test/TableGen/GlobalISelEmitterHwModes.td - llvm-project/llvm - Git at Google

 // RUN: llvm-tblgen -gen-global-isel -I %p/../../include -I %p/Common -optimize-match-table=false %s -o %T/hwmode-non-optimized.cpp
 // RUN: FileCheck %s --check-prefixes=CHECK -input-file=%T/hwmode-non-optimized.cpp

 include "llvm/Target/Target.td"

 def MyTargetISA : InstrInfo;
 def MyTarget : Target { let InstructionSet = MyTargetISA; }

 class MyTargetGenericInstruction : GenericInstruction {
   let Namespace = "MyTarget";
 }

 //def Has32 : Predicate<"Subtarget->has32()">;
 def Has64 : Predicate<"Subtarget->has64()">;

 //def Mode32 : HwMode<"+a", [Has32]>;
 def Mode64 : HwMode<"+b", [Has64]>;

 def ModeVT : ValueTypeByHwMode<[DefaultMode, Mode64],
                                [i32,  i64]>;
 def ModeRI : RegInfoByHwMode<
       [DefaultMode,       Mode64],
       [RegInfo<32,32,32>, RegInfo<64,64,64>]>;

 def R0 : Register<"r0"> { let Namespace = "MyTarget"; }
 def GPR : RegisterClass<"MyTarget", [ModeVT], 32, (add R0)> {
   let RegInfos = ModeRI;
 }

 def p0 : PtrValueTypeByHwMode<ModeVT, 0>;

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

 //===- Test the function boilerplate. -------------------------------------===//

 // CHECK: const unsigned MAX_SUBTARGET_PREDICATES = 2;
 // CHECK: using PredicateBitset = llvm::Bitset<MAX_SUBTARGET_PREDICATES>;

 // CHECK-LABEL: #ifdef GET_GLOBALISEL_TEMPORARIES_DECL
 // CHECK-NEXT:    mutable MatcherState State;
 // CHECK-NEXT:    typedef ComplexRendererFns(MyTargetInstructionSelector::*ComplexMatcherMemFn)(MachineOperand &) const;
 // CHECK-NEXT:    typedef void(MyTargetInstructionSelector::*CustomRendererFn)(MachineInstrBuilder &, const MachineInstr &, int) const;
 // CHECK-NEXT:    const ExecInfoTy<PredicateBitset, ComplexMatcherMemFn, CustomRendererFn> ExecInfo;
 // CHECK-NEXT:    static MyTargetInstructionSelector::ComplexMatcherMemFn ComplexPredicateFns[];
 // CHECK-NEXT:    static MyTargetInstructionSelector::CustomRendererFn CustomRenderers[];
 // CHECK-NEXT:    bool testImmPredicate_I64(unsigned PredicateID, int64_t Imm) const override;
 // CHECK-NEXT:    bool testImmPredicate_APInt(unsigned PredicateID, const APInt &Imm) const override;
 // CHECK-NEXT:    bool testImmPredicate_APFloat(unsigned PredicateID, const APFloat &Imm) const override;
 // CHECK-NEXT:    const uint8_t *getMatchTable() const override;
 // CHECK-NEXT:    bool testMIPredicate_MI(unsigned PredicateID, const MachineInstr &MI, const MatcherState &State) const override;
 // CHECK-NEXT:    bool testSimplePredicate(unsigned PredicateID) const override;
 // CHECK-NEXT:    void runCustomAction(unsigned FnID, const MatcherState &State, NewMIVector &OutMIs) const override;
 // CHECK-NEXT:  #endif // ifdef GET_GLOBALISEL_TEMPORARIES_DECL

 // CHECK-LABEL: #ifdef GET_GLOBALISEL_TEMPORARIES_INIT
 // CHECK-NEXT:    , State(0),
 // CHECK-NEXT:    ExecInfo(TypeObjects, NumTypeObjects, FeatureBitsets, ComplexPredicateFns, CustomRenderers)
 // CHECK-NEXT:  #endif // ifdef GET_GLOBALISEL_TEMPORARIES_INIT

 // CHECK-LABEL: // LLT Objects.
 // CHECK-NEXT:  enum {
 // CHECK-NEXT:    GILLT_p0s32,
 // CHECK-NEXT:    GILLT_p0s64,
 // CHECK-NEXT:    GILLT_s32,
 // CHECK-NEXT:    GILLT_s64,
 // CHECK-NEXT:  }
 // CHECK-NEXT:  const static size_t NumTypeObjects = 4;
 // CHECK-NEXT:  const static LLT TypeObjects[] = {
 // CHECK-NEXT:    LLT::pointer(0, 32),
 // CHECK-NEXT:    LLT::pointer(0, 64),
 // CHECK-NEXT:    LLT::scalar(32),
 // CHECK-NEXT:    LLT::scalar(64),
 // CHECK-NEXT:  };

 // CHECK-LABEL: enum SubtargetFeatureBits : uint8_t {
 // CHECK-NEXT:    Feature_HwMode1Bit = 1,
 // CHECK-NEXT:    Feature_HwMode0Bit = 0,
 // CHECK-NEXT:  };

 // CHECK-LABEL: PredicateBitset MyTargetInstructionSelector::
 // CHECK-NEXT:  computeAvailableModuleFeatures(const MyTargetSubtarget *Subtarget) const {
 // CHECK-NEXT:    PredicateBitset Features;
 // CHECK-NEXT:    if (!((Subtarget->has64())))
 // CHECK-NEXT:      Features.set(Feature_HwMode1Bit);
 // CHECK-NEXT:    if ((Subtarget->has64()))
 // CHECK-NEXT:      Features.set(Feature_HwMode0Bit);
 // CHECK-NEXT:    return Features;
 // CHECK-NEXT:  }

 // CHECK-LABEL: PredicateBitset MyTargetInstructionSelector::
 // CHECK-NEXT:  computeAvailableFunctionFeatures(const MyTargetSubtarget *Subtarget, const MachineFunction *MF) const {
 // CHECK-NEXT:    PredicateBitset Features;
 // CHECK-NEXT:    return Features;
 // CHECK-NEXT:  }

 // CHECK-LABEL: // Feature bitsets.
 // CHECK-NEXT:  enum {
 // CHECK-NEXT:    GIFBS_Invalid,
 // CHECK-NEXT:    GIFBS_HwMode0,
 // CHECK-NEXT:    GIFBS_HwMode1,
 // CHECK-NEXT:  }
 // CHECK-NEXT:  constexpr static PredicateBitset FeatureBitsets[] {
 // CHECK-NEXT:    {}, // GIFBS_Invalid
 // CHECK-NEXT:    {Feature_HwMode0Bit, },
 // CHECK-NEXT:    {Feature_HwMode1Bit, },
 // CHECK-NEXT:  };

 // CHECK: bool MyTargetInstructionSelector::selectImpl(MachineInstr &I, CodeGenCoverage &CoverageInfo) const {
 // CHECK-NEXT: const PredicateBitset AvailableFeatures = getAvailableFeatures();
 // CHECK-NEXT: MachineIRBuilder B(I);
 // CHECK-NEXT: State.MIs.clear();
 // CHECK-NEXT: State.MIs.push_back(&I);

 // CHECK:      if (executeMatchTable(*this, State, ExecInfo, B, getMatchTable(), TII, MF->getRegInfo(), TRI, RBI, AvailableFeatures, &CoverageInfo)) {
 // CHECK-NEXT:   return true;
 // CHECK-NEXT: }

 // CHECK: const uint8_t *
 // CHECK-LABEL: MyTargetInstructionSelector::getMatchTable() const {
 // CHECK-NEXT: MatchTable0[] = {

 //===- Test a simple pattern with inferred pointer operands. ---------------===//

 // CHECK-NEXT:  GIM_Try, /*On fail goto*//*Label [[LABEL_NUM:[0-9]+]]*/ GIMT_Encode4([[LABEL:[0-9]+]]),
 // CHECK-NEXT:    GIM_CheckFeatures, GIMT_Encode2(GIFBS_HwMode0),
 // CHECK-NEXT:    GIM_CheckNumOperands, /*MI*/0, /*Expected*/2,
 // CHECK-NEXT:    GIM_CheckOpcode, /*MI*/0, GIMT_Encode2(TargetOpcode::G_LOAD),
 // CHECK-NEXT:    GIM_CheckMemorySizeEqualToLLT, /*MI*/0, /*MMO*/0, /*OpIdx*/0,
 // CHECK-NEXT:    GIM_CheckAtomicOrdering, /*MI*/0, /*Order*/(uint8_t)AtomicOrdering::NotAtomic,
 // CHECK-NEXT:    // MIs[0] DstI[dst]
 // CHECK-NEXT:    GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s64,
 // CHECK-NEXT:    GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/GIMT_Encode2(MyTarget::GPRRegClassID),
 // CHECK-NEXT:    // MIs[0] src1
 // CHECK-NEXT:    GIM_CheckPointerToAny, /*MI*/0, /*Op*/1, /*SizeInBits*/64,
 // CHECK-NEXT:    GIM_CheckRegBankForClass, /*MI*/0, /*Op*/1, /*RC*/GIMT_Encode2(MyTarget::GPRRegClassID),
 // CHECK-NEXT:    // (ld:{ *:[i64] } GPR:{ *:[i64] }:$src1)<<P:Predicate_unindexedload>><<P:Predicate_load>>  =>  (LOAD:{ *:[i64] } GPR:{ *:[i64] }:$src1)
 // CHECK-NEXT:    GIR_MutateOpcode, /*InsnID*/0, /*RecycleInsnID*/0, /*Opcode*/GIMT_Encode2(MyTarget::LOAD),
 // CHECK-NEXT:    GIR_ConstrainSelectedInstOperands, /*InsnID*/0,
 // CHECK-NEXT:    // GIR_Coverage, 0,
 // CHECK-NEXT:    GIR_Done,
 // CHECK-NEXT:  // Label [[LABEL_NUM]]: @[[LABEL]]
 // CHECK-NEXT:  GIM_Try, /*On fail goto*//*Label [[LABEL_NUM:[0-9]+]]*/ GIMT_Encode4([[LABEL:[0-9]+]]),
 // CHECK-NEXT:    GIM_CheckFeatures, GIMT_Encode2(GIFBS_HwMode1),
 // CHECK-NEXT:    GIM_CheckNumOperands, /*MI*/0, /*Expected*/2,
 // CHECK-NEXT:    GIM_CheckOpcode, /*MI*/0, GIMT_Encode2(TargetOpcode::G_LOAD),
 // CHECK-NEXT:    GIM_CheckMemorySizeEqualToLLT, /*MI*/0, /*MMO*/0, /*OpIdx*/0,
 // CHECK-NEXT:    GIM_CheckAtomicOrdering, /*MI*/0, /*Order*/(uint8_t)AtomicOrdering::NotAtomic,
 // CHECK-NEXT:    // MIs[0] DstI[dst]
 // CHECK-NEXT:    GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32,
 // CHECK-NEXT:    GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/GIMT_Encode2(MyTarget::GPRRegClassID),
 // CHECK-NEXT:    // MIs[0] src1
 // CHECK-NEXT:    GIM_CheckPointerToAny, /*MI*/0, /*Op*/1, /*SizeInBits*/32,
 // CHECK-NEXT:    GIM_CheckRegBankForClass, /*MI*/0, /*Op*/1, /*RC*/GIMT_Encode2(MyTarget::GPRRegClassID),
 // CHECK-NEXT:    // (ld:{ *:[i32] } GPR:{ *:[i32] }:$src1)<<P:Predicate_unindexedload>><<P:Predicate_load>>  =>  (LOAD:{ *:[i32] } GPR:{ *:[i32] }:$src1)
 // CHECK-NEXT:    GIR_MutateOpcode, /*InsnID*/0, /*RecycleInsnID*/0, /*Opcode*/GIMT_Encode2(MyTarget::LOAD),
 // CHECK-NEXT:    GIR_ConstrainSelectedInstOperands, /*InsnID*/0,
 // CHECK-NEXT:    // GIR_Coverage, 1,
 // CHECK-NEXT:    GIR_Done,
 // CHECK-NEXT:  // Label [[LABEL_NUM]]: @[[LABEL]]

 def LOAD : I<(outs GPR:$dst), (ins GPR:$src1),
             [(set GPR:$dst, (load GPR:$src1))]>;

 //===- Test a simple pattern with explicit pointer operands. ---------------===//

 // CHECK-NEXT:  GIM_Try, /*On fail goto*//*Label [[LABEL_NUM:[0-9]+]]*/ GIMT_Encode4([[LABEL:[0-9]+]]),
 // CHECK-NEXT:    GIM_CheckFeatures, GIMT_Encode2(GIFBS_HwMode0),
 // CHECK-NEXT:    GIM_CheckNumOperands, /*MI*/0, /*Expected*/2,
 // CHECK-NEXT:    GIM_CheckOpcode, /*MI*/0, GIMT_Encode2(TargetOpcode::G_LOAD),
 // CHECK-NEXT:    GIM_CheckMemorySizeEqualToLLT, /*MI*/0, /*MMO*/0, /*OpIdx*/0,
 // CHECK-NEXT:    GIM_CheckAtomicOrdering, /*MI*/0, /*Order*/(uint8_t)AtomicOrdering::NotAtomic,
 // CHECK-NEXT:    // MIs[0] DstI[dst]
 // CHECK-NEXT:    GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_p0s64,
 // CHECK-NEXT:    GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/GIMT_Encode2(MyTarget::GPRRegClassID),
 // CHECK-NEXT:    // MIs[0] src
 // CHECK-NEXT:    GIM_CheckPointerToAny, /*MI*/0, /*Op*/1, /*SizeInBits*/64,
 // CHECK-NEXT:    GIM_CheckRegBankForClass, /*MI*/0, /*Op*/1, /*RC*/GIMT_Encode2(MyTarget::GPRRegClassID),
 // CHECK-NEXT:    // (ld:{ *:[i64] } GPR:{ *:[i64] }:$src)<<P:Predicate_unindexedload>><<P:Predicate_load>>  =>  (LOAD:{ *:[i64] } GPR:{ *:[i64] }:$src)
 // CHECK-NEXT:    GIR_MutateOpcode, /*InsnID*/0, /*RecycleInsnID*/0, /*Opcode*/GIMT_Encode2(MyTarget::LOAD),
 // CHECK-NEXT:    GIR_ConstrainSelectedInstOperands, /*InsnID*/0,
 // CHECK-NEXT:    // GIR_Coverage, 2,
 // CHECK-NEXT:    GIR_Done,
 // CHECK-NEXT:  // Label [[LABEL_NUM]]: @[[LABEL]]
 // CHECK-NEXT:  GIM_Try, /*On fail goto*//*Label [[LABEL_NUM:[0-9]+]]*/ GIMT_Encode4([[LABEL:[0-9]+]]),
 // CHECK-NEXT:    GIM_CheckFeatures, GIMT_Encode2(GIFBS_HwMode1),
 // CHECK-NEXT:    GIM_CheckNumOperands, /*MI*/0, /*Expected*/2,
 // CHECK-NEXT:    GIM_CheckOpcode, /*MI*/0, GIMT_Encode2(TargetOpcode::G_LOAD),
 // CHECK-NEXT:    GIM_CheckMemorySizeEqualToLLT, /*MI*/0, /*MMO*/0, /*OpIdx*/0,
 // CHECK-NEXT:    GIM_CheckAtomicOrdering, /*MI*/0, /*Order*/(uint8_t)AtomicOrdering::NotAtomic,
 // CHECK-NEXT:    // MIs[0] DstI[dst]
 // CHECK-NEXT:    GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_p0s32,
 // CHECK-NEXT:    GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/GIMT_Encode2(MyTarget::GPRRegClassID),
 // CHECK-NEXT:    // MIs[0] src
 // CHECK-NEXT:    GIM_CheckPointerToAny, /*MI*/0, /*Op*/1, /*SizeInBits*/32,
 // CHECK-NEXT:    GIM_CheckRegBankForClass, /*MI*/0, /*Op*/1, /*RC*/GIMT_Encode2(MyTarget::GPRRegClassID),
 // CHECK-NEXT:    // (ld:{ *:[i32] } GPR:{ *:[i32] }:$src)<<P:Predicate_unindexedload>><<P:Predicate_load>>  =>  (LOAD:{ *:[i32] } GPR:{ *:[i32] }:$src)
 // CHECK-NEXT:    GIR_MutateOpcode, /*InsnID*/0, /*RecycleInsnID*/0, /*Opcode*/GIMT_Encode2(MyTarget::LOAD),
 // CHECK-NEXT:    GIR_ConstrainSelectedInstOperands, /*InsnID*/0,
 // CHECK-NEXT:    // GIR_Coverage, 3,
 // CHECK-NEXT:    GIR_Done,
 // CHECK-NEXT:  // Label [[LABEL_NUM]]: @[[LABEL]]

 def : Pat<(load GPR:$src),
           (p0 (LOAD GPR:$src))>;
	// RUN: llvm-tblgen -gen-global-isel -I %p/../../include -I %p/Common -optimize-match-table=false %s -o %T/hwmode-non-optimized.cpp
	// RUN: FileCheck %s --check-prefixes=CHECK -input-file=%T/hwmode-non-optimized.cpp

	include "llvm/Target/Target.td"

	def MyTargetISA : InstrInfo;
	def MyTarget : Target { let InstructionSet = MyTargetISA; }

	class MyTargetGenericInstruction : GenericInstruction {
	let Namespace = "MyTarget";
	}

	//def Has32 : Predicate<"Subtarget->has32()">;
	def Has64 : Predicate<"Subtarget->has64()">;

	//def Mode32 : HwMode<"+a", [Has32]>;
	def Mode64 : HwMode<"+b", [Has64]>;

	def ModeVT : ValueTypeByHwMode<[DefaultMode, Mode64],
	[i32, i64]>;
	def ModeRI : RegInfoByHwMode<
	[DefaultMode, Mode64],
	[RegInfo<32,32,32>, RegInfo<64,64,64>]>;

	def R0 : Register<"r0"> { let Namespace = "MyTarget"; }
	def GPR : RegisterClass<"MyTarget", [ModeVT], 32, (add R0)> {
	let RegInfos = ModeRI;
	}

	def p0 : PtrValueTypeByHwMode<ModeVT, 0>;

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

	//===- Test the function boilerplate. -------------------------------------===//

	// CHECK: const unsigned MAX_SUBTARGET_PREDICATES = 2;
	// CHECK: using PredicateBitset = llvm::Bitset<MAX_SUBTARGET_PREDICATES>;

	// CHECK-LABEL: #ifdef GET_GLOBALISEL_TEMPORARIES_DECL
	// CHECK-NEXT: mutable MatcherState State;
	// CHECK-NEXT: typedef ComplexRendererFns(MyTargetInstructionSelector::*ComplexMatcherMemFn)(MachineOperand &) const;
	// CHECK-NEXT: typedef void(MyTargetInstructionSelector::*CustomRendererFn)(MachineInstrBuilder &, const MachineInstr &, int) const;
	// CHECK-NEXT: const ExecInfoTy<PredicateBitset, ComplexMatcherMemFn, CustomRendererFn> ExecInfo;
	// CHECK-NEXT: static MyTargetInstructionSelector::ComplexMatcherMemFn ComplexPredicateFns[];
	// CHECK-NEXT: static MyTargetInstructionSelector::CustomRendererFn CustomRenderers[];
	// CHECK-NEXT: bool testImmPredicate_I64(unsigned PredicateID, int64_t Imm) const override;
	// CHECK-NEXT: bool testImmPredicate_APInt(unsigned PredicateID, const APInt &Imm) const override;
	// CHECK-NEXT: bool testImmPredicate_APFloat(unsigned PredicateID, const APFloat &Imm) const override;
	// CHECK-NEXT: const uint8_t *getMatchTable() const override;
	// CHECK-NEXT: bool testMIPredicate_MI(unsigned PredicateID, const MachineInstr &MI, const MatcherState &State) const override;
	// CHECK-NEXT: bool testSimplePredicate(unsigned PredicateID) const override;
	// CHECK-NEXT: void runCustomAction(unsigned FnID, const MatcherState &State, NewMIVector &OutMIs) const override;
	// CHECK-NEXT: #endif // ifdef GET_GLOBALISEL_TEMPORARIES_DECL

	// CHECK-LABEL: #ifdef GET_GLOBALISEL_TEMPORARIES_INIT
	// CHECK-NEXT: , State(0),
	// CHECK-NEXT: ExecInfo(TypeObjects, NumTypeObjects, FeatureBitsets, ComplexPredicateFns, CustomRenderers)
	// CHECK-NEXT: #endif // ifdef GET_GLOBALISEL_TEMPORARIES_INIT

	// CHECK-LABEL: // LLT Objects.
	// CHECK-NEXT: enum {
	// CHECK-NEXT: GILLT_p0s32,
	// CHECK-NEXT: GILLT_p0s64,
	// CHECK-NEXT: GILLT_s32,
	// CHECK-NEXT: GILLT_s64,
	// CHECK-NEXT: }
	// CHECK-NEXT: const static size_t NumTypeObjects = 4;
	// CHECK-NEXT: const static LLT TypeObjects[] = {
	// CHECK-NEXT: LLT::pointer(0, 32),
	// CHECK-NEXT: LLT::pointer(0, 64),
	// CHECK-NEXT: LLT::scalar(32),
	// CHECK-NEXT: LLT::scalar(64),
	// CHECK-NEXT: };

	// CHECK-LABEL: enum SubtargetFeatureBits : uint8_t {
	// CHECK-NEXT: Feature_HwMode1Bit = 1,
	// CHECK-NEXT: Feature_HwMode0Bit = 0,
	// CHECK-NEXT: };

	// CHECK-LABEL: PredicateBitset MyTargetInstructionSelector::
	// CHECK-NEXT: computeAvailableModuleFeatures(const MyTargetSubtarget *Subtarget) const {
	// CHECK-NEXT: PredicateBitset Features;
	// CHECK-NEXT: if (!((Subtarget->has64())))
	// CHECK-NEXT: Features.set(Feature_HwMode1Bit);
	// CHECK-NEXT: if ((Subtarget->has64()))
	// CHECK-NEXT: Features.set(Feature_HwMode0Bit);
	// CHECK-NEXT: return Features;
	// CHECK-NEXT: }

	// CHECK-LABEL: PredicateBitset MyTargetInstructionSelector::
	// CHECK-NEXT: computeAvailableFunctionFeatures(const MyTargetSubtarget Subtarget, const MachineFunction MF) const {
	// CHECK-NEXT: PredicateBitset Features;
	// CHECK-NEXT: return Features;
	// CHECK-NEXT: }

	// CHECK-LABEL: // Feature bitsets.
	// CHECK-NEXT: enum {
	// CHECK-NEXT: GIFBS_Invalid,
	// CHECK-NEXT: GIFBS_HwMode0,
	// CHECK-NEXT: GIFBS_HwMode1,
	// CHECK-NEXT: }
	// CHECK-NEXT: constexpr static PredicateBitset FeatureBitsets[] {
	// CHECK-NEXT: {}, // GIFBS_Invalid
	// CHECK-NEXT: {Feature_HwMode0Bit, },
	// CHECK-NEXT: {Feature_HwMode1Bit, },
	// CHECK-NEXT: };

	// CHECK: bool MyTargetInstructionSelector::selectImpl(MachineInstr &I, CodeGenCoverage &CoverageInfo) const {
	// CHECK-NEXT: const PredicateBitset AvailableFeatures = getAvailableFeatures();
	// CHECK-NEXT: MachineIRBuilder B(I);
	// CHECK-NEXT: State.MIs.clear();
	// CHECK-NEXT: State.MIs.push_back(&I);

	// CHECK: if (executeMatchTable(*this, State, ExecInfo, B, getMatchTable(), TII, MF->getRegInfo(), TRI, RBI, AvailableFeatures, &CoverageInfo)) {
	// CHECK-NEXT: return true;
	// CHECK-NEXT: }

	// CHECK: const uint8_t *
	// CHECK-LABEL: MyTargetInstructionSelector::getMatchTable() const {
	// CHECK-NEXT: MatchTable0[] = {

	//===- Test a simple pattern with inferred pointer operands. ---------------===//

	// CHECK-NEXT: GIM_Try, /On fail goto//Label [[LABEL_NUM:[0-9]+]]/ GIMT_Encode4([[LABEL:[0-9]+]]),
	// CHECK-NEXT: GIM_CheckFeatures, GIMT_Encode2(GIFBS_HwMode0),
	// CHECK-NEXT: GIM_CheckNumOperands, /MI/0, /Expected/2,
	// CHECK-NEXT: GIM_CheckOpcode, /MI/0, GIMT_Encode2(TargetOpcode::G_LOAD),
	// CHECK-NEXT: GIM_CheckMemorySizeEqualToLLT, /MI/0, /MMO/0, /OpIdx/0,
	// CHECK-NEXT: GIM_CheckAtomicOrdering, /MI/0, /Order/(uint8_t)AtomicOrdering::NotAtomic,
	// CHECK-NEXT: // MIs[0] DstI[dst]
	// CHECK-NEXT: GIM_CheckType, /MI/0, /Op/0, /Type/GILLT_s64,
	// CHECK-NEXT: GIM_CheckRegBankForClass, /MI/0, /Op/0, /RC/GIMT_Encode2(MyTarget::GPRRegClassID),
	// CHECK-NEXT: // MIs[0] src1
	// CHECK-NEXT: GIM_CheckPointerToAny, /MI/0, /Op/1, /SizeInBits/64,
	// CHECK-NEXT: GIM_CheckRegBankForClass, /MI/0, /Op/1, /RC/GIMT_Encode2(MyTarget::GPRRegClassID),
	// CHECK-NEXT: // (ld:{ :[i64] } GPR:{ :[i64] }:$src1)<<P:Predicate_unindexedload>><<P:Predicate_load>> => (LOAD:{ :[i64] } GPR:{ :[i64] }:$src1)
	// CHECK-NEXT: GIR_MutateOpcode, /InsnID/0, /RecycleInsnID/0, /Opcode/GIMT_Encode2(MyTarget::LOAD),
	// CHECK-NEXT: GIR_ConstrainSelectedInstOperands, /InsnID/0,
	// CHECK-NEXT: // GIR_Coverage, 0,
	// CHECK-NEXT: GIR_Done,
	// CHECK-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]]
	// CHECK-NEXT: GIM_Try, /On fail goto//Label [[LABEL_NUM:[0-9]+]]/ GIMT_Encode4([[LABEL:[0-9]+]]),
	// CHECK-NEXT: GIM_CheckFeatures, GIMT_Encode2(GIFBS_HwMode1),
	// CHECK-NEXT: GIM_CheckNumOperands, /MI/0, /Expected/2,
	// CHECK-NEXT: GIM_CheckOpcode, /MI/0, GIMT_Encode2(TargetOpcode::G_LOAD),
	// CHECK-NEXT: GIM_CheckMemorySizeEqualToLLT, /MI/0, /MMO/0, /OpIdx/0,
	// CHECK-NEXT: GIM_CheckAtomicOrdering, /MI/0, /Order/(uint8_t)AtomicOrdering::NotAtomic,
	// CHECK-NEXT: // MIs[0] DstI[dst]
	// CHECK-NEXT: GIM_CheckType, /MI/0, /Op/0, /Type/GILLT_s32,
	// CHECK-NEXT: GIM_CheckRegBankForClass, /MI/0, /Op/0, /RC/GIMT_Encode2(MyTarget::GPRRegClassID),
	// CHECK-NEXT: // MIs[0] src1
	// CHECK-NEXT: GIM_CheckPointerToAny, /MI/0, /Op/1, /SizeInBits/32,
	// CHECK-NEXT: GIM_CheckRegBankForClass, /MI/0, /Op/1, /RC/GIMT_Encode2(MyTarget::GPRRegClassID),
	// CHECK-NEXT: // (ld:{ :[i32] } GPR:{ :[i32] }:$src1)<<P:Predicate_unindexedload>><<P:Predicate_load>> => (LOAD:{ :[i32] } GPR:{ :[i32] }:$src1)
	// CHECK-NEXT: GIR_MutateOpcode, /InsnID/0, /RecycleInsnID/0, /Opcode/GIMT_Encode2(MyTarget::LOAD),
	// CHECK-NEXT: GIR_ConstrainSelectedInstOperands, /InsnID/0,
	// CHECK-NEXT: // GIR_Coverage, 1,
	// CHECK-NEXT: GIR_Done,
	// CHECK-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]]

	def LOAD : I<(outs GPR:$dst), (ins GPR:$src1),
	[(set GPR:$dst, (load GPR:$src1))]>;

	//===- Test a simple pattern with explicit pointer operands. ---------------===//

	// CHECK-NEXT: GIM_Try, /On fail goto//Label [[LABEL_NUM:[0-9]+]]/ GIMT_Encode4([[LABEL:[0-9]+]]),
	// CHECK-NEXT: GIM_CheckFeatures, GIMT_Encode2(GIFBS_HwMode0),
	// CHECK-NEXT: GIM_CheckNumOperands, /MI/0, /Expected/2,
	// CHECK-NEXT: GIM_CheckOpcode, /MI/0, GIMT_Encode2(TargetOpcode::G_LOAD),
	// CHECK-NEXT: GIM_CheckMemorySizeEqualToLLT, /MI/0, /MMO/0, /OpIdx/0,
	// CHECK-NEXT: GIM_CheckAtomicOrdering, /MI/0, /Order/(uint8_t)AtomicOrdering::NotAtomic,
	// CHECK-NEXT: // MIs[0] DstI[dst]
	// CHECK-NEXT: GIM_CheckType, /MI/0, /Op/0, /Type/GILLT_p0s64,
	// CHECK-NEXT: GIM_CheckRegBankForClass, /MI/0, /Op/0, /RC/GIMT_Encode2(MyTarget::GPRRegClassID),
	// CHECK-NEXT: // MIs[0] src
	// CHECK-NEXT: GIM_CheckPointerToAny, /MI/0, /Op/1, /SizeInBits/64,
	// CHECK-NEXT: GIM_CheckRegBankForClass, /MI/0, /Op/1, /RC/GIMT_Encode2(MyTarget::GPRRegClassID),
	// CHECK-NEXT: // (ld:{ :[i64] } GPR:{ :[i64] }:$src)<<P:Predicate_unindexedload>><<P:Predicate_load>> => (LOAD:{ :[i64] } GPR:{ :[i64] }:$src)
	// CHECK-NEXT: GIR_MutateOpcode, /InsnID/0, /RecycleInsnID/0, /Opcode/GIMT_Encode2(MyTarget::LOAD),
	// CHECK-NEXT: GIR_ConstrainSelectedInstOperands, /InsnID/0,
	// CHECK-NEXT: // GIR_Coverage, 2,
	// CHECK-NEXT: GIR_Done,
	// CHECK-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]]
	// CHECK-NEXT: GIM_Try, /On fail goto//Label [[LABEL_NUM:[0-9]+]]/ GIMT_Encode4([[LABEL:[0-9]+]]),
	// CHECK-NEXT: GIM_CheckFeatures, GIMT_Encode2(GIFBS_HwMode1),
	// CHECK-NEXT: GIM_CheckNumOperands, /MI/0, /Expected/2,
	// CHECK-NEXT: GIM_CheckOpcode, /MI/0, GIMT_Encode2(TargetOpcode::G_LOAD),
	// CHECK-NEXT: GIM_CheckMemorySizeEqualToLLT, /MI/0, /MMO/0, /OpIdx/0,
	// CHECK-NEXT: GIM_CheckAtomicOrdering, /MI/0, /Order/(uint8_t)AtomicOrdering::NotAtomic,
	// CHECK-NEXT: // MIs[0] DstI[dst]
	// CHECK-NEXT: GIM_CheckType, /MI/0, /Op/0, /Type/GILLT_p0s32,
	// CHECK-NEXT: GIM_CheckRegBankForClass, /MI/0, /Op/0, /RC/GIMT_Encode2(MyTarget::GPRRegClassID),
	// CHECK-NEXT: // MIs[0] src
	// CHECK-NEXT: GIM_CheckPointerToAny, /MI/0, /Op/1, /SizeInBits/32,
	// CHECK-NEXT: GIM_CheckRegBankForClass, /MI/0, /Op/1, /RC/GIMT_Encode2(MyTarget::GPRRegClassID),
	// CHECK-NEXT: // (ld:{ :[i32] } GPR:{ :[i32] }:$src)<<P:Predicate_unindexedload>><<P:Predicate_load>> => (LOAD:{ :[i32] } GPR:{ :[i32] }:$src)
	// CHECK-NEXT: GIR_MutateOpcode, /InsnID/0, /RecycleInsnID/0, /Opcode/GIMT_Encode2(MyTarget::LOAD),
	// CHECK-NEXT: GIR_ConstrainSelectedInstOperands, /InsnID/0,
	// CHECK-NEXT: // GIR_Coverage, 3,
	// CHECK-NEXT: GIR_Done,
	// CHECK-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]]

	def : Pat<(load GPR:$src),
	(p0 (LOAD GPR:$src))>;