const AArch64Subtarget *Subtarget;
LLVMContext *Context;
- bool FastLowerArguments() override;
- bool FastLowerCall(CallLoweringInfo &CLI) override;
- bool FastLowerIntrinsicCall(const IntrinsicInst *II) override;
+ bool fastLowerArguments() override;
+ bool fastLowerCall(CallLoweringInfo &CLI) override;
+ bool fastLowerIntrinsicCall(const IntrinsicInst *II) override;
private:
// Selection routines.
+ bool selectAddSub(const Instruction *I);
+ bool selectLogicalOp(const Instruction *I);
bool SelectLoad(const Instruction *I);
bool SelectStore(const Instruction *I);
bool SelectBranch(const Instruction *I);
// Utility helper routines.
bool isTypeLegal(Type *Ty, MVT &VT);
bool isLoadStoreTypeLegal(Type *Ty, MVT &VT);
+ bool isTypeSupported(Type *Ty, MVT &VT);
bool isValueAvailable(const Value *V) const;
bool ComputeAddress(const Value *Obj, Address &Addr, Type *Ty = nullptr);
bool ComputeCallAddress(const Value *V, Address &Addr);
const Value *Cond);
// Emit helper routines.
- unsigned emitAddsSubs(bool UseAdds, MVT RetVT, const Value *LHS,
- const Value *RHS, bool IsZExt = false,
- bool WantResult = true);
- unsigned emitAddsSubs_rr(bool UseAdds, MVT RetVT, unsigned LHSReg,
- bool LHSIsKill, unsigned RHSReg, bool RHSIsKill,
- bool WantResult = true);
- unsigned emitAddsSubs_ri(bool UseAdds, MVT RetVT, unsigned LHSReg,
- bool LHSIsKill, uint64_t Imm,
- bool WantResult = true);
+ unsigned emitAddSub(bool UseAdd, MVT RetVT, const Value *LHS,
+ const Value *RHS, bool SetFlags = false,
+ bool WantResult = true, bool IsZExt = false);
+ unsigned emitAddSub_rr(bool UseAdd, MVT RetVT, unsigned LHSReg,
+ bool LHSIsKill, unsigned RHSReg, bool RHSIsKill,
+ bool SetFlags = false, bool WantResult = true);
+ unsigned emitAddSub_ri(bool UseAdd, MVT RetVT, unsigned LHSReg,
+ bool LHSIsKill, uint64_t Imm, bool SetFlags = false,
+ bool WantResult = true);
unsigned emitAddSub_rs(bool UseAdd, MVT RetVT, unsigned LHSReg,
bool LHSIsKill, unsigned RHSReg, bool RHSIsKill,
AArch64_AM::ShiftExtendType ShiftType,
- uint64_t ShiftImm, bool WantResult = true);
- unsigned emitAddsSubs_rs(bool UseAdds, MVT RetVT, unsigned LHSReg,
- bool LHSIsKill, unsigned RHSReg, bool RHSIsKill,
- AArch64_AM::ShiftExtendType ShiftType,
- uint64_t ShiftImm, bool WantResult = true);
+ uint64_t ShiftImm, bool SetFlags = false,
+ bool WantResult = true);
unsigned emitAddSub_rx(bool UseAdd, MVT RetVT, unsigned LHSReg,
bool LHSIsKill, unsigned RHSReg, bool RHSIsKill,
AArch64_AM::ShiftExtendType ExtType,
- uint64_t ShiftImm, bool WantResult = true);
-
- unsigned emitAddsSubs_rx(bool UseAdds, MVT RetVT, unsigned LHSReg,
- bool LHSIsKill, unsigned RHSReg, bool RHSIsKill,
- AArch64_AM::ShiftExtendType ExtType,
- uint64_t ShiftImm, bool WantResult = true);
+ uint64_t ShiftImm, bool SetFlags = false,
+ bool WantResult = true);
// Emit functions.
bool emitCmp(const Value *LHS, const Value *RHS, bool IsZExt);
MachineMemOperand *MMO = nullptr);
unsigned EmitIntExt(MVT SrcVT, unsigned SrcReg, MVT DestVT, bool isZExt);
unsigned Emiti1Ext(unsigned SrcReg, MVT DestVT, bool isZExt);
- unsigned emitAdds(MVT RetVT, const Value *LHS, const Value *RHS,
- bool IsZExt = false, bool WantResult = true);
- unsigned emitSubs(MVT RetVT, const Value *LHS, const Value *RHS,
- bool IsZExt = false, bool WantResult = true);
+ unsigned emitAdd(MVT RetVT, const Value *LHS, const Value *RHS,
+ bool SetFlags = false, bool WantResult = true,
+ bool IsZExt = false);
+ unsigned emitSub(MVT RetVT, const Value *LHS, const Value *RHS,
+ bool SetFlags = false, bool WantResult = true,
+ bool IsZExt = false);
unsigned emitSubs_rr(MVT RetVT, unsigned LHSReg, bool LHSIsKill,
unsigned RHSReg, bool RHSIsKill, bool WantResult = true);
unsigned emitSubs_rs(MVT RetVT, unsigned LHSReg, bool LHSIsKill,
unsigned RHSReg, bool RHSIsKill,
AArch64_AM::ShiftExtendType ShiftType, uint64_t ShiftImm,
bool WantResult = true);
- unsigned emitAND_ri(MVT RetVT, unsigned LHSReg, bool LHSIsKill, uint64_t Imm);
+ unsigned emitLogicalOp(unsigned ISDOpc, MVT RetVT, const Value *LHS,
+ const Value *RHS);
+ unsigned emitLogicalOp_ri(unsigned ISDOpc, MVT RetVT, unsigned LHSReg,
+ bool LHSIsKill, uint64_t Imm);
+ unsigned emitLogicalOp_rs(unsigned ISDOpc, MVT RetVT, unsigned LHSReg,
+ bool LHSIsKill, unsigned RHSReg, bool RHSIsKill,
+ uint64_t ShiftImm);
+ unsigned emitAnd_ri(MVT RetVT, unsigned LHSReg, bool LHSIsKill, uint64_t Imm);
unsigned Emit_MUL_rr(MVT RetVT, unsigned Op0, bool Op0IsKill,
unsigned Op1, bool Op1IsKill);
unsigned Emit_SMULL_rr(MVT RetVT, unsigned Op0, bool Op0IsKill,
public:
// Backend specific FastISel code.
- unsigned TargetMaterializeAlloca(const AllocaInst *AI) override;
- unsigned TargetMaterializeConstant(const Constant *C) override;
- unsigned TargetMaterializeFloatZero(const ConstantFP* CF) override;
+ unsigned fastMaterializeAlloca(const AllocaInst *AI) override;
+ unsigned fastMaterializeConstant(const Constant *C) override;
+ unsigned fastMaterializeFloatZero(const ConstantFP* CF) override;
- explicit AArch64FastISel(FunctionLoweringInfo &funcInfo,
- const TargetLibraryInfo *libInfo)
- : FastISel(funcInfo, libInfo) {
+ explicit AArch64FastISel(FunctionLoweringInfo &FuncInfo,
+ const TargetLibraryInfo *LibInfo)
+ : FastISel(FuncInfo, LibInfo, /*SkipTargetIndependentISel=*/true) {
Subtarget = &TM.getSubtarget<AArch64Subtarget>();
- Context = &funcInfo.Fn->getContext();
+ Context = &FuncInfo.Fn->getContext();
}
- bool TargetSelectInstruction(const Instruction *I) override;
+ bool fastSelectInstruction(const Instruction *I) override;
#include "AArch64GenFastISel.inc"
};
return Subtarget->isTargetDarwin() ? CC_AArch64_DarwinPCS : CC_AArch64_AAPCS;
}
-unsigned AArch64FastISel::TargetMaterializeAlloca(const AllocaInst *AI) {
+unsigned AArch64FastISel::fastMaterializeAlloca(const AllocaInst *AI) {
assert(TLI.getValueType(AI->getType(), true) == MVT::i64 &&
"Alloca should always return a pointer.");
return 0;
if (!CI->isZero())
- return FastEmit_i(VT, VT, ISD::Constant, CI->getZExtValue());
+ return fastEmit_i(VT, VT, ISD::Constant, CI->getZExtValue());
// Create a copy from the zero register to materialize a "0" value.
const TargetRegisterClass *RC = (VT == MVT::i64) ? &AArch64::GPR64RegClass
// Positive zero (+0.0) has to be materialized with a fmov from the zero
// register, because the immediate version of fmov cannot encode zero.
if (CFP->isNullValue())
- return TargetMaterializeFloatZero(CFP);
+ return fastMaterializeFloatZero(CFP);
if (VT != MVT::f32 && VT != MVT::f64)
return 0;
Is64Bit ? AArch64_AM::getFP64Imm(Val) : AArch64_AM::getFP32Imm(Val);
assert((Imm != -1) && "Cannot encode floating-point constant.");
unsigned Opc = Is64Bit ? AArch64::FMOVDi : AArch64::FMOVSi;
- return FastEmitInst_i(Opc, TLI.getRegClassFor(VT), Imm);
+ return fastEmitInst_i(Opc, TLI.getRegClassFor(VT), Imm);
}
// Materialize via constant pool. MachineConstantPool wants an explicit
return ResultReg;
}
-unsigned AArch64FastISel::TargetMaterializeConstant(const Constant *C) {
+unsigned AArch64FastISel::fastMaterializeConstant(const Constant *C) {
EVT CEVT = TLI.getValueType(C->getType(), true);
// Only handle simple types.
return 0;
}
-unsigned AArch64FastISel::TargetMaterializeFloatZero(const ConstantFP* CFP) {
+unsigned AArch64FastISel::fastMaterializeFloatZero(const ConstantFP* CFP) {
assert(CFP->isNullValue() &&
"Floating-point constant is not a positive zero.");
MVT VT;
bool Is64Bit = (VT == MVT::f64);
unsigned ZReg = Is64Bit ? AArch64::XZR : AArch64::WZR;
unsigned Opc = Is64Bit ? AArch64::FMOVXDr : AArch64::FMOVWSr;
- return FastEmitInst_r(Opc, TLI.getRegClassFor(VT), ZReg, /*IsKill=*/true);
+ return fastEmitInst_r(Opc, TLI.getRegClassFor(VT), ZReg, /*IsKill=*/true);
}
// Computes the address to get to an object.
return false;
}
+/// \brief Determine if the value type is supported by FastISel.
+///
+/// FastISel for AArch64 can handle more value types than are legal. This adds
+/// simple value type such as i1, i8, and i16.
+/// Vectors on the other side are not supported yet.
+bool AArch64FastISel::isTypeSupported(Type *Ty, MVT &VT) {
+ if (Ty->isVectorTy())
+ return false;
+
+ if (isTypeLegal(Ty, VT))
+ return true;
+
+ // If this is a type than can be sign or zero-extended to a basic operation
+ // go ahead and accept it now.
+ if (VT == MVT::i1 || VT == MVT::i8 || VT == MVT::i16)
+ return true;
+
+ return false;
+}
+
bool AArch64FastISel::isValueAvailable(const Value *V) const {
if (!isa<Instruction>(V))
return true;
if (ImmediateOffsetNeedsLowering) {
unsigned ResultReg = 0;
if (Addr.getReg())
- ResultReg = FastEmit_ri_(MVT::i64, ISD::ADD, Addr.getReg(),
+ ResultReg = fastEmit_ri_(MVT::i64, ISD::ADD, Addr.getReg(),
/*IsKill=*/false, Offset, MVT::i64);
else
- ResultReg = FastEmit_i(MVT::i64, MVT::i64, ISD::Constant, Offset);
+ ResultReg = fastEmit_i(MVT::i64, MVT::i64, ISD::Constant, Offset);
if (!ResultReg)
return false;
MIB.addMemOperand(MMO);
}
-unsigned AArch64FastISel::emitAddsSubs(bool UseAdds, MVT RetVT,
- const Value *LHS, const Value *RHS,
- bool IsZExt, bool WantResult) {
+unsigned AArch64FastISel::emitAddSub(bool UseAdd, MVT RetVT, const Value *LHS,
+ const Value *RHS, bool SetFlags,
+ bool WantResult, bool IsZExt) {
AArch64_AM::ShiftExtendType ExtendType = AArch64_AM::InvalidShiftExtend;
bool NeedExtend = false;
switch (RetVT.SimpleTy) {
RetVT.SimpleTy = std::max(RetVT.SimpleTy, MVT::i32);
// Canonicalize immediates to the RHS first.
- if (UseAdds && isa<ConstantInt>(LHS) && !isa<ConstantInt>(RHS))
+ if (UseAdd && isa<ConstantInt>(LHS) && !isa<ConstantInt>(RHS))
std::swap(LHS, RHS);
// Canonicalize shift immediate to the RHS.
- if (UseAdds && isValueAvailable(LHS))
+ if (UseAdd && isValueAvailable(LHS))
if (const auto *SI = dyn_cast<BinaryOperator>(LHS))
if (isa<ConstantInt>(SI->getOperand(1)))
if (SI->getOpcode() == Instruction::Shl ||
if (const auto *C = dyn_cast<ConstantInt>(RHS)) {
uint64_t Imm = IsZExt ? C->getZExtValue() : C->getSExtValue();
if (C->isNegative())
- ResultReg =
- emitAddsSubs_ri(!UseAdds, RetVT, LHSReg, LHSIsKill, -Imm, WantResult);
+ ResultReg = emitAddSub_ri(!UseAdd, RetVT, LHSReg, LHSIsKill, -Imm,
+ SetFlags, WantResult);
else
- ResultReg =
- emitAddsSubs_ri(UseAdds, RetVT, LHSReg, LHSIsKill, Imm, WantResult);
+ ResultReg = emitAddSub_ri(UseAdd, RetVT, LHSReg, LHSIsKill, Imm, SetFlags,
+ WantResult);
}
if (ResultReg)
return ResultReg;
if (!RHSReg)
return 0;
bool RHSIsKill = hasTrivialKill(SI->getOperand(0));
- return emitAddsSubs_rx(UseAdds, RetVT, LHSReg, LHSIsKill, RHSReg,
- RHSIsKill, ExtendType, C->getZExtValue(),
- WantResult);
+ return emitAddSub_rx(UseAdd, RetVT, LHSReg, LHSIsKill, RHSReg,
+ RHSIsKill, ExtendType, C->getZExtValue(),
+ SetFlags, WantResult);
}
unsigned RHSReg = getRegForValue(RHS);
if (!RHSReg)
return 0;
bool RHSIsKill = hasTrivialKill(RHS);
- return emitAddsSubs_rx(UseAdds, RetVT, LHSReg, LHSIsKill, RHSReg, RHSIsKill,
- ExtendType, 0, WantResult);
+ return emitAddSub_rx(UseAdd, RetVT, LHSReg, LHSIsKill, RHSReg, RHSIsKill,
+ ExtendType, 0, SetFlags, WantResult);
}
// Check if the shift can be folded into the instruction.
if (!RHSReg)
return 0;
bool RHSIsKill = hasTrivialKill(SI->getOperand(0));
- return emitAddsSubs_rs(UseAdds, RetVT, LHSReg, LHSIsKill, RHSReg,
- RHSIsKill, ShiftType, ShiftVal, WantResult);
+ return emitAddSub_rs(UseAdd, RetVT, LHSReg, LHSIsKill, RHSReg,
+ RHSIsKill, ShiftType, ShiftVal, SetFlags,
+ WantResult);
}
}
}
if (NeedExtend)
RHSReg = EmitIntExt(SrcVT, RHSReg, RetVT, IsZExt);
- return emitAddsSubs_rr(UseAdds, RetVT, LHSReg, LHSIsKill, RHSReg, RHSIsKill,
- WantResult);
+ return emitAddSub_rr(UseAdd, RetVT, LHSReg, LHSIsKill, RHSReg, RHSIsKill,
+ SetFlags, WantResult);
}
-unsigned AArch64FastISel::emitAddsSubs_rr(bool UseAdds, MVT RetVT,
- unsigned LHSReg, bool LHSIsKill,
- unsigned RHSReg, bool RHSIsKill,
- bool WantResult) {
+unsigned AArch64FastISel::emitAddSub_rr(bool UseAdd, MVT RetVT, unsigned LHSReg,
+ bool LHSIsKill, unsigned RHSReg,
+ bool RHSIsKill, bool SetFlags,
+ bool WantResult) {
assert(LHSReg && RHSReg && "Invalid register number.");
if (RetVT != MVT::i32 && RetVT != MVT::i64)
return 0;
- static const unsigned OpcTable[2][2] = {
- { AArch64::ADDSWrr, AArch64::ADDSXrr },
- { AArch64::SUBSWrr, AArch64::SUBSXrr }
+ static const unsigned OpcTable[2][2][2] = {
+ { { AArch64::SUBWrr, AArch64::SUBXrr },
+ { AArch64::ADDWrr, AArch64::ADDXrr } },
+ { { AArch64::SUBSWrr, AArch64::SUBSXrr },
+ { AArch64::ADDSWrr, AArch64::ADDSXrr } }
};
- unsigned Opc = OpcTable[!UseAdds][(RetVT == MVT::i64)];
+ bool Is64Bit = RetVT == MVT::i64;
+ unsigned Opc = OpcTable[SetFlags][UseAdd][Is64Bit];
+ const TargetRegisterClass *RC =
+ Is64Bit ? &AArch64::GPR64RegClass : &AArch64::GPR32RegClass;
unsigned ResultReg;
- if (WantResult) {
- const TargetRegisterClass *RC =
- (RetVT == MVT::i64) ? &AArch64::GPR64RegClass : &AArch64::GPR32RegClass;
+ if (WantResult)
ResultReg = createResultReg(RC);
- } else
- ResultReg = (RetVT == MVT::i64) ? AArch64::XZR : AArch64::WZR;
+ else
+ ResultReg = Is64Bit ? AArch64::XZR : AArch64::WZR;
const MCInstrDesc &II = TII.get(Opc);
LHSReg = constrainOperandRegClass(II, LHSReg, II.getNumDefs());
BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, II, ResultReg)
.addReg(LHSReg, getKillRegState(LHSIsKill))
.addReg(RHSReg, getKillRegState(RHSIsKill));
-
return ResultReg;
}
-unsigned AArch64FastISel::emitAddsSubs_ri(bool UseAdds, MVT RetVT,
- unsigned LHSReg, bool LHSIsKill,
- uint64_t Imm, bool WantResult) {
+unsigned AArch64FastISel::emitAddSub_ri(bool UseAdd, MVT RetVT, unsigned LHSReg,
+ bool LHSIsKill, uint64_t Imm,
+ bool SetFlags, bool WantResult) {
assert(LHSReg && "Invalid register number.");
if (RetVT != MVT::i32 && RetVT != MVT::i64)
} else
return 0;
- static const unsigned OpcTable[2][2] = {
- { AArch64::ADDSWri, AArch64::ADDSXri },
- { AArch64::SUBSWri, AArch64::SUBSXri }
+ static const unsigned OpcTable[2][2][2] = {
+ { { AArch64::SUBWri, AArch64::SUBXri },
+ { AArch64::ADDWri, AArch64::ADDXri } },
+ { { AArch64::SUBSWri, AArch64::SUBSXri },
+ { AArch64::ADDSWri, AArch64::ADDSXri } }
};
- unsigned Opc = OpcTable[!UseAdds][(RetVT == MVT::i64)];
+ bool Is64Bit = RetVT == MVT::i64;
+ unsigned Opc = OpcTable[SetFlags][UseAdd][Is64Bit];
+ const TargetRegisterClass *RC;
+ if (SetFlags)
+ RC = Is64Bit ? &AArch64::GPR64RegClass : &AArch64::GPR32RegClass;
+ else
+ RC = Is64Bit ? &AArch64::GPR64spRegClass : &AArch64::GPR32spRegClass;
unsigned ResultReg;
- if (WantResult) {
- const TargetRegisterClass *RC =
- (RetVT == MVT::i64) ? &AArch64::GPR64RegClass : &AArch64::GPR32RegClass;
+ if (WantResult)
ResultReg = createResultReg(RC);
- } else
- ResultReg = (RetVT == MVT::i64) ? AArch64::XZR : AArch64::WZR;
+ else
+ ResultReg = Is64Bit ? AArch64::XZR : AArch64::WZR;
const MCInstrDesc &II = TII.get(Opc);
LHSReg = constrainOperandRegClass(II, LHSReg, II.getNumDefs());
.addReg(LHSReg, getKillRegState(LHSIsKill))
.addImm(Imm)
.addImm(getShifterImm(AArch64_AM::LSL, ShiftImm));
-
return ResultReg;
}
-unsigned AArch64FastISel::emitAddSub_rs(bool UseAdd, MVT RetVT,
- unsigned LHSReg, bool LHSIsKill,
- unsigned RHSReg, bool RHSIsKill,
+unsigned AArch64FastISel::emitAddSub_rs(bool UseAdd, MVT RetVT, unsigned LHSReg,
+ bool LHSIsKill, unsigned RHSReg,
+ bool RHSIsKill,
AArch64_AM::ShiftExtendType ShiftType,
- uint64_t ShiftImm, bool WantResult) {
- assert(LHSReg && RHSReg && "Invalid register number.");
-
- if (RetVT != MVT::i32 && RetVT != MVT::i64)
- return 0;
-
- static const unsigned OpcTable[2][2] = {
- { AArch64::ADDWrs, AArch64::ADDXrs },
- { AArch64::SUBWrs, AArch64::SUBXrs }
- };
- unsigned Opc = OpcTable[!UseAdd][(RetVT == MVT::i64)];
- unsigned ResultReg;
- if (WantResult) {
- const TargetRegisterClass *RC =
- (RetVT == MVT::i64) ? &AArch64::GPR64RegClass : &AArch64::GPR32RegClass;
- ResultReg = createResultReg(RC);
- } else
- ResultReg = (RetVT == MVT::i64) ? AArch64::XZR : AArch64::WZR;
-
- const MCInstrDesc &II = TII.get(Opc);
- LHSReg = constrainOperandRegClass(II, LHSReg, II.getNumDefs());
- RHSReg = constrainOperandRegClass(II, RHSReg, II.getNumDefs() + 1);
- BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, II, ResultReg)
- .addReg(LHSReg, getKillRegState(LHSIsKill))
- .addReg(RHSReg, getKillRegState(RHSIsKill))
- .addImm(getShifterImm(ShiftType, ShiftImm));
-
- return ResultReg;
-}
-
-unsigned AArch64FastISel::emitAddsSubs_rs(bool UseAdds, MVT RetVT,
- unsigned LHSReg, bool LHSIsKill,
- unsigned RHSReg, bool RHSIsKill,
- AArch64_AM::ShiftExtendType ShiftType,
- uint64_t ShiftImm, bool WantResult) {
+ uint64_t ShiftImm, bool SetFlags,
+ bool WantResult) {
assert(LHSReg && RHSReg && "Invalid register number.");
if (RetVT != MVT::i32 && RetVT != MVT::i64)
return 0;
- static const unsigned OpcTable[2][2] = {
- { AArch64::ADDSWrs, AArch64::ADDSXrs },
- { AArch64::SUBSWrs, AArch64::SUBSXrs }
+ static const unsigned OpcTable[2][2][2] = {
+ { { AArch64::SUBWrs, AArch64::SUBXrs },
+ { AArch64::ADDWrs, AArch64::ADDXrs } },
+ { { AArch64::SUBSWrs, AArch64::SUBSXrs },
+ { AArch64::ADDSWrs, AArch64::ADDSXrs } }
};
- unsigned Opc = OpcTable[!UseAdds][(RetVT == MVT::i64)];
+ bool Is64Bit = RetVT == MVT::i64;
+ unsigned Opc = OpcTable[SetFlags][UseAdd][Is64Bit];
+ const TargetRegisterClass *RC =
+ Is64Bit ? &AArch64::GPR64RegClass : &AArch64::GPR32RegClass;
unsigned ResultReg;
- if (WantResult) {
- const TargetRegisterClass *RC =
- (RetVT == MVT::i64) ? &AArch64::GPR64RegClass : &AArch64::GPR32RegClass;
+ if (WantResult)
ResultReg = createResultReg(RC);
- } else
- ResultReg = (RetVT == MVT::i64) ? AArch64::XZR : AArch64::WZR;
+ else
+ ResultReg = Is64Bit ? AArch64::XZR : AArch64::WZR;
const MCInstrDesc &II = TII.get(Opc);
LHSReg = constrainOperandRegClass(II, LHSReg, II.getNumDefs());
.addReg(LHSReg, getKillRegState(LHSIsKill))
.addReg(RHSReg, getKillRegState(RHSIsKill))
.addImm(getShifterImm(ShiftType, ShiftImm));
-
return ResultReg;
}
-unsigned AArch64FastISel::emitAddSub_rx(bool UseAdd, MVT RetVT,
- unsigned LHSReg, bool LHSIsKill,
- unsigned RHSReg, bool RHSIsKill,
+unsigned AArch64FastISel::emitAddSub_rx(bool UseAdd, MVT RetVT, unsigned LHSReg,
+ bool LHSIsKill, unsigned RHSReg,
+ bool RHSIsKill,
AArch64_AM::ShiftExtendType ExtType,
- uint64_t ShiftImm, bool WantResult) {
+ uint64_t ShiftImm, bool SetFlags,
+ bool WantResult) {
assert(LHSReg && RHSReg && "Invalid register number.");
if (RetVT != MVT::i32 && RetVT != MVT::i64)
return 0;
- static const unsigned OpcTable[2][2] = {
- { AArch64::ADDWrx, AArch64::ADDXrx },
- { AArch64::SUBWrx, AArch64::SUBXrx }
+ static const unsigned OpcTable[2][2][2] = {
+ { { AArch64::SUBWrx, AArch64::SUBXrx },
+ { AArch64::ADDWrx, AArch64::ADDXrx } },
+ { { AArch64::SUBSWrx, AArch64::SUBSXrx },
+ { AArch64::ADDSWrx, AArch64::ADDSXrx } }
};
- unsigned Opc = OpcTable[!UseAdd][(RetVT == MVT::i64)];
- unsigned ResultReg;
- if (WantResult) {
- const TargetRegisterClass *RC =
- (RetVT == MVT::i64) ? &AArch64::GPR64RegClass : &AArch64::GPR32RegClass;
- ResultReg = createResultReg(RC);
- } else
- ResultReg = (RetVT == MVT::i64) ? AArch64::XZR : AArch64::WZR;
-
- const MCInstrDesc &II = TII.get(Opc);
- LHSReg = constrainOperandRegClass(II, LHSReg, II.getNumDefs());
- RHSReg = constrainOperandRegClass(II, RHSReg, II.getNumDefs() + 1);
- BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, II, ResultReg)
- .addReg(LHSReg, getKillRegState(LHSIsKill))
- .addReg(RHSReg, getKillRegState(RHSIsKill))
- .addImm(getArithExtendImm(ExtType, ShiftImm));
-
- return ResultReg;
-}
-
-unsigned AArch64FastISel::emitAddsSubs_rx(bool UseAdds, MVT RetVT,
- unsigned LHSReg, bool LHSIsKill,
- unsigned RHSReg, bool RHSIsKill,
- AArch64_AM::ShiftExtendType ExtType,
- uint64_t ShiftImm, bool WantResult) {
- assert(LHSReg && RHSReg && "Invalid register number.");
-
- if (RetVT != MVT::i32 && RetVT != MVT::i64)
- return 0;
-
- static const unsigned OpcTable[2][2] = {
- { AArch64::ADDSWrx, AArch64::ADDSXrx },
- { AArch64::SUBSWrx, AArch64::SUBSXrx }
- };
- unsigned Opc = OpcTable[!UseAdds][(RetVT == MVT::i64)];
+ bool Is64Bit = RetVT == MVT::i64;
+ unsigned Opc = OpcTable[SetFlags][UseAdd][Is64Bit];
+ const TargetRegisterClass *RC = nullptr;
+ if (SetFlags)
+ RC = Is64Bit ? &AArch64::GPR64RegClass : &AArch64::GPR32RegClass;
+ else
+ RC = Is64Bit ? &AArch64::GPR64spRegClass : &AArch64::GPR32spRegClass;
unsigned ResultReg;
- if (WantResult) {
- const TargetRegisterClass *RC =
- (RetVT == MVT::i64) ? &AArch64::GPR64RegClass : &AArch64::GPR32RegClass;
+ if (WantResult)
ResultReg = createResultReg(RC);
- } else
- ResultReg = (RetVT == MVT::i64) ? AArch64::XZR : AArch64::WZR;
+ else
+ ResultReg = Is64Bit ? AArch64::XZR : AArch64::WZR;
const MCInstrDesc &II = TII.get(Opc);
LHSReg = constrainOperandRegClass(II, LHSReg, II.getNumDefs());
.addReg(LHSReg, getKillRegState(LHSIsKill))
.addReg(RHSReg, getKillRegState(RHSIsKill))
.addImm(getArithExtendImm(ExtType, ShiftImm));
-
return ResultReg;
}
bool AArch64FastISel::emitICmp(MVT RetVT, const Value *LHS, const Value *RHS,
bool IsZExt) {
- return emitSubs(RetVT, LHS, RHS, IsZExt, /*WantResult=*/false) != 0;
+ return emitSub(RetVT, LHS, RHS, /*SetFlags=*/true, /*WantResult=*/false,
+ IsZExt) != 0;
}
bool AArch64FastISel::emitICmp_ri(MVT RetVT, unsigned LHSReg, bool LHSIsKill,
uint64_t Imm) {
- return emitAddsSubs_ri(false, RetVT, LHSReg, LHSIsKill, Imm,
- /*WantResult=*/false) != 0;
+ return emitAddSub_ri(/*UseAdd=*/false, RetVT, LHSReg, LHSIsKill, Imm,
+ /*SetFlags=*/true, /*WantResult=*/false) != 0;
}
bool AArch64FastISel::emitFCmp(MVT RetVT, const Value *LHS, const Value *RHS) {
return true;
}
-unsigned AArch64FastISel::emitAdds(MVT RetVT, const Value *LHS,
- const Value *RHS, bool IsZExt,
- bool WantResult) {
- return emitAddsSubs(true, RetVT, LHS, RHS, IsZExt, WantResult);
+unsigned AArch64FastISel::emitAdd(MVT RetVT, const Value *LHS, const Value *RHS,
+ bool SetFlags, bool WantResult, bool IsZExt) {
+ return emitAddSub(/*UseAdd=*/true, RetVT, LHS, RHS, SetFlags, WantResult,
+ IsZExt);
}
-unsigned AArch64FastISel::emitSubs(MVT RetVT, const Value *LHS,
- const Value *RHS, bool IsZExt,
- bool WantResult) {
- return emitAddsSubs(false, RetVT, LHS, RHS, IsZExt, WantResult);
+unsigned AArch64FastISel::emitSub(MVT RetVT, const Value *LHS, const Value *RHS,
+ bool SetFlags, bool WantResult, bool IsZExt) {
+ return emitAddSub(/*UseAdd=*/false, RetVT, LHS, RHS, SetFlags, WantResult,
+ IsZExt);
}
unsigned AArch64FastISel::emitSubs_rr(MVT RetVT, unsigned LHSReg,
bool LHSIsKill, unsigned RHSReg,
bool RHSIsKill, bool WantResult) {
- return emitAddsSubs_rr(false, RetVT, LHSReg, LHSIsKill, RHSReg, RHSIsKill,
- WantResult);
+ return emitAddSub_rr(/*UseAdd=*/false, RetVT, LHSReg, LHSIsKill, RHSReg,
+ RHSIsKill, /*SetFlags=*/true, WantResult);
}
unsigned AArch64FastISel::emitSubs_rs(MVT RetVT, unsigned LHSReg,
bool RHSIsKill,
AArch64_AM::ShiftExtendType ShiftType,
uint64_t ShiftImm, bool WantResult) {
- return emitAddsSubs_rs(false, RetVT, LHSReg, LHSIsKill, RHSReg, RHSIsKill,
- ShiftType, ShiftImm, WantResult);
+ return emitAddSub_rs(/*UseAdd=*/false, RetVT, LHSReg, LHSIsKill, RHSReg,
+ RHSIsKill, ShiftType, ShiftImm, /*SetFlags=*/true,
+ WantResult);
}
-// FIXME: This should be eventually generated automatically by tblgen.
-unsigned AArch64FastISel::emitAND_ri(MVT RetVT, unsigned LHSReg, bool LHSIsKill,
- uint64_t Imm) {
- const TargetRegisterClass *RC = nullptr;
- unsigned Opc = 0;
- unsigned RegSize = 0;
+unsigned AArch64FastISel::emitLogicalOp(unsigned ISDOpc, MVT RetVT,
+ const Value *LHS, const Value *RHS) {
+ if (RetVT != MVT::i32 && RetVT != MVT::i64)
+ return 0;
+
+ // Canonicalize immediates to the RHS first.
+ if (isa<ConstantInt>(LHS) && !isa<ConstantInt>(RHS))
+ std::swap(LHS, RHS);
+
+ // Canonicalize shift immediate to the RHS.
+ if (isValueAvailable(LHS))
+ if (const auto *SI = dyn_cast<BinaryOperator>(LHS))
+ if (isa<ConstantInt>(SI->getOperand(1)))
+ if (SI->getOpcode() == Instruction::Shl)
+ std::swap(LHS, RHS);
+
+ unsigned LHSReg = getRegForValue(LHS);
+ if (!LHSReg)
+ return 0;
+ bool LHSIsKill = hasTrivialKill(LHS);
+
+ unsigned ResultReg = 0;
+ if (const auto *C = dyn_cast<ConstantInt>(RHS)) {
+ uint64_t Imm = C->getZExtValue();
+ ResultReg = emitLogicalOp_ri(ISDOpc, RetVT, LHSReg, LHSIsKill, Imm);
+ }
+ if (ResultReg)
+ return ResultReg;
+
+ // Check if the shift can be folded into the instruction.
+ if (isValueAvailable(RHS))
+ if (const auto *SI = dyn_cast<BinaryOperator>(RHS))
+ if (const auto *C = dyn_cast<ConstantInt>(SI->getOperand(1)))
+ if (SI->getOpcode() == Instruction::Shl) {
+ uint64_t ShiftVal = C->getZExtValue();
+ unsigned RHSReg = getRegForValue(SI->getOperand(0));
+ if (!RHSReg)
+ return 0;
+ bool RHSIsKill = hasTrivialKill(SI->getOperand(0));
+ return emitLogicalOp_rs(ISDOpc, RetVT, LHSReg, LHSIsKill, RHSReg,
+ RHSIsKill, ShiftVal);
+ }
+
+ unsigned RHSReg = getRegForValue(RHS);
+ if (!RHSReg)
+ return 0;
+ bool RHSIsKill = hasTrivialKill(RHS);
+
+ return fastEmit_rr(RetVT, RetVT, ISDOpc, LHSReg, LHSIsKill, RHSReg,
+ RHSIsKill);
+}
+
+unsigned AArch64FastISel::emitLogicalOp_ri(unsigned ISDOpc, MVT RetVT,
+ unsigned LHSReg, bool LHSIsKill,
+ uint64_t Imm) {
+ assert((ISD::AND + 1 == ISD::OR) && (ISD::AND + 2 == ISD::XOR) &&
+ "ISD nodes are not consecutive!");
+ static const unsigned OpcTable[3][2] = {
+ { AArch64::ANDWri, AArch64::ANDXri },
+ { AArch64::ORRWri, AArch64::ORRXri },
+ { AArch64::EORWri, AArch64::EORXri }
+ };
+ const TargetRegisterClass *RC;
+ unsigned Opc;
+ unsigned RegSize;
switch (RetVT.SimpleTy) {
default:
return 0;
- case MVT::i32:
- Opc = AArch64::ANDWri;
+ case MVT::i32: {
+ unsigned Idx = ISDOpc - ISD::AND;
+ Opc = OpcTable[Idx][0];
RC = &AArch64::GPR32spRegClass;
RegSize = 32;
break;
+ }
case MVT::i64:
- Opc = AArch64::ANDXri;
+ Opc = OpcTable[ISDOpc - ISD::AND][1];
RC = &AArch64::GPR64spRegClass;
RegSize = 64;
break;
if (!AArch64_AM::isLogicalImmediate(Imm, RegSize))
return 0;
- return FastEmitInst_ri(Opc, RC, LHSReg, LHSIsKill,
+ return fastEmitInst_ri(Opc, RC, LHSReg, LHSIsKill,
AArch64_AM::encodeLogicalImmediate(Imm, RegSize));
}
+unsigned AArch64FastISel::emitLogicalOp_rs(unsigned ISDOpc, MVT RetVT,
+ unsigned LHSReg, bool LHSIsKill,
+ unsigned RHSReg, bool RHSIsKill,
+ uint64_t ShiftImm) {
+ assert((ISD::AND + 1 == ISD::OR) && (ISD::AND + 2 == ISD::XOR) &&
+ "ISD nodes are not consecutive!");
+ static const unsigned OpcTable[3][2] = {
+ { AArch64::ANDWrs, AArch64::ANDXrs },
+ { AArch64::ORRWrs, AArch64::ORRXrs },
+ { AArch64::EORWrs, AArch64::EORXrs }
+ };
+ const TargetRegisterClass *RC;
+ unsigned Opc;
+ switch (RetVT.SimpleTy) {
+ default:
+ return 0;
+ case MVT::i32:
+ Opc = OpcTable[ISDOpc - ISD::AND][0];
+ RC = &AArch64::GPR32RegClass;
+ break;
+ case MVT::i64:
+ Opc = OpcTable[ISDOpc - ISD::AND][1];
+ RC = &AArch64::GPR64RegClass;
+ break;
+ }
+ return fastEmitInst_rri(Opc, RC, LHSReg, LHSIsKill, RHSReg, RHSIsKill,
+ AArch64_AM::getShifterImm(AArch64_AM::LSL, ShiftImm));
+}
+
+unsigned AArch64FastISel::emitAnd_ri(MVT RetVT, unsigned LHSReg, bool LHSIsKill,
+ uint64_t Imm) {
+ return emitLogicalOp_ri(ISD::AND, RetVT, LHSReg, LHSIsKill, Imm);
+}
+
bool AArch64FastISel::EmitLoad(MVT VT, unsigned &ResultReg, Address Addr,
MachineMemOperand *MMO) {
// Simplify this down to something we can handle.
// Loading an i1 requires special handling.
if (VTIsi1) {
- unsigned ANDReg = emitAND_ri(MVT::i32, ResultReg, /*IsKill=*/true, 1);
+ unsigned ANDReg = emitAnd_ri(MVT::i32, ResultReg, /*IsKill=*/true, 1);
assert(ANDReg && "Unexpected AND instruction emission failure.");
ResultReg = ANDReg;
}
return true;
}
+bool AArch64FastISel::selectAddSub(const Instruction *I) {
+ MVT VT;
+ if (!isTypeSupported(I->getType(), VT))
+ return false;
+
+ unsigned ResultReg;
+ if (I->getOpcode() == Instruction::Add)
+ ResultReg = emitAdd(VT, I->getOperand(0), I->getOperand(1));
+ else if (I->getOpcode() == Instruction::Sub)
+ ResultReg = emitSub(VT, I->getOperand(0), I->getOperand(1));
+ else
+ llvm_unreachable("Unexpected instruction.");
+
+ assert(ResultReg && "Couldn't select Add/Sub instruction.");
+ updateValueMap(I, ResultReg);
+ return true;
+}
+
+bool AArch64FastISel::selectLogicalOp(const Instruction *I) {
+ MVT VT;
+ if (!isTypeSupported(I->getType(), VT))
+ return false;
+
+ unsigned ISDOpc;
+ switch (I->getOpcode()) {
+ default:
+ llvm_unreachable("Unexpected opcode.");
+ case Instruction::And:
+ ISDOpc = ISD::AND;
+ break;
+ case Instruction::Or:
+ ISDOpc = ISD::OR;
+ break;
+ case Instruction::Xor:
+ ISDOpc = ISD::XOR;
+ break;
+ }
+ unsigned ResultReg =
+ emitLogicalOp(ISDOpc, VT, I->getOperand(0), I->getOperand(1));
+ if (!ResultReg)
+ return false;
+
+ updateValueMap(I, ResultReg);
+ return true;
+}
+
bool AArch64FastISel::SelectLoad(const Instruction *I) {
MVT VT;
// Verify we have a legal type before going any further. Currently, we handle
if (!EmitLoad(VT, ResultReg, Addr, createMachineMemOperandFor(I)))
return false;
- UpdateValueMap(I, ResultReg);
+ updateValueMap(I, ResultReg);
return true;
}
// Storing an i1 requires special handling.
if (VTIsi1 && SrcReg != AArch64::WZR) {
- unsigned ANDReg = emitAND_ri(MVT::i32, SrcReg, /*TODO:IsKill=*/false, 1);
+ unsigned ANDReg = emitAnd_ri(MVT::i32, SrcReg, /*TODO:IsKill=*/false, 1);
assert(ANDReg && "Unexpected AND instruction emission failure.");
SrcReg = ANDReg;
}
bool AArch64FastISel::SelectBranch(const Instruction *I) {
const BranchInst *BI = cast<BranchInst>(I);
+ if (BI->isUnconditional()) {
+ MachineBasicBlock *MSucc = FuncInfo.MBBMap[BI->getSuccessor(0)];
+ fastEmitBranch(MSucc, BI->getDebugLoc());
+ return true;
+ }
+
MachineBasicBlock *TBB = FuncInfo.MBBMap[BI->getSuccessor(0)];
MachineBasicBlock *FBB = FuncInfo.MBBMap[BI->getSuccessor(1)];
TBB->getBasicBlock());
FuncInfo.MBB->addSuccessor(TBB, BranchWeight);
- FastEmitBranch(FBB, DbgLoc);
+ fastEmitBranch(FBB, DbgLoc);
return true;
}
} else if (TruncInst *TI = dyn_cast<TruncInst>(BI->getCondition())) {
MVT SrcVT;
if (TI->hasOneUse() && TI->getParent() == I->getParent() &&
- (isLoadStoreTypeLegal(TI->getOperand(0)->getType(), SrcVT))) {
+ (isTypeSupported(TI->getOperand(0)->getType(), SrcVT))) {
unsigned CondReg = getRegForValue(TI->getOperand(0));
if (!CondReg)
return false;
// Issue an extract_subreg to get the lower 32-bits.
if (SrcVT == MVT::i64) {
- CondReg = FastEmitInst_extractsubreg(MVT::i32, CondReg, CondIsKill,
+ CondReg = fastEmitInst_extractsubreg(MVT::i32, CondReg, CondIsKill,
AArch64::sub_32);
CondIsKill = true;
}
- unsigned ANDReg = emitAND_ri(MVT::i32, CondReg, CondIsKill, 1);
+ unsigned ANDReg = emitAnd_ri(MVT::i32, CondReg, CondIsKill, 1);
assert(ANDReg && "Unexpected AND instruction emission failure.");
emitICmp_ri(MVT::i32, ANDReg, /*IsKill=*/true, 0);
TBB->getBasicBlock());
FuncInfo.MBB->addSuccessor(TBB, BranchWeight);
- FastEmitBranch(FBB, DbgLoc);
+ fastEmitBranch(FBB, DbgLoc);
return true;
}
} else if (const ConstantInt *CI =
TBB->getBasicBlock());
FuncInfo.MBB->addSuccessor(TBB, BranchWeight);
- FastEmitBranch(FBB, DbgLoc);
+ fastEmitBranch(FBB, DbgLoc);
return true;
}
TBB->getBasicBlock());
FuncInfo.MBB->addSuccessor(TBB, BranchWeight);
- FastEmitBranch(FBB, DbgLoc);
+ fastEmitBranch(FBB, DbgLoc);
return true;
}
.addReg(AArch64::WZR)
.addImm(invertedCC);
- UpdateValueMap(I, ResultReg);
+ updateValueMap(I, ResultReg);
return true;
}
bool CondIsKill = hasTrivialKill(Cond);
if (NeedTest) {
- unsigned ANDReg = emitAND_ri(MVT::i32, CondReg, CondIsKill, 1);
+ unsigned ANDReg = emitAnd_ri(MVT::i32, CondReg, CondIsKill, 1);
assert(ANDReg && "Unexpected AND instruction emission failure.");
emitICmp_ri(MVT::i32, ANDReg, /*IsKill=*/true, 0);
}
if (!TrueReg || !FalseReg)
return false;
- unsigned ResultReg = FastEmitInst_rri(SelectOpc, RC, TrueReg, TrueIsKill,
+ unsigned ResultReg = fastEmitInst_rri(SelectOpc, RC, TrueReg, TrueIsKill,
FalseReg, FalseIsKill, CC);
- UpdateValueMap(I, ResultReg);
+ updateValueMap(I, ResultReg);
return true;
}
unsigned ResultReg = createResultReg(&AArch64::FPR64RegClass);
BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(AArch64::FCVTDSr),
ResultReg).addReg(Op);
- UpdateValueMap(I, ResultReg);
+ updateValueMap(I, ResultReg);
return true;
}
unsigned ResultReg = createResultReg(&AArch64::FPR32RegClass);
BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(AArch64::FCVTSDr),
ResultReg).addReg(Op);
- UpdateValueMap(I, ResultReg);
+ updateValueMap(I, ResultReg);
return true;
}
DestVT == MVT::i32 ? &AArch64::GPR32RegClass : &AArch64::GPR64RegClass);
BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(Opc), ResultReg)
.addReg(SrcReg);
- UpdateValueMap(I, ResultReg);
+ updateValueMap(I, ResultReg);
return true;
}
Opc = (DestVT == MVT::f32) ? AArch64::UCVTFUWSri : AArch64::UCVTFUWDri;
}
- unsigned ResultReg = FastEmitInst_r(Opc, TLI.getRegClassFor(DestVT), SrcReg,
+ unsigned ResultReg = fastEmitInst_r(Opc, TLI.getRegClassFor(DestVT), SrcReg,
SrcIsKill);
- UpdateValueMap(I, ResultReg);
+ updateValueMap(I, ResultReg);
return true;
}
-bool AArch64FastISel::FastLowerArguments() {
+bool AArch64FastISel::fastLowerArguments() {
if (!FuncInfo.CanLowerReturn)
return false;
// Skip unused arguments.
if (Arg.use_empty()) {
- UpdateValueMap(&Arg, 0);
+ updateValueMap(&Arg, 0);
continue;
}
BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc,
TII.get(TargetOpcode::COPY), ResultReg)
.addReg(DstReg, getKillRegState(true));
- UpdateValueMap(&Arg, ResultReg);
+ updateValueMap(&Arg, ResultReg);
}
return true;
}
return true;
}
-bool AArch64FastISel::FastLowerCall(CallLoweringInfo &CLI) {
+bool AArch64FastISel::fastLowerCall(CallLoweringInfo &CLI) {
CallingConv::ID CC = CLI.CallConv;
bool IsTailCall = CLI.IsTailCall;
bool IsVarArg = CLI.IsVarArg;
// Issue the call.
MachineInstrBuilder MIB;
if (CM == CodeModel::Small) {
- unsigned CallOpc = Addr.getReg() ? AArch64::BLR : AArch64::BL;
- MIB = BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(CallOpc));
+ const MCInstrDesc &II = TII.get(Addr.getReg() ? AArch64::BLR : AArch64::BL);
+ MIB = BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, II);
if (SymName)
MIB.addExternalSymbol(SymName, 0);
else if (Addr.getGlobalValue())
MIB.addGlobalAddress(Addr.getGlobalValue(), 0, 0);
- else if (Addr.getReg())
- MIB.addReg(Addr.getReg());
- else
+ else if (Addr.getReg()) {
+ unsigned Reg = constrainOperandRegClass(II, Addr.getReg(), 0);
+ MIB.addReg(Reg);
+ } else
return false;
} else {
unsigned CallReg = 0;
if (!CallReg)
return false;
- MIB = BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc,
- TII.get(AArch64::BLR)).addReg(CallReg);
+ const MCInstrDesc &II = TII.get(AArch64::BLR);
+ CallReg = constrainOperandRegClass(II, CallReg, 0);
+ MIB = BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, II).addReg(CallReg);
}
// Add implicit physical register uses to the call.
return true;
}
-bool AArch64FastISel::FastLowerIntrinsicCall(const IntrinsicInst *II) {
+bool AArch64FastISel::fastLowerIntrinsicCall(const IntrinsicInst *II) {
// FIXME: Handle more intrinsics.
switch (II->getIntrinsicID()) {
default: return false;
unsigned DestReg;
unsigned Depth = cast<ConstantInt>(II->getOperand(0))->getZExtValue();
while (Depth--) {
- DestReg = FastEmitInst_ri(AArch64::LDRXui, &AArch64::GPR64RegClass,
+ DestReg = fastEmitInst_ri(AArch64::LDRXui, &AArch64::GPR64RegClass,
SrcReg, /*IsKill=*/true, 0);
assert(DestReg && "Unexpected LDR instruction emission failure.");
SrcReg = DestReg;
}
- UpdateValueMap(II, SrcReg);
+ updateValueMap(II, SrcReg);
return true;
}
case Intrinsic::memcpy:
return false;
const char *IntrMemName = isa<MemCpyInst>(II) ? "memcpy" : "memmove";
- return LowerCallTo(II, IntrMemName, II->getNumArgOperands() - 2);
+ return lowerCallTo(II, IntrMemName, II->getNumArgOperands() - 2);
}
case Intrinsic::memset: {
const MemSetInst *MSI = cast<MemSetInst>(II);
// address spaces.
return false;
- return LowerCallTo(II, "memset", II->getNumArgOperands() - 2);
+ return lowerCallTo(II, "memset", II->getNumArgOperands() - 2);
}
case Intrinsic::trap: {
BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(AArch64::BRK))
return false;
bool Op0IsKill = hasTrivialKill(II->getOperand(0));
- unsigned ResultReg = FastEmit_r(VT, VT, ISD::FSQRT, Op0Reg, Op0IsKill);
+ unsigned ResultReg = fastEmit_r(VT, VT, ISD::FSQRT, Op0Reg, Op0IsKill);
if (!ResultReg)
return false;
- UpdateValueMap(II, ResultReg);
+ updateValueMap(II, ResultReg);
return true;
}
case Intrinsic::sadd_with_overflow:
switch (II->getIntrinsicID()) {
default: llvm_unreachable("Unexpected intrinsic!");
case Intrinsic::sadd_with_overflow:
- ResultReg1 = emitAdds(VT, LHS, RHS); CC = AArch64CC::VS; break;
+ ResultReg1 = emitAdd(VT, LHS, RHS, /*SetFlags=*/true);
+ CC = AArch64CC::VS;
+ break;
case Intrinsic::uadd_with_overflow:
- ResultReg1 = emitAdds(VT, LHS, RHS); CC = AArch64CC::HS; break;
+ ResultReg1 = emitAdd(VT, LHS, RHS, /*SetFlags=*/true);
+ CC = AArch64CC::HS;
+ break;
case Intrinsic::ssub_with_overflow:
- ResultReg1 = emitSubs(VT, LHS, RHS); CC = AArch64CC::VS; break;
+ ResultReg1 = emitSub(VT, LHS, RHS, /*SetFlags=*/true);
+ CC = AArch64CC::VS;
+ break;
case Intrinsic::usub_with_overflow:
- ResultReg1 = emitSubs(VT, LHS, RHS); CC = AArch64CC::LO; break;
+ ResultReg1 = emitSub(VT, LHS, RHS, /*SetFlags=*/true);
+ CC = AArch64CC::LO;
+ break;
case Intrinsic::smul_with_overflow: {
CC = AArch64CC::NE;
unsigned LHSReg = getRegForValue(LHS);
MulReg = Emit_SMULL_rr(MVT::i64, LHSReg, LHSIsKill, RHSReg, RHSIsKill);
unsigned ShiftReg = emitLSR_ri(MVT::i64, MVT::i64, MulReg,
/*IsKill=*/false, 32);
- MulReg = FastEmitInst_extractsubreg(VT, MulReg, /*IsKill=*/true,
+ MulReg = fastEmitInst_extractsubreg(VT, MulReg, /*IsKill=*/true,
AArch64::sub_32);
- ShiftReg = FastEmitInst_extractsubreg(VT, ShiftReg, /*IsKill=*/true,
+ ShiftReg = fastEmitInst_extractsubreg(VT, ShiftReg, /*IsKill=*/true,
AArch64::sub_32);
emitSubs_rs(VT, ShiftReg, /*IsKill=*/true, MulReg, /*IsKill=*/false,
AArch64_AM::ASR, 31, /*WantResult=*/false);
} else {
assert(VT == MVT::i64 && "Unexpected value type.");
MulReg = Emit_MUL_rr(VT, LHSReg, LHSIsKill, RHSReg, RHSIsKill);
- unsigned SMULHReg = FastEmit_rr(VT, VT, ISD::MULHS, LHSReg, LHSIsKill,
+ unsigned SMULHReg = fastEmit_rr(VT, VT, ISD::MULHS, LHSReg, LHSIsKill,
RHSReg, RHSIsKill);
emitSubs_rs(VT, SMULHReg, /*IsKill=*/true, MulReg, /*IsKill=*/false,
AArch64_AM::ASR, 63, /*WantResult=*/false);
emitSubs_rs(MVT::i64, AArch64::XZR, /*IsKill=*/true, MulReg,
/*IsKill=*/false, AArch64_AM::LSR, 32,
/*WantResult=*/false);
- MulReg = FastEmitInst_extractsubreg(VT, MulReg, /*IsKill=*/true,
+ MulReg = fastEmitInst_extractsubreg(VT, MulReg, /*IsKill=*/true,
AArch64::sub_32);
} else {
assert(VT == MVT::i64 && "Unexpected value type.");
MulReg = Emit_MUL_rr(VT, LHSReg, LHSIsKill, RHSReg, RHSIsKill);
- unsigned UMULHReg = FastEmit_rr(VT, VT, ISD::MULHU, LHSReg, LHSIsKill,
+ unsigned UMULHReg = fastEmit_rr(VT, VT, ISD::MULHU, LHSReg, LHSIsKill,
RHSReg, RHSIsKill);
emitSubs_rr(VT, AArch64::XZR, /*IsKill=*/true, UMULHReg,
/*IsKill=*/false, /*WantResult=*/false);
TII.get(TargetOpcode::COPY), ResultReg1).addReg(MulReg);
}
- ResultReg2 = FastEmitInst_rri(AArch64::CSINCWr, &AArch64::GPR32RegClass,
+ ResultReg2 = fastEmitInst_rri(AArch64::CSINCWr, &AArch64::GPR32RegClass,
AArch64::WZR, /*IsKill=*/true, AArch64::WZR,
/*IsKill=*/true, getInvertedCondCode(CC));
assert((ResultReg1 + 1) == ResultReg2 &&
"Nonconsecutive result registers.");
- UpdateValueMap(II, ResultReg1, 2);
+ updateValueMap(II, ResultReg1, 2);
return true;
}
}
break;
}
// Issue an extract_subreg to get the lower 32-bits.
- unsigned Reg32 = FastEmitInst_extractsubreg(MVT::i32, SrcReg, SrcIsKill,
+ unsigned Reg32 = fastEmitInst_extractsubreg(MVT::i32, SrcReg, SrcIsKill,
AArch64::sub_32);
// Create the AND instruction which performs the actual truncation.
- ResultReg = emitAND_ri(MVT::i32, Reg32, /*IsKill=*/true, Mask);
+ ResultReg = emitAnd_ri(MVT::i32, Reg32, /*IsKill=*/true, Mask);
assert(ResultReg && "Unexpected AND instruction emission failure.");
} else {
ResultReg = createResultReg(&AArch64::GPR32RegClass);
.addReg(SrcReg, getKillRegState(SrcIsKill));
}
- UpdateValueMap(I, ResultReg);
+ updateValueMap(I, ResultReg);
return true;
}
DestVT = MVT::i32;
if (isZExt) {
- unsigned ResultReg = emitAND_ri(MVT::i32, SrcReg, /*TODO:IsKill=*/false, 1);
+ unsigned ResultReg = emitAnd_ri(MVT::i32, SrcReg, /*TODO:IsKill=*/false, 1);
assert(ResultReg && "Unexpected AND instruction emission failure.");
if (DestVT == MVT::i64) {
// We're ZExt i1 to i64. The ANDWri Wd, Ws, #1 implicitly clears the
// FIXME: We're SExt i1 to i64.
return 0;
}
- return FastEmitInst_rii(AArch64::SBFMWri, &AArch64::GPR32RegClass, SrcReg,
+ return fastEmitInst_rii(AArch64::SBFMWri, &AArch64::GPR32RegClass, SrcReg,
/*TODO:IsKill=*/false, 0, 0);
}
}
const TargetRegisterClass *RC =
(RetVT == MVT::i64) ? &AArch64::GPR64RegClass : &AArch64::GPR32RegClass;
- return FastEmitInst_rrr(Opc, RC, Op0, Op0IsKill, Op1, Op1IsKill,
+ return fastEmitInst_rrr(Opc, RC, Op0, Op0IsKill, Op1, Op1IsKill,
/*IsKill=*/ZReg, true);
}
if (RetVT != MVT::i64)
return 0;
- return FastEmitInst_rrr(AArch64::SMADDLrrr, &AArch64::GPR64RegClass,
+ return fastEmitInst_rrr(AArch64::SMADDLrrr, &AArch64::GPR64RegClass,
Op0, Op0IsKill, Op1, Op1IsKill,
AArch64::XZR, /*IsKill=*/true);
}
if (RetVT != MVT::i64)
return 0;
- return FastEmitInst_rrr(AArch64::UMADDLrrr, &AArch64::GPR64RegClass,
+ return fastEmitInst_rrr(AArch64::UMADDLrrr, &AArch64::GPR64RegClass,
Op0, Op0IsKill, Op1, Op1IsKill,
AArch64::XZR, /*IsKill=*/true);
}
const TargetRegisterClass *RC =
(RetVT == MVT::i64) ? &AArch64::GPR64RegClass : &AArch64::GPR32RegClass;
if (NeedTrunc) {
- Op1Reg = emitAND_ri(MVT::i32, Op1Reg, Op1IsKill, Mask);
+ Op1Reg = emitAnd_ri(MVT::i32, Op1Reg, Op1IsKill, Mask);
Op1IsKill = true;
}
- unsigned ResultReg = FastEmitInst_rr(Opc, RC, Op0Reg, Op0IsKill, Op1Reg,
+ unsigned ResultReg = fastEmitInst_rr(Opc, RC, Op0Reg, Op0IsKill, Op1Reg,
Op1IsKill);
if (NeedTrunc)
- ResultReg = emitAND_ri(MVT::i32, ResultReg, /*IsKill=*/true, Mask);
+ ResultReg = emitAnd_ri(MVT::i32, ResultReg, /*IsKill=*/true, Mask);
return ResultReg;
}
Op0 = TmpReg;
Op0IsKill = true;
}
- return FastEmitInst_rii(Opc, RC, Op0, Op0IsKill, ImmR, ImmS);
+ return fastEmitInst_rii(Opc, RC, Op0, Op0IsKill, ImmR, ImmS);
}
unsigned AArch64FastISel::emitLSR_rr(MVT RetVT, unsigned Op0Reg, bool Op0IsKill,
const TargetRegisterClass *RC =
(RetVT == MVT::i64) ? &AArch64::GPR64RegClass : &AArch64::GPR32RegClass;
if (NeedTrunc) {
- Op0Reg = emitAND_ri(MVT::i32, Op0Reg, Op0IsKill, Mask);
- Op1Reg = emitAND_ri(MVT::i32, Op1Reg, Op1IsKill, Mask);
+ Op0Reg = emitAnd_ri(MVT::i32, Op0Reg, Op0IsKill, Mask);
+ Op1Reg = emitAnd_ri(MVT::i32, Op1Reg, Op1IsKill, Mask);
Op0IsKill = Op1IsKill = true;
}
- unsigned ResultReg = FastEmitInst_rr(Opc, RC, Op0Reg, Op0IsKill, Op1Reg,
+ unsigned ResultReg = fastEmitInst_rr(Opc, RC, Op0Reg, Op0IsKill, Op1Reg,
Op1IsKill);
if (NeedTrunc)
- ResultReg = emitAND_ri(MVT::i32, ResultReg, /*IsKill=*/true, Mask);
+ ResultReg = emitAnd_ri(MVT::i32, ResultReg, /*IsKill=*/true, Mask);
return ResultReg;
}
Op0 = TmpReg;
Op0IsKill = true;
}
- return FastEmitInst_rii(Opc, RC, Op0, Op0IsKill, ImmR, ImmS);
+ return fastEmitInst_rii(Opc, RC, Op0, Op0IsKill, ImmR, ImmS);
}
unsigned AArch64FastISel::emitASR_rr(MVT RetVT, unsigned Op0Reg, bool Op0IsKill,
(RetVT == MVT::i64) ? &AArch64::GPR64RegClass : &AArch64::GPR32RegClass;
if (NeedTrunc) {
Op0Reg = EmitIntExt(RetVT, Op0Reg, MVT::i32, /*IsZExt=*/false);
- Op1Reg = emitAND_ri(MVT::i32, Op1Reg, Op1IsKill, Mask);
+ Op1Reg = emitAnd_ri(MVT::i32, Op1Reg, Op1IsKill, Mask);
Op0IsKill = Op1IsKill = true;
}
- unsigned ResultReg = FastEmitInst_rr(Opc, RC, Op0Reg, Op0IsKill, Op1Reg,
+ unsigned ResultReg = fastEmitInst_rr(Opc, RC, Op0Reg, Op0IsKill, Op1Reg,
Op1IsKill);
if (NeedTrunc)
- ResultReg = emitAND_ri(MVT::i32, ResultReg, /*IsKill=*/true, Mask);
+ ResultReg = emitAnd_ri(MVT::i32, ResultReg, /*IsKill=*/true, Mask);
return ResultReg;
}
Op0 = TmpReg;
Op0IsKill = true;
}
- return FastEmitInst_rii(Opc, RC, Op0, Op0IsKill, ImmR, ImmS);
+ return fastEmitInst_rii(Opc, RC, Op0, Op0IsKill, ImmR, ImmS);
}
unsigned AArch64FastISel::EmitIntExt(MVT SrcVT, unsigned SrcReg, MVT DestVT,
const TargetRegisterClass *RC =
(DestVT == MVT::i64) ? &AArch64::GPR64RegClass : &AArch64::GPR32RegClass;
- return FastEmitInst_rii(Opc, RC, SrcReg, /*TODO:IsKill=*/false, 0, Imm);
+ return fastEmitInst_rii(Opc, RC, SrcReg, /*TODO:IsKill=*/false, 0, Imm);
}
bool AArch64FastISel::SelectIntExt(const Instruction *I) {
if (!ResultReg)
return false;
- UpdateValueMap(I, ResultReg);
+ updateValueMap(I, ResultReg);
return true;
}
const TargetRegisterClass *RC =
(DestVT == MVT::i64) ? &AArch64::GPR64RegClass : &AArch64::GPR32RegClass;
- unsigned QuotReg = FastEmitInst_rr(DivOpc, RC, Src0Reg, /*IsKill=*/false,
+ unsigned QuotReg = fastEmitInst_rr(DivOpc, RC, Src0Reg, /*IsKill=*/false,
Src1Reg, /*IsKill=*/false);
assert(QuotReg && "Unexpected DIV instruction emission failure.");
// The remainder is computed as numerator - (quotient * denominator) using the
// MSUB instruction.
- unsigned ResultReg = FastEmitInst_rrr(MSubOpc, RC, QuotReg, /*IsKill=*/true,
+ unsigned ResultReg = fastEmitInst_rrr(MSubOpc, RC, QuotReg, /*IsKill=*/true,
Src1Reg, Src1IsKill, Src0Reg,
Src0IsKill);
- UpdateValueMap(I, ResultReg);
+ updateValueMap(I, ResultReg);
return true;
}
if (!ResultReg)
return false;
- UpdateValueMap(I, ResultReg);
+ updateValueMap(I, ResultReg);
return true;
}
bool AArch64FastISel::SelectShift(const Instruction *I) {
MVT RetVT;
- if (!isLoadStoreTypeLegal(I->getType(), RetVT))
+ if (!isTypeSupported(I->getType(), RetVT))
return false;
if (const auto *C = dyn_cast<ConstantInt>(I->getOperand(1))) {
const Value *Op0 = I->getOperand(0);
if (const auto *ZExt = dyn_cast<ZExtInst>(Op0)) {
MVT TmpVT;
- if (isValueAvailable(ZExt) &&
- isLoadStoreTypeLegal(ZExt->getSrcTy(), TmpVT)) {
+ if (isValueAvailable(ZExt) && isTypeSupported(ZExt->getSrcTy(), TmpVT)) {
SrcVT = TmpVT;
IsZExt = true;
Op0 = ZExt->getOperand(0);
}
} else if (const auto *SExt = dyn_cast<SExtInst>(Op0)) {
MVT TmpVT;
- if (isValueAvailable(SExt) &&
- isLoadStoreTypeLegal(SExt->getSrcTy(), TmpVT)) {
+ if (isValueAvailable(SExt) && isTypeSupported(SExt->getSrcTy(), TmpVT)) {
SrcVT = TmpVT;
IsZExt = false;
Op0 = SExt->getOperand(0);
if (!ResultReg)
return false;
- UpdateValueMap(I, ResultReg);
+ updateValueMap(I, ResultReg);
return true;
}
if (!ResultReg)
return false;
- UpdateValueMap(I, ResultReg);
+ updateValueMap(I, ResultReg);
return true;
}
if (!Op0Reg)
return false;
bool Op0IsKill = hasTrivialKill(I->getOperand(0));
- unsigned ResultReg = FastEmitInst_r(Opc, RC, Op0Reg, Op0IsKill);
+ unsigned ResultReg = fastEmitInst_r(Opc, RC, Op0Reg, Op0IsKill);
if (!ResultReg)
return false;
- UpdateValueMap(I, ResultReg);
+ updateValueMap(I, ResultReg);
return true;
}
-bool AArch64FastISel::TargetSelectInstruction(const Instruction *I) {
+bool AArch64FastISel::fastSelectInstruction(const Instruction *I) {
switch (I->getOpcode()) {
default:
break;
- case Instruction::Load:
- return SelectLoad(I);
- case Instruction::Store:
- return SelectStore(I);
+ case Instruction::Add:
+ case Instruction::Sub:
+ if (selectAddSub(I))
+ return true;
+ break;
+ case Instruction::Mul:
+ if (!selectBinaryOp(I, ISD::MUL))
+ return SelectMul(I);
+ return true;
+ case Instruction::SRem:
+ if (!selectBinaryOp(I, ISD::SREM))
+ return SelectRem(I, ISD::SREM);
+ return true;
+ case Instruction::URem:
+ if (!selectBinaryOp(I, ISD::UREM))
+ return SelectRem(I, ISD::UREM);
+ return true;
+ case Instruction::Shl:
+ case Instruction::LShr:
+ case Instruction::AShr:
+ if (SelectShift(I))
+ return true;
+ break;
+ case Instruction::And:
+ case Instruction::Or:
+ case Instruction::Xor:
+ if (selectLogicalOp(I))
+ return true;
+ break;
case Instruction::Br:
return SelectBranch(I);
case Instruction::IndirectBr:
return SelectIndirectBr(I);
- case Instruction::FCmp:
- case Instruction::ICmp:
- return SelectCmp(I);
- case Instruction::Select:
- return SelectSelect(I);
+ case Instruction::BitCast:
+ if (!FastISel::selectBitCast(I))
+ return SelectBitCast(I);
+ return true;
+ case Instruction::FPToSI:
+ if (!selectCast(I, ISD::FP_TO_SINT))
+ return SelectFPToInt(I, /*Signed=*/true);
+ return true;
+ case Instruction::FPToUI:
+ return SelectFPToInt(I, /*Signed=*/false);
+ case Instruction::ZExt:
+ if (!selectCast(I, ISD::ZERO_EXTEND))
+ return SelectIntExt(I);
+ return true;
+ case Instruction::SExt:
+ if (!selectCast(I, ISD::SIGN_EXTEND))
+ return SelectIntExt(I);
+ return true;
+ case Instruction::Trunc:
+ if (!selectCast(I, ISD::TRUNCATE))
+ return SelectTrunc(I);
+ return true;
case Instruction::FPExt:
return SelectFPExt(I);
case Instruction::FPTrunc:
return SelectFPTrunc(I);
- case Instruction::FPToSI:
- return SelectFPToInt(I, /*Signed=*/true);
- case Instruction::FPToUI:
- return SelectFPToInt(I, /*Signed=*/false);
case Instruction::SIToFP:
- return SelectIntToFP(I, /*Signed=*/true);
+ if (!selectCast(I, ISD::SINT_TO_FP))
+ return SelectIntToFP(I, /*Signed=*/true);
+ return true;
case Instruction::UIToFP:
return SelectIntToFP(I, /*Signed=*/false);
- case Instruction::SRem:
- return SelectRem(I, ISD::SREM);
- case Instruction::URem:
- return SelectRem(I, ISD::UREM);
+ case Instruction::Load:
+ return SelectLoad(I);
+ case Instruction::Store:
+ return SelectStore(I);
+ case Instruction::FCmp:
+ case Instruction::ICmp:
+ return SelectCmp(I);
+ case Instruction::Select:
+ return SelectSelect(I);
case Instruction::Ret:
return SelectRet(I);
- case Instruction::Trunc:
- return SelectTrunc(I);
- case Instruction::ZExt:
- case Instruction::SExt:
- return SelectIntExt(I);
-
- // FIXME: All of these should really be handled by the target-independent
- // selector -> improve FastISel tblgen.
- case Instruction::Mul:
- return SelectMul(I);
- case Instruction::Shl: // fall-through
- case Instruction::LShr: // fall-through
- case Instruction::AShr:
- return SelectShift(I);
- case Instruction::BitCast:
- return SelectBitCast(I);
}
- return false;
+
+ // fall-back to target-independent instruction selection.
+ return selectOperator(I, I->getOpcode());
// Silence warnings.
(void)&CC_AArch64_DarwinPCS_VarArg;
}