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I was playing with this option to optimize a for-loop in our embedded architecture (here). However, I noticed that when the alignment requires more than a single nop instruction to be added, then the compiler generates one nop followed by as-many-as-required zeros (0000).

I suspect it is a bug in our compiler, but can someone confirm it is not a bug in GCC?

Here's a code snippet:

    __asm__ volatile("nop");  
    __asm__ volatile("nop");  

    for (j0=0; j0<N; j0+=4)
        c[j0+ 0] = a[j0+ 0] + b[j0+ 0];
        c[j0+ 1] = a[j0+ 1] + b[j0+ 1];
        c[j0+ 2] = a[j0+ 2] + b[j0+ 2];
        c[j0+ 3] = a[j0+ 3] + b[j0+ 3];

Compile with -falign-loops=8 (or whatever number relevant to your architecture which is more than the required minimum alignment). You can add or remove the __asm__ lines as necessary to generate misaligned loop body.

share|improve this question
By the way, I would also get rid of the ugly manual loop unrolling and let gcc unroll the loops (which it will do by default with -O3 when it thinks it makes sense). – R.. Mar 27 '12 at 6:09
@R.. - apparently, it is not so in the real world. This code is actually a part of a benchmark where I do vector addition. I have two functions, vecadd() with the above code and vecadd_naive() similar to your suggestion. The fact is that I had to manually unroll 16 times to get optimal performance, where more than marginally better than the naive version. This was with -O3 and (maybe redundant) -funroll-loops. – ysap Mar 27 '12 at 8:20
@R..- remember that the optimizer's heuristics for unrolling loops are based on a somewhat arbitrary set of rules (OK, at least arbitrary w.r.t the available options). Your considerations (like, code size or registers usage) may be different and lead to faster code after all. I guess this is what I see a difference. – ysap Mar 27 '12 at 15:37
You might be able to add a #pragma for optimization level/unrolling decision parameters before the loop instead of manually unrolling it. I'm undecided on whether this is nicer or uglier than unrolling the loop yourself though... – R.. Mar 28 '12 at 17:58
up vote 2 down vote accepted

Use gcc -S -o foo.s foo.c to generate the assembly output without assembling it. I suspect you'll see the .balign or .p2align directive in the asm. Assuming this directive is intended to work, I think it's a bug in the assembler. It's also possible that you've put the code in a non-default section (i.e. not .text) either intentionally or accidentally (e.g. with a misplaced .data or .section in some other inline asm); normally the assembler pads with the proper size and number of nop instructions for sections that contain code, and 0 bytes for sections that contain data.

share|improve this answer
Indeed, the compiler inserted the .balign 8 directive to the correct place. Unfortunately, I already found out that when not given an explicit fill value, the assembler generates the erroneous sequence. As far as I can tell, the function is allocated in the .text section. I wonder if there is a way of telling the compiler to use a filler value when using -falign-loops=n, like when using .balignw 8,0x01a2? – ysap Mar 26 '12 at 23:26
Anyway, is this particular to our implementation, or is it a bug in GAS? – ysap Mar 26 '12 at 23:27
It's definitely possible if you edit the gcc source to change the string it inserts into the output assembly for alignment on your platform. Or you could make the change in GAS. Either change might be accepted upstream if the maintainers can confirm the problem exists. – R.. Mar 27 '12 at 1:26
Oh, well, I guess everything is possible when you have access to the source... I hoped there is an undocumented feature (as an extension for the option with similar syntax to the align directive). – ysap Mar 27 '12 at 1:48
OK, here's a really cheap solution. Find the path your gcc is searching for binaries (it's probably under /usr/lib/gcc or similar) and put a shell script named as there. Have it run its input through sed to make the necessary fixes to alignment and run the real as binary. – R.. Mar 27 '12 at 2:20

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