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As the title states: Is there any general "rule of thumb" about the size of the stack. I'm guessing the size will vary depending on the OS, the architecture, the size of the cache(s), how much RAM is available etc.

However can anything be said in general, or is there any way to find out, how much of the stack, this program is allowed to use?. As a bonus question is there any way (with compiler flags etc. (thinking mostly C/C++ here, but also more general)) that the size of the stack can be set to a fixed size by the user?

Btw, I'm asking strictly out of curiosity, I'm not having a stack overflow. :)

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The amount of stack a given program will use is, in general, undecidable (it's equivalent to the Halting problem). Are you asking how you can explicitly force a limited stack size? –  Oliver Charlesworth Mar 11 '13 at 0:06
This question may be of interest to you stackoverflow.com/questions/156510/… –  Ganesh Mar 11 '13 at 0:07
First of all thanks! But why is this undecidable and equivalent to the halting problem? –  Andersnk Mar 11 '13 at 0:22
@Anders: The stack size available to your program is very well defined. The amount of stack an arbitrary program will require for correct operation is similar to the Halting problem for that program (and is only undecidable in general -- most specific programs permit analysis). –  Ben Voigt Mar 11 '13 at 0:24
@AndersNannerupKristensen: Because in order to determine maximum stack usage, you essentially need to analyse all possible code paths (which I'm sure you can see is very similar to the problem imposed by the Halting Problem). In some (perhaps many) cases, though, this can be figured out via static analysis. But recursion or function pointers make this tricky. –  Oliver Charlesworth Mar 11 '13 at 0:28

2 Answers 2

up vote 3 down vote accepted

Yes you can set the stack size, it usually is a linker flag, and it depends on your toolchain (typically this is referred to by the name of the compiler).

You will also find several existing questions here on StackOverflow.

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--stack in GCC/GNU-ld is Windows-specific. It's not used on other targets. –  R.. Mar 11 '13 at 1:12
@R..: Is the option spelled differently (-stack_size) or you think there is no option? –  Ben Voigt Mar 11 '13 at 1:16
There is no option. On unix systems, maximum stack size for the initial thread is determined by the ulimit command/setrlimit function, but on Linux, the reserved/committed stack size is fixed at approximately 128k plus a little extra that seems to depend on the environment (132k or 136k is typical total). If the program attempts to grow the stack beyond that, and there's memory free, it can grow up to the limit set by ulimit/setrlimit, but there's no way to reserve more than ~128k at the moment exec takes place. –  R.. Mar 11 '13 at 1:20
@R..: Well, I know that most (maybe all) of the embedded targets I use have such a linker option. So it seems that Linux is the odd man out. And I don't think that "memory free" is relevant, unless you have disabled swap and overcommit, the only thing that matters is whether there's enough contiguous virtual address space. –  Ben Voigt Mar 11 '13 at 1:24
I normally assume overcommit is disabled. Leaving overcommit enabled results in a horribly buggy, non-conforming, dangerously-unstable system. :-) Anyway, even if overcommit is enabled, the attempt to enlarge the stack can be what triggers the OOM killer to kill your process. –  R.. Mar 11 '13 at 1:26

In Windows the default stack size for a thread is a million bytes, regardless of operating system, etc.

In managed code (C#, VB, etc) you can force a new thread to have a different stack size with this ctor:


To change the stack size of the default thread of a Windows program, whether it is managed or not, you can use the editbin utility:


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Actually, the default size (if you pass 0 to CreateThread) is the same as the stack size of the startup thread (as specified in the PE header). –  Ben Voigt Mar 11 '13 at 0:18
@BenVoigt: I did not know that, but that makes perfect sense. Thanks! –  Eric Lippert Mar 11 '13 at 4:46
Just additional information: The API for creation of native threads (which allows specifying the stack size) is CreateThread –  Ben Voigt Mar 11 '13 at 5:04

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