[x86] replace div/rem with shift/mask for better shuffle combining perf

We know that shuffle masks are power-of-2 sizes, but there's no way (?) for LLVM to know that, 
so hack combineX86ShufflesRecursively() to be much faster by replacing div/rem with shift/mask.

This makes the motivating compile-time bug in PR32037 ( https://bugs.llvm.org/show_bug.cgi?id=32037 ) 
about 9% faster overall.

Differential Revision: https://reviews.llvm.org/D34174

llvm-svn: 305398
This commit is contained in:
Sanjay Patel 2017-06-14 17:00:57 +00:00
parent 4a911c867f
commit ce0b99563a
1 changed files with 31 additions and 13 deletions

View File

@ -27970,28 +27970,45 @@ static bool combineX86ShufflesRecursively(ArrayRef<SDValue> SrcOps,
OpMask.size() % RootMask.size() == 0) ||
OpMask.size() == RootMask.size()) &&
"The smaller number of elements must divide the larger.");
int MaskWidth = std::max<int>(OpMask.size(), RootMask.size());
int RootRatio = std::max<int>(1, OpMask.size() / RootMask.size());
int OpRatio = std::max<int>(1, RootMask.size() / OpMask.size());
assert(((RootRatio == 1 && OpRatio == 1) ||
(RootRatio == 1) != (OpRatio == 1)) &&
// This function can be performance-critical, so we rely on the power-of-2
// knowledge that we have about the mask sizes to replace div/rem ops with
// bit-masks and shifts.
assert(isPowerOf2_32(RootMask.size()) && "Non-power-of-2 shuffle mask sizes");
assert(isPowerOf2_32(OpMask.size()) && "Non-power-of-2 shuffle mask sizes");
unsigned RootMaskSizeLog2 = countTrailingZeros(RootMask.size());
unsigned OpMaskSizeLog2 = countTrailingZeros(OpMask.size());
unsigned MaskWidth = std::max<unsigned>(OpMask.size(), RootMask.size());
unsigned RootRatio = std::max<unsigned>(1, OpMask.size() >> RootMaskSizeLog2);
unsigned OpRatio = std::max<unsigned>(1, RootMask.size() >> OpMaskSizeLog2);
assert((RootRatio == 1 || OpRatio == 1) &&
"Must not have a ratio for both incoming and op masks!");
SmallVector<int, 64> Mask((unsigned)MaskWidth, SM_SentinelUndef);
assert(isPowerOf2_32(MaskWidth) && "Non-power-of-2 shuffle mask sizes");
assert(isPowerOf2_32(RootRatio) && "Non-power-of-2 shuffle mask sizes");
assert(isPowerOf2_32(OpRatio) && "Non-power-of-2 shuffle mask sizes");
unsigned RootRatioLog2 = countTrailingZeros(RootRatio);
unsigned OpRatioLog2 = countTrailingZeros(OpRatio);
SmallVector<int, 64> Mask(MaskWidth, SM_SentinelUndef);
// Merge this shuffle operation's mask into our accumulated mask. Note that
// this shuffle's mask will be the first applied to the input, followed by the
// root mask to get us all the way to the root value arrangement. The reason
// for this order is that we are recursing up the operation chain.
for (int i = 0; i < MaskWidth; ++i) {
int RootIdx = i / RootRatio;
for (unsigned i = 0; i < MaskWidth; ++i) {
unsigned RootIdx = i >> RootRatioLog2;
if (RootMask[RootIdx] < 0) {
// This is a zero or undef lane, we're done.
Mask[i] = RootMask[RootIdx];
continue;
}
int RootMaskedIdx = RootMask[RootIdx] * RootRatio + i % RootRatio;
// TODO: Here and below, we could convert multiply to shift-left for
// performance because we know that our mask sizes are power-of-2.
unsigned RootMaskedIdx =
RootMask[RootIdx] * RootRatio + (i & (RootRatio - 1));
// Just insert the scaled root mask value if it references an input other
// than the SrcOp we're currently inserting.
@ -28001,9 +28018,9 @@ static bool combineX86ShufflesRecursively(ArrayRef<SDValue> SrcOps,
continue;
}
RootMaskedIdx %= MaskWidth;
RootMaskedIdx = RootMaskedIdx & (MaskWidth - 1);
int OpIdx = RootMaskedIdx / OpRatio;
unsigned OpIdx = RootMaskedIdx >> OpRatioLog2;
if (OpMask[OpIdx] < 0) {
// The incoming lanes are zero or undef, it doesn't matter which ones we
// are using.
@ -28012,8 +28029,9 @@ static bool combineX86ShufflesRecursively(ArrayRef<SDValue> SrcOps,
}
// Ok, we have non-zero lanes, map them through to one of the Op's inputs.
int OpMaskedIdx = OpMask[OpIdx] * OpRatio + RootMaskedIdx % OpRatio;
OpMaskedIdx %= MaskWidth;
unsigned OpMaskedIdx =
OpMask[OpIdx] * OpRatio + (RootMaskedIdx & (OpRatio - 1));
OpMaskedIdx = OpMaskedIdx & (MaskWidth - 1);
if (OpMask[OpIdx] < (int)OpMask.size()) {
assert(0 <= InputIdx0 && "Unknown target shuffle input");