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/*
* Copyright (c) 2020-2021, Andreas Kling <kling@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <LibWeb/Dump.h>
#include <LibWeb/Layout/BlockFormattingContext.h>
#include <LibWeb/Layout/Box.h>
#include <LibWeb/Layout/FlexFormattingContext.h>
#include <LibWeb/Layout/FormattingContext.h>
#include <LibWeb/Layout/InlineFormattingContext.h>
#include <LibWeb/Layout/ReplacedBox.h>
#include <LibWeb/Layout/SVGFormattingContext.h>
#include <LibWeb/Layout/SVGSVGBox.h>
#include <LibWeb/Layout/TableBox.h>
#include <LibWeb/Layout/TableCellBox.h>
#include <LibWeb/Layout/TableFormattingContext.h>
namespace Web::Layout {
FormattingContext::FormattingContext(Box& context_box, FormattingContext* parent)
: m_parent(parent)
, m_context_box(&context_box)
{
}
FormattingContext::~FormattingContext()
{
}
bool FormattingContext::creates_block_formatting_context(const Box& box)
{
if (box.is_root_element())
return true;
if (box.is_floating())
return true;
if (box.is_absolutely_positioned())
return true;
if (box.is_inline_block())
return true;
if (is<TableCellBox>(box))
return true;
CSS::Overflow overflow_x = box.computed_values().overflow_x();
if ((overflow_x != CSS::Overflow::Visible) && (overflow_x != CSS::Overflow::Clip))
return true;
CSS::Overflow overflow_y = box.computed_values().overflow_y();
if ((overflow_y != CSS::Overflow::Visible) && (overflow_y != CSS::Overflow::Clip))
return true;
auto display = box.computed_values().display();
if (display.is_flow_root_inside())
return true;
// FIXME: inline-flex as well
if (box.parent()) {
auto parent_display = box.parent()->computed_values().display();
if (parent_display.is_flex_inside()) {
// FIXME: Flex items (direct children of the element with display: flex or inline-flex) if they are neither flex nor grid nor table containers themselves.
if (!display.is_flex_inside())
return true;
}
}
// FIXME: table-caption
// FIXME: anonymous table cells
// FIXME: Elements with contain: layout, content, or paint.
// FIXME: grid
// FIXME: multicol
// FIXME: column-span: all
return false;
}
void FormattingContext::layout_inside(Box& child_box, LayoutMode layout_mode)
{
if (!child_box.can_have_children())
return;
if (is<SVGSVGBox>(child_box)) {
SVGFormattingContext context(child_box, this);
context.run(child_box, layout_mode);
return;
}
auto child_display = child_box.computed_values().display();
if (child_display.is_flex_inside()) {
FlexFormattingContext context(child_box, this);
context.run(child_box, layout_mode);
return;
}
if (creates_block_formatting_context(child_box)) {
BlockFormattingContext context(verify_cast<BlockContainer>(child_box), this);
context.run(child_box, layout_mode);
return;
}
if (child_display.is_table_inside()) {
TableFormattingContext context(verify_cast<TableBox>(child_box), this);
context.run(child_box, layout_mode);
return;
}
VERIFY(is_block_formatting_context());
if (child_box.children_are_inline()) {
InlineFormattingContext context(verify_cast<BlockContainer>(child_box), this);
context.run(child_box, layout_mode);
return;
}
VERIFY(child_display.is_flow_inside());
run(child_box, layout_mode);
}
static float greatest_child_width(Box const& box)
{
float max_width = 0;
if (box.children_are_inline()) {
for (auto& child : verify_cast<BlockContainer>(box).line_boxes()) {
max_width = max(max_width, child.width());
}
} else {
box.for_each_child_of_type<Box>([&](auto& child) {
max_width = max(max_width, child.border_box_width());
});
}
return max_width;
}
FormattingContext::ShrinkToFitResult FormattingContext::calculate_shrink_to_fit_widths(Box& box)
{
// Calculate the preferred width by formatting the content without breaking lines
// other than where explicit line breaks occur.
layout_inside(box, LayoutMode::OnlyRequiredLineBreaks);
float preferred_width = greatest_child_width(box);
// Also calculate the preferred minimum width, e.g., by trying all possible line breaks.
// CSS 2.2 does not define the exact algorithm.
layout_inside(box, LayoutMode::AllPossibleLineBreaks);
float preferred_minimum_width = greatest_child_width(box);
return { preferred_width, preferred_minimum_width };
}
static Gfx::FloatSize solve_replaced_size_constraint(float w, float h, const ReplacedBox& box)
{
// 10.4 Minimum and maximum widths: 'min-width' and 'max-width'
auto& containing_block = *box.containing_block();
auto specified_min_width = box.computed_values().min_width().resolved_or_zero(box, containing_block.width()).to_px(box);
auto specified_max_width = box.computed_values().max_width().resolved(CSS::Length::make_px(w), box, containing_block.width()).to_px(box);
auto specified_min_height = box.computed_values().min_height().resolved_or_auto(box, containing_block.height()).to_px(box);
auto specified_max_height = box.computed_values().max_height().resolved(CSS::Length::make_px(h), box, containing_block.height()).to_px(box);
auto min_width = min(specified_min_width, specified_max_width);
auto max_width = max(specified_min_width, specified_max_width);
auto min_height = min(specified_min_height, specified_max_height);
auto max_height = max(specified_min_height, specified_max_height);
if (w > max_width)
return { w, max(max_width * h / w, min_height) };
if (w < min_width)
return { max_width, min(min_width * h / w, max_height) };
if (h > max_height)
return { max(max_height * w / h, min_width), max_height };
if (h < min_height)
return { min(min_height * w / h, max_width), min_height };
if ((w > max_width && h > max_height) && (max_width / w < max_height / h))
return { max_width, max(min_height, max_width * h / w) };
if ((w > max_width && h > max_height) && (max_width / w > max_height / h))
return { max(min_width, max_height * w / h), max_height };
if ((w < min_width && h < min_height) && (min_width / w < min_height / h))
return { min(max_width, min_height * w / h), min_height };
if ((w < min_width && h < min_height) && (min_width / w > min_height / h))
return { min_width, min(max_height, min_width * h / w) };
if (w < min_width && h > max_height)
return { min_width, max_height };
if (w > max_width && h < min_height)
return { max_width, min_height };
return { w, h };
}
static float compute_auto_height_for_block_level_element(Box const& box)
{
Optional<float> top;
Optional<float> bottom;
if (box.children_are_inline()) {
// If it only has inline-level children, the height is the distance between
// the top of the topmost line box and the bottom of the bottommost line box.
auto& block_container = verify_cast<BlockContainer>(box);
if (!block_container.line_boxes().is_empty()) {
for (auto& fragment : block_container.line_boxes().first().fragments()) {
if (!top.has_value() || fragment.offset().y() < top.value())
top = fragment.offset().y();
}
for (auto& fragment : block_container.line_boxes().last().fragments()) {
if (!bottom.has_value() || (fragment.offset().y() + fragment.height()) > bottom.value())
bottom = fragment.offset().y() + fragment.height();
}
}
} else {
// If it has block-level children, the height is the distance between
// the top margin-edge of the topmost block-level child box
// and the bottom margin-edge of the bottommost block-level child box.
box.for_each_child_of_type<Box>([&](Layout::Box& child_box) {
if (child_box.is_absolutely_positioned())
return IterationDecision::Continue;
if ((box.computed_values().overflow_y() == CSS::Overflow::Visible) && child_box.is_floating())
return IterationDecision::Continue;
float child_box_top = child_box.effective_offset().y() - child_box.box_model().margin_box().top;
float child_box_bottom = child_box.effective_offset().y() + child_box.height() + child_box.box_model().margin_box().bottom;
if (!top.has_value() || child_box_top < top.value())
top = child_box_top;
if (!bottom.has_value() || child_box_bottom > bottom.value())
bottom = child_box_bottom;
return IterationDecision::Continue;
});
// In addition, if the element has any floating descendants
// whose bottom margin edge is below the element's bottom content edge,
// then the height is increased to include those edges.
box.for_each_child_of_type<Box>([&](Layout::Box& child_box) {
if (!child_box.is_floating())
return IterationDecision::Continue;
float child_box_bottom = child_box.effective_offset().y() + child_box.height();
if (!bottom.has_value() || child_box_bottom > bottom.value())
bottom = child_box_bottom;
return IterationDecision::Continue;
});
}
return bottom.value_or(0) - top.value_or(0);
}
// 10.3.2 Inline, replaced elements, https://www.w3.org/TR/CSS22/visudet.html#inline-replaced-width
float FormattingContext::tentative_width_for_replaced_element(ReplacedBox const& box, CSS::Length const& computed_width)
{
auto& containing_block = *box.containing_block();
auto computed_height = box.computed_values().height().resolved_or_auto(box, containing_block.height());
float used_width = computed_width.to_px(box);
// If 'height' and 'width' both have computed values of 'auto' and the element also has an intrinsic width,
// then that intrinsic width is the used value of 'width'.
if (computed_height.is_auto() && computed_width.is_auto() && box.has_intrinsic_width())
return box.intrinsic_width().value();
// If 'height' and 'width' both have computed values of 'auto' and the element has no intrinsic width,
// but does have an intrinsic height and intrinsic ratio;
// or if 'width' has a computed value of 'auto',
// 'height' has some other computed value, and the element does have an intrinsic ratio; then the used value of 'width' is:
//
// (used height) * (intrinsic ratio)
if ((computed_height.is_auto() && computed_width.is_auto() && !box.has_intrinsic_width() && box.has_intrinsic_height() && box.has_intrinsic_aspect_ratio())
|| (computed_width.is_auto() && box.has_intrinsic_aspect_ratio())) {
return compute_height_for_replaced_element(box) * box.intrinsic_aspect_ratio().value();
}
// If 'height' and 'width' both have computed values of 'auto' and the element has an intrinsic ratio but no intrinsic height or width,
// then the used value of 'width' is undefined in CSS 2.2. However, it is suggested that, if the containing block's width does not itself
// depend on the replaced element's width, then the used value of 'width' is calculated from the constraint equation used for block-level,
// non-replaced elements in normal flow.
// Otherwise, if 'width' has a computed value of 'auto', and the element has an intrinsic width, then that intrinsic width is the used value of 'width'.
if (computed_width.is_auto() && box.has_intrinsic_width())
return box.intrinsic_width().value();
// Otherwise, if 'width' has a computed value of 'auto', but none of the conditions above are met, then the used value of 'width' becomes 300px.
// If 300px is too wide to fit the device, UAs should use the width of the largest rectangle that has a 2:1 ratio and fits the device instead.
if (computed_width.is_auto())
return 300;
return used_width;
}
void FormattingContext::compute_width_for_absolutely_positioned_element(Box& box)
{
if (is<ReplacedBox>(box))
compute_width_for_absolutely_positioned_replaced_element(verify_cast<ReplacedBox>(box));
else
compute_width_for_absolutely_positioned_non_replaced_element(box);
}
void FormattingContext::compute_height_for_absolutely_positioned_element(Box& box)
{
if (is<ReplacedBox>(box))
compute_height_for_absolutely_positioned_replaced_element(verify_cast<ReplacedBox>(box));
else
compute_height_for_absolutely_positioned_non_replaced_element(box);
}
float FormattingContext::compute_width_for_replaced_element(const ReplacedBox& box)
{
// 10.3.4 Block-level, replaced elements in normal flow...
// 10.3.2 Inline, replaced elements
auto zero_value = CSS::Length::make_px(0);
auto& containing_block = *box.containing_block();
auto margin_left = box.computed_values().margin().left.resolved_or_zero(box, containing_block.width());
auto margin_right = box.computed_values().margin().right.resolved_or_zero(box, containing_block.width());
// 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;
auto specified_width = box.computed_values().width().resolved_or_auto(box, containing_block.width());
// 1. The tentative used width is calculated (without 'min-width' and 'max-width')
auto used_width = tentative_width_for_replaced_element(box, 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 = box.computed_values().max_width().resolved_or_auto(box, containing_block.width());
if (!specified_max_width.is_auto()) {
if (used_width > specified_max_width.to_px(box)) {
used_width = tentative_width_for_replaced_element(box, 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 = box.computed_values().min_width().resolved_or_auto(box, containing_block.width());
if (!specified_min_width.is_auto()) {
if (used_width < specified_min_width.to_px(box)) {
used_width = tentative_width_for_replaced_element(box, specified_min_width);
}
}
return used_width;
}
float FormattingContext::tentative_height_for_replaced_element(const ReplacedBox& box, const CSS::Length& height)
{
auto& containing_block = *box.containing_block();
auto specified_width = box.computed_values().width().resolved_or_auto(box, containing_block.width());
float used_height = height.to_px(box);
// If 'height' and 'width' both have computed values of 'auto' and the element also has
// an intrinsic height, then that intrinsic height is the used value of 'height'.
if (specified_width.is_auto() && height.is_auto() && box.has_intrinsic_height())
used_height = box.intrinsic_height().value();
else if (height.is_auto() && box.has_intrinsic_aspect_ratio())
used_height = compute_width_for_replaced_element(box) / box.intrinsic_aspect_ratio().value();
else if (height.is_auto() && box.has_intrinsic_height())
used_height = box.intrinsic_height().value();
else if (height.is_auto())
used_height = 150;
return used_height;
}
float FormattingContext::compute_height_for_replaced_element(const ReplacedBox& box)
{
// 10.6.2 Inline replaced elements, block-level replaced elements in normal flow,
// 'inline-block' replaced elements in normal flow and floating replaced elements
auto& containing_block = *box.containing_block();
auto specified_width = box.computed_values().width().resolved_or_auto(box, containing_block.width());
auto specified_height = box.computed_values().height().resolved_or_auto(box, containing_block.height());
float used_height = tentative_height_for_replaced_element(box, specified_height);
if (specified_width.is_auto() && specified_height.is_auto() && box.has_intrinsic_aspect_ratio()) {
float w = tentative_width_for_replaced_element(box, specified_width);
float h = used_height;
used_height = solve_replaced_size_constraint(w, h, box).height();
}
return used_height;
}
void FormattingContext::compute_width_for_absolutely_positioned_non_replaced_element(Box& box)
{
auto& containing_block = *box.containing_block();
auto& computed_values = box.computed_values();
auto zero_value = CSS::Length::make_px(0);
auto margin_left = CSS::Length::make_auto();
auto margin_right = CSS::Length::make_auto();
const auto border_left = computed_values.border_left().width;
const auto border_right = computed_values.border_right().width;
const auto padding_left = computed_values.padding().left.resolved_or_zero(box, containing_block.width());
const auto padding_right = computed_values.padding().right.resolved_or_zero(box, containing_block.width());
auto try_compute_width = [&](const auto& a_width) {
margin_left = computed_values.margin().left.resolved_or_zero(box, containing_block.width());
margin_right = computed_values.margin().right.resolved_or_zero(box, containing_block.width());
auto left = computed_values.offset().left.resolved_or_auto(box, containing_block.width());
auto right = computed_values.offset().right.resolved_or_auto(box, containing_block.width());
auto width = a_width;
auto solve_for_left = [&] {
return CSS::Length(containing_block.width() - margin_left.to_px(box) - border_left - padding_left.to_px(box) - width.to_px(box) - padding_right.to_px(box) - border_right - margin_right.to_px(box) - right.to_px(box), CSS::Length::Type::Px);
};
auto solve_for_width = [&] {
return CSS::Length(containing_block.width() - left.to_px(box) - margin_left.to_px(box) - border_left - padding_left.to_px(box) - padding_right.to_px(box) - border_right - margin_right.to_px(box) - right.to_px(box), CSS::Length::Type::Px);
};
auto solve_for_right = [&] {
return CSS::Length(containing_block.width() - left.to_px(box) - margin_left.to_px(box) - border_left - padding_left.to_px(box) - width.to_px(box) - padding_right.to_px(box) - border_right - margin_right.to_px(box), CSS::Length::Type::Px);
};
// If all three of 'left', 'width', and 'right' are 'auto':
if (left.is_auto() && width.is_auto() && right.is_auto()) {
// First set any 'auto' values for 'margin-left' and 'margin-right' to 0.
if (margin_left.is_auto())
margin_left = CSS::Length::make_px(0);
if (margin_right.is_auto())
margin_right = CSS::Length::make_px(0);
// Then, if the 'direction' property of the element establishing the static-position containing block
// is 'ltr' set 'left' to the static position and apply rule number three below;
// otherwise, set 'right' to the static position and apply rule number one below.
// FIXME: This is very hackish.
left = CSS::Length::make_px(0);
goto Rule3;
}
if (!left.is_auto() && !width.is_auto() && !right.is_auto()) {
// FIXME: This should be solved in a more complicated way.
return width;
}
if (margin_left.is_auto())
margin_left = CSS::Length::make_px(0);
if (margin_right.is_auto())
margin_right = CSS::Length::make_px(0);
// 1. 'left' and 'width' are 'auto' and 'right' is not 'auto',
// then the width is shrink-to-fit. Then solve for 'left'
if (left.is_auto() && width.is_auto() && !right.is_auto()) {
auto result = calculate_shrink_to_fit_widths(box);
solve_for_left();
auto available_width = solve_for_width();
width = CSS::Length(min(max(result.preferred_minimum_width, available_width.to_px(box)), result.preferred_width), CSS::Length::Type::Px);
}
// 2. 'left' and 'right' are 'auto' and 'width' is not 'auto',
// then if the 'direction' property of the element establishing
// the static-position containing block is 'ltr' set 'left'
// to the static position, otherwise set 'right' to the static position.
// Then solve for 'left' (if 'direction is 'rtl') or 'right' (if 'direction' is 'ltr').
else if (left.is_auto() && right.is_auto() && !width.is_auto()) {
// FIXME: Check direction
// FIXME: Use the static-position containing block
left = zero_value;
right = solve_for_right();
}
// 3. 'width' and 'right' are 'auto' and 'left' is not 'auto',
// then the width is shrink-to-fit. Then solve for 'right'
else if (width.is_auto() && right.is_auto() && !left.is_auto()) {
Rule3:
auto result = calculate_shrink_to_fit_widths(box);
auto available_width = solve_for_width();
width = CSS::Length(min(max(result.preferred_minimum_width, available_width.to_px(box)), result.preferred_width), CSS::Length::Type::Px);
right = solve_for_right();
}
// 4. 'left' is 'auto', 'width' and 'right' are not 'auto', then solve for 'left'
else if (left.is_auto() && !width.is_auto() && !right.is_auto()) {
left = solve_for_left();
}
// 5. 'width' is 'auto', 'left' and 'right' are not 'auto', then solve for 'width'
else if (width.is_auto() && !left.is_auto() && !right.is_auto()) {
width = solve_for_width();
}
// 6. 'right' is 'auto', 'left' and 'width' are not 'auto', then solve for 'right'
else if (right.is_auto() && !left.is_auto() && !width.is_auto()) {
right = solve_for_right();
}
return width;
};
auto specified_width = computed_values.width().resolved_or_auto(box, containing_block.width());
// 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_or_auto(box, containing_block.width());
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_or_auto(box, containing_block.width());
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);
}
}
box.set_width(used_width.to_px(box));
box.box_model().margin.left = margin_left.to_px(box);
box.box_model().margin.right = margin_right.to_px(box);
box.box_model().border.left = border_left;
box.box_model().border.right = border_right;
box.box_model().padding.left = padding_left.to_px(box);
box.box_model().padding.right = padding_right.to_px(box);
}
void FormattingContext::compute_width_for_absolutely_positioned_replaced_element(ReplacedBox& box)
{
// 10.3.8 Absolutely positioned, replaced elements
// The used value of 'width' is determined as for inline replaced elements.
box.prepare_for_replaced_layout();
box.set_width(compute_width_for_replaced_element(box));
}
void FormattingContext::compute_height_for_absolutely_positioned_non_replaced_element(Box& box)
{
auto& computed_values = box.computed_values();
auto& containing_block = *box.containing_block();
CSS::Length specified_top = computed_values.offset().top.resolved_or_auto(box, containing_block.height());
CSS::Length specified_bottom = computed_values.offset().bottom.resolved_or_auto(box, containing_block.height());
CSS::Length specified_height;
if (computed_values.height().is_percentage() && !containing_block.computed_values().height().is_absolute()) {
specified_height = CSS::Length::make_auto();
} else {
specified_height = computed_values.height().resolved_or_auto(box, containing_block.height());
}
auto specified_max_height = computed_values.max_height().resolved_or_auto(box, containing_block.height());
auto specified_min_height = computed_values.min_height().resolved_or_auto(box, containing_block.height());
box.box_model().margin.top = computed_values.margin().top.resolved_or_zero(box, containing_block.width()).to_px(box);
box.box_model().margin.bottom = computed_values.margin().bottom.resolved_or_zero(box, containing_block.width()).to_px(box);
box.box_model().border.top = computed_values.border_top().width;
box.box_model().border.bottom = computed_values.border_bottom().width;
box.box_model().padding.top = computed_values.padding().top.resolved_or_zero(box, containing_block.width()).to_px(box);
box.box_model().padding.bottom = computed_values.padding().bottom.resolved_or_zero(box, containing_block.width()).to_px(box);
if (specified_height.is_auto() && !specified_top.is_auto() && specified_bottom.is_auto()) {
const auto& margin = box.box_model().margin;
const auto& padding = box.box_model().padding;
const auto& border = box.box_model().border;
specified_height = CSS::Length(compute_auto_height_for_block_level_element(box), CSS::Length::Type::Px);
box.box_model().offset.bottom = containing_block.height() - specified_height.to_px(box) - specified_top.to_px(box) - margin.top - padding.top - border.top - margin.bottom - padding.bottom - border.bottom;
}
else if (specified_height.is_auto() && !specified_top.is_auto() && !specified_bottom.is_auto()) {
const auto& margin = box.box_model().margin;
const auto& padding = box.box_model().padding;
const auto& border = box.box_model().border;
specified_height = CSS::Length(containing_block.height() - specified_top.to_px(box) - margin.top - padding.top - border.top - specified_bottom.to_px(box) - margin.bottom - padding.bottom - border.bottom, CSS::Length::Type::Px);
}
if (!specified_height.is_auto()) {
float used_height = specified_height.to_px(box);
if (!specified_max_height.is_auto())
used_height = min(used_height, specified_max_height.to_px(box));
if (!specified_min_height.is_auto())
used_height = max(used_height, specified_min_height.to_px(box));
box.set_height(used_height);
}
}
void FormattingContext::layout_absolutely_positioned_element(Box& box)
{
auto& containing_block = *box.containing_block();
auto& box_model = box.box_model();
auto specified_width = box.computed_values().width().resolved_or_auto(box, containing_block.width());
compute_width_for_absolutely_positioned_element(box);
layout_inside(box, LayoutMode::Default);
compute_height_for_absolutely_positioned_element(box);
box_model.margin.left = box.computed_values().margin().left.resolved_or_auto(box, containing_block.width()).to_px(box);
box_model.margin.top = box.computed_values().margin().top.resolved_or_auto(box, containing_block.height()).to_px(box);
box_model.margin.right = box.computed_values().margin().right.resolved_or_auto(box, containing_block.width()).to_px(box);
box_model.margin.bottom = box.computed_values().margin().bottom.resolved_or_auto(box, containing_block.height()).to_px(box);
box_model.border.left = box.computed_values().border_left().width;
box_model.border.right = box.computed_values().border_right().width;
box_model.border.top = box.computed_values().border_top().width;
box_model.border.bottom = box.computed_values().border_bottom().width;
box_model.offset.left = box.computed_values().offset().left.resolved_or_auto(box, containing_block.width()).to_px(box);
box_model.offset.top = box.computed_values().offset().top.resolved_or_auto(box, containing_block.height()).to_px(box);
box_model.offset.right = box.computed_values().offset().right.resolved_or_auto(box, containing_block.width()).to_px(box);
box_model.offset.bottom = box.computed_values().offset().bottom.resolved_or_auto(box, containing_block.height()).to_px(box);
if (box.computed_values().offset().left.is_auto() && specified_width.is_auto() && box.computed_values().offset().right.is_auto()) {
if (box.computed_values().margin().left.is_auto())
box_model.margin.left = 0;
if (box.computed_values().margin().right.is_auto())
box_model.margin.right = 0;
}
Gfx::FloatPoint used_offset;
if (!box.computed_values().offset().left.is_auto()) {
float x_offset = box_model.offset.left
+ box_model.border_box().left;
used_offset.set_x(x_offset + box_model.margin.left);
} else if (!box.computed_values().offset().right.is_auto()) {
float x_offset = 0
- box_model.offset.right
- box_model.border_box().right;
used_offset.set_x(containing_block.width() + x_offset - box.width() - box_model.margin.right);
} else {
float x_offset = box_model.margin_box().left;
used_offset.set_x(x_offset);
}
if (!box.computed_values().offset().top.is_auto()) {
float y_offset = box_model.offset.top
+ box_model.border_box().top;
used_offset.set_y(y_offset + box_model.margin.top);
} else if (!box.computed_values().offset().bottom.is_auto()) {
float y_offset = 0
- box_model.offset.bottom
- box_model.border_box().bottom;
used_offset.set_y(containing_block.height() + y_offset - box.height() - box_model.margin.bottom);
} else {
float y_offset = box_model.margin_box().top;
used_offset.set_y(y_offset);
}
box.set_offset(used_offset);
}
void FormattingContext::compute_height_for_absolutely_positioned_replaced_element(ReplacedBox& box)
{
// 10.6.5 Absolutely positioned, replaced elements
// The used value of 'height' is determined as for inline replaced elements.
box.set_height(compute_height_for_replaced_element(box));
}
}
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