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I am new to optimizing code with SSE/SSE2 instructions and until now I have not gotten very far. To my knowledge a common SSE-optimized function would look like this:

void sse_func(const float* const ptr, int len){
    if( ptr is aligned )
        for( ... ){
            // unroll loop by 4 or 2 elements
        for( ....){
            // handle the rest
            // (non-optimized code)
    } else {
        for( ....){
            // regular C code to handle non-aligned memory

However, how do I correctly determine if the memory ptr points to is aligned by e.g. 16 Bytes? I think I have to include the regular C code path for non-aligned memory as I cannot make sure that every memory passed to this function will be aligned. And using the intrinsics to load data from unaligned memory into the SSE registers seems to be horrible slow (Even slower than regular C code).

Thank you in advance...

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random-name, not sure but I think it might be more efficient to simply handle the first few 'unaligned' elements separately like you do with the last few. Then you can still use SSE for the 'middle' ones... –  Rehno Lindeque Dec 21 '09 at 12:27
Hm, this is a good point. I'll try it. Thanks! –  user229898 Dec 22 '09 at 16:15

8 Answers 8

up vote 14 down vote accepted

EDIT: casting to long is a cheap way to protect oneself against the most likely possibility of int and pointers being different sizes nowadays.

As pointed out in the comments below, there are better solutions if you are willing to include a header...

A pointer p is aligned on a 16-byte boundary iff ((unsigned long)p & 15) == 0.

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I think casting a pointer to int is a bad idea? My code will be compiled on both x86 and x64 systems. I hoped there would be some secret system macro is_aligned_mem() or so. –  user229898 Dec 13 '09 at 23:22
You could instead use uintptr_t - it is guaranteed the correct size to hold a pointer. Provided that your compiler defines it, of course. –  Anon. Dec 13 '09 at 23:26
No, a pointer is an int. It just isn't used as a numeric generally. –  Paul Nathan Dec 13 '09 at 23:27
It doesn't really matter if the pointer and integer sizes don't match. You only care about the bottom few bits. –  Richard Pennington Dec 13 '09 at 23:29
I would usually use p % 16 == 0, as compilers usually know the powers of 2 just as well as I do, and I find this more readable –  Hasturkun Dec 13 '09 at 23:30
#define is_aligned(POINTER, BYTE_COUNT) \
    (((uintptr_t)(const void *)(POINTER)) % (BYTE_COUNT) == 0)

The cast to void * (or, equivalenty, char *) is necessary because the standard only guarantees an invertible conversion to uintptr_t for void *.

If you want type safety, consider using an inline function:

static inline _Bool is_aligned(const void *restrict pointer, size_t byte_count)
{ return (uintptr_t)pointer % byte_count == 0; }

and hope for compiler optimizations if byte_count is a compile-time constant.

Why do we need to convert to void * ?

The C language allows different representations for different pointer types, eg you could have a 64-bit void * type (the whole address space) and a 32-bit foo * type (a segment).

The conversion foo * -> void * might involve an actual computation, eg adding an offset. The standard also leaves it up to the implementation what happens when converting (arbitrary) pointers to integers, but I suspect that it is often implemented as a noop.

For such an implementation, foo * -> uintptr_t -> foo * would work, but foo * -> uintptr_t -> void * and void * -> uintptr_t -> foo * wouldn't. The alignment computation would also not work reliably because you only check alignment relative to the segment offset, which might or might not be what you want.

In conclusion: Always use void * to get implementation-independant behaviour.

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This macro looks really nasty and sophisticated at once. I will definitely test it. –  user229898 Dec 14 '09 at 17:06
Please provide any examples you know of platforms in which non-void * does not produce an integer value in the range of uintptr_t. And/or, do you know what the rationale is for the standard to be worded that way? –  Craig McQueen Nov 25 '10 at 23:07
@Craig: updated my answer –  Christoph Nov 26 '10 at 11:24
Thanks for the update. That is a very useful answer. –  Craig McQueen Nov 28 '10 at 0:27

Other answers suggest an AND operation with low bits set, and comparing to zero.

But a more straight-forward test would be to do a MOD with the desired alignment value, and compare to zero.

#define ALIGNMENT_VALUE     16u

if (((uintptr_t)ptr % ALIGNMENT_VALUE) == 0)
    // ptr is aligned
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I upvoted you, but only because you are using unsigned integers :) –  Pascal Cuoq Dec 13 '09 at 23:36

With a function template like

template< typename T >
inline bool is_aligned( T*p, size_t n = alignof(T) ){
    return 0 == reinterpret_cast<uintptr_t>(p) % n ;

you could check alignment at runtime by invoking something like

struct foo{ int bar[3]; }x;
assert( is_aligned(&x) ); // passes

which uses the default alignment value alignof(foo). To check arbitrary alignments, you could invoke

assert( is_aligned(&x,7) ); // would almost certainly fail

which overrides the default.

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It would be good here to explain how this works so the OP understands it. –  Danny Staple Feb 23 at 17:32

Can you just 'and' the ptr with 0x03 (aligned on 4s), 0x07 (aligned on 8s) or 0x0f (aligned on 16s) to see if any of the lowest bits are set?

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No, you can't. A pointer is not a valid argument to the & operator. –  Steve Jessop Dec 13 '09 at 23:34

Try this:

if (((int)ptr & (sizeof(*ptr) - 1)) == 0) {
    // ptr is aligned

This assumes that sizeof(*ptr) is a power of two (2n), and checks that the lowest n bits of ptr are all zero.

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This is basically what I'm using. By making the integer a template, I ensure it's expanded compile time, so I won't end up with a slow modulo operation whatever I do.

I always like checking my input, so hence the compile time assertion. If your alignment value is wrong, well then it won't compile...

template <unsigned int alignment>
struct IsAligned
    static_assert((alignment & (alignment - 1)) == 0, "Alignment must be a power of 2");

    static inline bool Value(const void * ptr)
        return (((uintptr_t)ptr) & (alignment - 1)) == 0;

To see what's going on, you can use this:

// 1 of them is aligned...
int* ptr = new int[8];
for (int i = 0; i < 8; ++i)
    std::cout << IsAligned<32>::Value(ptr + i) << std::endl;

// Should give '1'
int* ptr2 = (int*)_aligned_malloc(32, 32);
std::cout << IsAligned<32>::Value(ptr2) << std::endl;
share|improve this answer

How about:

void *mem = malloc(1024+15); 
void *ptr =( (*(char*)mem) - (*(char *)mem % 16) );
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-1 Doesn't answer the question. (the question was "How to determine if memory is aligned?", not "how to allocate some aligned memory?") –  unordered_meow Jul 31 at 23:42

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