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/***************************************************************************\
*
* File: ContextLayoutManager.cs
*
* Defines a top-level ContextLayoutManager - a layout dirtiness tracking/clearing system.
*
* Copyright (C) 2001 by Microsoft Corporation. All rights reserved.
*
\***************************************************************************/
using System;
using System.Windows.Threading;
using System.Collections;
using System.Windows.Media;
using System.Windows.Media.Media3D;
using System.Windows.Automation.Peers;
using MS.Internal;
using MS.Utility;
using SR=MS.Internal.PresentationCore.SR;
using SRID=MS.Internal.PresentationCore.SRID;
namespace System.Windows
{
/// <summary>
/// Top-level ContextLayoutManager object. Manages the layout update and layout dirty state.
/// </summary>
internal sealed class ContextLayoutManager : DispatcherObject
{
internal ContextLayoutManager()
{
_shutdownHandler = new EventHandler(this.OnDispatcherShutdown);
Dispatcher.ShutdownFinished += _shutdownHandler;
}
void OnDispatcherShutdown(object sender, EventArgs e)
{
if(_shutdownHandler != null)
Dispatcher.ShutdownFinished -= _shutdownHandler;
_shutdownHandler = null;
_layoutEvents = null;
_measureQueue = null;
_arrangeQueue = null;
_sizeChangedChain = null;
_isDead = true;
}
/// <summary>
/// The way to obtain ContextLayoutManager associated with particular Dispatcher.
/// </summary>
/// <param name="dispatcher">A dispatcher for which ContextLayoutManager is queried.
/// There is only one ContextLayoutManager associuated with all elements in a single context</param>
/// <returns>ContextLayoutManager</returns>
internal static ContextLayoutManager From(Dispatcher dispatcher)
{
ContextLayoutManager lm = dispatcher.Reserved3 as ContextLayoutManager;
if(lm == null)
{
if(Dispatcher.CurrentDispatcher != dispatcher)
{
throw new InvalidOperationException();
}
lm = new ContextLayoutManager();
dispatcher.Reserved3 = lm;
}
return lm;
}
private void setForceLayout(UIElement e)
{
_forceLayoutElement = e;
}
private void markTreeDirty(UIElement e)
{
//walk up until we are the topmost UIElement in the tree.
while(true)
{
UIElement p = e.GetUIParentNo3DTraversal() as UIElement;
if(p == null) break;
e = p;
}
markTreeDirtyHelper(e);
MeasureQueue.Add(e);
ArrangeQueue.Add(e);
}
private void markTreeDirtyHelper(Visual v)
{
//now walk down and mark all UIElements dirty
if(v != null)
{
if(v.CheckFlagsAnd(VisualFlags.IsUIElement))
{
UIElement uie = ((UIElement)v);
uie.InvalidateMeasureInternal();
uie.InvalidateArrangeInternal();
}
//walk children doing the same, don't stop if they are already dirty since there can
//be insulated dirty islands below
int cnt = v.InternalVisualChildrenCount;
for(int i=0; i<cnt; i++)
{
Visual child = v.InternalGetVisualChild(i);
if (child != null) markTreeDirtyHelper(child);
}
}
}
// posts a layout update
private void NeedsRecalc()
{
if(!_layoutRequestPosted && !_isUpdating)
{
MediaContext.From(Dispatcher).BeginInvokeOnRender(_updateCallback, this);
_layoutRequestPosted = true;
}
}
private static object UpdateLayoutBackground(object arg)
{
((ContextLayoutManager)arg).NeedsRecalc();
return null;
}
private bool hasDirtiness
{
get
{
return (!MeasureQueue.IsEmpty) || (!ArrangeQueue.IsEmpty);
}
}
internal void EnterMeasure()
{
Dispatcher._disableProcessingCount++;
_lastExceptionElement = null;
_measuresOnStack++;
if(_measuresOnStack > s_LayoutRecursionLimit)
throw new InvalidOperationException(SR.Get(SRID.LayoutManager_DeepRecursion, s_LayoutRecursionLimit));
_firePostLayoutEvents = true;
}
internal void ExitMeasure()
{
_measuresOnStack--;
Dispatcher._disableProcessingCount--;
}
internal void EnterArrange()
{
Dispatcher._disableProcessingCount++;
_lastExceptionElement = null;
_arrangesOnStack++;
if(_arrangesOnStack > s_LayoutRecursionLimit)
throw new InvalidOperationException(SR.Get(SRID.LayoutManager_DeepRecursion, s_LayoutRecursionLimit));
_firePostLayoutEvents = true;
}
internal void ExitArrange()
{
_arrangesOnStack--;
Dispatcher._disableProcessingCount--;
}
/// <summary>
/// Tells ContextLayoutManager to finalize possibly async update.
/// Used before accessing services off Visual.
/// </summary>
//[CodeAnalysis("AptcaMethodsShouldOnlyCallAptcaMethods")] //Tracking Bug: 29647
internal void UpdateLayout()
{
VerifyAccess();
//make UpdateLayout to be a NOP if called during UpdateLayout.
if ( _isInUpdateLayout
|| _measuresOnStack > 0
|| _arrangesOnStack > 0
|| _isDead) return;
#if DEBUG_CLR_MEM
bool clrTracingEnabled = false;
// Start over with the Measure and arrange counters for this layout pass
int measureCLRPass = 0;
int arrangeCLRPass = 0;
if (CLRProfilerControl.ProcessIsUnderCLRProfiler)
{
clrTracingEnabled = true;
if (CLRProfilerControl.CLRLoggingLevel >= CLRProfilerControl.CLRLogState.Performance)
{
++_layoutCLRPass;
CLRProfilerControl.CLRLogWriteLine("Begin_Layout_{0}", _layoutCLRPass);
}
}
#endif // DEBUG_CLR_MEM
bool etwTracingEnabled = false;
long perfElementID = 0;
const EventTrace.Keyword etwKeywords = EventTrace.Keyword.KeywordLayout | EventTrace.Keyword.KeywordPerf;
if (!_isUpdating && EventTrace.IsEnabled(etwKeywords, EventTrace.Level.Info))
{
etwTracingEnabled = true;
perfElementID = PerfService.GetPerfElementID(this);
EventTrace.EventProvider.TraceEvent(EventTrace.Event.WClientLayoutBegin, etwKeywords, EventTrace.Level.Info,
perfElementID, EventTrace.LayoutSource.LayoutManager);
}
int cnt = 0;
bool gotException = true;
UIElement currentElement = null;
try
{
invalidateTreeIfRecovering();
while(hasDirtiness || _firePostLayoutEvents)
{
if(++cnt > 153)
{
//loop detected. Lets go over to background to let input/user to correct the situation.
//most frequently, we get such a loop as a result of input detecting a mouse in the "bad spot"
//and some event handler oscillating a layout-affecting property depending on hittest result
//of the mouse. Going over to background will not break the loopp but will allow user to
//move the mouse so that it goes out of the "bad spot".
Dispatcher.BeginInvoke(DispatcherPriority.Background, _updateLayoutBackground, this);
currentElement = null;
gotException = false;
if (etwTracingEnabled)
{
EventTrace.EventProvider.TraceEvent(EventTrace.Event.WClientLayoutAbort, etwKeywords, EventTrace.Level.Info, 0, cnt);
}
return;
}
//this flag stops posting update requests to MediaContext - we are already in one
//note that _isInUpdateLayout is close but different - _isInUpdateLayout is reset
//before firing LayoutUpdated so that event handlers could call UpdateLayout but
//still could not cause posting of MediaContext work item. Posting MediaContext workitem
//causes infinite loop in MediaContext.
_isUpdating = true;
_isInUpdateLayout = true;
#if DEBUG_CLR_MEM
if (clrTracingEnabled && (CLRProfilerControl.CLRLoggingLevel >= CLRProfilerControl.CLRLogState.Verbose))
{
++measureCLRPass;
CLRProfilerControl.CLRLogWriteLine("Begin_Measure_{0}_{1}", _layoutCLRPass, measureCLRPass);
}
#endif // DEBUG_CLR_MEM
if (etwTracingEnabled)
{
EventTrace.EventProvider.TraceEvent(EventTrace.Event.WClientMeasureBegin, etwKeywords, EventTrace.Level.Info, perfElementID);
}
// Disable processing of the queue during blocking operations to prevent unrelated reentrancy.
using(Dispatcher.DisableProcessing())
{
//loop for Measure
//We limit the number of loops here by time - normally, all layout
//calculations should be done by this time, this limit is here for
//emergency, "infinite loop" scenarios - yielding in this case will
//provide user with ability to continue to interact with the app, even though
//it will be sluggish. If we don't yield here, the loop is goign to be a deadly one
//and it will be impossible to save results or even close the window.
int loopCounter = 0;
DateTime loopStartTime = new DateTime(0);
while(true)
{
if(++loopCounter > 153)
{
loopCounter = 0;
//first bunch of iterations is free, then we start count time
//this way, we don't call DateTime.Now in most layout updates
if(loopStartTime.Ticks == 0)
{
loopStartTime = DateTime.UtcNow;
}
else
{
TimeSpan loopDuration = (DateTime.UtcNow - loopStartTime);
if(loopDuration.Milliseconds > 153*2) // 153*2 = magic*science
{
//loop detected. Lets go over to background to let input work.
Dispatcher.BeginInvoke(DispatcherPriority.Background, _updateLayoutBackground, this);
currentElement = null;
gotException = false;
if (etwTracingEnabled)
{
EventTrace.EventProvider.TraceEvent(EventTrace.Event.WClientMeasureAbort, etwKeywords, EventTrace.Level.Info,
loopDuration.Milliseconds, loopCounter);
}
return;
}
}
}
currentElement = MeasureQueue.GetTopMost();
if(currentElement == null) break; //exit if no more Measure candidates
currentElement.Measure(currentElement.PreviousConstraint);
//dmitryt, bug 1150880: not clear why this is needed, remove for now
//if the parent was just computed, the chidlren should be clean. If they are not clean and in the queue
//that means that there is cross-tree dependency and they most likely shodul be updated by themselves.
// MeasureQueue.RemoveOrphans(currentElement);
}
if (etwTracingEnabled)
{
EventTrace.EventProvider.TraceEvent(EventTrace.Event.WClientMeasureEnd, etwKeywords, EventTrace.Level.Info, loopCounter);
EventTrace.EventProvider.TraceEvent(EventTrace.Event.WClientArrangeBegin, etwKeywords, EventTrace.Level.Info, perfElementID);
}
#if DEBUG_CLR_MEM
if (clrTracingEnabled && (CLRProfilerControl.CLRLoggingLevel >= CLRProfilerControl.CLRLogState.Verbose))
{
CLRProfilerControl.CLRLogWriteLine("End_Measure_{0}_{1}", _layoutCLRPass, measureCLRPass);
++arrangeCLRPass;
CLRProfilerControl.CLRLogWriteLine("Begin_Arrange_{0}_{1}", _layoutCLRPass, arrangeCLRPass);
}
#endif // DEBUG_CLR_MEM
//loop for Arrange
//if Arrange dirtied the tree go clean it again
//We limit the number of loops here by time - normally, all layout
//calculations should be done by this time, this limit is here for
//emergency, "infinite loop" scenarios - yielding in this case will
//provide user with ability to continue to interact with the app, even though
//it will be sluggish. If we don't yield here, the loop is goign to be a deadly one
//and it will be impossible to save results or even close the window.
loopCounter = 0;
loopStartTime = new DateTime(0);
while(MeasureQueue.IsEmpty)
{
if(++loopCounter > 153)
{
loopCounter = 0;
//first bunch of iterations is free, then we start count time
//this way, we don't call DateTime.Now in most layout updates
if(loopStartTime.Ticks == 0)
{
loopStartTime = DateTime.UtcNow;
}
else
{
TimeSpan loopDuration = (DateTime.UtcNow - loopStartTime);
if(loopDuration.Milliseconds > 153*2) // 153*2 = magic*science
{
//loop detected. Lets go over to background to let input work.
Dispatcher.BeginInvoke(DispatcherPriority.Background, _updateLayoutBackground, this);
currentElement = null;
gotException = false;
if (etwTracingEnabled)
{
EventTrace.EventProvider.TraceEvent(EventTrace.Event.WClientArrangeAbort, etwKeywords, EventTrace.Level.Info,
loopDuration.Milliseconds, loopCounter);
}
return;
}
}
}
currentElement = ArrangeQueue.GetTopMost();
if(currentElement == null) break; //exit if no more Measure candidates
Rect finalRect = getProperArrangeRect(currentElement);
currentElement.Arrange(finalRect);
//dmitryt, bug 1150880: not clear why this is needed, remove for now
//if the parent was just computed, the chidlren should be clean. If they are not clean and in the queue
//that means that there is cross-tree dependency and they most likely shodul be updated by themselves.
// ArrangeQueue.RemoveOrphans(currentElement);
}
if (etwTracingEnabled)
{
EventTrace.EventProvider.TraceEvent(EventTrace.Event.WClientArrangeEnd, etwKeywords, EventTrace.Level.Info, loopCounter);
}
#if DEBUG_CLR_MEM
if (clrTracingEnabled && (CLRProfilerControl.CLRLoggingLevel >= CLRProfilerControl.CLRLogState.Verbose))
{
CLRProfilerControl.CLRLogWriteLine("End_Arrange_{0}_{1}", _layoutCLRPass, arrangeCLRPass);
}
#endif // DEBUG_CLR_MEM
//if Arrange dirtied the tree go clean it again
//it is not neccesary to check ArrangeQueue sicnce we just exited from Arrange loop
if(!MeasureQueue.IsEmpty) continue;
//let LayoutUpdated handlers to call UpdateLayout
//note that it means we can get reentrancy into UpdateLayout past this point,
//if any of event handlers call UpdateLayout sync. Need to protect from reentrancy
//in the firing methods below.
_isInUpdateLayout = false;
}
fireSizeChangedEvents();
if(hasDirtiness) continue;
fireLayoutUpdateEvent();
if(hasDirtiness) continue;
fireAutomationEvents();
if(hasDirtiness) continue;
fireSizeChangedEvents(); // if nothing is dirty, one last chance for any size changes to announce.
}
currentElement = null;
gotException = false;
}
finally
{
_isUpdating = false;
_layoutRequestPosted = false;
_isInUpdateLayout = false;
if(gotException)
{
if (etwTracingEnabled)
{
EventTrace.EventProvider.TraceEvent(EventTrace.Event.WClientLayoutException, etwKeywords, EventTrace.Level.Info, PerfService.GetPerfElementID(currentElement));
}
//set indicator
_gotException = true;
_forceLayoutElement = currentElement;
//make attempt to request the subsequent layout calc
//some exception handler schemas use Idle priorities to
//wait until dust settles. Then they correct the issue noted in the exception handler.
//We don't want to attempt to re-do the operation on the priority higher then that.
Dispatcher.BeginInvoke(DispatcherPriority.ApplicationIdle, _updateLayoutBackground, this);
}
}
MS.Internal.Text.TextInterface.Font.ResetFontFaceCache();
MS.Internal.FontCache.BufferCache.Reset();
if (etwTracingEnabled)
{
EventTrace.EventProvider.TraceEvent(EventTrace.Event.WClientLayoutEnd, etwKeywords, EventTrace.Level.Info);
}
#if DEBUG_CLR_MEM
if (clrTracingEnabled && (CLRProfilerControl.CLRLoggingLevel >= CLRProfilerControl.CLRLogState.Performance))
{
CLRProfilerControl.CLRLogWriteLine("End_Layout_{0}", _layoutCLRPass);
}
#endif // DEBUG_CLR_MEM
}
private Rect getProperArrangeRect(UIElement element)
{
Rect arrangeRect = element.PreviousArrangeRect;
// ELements without a parent (top level) get Arrange at DesiredSize
// if they were measured "to content" (as infinity indicates).
// If we arrange the element that is temporarily disconnected
// so it is not a top-level one, the assumption is that it will be
// layout-invalidated and/or recomputed by the parent when reconnected.
if (element.GetUIParentNo3DTraversal() == null)
{
arrangeRect.X = arrangeRect.Y = 0;
if (double.IsPositiveInfinity(element.PreviousConstraint.Width))
arrangeRect.Width = element.DesiredSize.Width;
if (double.IsPositiveInfinity(element.PreviousConstraint.Height))
arrangeRect.Height = element.DesiredSize.Height;
}
return arrangeRect;
}
private void invalidateTreeIfRecovering()
{
if((_forceLayoutElement != null) || _gotException)
{
if(_forceLayoutElement != null)
{
markTreeDirty(_forceLayoutElement);
}
_forceLayoutElement = null;
_gotException = false;
}
}
internal LayoutQueue MeasureQueue
{
get
{
if(_measureQueue == null)
_measureQueue = new InternalMeasureQueue();
return _measureQueue;
}
}
internal LayoutQueue ArrangeQueue
{
get
{
if(_arrangeQueue == null)
_arrangeQueue = new InternalArrangeQueue();
return _arrangeQueue;
}
}
internal class InternalMeasureQueue: LayoutQueue
{
internal override void setRequest(UIElement e, Request r)
{
e.MeasureRequest = r;
}
internal override Request getRequest(UIElement e)
{
return e.MeasureRequest;
}
internal override bool canRelyOnParentRecalc(UIElement parent)
{
return !parent.IsMeasureValid
&& !parent.MeasureInProgress; //if parent's measure is in progress, we might have passed this child already
}
internal override void invalidate(UIElement e)
{
e.InvalidateMeasureInternal();
}
}
internal class InternalArrangeQueue: LayoutQueue
{
internal override void setRequest(UIElement e, Request r)
{
e.ArrangeRequest = r;
}
internal override Request getRequest(UIElement e)
{
return e.ArrangeRequest;
}
internal override bool canRelyOnParentRecalc(UIElement parent)
{
return !parent.IsArrangeValid
&& !parent.ArrangeInProgress; //if parent's arrange is in progress, we might have passed this child already
}
internal override void invalidate(UIElement e)
{
e.InvalidateArrangeInternal();
}
}
// delegate for dispatcher - keep it static so we don't allocate new ones.
private static DispatcherOperationCallback _updateCallback = new DispatcherOperationCallback(UpdateLayoutCallback);
private static object UpdateLayoutCallback(object arg)
{
ContextLayoutManager ContextLayoutManager = arg as ContextLayoutManager;
if(ContextLayoutManager != null)
ContextLayoutManager.UpdateLayout();
return null;
}
//walks the list, fires events to alive handlers and removes dead ones
private void fireLayoutUpdateEvent()
{
//no reentrancy. It may happen if one of handlers calls UpdateLayout synchronously
if(_inFireLayoutUpdated) return;
EventTrace.EasyTraceEvent(EventTrace.Keyword.KeywordLayout, EventTrace.Level.Verbose, EventTrace.Event.WClientLayoutFireLayoutUpdatedBegin);
try
{
_inFireLayoutUpdated = true;
LayoutEventList.ListItem [] copy = LayoutEvents.CopyToArray();
for(int i=0; i<copy.Length; i++)
{
LayoutEventList.ListItem item = copy[i];
//store handler here in case if thread gets pre-empted between check for IsAlive and invocation
//and GC can run making something that was alive not callable.
EventHandler e = null;
try
{
// this will return null if element is already GC'ed
e = (EventHandler)(item.Target);
}
catch(InvalidOperationException) //this will happen if element is being resurrected after finalization
{
e = null;
}
if(e != null)
{
e(null, EventArgs.Empty);
// if handler dirtied the tree, go clean it again before calling other handlers
if(hasDirtiness) break;
}
else
{
LayoutEvents.Remove(item);
}
}
}
finally
{
_inFireLayoutUpdated = false;
EventTrace.EasyTraceEvent(EventTrace.Keyword.KeywordLayout, EventTrace.Level.Verbose, EventTrace.Event.WClientLayoutFireLayoutUpdatedEnd);
}
}
private LayoutEventList _layoutEvents;
internal LayoutEventList LayoutEvents
{
get
{
if(_layoutEvents == null)
_layoutEvents = new LayoutEventList();
return _layoutEvents;
}
}
internal void AddToSizeChangedChain(SizeChangedInfo info)
{
//this typically will cause firing of SizeChanged from top to down. However, this order is not
//specified for any users and is subject to change without notice.
info.Next = _sizeChangedChain;
_sizeChangedChain = info;
}
private void fireSizeChangedEvents()
{
//no reentrancy. It may happen if one of handlers calls UpdateLayout synchronously
if(_inFireSizeChanged) return;
EventTrace.EasyTraceEvent(EventTrace.Keyword.KeywordLayout, EventTrace.Level.Verbose, EventTrace.Event.WClientLayoutFireSizeChangedBegin);
try
{
_inFireSizeChanged = true;
//loop for SizeChanged
while(_sizeChangedChain != null)
{
SizeChangedInfo info = _sizeChangedChain;
_sizeChangedChain = info.Next;
info.Element.sizeChangedInfo = null;
info.Element.OnRenderSizeChanged(info);
//if callout dirtified the tree, return to cleaning
if(hasDirtiness) break;
}
}
finally
{
_inFireSizeChanged = false;
EventTrace.EasyTraceEvent(EventTrace.Keyword.KeywordLayout, EventTrace.Level.Verbose, EventTrace.Event.WClientLayoutFireSizeChangedEnd);
}
}
private void fireAutomationEvents()
{
//no reentrancy. It may happen if one of handlers calls UpdateLayout synchronously
if(_inFireAutomationEvents) return;
EventTrace.EasyTraceEvent(EventTrace.Keyword.KeywordLayout, EventTrace.Level.Verbose, EventTrace.Event.WClientLayoutFireAutomationEventsBegin);
try
{
_inFireAutomationEvents = true;
_firePostLayoutEvents = false;
LayoutEventList.ListItem [] copy = AutomationEvents.CopyToArray();
for(int i=0; i<copy.Length; i++)
{
LayoutEventList.ListItem item = copy[i];
//store peer here in case if thread gets pre-empted between check for IsAlive and invocation
//and GC can run making something that was alive not callable.
AutomationPeer peer = null;
try
{
// this will return null if element is already GC'ed
peer = (AutomationPeer)(item.Target);
}
catch(InvalidOperationException) //this will happen if element is being resurrected after finalization
{
peer = null;
}
if(peer != null)
{
peer.FireAutomationEvents();
// if handler dirtied the tree, go clean it again before calling other handlers
if(hasDirtiness) break;
}
else
{
AutomationEvents.Remove(item);
}
}
}
finally
{
_inFireAutomationEvents = false;
EventTrace.EasyTraceEvent(EventTrace.Keyword.KeywordLayout, EventTrace.Level.Verbose, EventTrace.Event.WClientLayoutFireAutomationEventsEnd);
}
}
private LayoutEventList _automationEvents;
internal LayoutEventList AutomationEvents
{
get
{
if(_automationEvents == null)
_automationEvents = new LayoutEventList();
return _automationEvents;
}
}
internal AutomationPeer[] GetAutomationRoots()
{
LayoutEventList.ListItem [] copy = AutomationEvents.CopyToArray();
AutomationPeer[] peers = new AutomationPeer[copy.Length];
int freeSlot = 0;
for(int i=0; i<copy.Length; i++)
{
LayoutEventList.ListItem item = copy[i];
//store peer here in case if thread gets pre-empted between check for IsAlive and invocation
//and GC can run making something that was alive not callable.
AutomationPeer peer = null;
try
{
// this will return null if element is already GC'ed
peer = (AutomationPeer)(item.Target);
}
catch(InvalidOperationException) //this will happen if element is being resurrected after finalization
{
peer = null;
}
if(peer != null)
{
peers[freeSlot++] = peer;
}
}
return peers;
}
//this is used to prevent using automation roots in AutomationPeer when there are
//sync updates of AutomationPeers on the stack. It is here because LayoutManager is
//a Dispatcher-wide object and sync updates are per-dispatcher. Basically,
//it is here to avoid creating AutomationManager to track Dispatcher scope.
internal int AutomationSyncUpdateCounter
{
get
{
return _automationSyncUpdateCounter;
}
set
{
_automationSyncUpdateCounter = value;
}
}
//Debuggability support - see LayoutInformation class in Framework
internal UIElement GetLastExceptionElement()
{
return _lastExceptionElement;
}
internal void SetLastExceptionElement(UIElement e)
{
_lastExceptionElement = e;
}
///// DATA //////
private UIElement _forceLayoutElement; //set in extreme situations, forces the update of the whole tree containing the element
private UIElement _lastExceptionElement; //set on exception in Measure or Arrange.
private InternalMeasureQueue _measureQueue;
private InternalArrangeQueue _arrangeQueue;
private SizeChangedInfo _sizeChangedChain;
private static DispatcherOperationCallback _updateLayoutBackground = new DispatcherOperationCallback(UpdateLayoutBackground);
private EventHandler _shutdownHandler;
internal static int s_LayoutRecursionLimit = UIElement.MAX_ELEMENTS_IN_ROUTE; //to keep these two constants in sync
private int _arrangesOnStack;
private int _measuresOnStack;
private int _automationSyncUpdateCounter;
private bool _isDead;
private bool _isUpdating;
private bool _isInUpdateLayout;
private bool _gotException; //true if UpdateLayout exited with exception
private bool _layoutRequestPosted;
private bool _inFireLayoutUpdated;
private bool _inFireSizeChanged;
private bool _firePostLayoutEvents;
private bool _inFireAutomationEvents;
#if DEBUG_CLR_MEM
// Used for CLRProfiler comments
private static int _layoutCLRPass = 0;
#endif
internal abstract class LayoutQueue
{
//size of the pre-allocated free list
private const int PocketCapacity = 153;
//when this many elements remain in the free list,
//queue will switch to invalidating up and adding only the root
private const int PocketReserve = 8;
internal abstract Request getRequest(UIElement e);
internal abstract void setRequest(UIElement e, Request r);
internal abstract bool canRelyOnParentRecalc(UIElement parent);
internal abstract void invalidate(UIElement e);
internal class Request
{
internal UIElement Target;
internal Request Next;
internal Request Prev;
}
internal LayoutQueue()
{
Request r;
for(int i=0; i<PocketCapacity; i++)
{
r = new Request();
r.Next = _pocket;
_pocket = r;
}
_pocketSize = PocketCapacity;
}
private void _addRequest(UIElement e)
{
Request r = _getNewRequest(e);
if(r != null)
{
r.Next = _head;
if(_head != null) _head.Prev = r;
_head = r;
setRequest(e, r);
}
}
internal void Add(UIElement e)
{
if(getRequest(e) != null) return;
if(e.CheckFlagsAnd(VisualFlags.IsLayoutSuspended)) return;
RemoveOrphans(e);
UIElement parent = e.GetUIParentWithinLayoutIsland();
if(parent != null && canRelyOnParentRecalc(parent)) return;
ContextLayoutManager layoutManager = ContextLayoutManager.From(e.Dispatcher);
if(layoutManager._isDead) return;
//10 is arbitrary number here, simply indicates the queue is
//about to be filled. If not queue is not almost full, simply add
//the element to it. If it is almost full, start conserve entries
//by escalating invalidation to all the ancestors until the top of
//the visual tree, and only add root of visula tree to the queue.
if(_pocketSize > PocketReserve)
{
_addRequest(e);
}
else
{
//walk up until we are the topmost UIElement in the tree.
//on each step, mark the parent dirty and remove it from the queues
//only leave a single node in the queue - the root of visual tree
while(e != null)
{
UIElement p = e.GetUIParentWithinLayoutIsland();
invalidate(e); //invalidate in any case
if (p != null && p.Visibility != Visibility.Collapsed) //not yet a root or a collapsed node
{
Remove(e);
}
else //root of visual tree or a collapsed node
{
if (getRequest(e) == null)
{
RemoveOrphans(e);
_addRequest(e);
}
}
e = p;
}
}
layoutManager.NeedsRecalc();
}
internal void Remove(UIElement e)
{
Request r = getRequest(e);
if(r == null) return;
_removeRequest(r);
setRequest(e, null);
}
internal void RemoveOrphans(UIElement parent)
{
Request r = _head;
while(r != null)
{
UIElement child = r.Target;
Request next = r.Next;
ulong parentTreeLevel = parent.TreeLevel;
if( (child.TreeLevel == parentTreeLevel + 1)
&& (child.GetUIParentWithinLayoutIsland() == parent))
{
_removeRequest(getRequest(child));
setRequest(child, null);
}
r = next;
}
}
internal bool IsEmpty { get { return (_head == null); }}
internal UIElement GetTopMost()
{
UIElement found = null;
ulong treeLevel = ulong.MaxValue;
for(Request r = _head; r != null; r = r.Next)
{
UIElement t = r.Target;
ulong l = t.TreeLevel;
if(l < treeLevel)
{
treeLevel = l;
found = r.Target;
}
}
return found;
}
private void _removeRequest(Request entry)
{
if(entry.Prev == null) _head = entry.Next;
else entry.Prev.Next = entry.Next;
if(entry.Next != null) entry.Next.Prev = entry.Prev;
ReuseRequest(entry);
}
private Request _getNewRequest(UIElement e)
{
Request r;
if(_pocket != null)
{
r = _pocket;
_pocket = r.Next;
_pocketSize--;
r.Next = r.Prev = null;
}
else
{
ContextLayoutManager lm = ContextLayoutManager.From(e.Dispatcher);
try
{
r = new Request();
}
catch(System.OutOfMemoryException ex)
{
if(lm != null)
lm.setForceLayout(e);
throw ex;
}
}
r.Target = e;
return r;
}
private void ReuseRequest(Request r)
{
r.Target = null; //let target die
if (_pocketSize < PocketCapacity)
{
r.Next = _pocket;
_pocket = r;
_pocketSize++;
}
}
private Request _head;
private Request _pocket;
private int _pocketSize;
}
}
internal class LayoutEventList
{
//size of the pre-allocated free list
private const int PocketCapacity = 153;
internal class ListItem: WeakReference
{
internal ListItem() : base(null) {}
internal ListItem Next;
internal ListItem Prev;
internal bool InUse;
}
internal LayoutEventList()
{
ListItem t;
for(int i=0; i<PocketCapacity; i++)
{
t = new ListItem();
t.Next = _pocket;
_pocket = t;
}
_pocketSize = PocketCapacity;
}
internal ListItem Add(object target)
{
ListItem t = getNewListItem(target);
t.Next = _head;
if(_head != null) _head.Prev = t;
_head = t;
_count++;
return t;
}
internal void Remove(ListItem t)
{
//already removed item can be passed again
//(once removed by handler and then by firing code)
if(!t.InUse) return;
if(t.Prev == null) _head = t.Next;
else t.Prev.Next = t.Next;
if(t.Next != null) t.Next.Prev = t.Prev;
reuseListItem(t);
_count--;
}
private ListItem getNewListItem(object target)
{
ListItem t;
if(_pocket != null)
{
t = _pocket;
_pocket = t.Next;
_pocketSize--;
t.Next = t.Prev = null;
}
else
{
t = new ListItem();
}
t.Target = target;
t.InUse = true;
return t;
}
private void reuseListItem(ListItem t)
{
t.Target = null; //let target die
t.Next = t.Prev = null;
t.InUse = false;
if (_pocketSize < PocketCapacity)
{
t.Next = _pocket;
_pocket = t;
_pocketSize++;
}
}
internal ListItem[] CopyToArray()
{
ListItem [] copy = new ListItem[_count];
ListItem t = _head;
int cnt = 0;
while(t != null)
{
copy[cnt++] = t;
t = t.Next;
}
return copy;
}
internal int Count
{
get
{
return _count;
}
}
private ListItem _head;
private ListItem _pocket;
private int _pocketSize;
private int _count;
}
}
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