src/IceTargetLoweringARM32.cpp - Issue 1655313002: Subzero: ARM32: lowering of vector insert and extract.

Side by Side Diff: src/IceTargetLoweringARM32.cpp

Issue 1655313002: Subzero: ARM32: lowering of vector insert and extract. (Closed) Base URL: https://chromium.googlesource.com/native_client/pnacl-subzero.git@master

Patch Set: Incorporating review feedback. Created 4 years, 10 months ago

Use n/p to move between diff chunks; N/P to move between comments. Draft comments are only viewable by you.

Jump to:

View unified diff | Download patch

OLD	NEW
1 //===- subzero/src/IceTargetLoweringARM32.cpp - ARM32 lowering ------------===//	1 //===- subzero/src/IceTargetLoweringARM32.cpp - ARM32 lowering ------------===//

2 //	2 //

3 // The Subzero Code Generator	3 // The Subzero Code Generator

4 //	4 //

5 // This file is distributed under the University of Illinois Open Source	5 // This file is distributed under the University of Illinois Open Source

6 // License. See LICENSE.TXT for details.	6 // License. See LICENSE.TXT for details.

7 //	7 //

8 //===----------------------------------------------------------------------===//	8 //===----------------------------------------------------------------------===//

9 ///	9 ///

10 /// \file	10 /// \file

(...skipping 279 matching lines...) Expand 10 before \| Expand all \| Expand 10 after Loading...
290 CPUFeatures(Func->getContext()->getFlags()) {}	290 CPUFeatures(Func->getContext()->getFlags()) {}

291	291

292 void TargetARM32::staticInit(GlobalContext *Ctx) {	292 void TargetARM32::staticInit(GlobalContext *Ctx) {

293	293

294 // Limit this size (or do all bitsets need to be the same width)???	294 // Limit this size (or do all bitsets need to be the same width)???

295 llvm::SmallBitVector IntegerRegisters(RegARM32::Reg_NUM);	295 llvm::SmallBitVector IntegerRegisters(RegARM32::Reg_NUM);

296 llvm::SmallBitVector I64PairRegisters(RegARM32::Reg_NUM);	296 llvm::SmallBitVector I64PairRegisters(RegARM32::Reg_NUM);

297 llvm::SmallBitVector Float32Registers(RegARM32::Reg_NUM);	297 llvm::SmallBitVector Float32Registers(RegARM32::Reg_NUM);

298 llvm::SmallBitVector Float64Registers(RegARM32::Reg_NUM);	298 llvm::SmallBitVector Float64Registers(RegARM32::Reg_NUM);

299 llvm::SmallBitVector VectorRegisters(RegARM32::Reg_NUM);	299 llvm::SmallBitVector VectorRegisters(RegARM32::Reg_NUM);

	300 llvm::SmallBitVector QtoSRegisters(RegARM32::Reg_NUM);

300 llvm::SmallBitVector InvalidRegisters(RegARM32::Reg_NUM);	301 llvm::SmallBitVector InvalidRegisters(RegARM32::Reg_NUM);

301 for (int i = 0; i < RegARM32::Reg_NUM; ++i) {	302 for (int i = 0; i < RegARM32::Reg_NUM; ++i) {

302 const auto &Entry = RegARM32::RegTable[i];	303 const auto &Entry = RegARM32::RegTable[i];

	304 const auto EncodedReg_q8 = RegARM32::RegTable[RegARM32::Reg_q8].Encoding;

303 IntegerRegisters[i] = Entry.IsInt;	305 IntegerRegisters[i] = Entry.IsInt;

304 I64PairRegisters[i] = Entry.IsI64Pair;	306 I64PairRegisters[i] = Entry.IsI64Pair;

305 Float32Registers[i] = Entry.IsFP32;	307 Float32Registers[i] = Entry.IsFP32;

306 Float64Registers[i] = Entry.IsFP64;	308 Float64Registers[i] = Entry.IsFP64;

307 VectorRegisters[i] = Entry.IsVec128;	309 VectorRegisters[i] = Entry.IsVec128;

308 RegisterAliases[i].resize(RegARM32::Reg_NUM);	310 RegisterAliases[i].resize(RegARM32::Reg_NUM);

	311 // TODO: It would be better to store a QtoS flag in the IceRegistersARM32
	Jim Stichnoth 2016/02/08 18:08:29 TODO(person): TODO(person): Eric Holk 2016/02/08 18:44:11 Done. Show quoted text On 2016/02/08 18:08:29, stichnot wrote: > TODO(person): Done.
	312 // table than to compare their encodings here.

	313 QtoSRegisters[i] = Entry.IsVec128 && Entry.Encoding < EncodedReg_q8;

309 for (int j = 0; j < Entry.NumAliases; ++j) {	314 for (int j = 0; j < Entry.NumAliases; ++j) {

310 assert(i == j \|\| !RegisterAliases[i][Entry.Aliases[j]]);	315 assert(i == j \|\| !RegisterAliases[i][Entry.Aliases[j]]);

311 RegisterAliases[i].set(Entry.Aliases[j]);	316 RegisterAliases[i].set(Entry.Aliases[j]);

312 }	317 }

313 assert(RegisterAliases[i][i]);	318 assert(RegisterAliases[i][i]);

314 if (Entry.CCArg <= 0) {	319 if (Entry.CCArg <= 0) {

315 continue;	320 continue;

316 }	321 }

317 if (Entry.IsGPR) {	322 if (Entry.IsGPR) {

318 GPRArgInitializer[Entry.CCArg - 1] = i;	323 GPRArgInitializer[Entry.CCArg - 1] = i;

(...skipping 15 matching lines...) Expand all Loading...
334 TypeToRegisterSet[IceType_i64] = I64PairRegisters;	339 TypeToRegisterSet[IceType_i64] = I64PairRegisters;

335 TypeToRegisterSet[IceType_f32] = Float32Registers;	340 TypeToRegisterSet[IceType_f32] = Float32Registers;

336 TypeToRegisterSet[IceType_f64] = Float64Registers;	341 TypeToRegisterSet[IceType_f64] = Float64Registers;

337 TypeToRegisterSet[IceType_v4i1] = VectorRegisters;	342 TypeToRegisterSet[IceType_v4i1] = VectorRegisters;

338 TypeToRegisterSet[IceType_v8i1] = VectorRegisters;	343 TypeToRegisterSet[IceType_v8i1] = VectorRegisters;

339 TypeToRegisterSet[IceType_v16i1] = VectorRegisters;	344 TypeToRegisterSet[IceType_v16i1] = VectorRegisters;

340 TypeToRegisterSet[IceType_v16i8] = VectorRegisters;	345 TypeToRegisterSet[IceType_v16i8] = VectorRegisters;

341 TypeToRegisterSet[IceType_v8i16] = VectorRegisters;	346 TypeToRegisterSet[IceType_v8i16] = VectorRegisters;

342 TypeToRegisterSet[IceType_v4i32] = VectorRegisters;	347 TypeToRegisterSet[IceType_v4i32] = VectorRegisters;

343 TypeToRegisterSet[IceType_v4f32] = VectorRegisters;	348 TypeToRegisterSet[IceType_v4f32] = VectorRegisters;

	349 TypeToRegisterSet[RegARM32::RCARM32_QtoS] = QtoSRegisters;

344	350

345 for (size_t i = 0; i < llvm::array_lengthof(TypeToRegisterSet); ++i)	351 for (size_t i = 0; i < llvm::array_lengthof(TypeToRegisterSet); ++i)

346 TypeToRegisterSetUnfiltered[i] = TypeToRegisterSet[i];	352 TypeToRegisterSetUnfiltered[i] = TypeToRegisterSet[i];

347	353

348 filterTypeToRegisterSet(	354 filterTypeToRegisterSet(

349 Ctx, RegARM32::Reg_NUM, TypeToRegisterSet,	355 Ctx, RegARM32::Reg_NUM, TypeToRegisterSet,

350 llvm::array_lengthof(TypeToRegisterSet), [](int32_t RegNum) -> IceString {	356 llvm::array_lengthof(TypeToRegisterSet), [](int32_t RegNum) -> IceString {

351 // This function simply removes ", " from the register name.	357 // This function simply removes ", " from the register name.

352 IceString Name = RegARM32::getRegName(RegNum);	358 IceString Name = RegARM32::getRegName(RegNum);

353 constexpr const char RegSeparator[] = ", ";	359 constexpr const char RegSeparator[] = ", ";

(...skipping 3469 matching lines...) Expand 10 before \| Expand all \| Expand 10 after Loading...
3823 case IceType_v4i32: {	3829 case IceType_v4i32: {

3824 UnimplementedLoweringError(this, Inst);	3830 UnimplementedLoweringError(this, Inst);

3825 break;	3831 break;

3826 }	3832 }

3827 }	3833 }

3828 break;	3834 break;

3829 }	3835 }

3830 }	3836 }

3831 }	3837 }

3832	3838

3833 void TargetARM32::lowerExtractElement(const InstExtractElement *Inst) {	3839 void TargetARM32::lowerExtractElement(const InstExtractElement *Instr) {

3834 UnimplementedLoweringError(this, Inst);	3840 Variable *Dest = Instr->getDest();

	3841 auto DestTy = Dest->getType();

	3842

	3843 Variable *Src0 = legalizeToReg(Instr->getSrc(0));

	3844 Operand *Src1 = Instr->getSrc(1);

	3845

	3846 if (const auto *Imm = llvm::dyn_cast<ConstantInteger32>(Src1)) {

	3847 const uint32_t Index = Imm->getValue();

	3848 Variable *T = makeReg(DestTy);

	3849 Variable *TSrc0 = makeReg(Src0->getType());

	3850

	3851 if (isFloatingType(DestTy)) {

	3852 // We need to make sure the source is in a suitable register.

	3853 TSrc0->setRegClass(RegARM32::RCARM32_QtoS);

	3854 }

	3855

	3856 _mov(TSrc0, Src0);

	3857 _extractelement(T, TSrc0, Index);

	3858 _mov(Dest, T);

	3859 return;

	3860 }

	3861 assert(false && "extractelement requires a constant index");

3835 }	3862 }

3836	3863

3837 namespace {	3864 namespace {

3838 // Validates FCMPARM32_TABLE's declaration w.r.t. InstFcmp::FCondition ordering	3865 // Validates FCMPARM32_TABLE's declaration w.r.t. InstFcmp::FCondition ordering

3839 // (and naming).	3866 // (and naming).

3840 enum {	3867 enum {

3841 #define X(val, CC0, CC1) _fcmp_ll_##val,	3868 #define X(val, CC0, CC1) _fcmp_ll_##val,

3842 FCMPARM32_TABLE	3869 FCMPARM32_TABLE

3843 #undef X	3870 #undef X

3844 _fcmp_ll_NUM	3871 _fcmp_ll_NUM

(...skipping 373 matching lines...) Expand 10 before \| Expand all \| Expand 10 after Loading...
4218 _mov(T, _0);	4245 _mov(T, _0);

4219 CondWhenTrue Cond = lowerIcmpCond(Inst);	4246 CondWhenTrue Cond = lowerIcmpCond(Inst);

4220 _mov_redefined(T, _1, Cond.WhenTrue0);	4247 _mov_redefined(T, _1, Cond.WhenTrue0);

4221 _mov(Dest, T);	4248 _mov(Dest, T);

4222	4249

4223 assert(Cond.WhenTrue1 == CondARM32::kNone);	4250 assert(Cond.WhenTrue1 == CondARM32::kNone);

4224	4251

4225 return;	4252 return;

4226 }	4253 }

4227	4254

4228 void TargetARM32::lowerInsertElement(const InstInsertElement *Inst) {	4255 void TargetARM32::lowerInsertElement(const InstInsertElement *Instr) {

4229 UnimplementedLoweringError(this, Inst);	4256 Variable *Dest = Instr->getDest();

	4257 auto DestTy = Dest->getType();

	4258

	4259 Variable *Src0 = legalizeToReg(Instr->getSrc(0));

	4260 Variable *Src1 = legalizeToReg(Instr->getSrc(1));

	4261 Operand *Src2 = Instr->getSrc(2);

	4262

	4263 if (const auto *Imm = llvm::dyn_cast<ConstantInteger32>(Src2)) {

	4264 auto Index = Imm->getValue();

	4265 Variable *T = makeReg(DestTy);

	4266

	4267 if (isFloatingType(DestTy)) {

	4268 T->setRegClass(RegARM32::RCARM32_QtoS);

	4269 }

	4270

	4271 _mov(T, Src0);

	4272 _insertelement(T, Src1, Index);

	4273 _set_dest_redefined();

	4274 _mov(Dest, T);

	4275 return;

	4276 }

	4277 assert(false && "insertelement requires a constant index");

4230 }	4278 }

4231	4279

4232 namespace {	4280 namespace {

4233 inline uint64_t getConstantMemoryOrder(Operand *Opnd) {	4281 inline uint64_t getConstantMemoryOrder(Operand *Opnd) {

4234 if (auto *Integer = llvm::dyn_cast<ConstantInteger32>(Opnd))	4282 if (auto *Integer = llvm::dyn_cast<ConstantInteger32>(Opnd))

4235 return Integer->getValue();	4283 return Integer->getValue();

4236 return Intrinsics::MemoryOrderInvalid;	4284 return Intrinsics::MemoryOrderInvalid;

4237 }	4285 }

4238 } // end of anonymous namespace	4286 } // end of anonymous namespace

4239	4287

(...skipping 2276 matching lines...) Expand 10 before \| Expand all \| Expand 10 after Loading...
6516 Str << ".eabi_attribute 14, 3 @ Tag_ABI_PCS_R9_use: Not used\n";	6564 Str << ".eabi_attribute 14, 3 @ Tag_ABI_PCS_R9_use: Not used\n";

6517 }	6565 }

6518	6566

6519 llvm::SmallBitVector TargetARM32::TypeToRegisterSet[RegARM32::RCARM32_NUM];	6567 llvm::SmallBitVector TargetARM32::TypeToRegisterSet[RegARM32::RCARM32_NUM];

6520 llvm::SmallBitVector	6568 llvm::SmallBitVector

6521 TargetARM32::TypeToRegisterSetUnfiltered[RegARM32::RCARM32_NUM];	6569 TargetARM32::TypeToRegisterSetUnfiltered[RegARM32::RCARM32_NUM];

6522 llvm::SmallBitVector TargetARM32::RegisterAliases[RegARM32::Reg_NUM];	6570 llvm::SmallBitVector TargetARM32::RegisterAliases[RegARM32::Reg_NUM];

6523	6571

6524 } // end of namespace ARM32	6572 } // end of namespace ARM32

6525 } // end of namespace Ice	6573 } // end of namespace Ice

OLD	NEW

« src/IceInstARM32.cpp ('K') | « src/IceTargetLoweringARM32.h ('k') | tests_lit/assembler/arm32/insert-extract.ll » ('j') | tests_lit/assembler/arm32/insert-extract.ll » ('J')