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Stumbled upon this interview question somewhere,

In C, Given a variable x, how do you find out if the space for that variable is allocated on the stack or heap?

(Is there any way to find it out programatically and not having to go through the symbol table, etc? And does finding if the space is allocated in stack or heap has any practical implications?)

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see the assembly code.. you can get it there – Omkant Dec 5 '12 at 9:07
Did he mention anything else? Like architecture, compiler, OS? Else i'd say no. – RedX Dec 5 '12 at 9:07
No, this was the only information given. – Raj Dec 5 '12 at 9:28
I don't think there's a portable solution. There's no such thing as a stack or a heap in either language, so the question is much more about a given implementation of the language. If you're looking at GCC, for example, it has a ton of malloc-related utilities that might help. – Kerrek SB Dec 5 '12 at 9:43
They're not usually after a "correct answer" - they're usually after a demonstration of knowledge of heap, stack, calling conventions, where local variables live and then on to things like compiler optimisation, the direction stack grows, how different architectures manage heap and stack etc. It's a fairly open ended question that can give an interviewer a good idea of what someone knows. – Joe Dec 5 '12 at 9:51

6 Answers 6

up vote 8 down vote accepted

No, not in general.

Do you know of gcc -fsplit-stack ?

It is up to the implementation to decide whether to allocate a contiguous stack or a stack where blocks are interleaved with heap blocks in memory. Good luck figuring out whether a block was allocated for the heap or the stack when the latter is split.

Note: it's quite a useless information anyway...

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I suppose that with -fsplit-stack you could reasonably answer "both" for an automatic variable. It's on the stack, and the stack is on the heap. – Steve Jessop Dec 5 '12 at 10:12
@SteveJessop: Ah! That should get the interviewer thinking :) – Matthieu M. Dec 5 '12 at 10:13

If you are working on an architecture that stores the stack on a larger address than the heap, you could compare the variable address with the bottom of the stack. Using the pthread threading API, this comparison would look like this:

#include <stdio.h>
#include <stdlib.h>
#include <pthread.h>
#include <inttypes.h>

int is_stack(void *ptr)
  pthread_t self = pthread_self();
  pthread_attr_t attr;
  void *stack;
  size_t stacksize;
  pthread_getattr_np(self, &attr);
  pthread_attr_getstack(&attr, &stack, &stacksize);
  return ((uintptr_t) ptr >= (uintptr_t) stack
          && (uintptr_t) ptr < (uintptr_t) stack + stacksize);

The test:

int main()
  int x;
  int *p1 = malloc(sizeof(int));
  int *p2 = &x;

  printf("%d %d\n", is_stack(p1), is_stack(p2));
  return 0;

...prints 0 1, as expected.

The above code will not detect storage from stacks in other threads. To do that, the code would need to track all created threads.

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I don't think it has solutions. The code may adjust var's address by stack(heap) address scope, but it's would not be an exact way. At most, the code can only run in some certain platforms.

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It might be a trick question. Variables have either automatic or static storage duration[*]. You can fairly safely say that automatics are allocated "on the stack", at least assuming they aren't optimized into registers. It's not a requirement of the standard that there be "a stack", but a conforming C implementation must maintain a call stack and associate automatic variables with the levels of the call stack. So whatever the details of what it actually does, you can pretty much call that "the stack".

Variables with static storage duration generally inhabit one or more data sections. From the POV of the OS, data sections might be allocated from the heap before the program starts, but from the POV of the program they have no relation to the "free store".

You can tell the storage duration of a variable by examining its definition in the source -- if it's in function scope then it's automatic unless marked static. If it's not in function scope then it has static duration regardless of whether or not it is marked static (since the static keyword means something different there).

There is no portable way to tell the storage duration of a variable from its address, but particular implementations might provide ways to do it, or tools that you can use with greater or lesser reliability to take a guess.

Objects can also have dynamic storage duration (which generally is what "allocated on the heap" is intended to mean), but such objects are not variables, so that would be the trick if there is one.

[*] Or thread-local in C11 and C++11.

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This is NOT guaranteed by any standard BUT

on most platforms the stack grows down from highest address available, and heap grows up from the bottom if the most significant byte of the address is in the top half of the available memory space for your platform, and you haven't allocated gigabytes of memory, it's a pretty good bet it's on the stack.

#include <iostream>
#include <stdlib.h>
int main()
int x = 0;
int* y = new int;

unsigned int a1 = (int) &x;
unsigned int a2 = (int) y;

std::cout<<std::hex<<a1<<"  "<<a2<<std::endl;

gives the output ffbff474 21600 on the machine I'm typing this.

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No it's not possible to determine that by memory location, the compiler would have to support it with isstack() to be portable.

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