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Please take a look at this code:

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

int main()
    char* foo = (char*)malloc(500000000);

    // when I uncomment stuff that's below then operating system
    // admits that this program uses 500MB of memory. If I keep
    // this commented, it claims that the program uses almost no
    // memory at all. Why is it so?

    for (int i=0; i<500000000; i++)
        foo[i] = (char)i;

    int bar; scanf("%d", &bar); // wait so I can see what's goin on


    return 0;

My intuition is simple. When I allocate 500MB with malloc call then OS should say that the process is using over 500MB of memory. But apparently, it doesn't work that way. What am I missing? What trick is OS using, what should I read about?

Thank you in advance for any clues.

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Deer is an animal. –  LihO Jan 6 '13 at 21:03
btw, this is C and not C++. –  Mahmoud Al-Qudsi Jan 6 '13 at 21:07
Also note that 1MB == 1024KB == 1048576B, 500000000B is 476.8MB –  Dave Hillier Jan 6 '13 at 21:07
When you say "the OS says the process is using n bytes of memory?" what metric are you talking about? People use "memory" to mean (1) virtual address space (2) virtual bytes private to a particular process (3) physical memory (4) page file reserved space, (5) page file committed space, and half a dozen other things. It is entirely possible that you're looking at the wrong metric in the first place. –  Eric Lippert Jan 6 '13 at 21:09
@gustafr What is more important? To be pedantically right or to talk in a way that others understand you? SI units are just a convention, to make sure people understand each other. Bytes (unfortunately) use a different convention. –  svick Jan 6 '13 at 22:40

5 Answers 5

What am I missing? What trick is OS using, what should I read about

It's a form of lazy allocation. In a nutshell:

  • malloc asks the OS for a lot of memory and the OS goes: "sure, here you go" and does (almost) nothing
  • the secretly OS hopes you never touch the "allocated" pages
  • when you do touch an allocated page, the OS catches the inevitable page fault, sighs and allocates the page

This happens per-page. So you'll get the same usage if in your for you increment i by the page size on your system (likely 4096 or something like that). As a simple trick, try playing with the number of elements the for touches. As a bonus, try to predict the memory usage by dividing the size by the size of the page

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That sounds reasonable, thank you for your response. –  chomzee Jan 6 '13 at 21:12
@chomzee Don't take my word for it. Try it out and see if things really happen that way. –  cnicutar Jan 6 '13 at 21:13
One thing makes me wonder. What if OS has no place for such lazy allocation when I 'touch' some fragment of virtual memory? malloc already succeded and returned the value. Will the program crash? –  chomzee Jan 6 '13 at 21:16
@chomzee I think the OS wouldn't give it to you in the first place. At any rate, if at all possible, it will try to swap something out to make room. But again, I don't think it oversubscribes. –  cnicutar Jan 6 '13 at 21:18
@cnicutar Apparently, you can control the overcommitment behavior under linux. See link. fuz.su/~fuz/overcommit.c –  FUZxxl Jan 6 '13 at 21:54

All memory usage in a process is virtualized by the OS. You might be "allocating" a memory block in your code, but the OS might not actually be committing it to physical memory until it is actually used by the code.

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The operating system memory pages are only really allocated to your process when you access them (by writing, in your case). The exact behavior depends on you compiler and OS - on a different system you might find that the memory is used up immediately.

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Your OS is likely not allocating (or showing that it has allocated) the memory until you use it.

In any case, checking the return value of malloc() is a pretty good idea if you're gonna allocate such large chunks. malloc() can fail, you know.

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I know malloc can fail. But it doesn't seem like it's the case since I also tried: foo[0] = 0; foo[4999...9] = 0; and it also claims that proces uses very few memory. –  chomzee Jan 6 '13 at 21:07

It has nothing to do with OS. The compiler optimizes the resulting code such that if the allocated memory is not used then it removes the statement that allocates the memeory in the resulting binary. You can check this by setting your compilers optimization level to zero. Then you will get 500MB in either case because the memory will be allocated every time.

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