I want to do DFS on a 100 X 100 array. (Say elements of array represents graph nodes) So assuming worst case, depth of recursive function calls can go upto 10000 with each call taking upto say 20 bytes. So is it feasible means is there a possibility of stackoverflow?

What is the maximum size of stack in C/C++?

Please specify for gcc for both
1) cygwin on Windows
2) Unix

What are the general limits?

  • 10
    You do know that you can implement depth-first search without recursion, right? – Sebastian Dec 1 '09 at 12:55
  • 2
    No i dont know, please explain. – avd Dec 1 '09 at 12:56
  • 1
    I've made a small example of DFS without recursion in my answer – Andreas Brinck Dec 1 '09 at 13:04
  • 39
    plus one for a question about actual stack overflow – Sam Watkins Feb 6 '15 at 1:48
  • 1
    @SamWatkins yeah, one of the biggest problems to me with the name Stack Overflow is that I might look up "stack overflow" on Google and end up in this website, but not necessarily/less likely in questions about stack overflows... – lalilulelost Mar 20 '18 at 2:01

In Visual Studio the default stack size is 1 MB i think, so with a recursion depth of 10,000 each stack frame can be at most ~100 bytes which should be sufficient for a DFS algorithm.

Most compilers including Visual Studio let you specify the stack size. On some (all?) linux flavours the stack size isn't part of the executable but an environment variable in the OS. You can then check the stack size with ulimit -s and set it to a new value with for example ulimit -s 16384.

Here's a link with default stack sizes for gcc.

DFS without recursion:

std::stack<Node> dfs;
do {
    Node top = dfs.top();
    if (top is what we are looking for) {
    for (outgoing nodes from top) {
        dfs.push(outgoing node);
} while (!dfs.empty())
  • 11
    And just for reference, a BFS is the same except that you use a FIFO instead of a stack. – Steve Jessop Dec 1 '09 at 14:39
  • Yes, or in STL-lingo use a std::deque with pop_front/push_back – Andreas Brinck Dec 1 '09 at 15:07
  • your DFS with stack results will be different from recursion version. In some cases it doesn't matter, but in others(for ex. in topological sort) you will get wrong results – spin_eight Apr 29 '16 at 8:16
  • Yes, the default limit for VS is indeed 1MB. More info and the way to set a different value can be found in Microsoft documentation: msdn.microsoft.com/en-us/library/tdkhxaks(v=vs.140).aspx – FrankS101 Oct 5 '16 at 15:02
  • I prefer to use an explicit stack data structure for such algorithms, rather than recursion, so that 1. don't depend on size of system stack, 2. can change the algorithm to use a different data structure e.g. queue or priority queue without throwing out all the code. – Sam Watkins Mar 20 '18 at 2:08

stacks for threads are often smaller. You can change the default at link time, or change at run time also. For reference some defaults are:

  • glibc i386, x86_64 7.4 MB
  • Tru64 5.1 5.2 MB
  • Cygwin 1.8 MB
  • Solaris 7..10 1 MB
  • MacOS X 10.5 460 KB
  • AIX 5 98 KB
  • OpenBSD 4.0 64 KB
  • HP-UX 11 16 KB

Platform-dependent, toolchain-dependent, ulimit-dependent, parameter-dependent.... It is not at all specified, and there are many static and dynamic properties that can influence it.

  • What are the general limits? – avd Dec 1 '09 at 12:46
  • 4
    There are no "general limits". On Windows, with default VC++ linker options and default CreateThread behaviour, typically something around 1 MiB per thread. On Linux, with an unlimited user, I believe that there is typically no limit (the stack can just grow downwards to occupy almost the entire address space). Basically, if you have to ask, you shouldn't be using the stack. – DrPizza Dec 1 '09 at 12:49
  • 1
    On embedded systems, you might have 4k or less. In which case you do have to ask even when it's reasonable to be using the stack. The answer is usually a Gallic shrug. – Steve Jessop Dec 1 '09 at 14:43
  • 1
    Ah true, also often the case in kernel mode. – DrPizza Dec 1 '09 at 22:49

Yes, there is a possibility of stack overflow. The C and C++ standard do not dictate things like stack depth, those are generally an environmental issue.

Most decent development environments and/or operating systems will let you tailor the stack size of a process, either at link or load time.

You should specify which OS and development environment you're using for more targeted assistance.

For example, under Ubuntu Karmic Koala, the default for gcc is 2M reserved and 4K committed but this can be changed when you link the program. Use the --stack option of ld to do that.

  • What are the general limits? – avd Dec 1 '09 at 12:46
  • 2
    @lex: there are no general limits. It depends on a lot of parameters. – Michael Foukarakis Dec 1 '09 at 12:47
  • 1
    Reserved is how much address space to allocate, committed is how much to attach backing storage to. In other words, reserving address space does not mean the memory will be there when you need it. If you never use more than 4K stack, you're not wasting real memory for the other 1.6M. If you want to guarantee there'll be enough stack, reserved and committed should be identical. – paxdiablo Dec 1 '09 at 12:57
  • 1
    @paxdiablo 2M - 4k isn't 1.6M. Just saying. (got me confused the first 3 times I read your comment) – griffin Aug 28 '13 at 13:56
  • 2
    @griffin, kudos for the first person to catch that in 3+ years. I of course meant "rest of it" - I'll avoid an actual figure so as not to make another possible mistake :-) – paxdiablo Aug 28 '13 at 14:23

I just ran out of stack at work, it was a database and it was running some threads, basically the previous developer had thrown a big array on the stack, and the stack was low anyway. The software was compiled using Microsoft Visual Studio 2015.

Even though the thread had run out of stack, it silently failed and continued on, it only stack overflowed when it came to access the contents of the data on the stack.

The best advice i can give is to not declare arrays on the stack - especially in complex applications and particularly in threads, instead use heap. That's what it's there for ;)

Also just keep in mind it may not fail immediately when declaring the stack, but only on access. My guess is that the compiler declares stack under windows "optimistically", i.e. it will assume that the stack has been declared and is sufficiently sized until it comes to use it and then finds out that the stack isn't there.

Different operating systems may have different stack declaration policies. Please leave a comment if you know what these policies are.


I am not sure what you mean by doing a depth first search on a rectangular array, but I assume you know what you are doing.

If the stack limit is a problem you should be able to convert your recursive solution into an iterative solution that pushes intermediate values onto a stack which is allocated from the heap.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.