Index: lib/Target/PowerPC/PPCISelLowering.cpp =================================================================== --- lib/Target/PowerPC/PPCISelLowering.cpp +++ lib/Target/PowerPC/PPCISelLowering.cpp @@ -11632,6 +11632,14 @@ ShiftCst); } +// Is this an extending load from an f32 to an f64? +static bool isFPExtLoad(SDValue Op) { + if (LoadSDNode *LD = dyn_cast(Op.getNode())) + return LD->getExtensionType() == ISD::EXTLOAD && + Op.getValueType() == MVT::f64; + return false; +} + /// Reduces the number of fp-to-int conversion when building a vector. /// /// If this vector is built out of floating to integer conversions, @@ -11666,11 +11674,18 @@ SmallVector Ops; EVT TargetVT = N->getValueType(0); for (int i = 0, e = N->getNumOperands(); i < e; ++i) { - if (N->getOperand(i).getOpcode() != PPCISD::MFVSR) + SDValue NextOp = N->getOperand(i); + if (NextOp.getOpcode() != PPCISD::MFVSR) return SDValue(); - unsigned NextConversion = N->getOperand(i).getOperand(0).getOpcode(); + unsigned NextConversion = NextOp.getOperand(0).getOpcode(); if (NextConversion != FirstConversion) return SDValue(); + // If we are converting to 32-bit integers, we need to add an FP_ROUND. + // This is not valid if the input was originally double precision. It is + // also not profitable to do unless this is an extending load in which + // case doing this combine will allow us to combine consecutive loads. + if (Is32Bit && !isFPExtLoad(NextOp.getOperand(0).getOperand(0))) + return SDValue(); if (N->getOperand(i) != FirstInput) IsSplat = false; } @@ -11684,8 +11699,9 @@ // Now that we know we have the right type of node, get its operands for (int i = 0, e = N->getNumOperands(); i < e; ++i) { SDValue In = N->getOperand(i).getOperand(0); - // For 32-bit values, we need to add an FP_ROUND node. if (Is32Bit) { + // For 32-bit values, we need to add an FP_ROUND node (if we made it + // here, we know that all inputs are extending loads so this is safe). if (In.isUndef()) Ops.push_back(DAG.getUNDEF(SrcVT)); else { Index: lib/Target/PowerPC/PPCInstrVSX.td =================================================================== --- lib/Target/PowerPC/PPCInstrVSX.td +++ lib/Target/PowerPC/PPCInstrVSX.td @@ -3398,6 +3398,17 @@ dag B1 = (f32 (fpround (f64 (extractelt v2f64:$B, 1)))); } +def ExtDbl { + dag A0S = (i32 (PPCmfvsr (f64 (PPCfctiwz (f64 (extractelt v2f64:$A, 0)))))); + dag A1S = (i32 (PPCmfvsr (f64 (PPCfctiwz (f64 (extractelt v2f64:$A, 1)))))); + dag B0S = (i32 (PPCmfvsr (f64 (PPCfctiwz (f64 (extractelt v2f64:$B, 0)))))); + dag B1S = (i32 (PPCmfvsr (f64 (PPCfctiwz (f64 (extractelt v2f64:$B, 1)))))); + dag A0U = (i32 (PPCmfvsr (f64 (PPCfctiwuz (f64 (extractelt v2f64:$A, 0)))))); + dag A1U = (i32 (PPCmfvsr (f64 (PPCfctiwuz (f64 (extractelt v2f64:$A, 1)))))); + dag B0U = (i32 (PPCmfvsr (f64 (PPCfctiwuz (f64 (extractelt v2f64:$B, 0)))))); + dag B1U = (i32 (PPCmfvsr (f64 (PPCfctiwuz (f64 (extractelt v2f64:$B, 1)))))); +} + def ByteToWord { dag LE_A0 = (i32 (sext_inreg (i32 (vector_extract v16i8:$A, 0)), i8)); dag LE_A1 = (i32 (sext_inreg (i32 (vector_extract v16i8:$A, 4)), i8)); @@ -3475,9 +3486,15 @@ } def DblToInt { dag A = (i32 (PPCmfvsr (f64 (PPCfctiwz f64:$A)))); + dag B = (i32 (PPCmfvsr (f64 (PPCfctiwz f64:$B)))); + dag C = (i32 (PPCmfvsr (f64 (PPCfctiwz f64:$C)))); + dag D = (i32 (PPCmfvsr (f64 (PPCfctiwz f64:$D)))); } def DblToUInt { dag A = (i32 (PPCmfvsr (f64 (PPCfctiwuz f64:$A)))); + dag B = (i32 (PPCmfvsr (f64 (PPCfctiwuz f64:$B)))); + dag C = (i32 (PPCmfvsr (f64 (PPCfctiwuz f64:$C)))); + dag D = (i32 (PPCmfvsr (f64 (PPCfctiwuz f64:$D)))); } def DblToLong { dag A = (i64 (PPCmfvsr (f64 (PPCfctidz f64:$A)))); @@ -3516,6 +3533,47 @@ dag BAlToFlt = (XVCVDPSP (XXPERMDI $B, $A, 3)); } +// Word-element merge dags - conversions from f64 to i32 merged into vectors. +def MrgWords { + // For big endian, we merge low and hi doublewords (A, B). + dag A0B0 = (v2f64 (XXPERMDI v2f64:$A, v2f64:$B, 0)); + dag A1B1 = (v2f64 (XXPERMDI v2f64:$A, v2f64:$B, 3)); + dag CVA1B1S = (v4i32 (XVCVDPSXWS A1B1)); + dag CVA0B0S = (v4i32 (XVCVDPSXWS A0B0)); + dag CVA1B1U = (v4i32 (XVCVDPUXWS A1B1)); + dag CVA0B0U = (v4i32 (XVCVDPUXWS A0B0)); + + // For little endian, we merge low and hi doublewords (B, A). + dag B1A1 = (v2f64 (XXPERMDI v2f64:$B, v2f64:$A, 0)); + dag B0A0 = (v2f64 (XXPERMDI v2f64:$B, v2f64:$A, 3)); + dag CVB1A1S = (v4i32 (XVCVDPSXWS B1A1)); + dag CVB0A0S = (v4i32 (XVCVDPSXWS B0A0)); + dag CVB1A1U = (v4i32 (XVCVDPUXWS B1A1)); + dag CVB0A0U = (v4i32 (XVCVDPUXWS B0A0)); + + // For big endian, we merge hi doublewords of (A, C) and (B, D), convert + // then merge. + dag AC = (v2f64 (XXPERMDI (COPY_TO_REGCLASS f64:$A, VSRC), + (COPY_TO_REGCLASS f64:$C, VSRC), 0)); + dag BD = (v2f64 (XXPERMDI (COPY_TO_REGCLASS f64:$B, VSRC), + (COPY_TO_REGCLASS f64:$D, VSRC), 0)); + dag CVACS = (v4i32 (XVCVDPSXWS AC)); + dag CVBDS = (v4i32 (XVCVDPSXWS BD)); + dag CVACU = (v4i32 (XVCVDPUXWS AC)); + dag CVBDU = (v4i32 (XVCVDPUXWS BD)); + + // For little endian, we merge hi doublewords of (D, B) and (C, A), convert + // then merge. + dag DB = (v2f64 (XXPERMDI (COPY_TO_REGCLASS f64:$D, VSRC), + (COPY_TO_REGCLASS f64:$B, VSRC), 0)); + dag CA = (v2f64 (XXPERMDI (COPY_TO_REGCLASS f64:$C, VSRC), + (COPY_TO_REGCLASS f64:$A, VSRC), 0)); + dag CVDBS = (v4i32 (XVCVDPSXWS DB)); + dag CVCAS = (v4i32 (XVCVDPSXWS CA)); + dag CVDBU = (v4i32 (XVCVDPUXWS DB)); + dag CVCAU = (v4i32 (XVCVDPUXWS CA)); +} + // Patterns for BUILD_VECTOR nodes. let AddedComplexity = 400 in { @@ -3583,6 +3641,20 @@ def : Pat<(v4f32 (build_vector DblToFlt.A0, DblToFlt.A1, DblToFlt.B0, DblToFlt.B1)), (v4f32 (VMRGEW MrgFP.ABhToFlt, MrgFP.ABlToFlt))>; + + // Convert 4 doubles to a vector of ints. + def : Pat<(v4i32 (build_vector DblToInt.A, DblToInt.B, + DblToInt.C, DblToInt.D)), + (v4i32 (VMRGEW MrgWords.CVACS, MrgWords.CVBDS))>; + def : Pat<(v4i32 (build_vector DblToUInt.A, DblToUInt.B, + DblToUInt.C, DblToUInt.D)), + (v4i32 (VMRGEW MrgWords.CVACU, MrgWords.CVBDU))>; + def : Pat<(v4i32 (build_vector ExtDbl.A0S, ExtDbl.A1S, + ExtDbl.B0S, ExtDbl.B1S)), + (v4i32 (VMRGEW MrgWords.CVA0B0S, MrgWords.CVA1B1S))>; + def : Pat<(v4i32 (build_vector ExtDbl.A0U, ExtDbl.A1U, + ExtDbl.B0U, ExtDbl.B1U)), + (v4i32 (VMRGEW MrgWords.CVA0B0U, MrgWords.CVA1B1U))>; } let Predicates = [IsLittleEndian, HasVSX] in { @@ -3597,6 +3669,20 @@ def : Pat<(v4f32 (build_vector DblToFlt.A0, DblToFlt.A1, DblToFlt.B0, DblToFlt.B1)), (v4f32 (VMRGEW MrgFP.BAhToFlt, MrgFP.BAlToFlt))>; + + // Convert 4 doubles to a vector of ints. + def : Pat<(v4i32 (build_vector DblToInt.A, DblToInt.B, + DblToInt.C, DblToInt.D)), + (v4i32 (VMRGEW MrgWords.CVDBS, MrgWords.CVCAS))>; + def : Pat<(v4i32 (build_vector DblToUInt.A, DblToUInt.B, + DblToUInt.C, DblToUInt.D)), + (v4i32 (VMRGEW MrgWords.CVDBU, MrgWords.CVCAU))>; + def : Pat<(v4i32 (build_vector ExtDbl.A0S, ExtDbl.A1S, + ExtDbl.B0S, ExtDbl.B1S)), + (v4i32 (VMRGEW MrgWords.CVB1A1S, MrgWords.CVB0A0S))>; + def : Pat<(v4i32 (build_vector ExtDbl.A0U, ExtDbl.A1U, + ExtDbl.B0U, ExtDbl.B1U)), + (v4i32 (VMRGEW MrgWords.CVB1A1U, MrgWords.CVB0A0U))>; } let Predicates = [HasDirectMove] in { Index: test/CodeGen/PowerPC/build-vector-tests.ll =================================================================== --- test/CodeGen/PowerPC/build-vector-tests.ll +++ test/CodeGen/PowerPC/build-vector-tests.ll @@ -119,8 +119,8 @@ ;vector int spltCnstConvftoi() { // ; return (vector int) 4.74f; // ;} // -;// P8: 2 x xxmrghd, 2 x xvcvdpsp, vmrgew, xvcvspsxws // -;// P9: 2 x xxmrghd, 2 x xvcvdpsp, vmrgew, xvcvdpsxws // +;// P8: 2 x xxmrghd, 2 x xvcvspsxws, vmrgew // +;// P9: 2 x xxmrghd, 2 x xvcvspsxws, vmrgew // ;vector int fromRegsConvftoi(float a, float b, float c, float d) { // ; return (vector int) { a, b, c, d }; // ;} // @@ -139,15 +139,15 @@ ;vector int fromDiffMemConsDConvftoi(float *ptr) { // ; return (vector int) { ptr[3], ptr[2], ptr[1], ptr[0] }; // ;} // -;// P8: 4 x lxsspx, 2 x xxmrghd, 2 x xvcvdpsp, vmrgew, xvcvspsxws // -;// P9: 4 x lxssp, 2 x xxmrghd, 2 x xvcvdpsp, vmrgew, xvcvspsxws // +;// P8: 4 x lxsspx, 2 x xxmrghd, 2 x xvcvspsxws, vmrgew // +;// P9: 4 x lxssp, 2 x xxmrghd, 2 x xvcvspsxws, vmrgew // ;// Note: if the consecutive loads learns to handle pre-inc, this can be: // ;// sldi 2, load, xvcvspuxws // ;vector int fromDiffMemVarAConvftoi(float *arr, int elem) { // ; return (vector int) { arr[elem], arr[elem+1], arr[elem+2], arr[elem+3] }; // ;} // -;// P8: 4 x lxsspx, 2 x xxmrghd, 2 x xvcvdpsp, vmrgew, xvcvspsxws // -;// P9: 4 x lxssp, 2 x xxmrghd, 2 x xvcvdpsp, vmrgew, xvcvspsxws // +;// P8: 4 x lxsspx, 2 x xxmrghd, 2 x xvcvspsxws, vmrgew // +;// P9: 4 x lxssp, 2 x xxmrghd, 2 x xvcvspsxws, vmrgew // ;// Note: if the consecutive loads learns to handle pre-inc, this can be: // ;// sldi 2, 2 x load, vperm, xvcvspuxws // ;vector int fromDiffMemVarDConvftoi(float *arr, int elem) { // @@ -168,8 +168,8 @@ ;vector int spltCnstConvdtoi() { // ; return (vector int) 4.74; // ;} // -;// P8: 2 x xxmrghd, 2 x xvcvdpsp, vmrgew, xvcvspsxws // -;// P9: 2 x xxmrghd, 2 x xvcvdpsp, vmrgew, xvcvspsxws // +;// P8: 2 x xxmrghd, 2 x xvcvspsxws, vmrgew // +;// P9: 2 x xxmrghd, 2 x xvcvspsxws, vmrgew // ;vector int fromRegsConvdtoi(double a, double b, double c, double d) { // ; return (vector int) { a, b, c, d }; // ;} // @@ -178,25 +178,23 @@ ;vector int fromDiffConstsConvdtoi() { // ; return (vector int) { 24.46, 234., 988.19, 422.39 }; // ;} // -;// P8: 2 x lxvd2x, 2 x xxswapd, xxmrgld, xxmrghd, 2 x xvcvdpsp, vmrgew, // -;// xvcvspsxws // -;// P9: 2 x lxvx, 2 x xxswapd, xxmrgld, xxmrghd, 2 x xvcvdpsp, vmrgew, // -;// xvcvspsxws // +;// P8: 2 x lxvd2x, 2 x xxswapd, xxmrgld, xxmrghd, 2 x xvcvspsxws, vmrgew // +;// P9: 2 x lxvx, 2 x xxswapd, xxmrgld, xxmrghd, 2 x xvcvspsxws, vmrgew // ;vector int fromDiffMemConsAConvdtoi(double *ptr) { // ; return (vector int) { ptr[0], ptr[1], ptr[2], ptr[3] }; // ;} // -;// P8: 4 x lxsdx, 2 x xxmrghd, 2 x xvcvdpsp, vmrgew, xvcvspsxws // -;// P9: 4 x lfd, 2 x xxmrghd, 2 x xvcvdpsp, vmrgew, xvcvspsxws // +;// P8: 4 x lxsdx, 2 x xxmrghd, 2 x xvcvspsxws, vmrgew // +;// P9: 4 x lfd, 2 x xxmrghd, 2 x xvcvspsxws, vmrgew // ;vector int fromDiffMemConsDConvdtoi(double *ptr) { // ; return (vector int) { ptr[3], ptr[2], ptr[1], ptr[0] }; // ;} // -;// P8: lfdux, 3 x lxsdx, 2 x xxmrghd, 2 x xvcvdpsp, vmrgew, xvcvspsxws // -;// P9: lfdux, 3 x lfd, 2 x xxmrghd, 2 x xvcvdpsp, vmrgew, xvcvspsxws // +;// P8: lfdux, 3 x lxsdx, 2 x xxmrghd, 2 x xvcvspsxws, vmrgew // +;// P9: lfdux, 3 x lfd, 2 x xxmrghd, 2 x xvcvspsxws, vmrgew // ;vector int fromDiffMemVarAConvdtoi(double *arr, int elem) { // ; return (vector int) { arr[elem], arr[elem+1], arr[elem+2], arr[elem+3] }; // ;} // -;// P8: lfdux, 3 x lxsdx, 2 x xxmrghd, 2 x xvcvdpsp, vmrgew, xvcvspsxws // -;// P9: lfdux, 3 x lfd, 2 x xxmrghd, 2 x xvcvdpsp, vmrgew, xvcvspsxws // +;// P8: lfdux, 3 x lxsdx, 2 x xxmrghd, 2 x xvcvspsxws, vmrgew // +;// P9: lfdux, 3 x lfd, 2 x xxmrghd, 2 x xvcvspsxws, vmrgew // ;vector int fromDiffMemVarDConvdtoi(double *arr, int elem) { // ; return (vector int) { arr[elem], arr[elem-1], arr[elem-2], arr[elem-3] }; // ;} // @@ -296,8 +294,8 @@ ;vector unsigned int spltCnstConvftoui() { // ; return (vector unsigned int) 4.74f; // ;} // -;// P8: 2 x xxmrghd, 2 x xvcvdpsp, vmrgew, xvcvspuxws // -;// P9: 2 x xxmrghd, 2 x xvcvdpsp, vmrgew, xvcvspuxws // +;// P8: 2 x xxmrghd, 2 x xvcvspuxws, vmrgew // +;// P9: 2 x xxmrghd, 2 x xvcvspuxws, vmrgew // ;vector unsigned int fromRegsConvftoui(float a, float b, float c, float d) { // ; return (vector unsigned int) { a, b, c, d }; // ;} // @@ -316,16 +314,16 @@ ;vector unsigned int fromDiffMemConsDConvftoui(float *ptr) { // ; return (vector unsigned int) { ptr[3], ptr[2], ptr[1], ptr[0] }; // ;} // -;// P8: lfsux, 3 x lxsspx, 2 x xxmrghd, 2 x xvcvdpsp, vmrgew, xvcvspuxws // -;// P9: lfsux, 3 x lfs, 2 x xxmrghd, 2 x xvcvdpsp, vmrgew, xvcvspuxws // +;// P8: lfsux, 3 x lxsspx, 2 x xxmrghd, 2 x xvcvspuxws, vmrgew // +;// P9: lfsux, 3 x lfs, 2 x xxmrghd, 2 x xvcvspuxws, vmrgew // ;// Note: if the consecutive loads learns to handle pre-inc, this can be: // ;// sldi 2, load, xvcvspuxws // ;vector unsigned int fromDiffMemVarAConvftoui(float *arr, int elem) { // ; return (vector unsigned int) { arr[elem], arr[elem+1], // ; arr[elem+2], arr[elem+3] }; // ;} // -;// P8: lfsux, 3 x lxsspx, 2 x xxmrghd, 2 x xvcvdpsp, vmrgew, xvcvspuxws // -;// P9: lfsux, 3 x lfs, 2 x xxmrghd, 2 x xvcvdpsp, vmrgew, xvcvspuxws // +;// P8: lfsux, 3 x lxsspx, 2 x xxmrghd, 2 x xvcvspuxws, vmrgew // +;// P9: lfsux, 3 x lfs, 2 x xxmrghd, 2 x xvcvspuxws, vmrgew // ;// Note: if the consecutive loads learns to handle pre-inc, this can be: // ;// sldi 2, 2 x load, vperm, xvcvspuxws // ;vector unsigned int fromDiffMemVarDConvftoui(float *arr, int elem) { // @@ -347,8 +345,8 @@ ;vector unsigned int spltCnstConvdtoui() { // ; return (vector unsigned int) 4.74; // ;} // -;// P8: 2 x xxmrghd, 2 x xvcvdpsp, vmrgew, xvcvspuxws // -;// P9: 2 x xxmrghd, 2 x xvcvdpsp, vmrgew, xvcvspuxws // +;// P8: 2 x xxmrghd, 2 x xvcvspuxws, vmrgew // +;// P9: 2 x xxmrghd, 2 x xvcvspuxws, vmrgew // ;vector unsigned int fromRegsConvdtoui(double a, double b, // ; double c, double d) { // ; return (vector unsigned int) { a, b, c, d }; // @@ -358,25 +356,24 @@ ;vector unsigned int fromDiffConstsConvdtoui() { // ; return (vector unsigned int) { 24.46, 234., 988.19, 422.39 }; // ;} // -;// P8: 2 x lxvd2x, 2 x xxswapd, xxmrgld, xxmrghd, 2 x xvcvdpsp, vmrgew, // -;// xvcvspuxws // -;// P9: 2 x lxvx, xxmrgld, xxmrghd, 2 x xvcvdpsp, vmrgew, xvcvspuxws // +;// P8: 2 x lxvd2x, 2 x xxswapd, xxmrgld, xxmrghd, 2 x xvcvspuxws, vmrgew // +;// P9: 2 x lxvx, xxmrgld, xxmrghd, 2 x xvcvspuxws, vmrgew // ;vector unsigned int fromDiffMemConsAConvdtoui(double *ptr) { // ; return (vector unsigned int) { ptr[0], ptr[1], ptr[2], ptr[3] }; // ;} // -;// P8: 4 x lxsdx, 2 x xxmrghd, 2 x xvcvdpsp, vmrgew, xvcvspuxws // -;// P9: 4 x lfd, 2 x xxmrghd, 2 x xvcvdpsp, vmrgew, xvcvspuxws // +;// P8: 4 x lxsdx, 2 x xxmrghd, 2 x xvcvspuxws, vmrgew // +;// P9: 4 x lfd, 2 x xxmrghd, 2 x xvcvspuxws, vmrgew // ;vector unsigned int fromDiffMemConsDConvdtoui(double *ptr) { // ; return (vector unsigned int) { ptr[3], ptr[2], ptr[1], ptr[0] }; // ;} // -;// P8: lfdux, 3 x lxsdx, 2 x xxmrghd, 2 x xvcvdpsp, vmrgew, xvcvspuxws // -;// P9: lfdux, 3 x lfd, 2 x xxmrghd, 2 x xvcvdpsp, vmrgew, xvcvspuxws // +;// P8: lfdux, 3 x lxsdx, 2 x xxmrghd, 2 x xvcvspuxws, vmrgew // +;// P9: lfdux, 3 x lfd, 2 x xxmrghd, 2 x xvcvspuxws, vmrgew // ;vector unsigned int fromDiffMemVarAConvdtoui(double *arr, int elem) { // ; return (vector unsigned int) { arr[elem], arr[elem+1], // ; arr[elem+2], arr[elem+3] }; // ;} // -;// P8: lfdux, 3 x lxsdx, 2 x xxmrghd, 2 x xvcvdpsp, vmrgew, xvcvspuxws // -;// P9: lfdux, 3 x lfd, 2 x xxmrghd, 2 x xvcvdpsp, vmrgew, xvcvspuxws // +;// P8: lfdux, 3 x lxsdx, 2 x xxmrghd, 2 x xvcvspuxws, vmrgew // +;// P9: lfdux, 3 x lfd, 2 x xxmrghd, 2 x xvcvspuxws, vmrgew // ;vector unsigned int fromDiffMemVarDConvdtoui(double *arr, int elem) { // ; return (vector unsigned int) { arr[elem], arr[elem-1], // ; arr[elem-2], arr[elem-3] }; // @@ -1253,28 +1250,24 @@ ; P8LE-LABEL: fromRegsConvftoi ; P9BE-DAG: xxmrghd {{[vs]+}}[[REG1:[0-9]+]], vs1, vs3 ; P9BE-DAG: xxmrghd {{[vs]+}}[[REG2:[0-9]+]], vs2, vs4 -; P9BE-DAG: xvcvdpsp [[REG3:v[0-9]+]], {{[vs]+}}[[REG1]] -; P9BE-DAG: xvcvdpsp [[REG4:v[0-9]+]], {{[vs]+}}[[REG2]] +; P9BE-DAG: xvcvdpsxws [[REG3:v[0-9]+]], {{[vs]+}}[[REG1]] +; P9BE-DAG: xvcvdpsxws [[REG4:v[0-9]+]], {{[vs]+}}[[REG2]] ; P9BE: vmrgew v2, [[REG3]], [[REG4]] -; P9BE: xvcvspsxws v2, v2 ; P9LE-DAG: xxmrghd {{[vs]+}}[[REG1:[0-9]+]], vs3, vs1 ; P9LE-DAG: xxmrghd {{[vs]+}}[[REG2:[0-9]+]], vs4, vs2 -; P9LE-DAG: xvcvdpsp [[REG3:v[0-9]+]], {{[vs]+}}[[REG1]] -; P9LE-DAG: xvcvdpsp [[REG4:v[0-9]+]], {{[vs]+}}[[REG2]] +; P9LE-DAG: xvcvdpsxws [[REG3:v[0-9]+]], {{[vs]+}}[[REG1]] +; P9LE-DAG: xvcvdpsxws [[REG4:v[0-9]+]], {{[vs]+}}[[REG2]] ; P9LE: vmrgew v2, [[REG4]], [[REG3]] -; P9LE: xvcvspsxws v2, v2 ; P8BE-DAG: xxmrghd {{[vs]+}}[[REG1:[0-9]+]], vs1, vs3 ; P8BE-DAG: xxmrghd {{[vs]+}}[[REG2:[0-9]+]], vs2, vs4 -; P8BE-DAG: xvcvdpsp [[REG3:v[0-9]+]], {{[vs]+}}[[REG1]] -; P8BE-DAG: xvcvdpsp [[REG4:v[0-9]+]], {{[vs]+}}[[REG2]] +; P8BE-DAG: xvcvdpsxws [[REG3:v[0-9]+]], {{[vs]+}}[[REG1]] +; P8BE-DAG: xvcvdpsxws [[REG4:v[0-9]+]], {{[vs]+}}[[REG2]] ; P8BE: vmrgew v2, [[REG3]], [[REG4]] -; P8BE: xvcvspsxws v2, v2 ; P8LE-DAG: xxmrghd {{[vs]+}}[[REG1:[0-9]+]], vs3, vs1 ; P8LE-DAG: xxmrghd {{[vs]+}}[[REG2:[0-9]+]], vs4, vs2 -; P8LE-DAG: xvcvdpsp [[REG3:v[0-9]+]], {{[vs]+}}[[REG1]] -; P8LE-DAG: xvcvdpsp [[REG4:v[0-9]+]], {{[vs]+}}[[REG2]] +; P8LE-DAG: xvcvdpsxws [[REG3:v[0-9]+]], {{[vs]+}}[[REG1]] +; P8LE-DAG: xvcvdpsxws [[REG4:v[0-9]+]], {{[vs]+}}[[REG2]] ; P8LE: vmrgew v2, [[REG4]], [[REG3]] -; P8LE: xvcvspsxws v2, v2 } ; Function Attrs: norecurse nounwind readnone @@ -1529,28 +1522,24 @@ ; P8LE-LABEL: fromRegsConvdtoi ; P9BE-DAG: xxmrghd {{[vs]+}}[[REG1:[0-9]+]], vs1, vs3 ; P9BE-DAG: xxmrghd {{[vs]+}}[[REG2:[0-9]+]], vs2, vs4 -; P9BE-DAG: xvcvdpsp [[REG3:v[0-9]+]], {{[vs]+}}[[REG1]] -; P9BE-DAG: xvcvdpsp [[REG4:v[0-9]+]], {{[vs]+}}[[REG2]] +; P9BE-DAG: xvcvdpsxws [[REG3:v[0-9]+]], {{[vs]+}}[[REG1]] +; P9BE-DAG: xvcvdpsxws [[REG4:v[0-9]+]], {{[vs]+}}[[REG2]] ; P9BE: vmrgew v2, [[REG3]], [[REG4]] -; P9BE: xvcvspsxws v2, v2 ; P9LE-DAG: xxmrghd {{[vs]+}}[[REG1:[0-9]+]], vs3, vs1 ; P9LE-DAG: xxmrghd {{[vs]+}}[[REG2:[0-9]+]], vs4, vs2 -; P9LE-DAG: xvcvdpsp [[REG3:v[0-9]+]], {{[vs]+}}[[REG1]] -; P9LE-DAG: xvcvdpsp [[REG4:v[0-9]+]], {{[vs]+}}[[REG2]] +; P9LE-DAG: xvcvdpsxws [[REG3:v[0-9]+]], {{[vs]+}}[[REG1]] +; P9LE-DAG: xvcvdpsxws [[REG4:v[0-9]+]], {{[vs]+}}[[REG2]] ; P9LE: vmrgew v2, [[REG4]], [[REG3]] -; P9LE: xvcvspsxws v2, v2 ; P8BE-DAG: xxmrghd {{[vs]+}}[[REG1:[0-9]+]], vs1, vs3 ; P8BE-DAG: xxmrghd {{[vs]+}}[[REG2:[0-9]+]], vs2, vs4 -; P8BE-DAG: xvcvdpsp [[REG3:v[0-9]+]], {{[vs]+}}[[REG1]] -; P8BE-DAG: xvcvdpsp [[REG4:v[0-9]+]], {{[vs]+}}[[REG2]] +; P8BE-DAG: xvcvdpsxws [[REG3:v[0-9]+]], {{[vs]+}}[[REG1]] +; P8BE-DAG: xvcvdpsxws [[REG4:v[0-9]+]], {{[vs]+}}[[REG2]] ; P8BE: vmrgew v2, [[REG3]], [[REG4]] -; P8BE: xvcvspsxws v2, v2 ; P8LE-DAG: xxmrghd {{[vs]+}}[[REG1:[0-9]+]], vs3, vs1 ; P8LE-DAG: xxmrghd {{[vs]+}}[[REG2:[0-9]+]], vs4, vs2 -; P8LE-DAG: xvcvdpsp [[REG3:v[0-9]+]], {{[vs]+}}[[REG1]] -; P8LE-DAG: xvcvdpsp [[REG4:v[0-9]+]], {{[vs]+}}[[REG2]] +; P8LE-DAG: xvcvdpsxws [[REG3:v[0-9]+]], {{[vs]+}}[[REG1]] +; P8LE-DAG: xvcvdpsxws [[REG4:v[0-9]+]], {{[vs]+}}[[REG2]] ; P8LE: vmrgew v2, [[REG4]], [[REG3]] -; P8LE: xvcvspsxws v2, v2 } ; Function Attrs: norecurse nounwind readnone @@ -1592,36 +1581,32 @@ ; P9BE-DAG: lxv [[REG2:[vs0-9]+]], 16(r3) ; P9BE-DAG: xxmrgld [[REG3:[vs0-9]+]], [[REG1]], [[REG2]] ; P9BE-DAG: xxmrghd [[REG4:[vs0-9]+]], [[REG1]], [[REG2]] -; P9BE-DAG: xvcvdpsp [[REG5:[vs0-9]+]], [[REG3]] -; P9BE-DAG: xvcvdpsp [[REG6:[vs0-9]+]], [[REG4]] +; P9BE-DAG: xvcvdpsxws [[REG5:[vs0-9]+]], [[REG3]] +; P9BE-DAG: xvcvdpsxws [[REG6:[vs0-9]+]], [[REG4]] ; P9BE: vmrgew v2, [[REG6]], [[REG5]] -; P9BE: xvcvspsxws v2, v2 ; P9LE-DAG: lxv [[REG1:[vs0-9]+]], 0(r3) ; P9LE-DAG: lxv [[REG2:[vs0-9]+]], 16(r3) ; P9LE-DAG: xxmrgld [[REG3:[vs0-9]+]], [[REG2]], [[REG1]] ; P9LE-DAG: xxmrghd [[REG4:[vs0-9]+]], [[REG2]], [[REG1]] -; P9LE-DAG: xvcvdpsp [[REG5:[vs0-9]+]], [[REG3]] -; P9LE-DAG: xvcvdpsp [[REG6:[vs0-9]+]], [[REG4]] +; P9LE-DAG: xvcvdpsxws [[REG5:[vs0-9]+]], [[REG3]] +; P9LE-DAG: xvcvdpsxws [[REG6:[vs0-9]+]], [[REG4]] ; P9LE: vmrgew v2, [[REG6]], [[REG5]] -; P9LE: xvcvspsxws v2, v2 ; P8BE: lxvd2x [[REG1:[vs0-9]+]], 0, r3 ; P8BE: lxvd2x [[REG2:[vs0-9]+]], r3, r4 ; P8BE-DAG: xxmrgld [[REG3:[vs0-9]+]], [[REG1]], [[REG2]] ; P8BE-DAG: xxmrghd [[REG4:[vs0-9]+]], [[REG1]], [[REG2]] -; P8BE-DAG: xvcvdpsp [[REG5:[vs0-9]+]], [[REG3]] -; P8BE-DAG: xvcvdpsp [[REG6:[vs0-9]+]], [[REG4]] +; P8BE-DAG: xvcvdpsxws [[REG5:[vs0-9]+]], [[REG3]] +; P8BE-DAG: xvcvdpsxws [[REG6:[vs0-9]+]], [[REG4]] ; P8BE: vmrgew v2, [[REG6]], [[REG5]] -; P8BE: xvcvspsxws v2, v2 ; P8LE: lxvd2x [[REG1:[vs0-9]+]], 0, r3 ; P8LE: lxvd2x [[REG2:[vs0-9]+]], r3, r4 ; P8LE-DAG: xxswapd [[REG3:[vs0-9]+]], [[REG1]] ; P8LE-DAG: xxswapd [[REG4:[vs0-9]+]], [[REG2]] ; P8LE-DAG: xxmrgld [[REG5:[vs0-9]+]], [[REG4]], [[REG3]] ; P8LE-DAG: xxmrghd [[REG6:[vs0-9]+]], [[REG4]], [[REG3]] -; P8LE-DAG: xvcvdpsp [[REG7:[vs0-9]+]], [[REG5]] -; P8LE-DAG: xvcvdpsp [[REG8:[vs0-9]+]], [[REG6]] +; P8LE-DAG: xvcvdpsxws [[REG7:[vs0-9]+]], [[REG5]] +; P8LE-DAG: xvcvdpsxws [[REG8:[vs0-9]+]], [[REG6]] ; P8LE: vmrgew v2, [[REG8]], [[REG7]] -; P8LE: xvcvspsxws v2, v2 } ; Function Attrs: norecurse nounwind readonly @@ -1653,40 +1638,36 @@ ; P9BE: lfd ; P9BE: xxmrghd ; P9BE: xxmrghd -; P9BE: xvcvdpsp -; P9BE: xvcvdpsp -; P9BE: vmrgew -; P9BE: xvcvspsxws v2 +; P9BE: xvcvdpsxws +; P9BE: xvcvdpsxws +; P9BE: vmrgew v2 ; P9LE: lfd ; P9LE: lfd ; P9LE: lfd ; P9LE: lfd ; P9LE: xxmrghd ; P9LE: xxmrghd -; P9LE: xvcvdpsp -; P9LE: xvcvdpsp -; P9LE: vmrgew -; P9LE: xvcvspsxws v2 +; P9LE: xvcvdpsxws +; P9LE: xvcvdpsxws +; P9LE: vmrgew v2 ; P8BE: lfdx ; P8BE: lfd ; P8BE: lfd ; P8BE: lfd ; P8BE: xxmrghd ; P8BE: xxmrghd -; P8BE: xvcvdpsp -; P8BE: xvcvdpsp -; P8BE: vmrgew -; P8BE: xvcvspsxws v2 +; P8BE: xvcvdpsxws +; P8BE: xvcvdpsxws +; P8BE: vmrgew v2 ; P8LE: lfdx ; P8LE: lfd ; P8LE: lfd ; P8LE: lfd ; P8LE: xxmrghd ; P8LE: xxmrghd -; P8LE: xvcvdpsp -; P8LE: xvcvdpsp -; P8LE: vmrgew -; P8LE: xvcvspsxws v2 +; P8LE: xvcvdpsxws +; P8LE: xvcvdpsxws +; P8LE: vmrgew v2 } ; Function Attrs: norecurse nounwind readonly @@ -1726,40 +1707,36 @@ ; P9BE: lfd ; P9BE: xxmrghd ; P9BE: xxmrghd -; P9BE: xvcvdpsp -; P9BE: xvcvdpsp -; P9BE: vmrgew -; P9BE: xvcvspsxws v2 +; P9BE: xvcvdpsxws +; P9BE: xvcvdpsxws +; P9BE: vmrgew v2 ; P9LE: lfdux ; P9LE: lfd ; P9LE: lfd ; P9LE: lfd ; P9LE: xxmrghd ; P9LE: xxmrghd -; P9LE: xvcvdpsp -; P9LE: xvcvdpsp -; P9LE: vmrgew -; P9LE: xvcvspsxws v2 +; P9LE: xvcvdpsxws +; P9LE: xvcvdpsxws +; P9LE: vmrgew v2 ; P8BE: lfdux ; P8BE: lfd ; P8BE: lfd ; P8BE: lfd ; P8BE: xxmrghd ; P8BE: xxmrghd -; P8BE: xvcvdpsp -; P8BE: xvcvdpsp -; P8BE: vmrgew -; P8BE: xvcvspsxws v2 +; P8BE: xvcvdpsxws +; P8BE: xvcvdpsxws +; P8BE: vmrgew v2 ; P8LE: lfdux ; P8LE: lfd ; P8LE: lfd ; P8LE: lfd ; P8LE: xxmrghd ; P8LE: xxmrghd -; P8LE: xvcvdpsp -; P8LE: xvcvdpsp -; P8LE: vmrgew -; P8LE: xvcvspsxws v2 +; P8LE: xvcvdpsxws +; P8LE: xvcvdpsxws +; P8LE: vmrgew v2 } ; Function Attrs: norecurse nounwind readonly @@ -1799,40 +1776,36 @@ ; P9BE: lfd ; P9BE: xxmrghd ; P9BE: xxmrghd -; P9BE: xvcvdpsp -; P9BE: xvcvdpsp -; P9BE: vmrgew -; P9BE: xvcvspsxws v2 +; P9BE: xvcvdpsxws +; P9BE: xvcvdpsxws +; P9BE: vmrgew v2 ; P9LE: lfdux ; P9LE: lfd ; P9LE: lfd ; P9LE: lfd ; P9LE: xxmrghd ; P9LE: xxmrghd -; P9LE: xvcvdpsp -; P9LE: xvcvdpsp -; P9LE: vmrgew -; P9LE: xvcvspsxws v2 +; P9LE: xvcvdpsxws +; P9LE: xvcvdpsxws +; P9LE: vmrgew v2 ; P8BE: lfdux ; P8BE: lfd ; P8BE: lfd ; P8BE: lfd ; P8BE: xxmrghd ; P8BE: xxmrghd -; P8BE: xvcvdpsp -; P8BE: xvcvdpsp -; P8BE: vmrgew -; P8BE: xvcvspsxws v2 +; P8BE: xvcvdpsxws +; P8BE: xvcvdpsxws +; P8BE: vmrgew v2 ; P8LE: lfdux ; P8LE: lfd ; P8LE: lfd ; P8LE: lfd ; P8LE: xxmrghd ; P8LE: xxmrghd -; P8LE: xvcvdpsp -; P8LE: xvcvdpsp -; P8LE: vmrgew -; P8LE: xvcvspsxws v2 +; P8LE: xvcvdpsxws +; P8LE: xvcvdpsxws +; P8LE: vmrgew v2 } ; Function Attrs: norecurse nounwind readnone @@ -2413,28 +2386,24 @@ ; P8LE-LABEL: fromRegsConvftoui ; P9BE-DAG: xxmrghd {{[vs]+}}[[REG1:[0-9]+]], vs1, vs3 ; P9BE-DAG: xxmrghd {{[vs]+}}[[REG2:[0-9]+]], vs2, vs4 -; P9BE-DAG: xvcvdpsp [[REG3:v[0-9]+]], {{[vs]+}}[[REG1]] -; P9BE-DAG: xvcvdpsp [[REG4:v[0-9]+]], {{[vs]+}}[[REG2]] +; P9BE-DAG: xvcvdpuxws [[REG3:v[0-9]+]], {{[vs]+}}[[REG1]] +; P9BE-DAG: xvcvdpuxws [[REG4:v[0-9]+]], {{[vs]+}}[[REG2]] ; P9BE: vmrgew v2, [[REG3]], [[REG4]] -; P9BE: xvcvspuxws v2, v2 ; P9LE-DAG: xxmrghd {{[vs]+}}[[REG1:[0-9]+]], vs3, vs1 ; P9LE-DAG: xxmrghd {{[vs]+}}[[REG2:[0-9]+]], vs4, vs2 -; P9LE-DAG: xvcvdpsp [[REG3:v[0-9]+]], {{[vs]+}}[[REG1]] -; P9LE-DAG: xvcvdpsp [[REG4:v[0-9]+]], {{[vs]+}}[[REG2]] +; P9LE-DAG: xvcvdpuxws [[REG3:v[0-9]+]], {{[vs]+}}[[REG1]] +; P9LE-DAG: xvcvdpuxws [[REG4:v[0-9]+]], {{[vs]+}}[[REG2]] ; P9LE: vmrgew v2, [[REG4]], [[REG3]] -; P9LE: xvcvspuxws v2, v2 ; P8BE-DAG: xxmrghd {{[vs]+}}[[REG1:[0-9]+]], vs1, vs3 ; P8BE-DAG: xxmrghd {{[vs]+}}[[REG2:[0-9]+]], vs2, vs4 -; P8BE-DAG: xvcvdpsp [[REG3:v[0-9]+]], {{[vs]+}}[[REG1]] -; P8BE-DAG: xvcvdpsp [[REG4:v[0-9]+]], {{[vs]+}}[[REG2]] +; P8BE-DAG: xvcvdpuxws [[REG3:v[0-9]+]], {{[vs]+}}[[REG1]] +; P8BE-DAG: xvcvdpuxws [[REG4:v[0-9]+]], {{[vs]+}}[[REG2]] ; P8BE: vmrgew v2, [[REG3]], [[REG4]] -; P8BE: xvcvspuxws v2, v2 ; P8LE-DAG: xxmrghd {{[vs]+}}[[REG1:[0-9]+]], vs3, vs1 ; P8LE-DAG: xxmrghd {{[vs]+}}[[REG2:[0-9]+]], vs4, vs2 -; P8LE-DAG: xvcvdpsp [[REG3:v[0-9]+]], {{[vs]+}}[[REG1]] -; P8LE-DAG: xvcvdpsp [[REG4:v[0-9]+]], {{[vs]+}}[[REG2]] +; P8LE-DAG: xvcvdpuxws [[REG3:v[0-9]+]], {{[vs]+}}[[REG1]] +; P8LE-DAG: xvcvdpuxws [[REG4:v[0-9]+]], {{[vs]+}}[[REG2]] ; P8LE: vmrgew v2, [[REG4]], [[REG3]] -; P8LE: xvcvspuxws v2, v2 } ; Function Attrs: norecurse nounwind readnone @@ -2689,28 +2658,24 @@ ; P8LE-LABEL: fromRegsConvdtoui ; P9BE-DAG: xxmrghd {{[vs]+}}[[REG1:[0-9]+]], vs1, vs3 ; P9BE-DAG: xxmrghd {{[vs]+}}[[REG2:[0-9]+]], vs2, vs4 -; P9BE-DAG: xvcvdpsp [[REG3:v[0-9]+]], {{[vs]+}}[[REG1]] -; P9BE-DAG: xvcvdpsp [[REG4:v[0-9]+]], {{[vs]+}}[[REG2]] +; P9BE-DAG: xvcvdpuxws [[REG3:v[0-9]+]], {{[vs]+}}[[REG1]] +; P9BE-DAG: xvcvdpuxws [[REG4:v[0-9]+]], {{[vs]+}}[[REG2]] ; P9BE: vmrgew v2, [[REG3]], [[REG4]] -; P9BE: xvcvspuxws v2, v2 ; P9LE-DAG: xxmrghd {{[vs]+}}[[REG1:[0-9]+]], vs3, vs1 ; P9LE-DAG: xxmrghd {{[vs]+}}[[REG2:[0-9]+]], vs4, vs2 -; P9LE-DAG: xvcvdpsp [[REG3:v[0-9]+]], {{[vs]+}}[[REG1]] -; P9LE-DAG: xvcvdpsp [[REG4:v[0-9]+]], {{[vs]+}}[[REG2]] +; P9LE-DAG: xvcvdpuxws [[REG3:v[0-9]+]], {{[vs]+}}[[REG1]] +; P9LE-DAG: xvcvdpuxws [[REG4:v[0-9]+]], {{[vs]+}}[[REG2]] ; P9LE: vmrgew v2, [[REG4]], [[REG3]] -; P9LE: xvcvspuxws v2, v2 ; P8BE-DAG: xxmrghd {{[vs]+}}[[REG1:[0-9]+]], vs1, vs3 ; P8BE-DAG: xxmrghd {{[vs]+}}[[REG2:[0-9]+]], vs2, vs4 -; P8BE-DAG: xvcvdpsp [[REG3:v[0-9]+]], {{[vs]+}}[[REG1]] -; P8BE-DAG: xvcvdpsp [[REG4:v[0-9]+]], {{[vs]+}}[[REG2]] +; P8BE-DAG: xvcvdpuxws [[REG3:v[0-9]+]], {{[vs]+}}[[REG1]] +; P8BE-DAG: xvcvdpuxws [[REG4:v[0-9]+]], {{[vs]+}}[[REG2]] ; P8BE: vmrgew v2, [[REG3]], [[REG4]] -; P8BE: xvcvspuxws v2, v2 ; P8LE-DAG: xxmrghd {{[vs]+}}[[REG1:[0-9]+]], vs3, vs1 ; P8LE-DAG: xxmrghd {{[vs]+}}[[REG2:[0-9]+]], vs4, vs2 -; P8LE-DAG: xvcvdpsp [[REG3:v[0-9]+]], {{[vs]+}}[[REG1]] -; P8LE-DAG: xvcvdpsp [[REG4:v[0-9]+]], {{[vs]+}}[[REG2]] +; P8LE-DAG: xvcvdpuxws [[REG3:v[0-9]+]], {{[vs]+}}[[REG1]] +; P8LE-DAG: xvcvdpuxws [[REG4:v[0-9]+]], {{[vs]+}}[[REG2]] ; P8LE: vmrgew v2, [[REG4]], [[REG3]] -; P8LE: xvcvspuxws v2, v2 } ; Function Attrs: norecurse nounwind readnone @@ -2752,36 +2717,32 @@ ; P9BE-DAG: lxv [[REG2:[vs0-9]+]], 16(r3) ; P9BE-DAG: xxmrgld [[REG3:[vs0-9]+]], [[REG1]], [[REG2]] ; P9BE-DAG: xxmrghd [[REG4:[vs0-9]+]], [[REG1]], [[REG2]] -; P9BE-DAG: xvcvdpsp [[REG5:[vs0-9]+]], [[REG3]] -; P9BE-DAG: xvcvdpsp [[REG6:[vs0-9]+]], [[REG4]] +; P9BE-DAG: xvcvdpuxws [[REG5:[vs0-9]+]], [[REG3]] +; P9BE-DAG: xvcvdpuxws [[REG6:[vs0-9]+]], [[REG4]] ; P9BE: vmrgew v2, [[REG6]], [[REG5]] -; P9BE: xvcvspuxws v2, v2 ; P9LE-DAG: lxv [[REG1:[vs0-9]+]], 0(r3) ; P9LE-DAG: lxv [[REG2:[vs0-9]+]], 16(r3) -; P9LE-DAG: xxmrgld [[REG3:[vs0-9]+]], [[REG2]], [[REG1]] ; P9LE-DAG: xxmrghd [[REG4:[vs0-9]+]], [[REG2]], [[REG1]] -; P9LE-DAG: xvcvdpsp [[REG5:[vs0-9]+]], [[REG3]] -; P9LE-DAG: xvcvdpsp [[REG6:[vs0-9]+]], [[REG4]] +; P9LE-DAG: xxmrgld [[REG3:[vs0-9]+]], [[REG2]], [[REG1]] +; P9LE-DAG: xvcvdpuxws [[REG5:[vs0-9]+]], [[REG3]] +; P9LE-DAG: xvcvdpuxws [[REG6:[vs0-9]+]], [[REG4]] ; P9LE: vmrgew v2, [[REG6]], [[REG5]] -; P9LE: xvcvspuxws v2, v2 ; P8BE: lxvd2x [[REG1:[vs0-9]+]], 0, r3 ; P8BE: lxvd2x [[REG2:[vs0-9]+]], r3, r4 ; P8BE-DAG: xxmrgld [[REG3:[vs0-9]+]], [[REG1]], [[REG2]] ; P8BE-DAG: xxmrghd [[REG4:[vs0-9]+]], [[REG1]], [[REG2]] -; P8BE-DAG: xvcvdpsp [[REG5:[vs0-9]+]], [[REG3]] -; P8BE-DAG: xvcvdpsp [[REG6:[vs0-9]+]], [[REG4]] +; P8BE-DAG: xvcvdpuxws [[REG5:[vs0-9]+]], [[REG3]] +; P8BE-DAG: xvcvdpuxws [[REG6:[vs0-9]+]], [[REG4]] ; P8BE: vmrgew v2, [[REG6]], [[REG5]] -; P8BE: xvcvspuxws v2, v2 ; P8LE: lxvd2x [[REG1:[vs0-9]+]], 0, r3 ; P8LE: lxvd2x [[REG2:[vs0-9]+]], r3, r4 ; P8LE-DAG: xxswapd [[REG3:[vs0-9]+]], [[REG1]] ; P8LE-DAG: xxswapd [[REG4:[vs0-9]+]], [[REG2]] ; P8LE-DAG: xxmrgld [[REG5:[vs0-9]+]], [[REG4]], [[REG3]] ; P8LE-DAG: xxmrghd [[REG6:[vs0-9]+]], [[REG4]], [[REG3]] -; P8LE-DAG: xvcvdpsp [[REG7:[vs0-9]+]], [[REG5]] -; P8LE-DAG: xvcvdpsp [[REG8:[vs0-9]+]], [[REG6]] +; P8LE-DAG: xvcvdpuxws [[REG7:[vs0-9]+]], [[REG5]] +; P8LE-DAG: xvcvdpuxws [[REG8:[vs0-9]+]], [[REG6]] ; P8LE: vmrgew v2, [[REG8]], [[REG7]] -; P8LE: xvcvspuxws v2, v2 } ; Function Attrs: norecurse nounwind readonly @@ -2813,40 +2774,36 @@ ; P9BE: lfd ; P9BE: xxmrghd ; P9BE: xxmrghd -; P9BE: xvcvdpsp -; P9BE: xvcvdpsp -; P9BE: vmrgew -; P9BE: xvcvspuxws v2 +; P9BE: xvcvdpuxws +; P9BE: xvcvdpuxws +; P9BE: vmrgew v2 ; P9LE: lfd ; P9LE: lfd ; P9LE: lfd ; P9LE: lfd ; P9LE: xxmrghd ; P9LE: xxmrghd -; P9LE: xvcvdpsp -; P9LE: xvcvdpsp -; P9LE: vmrgew -; P9LE: xvcvspuxws v2 +; P9LE: xvcvdpuxws +; P9LE: xvcvdpuxws +; P9LE: vmrgew v2 ; P8BE: lfdx ; P8BE: lfd ; P8BE: lfd ; P8BE: lfd ; P8BE: xxmrghd ; P8BE: xxmrghd -; P8BE: xvcvdpsp -; P8BE: xvcvdpsp -; P8BE: vmrgew -; P8BE: xvcvspuxws v2 +; P8BE: xvcvdpuxws +; P8BE: xvcvdpuxws +; P8BE: vmrgew v2 ; P8LE: lfdx ; P8LE: lfd ; P8LE: lfd ; P8LE: lfd ; P8LE: xxmrghd ; P8LE: xxmrghd -; P8LE: xvcvdpsp -; P8LE: xvcvdpsp -; P8LE: vmrgew -; P8LE: xvcvspuxws v2 +; P8LE: xvcvdpuxws +; P8LE: xvcvdpuxws +; P8LE: vmrgew v2 } ; Function Attrs: norecurse nounwind readonly @@ -2886,40 +2843,36 @@ ; P9BE: lfd ; P9BE: xxmrghd ; P9BE: xxmrghd -; P9BE: xvcvdpsp -; P9BE: xvcvdpsp -; P9BE: vmrgew -; P9BE: xvcvspuxws v2 +; P9BE: xvcvdpuxws +; P9BE: xvcvdpuxws +; P9BE: vmrgew v2 ; P9LE: lfdux ; P9LE: lfd ; P9LE: lfd ; P9LE: lfd ; P9LE: xxmrghd ; P9LE: xxmrghd -; P9LE: xvcvdpsp -; P9LE: xvcvdpsp -; P9LE: vmrgew -; P9LE: xvcvspuxws v2 +; P9LE: xvcvdpuxws +; P9LE: xvcvdpuxws +; P9LE: vmrgew v2 ; P8BE: lfdux ; P8BE: lfd ; P8BE: lfd ; P8BE: lfd ; P8BE: xxmrghd ; P8BE: xxmrghd -; P8BE: xvcvdpsp -; P8BE: xvcvdpsp -; P8BE: vmrgew -; P8BE: xvcvspuxws v2 +; P8BE: xvcvdpuxws +; P8BE: xvcvdpuxws +; P8BE: vmrgew v2 ; P8LE: lfdux ; P8LE: lfd ; P8LE: lfd ; P8LE: lfd ; P8LE: xxmrghd ; P8LE: xxmrghd -; P8LE: xvcvdpsp -; P8LE: xvcvdpsp -; P8LE: vmrgew -; P8LE: xvcvspuxws v2 +; P8LE: xvcvdpuxws +; P8LE: xvcvdpuxws +; P8LE: vmrgew v2 } ; Function Attrs: norecurse nounwind readonly @@ -2959,40 +2912,36 @@ ; P9BE: lfd ; P9BE: xxmrghd ; P9BE: xxmrghd -; P9BE: xvcvdpsp -; P9BE: xvcvdpsp -; P9BE: vmrgew -; P9BE: xvcvspuxws v2 +; P9BE: xvcvdpuxws +; P9BE: xvcvdpuxws +; P9BE: vmrgew v2 ; P9LE: lfdux ; P9LE: lfd ; P9LE: lfd ; P9LE: lfd ; P9LE: xxmrghd ; P9LE: xxmrghd -; P9LE: xvcvdpsp -; P9LE: xvcvdpsp -; P9LE: vmrgew -; P9LE: xvcvspuxws v2 +; P9LE: xvcvdpuxws +; P9LE: xvcvdpuxws +; P9LE: vmrgew v2 ; P8BE: lfdux ; P8BE: lfd ; P8BE: lfd ; P8BE: lfd ; P8BE: xxmrghd ; P8BE: xxmrghd -; P8BE: xvcvdpsp -; P8BE: xvcvdpsp -; P8BE: vmrgew -; P8BE: xvcvspuxws v2 +; P8BE: xvcvdpuxws +; P8BE: xvcvdpuxws +; P8BE: vmrgew v2 ; P8LE: lfdux ; P8LE: lfd ; P8LE: lfd ; P8LE: lfd ; P8LE: xxmrghd ; P8LE: xxmrghd -; P8LE: xvcvdpsp -; P8LE: xvcvdpsp -; P8LE: vmrgew -; P8LE: xvcvspuxws v2 +; P8LE: xvcvdpuxws +; P8LE: xvcvdpuxws +; P8LE: vmrgew v2 } ; Function Attrs: norecurse nounwind readnone