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webkit / WebKit / d0e9359bbbbbe54170cea1569c9fb736cfa3bccd / . / Source / WebCore / rendering / RenderLayerScrollableArea.cpp
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/*
* Copyright (C) 2006-2020 Apple Inc. All rights reserved.
* Copyright (C) 2019 Adobe. All rights reserved.
* Copyright (C) 2020 Igalia S.L.
*
* Portions are Copyright (C) 1998 Netscape Communications Corporation.
*
* Other contributors:
* Robert O'Callahan <roc+@cs.cmu.edu>
* David Baron <dbaron@fas.harvard.edu>
* Christian Biesinger <cbiesinger@web.de>
* Randall Jesup <rjesup@wgate.com>
* Roland Mainz <roland.mainz@informatik.med.uni-giessen.de>
* Josh Soref <timeless@mac.com>
* Boris Zbarsky <bzbarsky@mit.edu>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
* Alternatively, the contents of this file may be used under the terms
* of either the Mozilla Public License Version 1.1, found at
* http://www.mozilla.org/MPL/ (the "MPL") or the GNU General Public
* License Version 2.0, found at http://www.fsf.org/copyleft/gpl.html
* (the "GPL"), in which case the provisions of the MPL or the GPL are
* applicable instead of those above. If you wish to allow use of your
* version of this file only under the terms of one of those two
* licenses (the MPL or the GPL) and not to allow others to use your
* version of this file under the LGPL, indicate your decision by
* deletingthe provisions above and replace them with the notice and
* other provisions required by the MPL or the GPL, as the case may be.
* If you do not delete the provisions above, a recipient may use your
* version of this file under any of the LGPL, the MPL or the GPL.
*/
#include "config.h"
#include "RenderLayerScrollableArea.h"
#include "Chrome.h"
#include "DebugPageOverlays.h"
#include "DeprecatedGlobalSettings.h"
#include "Editor.h"
#include "ElementRuleCollector.h"
#include "EventHandler.h"
#include "FocusController.h"
#include "FrameSelection.h"
#include "HitTestResult.h"
#include "Logging.h"
#include "RenderFlexibleBox.h"
#include "RenderGeometryMap.h"
#include "RenderLayerBacking.h"
#include "RenderLayerCompositor.h"
#include "RenderMarquee.h"
#include "RenderScrollbar.h"
#include "RenderScrollbarPart.h"
#include "RenderView.h"
#include "ScrollAnimator.h"
#include "ScrollbarTheme.h"
#include "ScrollingCoordinator.h"
#include "ShadowRoot.h"
#include <wtf/SetForScope.h>
namespace WebCore {
RenderLayerScrollableArea::RenderLayerScrollableArea(RenderLayer& layer)
: m_layer(layer)
{
}
RenderLayerScrollableArea::~RenderLayerScrollableArea()
{
}
void RenderLayerScrollableArea::clear()
{
auto& renderer = m_layer.renderer();
ASSERT(m_registeredScrollableArea == renderer.view().frameView().containsScrollableArea(this));
if (m_registeredScrollableArea)
renderer.view().frameView().removeScrollableArea(this);
#if ENABLE(IOS_TOUCH_EVENTS)
unregisterAsTouchEventListenerForScrolling();
#endif
if (Element* element = renderer.element())
element->setSavedLayerScrollPosition(m_scrollPosition);
destroyScrollbar(ScrollbarOrientation::Horizontal);
destroyScrollbar(ScrollbarOrientation::Vertical);
if (auto* scrollingCoordinator = renderer.page().scrollingCoordinator())
scrollingCoordinator->willDestroyScrollableArea(*this);
clearScrollCorner();
clearResizer();
}
void RenderLayerScrollableArea::restoreScrollPosition()
{
auto* element = m_layer.renderer().element();
if (!element)
return;
if (m_layer.renderBox()) {
// We save and restore only the scrollOffset as the other scroll values are recalculated.
m_scrollPosition = element->savedLayerScrollPosition();
if (!m_scrollPosition.isZero())
scrollAnimator().setCurrentPosition(m_scrollPosition);
}
element->setSavedLayerScrollPosition(IntPoint());
}
bool RenderLayerScrollableArea::shouldPlaceVerticalScrollbarOnLeft() const
{
return m_layer.renderer().shouldPlaceVerticalScrollbarOnLeft();
}
#if ENABLE(IOS_TOUCH_EVENTS)
bool RenderLayerScrollableArea::handleTouchEvent(const PlatformTouchEvent& touchEvent)
{
// If we have accelerated scrolling, let the scrolling be handled outside of WebKit.
if (hasCompositedScrollableOverflow())
return false;
return ScrollableArea::handleTouchEvent(touchEvent);
}
void RenderLayerScrollableArea::registerAsTouchEventListenerForScrolling()
{
auto& renderer = m_layer.renderer();
if (!renderer.element() || m_registeredAsTouchEventListenerForScrolling)
return;
renderer.document().addTouchEventHandler(*renderer.element());
m_registeredAsTouchEventListenerForScrolling = true;
}
void RenderLayerScrollableArea::unregisterAsTouchEventListenerForScrolling()
{
auto& renderer = m_layer.renderer();
if (!renderer.element() || !m_registeredAsTouchEventListenerForScrolling)
return;
renderer.document().removeTouchEventHandler(*renderer.element());
m_registeredAsTouchEventListenerForScrolling = false;
}
#endif // ENABLE(IOS_TOUCH_EVENTS)
IntRect RenderLayerScrollableArea::scrollableAreaBoundingBox(bool* isInsideFixed) const
{
return m_layer.renderer().absoluteBoundingBoxRect(/* useTransforms */ true, isInsideFixed);
}
bool RenderLayerScrollableArea::isUserScrollInProgress() const
{
if (!scrollsOverflow())
return false;
if (auto scrollingCoordinator = m_layer.page().scrollingCoordinator()) {
if (scrollingCoordinator->isUserScrollInProgress(scrollingNodeID()))
return true;
}
if (auto scrollAnimator = existingScrollAnimator())
return scrollAnimator->isUserScrollInProgress();
return false;
}
bool RenderLayerScrollableArea::isRubberBandInProgress() const
{
#if HAVE(RUBBER_BANDING)
if (!scrollsOverflow())
return false;
if (auto scrollingCoordinator = m_layer.page().scrollingCoordinator()) {
if (scrollingCoordinator->isRubberBandInProgress(scrollingNodeID()))
return true;
}
if (auto scrollAnimator = existingScrollAnimator())
return scrollAnimator->isRubberBandInProgress();
#endif
return false;
}
bool RenderLayerScrollableArea::forceUpdateScrollbarsOnMainThreadForPerformanceTesting() const
{
return m_layer.renderer().settings().scrollingPerformanceTestingEnabled();
}
// FIXME: this is only valid after we've made layers.
bool RenderLayerScrollableArea::usesAsyncScrolling() const
{
return m_layer.compositor().useCoordinatedScrollingForLayer(m_layer);
}
void RenderLayerScrollableArea::setPostLayoutScrollPosition(std::optional<ScrollPosition> position)
{
m_postLayoutScrollPosition = position;
}
void RenderLayerScrollableArea::applyPostLayoutScrollPositionIfNeeded()
{
if (!m_postLayoutScrollPosition)
return;
scrollToOffset(scrollOffsetFromPosition(m_postLayoutScrollPosition.value()));
m_postLayoutScrollPosition = std::nullopt;
}
void RenderLayerScrollableArea::scrollToXPosition(int x, const ScrollPositionChangeOptions& options)
{
ScrollPosition position(x, m_scrollPosition.y());
setScrollPosition(position, options);
}
void RenderLayerScrollableArea::scrollToYPosition(int y, const ScrollPositionChangeOptions& options)
{
ScrollPosition position(m_scrollPosition.x(), y);
setScrollPosition(position, options);
}
void RenderLayerScrollableArea::setScrollPosition(const ScrollPosition& position, const ScrollPositionChangeOptions& options)
{
scrollToOffset(scrollOffsetFromPosition(position), options);
}
ScrollOffset RenderLayerScrollableArea::clampScrollOffset(const ScrollOffset& scrollOffset) const
{
return scrollOffset.constrainedBetween(minimumScrollOffset(), maximumScrollOffset());
}
bool RenderLayerScrollableArea::requestScrollPositionUpdate(const ScrollPosition& position, ScrollType scrollType, ScrollClamping clamping)
{
#if ENABLE(ASYNC_SCROLLING)
LOG_WITH_STREAM(Scrolling, stream << m_layer << " requestScrollPositionUpdate " << position);
if (auto* scrollingCoordinator = m_layer.page().scrollingCoordinator())
return scrollingCoordinator->requestScrollPositionUpdate(*this, position, scrollType, clamping);
#endif
return false;
}
bool RenderLayerScrollableArea::requestAnimatedScrollToPosition(const ScrollPosition& destinationPosition, ScrollClamping clamping)
{
#if ENABLE(ASYNC_SCROLLING)
LOG_WITH_STREAM(Scrolling, stream << m_layer << " requestAnimatedScrollToPosition " << destinationPosition);
if (auto* scrollingCoordinator = m_layer.page().scrollingCoordinator())
return scrollingCoordinator->requestAnimatedScrollToPosition(*this, destinationPosition, clamping);
#endif
return false;
}
void RenderLayerScrollableArea::stopAsyncAnimatedScroll()
{
#if ENABLE(ASYNC_SCROLLING)
LOG_WITH_STREAM(Scrolling, stream << m_layer << " stopAsyncAnimatedScroll");
if (auto* scrollingCoordinator = m_layer.page().scrollingCoordinator())
return scrollingCoordinator->stopAnimatedScroll(*this);
#endif
}
ScrollOffset RenderLayerScrollableArea::scrollToOffset(const ScrollOffset& scrollOffset, const ScrollPositionChangeOptions& options)
{
if (scrollAnimationStatus() == ScrollAnimationStatus::Animating) {
scrollAnimator().cancelAnimations();
stopAsyncAnimatedScroll();
}
ScrollOffset clampedScrollOffset = options.clamping == ScrollClamping::Clamped ? clampScrollOffset(scrollOffset) : scrollOffset;
if (clampedScrollOffset == this->scrollOffset())
return clampedScrollOffset;
auto previousScrollType = currentScrollType();
setCurrentScrollType(options.type);
ScrollOffset snappedOffset = ceiledIntPoint(scrollAnimator().scrollOffsetAdjustedForSnapping(clampedScrollOffset, options.snapPointSelectionMethod));
auto snappedPosition = scrollPositionFromOffset(snappedOffset);
if (options.animated == ScrollIsAnimated::Yes)
ScrollableArea::scrollToPositionWithAnimation(snappedPosition);
else if (!requestScrollPositionUpdate(snappedPosition, options.type, options.clamping))
scrollToPositionWithoutAnimation(snappedPosition, options.clamping);
setCurrentScrollType(previousScrollType);
return snappedOffset;
}
void RenderLayerScrollableArea::scrollTo(const ScrollPosition& position)
{
RenderBox* box = m_layer.renderBox();
if (!box)
return;
LOG_WITH_STREAM(Scrolling, stream << "RenderLayerScrollableArea [" << scrollingNodeID() << "] scrollTo " << position << " from " << m_scrollPosition << " (is user scroll " << (currentScrollType() == ScrollType::User) << ")");
ScrollPosition newPosition = position;
if (!box->isHTMLMarquee()) {
// Ensure that the dimensions will be computed if they need to be (for overflow:hidden blocks).
if (m_scrollDimensionsDirty)
computeScrollDimensions();
}
if (m_scrollPosition == newPosition && scrollAnimationStatus() == ScrollAnimationStatus::NotAnimating) {
// FIXME: Nothing guarantees we get a scrollTo() with an unchanged position at the end of a user gesture.
// The ScrollingCoordinator probably needs to message the main thread when a gesture ends.
if (requiresScrollPositionReconciliation()) {
m_layer.setNeedsCompositingGeometryUpdate();
updateCompositingLayersAfterScroll();
}
return;
}
m_scrollPosition = newPosition;
auto& renderer = m_layer.renderer();
RenderView& view = renderer.view();
// Update the positions of our child layers (if needed as only fixed layers should be impacted by a scroll).
// We don't update compositing layers, because we need to do a deep update from the compositing ancestor.
if (!view.frameView().layoutContext().isInRenderTreeLayout()) {
// If we're in the middle of layout, we'll just update layers once layout has finished.
updateLayerPositionsAfterOverflowScroll();
view.frameView().scheduleUpdateWidgetPositions();
if (!m_updatingMarqueePosition) {
// Avoid updating compositing layers if, higher on the stack, we're already updating layer
// positions. Updating layer positions requires a full walk of up-to-date RenderLayers, and
// in this case we're still updating their positions; we'll update compositing layers later
// when that completes.
if (usesCompositedScrolling()) {
m_layer.setNeedsCompositingGeometryUpdate();
// Scroll position can affect the location of a composited descendant (which may be a sibling in z-order),
// so trigger a descendant walk from the stacking context.
if (auto* paintParent = m_layer.stackingContext())
paintParent->setDescendantsNeedUpdateBackingAndHierarchyTraversal();
}
updateCompositingLayersAfterScroll();
}
// Update regions, scrolling may change the clip of a particular region.
renderer.document().invalidateRenderingDependentRegions();
DebugPageOverlays::didLayout(renderer.frame());
}
Frame& frame = renderer.frame();
RenderLayerModelObject* repaintContainer = renderer.containerForRepaint();
// The caret rect needs to be invalidated after scrolling
frame.selection().setCaretRectNeedsUpdate();
LayoutRect rectForRepaint = layer().repaintRects() ? layer().repaintRects()->clippedOverflowRect : renderer.clippedOverflowRectForRepaint(repaintContainer);
FloatQuad quadForFakeMouseMoveEvent = FloatQuad(rectForRepaint);
if (repaintContainer)
quadForFakeMouseMoveEvent = repaintContainer->localToAbsoluteQuad(quadForFakeMouseMoveEvent);
frame.eventHandler().dispatchFakeMouseMoveEventSoonInQuad(quadForFakeMouseMoveEvent);
bool requiresRepaint = true;
if (usesCompositedScrolling()) {
m_layer.setNeedsCompositingGeometryUpdate();
m_layer.setDescendantsNeedUpdateBackingAndHierarchyTraversal();
requiresRepaint = m_layer.backing()->needsRepaintOnCompositedScroll();
}
// Just schedule a full repaint of our object.
if (requiresRepaint)
renderer.repaintUsingContainer(repaintContainer, rectForRepaint);
// Schedule the scroll and scroll-related DOM events.
if (Element* element = renderer.element())
element->document().addPendingScrollEventTarget(*element);
if (scrollsOverflow())
view.frameView().didChangeScrollOffset();
view.frameView().viewportContentsChanged();
frame.editor().renderLayerDidScroll(m_layer);
}
void RenderLayerScrollableArea::updateCompositingLayersAfterScroll()
{
if (m_layer.compositor().hasContentCompositingLayers()) {
// Our stacking container is guaranteed to contain all of our descendants that may need
// repositioning, so update compositing layers from there.
if (RenderLayer* compositingAncestor = m_layer.stackingContext()->enclosingCompositingLayer()) {
if (usesCompositedScrolling())
m_layer.compositor().updateCompositingLayers(CompositingUpdateType::OnCompositedScroll, compositingAncestor);
else {
// FIXME: would be nice to only dirty layers whose positions were affected by scrolling.
compositingAncestor->setDescendantsNeedUpdateBackingAndHierarchyTraversal();
m_layer.compositor().updateCompositingLayers(CompositingUpdateType::OnScroll, compositingAncestor);
}
}
}
}
int RenderLayerScrollableArea::scrollWidth() const
{
ASSERT(m_layer.renderBox());
if (m_scrollDimensionsDirty)
const_cast<RenderLayerScrollableArea*>(this)->computeScrollDimensions();
// FIXME: This should use snappedIntSize() instead with absolute coordinates.
return m_scrollWidth;
}
int RenderLayerScrollableArea::scrollHeight() const
{
ASSERT(m_layer.renderBox());
if (m_scrollDimensionsDirty)
const_cast<RenderLayerScrollableArea*>(this)->computeScrollDimensions();
// FIXME: This should use snappedIntSize() instead with absolute coordinates.
return m_scrollHeight;
}
void RenderLayerScrollableArea::updateMarqueePosition()
{
if (!m_marquee)
return;
// FIXME: would like to use SetForScope<> but it doesn't work with bitfields.
bool oldUpdatingMarqueePosition = m_updatingMarqueePosition;
m_updatingMarqueePosition = true;
m_marquee->updateMarqueePosition();
m_updatingMarqueePosition = oldUpdatingMarqueePosition;
}
void RenderLayerScrollableArea::createOrDestroyMarquee()
{
auto& renderer = m_layer.renderer();
if (renderer.isHTMLMarquee() && renderer.style().marqueeBehavior() != MarqueeBehavior::None && renderer.isBox()) {
if (!m_marquee)
m_marquee = makeUnique<RenderMarquee>(&m_layer);
m_marquee->updateMarqueeStyle();
} else if (m_marquee)
m_marquee = nullptr;
}
bool RenderLayerScrollableArea::scrollsOverflow() const
{
auto& renderer = m_layer.renderer();
if (!is<RenderBox>(renderer))
return false;
return downcast<RenderBox>(renderer).scrollsOverflow();
}
bool RenderLayerScrollableArea::canUseCompositedScrolling() const
{
auto& renderer = m_layer.renderer();
bool isVisible = renderer.style().visibility() == Visibility::Visible;
if (renderer.settings().asyncOverflowScrollingEnabled())
return isVisible && scrollsOverflow() && !m_layer.isInsideSVGForeignObject();
#if PLATFORM(IOS_FAMILY) && ENABLE(OVERFLOW_SCROLLING_TOUCH)
return isVisible && scrollsOverflow() && (renderer.style().useTouchOverflowScrolling() || renderer.settings().alwaysUseAcceleratedOverflowScroll());
#else
return false;
#endif
}
void RenderLayerScrollableArea::setScrollOffset(const ScrollOffset& offset)
{
scrollTo(scrollPositionFromOffset(offset));
}
ScrollingNodeID RenderLayerScrollableArea::scrollingNodeID() const
{
if (!m_layer.isComposited())
return 0;
return m_layer.backing()->scrollingNodeIDForRole(ScrollCoordinationRole::Scrolling);
}
bool RenderLayerScrollableArea::handleWheelEventForScrolling(const PlatformWheelEvent& wheelEvent, std::optional<WheelScrollGestureState> gestureState)
{
if (!isScrollableOrRubberbandable())
return false;
#if ENABLE(ASYNC_SCROLLING)
if (usesAsyncScrolling() && scrollingNodeID()) {
if (auto* scrollingCoordinator = m_layer.page().scrollingCoordinator())
return scrollingCoordinator->handleWheelEventForScrolling(wheelEvent, scrollingNodeID(), gestureState);
}
#endif
return ScrollableArea::handleWheelEventForScrolling(wheelEvent, gestureState);
}
IntRect RenderLayerScrollableArea::visibleContentRectInternal(VisibleContentRectIncludesScrollbars scrollbarInclusion, VisibleContentRectBehavior) const
{
IntSize scrollbarSpace;
if (showsOverflowControls() && scrollbarInclusion == IncludeScrollbars)
scrollbarSpace = scrollbarIntrusion();
auto visibleSize = this->visibleSize();
return { scrollPosition(), { std::max(0, visibleSize.width() - scrollbarSpace.width()), std::max(0, visibleSize.height() - scrollbarSpace.height()) } };
}
IntSize RenderLayerScrollableArea::overhangAmount() const
{
#if HAVE(RUBBER_BANDING)
auto& renderer = m_layer.renderer();
if (!renderer.settings().rubberBandingForSubScrollableRegionsEnabled())
return IntSize();
IntSize stretch;
// FIXME: use maximumScrollOffset(), or just move this to ScrollableArea.
ScrollOffset scrollOffset = scrollOffsetFromPosition(scrollPosition());
auto reachableSize = reachableTotalContentsSize();
if (scrollOffset.y() < 0)
stretch.setHeight(scrollOffset.y());
else if (reachableSize.height() && scrollOffset.y() > reachableSize.height() - visibleHeight())
stretch.setHeight(scrollOffset.y() - (reachableSize.height() - visibleHeight()));
if (scrollOffset.x() < 0)
stretch.setWidth(scrollOffset.x());
else if (reachableSize.width() && scrollOffset.x() > reachableSize.width() - visibleWidth())
stretch.setWidth(scrollOffset.x() - (reachableSize.width() - visibleWidth()));
return stretch;
#else
return IntSize();
#endif
}
IntRect RenderLayerScrollableArea::scrollCornerRect() const
{
return overflowControlsRects().scrollCorner;
}
bool RenderLayerScrollableArea::isScrollCornerVisible() const
{
ASSERT(m_layer.renderer().isBox());
return !scrollCornerRect().isEmpty();
}
IntRect RenderLayerScrollableArea::convertFromScrollbarToContainingView(const Scrollbar& scrollbar, const IntRect& scrollbarRect) const
{
auto& renderer = m_layer.renderer();
IntRect rect = scrollbarRect;
rect.move(scrollbarOffset(scrollbar));
return renderer.view().frameView().convertFromRendererToContainingView(&renderer, rect);
}
IntRect RenderLayerScrollableArea::convertFromContainingViewToScrollbar(const Scrollbar& scrollbar, const IntRect& parentRect) const
{
auto& renderer = m_layer.renderer();
IntRect rect = renderer.view().frameView().convertFromContainingViewToRenderer(&renderer, parentRect);
rect.move(-scrollbarOffset(scrollbar));
return rect;
}
IntPoint RenderLayerScrollableArea::convertFromScrollbarToContainingView(const Scrollbar& scrollbar, const IntPoint& scrollbarPoint) const
{
auto& renderer = m_layer.renderer();
IntPoint point = scrollbarPoint;
point.move(scrollbarOffset(scrollbar));
return renderer.view().frameView().convertFromRendererToContainingView(&renderer, point);
}
IntPoint RenderLayerScrollableArea::convertFromContainingViewToScrollbar(const Scrollbar& scrollbar, const IntPoint& parentPoint) const
{
auto& renderer = m_layer.renderer();
IntPoint point = renderer.view().frameView().convertFromContainingViewToRenderer(&renderer, parentPoint);
point.move(-scrollbarOffset(scrollbar));
return point;
}
IntSize RenderLayerScrollableArea::visibleSize() const
{
return m_layer.visibleSize();
}
IntSize RenderLayerScrollableArea::contentsSize() const
{
return IntSize(scrollWidth(), scrollHeight());
}
IntSize RenderLayerScrollableArea::reachableTotalContentsSize() const
{
IntSize contentsSize = this->contentsSize();
if (!hasScrollableHorizontalOverflow())
contentsSize.setWidth(std::min(contentsSize.width(), visibleSize().width()));
if (!hasScrollableVerticalOverflow())
contentsSize.setHeight(std::min(contentsSize.height(), visibleSize().height()));
return contentsSize;
}
void RenderLayerScrollableArea::availableContentSizeChanged(AvailableSizeChangeReason reason)
{
ScrollableArea::availableContentSizeChanged(reason);
auto& renderer = m_layer.renderer();
if (reason == AvailableSizeChangeReason::ScrollbarsChanged) {
if (is<RenderBlock>(renderer))
downcast<RenderBlock>(renderer).setShouldForceRelayoutChildren(true);
renderer.setNeedsLayout();
}
}
bool RenderLayerScrollableArea::shouldSuspendScrollAnimations() const
{
auto& renderer = m_layer.renderer();
return renderer.view().frameView().shouldSuspendScrollAnimations();
}
#if PLATFORM(IOS_FAMILY)
void RenderLayerScrollableArea::didStartScroll()
{
m_layer.page().chrome().client().didStartOverflowScroll();
}
void RenderLayerScrollableArea::didEndScroll()
{
m_layer.page().chrome().client().didEndOverflowScroll();
}
void RenderLayerScrollableArea::didUpdateScroll()
{
// Send this notification when we scroll, since this is how we keep selection updated.
m_layer.page().chrome().client().didLayout(ChromeClient::Scroll);
}
#endif
RenderLayer::OverflowControlRects RenderLayerScrollableArea::overflowControlsRects() const
{
auto& renderer = m_layer.renderer();
ASSERT(is<RenderBox>(renderer));
auto& renderBox = downcast<RenderBox>(renderer);
// Scrollbars sit inside the border box.
auto overflowControlsPositioningRect = snappedIntRect(renderBox.paddingBoxRectIncludingScrollbar());
auto horizontalScrollbarHeight = m_hBar ? m_hBar->height() : 0;
auto verticalScrollbarWidth = m_vBar ? m_vBar->width() : 0;
auto isNonOverlayScrollbar = [](const Scrollbar* scrollbar) {
return scrollbar && !scrollbar->isOverlayScrollbar();
};
bool haveNonOverlayHorizontalScrollbar = isNonOverlayScrollbar(m_hBar.get());
bool haveNonOverlayVerticalScrollbar = isNonOverlayScrollbar(m_vBar.get());
bool placeVerticalScrollbarOnTheLeft = shouldPlaceVerticalScrollbarOnLeft();
bool haveResizer = renderer.style().resize() != Resize::None;
bool scrollbarsAvoidCorner = (haveNonOverlayHorizontalScrollbar && haveNonOverlayVerticalScrollbar) || (haveResizer && (haveNonOverlayHorizontalScrollbar || haveNonOverlayVerticalScrollbar));
IntSize cornerSize;
if (scrollbarsAvoidCorner) {
// If only one scrollbar is present, the corner is square.
cornerSize = IntSize {
verticalScrollbarWidth ? verticalScrollbarWidth : horizontalScrollbarHeight,
horizontalScrollbarHeight ? horizontalScrollbarHeight : verticalScrollbarWidth
};
}
RenderLayer::OverflowControlRects result;
if (m_hBar) {
auto barRect = overflowControlsPositioningRect;
barRect.shiftYEdgeTo(barRect.maxY() - horizontalScrollbarHeight);
if (scrollbarsAvoidCorner) {
if (placeVerticalScrollbarOnTheLeft)
barRect.shiftXEdgeTo(barRect.x() + cornerSize.width());
else
barRect.contract(cornerSize.width(), 0);
}
result.horizontalScrollbar = barRect;
}
if (m_vBar) {
auto barRect = overflowControlsPositioningRect;
if (placeVerticalScrollbarOnTheLeft)
barRect.setWidth(verticalScrollbarWidth);
else
barRect.shiftXEdgeTo(barRect.maxX() - verticalScrollbarWidth);
if (scrollbarsAvoidCorner)
barRect.contract(0, cornerSize.height());
result.verticalScrollbar = barRect;
}
auto cornerRect = [&](IntSize cornerSize) {
if (placeVerticalScrollbarOnTheLeft) {
auto bottomLeftCorner = overflowControlsPositioningRect.minXMaxYCorner();
return IntRect { { bottomLeftCorner.x(), bottomLeftCorner.y() - cornerSize.height(), }, cornerSize };
}
return IntRect { overflowControlsPositioningRect.maxXMaxYCorner() - cornerSize, cornerSize };
};
if (scrollbarsAvoidCorner)
result.scrollCorner = cornerRect(cornerSize);
if (haveResizer) {
if (scrollbarsAvoidCorner)
result.resizer = result.scrollCorner;
else {
auto scrollbarThickness = ScrollbarTheme::theme().scrollbarThickness();
result.resizer = cornerRect({ scrollbarThickness, scrollbarThickness });
}
}
return result;
}
IntSize RenderLayerScrollableArea::scrollbarOffset(const Scrollbar& scrollbar) const
{
auto rects = overflowControlsRects();
if (&scrollbar == m_vBar.get())
return toIntSize(rects.verticalScrollbar.location());
if (&scrollbar == m_hBar.get())
return toIntSize(rects.horizontalScrollbar.location());
ASSERT_NOT_REACHED();
return { };
}
void RenderLayerScrollableArea::invalidateScrollbarRect(Scrollbar& scrollbar, const IntRect& rect)
{
if (!showsOverflowControls())
return;
if (&scrollbar == m_vBar.get()) {
if (GraphicsLayer* layer = layerForVerticalScrollbar()) {
layer->setNeedsDisplayInRect(rect);
return;
}
} else {
if (GraphicsLayer* layer = layerForHorizontalScrollbar()) {
layer->setNeedsDisplayInRect(rect);
return;
}
}
auto scrollRect = rect;
RenderBox* box = m_layer.renderBox();
ASSERT(box);
// If we are not yet inserted into the tree, there is no need to repaint.
if (!box->parent())
return;
auto rects = overflowControlsRects();
if (&scrollbar == m_vBar.get())
scrollRect.moveBy(rects.verticalScrollbar.location());
else
scrollRect.moveBy(rects.horizontalScrollbar.location());
LayoutRect repaintRect = scrollRect;
box->flipForWritingMode(repaintRect);
box->repaintRectangle(repaintRect);
}
void RenderLayerScrollableArea::invalidateScrollCornerRect(const IntRect& rect)
{
if (!showsOverflowControls())
return;
if (GraphicsLayer* layer = layerForScrollCorner()) {
layer->setNeedsDisplayInRect(rect);
return;
}
if (m_scrollCorner)
m_scrollCorner->repaintRectangle(rect);
if (m_resizer)
m_resizer->repaintRectangle(rect);
}
static bool scrollbarHiddenByStyle(Scrollbar* scrollbar)
{
return scrollbar && scrollbar->isHiddenByStyle();
}
bool RenderLayerScrollableArea::horizontalScrollbarHiddenByStyle() const
{
return scrollbarHiddenByStyle(horizontalScrollbar());
}
bool RenderLayerScrollableArea::verticalScrollbarHiddenByStyle() const
{
return scrollbarHiddenByStyle(verticalScrollbar());
}
static inline RenderElement* rendererForScrollbar(RenderLayerModelObject& renderer)
{
if (Element* element = renderer.element()) {
if (ShadowRoot* shadowRoot = element->containingShadowRoot()) {
if (shadowRoot->mode() == ShadowRootMode::UserAgent)
return shadowRoot->host()->renderer();
}
}
return &renderer;
}
Ref<Scrollbar> RenderLayerScrollableArea::createScrollbar(ScrollbarOrientation orientation)
{
auto& renderer = m_layer.renderer();
RefPtr<Scrollbar> widget;
ASSERT(rendererForScrollbar(renderer));
auto& actualRenderer = *rendererForScrollbar(renderer);
bool hasCustomScrollbarStyle = is<RenderBox>(actualRenderer) && downcast<RenderBox>(actualRenderer).style().hasPseudoStyle(PseudoId::Scrollbar);
auto element = downcast<RenderBox>(actualRenderer).element();
if (hasCustomScrollbarStyle && element)
widget = RenderScrollbar::createCustomScrollbar(*this, orientation, element);
else {
widget = Scrollbar::createNativeScrollbar(*this, orientation, ScrollbarControlSize::Regular);
didAddScrollbar(widget.get(), orientation);
if (m_layer.page().isMonitoringWheelEvents())
scrollAnimator().setWheelEventTestMonitor(m_layer.page().wheelEventTestMonitor());
}
renderer.view().frameView().addChild(*widget);
return widget.releaseNonNull();
}
void RenderLayerScrollableArea::destroyScrollbar(ScrollbarOrientation orientation)
{
RefPtr<Scrollbar>& scrollbar = orientation == ScrollbarOrientation::Horizontal ? m_hBar : m_vBar;
if (!scrollbar)
return;
if (!scrollbar->isCustomScrollbar())
willRemoveScrollbar(scrollbar.get(), orientation);
scrollbar->removeFromParent();
scrollbar = nullptr;
}
void RenderLayerScrollableArea::setHasHorizontalScrollbar(bool hasScrollbar)
{
if (hasScrollbar == hasHorizontalScrollbar())
return;
if (hasScrollbar) {
m_hBar = createScrollbar(ScrollbarOrientation::Horizontal);
#if HAVE(RUBBER_BANDING)
auto& renderer = m_layer.renderer();
ScrollElasticity elasticity = scrollsOverflow() && renderer.settings().rubberBandingForSubScrollableRegionsEnabled() ? ScrollElasticity::Automatic : ScrollElasticity::None;
ScrollableArea::setHorizontalScrollElasticity(elasticity);
#endif
} else {
destroyScrollbar(ScrollbarOrientation::Horizontal);
#if HAVE(RUBBER_BANDING)
ScrollableArea::setHorizontalScrollElasticity(ScrollElasticity::None);
#endif
}
// Destroying or creating one bar can cause our scrollbar corner to come and go. We need to update the opposite scrollbar's style.
if (m_hBar)
m_hBar->styleChanged();
if (m_vBar)
m_vBar->styleChanged();
}
void RenderLayerScrollableArea::setHasVerticalScrollbar(bool hasScrollbar)
{
if (hasScrollbar == hasVerticalScrollbar())
return;
if (hasScrollbar) {
m_vBar = createScrollbar(ScrollbarOrientation::Vertical);
#if HAVE(RUBBER_BANDING)
auto& renderer = m_layer.renderer();
ScrollElasticity elasticity = scrollsOverflow() && renderer.settings().rubberBandingForSubScrollableRegionsEnabled() ? ScrollElasticity::Automatic : ScrollElasticity::None;
ScrollableArea::setVerticalScrollElasticity(elasticity);
#endif
} else {
destroyScrollbar(ScrollbarOrientation::Vertical);
#if HAVE(RUBBER_BANDING)
ScrollableArea::setVerticalScrollElasticity(ScrollElasticity::None);
#endif
}
// Destroying or creating one bar can cause our scrollbar corner to come and go. We need to update the opposite scrollbar's style.
if (m_hBar)
m_hBar->styleChanged();
if (m_vBar)
m_vBar->styleChanged();
}
ScrollableArea* RenderLayerScrollableArea::enclosingScrollableArea() const
{
if (auto* scrollableLayer = m_layer.enclosingScrollableLayer(IncludeSelfOrNot::ExcludeSelf, CrossFrameBoundaries::No))
return scrollableLayer->scrollableArea();
auto& renderer = m_layer.renderer();
return &renderer.view().frameView();
}
bool RenderLayerScrollableArea::isScrollableOrRubberbandable()
{
auto& renderer = m_layer.renderer();
return renderer.isScrollableOrRubberbandableBox();
}
bool RenderLayerScrollableArea::hasScrollableOrRubberbandableAncestor()
{
for (auto* nextLayer = m_layer.enclosingContainingBlockLayer(CrossFrameBoundaries::Yes); nextLayer; nextLayer = nextLayer->enclosingContainingBlockLayer(CrossFrameBoundaries::Yes)) {
if (nextLayer->renderer().isScrollableOrRubberbandableBox())
return true;
}
return false;
}
int RenderLayerScrollableArea::verticalScrollbarWidth(OverlayScrollbarSizeRelevancy relevancy) const
{
if (!m_vBar
|| !showsOverflowControls()
|| (m_vBar->isOverlayScrollbar() && (relevancy == IgnoreOverlayScrollbarSize || !m_vBar->shouldParticipateInHitTesting())))
return 0;
return m_vBar->width();
}
int RenderLayerScrollableArea::horizontalScrollbarHeight(OverlayScrollbarSizeRelevancy relevancy) const
{
if (!m_hBar
|| !showsOverflowControls()
|| (m_hBar->isOverlayScrollbar() && (relevancy == IgnoreOverlayScrollbarSize || !m_hBar->shouldParticipateInHitTesting())))
return 0;
return m_hBar->height();
}
OverscrollBehavior RenderLayerScrollableArea::horizontalOverscrollBehavior() const
{
if (m_layer.renderBox() && m_layer.renderBox()->canBeScrolledAndHasScrollableArea())
return m_layer.renderer().style().overscrollBehaviorX();
return OverscrollBehavior::Auto;
}
OverscrollBehavior RenderLayerScrollableArea::verticalOverscrollBehavior() const
{
if (m_layer.renderBox() && m_layer.renderBox()->canBeScrolledAndHasScrollableArea())
return m_layer.renderer().style().overscrollBehaviorY();
return OverscrollBehavior::Auto;
}
bool RenderLayerScrollableArea::hasOverflowControls() const
{
return m_hBar || m_vBar || m_scrollCorner || m_layer.renderer().style().resize() != Resize::None;
}
void RenderLayerScrollableArea::positionOverflowControls(const IntSize& offsetFromRoot)
{
if (!m_hBar && !m_vBar && !m_layer.canResize())
return;
if (!m_layer.renderBox())
return;
auto rects = overflowControlsRects();
if (m_vBar) {
rects.verticalScrollbar.move(offsetFromRoot);
m_vBar->setFrameRect(rects.verticalScrollbar);
}
if (m_hBar) {
rects.horizontalScrollbar.move(offsetFromRoot);
m_hBar->setFrameRect(rects.horizontalScrollbar);
}
if (m_scrollCorner)
m_scrollCorner->setFrameRect(rects.scrollCorner);
if (m_resizer)
m_resizer->setFrameRect(rects.resizer);
}
LayoutUnit RenderLayerScrollableArea::overflowTop() const
{
RenderBox* box = m_layer.renderBox();
LayoutRect overflowRect(box->layoutOverflowRect());
box->flipForWritingMode(overflowRect);
return overflowRect.y();
}
LayoutUnit RenderLayerScrollableArea::overflowBottom() const
{
RenderBox* box = m_layer.renderBox();
LayoutRect overflowRect(box->layoutOverflowRect());
box->flipForWritingMode(overflowRect);
return overflowRect.maxY();
}
LayoutUnit RenderLayerScrollableArea::overflowLeft() const
{
RenderBox* box = m_layer.renderBox();
LayoutRect overflowRect(box->layoutOverflowRect());
box->flipForWritingMode(overflowRect);
return overflowRect.x();
}
LayoutUnit RenderLayerScrollableArea::overflowRight() const
{
RenderBox* box = m_layer.renderBox();
LayoutRect overflowRect(box->layoutOverflowRect());
box->flipForWritingMode(overflowRect);
return overflowRect.maxX();
}
void RenderLayerScrollableArea::computeScrollDimensions()
{
m_scrollDimensionsDirty = false;
m_scrollWidth = roundToInt(overflowRight() - overflowLeft());
m_scrollHeight = roundToInt(overflowBottom() - overflowTop());
computeScrollOrigin();
computeHasCompositedScrollableOverflow();
}
void RenderLayerScrollableArea::computeScrollOrigin()
{
RenderBox* box = m_layer.renderBox();
ASSERT(box);
int scrollableLeftOverflow = roundToInt(overflowLeft() - box->borderLeft());
if (shouldPlaceVerticalScrollbarOnLeft() /*|| box->style().writingMode() == WritingMode::RightToLeft*/)
scrollableLeftOverflow -= verticalScrollbarWidth();
int scrollableTopOverflow = roundToInt(overflowTop() - box->borderTop());
setScrollOrigin(IntPoint(-scrollableLeftOverflow, -scrollableTopOverflow));
// Horizontal scrollbar offsets depend on the scroll origin when vertical
// scrollbars are on the left.
if (m_hBar)
m_hBar->offsetDidChange();
}
void RenderLayerScrollableArea::computeHasCompositedScrollableOverflow()
{
m_hasCompositedScrollableOverflow = canUseCompositedScrolling() && (hasScrollableHorizontalOverflow() || hasScrollableVerticalOverflow());
}
bool RenderLayerScrollableArea::hasScrollableHorizontalOverflow() const
{
return hasHorizontalOverflow() && m_layer.renderBox()->scrollsOverflowX();
}
bool RenderLayerScrollableArea::hasScrollableVerticalOverflow() const
{
return hasVerticalOverflow() && m_layer.renderBox()->scrollsOverflowY();
}
bool RenderLayerScrollableArea::hasHorizontalOverflow() const
{
ASSERT(!m_scrollDimensionsDirty);
return scrollWidth() > roundToInt(m_layer.renderBox()->clientWidth());
}
bool RenderLayerScrollableArea::hasVerticalOverflow() const
{
ASSERT(!m_scrollDimensionsDirty);
return scrollHeight() > roundToInt(m_layer.renderBox()->clientHeight());
}
void RenderLayerScrollableArea::updateScrollbarPresenceAndState(std::optional<bool> hasHorizontalOverflow, std::optional<bool> hasVerticalOverflow)
{
auto* box = m_layer.renderBox();
ASSERT(box);
enum class ScrollbarState {
NoScrollbar,
Enabled,
Disabled
};
auto scrollbarForAxis = [&](ScrollbarOrientation orientation) -> RefPtr<Scrollbar>& {
return orientation == ScrollbarOrientation::Horizontal ? m_hBar : m_vBar;
};
auto stateForScrollbar = [&](ScrollbarOrientation orientation, std::optional<bool> hasOverflow, ScrollbarState nonScrollableState) {
if (hasOverflow)
return *hasOverflow ? ScrollbarState::Enabled : nonScrollableState;
// If we don't have information about overflow (because we haven't done layout yet), just return the current state of the scrollbar.
auto existingScrollbar = scrollbarForAxis(orientation);
return (existingScrollbar && existingScrollbar->enabled()) ? ScrollbarState::Enabled : nonScrollableState;
};
auto stateForScrollbarOnAxis = [&](ScrollbarOrientation orientation, std::optional<bool> hasOverflow) {
if (box->hasAlwaysPresentScrollbar(orientation))
return stateForScrollbar(orientation, hasOverflow, ScrollbarState::Disabled);
if (box->hasAutoScrollbar(orientation))
return stateForScrollbar(orientation, hasOverflow, ScrollbarState::NoScrollbar);
return ScrollbarState::NoScrollbar;
};
auto horizontalBarState = stateForScrollbarOnAxis(ScrollbarOrientation::Horizontal, hasHorizontalOverflow);
setHasHorizontalScrollbar(horizontalBarState != ScrollbarState::NoScrollbar);
if (horizontalBarState != ScrollbarState::NoScrollbar)
m_hBar->setEnabled(horizontalBarState == ScrollbarState::Enabled);
auto verticalBarState = stateForScrollbarOnAxis(ScrollbarOrientation::Vertical, hasVerticalOverflow);
setHasVerticalScrollbar(verticalBarState != ScrollbarState::NoScrollbar);
if (verticalBarState != ScrollbarState::NoScrollbar)
m_vBar->setEnabled(verticalBarState == ScrollbarState::Enabled);
}
void RenderLayerScrollableArea::updateScrollbarsAfterStyleChange(const RenderStyle* oldStyle)
{
// Overflow is a box concept.
RenderBox* box = m_layer.renderBox();
if (!box)
return;
// List box parts handle the scrollbars by themselves so we have nothing to do.
if (box->style().effectiveAppearance() == ListboxPart)
return;
bool hadVerticalScrollbar = hasVerticalScrollbar();
updateScrollbarPresenceAndState();
bool hasVerticalScrollbar = this->hasVerticalScrollbar();
if (hadVerticalScrollbar != hasVerticalScrollbar || (hasVerticalScrollbar && oldStyle && oldStyle->shouldPlaceVerticalScrollbarOnLeft() != box->style().shouldPlaceVerticalScrollbarOnLeft()))
computeScrollOrigin();
if (!m_scrollDimensionsDirty)
updateScrollableAreaSet(hasScrollableHorizontalOverflow() || hasScrollableVerticalOverflow());
}
void RenderLayerScrollableArea::updateScrollbarsAfterLayout()
{
RenderBox* box = m_layer.renderBox();
ASSERT(box);
// List box parts handle the scrollbars by themselves so we have nothing to do.
if (box->style().effectiveAppearance() == ListboxPart)
return;
bool hadHorizontalScrollbar = hasHorizontalScrollbar();
bool hadVerticalScrollbar = hasVerticalScrollbar();
updateScrollbarPresenceAndState(hasHorizontalOverflow(), hasVerticalOverflow());
// Scrollbars with auto behavior may need to lay out again if scrollbars got added or removed.
bool autoHorizontalScrollBarChanged = box->hasAutoScrollbar(ScrollbarOrientation::Horizontal) && (hadHorizontalScrollbar != hasHorizontalScrollbar());
bool autoVerticalScrollBarChanged = box->hasAutoScrollbar(ScrollbarOrientation::Vertical) && (hadVerticalScrollbar != hasVerticalScrollbar());
if (autoHorizontalScrollBarChanged || autoVerticalScrollBarChanged) {
if (autoVerticalScrollBarChanged && shouldPlaceVerticalScrollbarOnLeft())
computeScrollOrigin();
m_layer.updateSelfPaintingLayer();
auto& renderer = m_layer.renderer();
renderer.repaint();
if (renderer.style().overflowX() == Overflow::Auto || renderer.style().overflowY() == Overflow::Auto) {
if (!m_inOverflowRelayout) {
SetForScope<bool> inOverflowRelayoutScope(m_inOverflowRelayout, true);
renderer.setNeedsLayout(MarkOnlyThis);
if (is<RenderBlock>(renderer)) {
auto& block = downcast<RenderBlock>(renderer);
block.scrollbarsChanged(autoHorizontalScrollBarChanged, autoVerticalScrollBarChanged);
block.layoutBlock(true);
} else
renderer.layout();
}
}
// FIXME: This does not belong here.
RenderObject* parent = renderer.parent();
if (parent && parent->isFlexibleBox() && renderer.isBox())
downcast<RenderFlexibleBox>(parent)->clearCachedMainSizeForChild(*m_layer.renderBox());
}
// Set up the range.
if (m_hBar)
m_hBar->setProportion(roundToInt(box->clientWidth()), m_scrollWidth);
if (m_vBar)
m_vBar->setProportion(roundToInt(box->clientHeight()), m_scrollHeight);
updateScrollbarSteps();
updateScrollableAreaSet(hasScrollableHorizontalOverflow() || hasScrollableVerticalOverflow());
}
void RenderLayerScrollableArea::updateScrollbarSteps()
{
RenderBox* box = m_layer.renderBox();
ASSERT(box);
LayoutRect paddedLayerBounds(0_lu, 0_lu, box->clientWidth(), box->clientHeight());
paddedLayerBounds.contract(box->scrollPaddingForViewportRect(paddedLayerBounds));
// Set up the page step/line step.
if (m_hBar) {
int pageStep = Scrollbar::pageStep(roundToInt(paddedLayerBounds.width()));
m_hBar->setSteps(Scrollbar::pixelsPerLineStep(), pageStep);
}
if (m_vBar) {
int pageStep = Scrollbar::pageStep(roundToInt(paddedLayerBounds.height()));
m_vBar->setSteps(Scrollbar::pixelsPerLineStep(), pageStep);
}
}
// This is called from layout code (before updateLayerPositions).
void RenderLayerScrollableArea::updateScrollInfoAfterLayout()
{
RenderBox* box = m_layer.renderBox();
if (!box)
return;
m_scrollDimensionsDirty = true;
ScrollPosition originalScrollPosition = scrollPosition();
computeScrollDimensions();
m_layer.updateSelfPaintingLayer();
// FIXME: Ensure that offsets are also updated in case of programmatic style changes.
// https://bugs.webkit.org/show_bug.cgi?id=135964
updateSnapOffsets();
if (!box->isHTMLMarquee() && !isRubberBandInProgress() && !isUserScrollInProgress()) {
// Layout may cause us to be at an invalid scroll position. In this case we need
// to pull our scroll offsets back to the max (or push them up to the min).
ScrollOffset clampedScrollOffset = clampScrollOffset(scrollOffset());
if (clampedScrollOffset != scrollOffset())
scrollToOffset(clampedScrollOffset);
}
updateScrollbarsAfterLayout();
LOG_WITH_STREAM(Scrolling, stream << "RenderLayerScrollableArea [" << scrollingNodeID() << "] updateScrollInfoAfterLayout - new scroll width " << m_scrollWidth << " scroll height " << m_scrollHeight
<< " rubber banding " << isRubberBandInProgress() << " user scrolling " << isUserScrollInProgress() << " scroll position updated from " << originalScrollPosition << " to " << scrollPosition());
if (originalScrollPosition != scrollPosition())
scrollToPositionWithoutAnimation(IntPoint(scrollPosition()));
if (m_layer.isComposited()) {
m_layer.setNeedsCompositingGeometryUpdate();
m_layer.setNeedsCompositingConfigurationUpdate();
}
if (canUseCompositedScrolling())
m_layer.setNeedsPostLayoutCompositingUpdate();
resnapAfterLayout();
}
bool RenderLayerScrollableArea::overflowControlsIntersectRect(const IntRect& localRect) const
{
auto rects = overflowControlsRects();
if (rects.horizontalScrollbar.intersects(localRect))
return true;
if (rects.verticalScrollbar.intersects(localRect))
return true;
if (rects.scrollCorner.intersects(localRect))
return true;
if (rects.resizer.intersects(localRect))
return true;
return false;
}
bool RenderLayerScrollableArea::showsOverflowControls() const
{
#if PLATFORM(IOS_FAMILY)
// On iOS, the scrollbars are made in the UI process.
return !canUseCompositedScrolling();
#endif
return true;
}
void RenderLayerScrollableArea::paintOverflowControls(GraphicsContext& context, const IntPoint& paintOffset, const IntRect& damageRect, bool paintingOverlayControls)
{
// Don't do anything if we have no overflow.
auto& renderer = m_layer.renderer();
if (!renderer.hasNonVisibleOverflow())
return;
if (!showsOverflowControls())
return;
// Overlay scrollbars paint in a second pass through the layer tree so that they will paint
// on top of everything else. If this is the normal painting pass, paintingOverlayControls
// will be false, and we should just tell the root layer that there are overlay scrollbars
// that need to be painted. That will cause the second pass through the layer tree to run,
// and we'll paint the scrollbars then. In the meantime, cache tx and ty so that the
// second pass doesn't need to re-enter the RenderTree to get it right.
if (hasOverlayScrollbars() && !paintingOverlayControls) {
m_cachedOverlayScrollbarOffset = paintOffset;
// It's not necessary to do the second pass if the scrollbars paint into layers.
if ((m_hBar && layerForHorizontalScrollbar()) || (m_vBar && layerForVerticalScrollbar()))
return;
IntRect localDamgeRect = damageRect;
localDamgeRect.moveBy(-paintOffset);
if (!overflowControlsIntersectRect(localDamgeRect))
return;
RenderLayer* paintingRoot = m_layer.enclosingCompositingLayer();
if (!paintingRoot)
paintingRoot = renderer.view().layer();
if (auto* scrollableArea = paintingRoot->scrollableArea())
scrollableArea->setContainsDirtyOverlayScrollbars(true);
return;
}
// This check is required to avoid painting custom CSS scrollbars twice.
if (paintingOverlayControls && !hasOverlayScrollbars())
return;
IntPoint adjustedPaintOffset = paintOffset;
if (paintingOverlayControls)
adjustedPaintOffset = m_cachedOverlayScrollbarOffset;
// Move the scrollbar widgets if necessary. We normally move and resize widgets during layout, but sometimes
// widgets can move without layout occurring (most notably when you scroll a document that
// contains fixed positioned elements).
positionOverflowControls(toIntSize(adjustedPaintOffset));
// Now that we're sure the scrollbars are in the right place, paint them.
if (m_hBar && !layerForHorizontalScrollbar())
m_hBar->paint(context, damageRect);
if (m_vBar && !layerForVerticalScrollbar())
m_vBar->paint(context, damageRect);
if (layerForScrollCorner())
return;
// We fill our scroll corner with white if we have a scrollbar that doesn't run all the way up to the
// edge of the box.
paintScrollCorner(context, adjustedPaintOffset, damageRect);
// Paint our resizer last, since it sits on top of the scroll corner.
paintResizer(context, adjustedPaintOffset, damageRect);
}
void RenderLayerScrollableArea::paintScrollCorner(GraphicsContext& context, const IntPoint& paintOffset, const IntRect& damageRect)
{
IntRect absRect = scrollCornerRect();
absRect.moveBy(paintOffset);
if (!absRect.intersects(damageRect))
return;
if (context.invalidatingControlTints()) {
updateScrollCornerStyle();
return;
}
if (m_scrollCorner) {
m_scrollCorner->paintIntoRect(context, paintOffset, absRect);
return;
}
// We don't want to paint a corner if we have overlay scrollbars, since we need
// to see what is behind it.
if (!hasOverlayScrollbars())
ScrollbarTheme::theme().paintScrollCorner(*this, context, absRect);
}
void RenderLayerScrollableArea::drawPlatformResizerImage(GraphicsContext& context, const LayoutRect& resizerCornerRect)
{
auto& renderer = m_layer.renderer();
RefPtr<Image> resizeCornerImage;
FloatSize cornerResizerSize;
if (renderer.document().deviceScaleFactor() >= 2) {
static NeverDestroyed<Image*> resizeCornerImageHiRes(&Image::loadPlatformResource("textAreaResizeCorner@2x").leakRef());
resizeCornerImage = resizeCornerImageHiRes;
cornerResizerSize = resizeCornerImage->size();
cornerResizerSize.scale(0.5f);
} else {
static NeverDestroyed<Image*> resizeCornerImageLoRes(&Image::loadPlatformResource("textAreaResizeCorner").leakRef());
resizeCornerImage = resizeCornerImageLoRes;
cornerResizerSize = resizeCornerImage->size();
}
if (shouldPlaceVerticalScrollbarOnLeft()) {
context.save();
context.translate(resizerCornerRect.x() + cornerResizerSize.width(), resizerCornerRect.y() + resizerCornerRect.height() - cornerResizerSize.height());
context.scale(FloatSize(-1.0, 1.0));
if (resizeCornerImage)
context.drawImage(*resizeCornerImage, FloatRect(FloatPoint(), cornerResizerSize));
context.restore();
return;
}
if (!resizeCornerImage)
return;
FloatRect imageRect = snapRectToDevicePixels(LayoutRect(resizerCornerRect.maxXMaxYCorner() - cornerResizerSize, cornerResizerSize), renderer.document().deviceScaleFactor());
context.drawImage(*resizeCornerImage, imageRect);
}
void RenderLayerScrollableArea::paintResizer(GraphicsContext& context, const LayoutPoint& paintOffset, const LayoutRect& damageRect)
{
auto& renderer = m_layer.renderer();
if (renderer.style().resize() == Resize::None)
return;
auto rects = overflowControlsRects();
LayoutRect resizerAbsRect = rects.resizer;
resizerAbsRect.moveBy(paintOffset);
if (!resizerAbsRect.intersects(damageRect))
return;
if (context.invalidatingControlTints()) {
updateResizerStyle();
return;
}
if (m_resizer) {
m_resizer->paintIntoRect(context, paintOffset, resizerAbsRect);
return;
}
drawPlatformResizerImage(context, resizerAbsRect);
// Draw a frame around the resizer (1px grey line) if there are any scrollbars present.
// Clipping will exclude the right and bottom edges of this frame.
if (!hasOverlayScrollbars() && (m_vBar || m_hBar)) {
GraphicsContextStateSaver stateSaver(context);
context.clip(resizerAbsRect);
LayoutRect largerCorner = resizerAbsRect;
largerCorner.setSize(LayoutSize(largerCorner.width() + 1_lu, largerCorner.height() + 1_lu));
context.setStrokeColor(SRGBA<uint8_t> { 217, 217, 217 });
context.setStrokeThickness(1.0f);
context.setFillColor(Color::transparentBlack);
context.drawRect(snappedIntRect(largerCorner));
}
}
bool RenderLayerScrollableArea::hitTestOverflowControls(HitTestResult& result, const IntPoint& localPoint)
{
if (!m_hBar && !m_vBar && !m_layer.canResize())
return false;
auto rects = overflowControlsRects();
IntRect resizeControlRect;
auto& renderer = m_layer.renderer();
if (renderer.style().resize() != Resize::None) {
if (rects.resizer.contains(localPoint))
return true;
}
// FIXME: We should hit test the m_scrollCorner and pass it back through the result.
if (m_vBar && m_vBar->shouldParticipateInHitTesting()) {
if (rects.verticalScrollbar.contains(localPoint)) {
result.setScrollbar(m_vBar.get());
return true;
}
}
if (m_hBar && m_hBar->shouldParticipateInHitTesting()) {
if (rects.horizontalScrollbar.contains(localPoint)) {
result.setScrollbar(m_hBar.get());
return true;
}
}
return false;
}
bool RenderLayerScrollableArea::scroll(ScrollDirection direction, ScrollGranularity granularity, unsigned stepCount)
{
return ScrollableArea::scroll(direction, granularity, stepCount);
}
bool RenderLayerScrollableArea::isActive() const
{
return m_layer.page().focusController().isActive();
}
IntPoint RenderLayerScrollableArea::lastKnownMousePositionInView() const
{
return m_layer.renderer().view().frameView().lastKnownMousePositionInView();
}
bool RenderLayerScrollableArea::isHandlingWheelEvent() const
{
return m_layer.renderer().frame().eventHandler().isHandlingWheelEvent();
}
bool RenderLayerScrollableArea::useDarkAppearance() const
{
return m_layer.renderer().useDarkAppearance();
}
void RenderLayerScrollableArea::updateSnapOffsets()
{
// FIXME: Extend support beyond HTMLElements.
if (!is<HTMLElement>(m_layer.enclosingElement()) || !m_layer.enclosingElement()->renderBox())
return;
RenderBox* box = m_layer.enclosingElement()->renderBox();
updateSnapOffsetsForScrollableArea(*this, *box, box->style(), box->paddingBoxRect(), box->style().writingMode(), box->style().direction());
}
bool RenderLayerScrollableArea::isScrollSnapInProgress() const
{
if (!scrollsOverflow())
return false;
if (auto* scrollingCoordinator = m_layer.page().scrollingCoordinator()) {
if (scrollingCoordinator->isScrollSnapInProgress(scrollingNodeID()))
return true;
}
if (auto* scrollAnimator = existingScrollAnimator())
return scrollAnimator->isScrollSnapInProgress();
return false;
}
void RenderLayerScrollableArea::paintOverlayScrollbars(GraphicsContext& context, const LayoutRect& damageRect, OptionSet<PaintBehavior> paintBehavior, RenderObject* subtreePaintRoot)
{
if (!m_containsDirtyOverlayScrollbars)
return;
RenderLayer::LayerPaintingInfo paintingInfo(&m_layer, enclosingIntRect(damageRect), paintBehavior, LayoutSize(), subtreePaintRoot);
m_layer.paintLayer(context, paintingInfo, RenderLayer::PaintLayerFlag::PaintingOverlayScrollbars);
m_containsDirtyOverlayScrollbars = false;
}
bool RenderLayerScrollableArea::hitTestResizerInFragments(const LayerFragments& layerFragments, const HitTestLocation& hitTestLocation, LayoutPoint& pointInFragment) const
{
if (layerFragments.isEmpty())
return false;
auto& renderer = m_layer.renderer();
if (!renderer.visibleToHitTesting())
return false;
auto borderBoxRect = snappedIntRect(downcast<RenderBox>(renderer).borderBoxRect());
auto rects = overflowControlsRects();
auto cornerRectInFragment = [&](const IntRect& fragmentBounds, const IntRect& resizerRect) {
if (shouldPlaceVerticalScrollbarOnLeft()) {
IntSize offsetFromBottomLeft = borderBoxRect.minXMaxYCorner() - resizerRect.minXMaxYCorner();
return IntRect { fragmentBounds.minXMaxYCorner() - offsetFromBottomLeft - IntSize { 0, resizerRect.height() }, resizerRect.size() };
}
IntSize offsetFromBottomRight = borderBoxRect.maxXMaxYCorner() - resizerRect.maxXMaxYCorner();
return IntRect { fragmentBounds.maxXMaxYCorner() - offsetFromBottomRight - resizerRect.size(), resizerRect.size() };
};
for (int i = layerFragments.size() - 1; i >= 0; --i) {
const LayerFragment& fragment = layerFragments.at(i);
auto resizerRectInFragment = cornerRectInFragment(snappedIntRect(fragment.layerBounds), rects.resizer);
if (fragment.backgroundRect.intersects(hitTestLocation) && resizerRectInFragment.contains(hitTestLocation.roundedPoint())) {
pointInFragment = toLayoutPoint(hitTestLocation.point() - fragment.layerBounds.location());
return true;
}
}
return false;
}
GraphicsLayer* RenderLayerScrollableArea::layerForHorizontalScrollbar() const
{
return m_layer.backing() ? m_layer.backing()->layerForHorizontalScrollbar() : nullptr;
}
GraphicsLayer* RenderLayerScrollableArea::layerForVerticalScrollbar() const
{
return m_layer.backing() ? m_layer.backing()->layerForVerticalScrollbar() : nullptr;
}
GraphicsLayer* RenderLayerScrollableArea::layerForScrollCorner() const
{
return m_layer.backing() ? m_layer.backing()->layerForScrollCorner() : nullptr;
}
bool RenderLayerScrollableArea::scrollingMayRevealBackground() const
{
return scrollsOverflow() || usesCompositedScrolling();
}
void RenderLayerScrollableArea::updateScrollableAreaSet(bool hasOverflow)
{
auto& renderer = m_layer.renderer();
FrameView& frameView = renderer.view().frameView();
bool isVisibleToHitTest = renderer.visibleToHitTesting();
if (HTMLFrameOwnerElement* owner = frameView.frame().ownerElement())
isVisibleToHitTest &= owner->renderer() && owner->renderer()->visibleToHitTesting();
bool isScrollable = hasOverflow && isVisibleToHitTest;
bool addedOrRemoved = false;
ASSERT(m_registeredScrollableArea == frameView.containsScrollableArea(this));
if (isScrollable) {
if (!m_registeredScrollableArea) {
addedOrRemoved = frameView.addScrollableArea(this);
m_registeredScrollableArea = true;
}
} else if (m_registeredScrollableArea) {
addedOrRemoved = frameView.removeScrollableArea(this);
m_registeredScrollableArea = false;
}
#if ENABLE(IOS_TOUCH_EVENTS)
if (addedOrRemoved) {
if (isScrollable && !canUseCompositedScrolling())
registerAsTouchEventListenerForScrolling();
else {
// We only need the touch listener for unaccelerated overflow scrolling, so if we became
// accelerated, remove ourselves as a touch event listener.
unregisterAsTouchEventListenerForScrolling();
}
}
#else
UNUSED_VARIABLE(addedOrRemoved);
#endif
}
void RenderLayerScrollableArea::updateScrollCornerStyle()
{
auto& renderer = m_layer.renderer();
RenderElement* actualRenderer = rendererForScrollbar(renderer);
auto corner = renderer.hasNonVisibleOverflow() ? actualRenderer->getUncachedPseudoStyle({ PseudoId::ScrollbarCorner }, &actualRenderer->style()) : nullptr;
if (!corner) {
clearScrollCorner();
return;
}
if (!m_scrollCorner) {
m_scrollCorner = createRenderer<RenderScrollbarPart>(renderer.document(), WTFMove(*corner));
// FIXME: A renderer should be a child of its parent!
m_scrollCorner->setParent(&renderer);
m_scrollCorner->initializeStyle();
} else
m_scrollCorner->setStyle(WTFMove(*corner));
}
void RenderLayerScrollableArea::clearScrollCorner()
{
if (!m_scrollCorner)
return;
m_scrollCorner->setParent(nullptr);
m_scrollCorner = nullptr;
}
void RenderLayerScrollableArea::updateResizerStyle()
{
auto& renderer = m_layer.renderer();
RenderElement* actualRenderer = rendererForScrollbar(renderer);
auto resizer = renderer.hasNonVisibleOverflow() ? actualRenderer->getUncachedPseudoStyle({ PseudoId::Resizer }, &actualRenderer->style()) : nullptr;
if (!resizer) {
clearResizer();
return;
}
if (!m_resizer) {
m_resizer = createRenderer<RenderScrollbarPart>(renderer.document(), WTFMove(*resizer));
// FIXME: A renderer should be a child of its parent!
m_resizer->setParent(&renderer);
m_resizer->initializeStyle();
} else
m_resizer->setStyle(WTFMove(*resizer));
}
void RenderLayerScrollableArea::clearResizer()
{
if (!m_resizer)
return;
m_resizer->setParent(nullptr);
m_resizer = nullptr;
}
void RenderLayerScrollableArea::updateAllScrollbarRelatedStyle()
{
if (m_hBar)
m_hBar->styleChanged();
if (m_vBar)
m_vBar->styleChanged();
updateScrollCornerStyle();
updateResizerStyle();
}
// FIXME: this is only valid after we've made layers.
bool RenderLayerScrollableArea::usesCompositedScrolling() const
{
return m_layer.isComposited() && m_layer.backing()->hasScrollingLayer();
}
static inline int adjustedScrollDelta(int beginningDelta)
{
// This implemention matches Firefox's.
// http://mxr.mozilla.org/firefox/source/toolkit/content/widgets/browser.xml#856.
const int speedReducer = 12;
int adjustedDelta = beginningDelta / speedReducer;
if (adjustedDelta > 1)
adjustedDelta = static_cast<int>(adjustedDelta * sqrt(static_cast<double>(adjustedDelta))) - 1;
else if (adjustedDelta < -1)
adjustedDelta = static_cast<int>(adjustedDelta * sqrt(static_cast<double>(-adjustedDelta))) + 1;
return adjustedDelta;
}
static inline IntSize adjustedScrollDelta(const IntSize& delta)
{
return IntSize(adjustedScrollDelta(delta.width()), adjustedScrollDelta(delta.height()));
}
void RenderLayerScrollableArea::panScrollFromPoint(const IntPoint& sourcePoint)
{
IntPoint lastKnownMousePosition = m_layer.renderer().frame().eventHandler().lastKnownMousePosition();
// We need to check if the last known mouse position is out of the window. When the mouse is out of the window, the position is incoherent
static IntPoint previousMousePosition;
if (lastKnownMousePosition.x() < 0 || lastKnownMousePosition.y() < 0)
lastKnownMousePosition = previousMousePosition;
else
previousMousePosition = lastKnownMousePosition;
IntSize delta = lastKnownMousePosition - sourcePoint;
if (abs(delta.width()) <= ScrollView::noPanScrollRadius) // at the center we let the space for the icon
delta.setWidth(0);
if (abs(delta.height()) <= ScrollView::noPanScrollRadius)
delta.setHeight(0);
scrollByRecursively(adjustedScrollDelta(delta));
}
std::optional<LayoutRect> RenderLayerScrollableArea::updateScrollPosition(const ScrollPositionChangeOptions& options, const LayoutRect& revealRect, const LayoutRect& localExposeRect)
{
ASSERT(m_layer.allowsCurrentScroll());
RenderBox* box = m_layer.renderBox();
ASSERT(box);
ScrollOffset clampedScrollOffset = clampScrollOffset(scrollOffset() + toIntSize(roundedIntRect(revealRect).location()));
if (clampedScrollOffset != scrollOffset() || scrollAnimationStatus() != ScrollAnimationStatus::NotAnimating) {
ScrollOffset oldScrollOffset = scrollOffset();
ScrollOffset realScrollOffset = scrollToOffset(clampedScrollOffset, options);
IntSize scrollOffsetDifference = realScrollOffset - oldScrollOffset;
auto localExposeRectScrolled = localExposeRect;
localExposeRectScrolled.move(-scrollOffsetDifference);
return LayoutRect(box->localToAbsoluteQuad(FloatQuad(FloatRect(localExposeRectScrolled)), UseTransforms).boundingBox());
}
return std::nullopt;
}
void RenderLayerScrollableArea::scrollByRecursively(const IntSize& delta, ScrollableArea** scrolledArea)
{
if (delta.isZero())
return;
auto& renderer = m_layer.renderer();
bool restrictedByLineClamp = false;
if (renderer.parent())
restrictedByLineClamp = !renderer.parent()->style().lineClamp().isNone();
if (renderer.hasNonVisibleOverflow() && !restrictedByLineClamp) {
ScrollOffset newScrollOffset = scrollOffset() + delta;
scrollToOffset(newScrollOffset);
if (scrolledArea)
*scrolledArea = this;
// If this layer can't do the scroll we ask the next layer up that can scroll to try
IntSize remainingScrollOffset = newScrollOffset - scrollOffset();
if (!remainingScrollOffset.isZero() && renderer.parent()) {
// FIXME: This skips scrollable frames.
if (auto* enclosingScrollableLayer = m_layer.enclosingScrollableLayer(IncludeSelfOrNot::ExcludeSelf, CrossFrameBoundaries::Yes)) {
if (auto* scrollableArea = enclosingScrollableLayer->scrollableArea())
scrollableArea->scrollByRecursively(remainingScrollOffset, scrolledArea);
}
renderer.frame().eventHandler().updateAutoscrollRenderer();
}
} else {
// If we are here, we were called on a renderer that can be programmatically scrolled, but doesn't
// have an overflow clip. Which means that it is a document node that can be scrolled.
renderer.view().frameView().scrollBy(delta);
if (scrolledArea)
*scrolledArea = &renderer.view().frameView();
// FIXME: If we didn't scroll the whole way, do we want to try looking at the frames ownerElement?
// https://bugs.webkit.org/show_bug.cgi?id=28237
}
}
void RenderLayerScrollableArea::updateLayerPositionsAfterDocumentScroll()
{
ASSERT(&m_layer == m_layer.renderer().view().layer());
LOG(Scrolling, "RenderLayerScrollableArea::updateLayerPositionsAfterDocumentScroll");
RenderGeometryMap geometryMap(UseTransforms);
m_layer.updateLayerPositionsAfterScroll(&geometryMap);
}
void RenderLayerScrollableArea::updateLayerPositionsAfterOverflowScroll()
{
RenderGeometryMap geometryMap(UseTransforms);
if (&m_layer != m_layer.renderer().view().layer())
geometryMap.pushMappingsToAncestor(m_layer.parent(), nullptr);
// FIXME: why is it OK to not check the ancestors of this layer in order to
// initialize the HasSeenViewportConstrainedAncestor and HasSeenAncestorWithOverflowClip flags?
m_layer.updateLayerPositionsAfterScroll(&geometryMap, RenderLayer::IsOverflowScroll);
}
bool RenderLayerScrollableArea::mockScrollAnimatorEnabled() const
{
return m_layer.renderer().settings().mockScrollAnimatorEnabled();
}
void RenderLayerScrollableArea::logMockScrollAnimatorMessage(const String& message) const
{
m_layer.renderer().document().addConsoleMessage(MessageSource::Other, MessageLevel::Debug, "RenderLayer: " + message);
}
String RenderLayerScrollableArea::debugDescription() const
{
return m_layer.debugDescription();
}
void RenderLayerScrollableArea::didStartScrollAnimation()
{
m_layer.page().scheduleRenderingUpdate({ RenderingUpdateStep::Scroll });
}
} // namespace WebCore