That question is platform specific. I know how to do it on Linux, for example.

to determine stack size i don't think you need inline assembly. you can just get pointers from local variables and compare. but it is going to be quite unprecise. for a better solution it going to be platform specific

@JoshDetwiler The tree is on the heap. For traversing the tree I am using recursion. I now have an iterative traversing version but just out of curiosity I want to know how to handle stake-overflow at runtime.

@SergeyA I am using Ubuntu 18.04.

@WaqarRashid The way to handle it is to use the iterative version so you can't overflow the stack with too many recursive calls

@Tyker I was thinking esp and ebp would result in more precise answer rather than using other techniques.

@JoshDetwiler Its a SffixTree

On ubuntu, you simply can look at /proc/<pid>/smaps

@SergeyA I am more interested in doing from inside the program using C++ or inline assembly.

@YSC No matter what I do, as far as Its recursive, it will hit stack-overflow. I implemented an iterative solution for my problem that is a bit slower than recursive one. I am just curious if there is way that I can detect stakeoverflow before it happens and fallback to iterative solution.

Do you understand tail recursion?

@2785528 Moving the recursive function call to the end of the function? But parameters to the function would still be on stack and piling up with more recursive calls or is there some problem with my understanding.

The answer to this is not adding implementation-and-phase-of-the-moon-specific code paths, it's getting your recursion under control. Quicksort recurses into the smaller partition, so there will never be more than log₂ N partitions on the stack, so it's easy to identify a "guaranteed-never-to-exceed" stack usage. Find some similar constraint on your own recursion.

Tail recursion works much better than your expectations. Properly coded, and with -O3 optimization, the optimized recursive code does not use the stack. In my experience, the optimization does not occur with -O0 (but might occur with -O1 or more)

"I now have an iterative traversing version" - this code should not overflow, if it does, you should submit a new post about it. The optimized tail recursion causes the compiler to create an iterative loop, but the code still has the advantages of recursion.

AFAIK if you can write it recursively, you can rewrite it iteratively (with the exact same algorithm, but usually better performance, as the calls tend to be less efficient than manipulation of memory variables). So your basic premise of "recursive version is better" is probably wrong. ... about ebp vs esp .. well, gcc at -O3 usually doesn't use ebp for frame pointer, also while you are inside the function body, the ebp (if used as FP) is already "local", i.e. the ebp - esp would be some small constant (size of local variables) inside the function.

@Ped7g In my case the iterative version is slower, may be my implementation is not good enough. I know the problems without recursive implementations, I was just expecting that it wouldn't so much difficult to find stack size at runtime.

@2785528 Thanks for the information on tail recursion. The iterative version doesn't overflow.

Those must be huge trees. I would suspect a bug before I suspected that you were running out of stack space. Have you actually checked to see there is nothing wrong?

@MartinYork you can always use std::vector-like memory buffer as artificial "stack" for data, just avoiding call/ret pairing. There's no magic about "stack" which can't be represented by other common means.