15

I'm implementing a sequential program for sorting like quicksort. I would like to test the performance of my program in a huge array of 1 or 10 billions of integers. But the problem is that I obtain a segmentation error due to the size of the array.

A sample code of declaration of this array:

#include <stdio.h>
#include <stdlib.h>
#include <time.h>
#define N 1000000000

int main(int argc, char **argv)
{
  int list[N], i;
  srand(time(NULL));
  for(i=0; i<N; i++)
     list[i] = rand()%1000;
  return 0;
}

I got a proposition to use mmap function. But I don't know how to use it ? can anybody help me to use it ?

I'm working on Ubuntu 10.04 64-bit, gcc version 4.4.3.

Thanks for your replies.

3
  • 2
    How much physical memory does your computer have?
    – BlueCode
    Sep 22, 2010 at 16:00
  • 6
    @BlueCode: That probably doesn't matter; it's virtual memory that matters; not all allocated memory in a process's address space needs to be backed immediately by RAM. Sep 22, 2010 at 16:06
  • try putting it on the heap instead of the stack. Its quite likely that the max stack size is limited by the OS or c runtime
    – pm100
    Sep 22, 2010 at 16:57

6 Answers 6

12

Michael is right, you can't fit that much on the stack. However, you can make it global (or static) if you don't want to malloc it.

#include <stdlib.h>
#include <time.h>
#define N 1000000000
static int list[N];

int main(int argc, char **argv)
{
  size_t i;
  srand(time(NULL));
  for(i=0; i<N; i++)
     list[i] = rand()%1000;
  return 0;
}
2
  • Thank you for replies. I have test the use of dynamic allocation with malloc and the use of a global variable. Theses two solutions work effectively but the use of a global parameter induces a compilation which takes a long time (about 8 minutes).
    – semteu
    Sep 23, 2010 at 3:36
  • 1
    @dlpcoder: try reading something like this: geeksforgeeks.org/memory-layout-of-c-program
    – nmichaels
    Apr 5, 2016 at 22:03
12

You must use malloc for this sort of allocation. That much on the stack will fail nearly every time.

int *list;

list = malloc(N * sizeof(int));

This puts the allocation on the heap where there is a lot more memory available.

5
  • You have to be careful, malloc(N * sizeof(int)) might fail too, some compilers add a limitation to the maximum contiguous chuck that can be allocated.
    – jbernadas
    Sep 22, 2010 at 16:00
  • 4
    and N * sizeof(int) is likely to overflow on a 32-bit computer btw. Sep 22, 2010 at 16:12
  • @AlexandreC. no it isn't. size_t on a 32-bit computer must pretty much be 32-bits, unsigned and therefore fit. It is not to say that you can allocate that much memory though Mar 22, 2019 at 7:15
  • @AnttiHaapala: If N is two billions, N * sizeof(int) will overflow. Mar 24, 2019 at 12:35
  • @AlexandreC. N==1000000000, N!=1073741824, N!=2000000000 Sep 24, 2020 at 19:59
3

You probably don't create so large an array and if you do you certainly don't create it on the stack; the stack just isn't that big.

If you have a 32-bit address space and a 4-byte int, then you can't create an array with a billion ints; there just won't be enough contiguous space in memory for that large an object (there probably won't be enough contiguous space for an object a fraction of that size). If you have a 64-bit address space, you might get away with allocating that much space.

If you really want to try, you'll need either to create it statically (i.e., declare the array at file scope or with the static qualifier in the function) or dynamically (using malloc).

1
  • OP poster states that this is a 64bit machine, so this should fit into virtual address space. Sep 22, 2010 at 16:41
3

On linux systems malloc of very large chunks just does a mmap under the hood, so it is perhaps too tedious to look into that.

Be careful that you don't have neither overflow (signed integers) nor silent wrap (unsigned integers) for your array bounds and indices. Use size_t as a type for that, since you are on a 64bit machine, this then should work.

But as a habit you should definitively check your bounds against SIZE_MAX, something like assert(N*sizeof(data[0]) <= SIZE_MAX), to be sure.

1
  • assert(N*sizeof(data[0]) <= SIZE_MAX) Does not work when N*sizeof(data[0]) creates and overflow and wraps around and become smaller than SIZE_MAX. A better way: assert(sizeof(data[0]) <= SIZE_MAX/N) Sep 24, 2020 at 20:02
2

The stack allocations makes it break. N=1Gig ints => 4Gig of memory (both with a 32-bit and a 64-bit compiler). But if you want to measure the performance of quicksort, or a similar algorithm of yours, this is not the way to go about it. Try instead to use multiple quicksorts in sequence on prepared samples with a large size.

-create a large random sample not more than half your available memory.
make sure it doesn''t fill your ram!
If it does all measuring efforts are in vain. 
500 M elements is more than enough on a 4 gig system.

-decide on a test size ( e.g. N = 100 000 elements)
-start timer 
--- do the algoritm for ( *start @ i*N, *end @ (i+1)*N) 
(rinse repeat for next i until the large random sample is depleted)
-end timer

Now you have a very precise answer to how much time your algorithm has consumed. Run it a few times to get a feel of "how precise" (use a new srand(seed) seed each time). And change the N for more inspection.

0
0

Another option is to dynamically allocate a linked list of smaller arrays. You'll have to wrap them with accessor functions, but it's far more likely that you can grab 16 256 MB chunks of memory than a single 4 GB chunk.

typedef struct node_s node, *node_ptr;
struct node_s
{
    int data[N/NUM_NODES];
    node_ptr next;
};
1
  • Thanks for your proposition, I think, it will be difficult to apply a simple sorting algorithm like quicksort in this kind of data structure.
    – semteu
    Sep 23, 2010 at 2:16

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