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/*
* Copyright (C) 2018 Apple Inc. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS''
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
* THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
* THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "config.h"
#include "BlockFormattingContext.h"
#if ENABLE(LAYOUT_FORMATTING_CONTEXT)
#include "InlineFormattingState.h"
#include "LayoutBox.h"
#include "LayoutContainer.h"
#include "LayoutUnit.h"
#include "RenderStyle.h"
namespace WebCore {
namespace Layout {
static bool hasBorder(const BorderValue& borderValue)
{
if (borderValue.style() == BorderStyle::None || borderValue.style() == BorderStyle::Hidden)
return false;
return !!borderValue.width();
}
static bool hasPadding(const Length& paddingValue)
{
// FIXME: Check if percent value needs to be resolved.
return !paddingValue.isZero();
}
static bool hasBorderBefore(const Box& layoutBox)
{
return hasBorder(layoutBox.style().borderBefore());
}
static bool hasBorderAfter(const Box& layoutBox)
{
return hasBorder(layoutBox.style().borderAfter());
}
static bool hasPaddingBefore(const Box& layoutBox)
{
return hasPadding(layoutBox.style().paddingBefore());
}
static bool hasPaddingAfter(const Box& layoutBox)
{
return hasPadding(layoutBox.style().paddingAfter());
}
static bool establishesBlockFormattingContext(const Box& layoutBox)
{
// WebKit treats the document element renderer as a block formatting context root. It probably only impacts margin collapsing, so let's not do
// a layout wide quirk on this for now.
if (layoutBox.isDocumentBox())
return true;
return layoutBox.establishesBlockFormattingContext();
}
bool BlockFormattingContext::MarginCollapse::hasClearance(const Box& layoutBox) const
{
if (!layoutBox.hasFloatClear())
return false;
// FIXME: computeEstimatedVerticalPositionForFormattingRoot logic ends up calling into this function when the layoutBox (first inflow child) has
// not been laid out.
if (!layoutState().hasDisplayBox(layoutBox))
return false;
return formattingContext().geometryForBox(layoutBox).hasClearance();
}
bool BlockFormattingContext::MarginCollapse::marginBeforeCollapsesWithParentMarginAfter(const Box& layoutBox) const
{
// 1. This is the last in-flow child and its margins collapse through and the margin after collapses with parent's margin after or
// 2. This box's margin after collapses with the next sibling's margin before and that sibling collapses through and
// we can get to the last in-flow child like that.
auto* lastInFlowChild = layoutBox.parent()->lastInFlowChild();
for (auto* currentBox = &layoutBox; currentBox; currentBox = currentBox->nextInFlowSibling()) {
if (!marginsCollapseThrough(*currentBox))
return false;
if (currentBox == lastInFlowChild)
return marginAfterCollapsesWithParentMarginAfter(*currentBox);
if (!marginAfterCollapsesWithNextSiblingMarginBefore(*currentBox))
return false;
}
ASSERT_NOT_REACHED();
return false;
}
bool BlockFormattingContext::MarginCollapse::marginBeforeCollapsesWithParentMarginBefore(const Box& layoutBox) const
{
// The first inflow child could propagate its top margin to parent.
// https://www.w3.org/TR/CSS21/box.html#collapsing-margins
if (layoutBox.isAnonymous())
return false;
ASSERT(layoutBox.isBlockLevelBox());
// Margins between a floated box and any other box do not collapse.
if (layoutBox.isFloatingPositioned())
return false;
// Margins of absolutely positioned boxes do not collapse.
if (layoutBox.isOutOfFlowPositioned())
return false;
// Margins of inline-block boxes do not collapse.
if (layoutBox.isInlineBlockBox())
return false;
// Only the first inlflow child collapses with parent.
if (layoutBox.previousInFlowSibling())
return false;
auto& parent = *layoutBox.parent();
// Margins of elements that establish new block formatting contexts do not collapse with their in-flow children
if (establishesBlockFormattingContext(parent))
return false;
if (hasBorderBefore(parent))
return false;
if (hasPaddingBefore(parent))
return false;
// ...and the child has no clearance.
if (hasClearance(layoutBox))
return false;
return true;
}
bool BlockFormattingContext::MarginCollapse::marginBeforeCollapsesWithPreviousSiblingMarginAfter(const Box& layoutBox) const
{
ASSERT(layoutBox.isBlockLevelBox());
if (layoutBox.isAnonymous())
return false;
if (!layoutBox.previousInFlowSibling())
return false;
auto& previousInFlowSibling = *layoutBox.previousInFlowSibling();
if (previousInFlowSibling.isAnonymous())
return false;
// Margins between a floated box and any other box do not collapse.
if (layoutBox.isFloatingPositioned() || previousInFlowSibling.isFloatingPositioned())
return false;
// Margins of absolutely positioned boxes do not collapse.
if ((layoutBox.isOutOfFlowPositioned() && !layoutBox.style().top().isAuto())
|| (previousInFlowSibling.isOutOfFlowPositioned() && !previousInFlowSibling.style().bottom().isAuto()))
return false;
// Margins of inline-block boxes do not collapse.
if (layoutBox.isInlineBlockBox() || previousInFlowSibling.isInlineBlockBox())
return false;
// The bottom margin of an in-flow block-level element always collapses with the top margin of
// its next in-flow block-level sibling, unless that sibling has clearance.
if (hasClearance(layoutBox))
return false;
return true;
}
bool BlockFormattingContext::MarginCollapse::marginBeforeCollapsesWithFirstInFlowChildMarginBefore(const Box& layoutBox) const
{
if (layoutBox.isAnonymous())
return false;
ASSERT(layoutBox.isBlockLevelBox());
// Margins of elements that establish new block formatting contexts do not collapse with their in-flow children.
if (establishesBlockFormattingContext(layoutBox))
return false;
// The top margin of an in-flow block element collapses with its first in-flow block-level
// child's top margin if the element has no top border...
if (hasBorderBefore(layoutBox))
return false;
// ...no top padding
if (hasPaddingBefore(layoutBox))
return false;
if (!is<Container>(layoutBox) || !downcast<Container>(layoutBox).hasInFlowChild())
return false;
auto& firstInFlowChild = *downcast<Container>(layoutBox).firstInFlowChild();
if (!firstInFlowChild.isBlockLevelBox())
return false;
// ...and the child has no clearance.
if (hasClearance(firstInFlowChild))
return false;
// Margins of inline-block boxes do not collapse.
if (firstInFlowChild.isInlineBlockBox())
return false;
return true;
}
bool BlockFormattingContext::MarginCollapse::marginAfterCollapsesWithSiblingMarginBeforeWithClearance(const Box& layoutBox) const
{
// If the top and bottom margins of an element with clearance are adjoining, its margins collapse with the adjoining margins
// of following siblings but that resulting margin does not collapse with the bottom margin of the parent block.
if (!marginsCollapseThrough(layoutBox))
return false;
for (auto* previousSibling = layoutBox.previousInFlowSibling(); previousSibling; previousSibling = previousSibling->previousInFlowSibling()) {
if (!marginsCollapseThrough(*previousSibling))
return false;
if (hasClearance(*previousSibling))
return true;
}
return false;
}
bool BlockFormattingContext::MarginCollapse::marginAfterCollapsesWithParentMarginBefore(const Box& layoutBox) const
{
// 1. This is the first in-flow child and its margins collapse through and the margin before collapses with parent's margin before or
// 2. This box's margin before collapses with the previous sibling's margin after and that sibling collapses through and
// we can get to the first in-flow child like that.
auto* firstInFlowChild = layoutBox.parent()->firstInFlowChild();
for (auto* currentBox = &layoutBox; currentBox; currentBox = currentBox->previousInFlowSibling()) {
if (!marginsCollapseThrough(*currentBox))
return false;
if (currentBox == firstInFlowChild)
return marginBeforeCollapsesWithParentMarginBefore(*currentBox);
if (!marginBeforeCollapsesWithPreviousSiblingMarginAfter(*currentBox))
return false;
}
ASSERT_NOT_REACHED();
return false;
}
bool BlockFormattingContext::MarginCollapse::marginAfterCollapsesWithParentMarginAfter(const Box& layoutBox) const
{
if (layoutBox.isAnonymous())
return false;
ASSERT(layoutBox.isBlockLevelBox());
// Margins between a floated box and any other box do not collapse.
if (layoutBox.isFloatingPositioned())
return false;
// Margins of absolutely positioned boxes do not collapse.
if (layoutBox.isOutOfFlowPositioned())
return false;
// Margins of inline-block boxes do not collapse.
if (layoutBox.isInlineBlockBox())
return false;
// Only the last inlflow child collapses with parent.
if (layoutBox.nextInFlowSibling())
return false;
auto& parent = *layoutBox.parent();
// Margins of elements that establish new block formatting contexts do not collapse with their in-flow children.
if (establishesBlockFormattingContext(parent))
return false;
// The bottom margin of an in-flow block box with a 'height' of 'auto' collapses with its last in-flow block-level child's bottom margin, if:
if (!parent.style().height().isAuto())
return false;
// the box has no bottom padding, and
if (hasPaddingAfter(parent))
return false;
// the box has no bottom border, and
if (hasBorderAfter(parent))
return false;
// the child's bottom margin neither collapses with a top margin that has clearance...
if (marginAfterCollapsesWithSiblingMarginBeforeWithClearance(layoutBox))
return false;
// nor (if the box's min-height is non-zero) with the box's top margin.
auto computedMinHeight = parent.style().logicalMinHeight();
if (!computedMinHeight.isAuto() && computedMinHeight.value() && marginAfterCollapsesWithParentMarginBefore(layoutBox))
return false;
return true;
}
bool BlockFormattingContext::MarginCollapse::marginAfterCollapsesWithLastInFlowChildMarginAfter(const Box& layoutBox) const
{
ASSERT(layoutBox.isBlockLevelBox());
// Margins of elements that establish new block formatting contexts do not collapse with their in-flow children.
if (establishesBlockFormattingContext(layoutBox))
return false;
if (!is<Container>(layoutBox) || !downcast<Container>(layoutBox).hasInFlowChild())
return false;
auto& lastInFlowChild = *downcast<Container>(layoutBox).lastInFlowChild();
if (!lastInFlowChild.isBlockLevelBox())
return false;
// The bottom margin of an in-flow block box with a 'height' of 'auto' collapses with its last in-flow block-level child's bottom margin, if:
if (!layoutBox.style().height().isAuto())
return false;
// the box has no bottom padding, and
if (hasPaddingAfter(layoutBox))
return false;
// the box has no bottom border, and
if (hasBorderAfter(layoutBox))
return false;
// the child's bottom margin neither collapses with a top margin that has clearance...
if (marginAfterCollapsesWithSiblingMarginBeforeWithClearance(lastInFlowChild))
return false;
// nor (if the box's min-height is non-zero) with the box's top margin.
auto computedMinHeight = layoutBox.style().logicalMinHeight();
if (!computedMinHeight.isAuto() && computedMinHeight.value()
&& (marginAfterCollapsesWithParentMarginBefore(lastInFlowChild) || hasClearance(lastInFlowChild)))
return false;
// Margins of inline-block boxes do not collapse.
if (lastInFlowChild.isInlineBlockBox())
return false;
return true;
}
bool BlockFormattingContext::MarginCollapse::marginAfterCollapsesWithNextSiblingMarginBefore(const Box& layoutBox) const
{
ASSERT(layoutBox.isBlockLevelBox());
if (!layoutBox.nextInFlowSibling())
return false;
return marginBeforeCollapsesWithPreviousSiblingMarginAfter(*layoutBox.nextInFlowSibling());
}
bool BlockFormattingContext::MarginCollapse::marginsCollapseThrough(const Box& layoutBox) const
{
ASSERT(layoutBox.isBlockLevelBox());
// A box's own margins collapse if the 'min-height' property is zero, and it has neither top or bottom borders nor top or bottom padding,
// and it has a 'height' of either 0 or 'auto', and it does not contain a line box, and all of its in-flow children's margins (if any) collapse.
if (hasBorderBefore(layoutBox) || hasBorderAfter(layoutBox))
return false;
if (hasPaddingBefore(layoutBox) || hasPaddingAfter(layoutBox))
return false;
auto& style = layoutBox.style();
auto computedHeightValueIsZero = style.height().isFixed() && !style.height().value();
if (!(style.height().isAuto() || computedHeightValueIsZero))
return false;
// FIXME: Check for computed 0 height.
if (!style.minHeight().isAuto())
return false;
// FIXME: Block replaced boxes clearly don't collapse through their margins, but I couldn't find it in the spec yet (and no, it's not a quirk).
if (layoutBox.replaced())
return false;
if (!is<Container>(layoutBox))
return true;
if (!downcast<Container>(layoutBox).hasInFlowChild())
return !establishesBlockFormattingContext(layoutBox);
if (layoutBox.establishesFormattingContext()) {
if (layoutBox.establishesInlineFormattingContext()) {
auto& layoutState = this->layoutState();
// If we get here through margin estimation, we don't necessarily have an actual state for this layout box since
// we haven't started laying it out yet.
auto& layoutContainer = downcast<Container>(layoutBox);
if (!layoutState.hasFormattingState(layoutContainer))
return false;
auto& formattingState = downcast<InlineFormattingState>(layoutState.establishedFormattingState(layoutContainer));
if (!formattingState.inlineRuns().isEmpty())
return false;
// Any float box in this formatting context prevents collapsing through.
auto& floats = formattingState.floatingState().floats();
for (auto& floatItem : floats) {
if (floatItem.isDescendantOfFormattingRoot(layoutContainer))
return false;
}
return true;
}
// A root of a non-inline formatting context (table, flex etc) with inflow descendants should not collapse through.
return false;
}
for (auto* inflowChild = downcast<Container>(layoutBox).firstInFlowOrFloatingChild(); inflowChild; inflowChild = inflowChild->nextInFlowOrFloatingSibling()) {
if (establishesBlockFormattingContext(*inflowChild))
return false;
if (!marginsCollapseThrough(*inflowChild))
return false;
}
return true;
}
static PositiveAndNegativeVerticalMargin::Values computedPositiveAndNegativeMargin(PositiveAndNegativeVerticalMargin::Values a, PositiveAndNegativeVerticalMargin::Values b)
{
PositiveAndNegativeVerticalMargin::Values computedValues;
if (a.positive && b.positive)
computedValues.positive = std::max(*a.positive, *b.positive);
else
computedValues.positive = a.positive ? a.positive : b.positive;
if (a.negative && b.negative)
computedValues.negative = std::min(*a.negative, *b.negative);
else
computedValues.negative = a.negative ? a.negative : b.negative;
if (a.isNonZero() && b.isNonZero())
computedValues.isQuirk = a.isQuirk || b.isQuirk;
else if (a.isNonZero())
computedValues.isQuirk = a.isQuirk;
else
computedValues.isQuirk = b.isQuirk;
return computedValues;
}
static Optional<LayoutUnit> marginValue(PositiveAndNegativeVerticalMargin::Values marginValues)
{
// When two or more margins collapse, the resulting margin width is the maximum of the collapsing margins' widths.
// In the case of negative margins, the maximum of the absolute values of the negative adjoining margins is deducted from the maximum
// of the positive adjoining margins. If there are no positive margins, the maximum of the absolute values of the adjoining margins is deducted from zero.
if (!marginValues.negative)
return marginValues.positive;
if (!marginValues.positive)
return marginValues.negative;
return *marginValues.positive + *marginValues.negative;
}
void BlockFormattingContext::MarginCollapse::updateMarginAfterForPreviousSibling(BlockFormattingContext& blockFormattingContext, const MarginCollapse& marginCollapse, const Box& layoutBox)
{
// 1. Get the margin before value from the next in-flow sibling. This is the same as this box's margin after value now since they are collapsed.
// 2. Update the collapsed margin after value as well as the positive/negative cache.
// 3. Check if the box's margins collapse through.
// 4. If so, update the collapsed margin before value as well as the positive/negative cache.
// 5. In case of collapsed through margins check if the before margin collapes with the previous inflow sibling's after margin.
// 6. If so, jump to #2.
// 7. No need to propagate to parent because its margin is not computed yet (estimated at most).
auto* currentBox = &layoutBox;
auto& blockFormattingState = blockFormattingContext.formattingState();
while (marginCollapse.marginBeforeCollapsesWithPreviousSiblingMarginAfter(*currentBox)) {
auto& previousSibling = *currentBox->previousInFlowSibling();
auto& previousSiblingDisplayBox = blockFormattingState.displayBox(previousSibling);
auto previousSiblingVerticalMargin = previousSiblingDisplayBox.verticalMargin();
auto collapsedVerticalMarginBefore = previousSiblingVerticalMargin.collapsedValues().before;
auto collapsedVerticalMarginAfter = blockFormattingContext.geometryForBox(*currentBox).verticalMargin().before();
auto marginsCollapseThrough = marginCollapse.marginsCollapseThrough(previousSibling);
if (marginsCollapseThrough)
collapsedVerticalMarginBefore = collapsedVerticalMarginAfter;
// Update collapsed vertical margin values.
previousSiblingVerticalMargin.setCollapsedValues({ collapsedVerticalMarginBefore, collapsedVerticalMarginAfter });
previousSiblingDisplayBox.setVerticalMargin(previousSiblingVerticalMargin);
// Update positive/negative cache.
auto previousSiblingPositiveNegativeMargin = blockFormattingState.positiveAndNegativeVerticalMargin(previousSibling);
auto positiveNegativeMarginBefore = blockFormattingState.positiveAndNegativeVerticalMargin(*currentBox).before;
previousSiblingPositiveNegativeMargin.after = computedPositiveAndNegativeMargin(positiveNegativeMarginBefore, previousSiblingPositiveNegativeMargin.after);
if (marginsCollapseThrough) {
previousSiblingPositiveNegativeMargin.before = computedPositiveAndNegativeMargin(previousSiblingPositiveNegativeMargin.before, previousSiblingPositiveNegativeMargin.after);
previousSiblingPositiveNegativeMargin.after = previousSiblingPositiveNegativeMargin.before;
}
blockFormattingState.setPositiveAndNegativeVerticalMargin(previousSibling, previousSiblingPositiveNegativeMargin);
if (!marginsCollapseThrough)
break;
currentBox = &previousSibling;
}
}
PositiveAndNegativeVerticalMargin::Values BlockFormattingContext::MarginCollapse::positiveNegativeValues(const Box& layoutBox, MarginType marginType) const
{
auto& layoutState = this->layoutState();
auto& blockFormattingState = downcast<BlockFormattingState>(layoutState.formattingStateForBox(layoutBox));
if (blockFormattingState.hasPositiveAndNegativeVerticalMargin(layoutBox)) {
auto positiveAndNegativeVerticalMargin = blockFormattingState.positiveAndNegativeVerticalMargin(layoutBox);
return marginType == MarginType::Before ? positiveAndNegativeVerticalMargin.before : positiveAndNegativeVerticalMargin.after;
}
// This is the estimate path. We don't yet have positive/negative margin computed.
auto usedValues = UsedHorizontalValues { UsedHorizontalValues::Constraints { formattingContext().geometryForBox(*layoutBox.containingBlock()) } };
auto computedVerticalMargin = formattingContext().geometry().computedVerticalMargin(layoutBox, usedValues);
auto nonCollapsedMargin = UsedVerticalMargin::NonCollapsedValues { computedVerticalMargin.before.valueOr(0), computedVerticalMargin.after.valueOr(0) };
if (marginType == MarginType::Before)
return positiveNegativeMarginBefore(layoutBox, nonCollapsedMargin);
return positiveNegativeMarginAfter(layoutBox, nonCollapsedMargin);
}
PositiveAndNegativeVerticalMargin::Values BlockFormattingContext::MarginCollapse::positiveNegativeMarginBefore(const Box& layoutBox, UsedVerticalMargin::NonCollapsedValues nonCollapsedValues) const
{
auto firstChildCollapsedMarginBefore = [&]() -> PositiveAndNegativeVerticalMargin::Values {
if (!marginBeforeCollapsesWithFirstInFlowChildMarginBefore(layoutBox))
return { };
return positiveNegativeValues(*downcast<Container>(layoutBox).firstInFlowChild(), MarginType::Before);
};
auto previouSiblingCollapsedMarginAfter = [&]() -> PositiveAndNegativeVerticalMargin::Values {
if (!marginBeforeCollapsesWithPreviousSiblingMarginAfter(layoutBox))
return { };
return positiveNegativeValues(*layoutBox.previousInFlowSibling(), MarginType::After);
};
// 1. Gather positive and negative margin values from first child if margins are adjoining.
// 2. Gather positive and negative margin values from previous inflow sibling if margins are adjoining.
// 3. Compute min/max positive and negative collapsed margin values using non-collpased computed margin before.
auto collapsedMarginBefore = computedPositiveAndNegativeMargin(firstChildCollapsedMarginBefore(), previouSiblingCollapsedMarginAfter());
if (collapsedMarginBefore.isQuirk && formattingContext().quirks().shouldIgnoreCollapsedQuirkMargin(layoutBox))
collapsedMarginBefore = { };
PositiveAndNegativeVerticalMargin::Values nonCollapsedBefore;
if (nonCollapsedValues.before > 0)
nonCollapsedBefore = { nonCollapsedValues.before, { }, layoutBox.style().hasMarginBeforeQuirk() };
else if (nonCollapsedValues.before < 0)
nonCollapsedBefore = { { }, nonCollapsedValues.before, layoutBox.style().hasMarginBeforeQuirk() };
return computedPositiveAndNegativeMargin(collapsedMarginBefore, nonCollapsedBefore);
}
PositiveAndNegativeVerticalMargin::Values BlockFormattingContext::MarginCollapse::positiveNegativeMarginAfter(const Box& layoutBox, UsedVerticalMargin::NonCollapsedValues nonCollapsedValues) const
{
auto lastChildCollapsedMarginAfter = [&]() -> PositiveAndNegativeVerticalMargin::Values {
if (!marginAfterCollapsesWithLastInFlowChildMarginAfter(layoutBox))
return { };
return positiveNegativeValues(*downcast<Container>(layoutBox).lastInFlowChild(), MarginType::After);
};
// We don't know yet the margin before value of the next sibling. Let's just pretend it does not have one and
// update it later when we compute the next sibling's margin before. See updateCollapsedMarginAfter.
PositiveAndNegativeVerticalMargin::Values nonCollapsedAfter;
if (nonCollapsedValues.after > 0)
nonCollapsedAfter = { nonCollapsedValues.after, { }, layoutBox.style().hasMarginAfterQuirk() };
else if (nonCollapsedValues.after < 0)
nonCollapsedAfter = { { }, nonCollapsedValues.after, layoutBox.style().hasMarginAfterQuirk() };
return computedPositiveAndNegativeMargin(lastChildCollapsedMarginAfter(), nonCollapsedAfter);
}
EstimatedMarginBefore BlockFormattingContext::MarginCollapse::estimatedMarginBefore(const Box& layoutBox, UsedVerticalMargin::NonCollapsedValues usedNonCollapsedMargin)
{
if (layoutBox.isAnonymous())
return { };
ASSERT(layoutBox.isBlockLevelBox());
// Don't estimate vertical margins for out of flow boxes.
ASSERT(layoutBox.isInFlow() || layoutBox.isFloatingPositioned());
ASSERT(!layoutBox.replaced());
auto marginsCollapseThrough = this->marginsCollapseThrough(layoutBox);
auto positiveNegativeMarginBefore = this->positiveNegativeMarginBefore(layoutBox, usedNonCollapsedMargin);
auto collapsedMarginBefore = marginValue(!marginsCollapseThrough ? positiveNegativeMarginBefore
: computedPositiveAndNegativeMargin(positiveNegativeMarginBefore, positiveNegativeMarginAfter(layoutBox, usedNonCollapsedMargin)));
return { usedNonCollapsedMargin.before, collapsedMarginBefore, marginsCollapseThrough };
}
LayoutUnit BlockFormattingContext::MarginCollapse::marginBeforeIgnoringCollapsingThrough(const Box& layoutBox, UsedVerticalMargin::NonCollapsedValues nonCollapsedValues)
{
ASSERT(!layoutBox.isAnonymous());
ASSERT(layoutBox.isBlockLevelBox());
return marginValue(positiveNegativeMarginBefore(layoutBox, nonCollapsedValues)).valueOr(nonCollapsedValues.before);
}
void BlockFormattingContext::MarginCollapse::updatePositiveNegativeMarginValues(BlockFormattingContext& blockFormattingContext, const MarginCollapse& marginCollapse, const Box& layoutBox)
{
ASSERT(layoutBox.isBlockLevelBox());
auto nonCollapsedValues = blockFormattingContext.geometryForBox(layoutBox).verticalMargin().nonCollapsedValues();
auto positiveNegativeMarginBefore = marginCollapse.positiveNegativeMarginBefore(layoutBox, nonCollapsedValues);
auto positiveNegativeMarginAfter = marginCollapse.positiveNegativeMarginAfter(layoutBox, nonCollapsedValues);
if (marginCollapse.marginsCollapseThrough(layoutBox)) {
positiveNegativeMarginBefore = computedPositiveAndNegativeMargin(positiveNegativeMarginBefore, positiveNegativeMarginAfter);
positiveNegativeMarginAfter = positiveNegativeMarginBefore;
}
blockFormattingContext.formattingState().setPositiveAndNegativeVerticalMargin(layoutBox, { positiveNegativeMarginBefore, positiveNegativeMarginAfter });
}
UsedVerticalMargin::CollapsedValues BlockFormattingContext::MarginCollapse::collapsedVerticalValues(const Box& layoutBox, UsedVerticalMargin::NonCollapsedValues nonCollapsedValues)
{
if (layoutBox.isAnonymous())
return { };
ASSERT(layoutBox.isBlockLevelBox());
// 1. Get min/max margin top values from the first in-flow child if we are collapsing margin top with it.
// 2. Get min/max margin top values from the previous in-flow sibling, if we are collapsing margin top with it.
// 3. Get this layout box's computed margin top value.
// 4. Update the min/max value and compute the final margin.
auto positiveNegativeMarginBefore = this->positiveNegativeMarginBefore(layoutBox, nonCollapsedValues);
auto positiveNegativeMarginAfter = this->positiveNegativeMarginAfter(layoutBox, nonCollapsedValues);
auto marginsCollapseThrough = this->marginsCollapseThrough(layoutBox);
if (marginsCollapseThrough) {
positiveNegativeMarginBefore = computedPositiveAndNegativeMargin(positiveNegativeMarginBefore, positiveNegativeMarginAfter);
positiveNegativeMarginAfter = positiveNegativeMarginBefore;
}
auto beforeMarginIsCollapsedValue = marginBeforeCollapsesWithFirstInFlowChildMarginBefore(layoutBox) || marginBeforeCollapsesWithPreviousSiblingMarginAfter(layoutBox);
auto afterMarginIsCollapsedValue = marginAfterCollapsesWithLastInFlowChildMarginAfter(layoutBox);
if ((beforeMarginIsCollapsedValue && afterMarginIsCollapsedValue) || marginsCollapseThrough)
return { marginValue(positiveNegativeMarginBefore), marginValue(positiveNegativeMarginAfter), marginsCollapseThrough };
if (beforeMarginIsCollapsedValue)
return { marginValue(positiveNegativeMarginBefore), { }, false };
return { { }, marginValue(positiveNegativeMarginAfter), false };
}
}
}
#endif