forked from OSchip/llvm-project
[X86] Make X86TTIImpl::getCastInstrCost properly handle the case where AVX512 is enabled, but 512-bit vectors aren't legal.
Unlike most cost model functions this code makes a lot of table lookups without using the results from getTypeLegalizationCost. This means 512-bit vectors can be looked up even when the type isn't legal. This patch adds a check around the two tables that contain 512-bit types to make sure that neither of the types would be split by type legalization. Meaning 512 bit types are illegal. I wanted to write this in a somewhat generic way that uses type legalization query hooks. But if prefered, I can switch to just using is512BitVector and the subtarget feature. Differential Revision: https://reviews.llvm.org/D54984 llvm-svn: 347786
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@ -1570,49 +1570,51 @@ int X86TTIImpl::getCastInstrCost(unsigned Opcode, Type *Dst, Type *Src,
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if (!SrcTy.isSimple() || !DstTy.isSimple())
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return BaseT::getCastInstrCost(Opcode, Dst, Src);
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if (ST->hasBWI())
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if (const auto *Entry = ConvertCostTableLookup(AVX512BWConversionTbl, ISD,
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DstTy.getSimpleVT(),
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SrcTy.getSimpleVT()))
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return Entry->Cost;
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MVT SimpleSrcTy = SrcTy.getSimpleVT();
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MVT SimpleDstTy = DstTy.getSimpleVT();
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if (ST->hasDQI())
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if (const auto *Entry = ConvertCostTableLookup(AVX512DQConversionTbl, ISD,
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DstTy.getSimpleVT(),
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SrcTy.getSimpleVT()))
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return Entry->Cost;
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// Make sure that neither type is going to be split before using the
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// AVX512 tables. This handles -mprefer-vector-width=256
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// with -min-legal-vector-width<=256
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if (TLI->getTypeAction(SimpleSrcTy) != TargetLowering::TypeSplitVector &&
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TLI->getTypeAction(SimpleDstTy) != TargetLowering::TypeSplitVector) {
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if (ST->hasBWI())
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if (const auto *Entry = ConvertCostTableLookup(AVX512BWConversionTbl, ISD,
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SimpleDstTy, SimpleSrcTy))
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return Entry->Cost;
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if (ST->hasAVX512())
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if (const auto *Entry = ConvertCostTableLookup(AVX512FConversionTbl, ISD,
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DstTy.getSimpleVT(),
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SrcTy.getSimpleVT()))
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return Entry->Cost;
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if (ST->hasDQI())
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if (const auto *Entry = ConvertCostTableLookup(AVX512DQConversionTbl, ISD,
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SimpleDstTy, SimpleSrcTy))
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return Entry->Cost;
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if (ST->hasAVX512())
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if (const auto *Entry = ConvertCostTableLookup(AVX512FConversionTbl, ISD,
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SimpleDstTy, SimpleSrcTy))
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return Entry->Cost;
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}
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if (ST->hasAVX2()) {
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if (const auto *Entry = ConvertCostTableLookup(AVX2ConversionTbl, ISD,
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DstTy.getSimpleVT(),
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SrcTy.getSimpleVT()))
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SimpleDstTy, SimpleSrcTy))
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return Entry->Cost;
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}
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if (ST->hasAVX()) {
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if (const auto *Entry = ConvertCostTableLookup(AVXConversionTbl, ISD,
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DstTy.getSimpleVT(),
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SrcTy.getSimpleVT()))
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SimpleDstTy, SimpleSrcTy))
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return Entry->Cost;
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}
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if (ST->hasSSE41()) {
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if (const auto *Entry = ConvertCostTableLookup(SSE41ConversionTbl, ISD,
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DstTy.getSimpleVT(),
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SrcTy.getSimpleVT()))
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SimpleDstTy, SimpleSrcTy))
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return Entry->Cost;
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}
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if (ST->hasSSE2()) {
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if (const auto *Entry = ConvertCostTableLookup(SSE2ConversionTbl, ISD,
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DstTy.getSimpleVT(),
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SrcTy.getSimpleVT()))
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SimpleDstTy, SimpleSrcTy))
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return Entry->Cost;
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}
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@ -4,21 +4,13 @@
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; RUN: opt < %s -cost-model -analyze -mtriple=x86_64-apple-macosx10.8.0 -mattr=+avx512vl,+avx512bw,+avx512dq,-prefer-256-bit | FileCheck %s --check-prefixes=CHECK,VEC512
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define void @zext256() "min-legal-vector-width"="256" {
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; AVX-LABEL: 'zext256'
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; AVX-NEXT: Cost Model: Found an estimated cost of 7 for instruction: %A = zext <8 x i16> undef to <8 x i64>
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; AVX-NEXT: Cost Model: Found an estimated cost of 3 for instruction: %B = zext <8 x i32> undef to <8 x i64>
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; AVX-NEXT: Cost Model: Found an estimated cost of 4 for instruction: %C = zext <16 x i8> undef to <16 x i32>
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; AVX-NEXT: Cost Model: Found an estimated cost of 4 for instruction: %D = zext <16 x i16> undef to <16 x i32>
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; AVX-NEXT: Cost Model: Found an estimated cost of 3 for instruction: %E = zext <32 x i8> undef to <32 x i16>
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; AVX-NEXT: Cost Model: Found an estimated cost of 0 for instruction: ret void
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;
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; SKX256-LABEL: 'zext256'
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; SKX256-NEXT: Cost Model: Found an estimated cost of 1 for instruction: %A = zext <8 x i16> undef to <8 x i64>
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; SKX256-NEXT: Cost Model: Found an estimated cost of 1 for instruction: %B = zext <8 x i32> undef to <8 x i64>
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; SKX256-NEXT: Cost Model: Found an estimated cost of 1 for instruction: %C = zext <16 x i8> undef to <16 x i32>
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; SKX256-NEXT: Cost Model: Found an estimated cost of 1 for instruction: %D = zext <16 x i16> undef to <16 x i32>
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; SKX256-NEXT: Cost Model: Found an estimated cost of 1 for instruction: %E = zext <32 x i8> undef to <32 x i16>
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; SKX256-NEXT: Cost Model: Found an estimated cost of 0 for instruction: ret void
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; VEC256-LABEL: 'zext256'
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; VEC256-NEXT: Cost Model: Found an estimated cost of 7 for instruction: %A = zext <8 x i16> undef to <8 x i64>
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; VEC256-NEXT: Cost Model: Found an estimated cost of 3 for instruction: %B = zext <8 x i32> undef to <8 x i64>
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; VEC256-NEXT: Cost Model: Found an estimated cost of 4 for instruction: %C = zext <16 x i8> undef to <16 x i32>
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; VEC256-NEXT: Cost Model: Found an estimated cost of 4 for instruction: %D = zext <16 x i16> undef to <16 x i32>
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; VEC256-NEXT: Cost Model: Found an estimated cost of 3 for instruction: %E = zext <32 x i8> undef to <32 x i16>
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; VEC256-NEXT: Cost Model: Found an estimated cost of 0 for instruction: ret void
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;
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; VEC512-LABEL: 'zext256'
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; VEC512-NEXT: Cost Model: Found an estimated cost of 1 for instruction: %A = zext <8 x i16> undef to <8 x i64>
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@ -70,23 +62,14 @@ define void @zext512() "min-legal-vector-width"="512" {
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}
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define void @sext256() "min-legal-vector-width"="256" {
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; AVX-LABEL: 'sext256'
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; AVX-NEXT: Cost Model: Found an estimated cost of 7 for instruction: %A = sext <8 x i8> undef to <8 x i64>
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; AVX-NEXT: Cost Model: Found an estimated cost of 7 for instruction: %B = sext <8 x i16> undef to <8 x i64>
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; AVX-NEXT: Cost Model: Found an estimated cost of 3 for instruction: %C = sext <8 x i32> undef to <8 x i64>
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; AVX-NEXT: Cost Model: Found an estimated cost of 4 for instruction: %D = sext <16 x i8> undef to <16 x i32>
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; AVX-NEXT: Cost Model: Found an estimated cost of 4 for instruction: %E = sext <16 x i16> undef to <16 x i32>
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; AVX-NEXT: Cost Model: Found an estimated cost of 3 for instruction: %F = sext <32 x i8> undef to <32 x i16>
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; AVX-NEXT: Cost Model: Found an estimated cost of 0 for instruction: ret void
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;
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; SKX256-LABEL: 'sext256'
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; SKX256-NEXT: Cost Model: Found an estimated cost of 7 for instruction: %A = sext <8 x i8> undef to <8 x i64>
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; SKX256-NEXT: Cost Model: Found an estimated cost of 1 for instruction: %B = sext <8 x i16> undef to <8 x i64>
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; SKX256-NEXT: Cost Model: Found an estimated cost of 1 for instruction: %C = sext <8 x i32> undef to <8 x i64>
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; SKX256-NEXT: Cost Model: Found an estimated cost of 1 for instruction: %D = sext <16 x i8> undef to <16 x i32>
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; SKX256-NEXT: Cost Model: Found an estimated cost of 1 for instruction: %E = sext <16 x i16> undef to <16 x i32>
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; SKX256-NEXT: Cost Model: Found an estimated cost of 1 for instruction: %F = sext <32 x i8> undef to <32 x i16>
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; SKX256-NEXT: Cost Model: Found an estimated cost of 0 for instruction: ret void
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; VEC256-LABEL: 'sext256'
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; VEC256-NEXT: Cost Model: Found an estimated cost of 7 for instruction: %A = sext <8 x i8> undef to <8 x i64>
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; VEC256-NEXT: Cost Model: Found an estimated cost of 7 for instruction: %B = sext <8 x i16> undef to <8 x i64>
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; VEC256-NEXT: Cost Model: Found an estimated cost of 3 for instruction: %C = sext <8 x i32> undef to <8 x i64>
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; VEC256-NEXT: Cost Model: Found an estimated cost of 4 for instruction: %D = sext <16 x i8> undef to <16 x i32>
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; VEC256-NEXT: Cost Model: Found an estimated cost of 4 for instruction: %E = sext <16 x i16> undef to <16 x i32>
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; VEC256-NEXT: Cost Model: Found an estimated cost of 3 for instruction: %F = sext <32 x i8> undef to <32 x i16>
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; VEC256-NEXT: Cost Model: Found an estimated cost of 0 for instruction: ret void
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;
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; VEC512-LABEL: 'sext256'
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; VEC512-NEXT: Cost Model: Found an estimated cost of 24 for instruction: %A = sext <8 x i8> undef to <8 x i64>
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