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|
//===-- PPCInstrP10.td - Power10 Instruction Set -----------*- tablegen -*-===//
//
// The LLVM Compiler Infrastructure
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// This file describes the instructions introduced for the Power10 CPU.
//
//===----------------------------------------------------------------------===//
//===----------------------------------------------------------------------===//
// Naming convention for future instruction formats
//
// <INSTR_FORM>{_<OP_TYPE><OP_LENGTH>}+
//
// Where:
// <INSTR_FORM> - name of instruction format as per the ISA
// (X-Form, VX-Form, etc.)
// <OP_TYPE> - operand type
// * FRT/RT/VT/XT/BT - target register
// (FPR, GPR, VR, VSR, CR-bit respectively)
// In some situations, the 'T' is replaced by
// 'D' when describing the target register.
// * [FR|R|V|X|B][A-Z] - register source (i.e. FRA, RA, XB, etc.)
// * IMM - immediate (where signedness matters,
// this is SI/UI for signed/unsigned)
// * [R|X|FR]Tp - register pair target (i.e. FRTp, RTp)
// * R - PC-Relative bit
// (denotes that the address is computed pc-relative)
// * VRM - Masked Registers
// * AT - target accumulator
// * N - the Nth bit in a VSR
// * Additional 1-bit operands may be required for certain
// instruction formats such as: MC, P, MP
// * X / Y / P - mask values. In the instruction encoding, this is
// represented as XMSK, YMSK and PMSK.
// * MEM - indicates if the instruction format requires any memory
// accesses. This does not have <OP_LENGTH> attached to it.
// <OP_LENGTH> - the length of each operand in bits.
// For operands that are 1 bit, the '1' is omitted from the name.
//
// Example: 8RR_XX4Form_IMM8_XTAB6
// 8RR_XX4Form is the instruction format.
// The operand is an 8-bit immediate (IMM), the destination (XT)
// and sources (XA, XB) that are all 6-bits. The destination and
// source registers are combined if they are of the same length.
// Moreover, the order of operands reflects the order of operands
// in the encoding.
//-------------------------- Predicate definitions ---------------------------//
def IsPPC32 : Predicate<"!Subtarget->isPPC64()">;
//===----------------------------------------------------------------------===//
// PowerPC ISA 3.1 specific type constraints.
//
def SDT_PPCSplat32 : SDTypeProfile<1, 3, [ SDTCisVT<0, v2i64>,
SDTCisVec<1>, SDTCisInt<2>, SDTCisInt<3>
]>;
def SDT_PPCAccBuild : SDTypeProfile<1, 4, [
SDTCisVT<0, v512i1>, SDTCisVT<1, v4i32>, SDTCisVT<2, v4i32>,
SDTCisVT<3, v4i32>, SDTCisVT<4, v4i32>
]>;
def SDT_PPCPairBuild : SDTypeProfile<1, 2, [
SDTCisVT<0, v256i1>, SDTCisVT<1, v4i32>, SDTCisVT<2, v4i32>
]>;
def SDT_PPCAccExtractVsx : SDTypeProfile<1, 2, [
SDTCisVT<0, v4i32>, SDTCisVT<1, v512i1>, SDTCisPtrTy<2>
]>;
def SDT_PPCPairExtractVsx : SDTypeProfile<1, 2, [
SDTCisVT<0, v4i32>, SDTCisVT<1, v256i1>, SDTCisPtrTy<2>
]>;
def SDT_PPCxxmfacc : SDTypeProfile<1, 1, [
SDTCisVT<0, v512i1>, SDTCisVT<1, v512i1>
]>;
//===----------------------------------------------------------------------===//
// ISA 3.1 specific PPCISD nodes.
//
def PPCxxsplti32dx : SDNode<"PPCISD::XXSPLTI32DX", SDT_PPCSplat32, []>;
def PPCAccBuild : SDNode<"PPCISD::ACC_BUILD", SDT_PPCAccBuild, []>;
def PPCPairBuild : SDNode<"PPCISD::PAIR_BUILD", SDT_PPCPairBuild, []>;
def PPCAccExtractVsx : SDNode<"PPCISD::EXTRACT_VSX_REG", SDT_PPCAccExtractVsx,
[]>;
def PPCPairExtractVsx : SDNode<"PPCISD::EXTRACT_VSX_REG", SDT_PPCPairExtractVsx,
[]>;
def PPCxxmfacc : SDNode<"PPCISD::XXMFACC", SDT_PPCxxmfacc, []>;
//===----------------------------------------------------------------------===//
// PC Relative flag (for instructions that use the address of the prefix for
// address computations).
class isPCRel { bit PCRel = 1; }
// PowerPC specific type constraints.
def SDT_PPCLXVRZX : SDTypeProfile<1, 2, [
SDTCisVT<0, v1i128>, SDTCisPtrTy<1>, SDTCisPtrTy<2>
]>;
// PPC Specific DAG Nodes.
def PPClxvrzx : SDNode<"PPCISD::LXVRZX", SDT_PPCLXVRZX,
[SDNPHasChain, SDNPMayLoad]>;
// Top-level class for prefixed instructions.
class PI<bits<6> pref, bits<6> opcode, dag OOL, dag IOL, string asmstr,
InstrItinClass itin> : Instruction {
field bits<64> Inst;
field bits<64> SoftFail = 0;
bit PCRel = 0; // Default value, set by isPCRel.
let Size = 8;
let Namespace = "PPC";
let OutOperandList = OOL;
let InOperandList = IOL;
let AsmString = asmstr;
let Itinerary = itin;
let Inst{0-5} = pref;
let Inst{32-37} = opcode;
bits<1> PPC970_First = 0;
bits<1> PPC970_Single = 0;
bits<1> PPC970_Cracked = 0;
bits<3> PPC970_Unit = 0;
/// These fields correspond to the fields in PPCInstrInfo.h. Any changes to
/// these must be reflected there! See comments there for what these are.
let TSFlags{0} = PPC970_First;
let TSFlags{1} = PPC970_Single;
let TSFlags{2} = PPC970_Cracked;
let TSFlags{5-3} = PPC970_Unit;
bits<1> Prefixed = 1; // This is a prefixed instruction.
let TSFlags{7} = Prefixed;
// For cases where multiple instruction definitions really represent the
// same underlying instruction but with one definition for 64-bit arguments
// and one for 32-bit arguments, this bit breaks the degeneracy between
// the two forms and allows TableGen to generate mapping tables.
bit Interpretation64Bit = 0;
// Fields used for relation models.
string BaseName = "";
}
// VX-Form: [ PO VT R VB RC XO ]
class VXForm_VTB5_RC<bits<10> xo, bits<5> R, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<4, OOL, IOL, asmstr, itin> {
bits<5> VT;
bits<5> VB;
bit RC = 0;
let Pattern = pattern;
let Inst{6-10} = VT;
let Inst{11-15} = R;
let Inst{16-20} = VB;
let Inst{21} = RC;
let Inst{22-31} = xo;
}
// Multiclass definition to account for record and non-record form
// instructions of VXRForm.
multiclass VXForm_VTB5_RCr<bits<10> xo, bits<5> R, dag OOL, dag IOL,
string asmbase, string asmstr,
InstrItinClass itin, list<dag> pattern> {
let BaseName = asmbase in {
def NAME : VXForm_VTB5_RC<xo, R, OOL, IOL,
!strconcat(asmbase, !strconcat(" ", asmstr)),
itin, pattern>, RecFormRel;
let Defs = [CR6] in
def _rec : VXForm_VTB5_RC<xo, R, OOL, IOL,
!strconcat(asmbase, !strconcat(". ", asmstr)),
itin, []>, isRecordForm, RecFormRel;
}
}
class MLS_DForm_R_SI34_RTA5_MEM<bits<6> opcode, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: PI<1, opcode, OOL, IOL, asmstr, itin> {
bits<5> FRS;
bits<39> D_RA;
let Pattern = pattern;
// The prefix.
let Inst{6-7} = 2;
let Inst{8-10} = 0;
let Inst{11} = PCRel;
let Inst{12-13} = 0;
let Inst{14-31} = D_RA{33-16}; // d0
// The instruction.
let Inst{38-42} = FRS{4-0};
let Inst{43-47} = D_RA{38-34}; // RA
let Inst{48-63} = D_RA{15-0}; // d1
}
class MLS_DForm_R_SI34_RTA5<bits<6> opcode, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: PI<1, opcode, OOL, IOL, asmstr, itin> {
bits<5> RT;
bits<5> RA;
bits<34> SI;
let Pattern = pattern;
// The prefix.
let Inst{6-7} = 2;
let Inst{8-10} = 0;
let Inst{11} = PCRel;
let Inst{12-13} = 0;
let Inst{14-31} = SI{33-16};
// The instruction.
let Inst{38-42} = RT;
let Inst{43-47} = RA;
let Inst{48-63} = SI{15-0};
}
class MLS_DForm_SI34_RT5<bits<6> opcode, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: PI<1, opcode, OOL, IOL, asmstr, itin> {
bits<5> RT;
bits<34> SI;
let Pattern = pattern;
// The prefix.
let Inst{6-7} = 2;
let Inst{8-10} = 0;
let Inst{11} = 0;
let Inst{12-13} = 0;
let Inst{14-31} = SI{33-16};
// The instruction.
let Inst{38-42} = RT;
let Inst{43-47} = 0;
let Inst{48-63} = SI{15-0};
}
multiclass MLS_DForm_R_SI34_RTA5_p<bits<6> opcode, dag OOL, dag IOL,
dag PCRel_IOL, string asmstr,
InstrItinClass itin> {
def NAME : MLS_DForm_R_SI34_RTA5<opcode, OOL, IOL,
!strconcat(asmstr, ", 0"), itin, []>;
def pc : MLS_DForm_R_SI34_RTA5<opcode, OOL, PCRel_IOL,
!strconcat(asmstr, ", 1"), itin, []>, isPCRel;
}
class 8LS_DForm_R_SI34_RTA5_MEM<bits<6> opcode, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: PI<1, opcode, OOL, IOL, asmstr, itin> {
bits<5> RT;
bits<39> D_RA;
let Pattern = pattern;
// The prefix.
let Inst{6-10} = 0;
let Inst{11} = PCRel;
let Inst{12-13} = 0;
let Inst{14-31} = D_RA{33-16}; // d0
// The instruction.
let Inst{38-42} = RT{4-0};
let Inst{43-47} = D_RA{38-34}; // RA
let Inst{48-63} = D_RA{15-0}; // d1
}
// 8LS:D-Form: [ 1 0 0 // R // d0
// PO TX T RA d1 ]
class 8LS_DForm_R_SI34_XT6_RA5_MEM<bits<5> opcode, dag OOL, dag IOL,
string asmstr, InstrItinClass itin,
list<dag> pattern>
: PI<1, { opcode, ? }, OOL, IOL, asmstr, itin> {
bits<6> XT;
bits<39> D_RA;
let Pattern = pattern;
// The prefix.
let Inst{6-7} = 0;
let Inst{8} = 0;
let Inst{9-10} = 0; // reserved
let Inst{11} = PCRel;
let Inst{12-13} = 0; // reserved
let Inst{14-31} = D_RA{33-16}; // d0
// The instruction.
let Inst{37} = XT{5};
let Inst{38-42} = XT{4-0};
let Inst{43-47} = D_RA{38-34}; // RA
let Inst{48-63} = D_RA{15-0}; // d1
}
// X-Form: [PO T IMM VRB XO TX]
class XForm_XT6_IMM5_VB5<bits<6> opcode, bits<10> xo, dag OOL, dag IOL,
string asmstr, InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<6> XT;
bits<5> VRB;
bits<5> IMM;
let Pattern = pattern;
let Inst{6-10} = XT{4-0};
let Inst{11-15} = IMM;
let Inst{16-20} = VRB;
let Inst{21-30} = xo;
let Inst{31} = XT{5};
}
class 8RR_XX4Form_IMM8_XTAB6<bits<6> opcode, bits<2> xo,
dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: PI<1, opcode, OOL, IOL, asmstr, itin> {
bits<6> XT;
bits<6> XA;
bits<6> XB;
bits<6> XC;
bits<8> IMM;
let Pattern = pattern;
// The prefix.
let Inst{6-7} = 1;
let Inst{8} = 0;
let Inst{9-11} = 0;
let Inst{12-13} = 0;
let Inst{14-23} = 0;
let Inst{24-31} = IMM;
// The instruction.
let Inst{38-42} = XT{4-0};
let Inst{43-47} = XA{4-0};
let Inst{48-52} = XB{4-0};
let Inst{53-57} = XC{4-0};
let Inst{58-59} = xo;
let Inst{60} = XC{5};
let Inst{61} = XA{5};
let Inst{62} = XB{5};
let Inst{63} = XT{5};
}
class VXForm_RD5_N3_VB5<bits<11> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<4, OOL, IOL, asmstr, itin> {
bits<5> RD;
bits<5> VB;
bits<3> N;
let Pattern = pattern;
let Inst{6-10} = RD;
let Inst{11-12} = 0;
let Inst{13-15} = N;
let Inst{16-20} = VB;
let Inst{21-31} = xo;
}
// VX-Form: [PO VRT RA VRB XO].
// Destructive (insert) forms are suffixed with _ins.
class VXForm_VTB5_RA5_ins<bits<11> xo, string opc, list<dag> pattern>
: VXForm_1<xo, (outs vrrc:$vD), (ins vrrc:$vDi, gprc:$rA, vrrc:$vB),
!strconcat(opc, " $vD, $rA, $vB"), IIC_VecGeneral, pattern>,
RegConstraint<"$vDi = $vD">, NoEncode<"$vDi">;
// VX-Form: [PO VRT RA RB XO].
// Destructive (insert) forms are suffixed with _ins.
class VXForm_VRT5_RAB5_ins<bits<11> xo, string opc, list<dag> pattern>
: VXForm_1<xo, (outs vrrc:$vD), (ins vrrc:$vDi, gprc:$rA, gprc:$rB),
!strconcat(opc, " $vD, $rA, $rB"), IIC_VecGeneral, pattern>,
RegConstraint<"$vDi = $vD">, NoEncode<"$vDi">;
// VX-Form: [ PO BF // VRA VRB XO ]
class VXForm_BF3_VAB5<bits<11> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<4, OOL, IOL, asmstr, itin> {
bits<3> BF;
bits<5> VA;
bits<5> VB;
let Pattern = pattern;
let Inst{6-8} = BF;
let Inst{9-10} = 0;
let Inst{11-15} = VA;
let Inst{16-20} = VB;
let Inst{21-31} = xo;
}
// VN-Form: [PO VRT VRA VRB PS SD XO]
// SD is "Shift Direction"
class VNForm_VTAB5_SD3<bits<6> xo, bits<2> ps, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<4, OOL, IOL, asmstr, itin> {
bits<5> VRT;
bits<5> VRA;
bits<5> VRB;
bits<3> SD;
let Pattern = pattern;
let Inst{6-10} = VRT;
let Inst{11-15} = VRA;
let Inst{16-20} = VRB;
let Inst{21-22} = ps;
let Inst{23-25} = SD;
let Inst{26-31} = xo;
}
class VXForm_RD5_MP_VB5<bits<11> xo, bits<4> eo, dag OOL, dag IOL,
string asmstr, InstrItinClass itin, list<dag> pattern>
: I<4, OOL, IOL, asmstr, itin> {
bits<5> RD;
bits<5> VB;
bit MP;
let Pattern = pattern;
let Inst{6-10} = RD;
let Inst{11-14} = eo;
let Inst{15} = MP;
let Inst{16-20} = VB;
let Inst{21-31} = xo;
}
// 8RR:D-Form: [ 1 1 0 // // imm0
// PO T XO TX imm1 ].
class 8RR_DForm_IMM32_XT6<bits<6> opcode, bits<4> xo, dag OOL, dag IOL,
string asmstr, InstrItinClass itin,
list<dag> pattern>
: PI<1, opcode, OOL, IOL, asmstr, itin> {
bits<6> XT;
bits<32> IMM32;
let Pattern = pattern;
// The prefix.
let Inst{6-7} = 1;
let Inst{8-11} = 0;
let Inst{12-13} = 0; // reserved
let Inst{14-15} = 0; // reserved
let Inst{16-31} = IMM32{31-16};
// The instruction.
let Inst{38-42} = XT{4-0};
let Inst{43-46} = xo;
let Inst{47} = XT{5};
let Inst{48-63} = IMM32{15-0};
}
// 8RR:D-Form: [ 1 1 0 // // imm0
// PO T XO IX TX imm1 ].
class 8RR_DForm_IMM32_XT6_IX<bits<6> opcode, bits<3> xo, dag OOL, dag IOL,
string asmstr, InstrItinClass itin,
list<dag> pattern>
: PI<1, opcode, OOL, IOL, asmstr, itin> {
bits<6> XT;
bit IX;
bits<32> IMM32;
let Pattern = pattern;
// The prefix.
let Inst{6-7} = 1;
let Inst{8-11} = 0;
let Inst{12-13} = 0; // reserved
let Inst{14-15} = 0; // reserved
let Inst{16-31} = IMM32{31-16};
// The instruction.
let Inst{38-42} = XT{4-0};
let Inst{43-45} = xo;
let Inst{46} = IX;
let Inst{47} = XT{5};
let Inst{48-63} = IMM32{15-0};
}
class 8RR_XX4Form_XTABC6<bits<6> opcode, bits<2> xo, dag OOL, dag IOL,
string asmstr, InstrItinClass itin, list<dag> pattern>
: PI<1, opcode, OOL, IOL, asmstr, itin> {
bits<6> XT;
bits<6> XA;
bits<6> XB;
bits<6> XC;
let Pattern = pattern;
// The prefix.
let Inst{6-7} = 1;
let Inst{8-11} = 0;
let Inst{12-13} = 0;
let Inst{14-31} = 0;
// The instruction.
let Inst{38-42} = XT{4-0};
let Inst{43-47} = XA{4-0};
let Inst{48-52} = XB{4-0};
let Inst{53-57} = XC{4-0};
let Inst{58-59} = xo;
let Inst{60} = XC{5};
let Inst{61} = XA{5};
let Inst{62} = XB{5};
let Inst{63} = XT{5};
}
class 8RR_XX4Form_IMM3_XTABC6<bits<6> opcode, bits<2> xo, dag OOL, dag IOL,
string asmstr, InstrItinClass itin,
list<dag> pattern>
: PI<1, opcode, OOL, IOL, asmstr, itin> {
bits<6> XT;
bits<6> XA;
bits<6> XB;
bits<6> XC;
bits<3> IMM;
let Pattern = pattern;
// The prefix.
let Inst{6-7} = 1;
let Inst{8-11} = 0;
let Inst{12-13} = 0;
let Inst{14-28} = 0;
let Inst{29-31} = IMM;
// The instruction.
let Inst{38-42} = XT{4-0};
let Inst{43-47} = XA{4-0};
let Inst{48-52} = XB{4-0};
let Inst{53-57} = XC{4-0};
let Inst{58-59} = xo;
let Inst{60} = XC{5};
let Inst{61} = XA{5};
let Inst{62} = XB{5};
let Inst{63} = XT{5};
}
// [PO BF / XO2 B XO BX /]
class XX2_BF3_XO5_XB6_XO9<bits<6> opcode, bits<5> xo2, bits<9> xo, dag OOL,
dag IOL, string asmstr, InstrItinClass itin,
list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<3> BF;
bits<6> XB;
let Pattern = pattern;
let Inst{6-8} = BF;
let Inst{9-10} = 0;
let Inst{11-15} = xo2;
let Inst{16-20} = XB{4-0};
let Inst{21-29} = xo;
let Inst{30} = XB{5};
let Inst{31} = 0;
}
// X-Form: [ PO RT BI /// XO / ]
class XForm_XT5_BI5<bits<6> opcode, bits<10> xo, dag OOL, dag IOL,
string asmstr, InstrItinClass itin, list<dag> pattern>
: XForm_base_r3xo<opcode, xo, OOL, IOL, asmstr, itin, pattern> {
let B = 0;
}
multiclass MLS_DForm_R_SI34_RTA5_MEM_p<bits<6> opcode, dag OOL, dag IOL,
dag PCRel_IOL, string asmstr,
InstrItinClass itin> {
def NAME : MLS_DForm_R_SI34_RTA5_MEM<opcode, OOL, IOL,
!strconcat(asmstr, ", 0"), itin, []>;
def pc : MLS_DForm_R_SI34_RTA5_MEM<opcode, OOL, PCRel_IOL,
!strconcat(asmstr, ", 1"), itin, []>,
isPCRel;
}
multiclass 8LS_DForm_R_SI34_RTA5_MEM_p<bits<6> opcode, dag OOL, dag IOL,
dag PCRel_IOL, string asmstr,
InstrItinClass itin> {
def NAME : 8LS_DForm_R_SI34_RTA5_MEM<opcode, OOL, IOL,
!strconcat(asmstr, ", 0"), itin, []>;
def pc : 8LS_DForm_R_SI34_RTA5_MEM<opcode, OOL, PCRel_IOL,
!strconcat(asmstr, ", 1"), itin, []>,
isPCRel;
}
multiclass 8LS_DForm_R_SI34_XT6_RA5_MEM_p<bits<5> opcode, dag OOL, dag IOL,
dag PCRel_IOL, string asmstr,
InstrItinClass itin> {
def NAME : 8LS_DForm_R_SI34_XT6_RA5_MEM<opcode, OOL, IOL,
!strconcat(asmstr, ", 0"), itin, []>;
def pc : 8LS_DForm_R_SI34_XT6_RA5_MEM<opcode, OOL, PCRel_IOL,
!strconcat(asmstr, ", 1"), itin, []>,
isPCRel;
}
def PrefixInstrs : Predicate<"Subtarget->hasPrefixInstrs()">;
def IsISA3_1 : Predicate<"Subtarget->isISA3_1()">;
def PairedVectorMemops : Predicate<"Subtarget->pairedVectorMemops()">;
def RCCp {
dag AToVSRC = (COPY_TO_REGCLASS $XA, VSRC);
dag BToVSRC = (COPY_TO_REGCLASS $XB, VSRC);
}
let Predicates = [PrefixInstrs] in {
let Interpretation64Bit = 1, isCodeGenOnly = 1 in {
defm PADDI8 :
MLS_DForm_R_SI34_RTA5_p<14, (outs g8rc:$RT), (ins g8rc:$RA, s34imm:$SI),
(ins immZero:$RA, s34imm_pcrel:$SI),
"paddi $RT, $RA, $SI", IIC_LdStLFD>;
let isReMaterializable = 1, isAsCheapAsAMove = 1, isMoveImm = 1 in {
def PLI8 : MLS_DForm_SI34_RT5<14, (outs g8rc:$RT),
(ins s34imm:$SI),
"pli $RT, $SI", IIC_IntSimple, []>;
}
}
defm PADDI :
MLS_DForm_R_SI34_RTA5_p<14, (outs gprc:$RT), (ins gprc:$RA, s34imm:$SI),
(ins immZero:$RA, s34imm_pcrel:$SI),
"paddi $RT, $RA, $SI", IIC_LdStLFD>;
let isReMaterializable = 1, isAsCheapAsAMove = 1, isMoveImm = 1 in {
def PLI : MLS_DForm_SI34_RT5<14, (outs gprc:$RT),
(ins s34imm:$SI),
"pli $RT, $SI", IIC_IntSimple, []>;
}
let mayLoad = 1, mayStore = 0 in {
defm PLXV :
8LS_DForm_R_SI34_XT6_RA5_MEM_p<25, (outs vsrc:$XT), (ins memri34:$D_RA),
(ins memri34_pcrel:$D_RA),
"plxv $XT, $D_RA", IIC_LdStLFD>;
defm PLFS :
MLS_DForm_R_SI34_RTA5_MEM_p<48, (outs f4rc:$FRT), (ins memri34:$D_RA),
(ins memri34_pcrel:$D_RA), "plfs $FRT, $D_RA",
IIC_LdStLFD>;
defm PLFD :
MLS_DForm_R_SI34_RTA5_MEM_p<50, (outs f8rc:$FRT), (ins memri34:$D_RA),
(ins memri34_pcrel:$D_RA), "plfd $FRT, $D_RA",
IIC_LdStLFD>;
defm PLXSSP :
8LS_DForm_R_SI34_RTA5_MEM_p<43, (outs vfrc:$VRT), (ins memri34:$D_RA),
(ins memri34_pcrel:$D_RA),
"plxssp $VRT, $D_RA", IIC_LdStLFD>;
defm PLXSD :
8LS_DForm_R_SI34_RTA5_MEM_p<42, (outs vfrc:$VRT), (ins memri34:$D_RA),
(ins memri34_pcrel:$D_RA),
"plxsd $VRT, $D_RA", IIC_LdStLFD>;
let Interpretation64Bit = 1, isCodeGenOnly = 1 in {
defm PLBZ8 :
MLS_DForm_R_SI34_RTA5_MEM_p<34, (outs g8rc:$RT), (ins memri34:$D_RA),
(ins memri34_pcrel:$D_RA), "plbz $RT, $D_RA",
IIC_LdStLFD>;
defm PLHZ8 :
MLS_DForm_R_SI34_RTA5_MEM_p<40, (outs g8rc:$RT), (ins memri34:$D_RA),
(ins memri34_pcrel:$D_RA), "plhz $RT, $D_RA",
IIC_LdStLFD>;
defm PLHA8 :
MLS_DForm_R_SI34_RTA5_MEM_p<42, (outs g8rc:$RT), (ins memri34:$D_RA),
(ins memri34_pcrel:$D_RA), "plha $RT, $D_RA",
IIC_LdStLFD>;
defm PLWA8 :
8LS_DForm_R_SI34_RTA5_MEM_p<41, (outs g8rc:$RT), (ins memri34:$D_RA),
(ins memri34_pcrel:$D_RA),
"plwa $RT, $D_RA", IIC_LdStLFD>;
defm PLWZ8 :
MLS_DForm_R_SI34_RTA5_MEM_p<32, (outs g8rc:$RT), (ins memri34:$D_RA),
(ins memri34_pcrel:$D_RA), "plwz $RT, $D_RA",
IIC_LdStLFD>;
}
defm PLBZ :
MLS_DForm_R_SI34_RTA5_MEM_p<34, (outs gprc:$RT), (ins memri34:$D_RA),
(ins memri34_pcrel:$D_RA), "plbz $RT, $D_RA",
IIC_LdStLFD>;
defm PLHZ :
MLS_DForm_R_SI34_RTA5_MEM_p<40, (outs gprc:$RT), (ins memri34:$D_RA),
(ins memri34_pcrel:$D_RA), "plhz $RT, $D_RA",
IIC_LdStLFD>;
defm PLHA :
MLS_DForm_R_SI34_RTA5_MEM_p<42, (outs gprc:$RT), (ins memri34:$D_RA),
(ins memri34_pcrel:$D_RA), "plha $RT, $D_RA",
IIC_LdStLFD>;
defm PLWZ :
MLS_DForm_R_SI34_RTA5_MEM_p<32, (outs gprc:$RT), (ins memri34:$D_RA),
(ins memri34_pcrel:$D_RA), "plwz $RT, $D_RA",
IIC_LdStLFD>;
defm PLWA :
8LS_DForm_R_SI34_RTA5_MEM_p<41, (outs gprc:$RT), (ins memri34:$D_RA),
(ins memri34_pcrel:$D_RA), "plwa $RT, $D_RA",
IIC_LdStLFD>;
defm PLD :
8LS_DForm_R_SI34_RTA5_MEM_p<57, (outs g8rc:$RT), (ins memri34:$D_RA),
(ins memri34_pcrel:$D_RA), "pld $RT, $D_RA",
IIC_LdStLFD>;
}
let mayStore = 1, mayLoad = 0 in {
defm PSTXV :
8LS_DForm_R_SI34_XT6_RA5_MEM_p<27, (outs), (ins vsrc:$XS, memri34:$D_RA),
(ins vsrc:$XS, memri34_pcrel:$D_RA),
"pstxv $XS, $D_RA", IIC_LdStLFD>;
defm PSTFS :
MLS_DForm_R_SI34_RTA5_MEM_p<52, (outs), (ins f4rc:$FRS, memri34:$D_RA),
(ins f4rc:$FRS, memri34_pcrel:$D_RA),
"pstfs $FRS, $D_RA", IIC_LdStLFD>;
defm PSTFD :
MLS_DForm_R_SI34_RTA5_MEM_p<54, (outs), (ins f8rc:$FRS, memri34:$D_RA),
(ins f8rc:$FRS, memri34_pcrel:$D_RA),
"pstfd $FRS, $D_RA", IIC_LdStLFD>;
defm PSTXSSP :
8LS_DForm_R_SI34_RTA5_MEM_p<47, (outs), (ins vfrc:$VRS, memri34:$D_RA),
(ins vfrc:$VRS, memri34_pcrel:$D_RA),
"pstxssp $VRS, $D_RA", IIC_LdStLFD>;
defm PSTXSD :
8LS_DForm_R_SI34_RTA5_MEM_p<46, (outs), (ins vfrc:$VRS, memri34:$D_RA),
(ins vfrc:$VRS, memri34_pcrel:$D_RA),
"pstxsd $VRS, $D_RA", IIC_LdStLFD>;
let Interpretation64Bit = 1, isCodeGenOnly = 1 in {
defm PSTB8 :
MLS_DForm_R_SI34_RTA5_MEM_p<38, (outs), (ins g8rc:$RS, memri34:$D_RA),
(ins g8rc:$RS, memri34_pcrel:$D_RA),
"pstb $RS, $D_RA", IIC_LdStLFD>;
defm PSTH8 :
MLS_DForm_R_SI34_RTA5_MEM_p<44, (outs), (ins g8rc:$RS, memri34:$D_RA),
(ins g8rc:$RS, memri34_pcrel:$D_RA),
"psth $RS, $D_RA", IIC_LdStLFD>;
defm PSTW8 :
MLS_DForm_R_SI34_RTA5_MEM_p<36, (outs), (ins g8rc:$RS, memri34:$D_RA),
(ins g8rc:$RS, memri34_pcrel:$D_RA),
"pstw $RS, $D_RA", IIC_LdStLFD>;
}
defm PSTB :
MLS_DForm_R_SI34_RTA5_MEM_p<38, (outs), (ins gprc:$RS, memri34:$D_RA),
(ins gprc:$RS, memri34_pcrel:$D_RA),
"pstb $RS, $D_RA", IIC_LdStLFD>;
defm PSTH :
MLS_DForm_R_SI34_RTA5_MEM_p<44, (outs), (ins gprc:$RS, memri34:$D_RA),
(ins gprc:$RS, memri34_pcrel:$D_RA),
"psth $RS, $D_RA", IIC_LdStLFD>;
defm PSTW :
MLS_DForm_R_SI34_RTA5_MEM_p<36, (outs), (ins gprc:$RS, memri34:$D_RA),
(ins gprc:$RS, memri34_pcrel:$D_RA),
"pstw $RS, $D_RA", IIC_LdStLFD>;
defm PSTD :
8LS_DForm_R_SI34_RTA5_MEM_p<61, (outs), (ins g8rc:$RS, memri34:$D_RA),
(ins g8rc:$RS, memri34_pcrel:$D_RA),
"pstd $RS, $D_RA", IIC_LdStLFD>;
}
}
class DQForm_XTp5_RA17_MEM<bits<6> opcode, bits<4> xo, dag OOL, dag IOL,
string asmstr, InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<5> XTp;
bits<17> DQ_RA;
let Pattern = pattern;
let Inst{6-9} = XTp{3-0};
let Inst{10} = XTp{4};
let Inst{11-15} = DQ_RA{16-12}; // Register #
let Inst{16-27} = DQ_RA{11-0}; // Displacement.
let Inst{28-31} = xo;
}
class XForm_XTp5_XAB5<bits<6> opcode, bits<10> xo, dag OOL, dag IOL,
string asmstr, InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin>, XFormMemOp {
bits<5> XTp;
bits<5> A;
bits<5> B;
let Pattern = pattern;
let Inst{6-9} = XTp{3-0};
let Inst{10} = XTp{4};
let Inst{11-15} = A;
let Inst{16-20} = B;
let Inst{21-30} = xo;
let Inst{31} = 0;
}
class 8LS_DForm_R_XTp5_SI34_MEM<bits<6> opcode, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: PI<1, opcode, OOL, IOL, asmstr, itin> {
bits<5> XTp;
bits<39> D_RA;
let Pattern = pattern;
// The prefix.
let Inst{6-10} = 0;
let Inst{11} = PCRel;
let Inst{12-13} = 0;
let Inst{14-31} = D_RA{33-16}; // Imm18
// The instruction.
let Inst{38-41} = XTp{3-0};
let Inst{42} = XTp{4};
let Inst{43-47} = D_RA{38-34}; // Register #
let Inst{48-63} = D_RA{15-0}; // D
}
multiclass 8LS_DForm_R_XTp5_SI34_MEM_p<bits<6> opcode, dag OOL,
dag IOL, dag PCRel_IOL,
string asmstr, InstrItinClass itin> {
def NAME : 8LS_DForm_R_XTp5_SI34_MEM<opcode, OOL, IOL,
!strconcat(asmstr, ", 0"), itin, []>;
def pc : 8LS_DForm_R_XTp5_SI34_MEM<opcode, OOL, PCRel_IOL,
!strconcat(asmstr, ", 1"), itin, []>,
isPCRel;
}
// [PO AS XO2 XO]
class XForm_AT3<bits<6> opcode, bits<5> xo2, bits<10> xo, dag OOL, dag IOL,
string asmstr, InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<3> AT;
let Pattern = pattern;
let Inst{6-8} = AT;
let Inst{9-10} = 0;
let Inst{11-15} = xo2;
let Inst{16-20} = 0;
let Inst{21-30} = xo;
let Inst{31} = 0;
}
// X-Form: [ PO T EO UIM XO TX ]
class XForm_XT6_IMM5<bits<6> opcode, bits<5> eo, bits<10> xo, dag OOL, dag IOL,
string asmstr, InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<6> XT;
bits<5> UIM;
let Pattern = pattern;
let Inst{6-10} = XT{4-0};
let Inst{11-15} = eo;
let Inst{16-20} = UIM;
let Inst{21-30} = xo;
let Inst{31} = XT{5};
}
class XX3Form_AT3_XAB6<bits<6> opcode, bits<8> xo, dag OOL, dag IOL,
string asmstr, InstrItinClass itin,
list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<3> AT;
bits<6> XA;
bits<6> XB;
let Pattern = pattern;
let Inst{6-8} = AT;
let Inst{9-10} = 0;
let Inst{11-15} = XA{4-0};
let Inst{16-20} = XB{4-0};
let Inst{21-28} = xo;
let Inst{29} = XA{5};
let Inst{30} = XB{5};
let Inst{31} = 0;
}
class MMIRR_XX3Form_XY4P2_XAB6<bits<6> opcode, bits<8> xo, dag OOL, dag IOL,
string asmstr, InstrItinClass itin,
list<dag> pattern>
: PI<1, opcode, OOL, IOL, asmstr, itin> {
bits<3> AT;
bits<6> XA;
bits<6> XB;
bits<4> XMSK;
bits<4> YMSK;
bits<2> PMSK;
let Pattern = pattern;
// The prefix.
let Inst{6-7} = 3;
let Inst{8-11} = 9;
let Inst{12-15} = 0;
let Inst{16-17} = PMSK;
let Inst{18-23} = 0;
let Inst{24-27} = XMSK;
let Inst{28-31} = YMSK;
// The instruction.
let Inst{38-40} = AT;
let Inst{41-42} = 0;
let Inst{43-47} = XA{4-0};
let Inst{48-52} = XB{4-0};
let Inst{53-60} = xo;
let Inst{61} = XA{5};
let Inst{62} = XB{5};
let Inst{63} = 0;
}
class MMIRR_XX3Form_XY4_XAB6<bits<6> opcode, bits<8> xo, dag OOL, dag IOL,
string asmstr, InstrItinClass itin,
list<dag> pattern>
: PI<1, opcode, OOL, IOL, asmstr, itin> {
bits<3> AT;
bits<6> XA;
bits<6> XB;
bits<4> XMSK;
bits<4> YMSK;
let Pattern = pattern;
// The prefix.
let Inst{6-7} = 3;
let Inst{8-11} = 9;
let Inst{12-23} = 0;
let Inst{24-27} = XMSK;
let Inst{28-31} = YMSK;
// The instruction.
let Inst{38-40} = AT;
let Inst{41-42} = 0;
let Inst{43-47} = XA{4-0};
let Inst{48-52} = XB{4-0};
let Inst{53-60} = xo;
let Inst{61} = XA{5};
let Inst{62} = XB{5};
let Inst{63} = 0;
}
class MMIRR_XX3Form_X4Y2_XAB6<bits<6> opcode, bits<8> xo, dag OOL, dag IOL,
string asmstr, InstrItinClass itin,
list<dag> pattern>
: PI<1, opcode, OOL, IOL, asmstr, itin> {
bits<3> AT;
bits<6> XA;
bits<6> XB;
bits<4> XMSK;
bits<2> YMSK;
let Pattern = pattern;
// The prefix.
let Inst{6-7} = 3;
let Inst{8-11} = 9;
let Inst{12-23} = 0;
let Inst{24-27} = XMSK;
let Inst{28-29} = YMSK;
let Inst{30-31} = 0;
// The instruction.
let Inst{38-40} = AT;
let Inst{41-42} = 0;
let Inst{43-47} = XA{4-0};
let Inst{48-52} = XB{4-0};
let Inst{53-60} = xo;
let Inst{61} = XA{5};
let Inst{62} = XB{5};
let Inst{63} = 0;
}
class MMIRR_XX3Form_XY4P8_XAB6<bits<6> opcode, bits<8> xo, dag OOL, dag IOL,
string asmstr, InstrItinClass itin,
list<dag> pattern>
: PI<1, opcode, OOL, IOL, asmstr, itin> {
bits<3> AT;
bits<6> XA;
bits<6> XB;
bits<4> XMSK;
bits<4> YMSK;
bits<8> PMSK;
let Pattern = pattern;
// The prefix.
let Inst{6-7} = 3;
let Inst{8-11} = 9;
let Inst{12-15} = 0;
let Inst{16-23} = PMSK;
let Inst{24-27} = XMSK;
let Inst{28-31} = YMSK;
// The instruction.
let Inst{38-40} = AT;
let Inst{41-42} = 0;
let Inst{43-47} = XA{4-0};
let Inst{48-52} = XB{4-0};
let Inst{53-60} = xo;
let Inst{61} = XA{5};
let Inst{62} = XB{5};
let Inst{63} = 0;
}
class MMIRR_XX3Form_XYP4_XAB6<bits<6> opcode, bits<8> xo, dag OOL, dag IOL,
string asmstr, InstrItinClass itin,
list<dag> pattern>
: PI<1, opcode, OOL, IOL, asmstr, itin> {
bits<3> AT;
bits<6> XA;
bits<6> XB;
bits<4> XMSK;
bits<4> YMSK;
bits<4> PMSK;
let Pattern = pattern;
// The prefix.
let Inst{6-7} = 3;
let Inst{8-11} = 9;
let Inst{12-15} = 0;
let Inst{16-19} = PMSK;
let Inst{20-23} = 0;
let Inst{24-27} = XMSK;
let Inst{28-31} = YMSK;
// The instruction.
let Inst{38-40} = AT;
let Inst{41-42} = 0;
let Inst{43-47} = XA{4-0};
let Inst{48-52} = XB{4-0};
let Inst{53-60} = xo;
let Inst{61} = XA{5};
let Inst{62} = XB{5};
let Inst{63} = 0;
}
def Concats {
dag VecsToVecPair0 =
(v256i1 (INSERT_SUBREG
(INSERT_SUBREG (IMPLICIT_DEF), $vs0, sub_vsx1),
$vs1, sub_vsx0));
dag VecsToVecPair1 =
(v256i1 (INSERT_SUBREG
(INSERT_SUBREG (IMPLICIT_DEF), $vs2, sub_vsx1),
$vs3, sub_vsx0));
}
let Predicates = [PairedVectorMemops] in {
def : Pat<(v256i1 (PPCPairBuild v4i32:$vs1, v4i32:$vs0)),
Concats.VecsToVecPair0>;
def : Pat<(v256i1 (int_ppc_vsx_assemble_pair v16i8:$vs1, v16i8:$vs0)),
Concats.VecsToVecPair0>;
def : Pat<(v4i32 (PPCPairExtractVsx vsrpevenrc:$v, 0)),
(v4i32 (EXTRACT_SUBREG $v, sub_vsx0))>;
def : Pat<(v4i32 (PPCPairExtractVsx vsrpevenrc:$v, 1)),
(v4i32 (EXTRACT_SUBREG $v, sub_vsx1))>;
}
let mayLoad = 1, mayStore = 0, Predicates = [PairedVectorMemops] in {
def LXVP : DQForm_XTp5_RA17_MEM<6, 0, (outs vsrprc:$XTp),
(ins memrix16:$DQ_RA), "lxvp $XTp, $DQ_RA",
IIC_LdStLFD, []>;
def LXVPX : XForm_XTp5_XAB5<31, 333, (outs vsrprc:$XTp), (ins memrr:$src),
"lxvpx $XTp, $src", IIC_LdStLFD,
[]>;
}
let mayLoad = 0, mayStore = 1, Predicates = [PairedVectorMemops] in {
def STXVP : DQForm_XTp5_RA17_MEM<6, 1, (outs), (ins vsrprc:$XTp,
memrix16:$DQ_RA), "stxvp $XTp, $DQ_RA",
IIC_LdStLFD, []>;
def STXVPX : XForm_XTp5_XAB5<31, 461, (outs), (ins vsrprc:$XTp, memrr:$dst),
"stxvpx $XTp, $dst", IIC_LdStLFD,
[]>;
}
let mayLoad = 1, mayStore = 0, Predicates = [PairedVectorMemops, PrefixInstrs] in {
defm PLXVP :
8LS_DForm_R_XTp5_SI34_MEM_p<58, (outs vsrprc:$XTp), (ins memri34:$D_RA),
(ins memri34_pcrel:$D_RA), "plxvp $XTp, $D_RA",
IIC_LdStLFD>;
}
let mayLoad = 0, mayStore = 1, Predicates = [PairedVectorMemops, PrefixInstrs] in {
defm PSTXVP :
8LS_DForm_R_XTp5_SI34_MEM_p<62, (outs), (ins vsrprc:$XTp, memri34:$D_RA),
(ins vsrprc:$XTp, memri34_pcrel:$D_RA),
"pstxvp $XTp, $D_RA", IIC_LdStLFD>;
}
let Predicates = [PairedVectorMemops] in {
// Intrinsics for Paired Vector Loads.
def : Pat<(v256i1 (int_ppc_vsx_lxvp DQForm:$src)), (LXVP memrix16:$src)>;
def : Pat<(v256i1 (int_ppc_vsx_lxvp XForm:$src)), (LXVPX XForm:$src)>;
let Predicates = [PairedVectorMemops, PrefixInstrs] in {
def : Pat<(v256i1 (int_ppc_vsx_lxvp PDForm:$src)), (PLXVP memri34:$src)>;
}
// Intrinsics for Paired Vector Stores.
def : Pat<(int_ppc_vsx_stxvp v256i1:$XSp, DQForm:$dst),
(STXVP $XSp, memrix16:$dst)>;
def : Pat<(int_ppc_vsx_stxvp v256i1:$XSp, XForm:$dst),
(STXVPX $XSp, XForm:$dst)>;
let Predicates = [PairedVectorMemops, PrefixInstrs] in {
def : Pat<(int_ppc_vsx_stxvp v256i1:$XSp, PDForm:$dst),
(PSTXVP $XSp, memri34:$dst)>;
}
}
let Predicates = [IsISA3_1] in {
def XSCMPEQQP : X_VT5_VA5_VB5<63, 68, "xscmpeqqp", []>;
def XSCMPGEQP : X_VT5_VA5_VB5<63, 196, "xscmpgeqp", []>;
def XSCMPGTQP : X_VT5_VA5_VB5<63, 228, "xscmpgtqp", []>;
}
let Predicates = [PCRelativeMemops] in {
// Load i32
def : Pat<(i32 (zextloadi1 (PPCmatpcreladdr PCRelForm:$ga))),
(PLBZpc $ga, 0)>;
def : Pat<(i32 (extloadi1 (PPCmatpcreladdr PCRelForm:$ga))),
(PLBZpc $ga, 0)>;
def : Pat<(i32 (zextloadi8 (PPCmatpcreladdr PCRelForm:$ga))),
(PLBZpc $ga, 0)>;
def : Pat<(i32 (extloadi8 (PPCmatpcreladdr PCRelForm:$ga))),
(PLBZpc $ga, 0)>;
def : Pat<(i32 (sextloadi16 (PPCmatpcreladdr PCRelForm:$ga))),
(PLHApc $ga, 0)>;
def : Pat<(i32 (zextloadi16 (PPCmatpcreladdr PCRelForm:$ga))),
(PLHZpc $ga, 0)>;
def : Pat<(i32 (extloadi16 (PPCmatpcreladdr PCRelForm:$ga))),
(PLHZpc $ga, 0)>;
def : Pat<(i32 (load (PPCmatpcreladdr PCRelForm:$ga))), (PLWZpc $ga, 0)>;
// Store i32
def : Pat<(truncstorei8 i32:$RS, (PPCmatpcreladdr PCRelForm:$ga)),
(PSTBpc $RS, $ga, 0)>;
def : Pat<(truncstorei16 i32:$RS, (PPCmatpcreladdr PCRelForm:$ga)),
(PSTHpc $RS, $ga, 0)>;
def : Pat<(store i32:$RS, (PPCmatpcreladdr PCRelForm:$ga)),
(PSTWpc $RS, $ga, 0)>;
// Load i64
def : Pat<(i64 (zextloadi1 (PPCmatpcreladdr PCRelForm:$ga))),
(PLBZ8pc $ga, 0)>;
def : Pat<(i64 (extloadi1 (PPCmatpcreladdr PCRelForm:$ga))),
(PLBZ8pc $ga, 0)>;
def : Pat<(i64 (zextloadi8 (PPCmatpcreladdr PCRelForm:$ga))),
(PLBZ8pc $ga, 0)>;
def : Pat<(i64 (extloadi8 (PPCmatpcreladdr PCRelForm:$ga))),
(PLBZ8pc $ga, 0)>;
def : Pat<(i64 (sextloadi16 (PPCmatpcreladdr PCRelForm:$ga))),
(PLHA8pc $ga, 0)>;
def : Pat<(i64 (zextloadi16 (PPCmatpcreladdr PCRelForm:$ga))),
(PLHZ8pc $ga, 0)>;
def : Pat<(i64 (extloadi16 (PPCmatpcreladdr PCRelForm:$ga))),
(PLHZ8pc $ga, 0)>;
def : Pat<(i64 (zextloadi32 (PPCmatpcreladdr PCRelForm:$ga))),
(PLWZ8pc $ga, 0)>;
def : Pat<(i64 (sextloadi32 (PPCmatpcreladdr PCRelForm:$ga))),
(PLWA8pc $ga, 0)>;
def : Pat<(i64 (extloadi32 (PPCmatpcreladdr PCRelForm:$ga))),
(PLWZ8pc $ga, 0)>;
def : Pat<(i64 (load (PPCmatpcreladdr PCRelForm:$ga))), (PLDpc $ga, 0)>;
// Store i64
def : Pat<(truncstorei8 i64:$RS, (PPCmatpcreladdr PCRelForm:$ga)),
(PSTB8pc $RS, $ga, 0)>;
def : Pat<(truncstorei16 i64:$RS, (PPCmatpcreladdr PCRelForm:$ga)),
(PSTH8pc $RS, $ga, 0)>;
def : Pat<(truncstorei32 i64:$RS, (PPCmatpcreladdr PCRelForm:$ga)),
(PSTW8pc $RS, $ga, 0)>;
def : Pat<(store i64:$RS, (PPCmatpcreladdr PCRelForm:$ga)),
(PSTDpc $RS, $ga, 0)>;
// Load f32
def : Pat<(f32 (load (PPCmatpcreladdr PCRelForm:$addr))), (PLFSpc $addr, 0)>;
// Store f32
def : Pat<(store f32:$FRS, (PPCmatpcreladdr PCRelForm:$ga)),
(PSTFSpc $FRS, $ga, 0)>;
// Load f64
def : Pat<(f64 (extloadf32 (PPCmatpcreladdr PCRelForm:$addr))),
(COPY_TO_REGCLASS (PLFSpc $addr, 0), VSFRC)>;
def : Pat<(f64 (load (PPCmatpcreladdr PCRelForm:$addr))), (PLFDpc $addr, 0)>;
// Store f64
def : Pat<(store f64:$FRS, (PPCmatpcreladdr PCRelForm:$ga)),
(PSTFDpc $FRS, $ga, 0)>;
// Load f128
def : Pat<(f128 (load (PPCmatpcreladdr PCRelForm:$addr))),
(COPY_TO_REGCLASS (PLXVpc $addr, 0), VRRC)>;
// Store f128
def : Pat<(store f128:$XS, (PPCmatpcreladdr PCRelForm:$ga)),
(PSTXVpc (COPY_TO_REGCLASS $XS, VSRC), $ga, 0)>;
// Load v4i32
def : Pat<(v4i32 (load (PPCmatpcreladdr PCRelForm:$addr))), (PLXVpc $addr, 0)>;
// Store v4i32
def : Pat<(store v4i32:$XS, (PPCmatpcreladdr PCRelForm:$ga)),
(PSTXVpc $XS, $ga, 0)>;
// Load v2i64
def : Pat<(v2i64 (load (PPCmatpcreladdr PCRelForm:$addr))), (PLXVpc $addr, 0)>;
// Store v2i64
def : Pat<(store v2i64:$XS, (PPCmatpcreladdr PCRelForm:$ga)),
(PSTXVpc $XS, $ga, 0)>;
// Load v4f32
def : Pat<(v4f32 (load (PPCmatpcreladdr PCRelForm:$addr))), (PLXVpc $addr, 0)>;
// Store v4f32
def : Pat<(store v4f32:$XS, (PPCmatpcreladdr PCRelForm:$ga)),
(PSTXVpc $XS, $ga, 0)>;
// Load v2f64
def : Pat<(v2f64 (load (PPCmatpcreladdr PCRelForm:$addr))), (PLXVpc $addr, 0)>;
// Store v2f64
def : Pat<(store v2f64:$XS, (PPCmatpcreladdr PCRelForm:$ga)),
(PSTXVpc $XS, $ga, 0)>;
// Atomic Load
def : Pat<(atomic_load_8 (PPCmatpcreladdr PCRelForm:$ga)),
(PLBZpc $ga, 0)>;
def : Pat<(atomic_load_16 (PPCmatpcreladdr PCRelForm:$ga)),
(PLHZpc $ga, 0)>;
def : Pat<(atomic_load_32 (PPCmatpcreladdr PCRelForm:$ga)),
(PLWZpc $ga, 0)>;
def : Pat<(atomic_load_64 (PPCmatpcreladdr PCRelForm:$ga)),
(PLDpc $ga, 0)>;
// Atomic Store
def : Pat<(atomic_store_8 (PPCmatpcreladdr PCRelForm:$ga), i32:$RS),
(PSTBpc $RS, $ga, 0)>;
def : Pat<(atomic_store_16 (PPCmatpcreladdr PCRelForm:$ga), i32:$RS),
(PSTHpc $RS, $ga, 0)>;
def : Pat<(atomic_store_32 (PPCmatpcreladdr PCRelForm:$ga), i32:$RS),
(PSTWpc $RS, $ga, 0)>;
def : Pat<(atomic_store_8 (PPCmatpcreladdr PCRelForm:$ga), i64:$RS),
(PSTB8pc $RS, $ga, 0)>;
def : Pat<(atomic_store_16 (PPCmatpcreladdr PCRelForm:$ga), i64:$RS),
(PSTH8pc $RS, $ga, 0)>;
def : Pat<(atomic_store_32 (PPCmatpcreladdr PCRelForm:$ga), i64:$RS),
(PSTW8pc $RS, $ga, 0)>;
def : Pat<(atomic_store_64 (PPCmatpcreladdr PCRelForm:$ga), i64:$RS),
(PSTDpc $RS, $ga, 0)>;
// Special Cases For PPCstore_scal_int_from_vsr
def : Pat<(PPCstore_scal_int_from_vsr
(f64 (PPCcv_fp_to_sint_in_vsr f64:$src)),
(PPCmatpcreladdr PCRelForm:$dst), 8),
(PSTXSDpc (XSCVDPSXDS f64:$src), $dst, 0)>;
def : Pat<(PPCstore_scal_int_from_vsr
(f64 (PPCcv_fp_to_sint_in_vsr f128:$src)),
(PPCmatpcreladdr PCRelForm:$dst), 8),
(PSTXSDpc (COPY_TO_REGCLASS (XSCVQPSDZ f128:$src), VFRC), $dst, 0)>;
def : Pat<(PPCstore_scal_int_from_vsr
(f64 (PPCcv_fp_to_uint_in_vsr f64:$src)),
(PPCmatpcreladdr PCRelForm:$dst), 8),
(PSTXSDpc (XSCVDPUXDS f64:$src), $dst, 0)>;
def : Pat<(PPCstore_scal_int_from_vsr
(f64 (PPCcv_fp_to_uint_in_vsr f128:$src)),
(PPCmatpcreladdr PCRelForm:$dst), 8),
(PSTXSDpc (COPY_TO_REGCLASS (XSCVQPUDZ f128:$src), VFRC), $dst, 0)>;
def : Pat<(v4f32 (PPCldvsxlh (PPCmatpcreladdr PCRelForm:$addr))),
(SUBREG_TO_REG (i64 1), (PLFDpc $addr, 0), sub_64)>;
// If the PPCmatpcreladdr node is not caught by any other pattern it should be
// caught here and turned into a paddi instruction to materialize the address.
def : Pat<(PPCmatpcreladdr PCRelForm:$addr), (PADDI8pc 0, $addr)>;
// PPCtlsdynamatpcreladdr node is used for TLS dynamic models to materialize
// tls global address with paddi instruction.
def : Pat<(PPCtlsdynamatpcreladdr PCRelForm:$addr), (PADDI8pc 0, $addr)>;
// PPCtlslocalexecmataddr node is used for TLS local exec models to
// materialize tls global address with paddi instruction.
def : Pat<(PPCaddTls i64:$in, (PPCtlslocalexecmataddr tglobaltlsaddr:$addr)),
(PADDI8 $in, $addr)>;
}
let Predicates = [PrefixInstrs] in {
def XXPERMX :
8RR_XX4Form_IMM3_XTABC6<34, 0, (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB,
vsrc:$XC, u3imm:$UIM),
"xxpermx $XT, $XA, $XB, $XC, $UIM",
IIC_VecPerm, []>;
def XXBLENDVB :
8RR_XX4Form_XTABC6<33, 0, (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB,
vsrc:$XC), "xxblendvb $XT, $XA, $XB, $XC",
IIC_VecGeneral, []>;
def XXBLENDVH :
8RR_XX4Form_XTABC6<33, 1, (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB,
vsrc:$XC), "xxblendvh $XT, $XA, $XB, $XC",
IIC_VecGeneral, []>;
def XXBLENDVW :
8RR_XX4Form_XTABC6<33, 2, (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB,
vsrc:$XC), "xxblendvw $XT, $XA, $XB, $XC",
IIC_VecGeneral, []>;
def XXBLENDVD :
8RR_XX4Form_XTABC6<33, 3, (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB,
vsrc:$XC), "xxblendvd $XT, $XA, $XB, $XC",
IIC_VecGeneral, []>;
}
// XXSPLTIW/DP/32DX need extra flags to make sure the compiler does not attempt
// to spill part of the instruction when the values are similar.
let isReMaterializable = 1, isAsCheapAsAMove = 1, isMoveImm = 1, Predicates = [PrefixInstrs] in {
def XXSPLTIW : 8RR_DForm_IMM32_XT6<32, 3, (outs vsrc:$XT),
(ins i32imm:$IMM32),
"xxspltiw $XT, $IMM32", IIC_VecGeneral,
[]>;
def XXSPLTIDP : 8RR_DForm_IMM32_XT6<32, 2, (outs vsrc:$XT),
(ins i32imm:$IMM32),
"xxspltidp $XT, $IMM32", IIC_VecGeneral,
[(set v2f64:$XT,
(PPCxxspltidp i32:$IMM32))]>;
def XXSPLTI32DX :
8RR_DForm_IMM32_XT6_IX<32, 0, (outs vsrc:$XT),
(ins vsrc:$XTi, u1imm:$IX, i32imm:$IMM32),
"xxsplti32dx $XT, $IX, $IMM32", IIC_VecGeneral,
[(set v2i64:$XT,
(PPCxxsplti32dx v2i64:$XTi, i32:$IX,
i32:$IMM32))]>,
RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">;
}
let Predicates = [IsISA3_1] in {
def SETBC : XForm_XT5_BI5<31, 384, (outs gprc:$RT), (ins crbitrc:$BI),
"setbc $RT, $BI", IIC_IntCompare, []>,
SExt32To64, ZExt32To64;
def SETBCR : XForm_XT5_BI5<31, 416, (outs gprc:$RT), (ins crbitrc:$BI),
"setbcr $RT, $BI", IIC_IntCompare, []>,
SExt32To64, ZExt32To64;
def SETNBC : XForm_XT5_BI5<31, 448, (outs gprc:$RT), (ins crbitrc:$BI),
"setnbc $RT, $BI", IIC_IntCompare, []>,
SExt32To64;
def SETNBCR : XForm_XT5_BI5<31, 480, (outs gprc:$RT), (ins crbitrc:$BI),
"setnbcr $RT, $BI", IIC_IntCompare, []>,
SExt32To64;
let Interpretation64Bit = 1, isCodeGenOnly = 1 in {
def SETBC8 : XForm_XT5_BI5<31, 384, (outs g8rc:$RT), (ins crbitrc:$BI),
"setbc $RT, $BI", IIC_IntCompare, []>,
SExt32To64, ZExt32To64;
def SETBCR8 : XForm_XT5_BI5<31, 416, (outs g8rc:$RT), (ins crbitrc:$BI),
"setbcr $RT, $BI", IIC_IntCompare, []>,
SExt32To64, ZExt32To64;
def SETNBC8 : XForm_XT5_BI5<31, 448, (outs g8rc:$RT), (ins crbitrc:$BI),
"setnbc $RT, $BI", IIC_IntCompare, []>,
SExt32To64;
def SETNBCR8 : XForm_XT5_BI5<31, 480, (outs g8rc:$RT), (ins crbitrc:$BI),
"setnbcr $RT, $BI", IIC_IntCompare, []>,
SExt32To64;
}
def VSLDBI : VNForm_VTAB5_SD3<22, 0, (outs vrrc:$VRT),
(ins vrrc:$VRA, vrrc:$VRB, u3imm:$SH),
"vsldbi $VRT, $VRA, $VRB, $SH",
IIC_VecGeneral,
[(set v16i8:$VRT,
(int_ppc_altivec_vsldbi v16i8:$VRA,
v16i8:$VRB,
timm:$SH))]>;
def VSRDBI : VNForm_VTAB5_SD3<22, 1, (outs vrrc:$VRT),
(ins vrrc:$VRA, vrrc:$VRB, u3imm:$SH),
"vsrdbi $VRT, $VRA, $VRB, $SH",
IIC_VecGeneral,
[(set v16i8:$VRT,
(int_ppc_altivec_vsrdbi v16i8:$VRA,
v16i8:$VRB,
timm:$SH))]>;
defm VSTRIBR : VXForm_VTB5_RCr<13, 1, (outs vrrc:$vT), (ins vrrc:$vB),
"vstribr", "$vT, $vB", IIC_VecGeneral,
[(set v16i8:$vT,
(int_ppc_altivec_vstribr v16i8:$vB))]>;
defm VSTRIBL : VXForm_VTB5_RCr<13, 0, (outs vrrc:$vT), (ins vrrc:$vB),
"vstribl", "$vT, $vB", IIC_VecGeneral,
[(set v16i8:$vT,
(int_ppc_altivec_vstribl v16i8:$vB))]>;
defm VSTRIHR : VXForm_VTB5_RCr<13, 3, (outs vrrc:$vT), (ins vrrc:$vB),
"vstrihr", "$vT, $vB", IIC_VecGeneral,
[(set v8i16:$vT,
(int_ppc_altivec_vstrihr v8i16:$vB))]>;
defm VSTRIHL : VXForm_VTB5_RCr<13, 2, (outs vrrc:$vT), (ins vrrc:$vB),
"vstrihl", "$vT, $vB", IIC_VecGeneral,
[(set v8i16:$vT,
(int_ppc_altivec_vstrihl v8i16:$vB))]>;
def VINSW :
VXForm_1<207, (outs vrrc:$vD), (ins vrrc:$vDi, u4imm:$UIM, gprc:$rB),
"vinsw $vD, $rB, $UIM", IIC_VecGeneral,
[(set v4i32:$vD,
(int_ppc_altivec_vinsw v4i32:$vDi, i32:$rB, timm:$UIM))]>,
RegConstraint<"$vDi = $vD">, NoEncode<"$vDi">;
def VINSD :
VXForm_1<463, (outs vrrc:$vD), (ins vrrc:$vDi, u4imm:$UIM, g8rc:$rB),
"vinsd $vD, $rB, $UIM", IIC_VecGeneral,
[(set v2i64:$vD,
(int_ppc_altivec_vinsd v2i64:$vDi, i64:$rB, timm:$UIM))]>,
RegConstraint<"$vDi = $vD">, NoEncode<"$vDi">;
def VINSBVLX :
VXForm_VTB5_RA5_ins<15, "vinsbvlx",
[(set v16i8:$vD,
(int_ppc_altivec_vinsbvlx v16i8:$vDi, i32:$rA,
v16i8:$vB))]>;
def VINSBVRX :
VXForm_VTB5_RA5_ins<271, "vinsbvrx",
[(set v16i8:$vD,
(int_ppc_altivec_vinsbvrx v16i8:$vDi, i32:$rA,
v16i8:$vB))]>;
def VINSHVLX :
VXForm_VTB5_RA5_ins<79, "vinshvlx",
[(set v8i16:$vD,
(int_ppc_altivec_vinshvlx v8i16:$vDi, i32:$rA,
v8i16:$vB))]>;
def VINSHVRX :
VXForm_VTB5_RA5_ins<335, "vinshvrx",
[(set v8i16:$vD,
(int_ppc_altivec_vinshvrx v8i16:$vDi, i32:$rA,
v8i16:$vB))]>;
def VINSWVLX :
VXForm_VTB5_RA5_ins<143, "vinswvlx",
[(set v4i32:$vD,
(int_ppc_altivec_vinswvlx v4i32:$vDi, i32:$rA,
v4i32:$vB))]>;
def VINSWVRX :
VXForm_VTB5_RA5_ins<399, "vinswvrx",
[(set v4i32:$vD,
(int_ppc_altivec_vinswvrx v4i32:$vDi, i32:$rA,
v4i32:$vB))]>;
def VINSBLX :
VXForm_VRT5_RAB5_ins<527, "vinsblx",
[(set v16i8:$vD,
(int_ppc_altivec_vinsblx v16i8:$vDi, i32:$rA,
i32:$rB))]>;
def VINSBRX :
VXForm_VRT5_RAB5_ins<783, "vinsbrx",
[(set v16i8:$vD,
(int_ppc_altivec_vinsbrx v16i8:$vDi, i32:$rA,
i32:$rB))]>;
def VINSHLX :
VXForm_VRT5_RAB5_ins<591, "vinshlx",
[(set v8i16:$vD,
(int_ppc_altivec_vinshlx v8i16:$vDi, i32:$rA,
i32:$rB))]>;
def VINSHRX :
VXForm_VRT5_RAB5_ins<847, "vinshrx",
[(set v8i16:$vD,
(int_ppc_altivec_vinshrx v8i16:$vDi, i32:$rA,
i32:$rB))]>;
def VINSWLX :
VXForm_VRT5_RAB5_ins<655, "vinswlx",
[(set v4i32:$vD,
(int_ppc_altivec_vinswlx v4i32:$vDi, i32:$rA,
i32:$rB))]>;
def VINSWRX :
VXForm_VRT5_RAB5_ins<911, "vinswrx",
[(set v4i32:$vD,
(int_ppc_altivec_vinswrx v4i32:$vDi, i32:$rA,
i32:$rB))]>;
def VINSDLX :
VXForm_1<719, (outs vrrc:$vD), (ins vrrc:$vDi, g8rc:$rA, g8rc:$rB),
"vinsdlx $vD, $rA, $rB", IIC_VecGeneral,
[(set v2i64:$vD,
(int_ppc_altivec_vinsdlx v2i64:$vDi, i64:$rA, i64:$rB))]>,
RegConstraint<"$vDi = $vD">, NoEncode<"$vDi">;
def VINSDRX :
VXForm_1<975, (outs vrrc:$vD), (ins vrrc:$vDi, g8rc:$rA, g8rc:$rB),
"vinsdrx $vD, $rA, $rB", IIC_VecGeneral,
[(set v2i64:$vD,
(int_ppc_altivec_vinsdrx v2i64:$vDi, i64:$rA, i64:$rB))]>,
RegConstraint<"$vDi = $vD">, NoEncode<"$vDi">;
def VEXTRACTBM : VXForm_RD5_XO5_RS5<1602, 8, (outs gprc:$rD), (ins vrrc:$vB),
"vextractbm $rD, $vB", IIC_VecGeneral,
[(set i32:$rD,
(int_ppc_altivec_vextractbm v16i8:$vB))]>,
ZExt32To64;
def VEXTRACTHM : VXForm_RD5_XO5_RS5<1602, 9, (outs gprc:$rD), (ins vrrc:$vB),
"vextracthm $rD, $vB", IIC_VecGeneral,
[(set i32:$rD,
(int_ppc_altivec_vextracthm v8i16:$vB))]>,
ZExt32To64;
def VEXTRACTWM : VXForm_RD5_XO5_RS5<1602, 10, (outs gprc:$rD), (ins vrrc:$vB),
"vextractwm $rD, $vB", IIC_VecGeneral,
[(set i32:$rD,
(int_ppc_altivec_vextractwm v4i32:$vB))]>,
ZExt32To64;
def VEXTRACTDM : VXForm_RD5_XO5_RS5<1602, 11, (outs gprc:$rD), (ins vrrc:$vB),
"vextractdm $rD, $vB", IIC_VecGeneral,
[(set i32:$rD,
(int_ppc_altivec_vextractdm v2i64:$vB))]>,
ZExt32To64;
def VEXTRACTQM : VXForm_RD5_XO5_RS5<1602, 12, (outs gprc:$rD), (ins vrrc:$vB),
"vextractqm $rD, $vB", IIC_VecGeneral,
[(set i32:$rD,
(int_ppc_altivec_vextractqm v1i128:$vB))]>;
def VEXPANDBM : VXForm_RD5_XO5_RS5<1602, 0, (outs vrrc:$vD), (ins vrrc:$vB),
"vexpandbm $vD, $vB", IIC_VecGeneral,
[(set v16i8:$vD, (int_ppc_altivec_vexpandbm
v16i8:$vB))]>;
def VEXPANDHM : VXForm_RD5_XO5_RS5<1602, 1, (outs vrrc:$vD), (ins vrrc:$vB),
"vexpandhm $vD, $vB", IIC_VecGeneral,
[(set v8i16:$vD, (int_ppc_altivec_vexpandhm
v8i16:$vB))]>;
def VEXPANDWM : VXForm_RD5_XO5_RS5<1602, 2, (outs vrrc:$vD), (ins vrrc:$vB),
"vexpandwm $vD, $vB", IIC_VecGeneral,
[(set v4i32:$vD, (int_ppc_altivec_vexpandwm
v4i32:$vB))]>;
def VEXPANDDM : VXForm_RD5_XO5_RS5<1602, 3, (outs vrrc:$vD), (ins vrrc:$vB),
"vexpanddm $vD, $vB", IIC_VecGeneral,
[(set v2i64:$vD, (int_ppc_altivec_vexpanddm
v2i64:$vB))]>;
def VEXPANDQM : VXForm_RD5_XO5_RS5<1602, 4, (outs vrrc:$vD), (ins vrrc:$vB),
"vexpandqm $vD, $vB", IIC_VecGeneral,
[(set v1i128:$vD, (int_ppc_altivec_vexpandqm
v1i128:$vB))]>;
def MTVSRBM : VXForm_RD5_XO5_RS5<1602, 16, (outs vrrc:$vD), (ins g8rc:$rB),
"mtvsrbm $vD, $rB", IIC_VecGeneral,
[(set v16i8:$vD,
(int_ppc_altivec_mtvsrbm i64:$rB))]>;
def MTVSRHM : VXForm_RD5_XO5_RS5<1602, 17, (outs vrrc:$vD), (ins g8rc:$rB),
"mtvsrhm $vD, $rB", IIC_VecGeneral,
[(set v8i16:$vD,
(int_ppc_altivec_mtvsrhm i64:$rB))]>;
def MTVSRWM : VXForm_RD5_XO5_RS5<1602, 18, (outs vrrc:$vD), (ins g8rc:$rB),
"mtvsrwm $vD, $rB", IIC_VecGeneral,
[(set v4i32:$vD,
(int_ppc_altivec_mtvsrwm i64:$rB))]>;
def MTVSRDM : VXForm_RD5_XO5_RS5<1602, 19, (outs vrrc:$vD), (ins g8rc:$rB),
"mtvsrdm $vD, $rB", IIC_VecGeneral,
[(set v2i64:$vD,
(int_ppc_altivec_mtvsrdm i64:$rB))]>;
def MTVSRQM : VXForm_RD5_XO5_RS5<1602, 20, (outs vrrc:$vD), (ins g8rc:$rB),
"mtvsrqm $vD, $rB", IIC_VecGeneral,
[(set v1i128:$vD,
(int_ppc_altivec_mtvsrqm i64:$rB))]>;
def MTVSRBMI : DXForm<4, 10, (outs vrrc:$vD), (ins u16imm64:$D),
"mtvsrbmi $vD, $D", IIC_VecGeneral,
[(set v16i8:$vD,
(int_ppc_altivec_mtvsrbm imm:$D))]>;
def VCNTMBB : VXForm_RD5_MP_VB5<1602, 12, (outs g8rc:$rD),
(ins vrrc:$vB, u1imm:$MP),
"vcntmbb $rD, $vB, $MP", IIC_VecGeneral,
[(set i64:$rD, (int_ppc_altivec_vcntmbb
v16i8:$vB, timm:$MP))]>;
def VCNTMBH : VXForm_RD5_MP_VB5<1602, 13, (outs g8rc:$rD),
(ins vrrc:$vB, u1imm:$MP),
"vcntmbh $rD, $vB, $MP", IIC_VecGeneral,
[(set i64:$rD, (int_ppc_altivec_vcntmbh
v8i16:$vB, timm:$MP))]>;
def VCNTMBW : VXForm_RD5_MP_VB5<1602, 14, (outs g8rc:$rD),
(ins vrrc:$vB, u1imm:$MP),
"vcntmbw $rD, $vB, $MP", IIC_VecGeneral,
[(set i64:$rD, (int_ppc_altivec_vcntmbw
v4i32:$vB, timm:$MP))]>;
def VCNTMBD : VXForm_RD5_MP_VB5<1602, 15, (outs g8rc:$rD),
(ins vrrc:$vB, u1imm:$MP),
"vcntmbd $rD, $vB, $MP", IIC_VecGeneral,
[(set i64:$rD, (int_ppc_altivec_vcntmbd
v2i64:$vB, timm:$MP))]>;
def VEXTDUBVLX : VAForm_1a<24, (outs vrrc:$vD),
(ins vrrc:$vA, vrrc:$vB, gprc:$rC),
"vextdubvlx $vD, $vA, $vB, $rC",
IIC_VecGeneral,
[(set v2i64:$vD,
(int_ppc_altivec_vextdubvlx v16i8:$vA,
v16i8:$vB,
i32:$rC))]>;
def VEXTDUBVRX : VAForm_1a<25, (outs vrrc:$vD),
(ins vrrc:$vA, vrrc:$vB, gprc:$rC),
"vextdubvrx $vD, $vA, $vB, $rC",
IIC_VecGeneral,
[(set v2i64:$vD,
(int_ppc_altivec_vextdubvrx v16i8:$vA,
v16i8:$vB,
i32:$rC))]>;
def VEXTDUHVLX : VAForm_1a<26, (outs vrrc:$vD),
(ins vrrc:$vA, vrrc:$vB, gprc:$rC),
"vextduhvlx $vD, $vA, $vB, $rC",
IIC_VecGeneral,
[(set v2i64:$vD,
(int_ppc_altivec_vextduhvlx v8i16:$vA,
v8i16:$vB,
i32:$rC))]>;
def VEXTDUHVRX : VAForm_1a<27, (outs vrrc:$vD),
(ins vrrc:$vA, vrrc:$vB, gprc:$rC),
"vextduhvrx $vD, $vA, $vB, $rC",
IIC_VecGeneral,
[(set v2i64:$vD,
(int_ppc_altivec_vextduhvrx v8i16:$vA,
v8i16:$vB,
i32:$rC))]>;
def VEXTDUWVLX : VAForm_1a<28, (outs vrrc:$vD),
(ins vrrc:$vA, vrrc:$vB, gprc:$rC),
"vextduwvlx $vD, $vA, $vB, $rC",
IIC_VecGeneral,
[(set v2i64:$vD,
(int_ppc_altivec_vextduwvlx v4i32:$vA,
v4i32:$vB,
i32:$rC))]>;
def VEXTDUWVRX : VAForm_1a<29, (outs vrrc:$vD),
(ins vrrc:$vA, vrrc:$vB, gprc:$rC),
"vextduwvrx $vD, $vA, $vB, $rC",
IIC_VecGeneral,
[(set v2i64:$vD,
(int_ppc_altivec_vextduwvrx v4i32:$vA,
v4i32:$vB,
i32:$rC))]>;
def VEXTDDVLX : VAForm_1a<30, (outs vrrc:$vD),
(ins vrrc:$vA, vrrc:$vB, gprc:$rC),
"vextddvlx $vD, $vA, $vB, $rC",
IIC_VecGeneral,
[(set v2i64:$vD,
(int_ppc_altivec_vextddvlx v2i64:$vA,
v2i64:$vB,
i32:$rC))]>;
def VEXTDDVRX : VAForm_1a<31, (outs vrrc:$vD),
(ins vrrc:$vA, vrrc:$vB, gprc:$rC),
"vextddvrx $vD, $vA, $vB, $rC",
IIC_VecGeneral,
[(set v2i64:$vD,
(int_ppc_altivec_vextddvrx v2i64:$vA,
v2i64:$vB,
i32:$rC))]>;
def VPDEPD : VXForm_1<1485, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB),
"vpdepd $vD, $vA, $vB", IIC_VecGeneral,
[(set v2i64:$vD,
(int_ppc_altivec_vpdepd v2i64:$vA, v2i64:$vB))]>;
def VPEXTD : VXForm_1<1421, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB),
"vpextd $vD, $vA, $vB", IIC_VecGeneral,
[(set v2i64:$vD,
(int_ppc_altivec_vpextd v2i64:$vA, v2i64:$vB))]>;
def PDEPD : XForm_6<31, 156, (outs g8rc:$rA), (ins g8rc:$rS, g8rc:$rB),
"pdepd $rA, $rS, $rB", IIC_IntGeneral,
[(set i64:$rA, (int_ppc_pdepd i64:$rS, i64:$rB))]>;
def PEXTD : XForm_6<31, 188, (outs g8rc:$rA), (ins g8rc:$rS, g8rc:$rB),
"pextd $rA, $rS, $rB", IIC_IntGeneral,
[(set i64:$rA, (int_ppc_pextd i64:$rS, i64:$rB))]>;
def VCFUGED : VXForm_1<1357, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB),
"vcfuged $vD, $vA, $vB", IIC_VecGeneral,
[(set v2i64:$vD,
(int_ppc_altivec_vcfuged v2i64:$vA, v2i64:$vB))]>;
def VGNB : VXForm_RD5_N3_VB5<1228, (outs g8rc:$rD), (ins vrrc:$vB, u3imm:$N),
"vgnb $rD, $vB, $N", IIC_VecGeneral,
[(set i64:$rD,
(int_ppc_altivec_vgnb v1i128:$vB, timm:$N))]>;
def CFUGED : XForm_6<31, 220, (outs g8rc:$rA), (ins g8rc:$rS, g8rc:$rB),
"cfuged $rA, $rS, $rB", IIC_IntGeneral,
[(set i64:$rA, (int_ppc_cfuged i64:$rS, i64:$rB))]>;
def XXEVAL :
8RR_XX4Form_IMM8_XTAB6<34, 1, (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB,
vsrc:$XC, u8imm:$IMM),
"xxeval $XT, $XA, $XB, $XC, $IMM", IIC_VecGeneral,
[(set v2i64:$XT, (int_ppc_vsx_xxeval v2i64:$XA,
v2i64:$XB, v2i64:$XC, timm:$IMM))]>;
def VCLZDM : VXForm_1<1924, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB),
"vclzdm $vD, $vA, $vB", IIC_VecGeneral,
[(set v2i64:$vD,
(int_ppc_altivec_vclzdm v2i64:$vA, v2i64:$vB))]>;
def VCTZDM : VXForm_1<1988, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB),
"vctzdm $vD, $vA, $vB", IIC_VecGeneral,
[(set v2i64:$vD,
(int_ppc_altivec_vctzdm v2i64:$vA, v2i64:$vB))]>;
def CNTLZDM : XForm_6<31, 59, (outs g8rc:$rA), (ins g8rc:$rS, g8rc:$rB),
"cntlzdm $rA, $rS, $rB", IIC_IntGeneral,
[(set i64:$rA,
(int_ppc_cntlzdm i64:$rS, i64:$rB))]>;
def CNTTZDM : XForm_6<31, 571, (outs g8rc:$rA), (ins g8rc:$rS, g8rc:$rB),
"cnttzdm $rA, $rS, $rB", IIC_IntGeneral,
[(set i64:$rA,
(int_ppc_cnttzdm i64:$rS, i64:$rB))]>;
def XXGENPCVBM :
XForm_XT6_IMM5_VB5<60, 916, (outs vsrc:$XT), (ins vrrc:$VRB, s5imm:$IMM),
"xxgenpcvbm $XT, $VRB, $IMM", IIC_VecGeneral, []>;
def XXGENPCVHM :
XForm_XT6_IMM5_VB5<60, 917, (outs vsrc:$XT), (ins vrrc:$VRB, s5imm:$IMM),
"xxgenpcvhm $XT, $VRB, $IMM", IIC_VecGeneral, []>;
def XXGENPCVWM :
XForm_XT6_IMM5_VB5<60, 948, (outs vsrc:$XT), (ins vrrc:$VRB, s5imm:$IMM),
"xxgenpcvwm $XT, $VRB, $IMM", IIC_VecGeneral, []>;
def XXGENPCVDM :
XForm_XT6_IMM5_VB5<60, 949, (outs vsrc:$XT), (ins vrrc:$VRB, s5imm:$IMM),
"xxgenpcvdm $XT, $VRB, $IMM", IIC_VecGeneral, []>;
def VCLRLB : VXForm_1<397, (outs vrrc:$vD), (ins vrrc:$vA, gprc:$rB),
"vclrlb $vD, $vA, $rB", IIC_VecGeneral,
[(set v16i8:$vD,
(int_ppc_altivec_vclrlb v16i8:$vA, i32:$rB))]>;
def VCLRRB : VXForm_1<461, (outs vrrc:$vD), (ins vrrc:$vA, gprc:$rB),
"vclrrb $vD, $vA, $rB", IIC_VecGeneral,
[(set v16i8:$vD,
(int_ppc_altivec_vclrrb v16i8:$vA, i32:$rB))]>;
def VMULLD : VXForm_1<457, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB),
"vmulld $vD, $vA, $vB", IIC_VecGeneral,
[(set v2i64:$vD, (mul v2i64:$vA, v2i64:$vB))]>;
def VMULHSW : VXForm_1<905, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB),
"vmulhsw $vD, $vA, $vB", IIC_VecGeneral,
[(set v4i32:$vD, (mulhs v4i32:$vA, v4i32:$vB))]>;
def VMULHUW : VXForm_1<649, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB),
"vmulhuw $vD, $vA, $vB", IIC_VecGeneral,
[(set v4i32:$vD, (mulhu v4i32:$vA, v4i32:$vB))]>;
def VMULHSD : VXForm_1<969, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB),
"vmulhsd $vD, $vA, $vB", IIC_VecGeneral,
[(set v2i64:$vD, (mulhs v2i64:$vA, v2i64:$vB))]>;
def VMULHUD : VXForm_1<713, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB),
"vmulhud $vD, $vA, $vB", IIC_VecGeneral,
[(set v2i64:$vD, (mulhu v2i64:$vA, v2i64:$vB))]>;
def VMODSW : VXForm_1<1931, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB),
"vmodsw $vD, $vA, $vB", IIC_VecGeneral,
[(set v4i32:$vD, (srem v4i32:$vA, v4i32:$vB))]>;
def VMODUW : VXForm_1<1675, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB),
"vmoduw $vD, $vA, $vB", IIC_VecGeneral,
[(set v4i32:$vD, (urem v4i32:$vA, v4i32:$vB))]>;
def VMODSD : VXForm_1<1995, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB),
"vmodsd $vD, $vA, $vB", IIC_VecGeneral,
[(set v2i64:$vD, (srem v2i64:$vA, v2i64:$vB))]>;
def VMODUD : VXForm_1<1739, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB),
"vmodud $vD, $vA, $vB", IIC_VecGeneral,
[(set v2i64:$vD, (urem v2i64:$vA, v2i64:$vB))]>;
def VDIVSW : VXForm_1<395, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB),
"vdivsw $vD, $vA, $vB", IIC_VecGeneral,
[(set v4i32:$vD, (sdiv v4i32:$vA, v4i32:$vB))]>;
def VDIVUW : VXForm_1<139, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB),
"vdivuw $vD, $vA, $vB", IIC_VecGeneral,
[(set v4i32:$vD, (udiv v4i32:$vA, v4i32:$vB))]>;
def VDIVSD : VXForm_1<459, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB),
"vdivsd $vD, $vA, $vB", IIC_VecGeneral,
[(set v2i64:$vD, (sdiv v2i64:$vA, v2i64:$vB))]>;
def VDIVUD : VXForm_1<203, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB),
"vdivud $vD, $vA, $vB", IIC_VecGeneral,
[(set v2i64:$vD, (udiv v2i64:$vA, v2i64:$vB))]>;
def VDIVESW : VXForm_1<907, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB),
"vdivesw $vD, $vA, $vB", IIC_VecGeneral,
[(set v4i32:$vD, (int_ppc_altivec_vdivesw v4i32:$vA,
v4i32:$vB))]>;
def VDIVEUW : VXForm_1<651, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB),
"vdiveuw $vD, $vA, $vB", IIC_VecGeneral,
[(set v4i32:$vD, (int_ppc_altivec_vdiveuw v4i32:$vA,
v4i32:$vB))]>;
def VDIVESD : VXForm_1<971, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB),
"vdivesd $vD, $vA, $vB", IIC_VecGeneral,
[(set v2i64:$vD, (int_ppc_altivec_vdivesd v2i64:$vA,
v2i64:$vB))]>;
def VDIVEUD : VXForm_1<715, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB),
"vdiveud $vD, $vA, $vB", IIC_VecGeneral,
[(set v2i64:$vD, (int_ppc_altivec_vdiveud v2i64:$vA,
v2i64:$vB))]>;
def XVTLSBB : XX2_BF3_XO5_XB6_XO9<60, 2, 475, (outs crrc:$BF), (ins vsrc:$XB),
"xvtlsbb $BF, $XB", IIC_VecGeneral, []>;
def BRH : XForm_11<31, 219, (outs gprc:$RA), (ins gprc:$RS),
"brh $RA, $RS", IIC_IntRotate, []>;
def BRW : XForm_11<31, 155, (outs gprc:$RA), (ins gprc:$RS),
"brw $RA, $RS", IIC_IntRotate,
[(set i32:$RA, (bswap i32:$RS))]>;
let isCodeGenOnly = 1 in {
def BRH8 : XForm_11<31, 219, (outs g8rc:$RA), (ins g8rc:$RS),
"brh $RA, $RS", IIC_IntRotate, []>;
def BRW8 : XForm_11<31, 155, (outs g8rc:$RA), (ins g8rc:$RS),
"brw $RA, $RS", IIC_IntRotate, []>;
}
def BRD : XForm_11<31, 187, (outs g8rc:$RA), (ins g8rc:$RS),
"brd $RA, $RS", IIC_IntRotate,
[(set i64:$RA, (bswap i64:$RS))]>;
// The XFormMemOp flag for the following 8 instructions is set on
// the instruction format.
let mayLoad = 1, mayStore = 0 in {
def LXVRBX : X_XT6_RA5_RB5<31, 13, "lxvrbx", vsrc, []>;
def LXVRHX : X_XT6_RA5_RB5<31, 45, "lxvrhx", vsrc, []>;
def LXVRWX : X_XT6_RA5_RB5<31, 77, "lxvrwx", vsrc, []>;
def LXVRDX : X_XT6_RA5_RB5<31, 109, "lxvrdx", vsrc, []>;
}
let mayLoad = 0, mayStore = 1 in {
def STXVRBX : X_XS6_RA5_RB5<31, 141, "stxvrbx", vsrc, []>;
def STXVRHX : X_XS6_RA5_RB5<31, 173, "stxvrhx", vsrc, []>;
def STXVRWX : X_XS6_RA5_RB5<31, 205, "stxvrwx", vsrc, []>;
def STXVRDX : X_XS6_RA5_RB5<31, 237, "stxvrdx", vsrc, []>;
}
def VMULESD : VXForm_1<968, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB),
"vmulesd $vD, $vA, $vB", IIC_VecGeneral,
[(set v1i128:$vD, (int_ppc_altivec_vmulesd v2i64:$vA,
v2i64:$vB))]>;
def VMULEUD : VXForm_1<712, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB),
"vmuleud $vD, $vA, $vB", IIC_VecGeneral,
[(set v1i128:$vD, (int_ppc_altivec_vmuleud v2i64:$vA,
v2i64:$vB))]>;
def VMULOSD : VXForm_1<456, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB),
"vmulosd $vD, $vA, $vB", IIC_VecGeneral,
[(set v1i128:$vD, (int_ppc_altivec_vmulosd v2i64:$vA,
v2i64:$vB))]>;
def VMULOUD : VXForm_1<200, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB),
"vmuloud $vD, $vA, $vB", IIC_VecGeneral,
[(set v1i128:$vD, (int_ppc_altivec_vmuloud v2i64:$vA,
v2i64:$vB))]>;
def VMSUMCUD : VAForm_1a<23, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB, vrrc:$vC),
"vmsumcud $vD, $vA, $vB, $vC", IIC_VecGeneral,
[(set v1i128:$vD, (int_ppc_altivec_vmsumcud
v2i64:$vA, v2i64:$vB, v1i128:$vC))]>;
def VDIVSQ : VXForm_1<267, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB),
"vdivsq $vD, $vA, $vB", IIC_VecGeneral,
[(set v1i128:$vD, (sdiv v1i128:$vA, v1i128:$vB))]>;
def VDIVUQ : VXForm_1<11, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB),
"vdivuq $vD, $vA, $vB", IIC_VecGeneral,
[(set v1i128:$vD, (udiv v1i128:$vA, v1i128:$vB))]>;
def VDIVESQ : VXForm_1<779, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB),
"vdivesq $vD, $vA, $vB", IIC_VecGeneral,
[(set v1i128:$vD, (int_ppc_altivec_vdivesq v1i128:$vA,
v1i128:$vB))]>;
def VDIVEUQ : VXForm_1<523, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB),
"vdiveuq $vD, $vA, $vB", IIC_VecGeneral,
[(set v1i128:$vD, (int_ppc_altivec_vdiveuq v1i128:$vA,
v1i128:$vB))]>;
def VCMPEQUQ : VCMP <455, "vcmpequq $vD, $vA, $vB" , v1i128>;
def VCMPGTSQ : VCMP <903, "vcmpgtsq $vD, $vA, $vB" , v1i128>;
def VCMPGTUQ : VCMP <647, "vcmpgtuq $vD, $vA, $vB" , v1i128>;
def VCMPEQUQ_rec : VCMP_rec <455, "vcmpequq. $vD, $vA, $vB" , v1i128>;
def VCMPGTSQ_rec : VCMP_rec <903, "vcmpgtsq. $vD, $vA, $vB" , v1i128>;
def VCMPGTUQ_rec : VCMP_rec <647, "vcmpgtuq. $vD, $vA, $vB" , v1i128>;
def VMODSQ : VXForm_1<1803, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB),
"vmodsq $vD, $vA, $vB", IIC_VecGeneral,
[(set v1i128:$vD, (srem v1i128:$vA, v1i128:$vB))]>;
def VMODUQ : VXForm_1<1547, (outs vrrc:$vD), (ins vrrc:$vA, vrrc:$vB),
"vmoduq $vD, $vA, $vB", IIC_VecGeneral,
[(set v1i128:$vD, (urem v1i128:$vA, v1i128:$vB))]>;
def VEXTSD2Q : VXForm_RD5_XO5_RS5<1538, 27, (outs vrrc:$vD), (ins vrrc:$vB),
"vextsd2q $vD, $vB", IIC_VecGeneral,
[(set v1i128:$vD, (int_ppc_altivec_vextsd2q v2i64:$vB))]>;
def VCMPUQ : VXForm_BF3_VAB5<257, (outs crrc:$BF), (ins vrrc:$vA, vrrc:$vB),
"vcmpuq $BF, $vA, $vB", IIC_VecGeneral, []>;
def VCMPSQ : VXForm_BF3_VAB5<321, (outs crrc:$BF), (ins vrrc:$vA, vrrc:$vB),
"vcmpsq $BF, $vA, $vB", IIC_VecGeneral, []>;
def VRLQNM : VX1_VT5_VA5_VB5<325, "vrlqnm",
[(set v1i128:$vD,
(int_ppc_altivec_vrlqnm v1i128:$vA,
v1i128:$vB))]>;
def VRLQMI : VXForm_1<69, (outs vrrc:$vD),
(ins vrrc:$vA, vrrc:$vB, vrrc:$vDi),
"vrlqmi $vD, $vA, $vB", IIC_VecFP,
[(set v1i128:$vD,
(int_ppc_altivec_vrlqmi v1i128:$vA, v1i128:$vB,
v1i128:$vDi))]>,
RegConstraint<"$vDi = $vD">, NoEncode<"$vDi">;
def VSLQ : VX1_VT5_VA5_VB5<261, "vslq", []>;
def VSRAQ : VX1_VT5_VA5_VB5<773, "vsraq", []>;
def VSRQ : VX1_VT5_VA5_VB5<517, "vsrq", []>;
def VRLQ : VX1_VT5_VA5_VB5<5, "vrlq", []>;
def XSCVQPUQZ : X_VT5_XO5_VB5<63, 0, 836, "xscvqpuqz", []>;
def XSCVQPSQZ : X_VT5_XO5_VB5<63, 8, 836, "xscvqpsqz", []>;
def XSCVUQQP : X_VT5_XO5_VB5<63, 3, 836, "xscvuqqp", []>;
def XSCVSQQP : X_VT5_XO5_VB5<63, 11, 836, "xscvsqqp", []>;
def LXVKQ : XForm_XT6_IMM5<60, 31, 360, (outs vsrc:$XT), (ins u5imm:$UIM),
"lxvkq $XT, $UIM", IIC_VecGeneral, []>;
}
let Predicates = [IsISA3_1, HasVSX] in {
def XVCVSPBF16 : XX2_XT6_XO5_XB6<60, 17, 475, "xvcvspbf16", vsrc, []>;
def XVCVBF16SPN : XX2_XT6_XO5_XB6<60, 16, 475, "xvcvbf16spn", vsrc, []>;
def XSMAXCQP : X_VT5_VA5_VB5<63, 676, "xsmaxcqp",
[(set f128:$vT, (PPCxsmaxc f128:$vA, f128:$vB))]>;
def XSMINCQP : X_VT5_VA5_VB5<63, 740, "xsmincqp",
[(set f128:$vT, (PPCxsminc f128:$vA, f128:$vB))]>;
}
// Multiclass defining patterns for Set Boolean Extension Reverse Instructions.
// This is analogous to the CRNotPat multiclass but specifically for Power10
// and newer subtargets since the extended forms use Set Boolean instructions.
// The first two anonymous patterns defined are actually a duplicate of those
// in CRNotPat, but it is preferable to define both multiclasses as complete
// ones rather than pulling that small common section out.
multiclass P10ReverseSetBool<dag pattern, dag result> {
def : Pat<pattern, (crnot result)>;
def : Pat<(not pattern), result>;
def : Pat<(i32 (zext pattern)),
(SETBCR result)>;
def : Pat<(i64 (zext pattern)),
(SETBCR8 result)>;
def : Pat<(i32 (sext pattern)),
(SETNBCR result)>;
def : Pat<(i64 (sext pattern)),
(SETNBCR8 result)>;
def : Pat<(i32 (anyext pattern)),
(SETBCR result)>;
def : Pat<(i64 (anyext pattern)),
(SETBCR8 result)>;
}
multiclass IntSetP10RevSetBool<SDNode SetCC, ValueType Ty, PatLeaf ZExtTy,
ImmLeaf SExtTy, I Cmpi, I Cmpli,
I Cmp, I Cmpl> {
defm : P10ReverseSetBool<(i1 (SetCC Ty:$s1, Ty:$s2, SETUGE)),
(EXTRACT_SUBREG (Cmpl $s1, $s2), sub_lt)>;
defm : P10ReverseSetBool<(i1 (SetCC Ty:$s1, Ty:$s2, SETGE)),
(EXTRACT_SUBREG (Cmp $s1, $s2), sub_lt)>;
defm : P10ReverseSetBool<(i1 (SetCC Ty:$s1, Ty:$s2, SETULE)),
(EXTRACT_SUBREG (Cmpl $s1, $s2), sub_gt)>;
defm : P10ReverseSetBool<(i1 (SetCC Ty:$s1, Ty:$s2, SETLE)),
(EXTRACT_SUBREG (Cmp $s1, $s2), sub_gt)>;
defm : P10ReverseSetBool<(i1 (SetCC Ty:$s1, Ty:$s2, SETNE)),
(EXTRACT_SUBREG (Cmp $s1, $s2), sub_eq)>;
defm : P10ReverseSetBool<(i1 (SetCC Ty:$s1, ZExtTy:$imm, SETUGE)),
(EXTRACT_SUBREG (Cmpli $s1, imm:$imm), sub_lt)>;
defm : P10ReverseSetBool<(i1 (SetCC Ty:$s1, SExtTy:$imm, SETGE)),
(EXTRACT_SUBREG (Cmpi $s1, imm:$imm), sub_lt)>;
defm : P10ReverseSetBool<(i1 (SetCC Ty:$s1, ZExtTy:$imm, SETULE)),
(EXTRACT_SUBREG (Cmpli $s1, imm:$imm), sub_gt)>;
defm : P10ReverseSetBool<(i1 (SetCC Ty:$s1, SExtTy:$imm, SETLE)),
(EXTRACT_SUBREG (Cmpi $s1, imm:$imm), sub_gt)>;
defm : P10ReverseSetBool<(i1 (SetCC Ty:$s1, SExtTy:$imm, SETNE)),
(EXTRACT_SUBREG (Cmpi $s1, imm:$imm), sub_eq)>;
defm : P10ReverseSetBool<(i1 (SetCC Ty:$s1, ZExtTy:$imm, SETNE)),
(EXTRACT_SUBREG (Cmpli $s1, imm:$imm), sub_eq)>;
}
multiclass FSetP10RevSetBool<SDNode SetCC, ValueType Ty, I FCmp> {
defm : P10ReverseSetBool<(i1 (SetCC Ty:$s1, Ty:$s2, SETUGE)),
(EXTRACT_SUBREG (FCmp $s1, $s2), sub_lt)>;
defm : P10ReverseSetBool<(i1 (SetCC Ty:$s1, Ty:$s2, SETGE)),
(EXTRACT_SUBREG (FCmp $s1, $s2), sub_lt)>;
defm : P10ReverseSetBool<(i1 (SetCC Ty:$s1, Ty:$s2, SETULE)),
(EXTRACT_SUBREG (FCmp $s1, $s2), sub_gt)>;
defm : P10ReverseSetBool<(i1 (SetCC Ty:$s1, Ty:$s2, SETLE)),
(EXTRACT_SUBREG (FCmp $s1, $s2), sub_gt)>;
defm : P10ReverseSetBool<(i1 (SetCC Ty:$s1, Ty:$s2, SETUNE)),
(EXTRACT_SUBREG (FCmp $s1, $s2), sub_eq)>;
defm : P10ReverseSetBool<(i1 (SetCC Ty:$s1, Ty:$s2, SETNE)),
(EXTRACT_SUBREG (FCmp $s1, $s2), sub_eq)>;
defm : P10ReverseSetBool<(i1 (SetCC Ty:$s1, Ty:$s2, SETO)),
(EXTRACT_SUBREG (FCmp $s1, $s2), sub_un)>;
}
let Predicates = [IsISA3_1] in {
def : Pat<(i32 (zext i1:$in)),
(SETBC $in)>;
def : Pat<(i64 (zext i1:$in)),
(SETBC8 $in)>;
def : Pat<(i32 (sext i1:$in)),
(SETNBC $in)>;
def : Pat<(i64 (sext i1:$in)),
(SETNBC8 $in)>;
def : Pat<(i32 (anyext i1:$in)),
(SETBC $in)>;
def : Pat<(i64 (anyext i1:$in)),
(SETBC8 $in)>;
// Instantiation of the set boolean reverse patterns for 32-bit integers.
defm : IntSetP10RevSetBool<setcc, i32, immZExt16, imm32SExt16,
CMPWI, CMPLWI, CMPW, CMPLW>;
defm : P10ReverseSetBool<(i1 (setcc i32:$s1, imm:$imm, SETNE)),
(EXTRACT_SUBREG (CMPLWI (XORIS $s1, (HI16 imm:$imm)),
(LO16 imm:$imm)), sub_eq)>;
// Instantiation of the set boolean reverse patterns for 64-bit integers.
defm : IntSetP10RevSetBool<setcc, i64, immZExt16, imm64SExt16,
CMPDI, CMPLDI, CMPD, CMPLD>;
defm : P10ReverseSetBool<(i1 (setcc i64:$s1, imm64ZExt32:$imm, SETNE)),
(EXTRACT_SUBREG (CMPLDI (XORIS8 $s1, (HI16 imm:$imm)),
(LO16 imm:$imm)), sub_eq)>;
}
// Instantiation of the set boolean reverse patterns for f32, f64, f128.
let Predicates = [IsISA3_1, HasFPU] in {
defm : FSetP10RevSetBool<setcc, f32, FCMPUS>;
defm : FSetP10RevSetBool<setcc, f64, FCMPUD>;
defm : FSetP10RevSetBool<setcc, f128, XSCMPUQP>;
}
//---------------------------- Anonymous Patterns ----------------------------//
let Predicates = [IsISA3_1] in {
// Exploit the vector multiply high instructions using intrinsics.
def : Pat<(v4i32 (int_ppc_altivec_vmulhsw v4i32:$vA, v4i32:$vB)),
(v4i32 (VMULHSW $vA, $vB))>;
def : Pat<(v4i32 (int_ppc_altivec_vmulhuw v4i32:$vA, v4i32:$vB)),
(v4i32 (VMULHUW $vA, $vB))>;
def : Pat<(v2i64 (int_ppc_altivec_vmulhsd v2i64:$vA, v2i64:$vB)),
(v2i64 (VMULHSD $vA, $vB))>;
def : Pat<(v2i64 (int_ppc_altivec_vmulhud v2i64:$vA, v2i64:$vB)),
(v2i64 (VMULHUD $vA, $vB))>;
def : Pat<(v16i8 (int_ppc_vsx_xxgenpcvbm v16i8:$VRB, imm:$IMM)),
(v16i8 (COPY_TO_REGCLASS (XXGENPCVBM $VRB, imm:$IMM), VRRC))>;
def : Pat<(v8i16 (int_ppc_vsx_xxgenpcvhm v8i16:$VRB, imm:$IMM)),
(v8i16 (COPY_TO_REGCLASS (XXGENPCVHM $VRB, imm:$IMM), VRRC))>;
def : Pat<(v4i32 (int_ppc_vsx_xxgenpcvwm v4i32:$VRB, imm:$IMM)),
(v4i32 (COPY_TO_REGCLASS (XXGENPCVWM $VRB, imm:$IMM), VRRC))>;
def : Pat<(v2i64 (int_ppc_vsx_xxgenpcvdm v2i64:$VRB, imm:$IMM)),
(v2i64 (COPY_TO_REGCLASS (XXGENPCVDM $VRB, imm:$IMM), VRRC))>;
def : Pat<(i32 (int_ppc_vsx_xvtlsbb v16i8:$XB, 1)),
(EXTRACT_SUBREG (XVTLSBB (COPY_TO_REGCLASS $XB, VSRC)), sub_lt)>;
def : Pat<(i32 (int_ppc_vsx_xvtlsbb v16i8:$XB, 0)),
(EXTRACT_SUBREG (XVTLSBB (COPY_TO_REGCLASS $XB, VSRC)), sub_eq)>;
def : Pat<(srl (bswap i32:$RS), (i32 16)),
(RLDICL_32 (BRH $RS), 0, 48)>;
def : Pat<(i64 (zext (i32 (srl (bswap i32:$RS), (i32 16))))),
(RLDICL_32_64 (BRH $RS), 0, 48)>;
def : Pat <(v1i128 (PPClxvrzx ForceXForm:$src, 8)),
(v1i128 (COPY_TO_REGCLASS (LXVRBX ForceXForm:$src), VRRC))>;
def : Pat <(v1i128 (PPClxvrzx ForceXForm:$src, 16)),
(v1i128 (COPY_TO_REGCLASS (LXVRHX ForceXForm:$src), VRRC))>;
def : Pat <(v1i128 (PPClxvrzx ForceXForm:$src, 32)),
(v1i128 (COPY_TO_REGCLASS (LXVRWX ForceXForm:$src), VRRC))>;
def : Pat <(v1i128 (PPClxvrzx ForceXForm:$src, 64)),
(v1i128 (COPY_TO_REGCLASS (LXVRDX ForceXForm:$src), VRRC))>;
def : Pat<(v1i128 (rotl v1i128:$vA, v1i128:$vB)),
(v1i128 (VRLQ v1i128:$vA, v1i128:$vB))>;
def : Pat <(v2i64 (PPCxxsplti32dx v2i64:$XT, i32:$XI, i32:$IMM32)),
(v2i64 (XXSPLTI32DX v2i64:$XT, i32:$XI, i32:$IMM32))>;
}
let Predicates = [IsISA3_1, HasVSX] in {
def : Pat<(v16i8 (int_ppc_vsx_xvcvspbf16 v16i8:$XA)),
(COPY_TO_REGCLASS (XVCVSPBF16 RCCp.AToVSRC), VRRC)>;
def : Pat<(v16i8 (int_ppc_vsx_xvcvbf16spn v16i8:$XA)),
(COPY_TO_REGCLASS (XVCVBF16SPN RCCp.AToVSRC), VRRC)>;
}
let AddedComplexity = 400, Predicates = [IsISA3_1, IsLittleEndian] in {
// Store element 0 of a VSX register to memory
def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$src, 0)), ForceXForm:$dst),
(STXVRBX (COPY_TO_REGCLASS v16i8:$src, VSRC), ForceXForm:$dst)>;
def : Pat<(truncstorei16 (i32 (vector_extract v8i16:$src, 0)), ForceXForm:$dst),
(STXVRHX (COPY_TO_REGCLASS v8i16:$src, VSRC), ForceXForm:$dst)>;
def : Pat<(store (i32 (extractelt v4i32:$src, 0)), ForceXForm:$dst),
(STXVRWX $src, ForceXForm:$dst)>;
def : Pat<(store (f32 (extractelt v4f32:$src, 0)), ForceXForm:$dst),
(STXVRWX $src, ForceXForm:$dst)>;
def : Pat<(store (i64 (extractelt v2i64:$src, 0)), ForceXForm:$dst),
(STXVRDX $src, ForceXForm:$dst)>;
def : Pat<(store (f64 (extractelt v2f64:$src, 0)), ForceXForm:$dst),
(STXVRDX $src, ForceXForm:$dst)>;
// Load element 0 of a VSX register to memory
def : Pat<(v8i16 (scalar_to_vector (i32 (extloadi16 ForceXForm:$src)))),
(v8i16 (COPY_TO_REGCLASS (LXVRHX ForceXForm:$src), VSRC))>;
def : Pat<(v16i8 (scalar_to_vector (i32 (extloadi8 ForceXForm:$src)))),
(v16i8 (COPY_TO_REGCLASS (LXVRBX ForceXForm:$src), VSRC))>;
}
// FIXME: The swap is overkill when the shift amount is a constant.
// We should just fix the constant in the DAG.
let AddedComplexity = 400, Predicates = [IsISA3_1, HasVSX] in {
def : Pat<(v1i128 (shl v1i128:$VRA, v1i128:$VRB)),
(v1i128 (VSLQ v1i128:$VRA,
(XXPERMDI (COPY_TO_REGCLASS $VRB, VSRC),
(COPY_TO_REGCLASS $VRB, VSRC), 2)))>;
def : Pat<(v1i128 (PPCshl v1i128:$VRA, v1i128:$VRB)),
(v1i128 (VSLQ v1i128:$VRA,
(XXPERMDI (COPY_TO_REGCLASS $VRB, VSRC),
(COPY_TO_REGCLASS $VRB, VSRC), 2)))>;
def : Pat<(v1i128 (srl v1i128:$VRA, v1i128:$VRB)),
(v1i128 (VSRQ v1i128:$VRA,
(XXPERMDI (COPY_TO_REGCLASS $VRB, VSRC),
(COPY_TO_REGCLASS $VRB, VSRC), 2)))>;
def : Pat<(v1i128 (PPCsrl v1i128:$VRA, v1i128:$VRB)),
(v1i128 (VSRQ v1i128:$VRA,
(XXPERMDI (COPY_TO_REGCLASS $VRB, VSRC),
(COPY_TO_REGCLASS $VRB, VSRC), 2)))>;
def : Pat<(v1i128 (sra v1i128:$VRA, v1i128:$VRB)),
(v1i128 (VSRAQ v1i128:$VRA,
(XXPERMDI (COPY_TO_REGCLASS $VRB, VSRC),
(COPY_TO_REGCLASS $VRB, VSRC), 2)))>;
def : Pat<(v1i128 (PPCsra v1i128:$VRA, v1i128:$VRB)),
(v1i128 (VSRAQ v1i128:$VRA,
(XXPERMDI (COPY_TO_REGCLASS $VRB, VSRC),
(COPY_TO_REGCLASS $VRB, VSRC), 2)))>;
}
class xxevalPattern <dag pattern, bits<8> imm> :
Pat<(v4i32 pattern), (XXEVAL $vA, $vB, $vC, imm)> {}
let AddedComplexity = 400, Predicates = [PrefixInstrs] in {
def : Pat<(v4i32 (build_vector i32immNonAllOneNonZero:$A,
i32immNonAllOneNonZero:$A,
i32immNonAllOneNonZero:$A,
i32immNonAllOneNonZero:$A)),
(v4i32 (XXSPLTIW imm:$A))>;
def : Pat<(f32 nzFPImmAsi32:$A),
(COPY_TO_REGCLASS (XXSPLTIDP (getFPAs32BitInt fpimm:$A)),
VSFRC)>;
def : Pat<(f64 nzFPImmAsi32:$A),
(COPY_TO_REGCLASS (XXSPLTIDP (getFPAs32BitInt fpimm:$A)),
VSFRC)>;
// To replace constant pool with XXSPLTI32DX for scalars.
def : Pat<(f32 nzFPImmAsi64:$A),
(COPY_TO_REGCLASS (XXSPLTI32DX (XXSPLTI32DX(IMPLICIT_DEF), 0,
(getFPAs64BitIntHi $A)),
1, (getFPAs64BitIntLo $A)),
VSSRC)>;
def : Pat<(f64 nzFPImmAsi64:$A),
(COPY_TO_REGCLASS (XXSPLTI32DX (XXSPLTI32DX (IMPLICIT_DEF), 0,
(getFPAs64BitIntHi $A)),
1, (getFPAs64BitIntLo $A)),
VSFRC)>;
// Anonymous patterns for XXEVAL
// AND
// and(A, B, C)
def : xxevalPattern<(and v4i32:$vA, (and v4i32:$vB, v4i32:$vC)), 1>;
// and(A, xor(B, C))
def : xxevalPattern<(and v4i32:$vA, (xor v4i32:$vB, v4i32:$vC)), 6>;
// and(A, or(B, C))
def : xxevalPattern<(and v4i32:$vA, (or v4i32:$vB, v4i32:$vC)), 7>;
// and(A, nor(B, C))
def : xxevalPattern<(and v4i32:$vA, (vnot (or v4i32:$vB, v4i32:$vC))), 8>;
// and(A, eqv(B, C))
def : xxevalPattern<(and v4i32:$vA, (vnot (xor v4i32:$vB, v4i32:$vC))), 9>;
// and(A, nand(B, C))
def : xxevalPattern<(and v4i32:$vA, (vnot (and v4i32:$vB, v4i32:$vC))), 14>;
// NAND
// nand(A, B, C)
def : xxevalPattern<(vnot (and v4i32:$vA, (and v4i32:$vB, v4i32:$vC))),
!sub(255, 1)>;
// nand(A, xor(B, C))
def : xxevalPattern<(vnot (and v4i32:$vA, (xor v4i32:$vB, v4i32:$vC))),
!sub(255, 6)>;
// nand(A, or(B, C))
def : xxevalPattern<(vnot (and v4i32:$vA, (or v4i32:$vB, v4i32:$vC))),
!sub(255, 7)>;
// nand(A, nor(B, C))
def : xxevalPattern<(or (vnot v4i32:$vA), (or v4i32:$vB, v4i32:$vC)),
!sub(255, 8)>;
// nand(A, eqv(B, C))
def : xxevalPattern<(or (vnot v4i32:$vA), (xor v4i32:$vB, v4i32:$vC)),
!sub(255, 9)>;
// nand(A, nand(B, C))
def : xxevalPattern<(or (vnot v4i32:$vA), (and v4i32:$vB, v4i32:$vC)),
!sub(255, 14)>;
// EQV
// (eqv A, B, C)
def : xxevalPattern<(or (and v4i32:$vA, (and v4i32:$vB, v4i32:$vC)),
(vnot (or v4i32:$vA, (or v4i32:$vB, v4i32:$vC)))),
150>;
// (eqv A, (and B, C))
def : xxevalPattern<(vnot (xor v4i32:$vA, (and v4i32:$vB, v4i32:$vC))), 225>;
// (eqv A, (or B, C))
def : xxevalPattern<(vnot (xor v4i32:$vA, (or v4i32:$vB, v4i32:$vC))), 135>;
// NOR
// (nor A, B, C)
def : xxevalPattern<(vnot (or v4i32:$vA, (or v4i32:$vB, v4i32:$vC))), 128>;
// (nor A, (and B, C))
def : xxevalPattern<(vnot (or v4i32:$vA, (and v4i32:$vB, v4i32:$vC))), 224>;
// (nor A, (eqv B, C))
def : xxevalPattern<(and (vnot v4i32:$vA), (xor v4i32:$vB, v4i32:$vC)), 96>;
// (nor A, (nand B, C))
def : xxevalPattern<(and (vnot v4i32:$vA), (and v4i32:$vB, v4i32:$vC)), 16>;
// (nor A, (nor B, C))
def : xxevalPattern<(and (vnot v4i32:$vA), (or v4i32:$vB, v4i32:$vC)), 112>;
// (nor A, (xor B, C))
def : xxevalPattern<(vnot (or v4i32:$vA, (xor v4i32:$vB, v4i32:$vC))), 144>;
// OR
// (or A, B, C)
def : xxevalPattern<(or v4i32:$vA, (or v4i32:$vB, v4i32:$vC)), 127>;
// (or A, (and B, C))
def : xxevalPattern<(or v4i32:$vA, (and v4i32:$vB, v4i32:$vC)), 31>;
// (or A, (eqv B, C))
def : xxevalPattern<(or v4i32:$vA, (vnot (xor v4i32:$vB, v4i32:$vC))), 159>;
// (or A, (nand B, C))
def : xxevalPattern<(or v4i32:$vA, (vnot (and v4i32:$vB, v4i32:$vC))), 239>;
// (or A, (nor B, C))
def : xxevalPattern<(or v4i32:$vA, (vnot (or v4i32:$vB, v4i32:$vC))), 143>;
// (or A, (xor B, C))
def : xxevalPattern<(or v4i32:$vA, (xor v4i32:$vB, v4i32:$vC)), 111>;
// XOR
// (xor A, B, C)
def : xxevalPattern<(xor v4i32:$vA, (xor v4i32:$vB, v4i32:$vC)), 105>;
// (xor A, (and B, C))
def : xxevalPattern<(xor v4i32:$vA, (and v4i32:$vB, v4i32:$vC)), 30>;
// (xor A, (or B, C))
def : xxevalPattern<(xor v4i32:$vA, (or v4i32:$vB, v4i32:$vC)), 120>;
// Anonymous patterns to select prefixed VSX loads and stores.
// Load / Store f128
def : Pat<(f128 (load PDForm:$src)),
(COPY_TO_REGCLASS (PLXV memri34:$src), VRRC)>;
def : Pat<(store f128:$XS, PDForm:$dst),
(PSTXV (COPY_TO_REGCLASS $XS, VSRC), memri34:$dst)>;
// Load / Store v4i32
def : Pat<(v4i32 (load PDForm:$src)), (PLXV memri34:$src)>;
def : Pat<(store v4i32:$XS, PDForm:$dst), (PSTXV $XS, memri34:$dst)>;
// Load / Store v2i64
def : Pat<(v2i64 (load PDForm:$src)), (PLXV memri34:$src)>;
def : Pat<(store v2i64:$XS, PDForm:$dst), (PSTXV $XS, memri34:$dst)>;
// Load / Store v4f32
def : Pat<(v4f32 (load PDForm:$src)), (PLXV memri34:$src)>;
def : Pat<(store v4f32:$XS, PDForm:$dst), (PSTXV $XS, memri34:$dst)>;
// Load / Store v2f64
def : Pat<(v2f64 (load PDForm:$src)), (PLXV memri34:$src)>;
def : Pat<(store v2f64:$XS, PDForm:$dst), (PSTXV $XS, memri34:$dst)>;
// Cases For PPCstore_scal_int_from_vsr
def : Pat<(PPCstore_scal_int_from_vsr
(f64 (PPCcv_fp_to_uint_in_vsr f64:$src)), PDForm:$dst, 8),
(PSTXSD (XSCVDPUXDS f64:$src), PDForm:$dst)>;
def : Pat<(PPCstore_scal_int_from_vsr
(f64 (PPCcv_fp_to_sint_in_vsr f64:$src)), PDForm:$dst, 8),
(PSTXSD (XSCVDPSXDS f64:$src), PDForm:$dst)>;
def : Pat<(PPCstore_scal_int_from_vsr
(f64 (PPCcv_fp_to_uint_in_vsr f128:$src)), PDForm:$dst, 8),
(PSTXSD (COPY_TO_REGCLASS (XSCVQPUDZ f128:$src), VFRC),
PDForm:$dst)>;
def : Pat<(PPCstore_scal_int_from_vsr
(f64 (PPCcv_fp_to_sint_in_vsr f128:$src)), PDForm:$dst, 8),
(PSTXSD (COPY_TO_REGCLASS (XSCVQPSDZ f128:$src), VFRC),
PDForm:$dst)>;
}
let Predicates = [PrefixInstrs] in {
def : Pat<(i32 imm34:$imm), (PLI (getImmAs64BitInt imm:$imm))>;
def : Pat<(i64 imm34:$imm), (PLI8 (getImmAs64BitInt imm:$imm))>;
def : Pat<(v16i8 (int_ppc_vsx_xxpermx v16i8:$A, v16i8:$B, v16i8:$C, timm:$D)),
(COPY_TO_REGCLASS (XXPERMX (COPY_TO_REGCLASS $A, VSRC),
(COPY_TO_REGCLASS $B, VSRC),
(COPY_TO_REGCLASS $C, VSRC), $D), VSRC)>;
def : Pat<(v16i8 (int_ppc_vsx_xxblendvb v16i8:$A, v16i8:$B, v16i8:$C)),
(COPY_TO_REGCLASS
(XXBLENDVB (COPY_TO_REGCLASS $A, VSRC),
(COPY_TO_REGCLASS $B, VSRC),
(COPY_TO_REGCLASS $C, VSRC)), VSRC)>;
def : Pat<(v8i16 (int_ppc_vsx_xxblendvh v8i16:$A, v8i16:$B, v8i16:$C)),
(COPY_TO_REGCLASS
(XXBLENDVH (COPY_TO_REGCLASS $A, VSRC),
(COPY_TO_REGCLASS $B, VSRC),
(COPY_TO_REGCLASS $C, VSRC)), VSRC)>;
def : Pat<(int_ppc_vsx_xxblendvw v4i32:$A, v4i32:$B, v4i32:$C),
(XXBLENDVW $A, $B, $C)>;
def : Pat<(int_ppc_vsx_xxblendvd v2i64:$A, v2i64:$B, v2i64:$C),
(XXBLENDVD $A, $B, $C)>;
// Anonymous patterns to select prefixed loads and stores.
// Load i32
def : Pat<(i32 (extloadi1 PDForm:$src)), (PLBZ memri34:$src)>;
def : Pat<(i32 (zextloadi1 PDForm:$src)), (PLBZ memri34:$src)>;
def : Pat<(i32 (extloadi8 PDForm:$src)), (PLBZ memri34:$src)>;
def : Pat<(i32 (zextloadi8 PDForm:$src)), (PLBZ memri34:$src)>;
def : Pat<(i32 (extloadi16 PDForm:$src)), (PLHZ memri34:$src)>;
def : Pat<(i32 (zextloadi16 PDForm:$src)), (PLHZ memri34:$src)>;
def : Pat<(i32 (sextloadi16 PDForm:$src)), (PLHA memri34:$src)>;
def : Pat<(i32 (load PDForm:$src)), (PLWZ memri34:$src)>;
// Store i32
def : Pat<(truncstorei8 i32:$rS, PDForm:$dst), (PSTB gprc:$rS, memri34:$dst)>;
def : Pat<(truncstorei16 i32:$rS, PDForm:$dst), (PSTH gprc:$rS, memri34:$dst)>;
def : Pat<(store i32:$rS, PDForm:$dst), (PSTW gprc:$rS, memri34:$dst)>;
// Load i64
def : Pat<(i64 (extloadi1 PDForm:$src)), (PLBZ8 memri34:$src)>;
def : Pat<(i64 (zextloadi1 PDForm:$src)), (PLBZ8 memri34:$src)>;
def : Pat<(i64 (extloadi8 PDForm:$src)), (PLBZ8 memri34:$src)>;
def : Pat<(i64 (zextloadi8 PDForm:$src)), (PLBZ8 memri34:$src)>;
def : Pat<(i64 (extloadi16 PDForm:$src)), (PLHZ8 memri34:$src)>;
def : Pat<(i64 (zextloadi16 PDForm:$src)), (PLHZ8 memri34:$src)>;
def : Pat<(i64 (sextloadi16 PDForm:$src)), (PLHA8 memri34:$src)>;
def : Pat<(i64 (extloadi32 PDForm:$src)), (PLWZ8 memri34:$src)>;
def : Pat<(i64 (zextloadi32 PDForm:$src)), (PLWZ8 memri34:$src)>;
def : Pat<(i64 (sextloadi32 PDForm:$src)), (PLWA8 memri34:$src)>;
def : Pat<(i64 (load PDForm:$src)), (PLD memri34:$src)>;
// Store i64
def : Pat<(truncstorei8 i64:$rS, PDForm:$dst), (PSTB8 g8rc:$rS, memri34:$dst)>;
def : Pat<(truncstorei16 i64:$rS, PDForm:$dst), (PSTH8 g8rc:$rS, memri34:$dst)>;
def : Pat<(truncstorei32 i64:$rS, PDForm:$dst), (PSTW8 g8rc:$rS, memri34:$dst)>;
def : Pat<(store i64:$rS, PDForm:$dst), (PSTD g8rc:$rS, memri34:$dst)>;
// Load / Store f32
def : Pat<(f32 (load PDForm:$src)), (PLFS memri34:$src)>;
def : Pat<(store f32:$FRS, PDForm:$dst), (PSTFS $FRS, memri34:$dst)>;
// Load / Store f64
def : Pat<(f64 (extloadf32 PDForm:$src)),
(COPY_TO_REGCLASS (PLFS memri34:$src), VSFRC)>;
def : Pat<(f64 (load PDForm:$src)), (PLFD memri34:$src)>;
def : Pat<(store f64:$FRS, PDForm:$dst), (PSTFD $FRS, memri34:$dst)>;
// Atomic Load
def : Pat<(atomic_load_8 PDForm:$src), (PLBZ memri34:$src)>;
def : Pat<(atomic_load_16 PDForm:$src), (PLHZ memri34:$src)>;
def : Pat<(atomic_load_32 PDForm:$src), (PLWZ memri34:$src)>;
def : Pat<(atomic_load_64 PDForm:$src), (PLD memri34:$src)>;
// Atomic Store
def : Pat<(atomic_store_8 PDForm:$dst, i32:$RS), (PSTB $RS, memri34:$dst)>;
def : Pat<(atomic_store_16 PDForm:$dst, i32:$RS), (PSTH $RS, memri34:$dst)>;
def : Pat<(atomic_store_32 PDForm:$dst, i32:$RS), (PSTW $RS, memri34:$dst)>;
def : Pat<(atomic_store_64 PDForm:$dst, i64:$RS), (PSTD $RS, memri34:$dst)>;
// Prefixed fpext to v2f64
def : Pat<(v4f32 (PPCldvsxlh PDForm:$src)),
(SUBREG_TO_REG (i64 1), (PLFD PDForm:$src), sub_64)>;
}
def InsertEltShift {
dag Sub32 = (i32 (EXTRACT_SUBREG $rB, sub_32));
dag Sub32Left1 = (RLWINM (EXTRACT_SUBREG $rB, sub_32), 1, 0, 30);
dag Sub32Left2 = (RLWINM (EXTRACT_SUBREG $rB, sub_32), 2, 0, 29);
dag Left1 = (RLWINM $rB, 1, 0, 30);
dag Left2 = (RLWINM $rB, 2, 0, 29);
dag Left3 = (RLWINM8 $rB, 3, 0, 28);
}
let Predicates = [IsISA3_1, HasVSX, IsLittleEndian] in {
// Indexed vector insert element
def : Pat<(v16i8 (vector_insert v16i8:$vDi, i32:$rA, i64:$rB)),
(VINSBRX $vDi, InsertEltShift.Sub32, $rA)>;
def : Pat<(v8i16 (vector_insert v8i16:$vDi, i32:$rA, i64:$rB)),
(VINSHRX $vDi, InsertEltShift.Sub32Left1, $rA)>;
def : Pat<(v4i32 (insertelt v4i32:$vDi, i32:$rA, i64:$rB)),
(VINSWRX $vDi, InsertEltShift.Sub32Left2, $rA)>;
def : Pat<(v2i64 (insertelt v2i64:$vDi, i64:$rA, i64:$rB)),
(VINSDRX $vDi, InsertEltShift.Left3, $rA)>;
def : Pat<(v4f32 (insertelt v4f32:$vDi, f32:$rA, i64:$rB)),
(VINSWVRX $vDi, InsertEltShift.Sub32Left2, (XSCVDPSPN $rA))>;
def : Pat<(v2f64 (insertelt v2f64:$vDi, f64:$A, i64:$rB)),
(VINSDRX $vDi, InsertEltShift.Left3, Bitcast.DblToLong)>;
def : Pat<(v2f64 (insertelt v2f64:$vDi, (f64 (load DSForm:$rA)), i64:$rB)),
(VINSDRX $vDi, InsertEltShift.Left3, (LD memrix:$rA))>;
def : Pat<(v2f64 (insertelt v2f64:$vDi, (f64 (load PDForm:$rA)), i64:$rB)),
(VINSDRX $vDi, InsertEltShift.Left3, (PLD memri34:$rA))>;
def : Pat<(v2f64 (insertelt v2f64:$vDi, (f64 (load XForm:$rA)), i64:$rB)),
(VINSDRX $vDi, InsertEltShift.Left3, (LDX memrr:$rA))>;
let AddedComplexity = 400 in {
// Immediate vector insert element
foreach Idx = [0, 1, 2, 3] in {
def : Pat<(v4i32 (insertelt v4i32:$vDi, i32:$rA, Idx)),
(VINSW $vDi, !mul(!sub(3, Idx), 4), $rA)>;
}
foreach i = [0, 1] in
def : Pat<(v2i64 (insertelt v2i64:$vDi, i64:$rA, (i64 i))),
(VINSD $vDi, !mul(!sub(1, i), 8), $rA)>;
}
}
let Predicates = [IsISA3_1, HasVSX, IsBigEndian, IsPPC32] in {
// Indexed vector insert element
def : Pat<(v16i8 (vector_insert v16i8:$vDi, i32:$rA, i32:$rB)),
(VINSBLX $vDi, $rB, $rA)>;
def : Pat<(v8i16 (vector_insert v8i16:$vDi, i32:$rA, i32:$rB)),
(VINSHLX $vDi, InsertEltShift.Left1, $rA)>;
def : Pat<(v4i32 (insertelt v4i32:$vDi, i32:$rA, i32:$rB)),
(VINSWLX $vDi, InsertEltShift.Left2, $rA)>;
def : Pat<(v4f32 (insertelt v4f32:$vDi, f32:$rA, i32:$rB)),
(VINSWVLX $vDi, InsertEltShift.Left2, (XSCVDPSPN $rA))>;
}
let Predicates = [IsISA3_1, HasVSX, IsBigEndian, IsPPC64] in {
// Indexed vector insert element
def : Pat<(v16i8 (vector_insert v16i8:$vDi, i32:$rA, i64:$rB)),
(VINSBLX $vDi, InsertEltShift.Sub32, $rA)>;
def : Pat<(v8i16 (vector_insert v8i16:$vDi, i32:$rA, i64:$rB)),
(VINSHLX $vDi, InsertEltShift.Sub32Left1, $rA)>;
def : Pat<(v4i32 (insertelt v4i32:$vDi, i32:$rA, i64:$rB)),
(VINSWLX $vDi, InsertEltShift.Sub32Left2, $rA)>;
def : Pat<(v2i64 (insertelt v2i64:$vDi, i64:$rA, i64:$rB)),
(VINSDLX $vDi, InsertEltShift.Left3, $rA)>;
def : Pat<(v4f32 (insertelt v4f32:$vDi, f32:$rA, i64:$rB)),
(VINSWVLX $vDi, InsertEltShift.Sub32Left2, (XSCVDPSPN $rA))>;
def : Pat<(v2f64 (insertelt v2f64:$vDi, f64:$A, i64:$rB)),
(VINSDLX $vDi, InsertEltShift.Left3, Bitcast.DblToLong)>;
def : Pat<(v2f64 (insertelt v2f64:$vDi, (f64 (load DSForm:$rA)), i64:$rB)),
(VINSDLX $vDi, InsertEltShift.Left3, (LD memrix:$rA))>;
def : Pat<(v2f64 (insertelt v2f64:$vDi, (f64 (load PDForm:$rA)), i64:$rB)),
(VINSDLX $vDi, InsertEltShift.Left3, (PLD memri34:$rA))>;
def : Pat<(v2f64 (insertelt v2f64:$vDi, (f64 (load XForm:$rA)), i64:$rB)),
(VINSDLX $vDi, InsertEltShift.Left3, (LDX memrr:$rA))>;
}
let AddedComplexity = 400, Predicates = [IsISA3_1, HasVSX, IsBigEndian] in {
// Immediate vector insert element
foreach Ty = [i32, i64] in {
foreach Idx = [0, 1, 2, 3] in {
def : Pat<(v4i32 (insertelt v4i32:$vDi, i32:$rA, (Ty Idx))),
(VINSW $vDi, !mul(Idx, 4), $rA)>;
}
}
foreach Idx = [0, 1] in
def : Pat<(v2i64 (insertelt v2i64:$vDi, i64:$rA, Idx)),
(VINSD $vDi, !mul(Idx, 8), $rA)>;
}
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