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In Microsoft Visual C++ 2010 I created a program which delibrately causes a stack overflow. When I run the program using "start debugging" an error is thrown when stack overflow occurs. When I run it with "start without debugging" no error is thrown and the program just terminates silently as if it had successfully completed. Could someone explain to me what's going on? Also do any other compilers not throw errors on stack overflow?

(I thought this would be the right place to ask a question about stack overflow.)

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Ok it seems stack overflow is undefined behaviour. So a follow up question is how are you meant to avoid it/catch it, (in visual C++ specifically, and if possible for general C++ compilers). –  qaz Aug 4 '10 at 21:33
Can you show your sample code? –  0xA3 Aug 4 '10 at 21:55
This may be of interest stackoverflow.com/questions/436671/… –  Alexandre Jasmin Aug 4 '10 at 22:23
@Alexandre Thanks. –  qaz Aug 4 '10 at 22:47
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6 Answers

up vote 9 down vote accepted

C++ won't hold your hand as a managed enviroment does. Having a stack overflow means undefined behaviour.

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@qaz You are supposed to write code that does not cause a stack overflow in the first place. –  anon Aug 4 '10 at 21:33
@qaz: There is no way to handle stack overflows in C and C++ - with or without SEH. Even if you catch the SEH exception thrown when you overflow the stack (or you use any other platform-specific mechanism to detect the SO), at this point your program is basically already totally screwed. Trying to continue doing anything can unleash nasal demons on you. –  slacker Aug 4 '10 at 22:25
@slacker: Unless your system throws that stack overflow notice before you've actually overflown the stack -- in which case you can throw a C++ exception which will unwind the stack correctly. It's the detection of stack overflow though which is platform specific. See boost::regex's source code for an example. –  Billy ONeal Aug 4 '10 at 23:07
@qaz: re: your surprise that it's so hard to detect/handle overflows: it's because so few programs in practice require this kind of stack depth. Architectures are designed with little practical allowance for recovery/scoping/sizing of that kind of out of bounds because the bounds are usually orders of magnitude larger than anyone uses, so you end up in a real pickle if you do get there. FWIW, tree traversals can sometimes be implemented iteratively within a single function, more or less, with the right data structure. (en.wikipedia.org/wiki/Tree_traversal) –  Ben Zotto Aug 5 '10 at 2:24
(Or keep your trees balanced better. ;) ) –  Ben Zotto Aug 5 '10 at 2:25
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A stack overflow is undefined behaviour. The compiler is well within it's rights to ignore it or cause any event to happen.

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Thanks. But how are you meant to catch a stack overflow event in Visual c++ (or in general if possible)? –  qaz Aug 4 '10 at 21:29
@qaz: You're not. In Visual C++ 2010, you CAN catch Structured Exceptions (SEH) from Windows, which include things like access violation, stack overflow and such. However, the language is not designed or intended to catch such events. –  Puppy Aug 4 '10 at 21:41
Visual C++ is most certainly designed to catch such events, that's why it has language extensions and compiler support (__try / __except) –  Ben Voigt Aug 5 '10 at 0:19
Visual C++ is. C++ itself isn't. –  Puppy Aug 5 '10 at 9:23
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Because when your process stack overflows, it is no longer a valid process. Displaying an error message requires a stack.

Raymond Chen went over this recently.

As for why the debugger is able to throw such an exception, in that case the process is being kept around because it's attached in debugging mode to the debugger's process. Your process isn't displaying the error, the debugger is.

On Windows machines, you can catch the SEH exception which corresponds to a stack overflow. For an example, you can see boost::regex's source code (Google for BOOST_REGEX_HAS_MS_STACK_GUARD).

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You CANNOT extend the stack over the pre-set limit in any way, period. When you start a thread (including the main thread), the system reserves a continuous chunk of address space for the stack. The memory gets automatically committed as it is used, but if you hit the limit, you're screwed. There's no place to extend the stack into, as the stack needs to be continuous in memory (i.e. you can't split it to smaller chunks). –  slacker Aug 4 '10 at 22:11
The guard page technique described in the article is the standard way any sane system (Windows, Unix, whatever) uses to implement a stack with automatic committing. This does not change the fact that the address space for a stack needs to be pre-reserved in its entirety, and cannot be extended afterwards. –  slacker Aug 4 '10 at 22:16
@slacker: The reason I assumed that was possible was because of BOOST_REGEX_HAS_MS_STACK_GUARD, which allows boost to safely handle the stack overflow exception on Windows. However, it "Safely Handles" it by throwing an exception (doh!). I have removed that section of my answer. –  Billy ONeal Aug 4 '10 at 23:04
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It might well be that the compiler optimized the intended stack overflow away. Consider the following pseudo-code example:

void RecursiveMethod(int n)
    if (n % 1024 == 0)
        print n;

    // call recursively
    RecursiveMethod(n + 1);

The method will call itself recursively and overflow the stack pretty quickly because there is no exit condition.

However, most compilers use tail recursion, a technique which will transfer the recursive function call into a loop construct.

It should be noted that with tail recursion, the above program would run in an endless loop and not exit silently.

Bart de Smet has a nice blog article where explains how this technique works in .NET:

The Case of The Failed Demo – StackOverflowException on x64

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@0xA3, qaz: One reason this may be possible: en.wikipedia.org/wiki/Tail_recursion –  Merlyn Morgan-Graham Aug 4 '10 at 21:34
@qaz Does the program exit after having done its job or does it just exit at the point where the stack overflow should have occured? –  Alexandre Jasmin Aug 4 '10 at 21:41
This was the example I was using to test out the stack overflow handling. Which explains why no error was thrown. However, I'm still concerned that if C++ won't tell you when stack overflow occurs how are you meant to detect it yourself? –  qaz Aug 4 '10 at 21:44
@Alexandre It works up to the point where recursion begins, hangs for a bit (while the stack gets eaten up I suppose) then terminates failing to execute the commands after the recursion (unsuprisingly). –  qaz Aug 4 '10 at 21:46
@qaz: "which is what disturbs me (the fact that a program can appear to have ran successfully but actually it crashed)". Ignoring debug/non-debug, this is what C++ does. There are plenty of tools, plenty of static analysis you can do on your code (e.g. compiler warnings), plenty of features in the debugger. Those aren't perfect. Sometimes in C/C++, your program can go into completely undefined behavior/corrupt memory all over the place, but not crash. To quote the original developer of C++, "In C++ it's harder to shoot yourself in the foot, but when you do, you blow off your whole leg" –  Merlyn Morgan-Graham Aug 5 '10 at 0:01
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In a debug build, a number of stack checks are put in place to help you detect problems such as stack overflows, stack corruption etc. They are not present in release builds because they would affect the performance of the application. As others have pointed out, a stack overflow is undefined behaviour, so the compiler is not required to implement such stack checks at all.

When you're in a debugging environment, the runtime checks will help you detect problems that will also occur in your release build, therefore, if you fix all the problems detected in your debug build, then they should also be fixed in your release build . . . in theory. In practice, sometimes bugs that you see in your debug build are not present in your release build or vice versa.

Stack overflows shouldn't happen. Generally, stack overflows occur only by unintentional recursive function calling, or by allocating a large enough buffer on the stack. The former is obviously a bug, and the latter should use the heap instead.

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In debugging mode, you want the overhead. You want it to detect if you broke your stack, overflowed your buffers, etc. This overhead is built into the debug instrumentation, and the debugger. In high level terms the debug instrumentation is extra code and data, put there to help flag errors, and the debugger is there to detect the flagged errors and notify the user (in addition to helping you debug, of course).

If you are running with the project compiled in release mode, or without a debugger attached, there is no one to hear the screaming of your program when it dies :) If a tree falls in the forest...

Depending on how you program, C++ is programming without training wheels. If you hit a wall, no one is going to be there to tell you that you screwed up. You will just crash and burn, or even worse, crash and keep running along in a very crippled state, without knowing anything is wrong. Because of this, it can be very fast. There are no extra checks or safe guards to keep it from blazing through your program with the full speed and potential of the processor (and, of course, how many extra steps you coded into your program).

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The runtime overhead for detecting stack overflow is positively insignificant. You get it for free with any OS that automatically commits memory only when used. –  Ben Voigt Aug 5 '10 at 0:14
@Ben Voigt: Okay, good point, assuming that is true for every hardware architecture, OS, and implementation of C/C++. My point is that perf is the reason most memory operations are not checked in C, and C++ takes most of that baggage with it. –  Merlyn Morgan-Graham Aug 5 '10 at 0:24
Well, let's say it's either really really cheap (running with enabled MMU) or so doggone expensive (no MMU, or MMU disabled) that it's not even practical to check in a debug build. –  Ben Voigt Aug 5 '10 at 3:18
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