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We have a large (= it may need 200 - 500 MB or more memory in the course of a day) WPF application that is used for multiple hours a day. Occasionally, the application hangs for no apparent reason. Analysing process dumps shows that garbage collection is active and the reason for the paused application.

We are using .NET 4.0, and as far as I understand the newly introduced "background garbage collection" should reduce the amount of time the whole process is blocked for garbage collection (foreground garbage collection).

However, even if the pauses occur not that often, they are interrupting the workflow when they take more than a few seconds (which is the case).

This leads me to the following questions:

  • I read that in a server environment, background garbage collection is not used by default. Our application does in fact run on a server operating system (Windows Server 2003 R2 x64), despite being a client application (and not a server app). Does this mean background garbage collection is not used? Or does it only apply to services / ASP.NET?

  • Assuming that background garbage collection is indeed enabled, how can I prevent foreground collections from happening too often / taking too long? My current approach would be to detect idle periods in the application (eg. app not being used for 5 minutes or more) and initiate a forced garbage collection so that it doesn't happen at a later point of time when the application is being used.

Debug Diag process dump info: enter image description here

Stack trace:

mscorlib_ni!System.GC.Collect(Int32, System.GCCollectionMode)+47 
[[InlinedCallFrame] (System.GC._Collect)] System.GC._Collect(Int32, Int32) 
PresentationCore_ni!MS.Internal.MemoryPressure.ProcessAdd()+1d0 
PresentationCore_ni!MS.Internal.MemoryPressure.Add(Int64)+39 
PresentationCore_ni!System.Windows.Media.SafeMILHandleMemoryPressure..ctor(Int64)+43 
PresentationCore_ni!System.Windows.Media.SafeMILHandle.UpdateEstimatedSize(Int64)+38 
PresentationCore_ni!System.Windows.Media.Imaging.RenderTargetBitmap.FinalizeCreation()+df 
PresentationCore_ni!System.Windows.Media.Imaging.RenderTargetBitmap..ctor(Int32, Int32, Double, Double, System.Windows.Media.PixelFormat)+d9 
WindowsFormsIntegration_ni!System.Windows.Forms.Integration.HostUtils.GetRenderTargetBitmapForVisual(Int32, Int32, System.Windows.Media.Visual)+b1 
WindowsFormsIntegration_ni!System.Windows.Forms.Integration.HostUtils.GetBitmapForFrameworkElement(System.Windows.FrameworkElement)+89 
WindowsFormsIntegration_ni!System.Windows.Forms.Integration.HostUtils.GetBitmapForTransparentWindowsFormsHost(System.Windows.Forms.Integration.WindowsFormsHost)+4b 
WindowsFormsIntegration_ni!System.Windows.Forms.Integration.HostUtils.GetBitmapForWindowsFormsHost(System.Windows.Forms.Integration.WindowsFormsHost, System.Windows.Media.Brush)+1f 
WindowsFormsIntegration_ni!System.Windows.Forms.Integration.WindowsFormsHostPropertyMap.BackgroundPropertyTranslator(System.Object, System.String, System.Object)+109 
WindowsFormsIntegration_ni!System.Windows.Forms.Integration.PropertyMap.RunTranslator(System.Windows.Forms.Integration.PropertyTranslator, System.Object, System.String, System.Object)+32 
WindowsFormsIntegration_ni!System.Windows.Forms.Integration.WindowsFormsHost.ArrangeOverride(System.Windows.Size)+277 
PresentationFramework_ni!System.Windows.FrameworkElement.ArrangeCore(System.Windows.Rect)+8e3 
PresentationCore_ni!System.Windows.UIElement.Arrange(System.Windows.Rect)+385 
PresentationCore_ni!System.Windows.ContextLayoutManager.UpdateLayout()+2b5 
PresentationCore_ni!System.Windows.ContextLayoutManager.UpdateLayoutCallback(System.Object)+19 
PresentationCore_ni!System.Windows.Media.MediaContext+InvokeOnRenderCallback.DoWork()+10 
PresentationCore_ni!System.Windows.Media.MediaContext.FireInvokeOnRenderCallbacks()+76 
PresentationCore_ni!System.Windows.Media.MediaContext.RenderMessageHandlerCore(System.Object)+8a 
PresentationCore_ni!System.Windows.Media.MediaContext.AnimatedRenderMessageHandler(System.Object)+6e 
WindowsBase_ni!System.Windows.Threading.ExceptionWrapper.InternalRealCall(System.Delegate, System.Object, Int32)+53 
WindowsBase_ni!MS.Internal.Threading.ExceptionFilterHelper.TryCatchWhen(System.Object, System.Delegate, System.Object, Int32, System.Delegate)+42 
WindowsBase_ni!System.Windows.Threading.DispatcherOperation.InvokeImpl()+8d 
WindowsBase_ni!System.Windows.Threading.DispatcherOperation.InvokeInSecurityContext(System.Object)+38 
mscorlib_ni!System.Threading.ExecutionContext.runTryCode(System.Object)+51 
[[HelperMethodFrame_PROTECTOBJ] (System.Runtime.CompilerServices.RuntimeHelpers.ExecuteCodeWithGuaranteedCleanup)] System.Runtime.CompilerServices.RuntimeHelpers.ExecuteCodeWithGuaranteedCleanup(TryCode, CleanupCode, System.Object) 
mscorlib_ni!System.Threading.ExecutionContext.RunInternal(System.Threading.ExecutionContext, System.Threading.ContextCallback, System.Object)+6a 
mscorlib_ni!System.Threading.ExecutionContext.Run(System.Threading.ExecutionContext, System.Threading.ContextCallback, System.Object, Boolean)+7e 
mscorlib_ni!System.Threading.ExecutionContext.Run(System.Threading.ExecutionContext, System.Threading.ContextCallback, System.Object)+2c 
WindowsBase_ni!System.Windows.Threading.DispatcherOperation.Invoke()+68 
WindowsBase_ni!System.Windows.Threading.Dispatcher.ProcessQueue()+15e 
WindowsBase_ni!System.Windows.Threading.Dispatcher.WndProcHook(IntPtr, Int32, IntPtr, IntPtr, Boolean ByRef)+63 
WindowsBase_ni!MS.Win32.HwndWrapper.WndProc(IntPtr, Int32, IntPtr, IntPtr, Boolean ByRef)+be 
WindowsBase_ni!MS.Win32.HwndSubclass.DispatcherCallbackOperation(System.Object)+7d 
WindowsBase_ni!System.Windows.Threading.ExceptionWrapper.InternalRealCall(System.Delegate, System.Object, Int32)+53 
WindowsBase_ni!MS.Internal.Threading.ExceptionFilterHelper.TryCatchWhen(System.Object, System.Delegate, System.Object, Int32, System.Delegate)+42 
WindowsBase_ni!System.Windows.Threading.Dispatcher.InvokeImpl(System.Windows.Threading.DispatcherPriority, System.TimeSpan, System.Delegate, System.Object, Int32)+b4 
WindowsBase_ni!MS.Win32.HwndSubclass.SubclassWndProc(IntPtr, Int32, IntPtr, IntPtr)+104 
WindowsBase_ni!DomainBoundILStubClass.IL_STUB_PInvoke(System.Windows.Interop.MSG ByRef)+3c 
[[InlinedCallFrame]] 
WindowsBase_ni!System.Windows.Threading.Dispatcher.PushFrameImpl(System.Windows.Threading.DispatcherFrame)+c1 
WindowsBase_ni!System.Windows.Threading.Dispatcher.PushFrame(System.Windows.Threading.DispatcherFrame)+49 
PresentationFramework_ni!System.Windows.Application.RunDispatcher(System.Object)+5b 
PresentationFramework_ni!System.Windows.Application.RunInternal(System.Windows.Window)+74 
PresentationFramework_ni!System.Windows.Application.Run(System.Windows.Window)+2b 
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  • 1
    What evidence do you have to support your claim that garbage collection sometimes pause my application? It is incredibly unlikely that the garbage collection would run on a UI thread.
    – Sheridan
    Aug 6, 2014 at 11:08
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    You might need .Net 4.5: msdn.microsoft.com/library/… Aug 6, 2014 at 11:12
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    The strategy in your second dot point, i.e., to manage garbage collection in your app, is a slippery slope. Instead, consider offloading some of the processing using cloud technology or other distributed technology.
    – Gayot Fow
    Aug 6, 2014 at 11:19
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    @cod3monk3y Even worse, the MemoryPressure.Add (a WPF method, not GC.AddMemoryPressure) is explicitly calling GC.Collect(2) - referencesource.microsoft.com/#PresentationCore/src/Core/CSharp/… Ouch. Probably works great with just WPF and the GUI, but once you start doing some serious work in the background, it's deadly.
    – Luaan
    Aug 6, 2014 at 11:56
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    Two notes: I have a WinFormsHost as well, so I'll definitely be checking if this is causing me slow-downs. And, does your WinFormsHost have a transparent background? Does changing it to non-transparent fix the problem? Maybe if you can prevent the chain from GetBitmapForTransparentWindowsFormsHost down, and thus a GC during the Layout of your view, the problem will abate.
    – cod3monk3y
    Aug 6, 2014 at 11:57

1 Answer 1

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You can change the GC mode using app.config. By default, server Windows have background GC disabled. The reasoning is quite simple - background GC means less visible latency (optimal for user applications), while foreground GC has better total throughput.

However, if the GC collection is long enough to produce a noticeable hang, you're probably doing something wrong. It isn't really about the amount of memory straight, it's more likely to be a result of inefficient handling of such memory. The by far greatest offender I've seen that does this is using GC.Collect manually - that basically kills all the performance gains of generational GC (among other optimizations), which is extremely important. The Debug Diag snippet seems to indicate this is in fact the case - you seem to be initiating the collection manually; but I've never worked with that tool, so it might be a false positive.

200-500 MiB certainly isn't much. The critical point is how easy is to do the collection. That depends on how the objects get assigned to different generations, how many objects there are (rather than their total size, although that obviously also plays a role), memory locality and many other things.

Somewhat counter-intuitively, in .NET it's usually a bad idea to force yourself to reuse objects and do similar optimizations like in C++. Most likely, it will lead to worse GC performance, because it impairs memory locality and generational partitioning of the heap(s).

The key point still is - profile. Attach Concurrency Visualizer and CLRProfiler. They will tell you how much work the GC is actually doing, and can help you understand why.

And to reiterate - don't use GC.Collect. I've never seen it cause a performance improvement, and I've seen it kill GC performance many, many times. The only reasonable use case I've seen for it was in benchmarks - which are actually simple enough to benefit from forced collection. If you don't attempt those micro-optimizations, the heap can actually be almost as fast as the stack (by mostly working on scope-limited objects - a handy shortcut). .NET's GC is actually very good.

EDIT:

Based on the additional information, I'm affraid this might actually be a significant problem when doing a lot of background work in a WPF application. If you separate the background work into an extra process and only threat the WPF application as a GUI front-end to some underlying service, you might get around the whole problem. Obviously, that's not going to be very easy to implement...

Another option would be to try to limit the WPF garbage as much as possible - the less data WPF works with, the less inclined it will be to call its GC.Collect(2).

The app.config setting to force GC to behave as on non-server windows is quite simple:

<configuration>
 <runtime>
  <gcServer enabled="false" />
  <gcConcurrent enabled="true" />
 </runtime>
</configuration>

It should help driving the time the UI is unresponsive down - provided you have multiple processor cores available.

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  • "you seem to be initiating the collection manually" - no, definitely not. The stack strace shows this is not a manual collection (otherwise I wouldn't "complain" about it).
    – floele
    Aug 6, 2014 at 11:37
  • @floele Are you sure? I don't think "natural" collections have GC.Collect in their stack. At least I've never seen it there in process dumps / concurrency visualizer / visual studio debugger.
    – Luaan
    Aug 6, 2014 at 11:39
  • As sure as it gets ;) I attached a stack trace now so you can have a look for yourself.
    – floele
    Aug 6, 2014 at 11:42
  • "server Windows have background GC disabled" - Does this apply to all .NET applications running on the server? Do you have a reference where that behaviour is precisely documented?
    – floele
    Aug 6, 2014 at 11:43
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    @floele You don't need to take my word for it - check GCSettings.IsServerGC and GCSettings.LatencyMode, it will tell you which GC you're actually running. And huh, the stack does make it clear - this is actually happening as part of unmanaged memory allocation, rather than managed memory. It's WPF garbage that's giving you trouble. This might actually be very tricky to solve, since WPF is explicitly calling GC.Collect(2), which is awful if you've got other data than just a few forms and images.
    – Luaan
    Aug 6, 2014 at 11:49

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