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I am curious whether it is possible to determine the maximum size that an array can have in C++.

    #include <iostream>

    using namespace std;

    #define MAX 2000000

    int main()
    {
      long array[MAX];
      cout << "Message" << endl;
      return 0;
    }

This compiles just fine, but then segfaults as soon as I run it (even though array isn't actually referenced). I know it's the array size too because if I change it to 1000000 it runs just fine.

So, is there some define somewhere or some way of having #define MAX MAX_ALLOWED_ARRAY_SIZE_FOR_MY_MACHINE_DEFINED_SOMEWHERE_FOR_ME?

I don't actually need this for anything, this question is for curiosity's sake.

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you just want to understand max array size in stack? maybe recursion works for you, then? not in a single array but in combined way? – tartar Mar 31 '12 at 5:29
2  
@tar What does recursion have to do with this? – Cody Gray Mar 31 '12 at 5:29
    
This post doesn't answer your question, but should be an interesting read because it talks about the same seg fault problem: stackoverflow.com/questions/851122/… – K Mehta Mar 31 '12 at 5:29
3  
This array is NOT static. It's automatic. – R.. Mar 31 '12 at 5:35
1  
@tar I'm quite aware of what recursion is, I just don't understand what it has to do with this problem. Just because local variables and function calls all have information stored on the stack doesn't mean that you solve the solution with recursion. How do you recursively define objects to hold data? – Cody Gray Mar 31 '12 at 6:23
up vote 9 down vote accepted

There isn't a way to determine this statically, because the actual limit depends on how much stack space your thread has been given. You could create a new thread, give it 10 megabytes of stack, and you would be able to allocate a correspondingly larger local array.

The amount you can allocate on the stack also depends on how much has already been used so far.

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That makes sense, I guess I don't understand too well the difference between how static arrays and dynamic arrays are handled in terms of memory allocation at runtime – GuyGreer Mar 31 '12 at 5:29
3  
When you declare a local variable, the space for the whole array is allocated from the stack space (this is unlike some other languages such as Java). When you declare something global, outside a function, the linker sets up the memory addresses so the space exists even before your program starts running. The stack has a limited size (usually 1 megabyte on a modern desktop OS, but can vary widely), while the static available space is the whole application address space of the machine (2 GB or so on a 32-bit system). – Greg Hewgill Mar 31 '12 at 5:34
    
Are there any performance differences between these two memory types? Also, all programs use the same static space, even when they're not running? Is there some sharing that occurs in the static space or if you install a zillion programs you could just run out? I'm guessing issues with this don't come up very often then. – GuyGreer Mar 31 '12 at 5:42
    
The CPU sees no difference between the two "kinds" of memory. They're just addresses with data in them. Address space is not shared between applications unless they explicitly cooperate to do so. Static data space is allocated at run time, not at install time. – Greg Hewgill Mar 31 '12 at 5:46
    
Okay, I was confused by the wording. – GuyGreer Mar 31 '12 at 5:54
void foo(int level){
 int dummy[100];
 cerr<<level<<endl;
 foo(level+1); 
}

Then, maybe you can multiply the last printed level with 400 bytes. Recursive calls occupy most of the stack space I guess but you can get a lower-bound. I may miss some understanding of memory management here, so open to corrections.

So this is what I got on my machine with varying dummy array size.

level   array size    stack total
24257     100      9702800
 2597    1000     10388000
  260   10000     10400000
  129   20000     10320000
   64   40000     10240000
   25  100000     10000000
   12  200000      9600000
share|improve this answer
    
I understand now what you meant before, thank you – GuyGreer Mar 31 '12 at 5:52
    
I played with that solution for increasing size of integer array. Just to eliminate additional function call burden at each step. The max I got is when size of array is 10000 and the max stack size on my machine (ubuntu 10.04) is 10400000 bytes – tartar Mar 31 '12 at 5:57
    
Beware of tail call optimization here. – user1203803 Mar 31 '12 at 7:52
    
@daknok_t what's tail call optimization? – GuyGreer Apr 2 '12 at 2:26
    
If the function returns directly after a function call, the called function can use the same stack frame. – user1203803 Apr 2 '12 at 11:24

Most variables declared inside functions are allocated on the stack, which is basically a block of memory of fixed size. Trying to allocate a stack variable larger than the size of the stack will cause a stack overflow, which is what the segfault is caused by.

Often the size of the stack is 8MB, so, on a 64-bit machine, long max[1000000] has size 8*1000000 < 8MB (the stack is "safe"), but long max[2000000] has size 8*2000000 > 8MB, so the stack overflows and the program segfaults.

On the other hand, dynamically allocating the array with malloc puts the memory into the heap, which is basically unbounded (4GB on a 32-bit machine, 17,179,869,184GB on a 64-bit machine).

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Please read this to understand the limitations that are set by hardware and compiler. I don't think that you can have a MAX defined for you to use it right away.

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