mirror of
https://github.com/c64scene-ar/llvm-6502.git
synced 2024-07-19 03:29:22 +00:00
Added 'r' or 'i' annotations to instructions, as SparcInstr.def has changed.
git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@6373 91177308-0d34-0410-b5e6-96231b3b80d8
This commit is contained in:
Misha Brukman
parent
24b22a18ec
commit
71ed1c997b
@ -309,7 +309,8 @@ private :
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unsigned getOperandMask(unsigned Opcode) {
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switch (Opcode) {
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case V9::SUBcc: return 1 << 3; // Remove CC argument
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case V9::SUBccr:
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case V9::SUBcci: return 1 << 3; // Remove CC argument
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//case BA: return 1 << 0; // Remove Arg #0, which is always null or xcc
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default: return 0; // By default, don't hack operands...
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}
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@ -320,8 +321,10 @@ inline bool
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SparcFunctionAsmPrinter::OpIsBranchTargetLabel(const MachineInstr *MI,
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unsigned int opNum) {
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switch (MI->getOpCode()) {
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case V9::JMPLCALL:
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case V9::JMPLRET:
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case V9::JMPLCALLr:
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case V9::JMPLCALLi:
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case V9::JMPLRETr:
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case V9::JMPLRETi:
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return (opNum == 0);
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default:
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return false;
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@ -108,12 +108,12 @@ CreateSETUWConst(const TargetMachine& target, uint32_t C,
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if (miSETHI==NULL || C & MAXLO) {
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if (miSETHI) {
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// unsigned value with high-order bits set using SETHI
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miOR = BuildMI(V9::OR,3).addReg(dest).addZImm(C).addRegDef(dest);
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miOR = BuildMI(V9::ORi,3).addReg(dest).addZImm(C).addRegDef(dest);
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miOR->setOperandLo32(1);
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} else {
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// unsigned or small signed value that fits in simm13 field of OR
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assert(smallNegValue || (C & ~MAXSIMM) == 0);
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miOR = BuildMI(V9::OR, 3).addMReg(target.getRegInfo()
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miOR = BuildMI(V9::ORi, 3).addMReg(target.getRegInfo()
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.getZeroRegNum())
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.addSImm(sC).addRegDef(dest);
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}
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@ -145,7 +145,7 @@ CreateSETSWConst(const TargetMachine& target, int32_t C,
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// Sign-extend to the high 32 bits if needed.
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// NOTE: The value C = 0x80000000 is bad: -C == C and so -C is < MAXSIMM
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if (C < 0 && (C == -C || -C > (int32_t) MAXSIMM))
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mvec.push_back(BuildMI(V9::SRA, 3).addReg(dest).addZImm(0).addRegDef(dest));
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mvec.push_back(BuildMI(V9::SRAi6, 3).addReg(dest).addZImm(0).addRegDef(dest));
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}
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@ -172,14 +172,14 @@ CreateSETXConst(const TargetMachine& target, uint64_t C,
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CreateSETUWConst(target, (C >> 32), tmpReg, mvec);
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// Shift tmpReg left by 32 bits
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mvec.push_back(BuildMI(V9::SLLX, 3).addReg(tmpReg).addZImm(32)
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mvec.push_back(BuildMI(V9::SLLXi6, 3).addReg(tmpReg).addZImm(32)
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.addRegDef(tmpReg));
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// Code to set the low 32 bits of the value in register `dest'
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CreateSETUWConst(target, C, dest, mvec);
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// dest = OR(tmpReg, dest)
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mvec.push_back(BuildMI(V9::OR,3).addReg(dest).addReg(tmpReg).addRegDef(dest));
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mvec.push_back(BuildMI(V9::ORr,3).addReg(dest).addReg(tmpReg).addRegDef(dest));
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}
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@ -201,7 +201,7 @@ CreateSETUWLabel(const TargetMachine& target, Value* val,
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mvec.push_back(MI);
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// Set the low 10 bits in dest
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MI = BuildMI(V9::OR, 3).addReg(dest).addReg(val).addRegDef(dest);
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MI = BuildMI(V9::ORr, 3).addReg(dest).addReg(val).addRegDef(dest);
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MI->setOperandLo32(1);
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mvec.push_back(MI);
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}
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@ -227,20 +227,20 @@ CreateSETXLabel(const TargetMachine& target,
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MI->setOperandHi64(0);
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mvec.push_back(MI);
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MI = BuildMI(V9::OR, 3).addReg(tmpReg).addPCDisp(val).addRegDef(tmpReg);
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MI = BuildMI(V9::ORi, 3).addReg(tmpReg).addPCDisp(val).addRegDef(tmpReg);
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MI->setOperandLo64(1);
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mvec.push_back(MI);
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mvec.push_back(BuildMI(V9::SLLX, 3).addReg(tmpReg).addZImm(32)
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mvec.push_back(BuildMI(V9::SLLXi6, 3).addReg(tmpReg).addZImm(32)
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.addRegDef(tmpReg));
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MI = BuildMI(V9::SETHI, 2).addPCDisp(val).addRegDef(dest);
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MI->setOperandHi32(0);
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mvec.push_back(MI);
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MI = BuildMI(V9::OR, 3).addReg(dest).addReg(tmpReg).addRegDef(dest);
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MI = BuildMI(V9::ORr, 3).addReg(dest).addReg(tmpReg).addRegDef(dest);
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mvec.push_back(MI);
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MI = BuildMI(V9::OR, 3).addReg(dest).addPCDisp(val).addRegDef(dest);
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MI = BuildMI(V9::ORi, 3).addReg(dest).addPCDisp(val).addRegDef(dest);
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MI->setOperandLo32(1);
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mvec.push_back(MI);
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}
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@ -311,20 +311,20 @@ MaxConstantForInstr(unsigned llvmOpCode)
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if (llvmOpCode >= Instruction::BinaryOpsBegin &&
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llvmOpCode < Instruction::BinaryOpsEnd)
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modelOpCode = V9::ADD;
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modelOpCode = V9::ADDi;
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else
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switch(llvmOpCode) {
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case Instruction::Ret: modelOpCode = V9::JMPLCALL; break;
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case Instruction::Ret: modelOpCode = V9::JMPLCALLi; break;
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case Instruction::Malloc:
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case Instruction::Alloca:
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case Instruction::GetElementPtr:
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case Instruction::PHINode:
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case Instruction::Cast:
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case Instruction::Call: modelOpCode = V9::ADD; break;
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case Instruction::Call: modelOpCode = V9::ADDi; break;
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case Instruction::Shl:
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case Instruction::Shr: modelOpCode = V9::SLLX; break;
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case Instruction::Shr: modelOpCode = V9::SLLXi6; break;
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default: break;
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};
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@ -673,12 +673,12 @@ CreateBitExtensionInstructions(bool signExtend,
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TmpInstruction *tmpI = new TmpInstruction(destVal->getType(),
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srcVal, destVal, "make32");
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mcfi.addTemp(tmpI);
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mvec.push_back(BuildMI(V9::SLLX, 3).addReg(srcVal)
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mvec.push_back(BuildMI(V9::SLLXi6, 3).addReg(srcVal)
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.addZImm(32-numLowBits).addRegDef(tmpI));
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srcVal = tmpI;
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}
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mvec.push_back(BuildMI(signExtend? V9::SRA : V9::SRL, 3)
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mvec.push_back(BuildMI(signExtend? V9::SRAi6 : V9::SRLi6, 3)
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.addReg(srcVal).addZImm(32-numLowBits).addRegDef(destVal));
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}
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@ -63,9 +63,9 @@ void InsertPrologEpilogCode::InsertPrologCode(MachineFunction &MF)
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int32_t C = - (int) staticStackSize;
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int SP = TM.getRegInfo().getStackPointer();
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if (TM.getInstrInfo().constantFitsInImmedField(V9::SAVE,staticStackSize)) {
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mvec.push_back(BuildMI(V9::SAVE, 3).addMReg(SP).addSImm(C).addMReg(SP,
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MOTy::Def));
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if (TM.getInstrInfo().constantFitsInImmedField(V9::SAVEi,staticStackSize)) {
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mvec.push_back(BuildMI(V9::SAVEi, 3).addMReg(SP).addSImm(C)
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.addMReg(SP, MOTy::Def));
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} else {
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// We have to put the stack size value into a register before SAVE.
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// Use register %g1 since it is volatile across calls. Note that the
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@ -81,17 +81,17 @@ void InsertPrologEpilogCode::InsertPrologCode(MachineFunction &MF)
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M->setOperandHi32(0);
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mvec.push_back(M);
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M = BuildMI(V9::OR, 3).addMReg(uregNum).addSImm(C)
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M = BuildMI(V9::ORi, 3).addMReg(uregNum).addSImm(C)
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.addMReg(uregNum, MOTy::Def);
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M->setOperandLo32(1);
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mvec.push_back(M);
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M = BuildMI(V9::SRA, 3).addMReg(uregNum).addZImm(0)
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M = BuildMI(V9::SRAi6, 3).addMReg(uregNum).addZImm(0)
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.addMReg(uregNum, MOTy::Def);
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mvec.push_back(M);
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// Now generate the SAVE using the value in register %g1
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M = BuildMI(V9::SAVE, 3).addMReg(SP).addMReg(uregNum).addMReg(SP,MOTy::Def);
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M = BuildMI(V9::SAVEr,3).addMReg(SP).addMReg(uregNum).addMReg(SP,MOTy::Def);
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mvec.push_back(M);
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}
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@ -116,7 +116,7 @@ void InsertPrologEpilogCode::InsertPrologCode(MachineFunction &MF)
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int nextArgOffset = firstArgOffset + numFixedArgs * argSize;
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for (int i=numFixedArgs; i < numArgRegs; ++i) {
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mvec.push_back(BuildMI(V9::STX, 3).addMReg(firstArgReg+i).
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mvec.push_back(BuildMI(V9::STXi, 3).addMReg(firstArgReg+i).
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addMReg(fpReg).addSImm(nextArgOffset));
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nextArgOffset += argSize;
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}
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@ -139,7 +139,7 @@ void InsertPrologEpilogCode::InsertEpilogCode(MachineFunction &MF)
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{
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int ZR = TM.getRegInfo().getZeroRegNum();
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MachineInstr *Restore =
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BuildMI(V9::RESTORE, 3).addMReg(ZR).addSImm(0).addMReg(ZR, MOTy::Def);
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BuildMI(V9::RESTOREi, 3).addMReg(ZR).addSImm(0).addMReg(ZR, MOTy::Def);
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MachineCodeForInstruction &termMvec =
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MachineCodeForInstruction::get(TermInst);
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