/* * Copyright (C) 2015 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "intrinsics_arm64.h" #include "arch/arm64/instruction_set_features_arm64.h" #include "art_method.h" #include "code_generator_arm64.h" #include "common_arm64.h" #include "entrypoints/quick/quick_entrypoints.h" #include "intrinsics.h" #include "mirror/array-inl.h" #include "mirror/string.h" #include "thread.h" #include "utils/arm64/assembler_arm64.h" #include "utils/arm64/constants_arm64.h" #include "vixl/a64/disasm-a64.h" #include "vixl/a64/macro-assembler-a64.h" using namespace vixl; // NOLINT(build/namespaces) namespace art { namespace arm64 { using helpers::DRegisterFrom; using helpers::FPRegisterFrom; using helpers::HeapOperand; using helpers::LocationFrom; using helpers::RegisterFrom; using helpers::SRegisterFrom; using helpers::WRegisterFrom; using helpers::XRegisterFrom; namespace { ALWAYS_INLINE inline MemOperand AbsoluteHeapOperandFrom(Location location, size_t offset = 0) { return MemOperand(XRegisterFrom(location), offset); } } // namespace vixl::MacroAssembler* IntrinsicCodeGeneratorARM64::GetVIXLAssembler() { return codegen_->GetAssembler()->vixl_masm_; } ArenaAllocator* IntrinsicCodeGeneratorARM64::GetAllocator() { return codegen_->GetGraph()->GetArena(); } #define __ codegen->GetAssembler()->vixl_masm_-> static void MoveFromReturnRegister(Location trg, Primitive::Type type, CodeGeneratorARM64* codegen) { if (!trg.IsValid()) { DCHECK(type == Primitive::kPrimVoid); return; } DCHECK_NE(type, Primitive::kPrimVoid); if (Primitive::IsIntegralType(type) || type == Primitive::kPrimNot) { Register trg_reg = RegisterFrom(trg, type); Register res_reg = RegisterFrom(ARM64ReturnLocation(type), type); __ Mov(trg_reg, res_reg, kDiscardForSameWReg); } else { FPRegister trg_reg = FPRegisterFrom(trg, type); FPRegister res_reg = FPRegisterFrom(ARM64ReturnLocation(type), type); __ Fmov(trg_reg, res_reg); } } static void MoveArguments(HInvoke* invoke, CodeGeneratorARM64* codegen) { InvokeDexCallingConventionVisitorARM64 calling_convention_visitor; IntrinsicVisitor::MoveArguments(invoke, codegen, &calling_convention_visitor); } // Slow-path for fallback (calling the managed code to handle the intrinsic) in an intrinsified // call. This will copy the arguments into the positions for a regular call. // // Note: The actual parameters are required to be in the locations given by the invoke's location // summary. If an intrinsic modifies those locations before a slowpath call, they must be // restored! class IntrinsicSlowPathARM64 : public SlowPathCodeARM64 { public: explicit IntrinsicSlowPathARM64(HInvoke* invoke) : invoke_(invoke) { } void EmitNativeCode(CodeGenerator* codegen_in) OVERRIDE { CodeGeneratorARM64* codegen = down_cast(codegen_in); __ Bind(GetEntryLabel()); SaveLiveRegisters(codegen, invoke_->GetLocations()); MoveArguments(invoke_, codegen); if (invoke_->IsInvokeStaticOrDirect()) { codegen->GenerateStaticOrDirectCall(invoke_->AsInvokeStaticOrDirect(), kArtMethodRegister); RecordPcInfo(codegen, invoke_, invoke_->GetDexPc()); } else { UNIMPLEMENTED(FATAL) << "Non-direct intrinsic slow-path not yet implemented"; UNREACHABLE(); } // Copy the result back to the expected output. Location out = invoke_->GetLocations()->Out(); if (out.IsValid()) { DCHECK(out.IsRegister()); // TODO: Replace this when we support output in memory. DCHECK(!invoke_->GetLocations()->GetLiveRegisters()->ContainsCoreRegister(out.reg())); MoveFromReturnRegister(out, invoke_->GetType(), codegen); } RestoreLiveRegisters(codegen, invoke_->GetLocations()); __ B(GetExitLabel()); } private: // The instruction where this slow path is happening. HInvoke* const invoke_; DISALLOW_COPY_AND_ASSIGN(IntrinsicSlowPathARM64); }; #undef __ bool IntrinsicLocationsBuilderARM64::TryDispatch(HInvoke* invoke) { Dispatch(invoke); LocationSummary* res = invoke->GetLocations(); return res != nullptr && res->Intrinsified(); } #define __ masm-> static void CreateFPToIntLocations(ArenaAllocator* arena, HInvoke* invoke) { LocationSummary* locations = new (arena) LocationSummary(invoke, LocationSummary::kNoCall, kIntrinsified); locations->SetInAt(0, Location::RequiresFpuRegister()); locations->SetOut(Location::RequiresRegister()); } static void CreateIntToFPLocations(ArenaAllocator* arena, HInvoke* invoke) { LocationSummary* locations = new (arena) LocationSummary(invoke, LocationSummary::kNoCall, kIntrinsified); locations->SetInAt(0, Location::RequiresRegister()); locations->SetOut(Location::RequiresFpuRegister()); } static void MoveFPToInt(LocationSummary* locations, bool is64bit, vixl::MacroAssembler* masm) { Location input = locations->InAt(0); Location output = locations->Out(); __ Fmov(is64bit ? XRegisterFrom(output) : WRegisterFrom(output), is64bit ? DRegisterFrom(input) : SRegisterFrom(input)); } static void MoveIntToFP(LocationSummary* locations, bool is64bit, vixl::MacroAssembler* masm) { Location input = locations->InAt(0); Location output = locations->Out(); __ Fmov(is64bit ? DRegisterFrom(output) : SRegisterFrom(output), is64bit ? XRegisterFrom(input) : WRegisterFrom(input)); } void IntrinsicLocationsBuilderARM64::VisitDoubleDoubleToRawLongBits(HInvoke* invoke) { CreateFPToIntLocations(arena_, invoke); } void IntrinsicLocationsBuilderARM64::VisitDoubleLongBitsToDouble(HInvoke* invoke) { CreateIntToFPLocations(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitDoubleDoubleToRawLongBits(HInvoke* invoke) { MoveFPToInt(invoke->GetLocations(), true, GetVIXLAssembler()); } void IntrinsicCodeGeneratorARM64::VisitDoubleLongBitsToDouble(HInvoke* invoke) { MoveIntToFP(invoke->GetLocations(), true, GetVIXLAssembler()); } void IntrinsicLocationsBuilderARM64::VisitFloatFloatToRawIntBits(HInvoke* invoke) { CreateFPToIntLocations(arena_, invoke); } void IntrinsicLocationsBuilderARM64::VisitFloatIntBitsToFloat(HInvoke* invoke) { CreateIntToFPLocations(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitFloatFloatToRawIntBits(HInvoke* invoke) { MoveFPToInt(invoke->GetLocations(), false, GetVIXLAssembler()); } void IntrinsicCodeGeneratorARM64::VisitFloatIntBitsToFloat(HInvoke* invoke) { MoveIntToFP(invoke->GetLocations(), false, GetVIXLAssembler()); } static void CreateIntToIntLocations(ArenaAllocator* arena, HInvoke* invoke) { LocationSummary* locations = new (arena) LocationSummary(invoke, LocationSummary::kNoCall, kIntrinsified); locations->SetInAt(0, Location::RequiresRegister()); locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); } static void GenReverseBytes(LocationSummary* locations, Primitive::Type type, vixl::MacroAssembler* masm) { Location in = locations->InAt(0); Location out = locations->Out(); switch (type) { case Primitive::kPrimShort: __ Rev16(WRegisterFrom(out), WRegisterFrom(in)); __ Sxth(WRegisterFrom(out), WRegisterFrom(out)); break; case Primitive::kPrimInt: case Primitive::kPrimLong: __ Rev(RegisterFrom(out, type), RegisterFrom(in, type)); break; default: LOG(FATAL) << "Unexpected size for reverse-bytes: " << type; UNREACHABLE(); } } void IntrinsicLocationsBuilderARM64::VisitIntegerReverseBytes(HInvoke* invoke) { CreateIntToIntLocations(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitIntegerReverseBytes(HInvoke* invoke) { GenReverseBytes(invoke->GetLocations(), Primitive::kPrimInt, GetVIXLAssembler()); } void IntrinsicLocationsBuilderARM64::VisitLongReverseBytes(HInvoke* invoke) { CreateIntToIntLocations(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitLongReverseBytes(HInvoke* invoke) { GenReverseBytes(invoke->GetLocations(), Primitive::kPrimLong, GetVIXLAssembler()); } void IntrinsicLocationsBuilderARM64::VisitShortReverseBytes(HInvoke* invoke) { CreateIntToIntLocations(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitShortReverseBytes(HInvoke* invoke) { GenReverseBytes(invoke->GetLocations(), Primitive::kPrimShort, GetVIXLAssembler()); } static void GenReverse(LocationSummary* locations, Primitive::Type type, vixl::MacroAssembler* masm) { DCHECK(type == Primitive::kPrimInt || type == Primitive::kPrimLong); Location in = locations->InAt(0); Location out = locations->Out(); __ Rbit(RegisterFrom(out, type), RegisterFrom(in, type)); } void IntrinsicLocationsBuilderARM64::VisitIntegerReverse(HInvoke* invoke) { CreateIntToIntLocations(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitIntegerReverse(HInvoke* invoke) { GenReverse(invoke->GetLocations(), Primitive::kPrimInt, GetVIXLAssembler()); } void IntrinsicLocationsBuilderARM64::VisitLongReverse(HInvoke* invoke) { CreateIntToIntLocations(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitLongReverse(HInvoke* invoke) { GenReverse(invoke->GetLocations(), Primitive::kPrimLong, GetVIXLAssembler()); } static void CreateFPToFPLocations(ArenaAllocator* arena, HInvoke* invoke) { LocationSummary* locations = new (arena) LocationSummary(invoke, LocationSummary::kNoCall, kIntrinsified); locations->SetInAt(0, Location::RequiresFpuRegister()); locations->SetOut(Location::RequiresFpuRegister(), Location::kNoOutputOverlap); } static void MathAbsFP(LocationSummary* locations, bool is64bit, vixl::MacroAssembler* masm) { Location in = locations->InAt(0); Location out = locations->Out(); FPRegister in_reg = is64bit ? DRegisterFrom(in) : SRegisterFrom(in); FPRegister out_reg = is64bit ? DRegisterFrom(out) : SRegisterFrom(out); __ Fabs(out_reg, in_reg); } void IntrinsicLocationsBuilderARM64::VisitMathAbsDouble(HInvoke* invoke) { CreateFPToFPLocations(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitMathAbsDouble(HInvoke* invoke) { MathAbsFP(invoke->GetLocations(), true, GetVIXLAssembler()); } void IntrinsicLocationsBuilderARM64::VisitMathAbsFloat(HInvoke* invoke) { CreateFPToFPLocations(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitMathAbsFloat(HInvoke* invoke) { MathAbsFP(invoke->GetLocations(), false, GetVIXLAssembler()); } static void CreateIntToInt(ArenaAllocator* arena, HInvoke* invoke) { LocationSummary* locations = new (arena) LocationSummary(invoke, LocationSummary::kNoCall, kIntrinsified); locations->SetInAt(0, Location::RequiresRegister()); locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); } static void GenAbsInteger(LocationSummary* locations, bool is64bit, vixl::MacroAssembler* masm) { Location in = locations->InAt(0); Location output = locations->Out(); Register in_reg = is64bit ? XRegisterFrom(in) : WRegisterFrom(in); Register out_reg = is64bit ? XRegisterFrom(output) : WRegisterFrom(output); __ Cmp(in_reg, Operand(0)); __ Cneg(out_reg, in_reg, lt); } void IntrinsicLocationsBuilderARM64::VisitMathAbsInt(HInvoke* invoke) { CreateIntToInt(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitMathAbsInt(HInvoke* invoke) { GenAbsInteger(invoke->GetLocations(), false, GetVIXLAssembler()); } void IntrinsicLocationsBuilderARM64::VisitMathAbsLong(HInvoke* invoke) { CreateIntToInt(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitMathAbsLong(HInvoke* invoke) { GenAbsInteger(invoke->GetLocations(), true, GetVIXLAssembler()); } static void GenMinMaxFP(LocationSummary* locations, bool is_min, bool is_double, vixl::MacroAssembler* masm) { Location op1 = locations->InAt(0); Location op2 = locations->InAt(1); Location out = locations->Out(); FPRegister op1_reg = is_double ? DRegisterFrom(op1) : SRegisterFrom(op1); FPRegister op2_reg = is_double ? DRegisterFrom(op2) : SRegisterFrom(op2); FPRegister out_reg = is_double ? DRegisterFrom(out) : SRegisterFrom(out); if (is_min) { __ Fmin(out_reg, op1_reg, op2_reg); } else { __ Fmax(out_reg, op1_reg, op2_reg); } } static void CreateFPFPToFPLocations(ArenaAllocator* arena, HInvoke* invoke) { LocationSummary* locations = new (arena) LocationSummary(invoke, LocationSummary::kNoCall, kIntrinsified); locations->SetInAt(0, Location::RequiresFpuRegister()); locations->SetInAt(1, Location::RequiresFpuRegister()); locations->SetOut(Location::RequiresFpuRegister(), Location::kNoOutputOverlap); } void IntrinsicLocationsBuilderARM64::VisitMathMinDoubleDouble(HInvoke* invoke) { CreateFPFPToFPLocations(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitMathMinDoubleDouble(HInvoke* invoke) { GenMinMaxFP(invoke->GetLocations(), true, true, GetVIXLAssembler()); } void IntrinsicLocationsBuilderARM64::VisitMathMinFloatFloat(HInvoke* invoke) { CreateFPFPToFPLocations(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitMathMinFloatFloat(HInvoke* invoke) { GenMinMaxFP(invoke->GetLocations(), true, false, GetVIXLAssembler()); } void IntrinsicLocationsBuilderARM64::VisitMathMaxDoubleDouble(HInvoke* invoke) { CreateFPFPToFPLocations(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitMathMaxDoubleDouble(HInvoke* invoke) { GenMinMaxFP(invoke->GetLocations(), false, true, GetVIXLAssembler()); } void IntrinsicLocationsBuilderARM64::VisitMathMaxFloatFloat(HInvoke* invoke) { CreateFPFPToFPLocations(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitMathMaxFloatFloat(HInvoke* invoke) { GenMinMaxFP(invoke->GetLocations(), false, false, GetVIXLAssembler()); } static void GenMinMax(LocationSummary* locations, bool is_min, bool is_long, vixl::MacroAssembler* masm) { Location op1 = locations->InAt(0); Location op2 = locations->InAt(1); Location out = locations->Out(); Register op1_reg = is_long ? XRegisterFrom(op1) : WRegisterFrom(op1); Register op2_reg = is_long ? XRegisterFrom(op2) : WRegisterFrom(op2); Register out_reg = is_long ? XRegisterFrom(out) : WRegisterFrom(out); __ Cmp(op1_reg, op2_reg); __ Csel(out_reg, op1_reg, op2_reg, is_min ? lt : gt); } static void CreateIntIntToIntLocations(ArenaAllocator* arena, HInvoke* invoke) { LocationSummary* locations = new (arena) LocationSummary(invoke, LocationSummary::kNoCall, kIntrinsified); locations->SetInAt(0, Location::RequiresRegister()); locations->SetInAt(1, Location::RequiresRegister()); locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); } void IntrinsicLocationsBuilderARM64::VisitMathMinIntInt(HInvoke* invoke) { CreateIntIntToIntLocations(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitMathMinIntInt(HInvoke* invoke) { GenMinMax(invoke->GetLocations(), true, false, GetVIXLAssembler()); } void IntrinsicLocationsBuilderARM64::VisitMathMinLongLong(HInvoke* invoke) { CreateIntIntToIntLocations(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitMathMinLongLong(HInvoke* invoke) { GenMinMax(invoke->GetLocations(), true, true, GetVIXLAssembler()); } void IntrinsicLocationsBuilderARM64::VisitMathMaxIntInt(HInvoke* invoke) { CreateIntIntToIntLocations(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitMathMaxIntInt(HInvoke* invoke) { GenMinMax(invoke->GetLocations(), false, false, GetVIXLAssembler()); } void IntrinsicLocationsBuilderARM64::VisitMathMaxLongLong(HInvoke* invoke) { CreateIntIntToIntLocations(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitMathMaxLongLong(HInvoke* invoke) { GenMinMax(invoke->GetLocations(), false, true, GetVIXLAssembler()); } void IntrinsicLocationsBuilderARM64::VisitMathSqrt(HInvoke* invoke) { CreateFPToFPLocations(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitMathSqrt(HInvoke* invoke) { LocationSummary* locations = invoke->GetLocations(); vixl::MacroAssembler* masm = GetVIXLAssembler(); __ Fsqrt(DRegisterFrom(locations->Out()), DRegisterFrom(locations->InAt(0))); } void IntrinsicLocationsBuilderARM64::VisitMathCeil(HInvoke* invoke) { CreateFPToFPLocations(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitMathCeil(HInvoke* invoke) { LocationSummary* locations = invoke->GetLocations(); vixl::MacroAssembler* masm = GetVIXLAssembler(); __ Frintp(DRegisterFrom(locations->Out()), DRegisterFrom(locations->InAt(0))); } void IntrinsicLocationsBuilderARM64::VisitMathFloor(HInvoke* invoke) { CreateFPToFPLocations(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitMathFloor(HInvoke* invoke) { LocationSummary* locations = invoke->GetLocations(); vixl::MacroAssembler* masm = GetVIXLAssembler(); __ Frintm(DRegisterFrom(locations->Out()), DRegisterFrom(locations->InAt(0))); } void IntrinsicLocationsBuilderARM64::VisitMathRint(HInvoke* invoke) { CreateFPToFPLocations(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitMathRint(HInvoke* invoke) { LocationSummary* locations = invoke->GetLocations(); vixl::MacroAssembler* masm = GetVIXLAssembler(); __ Frintn(DRegisterFrom(locations->Out()), DRegisterFrom(locations->InAt(0))); } static void CreateFPToIntPlusTempLocations(ArenaAllocator* arena, HInvoke* invoke) { LocationSummary* locations = new (arena) LocationSummary(invoke, LocationSummary::kNoCall, kIntrinsified); locations->SetInAt(0, Location::RequiresFpuRegister()); locations->SetOut(Location::RequiresRegister()); } static void GenMathRound(LocationSummary* locations, bool is_double, vixl::MacroAssembler* masm) { FPRegister in_reg = is_double ? DRegisterFrom(locations->InAt(0)) : SRegisterFrom(locations->InAt(0)); Register out_reg = is_double ? XRegisterFrom(locations->Out()) : WRegisterFrom(locations->Out()); UseScratchRegisterScope temps(masm); FPRegister temp1_reg = temps.AcquireSameSizeAs(in_reg); // 0.5 can be encoded as an immediate, so use fmov. if (is_double) { __ Fmov(temp1_reg, static_cast(0.5)); } else { __ Fmov(temp1_reg, static_cast(0.5)); } __ Fadd(temp1_reg, in_reg, temp1_reg); __ Fcvtms(out_reg, temp1_reg); } void IntrinsicLocationsBuilderARM64::VisitMathRoundDouble(HInvoke* invoke) { CreateFPToIntPlusTempLocations(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitMathRoundDouble(HInvoke* invoke) { GenMathRound(invoke->GetLocations(), true, GetVIXLAssembler()); } void IntrinsicLocationsBuilderARM64::VisitMathRoundFloat(HInvoke* invoke) { CreateFPToIntPlusTempLocations(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitMathRoundFloat(HInvoke* invoke) { GenMathRound(invoke->GetLocations(), false, GetVIXLAssembler()); } void IntrinsicLocationsBuilderARM64::VisitMemoryPeekByte(HInvoke* invoke) { CreateIntToIntLocations(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitMemoryPeekByte(HInvoke* invoke) { vixl::MacroAssembler* masm = GetVIXLAssembler(); __ Ldrsb(WRegisterFrom(invoke->GetLocations()->Out()), AbsoluteHeapOperandFrom(invoke->GetLocations()->InAt(0), 0)); } void IntrinsicLocationsBuilderARM64::VisitMemoryPeekIntNative(HInvoke* invoke) { CreateIntToIntLocations(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitMemoryPeekIntNative(HInvoke* invoke) { vixl::MacroAssembler* masm = GetVIXLAssembler(); __ Ldr(WRegisterFrom(invoke->GetLocations()->Out()), AbsoluteHeapOperandFrom(invoke->GetLocations()->InAt(0), 0)); } void IntrinsicLocationsBuilderARM64::VisitMemoryPeekLongNative(HInvoke* invoke) { CreateIntToIntLocations(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitMemoryPeekLongNative(HInvoke* invoke) { vixl::MacroAssembler* masm = GetVIXLAssembler(); __ Ldr(XRegisterFrom(invoke->GetLocations()->Out()), AbsoluteHeapOperandFrom(invoke->GetLocations()->InAt(0), 0)); } void IntrinsicLocationsBuilderARM64::VisitMemoryPeekShortNative(HInvoke* invoke) { CreateIntToIntLocations(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitMemoryPeekShortNative(HInvoke* invoke) { vixl::MacroAssembler* masm = GetVIXLAssembler(); __ Ldrsh(WRegisterFrom(invoke->GetLocations()->Out()), AbsoluteHeapOperandFrom(invoke->GetLocations()->InAt(0), 0)); } static void CreateIntIntToVoidLocations(ArenaAllocator* arena, HInvoke* invoke) { LocationSummary* locations = new (arena) LocationSummary(invoke, LocationSummary::kNoCall, kIntrinsified); locations->SetInAt(0, Location::RequiresRegister()); locations->SetInAt(1, Location::RequiresRegister()); } void IntrinsicLocationsBuilderARM64::VisitMemoryPokeByte(HInvoke* invoke) { CreateIntIntToVoidLocations(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitMemoryPokeByte(HInvoke* invoke) { vixl::MacroAssembler* masm = GetVIXLAssembler(); __ Strb(WRegisterFrom(invoke->GetLocations()->InAt(1)), AbsoluteHeapOperandFrom(invoke->GetLocations()->InAt(0), 0)); } void IntrinsicLocationsBuilderARM64::VisitMemoryPokeIntNative(HInvoke* invoke) { CreateIntIntToVoidLocations(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitMemoryPokeIntNative(HInvoke* invoke) { vixl::MacroAssembler* masm = GetVIXLAssembler(); __ Str(WRegisterFrom(invoke->GetLocations()->InAt(1)), AbsoluteHeapOperandFrom(invoke->GetLocations()->InAt(0), 0)); } void IntrinsicLocationsBuilderARM64::VisitMemoryPokeLongNative(HInvoke* invoke) { CreateIntIntToVoidLocations(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitMemoryPokeLongNative(HInvoke* invoke) { vixl::MacroAssembler* masm = GetVIXLAssembler(); __ Str(XRegisterFrom(invoke->GetLocations()->InAt(1)), AbsoluteHeapOperandFrom(invoke->GetLocations()->InAt(0), 0)); } void IntrinsicLocationsBuilderARM64::VisitMemoryPokeShortNative(HInvoke* invoke) { CreateIntIntToVoidLocations(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitMemoryPokeShortNative(HInvoke* invoke) { vixl::MacroAssembler* masm = GetVIXLAssembler(); __ Strh(WRegisterFrom(invoke->GetLocations()->InAt(1)), AbsoluteHeapOperandFrom(invoke->GetLocations()->InAt(0), 0)); } void IntrinsicLocationsBuilderARM64::VisitThreadCurrentThread(HInvoke* invoke) { LocationSummary* locations = new (arena_) LocationSummary(invoke, LocationSummary::kNoCall, kIntrinsified); locations->SetOut(Location::RequiresRegister()); } void IntrinsicCodeGeneratorARM64::VisitThreadCurrentThread(HInvoke* invoke) { codegen_->Load(Primitive::kPrimNot, WRegisterFrom(invoke->GetLocations()->Out()), MemOperand(tr, Thread::PeerOffset<8>().Int32Value())); } static void GenUnsafeGet(HInvoke* invoke, Primitive::Type type, bool is_volatile, CodeGeneratorARM64* codegen) { LocationSummary* locations = invoke->GetLocations(); DCHECK((type == Primitive::kPrimInt) || (type == Primitive::kPrimLong) || (type == Primitive::kPrimNot)); vixl::MacroAssembler* masm = codegen->GetAssembler()->vixl_masm_; Register base = WRegisterFrom(locations->InAt(1)); // Object pointer. Register offset = XRegisterFrom(locations->InAt(2)); // Long offset. Register trg = RegisterFrom(locations->Out(), type); bool use_acquire_release = codegen->GetInstructionSetFeatures().PreferAcquireRelease(); MemOperand mem_op(base.X(), offset); if (is_volatile) { if (use_acquire_release) { codegen->LoadAcquire(invoke, trg, mem_op); } else { codegen->Load(type, trg, mem_op); __ Dmb(InnerShareable, BarrierReads); } } else { codegen->Load(type, trg, mem_op); } } static void CreateIntIntIntToIntLocations(ArenaAllocator* arena, HInvoke* invoke) { LocationSummary* locations = new (arena) LocationSummary(invoke, LocationSummary::kNoCall, kIntrinsified); locations->SetInAt(0, Location::NoLocation()); // Unused receiver. locations->SetInAt(1, Location::RequiresRegister()); locations->SetInAt(2, Location::RequiresRegister()); locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); } void IntrinsicLocationsBuilderARM64::VisitUnsafeGet(HInvoke* invoke) { CreateIntIntIntToIntLocations(arena_, invoke); } void IntrinsicLocationsBuilderARM64::VisitUnsafeGetVolatile(HInvoke* invoke) { CreateIntIntIntToIntLocations(arena_, invoke); } void IntrinsicLocationsBuilderARM64::VisitUnsafeGetLong(HInvoke* invoke) { CreateIntIntIntToIntLocations(arena_, invoke); } void IntrinsicLocationsBuilderARM64::VisitUnsafeGetLongVolatile(HInvoke* invoke) { CreateIntIntIntToIntLocations(arena_, invoke); } void IntrinsicLocationsBuilderARM64::VisitUnsafeGetObject(HInvoke* invoke) { CreateIntIntIntToIntLocations(arena_, invoke); } void IntrinsicLocationsBuilderARM64::VisitUnsafeGetObjectVolatile(HInvoke* invoke) { CreateIntIntIntToIntLocations(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitUnsafeGet(HInvoke* invoke) { GenUnsafeGet(invoke, Primitive::kPrimInt, false, codegen_); } void IntrinsicCodeGeneratorARM64::VisitUnsafeGetVolatile(HInvoke* invoke) { GenUnsafeGet(invoke, Primitive::kPrimInt, true, codegen_); } void IntrinsicCodeGeneratorARM64::VisitUnsafeGetLong(HInvoke* invoke) { GenUnsafeGet(invoke, Primitive::kPrimLong, false, codegen_); } void IntrinsicCodeGeneratorARM64::VisitUnsafeGetLongVolatile(HInvoke* invoke) { GenUnsafeGet(invoke, Primitive::kPrimLong, true, codegen_); } void IntrinsicCodeGeneratorARM64::VisitUnsafeGetObject(HInvoke* invoke) { GenUnsafeGet(invoke, Primitive::kPrimNot, false, codegen_); } void IntrinsicCodeGeneratorARM64::VisitUnsafeGetObjectVolatile(HInvoke* invoke) { GenUnsafeGet(invoke, Primitive::kPrimNot, true, codegen_); } static void CreateIntIntIntIntToVoid(ArenaAllocator* arena, HInvoke* invoke) { LocationSummary* locations = new (arena) LocationSummary(invoke, LocationSummary::kNoCall, kIntrinsified); locations->SetInAt(0, Location::NoLocation()); // Unused receiver. locations->SetInAt(1, Location::RequiresRegister()); locations->SetInAt(2, Location::RequiresRegister()); locations->SetInAt(3, Location::RequiresRegister()); } void IntrinsicLocationsBuilderARM64::VisitUnsafePut(HInvoke* invoke) { CreateIntIntIntIntToVoid(arena_, invoke); } void IntrinsicLocationsBuilderARM64::VisitUnsafePutOrdered(HInvoke* invoke) { CreateIntIntIntIntToVoid(arena_, invoke); } void IntrinsicLocationsBuilderARM64::VisitUnsafePutVolatile(HInvoke* invoke) { CreateIntIntIntIntToVoid(arena_, invoke); } void IntrinsicLocationsBuilderARM64::VisitUnsafePutObject(HInvoke* invoke) { CreateIntIntIntIntToVoid(arena_, invoke); } void IntrinsicLocationsBuilderARM64::VisitUnsafePutObjectOrdered(HInvoke* invoke) { CreateIntIntIntIntToVoid(arena_, invoke); } void IntrinsicLocationsBuilderARM64::VisitUnsafePutObjectVolatile(HInvoke* invoke) { CreateIntIntIntIntToVoid(arena_, invoke); } void IntrinsicLocationsBuilderARM64::VisitUnsafePutLong(HInvoke* invoke) { CreateIntIntIntIntToVoid(arena_, invoke); } void IntrinsicLocationsBuilderARM64::VisitUnsafePutLongOrdered(HInvoke* invoke) { CreateIntIntIntIntToVoid(arena_, invoke); } void IntrinsicLocationsBuilderARM64::VisitUnsafePutLongVolatile(HInvoke* invoke) { CreateIntIntIntIntToVoid(arena_, invoke); } static void GenUnsafePut(LocationSummary* locations, Primitive::Type type, bool is_volatile, bool is_ordered, CodeGeneratorARM64* codegen) { vixl::MacroAssembler* masm = codegen->GetAssembler()->vixl_masm_; Register base = WRegisterFrom(locations->InAt(1)); // Object pointer. Register offset = XRegisterFrom(locations->InAt(2)); // Long offset. Register value = RegisterFrom(locations->InAt(3), type); bool use_acquire_release = codegen->GetInstructionSetFeatures().PreferAcquireRelease(); MemOperand mem_op(base.X(), offset); if (is_volatile || is_ordered) { if (use_acquire_release) { codegen->StoreRelease(type, value, mem_op); } else { __ Dmb(InnerShareable, BarrierAll); codegen->Store(type, value, mem_op); if (is_volatile) { __ Dmb(InnerShareable, BarrierReads); } } } else { codegen->Store(type, value, mem_op); } if (type == Primitive::kPrimNot) { codegen->MarkGCCard(base, value); } } void IntrinsicCodeGeneratorARM64::VisitUnsafePut(HInvoke* invoke) { GenUnsafePut(invoke->GetLocations(), Primitive::kPrimInt, false, false, codegen_); } void IntrinsicCodeGeneratorARM64::VisitUnsafePutOrdered(HInvoke* invoke) { GenUnsafePut(invoke->GetLocations(), Primitive::kPrimInt, false, true, codegen_); } void IntrinsicCodeGeneratorARM64::VisitUnsafePutVolatile(HInvoke* invoke) { GenUnsafePut(invoke->GetLocations(), Primitive::kPrimInt, true, false, codegen_); } void IntrinsicCodeGeneratorARM64::VisitUnsafePutObject(HInvoke* invoke) { GenUnsafePut(invoke->GetLocations(), Primitive::kPrimNot, false, false, codegen_); } void IntrinsicCodeGeneratorARM64::VisitUnsafePutObjectOrdered(HInvoke* invoke) { GenUnsafePut(invoke->GetLocations(), Primitive::kPrimNot, false, true, codegen_); } void IntrinsicCodeGeneratorARM64::VisitUnsafePutObjectVolatile(HInvoke* invoke) { GenUnsafePut(invoke->GetLocations(), Primitive::kPrimNot, true, false, codegen_); } void IntrinsicCodeGeneratorARM64::VisitUnsafePutLong(HInvoke* invoke) { GenUnsafePut(invoke->GetLocations(), Primitive::kPrimLong, false, false, codegen_); } void IntrinsicCodeGeneratorARM64::VisitUnsafePutLongOrdered(HInvoke* invoke) { GenUnsafePut(invoke->GetLocations(), Primitive::kPrimLong, false, true, codegen_); } void IntrinsicCodeGeneratorARM64::VisitUnsafePutLongVolatile(HInvoke* invoke) { GenUnsafePut(invoke->GetLocations(), Primitive::kPrimLong, true, false, codegen_); } static void CreateIntIntIntIntIntToInt(ArenaAllocator* arena, HInvoke* invoke) { LocationSummary* locations = new (arena) LocationSummary(invoke, LocationSummary::kNoCall, kIntrinsified); locations->SetInAt(0, Location::NoLocation()); // Unused receiver. locations->SetInAt(1, Location::RequiresRegister()); locations->SetInAt(2, Location::RequiresRegister()); locations->SetInAt(3, Location::RequiresRegister()); locations->SetInAt(4, Location::RequiresRegister()); locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); } static void GenCas(LocationSummary* locations, Primitive::Type type, CodeGeneratorARM64* codegen) { bool use_acquire_release = codegen->GetInstructionSetFeatures().PreferAcquireRelease(); vixl::MacroAssembler* masm = codegen->GetAssembler()->vixl_masm_; Register out = WRegisterFrom(locations->Out()); // Boolean result. Register base = WRegisterFrom(locations->InAt(1)); // Object pointer. Register offset = XRegisterFrom(locations->InAt(2)); // Long offset. Register expected = RegisterFrom(locations->InAt(3), type); // Expected. Register value = RegisterFrom(locations->InAt(4), type); // Value. // This needs to be before the temp registers, as MarkGCCard also uses VIXL temps. if (type == Primitive::kPrimNot) { // Mark card for object assuming new value is stored. codegen->MarkGCCard(base, value); } UseScratchRegisterScope temps(masm); Register tmp_ptr = temps.AcquireX(); // Pointer to actual memory. Register tmp_value = temps.AcquireSameSizeAs(value); // Value in memory. Register tmp_32 = tmp_value.W(); __ Add(tmp_ptr, base.X(), Operand(offset)); // do { // tmp_value = [tmp_ptr] - expected; // } while (tmp_value == 0 && failure([tmp_ptr] <- r_new_value)); // result = tmp_value != 0; vixl::Label loop_head, exit_loop; if (use_acquire_release) { __ Bind(&loop_head); __ Ldaxr(tmp_value, MemOperand(tmp_ptr)); __ Cmp(tmp_value, expected); __ B(&exit_loop, ne); __ Stlxr(tmp_32, value, MemOperand(tmp_ptr)); __ Cbnz(tmp_32, &loop_head); } else { __ Dmb(InnerShareable, BarrierWrites); __ Bind(&loop_head); __ Ldxr(tmp_value, MemOperand(tmp_ptr)); __ Cmp(tmp_value, expected); __ B(&exit_loop, ne); __ Stxr(tmp_32, value, MemOperand(tmp_ptr)); __ Cbnz(tmp_32, &loop_head); __ Dmb(InnerShareable, BarrierAll); } __ Bind(&exit_loop); __ Cset(out, eq); } void IntrinsicLocationsBuilderARM64::VisitUnsafeCASInt(HInvoke* invoke) { CreateIntIntIntIntIntToInt(arena_, invoke); } void IntrinsicLocationsBuilderARM64::VisitUnsafeCASLong(HInvoke* invoke) { CreateIntIntIntIntIntToInt(arena_, invoke); } void IntrinsicLocationsBuilderARM64::VisitUnsafeCASObject(HInvoke* invoke) { CreateIntIntIntIntIntToInt(arena_, invoke); } void IntrinsicCodeGeneratorARM64::VisitUnsafeCASInt(HInvoke* invoke) { GenCas(invoke->GetLocations(), Primitive::kPrimInt, codegen_); } void IntrinsicCodeGeneratorARM64::VisitUnsafeCASLong(HInvoke* invoke) { GenCas(invoke->GetLocations(), Primitive::kPrimLong, codegen_); } void IntrinsicCodeGeneratorARM64::VisitUnsafeCASObject(HInvoke* invoke) { GenCas(invoke->GetLocations(), Primitive::kPrimNot, codegen_); } void IntrinsicLocationsBuilderARM64::VisitStringCharAt(HInvoke* invoke) { LocationSummary* locations = new (arena_) LocationSummary(invoke, LocationSummary::kCallOnSlowPath, kIntrinsified); locations->SetInAt(0, Location::RequiresRegister()); locations->SetInAt(1, Location::RequiresRegister()); // In case we need to go in the slow path, we can't have the output be the same // as the input: the current liveness analysis considers the input to be live // at the point of the call. locations->SetOut(Location::RequiresRegister(), Location::kOutputOverlap); } void IntrinsicCodeGeneratorARM64::VisitStringCharAt(HInvoke* invoke) { vixl::MacroAssembler* masm = GetVIXLAssembler(); LocationSummary* locations = invoke->GetLocations(); // Location of reference to data array const MemberOffset value_offset = mirror::String::ValueOffset(); // Location of count const MemberOffset count_offset = mirror::String::CountOffset(); Register obj = WRegisterFrom(locations->InAt(0)); // String object pointer. Register idx = WRegisterFrom(locations->InAt(1)); // Index of character. Register out = WRegisterFrom(locations->Out()); // Result character. UseScratchRegisterScope temps(masm); Register temp = temps.AcquireW(); Register array_temp = temps.AcquireW(); // We can trade this for worse scheduling. // TODO: Maybe we can support range check elimination. Overall, though, I think it's not worth // the cost. // TODO: For simplicity, the index parameter is requested in a register, so different from Quick // we will not optimize the code for constants (which would save a register). SlowPathCodeARM64* slow_path = new (GetAllocator()) IntrinsicSlowPathARM64(invoke); codegen_->AddSlowPath(slow_path); __ Ldr(temp, HeapOperand(obj, count_offset)); // temp = str.length. codegen_->MaybeRecordImplicitNullCheck(invoke); __ Cmp(idx, temp); __ B(hs, slow_path->GetEntryLabel()); __ Add(array_temp, obj, Operand(value_offset.Int32Value())); // array_temp := str.value. // Load the value. __ Ldrh(out, MemOperand(array_temp.X(), idx, UXTW, 1)); // out := array_temp[idx]. __ Bind(slow_path->GetExitLabel()); } void IntrinsicLocationsBuilderARM64::VisitStringCompareTo(HInvoke* invoke) { LocationSummary* locations = new (arena_) LocationSummary(invoke, LocationSummary::kCall, kIntrinsified); InvokeRuntimeCallingConvention calling_convention; locations->SetInAt(0, LocationFrom(calling_convention.GetRegisterAt(0))); locations->SetInAt(1, LocationFrom(calling_convention.GetRegisterAt(1))); locations->SetOut(calling_convention.GetReturnLocation(Primitive::kPrimInt)); } void IntrinsicCodeGeneratorARM64::VisitStringCompareTo(HInvoke* invoke) { vixl::MacroAssembler* masm = GetVIXLAssembler(); LocationSummary* locations = invoke->GetLocations(); // Note that the null check must have been done earlier. DCHECK(!invoke->CanDoImplicitNullCheckOn(invoke->InputAt(0))); Register argument = WRegisterFrom(locations->InAt(1)); __ Cmp(argument, 0); SlowPathCodeARM64* slow_path = new (GetAllocator()) IntrinsicSlowPathARM64(invoke); codegen_->AddSlowPath(slow_path); __ B(eq, slow_path->GetEntryLabel()); __ Ldr( lr, MemOperand(tr, QUICK_ENTRYPOINT_OFFSET(kArm64WordSize, pStringCompareTo).Int32Value())); __ Blr(lr); __ Bind(slow_path->GetExitLabel()); } static void GenerateVisitStringIndexOf(HInvoke* invoke, vixl::MacroAssembler* masm, CodeGeneratorARM64* codegen, ArenaAllocator* allocator, bool start_at_zero) { LocationSummary* locations = invoke->GetLocations(); Register tmp_reg = WRegisterFrom(locations->GetTemp(0)); // Note that the null check must have been done earlier. DCHECK(!invoke->CanDoImplicitNullCheckOn(invoke->InputAt(0))); // Check for code points > 0xFFFF. Either a slow-path check when we don't know statically, // or directly dispatch if we have a constant. SlowPathCodeARM64* slow_path = nullptr; if (invoke->InputAt(1)->IsIntConstant()) { if (static_cast(invoke->InputAt(1)->AsIntConstant()->GetValue()) > 0xFFFFU) { // Always needs the slow-path. We could directly dispatch to it, but this case should be // rare, so for simplicity just put the full slow-path down and branch unconditionally. slow_path = new (allocator) IntrinsicSlowPathARM64(invoke); codegen->AddSlowPath(slow_path); __ B(slow_path->GetEntryLabel()); __ Bind(slow_path->GetExitLabel()); return; } } else { Register char_reg = WRegisterFrom(locations->InAt(1)); __ Mov(tmp_reg, 0xFFFF); __ Cmp(char_reg, Operand(tmp_reg)); slow_path = new (allocator) IntrinsicSlowPathARM64(invoke); codegen->AddSlowPath(slow_path); __ B(hi, slow_path->GetEntryLabel()); } if (start_at_zero) { // Start-index = 0. __ Mov(tmp_reg, 0); } __ Ldr(lr, MemOperand(tr, QUICK_ENTRYPOINT_OFFSET(kArm64WordSize, pIndexOf).Int32Value())); __ Blr(lr); if (slow_path != nullptr) { __ Bind(slow_path->GetExitLabel()); } } void IntrinsicLocationsBuilderARM64::VisitStringIndexOf(HInvoke* invoke) { LocationSummary* locations = new (arena_) LocationSummary(invoke, LocationSummary::kCall, kIntrinsified); // We have a hand-crafted assembly stub that follows the runtime calling convention. So it's // best to align the inputs accordingly. InvokeRuntimeCallingConvention calling_convention; locations->SetInAt(0, LocationFrom(calling_convention.GetRegisterAt(0))); locations->SetInAt(1, LocationFrom(calling_convention.GetRegisterAt(1))); locations->SetOut(calling_convention.GetReturnLocation(Primitive::kPrimInt)); // Need a temp for slow-path codepoint compare, and need to send start_index=0. locations->AddTemp(LocationFrom(calling_convention.GetRegisterAt(2))); } void IntrinsicCodeGeneratorARM64::VisitStringIndexOf(HInvoke* invoke) { GenerateVisitStringIndexOf(invoke, GetVIXLAssembler(), codegen_, GetAllocator(), true); } void IntrinsicLocationsBuilderARM64::VisitStringIndexOfAfter(HInvoke* invoke) { LocationSummary* locations = new (arena_) LocationSummary(invoke, LocationSummary::kCall, kIntrinsified); // We have a hand-crafted assembly stub that follows the runtime calling convention. So it's // best to align the inputs accordingly. InvokeRuntimeCallingConvention calling_convention; locations->SetInAt(0, LocationFrom(calling_convention.GetRegisterAt(0))); locations->SetInAt(1, LocationFrom(calling_convention.GetRegisterAt(1))); locations->SetInAt(2, LocationFrom(calling_convention.GetRegisterAt(2))); locations->SetOut(calling_convention.GetReturnLocation(Primitive::kPrimInt)); // Need a temp for slow-path codepoint compare. locations->AddTemp(Location::RequiresRegister()); } void IntrinsicCodeGeneratorARM64::VisitStringIndexOfAfter(HInvoke* invoke) { GenerateVisitStringIndexOf(invoke, GetVIXLAssembler(), codegen_, GetAllocator(), false); } void IntrinsicLocationsBuilderARM64::VisitStringNewStringFromBytes(HInvoke* invoke) { LocationSummary* locations = new (arena_) LocationSummary(invoke, LocationSummary::kCall, kIntrinsified); InvokeRuntimeCallingConvention calling_convention; locations->SetInAt(0, LocationFrom(calling_convention.GetRegisterAt(0))); locations->SetInAt(1, LocationFrom(calling_convention.GetRegisterAt(1))); locations->SetInAt(2, LocationFrom(calling_convention.GetRegisterAt(2))); locations->SetInAt(3, LocationFrom(calling_convention.GetRegisterAt(3))); locations->SetOut(calling_convention.GetReturnLocation(Primitive::kPrimNot)); } void IntrinsicCodeGeneratorARM64::VisitStringNewStringFromBytes(HInvoke* invoke) { vixl::MacroAssembler* masm = GetVIXLAssembler(); LocationSummary* locations = invoke->GetLocations(); Register byte_array = WRegisterFrom(locations->InAt(0)); __ Cmp(byte_array, 0); SlowPathCodeARM64* slow_path = new (GetAllocator()) IntrinsicSlowPathARM64(invoke); codegen_->AddSlowPath(slow_path); __ B(eq, slow_path->GetEntryLabel()); __ Ldr(lr, MemOperand(tr, QUICK_ENTRYPOINT_OFFSET(kArm64WordSize, pAllocStringFromBytes).Int32Value())); codegen_->RecordPcInfo(invoke, invoke->GetDexPc()); __ Blr(lr); __ Bind(slow_path->GetExitLabel()); } void IntrinsicLocationsBuilderARM64::VisitStringNewStringFromChars(HInvoke* invoke) { LocationSummary* locations = new (arena_) LocationSummary(invoke, LocationSummary::kCall, kIntrinsified); InvokeRuntimeCallingConvention calling_convention; locations->SetInAt(0, LocationFrom(calling_convention.GetRegisterAt(0))); locations->SetInAt(1, LocationFrom(calling_convention.GetRegisterAt(1))); locations->SetInAt(2, LocationFrom(calling_convention.GetRegisterAt(2))); locations->SetOut(calling_convention.GetReturnLocation(Primitive::kPrimNot)); } void IntrinsicCodeGeneratorARM64::VisitStringNewStringFromChars(HInvoke* invoke) { vixl::MacroAssembler* masm = GetVIXLAssembler(); __ Ldr(lr, MemOperand(tr, QUICK_ENTRYPOINT_OFFSET(kArm64WordSize, pAllocStringFromChars).Int32Value())); codegen_->RecordPcInfo(invoke, invoke->GetDexPc()); __ Blr(lr); } void IntrinsicLocationsBuilderARM64::VisitStringNewStringFromString(HInvoke* invoke) { // The inputs plus one temp. LocationSummary* locations = new (arena_) LocationSummary(invoke, LocationSummary::kCall, kIntrinsified); InvokeRuntimeCallingConvention calling_convention; locations->SetInAt(0, LocationFrom(calling_convention.GetRegisterAt(0))); locations->SetInAt(1, LocationFrom(calling_convention.GetRegisterAt(1))); locations->SetInAt(2, LocationFrom(calling_convention.GetRegisterAt(2))); locations->SetOut(calling_convention.GetReturnLocation(Primitive::kPrimNot)); } void IntrinsicCodeGeneratorARM64::VisitStringNewStringFromString(HInvoke* invoke) { vixl::MacroAssembler* masm = GetVIXLAssembler(); LocationSummary* locations = invoke->GetLocations(); Register string_to_copy = WRegisterFrom(locations->InAt(0)); __ Cmp(string_to_copy, 0); SlowPathCodeARM64* slow_path = new (GetAllocator()) IntrinsicSlowPathARM64(invoke); codegen_->AddSlowPath(slow_path); __ B(eq, slow_path->GetEntryLabel()); __ Ldr(lr, MemOperand(tr, QUICK_ENTRYPOINT_OFFSET(kArm64WordSize, pAllocStringFromString).Int32Value())); codegen_->RecordPcInfo(invoke, invoke->GetDexPc()); __ Blr(lr); __ Bind(slow_path->GetExitLabel()); } // Unimplemented intrinsics. #define UNIMPLEMENTED_INTRINSIC(Name) \ void IntrinsicLocationsBuilderARM64::Visit ## Name(HInvoke* invoke ATTRIBUTE_UNUSED) { \ } \ void IntrinsicCodeGeneratorARM64::Visit ## Name(HInvoke* invoke ATTRIBUTE_UNUSED) { \ } UNIMPLEMENTED_INTRINSIC(SystemArrayCopyChar) UNIMPLEMENTED_INTRINSIC(ReferenceGetReferent) UNIMPLEMENTED_INTRINSIC(StringGetCharsNoCheck) } // namespace arm64 } // namespace art