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/*
* 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_arm.h"
#include "arch/arm/instruction_set_features_arm.h"
#include "code_generator_arm.h"
#include "entrypoints/quick/quick_entrypoints.h"
#include "intrinsics.h"
#include "mirror/array-inl.h"
#include "mirror/art_method.h"
#include "mirror/string.h"
#include "thread.h"
#include "utils/arm/assembler_arm.h"
namespace art {
namespace arm {
ArmAssembler* IntrinsicCodeGeneratorARM::GetAssembler() {
return codegen_->GetAssembler();
}
ArenaAllocator* IntrinsicCodeGeneratorARM::GetAllocator() {
return codegen_->GetGraph()->GetArena();
}
#define __ codegen->GetAssembler()->
static void MoveFromReturnRegister(Location trg, Primitive::Type type, CodeGeneratorARM* codegen) {
if (!trg.IsValid()) {
DCHECK(type == Primitive::kPrimVoid);
return;
}
DCHECK_NE(type, Primitive::kPrimVoid);
if (Primitive::IsIntegralType(type)) {
if (type == Primitive::kPrimLong) {
Register trg_reg_lo = trg.AsRegisterPairLow<Register>();
Register trg_reg_hi = trg.AsRegisterPairHigh<Register>();
Register res_reg_lo = R0;
Register res_reg_hi = R1;
if (trg_reg_lo != res_reg_hi) {
if (trg_reg_lo != res_reg_lo) {
__ mov(trg_reg_lo, ShifterOperand(res_reg_lo));
__ mov(trg_reg_hi, ShifterOperand(res_reg_hi));
} else {
DCHECK_EQ(trg_reg_lo + 1, trg_reg_hi);
}
} else {
__ mov(trg_reg_hi, ShifterOperand(res_reg_hi));
__ mov(trg_reg_lo, ShifterOperand(res_reg_lo));
}
} else {
Register trg_reg = trg.AsRegister<Register>();
Register res_reg = R0;
if (trg_reg != res_reg) {
__ mov(trg_reg, ShifterOperand(res_reg));
}
}
} else {
UNIMPLEMENTED(FATAL) << "Floating-point return.";
}
}
static void MoveArguments(HInvoke* invoke, ArenaAllocator* arena, CodeGeneratorARM* codegen) {
if (invoke->GetNumberOfArguments() == 0) {
// No argument to move.
return;
}
LocationSummary* locations = invoke->GetLocations();
InvokeDexCallingConventionVisitor calling_convention_visitor;
// We're moving potentially two or more locations to locations that could overlap, so we need
// a parallel move resolver.
HParallelMove parallel_move(arena);
for (size_t i = 0; i < invoke->GetNumberOfArguments(); i++) {
HInstruction* input = invoke->InputAt(i);
Location cc_loc = calling_convention_visitor.GetNextLocation(input->GetType());
Location actual_loc = locations->InAt(i);
parallel_move.AddMove(actual_loc, cc_loc, input->GetType(), nullptr);
}
codegen->GetMoveResolver()->EmitNativeCode(¶llel_move);
}
// 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 IntrinsicSlowPathARM : public SlowPathCodeARM {
public:
explicit IntrinsicSlowPathARM(HInvoke* invoke) : invoke_(invoke) { }
void EmitNativeCode(CodeGenerator* codegen_in) OVERRIDE {
CodeGeneratorARM* codegen = down_cast<CodeGeneratorARM*>(codegen_in);
__ Bind(GetEntryLabel());
SaveLiveRegisters(codegen, invoke_->GetLocations());
MoveArguments(invoke_, codegen->GetGraph()->GetArena(), 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(IntrinsicSlowPathARM);
};
#undef __
bool IntrinsicLocationsBuilderARM::TryDispatch(HInvoke* invoke) {
Dispatch(invoke);
LocationSummary* res = invoke->GetLocations();
return res != nullptr && res->Intrinsified();
}
#define __ assembler->
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, ArmAssembler* assembler) {
Location input = locations->InAt(0);
Location output = locations->Out();
if (is64bit) {
__ vmovrrd(output.AsRegisterPairLow<Register>(),
output.AsRegisterPairHigh<Register>(),
FromLowSToD(input.AsFpuRegisterPairLow<SRegister>()));
} else {
__ vmovrs(output.AsRegister<Register>(), input.AsFpuRegister<SRegister>());
}
}
static void MoveIntToFP(LocationSummary* locations, bool is64bit, ArmAssembler* assembler) {
Location input = locations->InAt(0);
Location output = locations->Out();
if (is64bit) {
__ vmovdrr(FromLowSToD(output.AsFpuRegisterPairLow<SRegister>()),
input.AsRegisterPairLow<Register>(),
input.AsRegisterPairHigh<Register>());
} else {
__ vmovsr(output.AsFpuRegister<SRegister>(), input.AsRegister<Register>());
}
}
void IntrinsicLocationsBuilderARM::VisitDoubleDoubleToRawLongBits(HInvoke* invoke) {
CreateFPToIntLocations(arena_, invoke);
}
void IntrinsicLocationsBuilderARM::VisitDoubleLongBitsToDouble(HInvoke* invoke) {
CreateIntToFPLocations(arena_, invoke);
}
void IntrinsicCodeGeneratorARM::VisitDoubleDoubleToRawLongBits(HInvoke* invoke) {
MoveFPToInt(invoke->GetLocations(), true, GetAssembler());
}
void IntrinsicCodeGeneratorARM::VisitDoubleLongBitsToDouble(HInvoke* invoke) {
MoveIntToFP(invoke->GetLocations(), true, GetAssembler());
}
void IntrinsicLocationsBuilderARM::VisitFloatFloatToRawIntBits(HInvoke* invoke) {
CreateFPToIntLocations(arena_, invoke);
}
void IntrinsicLocationsBuilderARM::VisitFloatIntBitsToFloat(HInvoke* invoke) {
CreateIntToFPLocations(arena_, invoke);
}
void IntrinsicCodeGeneratorARM::VisitFloatFloatToRawIntBits(HInvoke* invoke) {
MoveFPToInt(invoke->GetLocations(), false, GetAssembler());
}
void IntrinsicCodeGeneratorARM::VisitFloatIntBitsToFloat(HInvoke* invoke) {
MoveIntToFP(invoke->GetLocations(), false, GetAssembler());
}
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 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, ArmAssembler* assembler) {
Location in = locations->InAt(0);
Location out = locations->Out();
if (is64bit) {
__ vabsd(FromLowSToD(out.AsFpuRegisterPairLow<SRegister>()),
FromLowSToD(in.AsFpuRegisterPairLow<SRegister>()));
} else {
__ vabss(out.AsFpuRegister<SRegister>(), in.AsFpuRegister<SRegister>());
}
}
void IntrinsicLocationsBuilderARM::VisitMathAbsDouble(HInvoke* invoke) {
CreateFPToFPLocations(arena_, invoke);
}
void IntrinsicCodeGeneratorARM::VisitMathAbsDouble(HInvoke* invoke) {
MathAbsFP(invoke->GetLocations(), true, GetAssembler());
}
void IntrinsicLocationsBuilderARM::VisitMathAbsFloat(HInvoke* invoke) {
CreateFPToFPLocations(arena_, invoke);
}
void IntrinsicCodeGeneratorARM::VisitMathAbsFloat(HInvoke* invoke) {
MathAbsFP(invoke->GetLocations(), false, GetAssembler());
}
static void CreateIntToIntPlusTemp(ArenaAllocator* arena, HInvoke* invoke) {
LocationSummary* locations = new (arena) LocationSummary(invoke,
LocationSummary::kNoCall,
kIntrinsified);
locations->SetInAt(0, Location::RequiresRegister());
locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap);
locations->AddTemp(Location::RequiresRegister());
}
static void GenAbsInteger(LocationSummary* locations,
bool is64bit,
ArmAssembler* assembler) {
Location in = locations->InAt(0);
Location output = locations->Out();
Register mask = locations->GetTemp(0).AsRegister<Register>();
if (is64bit) {
Register in_reg_lo = in.AsRegisterPairLow<Register>();
Register in_reg_hi = in.AsRegisterPairHigh<Register>();
Register out_reg_lo = output.AsRegisterPairLow<Register>();
Register out_reg_hi = output.AsRegisterPairHigh<Register>();
DCHECK_NE(out_reg_lo, in_reg_hi) << "Diagonal overlap unexpected.";
__ Asr(mask, in_reg_hi, 31);
__ adds(out_reg_lo, in_reg_lo, ShifterOperand(mask));
__ adc(out_reg_hi, in_reg_hi, ShifterOperand(mask));
__ eor(out_reg_lo, mask, ShifterOperand(out_reg_lo));
__ eor(out_reg_hi, mask, ShifterOperand(out_reg_hi));
} else {
Register in_reg = in.AsRegister<Register>();
Register out_reg = output.AsRegister<Register>();
__ Asr(mask, in_reg, 31);
__ add(out_reg, in_reg, ShifterOperand(mask));
__ eor(out_reg, mask, ShifterOperand(out_reg));
}
}
void IntrinsicLocationsBuilderARM::VisitMathAbsInt(HInvoke* invoke) {
CreateIntToIntPlusTemp(arena_, invoke);
}
void IntrinsicCodeGeneratorARM::VisitMathAbsInt(HInvoke* invoke) {
GenAbsInteger(invoke->GetLocations(), false, GetAssembler());
}
void IntrinsicLocationsBuilderARM::VisitMathAbsLong(HInvoke* invoke) {
CreateIntToIntPlusTemp(arena_, invoke);
}
void IntrinsicCodeGeneratorARM::VisitMathAbsLong(HInvoke* invoke) {
GenAbsInteger(invoke->GetLocations(), true, GetAssembler());
}
static void GenMinMax(LocationSummary* locations,
bool is_min,
ArmAssembler* assembler) {
Register op1 = locations->InAt(0).AsRegister<Register>();
Register op2 = locations->InAt(1).AsRegister<Register>();
Register out = locations->Out().AsRegister<Register>();
__ cmp(op1, ShifterOperand(op2));
__ it((is_min) ? Condition::LT : Condition::GT, kItElse);
__ mov(out, ShifterOperand(op1), is_min ? Condition::LT : Condition::GT);
__ mov(out, ShifterOperand(op2), is_min ? Condition::GE : Condition::LE);
}
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 IntrinsicLocationsBuilderARM::VisitMathMinIntInt(HInvoke* invoke) {
CreateIntIntToIntLocations(arena_, invoke);
}
void IntrinsicCodeGeneratorARM::VisitMathMinIntInt(HInvoke* invoke) {
GenMinMax(invoke->GetLocations(), true, GetAssembler());
}
void IntrinsicLocationsBuilderARM::VisitMathMaxIntInt(HInvoke* invoke) {
CreateIntIntToIntLocations(arena_, invoke);
}
void IntrinsicCodeGeneratorARM::VisitMathMaxIntInt(HInvoke* invoke) {
GenMinMax(invoke->GetLocations(), false, GetAssembler());
}
void IntrinsicLocationsBuilderARM::VisitMathSqrt(HInvoke* invoke) {
CreateFPToFPLocations(arena_, invoke);
}
void IntrinsicCodeGeneratorARM::VisitMathSqrt(HInvoke* invoke) {
LocationSummary* locations = invoke->GetLocations();
ArmAssembler* assembler = GetAssembler();
__ vsqrtd(FromLowSToD(locations->Out().AsFpuRegisterPairLow<SRegister>()),
FromLowSToD(locations->InAt(0).AsFpuRegisterPairLow<SRegister>()));
}
void IntrinsicLocationsBuilderARM::VisitMemoryPeekByte(HInvoke* invoke) {
CreateIntToIntLocations(arena_, invoke);
}
void IntrinsicCodeGeneratorARM::VisitMemoryPeekByte(HInvoke* invoke) {
ArmAssembler* assembler = GetAssembler();
// Ignore upper 4B of long address.
__ ldrsb(invoke->GetLocations()->Out().AsRegister<Register>(),
Address(invoke->GetLocations()->InAt(0).AsRegisterPairLow<Register>()));
}
void IntrinsicLocationsBuilderARM::VisitMemoryPeekIntNative(HInvoke* invoke) {
CreateIntToIntLocations(arena_, invoke);
}
void IntrinsicCodeGeneratorARM::VisitMemoryPeekIntNative(HInvoke* invoke) {
ArmAssembler* assembler = GetAssembler();
// Ignore upper 4B of long address.
__ ldr(invoke->GetLocations()->Out().AsRegister<Register>(),
Address(invoke->GetLocations()->InAt(0).AsRegisterPairLow<Register>()));
}
void IntrinsicLocationsBuilderARM::VisitMemoryPeekLongNative(HInvoke* invoke) {
CreateIntToIntLocations(arena_, invoke);
}
void IntrinsicCodeGeneratorARM::VisitMemoryPeekLongNative(HInvoke* invoke) {
ArmAssembler* assembler = GetAssembler();
// Ignore upper 4B of long address.
Register addr = invoke->GetLocations()->InAt(0).AsRegisterPairLow<Register>();
// Worst case: Control register bit SCTLR.A = 0. Then unaligned accesses throw a processor
// exception. So we can't use ldrd as addr may be unaligned.
Register lo = invoke->GetLocations()->Out().AsRegisterPairLow<Register>();
Register hi = invoke->GetLocations()->Out().AsRegisterPairHigh<Register>();
if (addr == lo) {
__ ldr(hi, Address(addr, 4));
__ ldr(lo, Address(addr, 0));
} else {
__ ldr(lo, Address(addr, 0));
__ ldr(hi, Address(addr, 4));
}
}
void IntrinsicLocationsBuilderARM::VisitMemoryPeekShortNative(HInvoke* invoke) {
CreateIntToIntLocations(arena_, invoke);
}
void IntrinsicCodeGeneratorARM::VisitMemoryPeekShortNative(HInvoke* invoke) {
ArmAssembler* assembler = GetAssembler();
// Ignore upper 4B of long address.
__ ldrsh(invoke->GetLocations()->Out().AsRegister<Register>(),
Address(invoke->GetLocations()->InAt(0).AsRegisterPairLow<Register>()));
}
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 IntrinsicLocationsBuilderARM::VisitMemoryPokeByte(HInvoke* invoke) {
CreateIntIntToVoidLocations(arena_, invoke);
}
void IntrinsicCodeGeneratorARM::VisitMemoryPokeByte(HInvoke* invoke) {
ArmAssembler* assembler = GetAssembler();
__ strb(invoke->GetLocations()->InAt(1).AsRegister<Register>(),
Address(invoke->GetLocations()->InAt(0).AsRegisterPairLow<Register>()));
}
void IntrinsicLocationsBuilderARM::VisitMemoryPokeIntNative(HInvoke* invoke) {
CreateIntIntToVoidLocations(arena_, invoke);
}
void IntrinsicCodeGeneratorARM::VisitMemoryPokeIntNative(HInvoke* invoke) {
ArmAssembler* assembler = GetAssembler();
__ str(invoke->GetLocations()->InAt(1).AsRegister<Register>(),
Address(invoke->GetLocations()->InAt(0).AsRegisterPairLow<Register>()));
}
void IntrinsicLocationsBuilderARM::VisitMemoryPokeLongNative(HInvoke* invoke) {
CreateIntIntToVoidLocations(arena_, invoke);
}
void IntrinsicCodeGeneratorARM::VisitMemoryPokeLongNative(HInvoke* invoke) {
ArmAssembler* assembler = GetAssembler();
// Ignore upper 4B of long address.
Register addr = invoke->GetLocations()->InAt(0).AsRegisterPairLow<Register>();
// Worst case: Control register bit SCTLR.A = 0. Then unaligned accesses throw a processor
// exception. So we can't use ldrd as addr may be unaligned.
__ str(invoke->GetLocations()->InAt(1).AsRegisterPairLow<Register>(), Address(addr, 0));
__ str(invoke->GetLocations()->InAt(1).AsRegisterPairHigh<Register>(), Address(addr, 4));
}
void IntrinsicLocationsBuilderARM::VisitMemoryPokeShortNative(HInvoke* invoke) {
CreateIntIntToVoidLocations(arena_, invoke);
}
void IntrinsicCodeGeneratorARM::VisitMemoryPokeShortNative(HInvoke* invoke) {
ArmAssembler* assembler = GetAssembler();
__ strh(invoke->GetLocations()->InAt(1).AsRegister<Register>(),
Address(invoke->GetLocations()->InAt(0).AsRegisterPairLow<Register>()));
}
void IntrinsicLocationsBuilderARM::VisitThreadCurrentThread(HInvoke* invoke) {
LocationSummary* locations = new (arena_) LocationSummary(invoke,
LocationSummary::kNoCall,
kIntrinsified);
locations->SetOut(Location::RequiresRegister());
}
void IntrinsicCodeGeneratorARM::VisitThreadCurrentThread(HInvoke* invoke) {
ArmAssembler* assembler = GetAssembler();
__ LoadFromOffset(kLoadWord,
invoke->GetLocations()->Out().AsRegister<Register>(),
TR,
Thread::PeerOffset<kArmPointerSize>().Int32Value());
}
static void GenUnsafeGet(HInvoke* invoke,
Primitive::Type type,
bool is_volatile,
CodeGeneratorARM* codegen) {
LocationSummary* locations = invoke->GetLocations();
DCHECK((type == Primitive::kPrimInt) ||
(type == Primitive::kPrimLong) ||
(type == Primitive::kPrimNot));
ArmAssembler* assembler = codegen->GetAssembler();
Register base = locations->InAt(1).AsRegister<Register>(); // Object pointer.
Register offset = locations->InAt(2).AsRegisterPairLow<Register>(); // Long offset, lo part only.
if (type == Primitive::kPrimLong) {
Register trg_lo = locations->Out().AsRegisterPairLow<Register>();
__ add(IP, base, ShifterOperand(offset));
if (is_volatile && !codegen->GetInstructionSetFeatures().HasAtomicLdrdAndStrd()) {
Register trg_hi = locations->Out().AsRegisterPairHigh<Register>();
__ ldrexd(trg_lo, trg_hi, IP);
} else {
__ ldrd(trg_lo, Address(IP));
}
} else {
Register trg = locations->Out().AsRegister<Register>();
__ ldr(trg, Address(base, offset));
}
if (is_volatile) {
__ dmb(ISH);
}
}
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 IntrinsicLocationsBuilderARM::VisitUnsafeGet(HInvoke* invoke) {
CreateIntIntIntToIntLocations(arena_, invoke);
}
void IntrinsicLocationsBuilderARM::VisitUnsafeGetVolatile(HInvoke* invoke) {
CreateIntIntIntToIntLocations(arena_, invoke);
}
void IntrinsicLocationsBuilderARM::VisitUnsafeGetLong(HInvoke* invoke) {
CreateIntIntIntToIntLocations(arena_, invoke);
}
void IntrinsicLocationsBuilderARM::VisitUnsafeGetLongVolatile(HInvoke* invoke) {
CreateIntIntIntToIntLocations(arena_, invoke);
}
void IntrinsicLocationsBuilderARM::VisitUnsafeGetObject(HInvoke* invoke) {
CreateIntIntIntToIntLocations(arena_, invoke);
}
void IntrinsicLocationsBuilderARM::VisitUnsafeGetObjectVolatile(HInvoke* invoke) {
CreateIntIntIntToIntLocations(arena_, invoke);
}
void IntrinsicCodeGeneratorARM::VisitUnsafeGet(HInvoke* invoke) {
GenUnsafeGet(invoke, Primitive::kPrimInt, false, codegen_);
}
void IntrinsicCodeGeneratorARM::VisitUnsafeGetVolatile(HInvoke* invoke) {
GenUnsafeGet(invoke, Primitive::kPrimInt, true, codegen_);
}
void IntrinsicCodeGeneratorARM::VisitUnsafeGetLong(HInvoke* invoke) {
GenUnsafeGet(invoke, Primitive::kPrimLong, false, codegen_);
}
void IntrinsicCodeGeneratorARM::VisitUnsafeGetLongVolatile(HInvoke* invoke) {
GenUnsafeGet(invoke, Primitive::kPrimLong, true, codegen_);
}
void IntrinsicCodeGeneratorARM::VisitUnsafeGetObject(HInvoke* invoke) {
GenUnsafeGet(invoke, Primitive::kPrimNot, false, codegen_);
}
void IntrinsicCodeGeneratorARM::VisitUnsafeGetObjectVolatile(HInvoke* invoke) {
GenUnsafeGet(invoke, Primitive::kPrimNot, true, codegen_);
}
static void CreateIntIntIntIntToVoid(ArenaAllocator* arena,
const ArmInstructionSetFeatures& features,
Primitive::Type type,
bool is_volatile,
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());
if (type == Primitive::kPrimLong) {
// Potentially need temps for ldrexd-strexd loop.
if (is_volatile && !features.HasAtomicLdrdAndStrd()) {
locations->AddTemp(Location::RequiresRegister()); // Temp_lo.
locations->AddTemp(Location::RequiresRegister()); // Temp_hi.
}
} else if (type == Primitive::kPrimNot) {
// Temps for card-marking.
locations->AddTemp(Location::RequiresRegister()); // Temp.
locations->AddTemp(Location::RequiresRegister()); // Card.
}
}
void IntrinsicLocationsBuilderARM::VisitUnsafePut(HInvoke* invoke) {
CreateIntIntIntIntToVoid(arena_, features_, Primitive::kPrimInt, false, invoke);
}
void IntrinsicLocationsBuilderARM::VisitUnsafePutOrdered(HInvoke* invoke) {
CreateIntIntIntIntToVoid(arena_, features_, Primitive::kPrimInt, false, invoke);
}
void IntrinsicLocationsBuilderARM::VisitUnsafePutVolatile(HInvoke* invoke) {
CreateIntIntIntIntToVoid(arena_, features_, Primitive::kPrimInt, true, invoke);
}
void IntrinsicLocationsBuilderARM::VisitUnsafePutObject(HInvoke* invoke) {
CreateIntIntIntIntToVoid(arena_, features_, Primitive::kPrimNot, false, invoke);
}
void IntrinsicLocationsBuilderARM::VisitUnsafePutObjectOrdered(HInvoke* invoke) {
CreateIntIntIntIntToVoid(arena_, features_, Primitive::kPrimNot, false, invoke);
}
void IntrinsicLocationsBuilderARM::VisitUnsafePutObjectVolatile(HInvoke* invoke) {
CreateIntIntIntIntToVoid(arena_, features_, Primitive::kPrimNot, true, invoke);
}
void IntrinsicLocationsBuilderARM::VisitUnsafePutLong(HInvoke* invoke) {
CreateIntIntIntIntToVoid(arena_, features_, Primitive::kPrimLong, false, invoke);
}
void IntrinsicLocationsBuilderARM::VisitUnsafePutLongOrdered(HInvoke* invoke) {
CreateIntIntIntIntToVoid(arena_, features_, Primitive::kPrimLong, false, invoke);
}
void IntrinsicLocationsBuilderARM::VisitUnsafePutLongVolatile(HInvoke* invoke) {
CreateIntIntIntIntToVoid(arena_, features_, Primitive::kPrimLong, true, invoke);
}
static void GenUnsafePut(LocationSummary* locations,
Primitive::Type type,
bool is_volatile,
bool is_ordered,
CodeGeneratorARM* codegen) {
ArmAssembler* assembler = codegen->GetAssembler();
Register base = locations->InAt(1).AsRegister<Register>(); // Object pointer.
Register offset = locations->InAt(2).AsRegisterPairLow<Register>(); // Long offset, lo part only.
Register value;
if (is_volatile || is_ordered) {
__ dmb(ISH);
}
if (type == Primitive::kPrimLong) {
Register value_lo = locations->InAt(3).AsRegisterPairLow<Register>();
value = value_lo;
if (is_volatile && !codegen->GetInstructionSetFeatures().HasAtomicLdrdAndStrd()) {
Register temp_lo = locations->GetTemp(0).AsRegister<Register>();
Register temp_hi = locations->GetTemp(1).AsRegister<Register>();
Register value_hi = locations->InAt(3).AsRegisterPairHigh<Register>();
__ add(IP, base, ShifterOperand(offset));
Label loop_head;
__ Bind(&loop_head);
__ ldrexd(temp_lo, temp_hi, IP);
__ strexd(temp_lo, value_lo, value_hi, IP);
__ cmp(temp_lo, ShifterOperand(0));
__ b(&loop_head, NE);
} else {
__ add(IP, base, ShifterOperand(offset));
__ strd(value_lo, Address(IP));
}
} else {
value = locations->InAt(3).AsRegister<Register>();
__ str(value, Address(base, offset));
}
if (is_volatile) {
__ dmb(ISH);
}
if (type == Primitive::kPrimNot) {
Register temp = locations->GetTemp(0).AsRegister<Register>();
Register card = locations->GetTemp(1).AsRegister<Register>();
codegen->MarkGCCard(temp, card, base, value);
}
}
void IntrinsicCodeGeneratorARM::VisitUnsafePut(HInvoke* invoke) {
GenUnsafePut(invoke->GetLocations(), Primitive::kPrimInt, false, false, codegen_);
}
void IntrinsicCodeGeneratorARM::VisitUnsafePutOrdered(HInvoke* invoke) {
GenUnsafePut(invoke->GetLocations(), Primitive::kPrimInt, false, true, codegen_);
}
void IntrinsicCodeGeneratorARM::VisitUnsafePutVolatile(HInvoke* invoke) {
GenUnsafePut(invoke->GetLocations(), Primitive::kPrimInt, true, false, codegen_);
}
void IntrinsicCodeGeneratorARM::VisitUnsafePutObject(HInvoke* invoke) {
GenUnsafePut(invoke->GetLocations(), Primitive::kPrimNot, false, false, codegen_);
}
void IntrinsicCodeGeneratorARM::VisitUnsafePutObjectOrdered(HInvoke* invoke) {
GenUnsafePut(invoke->GetLocations(), Primitive::kPrimNot, false, true, codegen_);
}
void IntrinsicCodeGeneratorARM::VisitUnsafePutObjectVolatile(HInvoke* invoke) {
GenUnsafePut(invoke->GetLocations(), Primitive::kPrimNot, true, false, codegen_);
}
void IntrinsicCodeGeneratorARM::VisitUnsafePutLong(HInvoke* invoke) {
GenUnsafePut(invoke->GetLocations(), Primitive::kPrimLong, false, false, codegen_);
}
void IntrinsicCodeGeneratorARM::VisitUnsafePutLongOrdered(HInvoke* invoke) {
GenUnsafePut(invoke->GetLocations(), Primitive::kPrimLong, false, true, codegen_);
}
void IntrinsicCodeGeneratorARM::VisitUnsafePutLongVolatile(HInvoke* invoke) {
GenUnsafePut(invoke->GetLocations(), Primitive::kPrimLong, true, false, codegen_);
}
static void CreateIntIntIntIntIntToIntPlusTemps(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);
locations->AddTemp(Location::RequiresRegister()); // Pointer.
locations->AddTemp(Location::RequiresRegister()); // Temp 1.
locations->AddTemp(Location::RequiresRegister()); // Temp 2.
}
static void GenCas(LocationSummary* locations, Primitive::Type type, CodeGeneratorARM* codegen) {
DCHECK_NE(type, Primitive::kPrimLong);
ArmAssembler* assembler = codegen->GetAssembler();
Register out = locations->Out().AsRegister<Register>(); // Boolean result.
Register base = locations->InAt(1).AsRegister<Register>(); // Object pointer.
Register offset = locations->InAt(2).AsRegisterPairLow<Register>(); // Offset (discard high 4B).
Register expected_lo = locations->InAt(3).AsRegister<Register>(); // Expected.
Register value_lo = locations->InAt(4).AsRegister<Register>(); // Value.
Register tmp_ptr = locations->GetTemp(0).AsRegister<Register>(); // Pointer to actual memory.
Register tmp_lo = locations->GetTemp(1).AsRegister<Register>(); // Value in memory.
if (type == Primitive::kPrimNot) {
// Mark card for object assuming new value is stored. Worst case we will mark an unchanged
// object and scan the receiver at the next GC for nothing.
codegen->MarkGCCard(tmp_ptr, tmp_lo, base, value_lo);
}
// Prevent reordering with prior memory operations.
__ dmb(ISH);
__ add(tmp_ptr, base, ShifterOperand(offset));
// do {
// tmp = [r_ptr] - expected;
// } while (tmp == 0 && failure([r_ptr] <- r_new_value));
// result = tmp != 0;
Label loop_head;
__ Bind(&loop_head);
__ ldrex(tmp_lo, tmp_ptr);
__ subs(tmp_lo, tmp_lo, ShifterOperand(expected_lo));
__ it(EQ, ItState::kItT);
__ strex(tmp_lo, value_lo, tmp_ptr, EQ);
__ cmp(tmp_lo, ShifterOperand(1), EQ);
__ b(&loop_head, EQ);
__ dmb(ISH);
__ rsbs(out, tmp_lo, ShifterOperand(1));
__ it(CC);
__ mov(out, ShifterOperand(0), CC);
}
void IntrinsicLocationsBuilderARM::VisitUnsafeCASInt(HInvoke* invoke) {
CreateIntIntIntIntIntToIntPlusTemps(arena_, invoke);
}
void IntrinsicLocationsBuilderARM::VisitUnsafeCASObject(HInvoke* invoke) {
CreateIntIntIntIntIntToIntPlusTemps(arena_, invoke);
}
void IntrinsicCodeGeneratorARM::VisitUnsafeCASInt(HInvoke* invoke) {
GenCas(invoke->GetLocations(), Primitive::kPrimInt, codegen_);
}
void IntrinsicCodeGeneratorARM::VisitUnsafeCASObject(HInvoke* invoke) {
GenCas(invoke->GetLocations(), Primitive::kPrimNot, codegen_);
}
void IntrinsicLocationsBuilderARM::VisitStringCharAt(HInvoke* invoke) {
LocationSummary* locations = new (arena_) LocationSummary(invoke,
LocationSummary::kCallOnSlowPath,
kIntrinsified);
locations->SetInAt(0, Location::RequiresRegister());
locations->SetInAt(1, Location::RequiresRegister());
locations->SetOut(Location::RequiresRegister(), Location::kOutputOverlap);
locations->AddTemp(Location::RequiresRegister());
locations->AddTemp(Location::RequiresRegister());
}
void IntrinsicCodeGeneratorARM::VisitStringCharAt(HInvoke* invoke) {
ArmAssembler* assembler = GetAssembler();
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();
// Starting offset within data array
const MemberOffset offset_offset = mirror::String::OffsetOffset();
// Start of char data with array_
const MemberOffset data_offset = mirror::Array::DataOffset(sizeof(uint16_t));
Register obj = locations->InAt(0).AsRegister<Register>(); // String object pointer.
Register idx = locations->InAt(1).AsRegister<Register>(); // Index of character.
Register out = locations->Out().AsRegister<Register>(); // Result character.
Register temp = locations->GetTemp(0).AsRegister<Register>();
Register array_temp = locations->GetTemp(1).AsRegister<Register>();
// 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).
SlowPathCodeARM* slow_path = new (GetAllocator()) IntrinsicSlowPathARM(invoke);
codegen_->AddSlowPath(slow_path);
__ ldr(temp, Address(obj, count_offset.Int32Value())); // temp = str.length.
codegen_->MaybeRecordImplicitNullCheck(invoke);
__ cmp(idx, ShifterOperand(temp));
__ b(slow_path->GetEntryLabel(), CS);
// Index computation.
__ ldr(temp, Address(obj, offset_offset.Int32Value())); // temp := str.offset.
__ ldr(array_temp, Address(obj, value_offset.Int32Value())); // array_temp := str.offset.
__ add(temp, temp, ShifterOperand(idx));
DCHECK_EQ(data_offset.Int32Value() % 2, 0); // We'll compensate by shifting.
__ add(temp, temp, ShifterOperand(data_offset.Int32Value() / 2));
// Load the value.
__ ldrh(out, Address(array_temp, temp, LSL, 1)); // out := array_temp[temp].
__ Bind(slow_path->GetExitLabel());
}
void IntrinsicLocationsBuilderARM::VisitStringCompareTo(HInvoke* invoke) {
// The inputs plus one temp.
LocationSummary* locations = new (arena_) LocationSummary(invoke,
LocationSummary::kCall,
kIntrinsified);
InvokeRuntimeCallingConvention calling_convention;
locations->SetInAt(0, Location::RegisterLocation(calling_convention.GetRegisterAt(0)));
locations->SetInAt(1, Location::RegisterLocation(calling_convention.GetRegisterAt(1)));
locations->SetOut(Location::RegisterLocation(R0));
}
void IntrinsicCodeGeneratorARM::VisitStringCompareTo(HInvoke* invoke) {
ArmAssembler* assembler = GetAssembler();
LocationSummary* locations = invoke->GetLocations();
// Note that the null check must have been done earlier.
DCHECK(!invoke->CanDoImplicitNullCheckOn(invoke->InputAt(0)));
Register argument = locations->InAt(1).AsRegister<Register>();
__ cmp(argument, ShifterOperand(0));
SlowPathCodeARM* slow_path = new (GetAllocator()) IntrinsicSlowPathARM(invoke);
codegen_->AddSlowPath(slow_path);
__ b(slow_path->GetEntryLabel(), EQ);
__ LoadFromOffset(
kLoadWord, LR, TR, QUICK_ENTRYPOINT_OFFSET(kArmWordSize, pStringCompareTo).Int32Value());
__ blx(LR);
__ Bind(slow_path->GetExitLabel());
}
// Unimplemented intrinsics.
#define UNIMPLEMENTED_INTRINSIC(Name) \
void IntrinsicLocationsBuilderARM::Visit ## Name(HInvoke* invoke ATTRIBUTE_UNUSED) { \
} \
void IntrinsicCodeGeneratorARM::Visit ## Name(HInvoke* invoke ATTRIBUTE_UNUSED) { \
}
UNIMPLEMENTED_INTRINSIC(IntegerReverse)
UNIMPLEMENTED_INTRINSIC(IntegerReverseBytes)
UNIMPLEMENTED_INTRINSIC(LongReverse)
UNIMPLEMENTED_INTRINSIC(LongReverseBytes)
UNIMPLEMENTED_INTRINSIC(ShortReverseBytes)
UNIMPLEMENTED_INTRINSIC(MathMinDoubleDouble)
UNIMPLEMENTED_INTRINSIC(MathMinFloatFloat)
UNIMPLEMENTED_INTRINSIC(MathMaxDoubleDouble)
UNIMPLEMENTED_INTRINSIC(MathMaxFloatFloat)
UNIMPLEMENTED_INTRINSIC(MathMinLongLong)
UNIMPLEMENTED_INTRINSIC(MathMaxLongLong)
UNIMPLEMENTED_INTRINSIC(MathCeil) // Could be done by changing rounding mode, maybe?
UNIMPLEMENTED_INTRINSIC(MathFloor) // Could be done by changing rounding mode, maybe?
UNIMPLEMENTED_INTRINSIC(MathRint)
UNIMPLEMENTED_INTRINSIC(MathRoundDouble) // Could be done by changing rounding mode, maybe?
UNIMPLEMENTED_INTRINSIC(MathRoundFloat) // Could be done by changing rounding mode, maybe?
UNIMPLEMENTED_INTRINSIC(UnsafeCASLong) // High register pressure.
UNIMPLEMENTED_INTRINSIC(SystemArrayCopyChar)
UNIMPLEMENTED_INTRINSIC(StringIndexOf)
UNIMPLEMENTED_INTRINSIC(StringIndexOfAfter)
UNIMPLEMENTED_INTRINSIC(ReferenceGetReferent)
} // namespace arm
} // namespace art
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