+ static const CostTblEntry<MVT> AVX2CostTable[] = {
+ // Shifts on v4i64/v8i32 on AVX2 is legal even though we declare to
+ // customize them to detect the cases where shift amount is a scalar one.
+ { ISD::SHL, MVT::v4i32, 1 },
+ { ISD::SRL, MVT::v4i32, 1 },
+ { ISD::SRA, MVT::v4i32, 1 },
+ { ISD::SHL, MVT::v8i32, 1 },
+ { ISD::SRL, MVT::v8i32, 1 },
+ { ISD::SRA, MVT::v8i32, 1 },
+ { ISD::SHL, MVT::v2i64, 1 },
+ { ISD::SRL, MVT::v2i64, 1 },
+ { ISD::SHL, MVT::v4i64, 1 },
+ { ISD::SRL, MVT::v4i64, 1 },
+
+ { ISD::SHL, MVT::v32i8, 42 }, // cmpeqb sequence.
+ { ISD::SHL, MVT::v16i16, 16*10 }, // Scalarized.
+
+ { ISD::SRL, MVT::v32i8, 32*10 }, // Scalarized.
+ { ISD::SRL, MVT::v16i16, 8*10 }, // Scalarized.
+
+ { ISD::SRA, MVT::v32i8, 32*10 }, // Scalarized.
+ { ISD::SRA, MVT::v16i16, 16*10 }, // Scalarized.
+ { ISD::SRA, MVT::v4i64, 4*10 }, // Scalarized.
+ };
+
+ // Look for AVX2 lowering tricks.
+ if (ST->hasAVX2()) {
+ int Idx = CostTableLookup<MVT>(AVX2CostTable, array_lengthof(AVX2CostTable),
+ ISD, LT.second);
+ if (Idx != -1)
+ return LT.first * AVX2CostTable[Idx].Cost;
+ }
+
+ static const CostTblEntry<MVT> SSE2UniformConstCostTable[] = {
+ // We don't correctly identify costs of casts because they are marked as
+ // custom.
+ // Constant splats are cheaper for the following instructions.
+ { ISD::SHL, MVT::v16i8, 1 }, // psllw.
+ { ISD::SHL, MVT::v8i16, 1 }, // psllw.
+ { ISD::SHL, MVT::v4i32, 1 }, // pslld
+ { ISD::SHL, MVT::v2i64, 1 }, // psllq.
+
+ { ISD::SRL, MVT::v16i8, 1 }, // psrlw.
+ { ISD::SRL, MVT::v8i16, 1 }, // psrlw.
+ { ISD::SRL, MVT::v4i32, 1 }, // psrld.
+ { ISD::SRL, MVT::v2i64, 1 }, // psrlq.
+
+ { ISD::SRA, MVT::v16i8, 4 }, // psrlw, pand, pxor, psubb.
+ { ISD::SRA, MVT::v8i16, 1 }, // psraw.
+ { ISD::SRA, MVT::v4i32, 1 }, // psrad.
+ };
+
+ if (Op2Info == TargetTransformInfo::OK_UniformConstantValue &&
+ ST->hasSSE2()) {
+ int Idx = CostTableLookup<MVT>(SSE2UniformConstCostTable,
+ array_lengthof(SSE2UniformConstCostTable),
+ ISD, LT.second);
+ if (Idx != -1)
+ return LT.first * SSE2UniformConstCostTable[Idx].Cost;
+ }
+
+
+ static const CostTblEntry<MVT> SSE2CostTable[] = {
+ // We don't correctly identify costs of casts because they are marked as
+ // custom.
+ // For some cases, where the shift amount is a scalar we would be able
+ // to generate better code. Unfortunately, when this is the case the value
+ // (the splat) will get hoisted out of the loop, thereby making it invisible
+ // to ISel. The cost model must return worst case assumptions because it is
+ // used for vectorization and we don't want to make vectorized code worse
+ // than scalar code.
+ { ISD::SHL, MVT::v16i8, 30 }, // cmpeqb sequence.
+ { ISD::SHL, MVT::v8i16, 8*10 }, // Scalarized.
+ { ISD::SHL, MVT::v4i32, 2*5 }, // We optimized this using mul.
+ { ISD::SHL, MVT::v2i64, 2*10 }, // Scalarized.
+
+ { ISD::SRL, MVT::v16i8, 16*10 }, // Scalarized.
+ { ISD::SRL, MVT::v8i16, 8*10 }, // Scalarized.
+ { ISD::SRL, MVT::v4i32, 4*10 }, // Scalarized.
+ { ISD::SRL, MVT::v2i64, 2*10 }, // Scalarized.
+
+ { ISD::SRA, MVT::v16i8, 16*10 }, // Scalarized.
+ { ISD::SRA, MVT::v8i16, 8*10 }, // Scalarized.
+ { ISD::SRA, MVT::v4i32, 4*10 }, // Scalarized.
+ { ISD::SRA, MVT::v2i64, 2*10 }, // Scalarized.
+ };
+
+ if (ST->hasSSE2()) {
+ int Idx = CostTableLookup<MVT>(SSE2CostTable, array_lengthof(SSE2CostTable),
+ ISD, LT.second);
+ if (Idx != -1)
+ return LT.first * SSE2CostTable[Idx].Cost;
+ }
+
+ static const CostTblEntry<MVT> AVX1CostTable[] = {