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There is a function that calls itself recursively infinitely.

This function has some arguments too.

For every function call the arguments and return address are pushed on the stack .

For each process there is fixed size of stack space that cannot grow dynamically like heap. And I guess each thread also has its own stack.

Now if a function is called recursively infinitely and process runs out of stack space , what will happen?

Will program crash? Will OS handle the situation? There is 4GB of address space so why cannot OS do something to increase stack size.

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I don't know, I thought it was cute. ++ –  guns Mar 25 '09 at 16:04

9 Answers 9

up vote 7 down vote accepted

stack overflow.

In UNIX and compatible the process will get terminated throwing SIGSEGV or SIGSTKFLT signal.

In Windows the process will get terminated throwing exception STATUS_STACK_OVERFLOW.

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LOL, from the title, I thought this question was a joke, in the navelgazing tradition. –  harpo Mar 25 '09 at 15:55
    
my though exactly ;-) asking for stack overflow on stackoverflow ;-) –  vartec Mar 25 '09 at 15:59
    
christ, clue's in the title... –  annakata Mar 25 '09 at 16:02

This isn't language-agnostic - it very much depends on the language/platform.

In C# (or any .NET language) you'll get a StackOverflowException, which as of .NET 2.0 cannot be caught and will bring down the process.

In Java (or any JVM language) you'll get a StackOverflowError (as specified here).

I'll leave it to other answers to deal with other languages and platforms :)

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For C++ at least, you will be in the realms of "undefined behaviour" - a bit like the Twilight Zone, anything could happen.

And if the recursion is infinite, what good will increasing the stack size do? Better to fail early than later.

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And to put a finer point on it. There is no such thing as infinite recursion on any machine with limited memory. The base case of that recursion just happens to be a stack overflow. =) –  JohnFx Mar 25 '09 at 16:11

Depending on the language you will either get an exception (e.g. in Java) or the program will crash (in C, C++).

Typically the stack is relatively small, because that suffices, and a stack overflow signals an error. In Java you can increase the stack space with a command line option if you must.

Also note that functional languages typically compile tail recursion into a loop, and no stack space is used in that case.

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A typical Unix result will be a segmentation fault. Don't know about Windows.

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What will happen?

Nothing that you should ever rely on.

Make sure your algorithms terminate. That's the only portable piece of advice here.

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definitely agree. If the algorithm does not terminate, it's not a valid algorithm. –  SirDemon Mar 27 '09 at 6:02
    
I actually receive downvotes on this? Yes, vartec's answer looks nicer. But there are machines without stack protection out there. The correct answer, thus, is "behaviour is undefined". The world is larger than Windows and Linux... –  DevSolar Mar 27 '09 at 9:03

Yes, your program will crash. There is no way for the OS to "handle the situation", other than preventing your buggy code from damaging other processes (which it is already doing). The OS has no way of knowing what it was you really wanted your program to do, rather than what you told it to do.

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There are plenty of answers what will happen, but I want to mention the extremely easy solution:

Just by a turing machine and let your code run on that. It will have plenty of space.

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The program will crash. Usually stack is limited by operating systems in order to trap bugs like this before they consume ALL available memory. On Linux at least the stack size can be changed by the user by issuing the limit command in shell.

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it wasn't me who downvoted your answer but (at least on x86) there's no way the kernel can detect a program running out of stack space as long as stack pointer keeps pointing to a page that's allocated to the process. –  Tamas Czinege Mar 25 '09 at 16:01
    
But you pointed out exactly how it can be done: the stack is mapped on memory pages, and at the stack limit there is a protected (no-write) page. –  Antti Huima Mar 25 '09 at 16:33

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