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How do I align a pointer to a 16 byte boundary?

I found this code, not sure if its correct

char* p= malloc(1024);

if ((((unsigned long) p) % 16) != 0) 
     unsigned char *chpoint = (unsigned char *)p;        
     chpoint += 16 - (((unsigned long) p) % 16);
     p = (char *)chpoint;

Would this work?


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What toolchain and platform? Alignment is a property of the implementation. Also, why do you want to do this? Do you really mean C++? Because your code is valid C but not valid C++. –  Lightness Races in Orbit Jun 12 '11 at 5:12
stackoverflow.com/questions/4840410/how-to-align-a-pointer-in-c may be of interest (since you appear to be writing C anyway). –  Lightness Races in Orbit Jun 12 '11 at 5:14
Do not use that code. If you try to free p it's going to cause you all kinds of problems. Furthermore, you no longer have a guarantee about how much memory you actually have (somewhere between 1009 and 1024) –  Chris Jun 12 '11 at 5:15
I had a piece of code that allowed you to do something like this (provided that you used a custom free function), but which did not require outside memory -- it simply allocated a bit more than you requested, and freed that at the end. I'll post it here soon, if I find it. –  Mehrdad Jun 12 '11 at 6:02
I re-wrote it and posted it; try using it and see if it's helpful. –  Mehrdad Jun 12 '11 at 6:17

5 Answers 5

C++0x proposes std::align, which does just that.

// get some memory
T* const p = ...;
std::size_t const size = ...;

void* start = p;
std::size_t space = size;
void* aligned = std::align(16, 1024, p, space);
if(aligned == nullptr) {
    // failed to align
} else {
    // here, p is aligned to 16 and points to at least 1024 bytes of memory
    // also p == aligned
    // size - space is the amount of bytes used for alignment

which seems very low-level. I think

// also available in Boost flavour
typedef std::aligned_storage<1024, 16> storage;
auto p = new storage;

also works. You can easily run afoul of aliasing rules though if you're not careful. If you had a precise scenario in mind (fit N objects of type T at a 16 byte boundary?) I think I could recommend something nicer.

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Try this:

It returns aligned memory and frees the memory, with virtually no extra memory management overhead.

#include <malloc.h>
#include <assert.h>

size_t roundUp(size_t a, size_t b) { return (1 + (a - 1) / b) * b; }

//We assume here that size_t and void* can be converted to each other
void *malloc_aligned(size_t size, size_t align = sizeof(void*))
    assert(align % sizeof(size_t) == 0);
    assert(sizeof(void*) == sizeof(size_t)); //Not sure if needed, but whatever

    void *p = malloc(size + 2 * align);
    if (p != NULL)
        size_t base = (size_t)p;
        p = (char*)roundUp(base, align) + align;
        ((size_t*)p)[-1] = (size_t)p - base;
    return p;

void free_aligned(void *p) { free(p != NULL ? (char*)p - ((size_t*)p)[-1] : p); }


I'm pretty sure I'm stepping on parts of the C standard here, but who cares. :P

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Good answer. I'm also using code similar to this. –  user763305 Jun 12 '11 at 6:22
This is a couple of years late, but there's a cool intptr_t stashed away in cstdint that is guaranteed to be convertible to and from pointers and is guaranteed to support arithmetic. –  user2472093 Jan 31 '14 at 14:23

In glibc library malloc, realloc always returns 8 bytes aligned. If you want to allocate memory with some alignment which is a higher power 2 then you can use memalign and posix_memalign. Read http://www.gnu.org/s/hello/manual/libc/Aligned-Memory-Blocks.html

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posix_memalign is one way: http://pubs.opengroup.org/onlinepubs/009695399/functions/posix_memalign.html as long as your size is a power of two.

The problem with the solution you provide is that you run the risk of writing off the end of your allocated memory. An alternative solution is to alloc the size you want + 16 and to use a similar trick to the one you're doing to get a pointer that is aligned, but still falls within your allocated region. That said, I'd use posix_memalign as a first solution.

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few things:

  • don't change the pointer returned by the malloc/new: you'll need it later to free the memory;
  • make sure your buffer is big enough after adjusting the alignment
  • use size_t instead of unsigned long, since size_t guaranteed to have the same size as the pointer, as opposed to anything else:

here's the code:

size_t size = 1024; // this is how many bytes you need in the aligned buffer
size_t align = 16;  // this is the alignment boundary
char *p = (char*)malloc(size + align); // see second point above
char *aligned_p = (char*)((size_t)p + (align - (size_t)p % align));
// use the aligned_p here
// ...
// when you're done, call:
free(p); // see first point above
share|improve this answer
size_t isn't guaranteed to have the same size as a pointer. (I've used 16 bits size_t with 32 bits pointers in DOS time), unsigned long is in fact often a better choice that size_t for that (but isn't formally guaranteed either and won't work on windows 64 bit). uintptr_t has been introduced in C99 and C++0X for that purpose and is often available as extension before. C++0X even offer a standard way to align (see Luc's answer) –  AProgrammer Jun 12 '11 at 6:47
well, x86 real mode can't be discussed in the same sentence with C++ 0x, can it? Regarding the real mode long pointers, the pointer arithmetic was rather non-trivial back then, so it had to be re-written anyway. On top of that, the size of the pointers returned by the allocation functions used to depend on the version of the CRT library used. Some programming environments adjusted size_t definition accordingly. –  Rom Jun 12 '11 at 7:14
Why not? The underling abstract machine of C++0X still gather for segmented access, as it still gather for strangest things like word addressable machine or one's complement arithmetic. –  AProgrammer Jun 12 '11 at 16:18

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