//===-- HexagonInstrInfo.cpp - Hexagon Instruction Information ------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file contains the Hexagon implementation of the TargetInstrInfo class. // //===----------------------------------------------------------------------===// #include "HexagonInstrInfo.h" #include "Hexagon.h" #include "HexagonRegisterInfo.h" #include "HexagonSubtarget.h" #include "llvm/ADT/STLExtras.h" #include "llvm/ADT/SmallVector.h" #include "llvm/CodeGen/DFAPacketizer.h" #include "llvm/CodeGen/MachineFrameInfo.h" #include "llvm/CodeGen/MachineInstrBuilder.h" #include "llvm/CodeGen/MachineMemOperand.h" #include "llvm/CodeGen/MachineRegisterInfo.h" #include "llvm/CodeGen/PseudoSourceValue.h" #include "llvm/Support/MathExtras.h" #define GET_INSTRINFO_CTOR #define GET_INSTRMAP_INFO #include "HexagonGenInstrInfo.inc" #include "HexagonGenDFAPacketizer.inc" using namespace llvm; /// /// Constants for Hexagon instructions. /// const int Hexagon_MEMW_OFFSET_MAX = 4095; const int Hexagon_MEMW_OFFSET_MIN = -4096; const int Hexagon_MEMD_OFFSET_MAX = 8191; const int Hexagon_MEMD_OFFSET_MIN = -8192; const int Hexagon_MEMH_OFFSET_MAX = 2047; const int Hexagon_MEMH_OFFSET_MIN = -2048; const int Hexagon_MEMB_OFFSET_MAX = 1023; const int Hexagon_MEMB_OFFSET_MIN = -1024; const int Hexagon_ADDI_OFFSET_MAX = 32767; const int Hexagon_ADDI_OFFSET_MIN = -32768; const int Hexagon_MEMD_AUTOINC_MAX = 56; const int Hexagon_MEMD_AUTOINC_MIN = -64; const int Hexagon_MEMW_AUTOINC_MAX = 28; const int Hexagon_MEMW_AUTOINC_MIN = -32; const int Hexagon_MEMH_AUTOINC_MAX = 14; const int Hexagon_MEMH_AUTOINC_MIN = -16; const int Hexagon_MEMB_AUTOINC_MAX = 7; const int Hexagon_MEMB_AUTOINC_MIN = -8; HexagonInstrInfo::HexagonInstrInfo(HexagonSubtarget &ST) : HexagonGenInstrInfo(Hexagon::ADJCALLSTACKDOWN, Hexagon::ADJCALLSTACKUP), RI(ST, *this), Subtarget(ST) { } /// isLoadFromStackSlot - If the specified machine instruction is a direct /// load from a stack slot, return the virtual or physical register number of /// the destination along with the FrameIndex of the loaded stack slot. If /// not, return 0. This predicate must return 0 if the instruction has /// any side effects other than loading from the stack slot. unsigned HexagonInstrInfo::isLoadFromStackSlot(const MachineInstr *MI, int &FrameIndex) const { switch (MI->getOpcode()) { default: break; case Hexagon::LDriw: case Hexagon::LDrid: case Hexagon::LDrih: case Hexagon::LDrib: case Hexagon::LDriub: if (MI->getOperand(2).isFI() && MI->getOperand(1).isImm() && (MI->getOperand(1).getImm() == 0)) { FrameIndex = MI->getOperand(2).getIndex(); return MI->getOperand(0).getReg(); } break; } return 0; } /// isStoreToStackSlot - If the specified machine instruction is a direct /// store to a stack slot, return the virtual or physical register number of /// the source reg along with the FrameIndex of the loaded stack slot. If /// not, return 0. This predicate must return 0 if the instruction has /// any side effects other than storing to the stack slot. unsigned HexagonInstrInfo::isStoreToStackSlot(const MachineInstr *MI, int &FrameIndex) const { switch (MI->getOpcode()) { default: break; case Hexagon::STriw: case Hexagon::STrid: case Hexagon::STrih: case Hexagon::STrib: if (MI->getOperand(2).isFI() && MI->getOperand(1).isImm() && (MI->getOperand(1).getImm() == 0)) { FrameIndex = MI->getOperand(0).getIndex(); return MI->getOperand(2).getReg(); } break; } return 0; } unsigned HexagonInstrInfo::InsertBranch(MachineBasicBlock &MBB,MachineBasicBlock *TBB, MachineBasicBlock *FBB, const SmallVectorImpl &Cond, DebugLoc DL) const{ int BOpc = Hexagon::JMP; int BccOpc = Hexagon::JMP_c; assert(TBB && "InsertBranch must not be told to insert a fallthrough"); int regPos = 0; // Check if ReverseBranchCondition has asked to reverse this branch // If we want to reverse the branch an odd number of times, we want // JMP_cNot. if (!Cond.empty() && Cond[0].isImm() && Cond[0].getImm() == 0) { BccOpc = Hexagon::JMP_cNot; regPos = 1; } if (FBB == 0) { if (Cond.empty()) { // Due to a bug in TailMerging/CFG Optimization, we need to add a // special case handling of a predicated jump followed by an // unconditional jump. If not, Tail Merging and CFG Optimization go // into an infinite loop. MachineBasicBlock *NewTBB, *NewFBB; SmallVector Cond; MachineInstr *Term = MBB.getFirstTerminator(); if (isPredicated(Term) && !AnalyzeBranch(MBB, NewTBB, NewFBB, Cond, false)) { MachineBasicBlock *NextBB = llvm::next(MachineFunction::iterator(&MBB)); if (NewTBB == NextBB) { ReverseBranchCondition(Cond); RemoveBranch(MBB); return InsertBranch(MBB, TBB, 0, Cond, DL); } } BuildMI(&MBB, DL, get(BOpc)).addMBB(TBB); } else { BuildMI(&MBB, DL, get(BccOpc)).addReg(Cond[regPos].getReg()).addMBB(TBB); } return 1; } BuildMI(&MBB, DL, get(BccOpc)).addReg(Cond[regPos].getReg()).addMBB(TBB); BuildMI(&MBB, DL, get(BOpc)).addMBB(FBB); return 2; } bool HexagonInstrInfo::AnalyzeBranch(MachineBasicBlock &MBB, MachineBasicBlock *&TBB, MachineBasicBlock *&FBB, SmallVectorImpl &Cond, bool AllowModify) const { TBB = NULL; FBB = NULL; // If the block has no terminators, it just falls into the block after it. MachineBasicBlock::iterator I = MBB.end(); if (I == MBB.begin()) return false; // A basic block may looks like this: // // [ insn // EH_LABEL // insn // insn // insn // EH_LABEL // insn ] // // It has two succs but does not have a terminator // Don't know how to handle it. do { --I; if (I->isEHLabel()) return true; } while (I != MBB.begin()); I = MBB.end(); --I; while (I->isDebugValue()) { if (I == MBB.begin()) return false; --I; } if (!isUnpredicatedTerminator(I)) return false; // Get the last instruction in the block. MachineInstr *LastInst = I; // If there is only one terminator instruction, process it. if (I == MBB.begin() || !isUnpredicatedTerminator(--I)) { if (LastInst->getOpcode() == Hexagon::JMP) { TBB = LastInst->getOperand(0).getMBB(); return false; } if (LastInst->getOpcode() == Hexagon::JMP_c) { // Block ends with fall-through true condbranch. TBB = LastInst->getOperand(1).getMBB(); Cond.push_back(LastInst->getOperand(0)); return false; } if (LastInst->getOpcode() == Hexagon::JMP_cNot) { // Block ends with fall-through false condbranch. TBB = LastInst->getOperand(1).getMBB(); Cond.push_back(MachineOperand::CreateImm(0)); Cond.push_back(LastInst->getOperand(0)); return false; } // Otherwise, don't know what this is. return true; } // Get the instruction before it if it's a terminator. MachineInstr *SecondLastInst = I; // If there are three terminators, we don't know what sort of block this is. if (SecondLastInst && I != MBB.begin() && isUnpredicatedTerminator(--I)) return true; // If the block ends with Hexagon::BRCOND and Hexagon:JMP, handle it. if (((SecondLastInst->getOpcode() == Hexagon::BRCOND) || (SecondLastInst->getOpcode() == Hexagon::JMP_c)) && LastInst->getOpcode() == Hexagon::JMP) { TBB = SecondLastInst->getOperand(1).getMBB(); Cond.push_back(SecondLastInst->getOperand(0)); FBB = LastInst->getOperand(0).getMBB(); return false; } // If the block ends with Hexagon::JMP_cNot and Hexagon:JMP, handle it. if ((SecondLastInst->getOpcode() == Hexagon::JMP_cNot) && LastInst->getOpcode() == Hexagon::JMP) { TBB = SecondLastInst->getOperand(1).getMBB(); Cond.push_back(MachineOperand::CreateImm(0)); Cond.push_back(SecondLastInst->getOperand(0)); FBB = LastInst->getOperand(0).getMBB(); return false; } // If the block ends with two Hexagon:JMPs, handle it. The second one is not // executed, so remove it. if (SecondLastInst->getOpcode() == Hexagon::JMP && LastInst->getOpcode() == Hexagon::JMP) { TBB = SecondLastInst->getOperand(0).getMBB(); I = LastInst; if (AllowModify) I->eraseFromParent(); return false; } // Otherwise, can't handle this. return true; } unsigned HexagonInstrInfo::RemoveBranch(MachineBasicBlock &MBB) const { int BOpc = Hexagon::JMP; int BccOpc = Hexagon::JMP_c; int BccOpcNot = Hexagon::JMP_cNot; MachineBasicBlock::iterator I = MBB.end(); if (I == MBB.begin()) return 0; --I; if (I->getOpcode() != BOpc && I->getOpcode() != BccOpc && I->getOpcode() != BccOpcNot) return 0; // Remove the branch. I->eraseFromParent(); I = MBB.end(); if (I == MBB.begin()) return 1; --I; if (I->getOpcode() != BccOpc && I->getOpcode() != BccOpcNot) return 1; // Remove the branch. I->eraseFromParent(); return 2; } void HexagonInstrInfo::copyPhysReg(MachineBasicBlock &MBB, MachineBasicBlock::iterator I, DebugLoc DL, unsigned DestReg, unsigned SrcReg, bool KillSrc) const { if (Hexagon::IntRegsRegClass.contains(SrcReg, DestReg)) { BuildMI(MBB, I, DL, get(Hexagon::TFR), DestReg).addReg(SrcReg); return; } if (Hexagon::DoubleRegsRegClass.contains(SrcReg, DestReg)) { BuildMI(MBB, I, DL, get(Hexagon::TFR64), DestReg).addReg(SrcReg); return; } if (Hexagon::PredRegsRegClass.contains(SrcReg, DestReg)) { // Map Pd = Ps to Pd = or(Ps, Ps). BuildMI(MBB, I, DL, get(Hexagon::OR_pp), DestReg).addReg(SrcReg).addReg(SrcReg); return; } if (Hexagon::DoubleRegsRegClass.contains(DestReg) && Hexagon::IntRegsRegClass.contains(SrcReg)) { // We can have an overlap between single and double reg: r1:0 = r0. if(SrcReg == RI.getSubReg(DestReg, Hexagon::subreg_loreg)) { // r1:0 = r0 BuildMI(MBB, I, DL, get(Hexagon::TFRI), (RI.getSubReg(DestReg, Hexagon::subreg_hireg))).addImm(0); } else { // r1:0 = r1 or no overlap. BuildMI(MBB, I, DL, get(Hexagon::TFR), (RI.getSubReg(DestReg, Hexagon::subreg_loreg))).addReg(SrcReg); BuildMI(MBB, I, DL, get(Hexagon::TFRI), (RI.getSubReg(DestReg, Hexagon::subreg_hireg))).addImm(0); } return; } if (Hexagon::CRRegsRegClass.contains(DestReg) && Hexagon::IntRegsRegClass.contains(SrcReg)) { BuildMI(MBB, I, DL, get(Hexagon::TFCR), DestReg).addReg(SrcReg); return; } llvm_unreachable("Unimplemented"); } void HexagonInstrInfo:: storeRegToStackSlot(MachineBasicBlock &MBB, MachineBasicBlock::iterator I, unsigned SrcReg, bool isKill, int FI, const TargetRegisterClass *RC, const TargetRegisterInfo *TRI) const { DebugLoc DL = MBB.findDebugLoc(I); MachineFunction &MF = *MBB.getParent(); MachineFrameInfo &MFI = *MF.getFrameInfo(); unsigned Align = MFI.getObjectAlignment(FI); MachineMemOperand *MMO = MF.getMachineMemOperand( MachinePointerInfo(PseudoSourceValue::getFixedStack(FI)), MachineMemOperand::MOStore, MFI.getObjectSize(FI), Align); if (Hexagon::IntRegsRegClass.hasSubClassEq(RC)) { BuildMI(MBB, I, DL, get(Hexagon::STriw)) .addFrameIndex(FI).addImm(0) .addReg(SrcReg, getKillRegState(isKill)).addMemOperand(MMO); } else if (Hexagon::DoubleRegsRegClass.hasSubClassEq(RC)) { BuildMI(MBB, I, DL, get(Hexagon::STrid)) .addFrameIndex(FI).addImm(0) .addReg(SrcReg, getKillRegState(isKill)).addMemOperand(MMO); } else if (Hexagon::PredRegsRegClass.hasSubClassEq(RC)) { BuildMI(MBB, I, DL, get(Hexagon::STriw_pred)) .addFrameIndex(FI).addImm(0) .addReg(SrcReg, getKillRegState(isKill)).addMemOperand(MMO); } else { llvm_unreachable("Unimplemented"); } } void HexagonInstrInfo::storeRegToAddr( MachineFunction &MF, unsigned SrcReg, bool isKill, SmallVectorImpl &Addr, const TargetRegisterClass *RC, SmallVectorImpl &NewMIs) const { llvm_unreachable("Unimplemented"); } void HexagonInstrInfo:: loadRegFromStackSlot(MachineBasicBlock &MBB, MachineBasicBlock::iterator I, unsigned DestReg, int FI, const TargetRegisterClass *RC, const TargetRegisterInfo *TRI) const { DebugLoc DL = MBB.findDebugLoc(I); MachineFunction &MF = *MBB.getParent(); MachineFrameInfo &MFI = *MF.getFrameInfo(); unsigned Align = MFI.getObjectAlignment(FI); MachineMemOperand *MMO = MF.getMachineMemOperand( MachinePointerInfo(PseudoSourceValue::getFixedStack(FI)), MachineMemOperand::MOLoad, MFI.getObjectSize(FI), Align); if (RC == &Hexagon::IntRegsRegClass) { BuildMI(MBB, I, DL, get(Hexagon::LDriw), DestReg) .addFrameIndex(FI).addImm(0).addMemOperand(MMO); } else if (RC == &Hexagon::DoubleRegsRegClass) { BuildMI(MBB, I, DL, get(Hexagon::LDrid), DestReg) .addFrameIndex(FI).addImm(0).addMemOperand(MMO); } else if (RC == &Hexagon::PredRegsRegClass) { BuildMI(MBB, I, DL, get(Hexagon::LDriw_pred), DestReg) .addFrameIndex(FI).addImm(0).addMemOperand(MMO); } else { llvm_unreachable("Can't store this register to stack slot"); } } void HexagonInstrInfo::loadRegFromAddr(MachineFunction &MF, unsigned DestReg, SmallVectorImpl &Addr, const TargetRegisterClass *RC, SmallVectorImpl &NewMIs) const { llvm_unreachable("Unimplemented"); } MachineInstr *HexagonInstrInfo::foldMemoryOperandImpl(MachineFunction &MF, MachineInstr* MI, const SmallVectorImpl &Ops, int FI) const { // Hexagon_TODO: Implement. return(0); } unsigned HexagonInstrInfo::createVR(MachineFunction* MF, MVT VT) const { MachineRegisterInfo &RegInfo = MF->getRegInfo(); const TargetRegisterClass *TRC; if (VT == MVT::i1) { TRC = &Hexagon::PredRegsRegClass; } else if (VT == MVT::i32 || VT == MVT::f32) { TRC = &Hexagon::IntRegsRegClass; } else if (VT == MVT::i64 || VT == MVT::f64) { TRC = &Hexagon::DoubleRegsRegClass; } else { llvm_unreachable("Cannot handle this register class"); } unsigned NewReg = RegInfo.createVirtualRegister(TRC); return NewReg; } bool HexagonInstrInfo::isExtendable(const MachineInstr *MI) const { switch(MI->getOpcode()) { default: return false; // JMP_EQri case Hexagon::JMP_EQriPt_nv_V4: case Hexagon::JMP_EQriPnt_nv_V4: case Hexagon::JMP_EQriNotPt_nv_V4: case Hexagon::JMP_EQriNotPnt_nv_V4: // JMP_EQri - with -1 case Hexagon::JMP_EQriPtneg_nv_V4: case Hexagon::JMP_EQriPntneg_nv_V4: case Hexagon::JMP_EQriNotPtneg_nv_V4: case Hexagon::JMP_EQriNotPntneg_nv_V4: // JMP_EQrr case Hexagon::JMP_EQrrPt_nv_V4: case Hexagon::JMP_EQrrPnt_nv_V4: case Hexagon::JMP_EQrrNotPt_nv_V4: case Hexagon::JMP_EQrrNotPnt_nv_V4: // JMP_GTri case Hexagon::JMP_GTriPt_nv_V4: case Hexagon::JMP_GTriPnt_nv_V4: case Hexagon::JMP_GTriNotPt_nv_V4: case Hexagon::JMP_GTriNotPnt_nv_V4: // JMP_GTri - with -1 case Hexagon::JMP_GTriPtneg_nv_V4: case Hexagon::JMP_GTriPntneg_nv_V4: case Hexagon::JMP_GTriNotPtneg_nv_V4: case Hexagon::JMP_GTriNotPntneg_nv_V4: // JMP_GTrr case Hexagon::JMP_GTrrPt_nv_V4: case Hexagon::JMP_GTrrPnt_nv_V4: case Hexagon::JMP_GTrrNotPt_nv_V4: case Hexagon::JMP_GTrrNotPnt_nv_V4: // JMP_GTrrdn case Hexagon::JMP_GTrrdnPt_nv_V4: case Hexagon::JMP_GTrrdnPnt_nv_V4: case Hexagon::JMP_GTrrdnNotPt_nv_V4: case Hexagon::JMP_GTrrdnNotPnt_nv_V4: // JMP_GTUri case Hexagon::JMP_GTUriPt_nv_V4: case Hexagon::JMP_GTUriPnt_nv_V4: case Hexagon::JMP_GTUriNotPt_nv_V4: case Hexagon::JMP_GTUriNotPnt_nv_V4: // JMP_GTUrr case Hexagon::JMP_GTUrrPt_nv_V4: case Hexagon::JMP_GTUrrPnt_nv_V4: case Hexagon::JMP_GTUrrNotPt_nv_V4: case Hexagon::JMP_GTUrrNotPnt_nv_V4: // JMP_GTUrrdn case Hexagon::JMP_GTUrrdnPt_nv_V4: case Hexagon::JMP_GTUrrdnPnt_nv_V4: case Hexagon::JMP_GTUrrdnNotPt_nv_V4: case Hexagon::JMP_GTUrrdnNotPnt_nv_V4: // TFR_FI case Hexagon::TFR_FI: return true; } } bool HexagonInstrInfo::isExtended(const MachineInstr *MI) const { switch(MI->getOpcode()) { default: return false; // JMP_EQri case Hexagon::JMP_EQriPt_ie_nv_V4: case Hexagon::JMP_EQriPnt_ie_nv_V4: case Hexagon::JMP_EQriNotPt_ie_nv_V4: case Hexagon::JMP_EQriNotPnt_ie_nv_V4: // JMP_EQri - with -1 case Hexagon::JMP_EQriPtneg_ie_nv_V4: case Hexagon::JMP_EQriPntneg_ie_nv_V4: case Hexagon::JMP_EQriNotPtneg_ie_nv_V4: case Hexagon::JMP_EQriNotPntneg_ie_nv_V4: // JMP_EQrr case Hexagon::JMP_EQrrPt_ie_nv_V4: case Hexagon::JMP_EQrrPnt_ie_nv_V4: case Hexagon::JMP_EQrrNotPt_ie_nv_V4: case Hexagon::JMP_EQrrNotPnt_ie_nv_V4: // JMP_GTri case Hexagon::JMP_GTriPt_ie_nv_V4: case Hexagon::JMP_GTriPnt_ie_nv_V4: case Hexagon::JMP_GTriNotPt_ie_nv_V4: case Hexagon::JMP_GTriNotPnt_ie_nv_V4: // JMP_GTri - with -1 case Hexagon::JMP_GTriPtneg_ie_nv_V4: case Hexagon::JMP_GTriPntneg_ie_nv_V4: case Hexagon::JMP_GTriNotPtneg_ie_nv_V4: case Hexagon::JMP_GTriNotPntneg_ie_nv_V4: // JMP_GTrr case Hexagon::JMP_GTrrPt_ie_nv_V4: case Hexagon::JMP_GTrrPnt_ie_nv_V4: case Hexagon::JMP_GTrrNotPt_ie_nv_V4: case Hexagon::JMP_GTrrNotPnt_ie_nv_V4: // JMP_GTrrdn case Hexagon::JMP_GTrrdnPt_ie_nv_V4: case Hexagon::JMP_GTrrdnPnt_ie_nv_V4: case Hexagon::JMP_GTrrdnNotPt_ie_nv_V4: case Hexagon::JMP_GTrrdnNotPnt_ie_nv_V4: // JMP_GTUri case Hexagon::JMP_GTUriPt_ie_nv_V4: case Hexagon::JMP_GTUriPnt_ie_nv_V4: case Hexagon::JMP_GTUriNotPt_ie_nv_V4: case Hexagon::JMP_GTUriNotPnt_ie_nv_V4: // JMP_GTUrr case Hexagon::JMP_GTUrrPt_ie_nv_V4: case Hexagon::JMP_GTUrrPnt_ie_nv_V4: case Hexagon::JMP_GTUrrNotPt_ie_nv_V4: case Hexagon::JMP_GTUrrNotPnt_ie_nv_V4: // JMP_GTUrrdn case Hexagon::JMP_GTUrrdnPt_ie_nv_V4: case Hexagon::JMP_GTUrrdnPnt_ie_nv_V4: case Hexagon::JMP_GTUrrdnNotPt_ie_nv_V4: case Hexagon::JMP_GTUrrdnNotPnt_ie_nv_V4: // V4 absolute set addressing. case Hexagon::LDrid_abs_setimm_V4: case Hexagon::LDriw_abs_setimm_V4: case Hexagon::LDrih_abs_setimm_V4: case Hexagon::LDrib_abs_setimm_V4: case Hexagon::LDriuh_abs_setimm_V4: case Hexagon::LDriub_abs_setimm_V4: case Hexagon::STrid_abs_setimm_V4: case Hexagon::STrib_abs_setimm_V4: case Hexagon::STrih_abs_setimm_V4: case Hexagon::STriw_abs_setimm_V4: // V4 global address load. case Hexagon::LDrid_GP_cPt_V4 : case Hexagon::LDrid_GP_cNotPt_V4 : case Hexagon::LDrid_GP_cdnPt_V4 : case Hexagon::LDrid_GP_cdnNotPt_V4 : case Hexagon::LDrib_GP_cPt_V4 : case Hexagon::LDrib_GP_cNotPt_V4 : case Hexagon::LDrib_GP_cdnPt_V4 : case Hexagon::LDrib_GP_cdnNotPt_V4 : case Hexagon::LDriub_GP_cPt_V4 : case Hexagon::LDriub_GP_cNotPt_V4 : case Hexagon::LDriub_GP_cdnPt_V4 : case Hexagon::LDriub_GP_cdnNotPt_V4 : case Hexagon::LDrih_GP_cPt_V4 : case Hexagon::LDrih_GP_cNotPt_V4 : case Hexagon::LDrih_GP_cdnPt_V4 : case Hexagon::LDrih_GP_cdnNotPt_V4 : case Hexagon::LDriuh_GP_cPt_V4 : case Hexagon::LDriuh_GP_cNotPt_V4 : case Hexagon::LDriuh_GP_cdnPt_V4 : case Hexagon::LDriuh_GP_cdnNotPt_V4 : case Hexagon::LDriw_GP_cPt_V4 : case Hexagon::LDriw_GP_cNotPt_V4 : case Hexagon::LDriw_GP_cdnPt_V4 : case Hexagon::LDriw_GP_cdnNotPt_V4 : case Hexagon::LDd_GP_cPt_V4 : case Hexagon::LDd_GP_cNotPt_V4 : case Hexagon::LDd_GP_cdnPt_V4 : case Hexagon::LDd_GP_cdnNotPt_V4 : case Hexagon::LDb_GP_cPt_V4 : case Hexagon::LDb_GP_cNotPt_V4 : case Hexagon::LDb_GP_cdnPt_V4 : case Hexagon::LDb_GP_cdnNotPt_V4 : case Hexagon::LDub_GP_cPt_V4 : case Hexagon::LDub_GP_cNotPt_V4 : case Hexagon::LDub_GP_cdnPt_V4 : case Hexagon::LDub_GP_cdnNotPt_V4 : case Hexagon::LDh_GP_cPt_V4 : case Hexagon::LDh_GP_cNotPt_V4 : case Hexagon::LDh_GP_cdnPt_V4 : case Hexagon::LDh_GP_cdnNotPt_V4 : case Hexagon::LDuh_GP_cPt_V4 : case Hexagon::LDuh_GP_cNotPt_V4 : case Hexagon::LDuh_GP_cdnPt_V4 : case Hexagon::LDuh_GP_cdnNotPt_V4 : case Hexagon::LDw_GP_cPt_V4 : case Hexagon::LDw_GP_cNotPt_V4 : case Hexagon::LDw_GP_cdnPt_V4 : case Hexagon::LDw_GP_cdnNotPt_V4 : // V4 global address store. case Hexagon::STrid_GP_cPt_V4 : case Hexagon::STrid_GP_cNotPt_V4 : case Hexagon::STrid_GP_cdnPt_V4 : case Hexagon::STrid_GP_cdnNotPt_V4 : case Hexagon::STrib_GP_cPt_V4 : case Hexagon::STrib_GP_cNotPt_V4 : case Hexagon::STrib_GP_cdnPt_V4 : case Hexagon::STrib_GP_cdnNotPt_V4 : case Hexagon::STrih_GP_cPt_V4 : case Hexagon::STrih_GP_cNotPt_V4 : case Hexagon::STrih_GP_cdnPt_V4 : case Hexagon::STrih_GP_cdnNotPt_V4 : case Hexagon::STriw_GP_cPt_V4 : case Hexagon::STriw_GP_cNotPt_V4 : case Hexagon::STriw_GP_cdnPt_V4 : case Hexagon::STriw_GP_cdnNotPt_V4 : case Hexagon::STd_GP_cPt_V4 : case Hexagon::STd_GP_cNotPt_V4 : case Hexagon::STd_GP_cdnPt_V4 : case Hexagon::STd_GP_cdnNotPt_V4 : case Hexagon::STb_GP_cPt_V4 : case Hexagon::STb_GP_cNotPt_V4 : case Hexagon::STb_GP_cdnPt_V4 : case Hexagon::STb_GP_cdnNotPt_V4 : case Hexagon::STh_GP_cPt_V4 : case Hexagon::STh_GP_cNotPt_V4 : case Hexagon::STh_GP_cdnPt_V4 : case Hexagon::STh_GP_cdnNotPt_V4 : case Hexagon::STw_GP_cPt_V4 : case Hexagon::STw_GP_cNotPt_V4 : case Hexagon::STw_GP_cdnPt_V4 : case Hexagon::STw_GP_cdnNotPt_V4 : // V4 predicated global address new value store. case Hexagon::STrib_GP_cPt_nv_V4 : case Hexagon::STrib_GP_cNotPt_nv_V4 : case Hexagon::STrib_GP_cdnPt_nv_V4 : case Hexagon::STrib_GP_cdnNotPt_nv_V4 : case Hexagon::STrih_GP_cPt_nv_V4 : case Hexagon::STrih_GP_cNotPt_nv_V4 : case Hexagon::STrih_GP_cdnPt_nv_V4 : case Hexagon::STrih_GP_cdnNotPt_nv_V4 : case Hexagon::STriw_GP_cPt_nv_V4 : case Hexagon::STriw_GP_cNotPt_nv_V4 : case Hexagon::STriw_GP_cdnPt_nv_V4 : case Hexagon::STriw_GP_cdnNotPt_nv_V4 : case Hexagon::STb_GP_cPt_nv_V4 : case Hexagon::STb_GP_cNotPt_nv_V4 : case Hexagon::STb_GP_cdnPt_nv_V4 : case Hexagon::STb_GP_cdnNotPt_nv_V4 : case Hexagon::STh_GP_cPt_nv_V4 : case Hexagon::STh_GP_cNotPt_nv_V4 : case Hexagon::STh_GP_cdnPt_nv_V4 : case Hexagon::STh_GP_cdnNotPt_nv_V4 : case Hexagon::STw_GP_cPt_nv_V4 : case Hexagon::STw_GP_cNotPt_nv_V4 : case Hexagon::STw_GP_cdnPt_nv_V4 : case Hexagon::STw_GP_cdnNotPt_nv_V4 : // TFR_FI case Hexagon::TFR_FI_immext_V4: // TFRI_F case Hexagon::TFRI_f: case Hexagon::TFRI_cPt_f: case Hexagon::TFRI_cNotPt_f: case Hexagon::CONST64_Float_Real: return true; } } bool HexagonInstrInfo::isNewValueJump(const MachineInstr *MI) const { switch (MI->getOpcode()) { default: return false; // JMP_EQri case Hexagon::JMP_EQriPt_nv_V4: case Hexagon::JMP_EQriPnt_nv_V4: case Hexagon::JMP_EQriNotPt_nv_V4: case Hexagon::JMP_EQriNotPnt_nv_V4: case Hexagon::JMP_EQriPt_ie_nv_V4: case Hexagon::JMP_EQriPnt_ie_nv_V4: case Hexagon::JMP_EQriNotPt_ie_nv_V4: case Hexagon::JMP_EQriNotPnt_ie_nv_V4: // JMP_EQri - with -1 case Hexagon::JMP_EQriPtneg_nv_V4: case Hexagon::JMP_EQriPntneg_nv_V4: case Hexagon::JMP_EQriNotPtneg_nv_V4: case Hexagon::JMP_EQriNotPntneg_nv_V4: case Hexagon::JMP_EQriPtneg_ie_nv_V4: case Hexagon::JMP_EQriPntneg_ie_nv_V4: case Hexagon::JMP_EQriNotPtneg_ie_nv_V4: case Hexagon::JMP_EQriNotPntneg_ie_nv_V4: // JMP_EQrr case Hexagon::JMP_EQrrPt_nv_V4: case Hexagon::JMP_EQrrPnt_nv_V4: case Hexagon::JMP_EQrrNotPt_nv_V4: case Hexagon::JMP_EQrrNotPnt_nv_V4: case Hexagon::JMP_EQrrPt_ie_nv_V4: case Hexagon::JMP_EQrrPnt_ie_nv_V4: case Hexagon::JMP_EQrrNotPt_ie_nv_V4: case Hexagon::JMP_EQrrNotPnt_ie_nv_V4: // JMP_GTri case Hexagon::JMP_GTriPt_nv_V4: case Hexagon::JMP_GTriPnt_nv_V4: case Hexagon::JMP_GTriNotPt_nv_V4: case Hexagon::JMP_GTriNotPnt_nv_V4: case Hexagon::JMP_GTriPt_ie_nv_V4: case Hexagon::JMP_GTriPnt_ie_nv_V4: case Hexagon::JMP_GTriNotPt_ie_nv_V4: case Hexagon::JMP_GTriNotPnt_ie_nv_V4: // JMP_GTri - with -1 case Hexagon::JMP_GTriPtneg_nv_V4: case Hexagon::JMP_GTriPntneg_nv_V4: case Hexagon::JMP_GTriNotPtneg_nv_V4: case Hexagon::JMP_GTriNotPntneg_nv_V4: case Hexagon::JMP_GTriPtneg_ie_nv_V4: case Hexagon::JMP_GTriPntneg_ie_nv_V4: case Hexagon::JMP_GTriNotPtneg_ie_nv_V4: case Hexagon::JMP_GTriNotPntneg_ie_nv_V4: // JMP_GTrr case Hexagon::JMP_GTrrPt_nv_V4: case Hexagon::JMP_GTrrPnt_nv_V4: case Hexagon::JMP_GTrrNotPt_nv_V4: case Hexagon::JMP_GTrrNotPnt_nv_V4: case Hexagon::JMP_GTrrPt_ie_nv_V4: case Hexagon::JMP_GTrrPnt_ie_nv_V4: case Hexagon::JMP_GTrrNotPt_ie_nv_V4: case Hexagon::JMP_GTrrNotPnt_ie_nv_V4: // JMP_GTrrdn case Hexagon::JMP_GTrrdnPt_nv_V4: case Hexagon::JMP_GTrrdnPnt_nv_V4: case Hexagon::JMP_GTrrdnNotPt_nv_V4: case Hexagon::JMP_GTrrdnNotPnt_nv_V4: case Hexagon::JMP_GTrrdnPt_ie_nv_V4: case Hexagon::JMP_GTrrdnPnt_ie_nv_V4: case Hexagon::JMP_GTrrdnNotPt_ie_nv_V4: case Hexagon::JMP_GTrrdnNotPnt_ie_nv_V4: // JMP_GTUri case Hexagon::JMP_GTUriPt_nv_V4: case Hexagon::JMP_GTUriPnt_nv_V4: case Hexagon::JMP_GTUriNotPt_nv_V4: case Hexagon::JMP_GTUriNotPnt_nv_V4: case Hexagon::JMP_GTUriPt_ie_nv_V4: case Hexagon::JMP_GTUriPnt_ie_nv_V4: case Hexagon::JMP_GTUriNotPt_ie_nv_V4: case Hexagon::JMP_GTUriNotPnt_ie_nv_V4: // JMP_GTUrr case Hexagon::JMP_GTUrrPt_nv_V4: case Hexagon::JMP_GTUrrPnt_nv_V4: case Hexagon::JMP_GTUrrNotPt_nv_V4: case Hexagon::JMP_GTUrrNotPnt_nv_V4: case Hexagon::JMP_GTUrrPt_ie_nv_V4: case Hexagon::JMP_GTUrrPnt_ie_nv_V4: case Hexagon::JMP_GTUrrNotPt_ie_nv_V4: case Hexagon::JMP_GTUrrNotPnt_ie_nv_V4: // JMP_GTUrrdn case Hexagon::JMP_GTUrrdnPt_nv_V4: case Hexagon::JMP_GTUrrdnPnt_nv_V4: case Hexagon::JMP_GTUrrdnNotPt_nv_V4: case Hexagon::JMP_GTUrrdnNotPnt_nv_V4: case Hexagon::JMP_GTUrrdnPt_ie_nv_V4: case Hexagon::JMP_GTUrrdnPnt_ie_nv_V4: case Hexagon::JMP_GTUrrdnNotPt_ie_nv_V4: case Hexagon::JMP_GTUrrdnNotPnt_ie_nv_V4: return true; } } unsigned HexagonInstrInfo::getImmExtForm(const MachineInstr* MI) const { switch(MI->getOpcode()) { default: llvm_unreachable("Unknown type of instruction."); // JMP_EQri case Hexagon::JMP_EQriPt_nv_V4: return Hexagon::JMP_EQriPt_ie_nv_V4; case Hexagon::JMP_EQriNotPt_nv_V4: return Hexagon::JMP_EQriNotPt_ie_nv_V4; case Hexagon::JMP_EQriPnt_nv_V4: return Hexagon::JMP_EQriPnt_ie_nv_V4; case Hexagon::JMP_EQriNotPnt_nv_V4: return Hexagon::JMP_EQriNotPnt_ie_nv_V4; // JMP_EQri -- with -1 case Hexagon::JMP_EQriPtneg_nv_V4: return Hexagon::JMP_EQriPtneg_ie_nv_V4; case Hexagon::JMP_EQriNotPtneg_nv_V4: return Hexagon::JMP_EQriNotPtneg_ie_nv_V4; case Hexagon::JMP_EQriPntneg_nv_V4: return Hexagon::JMP_EQriPntneg_ie_nv_V4; case Hexagon::JMP_EQriNotPntneg_nv_V4: return Hexagon::JMP_EQriNotPntneg_ie_nv_V4; // JMP_EQrr case Hexagon::JMP_EQrrPt_nv_V4: return Hexagon::JMP_EQrrPt_ie_nv_V4; case Hexagon::JMP_EQrrNotPt_nv_V4: return Hexagon::JMP_EQrrNotPt_ie_nv_V4; case Hexagon::JMP_EQrrPnt_nv_V4: return Hexagon::JMP_EQrrPnt_ie_nv_V4; case Hexagon::JMP_EQrrNotPnt_nv_V4: return Hexagon::JMP_EQrrNotPnt_ie_nv_V4; // JMP_GTri case Hexagon::JMP_GTriPt_nv_V4: return Hexagon::JMP_GTriPt_ie_nv_V4; case Hexagon::JMP_GTriNotPt_nv_V4: return Hexagon::JMP_GTriNotPt_ie_nv_V4; case Hexagon::JMP_GTriPnt_nv_V4: return Hexagon::JMP_GTriPnt_ie_nv_V4; case Hexagon::JMP_GTriNotPnt_nv_V4: return Hexagon::JMP_GTriNotPnt_ie_nv_V4; // JMP_GTri -- with -1 case Hexagon::JMP_GTriPtneg_nv_V4: return Hexagon::JMP_GTriPtneg_ie_nv_V4; case Hexagon::JMP_GTriNotPtneg_nv_V4: return Hexagon::JMP_GTriNotPtneg_ie_nv_V4; case Hexagon::JMP_GTriPntneg_nv_V4: return Hexagon::JMP_GTriPntneg_ie_nv_V4; case Hexagon::JMP_GTriNotPntneg_nv_V4: return Hexagon::JMP_GTriNotPntneg_ie_nv_V4; // JMP_GTrr case Hexagon::JMP_GTrrPt_nv_V4: return Hexagon::JMP_GTrrPt_ie_nv_V4; case Hexagon::JMP_GTrrNotPt_nv_V4: return Hexagon::JMP_GTrrNotPt_ie_nv_V4; case Hexagon::JMP_GTrrPnt_nv_V4: return Hexagon::JMP_GTrrPnt_ie_nv_V4; case Hexagon::JMP_GTrrNotPnt_nv_V4: return Hexagon::JMP_GTrrNotPnt_ie_nv_V4; // JMP_GTrrdn case Hexagon::JMP_GTrrdnPt_nv_V4: return Hexagon::JMP_GTrrdnPt_ie_nv_V4; case Hexagon::JMP_GTrrdnNotPt_nv_V4: return Hexagon::JMP_GTrrdnNotPt_ie_nv_V4; case Hexagon::JMP_GTrrdnPnt_nv_V4: return Hexagon::JMP_GTrrdnPnt_ie_nv_V4; case Hexagon::JMP_GTrrdnNotPnt_nv_V4: return Hexagon::JMP_GTrrdnNotPnt_ie_nv_V4; // JMP_GTUri case Hexagon::JMP_GTUriPt_nv_V4: return Hexagon::JMP_GTUriPt_ie_nv_V4; case Hexagon::JMP_GTUriNotPt_nv_V4: return Hexagon::JMP_GTUriNotPt_ie_nv_V4; case Hexagon::JMP_GTUriPnt_nv_V4: return Hexagon::JMP_GTUriPnt_ie_nv_V4; case Hexagon::JMP_GTUriNotPnt_nv_V4: return Hexagon::JMP_GTUriNotPnt_ie_nv_V4; // JMP_GTUrr case Hexagon::JMP_GTUrrPt_nv_V4: return Hexagon::JMP_GTUrrPt_ie_nv_V4; case Hexagon::JMP_GTUrrNotPt_nv_V4: return Hexagon::JMP_GTUrrNotPt_ie_nv_V4; case Hexagon::JMP_GTUrrPnt_nv_V4: return Hexagon::JMP_GTUrrPnt_ie_nv_V4; case Hexagon::JMP_GTUrrNotPnt_nv_V4: return Hexagon::JMP_GTUrrNotPnt_ie_nv_V4; // JMP_GTUrrdn case Hexagon::JMP_GTUrrdnPt_nv_V4: return Hexagon::JMP_GTUrrdnPt_ie_nv_V4; case Hexagon::JMP_GTUrrdnNotPt_nv_V4: return Hexagon::JMP_GTUrrdnNotPt_ie_nv_V4; case Hexagon::JMP_GTUrrdnPnt_nv_V4: return Hexagon::JMP_GTUrrdnPnt_ie_nv_V4; case Hexagon::JMP_GTUrrdnNotPnt_nv_V4: return Hexagon::JMP_GTUrrdnNotPnt_ie_nv_V4; case Hexagon::TFR_FI: return Hexagon::TFR_FI_immext_V4; case Hexagon::MEMw_ADDi_indexed_MEM_V4 : case Hexagon::MEMw_SUBi_indexed_MEM_V4 : case Hexagon::MEMw_ADDr_indexed_MEM_V4 : case Hexagon::MEMw_SUBr_indexed_MEM_V4 : case Hexagon::MEMw_ANDr_indexed_MEM_V4 : case Hexagon::MEMw_ORr_indexed_MEM_V4 : case Hexagon::MEMw_ADDi_MEM_V4 : case Hexagon::MEMw_SUBi_MEM_V4 : case Hexagon::MEMw_ADDr_MEM_V4 : case Hexagon::MEMw_SUBr_MEM_V4 : case Hexagon::MEMw_ANDr_MEM_V4 : case Hexagon::MEMw_ORr_MEM_V4 : case Hexagon::MEMh_ADDi_indexed_MEM_V4 : case Hexagon::MEMh_SUBi_indexed_MEM_V4 : case Hexagon::MEMh_ADDr_indexed_MEM_V4 : case Hexagon::MEMh_SUBr_indexed_MEM_V4 : case Hexagon::MEMh_ANDr_indexed_MEM_V4 : case Hexagon::MEMh_ORr_indexed_MEM_V4 : case Hexagon::MEMh_ADDi_MEM_V4 : case Hexagon::MEMh_SUBi_MEM_V4 : case Hexagon::MEMh_ADDr_MEM_V4 : case Hexagon::MEMh_SUBr_MEM_V4 : case Hexagon::MEMh_ANDr_MEM_V4 : case Hexagon::MEMh_ORr_MEM_V4 : case Hexagon::MEMb_ADDi_indexed_MEM_V4 : case Hexagon::MEMb_SUBi_indexed_MEM_V4 : case Hexagon::MEMb_ADDr_indexed_MEM_V4 : case Hexagon::MEMb_SUBr_indexed_MEM_V4 : case Hexagon::MEMb_ANDr_indexed_MEM_V4 : case Hexagon::MEMb_ORr_indexed_MEM_V4 : case Hexagon::MEMb_ADDi_MEM_V4 : case Hexagon::MEMb_SUBi_MEM_V4 : case Hexagon::MEMb_ADDr_MEM_V4 : case Hexagon::MEMb_SUBr_MEM_V4 : case Hexagon::MEMb_ANDr_MEM_V4 : case Hexagon::MEMb_ORr_MEM_V4 : llvm_unreachable("Needs implementing."); } } unsigned HexagonInstrInfo::getNormalBranchForm(const MachineInstr* MI) const { switch(MI->getOpcode()) { default: llvm_unreachable("Unknown type of jump instruction."); // JMP_EQri case Hexagon::JMP_EQriPt_ie_nv_V4: return Hexagon::JMP_EQriPt_nv_V4; case Hexagon::JMP_EQriNotPt_ie_nv_V4: return Hexagon::JMP_EQriNotPt_nv_V4; case Hexagon::JMP_EQriPnt_ie_nv_V4: return Hexagon::JMP_EQriPnt_nv_V4; case Hexagon::JMP_EQriNotPnt_ie_nv_V4: return Hexagon::JMP_EQriNotPnt_nv_V4; // JMP_EQri -- with -1 case Hexagon::JMP_EQriPtneg_ie_nv_V4: return Hexagon::JMP_EQriPtneg_nv_V4; case Hexagon::JMP_EQriNotPtneg_ie_nv_V4: return Hexagon::JMP_EQriNotPtneg_nv_V4; case Hexagon::JMP_EQriPntneg_ie_nv_V4: return Hexagon::JMP_EQriPntneg_nv_V4; case Hexagon::JMP_EQriNotPntneg_ie_nv_V4: return Hexagon::JMP_EQriNotPntneg_nv_V4; // JMP_EQrr case Hexagon::JMP_EQrrPt_ie_nv_V4: return Hexagon::JMP_EQrrPt_nv_V4; case Hexagon::JMP_EQrrNotPt_ie_nv_V4: return Hexagon::JMP_EQrrNotPt_nv_V4; case Hexagon::JMP_EQrrPnt_ie_nv_V4: return Hexagon::JMP_EQrrPnt_nv_V4; case Hexagon::JMP_EQrrNotPnt_ie_nv_V4: return Hexagon::JMP_EQrrNotPnt_nv_V4; // JMP_GTri case Hexagon::JMP_GTriPt_ie_nv_V4: return Hexagon::JMP_GTriPt_nv_V4; case Hexagon::JMP_GTriNotPt_ie_nv_V4: return Hexagon::JMP_GTriNotPt_nv_V4; case Hexagon::JMP_GTriPnt_ie_nv_V4: return Hexagon::JMP_GTriPnt_nv_V4; case Hexagon::JMP_GTriNotPnt_ie_nv_V4: return Hexagon::JMP_GTriNotPnt_nv_V4; // JMP_GTri -- with -1 case Hexagon::JMP_GTriPtneg_ie_nv_V4: return Hexagon::JMP_GTriPtneg_nv_V4; case Hexagon::JMP_GTriNotPtneg_ie_nv_V4: return Hexagon::JMP_GTriNotPtneg_nv_V4; case Hexagon::JMP_GTriPntneg_ie_nv_V4: return Hexagon::JMP_GTriPntneg_nv_V4; case Hexagon::JMP_GTriNotPntneg_ie_nv_V4: return Hexagon::JMP_GTriNotPntneg_nv_V4; // JMP_GTrr case Hexagon::JMP_GTrrPt_ie_nv_V4: return Hexagon::JMP_GTrrPt_nv_V4; case Hexagon::JMP_GTrrNotPt_ie_nv_V4: return Hexagon::JMP_GTrrNotPt_nv_V4; case Hexagon::JMP_GTrrPnt_ie_nv_V4: return Hexagon::JMP_GTrrPnt_nv_V4; case Hexagon::JMP_GTrrNotPnt_ie_nv_V4: return Hexagon::JMP_GTrrNotPnt_nv_V4; // JMP_GTrrdn case Hexagon::JMP_GTrrdnPt_ie_nv_V4: return Hexagon::JMP_GTrrdnPt_nv_V4; case Hexagon::JMP_GTrrdnNotPt_ie_nv_V4: return Hexagon::JMP_GTrrdnNotPt_nv_V4; case Hexagon::JMP_GTrrdnPnt_ie_nv_V4: return Hexagon::JMP_GTrrdnPnt_nv_V4; case Hexagon::JMP_GTrrdnNotPnt_ie_nv_V4: return Hexagon::JMP_GTrrdnNotPnt_nv_V4; // JMP_GTUri case Hexagon::JMP_GTUriPt_ie_nv_V4: return Hexagon::JMP_GTUriPt_nv_V4; case Hexagon::JMP_GTUriNotPt_ie_nv_V4: return Hexagon::JMP_GTUriNotPt_nv_V4; case Hexagon::JMP_GTUriPnt_ie_nv_V4: return Hexagon::JMP_GTUriPnt_nv_V4; case Hexagon::JMP_GTUriNotPnt_ie_nv_V4: return Hexagon::JMP_GTUriNotPnt_nv_V4; // JMP_GTUrr case Hexagon::JMP_GTUrrPt_ie_nv_V4: return Hexagon::JMP_GTUrrPt_nv_V4; case Hexagon::JMP_GTUrrNotPt_ie_nv_V4: return Hexagon::JMP_GTUrrNotPt_nv_V4; case Hexagon::JMP_GTUrrPnt_ie_nv_V4: return Hexagon::JMP_GTUrrPnt_nv_V4; case Hexagon::JMP_GTUrrNotPnt_ie_nv_V4: return Hexagon::JMP_GTUrrNotPnt_nv_V4; // JMP_GTUrrdn case Hexagon::JMP_GTUrrdnPt_ie_nv_V4: return Hexagon::JMP_GTUrrdnPt_nv_V4; case Hexagon::JMP_GTUrrdnNotPt_ie_nv_V4: return Hexagon::JMP_GTUrrdnNotPt_nv_V4; case Hexagon::JMP_GTUrrdnPnt_ie_nv_V4: return Hexagon::JMP_GTUrrdnPnt_nv_V4; case Hexagon::JMP_GTUrrdnNotPnt_ie_nv_V4: return Hexagon::JMP_GTUrrdnNotPnt_nv_V4; } } bool HexagonInstrInfo::isNewValueStore(const MachineInstr *MI) const { switch (MI->getOpcode()) { default: return false; // Store Byte case Hexagon::STrib_nv_V4: case Hexagon::STrib_indexed_nv_V4: case Hexagon::STrib_indexed_shl_nv_V4: case Hexagon::STrib_shl_nv_V4: case Hexagon::STrib_GP_nv_V4: case Hexagon::STb_GP_nv_V4: case Hexagon::POST_STbri_nv_V4: case Hexagon::STrib_cPt_nv_V4: case Hexagon::STrib_cdnPt_nv_V4: case Hexagon::STrib_cNotPt_nv_V4: case Hexagon::STrib_cdnNotPt_nv_V4: case Hexagon::STrib_indexed_cPt_nv_V4: case Hexagon::STrib_indexed_cdnPt_nv_V4: case Hexagon::STrib_indexed_cNotPt_nv_V4: case Hexagon::STrib_indexed_cdnNotPt_nv_V4: case Hexagon::STrib_indexed_shl_cPt_nv_V4: case Hexagon::STrib_indexed_shl_cdnPt_nv_V4: case Hexagon::STrib_indexed_shl_cNotPt_nv_V4: case Hexagon::STrib_indexed_shl_cdnNotPt_nv_V4: case Hexagon::POST_STbri_cPt_nv_V4: case Hexagon::POST_STbri_cdnPt_nv_V4: case Hexagon::POST_STbri_cNotPt_nv_V4: case Hexagon::POST_STbri_cdnNotPt_nv_V4: case Hexagon::STb_GP_cPt_nv_V4: case Hexagon::STb_GP_cNotPt_nv_V4: case Hexagon::STb_GP_cdnPt_nv_V4: case Hexagon::STb_GP_cdnNotPt_nv_V4: case Hexagon::STrib_GP_cPt_nv_V4: case Hexagon::STrib_GP_cNotPt_nv_V4: case Hexagon::STrib_GP_cdnPt_nv_V4: case Hexagon::STrib_GP_cdnNotPt_nv_V4: case Hexagon::STrib_abs_nv_V4: case Hexagon::STrib_abs_cPt_nv_V4: case Hexagon::STrib_abs_cdnPt_nv_V4: case Hexagon::STrib_abs_cNotPt_nv_V4: case Hexagon::STrib_abs_cdnNotPt_nv_V4: case Hexagon::STrib_imm_abs_nv_V4: case Hexagon::STrib_imm_abs_cPt_nv_V4: case Hexagon::STrib_imm_abs_cdnPt_nv_V4: case Hexagon::STrib_imm_abs_cNotPt_nv_V4: case Hexagon::STrib_imm_abs_cdnNotPt_nv_V4: // Store Halfword case Hexagon::STrih_nv_V4: case Hexagon::STrih_indexed_nv_V4: case Hexagon::STrih_indexed_shl_nv_V4: case Hexagon::STrih_shl_nv_V4: case Hexagon::STrih_GP_nv_V4: case Hexagon::STh_GP_nv_V4: case Hexagon::POST_SThri_nv_V4: case Hexagon::STrih_cPt_nv_V4: case Hexagon::STrih_cdnPt_nv_V4: case Hexagon::STrih_cNotPt_nv_V4: case Hexagon::STrih_cdnNotPt_nv_V4: case Hexagon::STrih_indexed_cPt_nv_V4: case Hexagon::STrih_indexed_cdnPt_nv_V4: case Hexagon::STrih_indexed_cNotPt_nv_V4: case Hexagon::STrih_indexed_cdnNotPt_nv_V4: case Hexagon::STrih_indexed_shl_cPt_nv_V4: case Hexagon::STrih_indexed_shl_cdnPt_nv_V4: case Hexagon::STrih_indexed_shl_cNotPt_nv_V4: case Hexagon::STrih_indexed_shl_cdnNotPt_nv_V4: case Hexagon::POST_SThri_cPt_nv_V4: case Hexagon::POST_SThri_cdnPt_nv_V4: case Hexagon::POST_SThri_cNotPt_nv_V4: case Hexagon::POST_SThri_cdnNotPt_nv_V4: case Hexagon::STh_GP_cPt_nv_V4: case Hexagon::STh_GP_cNotPt_nv_V4: case Hexagon::STh_GP_cdnPt_nv_V4: case Hexagon::STh_GP_cdnNotPt_nv_V4: case Hexagon::STrih_GP_cPt_nv_V4: case Hexagon::STrih_GP_cNotPt_nv_V4: case Hexagon::STrih_GP_cdnPt_nv_V4: case Hexagon::STrih_GP_cdnNotPt_nv_V4: case Hexagon::STrih_abs_nv_V4: case Hexagon::STrih_abs_cPt_nv_V4: case Hexagon::STrih_abs_cdnPt_nv_V4: case Hexagon::STrih_abs_cNotPt_nv_V4: case Hexagon::STrih_abs_cdnNotPt_nv_V4: case Hexagon::STrih_imm_abs_nv_V4: case Hexagon::STrih_imm_abs_cPt_nv_V4: case Hexagon::STrih_imm_abs_cdnPt_nv_V4: case Hexagon::STrih_imm_abs_cNotPt_nv_V4: case Hexagon::STrih_imm_abs_cdnNotPt_nv_V4: // Store Word case Hexagon::STriw_nv_V4: case Hexagon::STriw_indexed_nv_V4: case Hexagon::STriw_indexed_shl_nv_V4: case Hexagon::STriw_shl_nv_V4: case Hexagon::STriw_GP_nv_V4: case Hexagon::STw_GP_nv_V4: case Hexagon::POST_STwri_nv_V4: case Hexagon::STriw_cPt_nv_V4: case Hexagon::STriw_cdnPt_nv_V4: case Hexagon::STriw_cNotPt_nv_V4: case Hexagon::STriw_cdnNotPt_nv_V4: case Hexagon::STriw_indexed_cPt_nv_V4: case Hexagon::STriw_indexed_cdnPt_nv_V4: case Hexagon::STriw_indexed_cNotPt_nv_V4: case Hexagon::STriw_indexed_cdnNotPt_nv_V4: case Hexagon::STriw_indexed_shl_cPt_nv_V4: case Hexagon::STriw_indexed_shl_cdnPt_nv_V4: case Hexagon::STriw_indexed_shl_cNotPt_nv_V4: case Hexagon::STriw_indexed_shl_cdnNotPt_nv_V4: case Hexagon::POST_STwri_cPt_nv_V4: case Hexagon::POST_STwri_cdnPt_nv_V4: case Hexagon::POST_STwri_cNotPt_nv_V4: case Hexagon::POST_STwri_cdnNotPt_nv_V4: case Hexagon::STw_GP_cPt_nv_V4: case Hexagon::STw_GP_cNotPt_nv_V4: case Hexagon::STw_GP_cdnPt_nv_V4: case Hexagon::STw_GP_cdnNotPt_nv_V4: case Hexagon::STriw_GP_cPt_nv_V4: case Hexagon::STriw_GP_cNotPt_nv_V4: case Hexagon::STriw_GP_cdnPt_nv_V4: case Hexagon::STriw_GP_cdnNotPt_nv_V4: case Hexagon::STriw_abs_nv_V4: case Hexagon::STriw_abs_cPt_nv_V4: case Hexagon::STriw_abs_cdnPt_nv_V4: case Hexagon::STriw_abs_cNotPt_nv_V4: case Hexagon::STriw_abs_cdnNotPt_nv_V4: case Hexagon::STriw_imm_abs_nv_V4: case Hexagon::STriw_imm_abs_cPt_nv_V4: case Hexagon::STriw_imm_abs_cdnPt_nv_V4: case Hexagon::STriw_imm_abs_cNotPt_nv_V4: case Hexagon::STriw_imm_abs_cdnNotPt_nv_V4: return true; } } bool HexagonInstrInfo::isPostIncrement (const MachineInstr* MI) const { switch (MI->getOpcode()) { default: return false; // Load Byte case Hexagon::POST_LDrib: case Hexagon::POST_LDrib_cPt: case Hexagon::POST_LDrib_cNotPt: case Hexagon::POST_LDrib_cdnPt_V4: case Hexagon::POST_LDrib_cdnNotPt_V4: // Load unsigned byte case Hexagon::POST_LDriub: case Hexagon::POST_LDriub_cPt: case Hexagon::POST_LDriub_cNotPt: case Hexagon::POST_LDriub_cdnPt_V4: case Hexagon::POST_LDriub_cdnNotPt_V4: // Load halfword case Hexagon::POST_LDrih: case Hexagon::POST_LDrih_cPt: case Hexagon::POST_LDrih_cNotPt: case Hexagon::POST_LDrih_cdnPt_V4: case Hexagon::POST_LDrih_cdnNotPt_V4: // Load unsigned halfword case Hexagon::POST_LDriuh: case Hexagon::POST_LDriuh_cPt: case Hexagon::POST_LDriuh_cNotPt: case Hexagon::POST_LDriuh_cdnPt_V4: case Hexagon::POST_LDriuh_cdnNotPt_V4: // Load word case Hexagon::POST_LDriw: case Hexagon::POST_LDriw_cPt: case Hexagon::POST_LDriw_cNotPt: case Hexagon::POST_LDriw_cdnPt_V4: case Hexagon::POST_LDriw_cdnNotPt_V4: // Load double word case Hexagon::POST_LDrid: case Hexagon::POST_LDrid_cPt: case Hexagon::POST_LDrid_cNotPt: case Hexagon::POST_LDrid_cdnPt_V4: case Hexagon::POST_LDrid_cdnNotPt_V4: // Store byte case Hexagon::POST_STbri: case Hexagon::POST_STbri_cPt: case Hexagon::POST_STbri_cNotPt: case Hexagon::POST_STbri_cdnPt_V4: case Hexagon::POST_STbri_cdnNotPt_V4: // Store halfword case Hexagon::POST_SThri: case Hexagon::POST_SThri_cPt: case Hexagon::POST_SThri_cNotPt: case Hexagon::POST_SThri_cdnPt_V4: case Hexagon::POST_SThri_cdnNotPt_V4: // Store word case Hexagon::POST_STwri: case Hexagon::POST_STwri_cPt: case Hexagon::POST_STwri_cNotPt: case Hexagon::POST_STwri_cdnPt_V4: case Hexagon::POST_STwri_cdnNotPt_V4: // Store double word case Hexagon::POST_STdri: case Hexagon::POST_STdri_cPt: case Hexagon::POST_STdri_cNotPt: case Hexagon::POST_STdri_cdnPt_V4: case Hexagon::POST_STdri_cdnNotPt_V4: return true; } } bool HexagonInstrInfo::isSaveCalleeSavedRegsCall(const MachineInstr *MI) const { return MI->getOpcode() == Hexagon::SAVE_REGISTERS_CALL_V4; } bool HexagonInstrInfo::isPredicable(MachineInstr *MI) const { bool isPred = MI->getDesc().isPredicable(); if (!isPred) return false; const int Opc = MI->getOpcode(); switch(Opc) { case Hexagon::TFRI: return isInt<12>(MI->getOperand(1).getImm()); case Hexagon::STrid: case Hexagon::STrid_indexed: return isShiftedUInt<6,3>(MI->getOperand(1).getImm()); case Hexagon::STriw: case Hexagon::STriw_indexed: case Hexagon::STriw_nv_V4: return isShiftedUInt<6,2>(MI->getOperand(1).getImm()); case Hexagon::STrih: case Hexagon::STrih_indexed: case Hexagon::STrih_nv_V4: return isShiftedUInt<6,1>(MI->getOperand(1).getImm()); case Hexagon::STrib: case Hexagon::STrib_indexed: case Hexagon::STrib_nv_V4: return isUInt<6>(MI->getOperand(1).getImm()); case Hexagon::LDrid: case Hexagon::LDrid_indexed: return isShiftedUInt<6,3>(MI->getOperand(2).getImm()); case Hexagon::LDriw: case Hexagon::LDriw_indexed: return isShiftedUInt<6,2>(MI->getOperand(2).getImm()); case Hexagon::LDrih: case Hexagon::LDriuh: case Hexagon::LDrih_indexed: case Hexagon::LDriuh_indexed: return isShiftedUInt<6,1>(MI->getOperand(2).getImm()); case Hexagon::LDrib: case Hexagon::LDriub: case Hexagon::LDrib_indexed: case Hexagon::LDriub_indexed: return isUInt<6>(MI->getOperand(2).getImm()); case Hexagon::POST_LDrid: return isShiftedInt<4,3>(MI->getOperand(3).getImm()); case Hexagon::POST_LDriw: return isShiftedInt<4,2>(MI->getOperand(3).getImm()); case Hexagon::POST_LDrih: case Hexagon::POST_LDriuh: return isShiftedInt<4,1>(MI->getOperand(3).getImm()); case Hexagon::POST_LDrib: case Hexagon::POST_LDriub: return isInt<4>(MI->getOperand(3).getImm()); case Hexagon::STrib_imm_V4: case Hexagon::STrih_imm_V4: case Hexagon::STriw_imm_V4: return (isUInt<6>(MI->getOperand(1).getImm()) && isInt<6>(MI->getOperand(2).getImm())); case Hexagon::ADD_ri: return isInt<8>(MI->getOperand(2).getImm()); case Hexagon::ASLH: case Hexagon::ASRH: case Hexagon::SXTB: case Hexagon::SXTH: case Hexagon::ZXTB: case Hexagon::ZXTH: return Subtarget.hasV4TOps(); case Hexagon::JMPR: return false; } return true; } // This function performs the following inversiones: // // cPt ---> cNotPt // cNotPt ---> cPt // // however, these inversiones are NOT included: // // cdnPt -X-> cdnNotPt // cdnNotPt -X-> cdnPt // cPt_nv -X-> cNotPt_nv (new value stores) // cNotPt_nv -X-> cPt_nv (new value stores) // // because only the following transformations are allowed: // // cNotPt ---> cdnNotPt // cPt ---> cdnPt // cNotPt ---> cNotPt_nv // cPt ---> cPt_nv unsigned HexagonInstrInfo::getInvertedPredicatedOpcode(const int Opc) const { switch(Opc) { default: llvm_unreachable("Unexpected predicated instruction"); case Hexagon::TFR_cPt: return Hexagon::TFR_cNotPt; case Hexagon::TFR_cNotPt: return Hexagon::TFR_cPt; case Hexagon::TFRI_cPt: return Hexagon::TFRI_cNotPt; case Hexagon::TFRI_cNotPt: return Hexagon::TFRI_cPt; case Hexagon::JMP_c: return Hexagon::JMP_cNot; case Hexagon::JMP_cNot: return Hexagon::JMP_c; case Hexagon::ADD_ri_cPt: return Hexagon::ADD_ri_cNotPt; case Hexagon::ADD_ri_cNotPt: return Hexagon::ADD_ri_cPt; case Hexagon::ADD_rr_cPt: return Hexagon::ADD_rr_cNotPt; case Hexagon::ADD_rr_cNotPt: return Hexagon::ADD_rr_cPt; case Hexagon::XOR_rr_cPt: return Hexagon::XOR_rr_cNotPt; case Hexagon::XOR_rr_cNotPt: return Hexagon::XOR_rr_cPt; case Hexagon::AND_rr_cPt: return Hexagon::AND_rr_cNotPt; case Hexagon::AND_rr_cNotPt: return Hexagon::AND_rr_cPt; case Hexagon::OR_rr_cPt: return Hexagon::OR_rr_cNotPt; case Hexagon::OR_rr_cNotPt: return Hexagon::OR_rr_cPt; case Hexagon::SUB_rr_cPt: return Hexagon::SUB_rr_cNotPt; case Hexagon::SUB_rr_cNotPt: return Hexagon::SUB_rr_cPt; case Hexagon::COMBINE_rr_cPt: return Hexagon::COMBINE_rr_cNotPt; case Hexagon::COMBINE_rr_cNotPt: return Hexagon::COMBINE_rr_cPt; case Hexagon::ASLH_cPt_V4: return Hexagon::ASLH_cNotPt_V4; case Hexagon::ASLH_cNotPt_V4: return Hexagon::ASLH_cPt_V4; case Hexagon::ASRH_cPt_V4: return Hexagon::ASRH_cNotPt_V4; case Hexagon::ASRH_cNotPt_V4: return Hexagon::ASRH_cPt_V4; case Hexagon::SXTB_cPt_V4: return Hexagon::SXTB_cNotPt_V4; case Hexagon::SXTB_cNotPt_V4: return Hexagon::SXTB_cPt_V4; case Hexagon::SXTH_cPt_V4: return Hexagon::SXTH_cNotPt_V4; case Hexagon::SXTH_cNotPt_V4: return Hexagon::SXTH_cPt_V4; case Hexagon::ZXTB_cPt_V4: return Hexagon::ZXTB_cNotPt_V4; case Hexagon::ZXTB_cNotPt_V4: return Hexagon::ZXTB_cPt_V4; case Hexagon::ZXTH_cPt_V4: return Hexagon::ZXTH_cNotPt_V4; case Hexagon::ZXTH_cNotPt_V4: return Hexagon::ZXTH_cPt_V4; case Hexagon::JMPR_cPt: return Hexagon::JMPR_cNotPt; case Hexagon::JMPR_cNotPt: return Hexagon::JMPR_cPt; // V4 indexed+scaled load. case Hexagon::LDrid_indexed_cPt_V4: return Hexagon::LDrid_indexed_cNotPt_V4; case Hexagon::LDrid_indexed_cNotPt_V4: return Hexagon::LDrid_indexed_cPt_V4; case Hexagon::LDrid_indexed_shl_cPt_V4: return Hexagon::LDrid_indexed_shl_cNotPt_V4; case Hexagon::LDrid_indexed_shl_cNotPt_V4: return Hexagon::LDrid_indexed_shl_cPt_V4; case Hexagon::LDrib_indexed_cPt_V4: return Hexagon::LDrib_indexed_cNotPt_V4; case Hexagon::LDrib_indexed_cNotPt_V4: return Hexagon::LDrib_indexed_cPt_V4; case Hexagon::LDriub_indexed_cPt_V4: return Hexagon::LDriub_indexed_cNotPt_V4; case Hexagon::LDriub_indexed_cNotPt_V4: return Hexagon::LDriub_indexed_cPt_V4; case Hexagon::LDrib_indexed_shl_cPt_V4: return Hexagon::LDrib_indexed_shl_cNotPt_V4; case Hexagon::LDrib_indexed_shl_cNotPt_V4: return Hexagon::LDrib_indexed_shl_cPt_V4; case Hexagon::LDriub_indexed_shl_cPt_V4: return Hexagon::LDriub_indexed_shl_cNotPt_V4; case Hexagon::LDriub_indexed_shl_cNotPt_V4: return Hexagon::LDriub_indexed_shl_cPt_V4; case Hexagon::LDrih_indexed_cPt_V4: return Hexagon::LDrih_indexed_cNotPt_V4; case Hexagon::LDrih_indexed_cNotPt_V4: return Hexagon::LDrih_indexed_cPt_V4; case Hexagon::LDriuh_indexed_cPt_V4: return Hexagon::LDriuh_indexed_cNotPt_V4; case Hexagon::LDriuh_indexed_cNotPt_V4: return Hexagon::LDriuh_indexed_cPt_V4; case Hexagon::LDrih_indexed_shl_cPt_V4: return Hexagon::LDrih_indexed_shl_cNotPt_V4; case Hexagon::LDrih_indexed_shl_cNotPt_V4: return Hexagon::LDrih_indexed_shl_cPt_V4; case Hexagon::LDriuh_indexed_shl_cPt_V4: return Hexagon::LDriuh_indexed_shl_cNotPt_V4; case Hexagon::LDriuh_indexed_shl_cNotPt_V4: return Hexagon::LDriuh_indexed_shl_cPt_V4; case Hexagon::LDriw_indexed_cPt_V4: return Hexagon::LDriw_indexed_cNotPt_V4; case Hexagon::LDriw_indexed_cNotPt_V4: return Hexagon::LDriw_indexed_cPt_V4; case Hexagon::LDriw_indexed_shl_cPt_V4: return Hexagon::LDriw_indexed_shl_cNotPt_V4; case Hexagon::LDriw_indexed_shl_cNotPt_V4: return Hexagon::LDriw_indexed_shl_cPt_V4; // Byte. case Hexagon::POST_STbri_cPt: return Hexagon::POST_STbri_cNotPt; case Hexagon::POST_STbri_cNotPt: return Hexagon::POST_STbri_cPt; case Hexagon::STrib_cPt: return Hexagon::STrib_cNotPt; case Hexagon::STrib_cNotPt: return Hexagon::STrib_cPt; case Hexagon::STrib_indexed_cPt: return Hexagon::STrib_indexed_cNotPt; case Hexagon::STrib_indexed_cNotPt: return Hexagon::STrib_indexed_cPt; case Hexagon::STrib_imm_cPt_V4: return Hexagon::STrib_imm_cNotPt_V4; case Hexagon::STrib_imm_cNotPt_V4: return Hexagon::STrib_imm_cPt_V4; case Hexagon::STrib_indexed_shl_cPt_V4: return Hexagon::STrib_indexed_shl_cNotPt_V4; case Hexagon::STrib_indexed_shl_cNotPt_V4: return Hexagon::STrib_indexed_shl_cPt_V4; // Halfword. case Hexagon::POST_SThri_cPt: return Hexagon::POST_SThri_cNotPt; case Hexagon::POST_SThri_cNotPt: return Hexagon::POST_SThri_cPt; case Hexagon::STrih_cPt: return Hexagon::STrih_cNotPt; case Hexagon::STrih_cNotPt: return Hexagon::STrih_cPt; case Hexagon::STrih_indexed_cPt: return Hexagon::STrih_indexed_cNotPt; case Hexagon::STrih_indexed_cNotPt: return Hexagon::STrih_indexed_cPt; case Hexagon::STrih_imm_cPt_V4: return Hexagon::STrih_imm_cNotPt_V4; case Hexagon::STrih_imm_cNotPt_V4: return Hexagon::STrih_imm_cPt_V4; case Hexagon::STrih_indexed_shl_cPt_V4: return Hexagon::STrih_indexed_shl_cNotPt_V4; case Hexagon::STrih_indexed_shl_cNotPt_V4: return Hexagon::STrih_indexed_shl_cPt_V4; // Word. case Hexagon::POST_STwri_cPt: return Hexagon::POST_STwri_cNotPt; case Hexagon::POST_STwri_cNotPt: return Hexagon::POST_STwri_cPt; case Hexagon::STriw_cPt: return Hexagon::STriw_cNotPt; case Hexagon::STriw_cNotPt: return Hexagon::STriw_cPt; case Hexagon::STriw_indexed_cPt: return Hexagon::STriw_indexed_cNotPt; case Hexagon::STriw_indexed_cNotPt: return Hexagon::STriw_indexed_cPt; case Hexagon::STriw_indexed_shl_cPt_V4: return Hexagon::STriw_indexed_shl_cNotPt_V4; case Hexagon::STriw_indexed_shl_cNotPt_V4: return Hexagon::STriw_indexed_shl_cPt_V4; case Hexagon::STriw_imm_cPt_V4: return Hexagon::STriw_imm_cNotPt_V4; case Hexagon::STriw_imm_cNotPt_V4: return Hexagon::STriw_imm_cPt_V4; // Double word. case Hexagon::POST_STdri_cPt: return Hexagon::POST_STdri_cNotPt; case Hexagon::POST_STdri_cNotPt: return Hexagon::POST_STdri_cPt; case Hexagon::STrid_cPt: return Hexagon::STrid_cNotPt; case Hexagon::STrid_cNotPt: return Hexagon::STrid_cPt; case Hexagon::STrid_indexed_cPt: return Hexagon::STrid_indexed_cNotPt; case Hexagon::STrid_indexed_cNotPt: return Hexagon::STrid_indexed_cPt; case Hexagon::STrid_indexed_shl_cPt_V4: return Hexagon::STrid_indexed_shl_cNotPt_V4; case Hexagon::STrid_indexed_shl_cNotPt_V4: return Hexagon::STrid_indexed_shl_cPt_V4; // V4 Store to global address. case Hexagon::STd_GP_cPt_V4: return Hexagon::STd_GP_cNotPt_V4; case Hexagon::STd_GP_cNotPt_V4: return Hexagon::STd_GP_cPt_V4; case Hexagon::STb_GP_cPt_V4: return Hexagon::STb_GP_cNotPt_V4; case Hexagon::STb_GP_cNotPt_V4: return Hexagon::STb_GP_cPt_V4; case Hexagon::STh_GP_cPt_V4: return Hexagon::STh_GP_cNotPt_V4; case Hexagon::STh_GP_cNotPt_V4: return Hexagon::STh_GP_cPt_V4; case Hexagon::STw_GP_cPt_V4: return Hexagon::STw_GP_cNotPt_V4; case Hexagon::STw_GP_cNotPt_V4: return Hexagon::STw_GP_cPt_V4; case Hexagon::STrid_GP_cPt_V4: return Hexagon::STrid_GP_cNotPt_V4; case Hexagon::STrid_GP_cNotPt_V4: return Hexagon::STrid_GP_cPt_V4; case Hexagon::STrib_GP_cPt_V4: return Hexagon::STrib_GP_cNotPt_V4; case Hexagon::STrib_GP_cNotPt_V4: return Hexagon::STrib_GP_cPt_V4; case Hexagon::STrih_GP_cPt_V4: return Hexagon::STrih_GP_cNotPt_V4; case Hexagon::STrih_GP_cNotPt_V4: return Hexagon::STrih_GP_cPt_V4; case Hexagon::STriw_GP_cPt_V4: return Hexagon::STriw_GP_cNotPt_V4; case Hexagon::STriw_GP_cNotPt_V4: return Hexagon::STriw_GP_cPt_V4; // Load. case Hexagon::LDrid_cPt: return Hexagon::LDrid_cNotPt; case Hexagon::LDrid_cNotPt: return Hexagon::LDrid_cPt; case Hexagon::LDriw_cPt: return Hexagon::LDriw_cNotPt; case Hexagon::LDriw_cNotPt: return Hexagon::LDriw_cPt; case Hexagon::LDrih_cPt: return Hexagon::LDrih_cNotPt; case Hexagon::LDrih_cNotPt: return Hexagon::LDrih_cPt; case Hexagon::LDriuh_cPt: return Hexagon::LDriuh_cNotPt; case Hexagon::LDriuh_cNotPt: return Hexagon::LDriuh_cPt; case Hexagon::LDrib_cPt: return Hexagon::LDrib_cNotPt; case Hexagon::LDrib_cNotPt: return Hexagon::LDrib_cPt; case Hexagon::LDriub_cPt: return Hexagon::LDriub_cNotPt; case Hexagon::LDriub_cNotPt: return Hexagon::LDriub_cPt; // Load Indexed. case Hexagon::LDrid_indexed_cPt: return Hexagon::LDrid_indexed_cNotPt; case Hexagon::LDrid_indexed_cNotPt: return Hexagon::LDrid_indexed_cPt; case Hexagon::LDriw_indexed_cPt: return Hexagon::LDriw_indexed_cNotPt; case Hexagon::LDriw_indexed_cNotPt: return Hexagon::LDriw_indexed_cPt; case Hexagon::LDrih_indexed_cPt: return Hexagon::LDrih_indexed_cNotPt; case Hexagon::LDrih_indexed_cNotPt: return Hexagon::LDrih_indexed_cPt; case Hexagon::LDriuh_indexed_cPt: return Hexagon::LDriuh_indexed_cNotPt; case Hexagon::LDriuh_indexed_cNotPt: return Hexagon::LDriuh_indexed_cPt; case Hexagon::LDrib_indexed_cPt: return Hexagon::LDrib_indexed_cNotPt; case Hexagon::LDrib_indexed_cNotPt: return Hexagon::LDrib_indexed_cPt; case Hexagon::LDriub_indexed_cPt: return Hexagon::LDriub_indexed_cNotPt; case Hexagon::LDriub_indexed_cNotPt: return Hexagon::LDriub_indexed_cPt; // Post Inc Load. case Hexagon::POST_LDrid_cPt: return Hexagon::POST_LDrid_cNotPt; case Hexagon::POST_LDriw_cNotPt: return Hexagon::POST_LDriw_cPt; case Hexagon::POST_LDrih_cPt: return Hexagon::POST_LDrih_cNotPt; case Hexagon::POST_LDrih_cNotPt: return Hexagon::POST_LDrih_cPt; case Hexagon::POST_LDriuh_cPt: return Hexagon::POST_LDriuh_cNotPt; case Hexagon::POST_LDriuh_cNotPt: return Hexagon::POST_LDriuh_cPt; case Hexagon::POST_LDrib_cPt: return Hexagon::POST_LDrib_cNotPt; case Hexagon::POST_LDrib_cNotPt: return Hexagon::POST_LDrib_cPt; case Hexagon::POST_LDriub_cPt: return Hexagon::POST_LDriub_cNotPt; case Hexagon::POST_LDriub_cNotPt: return Hexagon::POST_LDriub_cPt; // Dealloc_return. case Hexagon::DEALLOC_RET_cPt_V4: return Hexagon::DEALLOC_RET_cNotPt_V4; case Hexagon::DEALLOC_RET_cNotPt_V4: return Hexagon::DEALLOC_RET_cPt_V4; // New Value Jump. // JMPEQ_ri - with -1. case Hexagon::JMP_EQriPtneg_nv_V4: return Hexagon::JMP_EQriNotPtneg_nv_V4; case Hexagon::JMP_EQriNotPtneg_nv_V4: return Hexagon::JMP_EQriPtneg_nv_V4; case Hexagon::JMP_EQriPntneg_nv_V4: return Hexagon::JMP_EQriNotPntneg_nv_V4; case Hexagon::JMP_EQriNotPntneg_nv_V4: return Hexagon::JMP_EQriPntneg_nv_V4; // JMPEQ_ri. case Hexagon::JMP_EQriPt_nv_V4: return Hexagon::JMP_EQriNotPt_nv_V4; case Hexagon::JMP_EQriNotPt_nv_V4: return Hexagon::JMP_EQriPt_nv_V4; case Hexagon::JMP_EQriPnt_nv_V4: return Hexagon::JMP_EQriNotPnt_nv_V4; case Hexagon::JMP_EQriNotPnt_nv_V4: return Hexagon::JMP_EQriPnt_nv_V4; // JMPEQ_rr. case Hexagon::JMP_EQrrPt_nv_V4: return Hexagon::JMP_EQrrNotPt_nv_V4; case Hexagon::JMP_EQrrNotPt_nv_V4: return Hexagon::JMP_EQrrPt_nv_V4; case Hexagon::JMP_EQrrPnt_nv_V4: return Hexagon::JMP_EQrrNotPnt_nv_V4; case Hexagon::JMP_EQrrNotPnt_nv_V4: return Hexagon::JMP_EQrrPnt_nv_V4; // JMPGT_ri - with -1. case Hexagon::JMP_GTriPtneg_nv_V4: return Hexagon::JMP_GTriNotPtneg_nv_V4; case Hexagon::JMP_GTriNotPtneg_nv_V4: return Hexagon::JMP_GTriPtneg_nv_V4; case Hexagon::JMP_GTriPntneg_nv_V4: return Hexagon::JMP_GTriNotPntneg_nv_V4; case Hexagon::JMP_GTriNotPntneg_nv_V4: return Hexagon::JMP_GTriPntneg_nv_V4; // JMPGT_ri. case Hexagon::JMP_GTriPt_nv_V4: return Hexagon::JMP_GTriNotPt_nv_V4; case Hexagon::JMP_GTriNotPt_nv_V4: return Hexagon::JMP_GTriPt_nv_V4; case Hexagon::JMP_GTriPnt_nv_V4: return Hexagon::JMP_GTriNotPnt_nv_V4; case Hexagon::JMP_GTriNotPnt_nv_V4: return Hexagon::JMP_GTriPnt_nv_V4; // JMPGT_rr. case Hexagon::JMP_GTrrPt_nv_V4: return Hexagon::JMP_GTrrNotPt_nv_V4; case Hexagon::JMP_GTrrNotPt_nv_V4: return Hexagon::JMP_GTrrPt_nv_V4; case Hexagon::JMP_GTrrPnt_nv_V4: return Hexagon::JMP_GTrrNotPnt_nv_V4; case Hexagon::JMP_GTrrNotPnt_nv_V4: return Hexagon::JMP_GTrrPnt_nv_V4; // JMPGT_rrdn. case Hexagon::JMP_GTrrdnPt_nv_V4: return Hexagon::JMP_GTrrdnNotPt_nv_V4; case Hexagon::JMP_GTrrdnNotPt_nv_V4: return Hexagon::JMP_GTrrdnPt_nv_V4; case Hexagon::JMP_GTrrdnPnt_nv_V4: return Hexagon::JMP_GTrrdnNotPnt_nv_V4; case Hexagon::JMP_GTrrdnNotPnt_nv_V4: return Hexagon::JMP_GTrrdnPnt_nv_V4; // JMPGTU_ri. case Hexagon::JMP_GTUriPt_nv_V4: return Hexagon::JMP_GTUriNotPt_nv_V4; case Hexagon::JMP_GTUriNotPt_nv_V4: return Hexagon::JMP_GTUriPt_nv_V4; case Hexagon::JMP_GTUriPnt_nv_V4: return Hexagon::JMP_GTUriNotPnt_nv_V4; case Hexagon::JMP_GTUriNotPnt_nv_V4: return Hexagon::JMP_GTUriPnt_nv_V4; // JMPGTU_rr. case Hexagon::JMP_GTUrrPt_nv_V4: return Hexagon::JMP_GTUrrNotPt_nv_V4; case Hexagon::JMP_GTUrrNotPt_nv_V4: return Hexagon::JMP_GTUrrPt_nv_V4; case Hexagon::JMP_GTUrrPnt_nv_V4: return Hexagon::JMP_GTUrrNotPnt_nv_V4; case Hexagon::JMP_GTUrrNotPnt_nv_V4: return Hexagon::JMP_GTUrrPnt_nv_V4; // JMPGTU_rrdn. case Hexagon::JMP_GTUrrdnPt_nv_V4: return Hexagon::JMP_GTUrrdnNotPt_nv_V4; case Hexagon::JMP_GTUrrdnNotPt_nv_V4: return Hexagon::JMP_GTUrrdnPt_nv_V4; case Hexagon::JMP_GTUrrdnPnt_nv_V4: return Hexagon::JMP_GTUrrdnNotPnt_nv_V4; case Hexagon::JMP_GTUrrdnNotPnt_nv_V4: return Hexagon::JMP_GTUrrdnPnt_nv_V4; } } int HexagonInstrInfo:: getMatchingCondBranchOpcode(int Opc, bool invertPredicate) const { enum Hexagon::PredSense inPredSense; inPredSense = invertPredicate ? Hexagon::PredSense_false : Hexagon::PredSense_true; int CondOpcode = Hexagon::getPredOpcode(Opc, inPredSense); if (CondOpcode >= 0) // Valid Conditional opcode/instruction return CondOpcode; // This switch case will be removed once all the instructions have been // modified to use relation maps. switch(Opc) { case Hexagon::TFR: return !invertPredicate ? Hexagon::TFR_cPt : Hexagon::TFR_cNotPt; case Hexagon::TFRI_f: return !invertPredicate ? Hexagon::TFRI_cPt_f : Hexagon::TFRI_cNotPt_f; case Hexagon::TFRI: return !invertPredicate ? Hexagon::TFRI_cPt : Hexagon::TFRI_cNotPt; case Hexagon::JMP: return !invertPredicate ? Hexagon::JMP_c : Hexagon::JMP_cNot; case Hexagon::JMP_EQrrPt_nv_V4: return !invertPredicate ? Hexagon::JMP_EQrrPt_nv_V4 : Hexagon::JMP_EQrrNotPt_nv_V4; case Hexagon::JMP_EQriPt_nv_V4: return !invertPredicate ? Hexagon::JMP_EQriPt_nv_V4 : Hexagon::JMP_EQriNotPt_nv_V4; case Hexagon::COMBINE_rr: return !invertPredicate ? Hexagon::COMBINE_rr_cPt : Hexagon::COMBINE_rr_cNotPt; case Hexagon::ASLH: return !invertPredicate ? Hexagon::ASLH_cPt_V4 : Hexagon::ASLH_cNotPt_V4; case Hexagon::ASRH: return !invertPredicate ? Hexagon::ASRH_cPt_V4 : Hexagon::ASRH_cNotPt_V4; case Hexagon::SXTB: return !invertPredicate ? Hexagon::SXTB_cPt_V4 : Hexagon::SXTB_cNotPt_V4; case Hexagon::SXTH: return !invertPredicate ? Hexagon::SXTH_cPt_V4 : Hexagon::SXTH_cNotPt_V4; case Hexagon::ZXTB: return !invertPredicate ? Hexagon::ZXTB_cPt_V4 : Hexagon::ZXTB_cNotPt_V4; case Hexagon::ZXTH: return !invertPredicate ? Hexagon::ZXTH_cPt_V4 : Hexagon::ZXTH_cNotPt_V4; case Hexagon::JMPR: return !invertPredicate ? Hexagon::JMPR_cPt : Hexagon::JMPR_cNotPt; // V4 indexed+scaled load. case Hexagon::LDrid_indexed_V4: return !invertPredicate ? Hexagon::LDrid_indexed_cPt_V4 : Hexagon::LDrid_indexed_cNotPt_V4; case Hexagon::LDrid_indexed_shl_V4: return !invertPredicate ? Hexagon::LDrid_indexed_shl_cPt_V4 : Hexagon::LDrid_indexed_shl_cNotPt_V4; case Hexagon::LDrib_indexed_V4: return !invertPredicate ? Hexagon::LDrib_indexed_cPt_V4 : Hexagon::LDrib_indexed_cNotPt_V4; case Hexagon::LDriub_indexed_V4: return !invertPredicate ? Hexagon::LDriub_indexed_cPt_V4 : Hexagon::LDriub_indexed_cNotPt_V4; case Hexagon::LDriub_ae_indexed_V4: return !invertPredicate ? Hexagon::LDriub_indexed_cPt_V4 : Hexagon::LDriub_indexed_cNotPt_V4; case Hexagon::LDrib_indexed_shl_V4: return !invertPredicate ? Hexagon::LDrib_indexed_shl_cPt_V4 : Hexagon::LDrib_indexed_shl_cNotPt_V4; case Hexagon::LDriub_indexed_shl_V4: return !invertPredicate ? Hexagon::LDriub_indexed_shl_cPt_V4 : Hexagon::LDriub_indexed_shl_cNotPt_V4; case Hexagon::LDriub_ae_indexed_shl_V4: return !invertPredicate ? Hexagon::LDriub_indexed_shl_cPt_V4 : Hexagon::LDriub_indexed_shl_cNotPt_V4; case Hexagon::LDrih_indexed_V4: return !invertPredicate ? Hexagon::LDrih_indexed_cPt_V4 : Hexagon::LDrih_indexed_cNotPt_V4; case Hexagon::LDriuh_indexed_V4: return !invertPredicate ? Hexagon::LDriuh_indexed_cPt_V4 : Hexagon::LDriuh_indexed_cNotPt_V4; case Hexagon::LDriuh_ae_indexed_V4: return !invertPredicate ? Hexagon::LDriuh_indexed_cPt_V4 : Hexagon::LDriuh_indexed_cNotPt_V4; case Hexagon::LDrih_indexed_shl_V4: return !invertPredicate ? Hexagon::LDrih_indexed_shl_cPt_V4 : Hexagon::LDrih_indexed_shl_cNotPt_V4; case Hexagon::LDriuh_indexed_shl_V4: return !invertPredicate ? Hexagon::LDriuh_indexed_shl_cPt_V4 : Hexagon::LDriuh_indexed_shl_cNotPt_V4; case Hexagon::LDriuh_ae_indexed_shl_V4: return !invertPredicate ? Hexagon::LDriuh_indexed_shl_cPt_V4 : Hexagon::LDriuh_indexed_shl_cNotPt_V4; case Hexagon::LDriw_indexed_V4: return !invertPredicate ? Hexagon::LDriw_indexed_cPt_V4 : Hexagon::LDriw_indexed_cNotPt_V4; case Hexagon::LDriw_indexed_shl_V4: return !invertPredicate ? Hexagon::LDriw_indexed_shl_cPt_V4 : Hexagon::LDriw_indexed_shl_cNotPt_V4; // V4 Load from global address case Hexagon::LDrid_GP_V4: return !invertPredicate ? Hexagon::LDrid_GP_cPt_V4 : Hexagon::LDrid_GP_cNotPt_V4; case Hexagon::LDrib_GP_V4: return !invertPredicate ? Hexagon::LDrib_GP_cPt_V4 : Hexagon::LDrib_GP_cNotPt_V4; case Hexagon::LDriub_GP_V4: return !invertPredicate ? Hexagon::LDriub_GP_cPt_V4 : Hexagon::LDriub_GP_cNotPt_V4; case Hexagon::LDrih_GP_V4: return !invertPredicate ? Hexagon::LDrih_GP_cPt_V4 : Hexagon::LDrih_GP_cNotPt_V4; case Hexagon::LDriuh_GP_V4: return !invertPredicate ? Hexagon::LDriuh_GP_cPt_V4 : Hexagon::LDriuh_GP_cNotPt_V4; case Hexagon::LDriw_GP_V4: return !invertPredicate ? Hexagon::LDriw_GP_cPt_V4 : Hexagon::LDriw_GP_cNotPt_V4; case Hexagon::LDd_GP_V4: return !invertPredicate ? Hexagon::LDd_GP_cPt_V4 : Hexagon::LDd_GP_cNotPt_V4; case Hexagon::LDb_GP_V4: return !invertPredicate ? Hexagon::LDb_GP_cPt_V4 : Hexagon::LDb_GP_cNotPt_V4; case Hexagon::LDub_GP_V4: return !invertPredicate ? Hexagon::LDub_GP_cPt_V4 : Hexagon::LDub_GP_cNotPt_V4; case Hexagon::LDh_GP_V4: return !invertPredicate ? Hexagon::LDh_GP_cPt_V4 : Hexagon::LDh_GP_cNotPt_V4; case Hexagon::LDuh_GP_V4: return !invertPredicate ? Hexagon::LDuh_GP_cPt_V4 : Hexagon::LDuh_GP_cNotPt_V4; case Hexagon::LDw_GP_V4: return !invertPredicate ? Hexagon::LDw_GP_cPt_V4 : Hexagon::LDw_GP_cNotPt_V4; // Byte. case Hexagon::POST_STbri: return !invertPredicate ? Hexagon::POST_STbri_cPt : Hexagon::POST_STbri_cNotPt; case Hexagon::STrib: return !invertPredicate ? Hexagon::STrib_cPt : Hexagon::STrib_cNotPt; case Hexagon::STrib_indexed: return !invertPredicate ? Hexagon::STrib_indexed_cPt : Hexagon::STrib_indexed_cNotPt; case Hexagon::STrib_imm_V4: return !invertPredicate ? Hexagon::STrib_imm_cPt_V4 : Hexagon::STrib_imm_cNotPt_V4; case Hexagon::STrib_indexed_shl_V4: return !invertPredicate ? Hexagon::STrib_indexed_shl_cPt_V4 : Hexagon::STrib_indexed_shl_cNotPt_V4; // Halfword. case Hexagon::POST_SThri: return !invertPredicate ? Hexagon::POST_SThri_cPt : Hexagon::POST_SThri_cNotPt; case Hexagon::STrih: return !invertPredicate ? Hexagon::STrih_cPt : Hexagon::STrih_cNotPt; case Hexagon::STrih_indexed: return !invertPredicate ? Hexagon::STrih_indexed_cPt : Hexagon::STrih_indexed_cNotPt; case Hexagon::STrih_imm_V4: return !invertPredicate ? Hexagon::STrih_imm_cPt_V4 : Hexagon::STrih_imm_cNotPt_V4; case Hexagon::STrih_indexed_shl_V4: return !invertPredicate ? Hexagon::STrih_indexed_shl_cPt_V4 : Hexagon::STrih_indexed_shl_cNotPt_V4; // Word. case Hexagon::POST_STwri: return !invertPredicate ? Hexagon::POST_STwri_cPt : Hexagon::POST_STwri_cNotPt; case Hexagon::STriw: return !invertPredicate ? Hexagon::STriw_cPt : Hexagon::STriw_cNotPt; case Hexagon::STriw_indexed: return !invertPredicate ? Hexagon::STriw_indexed_cPt : Hexagon::STriw_indexed_cNotPt; case Hexagon::STriw_indexed_shl_V4: return !invertPredicate ? Hexagon::STriw_indexed_shl_cPt_V4 : Hexagon::STriw_indexed_shl_cNotPt_V4; case Hexagon::STriw_imm_V4: return !invertPredicate ? Hexagon::STriw_imm_cPt_V4 : Hexagon::STriw_imm_cNotPt_V4; // Double word. case Hexagon::POST_STdri: return !invertPredicate ? Hexagon::POST_STdri_cPt : Hexagon::POST_STdri_cNotPt; case Hexagon::STrid: return !invertPredicate ? Hexagon::STrid_cPt : Hexagon::STrid_cNotPt; case Hexagon::STrid_indexed: return !invertPredicate ? Hexagon::STrid_indexed_cPt : Hexagon::STrid_indexed_cNotPt; case Hexagon::STrid_indexed_shl_V4: return !invertPredicate ? Hexagon::STrid_indexed_shl_cPt_V4 : Hexagon::STrid_indexed_shl_cNotPt_V4; // V4 Store to global address case Hexagon::STrid_GP_V4: return !invertPredicate ? Hexagon::STrid_GP_cPt_V4 : Hexagon::STrid_GP_cNotPt_V4; case Hexagon::STrib_GP_V4: return !invertPredicate ? Hexagon::STrib_GP_cPt_V4 : Hexagon::STrib_GP_cNotPt_V4; case Hexagon::STrih_GP_V4: return !invertPredicate ? Hexagon::STrih_GP_cPt_V4 : Hexagon::STrih_GP_cNotPt_V4; case Hexagon::STriw_GP_V4: return !invertPredicate ? Hexagon::STriw_GP_cPt_V4 : Hexagon::STriw_GP_cNotPt_V4; case Hexagon::STd_GP_V4: return !invertPredicate ? Hexagon::STd_GP_cPt_V4 : Hexagon::STd_GP_cNotPt_V4; case Hexagon::STb_GP_V4: return !invertPredicate ? Hexagon::STb_GP_cPt_V4 : Hexagon::STb_GP_cNotPt_V4; case Hexagon::STh_GP_V4: return !invertPredicate ? Hexagon::STh_GP_cPt_V4 : Hexagon::STh_GP_cNotPt_V4; case Hexagon::STw_GP_V4: return !invertPredicate ? Hexagon::STw_GP_cPt_V4 : Hexagon::STw_GP_cNotPt_V4; // Load. case Hexagon::LDrid: return !invertPredicate ? Hexagon::LDrid_cPt : Hexagon::LDrid_cNotPt; case Hexagon::LDriw: return !invertPredicate ? Hexagon::LDriw_cPt : Hexagon::LDriw_cNotPt; case Hexagon::LDrih: return !invertPredicate ? Hexagon::LDrih_cPt : Hexagon::LDrih_cNotPt; case Hexagon::LDriuh: return !invertPredicate ? Hexagon::LDriuh_cPt : Hexagon::LDriuh_cNotPt; case Hexagon::LDrib: return !invertPredicate ? Hexagon::LDrib_cPt : Hexagon::LDrib_cNotPt; case Hexagon::LDriub: return !invertPredicate ? Hexagon::LDriub_cPt : Hexagon::LDriub_cNotPt; // Load Indexed. case Hexagon::LDrid_indexed: return !invertPredicate ? Hexagon::LDrid_indexed_cPt : Hexagon::LDrid_indexed_cNotPt; case Hexagon::LDriw_indexed: return !invertPredicate ? Hexagon::LDriw_indexed_cPt : Hexagon::LDriw_indexed_cNotPt; case Hexagon::LDrih_indexed: return !invertPredicate ? Hexagon::LDrih_indexed_cPt : Hexagon::LDrih_indexed_cNotPt; case Hexagon::LDriuh_indexed: return !invertPredicate ? Hexagon::LDriuh_indexed_cPt : Hexagon::LDriuh_indexed_cNotPt; case Hexagon::LDrib_indexed: return !invertPredicate ? Hexagon::LDrib_indexed_cPt : Hexagon::LDrib_indexed_cNotPt; case Hexagon::LDriub_indexed: return !invertPredicate ? Hexagon::LDriub_indexed_cPt : Hexagon::LDriub_indexed_cNotPt; // Post Increment Load. case Hexagon::POST_LDrid: return !invertPredicate ? Hexagon::POST_LDrid_cPt : Hexagon::POST_LDrid_cNotPt; case Hexagon::POST_LDriw: return !invertPredicate ? Hexagon::POST_LDriw_cPt : Hexagon::POST_LDriw_cNotPt; case Hexagon::POST_LDrih: return !invertPredicate ? Hexagon::POST_LDrih_cPt : Hexagon::POST_LDrih_cNotPt; case Hexagon::POST_LDriuh: return !invertPredicate ? Hexagon::POST_LDriuh_cPt : Hexagon::POST_LDriuh_cNotPt; case Hexagon::POST_LDrib: return !invertPredicate ? Hexagon::POST_LDrib_cPt : Hexagon::POST_LDrib_cNotPt; case Hexagon::POST_LDriub: return !invertPredicate ? Hexagon::POST_LDriub_cPt : Hexagon::POST_LDriub_cNotPt; // DEALLOC_RETURN. case Hexagon::DEALLOC_RET_V4: return !invertPredicate ? Hexagon::DEALLOC_RET_cPt_V4 : Hexagon::DEALLOC_RET_cNotPt_V4; } llvm_unreachable("Unexpected predicable instruction"); } bool HexagonInstrInfo:: PredicateInstruction(MachineInstr *MI, const SmallVectorImpl &Cond) const { int Opc = MI->getOpcode(); assert (isPredicable(MI) && "Expected predicable instruction"); bool invertJump = (!Cond.empty() && Cond[0].isImm() && (Cond[0].getImm() == 0)); MI->setDesc(get(getMatchingCondBranchOpcode(Opc, invertJump))); // // This assumes that the predicate is always the first operand // in the set of inputs. // MI->addOperand(MI->getOperand(MI->getNumOperands()-1)); int oper; for (oper = MI->getNumOperands() - 3; oper >= 0; --oper) { MachineOperand MO = MI->getOperand(oper); if ((MO.isReg() && !MO.isUse() && !MO.isImplicit())) { break; } if (MO.isReg()) { MI->getOperand(oper+1).ChangeToRegister(MO.getReg(), MO.isDef(), MO.isImplicit(), MO.isKill(), MO.isDead(), MO.isUndef(), MO.isDebug()); } else if (MO.isImm()) { MI->getOperand(oper+1).ChangeToImmediate(MO.getImm()); } else { llvm_unreachable("Unexpected operand type"); } } int regPos = invertJump ? 1 : 0; MachineOperand PredMO = Cond[regPos]; MI->getOperand(oper+1).ChangeToRegister(PredMO.getReg(), PredMO.isDef(), PredMO.isImplicit(), PredMO.isKill(), PredMO.isDead(), PredMO.isUndef(), PredMO.isDebug()); return true; } bool HexagonInstrInfo:: isProfitableToIfCvt(MachineBasicBlock &MBB, unsigned NumCycles, unsigned ExtraPredCycles, const BranchProbability &Probability) const { return true; } bool HexagonInstrInfo:: isProfitableToIfCvt(MachineBasicBlock &TMBB, unsigned NumTCycles, unsigned ExtraTCycles, MachineBasicBlock &FMBB, unsigned NumFCycles, unsigned ExtraFCycles, const BranchProbability &Probability) const { return true; } bool HexagonInstrInfo::isPredicated(const MachineInstr *MI) const { const uint64_t F = MI->getDesc().TSFlags; return ((F >> HexagonII::PredicatedPos) & HexagonII::PredicatedMask); } bool HexagonInstrInfo::DefinesPredicate(MachineInstr *MI, std::vector &Pred) const { for (unsigned oper = 0; oper < MI->getNumOperands(); ++oper) { MachineOperand MO = MI->getOperand(oper); if (MO.isReg() && MO.isDef()) { const TargetRegisterClass* RC = RI.getMinimalPhysRegClass(MO.getReg()); if (RC == &Hexagon::PredRegsRegClass) { Pred.push_back(MO); return true; } } } return false; } bool HexagonInstrInfo:: SubsumesPredicate(const SmallVectorImpl &Pred1, const SmallVectorImpl &Pred2) const { // TODO: Fix this return false; } // // We indicate that we want to reverse the branch by // inserting a 0 at the beginning of the Cond vector. // bool HexagonInstrInfo:: ReverseBranchCondition(SmallVectorImpl &Cond) const { if (!Cond.empty() && Cond[0].isImm() && Cond[0].getImm() == 0) { Cond.erase(Cond.begin()); } else { Cond.insert(Cond.begin(), MachineOperand::CreateImm(0)); } return false; } bool HexagonInstrInfo:: isProfitableToDupForIfCvt(MachineBasicBlock &MBB,unsigned NumInstrs, const BranchProbability &Probability) const { return (NumInstrs <= 4); } bool HexagonInstrInfo::isDeallocRet(const MachineInstr *MI) const { switch (MI->getOpcode()) { default: return false; case Hexagon::DEALLOC_RET_V4 : case Hexagon::DEALLOC_RET_cPt_V4 : case Hexagon::DEALLOC_RET_cNotPt_V4 : case Hexagon::DEALLOC_RET_cdnPnt_V4 : case Hexagon::DEALLOC_RET_cNotdnPnt_V4 : case Hexagon::DEALLOC_RET_cdnPt_V4 : case Hexagon::DEALLOC_RET_cNotdnPt_V4 : return true; } } bool HexagonInstrInfo:: isValidOffset(const int Opcode, const int Offset) const { // This function is to check whether the "Offset" is in the correct range of // the given "Opcode". If "Offset" is not in the correct range, "ADD_ri" is // inserted to calculate the final address. Due to this reason, the function // assumes that the "Offset" has correct alignment. switch(Opcode) { case Hexagon::LDriw: case Hexagon::LDriw_f: case Hexagon::STriw: case Hexagon::STriw_f: assert((Offset % 4 == 0) && "Offset has incorrect alignment"); return (Offset >= Hexagon_MEMW_OFFSET_MIN) && (Offset <= Hexagon_MEMW_OFFSET_MAX); case Hexagon::LDrid: case Hexagon::LDrid_f: case Hexagon::STrid: case Hexagon::STrid_f: assert((Offset % 8 == 0) && "Offset has incorrect alignment"); return (Offset >= Hexagon_MEMD_OFFSET_MIN) && (Offset <= Hexagon_MEMD_OFFSET_MAX); case Hexagon::LDrih: case Hexagon::LDriuh: case Hexagon::STrih: assert((Offset % 2 == 0) && "Offset has incorrect alignment"); return (Offset >= Hexagon_MEMH_OFFSET_MIN) && (Offset <= Hexagon_MEMH_OFFSET_MAX); case Hexagon::LDrib: case Hexagon::STrib: case Hexagon::LDriub: return (Offset >= Hexagon_MEMB_OFFSET_MIN) && (Offset <= Hexagon_MEMB_OFFSET_MAX); case Hexagon::ADD_ri: case Hexagon::TFR_FI: return (Offset >= Hexagon_ADDI_OFFSET_MIN) && (Offset <= Hexagon_ADDI_OFFSET_MAX); case Hexagon::MEMw_ADDi_indexed_MEM_V4 : case Hexagon::MEMw_SUBi_indexed_MEM_V4 : case Hexagon::MEMw_ADDr_indexed_MEM_V4 : case Hexagon::MEMw_SUBr_indexed_MEM_V4 : case Hexagon::MEMw_ANDr_indexed_MEM_V4 : case Hexagon::MEMw_ORr_indexed_MEM_V4 : case Hexagon::MEMw_ADDi_MEM_V4 : case Hexagon::MEMw_SUBi_MEM_V4 : case Hexagon::MEMw_ADDr_MEM_V4 : case Hexagon::MEMw_SUBr_MEM_V4 : case Hexagon::MEMw_ANDr_MEM_V4 : case Hexagon::MEMw_ORr_MEM_V4 : assert ((Offset % 4) == 0 && "MEMOPw offset is not aligned correctly." ); return (0 <= Offset && Offset <= 255); case Hexagon::MEMh_ADDi_indexed_MEM_V4 : case Hexagon::MEMh_SUBi_indexed_MEM_V4 : case Hexagon::MEMh_ADDr_indexed_MEM_V4 : case Hexagon::MEMh_SUBr_indexed_MEM_V4 : case Hexagon::MEMh_ANDr_indexed_MEM_V4 : case Hexagon::MEMh_ORr_indexed_MEM_V4 : case Hexagon::MEMh_ADDi_MEM_V4 : case Hexagon::MEMh_SUBi_MEM_V4 : case Hexagon::MEMh_ADDr_MEM_V4 : case Hexagon::MEMh_SUBr_MEM_V4 : case Hexagon::MEMh_ANDr_MEM_V4 : case Hexagon::MEMh_ORr_MEM_V4 : assert ((Offset % 2) == 0 && "MEMOPh offset is not aligned correctly." ); return (0 <= Offset && Offset <= 127); case Hexagon::MEMb_ADDi_indexed_MEM_V4 : case Hexagon::MEMb_SUBi_indexed_MEM_V4 : case Hexagon::MEMb_ADDr_indexed_MEM_V4 : case Hexagon::MEMb_SUBr_indexed_MEM_V4 : case Hexagon::MEMb_ANDr_indexed_MEM_V4 : case Hexagon::MEMb_ORr_indexed_MEM_V4 : case Hexagon::MEMb_ADDi_MEM_V4 : case Hexagon::MEMb_SUBi_MEM_V4 : case Hexagon::MEMb_ADDr_MEM_V4 : case Hexagon::MEMb_SUBr_MEM_V4 : case Hexagon::MEMb_ANDr_MEM_V4 : case Hexagon::MEMb_ORr_MEM_V4 : return (0 <= Offset && Offset <= 63); // LDri_pred and STriw_pred are pseudo operations, so it has to take offset of // any size. Later pass knows how to handle it. case Hexagon::STriw_pred: case Hexagon::LDriw_pred: return true; // INLINEASM is very special. case Hexagon::INLINEASM: return true; } llvm_unreachable("No offset range is defined for this opcode. " "Please define it in the above switch statement!"); } // // Check if the Offset is a valid auto-inc imm by Load/Store Type. // bool HexagonInstrInfo:: isValidAutoIncImm(const EVT VT, const int Offset) const { if (VT == MVT::i64) { return (Offset >= Hexagon_MEMD_AUTOINC_MIN && Offset <= Hexagon_MEMD_AUTOINC_MAX && (Offset & 0x7) == 0); } if (VT == MVT::i32) { return (Offset >= Hexagon_MEMW_AUTOINC_MIN && Offset <= Hexagon_MEMW_AUTOINC_MAX && (Offset & 0x3) == 0); } if (VT == MVT::i16) { return (Offset >= Hexagon_MEMH_AUTOINC_MIN && Offset <= Hexagon_MEMH_AUTOINC_MAX && (Offset & 0x1) == 0); } if (VT == MVT::i8) { return (Offset >= Hexagon_MEMB_AUTOINC_MIN && Offset <= Hexagon_MEMB_AUTOINC_MAX); } llvm_unreachable("Not an auto-inc opc!"); } bool HexagonInstrInfo:: isMemOp(const MachineInstr *MI) const { switch (MI->getOpcode()) { default: return false; case Hexagon::MEMw_ADDi_indexed_MEM_V4 : case Hexagon::MEMw_SUBi_indexed_MEM_V4 : case Hexagon::MEMw_ADDr_indexed_MEM_V4 : case Hexagon::MEMw_SUBr_indexed_MEM_V4 : case Hexagon::MEMw_ANDr_indexed_MEM_V4 : case Hexagon::MEMw_ORr_indexed_MEM_V4 : case Hexagon::MEMw_ADDi_MEM_V4 : case Hexagon::MEMw_SUBi_MEM_V4 : case Hexagon::MEMw_ADDr_MEM_V4 : case Hexagon::MEMw_SUBr_MEM_V4 : case Hexagon::MEMw_ANDr_MEM_V4 : case Hexagon::MEMw_ORr_MEM_V4 : case Hexagon::MEMh_ADDi_indexed_MEM_V4 : case Hexagon::MEMh_SUBi_indexed_MEM_V4 : case Hexagon::MEMh_ADDr_indexed_MEM_V4 : case Hexagon::MEMh_SUBr_indexed_MEM_V4 : case Hexagon::MEMh_ANDr_indexed_MEM_V4 : case Hexagon::MEMh_ORr_indexed_MEM_V4 : case Hexagon::MEMh_ADDi_MEM_V4 : case Hexagon::MEMh_SUBi_MEM_V4 : case Hexagon::MEMh_ADDr_MEM_V4 : case Hexagon::MEMh_SUBr_MEM_V4 : case Hexagon::MEMh_ANDr_MEM_V4 : case Hexagon::MEMh_ORr_MEM_V4 : case Hexagon::MEMb_ADDi_indexed_MEM_V4 : case Hexagon::MEMb_SUBi_indexed_MEM_V4 : case Hexagon::MEMb_ADDr_indexed_MEM_V4 : case Hexagon::MEMb_SUBr_indexed_MEM_V4 : case Hexagon::MEMb_ANDr_indexed_MEM_V4 : case Hexagon::MEMb_ORr_indexed_MEM_V4 : case Hexagon::MEMb_ADDi_MEM_V4 : case Hexagon::MEMb_SUBi_MEM_V4 : case Hexagon::MEMb_ADDr_MEM_V4 : case Hexagon::MEMb_SUBr_MEM_V4 : case Hexagon::MEMb_ANDr_MEM_V4 : case Hexagon::MEMb_ORr_MEM_V4 : return true; } } bool HexagonInstrInfo:: isSpillPredRegOp(const MachineInstr *MI) const { switch (MI->getOpcode()) { default: return false; case Hexagon::STriw_pred : case Hexagon::LDriw_pred : return true; } } bool HexagonInstrInfo::isNewValueJumpCandidate(const MachineInstr *MI) const { switch (MI->getOpcode()) { default: return false; case Hexagon::CMPEQrr: case Hexagon::CMPEQri: case Hexagon::CMPLTrr: case Hexagon::CMPGTrr: case Hexagon::CMPGTri: case Hexagon::CMPLTUrr: case Hexagon::CMPGTUrr: case Hexagon::CMPGTUri: case Hexagon::CMPGEri: case Hexagon::CMPGEUri: return true; } } bool HexagonInstrInfo:: isConditionalTransfer (const MachineInstr *MI) const { switch (MI->getOpcode()) { default: return false; case Hexagon::TFR_cPt: case Hexagon::TFR_cNotPt: case Hexagon::TFRI_cPt: case Hexagon::TFRI_cNotPt: case Hexagon::TFR_cdnPt: case Hexagon::TFR_cdnNotPt: case Hexagon::TFRI_cdnPt: case Hexagon::TFRI_cdnNotPt: return true; } } bool HexagonInstrInfo::isConditionalALU32 (const MachineInstr* MI) const { const HexagonRegisterInfo& QRI = getRegisterInfo(); switch (MI->getOpcode()) { default: return false; case Hexagon::ADD_ri_cPt: case Hexagon::ADD_ri_cNotPt: case Hexagon::ADD_rr_cPt: case Hexagon::ADD_rr_cNotPt: case Hexagon::XOR_rr_cPt: case Hexagon::XOR_rr_cNotPt: case Hexagon::AND_rr_cPt: case Hexagon::AND_rr_cNotPt: case Hexagon::OR_rr_cPt: case Hexagon::OR_rr_cNotPt: case Hexagon::SUB_rr_cPt: case Hexagon::SUB_rr_cNotPt: case Hexagon::COMBINE_rr_cPt: case Hexagon::COMBINE_rr_cNotPt: return true; case Hexagon::ASLH_cPt_V4: case Hexagon::ASLH_cNotPt_V4: case Hexagon::ASRH_cPt_V4: case Hexagon::ASRH_cNotPt_V4: case Hexagon::SXTB_cPt_V4: case Hexagon::SXTB_cNotPt_V4: case Hexagon::SXTH_cPt_V4: case Hexagon::SXTH_cNotPt_V4: case Hexagon::ZXTB_cPt_V4: case Hexagon::ZXTB_cNotPt_V4: case Hexagon::ZXTH_cPt_V4: case Hexagon::ZXTH_cNotPt_V4: return QRI.Subtarget.hasV4TOps(); } } bool HexagonInstrInfo:: isConditionalLoad (const MachineInstr* MI) const { const HexagonRegisterInfo& QRI = getRegisterInfo(); switch (MI->getOpcode()) { default: return false; case Hexagon::LDrid_cPt : case Hexagon::LDrid_cNotPt : case Hexagon::LDrid_indexed_cPt : case Hexagon::LDrid_indexed_cNotPt : case Hexagon::LDriw_cPt : case Hexagon::LDriw_cNotPt : case Hexagon::LDriw_indexed_cPt : case Hexagon::LDriw_indexed_cNotPt : case Hexagon::LDrih_cPt : case Hexagon::LDrih_cNotPt : case Hexagon::LDrih_indexed_cPt : case Hexagon::LDrih_indexed_cNotPt : case Hexagon::LDrib_cPt : case Hexagon::LDrib_cNotPt : case Hexagon::LDrib_indexed_cPt : case Hexagon::LDrib_indexed_cNotPt : case Hexagon::LDriuh_cPt : case Hexagon::LDriuh_cNotPt : case Hexagon::LDriuh_indexed_cPt : case Hexagon::LDriuh_indexed_cNotPt : case Hexagon::LDriub_cPt : case Hexagon::LDriub_cNotPt : case Hexagon::LDriub_indexed_cPt : case Hexagon::LDriub_indexed_cNotPt : return true; case Hexagon::POST_LDrid_cPt : case Hexagon::POST_LDrid_cNotPt : case Hexagon::POST_LDriw_cPt : case Hexagon::POST_LDriw_cNotPt : case Hexagon::POST_LDrih_cPt : case Hexagon::POST_LDrih_cNotPt : case Hexagon::POST_LDrib_cPt : case Hexagon::POST_LDrib_cNotPt : case Hexagon::POST_LDriuh_cPt : case Hexagon::POST_LDriuh_cNotPt : case Hexagon::POST_LDriub_cPt : case Hexagon::POST_LDriub_cNotPt : return QRI.Subtarget.hasV4TOps(); case Hexagon::LDrid_indexed_cPt_V4 : case Hexagon::LDrid_indexed_cNotPt_V4 : case Hexagon::LDrid_indexed_shl_cPt_V4 : case Hexagon::LDrid_indexed_shl_cNotPt_V4 : case Hexagon::LDrib_indexed_cPt_V4 : case Hexagon::LDrib_indexed_cNotPt_V4 : case Hexagon::LDrib_indexed_shl_cPt_V4 : case Hexagon::LDrib_indexed_shl_cNotPt_V4 : case Hexagon::LDriub_indexed_cPt_V4 : case Hexagon::LDriub_indexed_cNotPt_V4 : case Hexagon::LDriub_indexed_shl_cPt_V4 : case Hexagon::LDriub_indexed_shl_cNotPt_V4 : case Hexagon::LDrih_indexed_cPt_V4 : case Hexagon::LDrih_indexed_cNotPt_V4 : case Hexagon::LDrih_indexed_shl_cPt_V4 : case Hexagon::LDrih_indexed_shl_cNotPt_V4 : case Hexagon::LDriuh_indexed_cPt_V4 : case Hexagon::LDriuh_indexed_cNotPt_V4 : case Hexagon::LDriuh_indexed_shl_cPt_V4 : case Hexagon::LDriuh_indexed_shl_cNotPt_V4 : case Hexagon::LDriw_indexed_cPt_V4 : case Hexagon::LDriw_indexed_cNotPt_V4 : case Hexagon::LDriw_indexed_shl_cPt_V4 : case Hexagon::LDriw_indexed_shl_cNotPt_V4 : return QRI.Subtarget.hasV4TOps(); } } // Returns true if an instruction is a conditional store. // // Note: It doesn't include conditional new-value stores as they can't be // converted to .new predicate. // // p.new NV store [ if(p0.new)memw(R0+#0)=R2.new ] // ^ ^ // / \ (not OK. it will cause new-value store to be // / X conditional on p0.new while R2 producer is // / \ on p0) // / \. // p.new store p.old NV store // [if(p0.new)memw(R0+#0)=R2] [if(p0)memw(R0+#0)=R2.new] // ^ ^ // \ / // \ / // \ / // p.old store // [if (p0)memw(R0+#0)=R2] // // The above diagram shows the steps involoved in the conversion of a predicated // store instruction to its .new predicated new-value form. // // The following set of instructions further explains the scenario where // conditional new-value store becomes invalid when promoted to .new predicate // form. // // { 1) if (p0) r0 = add(r1, r2) // 2) p0 = cmp.eq(r3, #0) } // // 3) if (p0) memb(r1+#0) = r0 --> this instruction can't be grouped with // the first two instructions because in instr 1, r0 is conditional on old value // of p0 but its use in instr 3 is conditional on p0 modified by instr 2 which // is not valid for new-value stores. bool HexagonInstrInfo:: isConditionalStore (const MachineInstr* MI) const { const HexagonRegisterInfo& QRI = getRegisterInfo(); switch (MI->getOpcode()) { default: return false; case Hexagon::STrib_imm_cPt_V4 : case Hexagon::STrib_imm_cNotPt_V4 : case Hexagon::STrib_indexed_shl_cPt_V4 : case Hexagon::STrib_indexed_shl_cNotPt_V4 : case Hexagon::STrib_cPt : case Hexagon::STrib_cNotPt : case Hexagon::POST_STbri_cPt : case Hexagon::POST_STbri_cNotPt : case Hexagon::STrid_indexed_cPt : case Hexagon::STrid_indexed_cNotPt : case Hexagon::STrid_indexed_shl_cPt_V4 : case Hexagon::POST_STdri_cPt : case Hexagon::POST_STdri_cNotPt : case Hexagon::STrih_cPt : case Hexagon::STrih_cNotPt : case Hexagon::STrih_indexed_cPt : case Hexagon::STrih_indexed_cNotPt : case Hexagon::STrih_imm_cPt_V4 : case Hexagon::STrih_imm_cNotPt_V4 : case Hexagon::STrih_indexed_shl_cPt_V4 : case Hexagon::STrih_indexed_shl_cNotPt_V4 : case Hexagon::POST_SThri_cPt : case Hexagon::POST_SThri_cNotPt : case Hexagon::STriw_cPt : case Hexagon::STriw_cNotPt : case Hexagon::STriw_indexed_cPt : case Hexagon::STriw_indexed_cNotPt : case Hexagon::STriw_imm_cPt_V4 : case Hexagon::STriw_imm_cNotPt_V4 : case Hexagon::STriw_indexed_shl_cPt_V4 : case Hexagon::STriw_indexed_shl_cNotPt_V4 : case Hexagon::POST_STwri_cPt : case Hexagon::POST_STwri_cNotPt : return QRI.Subtarget.hasV4TOps(); // V4 global address store before promoting to dot new. case Hexagon::STrid_GP_cPt_V4 : case Hexagon::STrid_GP_cNotPt_V4 : case Hexagon::STrib_GP_cPt_V4 : case Hexagon::STrib_GP_cNotPt_V4 : case Hexagon::STrih_GP_cPt_V4 : case Hexagon::STrih_GP_cNotPt_V4 : case Hexagon::STriw_GP_cPt_V4 : case Hexagon::STriw_GP_cNotPt_V4 : case Hexagon::STd_GP_cPt_V4 : case Hexagon::STd_GP_cNotPt_V4 : case Hexagon::STb_GP_cPt_V4 : case Hexagon::STb_GP_cNotPt_V4 : case Hexagon::STh_GP_cPt_V4 : case Hexagon::STh_GP_cNotPt_V4 : case Hexagon::STw_GP_cPt_V4 : case Hexagon::STw_GP_cNotPt_V4 : return QRI.Subtarget.hasV4TOps(); // Predicated new value stores (i.e. if (p0) memw(..)=r0.new) are excluded // from the "Conditional Store" list. Because a predicated new value store // would NOT be promoted to a double dot new store. See diagram below: // This function returns yes for those stores that are predicated but not // yet promoted to predicate dot new instructions. // // +---------------------+ // /-----| if (p0) memw(..)=r0 |---------\~ // || +---------------------+ || // promote || /\ /\ || promote // || /||\ /||\ || // \||/ demote || \||/ // \/ || || \/ // +-------------------------+ || +-------------------------+ // | if (p0.new) memw(..)=r0 | || | if (p0) memw(..)=r0.new | // +-------------------------+ || +-------------------------+ // || || || // || demote \||/ // promote || \/ NOT possible // || || /\~ // \||/ || /||\~ // \/ || || // +-----------------------------+ // | if (p0.new) memw(..)=r0.new | // +-----------------------------+ // Double Dot New Store // } } DFAPacketizer *HexagonInstrInfo:: CreateTargetScheduleState(const TargetMachine *TM, const ScheduleDAG *DAG) const { const InstrItineraryData *II = TM->getInstrItineraryData(); return TM->getSubtarget().createDFAPacketizer(II); } bool HexagonInstrInfo::isSchedulingBoundary(const MachineInstr *MI, const MachineBasicBlock *MBB, const MachineFunction &MF) const { // Debug info is never a scheduling boundary. It's necessary to be explicit // due to the special treatment of IT instructions below, otherwise a // dbg_value followed by an IT will result in the IT instruction being // considered a scheduling hazard, which is wrong. It should be the actual // instruction preceding the dbg_value instruction(s), just like it is // when debug info is not present. if (MI->isDebugValue()) return false; // Terminators and labels can't be scheduled around. if (MI->getDesc().isTerminator() || MI->isLabel() || MI->isInlineAsm()) return true; return false; }