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In my program I have a function that does a simple vector addition c[0:15] = a[0:15] + b[0:15]. The function prototype is:

void vecadd(float * restrict a, float * restrict b, float * restrict c);

On our 32-bit embedded architecture there is a load/store option of loading/storing double words, like:

r16 = 0x4000  ;
strd r0,[r16] ; stores r0 in [0x4000] and r1 in [0x4004]

The GCC optimizer recognizes the vector nature of the loop and generates two branches of the code - one for the case where the 3 arrays are double word aligned (so it uses the double load/store instructions) and the other for the case that the arrays are word-aligned (where it uses the single load/store option).

The problem is that the address alignment check is costly relative to the addition part and I want to eliminate it by hinting the compiler that a, b and c are always 8-aligned. Is there a modifier to add to the pointer declaration to tell this to the compiler?

The arrays that are used for calling this function have the aligned(8) attribute, but it is not reflected in the function code itself. is it possible to add this attribute to the function parameters?

share|improve this question
Even if my code below can't help you (because of it being C++), you might want to printf("%p") &array[0] and &array[1] in your code just to make sure that the align is being obeyed, and per element - not just on the array start address. – Joe Mar 7 '12 at 20:50
@Joe - it is actually required that it DOES NOT align per array element. It really has to be a contiguous array of floats, whose origin is 8-aligned. – ysap Mar 7 '12 at 21:48
up vote 6 down vote accepted

Following a piece of example code I've found on my system, I tried the following solution, which incorporate ideas from a few of the answers given earlier: basically, create a union of a small array of floats with a 64-bit type - in this case a SIMD vector of floats - and call the function with a cast of the operand float arrays:

typedef float f2 __attribute__((vector_size(8)));
typedef union { f2 v; float f[2]; } simdfu;

void vecadd(f2 * restrict a, f2 * restrict b, f2 * restrict c);

float a[16] __attribute__((aligned(8)));
float b[16] __attribute__((aligned(8)));
float c[16] __attribute__((aligned(8)));

int main()
    vecadd((f2 *) a, (f2 *) b, (f2 *) c);
    return 0;

Now the compiler does not generate the 4-aligned branch.

However, the __builtin_assume_aligned() would be the preferable solution, preventing the cast and possible side effects, if it only worked...

EDIT: I noticed that the builtin function is actually buggy on our implementation (i.e, not only it doesn't work, but it causes calculation errors later in the code.

share|improve this answer

If the attributes don't work, or aren't an option ....

I'm not sure, but try this:

void vecadd (float * restrict a, float * restrict b, float * restrict c)
   a = __builtin_assume_aligned (a, 8);
   b = __builtin_assume_aligned (b, 8);
   c = __builtin_assume_aligned (c, 8);

   for ....

That should tell GCC that the pointers are aligned. From that whether it does what you want depends on whether the compiler can use that information effectively; it might not be smart enough: these optimizations aren't easy.

Another option might be to wrap the float inside a union that must be 8-byte aligned:

typedef union {
  float f;
  long long dummy;
} aligned_float;

void vedadd (aligned_float * a, ......

I think that should enforce 8-byte alignment, but again, I don't know if the compiler is smart enough to use it.

share|improve this answer
Doh! I've just noticed on the next page of the GCC manual __builtin_assume_aligned. I'll edit the answer. – ams Mar 8 '12 at 14:02
Thanks, @ams. This is probably the perfect solution. Unfortunately, on our compiler, although compiled well it does not affect the output and the compiler still makes the check whether the pointers are aligned or not and chooses the required code path. – ysap Mar 8 '12 at 17:09
If someone can confirm it works on other architectures, I'll accept this answer. – ysap Mar 8 '12 at 17:10
Your union proposal, BTW, is not what I'm looking for as it will make every element of the array 8-aligned, while I am dealing with array of floats. I can, however, pack two floats in a struct to work in the same manner. – ysap Mar 8 '12 at 17:13
... OR, I can just cast an array of floats to align_float when calling the function. This might work, I'll give it a try. – ysap Mar 8 '12 at 17:15

gcc versions have been dodgy about align() on simple typedefs and arrays. Typically to do what you want, you would have to wrap the float in a struct, and have the contained float have the alignment restriction.

With operator overloading you can almost make this painless, but it does assume you can use c++ syntax.

#include <stdio.h>
#include <string.h>

#define restrict __restrict__

typedef float oldfloat8 __attribute__ ((aligned(8)));

struct float8
    float f __attribute__ ((aligned(8)));

    float8 &operator=(float _f) { f = _f; return *this; }
    float8 &operator=(double _f) { f = _f; return *this; }
    float8 &operator=(int _f) { f = _f; return *this; }

    operator float() { return f; }

int Myfunc(float8 * restrict a, float8 * restrict b, float8 * restrict c);

int MyFunc(float8 * restrict a, float8 * restrict b, float8 * restrict c)
    return *c = *a* *b;

int main(int argc, char **argv)
    float8 a, b, c;

    float8 p[4];

    printf("sizeof(oldfloat8) == %d\n", (int)sizeof(oldfloat8));
    printf("sizeof(float8) == %d\n", (int)sizeof(float8));

    printf("addr p[0] == %p\n", &p[0] );
    printf("addr p[1] == %p\n", &p[1] );

    a = 2.0;
    b = 7.0;
    MyFunc( &a, &b, &c );
    return 0;
share|improve this answer
Thanks, @Joe. 1st, I am restricted to C. 2nd, the possible problem I see here (as in other suggestions) is that it seems like when declaring a vector of float8 elements, each element will be 8-aligned. This will create a non-contiguous array of float-space-float-space, etc. I assume the printf() of p[0] and p[1] will reveal that fact. – ysap Mar 8 '12 at 20:25

Alignment specifications usually only work for alignments that are smaller than the base type of a pointer, not larger.

I think easiest is to declare your whole array with an alignment specification, something like

typedef float myvector[16];
typedef myvector alignedVector __attribute__((aligned (8));

(The syntax might not be correct, I always have difficulties to know where to put these __attribute__s)

And use that type throughout your code. For your function definition I'd try

void vecadd(alignedVector * restrict a, alignedVector * restrict b, alignedVector * restrict c);

This gives you an additional indirection but this is only syntax. Something like *a is just a noop and only reinterprets the pointer as a pointer to the first element.

share|improve this answer
Thanks. Why not put the attribute on the 1st typedef? – ysap Mar 7 '12 at 21:40
@ysap, I simply don't know where to put the attribute for an array type. The syntax is crude. – Jens Gustedt Mar 7 '12 at 21:47
Following Joe's comment I think the answer to my question above is that attributing the 1st typedef will make the array elements 8-aligned, and not the array itself (but obviously, it will be aligned due to the alignment of the 1st element). Does it make sense? – ysap Mar 7 '12 at 21:51

I never used it, but there is _attribute_((aligned (8)))

If I read the documentation right, then it is used this way:

void vecadd(float * restrict a __attribute__((aligned (8))), 
            float * restrict b __attribute__((aligned (8))), 
            float * restrict c __attribute__((aligned (8))));


share|improve this answer
Unless I missed it, then GCC documentation and the page you linked to mentioned align attribute for variables and for functions but not for function prototype parameters. Can you point to the relevant section in the page you linked to? – ysap Mar 7 '12 at 20:26
I don't think that this will be working. This tells the compiler that the pointer variable itself is 8 byte aligned. – Jens Gustedt Mar 7 '12 at 20:29

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