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I'm trying to debug an issue in which an executable produces repeatable output (which I want) when executed directly from Visual Studio, but does not produce repeatable output when executed from the command prompt. It's a single-threaded application, so there shouldn't be any strange behaviour there in terms of timing.

Can somebody enumerate what possible differences could be between the two environments?

I'm sure the actual executable is the same -- they're both release builds and are running the same .exe file.

Here are the environments and the outcomes:

  1. Run directly from command prompt (cmd): Non-repeatable output
  2. Run from Visual Studio with Debugging (F5): Repeatable output
  3. Run from Visual Studio without Debugging (Ctrl-F5): Non-repeatable output

I know that the working directory can possibly be different, but I'm manually adjusting that to make sure that the working directory is identical.

Based on these results, it looks like running "with Debugging" (even in a Release build) somehow fixes the problem. Does this point to a likely culprit? What are the differences between running an executable with debugging and without?

SOLUTION: As pointed out in the accepted answer, the debug heap was the issue. The problem was that deep in the bowels of our code, somebody was accessing parts of a large array before they were initialized. They had allocated memory with a malloc and had not initialized the memory to 0. The debug heap would (I assume) fill the array with some repeatable value, whereas when the debugger wasn't attached (i.e. when run from the command line or with Ctrl-F5) the values were more random and would sometimes cause tiny deviations in the behaviour of the program. Unfortunately, the adjustment was so subtle as to almost be unnoticeable, and the memory in question was properly reset after the first "frame" of processing, but the initial conditions were already slightly different and the damage had been done. Chaos theory in action! Thanks for the guidance.

One great debugging tip that helped out: write a custom malloc that immediately fills memory with completely random data. That way, you can make sure you're properly initializing it yourself before using it, otherwise your results will be (hopefully) crazy every time you run it -- even in debug mode with the debug heap!

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Depends on your code. You may be triggering undefined behaviour, that only surfaces at higher optimisation levels. –  Alex B May 22 '13 at 16:02
But theoretically isn't the only difference that a debugger isn't attached? The build is identical -- Release build both times. The degree of optimization isn't changing. –  aardvarkk May 22 '13 at 16:03
I know you say you're adjusting for the working directory, but that seems to be the likely culprit. The other issue I would look for is installed libraries. VS handles dependencies (and if you build and install through ClickOnce, that handles your dependencies), but running directly on the command line may not. –  Scott Mermelstein May 22 '13 at 16:05
My VS is rusty, are you certain it's running the same release executable (as opposed to the debug one)? What about linked libraries? –  Alex B May 22 '13 at 16:07
It seems like my question title is actually not quite accurate -- the issue is reproducible just by running the application in two different ways. If I run with F5, I get the results I want. If I run with Ctrl-F5, I don't get the results I want. So it seems something related to attaching the debugger alters the behaviour of the executable. This should eliminate working directory and linked libraries as issues, no? –  aardvarkk May 22 '13 at 16:10

2 Answers 2

up vote 11 down vote accepted

Windows Heap behaves differently if process is started under the debugger. To disable this behavior (in order to find a problem while debugging) add _NO_DEBUG_HEAP=1 to environment (like in this question).

Alternatively you can attach to process early in program execution. Heap will not enter the debug mode then. Add DebugBreak() line somewhere in the beginning of the execution, run with Ctrl+F5, and start debugging when asked to.

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This seems like a great tip -- I'll try it out, thanks! –  aardvarkk May 22 '13 at 16:35
Great link addition there, too. This seems like a very likely issue to me -- some kind of sentinel value that's repeatable when a debugger is attached, but is just garbage data otherwise (and thus the non-repeatable behaviour!) –  aardvarkk May 22 '13 at 17:03
This pointed me in the right direction. I'll edit the question with some details. Thanks! –  aardvarkk May 24 '13 at 19:13

Well, it is difficult to say without knowing a bit more about your code. However, I had a similar problem with a program doing lots of floating-point arithmetics (double precision numbers).

The issue would show up when I was dealing with numbers that were slightly different, but numerically indistinguishable for the machine. If two doubles differ by less than numeric_limits<double>::epsilon(), they are seen as the same number for the machine. Hence, expressions of the type:

if (num1==num2)...


if (num1<num2)...

can result in colourful effects.

These colourful effects can vary when run in debug or release mode. The reason is that debug/release run-time libraries are different. Also, and crucially, the compilation is done with different code optimisations. The difference between the command-line debug version and the debug-window version (F5) is also explained by subtle optimisation differences.

If you're using VS, you can have a look at the effect of the different compilation options and optimisations in the C/C++ and Linker section of the Properties menu.

To avoid this problem, I recommend using the numeric_limits facilities from the <limits> STL library. As an example, the implementation of a less-than operator should be something like this:

bool operator<(double num1, double num2) {
    double difference=fabs(num1-num2);
    if (difference>numeric_limits<double>::epsilon()) {
        if (num1 < num2) return true;
        return false;
    return false;
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