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I am working on auto vectorization with GCC. I am not in a position to use intrinsics or attributes due to customer requirement. (I cannot get user input to support vectorization)

If the alignment information of the array that can be vectorized is unknown, GCC invokes a pass for 'loop versioning'. Loop versioning will be performed when loop vectorization is done on trees. When a loop is identified to be vectorizable, and the constraint on data alignment or data dependence is hindering it, (because they cannot be determined at compile time), then two versions of the loop will be generated. These are the vectorized and non-vectorized versions of the loop along with runtime checks for alignment or dependence to control which version is executed.

My question is how we have to enforce the alignment? If I have found a loop that is vectorizable, I should not generate two versions of the loop because of missing alignment information.

For example. Consider the below code

short a[15]; short b[15]; short c[15];
int i;

void foo()
    for (i=0; i<15; i++)
      a[i] = b[i] ;

Tree dump (options: -fdump-tree-optimized -ftree-vectorize)

     vector short int * vect_pa.49;
     vector short int * vect_pb.42;
     vector short int * vect_pa.35;
     vector short int * vect_pb.30;

    bb 2>:
     vect_pb.30 = (vector short int *) &b;
     vect_pa.35 = (vector short int *) &a;
     if (((signed char) vect_pa.35 | (signed char) vect_pb.30) & 3 == 0)	;; <== (A)
       goto <bb 3>;
       goto <bb 4>;

    bb 3>:

At 'bb 3' version of vectorized code is generated. At 'bb 4' code without vectorization is generated. These are done by checking the alignment (statement 'A'). Now without using intrinsics and other attributes, how should I get only the vectorized code (without this runtime alignment check.)

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2 Answers 2

up vote 4 down vote accepted

If the data in question is being allocated statically, then you can use the __align__ attribute that GCC supports to specify that it should be aligned to the necessary boundary. If you are dynamically allocating these arrays, you can over-allocate by the alignment value, and then bump the returned pointer up to the alignment you need.

You can also use the posix_memalign() function if you're on a system that supports it. Finally, note that malloc() will always allocate memory aligned to the size of the largest built-in type, generally 8 bytes for a double. If you don't need better than that, then malloc should suffice.

Edit: If you modify your allocation code to force that check to be true (i.e. overallocate, as suggested above), the compiler should oblige by not conditionalizing the loop code. If you needed alignment to an 8-byte boundary, as it seems, that would be something like a = (a + 7) & ~3;.

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If you use <code>posix_memalign()</code>, may sure you declare the variable with int * __attribute__ ((aligned (XX))) ptr –  J-16 SDiZ Nov 10 '09 at 4:22

I get only one version of the loop, using your exact code with these options: gcc -march=core2 -c -O2 -fdump-tree-optimized -ftree-vectorize vec.c

My version of GCC is gcc version 4.4.1 (Ubuntu 4.4.1-4ubuntu8).

GCC is doing something clever here. It forces the arrays a and b to be 16-byte aligned. It doesn't do that to c, presumably because c is never used in a vectorizable loop.

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Possibly it is not generating 2 versions of the loop because you are telling gcc that you are targeting a specific machine with your -march=core2 option, which means that gcc is free to ignore any CPU that does not support what a core2 supports---and the Core2's do support appropriate SSE/SSE2 (actually, more) instructions for vectorization. Do you get different output when you omit the -march=core2 option from your invocation? –  rbrito Nov 18 '12 at 23:41
Well, the specific kind of versioning referred to in the question (and my answer) is due to alignment, not architecture. (This was three years ago; my Ubuntu box is no longer handy...) –  Jason Orendorff Nov 20 '12 at 18:27

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