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I used the following code to find it out but I always get 1 as the answer. is there something wrong. Thanks

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

int main(){
    int mult = 0;
    int chk =8;
        int *p = (int*)malloc(1024*1024*1024*mult);
            chk =0;

    }while(chk !=0);
    mult = mult -1;
    printf("The number of gigs allocated is : %d\n",mult);
    return 0;

Just to help, I have a 64 bit system with both windows and linux installed. Thus, is the above logic correct even though I am getting just 1 gb as the answer on a 64 bit system?

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It depends on your o/s. It may depend on the limits set by the o/s, which may be adjusted by appropriately privileged users. Have you tried allocating 1023*1024*1024*2? –  Jonathan Leffler Feb 2 '11 at 16:16
I think this code risks suffering from integer overflow, if int is a signed 32-bit variable. Try making the constants unsigned long (or unsigned long long if your compiler has it). –  unwind Feb 2 '11 at 16:20
@unwind That worked for me. I was able to get past 500 GBs before shutting it off. (Mac OS X uses mmap() beyond a certain size.) Make your comment an answer so I can up vote it. –  chrisaycock Feb 2 '11 at 16:29

3 Answers 3

up vote 3 down vote accepted

If it is a 32-bit OS, then it is not surprising that the largest contiguous block would be 1GB (or somewhere between that and 2GB). On a 64-bit OS, larger blocks would be possible.

If you change your code to allocate smaller individual pieces, you will likely be able to allocate more than 1GB total.

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Sometimes, you can get up to about 3, 3.5 GB on 32-bit system. 4 GB is the hard limit, of course. It is some value smaller than that. –  Jonathan Leffler Feb 2 '11 at 16:15
@Jonathan: I was going to mention numbers in my answer and then thought better of it since I didn't know what platform he was using. Plus there are other issues such as fragmentation to consider. Allocating 1MB blocks in a loop would "overstate" the maximum compared to most real world applications (at least in my experience). –  Mark Wilkins Feb 2 '11 at 16:23
@Jonathan: If a 32-bit OS allows you to allocate more than 2gb contiguous and yet has a 32-bit ptrdiff_t, it is broken and nonconformant (it will yield the wrong sign for pointer differences, which could be extremely dangerous!). –  R.. Feb 2 '11 at 21:40
@R..: not sure about one block of contiguous memory, but there are options on Windows to allow you to get more then 2 GiB total shared memory. I don't know what the options are - I don't work enough on Windows to care, either. But the products I work on (for the Unix ports) are able to use more than 2 GiB on Windows (and on Unix) on 32-bit systems. More than 2 GiB in aggregate...but less than 4 GiB. –  Jonathan Leffler Feb 2 '11 at 23:13
If the memory is obtained via some method outside of the functions specified by the C standard, then I suppose an implementation can document that pointer subtraction on such memory does not necessarily work. But ptrdiff_t is supposed to be large enough to store any pointer difference whose result is defined, and subtracting pointers within a single chunk obtained by malloc is certainly well-defined. –  R.. Feb 2 '11 at 23:44
int main(void){
    int MB = 0;
    printf("The number of gigs allocated is : %d\n",MB);
    return EXIT_SUCCESS;
share|improve this answer
What is this supposed to show? You can very easily come into a situation where malloc can return without error but allocate more space than you actually have. Take a look at "memory overcommit" –  Falmarri Feb 8 '11 at 0:34

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