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llvm-mirror/test/TableGen/GlobalISelEmitter.td
Matt Arsenault 5dd6dcdb6a TableGen/GlobalISel: Add way for SDNodeXForm to work on timm
The current implementation assumes there is an instruction associated
with the transform, but this is not the case for
timm/TargetConstant/immarg values. These transforms should directly
operate on a specific MachineOperand in the source
instruction. TableGen would assert if you attempted to define an
equivalent GISDNodeXFormEquiv using timm when it failed to find the
instruction matcher.

Specially recognize SDNodeXForms on timm, and pass the operand index
to the render function.

Ideally this would be a separate render function type that looks like
void renderFoo(MachineInstrBuilder, const MachineOperand&), but this
proved to be somewhat mechanically painful. Add an optional operand
index which will only be passed if the transform should only look at
the one source operand.

Theoretically it would also be possible to only ever pass the
MachineOperand, and the existing renderers would check the parent. I
think that would be somewhat ugly for the standard usage which may
want to inspect other operands, and I also think MachineOperand should
eventually not carry a pointer to the parent instruction.

Use it in one sample pattern. This isn't a great example, since the
transform exists to satisfy DAG type constraints. This could also be
avoided by just changing the MachineInstr's arbitrary choice of
operand type from i16 to i32. Other patterns have nontrivial uses, but
this serves as the simplest example.

One flaw this still has is if you try to use an SDNodeXForm defined
for imm, but the source pattern uses timm, you still see the "Failed
to lookup instruction" assert. However, there is now a way to avoid
it.
2020-01-09 17:37:52 -05:00

1176 lines
66 KiB
TableGen

// RUN: llvm-tblgen -gen-global-isel -I %p/../../include -I %p/Common -optimize-match-table=false %s -o %T/non-optimized.cpp
// RUN: llvm-tblgen -gen-global-isel -I %p/../../include -I %p/Common -optimize-match-table=true %s -o %T/optimized.cpp
// RUN: llvm-tblgen -gen-global-isel -I %p/../../include -I %p/Common %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"
include "GlobalISelEmitterCommon.td"
//===- Define the necessary boilerplate for our test target. --------------===//
let TargetPrefix = "mytarget" in {
def int_mytarget_nop : Intrinsic<[llvm_i32_ty], [llvm_i32_ty], [IntrNoMem]>;
}
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&, int) 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.set(Feature_HasABit);
// CHECK-NEXT: if (Subtarget->hasB())
// CHECK-NEXT: Features.set(Feature_HasBBit);
// 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.set(Feature_HasCBit);
// CHECK-NEXT: return Features;
// CHECK-NEXT: }
// CHECK-LABEL: // LLT Objects.
// CHECK-NEXT: enum {
// CHECK-NEXT: GILLT_p0s32
// CHECK-NEXT: GILLT_s32,
// CHECK-NEXT: }
// CHECK-NEXT: const static size_t NumTypeObjects = 2;
// CHECK-NEXT: const static LLT TypeObjects[] = {
// CHECK-NEXT: LLT::pointer(0, 32),
// 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, // GICR_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-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] }:$src3)
// NOOPT-NEXT: GIR_BuildMI, /*InsnID*/0, /*Opcode*/MyTarget::MULADD,
// NOOPT-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/0, // dst
// NOOPT-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/1, /*OpIdx*/1, // src1
// NOOPT-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/1, /*OpIdx*/2, // src2
// NOOPT-NEXT: GIR_Copy, /*NewInsnID*/0, /*OldInsnID*/0, /*OpIdx*/1, // src3
// NOOPT-NEXT: GIR_EraseFromParent, /*InsnID*/0,
// NOOPT-NEXT: GIR_ConstrainSelectedInstOperands, /*InsnID*/0,
// NOOPT-NEXT: // GIR_Coverage, 26,
// NOOPT-NEXT: GIR_Done,
// NOOPT-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]]
def MULADD : I<(outs GPR32:$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:$src1))]>;
//===- Test a simple pattern with explicit pointer operands. ---------------===//
// NOOPT-NEXT: GIM_Try, /*On fail goto*//*Label [[LABEL_NUM:[0-9]+]]*/ [[LABEL:[0-9]+]],
// NOOPT-NEXT: GIM_CheckNumOperands, /*MI*/0, /*Expected*/2,
// NOOPT-NEXT: GIM_CheckOpcode, /*MI*/0, TargetOpcode::G_LOAD,
// NOOPT-NEXT: GIM_CheckMemorySizeEqualToLLT, /*MI*/0, /*MMO*/0, /*OpIdx*/0,
// NOOPT-NEXT: GIM_CheckAtomicOrdering, /*MI*/0, /*Order*/(int64_t)AtomicOrdering::NotAtomic,
// NOOPT-NEXT: // MIs[0] dst
// NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_p0s32,
// NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::GPR32RegClassID,
// NOOPT-NEXT: // MIs[0] src
// NOOPT-NEXT: GIM_CheckPointerToAny, /*MI*/0, /*Op*/1, /*SizeInBits*/32,
// NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/1, /*RC*/MyTarget::GPR32RegClassID,
// NOOPT-NEXT: // (ld:{ *:[i32] } GPR32:{ *:[i32] }:$src)<<P:Predicate_unindexedload>><<P:Predicate_load>> => (LOAD:{ *:[i32] } GPR32:{ *:[i32] }:$src)
// NOOPT-NEXT: GIR_MutateOpcode, /*InsnID*/0, /*RecycleInsnID*/0, /*Opcode*/MyTarget::LOAD,
// NOOPT-NEXT: GIR_ConstrainSelectedInstOperands, /*InsnID*/0,
// NOOPT-NEXT: // GIR_Coverage, 23,
// NOOPT-NEXT: GIR_Done,
// NOOPT-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]]
def : Pat<(load GPR32:$src),
(p0 (LOAD GPR32:$src))>;
//===- Test a simple pattern with a sextload -------------------------------===//
//
// NOOPT-NEXT: GIM_Try, /*On fail goto*//*Label [[LABEL_NUM:[0-9]+]]*/ [[LABEL:[0-9]+]],
// NOOPT-NEXT: GIM_CheckNumOperands, /*MI*/0, /*Expected*/2,
// NOOPT-NEXT: GIM_CheckOpcode, /*MI*/0, TargetOpcode::G_SEXTLOAD,
// NOOPT-NEXT: GIM_CheckMemorySizeEqualTo, /*MI*/0, /*MMO*/0, /*Size*/2,
// NOOPT-NEXT: GIM_CheckAtomicOrdering, /*MI*/0, /*Order*/(int64_t)AtomicOrdering::NotAtomic,
// NOOPT-NEXT: // MIs[0] dst
// NOOPT-NEXT: GIM_CheckType, /*MI*/0, /*Op*/0, /*Type*/GILLT_s32,
// NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/0, /*RC*/MyTarget::GPR32RegClassID,
// NOOPT-NEXT: // MIs[0] src1
// NOOPT-NEXT: GIM_CheckPointerToAny, /*MI*/0, /*Op*/1, /*SizeInBits*/32,
// NOOPT-NEXT: GIM_CheckRegBankForClass, /*MI*/0, /*Op*/1, /*RC*/MyTarget::GPR32RegClassID,
// NOOPT-NEXT: // (ld:{ *:[i32] } GPR32:{ *:[i32] }:$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] }:$src2)
// NOOPT-NEXT: GIR_MutateOpcode, /*InsnID*/0, /*RecycleInsnID*/0, /*Opcode*/MyTarget::ADD,
// NOOPT-NEXT: GIR_ConstrainSelectedInstOperands, /*InsnID*/0,
// NOOPT-NEXT: // GIR_Coverage, 24,
// NOOPT-NEXT: GIR_Done,
// NOOPT-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]]
def : Pat<(add i32:$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] }:$src1, GPR32:{ *:[i32] })
// NOOPT-NEXT: GIR_MutateOpcode, /*InsnID*/0, /*RecycleInsnID*/0, /*Opcode*/TargetOpcode::COPY,
// NOOPT-NEXT: GIR_ConstrainOperandRC, /*InsnID*/0, /*Op*/0, /*RC GPR32*/1,
// NOOPT-NEXT: // GIR_Coverage, 25,
// NOOPT-NEXT: GIR_Done,
// NOOPT-NEXT: // Label [[LABEL_NUM]]: @[[LABEL]]
def : Pat<(i32 (bitconvert FPR32:$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;