// // ASTableView.mm // AsyncDisplayKit // // Copyright (c) 2014-present, Facebook, Inc. All rights reserved. // This source code is licensed under the BSD-style license found in the // LICENSE file in the root directory of this source tree. An additional grant // of patent rights can be found in the PATENTS file in the same directory. // #import "ASTableViewInternal.h" #import "ASAssert.h" #import "ASAvailability.h" #import "ASBatchFetching.h" #import "ASCellNode+Internal.h" #import "ASChangeSetDataController.h" #import "ASDelegateProxy.h" #import "ASDisplayNodeExtras.h" #import "ASDisplayNode+FrameworkPrivate.h" #import "ASInternalHelpers.h" #import "ASLayout.h" #import "_ASDisplayLayer.h" #import "ASTableNode.h" #import "ASEqualityHelpers.h" static const ASSizeRange kInvalidSizeRange = {CGSizeZero, CGSizeZero}; static NSString * const kCellReuseIdentifier = @"_ASTableViewCell"; //#define LOG(...) NSLog(__VA_ARGS__) #define LOG(...) #pragma mark - #pragma mark ASCellNode<->UITableViewCell bridging. @class _ASTableViewCell; @protocol _ASTableViewCellDelegate - (void)didLayoutSubviewsOfTableViewCell:(_ASTableViewCell *)tableViewCell; @end @interface _ASTableViewCell : UITableViewCell @property (nonatomic, weak) id<_ASTableViewCellDelegate> delegate; @property (nonatomic, weak) ASCellNode *node; @end @implementation _ASTableViewCell // TODO add assertions to prevent use of view-backed UITableViewCell properties (eg .textLabel) - (void)layoutSubviews { [super layoutSubviews]; [_delegate didLayoutSubviewsOfTableViewCell:self]; } - (void)didTransitionToState:(UITableViewCellStateMask)state { [self setNeedsLayout]; [self layoutIfNeeded]; [super didTransitionToState:state]; } - (void)setNode:(ASCellNode *)node { _node = node; [node __setSelectedFromUIKit:self.selected]; [node __setHighlightedFromUIKit:self.highlighted]; } - (void)setSelected:(BOOL)selected animated:(BOOL)animated { [super setSelected:selected animated:animated]; [_node __setSelectedFromUIKit:selected]; } - (void)setHighlighted:(BOOL)highlighted animated:(BOOL)animated { [super setHighlighted:highlighted animated:animated]; [_node __setHighlightedFromUIKit:highlighted]; } - (void)prepareForReuse { // Need to clear node pointer before UIKit calls setSelected:NO / setHighlighted:NO on its cells self.node = nil; [super prepareForReuse]; } @end #pragma mark - #pragma mark ASTableView @interface ASTableNode () - (instancetype)_initWithTableView:(ASTableView *)tableView; @end @interface ASTableView () { ASTableViewProxy *_proxyDataSource; ASTableViewProxy *_proxyDelegate; ASFlowLayoutController *_layoutController; ASRangeController *_rangeController; ASBatchContext *_batchContext; NSIndexPath *_pendingVisibleIndexPath; NSIndexPath *_contentOffsetAdjustmentTopVisibleRow; CGFloat _contentOffsetAdjustment; CGPoint _deceleratingVelocity; /** * Our layer, retained. Under iOS < 9, when table views are removed from the hierarchy, * their layers may be deallocated and become dangling pointers. This puts the table view * into a very dangerous state where pretty much any call will crash it. So we manually retain our layer. * * You should never access this, and it will be nil under iOS >= 9. */ CALayer *_retainedLayer; CGFloat _nodesConstrainedWidth; BOOL _ignoreNodesConstrainedWidthChange; BOOL _queuedNodeHeightUpdate; BOOL _isDeallocating; BOOL _performingBatchUpdates; NSMutableSet *_cellsForVisibilityUpdates; struct { unsigned int asyncDelegateScrollViewDidScroll:1; unsigned int asyncDelegateScrollViewWillBeginDragging:1; unsigned int asyncDelegateScrollViewDidEndDragging:1; unsigned int asyncDelegateTableViewWillDisplayNodeForRowAtIndexPath:1; unsigned int asyncDelegateTableViewDidEndDisplayingNodeForRowAtIndexPath:1; unsigned int asyncDelegateTableViewDidEndDisplayingNodeForRowAtIndexPathDeprecated:1; unsigned int asyncDelegateScrollViewWillEndDraggingWithVelocityTargetContentOffset:1; unsigned int asyncDelegateTableViewWillBeginBatchFetchWithContext:1; unsigned int asyncDelegateShouldBatchFetchForTableView:1; unsigned int asyncDelegateTableViewConstrainedSizeForRowAtIndexPath:1; } _asyncDelegateFlags; struct { unsigned int asyncDataSourceNumberOfSectionsInTableView:1; unsigned int asyncDataSourceTableViewNodeBlockForRowAtIndexPath:1; unsigned int asyncDataSourceTableViewNodeForRowAtIndexPath:1; } _asyncDataSourceFlags; } @property (nonatomic, strong, readwrite) ASDataController *dataController; // Used only when ASTableView is created directly rather than through ASTableNode. // We create a node so that logic related to appearance, memory management, etc can be located there // for both the node-based and view-based version of the table. // This also permits sharing logic with ASCollectionNode, as the superclass is not UIKit-controlled. @property (nonatomic, strong) ASTableNode *strongTableNode; // Always set, whether ASCollectionView is created directly or via ASCollectionNode. @property (nonatomic, weak) ASTableNode *tableNode; @property (nonatomic) BOOL test_enableSuperUpdateCallLogging; @end @implementation ASTableView // Using _ASDisplayLayer ensures things like -layout are properly forwarded to ASTableNode. + (Class)layerClass { return [_ASDisplayLayer class]; } + (Class)dataControllerClass { return [ASChangeSetDataController class]; } #pragma mark - #pragma mark Lifecycle - (void)configureWithDataControllerClass:(Class)dataControllerClass { _layoutController = [[ASFlowLayoutController alloc] initWithScrollOption:ASFlowLayoutDirectionVertical]; _rangeController = [[ASRangeController alloc] init]; _rangeController.layoutController = _layoutController; _rangeController.dataSource = self; _rangeController.delegate = self; _dataController = [[dataControllerClass alloc] initWithDataSource:self]; _dataController.delegate = _rangeController; _dataController.environmentDelegate = self; _layoutController.dataSource = _dataController; _leadingScreensForBatching = 2.0; _batchContext = [[ASBatchContext alloc] init]; _automaticallyAdjustsContentOffset = NO; _nodesConstrainedWidth = self.bounds.size.width; // If the initial size is 0, expect a size change very soon which is part of the initial configuration // and should not trigger a relayout. _ignoreNodesConstrainedWidthChange = (_nodesConstrainedWidth == 0); _proxyDelegate = [[ASTableViewProxy alloc] initWithTarget:nil interceptor:self]; super.delegate = (id)_proxyDelegate; _proxyDataSource = [[ASTableViewProxy alloc] initWithTarget:nil interceptor:self]; super.dataSource = (id)_proxyDataSource; [self registerClass:_ASTableViewCell.class forCellReuseIdentifier:kCellReuseIdentifier]; } - (instancetype)initWithFrame:(CGRect)frame style:(UITableViewStyle)style { return [self _initWithFrame:frame style:style dataControllerClass:nil ownedByNode:NO]; } // FIXME: This method is deprecated and will probably be removed in or shortly after 2.0. - (instancetype)initWithFrame:(CGRect)frame style:(UITableViewStyle)style asyncDataFetching:(BOOL)asyncDataFetchingEnabled { return [self _initWithFrame:frame style:style dataControllerClass:nil ownedByNode:NO]; } - (instancetype)_initWithFrame:(CGRect)frame style:(UITableViewStyle)style dataControllerClass:(Class)dataControllerClass ownedByNode:(BOOL)ownedByNode { if (!(self = [super initWithFrame:frame style:style])) { return nil; } _cellsForVisibilityUpdates = [NSMutableSet set]; if (!dataControllerClass) { dataControllerClass = [[self class] dataControllerClass]; } [self configureWithDataControllerClass:dataControllerClass]; if (!ownedByNode) { // See commentary at the definition of .strongTableNode for why we create an ASTableNode. // FIXME: The _view pointer of the node retains us, but the node will die immediately if we don't // retain it. At the moment there isn't a great solution to this, so we can't yet move our core // logic to ASTableNode (required to have a shared superclass with ASCollection*). ASTableNode *tableNode = nil; //[[ASTableNode alloc] _initWithTableView:self]; self.strongTableNode = tableNode; } if (!AS_AT_LEAST_IOS9) { _retainedLayer = self.layer; } return self; } - (instancetype)initWithCoder:(NSCoder *)aDecoder { NSLog(@"Warning: AsyncDisplayKit is not designed to be used with Interface Builder. Table properties set in IB will be lost."); return [self initWithFrame:CGRectZero style:UITableViewStylePlain]; } - (void)dealloc { // Sometimes the UIKit classes can call back to their delegate even during deallocation. _isDeallocating = YES; [self setAsyncDelegate:nil]; [self setAsyncDataSource:nil]; } #pragma mark - #pragma mark Overrides - (void)setDataSource:(id)dataSource { // UIKit can internally generate a call to this method upon changing the asyncDataSource; only assert for non-nil. ASDisplayNodeAssert(dataSource == nil, @"ASTableView uses asyncDataSource, not UITableView's dataSource property."); } - (void)setDelegate:(id)delegate { // Our UIScrollView superclass sets its delegate to nil on dealloc. Only assert if we get a non-nil value here. ASDisplayNodeAssert(delegate == nil, @"ASTableView uses asyncDelegate, not UITableView's delegate property."); } - (void)setAsyncDataSource:(id)asyncDataSource { // Note: It's common to check if the value hasn't changed and short-circuit but we aren't doing that here to handle // the (common) case of nilling the asyncDataSource in the ViewController's dealloc. In this case our _asyncDataSource // will return as nil (ARC magic) even though the _proxyDataSource still exists. It's really important to hold a strong // reference to the old dataSource in this case because calls to ASTableViewProxy will start failing and cause crashes. NS_VALID_UNTIL_END_OF_SCOPE id oldDataSource = self.dataSource; if (asyncDataSource == nil) { _asyncDataSource = nil; _proxyDataSource = _isDeallocating ? nil : [[ASTableViewProxy alloc] initWithTarget:nil interceptor:self]; memset(&_asyncDataSourceFlags, 0, sizeof(_asyncDataSourceFlags)); } else { _asyncDataSource = asyncDataSource; _proxyDataSource = [[ASTableViewProxy alloc] initWithTarget:_asyncDataSource interceptor:self]; _asyncDataSourceFlags.asyncDataSourceNumberOfSectionsInTableView = [_asyncDataSource respondsToSelector:@selector(numberOfSectionsInTableView:)]; _asyncDataSourceFlags.asyncDataSourceTableViewNodeForRowAtIndexPath = [_asyncDataSource respondsToSelector:@selector(tableView:nodeForRowAtIndexPath:)]; _asyncDataSourceFlags.asyncDataSourceTableViewNodeBlockForRowAtIndexPath = [_asyncDataSource respondsToSelector:@selector(tableView:nodeBlockForRowAtIndexPath:)]; // Data source must implement tableView:nodeBlockForRowAtIndexPath: or tableView:nodeForRowAtIndexPath: ASDisplayNodeAssertTrue(_asyncDataSourceFlags.asyncDataSourceTableViewNodeBlockForRowAtIndexPath || _asyncDataSourceFlags.asyncDataSourceTableViewNodeForRowAtIndexPath); } super.dataSource = (id)_proxyDataSource; } - (void)setAsyncDelegate:(id)asyncDelegate { // Note: It's common to check if the value hasn't changed and short-circuit but we aren't doing that here to handle // the (common) case of nilling the asyncDelegate in the ViewController's dealloc. In this case our _asyncDelegate // will return as nil (ARC magic) even though the _proxyDataSource still exists. It's really important to hold a strong // reference to the old delegate in this case because calls to ASTableViewProxy will start failing and cause crashes. NS_VALID_UNTIL_END_OF_SCOPE id oldDelegate = super.delegate; if (asyncDelegate == nil) { _asyncDelegate = nil; _proxyDelegate = _isDeallocating ? nil : [[ASTableViewProxy alloc] initWithTarget:nil interceptor:self]; memset(&_asyncDelegateFlags, 0, sizeof(_asyncDelegateFlags)); } else { _asyncDelegate = asyncDelegate; _proxyDelegate = [[ASTableViewProxy alloc] initWithTarget:_asyncDelegate interceptor:self]; _asyncDelegateFlags.asyncDelegateScrollViewDidScroll = [_asyncDelegate respondsToSelector:@selector(scrollViewDidScroll:)]; _asyncDelegateFlags.asyncDelegateTableViewWillDisplayNodeForRowAtIndexPath = [_asyncDelegate respondsToSelector:@selector(tableView:willDisplayNodeForRowAtIndexPath:)]; _asyncDelegateFlags.asyncDelegateTableViewDidEndDisplayingNodeForRowAtIndexPath = [_asyncDelegate respondsToSelector:@selector(tableView:didEndDisplayingNode:forRowAtIndexPath:)]; _asyncDelegateFlags.asyncDelegateTableViewDidEndDisplayingNodeForRowAtIndexPathDeprecated = [_asyncDelegate respondsToSelector:@selector(tableView:didEndDisplayingNodeForRowAtIndexPath:)]; _asyncDelegateFlags.asyncDelegateScrollViewWillEndDraggingWithVelocityTargetContentOffset = [_asyncDelegate respondsToSelector:@selector(scrollViewWillEndDragging:withVelocity:targetContentOffset:)]; _asyncDelegateFlags.asyncDelegateTableViewWillBeginBatchFetchWithContext = [_asyncDelegate respondsToSelector:@selector(tableView:willBeginBatchFetchWithContext:)]; _asyncDelegateFlags.asyncDelegateShouldBatchFetchForTableView = [_asyncDelegate respondsToSelector:@selector(shouldBatchFetchForTableView:)]; _asyncDelegateFlags.asyncDelegateScrollViewWillBeginDragging = [_asyncDelegate respondsToSelector:@selector(scrollViewWillBeginDragging:)]; _asyncDelegateFlags.asyncDelegateScrollViewDidEndDragging = [_asyncDelegate respondsToSelector:@selector(scrollViewDidEndDragging:willDecelerate:)]; _asyncDelegateFlags.asyncDelegateTableViewConstrainedSizeForRowAtIndexPath = [_asyncDelegate respondsToSelector:@selector(tableView:constrainedSizeForRowAtIndexPath:)]; } super.delegate = (id)_proxyDelegate; } - (void)proxyTargetHasDeallocated:(ASDelegateProxy *)proxy { if (proxy == _proxyDelegate) { [self setAsyncDelegate:nil]; } else if (proxy == _proxyDataSource) { [self setAsyncDataSource:nil]; } } - (void)reloadDataWithCompletion:(void (^)())completion { ASPerformBlockOnMainThread(^{ [super reloadData]; }); [_dataController reloadDataWithAnimationOptions:UITableViewRowAnimationNone completion:completion]; } - (void)reloadData { [self reloadDataWithCompletion:nil]; } - (void)reloadDataImmediately { ASDisplayNodeAssertMainThread(); [_dataController reloadDataImmediatelyWithAnimationOptions:UITableViewRowAnimationNone]; [super reloadData]; } - (void)relayoutItems { [_dataController relayoutAllNodes]; } - (void)setTuningParameters:(ASRangeTuningParameters)tuningParameters forRangeType:(ASLayoutRangeType)rangeType { [_rangeController setTuningParameters:tuningParameters forRangeMode:ASLayoutRangeModeFull rangeType:rangeType]; } - (ASRangeTuningParameters)tuningParametersForRangeType:(ASLayoutRangeType)rangeType { return [_rangeController tuningParametersForRangeMode:ASLayoutRangeModeFull rangeType:rangeType]; } - (void)setTuningParameters:(ASRangeTuningParameters)tuningParameters forRangeMode:(ASLayoutRangeMode)rangeMode rangeType:(ASLayoutRangeType)rangeType { [_rangeController setTuningParameters:tuningParameters forRangeMode:rangeMode rangeType:rangeType]; } - (ASRangeTuningParameters)tuningParametersForRangeMode:(ASLayoutRangeMode)rangeMode rangeType:(ASLayoutRangeType)rangeType { return [_rangeController tuningParametersForRangeMode:rangeMode rangeType:rangeType]; } - (NSArray *> *)completedNodes { return [_dataController completedNodes]; } - (ASCellNode *)nodeForRowAtIndexPath:(NSIndexPath *)indexPath { return [_dataController nodeAtIndexPath:indexPath]; } - (NSIndexPath *)indexPathForNode:(ASCellNode *)cellNode { return [_dataController indexPathForNode:cellNode]; } - (NSArray *)visibleNodes { NSArray *indexPaths = [self visibleNodeIndexPathsForRangeController:_rangeController]; NSMutableArray *visibleNodes = [NSMutableArray array]; for (NSIndexPath *indexPath in indexPaths) { ASCellNode *node = [self nodeForRowAtIndexPath:indexPath]; if (node) { // It is possible for UITableView to return indexPaths before the node is completed. [visibleNodes addObject:node]; } } return visibleNodes; } - (void)beginUpdates { ASDisplayNodeAssertMainThread(); [_dataController beginUpdates]; } - (void)endUpdates { [self endUpdatesAnimated:YES completion:nil]; } - (void)endUpdatesAnimated:(BOOL)animated completion:(void (^)(BOOL completed))completion; { ASDisplayNodeAssertMainThread(); [_dataController endUpdatesAnimated:animated completion:completion]; } - (void)waitUntilAllUpdatesAreCommitted { ASDisplayNodeAssertMainThread(); [_dataController waitUntilAllUpdatesAreCommitted]; } - (void)scrollToRowAtIndexPath:(NSIndexPath *)indexPath atScrollPosition:(UITableViewScrollPosition)scrollPosition animated:(BOOL)animated { ASDisplayNodeAssertMainThread(); [self waitUntilAllUpdatesAreCommitted]; [super scrollToRowAtIndexPath:indexPath atScrollPosition:scrollPosition animated:animated]; } - (void)scrollToNearestSelectedRowAtScrollPosition:(UITableViewScrollPosition)scrollPosition animated:(BOOL)animated { ASDisplayNodeAssertMainThread(); [self waitUntilAllUpdatesAreCommitted]; [super scrollToNearestSelectedRowAtScrollPosition:scrollPosition animated:animated]; } - (void)selectRowAtIndexPath:(NSIndexPath *)indexPath animated:(BOOL)animated scrollPosition:(UITableViewScrollPosition)scrollPosition { ASDisplayNodeAssertMainThread(); [self waitUntilAllUpdatesAreCommitted]; [super selectRowAtIndexPath:indexPath animated:animated scrollPosition:scrollPosition]; } - (void)layoutSubviews { if (_nodesConstrainedWidth != self.bounds.size.width) { _nodesConstrainedWidth = self.bounds.size.width; // First width change occurs during initial configuration. An expensive relayout pass is unnecessary at that time // and should be avoided, assuming that the initial data loading automatically runs shortly afterward. if (_ignoreNodesConstrainedWidthChange) { _ignoreNodesConstrainedWidthChange = NO; } else { [self beginUpdates]; [_dataController relayoutAllNodes]; [self endUpdates]; } } // To ensure _nodesConstrainedWidth is up-to-date for every usage, this call to super must be done last [super layoutSubviews]; [_rangeController updateIfNeeded]; } #pragma mark - #pragma mark Editing - (void)insertSections:(NSIndexSet *)sections withRowAnimation:(UITableViewRowAnimation)animation { ASDisplayNodeAssertMainThread(); if (sections.count == 0) { return; } [_dataController insertSections:sections withAnimationOptions:animation]; } - (void)deleteSections:(NSIndexSet *)sections withRowAnimation:(UITableViewRowAnimation)animation { ASDisplayNodeAssertMainThread(); if (sections.count == 0) { return; } [_dataController deleteSections:sections withAnimationOptions:animation]; } - (void)reloadSections:(NSIndexSet *)sections withRowAnimation:(UITableViewRowAnimation)animation { ASDisplayNodeAssertMainThread(); if (sections.count == 0) { return; } [_dataController reloadSections:sections withAnimationOptions:animation]; } - (void)moveSection:(NSInteger)section toSection:(NSInteger)newSection { ASDisplayNodeAssertMainThread(); [_dataController moveSection:section toSection:newSection withAnimationOptions:UITableViewRowAnimationNone]; } - (void)insertRowsAtIndexPaths:(NSArray *)indexPaths withRowAnimation:(UITableViewRowAnimation)animation { ASDisplayNodeAssertMainThread(); if (indexPaths.count == 0) { return; } [_dataController insertRowsAtIndexPaths:indexPaths withAnimationOptions:animation]; } - (void)deleteRowsAtIndexPaths:(NSArray *)indexPaths withRowAnimation:(UITableViewRowAnimation)animation { ASDisplayNodeAssertMainThread(); if (indexPaths.count == 0) { return; } [_dataController deleteRowsAtIndexPaths:indexPaths withAnimationOptions:animation]; } - (void)reloadRowsAtIndexPaths:(NSArray *)indexPaths withRowAnimation:(UITableViewRowAnimation)animation { ASDisplayNodeAssertMainThread(); if (indexPaths.count == 0) { return; } [_dataController reloadRowsAtIndexPaths:indexPaths withAnimationOptions:animation]; } - (void)moveRowAtIndexPath:(NSIndexPath *)indexPath toIndexPath:(NSIndexPath *)newIndexPath { ASDisplayNodeAssertMainThread(); [_dataController moveRowAtIndexPath:indexPath toIndexPath:newIndexPath withAnimationOptions:UITableViewRowAnimationNone]; } #pragma mark - #pragma mark adjust content offset - (void)beginAdjustingContentOffset { ASDisplayNodeAssert(_automaticallyAdjustsContentOffset, @"this method should only be called when _automaticallyAdjustsContentOffset == YES"); _contentOffsetAdjustment = 0; _contentOffsetAdjustmentTopVisibleRow = self.indexPathsForVisibleRows.firstObject; } - (void)endAdjustingContentOffset { ASDisplayNodeAssert(_automaticallyAdjustsContentOffset, @"this method should only be called when _automaticallyAdjustsContentOffset == YES"); if (_contentOffsetAdjustment != 0) { self.contentOffset = CGPointMake(0, self.contentOffset.y+_contentOffsetAdjustment); } _contentOffsetAdjustment = 0; _contentOffsetAdjustmentTopVisibleRow = nil; } - (void)adjustContentOffsetWithNodes:(NSArray *)nodes atIndexPaths:(NSArray *)indexPaths inserting:(BOOL)inserting { // Maintain the users visible window when inserting or deleting cells by adjusting the content offset for nodes // before the visible area. If in a begin/end updates block this will update _contentOffsetAdjustment, otherwise it will // update self.contentOffset directly. ASDisplayNodeAssert(_automaticallyAdjustsContentOffset, @"this method should only be called when _automaticallyAdjustsContentOffset == YES"); CGFloat dir = (inserting) ? +1 : -1; CGFloat adjustment = 0; NSIndexPath *top = _contentOffsetAdjustmentTopVisibleRow ? : self.indexPathsForVisibleRows.firstObject; for (int index = 0; index < indexPaths.count; index++) { NSIndexPath *indexPath = indexPaths[index]; if ([indexPath compare:top] <= 0) { // if this row is before or equal to the topmost visible row, make adjustments... ASCellNode *cellNode = nodes[index]; adjustment += cellNode.calculatedSize.height * dir; if (indexPath.section == top.section) { top = [NSIndexPath indexPathForRow:top.row+dir inSection:top.section]; } } } if (_contentOffsetAdjustmentTopVisibleRow) { // true of we are in a begin/end update block (see beginAdjustingContentOffset) _contentOffsetAdjustmentTopVisibleRow = top; _contentOffsetAdjustment += adjustment; } else if (adjustment != 0) { self.contentOffset = CGPointMake(0, self.contentOffset.y+adjustment); } } #pragma mark - Intercepted selectors - (void)setTableHeaderView:(UIView *)tableHeaderView { // Typically the view will be nil before setting it, but reset state if it is being re-hosted. [self.tableHeaderView.asyncdisplaykit_node exitHierarchyState:ASHierarchyStateRangeManaged]; [super setTableHeaderView:tableHeaderView]; [self.tableHeaderView.asyncdisplaykit_node enterHierarchyState:ASHierarchyStateRangeManaged]; } - (void)setTableFooterView:(UIView *)tableFooterView { // Typically the view will be nil before setting it, but reset state if it is being re-hosted. [self.tableFooterView.asyncdisplaykit_node exitHierarchyState:ASHierarchyStateRangeManaged]; [super setTableFooterView:tableFooterView]; [self.tableFooterView.asyncdisplaykit_node enterHierarchyState:ASHierarchyStateRangeManaged]; } - (UITableViewCell *)tableView:(UITableView *)tableView cellForRowAtIndexPath:(NSIndexPath *)indexPath { _ASTableViewCell *cell = [self dequeueReusableCellWithIdentifier:kCellReuseIdentifier forIndexPath:indexPath]; cell.delegate = self; ASCellNode *node = [_dataController nodeAtIndexPath:indexPath]; if (node) { [_rangeController configureContentView:cell.contentView forCellNode:node]; cell.node = node; cell.backgroundColor = node.backgroundColor; cell.selectionStyle = node.selectionStyle; // the following ensures that we clip the entire cell to it's bounds if node.clipsToBounds is set (the default) // This is actually a workaround for a bug we are seeing in some rare cases (selected background view // overlaps other cells if size of ASCellNode has changed.) cell.clipsToBounds = node.clipsToBounds; } return cell; } - (CGFloat)tableView:(UITableView *)tableView heightForRowAtIndexPath:(NSIndexPath *)indexPath { ASCellNode *node = [_dataController nodeAtIndexPath:indexPath]; return node.calculatedSize.height; } - (NSInteger)numberOfSectionsInTableView:(UITableView *)tableView { return [_dataController numberOfSections]; } - (NSInteger)tableView:(UITableView *)tableView numberOfRowsInSection:(NSInteger)section { return [_dataController numberOfRowsInSection:section]; } - (void)tableView:(UITableView *)tableView willDisplayCell:(_ASTableViewCell *)cell forRowAtIndexPath:(NSIndexPath *)indexPath { _pendingVisibleIndexPath = indexPath; ASCellNode *cellNode = [cell node]; cellNode.scrollView = tableView; if (_asyncDelegateFlags.asyncDelegateTableViewWillDisplayNodeForRowAtIndexPath) { [_asyncDelegate tableView:self willDisplayNodeForRowAtIndexPath:indexPath]; } [_rangeController setNeedsUpdate]; if (ASSubclassOverridesSelector([ASCellNode class], [cellNode class], @selector(cellNodeVisibilityEvent:inScrollView:withCellFrame:))) { [_cellsForVisibilityUpdates addObject:cell]; } } - (void)tableView:(UITableView *)tableView didEndDisplayingCell:(_ASTableViewCell *)cell forRowAtIndexPath:(NSIndexPath *)indexPath { if (ASObjectIsEqual(_pendingVisibleIndexPath, indexPath)) { _pendingVisibleIndexPath = nil; } ASCellNode *cellNode = [cell node]; [_rangeController setNeedsUpdate]; if (_asyncDelegateFlags.asyncDelegateTableViewDidEndDisplayingNodeForRowAtIndexPath) { ASDisplayNodeAssertNotNil(cellNode, @"Expected node associated with removed cell not to be nil."); [_asyncDelegate tableView:self didEndDisplayingNode:cellNode forRowAtIndexPath:indexPath]; } [_cellsForVisibilityUpdates removeObject:cell]; #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wdeprecated-declarations" if (_asyncDelegateFlags.asyncDelegateTableViewDidEndDisplayingNodeForRowAtIndexPathDeprecated) { [_asyncDelegate tableView:self didEndDisplayingNodeForRowAtIndexPath:indexPath]; } #pragma clang diagnostic pop cellNode.scrollView = nil; } - (void)scrollViewDidScroll:(UIScrollView *)scrollView { // If a scroll happenes the current range mode needs to go to full ASInterfaceState interfaceState = [self interfaceStateForRangeController:_rangeController]; if (ASInterfaceStateIncludesVisible(interfaceState)) { [_rangeController updateCurrentRangeWithMode:ASLayoutRangeModeFull]; } for (_ASTableViewCell *tableCell in _cellsForVisibilityUpdates) { [[tableCell node] cellNodeVisibilityEvent:ASCellNodeVisibilityEventVisibleRectChanged inScrollView:scrollView withCellFrame:tableCell.frame]; } if (_asyncDelegateFlags.asyncDelegateScrollViewDidScroll) { [_asyncDelegate scrollViewDidScroll:scrollView]; } } - (void)scrollViewWillEndDragging:(UIScrollView *)scrollView withVelocity:(CGPoint)velocity targetContentOffset:(inout CGPoint *)targetContentOffset { CGPoint contentOffset = scrollView.contentOffset; _deceleratingVelocity = CGPointMake( contentOffset.x - ((targetContentOffset != NULL) ? targetContentOffset->x : 0), contentOffset.y - ((targetContentOffset != NULL) ? targetContentOffset->y : 0) ); if (targetContentOffset != NULL) { ASDisplayNodeAssert(_batchContext != nil, @"Batch context should exist"); [self _beginBatchFetchingIfNeededWithScrollView:self forScrollDirection:[self scrollDirection] contentOffset:*targetContentOffset]; } if (_asyncDelegateFlags.asyncDelegateScrollViewWillEndDraggingWithVelocityTargetContentOffset) { [_asyncDelegate scrollViewWillEndDragging:scrollView withVelocity:velocity targetContentOffset:(targetContentOffset ? : &contentOffset)]; } } - (void)scrollViewWillBeginDragging:(UIScrollView *)scrollView { for (_ASTableViewCell *tableViewCell in _cellsForVisibilityUpdates) { [[tableViewCell node] cellNodeVisibilityEvent:ASCellNodeVisibilityEventWillBeginDragging inScrollView:scrollView withCellFrame:tableViewCell.frame]; } if (_asyncDelegateFlags.asyncDelegateScrollViewWillBeginDragging) { [_asyncDelegate scrollViewWillBeginDragging:scrollView]; } } - (void)scrollViewDidEndDragging:(UIScrollView *)scrollView willDecelerate:(BOOL)decelerate { for (_ASTableViewCell *tableViewCell in _cellsForVisibilityUpdates) { [[tableViewCell node] cellNodeVisibilityEvent:ASCellNodeVisibilityEventDidEndDragging inScrollView:scrollView withCellFrame:tableViewCell.frame]; } if (_asyncDelegateFlags.asyncDelegateScrollViewDidEndDragging) { [_asyncDelegate scrollViewDidEndDragging:scrollView willDecelerate:decelerate]; } } #pragma mark - Scroll Direction - (ASScrollDirection)scrollDirection { CGPoint scrollVelocity; if (self.isTracking) { scrollVelocity = [self.panGestureRecognizer velocityInView:self.superview]; } else { scrollVelocity = _deceleratingVelocity; } ASScrollDirection scrollDirection = [self _scrollDirectionForVelocity:scrollVelocity]; return ASScrollDirectionApplyTransform(scrollDirection, self.transform); } - (ASScrollDirection)_scrollDirectionForVelocity:(CGPoint)scrollVelocity { ASScrollDirection direction = ASScrollDirectionNone; ASScrollDirection scrollableDirections = [self scrollableDirections]; if (ASScrollDirectionContainsVerticalDirection(scrollableDirections)) { // Can scroll vertically. if (scrollVelocity.y < 0.0) { direction |= ASScrollDirectionDown; } else if (scrollVelocity.y > 0.0) { direction |= ASScrollDirectionUp; } } return direction; } - (ASScrollDirection)scrollableDirections { ASScrollDirection scrollableDirection = ASScrollDirectionNone; CGFloat totalContentWidth = self.contentSize.width + self.contentInset.left + self.contentInset.right; CGFloat totalContentHeight = self.contentSize.height + self.contentInset.top + self.contentInset.bottom; if (self.alwaysBounceHorizontal || totalContentWidth > self.bounds.size.width) { // Can scroll horizontally. scrollableDirection |= ASScrollDirectionHorizontalDirections; } if (self.alwaysBounceVertical || totalContentHeight > self.bounds.size.height) { // Can scroll vertically. scrollableDirection |= ASScrollDirectionVerticalDirections; } return scrollableDirection; } #pragma mark - Batch Fetching - (ASBatchContext *)batchContext { return _batchContext; } - (BOOL)canBatchFetch { // if the delegate does not respond to this method, there is no point in starting to fetch BOOL canFetch = _asyncDelegateFlags.asyncDelegateTableViewWillBeginBatchFetchWithContext; if (canFetch && _asyncDelegateFlags.asyncDelegateShouldBatchFetchForTableView) { return [_asyncDelegate shouldBatchFetchForTableView:self]; } else { return canFetch; } } - (void)_scheduleCheckForBatchFetchingForNumberOfChanges:(NSUInteger)changes { // Prevent fetching will continually trigger in a loop after reaching end of content and no new content was provided if (changes == 0) { return; } // Push this to the next runloop to be sure the scroll view has the right content size dispatch_async(dispatch_get_main_queue(), ^{ [self _checkForBatchFetching]; }); } - (void)_checkForBatchFetching { // Dragging will be handled in scrollViewWillEndDragging:withVelocity:targetContentOffset: if (self.isDragging || self.isTracking) { return; } [self _beginBatchFetchingIfNeededWithScrollView:self forScrollDirection:[self scrollableDirections] contentOffset:self.contentOffset]; } - (void)_beginBatchFetchingIfNeededWithScrollView:(UIScrollView *)scrollView forScrollDirection:(ASScrollDirection)scrollDirection contentOffset:(CGPoint)contentOffset { if (ASDisplayShouldFetchBatchForScrollView(self, scrollDirection, contentOffset)) { [self _beginBatchFetching]; } } - (void)_beginBatchFetching { [_batchContext beginBatchFetching]; if (_asyncDelegateFlags.asyncDelegateTableViewWillBeginBatchFetchWithContext) { dispatch_async(dispatch_get_global_queue(DISPATCH_QUEUE_PRIORITY_DEFAULT, 0), ^{ [_asyncDelegate tableView:self willBeginBatchFetchWithContext:_batchContext]; }); } } #pragma mark - ASRangeControllerDataSource - (ASRangeController *)rangeController { return _rangeController; } - (NSArray *)visibleNodeIndexPathsForRangeController:(ASRangeController *)rangeController { ASDisplayNodeAssertMainThread(); // Calling indexPathsForVisibleRows will trigger UIKit to call reloadData if it never has, which can result // in incorrect layout if performed at zero size. We can use the fact that nothing can be visible at zero size to return fast. if (CGSizeEqualToSize(self.bounds.size, CGSizeZero)) { return @[]; } // NOTE: A prior comment claimed that `indexPathsForVisibleRows` may return extra index paths for grouped-style // tables. This is seen as an acceptable issue for the time being. NSIndexPath *pendingVisibleIndexPath = _pendingVisibleIndexPath; if (pendingVisibleIndexPath == nil) { return self.indexPathsForVisibleRows; } NSMutableArray *visibleIndexPaths = [self.indexPathsForVisibleRows mutableCopy]; [visibleIndexPaths sortUsingSelector:@selector(compare:)]; BOOL isPendingIndexPathVisible = (NSNotFound != [visibleIndexPaths indexOfObject:pendingVisibleIndexPath inSortedRange:NSMakeRange(0, visibleIndexPaths.count) options:kNilOptions usingComparator:^(id _Nonnull obj1, id _Nonnull obj2) { return [obj1 compare:obj2]; }]); if (isPendingIndexPathVisible) { _pendingVisibleIndexPath = nil; // once it has shown up in visibleIndexPaths, we can stop tracking it } else if ([self isIndexPath:visibleIndexPaths.firstObject immediateSuccessorOfIndexPath:pendingVisibleIndexPath]) { [visibleIndexPaths insertObject:pendingVisibleIndexPath atIndex:0]; } else if ([self isIndexPath:pendingVisibleIndexPath immediateSuccessorOfIndexPath:visibleIndexPaths.lastObject]) { [visibleIndexPaths addObject:pendingVisibleIndexPath]; } else { _pendingVisibleIndexPath = nil; // not contiguous, ignore. } return visibleIndexPaths; } - (ASScrollDirection)scrollDirectionForRangeController:(ASRangeController *)rangeController { return self.scrollDirection; } - (ASDisplayNode *)rangeController:(ASRangeController *)rangeController nodeAtIndexPath:(NSIndexPath *)indexPath { return [_dataController nodeAtIndexPath:indexPath]; } - (CGSize)viewportSizeForRangeController:(ASRangeController *)rangeController { ASDisplayNodeAssertMainThread(); return self.bounds.size; } - (ASInterfaceState)interfaceStateForRangeController:(ASRangeController *)rangeController { return ASInterfaceStateForDisplayNode(self.tableNode, self.window); } - (NSString *)nameForRangeControllerDataSource { return self.asyncDataSource ? NSStringFromClass([self.asyncDataSource class]) : NSStringFromClass([self class]); } #pragma mark - ASRangeControllerDelegate - (void)didBeginUpdatesInRangeController:(ASRangeController *)rangeController { ASDisplayNodeAssertMainThread(); LOG(@"--- UITableView beginUpdates"); if (!self.asyncDataSource) { return; // if the asyncDataSource has become invalid while we are processing, ignore this request to avoid crashes } _performingBatchUpdates = YES; [super beginUpdates]; if (_automaticallyAdjustsContentOffset) { [self beginAdjustingContentOffset]; } } - (void)rangeController:(ASRangeController *)rangeController didEndUpdatesAnimated:(BOOL)animated completion:(void (^)(BOOL))completion { ASDisplayNodeAssertMainThread(); LOG(@"--- UITableView endUpdates"); if (!self.asyncDataSource) { if (completion) { completion(NO); } return; // if the asyncDataSource has become invalid while we are processing, ignore this request to avoid crashes } if (_automaticallyAdjustsContentOffset) { [self endAdjustingContentOffset]; } ASPerformBlockWithoutAnimation(!animated, ^{ [super endUpdates]; [_rangeController updateIfNeeded]; }); _performingBatchUpdates = NO; if (completion) { completion(YES); } } - (void)didCompleteUpdatesInRangeController:(ASRangeController *)rangeController { [self _checkForBatchFetching]; } - (void)rangeController:(ASRangeController *)rangeController didInsertNodes:(NSArray *)nodes atIndexPaths:(NSArray *)indexPaths withAnimationOptions:(ASDataControllerAnimationOptions)animationOptions { ASDisplayNodeAssertMainThread(); LOG(@"UITableView insertRows:%ld rows", indexPaths.count); if (!self.asyncDataSource) { return; // if the asyncDataSource has become invalid while we are processing, ignore this request to avoid crashes } BOOL preventAnimation = animationOptions == UITableViewRowAnimationNone; ASPerformBlockWithoutAnimation(preventAnimation, ^{ if (self.test_enableSuperUpdateCallLogging) { NSLog(@"-[super insertRowsAtIndexPaths]: %@", indexPaths); } [super insertRowsAtIndexPaths:indexPaths withRowAnimation:(UITableViewRowAnimation)animationOptions]; if (!_performingBatchUpdates) { [_rangeController updateIfNeeded]; } [self _scheduleCheckForBatchFetchingForNumberOfChanges:indexPaths.count]; }); if (_automaticallyAdjustsContentOffset) { [self adjustContentOffsetWithNodes:nodes atIndexPaths:indexPaths inserting:YES]; } } - (void)rangeController:(ASRangeController *)rangeController didDeleteNodes:(NSArray *)nodes atIndexPaths:(NSArray *)indexPaths withAnimationOptions:(ASDataControllerAnimationOptions)animationOptions { ASDisplayNodeAssertMainThread(); LOG(@"UITableView deleteRows:%ld rows", indexPaths.count); if (!self.asyncDataSource) { return; // if the asyncDataSource has become invalid while we are processing, ignore this request to avoid crashes } BOOL preventAnimation = animationOptions == UITableViewRowAnimationNone; ASPerformBlockWithoutAnimation(preventAnimation, ^{ if (self.test_enableSuperUpdateCallLogging) { NSLog(@"-[super deleteRowsAtIndexPaths]: %@", indexPaths); } [super deleteRowsAtIndexPaths:indexPaths withRowAnimation:(UITableViewRowAnimation)animationOptions]; if (!_performingBatchUpdates) { [_rangeController updateIfNeeded]; } [self _scheduleCheckForBatchFetchingForNumberOfChanges:indexPaths.count]; }); if (_automaticallyAdjustsContentOffset) { [self adjustContentOffsetWithNodes:nodes atIndexPaths:indexPaths inserting:NO]; } } - (void)rangeController:(ASRangeController *)rangeController didInsertSectionsAtIndexSet:(NSIndexSet *)indexSet withAnimationOptions:(ASDataControllerAnimationOptions)animationOptions { ASDisplayNodeAssertMainThread(); LOG(@"UITableView insertSections:%@", indexSet); if (!self.asyncDataSource) { return; // if the asyncDataSource has become invalid while we are processing, ignore this request to avoid crashes } BOOL preventAnimation = animationOptions == UITableViewRowAnimationNone; ASPerformBlockWithoutAnimation(preventAnimation, ^{ if (self.test_enableSuperUpdateCallLogging) { NSLog(@"-[super insertSections]: %@", indexSet); } [super insertSections:indexSet withRowAnimation:(UITableViewRowAnimation)animationOptions]; if (!_performingBatchUpdates) { [_rangeController updateIfNeeded]; } [self _scheduleCheckForBatchFetchingForNumberOfChanges:indexSet.count]; }); } - (void)rangeController:(ASRangeController *)rangeController didDeleteSectionsAtIndexSet:(NSIndexSet *)indexSet withAnimationOptions:(ASDataControllerAnimationOptions)animationOptions { ASDisplayNodeAssertMainThread(); LOG(@"UITableView deleteSections:%@", indexSet); if (!self.asyncDataSource) { return; // if the asyncDataSource has become invalid while we are processing, ignore this request to avoid crashes } BOOL preventAnimation = animationOptions == UITableViewRowAnimationNone; ASPerformBlockWithoutAnimation(preventAnimation, ^{ if (self.test_enableSuperUpdateCallLogging) { NSLog(@"-[super deleteSections]: %@", indexSet); } [super deleteSections:indexSet withRowAnimation:(UITableViewRowAnimation)animationOptions]; if (!_performingBatchUpdates) { [_rangeController updateIfNeeded]; } [self _scheduleCheckForBatchFetchingForNumberOfChanges:indexSet.count]; }); } #pragma mark - ASDataControllerDelegate - (ASCellNodeBlock)dataController:(ASDataController *)dataController nodeBlockAtIndexPath:(NSIndexPath *)indexPath { if (![_asyncDataSource respondsToSelector:@selector(tableView:nodeBlockForRowAtIndexPath:)]) { ASCellNode *node = [_asyncDataSource tableView:self nodeForRowAtIndexPath:indexPath]; ASDisplayNodeAssert([node isKindOfClass:ASCellNode.class], @"invalid node class, expected ASCellNode"); __weak __typeof__(self) weakSelf = self; return ^{ __typeof__(self) strongSelf = weakSelf; [node enterHierarchyState:ASHierarchyStateRangeManaged]; if (node.interactionDelegate == nil) { node.interactionDelegate = strongSelf; } return node; }; } ASCellNodeBlock block = [_asyncDataSource tableView:self nodeBlockForRowAtIndexPath:indexPath]; __weak __typeof__(self) weakSelf = self; ASCellNodeBlock configuredNodeBlock = ^{ __typeof__(self) strongSelf = weakSelf; ASCellNode *node = block(); [node enterHierarchyState:ASHierarchyStateRangeManaged]; if (node.interactionDelegate == nil) { node.interactionDelegate = strongSelf; } return node; }; return configuredNodeBlock; } - (ASSizeRange)dataController:(ASDataController *)dataController constrainedSizeForNodeAtIndexPath:(NSIndexPath *)indexPath { ASSizeRange constrainedSize = kInvalidSizeRange; if (_asyncDelegateFlags.asyncDelegateTableViewConstrainedSizeForRowAtIndexPath) { ASSizeRange delegateConstrainedSize = [_asyncDelegate tableView:self constrainedSizeForRowAtIndexPath:indexPath]; // ignore widths in the returned size range (for TableView) constrainedSize = ASSizeRangeMake(CGSizeMake(_nodesConstrainedWidth, delegateConstrainedSize.min.height), CGSizeMake(_nodesConstrainedWidth, delegateConstrainedSize.max.height)); } else { constrainedSize = ASSizeRangeMake(CGSizeMake(_nodesConstrainedWidth, 0), CGSizeMake(_nodesConstrainedWidth, FLT_MAX)); } return constrainedSize; } - (NSUInteger)dataController:(ASDataController *)dataController rowsInSection:(NSUInteger)section { return [_asyncDataSource tableView:self numberOfRowsInSection:section]; } - (NSUInteger)numberOfSectionsInDataController:(ASDataController *)dataController { if (_asyncDataSourceFlags.asyncDataSourceNumberOfSectionsInTableView) { return [_asyncDataSource numberOfSectionsInTableView:self]; } else { return 1; // default section number } } #pragma mark - ASDataControllerEnvironmentDelegate - (id)dataControllerEnvironment { if (self.tableNode) { return self.tableNode; } return self.strongTableNode; } #pragma mark - _ASTableViewCellDelegate - (void)didLayoutSubviewsOfTableViewCell:(_ASTableViewCell *)tableViewCell { ASCellNode *node = tableViewCell.node; if (node == nil) { return; } CGFloat contentViewWidth = tableViewCell.contentView.bounds.size.width; ASSizeRange constrainedSize = node.constrainedSizeForCalculatedLayout; // Table view cells should always fill its content view width. // Normally the content view width equals to the constrained size width (which equals to the table view width). // If there is a mismatch between these values, for example after the table view entered or left editing mode, // content view width is preferred and used to re-measure the cell node. if (contentViewWidth != constrainedSize.max.width) { constrainedSize.min.width = contentViewWidth; constrainedSize.max.width = contentViewWidth; // Re-measurement is done on main to ensure thread affinity. In the worst case, this is as fast as UIKit's implementation. // // Unloaded nodes *could* be re-measured off the main thread, but only with the assumption that content view width // is the same for all cells (because there is no easy way to get that individual value before the node being assigned to a _ASTableViewCell). // Also, in many cases, some nodes may not need to be re-measured at all, such as when user enters and then immediately leaves editing mode. // To avoid premature optimization and making such assumption, as well as to keep ASTableView simple, re-measurement is strictly done on main. [self beginUpdates]; CGSize calculatedSize = [[node measureWithSizeRange:constrainedSize] size]; node.frame = CGRectMake(0, 0, calculatedSize.width, calculatedSize.height); [self endUpdates]; } } #pragma mark - ASCellNodeDelegate - (void)nodeSelectedStateDidChange:(ASCellNode *)node { NSIndexPath *indexPath = [self indexPathForNode:node]; if (indexPath) { if (node.isSelected) { [self selectRowAtIndexPath:indexPath animated:NO scrollPosition:UITableViewScrollPositionNone]; } else { [self deselectRowAtIndexPath:indexPath animated:NO]; } } } - (void)nodeHighlightedStateDidChange:(ASCellNode *)node { NSIndexPath *indexPath = [self indexPathForNode:node]; if (indexPath) { [self cellForRowAtIndexPath:indexPath].highlighted = node.isHighlighted; } } - (void)nodeDidRelayout:(ASCellNode *)node sizeChanged:(BOOL)sizeChanged { ASDisplayNodeAssertMainThread(); if (!sizeChanged || _queuedNodeHeightUpdate) { return; } _queuedNodeHeightUpdate = YES; [self performSelector:@selector(requeryNodeHeights) withObject:nil afterDelay:0 inModes:@[ NSRunLoopCommonModes ]]; } // Cause UITableView to requery for the new height of this node - (void)requeryNodeHeights { _queuedNodeHeightUpdate = NO; [super beginUpdates]; [super endUpdates]; } #pragma mark - Memory Management - (void)clearContents { [_rangeController clearContents]; } - (void)clearFetchedData { [_rangeController clearFetchedData]; } #pragma mark - Helper Methods - (BOOL)isIndexPath:(NSIndexPath *)indexPath immediateSuccessorOfIndexPath:(NSIndexPath *)anchor { if (!anchor || !indexPath) { return NO; } if (indexPath.section == anchor.section) { return (indexPath.row == anchor.row+1); // assumes that indexes are valid } else if (indexPath.section > anchor.section && indexPath.row == 0) { if (anchor.row != [_dataController numberOfRowsInSection:anchor.section] -1) { return NO; // anchor is not at the end of the section } NSInteger nextSection = anchor.section+1; while([_dataController numberOfRowsInSection:nextSection] == 0) { ++nextSection; } return indexPath.section == nextSection; } return NO; } #pragma mark - _ASDisplayView behavior substitutions // Need these to drive interfaceState so we know when we are visible, if not nested in another range-managing element. // Because our superclass is a true UIKit class, we cannot also subclass _ASDisplayView. - (void)willMoveToWindow:(UIWindow *)newWindow { BOOL visible = (newWindow != nil); ASDisplayNode *node = self.tableNode; if (visible && !node.inHierarchy) { [node __enterHierarchy]; } } - (void)didMoveToWindow { BOOL visible = (self.window != nil); ASDisplayNode *node = self.tableNode; if (!visible && node.inHierarchy) { [node __exitHierarchy]; } // Updating the visible node index paths only for not range managed nodes. Range managed nodes will get their // their update in the layout pass if (![node supportsRangeManagedInterfaceState]) { [_rangeController setNeedsUpdate]; [_rangeController updateIfNeeded]; } } @end