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Tim Northover3b0846e2014-05-24 12:50:23 +00001//===-- AArch6464FastISel.cpp - AArch64 FastISel implementation -----------===//
2//
3// The LLVM Compiler Infrastructure
4//
5// This file is distributed under the University of Illinois Open Source
6// License. See LICENSE.TXT for details.
7//
8//===----------------------------------------------------------------------===//
9//
10// This file defines the AArch64-specific support for the FastISel class. Some
11// of the target-specific code is generated by tablegen in the file
12// AArch64GenFastISel.inc, which is #included here.
13//
14//===----------------------------------------------------------------------===//
15
16#include "AArch64.h"
Tim Northover3b0846e2014-05-24 12:50:23 +000017#include "AArch64Subtarget.h"
Benjamin Kramer1f8930e2014-07-25 11:42:14 +000018#include "AArch64TargetMachine.h"
Tim Northover3b0846e2014-05-24 12:50:23 +000019#include "MCTargetDesc/AArch64AddressingModes.h"
Juergen Ributzka50a40052014-08-01 18:39:24 +000020#include "llvm/Analysis/BranchProbabilityInfo.h"
Tim Northover3b0846e2014-05-24 12:50:23 +000021#include "llvm/CodeGen/CallingConvLower.h"
22#include "llvm/CodeGen/FastISel.h"
23#include "llvm/CodeGen/FunctionLoweringInfo.h"
24#include "llvm/CodeGen/MachineConstantPool.h"
25#include "llvm/CodeGen/MachineFrameInfo.h"
26#include "llvm/CodeGen/MachineInstrBuilder.h"
27#include "llvm/CodeGen/MachineRegisterInfo.h"
28#include "llvm/IR/CallingConv.h"
29#include "llvm/IR/DataLayout.h"
30#include "llvm/IR/DerivedTypes.h"
31#include "llvm/IR/Function.h"
32#include "llvm/IR/GetElementPtrTypeIterator.h"
33#include "llvm/IR/GlobalAlias.h"
34#include "llvm/IR/GlobalVariable.h"
35#include "llvm/IR/Instructions.h"
36#include "llvm/IR/IntrinsicInst.h"
37#include "llvm/IR/Operator.h"
38#include "llvm/Support/CommandLine.h"
39using namespace llvm;
40
41namespace {
42
Juergen Ributzkacbe802e2014-09-15 22:33:11 +000043class AArch64FastISel final : public FastISel {
Tim Northover3b0846e2014-05-24 12:50:23 +000044 class Address {
45 public:
46 typedef enum {
47 RegBase,
48 FrameIndexBase
49 } BaseKind;
50
51 private:
52 BaseKind Kind;
Juergen Ributzkab46ea082014-08-19 19:44:17 +000053 AArch64_AM::ShiftExtendType ExtType;
Tim Northover3b0846e2014-05-24 12:50:23 +000054 union {
55 unsigned Reg;
56 int FI;
57 } Base;
Juergen Ributzkab46ea082014-08-19 19:44:17 +000058 unsigned OffsetReg;
59 unsigned Shift;
Tim Northover3b0846e2014-05-24 12:50:23 +000060 int64_t Offset;
Juergen Ributzka052e6c22014-07-31 04:10:40 +000061 const GlobalValue *GV;
Tim Northover3b0846e2014-05-24 12:50:23 +000062
63 public:
Juergen Ributzkab46ea082014-08-19 19:44:17 +000064 Address() : Kind(RegBase), ExtType(AArch64_AM::InvalidShiftExtend),
65 OffsetReg(0), Shift(0), Offset(0), GV(nullptr) { Base.Reg = 0; }
Tim Northover3b0846e2014-05-24 12:50:23 +000066 void setKind(BaseKind K) { Kind = K; }
67 BaseKind getKind() const { return Kind; }
Juergen Ributzkab46ea082014-08-19 19:44:17 +000068 void setExtendType(AArch64_AM::ShiftExtendType E) { ExtType = E; }
69 AArch64_AM::ShiftExtendType getExtendType() const { return ExtType; }
Tim Northover3b0846e2014-05-24 12:50:23 +000070 bool isRegBase() const { return Kind == RegBase; }
71 bool isFIBase() const { return Kind == FrameIndexBase; }
72 void setReg(unsigned Reg) {
73 assert(isRegBase() && "Invalid base register access!");
74 Base.Reg = Reg;
75 }
76 unsigned getReg() const {
77 assert(isRegBase() && "Invalid base register access!");
78 return Base.Reg;
79 }
Juergen Ributzkab46ea082014-08-19 19:44:17 +000080 void setOffsetReg(unsigned Reg) {
81 assert(isRegBase() && "Invalid offset register access!");
82 OffsetReg = Reg;
83 }
84 unsigned getOffsetReg() const {
85 assert(isRegBase() && "Invalid offset register access!");
86 return OffsetReg;
87 }
Tim Northover3b0846e2014-05-24 12:50:23 +000088 void setFI(unsigned FI) {
89 assert(isFIBase() && "Invalid base frame index access!");
90 Base.FI = FI;
91 }
92 unsigned getFI() const {
93 assert(isFIBase() && "Invalid base frame index access!");
94 return Base.FI;
95 }
96 void setOffset(int64_t O) { Offset = O; }
97 int64_t getOffset() { return Offset; }
Juergen Ributzkab46ea082014-08-19 19:44:17 +000098 void setShift(unsigned S) { Shift = S; }
99 unsigned getShift() { return Shift; }
Tim Northover3b0846e2014-05-24 12:50:23 +0000100
Juergen Ributzka052e6c22014-07-31 04:10:40 +0000101 void setGlobalValue(const GlobalValue *G) { GV = G; }
102 const GlobalValue *getGlobalValue() { return GV; }
Tim Northover3b0846e2014-05-24 12:50:23 +0000103 };
104
105 /// Subtarget - Keep a pointer to the AArch64Subtarget around so that we can
106 /// make the right decision when generating code for different targets.
107 const AArch64Subtarget *Subtarget;
108 LLVMContext *Context;
109
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +0000110 bool fastLowerArguments() override;
111 bool fastLowerCall(CallLoweringInfo &CLI) override;
112 bool fastLowerIntrinsicCall(const IntrinsicInst *II) override;
Juergen Ributzka2581fa52014-07-22 23:14:58 +0000113
Tim Northover3b0846e2014-05-24 12:50:23 +0000114private:
115 // Selection routines.
Juergen Ributzkaa1148b22014-09-03 01:38:36 +0000116 bool selectAddSub(const Instruction *I);
Juergen Ributzkae1779e22014-09-15 21:27:56 +0000117 bool selectLogicalOp(const Instruction *I);
Juergen Ributzkab9e49c72014-09-15 23:20:17 +0000118 bool selectLoad(const Instruction *I);
119 bool selectStore(const Instruction *I);
120 bool selectBranch(const Instruction *I);
121 bool selectIndirectBr(const Instruction *I);
122 bool selectCmp(const Instruction *I);
123 bool selectSelect(const Instruction *I);
124 bool selectFPExt(const Instruction *I);
125 bool selectFPTrunc(const Instruction *I);
126 bool selectFPToInt(const Instruction *I, bool Signed);
127 bool selectIntToFP(const Instruction *I, bool Signed);
128 bool selectRem(const Instruction *I, unsigned ISDOpcode);
129 bool selectRet(const Instruction *I);
130 bool selectTrunc(const Instruction *I);
131 bool selectIntExt(const Instruction *I);
132 bool selectMul(const Instruction *I);
133 bool selectShift(const Instruction *I);
134 bool selectBitCast(const Instruction *I);
Juergen Ributzkaafa034f2014-09-15 22:07:49 +0000135 bool selectFRem(const Instruction *I);
Tim Northover3b0846e2014-05-24 12:50:23 +0000136
137 // Utility helper routines.
138 bool isTypeLegal(Type *Ty, MVT &VT);
Juergen Ributzka6127b192014-09-15 21:27:54 +0000139 bool isTypeSupported(Type *Ty, MVT &VT, bool IsVectorAllowed = false);
Juergen Ributzka77bc09f2014-08-29 00:19:21 +0000140 bool isValueAvailable(const Value *V) const;
Juergen Ributzkab9e49c72014-09-15 23:20:17 +0000141 bool computeAddress(const Value *Obj, Address &Addr, Type *Ty = nullptr);
142 bool computeCallAddress(const Value *V, Address &Addr);
143 bool simplifyAddress(Address &Addr, MVT VT);
144 void addLoadStoreOperands(Address &Addr, const MachineInstrBuilder &MIB,
Juergen Ributzkab46ea082014-08-19 19:44:17 +0000145 unsigned Flags, unsigned ScaleFactor,
146 MachineMemOperand *MMO);
Juergen Ributzkab9e49c72014-09-15 23:20:17 +0000147 bool isMemCpySmall(uint64_t Len, unsigned Alignment);
148 bool tryEmitSmallMemCpy(Address Dest, Address Src, uint64_t Len,
Tim Northover3b0846e2014-05-24 12:50:23 +0000149 unsigned Alignment);
Juergen Ributzkaad2109a2014-07-30 22:04:34 +0000150 bool foldXALUIntrinsic(AArch64CC::CondCode &CC, const Instruction *I,
151 const Value *Cond);
152
Juergen Ributzkac0886dd2014-08-19 22:29:55 +0000153 // Emit helper routines.
Juergen Ributzkaa1148b22014-09-03 01:38:36 +0000154 unsigned emitAddSub(bool UseAdd, MVT RetVT, const Value *LHS,
155 const Value *RHS, bool SetFlags = false,
156 bool WantResult = true, bool IsZExt = false);
157 unsigned emitAddSub_rr(bool UseAdd, MVT RetVT, unsigned LHSReg,
158 bool LHSIsKill, unsigned RHSReg, bool RHSIsKill,
159 bool SetFlags = false, bool WantResult = true);
160 unsigned emitAddSub_ri(bool UseAdd, MVT RetVT, unsigned LHSReg,
161 bool LHSIsKill, uint64_t Imm, bool SetFlags = false,
162 bool WantResult = true);
Juergen Ributzkafb506a42014-08-27 00:58:30 +0000163 unsigned emitAddSub_rs(bool UseAdd, MVT RetVT, unsigned LHSReg,
164 bool LHSIsKill, unsigned RHSReg, bool RHSIsKill,
165 AArch64_AM::ShiftExtendType ShiftType,
Juergen Ributzkaa1148b22014-09-03 01:38:36 +0000166 uint64_t ShiftImm, bool SetFlags = false,
167 bool WantResult = true);
Juergen Ributzkafb506a42014-08-27 00:58:30 +0000168 unsigned emitAddSub_rx(bool UseAdd, MVT RetVT, unsigned LHSReg,
169 bool LHSIsKill, unsigned RHSReg, bool RHSIsKill,
170 AArch64_AM::ShiftExtendType ExtType,
Juergen Ributzkaa1148b22014-09-03 01:38:36 +0000171 uint64_t ShiftImm, bool SetFlags = false,
172 bool WantResult = true);
Juergen Ributzkac0886dd2014-08-19 22:29:55 +0000173
Tim Northover3b0846e2014-05-24 12:50:23 +0000174 // Emit functions.
Juergen Ributzkac0886dd2014-08-19 22:29:55 +0000175 bool emitCmp(const Value *LHS, const Value *RHS, bool IsZExt);
176 bool emitICmp(MVT RetVT, const Value *LHS, const Value *RHS, bool IsZExt);
177 bool emitICmp_ri(MVT RetVT, unsigned LHSReg, bool LHSIsKill, uint64_t Imm);
178 bool emitFCmp(MVT RetVT, const Value *LHS, const Value *RHS);
Juergen Ributzkab9e49c72014-09-15 23:20:17 +0000179 bool emitLoad(MVT VT, unsigned &ResultReg, Address Addr,
Juergen Ributzkab46ea082014-08-19 19:44:17 +0000180 MachineMemOperand *MMO = nullptr);
Juergen Ributzkab9e49c72014-09-15 23:20:17 +0000181 bool emitStore(MVT VT, unsigned SrcReg, Address Addr,
Juergen Ributzkab46ea082014-08-19 19:44:17 +0000182 MachineMemOperand *MMO = nullptr);
Juergen Ributzkab9e49c72014-09-15 23:20:17 +0000183 unsigned emitIntExt(MVT SrcVT, unsigned SrcReg, MVT DestVT, bool isZExt);
184 unsigned emiti1Ext(unsigned SrcReg, MVT DestVT, bool isZExt);
Juergen Ributzkaa1148b22014-09-03 01:38:36 +0000185 unsigned emitAdd(MVT RetVT, const Value *LHS, const Value *RHS,
186 bool SetFlags = false, bool WantResult = true,
187 bool IsZExt = false);
188 unsigned emitSub(MVT RetVT, const Value *LHS, const Value *RHS,
189 bool SetFlags = false, bool WantResult = true,
190 bool IsZExt = false);
Juergen Ributzkac0886dd2014-08-19 22:29:55 +0000191 unsigned emitSubs_rr(MVT RetVT, unsigned LHSReg, bool LHSIsKill,
192 unsigned RHSReg, bool RHSIsKill, bool WantResult = true);
193 unsigned emitSubs_rs(MVT RetVT, unsigned LHSReg, bool LHSIsKill,
194 unsigned RHSReg, bool RHSIsKill,
195 AArch64_AM::ShiftExtendType ShiftType, uint64_t ShiftImm,
196 bool WantResult = true);
Juergen Ributzka1dbc15f2014-09-04 01:29:18 +0000197 unsigned emitLogicalOp(unsigned ISDOpc, MVT RetVT, const Value *LHS,
198 const Value *RHS);
199 unsigned emitLogicalOp_ri(unsigned ISDOpc, MVT RetVT, unsigned LHSReg,
200 bool LHSIsKill, uint64_t Imm);
201 unsigned emitLogicalOp_rs(unsigned ISDOpc, MVT RetVT, unsigned LHSReg,
202 bool LHSIsKill, unsigned RHSReg, bool RHSIsKill,
203 uint64_t ShiftImm);
204 unsigned emitAnd_ri(MVT RetVT, unsigned LHSReg, bool LHSIsKill, uint64_t Imm);
Juergen Ributzkab9e49c72014-09-15 23:20:17 +0000205 unsigned emitMul_rr(MVT RetVT, unsigned Op0, bool Op0IsKill,
206 unsigned Op1, bool Op1IsKill);
207 unsigned emitSMULL_rr(MVT RetVT, unsigned Op0, bool Op0IsKill,
208 unsigned Op1, bool Op1IsKill);
209 unsigned emitUMULL_rr(MVT RetVT, unsigned Op0, bool Op0IsKill,
210 unsigned Op1, bool Op1IsKill);
Juergen Ributzka0e0b4c12014-08-21 23:06:07 +0000211 unsigned emitLSL_rr(MVT RetVT, unsigned Op0Reg, bool Op0IsKill,
212 unsigned Op1Reg, bool Op1IsKill);
Juergen Ributzka99dd30f2014-08-27 00:58:26 +0000213 unsigned emitLSL_ri(MVT RetVT, MVT SrcVT, unsigned Op0Reg, bool Op0IsKill,
214 uint64_t Imm, bool IsZExt = true);
Juergen Ributzka0e0b4c12014-08-21 23:06:07 +0000215 unsigned emitLSR_rr(MVT RetVT, unsigned Op0Reg, bool Op0IsKill,
216 unsigned Op1Reg, bool Op1IsKill);
Juergen Ributzka99dd30f2014-08-27 00:58:26 +0000217 unsigned emitLSR_ri(MVT RetVT, MVT SrcVT, unsigned Op0Reg, bool Op0IsKill,
218 uint64_t Imm, bool IsZExt = true);
Juergen Ributzka0e0b4c12014-08-21 23:06:07 +0000219 unsigned emitASR_rr(MVT RetVT, unsigned Op0Reg, bool Op0IsKill,
220 unsigned Op1Reg, bool Op1IsKill);
Juergen Ributzka99dd30f2014-08-27 00:58:26 +0000221 unsigned emitASR_ri(MVT RetVT, MVT SrcVT, unsigned Op0Reg, bool Op0IsKill,
222 uint64_t Imm, bool IsZExt = false);
Tim Northover3b0846e2014-05-24 12:50:23 +0000223
Juergen Ributzkab9e49c72014-09-15 23:20:17 +0000224 unsigned materializeInt(const ConstantInt *CI, MVT VT);
225 unsigned materializeFP(const ConstantFP *CFP, MVT VT);
226 unsigned materializeGV(const GlobalValue *GV);
Tim Northover3b0846e2014-05-24 12:50:23 +0000227
228 // Call handling routines.
229private:
230 CCAssignFn *CCAssignFnForCall(CallingConv::ID CC) const;
Juergen Ributzkab9e49c72014-09-15 23:20:17 +0000231 bool processCallArgs(CallLoweringInfo &CLI, SmallVectorImpl<MVT> &ArgVTs,
Tim Northover3b0846e2014-05-24 12:50:23 +0000232 unsigned &NumBytes);
Juergen Ributzkab9e49c72014-09-15 23:20:17 +0000233 bool finishCall(CallLoweringInfo &CLI, MVT RetVT, unsigned NumBytes);
Tim Northover3b0846e2014-05-24 12:50:23 +0000234
235public:
236 // Backend specific FastISel code.
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +0000237 unsigned fastMaterializeAlloca(const AllocaInst *AI) override;
238 unsigned fastMaterializeConstant(const Constant *C) override;
239 unsigned fastMaterializeFloatZero(const ConstantFP* CF) override;
Tim Northover3b0846e2014-05-24 12:50:23 +0000240
Juergen Ributzkadbe9e172014-09-02 21:32:54 +0000241 explicit AArch64FastISel(FunctionLoweringInfo &FuncInfo,
242 const TargetLibraryInfo *LibInfo)
243 : FastISel(FuncInfo, LibInfo, /*SkipTargetIndependentISel=*/true) {
Tim Northover3b0846e2014-05-24 12:50:23 +0000244 Subtarget = &TM.getSubtarget<AArch64Subtarget>();
Juergen Ributzkadbe9e172014-09-02 21:32:54 +0000245 Context = &FuncInfo.Fn->getContext();
Tim Northover3b0846e2014-05-24 12:50:23 +0000246 }
247
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +0000248 bool fastSelectInstruction(const Instruction *I) override;
Tim Northover3b0846e2014-05-24 12:50:23 +0000249
250#include "AArch64GenFastISel.inc"
251};
252
253} // end anonymous namespace
254
255#include "AArch64GenCallingConv.inc"
256
257CCAssignFn *AArch64FastISel::CCAssignFnForCall(CallingConv::ID CC) const {
258 if (CC == CallingConv::WebKit_JS)
259 return CC_AArch64_WebKit_JS;
260 return Subtarget->isTargetDarwin() ? CC_AArch64_DarwinPCS : CC_AArch64_AAPCS;
261}
262
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +0000263unsigned AArch64FastISel::fastMaterializeAlloca(const AllocaInst *AI) {
Tim Northover3b0846e2014-05-24 12:50:23 +0000264 assert(TLI.getValueType(AI->getType(), true) == MVT::i64 &&
265 "Alloca should always return a pointer.");
266
267 // Don't handle dynamic allocas.
268 if (!FuncInfo.StaticAllocaMap.count(AI))
269 return 0;
270
271 DenseMap<const AllocaInst *, int>::iterator SI =
272 FuncInfo.StaticAllocaMap.find(AI);
273
274 if (SI != FuncInfo.StaticAllocaMap.end()) {
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +0000275 unsigned ResultReg = createResultReg(&AArch64::GPR64spRegClass);
Tim Northover3b0846e2014-05-24 12:50:23 +0000276 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(AArch64::ADDXri),
277 ResultReg)
278 .addFrameIndex(SI->second)
279 .addImm(0)
280 .addImm(0);
281 return ResultReg;
282 }
283
284 return 0;
285}
286
Juergen Ributzkab9e49c72014-09-15 23:20:17 +0000287unsigned AArch64FastISel::materializeInt(const ConstantInt *CI, MVT VT) {
Juergen Ributzka6bca9862014-08-15 18:55:52 +0000288 if (VT > MVT::i64)
289 return 0;
Juergen Ributzka7e23f772014-08-19 19:44:02 +0000290
291 if (!CI->isZero())
Juergen Ributzka88e32512014-09-03 20:56:59 +0000292 return fastEmit_i(VT, VT, ISD::Constant, CI->getZExtValue());
Juergen Ributzka7e23f772014-08-19 19:44:02 +0000293
294 // Create a copy from the zero register to materialize a "0" value.
295 const TargetRegisterClass *RC = (VT == MVT::i64) ? &AArch64::GPR64RegClass
296 : &AArch64::GPR32RegClass;
297 unsigned ZeroReg = (VT == MVT::i64) ? AArch64::XZR : AArch64::WZR;
298 unsigned ResultReg = createResultReg(RC);
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +0000299 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(TargetOpcode::COPY),
300 ResultReg).addReg(ZeroReg, getKillRegState(true));
Juergen Ributzka7e23f772014-08-19 19:44:02 +0000301 return ResultReg;
Juergen Ributzka6bca9862014-08-15 18:55:52 +0000302}
303
Juergen Ributzkab9e49c72014-09-15 23:20:17 +0000304unsigned AArch64FastISel::materializeFP(const ConstantFP *CFP, MVT VT) {
Juergen Ributzka1912e242014-08-25 19:58:05 +0000305 // Positive zero (+0.0) has to be materialized with a fmov from the zero
306 // register, because the immediate version of fmov cannot encode zero.
307 if (CFP->isNullValue())
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +0000308 return fastMaterializeFloatZero(CFP);
Juergen Ributzka1912e242014-08-25 19:58:05 +0000309
Tim Northover3b0846e2014-05-24 12:50:23 +0000310 if (VT != MVT::f32 && VT != MVT::f64)
311 return 0;
312
313 const APFloat Val = CFP->getValueAPF();
Juergen Ributzka6bca9862014-08-15 18:55:52 +0000314 bool Is64Bit = (VT == MVT::f64);
Tim Northover3b0846e2014-05-24 12:50:23 +0000315 // This checks to see if we can use FMOV instructions to materialize
316 // a constant, otherwise we have to materialize via the constant pool.
317 if (TLI.isFPImmLegal(Val, VT)) {
Juergen Ributzka1912e242014-08-25 19:58:05 +0000318 int Imm =
319 Is64Bit ? AArch64_AM::getFP64Imm(Val) : AArch64_AM::getFP32Imm(Val);
320 assert((Imm != -1) && "Cannot encode floating-point constant.");
Juergen Ributzka6bca9862014-08-15 18:55:52 +0000321 unsigned Opc = Is64Bit ? AArch64::FMOVDi : AArch64::FMOVSi;
Juergen Ributzka88e32512014-09-03 20:56:59 +0000322 return fastEmitInst_i(Opc, TLI.getRegClassFor(VT), Imm);
Tim Northover3b0846e2014-05-24 12:50:23 +0000323 }
324
325 // Materialize via constant pool. MachineConstantPool wants an explicit
326 // alignment.
327 unsigned Align = DL.getPrefTypeAlignment(CFP->getType());
328 if (Align == 0)
329 Align = DL.getTypeAllocSize(CFP->getType());
330
Juergen Ributzka6bca9862014-08-15 18:55:52 +0000331 unsigned CPI = MCP.getConstantPoolIndex(cast<Constant>(CFP), Align);
Tim Northover3b0846e2014-05-24 12:50:23 +0000332 unsigned ADRPReg = createResultReg(&AArch64::GPR64commonRegClass);
333 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(AArch64::ADRP),
Juergen Ributzka1912e242014-08-25 19:58:05 +0000334 ADRPReg).addConstantPoolIndex(CPI, 0, AArch64II::MO_PAGE);
Tim Northover3b0846e2014-05-24 12:50:23 +0000335
Juergen Ributzka6bca9862014-08-15 18:55:52 +0000336 unsigned Opc = Is64Bit ? AArch64::LDRDui : AArch64::LDRSui;
Tim Northover3b0846e2014-05-24 12:50:23 +0000337 unsigned ResultReg = createResultReg(TLI.getRegClassFor(VT));
338 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(Opc), ResultReg)
Juergen Ributzka1912e242014-08-25 19:58:05 +0000339 .addReg(ADRPReg)
340 .addConstantPoolIndex(CPI, 0, AArch64II::MO_PAGEOFF | AArch64II::MO_NC);
Tim Northover3b0846e2014-05-24 12:50:23 +0000341 return ResultReg;
342}
343
Juergen Ributzkab9e49c72014-09-15 23:20:17 +0000344unsigned AArch64FastISel::materializeGV(const GlobalValue *GV) {
Rafael Espindola59f7eba2014-05-28 18:15:43 +0000345 // We can't handle thread-local variables quickly yet.
346 if (GV->isThreadLocal())
347 return 0;
Tim Northover3b0846e2014-05-24 12:50:23 +0000348
Tim Northover391f93a2014-05-24 19:45:41 +0000349 // MachO still uses GOT for large code-model accesses, but ELF requires
350 // movz/movk sequences, which FastISel doesn't handle yet.
351 if (TM.getCodeModel() != CodeModel::Small && !Subtarget->isTargetMachO())
352 return 0;
353
Tim Northover3b0846e2014-05-24 12:50:23 +0000354 unsigned char OpFlags = Subtarget->ClassifyGlobalReference(GV, TM);
355
356 EVT DestEVT = TLI.getValueType(GV->getType(), true);
357 if (!DestEVT.isSimple())
358 return 0;
359
360 unsigned ADRPReg = createResultReg(&AArch64::GPR64commonRegClass);
361 unsigned ResultReg;
362
363 if (OpFlags & AArch64II::MO_GOT) {
364 // ADRP + LDRX
365 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(AArch64::ADRP),
366 ADRPReg)
Juergen Ributzka6bca9862014-08-15 18:55:52 +0000367 .addGlobalAddress(GV, 0, AArch64II::MO_GOT | AArch64II::MO_PAGE);
Tim Northover3b0846e2014-05-24 12:50:23 +0000368
369 ResultReg = createResultReg(&AArch64::GPR64RegClass);
370 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(AArch64::LDRXui),
371 ResultReg)
Juergen Ributzka6bca9862014-08-15 18:55:52 +0000372 .addReg(ADRPReg)
373 .addGlobalAddress(GV, 0, AArch64II::MO_GOT | AArch64II::MO_PAGEOFF |
374 AArch64II::MO_NC);
Asiri Rathnayake369c0302014-09-10 13:54:38 +0000375 } else if (OpFlags & AArch64II::MO_CONSTPOOL) {
376 // We can't handle addresses loaded from a constant pool quickly yet.
377 return 0;
Tim Northover3b0846e2014-05-24 12:50:23 +0000378 } else {
379 // ADRP + ADDX
380 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(AArch64::ADRP),
Juergen Ributzka6bca9862014-08-15 18:55:52 +0000381 ADRPReg)
382 .addGlobalAddress(GV, 0, AArch64II::MO_PAGE);
Tim Northover3b0846e2014-05-24 12:50:23 +0000383
384 ResultReg = createResultReg(&AArch64::GPR64spRegClass);
385 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(AArch64::ADDXri),
386 ResultReg)
Juergen Ributzka6bca9862014-08-15 18:55:52 +0000387 .addReg(ADRPReg)
388 .addGlobalAddress(GV, 0, AArch64II::MO_PAGEOFF | AArch64II::MO_NC)
389 .addImm(0);
Tim Northover3b0846e2014-05-24 12:50:23 +0000390 }
391 return ResultReg;
392}
393
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +0000394unsigned AArch64FastISel::fastMaterializeConstant(const Constant *C) {
Tim Northover3b0846e2014-05-24 12:50:23 +0000395 EVT CEVT = TLI.getValueType(C->getType(), true);
396
397 // Only handle simple types.
398 if (!CEVT.isSimple())
399 return 0;
400 MVT VT = CEVT.getSimpleVT();
401
Juergen Ributzka6bca9862014-08-15 18:55:52 +0000402 if (const auto *CI = dyn_cast<ConstantInt>(C))
Juergen Ributzkab9e49c72014-09-15 23:20:17 +0000403 return materializeInt(CI, VT);
Juergen Ributzka6bca9862014-08-15 18:55:52 +0000404 else if (const ConstantFP *CFP = dyn_cast<ConstantFP>(C))
Juergen Ributzkab9e49c72014-09-15 23:20:17 +0000405 return materializeFP(CFP, VT);
Tim Northover3b0846e2014-05-24 12:50:23 +0000406 else if (const GlobalValue *GV = dyn_cast<GlobalValue>(C))
Juergen Ributzkab9e49c72014-09-15 23:20:17 +0000407 return materializeGV(GV);
Tim Northover3b0846e2014-05-24 12:50:23 +0000408
409 return 0;
410}
411
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +0000412unsigned AArch64FastISel::fastMaterializeFloatZero(const ConstantFP* CFP) {
Juergen Ributzka1912e242014-08-25 19:58:05 +0000413 assert(CFP->isNullValue() &&
414 "Floating-point constant is not a positive zero.");
415 MVT VT;
416 if (!isTypeLegal(CFP->getType(), VT))
417 return 0;
418
419 if (VT != MVT::f32 && VT != MVT::f64)
420 return 0;
421
422 bool Is64Bit = (VT == MVT::f64);
423 unsigned ZReg = Is64Bit ? AArch64::XZR : AArch64::WZR;
424 unsigned Opc = Is64Bit ? AArch64::FMOVXDr : AArch64::FMOVWSr;
Juergen Ributzka88e32512014-09-03 20:56:59 +0000425 return fastEmitInst_r(Opc, TLI.getRegClassFor(VT), ZReg, /*IsKill=*/true);
Juergen Ributzka1912e242014-08-25 19:58:05 +0000426}
427
Juergen Ributzka22d4cd02014-09-17 19:19:31 +0000428/// \brief Check if the multiply is by a power-of-2 constant.
429static bool isMulPowOf2(const Value *I) {
430 if (const auto *MI = dyn_cast<MulOperator>(I)) {
431 if (const auto *C = dyn_cast<ConstantInt>(MI->getOperand(0)))
432 if (C->getValue().isPowerOf2())
433 return true;
434 if (const auto *C = dyn_cast<ConstantInt>(MI->getOperand(1)))
435 if (C->getValue().isPowerOf2())
436 return true;
437 }
438 return false;
439}
440
Tim Northover3b0846e2014-05-24 12:50:23 +0000441// Computes the address to get to an object.
Juergen Ributzkab9e49c72014-09-15 23:20:17 +0000442bool AArch64FastISel::computeAddress(const Value *Obj, Address &Addr, Type *Ty)
Juergen Ributzka843f14f2014-08-27 23:09:40 +0000443{
Tim Northover3b0846e2014-05-24 12:50:23 +0000444 const User *U = nullptr;
445 unsigned Opcode = Instruction::UserOp1;
446 if (const Instruction *I = dyn_cast<Instruction>(Obj)) {
447 // Don't walk into other basic blocks unless the object is an alloca from
448 // another block, otherwise it may not have a virtual register assigned.
449 if (FuncInfo.StaticAllocaMap.count(static_cast<const AllocaInst *>(Obj)) ||
450 FuncInfo.MBBMap[I->getParent()] == FuncInfo.MBB) {
451 Opcode = I->getOpcode();
452 U = I;
453 }
454 } else if (const ConstantExpr *C = dyn_cast<ConstantExpr>(Obj)) {
455 Opcode = C->getOpcode();
456 U = C;
457 }
458
459 if (const PointerType *Ty = dyn_cast<PointerType>(Obj->getType()))
460 if (Ty->getAddressSpace() > 255)
461 // Fast instruction selection doesn't support the special
462 // address spaces.
463 return false;
464
465 switch (Opcode) {
466 default:
467 break;
468 case Instruction::BitCast: {
469 // Look through bitcasts.
Juergen Ributzkab9e49c72014-09-15 23:20:17 +0000470 return computeAddress(U->getOperand(0), Addr, Ty);
Tim Northover3b0846e2014-05-24 12:50:23 +0000471 }
472 case Instruction::IntToPtr: {
473 // Look past no-op inttoptrs.
474 if (TLI.getValueType(U->getOperand(0)->getType()) == TLI.getPointerTy())
Juergen Ributzkab9e49c72014-09-15 23:20:17 +0000475 return computeAddress(U->getOperand(0), Addr, Ty);
Tim Northover3b0846e2014-05-24 12:50:23 +0000476 break;
477 }
478 case Instruction::PtrToInt: {
Juergen Ributzka843f14f2014-08-27 23:09:40 +0000479 // Look past no-op ptrtoints.
Tim Northover3b0846e2014-05-24 12:50:23 +0000480 if (TLI.getValueType(U->getType()) == TLI.getPointerTy())
Juergen Ributzkab9e49c72014-09-15 23:20:17 +0000481 return computeAddress(U->getOperand(0), Addr, Ty);
Tim Northover3b0846e2014-05-24 12:50:23 +0000482 break;
483 }
484 case Instruction::GetElementPtr: {
485 Address SavedAddr = Addr;
486 uint64_t TmpOffset = Addr.getOffset();
487
488 // Iterate through the GEP folding the constants into offsets where
489 // we can.
490 gep_type_iterator GTI = gep_type_begin(U);
491 for (User::const_op_iterator i = U->op_begin() + 1, e = U->op_end(); i != e;
492 ++i, ++GTI) {
493 const Value *Op = *i;
494 if (StructType *STy = dyn_cast<StructType>(*GTI)) {
495 const StructLayout *SL = DL.getStructLayout(STy);
496 unsigned Idx = cast<ConstantInt>(Op)->getZExtValue();
497 TmpOffset += SL->getElementOffset(Idx);
498 } else {
499 uint64_t S = DL.getTypeAllocSize(GTI.getIndexedType());
500 for (;;) {
501 if (const ConstantInt *CI = dyn_cast<ConstantInt>(Op)) {
502 // Constant-offset addressing.
503 TmpOffset += CI->getSExtValue() * S;
504 break;
505 }
506 if (canFoldAddIntoGEP(U, Op)) {
507 // A compatible add with a constant operand. Fold the constant.
508 ConstantInt *CI =
509 cast<ConstantInt>(cast<AddOperator>(Op)->getOperand(1));
510 TmpOffset += CI->getSExtValue() * S;
511 // Iterate on the other operand.
512 Op = cast<AddOperator>(Op)->getOperand(0);
513 continue;
514 }
515 // Unsupported
516 goto unsupported_gep;
517 }
518 }
519 }
520
521 // Try to grab the base operand now.
522 Addr.setOffset(TmpOffset);
Juergen Ributzkab9e49c72014-09-15 23:20:17 +0000523 if (computeAddress(U->getOperand(0), Addr, Ty))
Tim Northover3b0846e2014-05-24 12:50:23 +0000524 return true;
525
526 // We failed, restore everything and try the other options.
527 Addr = SavedAddr;
528
529 unsupported_gep:
530 break;
531 }
532 case Instruction::Alloca: {
533 const AllocaInst *AI = cast<AllocaInst>(Obj);
534 DenseMap<const AllocaInst *, int>::iterator SI =
535 FuncInfo.StaticAllocaMap.find(AI);
536 if (SI != FuncInfo.StaticAllocaMap.end()) {
537 Addr.setKind(Address::FrameIndexBase);
538 Addr.setFI(SI->second);
539 return true;
540 }
541 break;
542 }
Juergen Ributzkab46ea082014-08-19 19:44:17 +0000543 case Instruction::Add: {
Juergen Ributzka5dcb33b2014-08-01 19:40:16 +0000544 // Adds of constants are common and easy enough.
Juergen Ributzkab46ea082014-08-19 19:44:17 +0000545 const Value *LHS = U->getOperand(0);
546 const Value *RHS = U->getOperand(1);
547
548 if (isa<ConstantInt>(LHS))
549 std::swap(LHS, RHS);
550
551 if (const ConstantInt *CI = dyn_cast<ConstantInt>(RHS)) {
Juergen Ributzka5dcb33b2014-08-01 19:40:16 +0000552 Addr.setOffset(Addr.getOffset() + (uint64_t)CI->getSExtValue());
Juergen Ributzkab9e49c72014-09-15 23:20:17 +0000553 return computeAddress(LHS, Addr, Ty);
Juergen Ributzkab46ea082014-08-19 19:44:17 +0000554 }
555
556 Address Backup = Addr;
Juergen Ributzkab9e49c72014-09-15 23:20:17 +0000557 if (computeAddress(LHS, Addr, Ty) && computeAddress(RHS, Addr, Ty))
Juergen Ributzkab46ea082014-08-19 19:44:17 +0000558 return true;
559 Addr = Backup;
560
561 break;
562 }
563 case Instruction::Shl:
564 if (Addr.getOffsetReg())
565 break;
566
567 if (const auto *CI = dyn_cast<ConstantInt>(U->getOperand(1))) {
568 unsigned Val = CI->getZExtValue();
569 if (Val < 1 || Val > 3)
570 break;
571
572 uint64_t NumBytes = 0;
573 if (Ty && Ty->isSized()) {
574 uint64_t NumBits = DL.getTypeSizeInBits(Ty);
575 NumBytes = NumBits / 8;
576 if (!isPowerOf2_64(NumBits))
577 NumBytes = 0;
578 }
579
Aaron Ballmanbf6ee222014-08-20 12:14:35 +0000580 if (NumBytes != (1ULL << Val))
Juergen Ributzkab46ea082014-08-19 19:44:17 +0000581 break;
582
583 Addr.setShift(Val);
584 Addr.setExtendType(AArch64_AM::LSL);
585
586 if (const auto *I = dyn_cast<Instruction>(U->getOperand(0)))
Juergen Ributzka843f14f2014-08-27 23:09:40 +0000587 if (FuncInfo.MBBMap[I->getParent()] == FuncInfo.MBB)
Juergen Ributzkab46ea082014-08-19 19:44:17 +0000588 U = I;
589
590 if (const auto *ZE = dyn_cast<ZExtInst>(U))
591 if (ZE->getOperand(0)->getType()->isIntegerTy(32))
592 Addr.setExtendType(AArch64_AM::UXTW);
593
594 if (const auto *SE = dyn_cast<SExtInst>(U))
595 if (SE->getOperand(0)->getType()->isIntegerTy(32))
596 Addr.setExtendType(AArch64_AM::SXTW);
597
598 unsigned Reg = getRegForValue(U->getOperand(0));
599 if (!Reg)
600 return false;
601 Addr.setOffsetReg(Reg);
602 return true;
Juergen Ributzka5dcb33b2014-08-01 19:40:16 +0000603 }
604 break;
Juergen Ributzka22d4cd02014-09-17 19:19:31 +0000605 case Instruction::Mul: {
606 if (Addr.getOffsetReg())
607 break;
608
609 if (!isMulPowOf2(U))
610 break;
611
612 const Value *LHS = U->getOperand(0);
613 const Value *RHS = U->getOperand(1);
614
615 // Canonicalize power-of-2 value to the RHS.
616 if (const auto *C = dyn_cast<ConstantInt>(LHS))
617 if (C->getValue().isPowerOf2())
618 std::swap(LHS, RHS);
619
620 assert(isa<ConstantInt>(RHS) && "Expected an ConstantInt.");
621 const auto *C = cast<ConstantInt>(RHS);
622 unsigned Val = C->getValue().logBase2();
623 if (Val < 1 || Val > 3)
624 break;
625
626 uint64_t NumBytes = 0;
627 if (Ty && Ty->isSized()) {
628 uint64_t NumBits = DL.getTypeSizeInBits(Ty);
629 NumBytes = NumBits / 8;
630 if (!isPowerOf2_64(NumBits))
631 NumBytes = 0;
632 }
633
634 if (NumBytes != (1ULL << Val))
635 break;
636
637 Addr.setShift(Val);
638 Addr.setExtendType(AArch64_AM::LSL);
639
640 if (const auto *I = dyn_cast<Instruction>(LHS))
641 if (FuncInfo.MBBMap[I->getParent()] == FuncInfo.MBB)
642 U = I;
643
644 if (const auto *ZE = dyn_cast<ZExtInst>(U))
645 if (ZE->getOperand(0)->getType()->isIntegerTy(32)) {
646 Addr.setExtendType(AArch64_AM::UXTW);
647 LHS = U->getOperand(0);
648 }
649
650 if (const auto *SE = dyn_cast<SExtInst>(U))
651 if (SE->getOperand(0)->getType()->isIntegerTy(32)) {
652 Addr.setExtendType(AArch64_AM::SXTW);
653 LHS = U->getOperand(0);
654 }
655
656 unsigned Reg = getRegForValue(LHS);
657 if (!Reg)
658 return false;
659 Addr.setOffsetReg(Reg);
660 return true;
Tim Northover3b0846e2014-05-24 12:50:23 +0000661 }
Juergen Ributzka22d4cd02014-09-17 19:19:31 +0000662 } // end switch
Tim Northover3b0846e2014-05-24 12:50:23 +0000663
Juergen Ributzkab46ea082014-08-19 19:44:17 +0000664 if (Addr.getReg()) {
665 if (!Addr.getOffsetReg()) {
666 unsigned Reg = getRegForValue(Obj);
667 if (!Reg)
668 return false;
669 Addr.setOffsetReg(Reg);
670 return true;
671 }
672 return false;
673 }
674
675 unsigned Reg = getRegForValue(Obj);
676 if (!Reg)
677 return false;
678 Addr.setReg(Reg);
679 return true;
Tim Northover3b0846e2014-05-24 12:50:23 +0000680}
681
Juergen Ributzkab9e49c72014-09-15 23:20:17 +0000682bool AArch64FastISel::computeCallAddress(const Value *V, Address &Addr) {
Juergen Ributzka052e6c22014-07-31 04:10:40 +0000683 const User *U = nullptr;
684 unsigned Opcode = Instruction::UserOp1;
685 bool InMBB = true;
686
687 if (const auto *I = dyn_cast<Instruction>(V)) {
688 Opcode = I->getOpcode();
689 U = I;
690 InMBB = I->getParent() == FuncInfo.MBB->getBasicBlock();
691 } else if (const auto *C = dyn_cast<ConstantExpr>(V)) {
692 Opcode = C->getOpcode();
693 U = C;
694 }
695
696 switch (Opcode) {
697 default: break;
698 case Instruction::BitCast:
699 // Look past bitcasts if its operand is in the same BB.
700 if (InMBB)
Juergen Ributzkab9e49c72014-09-15 23:20:17 +0000701 return computeCallAddress(U->getOperand(0), Addr);
Juergen Ributzka052e6c22014-07-31 04:10:40 +0000702 break;
703 case Instruction::IntToPtr:
704 // Look past no-op inttoptrs if its operand is in the same BB.
705 if (InMBB &&
706 TLI.getValueType(U->getOperand(0)->getType()) == TLI.getPointerTy())
Juergen Ributzkab9e49c72014-09-15 23:20:17 +0000707 return computeCallAddress(U->getOperand(0), Addr);
Juergen Ributzka052e6c22014-07-31 04:10:40 +0000708 break;
709 case Instruction::PtrToInt:
710 // Look past no-op ptrtoints if its operand is in the same BB.
711 if (InMBB &&
712 TLI.getValueType(U->getType()) == TLI.getPointerTy())
Juergen Ributzkab9e49c72014-09-15 23:20:17 +0000713 return computeCallAddress(U->getOperand(0), Addr);
Juergen Ributzka052e6c22014-07-31 04:10:40 +0000714 break;
715 }
716
717 if (const GlobalValue *GV = dyn_cast<GlobalValue>(V)) {
718 Addr.setGlobalValue(GV);
719 return true;
720 }
721
722 // If all else fails, try to materialize the value in a register.
723 if (!Addr.getGlobalValue()) {
724 Addr.setReg(getRegForValue(V));
725 return Addr.getReg() != 0;
726 }
727
728 return false;
729}
730
731
Tim Northover3b0846e2014-05-24 12:50:23 +0000732bool AArch64FastISel::isTypeLegal(Type *Ty, MVT &VT) {
733 EVT evt = TLI.getValueType(Ty, true);
734
735 // Only handle simple types.
736 if (evt == MVT::Other || !evt.isSimple())
737 return false;
738 VT = evt.getSimpleVT();
739
740 // This is a legal type, but it's not something we handle in fast-isel.
741 if (VT == MVT::f128)
742 return false;
743
744 // Handle all other legal types, i.e. a register that will directly hold this
745 // value.
746 return TLI.isTypeLegal(VT);
747}
748
Juergen Ributzka8a4b8be2014-09-02 22:33:53 +0000749/// \brief Determine if the value type is supported by FastISel.
750///
751/// FastISel for AArch64 can handle more value types than are legal. This adds
752/// simple value type such as i1, i8, and i16.
Juergen Ributzka6127b192014-09-15 21:27:54 +0000753bool AArch64FastISel::isTypeSupported(Type *Ty, MVT &VT, bool IsVectorAllowed) {
754 if (Ty->isVectorTy() && !IsVectorAllowed)
Juergen Ributzka8a4b8be2014-09-02 22:33:53 +0000755 return false;
756
757 if (isTypeLegal(Ty, VT))
758 return true;
759
760 // If this is a type than can be sign or zero-extended to a basic operation
761 // go ahead and accept it now.
762 if (VT == MVT::i1 || VT == MVT::i8 || VT == MVT::i16)
763 return true;
764
765 return false;
766}
767
Juergen Ributzka77bc09f2014-08-29 00:19:21 +0000768bool AArch64FastISel::isValueAvailable(const Value *V) const {
769 if (!isa<Instruction>(V))
770 return true;
771
772 const auto *I = cast<Instruction>(V);
773 if (FuncInfo.MBBMap[I->getParent()] == FuncInfo.MBB)
774 return true;
775
776 return false;
777}
778
Juergen Ributzkab9e49c72014-09-15 23:20:17 +0000779bool AArch64FastISel::simplifyAddress(Address &Addr, MVT VT) {
Juergen Ributzkab46ea082014-08-19 19:44:17 +0000780 unsigned ScaleFactor;
Tim Northover3b0846e2014-05-24 12:50:23 +0000781 switch (VT.SimpleTy) {
Juergen Ributzkab46ea082014-08-19 19:44:17 +0000782 default: return false;
783 case MVT::i1: // fall-through
784 case MVT::i8: ScaleFactor = 1; break;
785 case MVT::i16: ScaleFactor = 2; break;
786 case MVT::i32: // fall-through
787 case MVT::f32: ScaleFactor = 4; break;
788 case MVT::i64: // fall-through
789 case MVT::f64: ScaleFactor = 8; break;
Tim Northover3b0846e2014-05-24 12:50:23 +0000790 }
791
Juergen Ributzkab46ea082014-08-19 19:44:17 +0000792 bool ImmediateOffsetNeedsLowering = false;
793 bool RegisterOffsetNeedsLowering = false;
794 int64_t Offset = Addr.getOffset();
795 if (((Offset < 0) || (Offset & (ScaleFactor - 1))) && !isInt<9>(Offset))
796 ImmediateOffsetNeedsLowering = true;
797 else if (Offset > 0 && !(Offset & (ScaleFactor - 1)) &&
798 !isUInt<12>(Offset / ScaleFactor))
799 ImmediateOffsetNeedsLowering = true;
800
801 // Cannot encode an offset register and an immediate offset in the same
802 // instruction. Fold the immediate offset into the load/store instruction and
803 // emit an additonal add to take care of the offset register.
804 if (!ImmediateOffsetNeedsLowering && Addr.getOffset() && Addr.isRegBase() &&
805 Addr.getOffsetReg())
806 RegisterOffsetNeedsLowering = true;
807
Juergen Ributzka3c1b2862014-08-27 21:38:33 +0000808 // Cannot encode zero register as base.
809 if (Addr.isRegBase() && Addr.getOffsetReg() && !Addr.getReg())
810 RegisterOffsetNeedsLowering = true;
811
Juergen Ributzkab46ea082014-08-19 19:44:17 +0000812 // If this is a stack pointer and the offset needs to be simplified then put
Tim Northoverc141ad42014-06-10 09:52:44 +0000813 // the alloca address into a register, set the base type back to register and
814 // continue. This should almost never happen.
Juergen Ributzkab46ea082014-08-19 19:44:17 +0000815 if (ImmediateOffsetNeedsLowering && Addr.isFIBase()) {
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +0000816 unsigned ResultReg = createResultReg(&AArch64::GPR64spRegClass);
Tim Northoverc141ad42014-06-10 09:52:44 +0000817 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(AArch64::ADDXri),
818 ResultReg)
Juergen Ributzkab46ea082014-08-19 19:44:17 +0000819 .addFrameIndex(Addr.getFI())
820 .addImm(0)
821 .addImm(0);
Tim Northoverc141ad42014-06-10 09:52:44 +0000822 Addr.setKind(Address::RegBase);
823 Addr.setReg(ResultReg);
Tim Northover3b0846e2014-05-24 12:50:23 +0000824 }
825
Juergen Ributzkab46ea082014-08-19 19:44:17 +0000826 if (RegisterOffsetNeedsLowering) {
827 unsigned ResultReg = 0;
Juergen Ributzkafb506a42014-08-27 00:58:30 +0000828 if (Addr.getReg()) {
829 if (Addr.getExtendType() == AArch64_AM::SXTW ||
830 Addr.getExtendType() == AArch64_AM::UXTW )
831 ResultReg = emitAddSub_rx(/*UseAdd=*/true, MVT::i64, Addr.getReg(),
832 /*TODO:IsKill=*/false, Addr.getOffsetReg(),
833 /*TODO:IsKill=*/false, Addr.getExtendType(),
834 Addr.getShift());
835 else
836 ResultReg = emitAddSub_rs(/*UseAdd=*/true, MVT::i64, Addr.getReg(),
837 /*TODO:IsKill=*/false, Addr.getOffsetReg(),
838 /*TODO:IsKill=*/false, AArch64_AM::LSL,
839 Addr.getShift());
840 } else {
841 if (Addr.getExtendType() == AArch64_AM::UXTW)
842 ResultReg = emitLSL_ri(MVT::i64, MVT::i32, Addr.getOffsetReg(),
843 /*Op0IsKill=*/false, Addr.getShift(),
844 /*IsZExt=*/true);
845 else if (Addr.getExtendType() == AArch64_AM::SXTW)
846 ResultReg = emitLSL_ri(MVT::i64, MVT::i32, Addr.getOffsetReg(),
847 /*Op0IsKill=*/false, Addr.getShift(),
848 /*IsZExt=*/false);
849 else
850 ResultReg = emitLSL_ri(MVT::i64, MVT::i64, Addr.getOffsetReg(),
851 /*Op0IsKill=*/false, Addr.getShift());
852 }
Juergen Ributzkab46ea082014-08-19 19:44:17 +0000853 if (!ResultReg)
854 return false;
855
856 Addr.setReg(ResultReg);
857 Addr.setOffsetReg(0);
858 Addr.setShift(0);
Juergen Ributzkafb506a42014-08-27 00:58:30 +0000859 Addr.setExtendType(AArch64_AM::InvalidShiftExtend);
Juergen Ributzkab46ea082014-08-19 19:44:17 +0000860 }
861
Tim Northover3b0846e2014-05-24 12:50:23 +0000862 // Since the offset is too large for the load/store instruction get the
863 // reg+offset into a register.
Juergen Ributzkab46ea082014-08-19 19:44:17 +0000864 if (ImmediateOffsetNeedsLowering) {
865 unsigned ResultReg = 0;
866 if (Addr.getReg())
Juergen Ributzka88e32512014-09-03 20:56:59 +0000867 ResultReg = fastEmit_ri_(MVT::i64, ISD::ADD, Addr.getReg(),
Juergen Ributzkab46ea082014-08-19 19:44:17 +0000868 /*IsKill=*/false, Offset, MVT::i64);
869 else
Juergen Ributzka88e32512014-09-03 20:56:59 +0000870 ResultReg = fastEmit_i(MVT::i64, MVT::i64, ISD::Constant, Offset);
Juergen Ributzkab46ea082014-08-19 19:44:17 +0000871
872 if (!ResultReg)
Tim Northover3b0846e2014-05-24 12:50:23 +0000873 return false;
874 Addr.setReg(ResultReg);
875 Addr.setOffset(0);
876 }
877 return true;
878}
879
Juergen Ributzkab9e49c72014-09-15 23:20:17 +0000880void AArch64FastISel::addLoadStoreOperands(Address &Addr,
Tim Northover3b0846e2014-05-24 12:50:23 +0000881 const MachineInstrBuilder &MIB,
Juergen Ributzka241fd482014-08-08 17:24:10 +0000882 unsigned Flags,
Juergen Ributzkab46ea082014-08-19 19:44:17 +0000883 unsigned ScaleFactor,
884 MachineMemOperand *MMO) {
885 int64_t Offset = Addr.getOffset() / ScaleFactor;
Tim Northover3b0846e2014-05-24 12:50:23 +0000886 // Frame base works a bit differently. Handle it separately.
Juergen Ributzkab46ea082014-08-19 19:44:17 +0000887 if (Addr.isFIBase()) {
Tim Northover3b0846e2014-05-24 12:50:23 +0000888 int FI = Addr.getFI();
889 // FIXME: We shouldn't be using getObjectSize/getObjectAlignment. The size
890 // and alignment should be based on the VT.
Juergen Ributzka241fd482014-08-08 17:24:10 +0000891 MMO = FuncInfo.MF->getMachineMemOperand(
892 MachinePointerInfo::getFixedStack(FI, Offset), Flags,
893 MFI.getObjectSize(FI), MFI.getObjectAlignment(FI));
Tim Northover3b0846e2014-05-24 12:50:23 +0000894 // Now add the rest of the operands.
Juergen Ributzka241fd482014-08-08 17:24:10 +0000895 MIB.addFrameIndex(FI).addImm(Offset);
Tim Northover3b0846e2014-05-24 12:50:23 +0000896 } else {
Juergen Ributzkab46ea082014-08-19 19:44:17 +0000897 assert(Addr.isRegBase() && "Unexpected address kind.");
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +0000898 const MCInstrDesc &II = MIB->getDesc();
899 unsigned Idx = (Flags & MachineMemOperand::MOStore) ? 1 : 0;
900 Addr.setReg(
901 constrainOperandRegClass(II, Addr.getReg(), II.getNumDefs()+Idx));
902 Addr.setOffsetReg(
903 constrainOperandRegClass(II, Addr.getOffsetReg(), II.getNumDefs()+Idx+1));
Juergen Ributzkab46ea082014-08-19 19:44:17 +0000904 if (Addr.getOffsetReg()) {
905 assert(Addr.getOffset() == 0 && "Unexpected offset");
906 bool IsSigned = Addr.getExtendType() == AArch64_AM::SXTW ||
907 Addr.getExtendType() == AArch64_AM::SXTX;
908 MIB.addReg(Addr.getReg());
909 MIB.addReg(Addr.getOffsetReg());
910 MIB.addImm(IsSigned);
911 MIB.addImm(Addr.getShift() != 0);
912 } else {
913 MIB.addReg(Addr.getReg());
914 MIB.addImm(Offset);
915 }
Tim Northover3b0846e2014-05-24 12:50:23 +0000916 }
Juergen Ributzka241fd482014-08-08 17:24:10 +0000917
918 if (MMO)
919 MIB.addMemOperand(MMO);
Tim Northover3b0846e2014-05-24 12:50:23 +0000920}
921
Juergen Ributzkaa1148b22014-09-03 01:38:36 +0000922unsigned AArch64FastISel::emitAddSub(bool UseAdd, MVT RetVT, const Value *LHS,
923 const Value *RHS, bool SetFlags,
924 bool WantResult, bool IsZExt) {
Juergen Ributzkac0886dd2014-08-19 22:29:55 +0000925 AArch64_AM::ShiftExtendType ExtendType = AArch64_AM::InvalidShiftExtend;
Juergen Ributzkae1bb0552014-08-20 16:34:15 +0000926 bool NeedExtend = false;
Juergen Ributzkac0886dd2014-08-19 22:29:55 +0000927 switch (RetVT.SimpleTy) {
Juergen Ributzkae1bb0552014-08-20 16:34:15 +0000928 default:
929 return 0;
Juergen Ributzkac0886dd2014-08-19 22:29:55 +0000930 case MVT::i1:
Juergen Ributzkae1bb0552014-08-20 16:34:15 +0000931 NeedExtend = true;
932 break;
Juergen Ributzkac0886dd2014-08-19 22:29:55 +0000933 case MVT::i8:
Juergen Ributzkae1bb0552014-08-20 16:34:15 +0000934 NeedExtend = true;
935 ExtendType = IsZExt ? AArch64_AM::UXTB : AArch64_AM::SXTB;
Juergen Ributzkac0886dd2014-08-19 22:29:55 +0000936 break;
937 case MVT::i16:
Juergen Ributzkae1bb0552014-08-20 16:34:15 +0000938 NeedExtend = true;
939 ExtendType = IsZExt ? AArch64_AM::UXTH : AArch64_AM::SXTH;
Juergen Ributzkac0886dd2014-08-19 22:29:55 +0000940 break;
Juergen Ributzkae1bb0552014-08-20 16:34:15 +0000941 case MVT::i32: // fall-through
942 case MVT::i64:
943 break;
Juergen Ributzkac0886dd2014-08-19 22:29:55 +0000944 }
Juergen Ributzkae1bb0552014-08-20 16:34:15 +0000945 MVT SrcVT = RetVT;
946 RetVT.SimpleTy = std::max(RetVT.SimpleTy, MVT::i32);
Juergen Ributzkac0886dd2014-08-19 22:29:55 +0000947
948 // Canonicalize immediates to the RHS first.
Juergen Ributzkaa1148b22014-09-03 01:38:36 +0000949 if (UseAdd && isa<ConstantInt>(LHS) && !isa<ConstantInt>(RHS))
Juergen Ributzkac0886dd2014-08-19 22:29:55 +0000950 std::swap(LHS, RHS);
951
Juergen Ributzka3871c692014-09-17 19:51:38 +0000952 // Canonicalize mul by power of 2 to the RHS.
953 if (UseAdd && LHS->hasOneUse() && isValueAvailable(LHS))
954 if (isMulPowOf2(LHS))
955 std::swap(LHS, RHS);
956
Juergen Ributzkac0886dd2014-08-19 22:29:55 +0000957 // Canonicalize shift immediate to the RHS.
Juergen Ributzka3871c692014-09-17 19:51:38 +0000958 if (UseAdd && LHS->hasOneUse() && isValueAvailable(LHS))
Juergen Ributzkac0886dd2014-08-19 22:29:55 +0000959 if (const auto *SI = dyn_cast<BinaryOperator>(LHS))
960 if (isa<ConstantInt>(SI->getOperand(1)))
961 if (SI->getOpcode() == Instruction::Shl ||
962 SI->getOpcode() == Instruction::LShr ||
963 SI->getOpcode() == Instruction::AShr )
964 std::swap(LHS, RHS);
965
966 unsigned LHSReg = getRegForValue(LHS);
967 if (!LHSReg)
968 return 0;
969 bool LHSIsKill = hasTrivialKill(LHS);
970
Juergen Ributzkae1bb0552014-08-20 16:34:15 +0000971 if (NeedExtend)
Juergen Ributzkab9e49c72014-09-15 23:20:17 +0000972 LHSReg = emitIntExt(SrcVT, LHSReg, RetVT, IsZExt);
Juergen Ributzkac0886dd2014-08-19 22:29:55 +0000973
974 unsigned ResultReg = 0;
975 if (const auto *C = dyn_cast<ConstantInt>(RHS)) {
976 uint64_t Imm = IsZExt ? C->getZExtValue() : C->getSExtValue();
977 if (C->isNegative())
Juergen Ributzkaa1148b22014-09-03 01:38:36 +0000978 ResultReg = emitAddSub_ri(!UseAdd, RetVT, LHSReg, LHSIsKill, -Imm,
979 SetFlags, WantResult);
Juergen Ributzkac0886dd2014-08-19 22:29:55 +0000980 else
Juergen Ributzkaa1148b22014-09-03 01:38:36 +0000981 ResultReg = emitAddSub_ri(UseAdd, RetVT, LHSReg, LHSIsKill, Imm, SetFlags,
982 WantResult);
Juergen Ributzkac0886dd2014-08-19 22:29:55 +0000983 }
984 if (ResultReg)
985 return ResultReg;
986
Juergen Ributzkae1bb0552014-08-20 16:34:15 +0000987 // Only extend the RHS within the instruction if there is a valid extend type.
Juergen Ributzka3871c692014-09-17 19:51:38 +0000988 if (ExtendType != AArch64_AM::InvalidShiftExtend && RHS->hasOneUse() &&
989 isValueAvailable(RHS)) {
Juergen Ributzkac0886dd2014-08-19 22:29:55 +0000990 if (const auto *SI = dyn_cast<BinaryOperator>(RHS))
991 if (const auto *C = dyn_cast<ConstantInt>(SI->getOperand(1)))
992 if ((SI->getOpcode() == Instruction::Shl) && (C->getZExtValue() < 4)) {
993 unsigned RHSReg = getRegForValue(SI->getOperand(0));
994 if (!RHSReg)
995 return 0;
996 bool RHSIsKill = hasTrivialKill(SI->getOperand(0));
Juergen Ributzkaa1148b22014-09-03 01:38:36 +0000997 return emitAddSub_rx(UseAdd, RetVT, LHSReg, LHSIsKill, RHSReg,
998 RHSIsKill, ExtendType, C->getZExtValue(),
999 SetFlags, WantResult);
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00001000 }
1001 unsigned RHSReg = getRegForValue(RHS);
1002 if (!RHSReg)
1003 return 0;
1004 bool RHSIsKill = hasTrivialKill(RHS);
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001005 return emitAddSub_rx(UseAdd, RetVT, LHSReg, LHSIsKill, RHSReg, RHSIsKill,
1006 ExtendType, 0, SetFlags, WantResult);
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00001007 }
1008
Juergen Ributzka3871c692014-09-17 19:51:38 +00001009 // Check if the mul can be folded into the instruction.
1010 if (RHS->hasOneUse() && isValueAvailable(RHS))
1011 if (isMulPowOf2(RHS)) {
1012 const Value *MulLHS = cast<MulOperator>(RHS)->getOperand(0);
1013 const Value *MulRHS = cast<MulOperator>(RHS)->getOperand(1);
1014
1015 if (const auto *C = dyn_cast<ConstantInt>(MulLHS))
1016 if (C->getValue().isPowerOf2())
1017 std::swap(MulLHS, MulRHS);
1018
1019 assert(isa<ConstantInt>(MulRHS) && "Expected a ConstantInt.");
1020 uint64_t ShiftVal = cast<ConstantInt>(MulRHS)->getValue().logBase2();
1021 unsigned RHSReg = getRegForValue(MulLHS);
1022 if (!RHSReg)
1023 return 0;
1024 bool RHSIsKill = hasTrivialKill(MulLHS);
1025 return emitAddSub_rs(UseAdd, RetVT, LHSReg, LHSIsKill, RHSReg, RHSIsKill,
1026 AArch64_AM::LSL, ShiftVal, SetFlags, WantResult);
1027 }
1028
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00001029 // Check if the shift can be folded into the instruction.
Juergen Ributzka3871c692014-09-17 19:51:38 +00001030 if (RHS->hasOneUse() && isValueAvailable(RHS))
Juergen Ributzka77bc09f2014-08-29 00:19:21 +00001031 if (const auto *SI = dyn_cast<BinaryOperator>(RHS)) {
1032 if (const auto *C = dyn_cast<ConstantInt>(SI->getOperand(1))) {
1033 AArch64_AM::ShiftExtendType ShiftType = AArch64_AM::InvalidShiftExtend;
1034 switch (SI->getOpcode()) {
1035 default: break;
1036 case Instruction::Shl: ShiftType = AArch64_AM::LSL; break;
1037 case Instruction::LShr: ShiftType = AArch64_AM::LSR; break;
1038 case Instruction::AShr: ShiftType = AArch64_AM::ASR; break;
1039 }
1040 uint64_t ShiftVal = C->getZExtValue();
1041 if (ShiftType != AArch64_AM::InvalidShiftExtend) {
1042 unsigned RHSReg = getRegForValue(SI->getOperand(0));
1043 if (!RHSReg)
1044 return 0;
1045 bool RHSIsKill = hasTrivialKill(SI->getOperand(0));
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001046 return emitAddSub_rs(UseAdd, RetVT, LHSReg, LHSIsKill, RHSReg,
1047 RHSIsKill, ShiftType, ShiftVal, SetFlags,
1048 WantResult);
Juergen Ributzka77bc09f2014-08-29 00:19:21 +00001049 }
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00001050 }
1051 }
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00001052
1053 unsigned RHSReg = getRegForValue(RHS);
1054 if (!RHSReg)
1055 return 0;
1056 bool RHSIsKill = hasTrivialKill(RHS);
Juergen Ributzkae1bb0552014-08-20 16:34:15 +00001057
1058 if (NeedExtend)
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00001059 RHSReg = emitIntExt(SrcVT, RHSReg, RetVT, IsZExt);
Juergen Ributzkae1bb0552014-08-20 16:34:15 +00001060
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001061 return emitAddSub_rr(UseAdd, RetVT, LHSReg, LHSIsKill, RHSReg, RHSIsKill,
1062 SetFlags, WantResult);
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00001063}
1064
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001065unsigned AArch64FastISel::emitAddSub_rr(bool UseAdd, MVT RetVT, unsigned LHSReg,
1066 bool LHSIsKill, unsigned RHSReg,
1067 bool RHSIsKill, bool SetFlags,
1068 bool WantResult) {
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00001069 assert(LHSReg && RHSReg && "Invalid register number.");
1070
1071 if (RetVT != MVT::i32 && RetVT != MVT::i64)
1072 return 0;
1073
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001074 static const unsigned OpcTable[2][2][2] = {
1075 { { AArch64::SUBWrr, AArch64::SUBXrr },
1076 { AArch64::ADDWrr, AArch64::ADDXrr } },
1077 { { AArch64::SUBSWrr, AArch64::SUBSXrr },
1078 { AArch64::ADDSWrr, AArch64::ADDSXrr } }
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00001079 };
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001080 bool Is64Bit = RetVT == MVT::i64;
1081 unsigned Opc = OpcTable[SetFlags][UseAdd][Is64Bit];
1082 const TargetRegisterClass *RC =
1083 Is64Bit ? &AArch64::GPR64RegClass : &AArch64::GPR32RegClass;
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00001084 unsigned ResultReg;
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001085 if (WantResult)
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00001086 ResultReg = createResultReg(RC);
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001087 else
1088 ResultReg = Is64Bit ? AArch64::XZR : AArch64::WZR;
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00001089
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00001090 const MCInstrDesc &II = TII.get(Opc);
1091 LHSReg = constrainOperandRegClass(II, LHSReg, II.getNumDefs());
1092 RHSReg = constrainOperandRegClass(II, RHSReg, II.getNumDefs() + 1);
1093 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, II, ResultReg)
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00001094 .addReg(LHSReg, getKillRegState(LHSIsKill))
1095 .addReg(RHSReg, getKillRegState(RHSIsKill));
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00001096 return ResultReg;
1097}
1098
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001099unsigned AArch64FastISel::emitAddSub_ri(bool UseAdd, MVT RetVT, unsigned LHSReg,
1100 bool LHSIsKill, uint64_t Imm,
1101 bool SetFlags, bool WantResult) {
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00001102 assert(LHSReg && "Invalid register number.");
1103
1104 if (RetVT != MVT::i32 && RetVT != MVT::i64)
1105 return 0;
1106
1107 unsigned ShiftImm;
1108 if (isUInt<12>(Imm))
1109 ShiftImm = 0;
1110 else if ((Imm & 0xfff000) == Imm) {
1111 ShiftImm = 12;
1112 Imm >>= 12;
1113 } else
1114 return 0;
1115
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001116 static const unsigned OpcTable[2][2][2] = {
1117 { { AArch64::SUBWri, AArch64::SUBXri },
1118 { AArch64::ADDWri, AArch64::ADDXri } },
1119 { { AArch64::SUBSWri, AArch64::SUBSXri },
1120 { AArch64::ADDSWri, AArch64::ADDSXri } }
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00001121 };
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001122 bool Is64Bit = RetVT == MVT::i64;
1123 unsigned Opc = OpcTable[SetFlags][UseAdd][Is64Bit];
1124 const TargetRegisterClass *RC;
1125 if (SetFlags)
1126 RC = Is64Bit ? &AArch64::GPR64RegClass : &AArch64::GPR32RegClass;
1127 else
1128 RC = Is64Bit ? &AArch64::GPR64spRegClass : &AArch64::GPR32spRegClass;
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00001129 unsigned ResultReg;
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001130 if (WantResult)
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00001131 ResultReg = createResultReg(RC);
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001132 else
1133 ResultReg = Is64Bit ? AArch64::XZR : AArch64::WZR;
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00001134
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00001135 const MCInstrDesc &II = TII.get(Opc);
1136 LHSReg = constrainOperandRegClass(II, LHSReg, II.getNumDefs());
1137 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, II, ResultReg)
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00001138 .addReg(LHSReg, getKillRegState(LHSIsKill))
1139 .addImm(Imm)
1140 .addImm(getShifterImm(AArch64_AM::LSL, ShiftImm));
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00001141 return ResultReg;
1142}
1143
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001144unsigned AArch64FastISel::emitAddSub_rs(bool UseAdd, MVT RetVT, unsigned LHSReg,
1145 bool LHSIsKill, unsigned RHSReg,
1146 bool RHSIsKill,
Juergen Ributzkafb506a42014-08-27 00:58:30 +00001147 AArch64_AM::ShiftExtendType ShiftType,
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001148 uint64_t ShiftImm, bool SetFlags,
1149 bool WantResult) {
Juergen Ributzkafb506a42014-08-27 00:58:30 +00001150 assert(LHSReg && RHSReg && "Invalid register number.");
1151
1152 if (RetVT != MVT::i32 && RetVT != MVT::i64)
1153 return 0;
1154
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001155 static const unsigned OpcTable[2][2][2] = {
1156 { { AArch64::SUBWrs, AArch64::SUBXrs },
1157 { AArch64::ADDWrs, AArch64::ADDXrs } },
1158 { { AArch64::SUBSWrs, AArch64::SUBSXrs },
1159 { AArch64::ADDSWrs, AArch64::ADDSXrs } }
Juergen Ributzkafb506a42014-08-27 00:58:30 +00001160 };
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001161 bool Is64Bit = RetVT == MVT::i64;
1162 unsigned Opc = OpcTable[SetFlags][UseAdd][Is64Bit];
1163 const TargetRegisterClass *RC =
1164 Is64Bit ? &AArch64::GPR64RegClass : &AArch64::GPR32RegClass;
Juergen Ributzkafb506a42014-08-27 00:58:30 +00001165 unsigned ResultReg;
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001166 if (WantResult)
Juergen Ributzkafb506a42014-08-27 00:58:30 +00001167 ResultReg = createResultReg(RC);
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001168 else
1169 ResultReg = Is64Bit ? AArch64::XZR : AArch64::WZR;
Juergen Ributzkafb506a42014-08-27 00:58:30 +00001170
1171 const MCInstrDesc &II = TII.get(Opc);
1172 LHSReg = constrainOperandRegClass(II, LHSReg, II.getNumDefs());
1173 RHSReg = constrainOperandRegClass(II, RHSReg, II.getNumDefs() + 1);
1174 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, II, ResultReg)
1175 .addReg(LHSReg, getKillRegState(LHSIsKill))
1176 .addReg(RHSReg, getKillRegState(RHSIsKill))
1177 .addImm(getShifterImm(ShiftType, ShiftImm));
Juergen Ributzkafb506a42014-08-27 00:58:30 +00001178 return ResultReg;
1179}
1180
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001181unsigned AArch64FastISel::emitAddSub_rx(bool UseAdd, MVT RetVT, unsigned LHSReg,
1182 bool LHSIsKill, unsigned RHSReg,
1183 bool RHSIsKill,
Juergen Ributzkafb506a42014-08-27 00:58:30 +00001184 AArch64_AM::ShiftExtendType ExtType,
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001185 uint64_t ShiftImm, bool SetFlags,
1186 bool WantResult) {
Juergen Ributzkafb506a42014-08-27 00:58:30 +00001187 assert(LHSReg && RHSReg && "Invalid register number.");
1188
1189 if (RetVT != MVT::i32 && RetVT != MVT::i64)
1190 return 0;
1191
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001192 static const unsigned OpcTable[2][2][2] = {
1193 { { AArch64::SUBWrx, AArch64::SUBXrx },
1194 { AArch64::ADDWrx, AArch64::ADDXrx } },
1195 { { AArch64::SUBSWrx, AArch64::SUBSXrx },
1196 { AArch64::ADDSWrx, AArch64::ADDSXrx } }
Juergen Ributzkafb506a42014-08-27 00:58:30 +00001197 };
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001198 bool Is64Bit = RetVT == MVT::i64;
1199 unsigned Opc = OpcTable[SetFlags][UseAdd][Is64Bit];
1200 const TargetRegisterClass *RC = nullptr;
1201 if (SetFlags)
1202 RC = Is64Bit ? &AArch64::GPR64RegClass : &AArch64::GPR32RegClass;
1203 else
1204 RC = Is64Bit ? &AArch64::GPR64spRegClass : &AArch64::GPR32spRegClass;
Juergen Ributzkafb506a42014-08-27 00:58:30 +00001205 unsigned ResultReg;
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001206 if (WantResult)
Juergen Ributzkafb506a42014-08-27 00:58:30 +00001207 ResultReg = createResultReg(RC);
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001208 else
1209 ResultReg = Is64Bit ? AArch64::XZR : AArch64::WZR;
Juergen Ributzkafb506a42014-08-27 00:58:30 +00001210
1211 const MCInstrDesc &II = TII.get(Opc);
1212 LHSReg = constrainOperandRegClass(II, LHSReg, II.getNumDefs());
1213 RHSReg = constrainOperandRegClass(II, RHSReg, II.getNumDefs() + 1);
1214 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, II, ResultReg)
1215 .addReg(LHSReg, getKillRegState(LHSIsKill))
1216 .addReg(RHSReg, getKillRegState(RHSIsKill))
1217 .addImm(getArithExtendImm(ExtType, ShiftImm));
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00001218 return ResultReg;
1219}
1220
1221bool AArch64FastISel::emitCmp(const Value *LHS, const Value *RHS, bool IsZExt) {
1222 Type *Ty = LHS->getType();
1223 EVT EVT = TLI.getValueType(Ty, true);
1224 if (!EVT.isSimple())
1225 return false;
1226 MVT VT = EVT.getSimpleVT();
1227
1228 switch (VT.SimpleTy) {
1229 default:
1230 return false;
1231 case MVT::i1:
1232 case MVT::i8:
1233 case MVT::i16:
1234 case MVT::i32:
1235 case MVT::i64:
1236 return emitICmp(VT, LHS, RHS, IsZExt);
1237 case MVT::f32:
1238 case MVT::f64:
1239 return emitFCmp(VT, LHS, RHS);
1240 }
1241}
1242
1243bool AArch64FastISel::emitICmp(MVT RetVT, const Value *LHS, const Value *RHS,
1244 bool IsZExt) {
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001245 return emitSub(RetVT, LHS, RHS, /*SetFlags=*/true, /*WantResult=*/false,
1246 IsZExt) != 0;
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00001247}
1248
1249bool AArch64FastISel::emitICmp_ri(MVT RetVT, unsigned LHSReg, bool LHSIsKill,
1250 uint64_t Imm) {
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001251 return emitAddSub_ri(/*UseAdd=*/false, RetVT, LHSReg, LHSIsKill, Imm,
1252 /*SetFlags=*/true, /*WantResult=*/false) != 0;
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00001253}
1254
1255bool AArch64FastISel::emitFCmp(MVT RetVT, const Value *LHS, const Value *RHS) {
1256 if (RetVT != MVT::f32 && RetVT != MVT::f64)
1257 return false;
1258
1259 // Check to see if the 2nd operand is a constant that we can encode directly
1260 // in the compare.
1261 bool UseImm = false;
1262 if (const auto *CFP = dyn_cast<ConstantFP>(RHS))
1263 if (CFP->isZero() && !CFP->isNegative())
1264 UseImm = true;
1265
1266 unsigned LHSReg = getRegForValue(LHS);
1267 if (!LHSReg)
1268 return false;
1269 bool LHSIsKill = hasTrivialKill(LHS);
1270
1271 if (UseImm) {
1272 unsigned Opc = (RetVT == MVT::f64) ? AArch64::FCMPDri : AArch64::FCMPSri;
1273 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(Opc))
1274 .addReg(LHSReg, getKillRegState(LHSIsKill));
1275 return true;
1276 }
1277
1278 unsigned RHSReg = getRegForValue(RHS);
1279 if (!RHSReg)
1280 return false;
1281 bool RHSIsKill = hasTrivialKill(RHS);
1282
1283 unsigned Opc = (RetVT == MVT::f64) ? AArch64::FCMPDrr : AArch64::FCMPSrr;
1284 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(Opc))
1285 .addReg(LHSReg, getKillRegState(LHSIsKill))
1286 .addReg(RHSReg, getKillRegState(RHSIsKill));
1287 return true;
1288}
1289
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001290unsigned AArch64FastISel::emitAdd(MVT RetVT, const Value *LHS, const Value *RHS,
1291 bool SetFlags, bool WantResult, bool IsZExt) {
1292 return emitAddSub(/*UseAdd=*/true, RetVT, LHS, RHS, SetFlags, WantResult,
1293 IsZExt);
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00001294}
1295
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001296unsigned AArch64FastISel::emitSub(MVT RetVT, const Value *LHS, const Value *RHS,
1297 bool SetFlags, bool WantResult, bool IsZExt) {
1298 return emitAddSub(/*UseAdd=*/false, RetVT, LHS, RHS, SetFlags, WantResult,
1299 IsZExt);
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00001300}
1301
1302unsigned AArch64FastISel::emitSubs_rr(MVT RetVT, unsigned LHSReg,
1303 bool LHSIsKill, unsigned RHSReg,
1304 bool RHSIsKill, bool WantResult) {
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001305 return emitAddSub_rr(/*UseAdd=*/false, RetVT, LHSReg, LHSIsKill, RHSReg,
1306 RHSIsKill, /*SetFlags=*/true, WantResult);
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00001307}
1308
1309unsigned AArch64FastISel::emitSubs_rs(MVT RetVT, unsigned LHSReg,
1310 bool LHSIsKill, unsigned RHSReg,
1311 bool RHSIsKill,
1312 AArch64_AM::ShiftExtendType ShiftType,
1313 uint64_t ShiftImm, bool WantResult) {
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001314 return emitAddSub_rs(/*UseAdd=*/false, RetVT, LHSReg, LHSIsKill, RHSReg,
1315 RHSIsKill, ShiftType, ShiftImm, /*SetFlags=*/true,
1316 WantResult);
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00001317}
1318
Juergen Ributzka1dbc15f2014-09-04 01:29:18 +00001319unsigned AArch64FastISel::emitLogicalOp(unsigned ISDOpc, MVT RetVT,
1320 const Value *LHS, const Value *RHS) {
Juergen Ributzka1dbc15f2014-09-04 01:29:18 +00001321 // Canonicalize immediates to the RHS first.
1322 if (isa<ConstantInt>(LHS) && !isa<ConstantInt>(RHS))
1323 std::swap(LHS, RHS);
1324
Juergen Ributzka3871c692014-09-17 19:51:38 +00001325 // Canonicalize mul by power-of-2 to the RHS.
1326 if (LHS->hasOneUse() && isValueAvailable(LHS))
1327 if (isMulPowOf2(LHS))
1328 std::swap(LHS, RHS);
1329
Juergen Ributzka1dbc15f2014-09-04 01:29:18 +00001330 // Canonicalize shift immediate to the RHS.
Juergen Ributzka3871c692014-09-17 19:51:38 +00001331 if (LHS->hasOneUse() && isValueAvailable(LHS))
1332 if (const auto *SI = dyn_cast<ShlOperator>(LHS))
Juergen Ributzka1dbc15f2014-09-04 01:29:18 +00001333 if (isa<ConstantInt>(SI->getOperand(1)))
Juergen Ributzka3871c692014-09-17 19:51:38 +00001334 std::swap(LHS, RHS);
Juergen Ributzka1dbc15f2014-09-04 01:29:18 +00001335
1336 unsigned LHSReg = getRegForValue(LHS);
1337 if (!LHSReg)
1338 return 0;
1339 bool LHSIsKill = hasTrivialKill(LHS);
1340
1341 unsigned ResultReg = 0;
1342 if (const auto *C = dyn_cast<ConstantInt>(RHS)) {
1343 uint64_t Imm = C->getZExtValue();
1344 ResultReg = emitLogicalOp_ri(ISDOpc, RetVT, LHSReg, LHSIsKill, Imm);
1345 }
1346 if (ResultReg)
1347 return ResultReg;
1348
Juergen Ributzka3871c692014-09-17 19:51:38 +00001349 // Check if the mul can be folded into the instruction.
1350 if (RHS->hasOneUse() && isValueAvailable(RHS))
1351 if (isMulPowOf2(RHS)) {
1352 const Value *MulLHS = cast<MulOperator>(RHS)->getOperand(0);
1353 const Value *MulRHS = cast<MulOperator>(RHS)->getOperand(1);
1354
1355 if (const auto *C = dyn_cast<ConstantInt>(MulLHS))
1356 if (C->getValue().isPowerOf2())
1357 std::swap(MulLHS, MulRHS);
1358
1359 assert(isa<ConstantInt>(MulRHS) && "Expected a ConstantInt.");
1360 uint64_t ShiftVal = cast<ConstantInt>(MulRHS)->getValue().logBase2();
1361
1362 unsigned RHSReg = getRegForValue(MulLHS);
1363 if (!RHSReg)
1364 return 0;
1365 bool RHSIsKill = hasTrivialKill(MulLHS);
1366 return emitLogicalOp_rs(ISDOpc, RetVT, LHSReg, LHSIsKill, RHSReg,
1367 RHSIsKill, ShiftVal);
1368 }
1369
Juergen Ributzka1dbc15f2014-09-04 01:29:18 +00001370 // Check if the shift can be folded into the instruction.
Juergen Ributzka3871c692014-09-17 19:51:38 +00001371 if (RHS->hasOneUse() && isValueAvailable(RHS))
1372 if (const auto *SI = dyn_cast<ShlOperator>(RHS))
1373 if (const auto *C = dyn_cast<ConstantInt>(SI->getOperand(1))) {
1374 uint64_t ShiftVal = C->getZExtValue();
1375 unsigned RHSReg = getRegForValue(SI->getOperand(0));
1376 if (!RHSReg)
1377 return 0;
1378 bool RHSIsKill = hasTrivialKill(SI->getOperand(0));
1379 return emitLogicalOp_rs(ISDOpc, RetVT, LHSReg, LHSIsKill, RHSReg,
1380 RHSIsKill, ShiftVal);
1381 }
Juergen Ributzka1dbc15f2014-09-04 01:29:18 +00001382
1383 unsigned RHSReg = getRegForValue(RHS);
1384 if (!RHSReg)
1385 return 0;
1386 bool RHSIsKill = hasTrivialKill(RHS);
1387
Juergen Ributzka85c1f842014-09-13 23:46:28 +00001388 MVT VT = std::max(MVT::i32, RetVT.SimpleTy);
1389 ResultReg = fastEmit_rr(VT, VT, ISDOpc, LHSReg, LHSIsKill, RHSReg, RHSIsKill);
1390 if (RetVT >= MVT::i8 && RetVT <= MVT::i16) {
1391 uint64_t Mask = (RetVT == MVT::i8) ? 0xff : 0xffff;
1392 ResultReg = emitAnd_ri(MVT::i32, ResultReg, /*IsKill=*/true, Mask);
1393 }
1394 return ResultReg;
Juergen Ributzka1dbc15f2014-09-04 01:29:18 +00001395}
1396
1397unsigned AArch64FastISel::emitLogicalOp_ri(unsigned ISDOpc, MVT RetVT,
1398 unsigned LHSReg, bool LHSIsKill,
1399 uint64_t Imm) {
1400 assert((ISD::AND + 1 == ISD::OR) && (ISD::AND + 2 == ISD::XOR) &&
1401 "ISD nodes are not consecutive!");
1402 static const unsigned OpcTable[3][2] = {
1403 { AArch64::ANDWri, AArch64::ANDXri },
1404 { AArch64::ORRWri, AArch64::ORRXri },
1405 { AArch64::EORWri, AArch64::EORXri }
1406 };
1407 const TargetRegisterClass *RC;
1408 unsigned Opc;
1409 unsigned RegSize;
Juergen Ributzkac83265a2014-08-21 18:02:25 +00001410 switch (RetVT.SimpleTy) {
1411 default:
1412 return 0;
Juergen Ributzka85c1f842014-09-13 23:46:28 +00001413 case MVT::i1:
1414 case MVT::i8:
1415 case MVT::i16:
Juergen Ributzka1dbc15f2014-09-04 01:29:18 +00001416 case MVT::i32: {
1417 unsigned Idx = ISDOpc - ISD::AND;
1418 Opc = OpcTable[Idx][0];
Juergen Ributzkac83265a2014-08-21 18:02:25 +00001419 RC = &AArch64::GPR32spRegClass;
1420 RegSize = 32;
1421 break;
Juergen Ributzka1dbc15f2014-09-04 01:29:18 +00001422 }
Juergen Ributzkac83265a2014-08-21 18:02:25 +00001423 case MVT::i64:
Juergen Ributzka1dbc15f2014-09-04 01:29:18 +00001424 Opc = OpcTable[ISDOpc - ISD::AND][1];
Juergen Ributzkac83265a2014-08-21 18:02:25 +00001425 RC = &AArch64::GPR64spRegClass;
1426 RegSize = 64;
1427 break;
1428 }
1429
1430 if (!AArch64_AM::isLogicalImmediate(Imm, RegSize))
1431 return 0;
1432
Juergen Ributzka85c1f842014-09-13 23:46:28 +00001433 unsigned ResultReg =
1434 fastEmitInst_ri(Opc, RC, LHSReg, LHSIsKill,
1435 AArch64_AM::encodeLogicalImmediate(Imm, RegSize));
1436 if (RetVT >= MVT::i8 && RetVT <= MVT::i16 && ISDOpc != ISD::AND) {
1437 uint64_t Mask = (RetVT == MVT::i8) ? 0xff : 0xffff;
1438 ResultReg = emitAnd_ri(MVT::i32, ResultReg, /*IsKill=*/true, Mask);
1439 }
1440 return ResultReg;
Juergen Ributzkac83265a2014-08-21 18:02:25 +00001441}
1442
Juergen Ributzka1dbc15f2014-09-04 01:29:18 +00001443unsigned AArch64FastISel::emitLogicalOp_rs(unsigned ISDOpc, MVT RetVT,
1444 unsigned LHSReg, bool LHSIsKill,
1445 unsigned RHSReg, bool RHSIsKill,
1446 uint64_t ShiftImm) {
1447 assert((ISD::AND + 1 == ISD::OR) && (ISD::AND + 2 == ISD::XOR) &&
1448 "ISD nodes are not consecutive!");
1449 static const unsigned OpcTable[3][2] = {
1450 { AArch64::ANDWrs, AArch64::ANDXrs },
1451 { AArch64::ORRWrs, AArch64::ORRXrs },
1452 { AArch64::EORWrs, AArch64::EORXrs }
1453 };
1454 const TargetRegisterClass *RC;
1455 unsigned Opc;
1456 switch (RetVT.SimpleTy) {
Juergen Ributzka85c1f842014-09-13 23:46:28 +00001457 default:
1458 return 0;
1459 case MVT::i1:
1460 case MVT::i8:
1461 case MVT::i16:
1462 case MVT::i32:
1463 Opc = OpcTable[ISDOpc - ISD::AND][0];
1464 RC = &AArch64::GPR32RegClass;
1465 break;
1466 case MVT::i64:
1467 Opc = OpcTable[ISDOpc - ISD::AND][1];
1468 RC = &AArch64::GPR64RegClass;
1469 break;
Juergen Ributzka1dbc15f2014-09-04 01:29:18 +00001470 }
Juergen Ributzka85c1f842014-09-13 23:46:28 +00001471 unsigned ResultReg =
1472 fastEmitInst_rri(Opc, RC, LHSReg, LHSIsKill, RHSReg, RHSIsKill,
1473 AArch64_AM::getShifterImm(AArch64_AM::LSL, ShiftImm));
1474 if (RetVT >= MVT::i8 && RetVT <= MVT::i16) {
1475 uint64_t Mask = (RetVT == MVT::i8) ? 0xff : 0xffff;
1476 ResultReg = emitAnd_ri(MVT::i32, ResultReg, /*IsKill=*/true, Mask);
1477 }
1478 return ResultReg;
Juergen Ributzka1dbc15f2014-09-04 01:29:18 +00001479}
1480
1481unsigned AArch64FastISel::emitAnd_ri(MVT RetVT, unsigned LHSReg, bool LHSIsKill,
1482 uint64_t Imm) {
1483 return emitLogicalOp_ri(ISD::AND, RetVT, LHSReg, LHSIsKill, Imm);
1484}
1485
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00001486bool AArch64FastISel::emitLoad(MVT VT, unsigned &ResultReg, Address Addr,
Juergen Ributzkab46ea082014-08-19 19:44:17 +00001487 MachineMemOperand *MMO) {
1488 // Simplify this down to something we can handle.
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00001489 if (!simplifyAddress(Addr, VT))
Juergen Ributzkab46ea082014-08-19 19:44:17 +00001490 return false;
1491
1492 unsigned ScaleFactor;
1493 switch (VT.SimpleTy) {
1494 default: llvm_unreachable("Unexpected value type.");
1495 case MVT::i1: // fall-through
1496 case MVT::i8: ScaleFactor = 1; break;
1497 case MVT::i16: ScaleFactor = 2; break;
1498 case MVT::i32: // fall-through
1499 case MVT::f32: ScaleFactor = 4; break;
1500 case MVT::i64: // fall-through
1501 case MVT::f64: ScaleFactor = 8; break;
1502 }
1503
Tim Northover3b0846e2014-05-24 12:50:23 +00001504 // Negative offsets require unscaled, 9-bit, signed immediate offsets.
1505 // Otherwise, we try using scaled, 12-bit, unsigned immediate offsets.
Juergen Ributzkab46ea082014-08-19 19:44:17 +00001506 bool UseScaled = true;
1507 if ((Addr.getOffset() < 0) || (Addr.getOffset() & (ScaleFactor - 1))) {
1508 UseScaled = false;
1509 ScaleFactor = 1;
1510 }
1511
1512 static const unsigned OpcTable[4][6] = {
1513 { AArch64::LDURBBi, AArch64::LDURHHi, AArch64::LDURWi, AArch64::LDURXi,
1514 AArch64::LDURSi, AArch64::LDURDi },
1515 { AArch64::LDRBBui, AArch64::LDRHHui, AArch64::LDRWui, AArch64::LDRXui,
1516 AArch64::LDRSui, AArch64::LDRDui },
1517 { AArch64::LDRBBroX, AArch64::LDRHHroX, AArch64::LDRWroX, AArch64::LDRXroX,
1518 AArch64::LDRSroX, AArch64::LDRDroX },
1519 { AArch64::LDRBBroW, AArch64::LDRHHroW, AArch64::LDRWroW, AArch64::LDRXroW,
1520 AArch64::LDRSroW, AArch64::LDRDroW }
1521 };
Tim Northover3b0846e2014-05-24 12:50:23 +00001522
1523 unsigned Opc;
1524 const TargetRegisterClass *RC;
1525 bool VTIsi1 = false;
Juergen Ributzkab46ea082014-08-19 19:44:17 +00001526 bool UseRegOffset = Addr.isRegBase() && !Addr.getOffset() && Addr.getReg() &&
1527 Addr.getOffsetReg();
1528 unsigned Idx = UseRegOffset ? 2 : UseScaled ? 1 : 0;
1529 if (Addr.getExtendType() == AArch64_AM::UXTW ||
1530 Addr.getExtendType() == AArch64_AM::SXTW)
1531 Idx++;
1532
Tim Northover3b0846e2014-05-24 12:50:23 +00001533 switch (VT.SimpleTy) {
Juergen Ributzkab46ea082014-08-19 19:44:17 +00001534 default: llvm_unreachable("Unexpected value type.");
1535 case MVT::i1: VTIsi1 = true; // Intentional fall-through.
1536 case MVT::i8: Opc = OpcTable[Idx][0]; RC = &AArch64::GPR32RegClass; break;
1537 case MVT::i16: Opc = OpcTable[Idx][1]; RC = &AArch64::GPR32RegClass; break;
1538 case MVT::i32: Opc = OpcTable[Idx][2]; RC = &AArch64::GPR32RegClass; break;
1539 case MVT::i64: Opc = OpcTable[Idx][3]; RC = &AArch64::GPR64RegClass; break;
1540 case MVT::f32: Opc = OpcTable[Idx][4]; RC = &AArch64::FPR32RegClass; break;
1541 case MVT::f64: Opc = OpcTable[Idx][5]; RC = &AArch64::FPR64RegClass; break;
Tim Northover3b0846e2014-05-24 12:50:23 +00001542 }
Tim Northover3b0846e2014-05-24 12:50:23 +00001543
1544 // Create the base instruction, then add the operands.
1545 ResultReg = createResultReg(RC);
1546 MachineInstrBuilder MIB = BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc,
1547 TII.get(Opc), ResultReg);
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00001548 addLoadStoreOperands(Addr, MIB, MachineMemOperand::MOLoad, ScaleFactor, MMO);
Tim Northover3b0846e2014-05-24 12:50:23 +00001549
1550 // Loading an i1 requires special handling.
1551 if (VTIsi1) {
Juergen Ributzka1dbc15f2014-09-04 01:29:18 +00001552 unsigned ANDReg = emitAnd_ri(MVT::i32, ResultReg, /*IsKill=*/true, 1);
Juergen Ributzkac83265a2014-08-21 18:02:25 +00001553 assert(ANDReg && "Unexpected AND instruction emission failure.");
Tim Northover3b0846e2014-05-24 12:50:23 +00001554 ResultReg = ANDReg;
1555 }
1556 return true;
1557}
1558
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001559bool AArch64FastISel::selectAddSub(const Instruction *I) {
1560 MVT VT;
Juergen Ributzkae1779e22014-09-15 21:27:56 +00001561 if (!isTypeSupported(I->getType(), VT, /*IsVectorAllowed=*/true))
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001562 return false;
1563
Juergen Ributzkae1779e22014-09-15 21:27:56 +00001564 if (VT.isVector())
1565 return selectOperator(I, I->getOpcode());
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001566
Juergen Ributzkae1779e22014-09-15 21:27:56 +00001567 unsigned ResultReg;
1568 switch (I->getOpcode()) {
1569 default:
1570 llvm_unreachable("Unexpected instruction.");
1571 case Instruction::Add:
1572 ResultReg = emitAdd(VT, I->getOperand(0), I->getOperand(1));
1573 break;
1574 case Instruction::Sub:
1575 ResultReg = emitSub(VT, I->getOperand(0), I->getOperand(1));
1576 break;
1577 }
1578 if (!ResultReg)
1579 return false;
1580
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +00001581 updateValueMap(I, ResultReg);
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00001582 return true;
1583}
1584
Juergen Ributzkae1779e22014-09-15 21:27:56 +00001585bool AArch64FastISel::selectLogicalOp(const Instruction *I) {
Juergen Ributzka1dbc15f2014-09-04 01:29:18 +00001586 MVT VT;
Juergen Ributzkae1779e22014-09-15 21:27:56 +00001587 if (!isTypeSupported(I->getType(), VT, /*IsVectorAllowed=*/true))
Juergen Ributzka1dbc15f2014-09-04 01:29:18 +00001588 return false;
1589
Juergen Ributzkae1779e22014-09-15 21:27:56 +00001590 if (VT.isVector())
1591 return selectOperator(I, I->getOpcode());
1592
1593 unsigned ResultReg;
1594 switch (I->getOpcode()) {
1595 default:
1596 llvm_unreachable("Unexpected instruction.");
1597 case Instruction::And:
1598 ResultReg = emitLogicalOp(ISD::AND, VT, I->getOperand(0), I->getOperand(1));
1599 break;
1600 case Instruction::Or:
1601 ResultReg = emitLogicalOp(ISD::OR, VT, I->getOperand(0), I->getOperand(1));
1602 break;
1603 case Instruction::Xor:
1604 ResultReg = emitLogicalOp(ISD::XOR, VT, I->getOperand(0), I->getOperand(1));
1605 break;
1606 }
Juergen Ributzka1dbc15f2014-09-04 01:29:18 +00001607 if (!ResultReg)
1608 return false;
1609
1610 updateValueMap(I, ResultReg);
1611 return true;
1612}
1613
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00001614bool AArch64FastISel::selectLoad(const Instruction *I) {
Tim Northover3b0846e2014-05-24 12:50:23 +00001615 MVT VT;
1616 // Verify we have a legal type before going any further. Currently, we handle
1617 // simple types that will directly fit in a register (i32/f32/i64/f64) or
1618 // those that can be sign or zero-extended to a basic operation (i1/i8/i16).
Juergen Ributzka6127b192014-09-15 21:27:54 +00001619 if (!isTypeSupported(I->getType(), VT, /*IsVectorAllowed=*/true) ||
1620 cast<LoadInst>(I)->isAtomic())
Tim Northover3b0846e2014-05-24 12:50:23 +00001621 return false;
1622
1623 // See if we can handle this address.
1624 Address Addr;
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00001625 if (!computeAddress(I->getOperand(0), Addr, I->getType()))
Tim Northover3b0846e2014-05-24 12:50:23 +00001626 return false;
1627
1628 unsigned ResultReg;
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00001629 if (!emitLoad(VT, ResultReg, Addr, createMachineMemOperandFor(I)))
Tim Northover3b0846e2014-05-24 12:50:23 +00001630 return false;
1631
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +00001632 updateValueMap(I, ResultReg);
Tim Northover3b0846e2014-05-24 12:50:23 +00001633 return true;
1634}
1635
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00001636bool AArch64FastISel::emitStore(MVT VT, unsigned SrcReg, Address Addr,
Juergen Ributzkab46ea082014-08-19 19:44:17 +00001637 MachineMemOperand *MMO) {
1638 // Simplify this down to something we can handle.
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00001639 if (!simplifyAddress(Addr, VT))
Juergen Ributzkab46ea082014-08-19 19:44:17 +00001640 return false;
1641
1642 unsigned ScaleFactor;
1643 switch (VT.SimpleTy) {
1644 default: llvm_unreachable("Unexpected value type.");
1645 case MVT::i1: // fall-through
1646 case MVT::i8: ScaleFactor = 1; break;
1647 case MVT::i16: ScaleFactor = 2; break;
1648 case MVT::i32: // fall-through
1649 case MVT::f32: ScaleFactor = 4; break;
1650 case MVT::i64: // fall-through
1651 case MVT::f64: ScaleFactor = 8; break;
1652 }
1653
Tim Northover3b0846e2014-05-24 12:50:23 +00001654 // Negative offsets require unscaled, 9-bit, signed immediate offsets.
1655 // Otherwise, we try using scaled, 12-bit, unsigned immediate offsets.
Juergen Ributzkab46ea082014-08-19 19:44:17 +00001656 bool UseScaled = true;
1657 if ((Addr.getOffset() < 0) || (Addr.getOffset() & (ScaleFactor - 1))) {
1658 UseScaled = false;
Juergen Ributzka34ed4222014-08-14 17:10:54 +00001659 ScaleFactor = 1;
Juergen Ributzka34ed4222014-08-14 17:10:54 +00001660 }
1661
Juergen Ributzkab46ea082014-08-19 19:44:17 +00001662
1663 static const unsigned OpcTable[4][6] = {
1664 { AArch64::STURBBi, AArch64::STURHHi, AArch64::STURWi, AArch64::STURXi,
1665 AArch64::STURSi, AArch64::STURDi },
1666 { AArch64::STRBBui, AArch64::STRHHui, AArch64::STRWui, AArch64::STRXui,
1667 AArch64::STRSui, AArch64::STRDui },
1668 { AArch64::STRBBroX, AArch64::STRHHroX, AArch64::STRWroX, AArch64::STRXroX,
1669 AArch64::STRSroX, AArch64::STRDroX },
1670 { AArch64::STRBBroW, AArch64::STRHHroW, AArch64::STRWroW, AArch64::STRXroW,
1671 AArch64::STRSroW, AArch64::STRDroW }
1672
1673 };
1674
1675 unsigned Opc;
1676 bool VTIsi1 = false;
1677 bool UseRegOffset = Addr.isRegBase() && !Addr.getOffset() && Addr.getReg() &&
1678 Addr.getOffsetReg();
1679 unsigned Idx = UseRegOffset ? 2 : UseScaled ? 1 : 0;
1680 if (Addr.getExtendType() == AArch64_AM::UXTW ||
1681 Addr.getExtendType() == AArch64_AM::SXTW)
1682 Idx++;
1683
1684 switch (VT.SimpleTy) {
1685 default: llvm_unreachable("Unexpected value type.");
1686 case MVT::i1: VTIsi1 = true;
1687 case MVT::i8: Opc = OpcTable[Idx][0]; break;
1688 case MVT::i16: Opc = OpcTable[Idx][1]; break;
1689 case MVT::i32: Opc = OpcTable[Idx][2]; break;
1690 case MVT::i64: Opc = OpcTable[Idx][3]; break;
1691 case MVT::f32: Opc = OpcTable[Idx][4]; break;
1692 case MVT::f64: Opc = OpcTable[Idx][5]; break;
1693 }
Tim Northover3b0846e2014-05-24 12:50:23 +00001694
1695 // Storing an i1 requires special handling.
Juergen Ributzka100a9b72014-08-27 21:04:52 +00001696 if (VTIsi1 && SrcReg != AArch64::WZR) {
Juergen Ributzka1dbc15f2014-09-04 01:29:18 +00001697 unsigned ANDReg = emitAnd_ri(MVT::i32, SrcReg, /*TODO:IsKill=*/false, 1);
Juergen Ributzkac83265a2014-08-21 18:02:25 +00001698 assert(ANDReg && "Unexpected AND instruction emission failure.");
Tim Northover3b0846e2014-05-24 12:50:23 +00001699 SrcReg = ANDReg;
1700 }
1701 // Create the base instruction, then add the operands.
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00001702 const MCInstrDesc &II = TII.get(Opc);
1703 SrcReg = constrainOperandRegClass(II, SrcReg, II.getNumDefs());
1704 MachineInstrBuilder MIB =
1705 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, II).addReg(SrcReg);
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00001706 addLoadStoreOperands(Addr, MIB, MachineMemOperand::MOStore, ScaleFactor, MMO);
Juergen Ributzka241fd482014-08-08 17:24:10 +00001707
Tim Northover3b0846e2014-05-24 12:50:23 +00001708 return true;
1709}
1710
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00001711bool AArch64FastISel::selectStore(const Instruction *I) {
Tim Northover3b0846e2014-05-24 12:50:23 +00001712 MVT VT;
Juergen Ributzka100a9b72014-08-27 21:04:52 +00001713 const Value *Op0 = I->getOperand(0);
Tim Northover3b0846e2014-05-24 12:50:23 +00001714 // Verify we have a legal type before going any further. Currently, we handle
1715 // simple types that will directly fit in a register (i32/f32/i64/f64) or
1716 // those that can be sign or zero-extended to a basic operation (i1/i8/i16).
Juergen Ributzka6127b192014-09-15 21:27:54 +00001717 if (!isTypeSupported(Op0->getType(), VT, /*IsVectorAllowed=*/true) ||
Tim Northover3b0846e2014-05-24 12:50:23 +00001718 cast<StoreInst>(I)->isAtomic())
1719 return false;
1720
Juergen Ributzka100a9b72014-08-27 21:04:52 +00001721 // Get the value to be stored into a register. Use the zero register directly
Juergen Ributzka56b4b332014-08-27 21:40:50 +00001722 // when possible to avoid an unnecessary copy and a wasted register.
Juergen Ributzka100a9b72014-08-27 21:04:52 +00001723 unsigned SrcReg = 0;
1724 if (const auto *CI = dyn_cast<ConstantInt>(Op0)) {
1725 if (CI->isZero())
1726 SrcReg = (VT == MVT::i64) ? AArch64::XZR : AArch64::WZR;
1727 } else if (const auto *CF = dyn_cast<ConstantFP>(Op0)) {
1728 if (CF->isZero() && !CF->isNegative()) {
1729 VT = MVT::getIntegerVT(VT.getSizeInBits());
1730 SrcReg = (VT == MVT::i64) ? AArch64::XZR : AArch64::WZR;
1731 }
1732 }
1733
1734 if (!SrcReg)
1735 SrcReg = getRegForValue(Op0);
1736
1737 if (!SrcReg)
Tim Northover3b0846e2014-05-24 12:50:23 +00001738 return false;
1739
1740 // See if we can handle this address.
1741 Address Addr;
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00001742 if (!computeAddress(I->getOperand(1), Addr, I->getOperand(0)->getType()))
Tim Northover3b0846e2014-05-24 12:50:23 +00001743 return false;
1744
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00001745 if (!emitStore(VT, SrcReg, Addr, createMachineMemOperandFor(I)))
Tim Northover3b0846e2014-05-24 12:50:23 +00001746 return false;
1747 return true;
1748}
1749
1750static AArch64CC::CondCode getCompareCC(CmpInst::Predicate Pred) {
1751 switch (Pred) {
1752 case CmpInst::FCMP_ONE:
1753 case CmpInst::FCMP_UEQ:
1754 default:
1755 // AL is our "false" for now. The other two need more compares.
1756 return AArch64CC::AL;
1757 case CmpInst::ICMP_EQ:
1758 case CmpInst::FCMP_OEQ:
1759 return AArch64CC::EQ;
1760 case CmpInst::ICMP_SGT:
1761 case CmpInst::FCMP_OGT:
1762 return AArch64CC::GT;
1763 case CmpInst::ICMP_SGE:
1764 case CmpInst::FCMP_OGE:
1765 return AArch64CC::GE;
1766 case CmpInst::ICMP_UGT:
1767 case CmpInst::FCMP_UGT:
1768 return AArch64CC::HI;
1769 case CmpInst::FCMP_OLT:
1770 return AArch64CC::MI;
1771 case CmpInst::ICMP_ULE:
1772 case CmpInst::FCMP_OLE:
1773 return AArch64CC::LS;
1774 case CmpInst::FCMP_ORD:
1775 return AArch64CC::VC;
1776 case CmpInst::FCMP_UNO:
1777 return AArch64CC::VS;
1778 case CmpInst::FCMP_UGE:
1779 return AArch64CC::PL;
1780 case CmpInst::ICMP_SLT:
1781 case CmpInst::FCMP_ULT:
1782 return AArch64CC::LT;
1783 case CmpInst::ICMP_SLE:
1784 case CmpInst::FCMP_ULE:
1785 return AArch64CC::LE;
1786 case CmpInst::FCMP_UNE:
1787 case CmpInst::ICMP_NE:
1788 return AArch64CC::NE;
1789 case CmpInst::ICMP_UGE:
1790 return AArch64CC::HS;
1791 case CmpInst::ICMP_ULT:
1792 return AArch64CC::LO;
1793 }
1794}
1795
Juergen Ributzkad8e30c02014-09-17 18:05:34 +00001796/// \brief Check if the comparison against zero and the following branch can be
1797/// folded into a single instruction (CBZ or CBNZ).
1798static bool canFoldZeroIntoBranch(const CmpInst *CI) {
1799 CmpInst::Predicate Predicate = CI->getPredicate();
1800 if ((Predicate != CmpInst::ICMP_EQ) && (Predicate != CmpInst::ICMP_NE))
1801 return false;
1802
1803 Type *Ty = CI->getOperand(0)->getType();
1804 if (!Ty->isIntegerTy())
1805 return false;
1806
1807 unsigned BW = cast<IntegerType>(Ty)->getBitWidth();
1808 if (BW != 1 && BW != 8 && BW != 16 && BW != 32 && BW != 64)
1809 return false;
1810
1811 if (const auto *C = dyn_cast<ConstantInt>(CI->getOperand(0)))
1812 if (C->isNullValue())
1813 return true;
1814
1815 if (const auto *C = dyn_cast<ConstantInt>(CI->getOperand(1)))
1816 if (C->isNullValue())
1817 return true;
1818
1819 return false;
1820}
1821
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00001822bool AArch64FastISel::selectBranch(const Instruction *I) {
Tim Northover3b0846e2014-05-24 12:50:23 +00001823 const BranchInst *BI = cast<BranchInst>(I);
Juergen Ributzka31c80542014-09-03 17:58:10 +00001824 if (BI->isUnconditional()) {
1825 MachineBasicBlock *MSucc = FuncInfo.MBBMap[BI->getSuccessor(0)];
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +00001826 fastEmitBranch(MSucc, BI->getDebugLoc());
Juergen Ributzka31c80542014-09-03 17:58:10 +00001827 return true;
1828 }
1829
Tim Northover3b0846e2014-05-24 12:50:23 +00001830 MachineBasicBlock *TBB = FuncInfo.MBBMap[BI->getSuccessor(0)];
1831 MachineBasicBlock *FBB = FuncInfo.MBBMap[BI->getSuccessor(1)];
1832
Juergen Ributzkaad2109a2014-07-30 22:04:34 +00001833 AArch64CC::CondCode CC = AArch64CC::NE;
Tim Northover3b0846e2014-05-24 12:50:23 +00001834 if (const CmpInst *CI = dyn_cast<CmpInst>(BI->getCondition())) {
Juergen Ributzkafb3e1432014-09-17 17:46:47 +00001835 if (CI->hasOneUse() && isValueAvailable(CI)) {
1836 // Try to optimize or fold the cmp.
1837 CmpInst::Predicate Predicate = optimizeCmpPredicate(CI);
1838 switch (Predicate) {
1839 default:
1840 break;
1841 case CmpInst::FCMP_FALSE:
1842 fastEmitBranch(FBB, DbgLoc);
1843 return true;
1844 case CmpInst::FCMP_TRUE:
1845 fastEmitBranch(TBB, DbgLoc);
1846 return true;
1847 }
1848
1849 // Try to take advantage of fallthrough opportunities.
1850 if (FuncInfo.MBB->isLayoutSuccessor(TBB)) {
1851 std::swap(TBB, FBB);
1852 Predicate = CmpInst::getInversePredicate(Predicate);
1853 }
Tim Northover3b0846e2014-05-24 12:50:23 +00001854
Juergen Ributzkad8e30c02014-09-17 18:05:34 +00001855 // Try to optimize comparisons against zero.
1856 if (canFoldZeroIntoBranch(CI)) {
1857 const Value *LHS = CI->getOperand(0);
1858 const Value *RHS = CI->getOperand(1);
1859
1860 // Canonicalize zero values to the RHS.
1861 if (const auto *C = dyn_cast<ConstantInt>(LHS))
1862 if (C->isNullValue())
1863 std::swap(LHS, RHS);
1864
1865 static const unsigned OpcTable[2][2] = {
1866 {AArch64::CBZW, AArch64::CBZX }, {AArch64::CBNZW, AArch64::CBNZX}
1867 };
1868 bool IsCmpNE = Predicate == CmpInst::ICMP_NE;
1869 bool Is64Bit = LHS->getType()->isIntegerTy(64);
1870 unsigned Opc = OpcTable[IsCmpNE][Is64Bit];
1871
1872 unsigned SrcReg = getRegForValue(LHS);
1873 if (!SrcReg)
1874 return false;
1875 bool SrcIsKill = hasTrivialKill(LHS);
1876
1877 // Emit the combined compare and branch instruction.
1878 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(Opc))
1879 .addReg(SrcReg, getKillRegState(SrcIsKill))
1880 .addMBB(TBB);
1881
1882 // Obtain the branch weight and add the TrueBB to the successor list.
1883 uint32_t BranchWeight = 0;
1884 if (FuncInfo.BPI)
1885 BranchWeight = FuncInfo.BPI->getEdgeWeight(BI->getParent(),
1886 TBB->getBasicBlock());
1887 FuncInfo.MBB->addSuccessor(TBB, BranchWeight);
1888
1889 fastEmitBranch(FBB, DbgLoc);
1890 return true;
1891 }
1892
Tim Northover3b0846e2014-05-24 12:50:23 +00001893 // Emit the cmp.
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00001894 if (!emitCmp(CI->getOperand(0), CI->getOperand(1), CI->isUnsigned()))
Tim Northover3b0846e2014-05-24 12:50:23 +00001895 return false;
1896
Juergen Ributzkafb3e1432014-09-17 17:46:47 +00001897 // FCMP_UEQ and FCMP_ONE cannot be checked with a single branch
1898 // instruction.
1899 CC = getCompareCC(Predicate);
1900 AArch64CC::CondCode ExtraCC = AArch64CC::AL;
1901 switch (Predicate) {
1902 default:
1903 break;
1904 case CmpInst::FCMP_UEQ:
1905 ExtraCC = AArch64CC::EQ;
1906 CC = AArch64CC::VS;
1907 break;
1908 case CmpInst::FCMP_ONE:
1909 ExtraCC = AArch64CC::MI;
1910 CC = AArch64CC::GT;
1911 break;
1912 }
1913 assert((CC != AArch64CC::AL) && "Unexpected condition code.");
1914
1915 // Emit the extra branch for FCMP_UEQ and FCMP_ONE.
1916 if (ExtraCC != AArch64CC::AL) {
1917 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(AArch64::Bcc))
1918 .addImm(ExtraCC)
1919 .addMBB(TBB);
1920 }
1921
Tim Northover3b0846e2014-05-24 12:50:23 +00001922 // Emit the branch.
1923 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(AArch64::Bcc))
1924 .addImm(CC)
1925 .addMBB(TBB);
Juergen Ributzka50a40052014-08-01 18:39:24 +00001926
1927 // Obtain the branch weight and add the TrueBB to the successor list.
1928 uint32_t BranchWeight = 0;
1929 if (FuncInfo.BPI)
1930 BranchWeight = FuncInfo.BPI->getEdgeWeight(BI->getParent(),
1931 TBB->getBasicBlock());
1932 FuncInfo.MBB->addSuccessor(TBB, BranchWeight);
Tim Northover3b0846e2014-05-24 12:50:23 +00001933
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +00001934 fastEmitBranch(FBB, DbgLoc);
Tim Northover3b0846e2014-05-24 12:50:23 +00001935 return true;
1936 }
1937 } else if (TruncInst *TI = dyn_cast<TruncInst>(BI->getCondition())) {
1938 MVT SrcVT;
Juergen Ributzkafb3e1432014-09-17 17:46:47 +00001939 if (TI->hasOneUse() && isValueAvailable(TI) &&
1940 isTypeSupported(TI->getOperand(0)->getType(), SrcVT)) {
Tim Northover3b0846e2014-05-24 12:50:23 +00001941 unsigned CondReg = getRegForValue(TI->getOperand(0));
Juergen Ributzkac83265a2014-08-21 18:02:25 +00001942 if (!CondReg)
Tim Northover3b0846e2014-05-24 12:50:23 +00001943 return false;
Juergen Ributzkac83265a2014-08-21 18:02:25 +00001944 bool CondIsKill = hasTrivialKill(TI->getOperand(0));
Tim Northover3b0846e2014-05-24 12:50:23 +00001945
1946 // Issue an extract_subreg to get the lower 32-bits.
Juergen Ributzkac83265a2014-08-21 18:02:25 +00001947 if (SrcVT == MVT::i64) {
Juergen Ributzka88e32512014-09-03 20:56:59 +00001948 CondReg = fastEmitInst_extractsubreg(MVT::i32, CondReg, CondIsKill,
Tim Northover3b0846e2014-05-24 12:50:23 +00001949 AArch64::sub_32);
Juergen Ributzkac83265a2014-08-21 18:02:25 +00001950 CondIsKill = true;
1951 }
Tim Northover3b0846e2014-05-24 12:50:23 +00001952
Juergen Ributzka1dbc15f2014-09-04 01:29:18 +00001953 unsigned ANDReg = emitAnd_ri(MVT::i32, CondReg, CondIsKill, 1);
Juergen Ributzkac83265a2014-08-21 18:02:25 +00001954 assert(ANDReg && "Unexpected AND instruction emission failure.");
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00001955 emitICmp_ri(MVT::i32, ANDReg, /*IsKill=*/true, 0);
Tim Northover3b0846e2014-05-24 12:50:23 +00001956
Tim Northover3b0846e2014-05-24 12:50:23 +00001957 if (FuncInfo.MBB->isLayoutSuccessor(TBB)) {
1958 std::swap(TBB, FBB);
1959 CC = AArch64CC::EQ;
1960 }
1961 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(AArch64::Bcc))
1962 .addImm(CC)
1963 .addMBB(TBB);
Juergen Ributzka50a40052014-08-01 18:39:24 +00001964
1965 // Obtain the branch weight and add the TrueBB to the successor list.
1966 uint32_t BranchWeight = 0;
1967 if (FuncInfo.BPI)
1968 BranchWeight = FuncInfo.BPI->getEdgeWeight(BI->getParent(),
1969 TBB->getBasicBlock());
1970 FuncInfo.MBB->addSuccessor(TBB, BranchWeight);
1971
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +00001972 fastEmitBranch(FBB, DbgLoc);
Tim Northover3b0846e2014-05-24 12:50:23 +00001973 return true;
1974 }
Juergen Ributzkafb3e1432014-09-17 17:46:47 +00001975 } else if (const auto *CI = dyn_cast<ConstantInt>(BI->getCondition())) {
Tim Northover3b0846e2014-05-24 12:50:23 +00001976 uint64_t Imm = CI->getZExtValue();
1977 MachineBasicBlock *Target = (Imm == 0) ? FBB : TBB;
1978 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(AArch64::B))
1979 .addMBB(Target);
Juergen Ributzka50a40052014-08-01 18:39:24 +00001980
1981 // Obtain the branch weight and add the target to the successor list.
1982 uint32_t BranchWeight = 0;
1983 if (FuncInfo.BPI)
1984 BranchWeight = FuncInfo.BPI->getEdgeWeight(BI->getParent(),
1985 Target->getBasicBlock());
1986 FuncInfo.MBB->addSuccessor(Target, BranchWeight);
Tim Northover3b0846e2014-05-24 12:50:23 +00001987 return true;
Juergen Ributzkaad2109a2014-07-30 22:04:34 +00001988 } else if (foldXALUIntrinsic(CC, I, BI->getCondition())) {
1989 // Fake request the condition, otherwise the intrinsic might be completely
1990 // optimized away.
1991 unsigned CondReg = getRegForValue(BI->getCondition());
1992 if (!CondReg)
1993 return false;
1994
1995 // Emit the branch.
1996 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(AArch64::Bcc))
1997 .addImm(CC)
1998 .addMBB(TBB);
Juergen Ributzka50a40052014-08-01 18:39:24 +00001999
2000 // Obtain the branch weight and add the TrueBB to the successor list.
2001 uint32_t BranchWeight = 0;
2002 if (FuncInfo.BPI)
2003 BranchWeight = FuncInfo.BPI->getEdgeWeight(BI->getParent(),
2004 TBB->getBasicBlock());
2005 FuncInfo.MBB->addSuccessor(TBB, BranchWeight);
Juergen Ributzkaad2109a2014-07-30 22:04:34 +00002006
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +00002007 fastEmitBranch(FBB, DbgLoc);
Juergen Ributzkaad2109a2014-07-30 22:04:34 +00002008 return true;
Tim Northover3b0846e2014-05-24 12:50:23 +00002009 }
2010
2011 unsigned CondReg = getRegForValue(BI->getCondition());
2012 if (CondReg == 0)
2013 return false;
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00002014 bool CondRegIsKill = hasTrivialKill(BI->getCondition());
Tim Northover3b0846e2014-05-24 12:50:23 +00002015
2016 // We've been divorced from our compare! Our block was split, and
2017 // now our compare lives in a predecessor block. We musn't
2018 // re-compare here, as the children of the compare aren't guaranteed
2019 // live across the block boundary (we *could* check for this).
2020 // Regardless, the compare has been done in the predecessor block,
2021 // and it left a value for us in a virtual register. Ergo, we test
2022 // the one-bit value left in the virtual register.
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00002023 emitICmp_ri(MVT::i32, CondReg, CondRegIsKill, 0);
Tim Northover3b0846e2014-05-24 12:50:23 +00002024
Tim Northover3b0846e2014-05-24 12:50:23 +00002025 if (FuncInfo.MBB->isLayoutSuccessor(TBB)) {
2026 std::swap(TBB, FBB);
2027 CC = AArch64CC::EQ;
2028 }
2029
2030 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(AArch64::Bcc))
2031 .addImm(CC)
2032 .addMBB(TBB);
Juergen Ributzka50a40052014-08-01 18:39:24 +00002033
2034 // Obtain the branch weight and add the TrueBB to the successor list.
2035 uint32_t BranchWeight = 0;
2036 if (FuncInfo.BPI)
2037 BranchWeight = FuncInfo.BPI->getEdgeWeight(BI->getParent(),
2038 TBB->getBasicBlock());
2039 FuncInfo.MBB->addSuccessor(TBB, BranchWeight);
2040
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +00002041 fastEmitBranch(FBB, DbgLoc);
Tim Northover3b0846e2014-05-24 12:50:23 +00002042 return true;
2043}
2044
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00002045bool AArch64FastISel::selectIndirectBr(const Instruction *I) {
Tim Northover3b0846e2014-05-24 12:50:23 +00002046 const IndirectBrInst *BI = cast<IndirectBrInst>(I);
2047 unsigned AddrReg = getRegForValue(BI->getOperand(0));
2048 if (AddrReg == 0)
2049 return false;
2050
2051 // Emit the indirect branch.
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00002052 const MCInstrDesc &II = TII.get(AArch64::BR);
2053 AddrReg = constrainOperandRegClass(II, AddrReg, II.getNumDefs());
2054 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, II).addReg(AddrReg);
Tim Northover3b0846e2014-05-24 12:50:23 +00002055
2056 // Make sure the CFG is up-to-date.
2057 for (unsigned i = 0, e = BI->getNumSuccessors(); i != e; ++i)
2058 FuncInfo.MBB->addSuccessor(FuncInfo.MBBMap[BI->getSuccessor(i)]);
2059
2060 return true;
2061}
2062
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00002063bool AArch64FastISel::selectCmp(const Instruction *I) {
Tim Northover3b0846e2014-05-24 12:50:23 +00002064 const CmpInst *CI = cast<CmpInst>(I);
2065
Juergen Ributzka8984f482014-09-15 20:47:16 +00002066 // Try to optimize or fold the cmp.
2067 CmpInst::Predicate Predicate = optimizeCmpPredicate(CI);
2068 unsigned ResultReg = 0;
2069 switch (Predicate) {
2070 default:
2071 break;
2072 case CmpInst::FCMP_FALSE:
2073 ResultReg = createResultReg(&AArch64::GPR32RegClass);
2074 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc,
2075 TII.get(TargetOpcode::COPY), ResultReg)
2076 .addReg(AArch64::WZR, getKillRegState(true));
2077 break;
2078 case CmpInst::FCMP_TRUE:
2079 ResultReg = fastEmit_i(MVT::i32, MVT::i32, ISD::Constant, 1);
2080 break;
2081 }
2082
2083 if (ResultReg) {
2084 updateValueMap(I, ResultReg);
2085 return true;
2086 }
Tim Northover3b0846e2014-05-24 12:50:23 +00002087
2088 // Emit the cmp.
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00002089 if (!emitCmp(CI->getOperand(0), CI->getOperand(1), CI->isUnsigned()))
Tim Northover3b0846e2014-05-24 12:50:23 +00002090 return false;
2091
Juergen Ributzka8984f482014-09-15 20:47:16 +00002092 ResultReg = createResultReg(&AArch64::GPR32RegClass);
2093
2094 // FCMP_UEQ and FCMP_ONE cannot be checked with a single instruction. These
2095 // condition codes are inverted, because they are used by CSINC.
2096 static unsigned CondCodeTable[2][2] = {
2097 { AArch64CC::NE, AArch64CC::VC },
2098 { AArch64CC::PL, AArch64CC::LE }
2099 };
2100 unsigned *CondCodes = nullptr;
2101 switch (Predicate) {
2102 default:
2103 break;
2104 case CmpInst::FCMP_UEQ:
2105 CondCodes = &CondCodeTable[0][0];
2106 break;
2107 case CmpInst::FCMP_ONE:
2108 CondCodes = &CondCodeTable[1][0];
2109 break;
2110 }
2111
2112 if (CondCodes) {
2113 unsigned TmpReg1 = createResultReg(&AArch64::GPR32RegClass);
2114 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(AArch64::CSINCWr),
2115 TmpReg1)
2116 .addReg(AArch64::WZR, getKillRegState(true))
2117 .addReg(AArch64::WZR, getKillRegState(true))
2118 .addImm(CondCodes[0]);
2119 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(AArch64::CSINCWr),
2120 ResultReg)
2121 .addReg(TmpReg1, getKillRegState(true))
2122 .addReg(AArch64::WZR, getKillRegState(true))
2123 .addImm(CondCodes[1]);
2124
2125 updateValueMap(I, ResultReg);
2126 return true;
2127 }
2128
Tim Northover3b0846e2014-05-24 12:50:23 +00002129 // Now set a register based on the comparison.
Juergen Ributzka8984f482014-09-15 20:47:16 +00002130 AArch64CC::CondCode CC = getCompareCC(Predicate);
2131 assert((CC != AArch64CC::AL) && "Unexpected condition code.");
Tim Northover3b0846e2014-05-24 12:50:23 +00002132 AArch64CC::CondCode invertedCC = getInvertedCondCode(CC);
Tim Northover3b0846e2014-05-24 12:50:23 +00002133 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(AArch64::CSINCWr),
2134 ResultReg)
Juergen Ributzka8984f482014-09-15 20:47:16 +00002135 .addReg(AArch64::WZR, getKillRegState(true))
2136 .addReg(AArch64::WZR, getKillRegState(true))
Tim Northover3b0846e2014-05-24 12:50:23 +00002137 .addImm(invertedCC);
2138
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +00002139 updateValueMap(I, ResultReg);
Tim Northover3b0846e2014-05-24 12:50:23 +00002140 return true;
2141}
2142
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00002143bool AArch64FastISel::selectSelect(const Instruction *I) {
Tim Northover3b0846e2014-05-24 12:50:23 +00002144 const SelectInst *SI = cast<SelectInst>(I);
2145
2146 EVT DestEVT = TLI.getValueType(SI->getType(), true);
2147 if (!DestEVT.isSimple())
2148 return false;
2149
2150 MVT DestVT = DestEVT.getSimpleVT();
2151 if (DestVT != MVT::i32 && DestVT != MVT::i64 && DestVT != MVT::f32 &&
2152 DestVT != MVT::f64)
2153 return false;
2154
Juergen Ributzka3771fbb2014-07-30 22:04:37 +00002155 unsigned SelectOpc;
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00002156 const TargetRegisterClass *RC = nullptr;
Juergen Ributzka3771fbb2014-07-30 22:04:37 +00002157 switch (DestVT.SimpleTy) {
2158 default: return false;
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00002159 case MVT::i32:
2160 SelectOpc = AArch64::CSELWr; RC = &AArch64::GPR32RegClass; break;
2161 case MVT::i64:
2162 SelectOpc = AArch64::CSELXr; RC = &AArch64::GPR64RegClass; break;
2163 case MVT::f32:
2164 SelectOpc = AArch64::FCSELSrrr; RC = &AArch64::FPR32RegClass; break;
2165 case MVT::f64:
2166 SelectOpc = AArch64::FCSELDrrr; RC = &AArch64::FPR64RegClass; break;
Juergen Ributzka3771fbb2014-07-30 22:04:37 +00002167 }
Tim Northover3b0846e2014-05-24 12:50:23 +00002168
Juergen Ributzka3771fbb2014-07-30 22:04:37 +00002169 const Value *Cond = SI->getCondition();
2170 bool NeedTest = true;
2171 AArch64CC::CondCode CC = AArch64CC::NE;
2172 if (foldXALUIntrinsic(CC, I, Cond))
2173 NeedTest = false;
Tim Northover3b0846e2014-05-24 12:50:23 +00002174
Juergen Ributzka3771fbb2014-07-30 22:04:37 +00002175 unsigned CondReg = getRegForValue(Cond);
2176 if (!CondReg)
2177 return false;
2178 bool CondIsKill = hasTrivialKill(Cond);
2179
2180 if (NeedTest) {
Juergen Ributzka1dbc15f2014-09-04 01:29:18 +00002181 unsigned ANDReg = emitAnd_ri(MVT::i32, CondReg, CondIsKill, 1);
Juergen Ributzkac83265a2014-08-21 18:02:25 +00002182 assert(ANDReg && "Unexpected AND instruction emission failure.");
2183 emitICmp_ri(MVT::i32, ANDReg, /*IsKill=*/true, 0);
Tim Northover3b0846e2014-05-24 12:50:23 +00002184 }
2185
Juergen Ributzka3771fbb2014-07-30 22:04:37 +00002186 unsigned TrueReg = getRegForValue(SI->getTrueValue());
2187 bool TrueIsKill = hasTrivialKill(SI->getTrueValue());
2188
2189 unsigned FalseReg = getRegForValue(SI->getFalseValue());
2190 bool FalseIsKill = hasTrivialKill(SI->getFalseValue());
2191
2192 if (!TrueReg || !FalseReg)
2193 return false;
2194
Juergen Ributzka88e32512014-09-03 20:56:59 +00002195 unsigned ResultReg = fastEmitInst_rri(SelectOpc, RC, TrueReg, TrueIsKill,
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00002196 FalseReg, FalseIsKill, CC);
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +00002197 updateValueMap(I, ResultReg);
Tim Northover3b0846e2014-05-24 12:50:23 +00002198 return true;
2199}
2200
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00002201bool AArch64FastISel::selectFPExt(const Instruction *I) {
Tim Northover3b0846e2014-05-24 12:50:23 +00002202 Value *V = I->getOperand(0);
2203 if (!I->getType()->isDoubleTy() || !V->getType()->isFloatTy())
2204 return false;
2205
2206 unsigned Op = getRegForValue(V);
2207 if (Op == 0)
2208 return false;
2209
2210 unsigned ResultReg = createResultReg(&AArch64::FPR64RegClass);
2211 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(AArch64::FCVTDSr),
2212 ResultReg).addReg(Op);
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +00002213 updateValueMap(I, ResultReg);
Tim Northover3b0846e2014-05-24 12:50:23 +00002214 return true;
2215}
2216
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00002217bool AArch64FastISel::selectFPTrunc(const Instruction *I) {
Tim Northover3b0846e2014-05-24 12:50:23 +00002218 Value *V = I->getOperand(0);
2219 if (!I->getType()->isFloatTy() || !V->getType()->isDoubleTy())
2220 return false;
2221
2222 unsigned Op = getRegForValue(V);
2223 if (Op == 0)
2224 return false;
2225
2226 unsigned ResultReg = createResultReg(&AArch64::FPR32RegClass);
2227 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(AArch64::FCVTSDr),
2228 ResultReg).addReg(Op);
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +00002229 updateValueMap(I, ResultReg);
Tim Northover3b0846e2014-05-24 12:50:23 +00002230 return true;
2231}
2232
2233// FPToUI and FPToSI
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00002234bool AArch64FastISel::selectFPToInt(const Instruction *I, bool Signed) {
Tim Northover3b0846e2014-05-24 12:50:23 +00002235 MVT DestVT;
2236 if (!isTypeLegal(I->getType(), DestVT) || DestVT.isVector())
2237 return false;
2238
2239 unsigned SrcReg = getRegForValue(I->getOperand(0));
2240 if (SrcReg == 0)
2241 return false;
2242
2243 EVT SrcVT = TLI.getValueType(I->getOperand(0)->getType(), true);
2244 if (SrcVT == MVT::f128)
2245 return false;
2246
2247 unsigned Opc;
2248 if (SrcVT == MVT::f64) {
2249 if (Signed)
2250 Opc = (DestVT == MVT::i32) ? AArch64::FCVTZSUWDr : AArch64::FCVTZSUXDr;
2251 else
2252 Opc = (DestVT == MVT::i32) ? AArch64::FCVTZUUWDr : AArch64::FCVTZUUXDr;
2253 } else {
2254 if (Signed)
2255 Opc = (DestVT == MVT::i32) ? AArch64::FCVTZSUWSr : AArch64::FCVTZSUXSr;
2256 else
2257 Opc = (DestVT == MVT::i32) ? AArch64::FCVTZUUWSr : AArch64::FCVTZUUXSr;
2258 }
2259 unsigned ResultReg = createResultReg(
2260 DestVT == MVT::i32 ? &AArch64::GPR32RegClass : &AArch64::GPR64RegClass);
2261 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(Opc), ResultReg)
2262 .addReg(SrcReg);
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +00002263 updateValueMap(I, ResultReg);
Tim Northover3b0846e2014-05-24 12:50:23 +00002264 return true;
2265}
2266
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00002267bool AArch64FastISel::selectIntToFP(const Instruction *I, bool Signed) {
Tim Northover3b0846e2014-05-24 12:50:23 +00002268 MVT DestVT;
2269 if (!isTypeLegal(I->getType(), DestVT) || DestVT.isVector())
2270 return false;
2271 assert ((DestVT == MVT::f32 || DestVT == MVT::f64) &&
2272 "Unexpected value type.");
2273
2274 unsigned SrcReg = getRegForValue(I->getOperand(0));
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00002275 if (!SrcReg)
Tim Northover3b0846e2014-05-24 12:50:23 +00002276 return false;
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00002277 bool SrcIsKill = hasTrivialKill(I->getOperand(0));
Tim Northover3b0846e2014-05-24 12:50:23 +00002278
2279 EVT SrcVT = TLI.getValueType(I->getOperand(0)->getType(), true);
2280
2281 // Handle sign-extension.
2282 if (SrcVT == MVT::i16 || SrcVT == MVT::i8 || SrcVT == MVT::i1) {
2283 SrcReg =
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00002284 emitIntExt(SrcVT.getSimpleVT(), SrcReg, MVT::i32, /*isZExt*/ !Signed);
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00002285 if (!SrcReg)
Tim Northover3b0846e2014-05-24 12:50:23 +00002286 return false;
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00002287 SrcIsKill = true;
Tim Northover3b0846e2014-05-24 12:50:23 +00002288 }
2289
Tim Northover3b0846e2014-05-24 12:50:23 +00002290 unsigned Opc;
2291 if (SrcVT == MVT::i64) {
2292 if (Signed)
2293 Opc = (DestVT == MVT::f32) ? AArch64::SCVTFUXSri : AArch64::SCVTFUXDri;
2294 else
2295 Opc = (DestVT == MVT::f32) ? AArch64::UCVTFUXSri : AArch64::UCVTFUXDri;
2296 } else {
2297 if (Signed)
2298 Opc = (DestVT == MVT::f32) ? AArch64::SCVTFUWSri : AArch64::SCVTFUWDri;
2299 else
2300 Opc = (DestVT == MVT::f32) ? AArch64::UCVTFUWSri : AArch64::UCVTFUWDri;
2301 }
2302
Juergen Ributzka88e32512014-09-03 20:56:59 +00002303 unsigned ResultReg = fastEmitInst_r(Opc, TLI.getRegClassFor(DestVT), SrcReg,
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00002304 SrcIsKill);
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +00002305 updateValueMap(I, ResultReg);
Tim Northover3b0846e2014-05-24 12:50:23 +00002306 return true;
2307}
2308
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +00002309bool AArch64FastISel::fastLowerArguments() {
Juergen Ributzkaa126d1e2014-08-05 05:43:48 +00002310 if (!FuncInfo.CanLowerReturn)
2311 return false;
2312
2313 const Function *F = FuncInfo.Fn;
2314 if (F->isVarArg())
2315 return false;
2316
2317 CallingConv::ID CC = F->getCallingConv();
2318 if (CC != CallingConv::C)
2319 return false;
2320
Juergen Ributzka59e631c2014-09-16 00:25:30 +00002321 // Only handle simple cases of up to 8 GPR and FPR each.
Juergen Ributzkaa126d1e2014-08-05 05:43:48 +00002322 unsigned GPRCnt = 0;
2323 unsigned FPRCnt = 0;
2324 unsigned Idx = 0;
2325 for (auto const &Arg : F->args()) {
2326 // The first argument is at index 1.
2327 ++Idx;
2328 if (F->getAttributes().hasAttribute(Idx, Attribute::ByVal) ||
2329 F->getAttributes().hasAttribute(Idx, Attribute::InReg) ||
2330 F->getAttributes().hasAttribute(Idx, Attribute::StructRet) ||
2331 F->getAttributes().hasAttribute(Idx, Attribute::Nest))
2332 return false;
2333
2334 Type *ArgTy = Arg.getType();
Juergen Ributzka59e631c2014-09-16 00:25:30 +00002335 if (ArgTy->isStructTy() || ArgTy->isArrayTy())
Juergen Ributzkaa126d1e2014-08-05 05:43:48 +00002336 return false;
2337
2338 EVT ArgVT = TLI.getValueType(ArgTy);
Juergen Ributzka59e631c2014-09-16 00:25:30 +00002339 if (!ArgVT.isSimple())
2340 return false;
2341
2342 MVT VT = ArgVT.getSimpleVT().SimpleTy;
2343 if (VT.isFloatingPoint() && !Subtarget->hasFPARMv8())
2344 return false;
2345
2346 if (VT.isVector() &&
2347 (!Subtarget->hasNEON() || !Subtarget->isLittleEndian()))
2348 return false;
2349
2350 if (VT >= MVT::i1 && VT <= MVT::i64)
Juergen Ributzkaa126d1e2014-08-05 05:43:48 +00002351 ++GPRCnt;
Juergen Ributzka59e631c2014-09-16 00:25:30 +00002352 else if ((VT >= MVT::f16 && VT <= MVT::f64) || VT.is64BitVector() ||
2353 VT.is128BitVector())
Juergen Ributzkaa126d1e2014-08-05 05:43:48 +00002354 ++FPRCnt;
Juergen Ributzka59e631c2014-09-16 00:25:30 +00002355 else
2356 return false;
Juergen Ributzkaa126d1e2014-08-05 05:43:48 +00002357
2358 if (GPRCnt > 8 || FPRCnt > 8)
2359 return false;
2360 }
2361
Juergen Ributzka59e631c2014-09-16 00:25:30 +00002362 static const MCPhysReg Registers[6][8] = {
Juergen Ributzkaa126d1e2014-08-05 05:43:48 +00002363 { AArch64::W0, AArch64::W1, AArch64::W2, AArch64::W3, AArch64::W4,
2364 AArch64::W5, AArch64::W6, AArch64::W7 },
2365 { AArch64::X0, AArch64::X1, AArch64::X2, AArch64::X3, AArch64::X4,
2366 AArch64::X5, AArch64::X6, AArch64::X7 },
2367 { AArch64::H0, AArch64::H1, AArch64::H2, AArch64::H3, AArch64::H4,
2368 AArch64::H5, AArch64::H6, AArch64::H7 },
2369 { AArch64::S0, AArch64::S1, AArch64::S2, AArch64::S3, AArch64::S4,
2370 AArch64::S5, AArch64::S6, AArch64::S7 },
2371 { AArch64::D0, AArch64::D1, AArch64::D2, AArch64::D3, AArch64::D4,
Juergen Ributzka59e631c2014-09-16 00:25:30 +00002372 AArch64::D5, AArch64::D6, AArch64::D7 },
2373 { AArch64::Q0, AArch64::Q1, AArch64::Q2, AArch64::Q3, AArch64::Q4,
2374 AArch64::Q5, AArch64::Q6, AArch64::Q7 }
Juergen Ributzkaa126d1e2014-08-05 05:43:48 +00002375 };
2376
2377 unsigned GPRIdx = 0;
2378 unsigned FPRIdx = 0;
2379 for (auto const &Arg : F->args()) {
2380 MVT VT = TLI.getSimpleValueType(Arg.getType());
2381 unsigned SrcReg;
Juergen Ributzka59e631c2014-09-16 00:25:30 +00002382 const TargetRegisterClass *RC;
2383 if (VT >= MVT::i1 && VT <= MVT::i32) {
2384 SrcReg = Registers[0][GPRIdx++];
2385 RC = &AArch64::GPR32RegClass;
2386 VT = MVT::i32;
2387 } else if (VT == MVT::i64) {
2388 SrcReg = Registers[1][GPRIdx++];
2389 RC = &AArch64::GPR64RegClass;
2390 } else if (VT == MVT::f16) {
2391 SrcReg = Registers[2][FPRIdx++];
2392 RC = &AArch64::FPR16RegClass;
2393 } else if (VT == MVT::f32) {
2394 SrcReg = Registers[3][FPRIdx++];
2395 RC = &AArch64::FPR32RegClass;
2396 } else if ((VT == MVT::f64) || VT.is64BitVector()) {
2397 SrcReg = Registers[4][FPRIdx++];
2398 RC = &AArch64::FPR64RegClass;
2399 } else if (VT.is128BitVector()) {
2400 SrcReg = Registers[5][FPRIdx++];
2401 RC = &AArch64::FPR128RegClass;
2402 } else
2403 llvm_unreachable("Unexpected value type.");
Juergen Ributzkaa126d1e2014-08-05 05:43:48 +00002404
Juergen Ributzkaa126d1e2014-08-05 05:43:48 +00002405 unsigned DstReg = FuncInfo.MF->addLiveIn(SrcReg, RC);
2406 // FIXME: Unfortunately it's necessary to emit a copy from the livein copy.
2407 // Without this, EmitLiveInCopies may eliminate the livein if its only
2408 // use is a bitcast (which isn't turned into an instruction).
2409 unsigned ResultReg = createResultReg(RC);
2410 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc,
2411 TII.get(TargetOpcode::COPY), ResultReg)
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00002412 .addReg(DstReg, getKillRegState(true));
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +00002413 updateValueMap(&Arg, ResultReg);
Juergen Ributzkaa126d1e2014-08-05 05:43:48 +00002414 }
2415 return true;
2416}
2417
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00002418bool AArch64FastISel::processCallArgs(CallLoweringInfo &CLI,
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002419 SmallVectorImpl<MVT> &OutVTs,
2420 unsigned &NumBytes) {
2421 CallingConv::ID CC = CLI.CallConv;
Tim Northover3b0846e2014-05-24 12:50:23 +00002422 SmallVector<CCValAssign, 16> ArgLocs;
Eric Christopherb5217502014-08-06 18:45:26 +00002423 CCState CCInfo(CC, false, *FuncInfo.MF, ArgLocs, *Context);
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002424 CCInfo.AnalyzeCallOperands(OutVTs, CLI.OutFlags, CCAssignFnForCall(CC));
Tim Northover3b0846e2014-05-24 12:50:23 +00002425
2426 // Get a count of how many bytes are to be pushed on the stack.
2427 NumBytes = CCInfo.getNextStackOffset();
2428
2429 // Issue CALLSEQ_START
2430 unsigned AdjStackDown = TII.getCallFrameSetupOpcode();
2431 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(AdjStackDown))
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002432 .addImm(NumBytes);
Tim Northover3b0846e2014-05-24 12:50:23 +00002433
2434 // Process the args.
2435 for (unsigned i = 0, e = ArgLocs.size(); i != e; ++i) {
2436 CCValAssign &VA = ArgLocs[i];
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002437 const Value *ArgVal = CLI.OutVals[VA.getValNo()];
2438 MVT ArgVT = OutVTs[VA.getValNo()];
2439
2440 unsigned ArgReg = getRegForValue(ArgVal);
2441 if (!ArgReg)
2442 return false;
Tim Northover3b0846e2014-05-24 12:50:23 +00002443
2444 // Handle arg promotion: SExt, ZExt, AExt.
2445 switch (VA.getLocInfo()) {
2446 case CCValAssign::Full:
2447 break;
2448 case CCValAssign::SExt: {
2449 MVT DestVT = VA.getLocVT();
2450 MVT SrcVT = ArgVT;
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00002451 ArgReg = emitIntExt(SrcVT, ArgReg, DestVT, /*isZExt=*/false);
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002452 if (!ArgReg)
Tim Northover3b0846e2014-05-24 12:50:23 +00002453 return false;
Tim Northover3b0846e2014-05-24 12:50:23 +00002454 break;
2455 }
2456 case CCValAssign::AExt:
2457 // Intentional fall-through.
2458 case CCValAssign::ZExt: {
2459 MVT DestVT = VA.getLocVT();
2460 MVT SrcVT = ArgVT;
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00002461 ArgReg = emitIntExt(SrcVT, ArgReg, DestVT, /*isZExt=*/true);
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002462 if (!ArgReg)
Tim Northover3b0846e2014-05-24 12:50:23 +00002463 return false;
Tim Northover3b0846e2014-05-24 12:50:23 +00002464 break;
2465 }
2466 default:
2467 llvm_unreachable("Unknown arg promotion!");
2468 }
2469
2470 // Now copy/store arg to correct locations.
2471 if (VA.isRegLoc() && !VA.needsCustom()) {
2472 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc,
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002473 TII.get(TargetOpcode::COPY), VA.getLocReg()).addReg(ArgReg);
2474 CLI.OutRegs.push_back(VA.getLocReg());
Tim Northover3b0846e2014-05-24 12:50:23 +00002475 } else if (VA.needsCustom()) {
2476 // FIXME: Handle custom args.
2477 return false;
2478 } else {
2479 assert(VA.isMemLoc() && "Assuming store on stack.");
2480
Juergen Ributzka39032672014-07-31 00:11:11 +00002481 // Don't emit stores for undef values.
2482 if (isa<UndefValue>(ArgVal))
2483 continue;
2484
Tim Northover3b0846e2014-05-24 12:50:23 +00002485 // Need to store on the stack.
Tim Northover6890add2014-06-03 13:54:53 +00002486 unsigned ArgSize = (ArgVT.getSizeInBits() + 7) / 8;
Tim Northover3b0846e2014-05-24 12:50:23 +00002487
2488 unsigned BEAlign = 0;
2489 if (ArgSize < 8 && !Subtarget->isLittleEndian())
2490 BEAlign = 8 - ArgSize;
2491
2492 Address Addr;
2493 Addr.setKind(Address::RegBase);
2494 Addr.setReg(AArch64::SP);
2495 Addr.setOffset(VA.getLocMemOffset() + BEAlign);
2496
Juergen Ributzka241fd482014-08-08 17:24:10 +00002497 unsigned Alignment = DL.getABITypeAlignment(ArgVal->getType());
2498 MachineMemOperand *MMO = FuncInfo.MF->getMachineMemOperand(
2499 MachinePointerInfo::getStack(Addr.getOffset()),
2500 MachineMemOperand::MOStore, ArgVT.getStoreSize(), Alignment);
2501
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00002502 if (!emitStore(ArgVT, ArgReg, Addr, MMO))
Tim Northover3b0846e2014-05-24 12:50:23 +00002503 return false;
2504 }
2505 }
2506 return true;
2507}
2508
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00002509bool AArch64FastISel::finishCall(CallLoweringInfo &CLI, MVT RetVT,
Juergen Ributzka1b014502014-07-23 20:03:13 +00002510 unsigned NumBytes) {
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002511 CallingConv::ID CC = CLI.CallConv;
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002512
Tim Northover3b0846e2014-05-24 12:50:23 +00002513 // Issue CALLSEQ_END
2514 unsigned AdjStackUp = TII.getCallFrameDestroyOpcode();
2515 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(AdjStackUp))
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002516 .addImm(NumBytes).addImm(0);
Tim Northover3b0846e2014-05-24 12:50:23 +00002517
2518 // Now the return value.
2519 if (RetVT != MVT::isVoid) {
2520 SmallVector<CCValAssign, 16> RVLocs;
Eric Christopherb5217502014-08-06 18:45:26 +00002521 CCState CCInfo(CC, false, *FuncInfo.MF, RVLocs, *Context);
Tim Northover3b0846e2014-05-24 12:50:23 +00002522 CCInfo.AnalyzeCallResult(RetVT, CCAssignFnForCall(CC));
2523
2524 // Only handle a single return value.
2525 if (RVLocs.size() != 1)
2526 return false;
2527
2528 // Copy all of the result registers out of their specified physreg.
2529 MVT CopyVT = RVLocs[0].getValVT();
2530 unsigned ResultReg = createResultReg(TLI.getRegClassFor(CopyVT));
2531 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc,
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002532 TII.get(TargetOpcode::COPY), ResultReg)
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00002533 .addReg(RVLocs[0].getLocReg());
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002534 CLI.InRegs.push_back(RVLocs[0].getLocReg());
Tim Northover3b0846e2014-05-24 12:50:23 +00002535
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002536 CLI.ResultReg = ResultReg;
2537 CLI.NumResultRegs = 1;
Tim Northover3b0846e2014-05-24 12:50:23 +00002538 }
2539
2540 return true;
2541}
2542
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +00002543bool AArch64FastISel::fastLowerCall(CallLoweringInfo &CLI) {
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002544 CallingConv::ID CC = CLI.CallConv;
Akira Hatanakab74db092014-08-13 23:23:58 +00002545 bool IsTailCall = CLI.IsTailCall;
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002546 bool IsVarArg = CLI.IsVarArg;
2547 const Value *Callee = CLI.Callee;
2548 const char *SymName = CLI.SymName;
Tim Northover3b0846e2014-05-24 12:50:23 +00002549
Juergen Ributzkaafa034f2014-09-15 22:07:49 +00002550 if (!Callee && !SymName)
2551 return false;
2552
Akira Hatanakab74db092014-08-13 23:23:58 +00002553 // Allow SelectionDAG isel to handle tail calls.
2554 if (IsTailCall)
2555 return false;
2556
Juergen Ributzka052e6c22014-07-31 04:10:40 +00002557 CodeModel::Model CM = TM.getCodeModel();
2558 // Only support the small and large code model.
2559 if (CM != CodeModel::Small && CM != CodeModel::Large)
2560 return false;
2561
2562 // FIXME: Add large code model support for ELF.
2563 if (CM == CodeModel::Large && !Subtarget->isTargetMachO())
Tim Northover3b0846e2014-05-24 12:50:23 +00002564 return false;
2565
Tim Northover3b0846e2014-05-24 12:50:23 +00002566 // Let SDISel handle vararg functions.
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002567 if (IsVarArg)
Tim Northover3b0846e2014-05-24 12:50:23 +00002568 return false;
2569
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002570 // FIXME: Only handle *simple* calls for now.
Tim Northover3b0846e2014-05-24 12:50:23 +00002571 MVT RetVT;
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002572 if (CLI.RetTy->isVoidTy())
Tim Northover3b0846e2014-05-24 12:50:23 +00002573 RetVT = MVT::isVoid;
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002574 else if (!isTypeLegal(CLI.RetTy, RetVT))
Tim Northover3b0846e2014-05-24 12:50:23 +00002575 return false;
2576
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002577 for (auto Flag : CLI.OutFlags)
2578 if (Flag.isInReg() || Flag.isSRet() || Flag.isNest() || Flag.isByVal())
2579 return false;
2580
Tim Northover3b0846e2014-05-24 12:50:23 +00002581 // Set up the argument vectors.
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002582 SmallVector<MVT, 16> OutVTs;
2583 OutVTs.reserve(CLI.OutVals.size());
Tim Northover3b0846e2014-05-24 12:50:23 +00002584
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002585 for (auto *Val : CLI.OutVals) {
2586 MVT VT;
2587 if (!isTypeLegal(Val->getType(), VT) &&
2588 !(VT == MVT::i1 || VT == MVT::i8 || VT == MVT::i16))
Tim Northover3b0846e2014-05-24 12:50:23 +00002589 return false;
2590
2591 // We don't handle vector parameters yet.
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002592 if (VT.isVector() || VT.getSizeInBits() > 64)
Tim Northover3b0846e2014-05-24 12:50:23 +00002593 return false;
2594
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002595 OutVTs.push_back(VT);
Tim Northover3b0846e2014-05-24 12:50:23 +00002596 }
2597
Juergen Ributzka052e6c22014-07-31 04:10:40 +00002598 Address Addr;
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00002599 if (Callee && !computeCallAddress(Callee, Addr))
Juergen Ributzka052e6c22014-07-31 04:10:40 +00002600 return false;
2601
Tim Northover3b0846e2014-05-24 12:50:23 +00002602 // Handle the arguments now that we've gotten them.
Tim Northover3b0846e2014-05-24 12:50:23 +00002603 unsigned NumBytes;
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00002604 if (!processCallArgs(CLI, OutVTs, NumBytes))
Tim Northover3b0846e2014-05-24 12:50:23 +00002605 return false;
2606
2607 // Issue the call.
2608 MachineInstrBuilder MIB;
Juergen Ributzka052e6c22014-07-31 04:10:40 +00002609 if (CM == CodeModel::Small) {
Juergen Ributzkac5c1c602014-08-29 23:48:06 +00002610 const MCInstrDesc &II = TII.get(Addr.getReg() ? AArch64::BLR : AArch64::BL);
2611 MIB = BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, II);
Juergen Ributzka052e6c22014-07-31 04:10:40 +00002612 if (SymName)
2613 MIB.addExternalSymbol(SymName, 0);
2614 else if (Addr.getGlobalValue())
2615 MIB.addGlobalAddress(Addr.getGlobalValue(), 0, 0);
Juergen Ributzkac5c1c602014-08-29 23:48:06 +00002616 else if (Addr.getReg()) {
2617 unsigned Reg = constrainOperandRegClass(II, Addr.getReg(), 0);
2618 MIB.addReg(Reg);
2619 } else
Juergen Ributzka052e6c22014-07-31 04:10:40 +00002620 return false;
2621 } else {
2622 unsigned CallReg = 0;
2623 if (SymName) {
2624 unsigned ADRPReg = createResultReg(&AArch64::GPR64commonRegClass);
2625 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(AArch64::ADRP),
2626 ADRPReg)
2627 .addExternalSymbol(SymName, AArch64II::MO_GOT | AArch64II::MO_PAGE);
2628
2629 CallReg = createResultReg(&AArch64::GPR64RegClass);
2630 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(AArch64::LDRXui),
2631 CallReg)
2632 .addReg(ADRPReg)
2633 .addExternalSymbol(SymName, AArch64II::MO_GOT | AArch64II::MO_PAGEOFF |
2634 AArch64II::MO_NC);
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00002635 } else if (Addr.getGlobalValue())
2636 CallReg = materializeGV(Addr.getGlobalValue());
2637 else if (Addr.getReg())
Juergen Ributzka052e6c22014-07-31 04:10:40 +00002638 CallReg = Addr.getReg();
2639
2640 if (!CallReg)
2641 return false;
2642
Juergen Ributzkac5c1c602014-08-29 23:48:06 +00002643 const MCInstrDesc &II = TII.get(AArch64::BLR);
2644 CallReg = constrainOperandRegClass(II, CallReg, 0);
2645 MIB = BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, II).addReg(CallReg);
Juergen Ributzka052e6c22014-07-31 04:10:40 +00002646 }
Tim Northover3b0846e2014-05-24 12:50:23 +00002647
2648 // Add implicit physical register uses to the call.
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002649 for (auto Reg : CLI.OutRegs)
2650 MIB.addReg(Reg, RegState::Implicit);
Tim Northover3b0846e2014-05-24 12:50:23 +00002651
2652 // Add a register mask with the call-preserved registers.
2653 // Proper defs for return values will be added by setPhysRegsDeadExcept().
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002654 MIB.addRegMask(TRI.getCallPreservedMask(CC));
Tim Northover3b0846e2014-05-24 12:50:23 +00002655
Juergen Ributzka052e6c22014-07-31 04:10:40 +00002656 CLI.Call = MIB;
2657
Tim Northover3b0846e2014-05-24 12:50:23 +00002658 // Finish off the call including any return values.
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00002659 return finishCall(CLI, RetVT, NumBytes);
Tim Northover3b0846e2014-05-24 12:50:23 +00002660}
2661
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00002662bool AArch64FastISel::isMemCpySmall(uint64_t Len, unsigned Alignment) {
Tim Northover3b0846e2014-05-24 12:50:23 +00002663 if (Alignment)
2664 return Len / Alignment <= 4;
2665 else
2666 return Len < 32;
2667}
2668
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00002669bool AArch64FastISel::tryEmitSmallMemCpy(Address Dest, Address Src,
Tim Northover3b0846e2014-05-24 12:50:23 +00002670 uint64_t Len, unsigned Alignment) {
2671 // Make sure we don't bloat code by inlining very large memcpy's.
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00002672 if (!isMemCpySmall(Len, Alignment))
Tim Northover3b0846e2014-05-24 12:50:23 +00002673 return false;
2674
2675 int64_t UnscaledOffset = 0;
2676 Address OrigDest = Dest;
2677 Address OrigSrc = Src;
2678
2679 while (Len) {
2680 MVT VT;
2681 if (!Alignment || Alignment >= 8) {
2682 if (Len >= 8)
2683 VT = MVT::i64;
2684 else if (Len >= 4)
2685 VT = MVT::i32;
2686 else if (Len >= 2)
2687 VT = MVT::i16;
2688 else {
2689 VT = MVT::i8;
2690 }
2691 } else {
2692 // Bound based on alignment.
2693 if (Len >= 4 && Alignment == 4)
2694 VT = MVT::i32;
2695 else if (Len >= 2 && Alignment == 2)
2696 VT = MVT::i16;
2697 else {
2698 VT = MVT::i8;
2699 }
2700 }
2701
2702 bool RV;
2703 unsigned ResultReg;
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00002704 RV = emitLoad(VT, ResultReg, Src);
Tim Northoverc19445d2014-06-10 09:52:40 +00002705 if (!RV)
2706 return false;
2707
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00002708 RV = emitStore(VT, ResultReg, Dest);
Tim Northoverc19445d2014-06-10 09:52:40 +00002709 if (!RV)
2710 return false;
Tim Northover3b0846e2014-05-24 12:50:23 +00002711
2712 int64_t Size = VT.getSizeInBits() / 8;
2713 Len -= Size;
2714 UnscaledOffset += Size;
2715
2716 // We need to recompute the unscaled offset for each iteration.
2717 Dest.setOffset(OrigDest.getOffset() + UnscaledOffset);
2718 Src.setOffset(OrigSrc.getOffset() + UnscaledOffset);
2719 }
2720
2721 return true;
2722}
2723
Juergen Ributzkaad2109a2014-07-30 22:04:34 +00002724/// \brief Check if it is possible to fold the condition from the XALU intrinsic
2725/// into the user. The condition code will only be updated on success.
2726bool AArch64FastISel::foldXALUIntrinsic(AArch64CC::CondCode &CC,
2727 const Instruction *I,
2728 const Value *Cond) {
2729 if (!isa<ExtractValueInst>(Cond))
2730 return false;
2731
2732 const auto *EV = cast<ExtractValueInst>(Cond);
2733 if (!isa<IntrinsicInst>(EV->getAggregateOperand()))
2734 return false;
2735
2736 const auto *II = cast<IntrinsicInst>(EV->getAggregateOperand());
2737 MVT RetVT;
2738 const Function *Callee = II->getCalledFunction();
2739 Type *RetTy =
2740 cast<StructType>(Callee->getReturnType())->getTypeAtIndex(0U);
2741 if (!isTypeLegal(RetTy, RetVT))
2742 return false;
2743
2744 if (RetVT != MVT::i32 && RetVT != MVT::i64)
2745 return false;
2746
2747 AArch64CC::CondCode TmpCC;
2748 switch (II->getIntrinsicID()) {
2749 default: return false;
2750 case Intrinsic::sadd_with_overflow:
2751 case Intrinsic::ssub_with_overflow: TmpCC = AArch64CC::VS; break;
2752 case Intrinsic::uadd_with_overflow: TmpCC = AArch64CC::HS; break;
2753 case Intrinsic::usub_with_overflow: TmpCC = AArch64CC::LO; break;
2754 case Intrinsic::smul_with_overflow:
2755 case Intrinsic::umul_with_overflow: TmpCC = AArch64CC::NE; break;
2756 }
2757
2758 // Check if both instructions are in the same basic block.
Juergen Ributzkafb3e1432014-09-17 17:46:47 +00002759 if (!isValueAvailable(II))
Juergen Ributzkaad2109a2014-07-30 22:04:34 +00002760 return false;
2761
2762 // Make sure nothing is in the way
2763 BasicBlock::const_iterator Start = I;
2764 BasicBlock::const_iterator End = II;
2765 for (auto Itr = std::prev(Start); Itr != End; --Itr) {
2766 // We only expect extractvalue instructions between the intrinsic and the
2767 // instruction to be selected.
2768 if (!isa<ExtractValueInst>(Itr))
2769 return false;
2770
2771 // Check that the extractvalue operand comes from the intrinsic.
2772 const auto *EVI = cast<ExtractValueInst>(Itr);
2773 if (EVI->getAggregateOperand() != II)
2774 return false;
2775 }
2776
2777 CC = TmpCC;
2778 return true;
2779}
2780
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +00002781bool AArch64FastISel::fastLowerIntrinsicCall(const IntrinsicInst *II) {
Tim Northover3b0846e2014-05-24 12:50:23 +00002782 // FIXME: Handle more intrinsics.
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002783 switch (II->getIntrinsicID()) {
Juergen Ributzka5d6c43e2014-07-25 17:47:14 +00002784 default: return false;
2785 case Intrinsic::frameaddress: {
2786 MachineFrameInfo *MFI = FuncInfo.MF->getFrameInfo();
2787 MFI->setFrameAddressIsTaken(true);
2788
2789 const AArch64RegisterInfo *RegInfo =
Eric Christopherd9134482014-08-04 21:25:23 +00002790 static_cast<const AArch64RegisterInfo *>(
2791 TM.getSubtargetImpl()->getRegisterInfo());
Juergen Ributzka5d6c43e2014-07-25 17:47:14 +00002792 unsigned FramePtr = RegInfo->getFrameRegister(*(FuncInfo.MF));
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00002793 unsigned SrcReg = MRI.createVirtualRegister(&AArch64::GPR64RegClass);
2794 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc,
2795 TII.get(TargetOpcode::COPY), SrcReg).addReg(FramePtr);
Juergen Ributzka5d6c43e2014-07-25 17:47:14 +00002796 // Recursively load frame address
2797 // ldr x0, [fp]
2798 // ldr x0, [x0]
2799 // ldr x0, [x0]
2800 // ...
2801 unsigned DestReg;
2802 unsigned Depth = cast<ConstantInt>(II->getOperand(0))->getZExtValue();
2803 while (Depth--) {
Juergen Ributzka88e32512014-09-03 20:56:59 +00002804 DestReg = fastEmitInst_ri(AArch64::LDRXui, &AArch64::GPR64RegClass,
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00002805 SrcReg, /*IsKill=*/true, 0);
2806 assert(DestReg && "Unexpected LDR instruction emission failure.");
Juergen Ributzka5d6c43e2014-07-25 17:47:14 +00002807 SrcReg = DestReg;
2808 }
2809
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +00002810 updateValueMap(II, SrcReg);
Juergen Ributzka5d6c43e2014-07-25 17:47:14 +00002811 return true;
2812 }
Tim Northover3b0846e2014-05-24 12:50:23 +00002813 case Intrinsic::memcpy:
2814 case Intrinsic::memmove: {
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002815 const auto *MTI = cast<MemTransferInst>(II);
Tim Northover3b0846e2014-05-24 12:50:23 +00002816 // Don't handle volatile.
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002817 if (MTI->isVolatile())
Tim Northover3b0846e2014-05-24 12:50:23 +00002818 return false;
2819
Juergen Ributzka843f14f2014-08-27 23:09:40 +00002820 // Disable inlining for memmove before calls to ComputeAddress. Otherwise,
Tim Northover3b0846e2014-05-24 12:50:23 +00002821 // we would emit dead code because we don't currently handle memmoves.
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002822 bool IsMemCpy = (II->getIntrinsicID() == Intrinsic::memcpy);
2823 if (isa<ConstantInt>(MTI->getLength()) && IsMemCpy) {
Tim Northover3b0846e2014-05-24 12:50:23 +00002824 // Small memcpy's are common enough that we want to do them without a call
2825 // if possible.
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002826 uint64_t Len = cast<ConstantInt>(MTI->getLength())->getZExtValue();
2827 unsigned Alignment = MTI->getAlignment();
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00002828 if (isMemCpySmall(Len, Alignment)) {
Tim Northover3b0846e2014-05-24 12:50:23 +00002829 Address Dest, Src;
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00002830 if (!computeAddress(MTI->getRawDest(), Dest) ||
2831 !computeAddress(MTI->getRawSource(), Src))
Tim Northover3b0846e2014-05-24 12:50:23 +00002832 return false;
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00002833 if (tryEmitSmallMemCpy(Dest, Src, Len, Alignment))
Tim Northover3b0846e2014-05-24 12:50:23 +00002834 return true;
2835 }
2836 }
2837
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002838 if (!MTI->getLength()->getType()->isIntegerTy(64))
Tim Northover3b0846e2014-05-24 12:50:23 +00002839 return false;
2840
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002841 if (MTI->getSourceAddressSpace() > 255 || MTI->getDestAddressSpace() > 255)
Tim Northover3b0846e2014-05-24 12:50:23 +00002842 // Fast instruction selection doesn't support the special
2843 // address spaces.
2844 return false;
2845
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002846 const char *IntrMemName = isa<MemCpyInst>(II) ? "memcpy" : "memmove";
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +00002847 return lowerCallTo(II, IntrMemName, II->getNumArgOperands() - 2);
Tim Northover3b0846e2014-05-24 12:50:23 +00002848 }
2849 case Intrinsic::memset: {
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002850 const MemSetInst *MSI = cast<MemSetInst>(II);
Tim Northover3b0846e2014-05-24 12:50:23 +00002851 // Don't handle volatile.
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002852 if (MSI->isVolatile())
Tim Northover3b0846e2014-05-24 12:50:23 +00002853 return false;
2854
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002855 if (!MSI->getLength()->getType()->isIntegerTy(64))
Tim Northover3b0846e2014-05-24 12:50:23 +00002856 return false;
2857
Juergen Ributzka2581fa52014-07-22 23:14:58 +00002858 if (MSI->getDestAddressSpace() > 255)
Tim Northover3b0846e2014-05-24 12:50:23 +00002859 // Fast instruction selection doesn't support the special
2860 // address spaces.
2861 return false;
2862
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +00002863 return lowerCallTo(II, "memset", II->getNumArgOperands() - 2);
Tim Northover3b0846e2014-05-24 12:50:23 +00002864 }
Juergen Ributzka993224a2014-09-15 22:33:06 +00002865 case Intrinsic::sin:
2866 case Intrinsic::cos:
2867 case Intrinsic::pow: {
2868 MVT RetVT;
2869 if (!isTypeLegal(II->getType(), RetVT))
2870 return false;
2871
2872 if (RetVT != MVT::f32 && RetVT != MVT::f64)
2873 return false;
2874
2875 static const RTLIB::Libcall LibCallTable[3][2] = {
2876 { RTLIB::SIN_F32, RTLIB::SIN_F64 },
2877 { RTLIB::COS_F32, RTLIB::COS_F64 },
2878 { RTLIB::POW_F32, RTLIB::POW_F64 }
2879 };
2880 RTLIB::Libcall LC;
2881 bool Is64Bit = RetVT == MVT::f64;
2882 switch (II->getIntrinsicID()) {
2883 default:
2884 llvm_unreachable("Unexpected intrinsic.");
2885 case Intrinsic::sin:
2886 LC = LibCallTable[0][Is64Bit];
2887 break;
2888 case Intrinsic::cos:
2889 LC = LibCallTable[1][Is64Bit];
2890 break;
2891 case Intrinsic::pow:
2892 LC = LibCallTable[2][Is64Bit];
2893 break;
2894 }
2895
2896 ArgListTy Args;
2897 Args.reserve(II->getNumArgOperands());
2898
2899 // Populate the argument list.
2900 for (auto &Arg : II->arg_operands()) {
2901 ArgListEntry Entry;
2902 Entry.Val = Arg;
2903 Entry.Ty = Arg->getType();
2904 Args.push_back(Entry);
2905 }
2906
2907 CallLoweringInfo CLI;
2908 CLI.setCallee(TLI.getLibcallCallingConv(LC), II->getType(),
2909 TLI.getLibcallName(LC), std::move(Args));
2910 if (!lowerCallTo(CLI))
2911 return false;
2912 updateValueMap(II, CLI.ResultReg);
2913 return true;
2914 }
Tim Northover3b0846e2014-05-24 12:50:23 +00002915 case Intrinsic::trap: {
2916 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc, TII.get(AArch64::BRK))
2917 .addImm(1);
2918 return true;
2919 }
Juergen Ributzka130e77e2014-07-31 06:25:33 +00002920 case Intrinsic::sqrt: {
2921 Type *RetTy = II->getCalledFunction()->getReturnType();
2922
2923 MVT VT;
2924 if (!isTypeLegal(RetTy, VT))
2925 return false;
2926
2927 unsigned Op0Reg = getRegForValue(II->getOperand(0));
2928 if (!Op0Reg)
2929 return false;
2930 bool Op0IsKill = hasTrivialKill(II->getOperand(0));
2931
Juergen Ributzka88e32512014-09-03 20:56:59 +00002932 unsigned ResultReg = fastEmit_r(VT, VT, ISD::FSQRT, Op0Reg, Op0IsKill);
Juergen Ributzka130e77e2014-07-31 06:25:33 +00002933 if (!ResultReg)
2934 return false;
2935
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +00002936 updateValueMap(II, ResultReg);
Juergen Ributzka130e77e2014-07-31 06:25:33 +00002937 return true;
2938 }
Juergen Ributzkad43da752014-07-30 22:04:31 +00002939 case Intrinsic::sadd_with_overflow:
2940 case Intrinsic::uadd_with_overflow:
2941 case Intrinsic::ssub_with_overflow:
2942 case Intrinsic::usub_with_overflow:
2943 case Intrinsic::smul_with_overflow:
2944 case Intrinsic::umul_with_overflow: {
2945 // This implements the basic lowering of the xalu with overflow intrinsics.
2946 const Function *Callee = II->getCalledFunction();
2947 auto *Ty = cast<StructType>(Callee->getReturnType());
2948 Type *RetTy = Ty->getTypeAtIndex(0U);
Juergen Ributzkad43da752014-07-30 22:04:31 +00002949
2950 MVT VT;
2951 if (!isTypeLegal(RetTy, VT))
2952 return false;
2953
2954 if (VT != MVT::i32 && VT != MVT::i64)
2955 return false;
2956
2957 const Value *LHS = II->getArgOperand(0);
2958 const Value *RHS = II->getArgOperand(1);
2959 // Canonicalize immediate to the RHS.
2960 if (isa<ConstantInt>(LHS) && !isa<ConstantInt>(RHS) &&
2961 isCommutativeIntrinsic(II))
2962 std::swap(LHS, RHS);
2963
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00002964 unsigned ResultReg1 = 0, ResultReg2 = 0, MulReg = 0;
Juergen Ributzkad43da752014-07-30 22:04:31 +00002965 AArch64CC::CondCode CC = AArch64CC::Invalid;
Juergen Ributzkad43da752014-07-30 22:04:31 +00002966 switch (II->getIntrinsicID()) {
2967 default: llvm_unreachable("Unexpected intrinsic!");
2968 case Intrinsic::sadd_with_overflow:
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00002969 ResultReg1 = emitAdd(VT, LHS, RHS, /*SetFlags=*/true);
2970 CC = AArch64CC::VS;
2971 break;
Juergen Ributzkad43da752014-07-30 22:04:31 +00002972 case Intrinsic::uadd_with_overflow:
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00002973 ResultReg1 = emitAdd(VT, LHS, RHS, /*SetFlags=*/true);
2974 CC = AArch64CC::HS;
2975 break;
Juergen Ributzkad43da752014-07-30 22:04:31 +00002976 case Intrinsic::ssub_with_overflow:
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00002977 ResultReg1 = emitSub(VT, LHS, RHS, /*SetFlags=*/true);
2978 CC = AArch64CC::VS;
2979 break;
Juergen Ributzkad43da752014-07-30 22:04:31 +00002980 case Intrinsic::usub_with_overflow:
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00002981 ResultReg1 = emitSub(VT, LHS, RHS, /*SetFlags=*/true);
2982 CC = AArch64CC::LO;
2983 break;
Juergen Ributzkad43da752014-07-30 22:04:31 +00002984 case Intrinsic::smul_with_overflow: {
2985 CC = AArch64CC::NE;
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00002986 unsigned LHSReg = getRegForValue(LHS);
2987 if (!LHSReg)
2988 return false;
2989 bool LHSIsKill = hasTrivialKill(LHS);
2990
2991 unsigned RHSReg = getRegForValue(RHS);
Juergen Ributzka82ecc7f2014-08-01 01:25:55 +00002992 if (!RHSReg)
2993 return false;
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00002994 bool RHSIsKill = hasTrivialKill(RHS);
Juergen Ributzka82ecc7f2014-08-01 01:25:55 +00002995
Juergen Ributzkad43da752014-07-30 22:04:31 +00002996 if (VT == MVT::i32) {
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00002997 MulReg = emitSMULL_rr(MVT::i64, LHSReg, LHSIsKill, RHSReg, RHSIsKill);
Juergen Ributzka99dd30f2014-08-27 00:58:26 +00002998 unsigned ShiftReg = emitLSR_ri(MVT::i64, MVT::i64, MulReg,
2999 /*IsKill=*/false, 32);
Juergen Ributzka88e32512014-09-03 20:56:59 +00003000 MulReg = fastEmitInst_extractsubreg(VT, MulReg, /*IsKill=*/true,
Juergen Ributzkad43da752014-07-30 22:04:31 +00003001 AArch64::sub_32);
Juergen Ributzka88e32512014-09-03 20:56:59 +00003002 ShiftReg = fastEmitInst_extractsubreg(VT, ShiftReg, /*IsKill=*/true,
Juergen Ributzkad43da752014-07-30 22:04:31 +00003003 AArch64::sub_32);
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00003004 emitSubs_rs(VT, ShiftReg, /*IsKill=*/true, MulReg, /*IsKill=*/false,
3005 AArch64_AM::ASR, 31, /*WantResult=*/false);
Juergen Ributzkad43da752014-07-30 22:04:31 +00003006 } else {
3007 assert(VT == MVT::i64 && "Unexpected value type.");
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003008 MulReg = emitMul_rr(VT, LHSReg, LHSIsKill, RHSReg, RHSIsKill);
Juergen Ributzka88e32512014-09-03 20:56:59 +00003009 unsigned SMULHReg = fastEmit_rr(VT, VT, ISD::MULHS, LHSReg, LHSIsKill,
Juergen Ributzkad43da752014-07-30 22:04:31 +00003010 RHSReg, RHSIsKill);
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00003011 emitSubs_rs(VT, SMULHReg, /*IsKill=*/true, MulReg, /*IsKill=*/false,
3012 AArch64_AM::ASR, 63, /*WantResult=*/false);
Juergen Ributzkad43da752014-07-30 22:04:31 +00003013 }
3014 break;
3015 }
3016 case Intrinsic::umul_with_overflow: {
3017 CC = AArch64CC::NE;
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00003018 unsigned LHSReg = getRegForValue(LHS);
3019 if (!LHSReg)
3020 return false;
3021 bool LHSIsKill = hasTrivialKill(LHS);
3022
3023 unsigned RHSReg = getRegForValue(RHS);
Juergen Ributzka82ecc7f2014-08-01 01:25:55 +00003024 if (!RHSReg)
3025 return false;
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00003026 bool RHSIsKill = hasTrivialKill(RHS);
Juergen Ributzka82ecc7f2014-08-01 01:25:55 +00003027
Juergen Ributzkad43da752014-07-30 22:04:31 +00003028 if (VT == MVT::i32) {
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003029 MulReg = emitUMULL_rr(MVT::i64, LHSReg, LHSIsKill, RHSReg, RHSIsKill);
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00003030 emitSubs_rs(MVT::i64, AArch64::XZR, /*IsKill=*/true, MulReg,
3031 /*IsKill=*/false, AArch64_AM::LSR, 32,
3032 /*WantResult=*/false);
Juergen Ributzka88e32512014-09-03 20:56:59 +00003033 MulReg = fastEmitInst_extractsubreg(VT, MulReg, /*IsKill=*/true,
Juergen Ributzkad43da752014-07-30 22:04:31 +00003034 AArch64::sub_32);
3035 } else {
3036 assert(VT == MVT::i64 && "Unexpected value type.");
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003037 MulReg = emitMul_rr(VT, LHSReg, LHSIsKill, RHSReg, RHSIsKill);
Juergen Ributzka88e32512014-09-03 20:56:59 +00003038 unsigned UMULHReg = fastEmit_rr(VT, VT, ISD::MULHU, LHSReg, LHSIsKill,
Juergen Ributzkad43da752014-07-30 22:04:31 +00003039 RHSReg, RHSIsKill);
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00003040 emitSubs_rr(VT, AArch64::XZR, /*IsKill=*/true, UMULHReg,
3041 /*IsKill=*/false, /*WantResult=*/false);
Juergen Ributzkad43da752014-07-30 22:04:31 +00003042 }
3043 break;
3044 }
3045 }
3046
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00003047 if (MulReg) {
3048 ResultReg1 = createResultReg(TLI.getRegClassFor(VT));
Juergen Ributzkad43da752014-07-30 22:04:31 +00003049 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc,
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00003050 TII.get(TargetOpcode::COPY), ResultReg1).addReg(MulReg);
3051 }
Juergen Ributzkad43da752014-07-30 22:04:31 +00003052
Juergen Ributzka88e32512014-09-03 20:56:59 +00003053 ResultReg2 = fastEmitInst_rri(AArch64::CSINCWr, &AArch64::GPR32RegClass,
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00003054 AArch64::WZR, /*IsKill=*/true, AArch64::WZR,
3055 /*IsKill=*/true, getInvertedCondCode(CC));
Juergen Ributzkac0886dd2014-08-19 22:29:55 +00003056 assert((ResultReg1 + 1) == ResultReg2 &&
3057 "Nonconsecutive result registers.");
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +00003058 updateValueMap(II, ResultReg1, 2);
Juergen Ributzkad43da752014-07-30 22:04:31 +00003059 return true;
3060 }
Tim Northover3b0846e2014-05-24 12:50:23 +00003061 }
3062 return false;
3063}
3064
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003065bool AArch64FastISel::selectRet(const Instruction *I) {
Tim Northover3b0846e2014-05-24 12:50:23 +00003066 const ReturnInst *Ret = cast<ReturnInst>(I);
3067 const Function &F = *I->getParent()->getParent();
3068
3069 if (!FuncInfo.CanLowerReturn)
3070 return false;
3071
3072 if (F.isVarArg())
3073 return false;
3074
3075 // Build a list of return value registers.
3076 SmallVector<unsigned, 4> RetRegs;
3077
3078 if (Ret->getNumOperands() > 0) {
3079 CallingConv::ID CC = F.getCallingConv();
3080 SmallVector<ISD::OutputArg, 4> Outs;
3081 GetReturnInfo(F.getReturnType(), F.getAttributes(), Outs, TLI);
3082
3083 // Analyze operands of the call, assigning locations to each operand.
3084 SmallVector<CCValAssign, 16> ValLocs;
Eric Christopherb5217502014-08-06 18:45:26 +00003085 CCState CCInfo(CC, F.isVarArg(), *FuncInfo.MF, ValLocs, I->getContext());
Tim Northover3b0846e2014-05-24 12:50:23 +00003086 CCAssignFn *RetCC = CC == CallingConv::WebKit_JS ? RetCC_AArch64_WebKit_JS
3087 : RetCC_AArch64_AAPCS;
3088 CCInfo.AnalyzeReturn(Outs, RetCC);
3089
3090 // Only handle a single return value for now.
3091 if (ValLocs.size() != 1)
3092 return false;
3093
3094 CCValAssign &VA = ValLocs[0];
3095 const Value *RV = Ret->getOperand(0);
3096
3097 // Don't bother handling odd stuff for now.
Juergen Ributzkade47c472014-09-15 23:40:10 +00003098 if ((VA.getLocInfo() != CCValAssign::Full) &&
3099 (VA.getLocInfo() != CCValAssign::BCvt))
Tim Northover3b0846e2014-05-24 12:50:23 +00003100 return false;
Juergen Ributzkade47c472014-09-15 23:40:10 +00003101
Tim Northover3b0846e2014-05-24 12:50:23 +00003102 // Only handle register returns for now.
3103 if (!VA.isRegLoc())
3104 return false;
Juergen Ributzkade47c472014-09-15 23:40:10 +00003105
Tim Northover3b0846e2014-05-24 12:50:23 +00003106 unsigned Reg = getRegForValue(RV);
3107 if (Reg == 0)
3108 return false;
3109
3110 unsigned SrcReg = Reg + VA.getValNo();
3111 unsigned DestReg = VA.getLocReg();
3112 // Avoid a cross-class copy. This is very unlikely.
3113 if (!MRI.getRegClass(SrcReg)->contains(DestReg))
3114 return false;
3115
3116 EVT RVEVT = TLI.getValueType(RV->getType());
3117 if (!RVEVT.isSimple())
3118 return false;
3119
3120 // Vectors (of > 1 lane) in big endian need tricky handling.
Juergen Ributzkade47c472014-09-15 23:40:10 +00003121 if (RVEVT.isVector() && RVEVT.getVectorNumElements() > 1 &&
3122 !Subtarget->isLittleEndian())
Tim Northover3b0846e2014-05-24 12:50:23 +00003123 return false;
3124
3125 MVT RVVT = RVEVT.getSimpleVT();
3126 if (RVVT == MVT::f128)
3127 return false;
Juergen Ributzkade47c472014-09-15 23:40:10 +00003128
Tim Northover3b0846e2014-05-24 12:50:23 +00003129 MVT DestVT = VA.getValVT();
3130 // Special handling for extended integers.
3131 if (RVVT != DestVT) {
3132 if (RVVT != MVT::i1 && RVVT != MVT::i8 && RVVT != MVT::i16)
3133 return false;
3134
3135 if (!Outs[0].Flags.isZExt() && !Outs[0].Flags.isSExt())
3136 return false;
3137
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003138 bool IsZExt = Outs[0].Flags.isZExt();
3139 SrcReg = emitIntExt(RVVT, SrcReg, DestVT, IsZExt);
Tim Northover3b0846e2014-05-24 12:50:23 +00003140 if (SrcReg == 0)
3141 return false;
3142 }
3143
3144 // Make the copy.
3145 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc,
3146 TII.get(TargetOpcode::COPY), DestReg).addReg(SrcReg);
3147
3148 // Add register to return instruction.
3149 RetRegs.push_back(VA.getLocReg());
3150 }
3151
3152 MachineInstrBuilder MIB = BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc,
3153 TII.get(AArch64::RET_ReallyLR));
3154 for (unsigned i = 0, e = RetRegs.size(); i != e; ++i)
3155 MIB.addReg(RetRegs[i], RegState::Implicit);
3156 return true;
3157}
3158
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003159bool AArch64FastISel::selectTrunc(const Instruction *I) {
Tim Northover3b0846e2014-05-24 12:50:23 +00003160 Type *DestTy = I->getType();
3161 Value *Op = I->getOperand(0);
3162 Type *SrcTy = Op->getType();
3163
3164 EVT SrcEVT = TLI.getValueType(SrcTy, true);
3165 EVT DestEVT = TLI.getValueType(DestTy, true);
3166 if (!SrcEVT.isSimple())
3167 return false;
3168 if (!DestEVT.isSimple())
3169 return false;
3170
3171 MVT SrcVT = SrcEVT.getSimpleVT();
3172 MVT DestVT = DestEVT.getSimpleVT();
3173
3174 if (SrcVT != MVT::i64 && SrcVT != MVT::i32 && SrcVT != MVT::i16 &&
3175 SrcVT != MVT::i8)
3176 return false;
3177 if (DestVT != MVT::i32 && DestVT != MVT::i16 && DestVT != MVT::i8 &&
3178 DestVT != MVT::i1)
3179 return false;
3180
3181 unsigned SrcReg = getRegForValue(Op);
3182 if (!SrcReg)
3183 return false;
Juergen Ributzkac83265a2014-08-21 18:02:25 +00003184 bool SrcIsKill = hasTrivialKill(Op);
Tim Northover3b0846e2014-05-24 12:50:23 +00003185
3186 // If we're truncating from i64 to a smaller non-legal type then generate an
Juergen Ributzkaf6ee7a72014-08-29 17:58:16 +00003187 // AND. Otherwise, we know the high bits are undefined and a truncate only
3188 // generate a COPY. We cannot mark the source register also as result
3189 // register, because this can incorrectly transfer the kill flag onto the
3190 // source register.
3191 unsigned ResultReg;
Tim Northover3b0846e2014-05-24 12:50:23 +00003192 if (SrcVT == MVT::i64) {
3193 uint64_t Mask = 0;
3194 switch (DestVT.SimpleTy) {
3195 default:
3196 // Trunc i64 to i32 is handled by the target-independent fast-isel.
3197 return false;
3198 case MVT::i1:
3199 Mask = 0x1;
3200 break;
3201 case MVT::i8:
3202 Mask = 0xff;
3203 break;
3204 case MVT::i16:
3205 Mask = 0xffff;
3206 break;
3207 }
3208 // Issue an extract_subreg to get the lower 32-bits.
Juergen Ributzka88e32512014-09-03 20:56:59 +00003209 unsigned Reg32 = fastEmitInst_extractsubreg(MVT::i32, SrcReg, SrcIsKill,
Tim Northover3b0846e2014-05-24 12:50:23 +00003210 AArch64::sub_32);
Tim Northover3b0846e2014-05-24 12:50:23 +00003211 // Create the AND instruction which performs the actual truncation.
Juergen Ributzka1dbc15f2014-09-04 01:29:18 +00003212 ResultReg = emitAnd_ri(MVT::i32, Reg32, /*IsKill=*/true, Mask);
Juergen Ributzkaf6ee7a72014-08-29 17:58:16 +00003213 assert(ResultReg && "Unexpected AND instruction emission failure.");
3214 } else {
3215 ResultReg = createResultReg(&AArch64::GPR32RegClass);
3216 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc,
3217 TII.get(TargetOpcode::COPY), ResultReg)
3218 .addReg(SrcReg, getKillRegState(SrcIsKill));
Tim Northover3b0846e2014-05-24 12:50:23 +00003219 }
3220
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +00003221 updateValueMap(I, ResultReg);
Tim Northover3b0846e2014-05-24 12:50:23 +00003222 return true;
3223}
3224
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003225unsigned AArch64FastISel::emiti1Ext(unsigned SrcReg, MVT DestVT, bool IsZExt) {
Tim Northover3b0846e2014-05-24 12:50:23 +00003226 assert((DestVT == MVT::i8 || DestVT == MVT::i16 || DestVT == MVT::i32 ||
3227 DestVT == MVT::i64) &&
3228 "Unexpected value type.");
3229 // Handle i8 and i16 as i32.
3230 if (DestVT == MVT::i8 || DestVT == MVT::i16)
3231 DestVT = MVT::i32;
3232
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003233 if (IsZExt) {
Juergen Ributzka1dbc15f2014-09-04 01:29:18 +00003234 unsigned ResultReg = emitAnd_ri(MVT::i32, SrcReg, /*TODO:IsKill=*/false, 1);
Juergen Ributzkac83265a2014-08-21 18:02:25 +00003235 assert(ResultReg && "Unexpected AND instruction emission failure.");
Tim Northover3b0846e2014-05-24 12:50:23 +00003236 if (DestVT == MVT::i64) {
3237 // We're ZExt i1 to i64. The ANDWri Wd, Ws, #1 implicitly clears the
3238 // upper 32 bits. Emit a SUBREG_TO_REG to extend from Wd to Xd.
3239 unsigned Reg64 = MRI.createVirtualRegister(&AArch64::GPR64RegClass);
3240 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc,
3241 TII.get(AArch64::SUBREG_TO_REG), Reg64)
3242 .addImm(0)
3243 .addReg(ResultReg)
3244 .addImm(AArch64::sub_32);
3245 ResultReg = Reg64;
3246 }
3247 return ResultReg;
3248 } else {
3249 if (DestVT == MVT::i64) {
3250 // FIXME: We're SExt i1 to i64.
3251 return 0;
3252 }
Juergen Ributzka88e32512014-09-03 20:56:59 +00003253 return fastEmitInst_rii(AArch64::SBFMWri, &AArch64::GPR32RegClass, SrcReg,
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00003254 /*TODO:IsKill=*/false, 0, 0);
Tim Northover3b0846e2014-05-24 12:50:23 +00003255 }
3256}
3257
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003258unsigned AArch64FastISel::emitMul_rr(MVT RetVT, unsigned Op0, bool Op0IsKill,
Juergen Ributzkaad3b0902014-07-30 22:04:25 +00003259 unsigned Op1, bool Op1IsKill) {
3260 unsigned Opc, ZReg;
3261 switch (RetVT.SimpleTy) {
3262 default: return 0;
3263 case MVT::i8:
3264 case MVT::i16:
3265 case MVT::i32:
3266 RetVT = MVT::i32;
3267 Opc = AArch64::MADDWrrr; ZReg = AArch64::WZR; break;
3268 case MVT::i64:
3269 Opc = AArch64::MADDXrrr; ZReg = AArch64::XZR; break;
3270 }
3271
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00003272 const TargetRegisterClass *RC =
3273 (RetVT == MVT::i64) ? &AArch64::GPR64RegClass : &AArch64::GPR32RegClass;
Juergen Ributzka88e32512014-09-03 20:56:59 +00003274 return fastEmitInst_rrr(Opc, RC, Op0, Op0IsKill, Op1, Op1IsKill,
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00003275 /*IsKill=*/ZReg, true);
Juergen Ributzkaad3b0902014-07-30 22:04:25 +00003276}
3277
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003278unsigned AArch64FastISel::emitSMULL_rr(MVT RetVT, unsigned Op0, bool Op0IsKill,
Juergen Ributzkaad3b0902014-07-30 22:04:25 +00003279 unsigned Op1, bool Op1IsKill) {
3280 if (RetVT != MVT::i64)
3281 return 0;
3282
Juergen Ributzka88e32512014-09-03 20:56:59 +00003283 return fastEmitInst_rrr(AArch64::SMADDLrrr, &AArch64::GPR64RegClass,
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00003284 Op0, Op0IsKill, Op1, Op1IsKill,
3285 AArch64::XZR, /*IsKill=*/true);
Juergen Ributzkaad3b0902014-07-30 22:04:25 +00003286}
3287
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003288unsigned AArch64FastISel::emitUMULL_rr(MVT RetVT, unsigned Op0, bool Op0IsKill,
Juergen Ributzkaad3b0902014-07-30 22:04:25 +00003289 unsigned Op1, bool Op1IsKill) {
3290 if (RetVT != MVT::i64)
3291 return 0;
3292
Juergen Ributzka88e32512014-09-03 20:56:59 +00003293 return fastEmitInst_rrr(AArch64::UMADDLrrr, &AArch64::GPR64RegClass,
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00003294 Op0, Op0IsKill, Op1, Op1IsKill,
3295 AArch64::XZR, /*IsKill=*/true);
Juergen Ributzkaad3b0902014-07-30 22:04:25 +00003296}
3297
Juergen Ributzka0e0b4c12014-08-21 23:06:07 +00003298unsigned AArch64FastISel::emitLSL_rr(MVT RetVT, unsigned Op0Reg, bool Op0IsKill,
3299 unsigned Op1Reg, bool Op1IsKill) {
3300 unsigned Opc = 0;
3301 bool NeedTrunc = false;
3302 uint64_t Mask = 0;
3303 switch (RetVT.SimpleTy) {
3304 default: return 0;
3305 case MVT::i8: Opc = AArch64::LSLVWr; NeedTrunc = true; Mask = 0xff; break;
3306 case MVT::i16: Opc = AArch64::LSLVWr; NeedTrunc = true; Mask = 0xffff; break;
3307 case MVT::i32: Opc = AArch64::LSLVWr; break;
3308 case MVT::i64: Opc = AArch64::LSLVXr; break;
3309 }
3310
3311 const TargetRegisterClass *RC =
3312 (RetVT == MVT::i64) ? &AArch64::GPR64RegClass : &AArch64::GPR32RegClass;
3313 if (NeedTrunc) {
Juergen Ributzka1dbc15f2014-09-04 01:29:18 +00003314 Op1Reg = emitAnd_ri(MVT::i32, Op1Reg, Op1IsKill, Mask);
Juergen Ributzka0e0b4c12014-08-21 23:06:07 +00003315 Op1IsKill = true;
3316 }
Juergen Ributzka88e32512014-09-03 20:56:59 +00003317 unsigned ResultReg = fastEmitInst_rr(Opc, RC, Op0Reg, Op0IsKill, Op1Reg,
Juergen Ributzka0e0b4c12014-08-21 23:06:07 +00003318 Op1IsKill);
3319 if (NeedTrunc)
Juergen Ributzka1dbc15f2014-09-04 01:29:18 +00003320 ResultReg = emitAnd_ri(MVT::i32, ResultReg, /*IsKill=*/true, Mask);
Juergen Ributzka0e0b4c12014-08-21 23:06:07 +00003321 return ResultReg;
3322}
3323
Juergen Ributzka99dd30f2014-08-27 00:58:26 +00003324unsigned AArch64FastISel::emitLSL_ri(MVT RetVT, MVT SrcVT, unsigned Op0,
3325 bool Op0IsKill, uint64_t Shift,
3326 bool IsZext) {
3327 assert(RetVT.SimpleTy >= SrcVT.SimpleTy &&
3328 "Unexpected source/return type pair.");
3329 assert((SrcVT == MVT::i8 || SrcVT == MVT::i16 || SrcVT == MVT::i32 ||
3330 SrcVT == MVT::i64) && "Unexpected source value type.");
3331 assert((RetVT == MVT::i8 || RetVT == MVT::i16 || RetVT == MVT::i32 ||
3332 RetVT == MVT::i64) && "Unexpected return value type.");
Juergen Ributzkaa75cb112014-07-30 22:04:22 +00003333
Juergen Ributzka99dd30f2014-08-27 00:58:26 +00003334 bool Is64Bit = (RetVT == MVT::i64);
3335 unsigned RegSize = Is64Bit ? 64 : 32;
3336 unsigned DstBits = RetVT.getSizeInBits();
3337 unsigned SrcBits = SrcVT.getSizeInBits();
3338
3339 // Don't deal with undefined shifts.
3340 if (Shift >= DstBits)
3341 return 0;
3342
3343 // For immediate shifts we can fold the zero-/sign-extension into the shift.
3344 // {S|U}BFM Wd, Wn, #r, #s
3345 // Wd<32+s-r,32-r> = Wn<s:0> when r > s
3346
3347 // %1 = {s|z}ext i8 {0b1010_1010|0b0101_0101} to i16
3348 // %2 = shl i16 %1, 4
3349 // Wd<32+7-28,32-28> = Wn<7:0> <- clamp s to 7
3350 // 0b1111_1111_1111_1111__1111_1010_1010_0000 sext
3351 // 0b0000_0000_0000_0000__0000_0101_0101_0000 sext | zext
3352 // 0b0000_0000_0000_0000__0000_1010_1010_0000 zext
3353
3354 // %1 = {s|z}ext i8 {0b1010_1010|0b0101_0101} to i16
3355 // %2 = shl i16 %1, 8
3356 // Wd<32+7-24,32-24> = Wn<7:0>
3357 // 0b1111_1111_1111_1111__1010_1010_0000_0000 sext
3358 // 0b0000_0000_0000_0000__0101_0101_0000_0000 sext | zext
3359 // 0b0000_0000_0000_0000__1010_1010_0000_0000 zext
3360
3361 // %1 = {s|z}ext i8 {0b1010_1010|0b0101_0101} to i16
3362 // %2 = shl i16 %1, 12
3363 // Wd<32+3-20,32-20> = Wn<3:0>
3364 // 0b1111_1111_1111_1111__1010_0000_0000_0000 sext
3365 // 0b0000_0000_0000_0000__0101_0000_0000_0000 sext | zext
3366 // 0b0000_0000_0000_0000__1010_0000_0000_0000 zext
3367
3368 unsigned ImmR = RegSize - Shift;
3369 // Limit the width to the length of the source type.
3370 unsigned ImmS = std::min<unsigned>(SrcBits - 1, DstBits - 1 - Shift);
3371 static const unsigned OpcTable[2][2] = {
3372 {AArch64::SBFMWri, AArch64::SBFMXri},
3373 {AArch64::UBFMWri, AArch64::UBFMXri}
3374 };
3375 unsigned Opc = OpcTable[IsZext][Is64Bit];
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00003376 const TargetRegisterClass *RC =
Juergen Ributzka99dd30f2014-08-27 00:58:26 +00003377 Is64Bit ? &AArch64::GPR64RegClass : &AArch64::GPR32RegClass;
3378 if (SrcVT.SimpleTy <= MVT::i32 && RetVT == MVT::i64) {
3379 unsigned TmpReg = MRI.createVirtualRegister(RC);
3380 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc,
3381 TII.get(AArch64::SUBREG_TO_REG), TmpReg)
3382 .addImm(0)
3383 .addReg(Op0, getKillRegState(Op0IsKill))
3384 .addImm(AArch64::sub_32);
3385 Op0 = TmpReg;
3386 Op0IsKill = true;
3387 }
Juergen Ributzka88e32512014-09-03 20:56:59 +00003388 return fastEmitInst_rii(Opc, RC, Op0, Op0IsKill, ImmR, ImmS);
Juergen Ributzkaa75cb112014-07-30 22:04:22 +00003389}
3390
Juergen Ributzka0e0b4c12014-08-21 23:06:07 +00003391unsigned AArch64FastISel::emitLSR_rr(MVT RetVT, unsigned Op0Reg, bool Op0IsKill,
3392 unsigned Op1Reg, bool Op1IsKill) {
3393 unsigned Opc = 0;
3394 bool NeedTrunc = false;
3395 uint64_t Mask = 0;
3396 switch (RetVT.SimpleTy) {
3397 default: return 0;
3398 case MVT::i8: Opc = AArch64::LSRVWr; NeedTrunc = true; Mask = 0xff; break;
3399 case MVT::i16: Opc = AArch64::LSRVWr; NeedTrunc = true; Mask = 0xffff; break;
3400 case MVT::i32: Opc = AArch64::LSRVWr; break;
3401 case MVT::i64: Opc = AArch64::LSRVXr; break;
3402 }
3403
3404 const TargetRegisterClass *RC =
3405 (RetVT == MVT::i64) ? &AArch64::GPR64RegClass : &AArch64::GPR32RegClass;
3406 if (NeedTrunc) {
Juergen Ributzka1dbc15f2014-09-04 01:29:18 +00003407 Op0Reg = emitAnd_ri(MVT::i32, Op0Reg, Op0IsKill, Mask);
3408 Op1Reg = emitAnd_ri(MVT::i32, Op1Reg, Op1IsKill, Mask);
Juergen Ributzka0e0b4c12014-08-21 23:06:07 +00003409 Op0IsKill = Op1IsKill = true;
3410 }
Juergen Ributzka88e32512014-09-03 20:56:59 +00003411 unsigned ResultReg = fastEmitInst_rr(Opc, RC, Op0Reg, Op0IsKill, Op1Reg,
Juergen Ributzka0e0b4c12014-08-21 23:06:07 +00003412 Op1IsKill);
3413 if (NeedTrunc)
Juergen Ributzka1dbc15f2014-09-04 01:29:18 +00003414 ResultReg = emitAnd_ri(MVT::i32, ResultReg, /*IsKill=*/true, Mask);
Juergen Ributzka0e0b4c12014-08-21 23:06:07 +00003415 return ResultReg;
3416}
3417
Juergen Ributzka99dd30f2014-08-27 00:58:26 +00003418unsigned AArch64FastISel::emitLSR_ri(MVT RetVT, MVT SrcVT, unsigned Op0,
3419 bool Op0IsKill, uint64_t Shift,
3420 bool IsZExt) {
3421 assert(RetVT.SimpleTy >= SrcVT.SimpleTy &&
3422 "Unexpected source/return type pair.");
3423 assert((SrcVT == MVT::i8 || SrcVT == MVT::i16 || SrcVT == MVT::i32 ||
3424 SrcVT == MVT::i64) && "Unexpected source value type.");
3425 assert((RetVT == MVT::i8 || RetVT == MVT::i16 || RetVT == MVT::i32 ||
3426 RetVT == MVT::i64) && "Unexpected return value type.");
3427
3428 bool Is64Bit = (RetVT == MVT::i64);
3429 unsigned RegSize = Is64Bit ? 64 : 32;
3430 unsigned DstBits = RetVT.getSizeInBits();
3431 unsigned SrcBits = SrcVT.getSizeInBits();
3432
3433 // Don't deal with undefined shifts.
3434 if (Shift >= DstBits)
3435 return 0;
3436
3437 // For immediate shifts we can fold the zero-/sign-extension into the shift.
3438 // {S|U}BFM Wd, Wn, #r, #s
3439 // Wd<s-r:0> = Wn<s:r> when r <= s
3440
3441 // %1 = {s|z}ext i8 {0b1010_1010|0b0101_0101} to i16
3442 // %2 = lshr i16 %1, 4
3443 // Wd<7-4:0> = Wn<7:4>
3444 // 0b0000_0000_0000_0000__0000_1111_1111_1010 sext
3445 // 0b0000_0000_0000_0000__0000_0000_0000_0101 sext | zext
3446 // 0b0000_0000_0000_0000__0000_0000_0000_1010 zext
3447
3448 // %1 = {s|z}ext i8 {0b1010_1010|0b0101_0101} to i16
3449 // %2 = lshr i16 %1, 8
3450 // Wd<7-7,0> = Wn<7:7>
3451 // 0b0000_0000_0000_0000__0000_0000_1111_1111 sext
3452 // 0b0000_0000_0000_0000__0000_0000_0000_0000 sext
3453 // 0b0000_0000_0000_0000__0000_0000_0000_0000 zext
3454
3455 // %1 = {s|z}ext i8 {0b1010_1010|0b0101_0101} to i16
3456 // %2 = lshr i16 %1, 12
3457 // Wd<7-7,0> = Wn<7:7> <- clamp r to 7
3458 // 0b0000_0000_0000_0000__0000_0000_0000_1111 sext
3459 // 0b0000_0000_0000_0000__0000_0000_0000_0000 sext
3460 // 0b0000_0000_0000_0000__0000_0000_0000_0000 zext
3461
3462 if (Shift >= SrcBits && IsZExt)
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003463 return materializeInt(ConstantInt::get(*Context, APInt(RegSize, 0)), RetVT);
Juergen Ributzka99dd30f2014-08-27 00:58:26 +00003464
3465 // It is not possible to fold a sign-extend into the LShr instruction. In this
3466 // case emit a sign-extend.
3467 if (!IsZExt) {
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003468 Op0 = emitIntExt(SrcVT, Op0, RetVT, IsZExt);
Juergen Ributzka99dd30f2014-08-27 00:58:26 +00003469 if (!Op0)
3470 return 0;
3471 Op0IsKill = true;
3472 SrcVT = RetVT;
3473 SrcBits = SrcVT.getSizeInBits();
3474 IsZExt = true;
Juergen Ributzkaa75cb112014-07-30 22:04:22 +00003475 }
3476
Juergen Ributzka99dd30f2014-08-27 00:58:26 +00003477 unsigned ImmR = std::min<unsigned>(SrcBits - 1, Shift);
3478 unsigned ImmS = SrcBits - 1;
3479 static const unsigned OpcTable[2][2] = {
3480 {AArch64::SBFMWri, AArch64::SBFMXri},
3481 {AArch64::UBFMWri, AArch64::UBFMXri}
3482 };
3483 unsigned Opc = OpcTable[IsZExt][Is64Bit];
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00003484 const TargetRegisterClass *RC =
Juergen Ributzka99dd30f2014-08-27 00:58:26 +00003485 Is64Bit ? &AArch64::GPR64RegClass : &AArch64::GPR32RegClass;
3486 if (SrcVT.SimpleTy <= MVT::i32 && RetVT == MVT::i64) {
3487 unsigned TmpReg = MRI.createVirtualRegister(RC);
3488 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc,
3489 TII.get(AArch64::SUBREG_TO_REG), TmpReg)
3490 .addImm(0)
3491 .addReg(Op0, getKillRegState(Op0IsKill))
3492 .addImm(AArch64::sub_32);
3493 Op0 = TmpReg;
3494 Op0IsKill = true;
3495 }
Juergen Ributzka88e32512014-09-03 20:56:59 +00003496 return fastEmitInst_rii(Opc, RC, Op0, Op0IsKill, ImmR, ImmS);
Juergen Ributzkaa75cb112014-07-30 22:04:22 +00003497}
3498
Juergen Ributzka0e0b4c12014-08-21 23:06:07 +00003499unsigned AArch64FastISel::emitASR_rr(MVT RetVT, unsigned Op0Reg, bool Op0IsKill,
3500 unsigned Op1Reg, bool Op1IsKill) {
3501 unsigned Opc = 0;
3502 bool NeedTrunc = false;
3503 uint64_t Mask = 0;
3504 switch (RetVT.SimpleTy) {
3505 default: return 0;
3506 case MVT::i8: Opc = AArch64::ASRVWr; NeedTrunc = true; Mask = 0xff; break;
3507 case MVT::i16: Opc = AArch64::ASRVWr; NeedTrunc = true; Mask = 0xffff; break;
3508 case MVT::i32: Opc = AArch64::ASRVWr; break;
3509 case MVT::i64: Opc = AArch64::ASRVXr; break;
3510 }
3511
3512 const TargetRegisterClass *RC =
3513 (RetVT == MVT::i64) ? &AArch64::GPR64RegClass : &AArch64::GPR32RegClass;
3514 if (NeedTrunc) {
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003515 Op0Reg = emitIntExt(RetVT, Op0Reg, MVT::i32, /*IsZExt=*/false);
Juergen Ributzka1dbc15f2014-09-04 01:29:18 +00003516 Op1Reg = emitAnd_ri(MVT::i32, Op1Reg, Op1IsKill, Mask);
Juergen Ributzka0e0b4c12014-08-21 23:06:07 +00003517 Op0IsKill = Op1IsKill = true;
3518 }
Juergen Ributzka88e32512014-09-03 20:56:59 +00003519 unsigned ResultReg = fastEmitInst_rr(Opc, RC, Op0Reg, Op0IsKill, Op1Reg,
Juergen Ributzka0e0b4c12014-08-21 23:06:07 +00003520 Op1IsKill);
3521 if (NeedTrunc)
Juergen Ributzka1dbc15f2014-09-04 01:29:18 +00003522 ResultReg = emitAnd_ri(MVT::i32, ResultReg, /*IsKill=*/true, Mask);
Juergen Ributzka0e0b4c12014-08-21 23:06:07 +00003523 return ResultReg;
3524}
3525
Juergen Ributzka99dd30f2014-08-27 00:58:26 +00003526unsigned AArch64FastISel::emitASR_ri(MVT RetVT, MVT SrcVT, unsigned Op0,
3527 bool Op0IsKill, uint64_t Shift,
3528 bool IsZExt) {
3529 assert(RetVT.SimpleTy >= SrcVT.SimpleTy &&
3530 "Unexpected source/return type pair.");
3531 assert((SrcVT == MVT::i8 || SrcVT == MVT::i16 || SrcVT == MVT::i32 ||
3532 SrcVT == MVT::i64) && "Unexpected source value type.");
3533 assert((RetVT == MVT::i8 || RetVT == MVT::i16 || RetVT == MVT::i32 ||
3534 RetVT == MVT::i64) && "Unexpected return value type.");
Juergen Ributzkaa75cb112014-07-30 22:04:22 +00003535
Juergen Ributzka99dd30f2014-08-27 00:58:26 +00003536 bool Is64Bit = (RetVT == MVT::i64);
3537 unsigned RegSize = Is64Bit ? 64 : 32;
3538 unsigned DstBits = RetVT.getSizeInBits();
3539 unsigned SrcBits = SrcVT.getSizeInBits();
3540
3541 // Don't deal with undefined shifts.
3542 if (Shift >= DstBits)
3543 return 0;
3544
3545 // For immediate shifts we can fold the zero-/sign-extension into the shift.
3546 // {S|U}BFM Wd, Wn, #r, #s
3547 // Wd<s-r:0> = Wn<s:r> when r <= s
3548
3549 // %1 = {s|z}ext i8 {0b1010_1010|0b0101_0101} to i16
3550 // %2 = ashr i16 %1, 4
3551 // Wd<7-4:0> = Wn<7:4>
3552 // 0b1111_1111_1111_1111__1111_1111_1111_1010 sext
3553 // 0b0000_0000_0000_0000__0000_0000_0000_0101 sext | zext
3554 // 0b0000_0000_0000_0000__0000_0000_0000_1010 zext
3555
3556 // %1 = {s|z}ext i8 {0b1010_1010|0b0101_0101} to i16
3557 // %2 = ashr i16 %1, 8
3558 // Wd<7-7,0> = Wn<7:7>
3559 // 0b1111_1111_1111_1111__1111_1111_1111_1111 sext
3560 // 0b0000_0000_0000_0000__0000_0000_0000_0000 sext
3561 // 0b0000_0000_0000_0000__0000_0000_0000_0000 zext
3562
3563 // %1 = {s|z}ext i8 {0b1010_1010|0b0101_0101} to i16
3564 // %2 = ashr i16 %1, 12
3565 // Wd<7-7,0> = Wn<7:7> <- clamp r to 7
3566 // 0b1111_1111_1111_1111__1111_1111_1111_1111 sext
3567 // 0b0000_0000_0000_0000__0000_0000_0000_0000 sext
3568 // 0b0000_0000_0000_0000__0000_0000_0000_0000 zext
3569
3570 if (Shift >= SrcBits && IsZExt)
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003571 return materializeInt(ConstantInt::get(*Context, APInt(RegSize, 0)), RetVT);
Juergen Ributzka99dd30f2014-08-27 00:58:26 +00003572
3573 unsigned ImmR = std::min<unsigned>(SrcBits - 1, Shift);
3574 unsigned ImmS = SrcBits - 1;
3575 static const unsigned OpcTable[2][2] = {
3576 {AArch64::SBFMWri, AArch64::SBFMXri},
3577 {AArch64::UBFMWri, AArch64::UBFMXri}
3578 };
3579 unsigned Opc = OpcTable[IsZExt][Is64Bit];
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00003580 const TargetRegisterClass *RC =
Juergen Ributzka99dd30f2014-08-27 00:58:26 +00003581 Is64Bit ? &AArch64::GPR64RegClass : &AArch64::GPR32RegClass;
3582 if (SrcVT.SimpleTy <= MVT::i32 && RetVT == MVT::i64) {
3583 unsigned TmpReg = MRI.createVirtualRegister(RC);
3584 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc,
3585 TII.get(AArch64::SUBREG_TO_REG), TmpReg)
3586 .addImm(0)
3587 .addReg(Op0, getKillRegState(Op0IsKill))
3588 .addImm(AArch64::sub_32);
3589 Op0 = TmpReg;
3590 Op0IsKill = true;
3591 }
Juergen Ributzka88e32512014-09-03 20:56:59 +00003592 return fastEmitInst_rii(Opc, RC, Op0, Op0IsKill, ImmR, ImmS);
Juergen Ributzkaa75cb112014-07-30 22:04:22 +00003593}
3594
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003595unsigned AArch64FastISel::emitIntExt(MVT SrcVT, unsigned SrcReg, MVT DestVT,
3596 bool IsZExt) {
Tim Northover3b0846e2014-05-24 12:50:23 +00003597 assert(DestVT != MVT::i1 && "ZeroExt/SignExt an i1?");
Louis Gerbarg4c5b4052014-07-07 21:37:51 +00003598
Louis Gerbarg1ce0c37bf2014-07-09 17:54:32 +00003599 // FastISel does not have plumbing to deal with extensions where the SrcVT or
3600 // DestVT are odd things, so test to make sure that they are both types we can
3601 // handle (i1/i8/i16/i32 for SrcVT and i8/i16/i32/i64 for DestVT), otherwise
3602 // bail out to SelectionDAG.
3603 if (((DestVT != MVT::i8) && (DestVT != MVT::i16) &&
3604 (DestVT != MVT::i32) && (DestVT != MVT::i64)) ||
3605 ((SrcVT != MVT::i1) && (SrcVT != MVT::i8) &&
3606 (SrcVT != MVT::i16) && (SrcVT != MVT::i32)))
Louis Gerbarg4c5b4052014-07-07 21:37:51 +00003607 return 0;
3608
Tim Northover3b0846e2014-05-24 12:50:23 +00003609 unsigned Opc;
3610 unsigned Imm = 0;
3611
3612 switch (SrcVT.SimpleTy) {
3613 default:
3614 return 0;
3615 case MVT::i1:
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003616 return emiti1Ext(SrcReg, DestVT, IsZExt);
Tim Northover3b0846e2014-05-24 12:50:23 +00003617 case MVT::i8:
3618 if (DestVT == MVT::i64)
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003619 Opc = IsZExt ? AArch64::UBFMXri : AArch64::SBFMXri;
Tim Northover3b0846e2014-05-24 12:50:23 +00003620 else
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003621 Opc = IsZExt ? AArch64::UBFMWri : AArch64::SBFMWri;
Tim Northover3b0846e2014-05-24 12:50:23 +00003622 Imm = 7;
3623 break;
3624 case MVT::i16:
3625 if (DestVT == MVT::i64)
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003626 Opc = IsZExt ? AArch64::UBFMXri : AArch64::SBFMXri;
Tim Northover3b0846e2014-05-24 12:50:23 +00003627 else
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003628 Opc = IsZExt ? AArch64::UBFMWri : AArch64::SBFMWri;
Tim Northover3b0846e2014-05-24 12:50:23 +00003629 Imm = 15;
3630 break;
3631 case MVT::i32:
3632 assert(DestVT == MVT::i64 && "IntExt i32 to i32?!?");
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003633 Opc = IsZExt ? AArch64::UBFMXri : AArch64::SBFMXri;
Tim Northover3b0846e2014-05-24 12:50:23 +00003634 Imm = 31;
3635 break;
3636 }
3637
3638 // Handle i8 and i16 as i32.
3639 if (DestVT == MVT::i8 || DestVT == MVT::i16)
3640 DestVT = MVT::i32;
3641 else if (DestVT == MVT::i64) {
3642 unsigned Src64 = MRI.createVirtualRegister(&AArch64::GPR64RegClass);
3643 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc,
3644 TII.get(AArch64::SUBREG_TO_REG), Src64)
3645 .addImm(0)
3646 .addReg(SrcReg)
3647 .addImm(AArch64::sub_32);
3648 SrcReg = Src64;
3649 }
3650
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00003651 const TargetRegisterClass *RC =
3652 (DestVT == MVT::i64) ? &AArch64::GPR64RegClass : &AArch64::GPR32RegClass;
Juergen Ributzka88e32512014-09-03 20:56:59 +00003653 return fastEmitInst_rii(Opc, RC, SrcReg, /*TODO:IsKill=*/false, 0, Imm);
Tim Northover3b0846e2014-05-24 12:50:23 +00003654}
3655
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003656bool AArch64FastISel::selectIntExt(const Instruction *I) {
Tim Northover3b0846e2014-05-24 12:50:23 +00003657 // On ARM, in general, integer casts don't involve legal types; this code
3658 // handles promotable integers. The high bits for a type smaller than
3659 // the register size are assumed to be undefined.
3660 Type *DestTy = I->getType();
3661 Value *Src = I->getOperand(0);
3662 Type *SrcTy = Src->getType();
3663
Tim Northover3b0846e2014-05-24 12:50:23 +00003664 unsigned SrcReg = getRegForValue(Src);
3665 if (!SrcReg)
3666 return false;
3667
3668 EVT SrcEVT = TLI.getValueType(SrcTy, true);
3669 EVT DestEVT = TLI.getValueType(DestTy, true);
3670 if (!SrcEVT.isSimple())
3671 return false;
3672 if (!DestEVT.isSimple())
3673 return false;
3674
3675 MVT SrcVT = SrcEVT.getSimpleVT();
3676 MVT DestVT = DestEVT.getSimpleVT();
Juergen Ributzka51f53262014-08-05 05:43:44 +00003677 unsigned ResultReg = 0;
3678
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003679 bool IsZExt = isa<ZExtInst>(I);
Juergen Ributzka51f53262014-08-05 05:43:44 +00003680 // Check if it is an argument and if it is already zero/sign-extended.
3681 if (const auto *Arg = dyn_cast<Argument>(Src)) {
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003682 if ((IsZExt && Arg->hasZExtAttr()) || (!IsZExt && Arg->hasSExtAttr())) {
Juergen Ributzka95033272014-08-05 07:31:30 +00003683 if (DestVT == MVT::i64) {
3684 ResultReg = createResultReg(TLI.getRegClassFor(DestVT));
Juergen Ributzka51f53262014-08-05 05:43:44 +00003685 BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DbgLoc,
3686 TII.get(AArch64::SUBREG_TO_REG), ResultReg)
3687 .addImm(0)
3688 .addReg(SrcReg)
3689 .addImm(AArch64::sub_32);
Juergen Ributzka95033272014-08-05 07:31:30 +00003690 } else
3691 ResultReg = SrcReg;
Juergen Ributzka51f53262014-08-05 05:43:44 +00003692 }
3693 }
3694
3695 if (!ResultReg)
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003696 ResultReg = emitIntExt(SrcVT, SrcReg, DestVT, IsZExt);
Juergen Ributzka51f53262014-08-05 05:43:44 +00003697
3698 if (!ResultReg)
Tim Northover3b0846e2014-05-24 12:50:23 +00003699 return false;
Juergen Ributzka51f53262014-08-05 05:43:44 +00003700
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +00003701 updateValueMap(I, ResultReg);
Tim Northover3b0846e2014-05-24 12:50:23 +00003702 return true;
3703}
3704
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003705bool AArch64FastISel::selectRem(const Instruction *I, unsigned ISDOpcode) {
Tim Northover3b0846e2014-05-24 12:50:23 +00003706 EVT DestEVT = TLI.getValueType(I->getType(), true);
3707 if (!DestEVT.isSimple())
3708 return false;
3709
3710 MVT DestVT = DestEVT.getSimpleVT();
3711 if (DestVT != MVT::i64 && DestVT != MVT::i32)
3712 return false;
3713
3714 unsigned DivOpc;
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003715 bool Is64bit = (DestVT == MVT::i64);
Tim Northover3b0846e2014-05-24 12:50:23 +00003716 switch (ISDOpcode) {
3717 default:
3718 return false;
3719 case ISD::SREM:
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003720 DivOpc = Is64bit ? AArch64::SDIVXr : AArch64::SDIVWr;
Tim Northover3b0846e2014-05-24 12:50:23 +00003721 break;
3722 case ISD::UREM:
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003723 DivOpc = Is64bit ? AArch64::UDIVXr : AArch64::UDIVWr;
Tim Northover3b0846e2014-05-24 12:50:23 +00003724 break;
3725 }
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003726 unsigned MSubOpc = Is64bit ? AArch64::MSUBXrrr : AArch64::MSUBWrrr;
Tim Northover3b0846e2014-05-24 12:50:23 +00003727 unsigned Src0Reg = getRegForValue(I->getOperand(0));
3728 if (!Src0Reg)
3729 return false;
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00003730 bool Src0IsKill = hasTrivialKill(I->getOperand(0));
Tim Northover3b0846e2014-05-24 12:50:23 +00003731
3732 unsigned Src1Reg = getRegForValue(I->getOperand(1));
3733 if (!Src1Reg)
3734 return false;
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00003735 bool Src1IsKill = hasTrivialKill(I->getOperand(1));
Tim Northover3b0846e2014-05-24 12:50:23 +00003736
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00003737 const TargetRegisterClass *RC =
3738 (DestVT == MVT::i64) ? &AArch64::GPR64RegClass : &AArch64::GPR32RegClass;
Juergen Ributzka88e32512014-09-03 20:56:59 +00003739 unsigned QuotReg = fastEmitInst_rr(DivOpc, RC, Src0Reg, /*IsKill=*/false,
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00003740 Src1Reg, /*IsKill=*/false);
3741 assert(QuotReg && "Unexpected DIV instruction emission failure.");
Tim Northover3b0846e2014-05-24 12:50:23 +00003742 // The remainder is computed as numerator - (quotient * denominator) using the
3743 // MSUB instruction.
Juergen Ributzka88e32512014-09-03 20:56:59 +00003744 unsigned ResultReg = fastEmitInst_rrr(MSubOpc, RC, QuotReg, /*IsKill=*/true,
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00003745 Src1Reg, Src1IsKill, Src0Reg,
3746 Src0IsKill);
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +00003747 updateValueMap(I, ResultReg);
Tim Northover3b0846e2014-05-24 12:50:23 +00003748 return true;
3749}
3750
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003751bool AArch64FastISel::selectMul(const Instruction *I) {
Juergen Ributzkac611d722014-09-17 20:35:41 +00003752 MVT VT;
3753 if (!isTypeSupported(I->getType(), VT, /*IsVectorAllowed=*/true))
Tim Northover3b0846e2014-05-24 12:50:23 +00003754 return false;
Tim Northover3b0846e2014-05-24 12:50:23 +00003755
Juergen Ributzkac611d722014-09-17 20:35:41 +00003756 if (VT.isVector())
3757 return selectBinaryOp(I, ISD::MUL);
3758
3759 const Value *Src0 = I->getOperand(0);
3760 const Value *Src1 = I->getOperand(1);
3761 if (const auto *C = dyn_cast<ConstantInt>(Src0))
3762 if (C->getValue().isPowerOf2())
3763 std::swap(Src0, Src1);
3764
3765 // Try to simplify to a shift instruction.
3766 if (const auto *C = dyn_cast<ConstantInt>(Src1))
3767 if (C->getValue().isPowerOf2()) {
3768 uint64_t ShiftVal = C->getValue().logBase2();
3769 MVT SrcVT = VT;
3770 bool IsZExt = true;
3771 if (const auto *ZExt = dyn_cast<ZExtInst>(Src0)) {
3772 MVT VT;
3773 if (isValueAvailable(ZExt) && isTypeSupported(ZExt->getSrcTy(), VT)) {
3774 SrcVT = VT;
3775 IsZExt = true;
3776 Src0 = ZExt->getOperand(0);
3777 }
3778 } else if (const auto *SExt = dyn_cast<SExtInst>(Src0)) {
3779 MVT VT;
3780 if (isValueAvailable(SExt) && isTypeSupported(SExt->getSrcTy(), VT)) {
3781 SrcVT = VT;
3782 IsZExt = false;
3783 Src0 = SExt->getOperand(0);
3784 }
3785 }
3786
3787 unsigned Src0Reg = getRegForValue(Src0);
3788 if (!Src0Reg)
3789 return false;
3790 bool Src0IsKill = hasTrivialKill(Src0);
3791
3792 unsigned ResultReg =
3793 emitLSL_ri(VT, SrcVT, Src0Reg, Src0IsKill, ShiftVal, IsZExt);
3794
3795 if (ResultReg) {
3796 updateValueMap(I, ResultReg);
3797 return true;
3798 }
3799 }
Tim Northover3b0846e2014-05-24 12:50:23 +00003800
Tim Northover3b0846e2014-05-24 12:50:23 +00003801 unsigned Src0Reg = getRegForValue(I->getOperand(0));
3802 if (!Src0Reg)
3803 return false;
Juergen Ributzkaad3b0902014-07-30 22:04:25 +00003804 bool Src0IsKill = hasTrivialKill(I->getOperand(0));
Tim Northover3b0846e2014-05-24 12:50:23 +00003805
3806 unsigned Src1Reg = getRegForValue(I->getOperand(1));
3807 if (!Src1Reg)
3808 return false;
Juergen Ributzkaad3b0902014-07-30 22:04:25 +00003809 bool Src1IsKill = hasTrivialKill(I->getOperand(1));
Tim Northover3b0846e2014-05-24 12:50:23 +00003810
Juergen Ributzkac611d722014-09-17 20:35:41 +00003811 unsigned ResultReg = emitMul_rr(VT, Src0Reg, Src0IsKill, Src1Reg, Src1IsKill);
Juergen Ributzkaad3b0902014-07-30 22:04:25 +00003812
3813 if (!ResultReg)
3814 return false;
3815
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +00003816 updateValueMap(I, ResultReg);
Tim Northover3b0846e2014-05-24 12:50:23 +00003817 return true;
3818}
3819
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003820bool AArch64FastISel::selectShift(const Instruction *I) {
Juergen Ributzka99dd30f2014-08-27 00:58:26 +00003821 MVT RetVT;
Juergen Ributzkae1779e22014-09-15 21:27:56 +00003822 if (!isTypeSupported(I->getType(), RetVT, /*IsVectorAllowed=*/true))
Juergen Ributzkaa75cb112014-07-30 22:04:22 +00003823 return false;
Juergen Ributzkaa75cb112014-07-30 22:04:22 +00003824
Juergen Ributzkae1779e22014-09-15 21:27:56 +00003825 if (RetVT.isVector())
3826 return selectOperator(I, I->getOpcode());
3827
Juergen Ributzka0e0b4c12014-08-21 23:06:07 +00003828 if (const auto *C = dyn_cast<ConstantInt>(I->getOperand(1))) {
3829 unsigned ResultReg = 0;
3830 uint64_t ShiftVal = C->getZExtValue();
Juergen Ributzka99dd30f2014-08-27 00:58:26 +00003831 MVT SrcVT = RetVT;
3832 bool IsZExt = (I->getOpcode() == Instruction::AShr) ? false : true;
Juergen Ributzka77bc09f2014-08-29 00:19:21 +00003833 const Value *Op0 = I->getOperand(0);
Juergen Ributzka99dd30f2014-08-27 00:58:26 +00003834 if (const auto *ZExt = dyn_cast<ZExtInst>(Op0)) {
3835 MVT TmpVT;
Juergen Ributzka8a4b8be2014-09-02 22:33:53 +00003836 if (isValueAvailable(ZExt) && isTypeSupported(ZExt->getSrcTy(), TmpVT)) {
Juergen Ributzka99dd30f2014-08-27 00:58:26 +00003837 SrcVT = TmpVT;
3838 IsZExt = true;
3839 Op0 = ZExt->getOperand(0);
3840 }
3841 } else if (const auto *SExt = dyn_cast<SExtInst>(Op0)) {
3842 MVT TmpVT;
Juergen Ributzka8a4b8be2014-09-02 22:33:53 +00003843 if (isValueAvailable(SExt) && isTypeSupported(SExt->getSrcTy(), TmpVT)) {
Juergen Ributzka99dd30f2014-08-27 00:58:26 +00003844 SrcVT = TmpVT;
3845 IsZExt = false;
3846 Op0 = SExt->getOperand(0);
3847 }
3848 }
3849
3850 unsigned Op0Reg = getRegForValue(Op0);
3851 if (!Op0Reg)
3852 return false;
3853 bool Op0IsKill = hasTrivialKill(Op0);
3854
Juergen Ributzka0e0b4c12014-08-21 23:06:07 +00003855 switch (I->getOpcode()) {
3856 default: llvm_unreachable("Unexpected instruction.");
3857 case Instruction::Shl:
Juergen Ributzka99dd30f2014-08-27 00:58:26 +00003858 ResultReg = emitLSL_ri(RetVT, SrcVT, Op0Reg, Op0IsKill, ShiftVal, IsZExt);
Juergen Ributzka0e0b4c12014-08-21 23:06:07 +00003859 break;
3860 case Instruction::AShr:
Juergen Ributzka99dd30f2014-08-27 00:58:26 +00003861 ResultReg = emitASR_ri(RetVT, SrcVT, Op0Reg, Op0IsKill, ShiftVal, IsZExt);
Juergen Ributzka0e0b4c12014-08-21 23:06:07 +00003862 break;
3863 case Instruction::LShr:
Juergen Ributzka99dd30f2014-08-27 00:58:26 +00003864 ResultReg = emitLSR_ri(RetVT, SrcVT, Op0Reg, Op0IsKill, ShiftVal, IsZExt);
Juergen Ributzka0e0b4c12014-08-21 23:06:07 +00003865 break;
3866 }
3867 if (!ResultReg)
3868 return false;
Juergen Ributzkaa75cb112014-07-30 22:04:22 +00003869
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +00003870 updateValueMap(I, ResultReg);
Juergen Ributzka0e0b4c12014-08-21 23:06:07 +00003871 return true;
3872 }
3873
Juergen Ributzka99dd30f2014-08-27 00:58:26 +00003874 unsigned Op0Reg = getRegForValue(I->getOperand(0));
3875 if (!Op0Reg)
3876 return false;
3877 bool Op0IsKill = hasTrivialKill(I->getOperand(0));
3878
Juergen Ributzka0e0b4c12014-08-21 23:06:07 +00003879 unsigned Op1Reg = getRegForValue(I->getOperand(1));
3880 if (!Op1Reg)
3881 return false;
3882 bool Op1IsKill = hasTrivialKill(I->getOperand(1));
3883
3884 unsigned ResultReg = 0;
3885 switch (I->getOpcode()) {
3886 default: llvm_unreachable("Unexpected instruction.");
3887 case Instruction::Shl:
3888 ResultReg = emitLSL_rr(RetVT, Op0Reg, Op0IsKill, Op1Reg, Op1IsKill);
3889 break;
3890 case Instruction::AShr:
3891 ResultReg = emitASR_rr(RetVT, Op0Reg, Op0IsKill, Op1Reg, Op1IsKill);
3892 break;
3893 case Instruction::LShr:
3894 ResultReg = emitLSR_rr(RetVT, Op0Reg, Op0IsKill, Op1Reg, Op1IsKill);
3895 break;
Juergen Ributzkaa75cb112014-07-30 22:04:22 +00003896 }
3897
3898 if (!ResultReg)
3899 return false;
3900
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +00003901 updateValueMap(I, ResultReg);
Juergen Ributzkaa75cb112014-07-30 22:04:22 +00003902 return true;
3903}
3904
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003905bool AArch64FastISel::selectBitCast(const Instruction *I) {
Juergen Ributzkac537bd22014-07-31 06:25:37 +00003906 MVT RetVT, SrcVT;
3907
3908 if (!isTypeLegal(I->getOperand(0)->getType(), SrcVT))
3909 return false;
3910 if (!isTypeLegal(I->getType(), RetVT))
3911 return false;
3912
3913 unsigned Opc;
3914 if (RetVT == MVT::f32 && SrcVT == MVT::i32)
3915 Opc = AArch64::FMOVWSr;
3916 else if (RetVT == MVT::f64 && SrcVT == MVT::i64)
3917 Opc = AArch64::FMOVXDr;
3918 else if (RetVT == MVT::i32 && SrcVT == MVT::f32)
3919 Opc = AArch64::FMOVSWr;
3920 else if (RetVT == MVT::i64 && SrcVT == MVT::f64)
3921 Opc = AArch64::FMOVDXr;
3922 else
3923 return false;
3924
Juergen Ributzkaaddb75a2014-08-21 20:57:57 +00003925 const TargetRegisterClass *RC = nullptr;
3926 switch (RetVT.SimpleTy) {
3927 default: llvm_unreachable("Unexpected value type.");
3928 case MVT::i32: RC = &AArch64::GPR32RegClass; break;
3929 case MVT::i64: RC = &AArch64::GPR64RegClass; break;
3930 case MVT::f32: RC = &AArch64::FPR32RegClass; break;
3931 case MVT::f64: RC = &AArch64::FPR64RegClass; break;
3932 }
Juergen Ributzkac537bd22014-07-31 06:25:37 +00003933 unsigned Op0Reg = getRegForValue(I->getOperand(0));
3934 if (!Op0Reg)
3935 return false;
3936 bool Op0IsKill = hasTrivialKill(I->getOperand(0));
Juergen Ributzka88e32512014-09-03 20:56:59 +00003937 unsigned ResultReg = fastEmitInst_r(Opc, RC, Op0Reg, Op0IsKill);
Juergen Ributzkac537bd22014-07-31 06:25:37 +00003938
3939 if (!ResultReg)
3940 return false;
3941
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +00003942 updateValueMap(I, ResultReg);
Juergen Ributzkac537bd22014-07-31 06:25:37 +00003943 return true;
3944}
3945
Juergen Ributzkaafa034f2014-09-15 22:07:49 +00003946bool AArch64FastISel::selectFRem(const Instruction *I) {
3947 MVT RetVT;
3948 if (!isTypeLegal(I->getType(), RetVT))
3949 return false;
3950
3951 RTLIB::Libcall LC;
3952 switch (RetVT.SimpleTy) {
3953 default:
3954 return false;
3955 case MVT::f32:
3956 LC = RTLIB::REM_F32;
3957 break;
3958 case MVT::f64:
3959 LC = RTLIB::REM_F64;
3960 break;
3961 }
3962
3963 ArgListTy Args;
3964 Args.reserve(I->getNumOperands());
3965
3966 // Populate the argument list.
3967 for (auto &Arg : I->operands()) {
3968 ArgListEntry Entry;
3969 Entry.Val = Arg;
3970 Entry.Ty = Arg->getType();
3971 Args.push_back(Entry);
3972 }
3973
3974 CallLoweringInfo CLI;
3975 CLI.setCallee(TLI.getLibcallCallingConv(LC), I->getType(),
3976 TLI.getLibcallName(LC), std::move(Args));
3977 if (!lowerCallTo(CLI))
3978 return false;
3979 updateValueMap(I, CLI.ResultReg);
3980 return true;
3981}
3982
Juergen Ributzka5b8bb4d2014-09-03 20:56:52 +00003983bool AArch64FastISel::fastSelectInstruction(const Instruction *I) {
Tim Northover3b0846e2014-05-24 12:50:23 +00003984 switch (I->getOpcode()) {
3985 default:
Juergen Ributzka30c02e32014-09-04 01:29:21 +00003986 break;
Juergen Ributzkadbe9e172014-09-02 21:32:54 +00003987 case Instruction::Add:
Juergen Ributzkaa1148b22014-09-03 01:38:36 +00003988 case Instruction::Sub:
Juergen Ributzkae1779e22014-09-15 21:27:56 +00003989 return selectAddSub(I);
Juergen Ributzkadbe9e172014-09-02 21:32:54 +00003990 case Instruction::Mul:
Juergen Ributzkac611d722014-09-17 20:35:41 +00003991 return selectMul(I);
Juergen Ributzkadbe9e172014-09-02 21:32:54 +00003992 case Instruction::SRem:
Juergen Ributzka7a76c242014-09-03 18:46:45 +00003993 if (!selectBinaryOp(I, ISD::SREM))
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003994 return selectRem(I, ISD::SREM);
Juergen Ributzkadbe9e172014-09-02 21:32:54 +00003995 return true;
3996 case Instruction::URem:
Juergen Ributzka7a76c242014-09-03 18:46:45 +00003997 if (!selectBinaryOp(I, ISD::UREM))
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00003998 return selectRem(I, ISD::UREM);
Juergen Ributzkadbe9e172014-09-02 21:32:54 +00003999 return true;
Juergen Ributzkadbe9e172014-09-02 21:32:54 +00004000 case Instruction::Shl:
Juergen Ributzkadbe9e172014-09-02 21:32:54 +00004001 case Instruction::LShr:
Juergen Ributzkadbe9e172014-09-02 21:32:54 +00004002 case Instruction::AShr:
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00004003 return selectShift(I);
Juergen Ributzkadbe9e172014-09-02 21:32:54 +00004004 case Instruction::And:
Juergen Ributzkadbe9e172014-09-02 21:32:54 +00004005 case Instruction::Or:
Juergen Ributzkadbe9e172014-09-02 21:32:54 +00004006 case Instruction::Xor:
Juergen Ributzkae1779e22014-09-15 21:27:56 +00004007 return selectLogicalOp(I);
Juergen Ributzka31c80542014-09-03 17:58:10 +00004008 case Instruction::Br:
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00004009 return selectBranch(I);
Juergen Ributzkadbe9e172014-09-02 21:32:54 +00004010 case Instruction::IndirectBr:
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00004011 return selectIndirectBr(I);
Juergen Ributzkadbe9e172014-09-02 21:32:54 +00004012 case Instruction::BitCast:
Juergen Ributzka7a76c242014-09-03 18:46:45 +00004013 if (!FastISel::selectBitCast(I))
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00004014 return selectBitCast(I);
Juergen Ributzkadbe9e172014-09-02 21:32:54 +00004015 return true;
4016 case Instruction::FPToSI:
Juergen Ributzka7a76c242014-09-03 18:46:45 +00004017 if (!selectCast(I, ISD::FP_TO_SINT))
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00004018 return selectFPToInt(I, /*Signed=*/true);
Juergen Ributzkadbe9e172014-09-02 21:32:54 +00004019 return true;
4020 case Instruction::FPToUI:
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00004021 return selectFPToInt(I, /*Signed=*/false);
Juergen Ributzkadbe9e172014-09-02 21:32:54 +00004022 case Instruction::ZExt:
Juergen Ributzka7a76c242014-09-03 18:46:45 +00004023 if (!selectCast(I, ISD::ZERO_EXTEND))
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00004024 return selectIntExt(I);
Juergen Ributzkadbe9e172014-09-02 21:32:54 +00004025 return true;
4026 case Instruction::SExt:
Juergen Ributzka7a76c242014-09-03 18:46:45 +00004027 if (!selectCast(I, ISD::SIGN_EXTEND))
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00004028 return selectIntExt(I);
Juergen Ributzkadbe9e172014-09-02 21:32:54 +00004029 return true;
4030 case Instruction::Trunc:
Juergen Ributzka7a76c242014-09-03 18:46:45 +00004031 if (!selectCast(I, ISD::TRUNCATE))
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00004032 return selectTrunc(I);
Juergen Ributzkadbe9e172014-09-02 21:32:54 +00004033 return true;
4034 case Instruction::FPExt:
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00004035 return selectFPExt(I);
Juergen Ributzkadbe9e172014-09-02 21:32:54 +00004036 case Instruction::FPTrunc:
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00004037 return selectFPTrunc(I);
Juergen Ributzkadbe9e172014-09-02 21:32:54 +00004038 case Instruction::SIToFP:
Juergen Ributzka7a76c242014-09-03 18:46:45 +00004039 if (!selectCast(I, ISD::SINT_TO_FP))
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00004040 return selectIntToFP(I, /*Signed=*/true);
Juergen Ributzkadbe9e172014-09-02 21:32:54 +00004041 return true;
4042 case Instruction::UIToFP:
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00004043 return selectIntToFP(I, /*Signed=*/false);
Tim Northover3b0846e2014-05-24 12:50:23 +00004044 case Instruction::Load:
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00004045 return selectLoad(I);
Tim Northover3b0846e2014-05-24 12:50:23 +00004046 case Instruction::Store:
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00004047 return selectStore(I);
Tim Northover3b0846e2014-05-24 12:50:23 +00004048 case Instruction::FCmp:
4049 case Instruction::ICmp:
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00004050 return selectCmp(I);
Tim Northover3b0846e2014-05-24 12:50:23 +00004051 case Instruction::Select:
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00004052 return selectSelect(I);
Tim Northover3b0846e2014-05-24 12:50:23 +00004053 case Instruction::Ret:
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00004054 return selectRet(I);
Juergen Ributzkaafa034f2014-09-15 22:07:49 +00004055 case Instruction::FRem:
4056 return selectFRem(I);
Tim Northover3b0846e2014-05-24 12:50:23 +00004057 }
Juergen Ributzkadbe9e172014-09-02 21:32:54 +00004058
Juergen Ributzka30c02e32014-09-04 01:29:21 +00004059 // fall-back to target-independent instruction selection.
4060 return selectOperator(I, I->getOpcode());
Tim Northover3b0846e2014-05-24 12:50:23 +00004061 // Silence warnings.
4062 (void)&CC_AArch64_DarwinPCS_VarArg;
4063}
4064
4065namespace llvm {
Juergen Ributzkab9e49c72014-09-15 23:20:17 +00004066llvm::FastISel *AArch64::createFastISel(FunctionLoweringInfo &FuncInfo,
4067 const TargetLibraryInfo *LibInfo) {
4068 return new AArch64FastISel(FuncInfo, LibInfo);
Tim Northover3b0846e2014-05-24 12:50:23 +00004069}
4070}