Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

The question is in the title... I searched but couldn't find anything.


I don't really see any need to explain this, but because people think that what I'm saying makes no sense (and that I'm asking the wrong questions), here's the problem:

Since people seem to be very interested in the "root" cause of all the problem rather than the actual question asked (since that apparently helps things get solved better, let's see if it does), here's the problem:

I'm trying to make a D runtime library based on NTDLL.dll, so that I can use that library for subsystems other than the Win32 subsystem. So that forces me to only link with NTDLL.dll.

Yes, I'm aware that the functions are "undocumented" and could change at any time (even though I'd bet a hundred dollars that wcstombs will still do the same exact thing 20 years from now, if it still exists). Yes, I know people (especially Microsoft) don't like developers linking to that library, and that I'll probably get criticized for the right here. And yes, those two points above mean that programs like chkdsk and defragmenters that run before the Win32 subsystem aren't even supposed to be created in the first place, because it's literally impossible to link with anything like kernel32.dll or msvcrt.dll and still have NT-native executables, so we developers should just pretend that those stages are meant to be forever out of our reaches.

But no, I doubt that anyone here would like me to paste a few thousand lines of code and help me look through them and try to figure out why memory allocations that aren't failing are being rejected by the source code I'm modifying. So that's why I asked about a different problem than the "root" cause, even though that's supposedly known to be the best practice by the community.

If things still don't make sense, feel free to post comments below! :)

Edit 2:

After around ~8 hours of debugging, I finally found the problem:

It turns out that RtlReAllocateHeap() does not automatically work like RtlAllocateHeap() if the pointer given to it is NULL.

share|improve this question
Just to complete other answers.. malloc() keeps a record of the blocks it has allocated and when free()ing something it compares the pointer against that record to check if it has been allocated. – BlackBear Jan 3 '11 at 23:13
@BlackBear: Yes, which is why it made me wonder why it can't just check to see if a pointer is inside the block (how hard can that be??)... – Mehrdad Jan 3 '11 at 23:19
@BlackBear: Actually, in most implementations the heap only holds information on blocks that are free. Data required by free() (such as the size of the block) is prepended by malloc() to the allocated block, the size of the record is subtracted from the pointer passed to free() to access the record. If the implementation includes a validation signature, error detection is possible, if not an invalid record will cause heap corruption. – Clifford Jan 3 '11 at 23:30
@Clifford: Ah, okay, that makes sense. Thanks. – Mehrdad Jan 3 '11 at 23:39
Ouch: RtlReAllocateHeap() doesn't handle being given a NULL pointer? It's too bad MS didn't make this behave like the standard realloc() function, especially since it only takes a couple lines of code. That's a hard lesson to learn. – Michael Burr Jan 4 '11 at 4:47
up vote 11 down vote accepted

It has to point to the beginning of the block. It's safe to pass a null pointer to free(), but passing any pointer not allocated by malloc() or one of its relatives will cause undefined behaviour. Some systems will give you a runtime error - something along the lines of "Deallocation of a pointer not malloced".


I wrote a test program to get the error message. On my machine, this program:

#include <stdlib.h>

int main(int argc, char **argv)
  int *x = malloc(12);


  return 0;

Crashes with this message:

app(31550) malloc: *** error for object 0x100100084: pointer being freed was not allocated
share|improve this answer
Huh... so in that case, is there a way to (portably) request memory that's, say, 64-byte aligned? I was going to allocate more and extract a piece, but since I'm passing around the pointer, I can't keep track of the size of the unused bytes in the beginning... – Mehrdad Jan 3 '11 at 22:37
@Lambert, sure you can. Writing 'aligned malloc' is actually a pretty popular job interview question. Just allocate enough space to account for your alignment, and also an additional space for a pointer. Then stash the pointer right before the aligned memory, and write a free() function that pulls this information out and frees the 'real' pointer. – Carl Norum Jan 3 '11 at 22:38
Well it's not that I can't, it's that I'd have to make a whole new table and keep track of stuff inside that... and while I know how to do it, it's just pain I'd like to avoid if I can. :) – Mehrdad Jan 3 '11 at 22:39
It's not that hard. But you can also use memalign() and friends. Check out this answer: – Carl Norum Jan 3 '11 at 22:40
"should give you a runtime error" is not required behaviour; the results are undefined and implementation dependent. In some cases it will just corrupt the heap by adding an invalid block, you may not notice until a subsequent memory allocation occurs, when sh*t happens! – Clifford Jan 3 '11 at 23:13

The only thing you can pass to free is a pointer returned to you from malloc (or calloc, realloc, etc), or NULL.

I'm guessing you're asking because you have some function where you do a malloc, and you want to mess with the data block and then get rid of it when you're done, and you don't want to be bothered keeping a copy of the original pointer around. It doesn't work that way.

share|improve this answer
Haha it's not that I don't want to bother, it's that it's not really easy to do that in my situation. But thank you for the answer. :) – Mehrdad Jan 3 '11 at 22:38
How is it not easy to do? Are you calling some API function that doesn't hand you back that malloced pointer? If it's specifically hiding it, then you should leave it up to the API function to do the memory management. Be careful, because double-free bugs are terribly annoying because you have to figure out who did the freeing before you, and why. – Andy Lester Jan 3 '11 at 22:42
Hahaha no, I'm trying to implement an aligned malloc on top of NTDLL's RtlAllocateHeap, so I can pass it to another library. I could make a new table to keep track of everything, but then I'd have to worry about threading, etc. and things would be a pain. – Mehrdad Jan 3 '11 at 22:43
@Lambert - IOW, you don't want to bother. Don't be ashamed of it. A desire to avoiding unnessecary work is a good quality for a software developer. Particularly if you are willing to do work up-front to achieve that goal. Just don't take it to extremes. – T.E.D. Jan 3 '11 at 22:50
@Lambert, don't make a table. Just add a header to the memory block in your aligned malloc implementation. – Carl Norum Jan 3 '11 at 22:50

From the comments you have added to existing answers, it seems you are asking the wrong question. If memory alignment is what you need, why don't you ask that question? Ask about the root problem rather than asking about your perceive solution!

So if you don't mind I'll answer the question you should have asked:

Aligned memory allocation is supported in Win32 by _aligned_malloc(). It is more of less equivalent to POSIX memalign()

If you need an implementation of aligned allocation, it is fairly simple to implement:

void* aligned_malloc( size_t size, size_t alignment )
    void* unaligned = malloc( size + alignment ) ;
    void* aligned = (void*)(((intptr_t)unaligned + alignment) & ~(alignment - 1));
    void** free_rec_ptr = ((void**)aligned - 1) ;
    *free_rec_ptr = unaligned ;

    return aligned ;

void aligned_free( void* block )
    void** free_rec_ptr = ((void**)block - 1) ;
    free( *free_rec_ptr ) ;

The alignment argument must be a power of two.

share|improve this answer
@Clifford: Thank you for your answer, but unfortunately, I already knew about _aligned_malloc -- it's just not present in NTDLL.dll (neither is malloc), the sole library I'm linking to, and I was just wondering if I even needed to bother through this entire trouble of keeping track of the alignment of pointers I pass to other libraries, if I just didn't have to. So no, I wasn't avoiding asking about the root cause, I really did mean to ask this question. – Mehrdad Jan 3 '11 at 23:13
@Lambert: It is part of the MSVCRT library which is normally linked implicitly. Since malloc()/free() are also in that library, you must have access to it. What compiler are you using? – Clifford Jan 3 '11 at 23:21
@Clifford: I'm specifically trying not to link to MSVCRT for various reasons -- so by definition the function isn't available. It's not a compiler issue, it's something I've done on purpose. – Mehrdad Jan 3 '11 at 23:23
@Lambert: You are not making sense: if you can call free(), you have linked MSVCRT! The reason I ask about the compiler is because MSDN only documents _aligned_malloc() for VC++ 2003 and later. I am not sure that it is available in earlier versions. You'd do well to answer investigative questions, rather than assume that the question is irrelevant. – Clifford Jan 3 '11 at 23:35
@Clifford: I'm making complete sense -- it's your incorrect assumption that I'm actually calling free(). I'm supplying free() for the caller, and I'm wrapping RtlFreeHeap(). Does that make sense now? Also, I know I'm not linking to MSVCRT because I've disassembled my executable. So when I say I'm not linking to it, I'm not joking, I really mean it. :) – Mehrdad Jan 3 '11 at 23:37

FWIW, the last time I looked into how the C run time library worked with malloc and free, the block that malloc gives you actually has some extra words at negative offsets relative to the pointer it gives you. These say things like how big the block is, and other stuff. free relied on being able to find those things. Don't know if that sheds any light.

share|improve this answer
It's exactly what I ended up doing, except that it gets more complicated with differing alignments. Thanks for the answer, though. – Mehrdad Jan 5 '11 at 19:15

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.