Source/WebCore/page/scrolling/AxisScrollSnapOffsets.cpp - WebKit - Git at Google

 /*
  * Copyright (C) 2014-2015 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 "AxisScrollSnapOffsets.h"

 #include "ElementChildIterator.h"
 #include "HTMLCollection.h"
 #include "HTMLElement.h"
 #include "Length.h"
 #include "Logging.h"
 #include "RenderBox.h"
 #include "RenderView.h"
 #include "ScrollableArea.h"
 #include "StyleScrollSnapPoints.h"
 #include <wtf/text/StringConcatenateNumbers.h>

 #if ENABLE(CSS_SCROLL_SNAP)

 namespace WebCore {

 enum class InsetOrOutset {
     Inset,
     Outset
 };

 static LayoutRect computeScrollSnapPortOrAreaRect(const LayoutRect& rect, const LengthBox& insetOrOutsetBox, InsetOrOutset insetOrOutset)
 {
     LayoutBoxExtent extents(valueForLength(insetOrOutsetBox.top(), rect.height()), valueForLength(insetOrOutsetBox.right(), rect.width()), valueForLength(insetOrOutsetBox.bottom(), rect.height()), valueForLength(insetOrOutsetBox.left(), rect.width()));
     auto snapPortOrArea(rect);
     if (insetOrOutset == InsetOrOutset::Inset)
         snapPortOrArea.contract(extents);
     else
         snapPortOrArea.expand(extents);
     return snapPortOrArea;
 }

 static LayoutUnit computeScrollSnapAlignOffset(const LayoutUnit& leftOrTop, const LayoutUnit& widthOrHeight, ScrollSnapAxisAlignType alignment)
 {
     switch (alignment) {
     case ScrollSnapAxisAlignType::Start:
         return leftOrTop;
     case ScrollSnapAxisAlignType::Center:
         return leftOrTop + widthOrHeight / 2;
     case ScrollSnapAxisAlignType::End:
         return leftOrTop + widthOrHeight;
     default:
         ASSERT_NOT_REACHED();
         return 0;
     }
 }

 #if !LOG_DISABLED

 static String snapOffsetsToString(const Vector<LayoutUnit>& snapOffsets)
 {
     StringBuilder builder;
     builder.appendLiteral("[ ");
     for (auto& offset : snapOffsets) {
         builder.appendFixedWidthNumber(offset.toFloat(), 1);
         builder.append(' ');
     }
     builder.append(']');
     return builder.toString();
 }

 static String snapOffsetRangesToString(const Vector<ScrollOffsetRange<LayoutUnit>>& ranges)
 {
     StringBuilder builder;
     builder.appendLiteral("[ ");
     for (auto& range : ranges) {
         builder.append('(');
         builder.appendFixedWidthNumber(range.start.toFloat(), 1);
         builder.appendLiteral(", ");
         builder.appendFixedWidthNumber(range.end.toFloat(), 1);
         builder.appendLiteral(") ");
     }
     builder.append(']');
     return builder.toString();
 }

 static String snapPortOrAreaToString(const LayoutRect& rect)
 {
     return makeString("{{",
         FormattedNumber::fixedWidth(rect.x(), 1), ", ",
         FormattedNumber::fixedWidth(rect.y(), 1), "} {",
         FormattedNumber::fixedWidth(rect.width(), 1), ", ",
         FormattedNumber::fixedWidth(rect.height(), 1), "}}");
 }

 #endif

 template <typename LayoutType>
 static void indicesOfNearestSnapOffsetRanges(LayoutType offset, const Vector<ScrollOffsetRange<LayoutType>>& snapOffsetRanges, unsigned& lowerIndex, unsigned& upperIndex)
 {
     if (snapOffsetRanges.isEmpty()) {
         lowerIndex = invalidSnapOffsetIndex;
         upperIndex = invalidSnapOffsetIndex;
         return;
     }

     int lowerIndexAsInt = -1;
     int upperIndexAsInt = snapOffsetRanges.size();
     do {
         int middleIndex = (lowerIndexAsInt + upperIndexAsInt) / 2;
         auto& range = snapOffsetRanges[middleIndex];
         if (range.start < offset && offset < range.end) {
             lowerIndexAsInt = middleIndex;
             upperIndexAsInt = middleIndex;
             break;
         }

         if (offset > range.end)
             lowerIndexAsInt = middleIndex;
         else
             upperIndexAsInt = middleIndex;
     } while (lowerIndexAsInt < upperIndexAsInt - 1);

     if (offset <= snapOffsetRanges.first().start)
         lowerIndex = invalidSnapOffsetIndex;
     else
         lowerIndex = lowerIndexAsInt;

     if (offset >= snapOffsetRanges.last().end)
         upperIndex = invalidSnapOffsetIndex;
     else
         upperIndex = upperIndexAsInt;
 }

 template <typename LayoutType>
 static void indicesOfNearestSnapOffsets(LayoutType offset, const Vector<LayoutType>& snapOffsets, unsigned& lowerIndex, unsigned& upperIndex)
 {
     lowerIndex = 0;
     upperIndex = snapOffsets.size() - 1;
     while (lowerIndex < upperIndex - 1) {
         int middleIndex = (lowerIndex + upperIndex) / 2;
         auto middleOffset = snapOffsets[middleIndex];
         if (offset == middleOffset) {
             upperIndex = middleIndex;
             lowerIndex = middleIndex;
             break;
         }

         if (offset > middleOffset)
             lowerIndex = middleIndex;
         else
             upperIndex = middleIndex;
     }
 }

 static void adjustAxisSnapOffsetsForScrollExtent(Vector<LayoutUnit>& snapOffsets, float maxScrollExtent)
 {
     if (snapOffsets.isEmpty())
         return;

     std::sort(snapOffsets.begin(), snapOffsets.end());
     if (snapOffsets.last() != maxScrollExtent)
         snapOffsets.append(maxScrollExtent);
     if (snapOffsets.first())
         snapOffsets.insert(0, 0);
 }

 static void computeAxisProximitySnapOffsetRanges(const Vector<LayoutUnit>& snapOffsets, Vector<ScrollOffsetRange<LayoutUnit>>& offsetRanges, LayoutUnit scrollPortAxisLength)
 {
     // This is an arbitrary choice for what it means to be "in proximity" of a snap offset. We should play around with
     // this and see what feels best.
     static const float ratioOfScrollPortAxisLengthToBeConsideredForProximity = 0.3;
     if (snapOffsets.size() < 2)
         return;

     // The extra rule accounting for scroll offset ranges in between the scroll destination and a potential snap offset
     // handles the corner case where the user scrolls with momentum very lightly away from a snap offset, such that the
     // predicted scroll destination is still within proximity of the snap offset. In this case, the regular (mandatory
     // scroll snapping) behavior would be to snap to the next offset in the direction of momentum scrolling, but
     // instead, it is more intuitive to either return to the original snap position (which we arbitrarily choose here)
     // or scroll just outside of the snap offset range. This is another minor behavior tweak that we should play around
     // with to see what feels best.
     LayoutUnit proximityDistance { ratioOfScrollPortAxisLengthToBeConsideredForProximity * scrollPortAxisLength };
     for (size_t index = 1; index < snapOffsets.size(); ++index) {
         auto startOffset = snapOffsets[index - 1] + proximityDistance;
         auto endOffset = snapOffsets[index] - proximityDistance;
         if (startOffset < endOffset)
             offsetRanges.append({ startOffset, endOffset });
     }
 }

 void updateSnapOffsetsForScrollableArea(ScrollableArea& scrollableArea, HTMLElement& scrollingElement, const RenderBox& scrollingElementBox, const RenderStyle& scrollingElementStyle)
 {
     auto* scrollContainer = scrollingElement.renderer();
     auto scrollSnapType = scrollingElementStyle.scrollSnapType();
     if (!scrollContainer || scrollSnapType.strictness == ScrollSnapStrictness::None || scrollContainer->view().boxesWithScrollSnapPositions().isEmpty()) {
         scrollableArea.clearHorizontalSnapOffsets();
         scrollableArea.clearVerticalSnapOffsets();
         return;
     }

     Vector<LayoutUnit> verticalSnapOffsets;
     Vector<LayoutUnit> horizontalSnapOffsets;
     Vector<ScrollOffsetRange<LayoutUnit>> verticalSnapOffsetRanges;
     Vector<ScrollOffsetRange<LayoutUnit>> horizontalSnapOffsetRanges;
     HashSet<float> seenVerticalSnapOffsets;
     HashSet<float> seenHorizontalSnapOffsets;
     bool hasHorizontalSnapOffsets = scrollSnapType.axis == ScrollSnapAxis::Both || scrollSnapType.axis == ScrollSnapAxis::XAxis || scrollSnapType.axis == ScrollSnapAxis::Inline;
     bool hasVerticalSnapOffsets = scrollSnapType.axis == ScrollSnapAxis::Both || scrollSnapType.axis == ScrollSnapAxis::YAxis || scrollSnapType.axis == ScrollSnapAxis::Block;
     auto maxScrollLeft = scrollingElementBox.scrollWidth() - scrollingElementBox.contentWidth();
     auto maxScrollTop = scrollingElementBox.scrollHeight() - scrollingElementBox.contentHeight();
     LayoutPoint containerScrollOffset(scrollingElementBox.scrollLeft(), scrollingElementBox.scrollTop());

     // The bounds of the scrolling container's snap port, where the top left of the scrolling container's border box is the origin.
     auto scrollSnapPort = computeScrollSnapPortOrAreaRect(scrollingElementBox.paddingBoxRect(), scrollingElementStyle.scrollPadding(), InsetOrOutset::Inset);
 #if !LOG_DISABLED
     LOG(Scrolling, "Computing scroll snap offsets in snap port: %s", snapPortOrAreaToString(scrollSnapPort).utf8().data());
 #endif
     for (auto* child : scrollContainer->view().boxesWithScrollSnapPositions()) {
         if (child->enclosingScrollableContainerForSnapping() != scrollContainer)
             continue;

         // The bounds of the child element's snap area, where the top left of the scrolling container's border box is the origin.
         // The snap area is the bounding box of the child element's border box, after applying transformations.
         auto scrollSnapArea = LayoutRect(child->localToContainerQuad(FloatQuad(child->borderBoundingBox()), scrollingElement.renderBox()).boundingBox());
         scrollSnapArea.moveBy(containerScrollOffset);
         scrollSnapArea = computeScrollSnapPortOrAreaRect(scrollSnapArea, child->style().scrollSnapMargin(), InsetOrOutset::Outset);
 #if !LOG_DISABLED
         LOG(Scrolling, "    Considering scroll snap area: %s", snapPortOrAreaToString(scrollSnapArea).utf8().data());
 #endif
         auto alignment = child->style().scrollSnapAlign();
         if (hasHorizontalSnapOffsets && alignment.x != ScrollSnapAxisAlignType::None) {
             auto absoluteScrollOffset = clampTo<LayoutUnit>(computeScrollSnapAlignOffset(scrollSnapArea.x(), scrollSnapArea.width(), alignment.x) - computeScrollSnapAlignOffset(scrollSnapPort.x(), scrollSnapPort.width(), alignment.x), 0, maxScrollLeft);
             if (!seenHorizontalSnapOffsets.contains(absoluteScrollOffset)) {
                 seenHorizontalSnapOffsets.add(absoluteScrollOffset);
                 horizontalSnapOffsets.append(absoluteScrollOffset);
             }
         }
         if (hasVerticalSnapOffsets && alignment.y != ScrollSnapAxisAlignType::None) {
             auto absoluteScrollOffset = clampTo<LayoutUnit>(computeScrollSnapAlignOffset(scrollSnapArea.y(), scrollSnapArea.height(), alignment.y) - computeScrollSnapAlignOffset(scrollSnapPort.y(), scrollSnapPort.height(), alignment.y), 0, maxScrollTop);
             if (!seenVerticalSnapOffsets.contains(absoluteScrollOffset)) {
                 seenVerticalSnapOffsets.add(absoluteScrollOffset);
                 verticalSnapOffsets.append(absoluteScrollOffset);
             }
         }
     }

     if (!horizontalSnapOffsets.isEmpty()) {
         adjustAxisSnapOffsetsForScrollExtent(horizontalSnapOffsets, maxScrollLeft);
 #if !LOG_DISABLED
         LOG(Scrolling, " => Computed horizontal scroll snap offsets: %s", snapOffsetsToString(horizontalSnapOffsets).utf8().data());
         LOG(Scrolling, " => Computed horizontal scroll snap offset ranges: %s", snapOffsetRangesToString(horizontalSnapOffsetRanges).utf8().data());
 #endif
         if (scrollSnapType.strictness == ScrollSnapStrictness::Proximity)
             computeAxisProximitySnapOffsetRanges(horizontalSnapOffsets, horizontalSnapOffsetRanges, scrollSnapPort.width());

         scrollableArea.setHorizontalSnapOffsets(horizontalSnapOffsets);
         scrollableArea.setHorizontalSnapOffsetRanges(horizontalSnapOffsetRanges);
     } else
         scrollableArea.clearHorizontalSnapOffsets();

     if (!verticalSnapOffsets.isEmpty()) {
         adjustAxisSnapOffsetsForScrollExtent(verticalSnapOffsets, maxScrollTop);
 #if !LOG_DISABLED
         LOG(Scrolling, " => Computed vertical scroll snap offsets: %s", snapOffsetsToString(verticalSnapOffsets).utf8().data());
         LOG(Scrolling, " => Computed vertical scroll snap offset ranges: %s", snapOffsetRangesToString(verticalSnapOffsetRanges).utf8().data());
 #endif
         if (scrollSnapType.strictness == ScrollSnapStrictness::Proximity)
             computeAxisProximitySnapOffsetRanges(verticalSnapOffsets, verticalSnapOffsetRanges, scrollSnapPort.height());

         scrollableArea.setVerticalSnapOffsets(verticalSnapOffsets);
         scrollableArea.setVerticalSnapOffsetRanges(verticalSnapOffsetRanges);
     } else
         scrollableArea.clearVerticalSnapOffsets();
 }

 template <typename LayoutType>
 LayoutType closestSnapOffset(const Vector<LayoutType>& snapOffsets, const Vector<ScrollOffsetRange<LayoutType>>& snapOffsetRanges, LayoutType scrollDestination, float velocity, unsigned& activeSnapIndex)
 {
     ASSERT(snapOffsets.size());
     activeSnapIndex = 0;

     unsigned lowerSnapOffsetRangeIndex;
     unsigned upperSnapOffsetRangeIndex;
     indicesOfNearestSnapOffsetRanges<LayoutType>(scrollDestination, snapOffsetRanges, lowerSnapOffsetRangeIndex, upperSnapOffsetRangeIndex);
     if (lowerSnapOffsetRangeIndex == upperSnapOffsetRangeIndex && upperSnapOffsetRangeIndex != invalidSnapOffsetIndex) {
         activeSnapIndex = invalidSnapOffsetIndex;
         return scrollDestination;
     }

     if (scrollDestination <= snapOffsets.first())
         return snapOffsets.first();

     activeSnapIndex = snapOffsets.size() - 1;
     if (scrollDestination >= snapOffsets.last())
         return snapOffsets.last();

     unsigned lowerIndex;
     unsigned upperIndex;
     indicesOfNearestSnapOffsets<LayoutType>(scrollDestination, snapOffsets, lowerIndex, upperIndex);
     LayoutType lowerSnapPosition = snapOffsets[lowerIndex];
     LayoutType upperSnapPosition = snapOffsets[upperIndex];
     if (!std::abs(velocity)) {
         bool isCloserToLowerSnapPosition = scrollDestination - lowerSnapPosition <= upperSnapPosition - scrollDestination;
         activeSnapIndex = isCloserToLowerSnapPosition ? lowerIndex : upperIndex;
         return isCloserToLowerSnapPosition ? lowerSnapPosition : upperSnapPosition;
     }

     // Non-zero velocity indicates a flick gesture. Even if another snap point is closer, we should choose the one in the direction of the flick gesture
     // as long as a scroll snap offset range does not lie between the scroll destination and the targeted snap offset.
     if (velocity < 0) {
         if (lowerSnapOffsetRangeIndex != invalidSnapOffsetIndex && lowerSnapPosition < snapOffsetRanges[lowerSnapOffsetRangeIndex].end) {
             activeSnapIndex = upperIndex;
             return upperSnapPosition;
         }
         activeSnapIndex = lowerIndex;
         return lowerSnapPosition;
     }

     if (upperSnapOffsetRangeIndex != invalidSnapOffsetIndex && snapOffsetRanges[upperSnapOffsetRangeIndex].start < upperSnapPosition) {
         activeSnapIndex = lowerIndex;
         return lowerSnapPosition;
     }
     activeSnapIndex = upperIndex;
     return upperSnapPosition;
 }

 LayoutUnit closestSnapOffset(const Vector<LayoutUnit>& snapOffsets, const Vector<ScrollOffsetRange<LayoutUnit>>& snapOffsetRanges, LayoutUnit scrollDestination, float velocity, unsigned& activeSnapIndex)
 {
     return closestSnapOffset<LayoutUnit>(snapOffsets, snapOffsetRanges, scrollDestination, velocity, activeSnapIndex);
 }

 float closestSnapOffset(const Vector<float>& snapOffsets, const Vector<ScrollOffsetRange<float>>& snapOffsetRanges, float scrollDestination, float velocity, unsigned& activeSnapIndex)
 {
     return closestSnapOffset<float>(snapOffsets, snapOffsetRanges, scrollDestination, velocity, activeSnapIndex);
 }

 } // namespace WebCore

 #endif // CSS_SCROLL_SNAP
	/*
	* Copyright (C) 2014-2015 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 "AxisScrollSnapOffsets.h"

	#include "ElementChildIterator.h"
	#include "HTMLCollection.h"
	#include "HTMLElement.h"
	#include "Length.h"
	#include "Logging.h"
	#include "RenderBox.h"
	#include "RenderView.h"
	#include "ScrollableArea.h"
	#include "StyleScrollSnapPoints.h"
	#include <wtf/text/StringConcatenateNumbers.h>

	#if ENABLE(CSS_SCROLL_SNAP)

	namespace WebCore {

	enum class InsetOrOutset {
	Inset,
	Outset
	};

	static LayoutRect computeScrollSnapPortOrAreaRect(const LayoutRect& rect, const LengthBox& insetOrOutsetBox, InsetOrOutset insetOrOutset)
	{
	LayoutBoxExtent extents(valueForLength(insetOrOutsetBox.top(), rect.height()), valueForLength(insetOrOutsetBox.right(), rect.width()), valueForLength(insetOrOutsetBox.bottom(), rect.height()), valueForLength(insetOrOutsetBox.left(), rect.width()));
	auto snapPortOrArea(rect);
	if (insetOrOutset == InsetOrOutset::Inset)
	snapPortOrArea.contract(extents);
	else
	snapPortOrArea.expand(extents);
	return snapPortOrArea;
	}

	static LayoutUnit computeScrollSnapAlignOffset(const LayoutUnit& leftOrTop, const LayoutUnit& widthOrHeight, ScrollSnapAxisAlignType alignment)
	{
	switch (alignment) {
	case ScrollSnapAxisAlignType::Start:
	return leftOrTop;
	case ScrollSnapAxisAlignType::Center:
	return leftOrTop + widthOrHeight / 2;
	case ScrollSnapAxisAlignType::End:
	return leftOrTop + widthOrHeight;
	default:
	ASSERT_NOT_REACHED();
	return 0;
	}
	}

	#if !LOG_DISABLED

	static String snapOffsetsToString(const Vector<LayoutUnit>& snapOffsets)
	{
	StringBuilder builder;
	builder.appendLiteral("[ ");
	for (auto& offset : snapOffsets) {
	builder.appendFixedWidthNumber(offset.toFloat(), 1);
	builder.append(' ');
	}
	builder.append(']');
	return builder.toString();
	}

	static String snapOffsetRangesToString(const Vector<ScrollOffsetRange<LayoutUnit>>& ranges)
	{
	StringBuilder builder;
	builder.appendLiteral("[ ");
	for (auto& range : ranges) {
	builder.append('(');
	builder.appendFixedWidthNumber(range.start.toFloat(), 1);
	builder.appendLiteral(", ");
	builder.appendFixedWidthNumber(range.end.toFloat(), 1);
	builder.appendLiteral(") ");
	}
	builder.append(']');
	return builder.toString();
	}

	static String snapPortOrAreaToString(const LayoutRect& rect)
	{
	return makeString("{{",
	FormattedNumber::fixedWidth(rect.x(), 1), ", ",
	FormattedNumber::fixedWidth(rect.y(), 1), "} {",
	FormattedNumber::fixedWidth(rect.width(), 1), ", ",
	FormattedNumber::fixedWidth(rect.height(), 1), "}}");
	}

	#endif

	template <typename LayoutType>
	static void indicesOfNearestSnapOffsetRanges(LayoutType offset, const Vector<ScrollOffsetRange<LayoutType>>& snapOffsetRanges, unsigned& lowerIndex, unsigned& upperIndex)
	{
	if (snapOffsetRanges.isEmpty()) {
	lowerIndex = invalidSnapOffsetIndex;
	upperIndex = invalidSnapOffsetIndex;
	return;
	}

	int lowerIndexAsInt = -1;
	int upperIndexAsInt = snapOffsetRanges.size();
	do {
	int middleIndex = (lowerIndexAsInt + upperIndexAsInt) / 2;
	auto& range = snapOffsetRanges[middleIndex];
	if (range.start < offset && offset < range.end) {
	lowerIndexAsInt = middleIndex;
	upperIndexAsInt = middleIndex;
	break;
	}

	if (offset > range.end)
	lowerIndexAsInt = middleIndex;
	else
	upperIndexAsInt = middleIndex;
	} while (lowerIndexAsInt < upperIndexAsInt - 1);

	if (offset <= snapOffsetRanges.first().start)
	lowerIndex = invalidSnapOffsetIndex;
	else
	lowerIndex = lowerIndexAsInt;

	if (offset >= snapOffsetRanges.last().end)
	upperIndex = invalidSnapOffsetIndex;
	else
	upperIndex = upperIndexAsInt;
	}

	template <typename LayoutType>
	static void indicesOfNearestSnapOffsets(LayoutType offset, const Vector<LayoutType>& snapOffsets, unsigned& lowerIndex, unsigned& upperIndex)
	{
	lowerIndex = 0;
	upperIndex = snapOffsets.size() - 1;
	while (lowerIndex < upperIndex - 1) {
	int middleIndex = (lowerIndex + upperIndex) / 2;
	auto middleOffset = snapOffsets[middleIndex];
	if (offset == middleOffset) {
	upperIndex = middleIndex;
	lowerIndex = middleIndex;
	break;
	}

	if (offset > middleOffset)
	lowerIndex = middleIndex;
	else
	upperIndex = middleIndex;
	}
	}

	static void adjustAxisSnapOffsetsForScrollExtent(Vector<LayoutUnit>& snapOffsets, float maxScrollExtent)
	{
	if (snapOffsets.isEmpty())
	return;

	std::sort(snapOffsets.begin(), snapOffsets.end());
	if (snapOffsets.last() != maxScrollExtent)
	snapOffsets.append(maxScrollExtent);
	if (snapOffsets.first())
	snapOffsets.insert(0, 0);
	}

	static void computeAxisProximitySnapOffsetRanges(const Vector<LayoutUnit>& snapOffsets, Vector<ScrollOffsetRange<LayoutUnit>>& offsetRanges, LayoutUnit scrollPortAxisLength)
	{
	// This is an arbitrary choice for what it means to be "in proximity" of a snap offset. We should play around with
	// this and see what feels best.
	static const float ratioOfScrollPortAxisLengthToBeConsideredForProximity = 0.3;
	if (snapOffsets.size() < 2)
	return;

	// The extra rule accounting for scroll offset ranges in between the scroll destination and a potential snap offset
	// handles the corner case where the user scrolls with momentum very lightly away from a snap offset, such that the
	// predicted scroll destination is still within proximity of the snap offset. In this case, the regular (mandatory
	// scroll snapping) behavior would be to snap to the next offset in the direction of momentum scrolling, but
	// instead, it is more intuitive to either return to the original snap position (which we arbitrarily choose here)
	// or scroll just outside of the snap offset range. This is another minor behavior tweak that we should play around
	// with to see what feels best.
	LayoutUnit proximityDistance { ratioOfScrollPortAxisLengthToBeConsideredForProximity * scrollPortAxisLength };
	for (size_t index = 1; index < snapOffsets.size(); ++index) {
	auto startOffset = snapOffsets[index - 1] + proximityDistance;
	auto endOffset = snapOffsets[index] - proximityDistance;
	if (startOffset < endOffset)
	offsetRanges.append({ startOffset, endOffset });
	}
	}

	void updateSnapOffsetsForScrollableArea(ScrollableArea& scrollableArea, HTMLElement& scrollingElement, const RenderBox& scrollingElementBox, const RenderStyle& scrollingElementStyle)
	{
	auto* scrollContainer = scrollingElement.renderer();
	auto scrollSnapType = scrollingElementStyle.scrollSnapType();
	if (!scrollContainer \|\| scrollSnapType.strictness == ScrollSnapStrictness::None \|\| scrollContainer->view().boxesWithScrollSnapPositions().isEmpty()) {
	scrollableArea.clearHorizontalSnapOffsets();
	scrollableArea.clearVerticalSnapOffsets();
	return;
	}

	Vector<LayoutUnit> verticalSnapOffsets;
	Vector<LayoutUnit> horizontalSnapOffsets;
	Vector<ScrollOffsetRange<LayoutUnit>> verticalSnapOffsetRanges;
	Vector<ScrollOffsetRange<LayoutUnit>> horizontalSnapOffsetRanges;
	HashSet<float> seenVerticalSnapOffsets;
	HashSet<float> seenHorizontalSnapOffsets;
	bool hasHorizontalSnapOffsets = scrollSnapType.axis == ScrollSnapAxis::Both \|\| scrollSnapType.axis == ScrollSnapAxis::XAxis \|\| scrollSnapType.axis == ScrollSnapAxis::Inline;
	bool hasVerticalSnapOffsets = scrollSnapType.axis == ScrollSnapAxis::Both \|\| scrollSnapType.axis == ScrollSnapAxis::YAxis \|\| scrollSnapType.axis == ScrollSnapAxis::Block;
	auto maxScrollLeft = scrollingElementBox.scrollWidth() - scrollingElementBox.contentWidth();
	auto maxScrollTop = scrollingElementBox.scrollHeight() - scrollingElementBox.contentHeight();
	LayoutPoint containerScrollOffset(scrollingElementBox.scrollLeft(), scrollingElementBox.scrollTop());

	// The bounds of the scrolling container's snap port, where the top left of the scrolling container's border box is the origin.
	auto scrollSnapPort = computeScrollSnapPortOrAreaRect(scrollingElementBox.paddingBoxRect(), scrollingElementStyle.scrollPadding(), InsetOrOutset::Inset);
	#if !LOG_DISABLED
	LOG(Scrolling, "Computing scroll snap offsets in snap port: %s", snapPortOrAreaToString(scrollSnapPort).utf8().data());
	#endif
	for (auto* child : scrollContainer->view().boxesWithScrollSnapPositions()) {
	if (child->enclosingScrollableContainerForSnapping() != scrollContainer)
	continue;

	// The bounds of the child element's snap area, where the top left of the scrolling container's border box is the origin.
	// The snap area is the bounding box of the child element's border box, after applying transformations.
	auto scrollSnapArea = LayoutRect(child->localToContainerQuad(FloatQuad(child->borderBoundingBox()), scrollingElement.renderBox()).boundingBox());
	scrollSnapArea.moveBy(containerScrollOffset);
	scrollSnapArea = computeScrollSnapPortOrAreaRect(scrollSnapArea, child->style().scrollSnapMargin(), InsetOrOutset::Outset);
	#if !LOG_DISABLED
	LOG(Scrolling, " Considering scroll snap area: %s", snapPortOrAreaToString(scrollSnapArea).utf8().data());
	#endif
	auto alignment = child->style().scrollSnapAlign();
	if (hasHorizontalSnapOffsets && alignment.x != ScrollSnapAxisAlignType::None) {
	auto absoluteScrollOffset = clampTo<LayoutUnit>(computeScrollSnapAlignOffset(scrollSnapArea.x(), scrollSnapArea.width(), alignment.x) - computeScrollSnapAlignOffset(scrollSnapPort.x(), scrollSnapPort.width(), alignment.x), 0, maxScrollLeft);
	if (!seenHorizontalSnapOffsets.contains(absoluteScrollOffset)) {
	seenHorizontalSnapOffsets.add(absoluteScrollOffset);
	horizontalSnapOffsets.append(absoluteScrollOffset);
	}
	}
	if (hasVerticalSnapOffsets && alignment.y != ScrollSnapAxisAlignType::None) {
	auto absoluteScrollOffset = clampTo<LayoutUnit>(computeScrollSnapAlignOffset(scrollSnapArea.y(), scrollSnapArea.height(), alignment.y) - computeScrollSnapAlignOffset(scrollSnapPort.y(), scrollSnapPort.height(), alignment.y), 0, maxScrollTop);
	if (!seenVerticalSnapOffsets.contains(absoluteScrollOffset)) {
	seenVerticalSnapOffsets.add(absoluteScrollOffset);
	verticalSnapOffsets.append(absoluteScrollOffset);
	}
	}
	}

	if (!horizontalSnapOffsets.isEmpty()) {
	adjustAxisSnapOffsetsForScrollExtent(horizontalSnapOffsets, maxScrollLeft);
	#if !LOG_DISABLED
	LOG(Scrolling, " => Computed horizontal scroll snap offsets: %s", snapOffsetsToString(horizontalSnapOffsets).utf8().data());
	LOG(Scrolling, " => Computed horizontal scroll snap offset ranges: %s", snapOffsetRangesToString(horizontalSnapOffsetRanges).utf8().data());
	#endif
	if (scrollSnapType.strictness == ScrollSnapStrictness::Proximity)
	computeAxisProximitySnapOffsetRanges(horizontalSnapOffsets, horizontalSnapOffsetRanges, scrollSnapPort.width());

	scrollableArea.setHorizontalSnapOffsets(horizontalSnapOffsets);
	scrollableArea.setHorizontalSnapOffsetRanges(horizontalSnapOffsetRanges);
	} else
	scrollableArea.clearHorizontalSnapOffsets();

	if (!verticalSnapOffsets.isEmpty()) {
	adjustAxisSnapOffsetsForScrollExtent(verticalSnapOffsets, maxScrollTop);
	#if !LOG_DISABLED
	LOG(Scrolling, " => Computed vertical scroll snap offsets: %s", snapOffsetsToString(verticalSnapOffsets).utf8().data());
	LOG(Scrolling, " => Computed vertical scroll snap offset ranges: %s", snapOffsetRangesToString(verticalSnapOffsetRanges).utf8().data());
	#endif
	if (scrollSnapType.strictness == ScrollSnapStrictness::Proximity)
	computeAxisProximitySnapOffsetRanges(verticalSnapOffsets, verticalSnapOffsetRanges, scrollSnapPort.height());

	scrollableArea.setVerticalSnapOffsets(verticalSnapOffsets);
	scrollableArea.setVerticalSnapOffsetRanges(verticalSnapOffsetRanges);
	} else
	scrollableArea.clearVerticalSnapOffsets();
	}

	template <typename LayoutType>
	LayoutType closestSnapOffset(const Vector<LayoutType>& snapOffsets, const Vector<ScrollOffsetRange<LayoutType>>& snapOffsetRanges, LayoutType scrollDestination, float velocity, unsigned& activeSnapIndex)
	{
	ASSERT(snapOffsets.size());
	activeSnapIndex = 0;

	unsigned lowerSnapOffsetRangeIndex;
	unsigned upperSnapOffsetRangeIndex;
	indicesOfNearestSnapOffsetRanges<LayoutType>(scrollDestination, snapOffsetRanges, lowerSnapOffsetRangeIndex, upperSnapOffsetRangeIndex);
	if (lowerSnapOffsetRangeIndex == upperSnapOffsetRangeIndex && upperSnapOffsetRangeIndex != invalidSnapOffsetIndex) {
	activeSnapIndex = invalidSnapOffsetIndex;
	return scrollDestination;
	}

	if (scrollDestination <= snapOffsets.first())
	return snapOffsets.first();

	activeSnapIndex = snapOffsets.size() - 1;
	if (scrollDestination >= snapOffsets.last())
	return snapOffsets.last();

	unsigned lowerIndex;
	unsigned upperIndex;
	indicesOfNearestSnapOffsets<LayoutType>(scrollDestination, snapOffsets, lowerIndex, upperIndex);
	LayoutType lowerSnapPosition = snapOffsets[lowerIndex];
	LayoutType upperSnapPosition = snapOffsets[upperIndex];
	if (!std::abs(velocity)) {
	bool isCloserToLowerSnapPosition = scrollDestination - lowerSnapPosition <= upperSnapPosition - scrollDestination;
	activeSnapIndex = isCloserToLowerSnapPosition ? lowerIndex : upperIndex;
	return isCloserToLowerSnapPosition ? lowerSnapPosition : upperSnapPosition;
	}

	// Non-zero velocity indicates a flick gesture. Even if another snap point is closer, we should choose the one in the direction of the flick gesture
	// as long as a scroll snap offset range does not lie between the scroll destination and the targeted snap offset.
	if (velocity < 0) {
	if (lowerSnapOffsetRangeIndex != invalidSnapOffsetIndex && lowerSnapPosition < snapOffsetRanges[lowerSnapOffsetRangeIndex].end) {
	activeSnapIndex = upperIndex;
	return upperSnapPosition;
	}
	activeSnapIndex = lowerIndex;
	return lowerSnapPosition;
	}

	if (upperSnapOffsetRangeIndex != invalidSnapOffsetIndex && snapOffsetRanges[upperSnapOffsetRangeIndex].start < upperSnapPosition) {
	activeSnapIndex = lowerIndex;
	return lowerSnapPosition;
	}
	activeSnapIndex = upperIndex;
	return upperSnapPosition;
	}

	LayoutUnit closestSnapOffset(const Vector<LayoutUnit>& snapOffsets, const Vector<ScrollOffsetRange<LayoutUnit>>& snapOffsetRanges, LayoutUnit scrollDestination, float velocity, unsigned& activeSnapIndex)
	{
	return closestSnapOffset<LayoutUnit>(snapOffsets, snapOffsetRanges, scrollDestination, velocity, activeSnapIndex);
	}

	float closestSnapOffset(const Vector<float>& snapOffsets, const Vector<ScrollOffsetRange<float>>& snapOffsetRanges, float scrollDestination, float velocity, unsigned& activeSnapIndex)
	{
	return closestSnapOffset<float>(snapOffsets, snapOffsetRanges, scrollDestination, velocity, activeSnapIndex);
	}

	} // namespace WebCore

	#endif // CSS_SCROLL_SNAP