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We are building a WPF app and are seeing some random and very strange behavior which seems to originate from within the BCL. We are catching an unhandled exception with the following stacktrace:

"TimeSpan does not accept floating point Not-a-Number values."
   at System.TimeSpan.Interval(Double value, Int32 scale)
   at System.Windows.Threading.Dispatcher.Invoke(DispatcherPriority priority, Delegate method, Object arg)
   at MS.Win32.HwndSubclass.SubclassWndProc(IntPtr hwnd, Int32 msg, IntPtr wParam, IntPtr lParam)
   at MS.Win32.UnsafeNativeMethods.DispatchMessage(MSG& msg)
   at System.Windows.Threading.Dispatcher.PushFrameImpl(DispatcherFrame frame)
   at System.Windows.Threading.Dispatcher.PushFrame(DispatcherFrame frame)
   at System.Windows.Threading.Dispatcher.Run()
   at System.Windows.Application.RunDispatcher(Object ignore)
   at System.Windows.Application.RunInternal(Window window)
   at System.Windows.Application.Run(Window window)

Now, if we are to believe Reflector the calling method (Dispatcher.Invoke) calls


which throws an Argument exception because the argument being passed in returns true on double.IsNaN. This is clearly not making any sense and we find this very puzzling, to say the least.

We have been unable to reproduce this behavior in any smaller samples, so we are looking for ways to determine the cause of this (and other seemingly related TimeSpan exceptions which are also thrown) in our full app. We have a number of questions they we hope someone can help us with, as we have had no luck in googling for anything like this

  • Has anybody seen such behavior or recognize the symptoms
  • What causes these seemingly random behavior in basic math, are we somehow corrupting the stack or heap?
  • Can we somehow debug the IL in TimeSpan.Interval (WinDbg perhaps?) and break and inspect the stack/heap to verify the values?

Our application is quite data heavy, with lots of data being fetched async and lots of data binding, but we see no smoking gun pointing at any of this from the stack traces we have been able to obtain.

Just to clarify the question: Has anybody seen the described behavior before, recognizes the symptoms or has input as to how we can debug the situation?

Thoughts, comments, ideas, suggestions?

share|improve this question
I would try report this to Microsoft. Sounds like rather bizarre behaviour. – leppie Mar 4 '09 at 17:10
We have exactly this same simptom, same stacktrace. But I don't have a clue where to look. Our program is big too, and all the TimeSpan.From... calls are done with int-s, which can't contain NaN. – csuporj Apr 1 '09 at 16:36

I'm not sure I understand your question correctly but I don't think -1.0 is NaN.

EDIT (To solve the actual problem): You could download .NET Framework symbols and debug through them to see the actual value of the variable passed to TimeSpan.FromSeconds and whatever else that might be going on.

share|improve this answer
Well this is exactly why we are puzzled! If Reflector is correct, then TimeSpan.FromSeconds(-1.0) should NOT throw an exception. But that is the situation on our machines and we are kind of desperate to figure out what is going on... – soren.enemaerke Mar 4 '09 at 13:53
We've tried that, but the VS debugging says that everything is optimized away, so we can't see the state/value of the variables or arguments...perhaps we're doing something wrong or need a tip for inspecting the arguments and variables – soren.enemaerke Mar 4 '09 at 14:05

A quick note on the stack traces, method calls can be inlined if they match certain requirements. For more info, read

The IL code for the Dispatcher.Invoke call:

L_0002: ldc.r8 -1
L_000b: call valuetype [mscorlib]System.TimeSpan [mscorlib]System.TimeSpan::FromMilliseconds(float64)

My test code, C#:

double d = -1.0;
TimeSpan t = TimeSpan.FromMilliseconds(d);

Which becomes the following IL code:

L_0001: ldc.r8 -1
L_000a: stloc.0 
L_000b: ldloc.0 
L_000c: call valuetype [mscorlib]System.TimeSpan [mscorlib]System.TimeSpan::FromMilliseconds(float64)

I can not repeat your problem, even when passing the exact same value to TimeSpan.FromMilliseconds

share|improve this answer

=> NaN Positive infinity

Was thinking of 0/0.0 :|

share|improve this answer
I see the confusion with the title mentioning 1...however, I hoped it was clear from the question that it is not our code that calls the TimeSpan.FromSeconds() method, it's some internal BCL call. We still get the argument exception from what looks to us(Reflector) to be a completely valid call... – soren.enemaerke Mar 4 '09 at 14:18
Ok, I'm off target here, but will look for answer still :) – leppie Mar 4 '09 at 16:21

is it possible a lot of the stack trace is being optimized out and you have some code in there which is doing stuff with timespans which is not showing up.


in reflector i see Dispatcher.Invoke call Timespan.FromMilliseconds which calls Timespan.Interval. But in the stack trace we only see Dispatcher.Invoke and Timespan.Interval so Timespan.FromMilliseconds is being left out of the stacktrace. if we assume methods could be left out of the stacktrace then maybe there is a totally different path to Timespan.Interval. say:

- Call into your code or somewhere else in BCL -

if the control flow is Dispatcher.Invoker->Timepan.FromMilliseconds -> Timespan.Interval then i would start suspecting a JIT compilation bug or some kind of corruption from the native code that is running beforehand.

here is a page on how to see the code generated by the JIT:

share|improve this answer
Can't really see that happening for this particular stacktrace as it is entirely BCL code and it is quite clear that the exception is thrown from the internal method TimeSpan.Interval (exception message matches etc.)...but I may be mistaken, so please elaborate if you can – soren.enemaerke Mar 4 '09 at 14:53
Okay, I see what you mean, thanks for the clarification. I suspect that this is not the case, it's definitely not calling our code (if we can trust the debugger to break on exceptions) and I struggle to come up with a scenario where the invoker is something else when looking into Reflector. – soren.enemaerke Mar 4 '09 at 15:42

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