llvm/test/TableGen/GlobalISelEmitter/gisel-physreg-input.td - rust-lang/llvm-project - Git at Google

 // RUN: llvm-tblgen -gen-global-isel -optimize-match-table=false -I %p/../../../include %s | FileCheck -check-prefix=GISEL %s

 include "llvm/Target/Target.td"

 def TestTargetInstrInfo : InstrInfo;

 def TestTarget : Target {
   let InstructionSet = TestTargetInstrInfo;
 }

 def R0 : Register<"r0"> { let Namespace = "MyTarget"; }
 def SPECIAL : Register<"special"> { let Namespace = "MyTarget"; }
 def GPR32 : RegisterClass<"MyTarget", [i32], 32, (add R0)>;
 def Special32 : RegisterClass<"MyTarget", [i32], 32, (add SPECIAL)>;


 class I<dag OOps, dag IOps, list<dag> Pat>
   : Instruction {
   let Namespace = "MyTarget";
   let OutOperandList = OOps;
   let InOperandList = IOps;
   let Pattern = Pat;
 }

 // Try a nested physical register

 // GISEL: GIM_Try,
 // GISEL-NEXT: GIM_CheckNumOperands, /*MI*/0, /*Expected*/2,
 // GISEL-NEXT: GIM_CheckOpcode, /*MI*/0, GIMT_Encode2(TargetOpcode::G_STORE),
 // GISEL-NEXT: GIM_CheckAtomicOrdering, /*MI*/0, /*Order*/(uint8_t)AtomicOrdering::NotAtomic,
 // GISEL-NEXT: // MIs[0] src0
 // GISEL-NEXT: GIM_RootCheckType, /*Op*/0, /*Type*/GILLT_s32,
 // GISEL-NEXT: GIM_RootCheckRegBankForClass, /*Op*/0, /*RC*/GIMT_Encode2(MyTarget::GPR32RegClassID),
 // GISEL-NEXT: // MIs[0] Operand 1
 // GISEL-NEXT: GIM_CheckPointerToAny, /*MI*/0, /*Op*/1, /*SizeInBits*/32,
 // GISEL-NEXT: GIM_RecordInsn, /*DefineMI*/1, /*MI*/0, /*OpIdx*/1, // MIs[1]
 // GISEL-NEXT: GIM_CheckNumOperands, /*MI*/1, /*Expected*/3,
 // GISEL-NEXT: GIM_CheckOpcode, /*MI*/1, GIMT_Encode2(TargetOpcode::G_MUL),
 // GISEL-NEXT: // MIs[1] Operand 0
 // GISEL-NEXT: GIM_CheckType, /*MI*/1, /*Op*/0, /*Type*/GILLT_s32,
 // GISEL-NEXT: // MIs[1] src1
 // GISEL-NEXT: GIM_CheckType, /*MI*/1, /*Op*/1, /*Type*/GILLT_s32,
 // GISEL-NEXT: GIM_CheckRegBankForClass, /*MI*/1, /*Op*/1, /*RC*/GIMT_Encode2(MyTarget::GPR32RegClassID),
 // GISEL-NEXT: // MIs[1] Operand 2
 // GISEL-NEXT: GIM_CheckType, /*MI*/1, /*Op*/2, /*Type*/GILLT_s32,
 // GISEL-NEXT: GIM_CheckRegBankForClass, /*MI*/1, /*Op*/2, /*RC*/GIMT_Encode2(MyTarget::Special32RegClassID),
 // GISEL-NEXT: GIM_CheckIsSafeToFold, /*NumInsns*/1,
 // GISEL-NEXT: // (st GPR32:{ *:[i32] }:$src0, (mul:{ *:[i32] } GPR32:{ *:[i32] }:$src1, SPECIAL:{ *:[i32] }))  =>  (MULM_PHYS GPR32:{ *:[i32] }:$src0, GPR32:{ *:[i32] }:$src1)
 // GISEL-NEXT: GIR_BuildMI, /*InsnID*/1, /*Opcode*/GIMT_Encode2(TargetOpcode::COPY),
 // GISEL-NEXT: GIR_AddRegister, /*InsnID*/1, GIMT_Encode2(MyTarget::SPECIAL), /*AddRegisterRegFlags*/GIMT_Encode2(RegState::Define),
 // GISEL-NEXT: GIR_Copy, /*NewInsnID*/1, /*OldInsnID*/1, /*OpIdx*/2, // SPECIAL
 // GISEL-NEXT: GIR_BuildRootMI, /*Opcode*/GIMT_Encode2(MyTarget::MULM_PHYS),
 // GISEL-NEXT: GIR_RootToRootCopy, /*OpIdx*/0, // src0
 // GISEL-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/1, /*OpIdx*/1, // src1
 // GISEL-NEXT: GIR_MergeMemOperands, /*InsnID*/0, /*NumInsns*/2, /*MergeInsnID's*/0, 1,
 // GISEL-NEXT: GIR_RootConstrainSelectedInstOperands,
 // GISEL-NEXT: // GIR_Coverage, 0,
 // GISEL-NEXT: GIR_EraseRootFromParent_Done,
 def MULM_PHYS : I<(outs), (ins GPR32:$src0, GPR32:$src1),
     [(st GPR32:$src0, (mul GPR32:$src1, SPECIAL))]> {
   let Uses = [SPECIAL];
 }

 // Try nested physical registers and check on duplicated copies

 // GISEL: GIM_Try,
 // GISEL-NEXT: GIM_CheckNumOperands, /*MI*/0, /*Expected*/2,
 // GISEL-NEXT: GIM_CheckOpcode, /*MI*/0, GIMT_Encode2(TargetOpcode::G_STORE),
 // GISEL-NEXT: GIM_CheckAtomicOrdering, /*MI*/0, /*Order*/(uint8_t)AtomicOrdering::NotAtomic,
 // GISEL-NEXT: // MIs[0] src0
 // GISEL-NEXT: GIM_RootCheckType, /*Op*/0, /*Type*/GILLT_s32,
 // GISEL-NEXT: GIM_RootCheckRegBankForClass, /*Op*/0, /*RC*/GIMT_Encode2(MyTarget::GPR32RegClassID),
 // GISEL-NEXT: // MIs[0] Operand 1
 // GISEL-NEXT: GIM_CheckPointerToAny, /*MI*/0, /*Op*/1, /*SizeInBits*/32,
 // GISEL-NEXT: GIM_RecordInsn, /*DefineMI*/1, /*MI*/0, /*OpIdx*/1, // MIs[1]
 // GISEL-NEXT: GIM_CheckNumOperands, /*MI*/1, /*Expected*/3,
 // GISEL-NEXT: GIM_CheckOpcode, /*MI*/1, GIMT_Encode2(TargetOpcode::G_MUL),
 // GISEL-NEXT: // MIs[1] Operand 0
 // GISEL-NEXT: GIM_CheckType, /*MI*/1, /*Op*/0, /*Type*/GILLT_s32,
 // GISEL-NEXT: // MIs[1] Operand 1
 // GISEL-NEXT: GIM_CheckType, /*MI*/1, /*Op*/1, /*Type*/GILLT_s32,
 // GISEL-NEXT: GIM_CheckRegBankForClass, /*MI*/1, /*Op*/1, /*RC*/GIMT_Encode2(MyTarget::GPR32RegClassID),
 // GISEL-NEXT: // MIs[1] Operand 2
 // GISEL-NEXT: GIM_CheckType, /*MI*/1, /*Op*/2, /*Type*/GILLT_s32,
 // GISEL-NEXT: GIM_CheckRegBankForClass, /*MI*/1, /*Op*/2, /*RC*/GIMT_Encode2(MyTarget::Special32RegClassID),
 // GISEL-NEXT: GIM_CheckIsSafeToFold, /*NumInsns*/1,
 // GISEL-NEXT: // (st GPR32:{ *:[i32] }:$src0, (mul:{ *:[i32] } R0:{ *:[i32] }, SPECIAL:{ *:[i32] }))  =>  (MULMR0_PHYS GPR32:{ *:[i32] }:$src0)
 // GISEL-NEXT: GIR_BuildMI, /*InsnID*/2, /*Opcode*/GIMT_Encode2(TargetOpcode::COPY),
 // GISEL-NEXT: GIR_AddRegister, /*InsnID*/2, GIMT_Encode2(MyTarget::SPECIAL), /*AddRegisterRegFlags*/GIMT_Encode2(RegState::Define),
 // GISEL-NEXT: GIR_Copy, /*NewInsnID*/2, /*OldInsnID*/1, /*OpIdx*/2, // SPECIAL
 // GISEL-NEXT: GIR_BuildMI, /*InsnID*/1, /*Opcode*/GIMT_Encode2(TargetOpcode::COPY),
 // GISEL-NEXT: GIR_AddRegister, /*InsnID*/1, GIMT_Encode2(MyTarget::R0), /*AddRegisterRegFlags*/GIMT_Encode2(RegState::Define),
 // GISEL-NEXT: GIR_Copy, /*NewInsnID*/1, /*OldInsnID*/1, /*OpIdx*/1, // R0
 // GISEL-NEXT: GIR_BuildRootMI, /*Opcode*/GIMT_Encode2(MyTarget::MULMR0_PHYS),
 // GISEL-NEXT: GIR_RootToRootCopy, /*OpIdx*/0, // src0
 // GISEL-NEXT: GIR_MergeMemOperands, /*InsnID*/0, /*NumInsns*/2, /*MergeInsnID's*/0, 1,
 // GISEL-NEXT: GIR_RootConstrainSelectedInstOperands,
 // GISEL-NEXT: // GIR_Coverage, 1,
 // GISEL-NEXT: GIR_EraseRootFromParent_Done,
 def MULMR0_PHYS : I<(outs), (ins GPR32:$src0),
     [(st GPR32:$src0, (mul R0, SPECIAL))]> {
   let Uses = [R0, SPECIAL];
 }

 // Try a normal physical register use.

 // GISEL: GIM_Try,
 // GISEL-NEXT: GIM_CheckNumOperands, /*MI*/0, /*Expected*/3,
 // GISEL-NEXT: GIM_CheckOpcode, /*MI*/0, GIMT_Encode2(TargetOpcode::G_ADD),
 // GISEL-NEXT: // MIs[0] DstI[dst]
 // GISEL-NEXT: GIM_RootCheckType, /*Op*/0, /*Type*/GILLT_s32,
 // GISEL-NEXT: GIM_RootCheckRegBankForClass, /*Op*/0, /*RC*/GIMT_Encode2(MyTarget::GPR32RegClassID),
 // GISEL-NEXT: // MIs[0] src0
 // GISEL-NEXT: GIM_RootCheckType, /*Op*/1, /*Type*/GILLT_s32,
 // GISEL-NEXT: GIM_RootCheckRegBankForClass, /*Op*/1, /*RC*/GIMT_Encode2(MyTarget::GPR32RegClassID),
 // GISEL-NEXT: // MIs[0] Operand 2
 // GISEL-NEXT: GIM_RootCheckType, /*Op*/2, /*Type*/GILLT_s32,
 // GISEL-NEXT: GIM_RootCheckRegBankForClass, /*Op*/2, /*RC*/GIMT_Encode2(MyTarget::Special32RegClassID),
 // GISEL-NEXT: // (add:{ *:[i32] } GPR32:{ *:[i32] }:$src0, SPECIAL:{ *:[i32] })  =>  (ADD_PHYS:{ *:[i32] } GPR32:{ *:[i32] }:$src0)
 // GISEL-NEXT: GIR_BuildMI, /*InsnID*/1, /*Opcode*/GIMT_Encode2(TargetOpcode::COPY),
 // GISEL-NEXT: GIR_AddRegister, /*InsnID*/1, GIMT_Encode2(MyTarget::SPECIAL), /*AddRegisterRegFlags*/GIMT_Encode2(RegState::Define),
 // GISEL-NEXT: GIR_Copy, /*NewInsnID*/1, /*OldInsnID*/0, /*OpIdx*/2, // SPECIAL
 // GISEL-NEXT: GIR_BuildRootMI, /*Opcode*/GIMT_Encode2(MyTarget::ADD_PHYS),
 // GISEL-NEXT: GIR_RootToRootCopy, /*OpIdx*/0, // DstI[dst]
 // GISEL-NEXT: GIR_RootToRootCopy, /*OpIdx*/1, // src0
 // GISEL-NEXT: GIR_RootConstrainSelectedInstOperands,
 // GISEL-NEXT: // GIR_Coverage, 2,
 // GISEL-NEXT: GIR_EraseRootFromParent_Done,
 def ADD_PHYS : I<(outs GPR32:$dst), (ins GPR32:$src0),
     [(set GPR32:$dst, (add GPR32:$src0, SPECIAL))]> {
   let Uses = [SPECIAL];
 }

 // Try using the name of the physreg in another operand.

 // GISEL: GIM_Try,
 // GISEL-NEXT: GIM_CheckNumOperands, /*MI*/0, /*Expected*/3,
 // GISEL-NEXT: GIM_CheckOpcode, /*MI*/0, GIMT_Encode2(TargetOpcode::G_MUL),
 // GISEL-NEXT: // MIs[0] DstI[dst]
 // GISEL-NEXT: GIM_RootCheckType, /*Op*/0, /*Type*/GILLT_s32,
 // GISEL-NEXT: GIM_RootCheckRegBankForClass, /*Op*/0, /*RC*/GIMT_Encode2(MyTarget::GPR32RegClassID),
 // GISEL-NEXT: // MIs[0] SPECIAL
 // GISEL-NEXT: GIM_RootCheckType, /*Op*/1, /*Type*/GILLT_s32,
 // GISEL-NEXT: GIM_RootCheckRegBankForClass, /*Op*/1, /*RC*/GIMT_Encode2(MyTarget::GPR32RegClassID),
 // GISEL-NEXT: // MIs[0] Operand 2
 // GISEL-NEXT: GIM_RootCheckType, /*Op*/2, /*Type*/GILLT_s32,
 // GISEL-NEXT: GIM_RootCheckRegBankForClass, /*Op*/2, /*RC*/GIMT_Encode2(MyTarget::Special32RegClassID),
 // GISEL-NEXT: // (mul:{ *:[i32] } GPR32:{ *:[i32] }:$SPECIAL, SPECIAL:{ *:[i32] })  =>  (MUL_PHYS:{ *:[i32] } GPR32:{ *:[i32] }:$SPECIAL)
 // GISEL-NEXT: GIR_BuildMI, /*InsnID*/1, /*Opcode*/GIMT_Encode2(TargetOpcode::COPY),
 // GISEL-NEXT: GIR_AddRegister, /*InsnID*/1, GIMT_Encode2(MyTarget::SPECIAL), /*AddRegisterRegFlags*/GIMT_Encode2(RegState::Define),
 // GISEL-NEXT: GIR_Copy, /*NewInsnID*/1, /*OldInsnID*/0, /*OpIdx*/2, // SPECIAL
 // GISEL-NEXT: GIR_BuildRootMI, /*Opcode*/GIMT_Encode2(MyTarget::MUL_PHYS),
 // GISEL-NEXT: GIR_RootToRootCopy, /*OpIdx*/0, // DstI[dst]
 // GISEL-NEXT: GIR_RootToRootCopy, /*OpIdx*/1, // SPECIAL
 // GISEL-NEXT: GIR_RootConstrainSelectedInstOperands,
 // GISEL-NEXT: // GIR_Coverage, 3,
 // GISEL-NEXT: GIR_EraseRootFromParent_Done,
 def MUL_PHYS : I<(outs GPR32:$dst), (ins GPR32:$SPECIAL),
     [(set GPR32:$dst, (mul GPR32:$SPECIAL, SPECIAL))]> {
   let Uses = [SPECIAL];
 }

 // Try giving the physical operand a name
 // def ADD_PHYS : I<(outs GPR32:$dst), (ins GPR32:$src0),
 //     [(set GPR32:$dst, (add GPR32:$src0, SPECIAL:$special))]> {
 //   let Uses = [SPECIAL];
 // }
	// RUN: llvm-tblgen -gen-global-isel -optimize-match-table=false -I %p/../../../include %s \| FileCheck -check-prefix=GISEL %s

	include "llvm/Target/Target.td"

	def TestTargetInstrInfo : InstrInfo;

	def TestTarget : Target {
	let InstructionSet = TestTargetInstrInfo;
	}

	def R0 : Register<"r0"> { let Namespace = "MyTarget"; }
	def SPECIAL : Register<"special"> { let Namespace = "MyTarget"; }
	def GPR32 : RegisterClass<"MyTarget", [i32], 32, (add R0)>;
	def Special32 : RegisterClass<"MyTarget", [i32], 32, (add SPECIAL)>;


	class I<dag OOps, dag IOps, list<dag> Pat>
	: Instruction {
	let Namespace = "MyTarget";
	let OutOperandList = OOps;
	let InOperandList = IOps;
	let Pattern = Pat;
	}

	// Try a nested physical register

	// GISEL: GIM_Try,
	// GISEL-NEXT: GIM_CheckNumOperands, /MI/0, /Expected/2,
	// GISEL-NEXT: GIM_CheckOpcode, /MI/0, GIMT_Encode2(TargetOpcode::G_STORE),
	// GISEL-NEXT: GIM_CheckAtomicOrdering, /MI/0, /Order/(uint8_t)AtomicOrdering::NotAtomic,
	// GISEL-NEXT: // MIs[0] src0
	// GISEL-NEXT: GIM_RootCheckType, /Op/0, /Type/GILLT_s32,
	// GISEL-NEXT: GIM_RootCheckRegBankForClass, /Op/0, /RC/GIMT_Encode2(MyTarget::GPR32RegClassID),
	// GISEL-NEXT: // MIs[0] Operand 1
	// GISEL-NEXT: GIM_CheckPointerToAny, /MI/0, /Op/1, /SizeInBits/32,
	// GISEL-NEXT: GIM_RecordInsn, /DefineMI/1, /MI/0, /OpIdx/1, // MIs[1]
	// GISEL-NEXT: GIM_CheckNumOperands, /MI/1, /Expected/3,
	// GISEL-NEXT: GIM_CheckOpcode, /MI/1, GIMT_Encode2(TargetOpcode::G_MUL),
	// GISEL-NEXT: // MIs[1] Operand 0
	// GISEL-NEXT: GIM_CheckType, /MI/1, /Op/0, /Type/GILLT_s32,
	// GISEL-NEXT: // MIs[1] src1
	// GISEL-NEXT: GIM_CheckType, /MI/1, /Op/1, /Type/GILLT_s32,
	// GISEL-NEXT: GIM_CheckRegBankForClass, /MI/1, /Op/1, /RC/GIMT_Encode2(MyTarget::GPR32RegClassID),
	// GISEL-NEXT: // MIs[1] Operand 2
	// GISEL-NEXT: GIM_CheckType, /MI/1, /Op/2, /Type/GILLT_s32,
	// GISEL-NEXT: GIM_CheckRegBankForClass, /MI/1, /Op/2, /RC/GIMT_Encode2(MyTarget::Special32RegClassID),
	// GISEL-NEXT: GIM_CheckIsSafeToFold, /NumInsns/1,
	// GISEL-NEXT: // (st GPR32:{ :[i32] }:$src0, (mul:{ :[i32] } GPR32:{ :[i32] }:$src1, SPECIAL:{ :[i32] })) => (MULM_PHYS GPR32:{ :[i32] }:$src0, GPR32:{ :[i32] }:$src1)
	// GISEL-NEXT: GIR_BuildMI, /InsnID/1, /Opcode/GIMT_Encode2(TargetOpcode::COPY),
	// GISEL-NEXT: GIR_AddRegister, /InsnID/1, GIMT_Encode2(MyTarget::SPECIAL), /AddRegisterRegFlags/GIMT_Encode2(RegState::Define),
	// GISEL-NEXT: GIR_Copy, /NewInsnID/1, /OldInsnID/1, /OpIdx/2, // SPECIAL
	// GISEL-NEXT: GIR_BuildRootMI, /Opcode/GIMT_Encode2(MyTarget::MULM_PHYS),
	// GISEL-NEXT: GIR_RootToRootCopy, /OpIdx/0, // src0
	// GISEL-NEXT: GIR_Copy, /NewInsnID/0, /OldInsnID/1, /OpIdx/1, // src1
	// GISEL-NEXT: GIR_MergeMemOperands, /InsnID/0, /NumInsns/2, /MergeInsnID's/0, 1,
	// GISEL-NEXT: GIR_RootConstrainSelectedInstOperands,
	// GISEL-NEXT: // GIR_Coverage, 0,
	// GISEL-NEXT: GIR_EraseRootFromParent_Done,
	def MULM_PHYS : I<(outs), (ins GPR32:$src0, GPR32:$src1),
	[(st GPR32:$src0, (mul GPR32:$src1, SPECIAL))]> {
	let Uses = [SPECIAL];
	}

	// Try nested physical registers and check on duplicated copies

	// GISEL: GIM_Try,
	// GISEL-NEXT: GIM_CheckNumOperands, /MI/0, /Expected/2,
	// GISEL-NEXT: GIM_CheckOpcode, /MI/0, GIMT_Encode2(TargetOpcode::G_STORE),
	// GISEL-NEXT: GIM_CheckAtomicOrdering, /MI/0, /Order/(uint8_t)AtomicOrdering::NotAtomic,
	// GISEL-NEXT: // MIs[0] src0
	// GISEL-NEXT: GIM_RootCheckType, /Op/0, /Type/GILLT_s32,
	// GISEL-NEXT: GIM_RootCheckRegBankForClass, /Op/0, /RC/GIMT_Encode2(MyTarget::GPR32RegClassID),
	// GISEL-NEXT: // MIs[0] Operand 1
	// GISEL-NEXT: GIM_CheckPointerToAny, /MI/0, /Op/1, /SizeInBits/32,
	// GISEL-NEXT: GIM_RecordInsn, /DefineMI/1, /MI/0, /OpIdx/1, // MIs[1]
	// GISEL-NEXT: GIM_CheckNumOperands, /MI/1, /Expected/3,
	// GISEL-NEXT: GIM_CheckOpcode, /MI/1, GIMT_Encode2(TargetOpcode::G_MUL),
	// GISEL-NEXT: // MIs[1] Operand 0
	// GISEL-NEXT: GIM_CheckType, /MI/1, /Op/0, /Type/GILLT_s32,
	// GISEL-NEXT: // MIs[1] Operand 1
	// GISEL-NEXT: GIM_CheckType, /MI/1, /Op/1, /Type/GILLT_s32,
	// GISEL-NEXT: GIM_CheckRegBankForClass, /MI/1, /Op/1, /RC/GIMT_Encode2(MyTarget::GPR32RegClassID),
	// GISEL-NEXT: // MIs[1] Operand 2
	// GISEL-NEXT: GIM_CheckType, /MI/1, /Op/2, /Type/GILLT_s32,
	// GISEL-NEXT: GIM_CheckRegBankForClass, /MI/1, /Op/2, /RC/GIMT_Encode2(MyTarget::Special32RegClassID),
	// GISEL-NEXT: GIM_CheckIsSafeToFold, /NumInsns/1,
	// GISEL-NEXT: // (st GPR32:{ :[i32] }:$src0, (mul:{ :[i32] } R0:{ :[i32] }, SPECIAL:{ :[i32] })) => (MULMR0_PHYS GPR32:{ *:[i32] }:$src0)
	// GISEL-NEXT: GIR_BuildMI, /InsnID/2, /Opcode/GIMT_Encode2(TargetOpcode::COPY),
	// GISEL-NEXT: GIR_AddRegister, /InsnID/2, GIMT_Encode2(MyTarget::SPECIAL), /AddRegisterRegFlags/GIMT_Encode2(RegState::Define),
	// GISEL-NEXT: GIR_Copy, /NewInsnID/2, /OldInsnID/1, /OpIdx/2, // SPECIAL
	// GISEL-NEXT: GIR_BuildMI, /InsnID/1, /Opcode/GIMT_Encode2(TargetOpcode::COPY),
	// GISEL-NEXT: GIR_AddRegister, /InsnID/1, GIMT_Encode2(MyTarget::R0), /AddRegisterRegFlags/GIMT_Encode2(RegState::Define),
	// GISEL-NEXT: GIR_Copy, /NewInsnID/1, /OldInsnID/1, /OpIdx/1, // R0
	// GISEL-NEXT: GIR_BuildRootMI, /Opcode/GIMT_Encode2(MyTarget::MULMR0_PHYS),
	// GISEL-NEXT: GIR_RootToRootCopy, /OpIdx/0, // src0
	// GISEL-NEXT: GIR_MergeMemOperands, /InsnID/0, /NumInsns/2, /MergeInsnID's/0, 1,
	// GISEL-NEXT: GIR_RootConstrainSelectedInstOperands,
	// GISEL-NEXT: // GIR_Coverage, 1,
	// GISEL-NEXT: GIR_EraseRootFromParent_Done,
	def MULMR0_PHYS : I<(outs), (ins GPR32:$src0),
	[(st GPR32:$src0, (mul R0, SPECIAL))]> {
	let Uses = [R0, SPECIAL];
	}

	// Try a normal physical register use.

	// GISEL: GIM_Try,
	// GISEL-NEXT: GIM_CheckNumOperands, /MI/0, /Expected/3,
	// GISEL-NEXT: GIM_CheckOpcode, /MI/0, GIMT_Encode2(TargetOpcode::G_ADD),
	// GISEL-NEXT: // MIs[0] DstI[dst]
	// GISEL-NEXT: GIM_RootCheckType, /Op/0, /Type/GILLT_s32,
	// GISEL-NEXT: GIM_RootCheckRegBankForClass, /Op/0, /RC/GIMT_Encode2(MyTarget::GPR32RegClassID),
	// GISEL-NEXT: // MIs[0] src0
	// GISEL-NEXT: GIM_RootCheckType, /Op/1, /Type/GILLT_s32,
	// GISEL-NEXT: GIM_RootCheckRegBankForClass, /Op/1, /RC/GIMT_Encode2(MyTarget::GPR32RegClassID),
	// GISEL-NEXT: // MIs[0] Operand 2
	// GISEL-NEXT: GIM_RootCheckType, /Op/2, /Type/GILLT_s32,
	// GISEL-NEXT: GIM_RootCheckRegBankForClass, /Op/2, /RC/GIMT_Encode2(MyTarget::Special32RegClassID),
	// GISEL-NEXT: // (add:{ :[i32] } GPR32:{ :[i32] }:$src0, SPECIAL:{ :[i32] }) => (ADD_PHYS:{ :[i32] } GPR32:{ *:[i32] }:$src0)
	// GISEL-NEXT: GIR_BuildMI, /InsnID/1, /Opcode/GIMT_Encode2(TargetOpcode::COPY),
	// GISEL-NEXT: GIR_AddRegister, /InsnID/1, GIMT_Encode2(MyTarget::SPECIAL), /AddRegisterRegFlags/GIMT_Encode2(RegState::Define),
	// GISEL-NEXT: GIR_Copy, /NewInsnID/1, /OldInsnID/0, /OpIdx/2, // SPECIAL
	// GISEL-NEXT: GIR_BuildRootMI, /Opcode/GIMT_Encode2(MyTarget::ADD_PHYS),
	// GISEL-NEXT: GIR_RootToRootCopy, /OpIdx/0, // DstI[dst]
	// GISEL-NEXT: GIR_RootToRootCopy, /OpIdx/1, // src0
	// GISEL-NEXT: GIR_RootConstrainSelectedInstOperands,
	// GISEL-NEXT: // GIR_Coverage, 2,
	// GISEL-NEXT: GIR_EraseRootFromParent_Done,
	def ADD_PHYS : I<(outs GPR32:$dst), (ins GPR32:$src0),
	[(set GPR32:$dst, (add GPR32:$src0, SPECIAL))]> {
	let Uses = [SPECIAL];
	}

	// Try using the name of the physreg in another operand.

	// GISEL: GIM_Try,
	// GISEL-NEXT: GIM_CheckNumOperands, /MI/0, /Expected/3,
	// GISEL-NEXT: GIM_CheckOpcode, /MI/0, GIMT_Encode2(TargetOpcode::G_MUL),
	// GISEL-NEXT: // MIs[0] DstI[dst]
	// GISEL-NEXT: GIM_RootCheckType, /Op/0, /Type/GILLT_s32,
	// GISEL-NEXT: GIM_RootCheckRegBankForClass, /Op/0, /RC/GIMT_Encode2(MyTarget::GPR32RegClassID),
	// GISEL-NEXT: // MIs[0] SPECIAL
	// GISEL-NEXT: GIM_RootCheckType, /Op/1, /Type/GILLT_s32,
	// GISEL-NEXT: GIM_RootCheckRegBankForClass, /Op/1, /RC/GIMT_Encode2(MyTarget::GPR32RegClassID),
	// GISEL-NEXT: // MIs[0] Operand 2
	// GISEL-NEXT: GIM_RootCheckType, /Op/2, /Type/GILLT_s32,
	// GISEL-NEXT: GIM_RootCheckRegBankForClass, /Op/2, /RC/GIMT_Encode2(MyTarget::Special32RegClassID),
	// GISEL-NEXT: // (mul:{ :[i32] } GPR32:{ :[i32] }:$SPECIAL, SPECIAL:{ :[i32] }) => (MUL_PHYS:{ :[i32] } GPR32:{ *:[i32] }:$SPECIAL)
	// GISEL-NEXT: GIR_BuildMI, /InsnID/1, /Opcode/GIMT_Encode2(TargetOpcode::COPY),
	// GISEL-NEXT: GIR_AddRegister, /InsnID/1, GIMT_Encode2(MyTarget::SPECIAL), /AddRegisterRegFlags/GIMT_Encode2(RegState::Define),
	// GISEL-NEXT: GIR_Copy, /NewInsnID/1, /OldInsnID/0, /OpIdx/2, // SPECIAL
	// GISEL-NEXT: GIR_BuildRootMI, /Opcode/GIMT_Encode2(MyTarget::MUL_PHYS),
	// GISEL-NEXT: GIR_RootToRootCopy, /OpIdx/0, // DstI[dst]
	// GISEL-NEXT: GIR_RootToRootCopy, /OpIdx/1, // SPECIAL
	// GISEL-NEXT: GIR_RootConstrainSelectedInstOperands,
	// GISEL-NEXT: // GIR_Coverage, 3,
	// GISEL-NEXT: GIR_EraseRootFromParent_Done,
	def MUL_PHYS : I<(outs GPR32:$dst), (ins GPR32:$SPECIAL),
	[(set GPR32:$dst, (mul GPR32:$SPECIAL, SPECIAL))]> {
	let Uses = [SPECIAL];
	}

	// Try giving the physical operand a name
	// def ADD_PHYS : I<(outs GPR32:$dst), (ins GPR32:$src0),
	// [(set GPR32:$dst, (add GPR32:$src0, SPECIAL:$special))]> {
	// let Uses = [SPECIAL];
	// }