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I was trying an experiment with malloc to see if I could allocate all the memory available.

I used the following simple program and have a few questions:

int main(void)
{
    char * ptr;
    int x = 100;

    while(1)
    {
        ptr = (char *) malloc(x++ * sizeof(char) / 2);
        printf("%p\n",ptr);
    }

    return 0;
}

1) Why is it that when using larger data types(int, unsigned long long int, long double) the process would use less memory but with smaller data types (int, char) it would use more?

2) When running the program, it would stop allocating memory after it reached a certain amount (~592mb on Windows 7 64-bit with 8GB RAM swap file set to system managed). The output of the print if showed 0 which means NULL. Why does it stop allocating memory after a reaching this threshold and not exhaust the system memory and swap?

I found someone in the following post trying the same thing as me, but the difference they were not seeing any difference in memory usage, but I am. Memory Leak Using malloc fails

I've tried the code on Linux kernel 2.6.32-5-686 with similar results.

Any help and explanation would be appreciated.

Thanks,

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Using long long it should be much more memory. What have you tried? What you are putting out is just the place in memory where it is stored, not the allocated memory. In your example you are allocating 50 bytes. –  Gandaro Feb 17 '12 at 16:00
    
Just wanted to say this before somebody else did, don't cast the return value of malloc. OOOssshh!! –  user681007 Feb 17 '12 at 16:03
    
There's a difference between local heap and system heap. In Windows, apps don't get a very large local heap, so malloc will run out of memory faster. Use VirtualAlloc() to allocate from the sysetem heap. Then the issue can become one of running out of handles/pages for small allocations not actual memory. –  BitBank Feb 17 '12 at 16:07
    
ricola: Why not ?! How do suggest doing it ? –  bang Feb 17 '12 at 16:07
    
Try calloc instead. Or write to the last allocated byte. –  pmg Feb 17 '12 at 16:09

4 Answers 4

up vote 2 down vote accepted

1)Usually memory is allocated in multiples of pages, so if the size you asked for is less than a page malloc will allocate at least one page.

2)This makes sense, because in a multitasking system, you're not the only user and your process is not the only process running, there are many other processes that share a limited set of resources, including memory. If the OS allowed one process to allocate all the memory it needs without any limitation, then it's not really a good OS, right ?

Finally, in Linux, the kernel doesn't allocate any physical memory pages until after you actually start using this memory, so just calling malloc doesn't actually consume any physical memory, other than what is required to keep track of the allocation itself of course. I'm not sure about Windows though.

Edit: The following example allocates 1GB of virtual memory

#include <stdio.h>
int main(int agrc, char **argv)
{
    void *p = malloc(1024*1024*1024);
    getc(stdin);
}

If you run top you get

top -p `pgrep test`
PR  NI  VIRT  RES  SHR S %CPU %MEM    TIME+  COMMAND
20   0 1027m  328  252 S    0  0.0   0:00.00 test

If you change malloc to calloc, and run top again you get

top -p `pgrep test`
PR   NI VIRT  RES  SHR S %CPU %MEM    TIME+ COMMAND              
20   0  1027m 1.0g 328 S    0  1.3   0:00.08 test
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Your explanation of points 1 and 2 make things clearer to me now. However, when I ran the code under Linux and then ran the free command, the amount of free memory decreased. –  maxmouse Feb 17 '12 at 17:58
    
@user1216551 I'm not sure, but I think this could be some overhead related to keeping track of the allocation(s) itself, I updated my answer with an example. –  mux Feb 17 '12 at 19:01
    
My code generates the following when running top: PR NI VIRT RES SHR S %CPU %MEM TIME+ COMMAND 20 0 3071m 427m 328 R 44.3 85.0 0:11.84 malloc –  maxmouse Feb 17 '12 at 21:16
    
@user1216551 it looks reasonable to me, if malloc has to actually keep track of all those allocations and their sizes, I've ran your code here and I reached vert/res: 10.3g/804m –  mux Feb 18 '12 at 0:04

1) When you allocate memory, each allocation takes the space of the requested memory plus the size of a heap frame. See a related question here

2) The size of any single malloc is limited in Windows to _HEAP_MAXREQ. See this question for more info and some workarounds.

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How are you reading your memory usage?

1) When allocating with char, you're allocating less memory per allocation than you do with for example long (one quarter as much, usually, but it's machine dependent) Since most memory usage tools external to the program itself don't show allocated memory but actually used memory, it will only show the overhead malloc() itself uses instead of the unused memory you malloc'd.

More allocations, more overhead.

You should get a very different result if you fill the malloc'd block with data for each allocation so the memory is actually used.

2) I assume you're reading that from the same tool? Try counting how many bytes you actually allocate instead and it should be showing the correct amount instead of just "malloc overhead".

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I'm using task manager in Windows to view the memory usage. Your explanation makes sense. When I filled the malloc'd block with data the program crashed almost instantly. –  maxmouse Feb 17 '12 at 17:55

1) This could come from the fact that memory is paged and that every page has the same size. If your data fails to fit in a page and falls 'in-between' two pages, I think it is move to the beginning of the next page, thus creating a loss of space at the end of previous page.

2) The threshold is smaller because I think every program is restricted to a certain amount of data that is not the total maximum memory you have.

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