[PATCH] D72114: [MS] Overhaul how clang passes overaligned args on x86_32

[John McCall via Phabricator via cfe-commits]

rjmccall added inline comments.


================
Comment at: clang/test/CodeGen/x86_32-arguments-win32.c:77
+// CHECK-LABEL: define dso_local void @receive_vec_256(<8 x float> inreg %x, <8 x float> inreg %y, <8 x float> inreg %z, <8 x float>* %0, <8 x float>* %1)
+// CHECK-LABEL: define dso_local void @receive_vec_512(<16 x float> inreg %x, <16 x float> inreg %y, <16 x float> inreg %z, <16 x float>* %0, <16 x float>* %1)
+// CHECK-LABEL: define dso_local void @receive_vec_1024(<32 x float>* %0, <32 x float>* %1, <32 x float>* %2, <32 x float>* %3, <32 x float>* %4)
----------------
rnk wrote:
> craig.topper wrote:
> > What happens in the backend with inreg if 512-bit vectors aren't legal?
> LLVM splits the vector up using the largest legal vector size. As many pieces as possible are passed in available XMM/YMM registers, and the rest are passed in memory. MSVC, of course, assumes the user wanted the larger vector size, and uses whatever vector instructions it needs to move the arguments around.
> 
> Previously, I advocated for a model where calling an Intel intrinsic function had the effect of implicitly marking the caller with the target attributes of the intrinsic. This falls down if the user tries to write a single function that conditionally branches between code that uses different instruction set extensions. You can imagine the SSE2 codepath accidentally using AVX instructions because the compiler thinks they are better. I'm told that ICC models CPU micro-architectural features in the CFG, but I don't ever expect that LLVM will do that. If we're stuck with per-function CPU feature settings, it seems like it would be nice to try to do what the user asked by default, and warn the user if we see them doing a cpuid check in a function that has been implicitly blessed with some target attributes. You could imagine doing a similar thing when large vector type variables are used: if a large vector argument or local is used, implicitly enable the appropriate target features to move vectors of that size around.
> 
> This idea didn't get anywhere, and the current situation has persisted.
> 
> ---
> 
> You know, maybe we should just keep clang the way it is, and just set up a warning in the backend that says "hey, I split your large vector. You probably didn't want that." And then we just continue doing what we do now. Nobody likes backend warnings, but it seems better than the current direction of the frontend knowing every detail of x86 vector extensions.
If target attributes affect ABI, it seems really dangerous to implicitly set attributes based on what intrinsics are called.

The local CPU-testing problem seems similar to the problems with local `#pragma STDC FENV_ACCESS` blocks that the constrained-FP people are looking into.  They both have a "this operation is normally fully optimizable, but we might need to be more careful in specific functions" aspect to them.  I wonder if there's a reasonable way to unify the approaches, or at least benefit from lessons learned.


Repository:
  rG LLVM Github Monorepo

CHANGES SINCE LAST ACTION
  https://reviews.llvm.org/D72114/new/

https://reviews.llvm.org/D72114