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fuchsia / third_party / webkit / 18e3a68579ae324f7454d22a123e5da09c5156c6 / . / Source / WebKit2 / UIProcess / ios / RemoteScrollingCoordinatorProxyIOS.mm
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/*
* 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.
*/
#import "config.h"
#import "RemoteScrollingCoordinatorProxy.h"
#if PLATFORM(IOS)
#if ENABLE(ASYNC_SCROLLING)
#import "LayerRepresentation.h"
#import "RemoteLayerTreeHost.h"
#import "WebPageProxy.h"
#import <UIKit/UIView.h>
#import <WebCore/ScrollingStateFrameScrollingNode.h>
#import <WebCore/ScrollingStateOverflowScrollingNode.h>
#import <WebCore/ScrollingStateTree.h>
#if ENABLE(CSS_SCROLL_SNAP)
#import <WebCore/AxisScrollSnapOffsets.h>
#import <WebCore/ScrollTypes.h>
#import <WebCore/ScrollingTreeFrameScrollingNode.h>
#endif
using namespace WebCore;
namespace WebKit {
static LayerRepresentation layerRepresentationFromLayerOrView(LayerOrView *layerOrView)
{
return LayerRepresentation(layerOrView.layer);
}
void RemoteScrollingCoordinatorProxy::connectStateNodeLayers(ScrollingStateTree& stateTree, const RemoteLayerTreeHost& layerTreeHost)
{
for (auto& currNode : stateTree.nodeMap().values()) {
switch (currNode->nodeType()) {
case OverflowScrollingNode: {
ScrollingStateOverflowScrollingNode& scrollingStateNode = downcast<ScrollingStateOverflowScrollingNode>(*currNode);
if (scrollingStateNode.hasChangedProperty(ScrollingStateNode::ScrollLayer))
scrollingStateNode.setLayer(layerRepresentationFromLayerOrView(layerTreeHost.getLayer(scrollingStateNode.layer())));
if (scrollingStateNode.hasChangedProperty(ScrollingStateOverflowScrollingNode::ScrolledContentsLayer))
scrollingStateNode.setScrolledContentsLayer(layerRepresentationFromLayerOrView(layerTreeHost.getLayer(scrollingStateNode.scrolledContentsLayer())));
break;
};
case FrameScrollingNode: {
ScrollingStateFrameScrollingNode& scrollingStateNode = downcast<ScrollingStateFrameScrollingNode>(*currNode);
if (scrollingStateNode.hasChangedProperty(ScrollingStateNode::ScrollLayer))
scrollingStateNode.setLayer(layerRepresentationFromLayerOrView(layerTreeHost.getLayer(scrollingStateNode.layer())));
if (scrollingStateNode.hasChangedProperty(ScrollingStateFrameScrollingNode::CounterScrollingLayer))
scrollingStateNode.setCounterScrollingLayer(layerRepresentationFromLayerOrView(layerTreeHost.getLayer(scrollingStateNode.counterScrollingLayer())));
// FIXME: we should never have header and footer layers coming from the WebProcess.
if (scrollingStateNode.hasChangedProperty(ScrollingStateFrameScrollingNode::HeaderLayer))
scrollingStateNode.setHeaderLayer(layerRepresentationFromLayerOrView(layerTreeHost.getLayer(scrollingStateNode.headerLayer())));
if (scrollingStateNode.hasChangedProperty(ScrollingStateFrameScrollingNode::FooterLayer))
scrollingStateNode.setFooterLayer(layerRepresentationFromLayerOrView(layerTreeHost.getLayer(scrollingStateNode.footerLayer())));
break;
}
case FixedNode:
case StickyNode:
if (currNode->hasChangedProperty(ScrollingStateNode::ScrollLayer))
currNode->setLayer(layerRepresentationFromLayerOrView(layerTreeHost.getLayer(currNode->layer())));
break;
}
}
}
FloatRect RemoteScrollingCoordinatorProxy::customFixedPositionRect() const
{
return m_webPageProxy.computeCustomFixedPositionRect(m_webPageProxy.unobscuredContentRect(), m_webPageProxy.displayedContentScale());
}
void RemoteScrollingCoordinatorProxy::scrollingTreeNodeWillStartPanGesture()
{
m_webPageProxy.overflowScrollViewWillStartPanGesture();
}
void RemoteScrollingCoordinatorProxy::scrollingTreeNodeWillStartScroll()
{
m_webPageProxy.overflowScrollWillStartScroll();
}
void RemoteScrollingCoordinatorProxy::scrollingTreeNodeDidEndScroll()
{
m_webPageProxy.overflowScrollDidEndScroll();
}
#if ENABLE(CSS_SCROLL_SNAP)
void RemoteScrollingCoordinatorProxy::adjustTargetContentOffsetForSnapping(CGSize maxScrollOffsets, CGPoint velocity, CGFloat topInset, CGPoint* targetContentOffset)
{
// The bounds checking with maxScrollOffsets is to ensure that we won't interfere with rubber-banding when scrolling to the edge of the page.
if (shouldSnapForMainFrameScrolling(WebCore::ScrollEventAxis::Horizontal)) {
float potentialSnapPosition = closestSnapOffsetForMainFrameScrolling(WebCore::ScrollEventAxis::Horizontal, targetContentOffset->x, velocity.x, m_currentHorizontalSnapPointIndex);
if (targetContentOffset->x > 0 && targetContentOffset->x < maxScrollOffsets.width)
targetContentOffset->x = std::min<float>(maxScrollOffsets.width, potentialSnapPosition);
}
if (shouldSnapForMainFrameScrolling(WebCore::ScrollEventAxis::Vertical)) {
float potentialSnapPosition = closestSnapOffsetForMainFrameScrolling(WebCore::ScrollEventAxis::Vertical, targetContentOffset->y, velocity.y, m_currentVerticalSnapPointIndex);
potentialSnapPosition -= topInset;
if (targetContentOffset->y > 0 && targetContentOffset->y < maxScrollOffsets.height)
targetContentOffset->y = std::min<float>(maxScrollOffsets.height, potentialSnapPosition);
}
}
bool RemoteScrollingCoordinatorProxy::shouldSetScrollViewDecelerationRateFast() const
{
return shouldSnapForMainFrameScrolling(ScrollEventAxis::Horizontal) || shouldSnapForMainFrameScrolling(ScrollEventAxis::Vertical);
}
bool RemoteScrollingCoordinatorProxy::shouldSnapForMainFrameScrolling(ScrollEventAxis axis) const
{
ScrollingTreeNode* root = m_scrollingTree->rootNode();
if (root && root->isFrameScrollingNode()) {
ScrollingTreeFrameScrollingNode* rootFrame = static_cast<ScrollingTreeFrameScrollingNode*>(root);
const Vector<float>& snapOffsets = axis == ScrollEventAxis::Horizontal ? rootFrame->horizontalSnapOffsets() : rootFrame->verticalSnapOffsets();
unsigned currentIndex = axis == ScrollEventAxis::Horizontal ? m_currentHorizontalSnapPointIndex : m_currentVerticalSnapPointIndex;
return (snapOffsets.size() > 0) && (currentIndex < snapOffsets.size());
}
return false;
}
float RemoteScrollingCoordinatorProxy::closestSnapOffsetForMainFrameScrolling(ScrollEventAxis axis, float scrollDestination, float velocity, unsigned& currentIndex) const
{
ScrollingTreeNode* root = m_scrollingTree->rootNode();
ASSERT(root && root->isFrameScrollingNode());
ScrollingTreeFrameScrollingNode* rootFrame = static_cast<ScrollingTreeFrameScrollingNode*>(root);
const Vector<float>& snapOffsets = axis == ScrollEventAxis::Horizontal ? rootFrame->horizontalSnapOffsets() : rootFrame->verticalSnapOffsets();
float scaledScrollDestination = scrollDestination / m_webPageProxy.displayedContentScale();
float rawClosestSnapOffset = closestSnapOffset<float, float>(snapOffsets, scaledScrollDestination, velocity, currentIndex);
return rawClosestSnapOffset * m_webPageProxy.displayedContentScale();
}
bool RemoteScrollingCoordinatorProxy::hasActiveSnapPoint() const
{
ScrollingTreeNode* root = m_scrollingTree->rootNode();
if (!root)
return false;
if (!is<ScrollingTreeFrameScrollingNode>(root))
return false;
ScrollingTreeFrameScrollingNode& rootFrame = downcast<ScrollingTreeFrameScrollingNode>(*root);
const Vector<float>& horizontal = rootFrame.horizontalSnapOffsets();
const Vector<float>& vertical = rootFrame.verticalSnapOffsets();
if (horizontal.isEmpty() && vertical.isEmpty())
return false;
if ((!horizontal.isEmpty() && m_currentHorizontalSnapPointIndex >= horizontal.size())
|| (!vertical.isEmpty() && m_currentVerticalSnapPointIndex >= vertical.size())) {
return false;
}
return true;
}
CGPoint RemoteScrollingCoordinatorProxy::nearestActiveContentInsetAdjustedSnapPoint(CGFloat topInset, const CGPoint& currentPoint) const
{
CGPoint activePoint = currentPoint;
ScrollingTreeNode* root = m_scrollingTree->rootNode();
ASSERT(root && is<ScrollingTreeFrameScrollingNode>(root));
ScrollingTreeFrameScrollingNode& rootFrame = downcast<ScrollingTreeFrameScrollingNode>(*root);
const Vector<float>& horizontal = rootFrame.horizontalSnapOffsets();
const Vector<float>& vertical = rootFrame.verticalSnapOffsets();
// The bounds checking with maxScrollOffsets is to ensure that we won't interfere with rubber-banding when scrolling to the edge of the page.
if (!horizontal.isEmpty() && m_currentHorizontalSnapPointIndex < horizontal.size())
activePoint.x = horizontal[m_currentHorizontalSnapPointIndex] * m_webPageProxy.displayedContentScale();
if (!vertical.isEmpty() && m_currentVerticalSnapPointIndex < vertical.size()) {
float potentialSnapPosition = vertical[m_currentVerticalSnapPointIndex] * m_webPageProxy.displayedContentScale();
potentialSnapPosition -= topInset;
activePoint.y = potentialSnapPosition;
}
return activePoint;
}
#endif
} // namespace WebKit
#endif // ENABLE(ASYNC_SCROLLING)
#endif // PLATFORM(IOS)