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I'm working on a codebase that has a lot of SIMD intrinsic code. Now that we have AVX2, we still need to have SIMD code that runs on non-AVX2 capable processors, which will be significantly more work. Plus those 128bit lane crossing limitations for AVX2 shuffles also complicates things. For these reasons, it's a good time to rely more on auto vectorization. The main things that scare me are the prospect of a single innocent change killing the parallelism and the prospect of debugging auto-vectorized code in case there is a problem.

I've compiled the following with g++ -O1 -g -ftree-vectorize and attempted to step through with GDB (does anyone know why -ftree-vectorize doesn't work with -O0 ?)

float a[1000], b[1000], c[1000];
int main(int argc, char **argv)
  for (int i = 0; i < argc; ++i)
    c[i] = a[i] + b[i];
  return 0;

but don't get any meaningful results. For example sometimes the value for i says <optimized out> while other times it jumps by 20.

It seems the main problem is that it's difficult to map the SIMD state to the original C state for debugging. But realistically, can it be done?

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Why do you want to debug it? If you want to verify that it gets vectorized, wouldn't it be better to, inspect the assembly code or run benchmarks (at full optimization settings)? If you want to find a bug, debug the non-vectorized (and otherwise non-optimized) version. –  delnan Jun 26 '13 at 21:49
Yeah, compiler bugs are nasty when and if they happen. I don't know if a (source level) debugger is the right tool to approach it, but in any case, I understand. –  delnan Jun 26 '13 at 22:16
So, far debugging for errors is mostly hypothetical. I definitely remember submitting a bug in the Visual C++ 2010 vectorizer that caused it to improperly fuse an unaligned load with an arithmetic instruction into a single x86 instruction, causing it to crash when run on a non-aligned array. –  Yale Zhang Jun 26 '13 at 22:21
I'm more interested in understanding how efficient the vectorized code is, which is very difficult from the assembly code. This is made worse when multiple verions of the code are generated (some to handle SIMD remainders or unaligned parts, some to deal with aliased arrays, etc). If I can step through the loop in GDB 4, 8, or 16 at a time, and see the corresponding assembly code side by side, that could help some with understanding. Actually, what I really want is a source-to-source compiler that rewrites your code with vector types and operators. Is there such a thing? –  Yale Zhang Jun 26 '13 at 22:21
With gcc, -fdump-tree-optimized produces a file with a C-like syntax that shows what optimizations were performed. –  Marc Glisse Jun 27 '13 at 0:41

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