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gcc 4.4.1 c89

I have the following code snippet:

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

 char *buffer = malloc(10240);
 /* Check for memory error */
    fprintf(stderr, "Memory error\n");
    return 1;
 printf("sizeof(buffer) [ %d ]\n", sizeof(buffer));

However, the sizeof(buffer) always prints 4. I know that a char* is only 4 bytes. However, I have allocated the memory for 10kb. So shouldn't the size be 10240? I am wondering am I thinking right here?

Many thanks for any suggestions,

share|improve this question
For the most part the C compiler (for any version) doesn't have any idea what the function malloc actually does or is used for. All it knows is that it takes an unsigned integer (size_t) and returns a void pointer. It could use it's parameter to seed the random number generator and cast a random number to a (void *) for all the compiler cares, so the compiler can't know what the sizeof the memory pointed to is. – nategoose Apr 28 '10 at 17:19
up vote 12 down vote accepted

You are asking for the size of a char* which is 4 indeed, not the size of the buffer. The sizeof operator can not return the size of a dynamically allocated buffer, only the size of static types and structs known at compile time.

share|improve this answer
sizeof can return the size of a dynamic buffer for variable length arrays in C99. – Carl Norum Apr 28 '10 at 16:59
Is there any method under c89 that you can find how much memory has been allocated with a dynamically allocated buffer? Thanks. – ant2009 Apr 28 '10 at 17:01
@Carl - VLA's aren't dynamic. They're "variable length" in that their length can be computed at runtime, but not "variable length" in that their length can change. They're still stack-based arrays, which is why sizeof is defined to work for them. – Chris Lutz Apr 28 '10 at 17:02
@robUK - Keep track of it yourself using a struct { char *buf; size_t len; };. Or use someone else's string library. Or maintain strict adherence to the "always pass lengths with buffers" rule (which you should probably do anyway). – Chris Lutz Apr 28 '10 at 17:04
@robUK, there is no way to know how much memory malloc() actually gave you without other OS/library features that might be able to tell you. Those will be operating system/compiler dependent. – Carl Norum Apr 28 '10 at 17:51

sizeof doesn't work on dynamic allocations (with some exceptions in C99). Your use of sizeof here is just giving you the size of the pointer. This code will give you the result you want:

char buffer[10240];
printf("sizeof(buffer) [ %d ]\n", sizeof(buffer));

If malloc() succeeds, the memory pointed to is at least as big as you asked for, so there's no reason to care about the actual size it allocated.

Also, you've allocated 10 kB, not 1 kB.

share|improve this answer
This code is more than a little dangerous: it's allocating the buffer on the stack, not the heap. If you let any pointers to this buffer leak out of the function that declares it, you're on the way to stack corruption (and depending on how long your program runs, heap corruption and/or a segmentation fault). – Anon Apr 28 '10 at 17:01
@Anon - It's not dangerous, it just solves the problem a different way. The OP had no requirements about passing the buffer back from a function. – Chris Lutz Apr 28 '10 at 17:10
And what, exactly, is the OP's problem? Seems to me that it's keeping track of the size of a heap-allocated structure. Suggesting that the OP use a stack-allocated structure is not a solution to that problem. – Anon Apr 28 '10 at 17:17

It is up to you to track the size of the memory if you need it. The memory returned by malloc is only a pointer to "uninitialized" data. The sizeof operator is only working on the buffer variable.

share|improve this answer

No. buffer is a char *. It is a pointer to char data. The pointer only takes up 4 bytes (on your system).

It points to 10240 bytes of data (which, by the way, is not 1Kb. More like 10Kb), but the pointer doesn't know that. Consider:

int a1[3] = {0, 1, 2};
int a2[5] = {0, 1, 2, 3, 4};

int *p = a1;
// sizeof a1 == 12 (3 * sizeof(int))
// but sizeof p == 4
p = a2
// sizeof a2 == 20
// sizeof p still == 4

It's the main difference between arrays and pointers. If it didn't work that way, sizeof p would change in the above code, which doesn't make sense for a compile-time constant.

share|improve this answer

Replace your sizeof by malloc_usable_size (the manpage indicates that this is non-portable, so may not be available with your particular C implementation).

share|improve this answer
malloc_usable_size() is very non-portable. I don't have it on OS X Leopard. Anyway, reliance on it is a terrible idea in the first place (as also stated in the manpage). – Chris Lutz Apr 28 '10 at 17:06
NOTE: if you don't care about portability and are on OSX (or someone else didn't care and you are stuck with porting to OSX) malloc_size from <malloc/malloc.h> is your man for the job. – Stripes Aug 11 '14 at 15:18

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