// RUN: llvm-tblgen -gen-global-isel -I %p/../../include -optimize-match-table=false %s -o %T/non-optimized.cpp // RUN: llvm-tblgen -gen-global-isel -I %p/../../include -optimize-match-table=true %s -o %T/optimized.cpp // RUN: llvm-tblgen -gen-global-isel -I %p/../../include %s -o %T/default.cpp // RUN: FileCheck %s --check-prefixes=CHECK,R19C,R19N -input-file=%T/non-optimized.cpp // RUN: FileCheck %s --check-prefixes=CHECK,R19C,R19O -input-file=%T/optimized.cpp // RUN: FileCheck %s --check-prefixes=CHECK,R21C,R21N -input-file=%T/non-optimized.cpp // RUN: FileCheck %s --check-prefixes=CHECK,R21C,R21O -input-file=%T/optimized.cpp // RUN: FileCheck %s --check-prefixes=CHECK,R20C,R20N -input-file=%T/non-optimized.cpp // RUN: FileCheck %s --check-prefixes=CHECK,R20C,R20O -input-file=%T/optimized.cpp // RUN: FileCheck %s --check-prefixes=CHECK,R00C,R00N -input-file=%T/non-optimized.cpp // RUN: FileCheck %s --check-prefixes=CHECK,R00C,R00O -input-file=%T/optimized.cpp // RUN: FileCheck %s --check-prefixes=CHECK,R01C,R01N -input-file=%T/non-optimized.cpp // RUN: FileCheck %s --check-prefixes=CHECK,R01C,R01O -input-file=%T/optimized.cpp // RUN: FileCheck %s --check-prefixes=CHECK,R02C,R02N,NOOPT -input-file=%T/non-optimized.cpp // RUN: FileCheck %s --check-prefixes=CHECK,R02C,R02O -input-file=%T/optimized.cpp // RUN: diff %T/default.cpp %T/optimized.cpp include "llvm/Target/Target.td" //===- Define the necessary boilerplate for our test target. --------------===// def MyTargetISA : InstrInfo; def MyTarget : Target { let InstructionSet = MyTargetISA; } let TargetPrefix = "mytarget" in { def int_mytarget_nop : Intrinsic<[llvm_i32_ty], [llvm_i32_ty], [IntrNoMem]>; } def R0 : Register<"r0"> { let Namespace = "MyTarget"; } def GPR32 : RegisterClass<"MyTarget", [i32], 32, (add R0)>; def GPR32Op : RegisterOperand<GPR32>; def F0 : Register<"f0"> { let Namespace = "MyTarget"; } def FPR32 : RegisterClass<"MyTarget", [f32], 32, (add F0)>; class I<dag OOps, dag IOps, list<dag> Pat> : Instruction { let Namespace = "MyTarget"; let OutOperandList = OOps; let InOperandList = IOps; let Pattern = Pat; } def complex : Operand<i32>, ComplexPattern<i32, 2, "SelectComplexPattern", []> { let MIOperandInfo = (ops i32imm, i32imm); } def gi_complex : GIComplexOperandMatcher<s32, "selectComplexPattern">, GIComplexPatternEquiv<complex>; def complex_rr : Operand<i32>, ComplexPattern<i32, 2, "SelectComplexPatternRR", []> { let MIOperandInfo = (ops GPR32, GPR32); } def gi_complex_rr : GIComplexOperandMatcher<s32, "selectComplexPatternRR">, GIComplexPatternEquiv<complex_rr>; def cimm8_xform : SDNodeXForm<imm, [{ uint64_t Val = N->getZExtValue() << 1; return CurDAG->getTargetConstant(Val, SDLoc(N), MVT::i64); }]>; def cimm8 : Operand<i32>, ImmLeaf<i32, [{return isInt<8>(Imm);}], cimm8_xform>; def gi_cimm8 : GICustomOperandRenderer<"renderImm8">, GISDNodeXFormEquiv<cimm8_xform>; def m1 : OperandWithDefaultOps <i32, (ops (i32 -1))>; def Z : OperandWithDefaultOps <i32, (ops R0)>; def m1Z : OperandWithDefaultOps <i32, (ops (i32 -1), R0)>; def HasA : Predicate<"Subtarget->hasA()">; def HasB : Predicate<"Subtarget->hasB()">; def HasC : Predicate<"Subtarget->hasC()"> { let RecomputePerFunction = 1; } //===- Test the function boilerplate. -------------------------------------===// // CHECK: const unsigned MAX_SUBTARGET_PREDICATES = 3; // CHECK: using PredicateBitset = llvm::PredicateBitsetImpl<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&) const; // CHECK-NEXT: const ISelInfoTy<PredicateBitset, ComplexMatcherMemFn, CustomRendererFn> ISelInfo; // 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 int64_t *getMatchTable() const override; // CHECK-NEXT: bool testMIPredicate_MI(unsigned PredicateID, const MachineInstr &MI) const override; // CHECK-NEXT: #endif // ifdef GET_GLOBALISEL_TEMPORARIES_DECL // CHECK-LABEL: #ifdef GET_GLOBALISEL_TEMPORARIES_INIT // CHECK-NEXT: , State(2), // CHECK-NEXT: ISelInfo(TypeObjects, NumTypeObjects, FeatureBitsets, ComplexPredicateFns, CustomRenderers) // CHECK-NEXT: #endif // ifdef GET_GLOBALISEL_TEMPORARIES_INIT // CHECK-LABEL: enum SubtargetFeatureBits : uint8_t { // CHECK-NEXT: Feature_HasABit = 0, // CHECK-NEXT: Feature_HasBBit = 1, // CHECK-NEXT: Feature_HasCBit = 2, // CHECK-NEXT: }; // CHECK-LABEL: PredicateBitset MyTargetInstructionSelector:: // CHECK-NEXT: computeAvailableModuleFeatures(const MyTargetSubtarget *Subtarget) const { // CHECK-NEXT: PredicateBitset Features; // CHECK-NEXT: if (Subtarget->hasA()) // CHECK-NEXT: Features[Feature_HasABit] = 1; // CHECK-NEXT: if (Subtarget->hasB()) // CHECK-NEXT: Features[Feature_HasBBit] = 1; // 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: if (Subtarget->hasC()) // CHECK-NEXT: Features[Feature_HasCBit] = 1; // CHECK-NEXT: return Features; // CHECK-NEXT: } // CHECK-LABEL: // LLT Objects. // CHECK-NEXT: enum { // CHECK-NEXT: GILLT_s32, // CHECK-NEXT: } // CHECK-NEXT: const static size_t NumTypeObjects = 1; // CHECK-NEXT: const static LLT TypeObjects[] = { // CHECK-NEXT: LLT::scalar(32), // CHECK-NEXT: }; // CHECK-LABEL: // Feature bitsets. // CHECK-NEXT: enum { // CHECK-NEXT: GIFBS_Invalid, // CHECK-NEXT: GIFBS_HasA, // CHECK-NEXT: GIFBS_HasA_HasB_HasC, // CHECK-NEXT: } // CHECK-NEXT: const static PredicateBitset FeatureBitsets[] { // CHECK-NEXT: {}, // GIFBS_Invalid // CHECK-NEXT: {Feature_HasABit, }, // CHECK-NEXT: {Feature_HasABit, Feature_HasBBit, Feature_HasCBit, }, // CHECK-NEXT: }; // CHECK-LABEL: // ComplexPattern predicates. // CHECK-NEXT: enum { // CHECK-NEXT: GICP_Invalid, // CHECK-NEXT: GICP_gi_complex, // CHECK-NEXT: GICP_gi_complex_rr, // CHECK-NEXT: }; // CHECK-LABEL: // PatFrag predicates. // CHECK-NEXT: enum { // CHECK-NEXT: GIPFP_I64_Predicate_cimm8 = GIPFP_I64_Invalid + 1, // CHECK-NEXT: GIPFP_I64_Predicate_simm8, // CHECK-NEXT: }; // CHECK-NEXT: bool MyTargetInstructionSelector::testImmPredicate_I64(unsigned PredicateID, int64_t Imm) const { // CHECK-NEXT: switch (PredicateID) { // CHECK-NEXT: case GIPFP_I64_Predicate_cimm8: { // CHECK-NEXT: return isInt<8>(Imm); // CHECK-NEXT: llvm_unreachable("ImmediateCode should have returned"); // CHECK-NEXT: return false; // CHECK-NEXT: } // CHECK-NEXT: case GIPFP_I64_Predicate_simm8: { // CHECK-NEXT: return isInt<8>(Imm); // CHECK-NEXT: llvm_unreachable("ImmediateCode should have returned"); // CHECK-NEXT: return false; // CHECK-NEXT: } // CHECK-NEXT: } // CHECK-NEXT: llvm_unreachable("Unknown predicate"); // CHECK-NEXT: return false; // CHECK-NEXT: } // CHECK-LABEL: // PatFrag predicates. // CHECK-NEXT: enum { // CHECK-NEXT: GIPFP_APFloat_Predicate_fpimmz = GIPFP_APFloat_Invalid + 1, // CHECK-NEXT: }; // CHECK-NEXT: bool MyTargetInstructionSelector::testImmPredicate_APFloat(unsigned PredicateID, const APFloat & Imm) const { // CHECK-NEXT: switch (PredicateID) { // CHECK-NEXT: case GIPFP_APFloat_Predicate_fpimmz: { // CHECK-NEXT: return Imm->isExactlyValue(0.0); // CHECK-NEXT: llvm_unreachable("ImmediateCode should have returned"); // CHECK-NEXT: return false; // CHECK-NEXT: } // CHECK-NEXT: } // CHECK-NEXT: llvm_unreachable("Unknown predicate"); // CHECK-NEXT: return false; // CHECK-NEXT: } // CHECK-LABEL: // PatFrag predicates. // CHECK-NEXT: enum { // CHECK-NEXT: GIPFP_APInt_Predicate_simm9 = GIPFP_APInt_Invalid + 1, // CHECK-NEXT: }; // CHECK-NEXT: bool MyTargetInstructionSelector::testImmPredicate_APInt(unsigned PredicateID, const APInt & Imm) const { // CHECK-NEXT: switch (PredicateID) { // CHECK-NEXT: case GIPFP_APInt_Predicate_simm9: { // CHECK-NEXT: return isInt<9>(Imm->getSExtValue()); // CHECK-NEXT: llvm_unreachable("ImmediateCode should have returned"); // CHECK-NEXT: return false; // CHECK-NEXT: } // CHECK-NEXT: } // CHECK-NEXT: llvm_unreachable("Unknown predicate"); // CHECK-NEXT: return false; // CHECK-NEXT: } // CHECK-LABEL: MyTargetInstructionSelector::ComplexMatcherMemFn // CHECK-NEXT: MyTargetInstructionSelector::ComplexPredicateFns[] = { // CHECK-NEXT: nullptr, // GICP_Invalid // CHECK-NEXT: &MyTargetInstructionSelector::selectComplexPattern, // gi_complex // CHECK-NEXT: &MyTargetInstructionSelector::selectComplexPatternRR, // gi_complex_rr // CHECK-NEXT: } // CHECK-LABEL: // Custom renderers. // CHECK-NEXT: enum { // CHECK-NEXT: GICR_Invalid, // CHECK-NEXT: GICR_renderImm8, // CHECK-NEXT: }; // CHECK-NEXT: MyTargetInstructionSelector::CustomRendererFn // CHECK-NEXT: MyTargetInstructionSelector::CustomRenderers[] = { // CHECK-NEXT: nullptr, // GICP_Invalid // CHECK-NEXT: &MyTargetInstructionSelector::renderImm8, // gi_cimm8 // CHECK-NEXT: }; // CHECK: bool MyTargetInstructionSelector::selectImpl(MachineInstr &I, CodeGenCoverage &CoverageInfo) const { // CHECK-NEXT: MachineFunction &MF = *I.getParent()->getParent(); // CHECK-NEXT: MachineRegisterInfo &MRI = MF.getRegInfo(); // CHECK: AvailableFunctionFeatures = computeAvailableFunctionFeatures(&STI, &MF); // CHECK-NEXT: const PredicateBitset AvailableFeatures = getAvailableFeatures(); // CHECK-NEXT: NewMIVector OutMIs; // CHECK-NEXT: State.MIs.clear(); // CHECK-NEXT: State.MIs.push_back(&I); // CHECK: if (executeMatchTable(*this, OutMIs, State, ISelInfo, getMatchTable(), TII, MRI, TRI, RBI, AvailableFeatures, CoverageInfo)) { // CHECK-NEXT: return true; // CHECK-NEXT: } // CHECK: const int64_t * // CHECK-LABEL: MyTargetInstructionSelector::getMatchTable() const { // CHECK-NEXT: MatchTable0[] = { //===- Test a pattern with multiple ComplexPatterns in multiple instrs ----===// // // R19O-NEXT: GIM_SwitchOpcode, /*MI*/0, /*[*/{{[0-9]+}}, {{[0-9]+}}, /*)*//*default:*//*Label [[DEFAULT_NUM:[0-9]+]]*/ [[DEFAULT:[0-9]+]], // R19O-NEXT: /*TargetOpcode::G_ADD*//*Label [[CASE_ADD_NUM:[0-9]+]]*/ [[CASE_ADD:[0-9]+]], // R19O: /*TargetOpcode::G_SELECT*//*Label [[CASE_SELECT_NUM:[0-9]+]]*/ [[CASE_SELECT:[0-9]+]], // R19O: // Label [[CASE_ADD_NUM]]: @[[CASE_ADD]] // R19O: // Label [[CASE_SELECT_NUM]]: @[[CASE_SELECT]] // R19O-NEXT: GIM_Try, /*On fail goto*//*Label [[GROUP_NUM:[0-9]+]]*/ [[GROUP:[0-9]+]], // R19O-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32, // R19O-NEXT: GIM_CheckType, /*MI*/0, /*Op*/1, /*Type*/GILLT_s32, // R19O-NEXT: GIM_CheckType, /*MI*/0, /*Op*/2, /*Type*/GILLT_s32, // R19O-NEXT: GIM_CheckType, /*MI*/0, /*Op*/3, /*Type*/GILLT_s32, // // R19C-NEXT: GIM_Try, /*On fail goto*//*Label [[LABEL_NUM:[0-9]+]]*/ [[LABEL:[0-9]+]], // // R19O-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::GPR32RegClassID, // R19O-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/1, /*RC*/MyTarget::GPR32RegClassID, // R19N-NEXT: GIM_CheckNumOperands, /*MI*/0, /*Expected*/4, // R19N-NEXT: GIM_CheckOpcode, /*MI*/0, TargetOpcode::G_SELECT, // R19N-NEXT: // MIs[0] dst // R19N-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32, // R19N-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::GPR32RegClassID, // R19N-NEXT: // MIs[0] src1 // R19N-NEXT: GIM_CheckType, /*MI*/0, /*Op*/1, /*Type*/GILLT_s32, // R19N-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/1, /*RC*/MyTarget::GPR32RegClassID, // R19N-NEXT: // MIs[0] Operand 2 // R19N-NEXT: GIM_CheckType, /*MI*/0, /*Op*/2, /*Type*/GILLT_s32, // // R19N-NEXT: GIM_CheckComplexPattern, /*MI*/0, /*Op*/2, /*Renderer*/0, GICP_gi_complex_rr, // R19N-NEXT: // MIs[0] Operand 3 // R19N-NEXT: GIM_CheckType, /*MI*/0, /*Op*/3, /*Type*/GILLT_s32, // R19C-NEXT: GIM_RecordInsn, /*DefineMI*/1, /*MI*/0, /*OpIdx*/3, // MIs[1] // R19N-NEXT: GIM_CheckNumOperands, /*MI*/1, /*Expected*/4, // R19C-NEXT: GIM_CheckOpcode, /*MI*/1, TargetOpcode::G_SELECT, // R19N-NEXT: // MIs[1] Operand 0 // R19N-NEXT: GIM_CheckType, /*MI*/1, /*Op*/0, /*Type*/GILLT_s32, // R19N-NEXT: // MIs[1] src3 // R19C-NEXT: GIM_CheckType, /*MI*/1, /*Op*/1, /*Type*/GILLT_s32, // R19O-NEXT: GIM_CheckType, /*MI*/1, /*Op*/2, /*Type*/GILLT_s32, // R19O-NEXT: GIM_CheckType, /*MI*/1, /*Op*/3, /*Type*/GILLT_s32, // R19N-NEXT: GIM_CheckRegBankForClass, /*MI*/1, /*Op*/1, /*RC*/MyTarget::GPR32RegClassID, // R19N-NEXT: // MIs[1] src4 // R19N-NEXT: GIM_CheckType, /*MI*/1, /*Op*/2, /*Type*/GILLT_s32, // R19N-NEXT: GIM_CheckComplexPattern, /*MI*/1, /*Op*/2, /*Renderer*/1, GICP_gi_complex, // R19N-NEXT: // MIs[1] Operand 3 // R19N-NEXT: GIM_CheckType, /*MI*/1, /*Op*/3, /*Type*/GILLT_s32, // R19N-NEXT: GIM_CheckComplexPattern, /*MI*/1, /*Op*/3, /*Renderer*/2, GICP_gi_complex, // R19O-NEXT: GIM_CheckRegBankForClass, /*MI*/1, /*Op*/1, /*RC*/MyTarget::GPR32RegClassID, // R19C-NEXT: GIM_CheckIsSafeToFold, /*InsnID*/1, // R19O-NEXT: GIM_CheckComplexPattern, /*MI*/0, /*Op*/2, /*Renderer*/0, GICP_gi_complex_rr, // R19O-NEXT: GIM_CheckComplexPattern, /*MI*/1, /*Op*/2, /*Renderer*/1, GICP_gi_complex, // R19O-NEXT: GIM_CheckComplexPattern, /*MI*/1, /*Op*/3, /*Renderer*/2, GICP_gi_complex, // R19C-NEXT: // (select:{ *:[i32] } GPR32:{ *:[i32] }:$src1, (complex_rr:{ *:[i32] } GPR32:{ *:[i32] }:$src2a, GPR32:{ *:[i32] }:$src2b), (select:{ *:[i32] } GPR32:{ *:[i32] }:$src3, complex:{ *:[i32] }:$src4, (complex:{ *:[i32] } i32imm:{ *:[i32] }:$src5a, i32imm:{ *:[i32] }:$src5b))) => (INSN3:{ *:[i32] } GPR32:{ *:[i32] }:$src1, GPR32:{ *:[i32] }:$src2b, GPR32:{ *:[i32] }:$src2a, (INSN4:{ *:[i32] } GPR32:{ *:[i32] }:$src3, complex:{ *:[i32] }:$src4, i32imm:{ *:[i32] }:$src5a, i32imm:{ *:[i32] }:$src5b)) // R19C-NEXT: GIR_MakeTempReg, /*TempRegID*/0, /*TypeID*/GILLT_s32, // R19C-NEXT: GIR_BuildMI, /*InsnID*/1, /*Opcode*/MyTarget::INSN4, // R19C-NEXT: GIR_AddTempRegister, /*InsnID*/1, /*TempRegID*/0, /*TempRegFlags*/RegState::Define, // R19C-NEXT: GIR_Copy, /*NewInsnID*/1, /*OldInsnID*/1, /*OpIdx*/1, // src3 // R19C-NEXT: GIR_ComplexRenderer, /*InsnID*/1, /*RendererID*/1, // R19C-NEXT: GIR_ComplexSubOperandRenderer, /*InsnID*/1, /*RendererID*/2, /*SubOperand*/0, // src5a // R19C-NEXT: GIR_ComplexSubOperandRenderer, /*InsnID*/1, /*RendererID*/2, /*SubOperand*/1, // src5b // R19C-NEXT: GIR_ConstrainSelectedInstOperands, /*InsnID*/1, // R19C-NEXT: GIR_BuildMI, /*InsnID*/0, /*Opcode*/MyTarget::INSN3, // R19C-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/0, // dst // R19C-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/1, // src1 // R19C-NEXT: GIR_ComplexSubOperandRenderer, /*InsnID*/0, /*RendererID*/0, /*SubOperand*/1, // src2b // R19C-NEXT: GIR_ComplexSubOperandRenderer, /*InsnID*/0, /*RendererID*/0, /*SubOperand*/0, // src2a // R19C-NEXT: GIR_AddTempRegister, /*InsnID*/0, /*TempRegID*/0, /*TempRegFlags*/0, // R19C-NEXT: GIR_EraseFromParent, /*InsnID*/0, // R19C-NEXT: GIR_ConstrainSelectedInstOperands, /*InsnID*/0, // R19C-NEXT: // GIR_Coverage, 19, // R19C-NEXT: GIR_Done, // R19C-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]] // // R19O: // Label [[GROUP_NUM]]: @[[GROUP]] // R19O-NEXT: GIM_Reject, // R19O: // Label [[DEFAULT_NUM]]: @[[DEFAULT]] // R19O-NEXT: GIM_Reject, // R19O-NEXT: }; def INSN3 : I<(outs GPR32:$dst), (ins GPR32Op:$src1, GPR32:$src2a, GPR32:$src2b, GPR32:$scr), []>; def INSN4 : I<(outs GPR32:$scr), (ins GPR32:$src3, complex:$src4, i32imm:$src5a, i32imm:$src5b), []>; def : Pat<(select GPR32:$src1, (complex_rr GPR32:$src2a, GPR32:$src2b), (select GPR32:$src3, complex:$src4, (complex i32imm:$src5a, i32imm:$src5b))), (INSN3 GPR32:$src1, GPR32:$src2b, GPR32:$src2a, (INSN4 GPR32:$src3, complex:$src4, i32imm:$src5a, i32imm:$src5b))>; // R21O-NEXT: GIM_SwitchOpcode, /*MI*/0, /*[*/{{[0-9]+}}, {{[0-9]+}}, /*)*//*default:*//*Label [[DEFAULT_NUM:[0-9]+]]*/ [[DEFAULT:[0-9]+]], // R21O-NEXT: /*TargetOpcode::G_ADD*//*Label [[CASE_ADD_NUM:[0-9]+]]*/ [[CASE_ADD:[0-9]+]], // R21O: /*TargetOpcode::G_SELECT*//*Label [[CASE_SELECT_NUM:[0-9]+]]*/ [[CASE_SELECT:[0-9]+]], // R21O: // Label [[CASE_ADD_NUM]]: @[[CASE_ADD]] // R21O: // Label [[CASE_SELECT_NUM]]: @[[CASE_SELECT]] // R21O-NEXT: GIM_Try, /*On fail goto*//*Label [[GROUP_NUM:[0-9]+]]*/ [[GROUP:[0-9]+]], // R21O-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32, // R21O-NEXT: GIM_CheckType, /*MI*/0, /*Op*/1, /*Type*/GILLT_s32, // R21O-NEXT: GIM_CheckType, /*MI*/0, /*Op*/2, /*Type*/GILLT_s32, // R21O-NEXT: GIM_CheckType, /*MI*/0, /*Op*/3, /*Type*/GILLT_s32, // // R21C-NEXT: GIM_Try, /*On fail goto*//*Label [[PREV_NUM:[0-9]+]]*/ [[PREV:[0-9]+]], // Rule ID 19 // // R21C-NOT: GIR_Done, // R21C: // GIR_Coverage, 19, // R21C-NEXT: GIR_Done, // R21C-NEXT: // Label [[PREV_NUM]]: @[[PREV]] // R21C-NEXT: GIM_Try, /*On fail goto*//*Label [[LABEL_NUM:[0-9]+]]*/ [[LABEL:[0-9]+]], // Rule ID 21 // // // R21O-NEXT: GIM_CheckCxxInsnPredicate, /*MI*/0, /*FnId*/GIPFP_MI_Predicate_frag, // R21O-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::GPR32RegClassID, // R21O-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/1, /*RC*/MyTarget::GPR32RegClassID, // R21N-NEXT: GIM_CheckNumOperands, /*MI*/0, /*Expected*/4, // R21N-NEXT: GIM_CheckOpcode, /*MI*/0, TargetOpcode::G_SELECT, // R21N-NEXT: GIM_CheckCxxInsnPredicate, /*MI*/0, /*FnId*/GIPFP_MI_Predicate_frag, // R21N-NEXT: // MIs[0] dst // R21N-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32, // R21N-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::GPR32RegClassID, // R21N-NEXT: // MIs[0] src1 // R21N-NEXT: GIM_CheckType, /*MI*/0, /*Op*/1, /*Type*/GILLT_s32, // R21N-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/1, /*RC*/MyTarget::GPR32RegClassID, // R21N-NEXT: // MIs[0] src2 // R21N-NEXT: GIM_CheckType, /*MI*/0, /*Op*/2, /*Type*/GILLT_s32, // // R21C-NEXT: GIM_CheckComplexPattern, /*MI*/0, /*Op*/2, /*Renderer*/0, GICP_gi_complex, // R21N-NEXT: // MIs[0] src3 // R21N-NEXT: GIM_CheckType, /*MI*/0, /*Op*/3, /*Type*/GILLT_s32, // R21C-NEXT: GIM_CheckComplexPattern, /*MI*/0, /*Op*/3, /*Renderer*/1, GICP_gi_complex, // R21C-NEXT: // (select:{ *:[i32] } GPR32:{ *:[i32] }:$src1, complex:{ *:[i32] }:$src2, complex:{ *:[i32] }:$src3)<<P:Predicate_frag>> => (INSN2:{ *:[i32] } GPR32:{ *:[i32] }:$src1, complex:{ *:[i32] }:$src3, complex:{ *:[i32] }:$src2) // R21C-NEXT: GIR_BuildMI, /*InsnID*/0, /*Opcode*/MyTarget::INSN2, // R21C-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/0, // dst // R21C-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/1, // src1 // R21C-NEXT: GIR_ComplexRenderer, /*InsnID*/0, /*RendererID*/1, // R21C-NEXT: GIR_ComplexRenderer, /*InsnID*/0, /*RendererID*/0, // R21C-NEXT: GIR_MergeMemOperands, /*InsnID*/0, /*MergeInsnID's*/0, GIU_MergeMemOperands_EndOfList, // R21C-NEXT: GIR_EraseFromParent, /*InsnID*/0, // R21C-NEXT: GIR_ConstrainSelectedInstOperands, /*InsnID*/0, // R21C-NEXT: // GIR_Coverage, 21, // R21C-NEXT: GIR_Done, // R21C-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]] // // R21O-NEXT: GIM_Reject, // R21O-NEXT: // Label [[GROUP_NUM]]: @[[GROUP]] // R21O-NEXT: GIM_Reject, // R21O: // Label [[DEFAULT_NUM]]: @[[DEFAULT]] // R21O-NEXT: GIM_Reject, // R21O-NEXT: }; //===- Test a pattern with ComplexPattern operands. -----------------------===// // // R20O-NEXT: GIM_SwitchOpcode, /*MI*/0, /*[*/{{[0-9]+}}, {{[0-9]+}}, /*)*//*default:*//*Label [[DEFAULT_NUM:[0-9]+]]*/ [[DEFAULT:[0-9]+]], // R20O-NEXT: /*TargetOpcode::G_ADD*//*Label [[CASE_ADD_NUM:[0-9]+]]*/ [[CASE_ADD:[0-9]+]], // R20O: /*TargetOpcode::G_SUB*//*Label [[CASE_SUB_NUM:[0-9]+]]*/ [[CASE_SUB:[0-9]+]], // R20O: // Label [[CASE_ADD_NUM]]: @[[CASE_ADD]] // R20O: // Label [[CASE_SUB_NUM]]: @[[CASE_SUB]] // R20O-NEXT: GIM_Try, /*On fail goto*//*Label [[GROUP_NUM:[0-9]+]]*/ [[GROUP:[0-9]+]], // R20O-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32, // R20O-NEXT: GIM_CheckType, /*MI*/0, /*Op*/1, /*Type*/GILLT_s32, // R20O-NEXT: GIM_CheckType, /*MI*/0, /*Op*/2, /*Type*/GILLT_s32, // R20O-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::GPR32RegClassID, // // R20N: GIM_Try, /*On fail goto*//*Label [[PREV_NUM:[0-9]+]]*/ [[PREV:[0-9]+]], // Rule ID 21 // // R20N: // Label [[PREV_NUM]]: @[[PREV]] // // R20C-NEXT: GIM_Try, /*On fail goto*//*Label [[LABEL_NUM:[0-9]+]]*/ [[LABEL:[0-9]+]], // Rule ID 20 // // // R20N-NEXT: GIM_CheckNumOperands, /*MI*/0, /*Expected*/3, // R20N-NEXT: GIM_CheckOpcode, /*MI*/0, TargetOpcode::G_SUB, // R20N-NEXT: // MIs[0] dst // R20N-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32, // R20N-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::GPR32RegClassID, // R20N-NEXT: // MIs[0] src1 // R20N-NEXT: GIM_CheckType, /*MI*/0, /*Op*/1, /*Type*/GILLT_s32, // // R20N-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/1, /*RC*/MyTarget::GPR32RegClassID, // R20N-NEXT: // MIs[0] src2 // R20N-NEXT: GIM_CheckType, /*MI*/0, /*Op*/2, /*Type*/GILLT_s32, // R20O-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/1, /*RC*/MyTarget::GPR32RegClassID, // R20C-NEXT: GIM_CheckComplexPattern, /*MI*/0, /*Op*/2, /*Renderer*/0, GICP_gi_complex, // R20C-NEXT: // (sub:{ *:[i32] } GPR32:{ *:[i32] }:$src1, complex:{ *:[i32] }:$src2) => (INSN1:{ *:[i32] } GPR32:{ *:[i32] }:$src1, complex:{ *:[i32] }:$src2) // R20C-NEXT: GIR_BuildMI, /*InsnID*/0, /*Opcode*/MyTarget::INSN1, // R20C-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/0, // dst // R20C-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/1, // src1 // R20C-NEXT: GIR_ComplexRenderer, /*InsnID*/0, /*RendererID*/0, // R20C-NEXT: GIR_EraseFromParent, /*InsnID*/0, // R20C-NEXT: GIR_ConstrainSelectedInstOperands, /*InsnID*/0, // R20C-NEXT: // GIR_Coverage, 20, // R20C-NEXT: GIR_Done, // R20C-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]] // // R20O: // Label [[GROUP_NUM]]: @[[GROUP]] // R20O-NEXT: GIM_Reject, // R20O: // Label [[DEFAULT_NUM]]: @[[DEFAULT]] // R20O-NEXT: GIM_Reject, // R20O-NEXT: }; def INSN1 : I<(outs GPR32:$dst), (ins GPR32:$src1, complex:$src2), []>; def : Pat<(sub GPR32:$src1, complex:$src2), (INSN1 GPR32:$src1, complex:$src2)>; //===- Test a pattern with multiple ComplexPattern operands. --------------===// // def : GINodeEquiv<G_SELECT, select>; let mayLoad = 1 in { def INSN2 : I<(outs GPR32:$dst), (ins GPR32Op:$src1, complex:$src2, complex:$src3), []>; } def frag : PatFrag<(ops node:$a, node:$b, node:$c), (select node:$a, node:$b, node:$c), [{ return true; // C++ code }]> { let GISelPredicateCode = [{ return true; // C++ code }]; } def : Pat<(frag GPR32:$src1, complex:$src2, complex:$src3), (INSN2 GPR32:$src1, complex:$src3, complex:$src2)>; //===- Test a more complex multi-instruction match. -----------------------===// // // R00O-NEXT: GIM_SwitchOpcode, /*MI*/0, /*[*/{{[0-9]+}}, {{[0-9]+}}, /*)*//*default:*//*Label [[DEFAULT_NUM:[0-9]+]]*/ [[DEFAULT:[0-9]+]], // R00O-NEXT: /*TargetOpcode::G_ADD*//*Label [[CASE_ADD_NUM:[0-9]+]]*/ [[CASE_ADD:[0-9]+]], // R00O: /*TargetOpcode::G_SUB*//*Label [[CASE_SUB_NUM:[0-9]+]]*/ [[CASE_SUB:[0-9]+]], // R00O: // Label [[CASE_ADD_NUM]]: @[[CASE_ADD]] // R00O: // Label [[CASE_SUB_NUM]]: @[[CASE_SUB]] // R00O-NEXT: GIM_Try, /*On fail goto*//*Label [[GROUP_NUM:[0-9]+]]*/ [[GROUP:[0-9]+]], // R00O-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32, // R00O-NEXT: GIM_CheckType, /*MI*/0, /*Op*/1, /*Type*/GILLT_s32, // R00O-NEXT: GIM_CheckType, /*MI*/0, /*Op*/2, /*Type*/GILLT_s32, // R00O-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::GPR32RegClassID, // // R00C: GIM_Try, /*On fail goto*//*Label [[PREV_NUM:[0-9]+]]*/ [[PREV:[0-9]+]], // Rule ID 20 // // R00C: // Label [[PREV_NUM]]: @[[PREV]] // // R00C-NEXT: GIM_Try, /*On fail goto*//*Label [[LABEL_NUM:[0-9]+]]*/ [[LABEL:[0-9]+]], // Rule ID 0 // // R00C-NEXT: GIM_CheckFeatures, GIFBS_HasA, // R00N-NEXT: GIM_CheckNumOperands, /*MI*/0, /*Expected*/3, // R00N-NEXT: GIM_CheckOpcode, /*MI*/0, TargetOpcode::G_SUB, // R00N-NEXT: // MIs[0] dst // R00N-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32, // R00N-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::GPR32RegClassID, // R00N-NEXT: // MIs[0] Operand 1 // R00N-NEXT: GIM_CheckType, /*MI*/0, /*Op*/1, /*Type*/GILLT_s32, // R00C-NEXT: GIM_RecordInsn, /*DefineMI*/1, /*MI*/0, /*OpIdx*/1, // MIs[1] // R00N-NEXT: GIM_CheckNumOperands, /*MI*/1, /*Expected*/3, // R00C-NEXT: GIM_CheckOpcode, /*MI*/1, TargetOpcode::G_SUB, // R00N-NEXT: // MIs[1] Operand 0 // R00N-NEXT: GIM_CheckType, /*MI*/1, /*Op*/0, /*Type*/GILLT_s32, // R00N-NEXT: // MIs[1] src1 // R00C-NEXT: GIM_CheckType, /*MI*/1, /*Op*/1, /*Type*/GILLT_s32, // R00O-NEXT: GIM_CheckType, /*MI*/1, /*Op*/2, /*Type*/GILLT_s32, // R00N-NEXT: GIM_CheckRegBankForClass, /*MI*/1, /*Op*/1, /*RC*/MyTarget::GPR32RegClassID, // R00N-NEXT: // MIs[1] src2 // R00N-NEXT: GIM_CheckType, /*MI*/1, /*Op*/2, /*Type*/GILLT_s32, // R00N-NEXT: GIM_CheckRegBankForClass, /*MI*/1, /*Op*/2, /*RC*/MyTarget::GPR32RegClassID, // R00N-NEXT: // MIs[0] Operand 2 // R00N-NEXT: GIM_CheckType, /*MI*/0, /*Op*/2, /*Type*/GILLT_s32, // R00O-NEXT: GIM_CheckRegBankForClass, /*MI*/1, /*Op*/1, /*RC*/MyTarget::GPR32RegClassID, // R00O-NEXT: GIM_CheckRegBankForClass, /*MI*/1, /*Op*/2, /*RC*/MyTarget::GPR32RegClassID, // R00C-NEXT: GIM_RecordInsn, /*DefineMI*/2, /*MI*/0, /*OpIdx*/2, // MIs[2] // R00N-NEXT: GIM_CheckNumOperands, /*MI*/2, /*Expected*/3, // R00C-NEXT: GIM_CheckOpcode, /*MI*/2, TargetOpcode::G_SUB, // R00N-NEXT: // MIs[2] Operand 0 // R00N-NEXT: GIM_CheckType, /*MI*/2, /*Op*/0, /*Type*/GILLT_s32, // R00N-NEXT: // MIs[2] src3 // R00C-NEXT: GIM_CheckType, /*MI*/2, /*Op*/1, /*Type*/GILLT_s32, // R00O-NEXT: GIM_CheckType, /*MI*/2, /*Op*/2, /*Type*/GILLT_s32, // R00N-NEXT: GIM_CheckRegBankForClass, /*MI*/2, /*Op*/1, /*RC*/MyTarget::GPR32RegClassID, // R00N-NEXT: // MIs[2] src4 // R00N-NEXT: GIM_CheckType, /*MI*/2, /*Op*/2, /*Type*/GILLT_s32, // R00N-NEXT: GIM_CheckRegBankForClass, /*MI*/2, /*Op*/2, /*RC*/MyTarget::GPR32RegClassID, // R00O-NEXT: GIM_CheckRegBankForClass, /*MI*/2, /*Op*/1, /*RC*/MyTarget::GPR32RegClassID, // R00O-NEXT: GIM_CheckRegBankForClass, /*MI*/2, /*Op*/2, /*RC*/MyTarget::GPR32RegClassID, // R00C-NEXT: GIM_CheckIsSafeToFold, /*InsnID*/1, // R00C-NEXT: GIM_CheckIsSafeToFold, /*InsnID*/2, // R00C-NEXT: // (sub:{ *:[i32] } (sub:{ *:[i32] } GPR32:{ *:[i32] }:$src1, GPR32:{ *:[i32] }:$src2), (sub:{ *:[i32] } GPR32:{ *:[i32] }:$src3, GPR32:{ *:[i32] }:$src4)) => (INSNBOB:{ *:[i32] } GPR32:{ *:[i32] }:$src1, GPR32:{ *:[i32] }:$src2, GPR32:{ *:[i32] }:$src3, GPR32:{ *:[i32] }:$src4) // R00C-NEXT: GIR_BuildMI, /*InsnID*/0, /*Opcode*/MyTarget::INSNBOB, // R00C-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/0, // dst // R00C-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/1, /*OpIdx*/1, // src1 // R00C-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/1, /*OpIdx*/2, // src2 // R00C-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/2, /*OpIdx*/1, // src3 // R00C-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/2, /*OpIdx*/2, // src4 // R00C-NEXT: GIR_EraseFromParent, /*InsnID*/0, // R00C-NEXT: GIR_ConstrainSelectedInstOperands, /*InsnID*/0, // R00C-NEXT: // GIR_Coverage, 0, // R00C-NEXT: GIR_Done, // R00C-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]] // // R00O-NEXT: GIM_Reject, // R00O-NEXT: // Label [[GROUP_NUM]]: @[[GROUP]] // R00O-NEXT: GIM_Reject, // R00O: // Label [[DEFAULT_NUM]]: @[[DEFAULT]] // R00O-NEXT: GIM_Reject, // R00O-NEXT: }; def INSNBOB : I<(outs GPR32:$dst), (ins GPR32:$src1, GPR32:$src2, GPR32:$src3, GPR32:$src4), [(set GPR32:$dst, (sub (sub GPR32:$src1, GPR32:$src2), (sub GPR32:$src3, GPR32:$src4)))]>, Requires<[HasA]>; //===- Test a simple pattern with an intrinsic. ---------------------------===// // // R01O-NEXT: GIM_SwitchOpcode, /*MI*/0, /*[*/{{[0-9]+}}, {{[0-9]+}}, /*)*//*default:*//*Label [[DEFAULT_NUM:[0-9]+]]*/ [[DEFAULT:[0-9]+]], // R01O-NEXT: /*TargetOpcode::G_ADD*//*Label [[CASE_ADD_NUM:[0-9]+]]*/ [[CASE_ADD:[0-9]+]], // R01O: /*TargetOpcode::G_INTRINSIC*//*Label [[CASE_INTRINSIC_NUM:[0-9]+]]*/ [[CASE_INTRINSIC:[0-9]+]], // R01O: // Label [[CASE_ADD_NUM]]: @[[CASE_ADD]] // R01O: // Label [[CASE_INTRINSIC_NUM]]: @[[CASE_INTRINSIC]] // // R01N: GIM_Try, /*On fail goto*//*Label [[PREV_NUM:[0-9]+]]*/ [[PREV:[0-9]+]], // Rule ID 0 // // R01N: // Label [[PREV_NUM]]: @[[PREV]] // // R01C-NEXT: GIM_Try, /*On fail goto*//*Label [[LABEL_NUM:[0-9]+]]*/ [[LABEL:[0-9]+]], // Rule ID 1 // // R01C-NEXT: GIM_CheckNumOperands, /*MI*/0, /*Expected*/3, // // R01O-NEXT: GIM_CheckIntrinsicID, /*MI*/0, /*Op*/1, Intrinsic::mytarget_nop, // R01O-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32, // R01O-NEXT: GIM_CheckType, /*MI*/0, /*Op*/2, /*Type*/GILLT_s32, // R01O-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::GPR32RegClassID, // // R01N-NEXT: GIM_CheckOpcode, /*MI*/0, TargetOpcode::G_INTRINSIC, // R01N-NEXT: // MIs[0] dst // R01N-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32, // R01N-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::GPR32RegClassID, // R01N-NEXT: // MIs[0] Operand 1 // R01N-NEXT: GIM_CheckIntrinsicID, /*MI*/0, /*Op*/1, Intrinsic::mytarget_nop, // R01N-NEXT: // MIs[0] src1 // R01N-NEXT: GIM_CheckType, /*MI*/0, /*Op*/2, /*Type*/GILLT_s32, // // R01C-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/2, /*RC*/MyTarget::GPR32RegClassID, // R01C-NEXT: // (intrinsic_wo_chain:{ *:[i32] } [[ID:[0-9]+]]:{ *:[iPTR] }, GPR32:{ *:[i32] }:$src1) => (MOV:{ *:[i32] } GPR32:{ *:[i32] }:$src1) // R01C-NEXT: GIR_BuildMI, /*InsnID*/0, /*Opcode*/MyTarget::MOV, // R01C-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/0, // dst // R01C-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/2, // src1 // R01C-NEXT: GIR_EraseFromParent, /*InsnID*/0, // R01C-NEXT: GIR_ConstrainSelectedInstOperands, /*InsnID*/0, // R01C-NEXT: // GIR_Coverage, 1, // R01C-NEXT: GIR_Done, // R01C-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]] // // R01O-NEXT: GIM_Reject, // R01O: // Label [[DEFAULT_NUM]]: @[[DEFAULT]] // R01O-NEXT: GIM_Reject, def MOV : I<(outs GPR32:$dst), (ins GPR32:$src1), [(set GPR32:$dst, (int_mytarget_nop GPR32:$src1))]>; //===- Test a simple pattern with a default operand. ----------------------===// // // R02O-NEXT: GIM_SwitchOpcode, /*MI*/0, /*[*/{{[0-9]+}}, {{[0-9]+}}, /*)*//*default:*//*Label [[DEFAULT_NUM:[0-9]+]]*/ [[DEFAULT:[0-9]+]], // R02O-NEXT: /*TargetOpcode::G_ADD*//*Label [[CASE_ADD_NUM:[0-9]+]]*/ [[CASE_ADD:[0-9]+]], // R02O: /*TargetOpcode::G_XOR*//*Label [[CASE_XOR_NUM:[0-9]+]]*/ [[CASE_XOR:[0-9]+]], // R02O: // Label [[CASE_ADD_NUM]]: @[[CASE_ADD]] // R02O: // Label [[CASE_XOR_NUM]]: @[[CASE_XOR]] // R02O-NEXT: GIM_Try, /*On fail goto*//*Label [[GROUP_NUM:[0-9]+]]*/ [[GROUP:[0-9]+]], // R02O-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32, // R02O-NEXT: GIM_CheckType, /*MI*/0, /*Op*/1, /*Type*/GILLT_s32, // R02O-NEXT: GIM_CheckType, /*MI*/0, /*Op*/2, /*Type*/GILLT_s32, // R02O-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::GPR32RegClassID, // R02O-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/1, /*RC*/MyTarget::GPR32RegClassID, // // R02N: GIM_Try, /*On fail goto*//*Label [[PREV_NUM:[0-9]+]]*/ [[PREV:[0-9]+]], // Rule ID 1 // // R02N: // Label [[PREV_NUM]]: @[[PREV]] // // R02C-NEXT: GIM_Try, /*On fail goto*//*Label [[LABEL_NUM:[0-9]+]]*/ [[LABEL:[0-9]+]], // Rule ID 2 // // // R02N-NEXT: GIM_CheckNumOperands, /*MI*/0, /*Expected*/3, // R02N-NEXT: GIM_CheckOpcode, /*MI*/0, TargetOpcode::G_XOR, // R02N-NEXT: // MIs[0] dst // R02N-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32, // R02N-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::GPR32RegClassID, // R02N-NEXT: // MIs[0] src1 // R02N-NEXT: GIM_CheckType, /*MI*/0, /*Op*/1, /*Type*/GILLT_s32, // R02N-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/1, /*RC*/MyTarget::GPR32RegClassID, // R02N-NEXT: // MIs[0] Operand 2 // R02N-NEXT: GIM_CheckType, /*MI*/0, /*Op*/2, /*Type*/GILLT_s32, // // R02C-NEXT: GIM_CheckConstantInt, /*MI*/0, /*Op*/2, -2 // R02C-NEXT: // (xor:{ *:[i32] } GPR32:{ *:[i32] }:$src1, -2:{ *:[i32] }) => (XORI:{ *:[i32] } GPR32:{ *:[i32] }:$src1) // R02C-NEXT: GIR_BuildMI, /*InsnID*/0, /*Opcode*/MyTarget::XORI, // R02C-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/0, // dst // R02C-NEXT: GIR_AddImm, /*InsnID*/0, /*Imm*/-1, // R02C-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/1, // src1 // R02C-NEXT: GIR_EraseFromParent, /*InsnID*/0, // R02C-NEXT: GIR_ConstrainSelectedInstOperands, /*InsnID*/0, // R02C-NEXT: // GIR_Coverage, 2, // R02C-NEXT: GIR_Done, // R02C-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]] // // R02O: // Label [[DEFAULT_NUM]]: @[[DEFAULT]] // R02O-NEXT: GIM_Reject, // The -2 is just to distinguish it from the 'not' case below. def XORI : I<(outs GPR32:$dst), (ins m1:$src2, GPR32:$src1), [(set GPR32:$dst, (xor GPR32:$src1, -2))]>; //===- Test a simple pattern with a default register operand. -------------===// // // NOOPT-NEXT: GIM_Try, /*On fail goto*//*Label [[LABEL_NUM:[0-9]+]]*/ [[LABEL:[0-9]+]], // NOOPT-NEXT: GIM_CheckNumOperands, /*MI*/0, /*Expected*/3, // NOOPT-NEXT: GIM_CheckOpcode, /*MI*/0, TargetOpcode::G_XOR, // NOOPT-NEXT: // MIs[0] dst // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: // MIs[0] src1 // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/1, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/1, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: // MIs[0] Operand 2 // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/2, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckConstantInt, /*MI*/0, /*Op*/2, -3 // NOOPT-NEXT: // (xor:{ *:[i32] } GPR32:{ *:[i32] }:$src1, -3:{ *:[i32] }) => (XOR:{ *:[i32] } GPR32:{ *:[i32] }:$src1) // NOOPT-NEXT: GIR_BuildMI, /*InsnID*/0, /*Opcode*/MyTarget::XOR, // NOOPT-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/0, // dst // NOOPT-NEXT: GIR_AddRegister, /*InsnID*/0, MyTarget::R0, // NOOPT-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/1, // src1 // NOOPT-NEXT: GIR_EraseFromParent, /*InsnID*/0, // NOOPT-NEXT: GIR_ConstrainSelectedInstOperands, /*InsnID*/0, // NOOPT-NEXT: // GIR_Coverage, 3, // NOOPT-NEXT: GIR_Done, // NOOPT-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]] // The -3 is just to distinguish it from the 'not' case below and the other default op case above. def XOR : I<(outs GPR32:$dst), (ins Z:$src2, GPR32:$src1), [(set GPR32:$dst, (xor GPR32:$src1, -3))]>; //===- Test a simple pattern with a multiple default operands. ------------===// // // NOOPT-NEXT: GIM_Try, /*On fail goto*//*Label [[LABEL_NUM:[0-9]+]]*/ [[LABEL:[0-9]+]], // NOOPT-NEXT: GIM_CheckNumOperands, /*MI*/0, /*Expected*/3, // NOOPT-NEXT: GIM_CheckOpcode, /*MI*/0, TargetOpcode::G_XOR, // NOOPT-NEXT: // MIs[0] dst // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: // MIs[0] src1 // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/1, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/1, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: // MIs[0] Operand 2 // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/2, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckConstantInt, /*MI*/0, /*Op*/2, -4 // NOOPT-NEXT: // (xor:{ *:[i32] } GPR32:{ *:[i32] }:$src1, -4:{ *:[i32] }) => (XORlike:{ *:[i32] } GPR32:{ *:[i32] }:$src1) // NOOPT-NEXT: GIR_BuildMI, /*InsnID*/0, /*Opcode*/MyTarget::XORlike, // NOOPT-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/0, // dst // NOOPT-NEXT: GIR_AddImm, /*InsnID*/0, /*Imm*/-1, // NOOPT-NEXT: GIR_AddRegister, /*InsnID*/0, MyTarget::R0, // NOOPT-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/1, // src1 // NOOPT-NEXT: GIR_EraseFromParent, /*InsnID*/0, // NOOPT-NEXT: GIR_ConstrainSelectedInstOperands, /*InsnID*/0, // NOOPT-NEXT: // GIR_Coverage, 4, // NOOPT-NEXT: GIR_Done, // NOOPT-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]] // The -4 is just to distinguish it from the other 'not' cases. def XORlike : I<(outs GPR32:$dst), (ins m1Z:$src2, GPR32:$src1), [(set GPR32:$dst, (xor GPR32:$src1, -4))]>; //===- Test a simple pattern with multiple operands with defaults. --------===// // // NOOPT-NEXT: GIM_Try, /*On fail goto*//*Label [[LABEL_NUM:[0-9]+]]*/ [[LABEL:[0-9]+]], // NOOPT-NEXT: GIM_CheckNumOperands, /*MI*/0, /*Expected*/3, // NOOPT-NEXT: GIM_CheckOpcode, /*MI*/0, TargetOpcode::G_XOR, // NOOPT-NEXT: // MIs[0] dst // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: // MIs[0] src1 // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/1, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/1, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: // MIs[0] Operand 2 // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/2, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckConstantInt, /*MI*/0, /*Op*/2, -5, // NOOPT-NEXT: // (xor:{ *:[i32] } GPR32:{ *:[i32] }:$src1, -5:{ *:[i32] }) => (XORManyDefaults:{ *:[i32] } GPR32:{ *:[i32] }:$src1) // NOOPT-NEXT: GIR_BuildMI, /*InsnID*/0, /*Opcode*/MyTarget::XORManyDefaults, // NOOPT-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/0, // dst // NOOPT-NEXT: GIR_AddImm, /*InsnID*/0, /*Imm*/-1, // NOOPT-NEXT: GIR_AddRegister, /*InsnID*/0, MyTarget::R0, // NOOPT-NEXT: GIR_AddRegister, /*InsnID*/0, MyTarget::R0, // NOOPT-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/1, // src1 // NOOPT-NEXT: GIR_EraseFromParent, /*InsnID*/0, // NOOPT-NEXT: GIR_ConstrainSelectedInstOperands, /*InsnID*/0, // NOOPT-NEXT: // GIR_Coverage, 5, // NOOPT-NEXT: GIR_Done, // NOOPT-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]] // The -5 is just to distinguish it from the other cases. def XORManyDefaults : I<(outs GPR32:$dst), (ins m1Z:$src3, Z:$src2, GPR32:$src1), [(set GPR32:$dst, (xor GPR32:$src1, -5))]>; //===- Test a simple pattern with constant immediate operands. ------------===// // // This must precede the 3-register variants because constant immediates have // priority over register banks. // // NOOPT-NEXT: GIM_Try, /*On fail goto*//*Label [[LABEL_NUM:[0-9]+]]*/ [[LABEL:[0-9]+]], // NOOPT-NEXT: GIM_CheckNumOperands, /*MI*/0, /*Expected*/3, // NOOPT-NEXT: GIM_CheckOpcode, /*MI*/0, TargetOpcode::G_XOR, // NOOPT-NEXT: // MIs[0] dst // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: // MIs[0] Wm // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/1, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/1, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: // MIs[0] Operand 2 // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/2, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckConstantInt, /*MI*/0, /*Op*/2, -1, // NOOPT-NEXT: // (xor:{ *:[i32] } GPR32:{ *:[i32] }:$Wm, -1:{ *:[i32] }) => (ORN:{ *:[i32] } R0:{ *:[i32] }, GPR32:{ *:[i32] }:$Wm) // NOOPT-NEXT: GIR_BuildMI, /*InsnID*/0, /*Opcode*/MyTarget::ORN, // NOOPT-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/0, // dst // NOOPT-NEXT: GIR_AddRegister, /*InsnID*/0, MyTarget::R0, // NOOPT-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/1, // Wm // NOOPT-NEXT: GIR_EraseFromParent, /*InsnID*/0, // NOOPT-NEXT: GIR_ConstrainSelectedInstOperands, /*InsnID*/0, // NOOPT-NEXT: // GIR_Coverage, 22, // NOOPT-NEXT: GIR_Done, // NOOPT-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]] def ORN : I<(outs GPR32:$dst), (ins GPR32:$src1, GPR32:$src2), []>; def : Pat<(not GPR32:$Wm), (ORN R0, GPR32:$Wm)>; //===- Test a nested instruction match. -----------------------------------===// // // NOOPT-NEXT: GIM_Try, /*On fail goto*//*Label [[LABEL_NUM:[0-9]+]]*/ [[LABEL:[0-9]+]], // NOOPT-NEXT: GIM_CheckFeatures, GIFBS_HasA, // NOOPT-NEXT: GIM_CheckNumOperands, /*MI*/0, /*Expected*/3, // NOOPT-NEXT: GIM_CheckOpcode, /*MI*/0, TargetOpcode::G_MUL, // NOOPT-NEXT: // MIs[0] dst // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: // MIs[0] Operand 1 // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/1, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_RecordInsn, /*DefineMI*/1, /*MI*/0, /*OpIdx*/1, // MIs[1] // NOOPT-NEXT: GIM_CheckNumOperands, /*MI*/1, /*Expected*/3, // NOOPT-NEXT: GIM_CheckOpcode, /*MI*/1, TargetOpcode::G_ADD, // NOOPT-NEXT: // MIs[1] Operand 0 // NOOPT-NEXT: GIM_CheckType, /*MI*/1, /*Op*/0, /*Type*/GILLT_s32, // NOOPT-NEXT: // MIs[1] src1 // NOOPT-NEXT: GIM_CheckType, /*MI*/1, /*Op*/1, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/1, /*Op*/1, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: // MIs[1] src2 // NOOPT-NEXT: GIM_CheckType, /*MI*/1, /*Op*/2, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/1, /*Op*/2, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: // MIs[0] src3 // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/2, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/2, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: GIM_CheckIsSafeToFold, /*InsnID*/1, // NOOPT-NEXT: // (mul:{ *:[i32] } (add:{ *:[i32] } GPR32:{ *:[i32] }:$src1, GPR32:{ *:[i32] }:$src2), GPR32:{ *:[i32] }:$src3) => (MULADD:{ *:[i32] } GPR32:{ *:[i32] }:$src1, GPR32:{ *:[i32] }:$src2, GPR32:{ *:[i32] }:$src3) // NOOPT-NEXT: GIR_BuildMI, /*InsnID*/0, /*Opcode*/MyTarget::MULADD, // NOOPT-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/0, // dst // NOOPT-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/1, /*OpIdx*/1, // src1 // NOOPT-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/1, /*OpIdx*/2, // src2 // NOOPT-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/2, // src3 // NOOPT-NEXT: GIR_EraseFromParent, /*InsnID*/0, // NOOPT-NEXT: GIR_ConstrainSelectedInstOperands, /*InsnID*/0, // NOOPT-NEXT: // GIR_Coverage, 6, // NOOPT-NEXT: GIR_Done, // NOOPT-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]] // We also get a second rule by commutativity. // // NOOPT-NEXT: GIM_Try, /*On fail goto*//*Label [[LABEL_NUM:[0-9]+]]*/ [[LABEL:[0-9]+]], // NOOPT-NEXT: GIM_CheckFeatures, GIFBS_HasA, // NOOPT-NEXT: GIM_CheckNumOperands, /*MI*/0, /*Expected*/3, // NOOPT-NEXT: GIM_CheckOpcode, /*MI*/0, TargetOpcode::G_MUL, // NOOPT-NEXT: // MIs[0] dst // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: // MIs[0] src3 // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/1, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/1, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: // MIs[0] Operand 2 // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/2, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_RecordInsn, /*DefineMI*/1, /*MI*/0, /*OpIdx*/2, // NOOPT-NEXT: GIM_CheckNumOperands, /*MI*/1, /*Expected*/3, // NOOPT-NEXT: GIM_CheckOpcode, /*MI*/1, TargetOpcode::G_ADD, // NOOPT-NEXT: // MIs[1] Operand 0 // NOOPT-NEXT: GIM_CheckType, /*MI*/1, /*Op*/0, /*Type*/GILLT_s32, // NOOPT-NEXT: // MIs[1] src1 // NOOPT-NEXT: GIM_CheckType, /*MI*/1, /*Op*/1, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/1, /*Op*/1, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: // MIs[1] src2 // NOOPT-NEXT: GIM_CheckType, /*MI*/1, /*Op*/2, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/1, /*Op*/2, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: GIM_CheckIsSafeToFold, /*InsnID*/1, // NOOPT-NEXT: // (mul:{ *:[i32] } GPR32:{ *:[i32] }:$src3, (add:{ *:[i32] } GPR32:{ *:[i32] }:$src1, GPR32:{ *:[i32] }:$src2)) => (MULADD:{ *:[i32] } GPR32:{ *:[i32] }:$src1, GPR32:{ *:[i32] }:$src2, GPR32:{ *:[i32] }:$src3) // NOOPT-NEXT: GIR_BuildMI, /*InsnID*/0, /*Opcode*/MyTarget::MULADD, // NOOPT-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/0, // dst // NOOPT-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/1, /*OpIdx*/1, // src1 // NOOPT-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/1, /*OpIdx*/2, // src2 // NOOPT-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/1, // src3 // NOOPT-NEXT: GIR_EraseFromParent, /*InsnID*/0, // NOOPT-NEXT: GIR_ConstrainSelectedInstOperands, /*InsnID*/0, // NOOPT-NEXT: // GIR_Coverage, 25, // NOOPT-NEXT: GIR_Done, // NOOPT-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]] def MULADD : I<(outs GPR32:$dst), (ins GPR32:$src1, GPR32:$src2, GPR32:$src3), [(set GPR32:$dst, (mul (add GPR32:$src1, GPR32:$src2), GPR32:$src3))]>, Requires<[HasA]>; //===- Test a simple pattern with just a specific leaf immediate. ---------===// // // NOOPT-NEXT: GIM_Try, /*On fail goto*//*Label [[LABEL_NUM:[0-9]+]]*/ [[LABEL:[0-9]+]], // NOOPT-NEXT: GIM_CheckNumOperands, /*MI*/0, /*Expected*/2, // NOOPT-NEXT: GIM_CheckOpcode, /*MI*/0, TargetOpcode::G_CONSTANT, // NOOPT-NEXT: // MIs[0] dst // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: // MIs[0] Operand 1 // NOOPT-NEXT: GIM_CheckLiteralInt, /*MI*/0, /*Op*/1, 1, // NOOPT-NEXT: // 1:{ *:[i32] } => (MOV1:{ *:[i32] }) // NOOPT-NEXT: GIR_BuildMI, /*InsnID*/0, /*Opcode*/MyTarget::MOV1, // NOOPT-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/0, // dst // NOOPT-NEXT: GIR_EraseFromParent, /*InsnID*/0, // NOOPT-NEXT: GIR_ConstrainSelectedInstOperands, /*InsnID*/0, // NOOPT-NEXT: // GIR_Coverage, 7, // NOOPT-NEXT: GIR_Done, // NOOPT-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]] def MOV1 : I<(outs GPR32:$dst), (ins), [(set GPR32:$dst, 1)]>; //===- Test a simple pattern with a leaf immediate and a predicate. -------===// // // NOOPT-NEXT: GIM_Try, /*On fail goto*//*Label [[LABEL_NUM:[0-9]+]]*/ [[LABEL:[0-9]+]], // NOOPT-NEXT: GIM_CheckNumOperands, /*MI*/0, /*Expected*/2, // NOOPT-NEXT: GIM_CheckOpcode, /*MI*/0, TargetOpcode::G_CONSTANT, // NOOPT-NEXT: GIM_CheckI64ImmPredicate, /*MI*/0, /*Predicate*/GIPFP_I64_Predicate_simm8, // NOOPT-NEXT: // MIs[0] dst // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: // MIs[0] Operand 1 // NOOPT-NEXT: // No operand predicates // NOOPT-NEXT: // (imm:{ *:[i32] })<<P:Predicate_simm8>>:$imm => (MOVimm8:{ *:[i32] } (imm:{ *:[i32] }):$imm) // NOOPT-NEXT: GIR_BuildMI, /*InsnID*/0, /*Opcode*/MyTarget::MOVimm8, // NOOPT-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/0, // dst // NOOPT-NEXT: GIR_CopyConstantAsSImm, /*NewInsnID*/0, /*OldInsnID*/0, // imm // NOOPT-NEXT: GIR_EraseFromParent, /*InsnID*/0, // NOOPT-NEXT: GIR_ConstrainSelectedInstOperands, /*InsnID*/0, // NOOPT-NEXT: // GIR_Coverage, 8, // NOOPT-NEXT: GIR_Done, // NOOPT-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]] def simm8 : ImmLeaf<i32, [{ return isInt<8>(Imm); }]>; def MOVimm8 : I<(outs GPR32:$dst), (ins i32imm:$imm), [(set GPR32:$dst, simm8:$imm)]>; //===- Same again but use an IntImmLeaf. ----------------------------------===// // // NOOPT-NEXT: GIM_Try, /*On fail goto*//*Label [[LABEL_NUM:[0-9]+]]*/ [[LABEL:[0-9]+]], // NOOPT-NEXT: GIM_CheckNumOperands, /*MI*/0, /*Expected*/2, // NOOPT-NEXT: GIM_CheckOpcode, /*MI*/0, TargetOpcode::G_CONSTANT, // NOOPT-NEXT: GIM_CheckAPIntImmPredicate, /*MI*/0, /*Predicate*/GIPFP_APInt_Predicate_simm9, // NOOPT-NEXT: // MIs[0] dst // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: // MIs[0] Operand 1 // NOOPT-NEXT: // No operand predicates // NOOPT-NEXT: // (imm:{ *:[i32] })<<P:Predicate_simm9>>:$imm => (MOVimm9:{ *:[i32] } (imm:{ *:[i32] }):$imm) // NOOPT-NEXT: GIR_BuildMI, /*InsnID*/0, /*Opcode*/MyTarget::MOVimm9, // NOOPT-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/0, // dst // NOOPT-NEXT: GIR_CopyConstantAsSImm, /*NewInsnID*/0, /*OldInsnID*/0, // imm // NOOPT-NEXT: GIR_EraseFromParent, /*InsnID*/0, // NOOPT-NEXT: GIR_ConstrainSelectedInstOperands, /*InsnID*/0, // NOOPT-NEXT: // GIR_Coverage, 9, // NOOPT-NEXT: GIR_Done, // NOOPT-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]] def simm9 : IntImmLeaf<i32, [{ return isInt<9>(Imm->getSExtValue()); }]>; def MOVimm9 : I<(outs GPR32:$dst), (ins i32imm:$imm), [(set GPR32:$dst, simm9:$imm)]>; //===- Test a pattern with a custom renderer. -----------------------------===// // // NOOPT-NEXT: GIM_Try, /*On fail goto*//*Label [[LABEL_NUM:[0-9]+]]*/ [[LABEL:[0-9]+]], // NOOPT-NEXT: GIM_CheckNumOperands, /*MI*/0, /*Expected*/2, // NOOPT-NEXT: GIM_CheckOpcode, /*MI*/0, TargetOpcode::G_CONSTANT, // NOOPT-NEXT: GIM_CheckI64ImmPredicate, /*MI*/0, /*Predicate*/GIPFP_I64_Predicate_cimm8, // NOOPT-NEXT: // MIs[0] dst // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: // MIs[0] Operand 1 // NOOPT-NEXT: // No operand predicates // NOOPT-NEXT: // (imm:{ *:[i32] })<<P:Predicate_cimm8>><<X:cimm8_xform>>:$imm => (MOVcimm8:{ *:[i32] } (cimm8_xform:{ *:[i32] } (imm:{ *:[i32] }):$imm)) // NOOPT-NEXT: GIR_BuildMI, /*InsnID*/0, /*Opcode*/MyTarget::MOVcimm8, // NOOPT-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/0, // dst // NOOPT-NEXT: GIR_CustomRenderer, /*InsnID*/0, /*OldInsnID*/0, /*Renderer*/GICR_renderImm8, // imm // NOOPT-NEXT: GIR_EraseFromParent, /*InsnID*/0, // NOOPT-NEXT: GIR_ConstrainSelectedInstOperands, /*InsnID*/0, // NOOPT-NEXT: // GIR_Coverage, 10, // NOOPT-NEXT: GIR_Done, // NOOPT-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]] def MOVcimm8 : I<(outs GPR32:$dst), (ins i32imm:$imm), [(set GPR32:$dst, cimm8:$imm)]>; //===- Test a simple pattern with a FP immediate and a predicate. ---------===// // // NOOPT-NEXT: GIM_Try, /*On fail goto*//*Label [[LABEL_NUM:[0-9]+]]*/ [[LABEL:[0-9]+]], // NOOPT-NEXT: GIM_CheckNumOperands, /*MI*/0, /*Expected*/2, // NOOPT-NEXT: GIM_CheckOpcode, /*MI*/0, TargetOpcode::G_FCONSTANT, // NOOPT-NEXT: GIM_CheckAPFloatImmPredicate, /*MI*/0, /*Predicate*/GIPFP_APFloat_Predicate_fpimmz, // NOOPT-NEXT: // MIs[0] dst // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::FPR32RegClassID, // NOOPT-NEXT: // MIs[0] Operand 1 // NOOPT-NEXT: // No operand predicates // NOOPT-NEXT: // (fpimm:{ *:[f32] })<<P:Predicate_fpimmz>>:$imm => (MOVfpimmz:{ *:[f32] } (fpimm:{ *:[f32] }):$imm) // NOOPT-NEXT: GIR_BuildMI, /*InsnID*/0, /*Opcode*/MyTarget::MOVfpimmz, // NOOPT-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/0, // dst // NOOPT-NEXT: GIR_CopyFConstantAsFPImm, /*NewInsnID*/0, /*OldInsnID*/0, // imm // NOOPT-NEXT: GIR_EraseFromParent, /*InsnID*/0, // NOOPT-NEXT: GIR_ConstrainSelectedInstOperands, /*InsnID*/0, // NOOPT-NEXT: // GIR_Coverage, 17, // NOOPT-NEXT: GIR_Done, // NOOPT-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]] //===- Test a simple pattern with inferred pointer operands. ---------------===// // // NOOPT-NEXT: GIM_Try, /*On fail goto*//*Label [[LABEL_NUM:[0-9]+]]*/ [[LABEL:[0-9]+]], // NOOPT-NEXT: GIM_CheckNumOperands, /*MI*/0, /*Expected*/2, // NOOPT-NEXT: GIM_CheckOpcode, /*MI*/0, TargetOpcode::G_LOAD, // NOOPT-NEXT: GIM_CheckMemorySizeEqualToLLT, /*MI*/0, /*MMO*/0, /*OpIdx*/0, // NOOPT-NEXT: GIM_CheckAtomicOrdering, /*MI*/0, /*Order*/(int64_t)AtomicOrdering::NotAtomic, // NOOPT-NEXT: // MIs[0] dst // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: // MIs[0] src1 // NOOPT-NEXT: GIM_CheckPointerToAny, /*MI*/0, /*Op*/1, /*SizeInBits*/32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/1, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: // (ld:{ *:[i32] } GPR32:{ *:[i32] }:$src1)<<P:Predicate_unindexedload>><<P:Predicate_load>> => (LOAD:{ *:[i32] } GPR32:{ *:[i32] }:$src1) // NOOPT-NEXT: GIR_MutateOpcode, /*InsnID*/0, /*RecycleInsnID*/0, /*Opcode*/MyTarget::LOAD, // NOOPT-NEXT: GIR_ConstrainSelectedInstOperands, /*InsnID*/0, // NOOPT-NEXT: // GIR_Coverage, 11, // NOOPT-NEXT: GIR_Done, // NOOPT-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]] def LOAD : I<(outs GPR32:$dst), (ins GPR32:$src1), [(set GPR32:$dst, (load GPR32:$src1))]>; //===- Test a simple pattern with a sextload -------------------------------===// // // NOOPT-NEXT: GIM_Try, /*On fail goto*//*Label [[LABEL_NUM:[0-9]+]]*/ [[LABEL:[0-9]+]], // NOOPT-NEXT: GIM_CheckNumOperands, /*MI*/0, /*Expected*/2, // NOOPT-NEXT: GIM_CheckOpcode, /*MI*/0, TargetOpcode::G_SEXTLOAD, // NOOPT-NEXT: GIM_CheckMemorySizeEqualTo, /*MI*/0, /*MMO*/0, /*Size*/2, // NOOPT-NEXT: GIM_CheckAtomicOrdering, /*MI*/0, /*Order*/(int64_t)AtomicOrdering::NotAtomic, // NOOPT-NEXT: // MIs[0] dst // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: // MIs[0] src1 // NOOPT-NEXT: GIM_CheckPointerToAny, /*MI*/0, /*Op*/1, /*SizeInBits*/32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/1, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: // (ld:{ *:[i32] } GPR32:{ *:[i32] }:$src1)<<P:Predicate_unindexedload>><<P:Predicate_sextload>><<P:Predicate_sextloadi16>> => (SEXTLOAD:{ *:[i32] } GPR32:{ *:[i32] }:$src1) // NOOPT-NEXT: GIR_MutateOpcode, /*InsnID*/0, /*RecycleInsnID*/0, /*Opcode*/MyTarget::SEXTLOAD, // NOOPT-NEXT: GIR_ConstrainSelectedInstOperands, /*InsnID*/0, // NOOPT-NEXT: // GIR_Coverage, 12, // NOOPT-NEXT: GIR_Done, // NOOPT-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]] def SEXTLOAD : I<(outs GPR32:$dst), (ins GPR32:$src1), [(set GPR32:$dst, (sextloadi16 GPR32:$src1))]>; //===- Test a simple pattern with regclass operands. ----------------------===// // // NOOPT-NEXT: GIM_Try, /*On fail goto*//*Label [[LABEL_NUM:[0-9]+]]*/ [[LABEL:[0-9]+]], // NOOPT-NEXT: GIM_CheckNumOperands, /*MI*/0, /*Expected*/3, // NOOPT-NEXT: GIM_CheckOpcode, /*MI*/0, TargetOpcode::G_ADD, // NOOPT-NEXT: // MIs[0] dst // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: // MIs[0] src1 // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/1, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/1, /*RC*/MyTarget::GPR32RegClassID // NOOPT-NEXT: // MIs[0] src2 // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/2, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/2, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: // (add:{ *:[i32] } GPR32:{ *:[i32] }:$src1, GPR32:{ *:[i32] }:$src2) => (ADD:{ *:[i32] } GPR32:{ *:[i32] }:$src1, GPR32:{ *:[i32] }:$src2) // NOOPT-NEXT: GIR_MutateOpcode, /*InsnID*/0, /*RecycleInsnID*/0, /*Opcode*/MyTarget::ADD, // NOOPT-NEXT: GIR_ConstrainSelectedInstOperands, /*InsnID*/0, // NOOPT-NEXT: // GIR_Coverage, 13, // NOOPT-NEXT: GIR_Done, // NOOPT-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]] def ADD : I<(outs GPR32:$dst), (ins GPR32:$src1, GPR32:$src2), [(set GPR32:$dst, (add GPR32:$src1, GPR32:$src2))]>; //===- Test a pattern with a tied operand in the matcher ------------------===// // // NOOPT-NEXT: GIM_Try, /*On fail goto*//*Label [[LABEL_NUM:[0-9]+]]*/ [[LABEL:[0-9]+]], // NOOPT-NEXT: GIM_CheckNumOperands, /*MI*/0, /*Expected*/3, // NOOPT-NEXT: GIM_CheckOpcode, /*MI*/0, TargetOpcode::G_ADD, // NOOPT-NEXT: // MIs[0] dst // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: // MIs[0] src{{$}} // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/1, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/1, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: // MIs[0] src{{$}} // NOOPT-NEXT: GIM_CheckIsSameOperand, /*MI*/0, /*OpIdx*/2, /*OtherMI*/0, /*OtherOpIdx*/1, // NOOPT-NEXT: // (add:{ *:[i32] } GPR32:{ *:[i32] }:$src, GPR32:{ *:[i32] }:$src) => (DOUBLE:{ *:[i32] } GPR32:{ *:[i32] }:$src) // NOOPT-NEXT: GIR_BuildMI, /*InsnID*/0, /*Opcode*/MyTarget::DOUBLE, // NOOPT-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/0, // dst // NOOPT-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/1, // src // NOOPT-NEXT: GIR_EraseFromParent, /*InsnID*/0, // NOOPT-NEXT: GIR_ConstrainSelectedInstOperands, /*InsnID*/0, // NOOPT-NEXT: // GIR_Coverage, 14, // NOOPT-NEXT: GIR_Done, // NOOPT-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]] def DOUBLE : I<(outs GPR32:$dst), (ins GPR32:$src), [(set GPR32:$dst, (add GPR32:$src, GPR32:$src))]>; //===- Test a simple pattern with ValueType operands. ----------------------===// // // NOOPT-NEXT: GIM_Try, /*On fail goto*//*Label [[LABEL_NUM:[0-9]+]]*/ [[LABEL:[0-9]+]], // NOOPT-NEXT: GIM_CheckNumOperands, /*MI*/0, /*Expected*/3, // NOOPT-NEXT: GIM_CheckOpcode, /*MI*/0, TargetOpcode::G_ADD, // NOOPT-NEXT: // MIs[0] dst // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: // MIs[0] src1 // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/1, /*Type*/GILLT_s32, // NOOPT-NEXT: // MIs[0] src2 // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/2, /*Type*/GILLT_s32, // NOOPT-NEXT: // (add:{ *:[i32] } i32:{ *:[i32] }:$src1, i32:{ *:[i32] }:$src2) => (ADD:{ *:[i32] } i32:{ *:[i32] }:$src1, i32:{ *:[i32] }:$src2) // NOOPT-NEXT: GIR_MutateOpcode, /*InsnID*/0, /*RecycleInsnID*/0, /*Opcode*/MyTarget::ADD, // NOOPT-NEXT: GIR_ConstrainSelectedInstOperands, /*InsnID*/0, // NOOPT-NEXT: // GIR_Coverage, 23, // NOOPT-NEXT: GIR_Done, // NOOPT-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]] def : Pat<(add i32:$src1, i32:$src2), (ADD i32:$src1, i32:$src2)>; //===- Test another simple pattern with regclass operands. ----------------===// // // NOOPT-NEXT: GIM_Try, /*On fail goto*//*Label [[LABEL_NUM:[0-9]+]]*/ [[LABEL:[0-9]+]], // NOOPT-NEXT: GIM_CheckFeatures, GIFBS_HasA_HasB_HasC, // NOOPT-NEXT: GIM_CheckNumOperands, /*MI*/0, /*Expected*/3, // NOOPT-NEXT: GIM_CheckOpcode, /*MI*/0, TargetOpcode::G_MUL, // NOOPT-NEXT: // MIs[0] dst // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: // MIs[0] src1 // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/1, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/1, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: // MIs[0] src2 // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/2, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/2, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: // (mul:{ *:[i32] } GPR32:{ *:[i32] }:$src1, GPR32:{ *:[i32] }:$src2) => (MUL:{ *:[i32] } GPR32:{ *:[i32] }:$src2, GPR32:{ *:[i32] }:$src1) // NOOPT-NEXT: GIR_BuildMI, /*InsnID*/0, /*Opcode*/MyTarget::MUL, // NOOPT-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/0, // dst // NOOPT-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/2, // src2 // NOOPT-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/1, // src1 // NOOPT-NEXT: GIR_EraseFromParent, /*InsnID*/0, // NOOPT-NEXT: GIR_ConstrainSelectedInstOperands, /*InsnID*/0, // NOOPT-NEXT: // GIR_Coverage, 15, // NOOPT-NEXT: GIR_Done, // NOOPT-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]] def MUL : I<(outs GPR32:$dst), (ins GPR32:$src2, GPR32:$src1), [(set GPR32:$dst, (mul GPR32:$src1, GPR32:$src2))]>, Requires<[HasA, HasB, HasC]>; //===- Test a COPY_TO_REGCLASS --------------------------------------------===// // // // NOOPT-NEXT: GIM_Try, /*On fail goto*//*Label [[LABEL_NUM:[0-9]+]]*/ [[LABEL:[0-9]+]], // NOOPT-NEXT: GIM_CheckNumOperands, /*MI*/0, /*Expected*/2, // NOOPT-NEXT: GIM_CheckOpcode, /*MI*/0, TargetOpcode::G_BITCAST, // NOOPT-NEXT: // MIs[0] dst // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: // MIs[0] src1 // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/1, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/1, /*RC*/MyTarget::FPR32RegClassID, // NOOPT-NEXT: // (bitconvert:{ *:[i32] } FPR32:{ *:[f32] }:$src1) => (COPY_TO_REGCLASS:{ *:[i32] } FPR32:{ *:[f32] }:$src1, GPR32:{ *:[i32] }) // NOOPT-NEXT: GIR_MutateOpcode, /*InsnID*/0, /*RecycleInsnID*/0, /*Opcode*/TargetOpcode::COPY, // NOOPT-NEXT: GIR_ConstrainOperandRC, /*InsnID*/0, /*Op*/0, /*RC GPR32*/1, // NOOPT-NEXT: // GIR_Coverage, 24, // NOOPT-NEXT: GIR_Done, // NOOPT-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]] def : Pat<(i32 (bitconvert FPR32:$src1)), (COPY_TO_REGCLASS FPR32:$src1, GPR32)>; //===- Test a simple pattern with just a leaf immediate. ------------------===// // // NOOPT-NEXT: GIM_Try, /*On fail goto*//*Label [[LABEL_NUM:[0-9]+]]*/ [[LABEL:[0-9]+]], // NOOPT-NEXT: GIM_CheckNumOperands, /*MI*/0, /*Expected*/2, // NOOPT-NEXT: GIM_CheckOpcode, /*MI*/0, TargetOpcode::G_CONSTANT, // NOOPT-NEXT: // MIs[0] dst // NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32, // NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::GPR32RegClassID, // NOOPT-NEXT: // MIs[0] Operand 1 // NOOPT-NEXT: // No operand predicates // NOOPT-NEXT: // (imm:{ *:[i32] }):$imm => (MOVimm:{ *:[i32] } (imm:{ *:[i32] }):$imm) // NOOPT-NEXT: GIR_BuildMI, /*InsnID*/0, /*Opcode*/MyTarget::MOVimm, // NOOPT-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/0, // dst // NOOPT-NEXT: GIR_CopyConstantAsSImm, /*NewInsnID*/0, /*OldInsnID*/0, // imm // NOOPT-NEXT: GIR_EraseFromParent, /*InsnID*/0, // NOOPT-NEXT: GIR_ConstrainSelectedInstOperands, /*InsnID*/0, // NOOPT-NEXT: // GIR_Coverage, 16, // NOOPT-NEXT: GIR_Done, // NOOPT-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]] def MOVimm : I<(outs GPR32:$dst), (ins i32imm:$imm), [(set GPR32:$dst, imm:$imm)]>; def fpimmz : FPImmLeaf<f32, [{ return Imm->isExactlyValue(0.0); }]>; def MOVfpimmz : I<(outs FPR32:$dst), (ins f32imm:$imm), [(set FPR32:$dst, fpimmz:$imm)]>; //===- Test a pattern with an MBB operand. --------------------------------===// // // NOOPT-NEXT: GIM_Try, /*On fail goto*//*Label [[LABEL_NUM:[0-9]+]]*/ [[LABEL:[0-9]+]], // NOOPT-NEXT: GIM_CheckNumOperands, /*MI*/0, /*Expected*/1, // NOOPT-NEXT: GIM_CheckOpcode, /*MI*/0, TargetOpcode::G_BR, // NOOPT-NEXT: // MIs[0] target // NOOPT-NEXT: GIM_CheckIsMBB, /*MI*/0, /*Op*/0, // NOOPT-NEXT: // (br (bb:{ *:[Other] }):$target) => (BR (bb:{ *:[Other] }):$target) // NOOPT-NEXT: GIR_MutateOpcode, /*InsnID*/0, /*RecycleInsnID*/0, /*Opcode*/MyTarget::BR, // NOOPT-NEXT: GIR_ConstrainSelectedInstOperands, /*InsnID*/0, // NOOPT-NEXT: // GIR_Coverage, 18, // NOOPT-NEXT: GIR_Done, // NOOPT-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]] def BR : I<(outs), (ins unknown:$target), [(br bb:$target)]>; // NOOPT-NEXT: GIM_Reject, // NOOPT-NEXT: }; // NOOPT-NEXT: return MatchTable0;