUsedByFloats BlockFormattingContext::space_used_by_floats(float y) const
{
SpaceUsedByFloats space_used_by_floats;
for (auto const& floating_box : m_left_floats.current_boxes.in_reverse()) {
auto const& floating_box_state = m_state.get(floating_box.box);
// NOTE: The floating box is *not* in the final horizontal position yet, but the size and vertical position is valid.
auto rect = margin_box_rect_in_ancestor_coordinate_space(floating_box.box, root(), m_state);
if (rect.contains_vertically(y)) {
space_used_by_floats.left = floating_box.offset_from_edge
+ floating_box_state.content_width()
+ floating_box_state.margin_box_right();
break;
}
}
for (auto const& floating_box : m_right_floats.current_boxes.in_reverse()) {
auto const& floating_box_state = m_state.get(floating_box.box);
// NOTE: The floating box is *not* in the final horizontal position yet, but the size and vertical position is valid.
auto rect = margin_box_rect_in_ancestor_coordinate_space(floating_box.box, root(), m_state);
if (rect.contains_vertically(y)) {
space_used_by_floats.right = floating_box.offset_from_edge
+ floating_box_state.margin_box_left();
break;
}
}
return space_used_by_floats;
}
float BlockFormattingContext::greatest_child_width(Box const& box)
{
// Similar to FormattingContext::greatest_child_width()
// but this one takes floats into account!
float max_width = m_left_floats.max_width + m_right_floats.max_width;
if (box.children_are_inline()) {
for (auto const& line_box : m_state.get(verify_cast<BlockContainer>(box)).line_boxes) {
auto width_here = line_box.width();
float extra_width_from_left_floats = 0;
for (auto& left_float : m_left_floats.all_boxes) {
if (line_box.baseline() >= left_float->top_margin_edge || line_box.baseline() <= left_float->bottom_margin_edge) {
auto const& left_float_state = m_state.get(left_float->box);
extra_width_from_left_floats = max(extra_width_from_left_floats, left_float->offset_from_edge + left_float_state.content_width() + left_float_state.margin_box_right());
}
}
float extra_width_from_right_floats = 0;
for (auto& right_float : m_right_floats.all_boxes) {
if (line_box.baseline() >= right_float->top_margin_edge || line_box.baseline() <= right_float->bottom_margin_edge) {
auto const& right_float_state = m_state.get(right_float->box);
extra_width_from_right_floats = max(extra_width_from_right_floats, right_float->offset_from_edge + right_float_state.margin_box_left());
}
}
width_here += extra_width_from_left_floats + extra_width_from_right_floats;
max_width = max(max_width, width_here);
}
} else {
box.for_each_child_of_type<Box>([&](auto& child) {
max_width = max(max_width, m_state.get(child).border_box_width());
});
}
return max_width;
}
}
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