| /* |
| * 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_x86_64.h" |
| |
| #include <limits> |
| |
| #include "arch/x86_64/instruction_set_features_x86_64.h" |
| #include "code_generator_x86_64.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/x86_64/assembler_x86_64.h" |
| #include "utils/x86_64/constants_x86_64.h" |
| |
| namespace art { |
| |
| namespace x86_64 { |
| |
| IntrinsicLocationsBuilderX86_64::IntrinsicLocationsBuilderX86_64(CodeGeneratorX86_64* codegen) |
| : arena_(codegen->GetGraph()->GetArena()), codegen_(codegen) { |
| } |
| |
| |
| X86_64Assembler* IntrinsicCodeGeneratorX86_64::GetAssembler() { |
| return reinterpret_cast<X86_64Assembler*>(codegen_->GetAssembler()); |
| } |
| |
| ArenaAllocator* IntrinsicCodeGeneratorX86_64::GetAllocator() { |
| return codegen_->GetGraph()->GetArena(); |
| } |
| |
| bool IntrinsicLocationsBuilderX86_64::TryDispatch(HInvoke* invoke) { |
| Dispatch(invoke); |
| const LocationSummary* res = invoke->GetLocations(); |
| return res != nullptr && res->Intrinsified(); |
| } |
| |
| #define __ reinterpret_cast<X86_64Assembler*>(codegen->GetAssembler())-> |
| |
| // TODO: trg as memory. |
| static void MoveFromReturnRegister(Location trg, |
| Primitive::Type type, |
| CodeGeneratorX86_64* codegen) { |
| if (!trg.IsValid()) { |
| DCHECK(type == Primitive::kPrimVoid); |
| return; |
| } |
| |
| switch (type) { |
| case Primitive::kPrimBoolean: |
| case Primitive::kPrimByte: |
| case Primitive::kPrimChar: |
| case Primitive::kPrimShort: |
| case Primitive::kPrimInt: |
| case Primitive::kPrimNot: { |
| CpuRegister trg_reg = trg.AsRegister<CpuRegister>(); |
| if (trg_reg.AsRegister() != RAX) { |
| __ movl(trg_reg, CpuRegister(RAX)); |
| } |
| break; |
| } |
| case Primitive::kPrimLong: { |
| CpuRegister trg_reg = trg.AsRegister<CpuRegister>(); |
| if (trg_reg.AsRegister() != RAX) { |
| __ movq(trg_reg, CpuRegister(RAX)); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimVoid: |
| LOG(FATAL) << "Unexpected void type for valid location " << trg; |
| UNREACHABLE(); |
| |
| case Primitive::kPrimDouble: { |
| XmmRegister trg_reg = trg.AsFpuRegister<XmmRegister>(); |
| if (trg_reg.AsFloatRegister() != XMM0) { |
| __ movsd(trg_reg, XmmRegister(XMM0)); |
| } |
| break; |
| } |
| case Primitive::kPrimFloat: { |
| XmmRegister trg_reg = trg.AsFpuRegister<XmmRegister>(); |
| if (trg_reg.AsFloatRegister() != XMM0) { |
| __ movss(trg_reg, XmmRegister(XMM0)); |
| } |
| break; |
| } |
| } |
| } |
| |
| static void MoveArguments(HInvoke* invoke, CodeGeneratorX86_64* codegen) { |
| InvokeDexCallingConventionVisitorX86_64 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 IntrinsicSlowPathX86_64 : public SlowPathCodeX86_64 { |
| public: |
| explicit IntrinsicSlowPathX86_64(HInvoke* invoke) : invoke_(invoke) { } |
| |
| void EmitNativeCode(CodeGenerator* codegen_in) OVERRIDE { |
| CodeGeneratorX86_64* codegen = down_cast<CodeGeneratorX86_64*>(codegen_in); |
| __ Bind(GetEntryLabel()); |
| |
| SaveLiveRegisters(codegen, invoke_->GetLocations()); |
| |
| MoveArguments(invoke_, codegen); |
| |
| if (invoke_->IsInvokeStaticOrDirect()) { |
| codegen->GenerateStaticOrDirectCall(invoke_->AsInvokeStaticOrDirect(), CpuRegister(RDI)); |
| 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()); |
| __ jmp(GetExitLabel()); |
| } |
| |
| private: |
| // The instruction where this slow path is happening. |
| HInvoke* const invoke_; |
| |
| DISALLOW_COPY_AND_ASSIGN(IntrinsicSlowPathX86_64); |
| }; |
| |
| #undef __ |
| #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, X86_64Assembler* assembler) { |
| Location input = locations->InAt(0); |
| Location output = locations->Out(); |
| __ movd(output.AsRegister<CpuRegister>(), input.AsFpuRegister<XmmRegister>(), is64bit); |
| } |
| |
| static void MoveIntToFP(LocationSummary* locations, bool is64bit, X86_64Assembler* assembler) { |
| Location input = locations->InAt(0); |
| Location output = locations->Out(); |
| __ movd(output.AsFpuRegister<XmmRegister>(), input.AsRegister<CpuRegister>(), is64bit); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitDoubleDoubleToRawLongBits(HInvoke* invoke) { |
| CreateFPToIntLocations(arena_, invoke); |
| } |
| void IntrinsicLocationsBuilderX86_64::VisitDoubleLongBitsToDouble(HInvoke* invoke) { |
| CreateIntToFPLocations(arena_, invoke); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitDoubleDoubleToRawLongBits(HInvoke* invoke) { |
| MoveFPToInt(invoke->GetLocations(), true, GetAssembler()); |
| } |
| void IntrinsicCodeGeneratorX86_64::VisitDoubleLongBitsToDouble(HInvoke* invoke) { |
| MoveIntToFP(invoke->GetLocations(), true, GetAssembler()); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitFloatFloatToRawIntBits(HInvoke* invoke) { |
| CreateFPToIntLocations(arena_, invoke); |
| } |
| void IntrinsicLocationsBuilderX86_64::VisitFloatIntBitsToFloat(HInvoke* invoke) { |
| CreateIntToFPLocations(arena_, invoke); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitFloatFloatToRawIntBits(HInvoke* invoke) { |
| MoveFPToInt(invoke->GetLocations(), false, GetAssembler()); |
| } |
| void IntrinsicCodeGeneratorX86_64::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::SameAsFirstInput()); |
| } |
| |
| static void GenReverseBytes(LocationSummary* locations, |
| Primitive::Type size, |
| X86_64Assembler* assembler) { |
| CpuRegister out = locations->Out().AsRegister<CpuRegister>(); |
| |
| switch (size) { |
| case Primitive::kPrimShort: |
| // TODO: Can be done with an xchg of 8b registers. This is straight from Quick. |
| __ bswapl(out); |
| __ sarl(out, Immediate(16)); |
| break; |
| case Primitive::kPrimInt: |
| __ bswapl(out); |
| break; |
| case Primitive::kPrimLong: |
| __ bswapq(out); |
| break; |
| default: |
| LOG(FATAL) << "Unexpected size for reverse-bytes: " << size; |
| UNREACHABLE(); |
| } |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitIntegerReverseBytes(HInvoke* invoke) { |
| CreateIntToIntLocations(arena_, invoke); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitIntegerReverseBytes(HInvoke* invoke) { |
| GenReverseBytes(invoke->GetLocations(), Primitive::kPrimInt, GetAssembler()); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitLongReverseBytes(HInvoke* invoke) { |
| CreateIntToIntLocations(arena_, invoke); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitLongReverseBytes(HInvoke* invoke) { |
| GenReverseBytes(invoke->GetLocations(), Primitive::kPrimLong, GetAssembler()); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitShortReverseBytes(HInvoke* invoke) { |
| CreateIntToIntLocations(arena_, invoke); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitShortReverseBytes(HInvoke* invoke) { |
| GenReverseBytes(invoke->GetLocations(), Primitive::kPrimShort, GetAssembler()); |
| } |
| |
| |
| // TODO: Consider Quick's way of doing Double abs through integer operations, as the immediate we |
| // need is 64b. |
| |
| static void CreateFloatToFloatPlusTemps(ArenaAllocator* arena, HInvoke* invoke) { |
| // TODO: Enable memory operations when the assembler supports them. |
| LocationSummary* locations = new (arena) LocationSummary(invoke, |
| LocationSummary::kNoCall, |
| kIntrinsified); |
| locations->SetInAt(0, Location::RequiresFpuRegister()); |
| // TODO: Allow x86 to work with memory. This requires assembler support, see below. |
| // locations->SetInAt(0, Location::Any()); // X86 can work on memory directly. |
| locations->SetOut(Location::SameAsFirstInput()); |
| locations->AddTemp(Location::RequiresFpuRegister()); // FP reg to hold mask. |
| } |
| |
| static void MathAbsFP(LocationSummary* locations, |
| bool is64bit, |
| X86_64Assembler* assembler, |
| CodeGeneratorX86_64* codegen) { |
| Location output = locations->Out(); |
| |
| if (output.IsFpuRegister()) { |
| // In-register |
| XmmRegister xmm_temp = locations->GetTemp(0).AsFpuRegister<XmmRegister>(); |
| |
| // TODO: Can mask directly with constant area using pand if we can guarantee |
| // that the literal is aligned on a 16 byte boundary. This will avoid a |
| // temporary. |
| if (is64bit) { |
| __ movsd(xmm_temp, codegen->LiteralInt64Address(INT64_C(0x7FFFFFFFFFFFFFFF))); |
| __ andpd(output.AsFpuRegister<XmmRegister>(), xmm_temp); |
| } else { |
| __ movss(xmm_temp, codegen->LiteralInt32Address(INT32_C(0x7FFFFFFF))); |
| __ andps(output.AsFpuRegister<XmmRegister>(), xmm_temp); |
| } |
| } else { |
| // TODO: update when assember support is available. |
| UNIMPLEMENTED(FATAL) << "Needs assembler support."; |
| // Once assembler support is available, in-memory operations look like this: |
| // if (is64bit) { |
| // DCHECK(output.IsDoubleStackSlot()); |
| // // No 64b and with literal. |
| // __ movq(cpu_temp, Immediate(INT64_C(0x7FFFFFFFFFFFFFFF))); |
| // __ andq(Address(CpuRegister(RSP), output.GetStackIndex()), cpu_temp); |
| // } else { |
| // DCHECK(output.IsStackSlot()); |
| // // Can use and with a literal directly. |
| // __ andl(Address(CpuRegister(RSP), output.GetStackIndex()), Immediate(INT64_C(0x7FFFFFFF))); |
| // } |
| } |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitMathAbsDouble(HInvoke* invoke) { |
| CreateFloatToFloatPlusTemps(arena_, invoke); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitMathAbsDouble(HInvoke* invoke) { |
| MathAbsFP(invoke->GetLocations(), true, GetAssembler(), codegen_); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitMathAbsFloat(HInvoke* invoke) { |
| CreateFloatToFloatPlusTemps(arena_, invoke); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitMathAbsFloat(HInvoke* invoke) { |
| MathAbsFP(invoke->GetLocations(), false, GetAssembler(), codegen_); |
| } |
| |
| static void CreateIntToIntPlusTemp(ArenaAllocator* arena, HInvoke* invoke) { |
| LocationSummary* locations = new (arena) LocationSummary(invoke, |
| LocationSummary::kNoCall, |
| kIntrinsified); |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetOut(Location::SameAsFirstInput()); |
| locations->AddTemp(Location::RequiresRegister()); |
| } |
| |
| static void GenAbsInteger(LocationSummary* locations, bool is64bit, X86_64Assembler* assembler) { |
| Location output = locations->Out(); |
| CpuRegister out = output.AsRegister<CpuRegister>(); |
| CpuRegister mask = locations->GetTemp(0).AsRegister<CpuRegister>(); |
| |
| if (is64bit) { |
| // Create mask. |
| __ movq(mask, out); |
| __ sarq(mask, Immediate(63)); |
| // Add mask. |
| __ addq(out, mask); |
| __ xorq(out, mask); |
| } else { |
| // Create mask. |
| __ movl(mask, out); |
| __ sarl(mask, Immediate(31)); |
| // Add mask. |
| __ addl(out, mask); |
| __ xorl(out, mask); |
| } |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitMathAbsInt(HInvoke* invoke) { |
| CreateIntToIntPlusTemp(arena_, invoke); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitMathAbsInt(HInvoke* invoke) { |
| GenAbsInteger(invoke->GetLocations(), false, GetAssembler()); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitMathAbsLong(HInvoke* invoke) { |
| CreateIntToIntPlusTemp(arena_, invoke); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitMathAbsLong(HInvoke* invoke) { |
| GenAbsInteger(invoke->GetLocations(), true, GetAssembler()); |
| } |
| |
| static void GenMinMaxFP(LocationSummary* locations, |
| bool is_min, |
| bool is_double, |
| X86_64Assembler* assembler, |
| CodeGeneratorX86_64* codegen) { |
| Location op1_loc = locations->InAt(0); |
| Location op2_loc = locations->InAt(1); |
| Location out_loc = locations->Out(); |
| XmmRegister out = out_loc.AsFpuRegister<XmmRegister>(); |
| |
| // Shortcut for same input locations. |
| if (op1_loc.Equals(op2_loc)) { |
| DCHECK(out_loc.Equals(op1_loc)); |
| return; |
| } |
| |
| // (out := op1) |
| // out <=? op2 |
| // if Nan jmp Nan_label |
| // if out is min jmp done |
| // if op2 is min jmp op2_label |
| // handle -0/+0 |
| // jmp done |
| // Nan_label: |
| // out := NaN |
| // op2_label: |
| // out := op2 |
| // done: |
| // |
| // This removes one jmp, but needs to copy one input (op1) to out. |
| // |
| // TODO: This is straight from Quick. Make NaN an out-of-line slowpath? |
| |
| XmmRegister op2 = op2_loc.AsFpuRegister<XmmRegister>(); |
| |
| Label nan, done, op2_label; |
| if (is_double) { |
| __ ucomisd(out, op2); |
| } else { |
| __ ucomiss(out, op2); |
| } |
| |
| __ j(Condition::kParityEven, &nan); |
| |
| __ j(is_min ? Condition::kAbove : Condition::kBelow, &op2_label); |
| __ j(is_min ? Condition::kBelow : Condition::kAbove, &done); |
| |
| // Handle 0.0/-0.0. |
| if (is_min) { |
| if (is_double) { |
| __ orpd(out, op2); |
| } else { |
| __ orps(out, op2); |
| } |
| } else { |
| if (is_double) { |
| __ andpd(out, op2); |
| } else { |
| __ andps(out, op2); |
| } |
| } |
| __ jmp(&done); |
| |
| // NaN handling. |
| __ Bind(&nan); |
| if (is_double) { |
| __ movsd(out, codegen->LiteralInt64Address(INT64_C(0x7FF8000000000000))); |
| } else { |
| __ movss(out, codegen->LiteralInt32Address(INT32_C(0x7FC00000))); |
| } |
| __ jmp(&done); |
| |
| // out := op2; |
| __ Bind(&op2_label); |
| if (is_double) { |
| __ movsd(out, op2); |
| } else { |
| __ movss(out, op2); |
| } |
| |
| // Done. |
| __ Bind(&done); |
| } |
| |
| static void CreateFPFPToFP(ArenaAllocator* arena, HInvoke* invoke) { |
| LocationSummary* locations = new (arena) LocationSummary(invoke, |
| LocationSummary::kNoCall, |
| kIntrinsified); |
| locations->SetInAt(0, Location::RequiresFpuRegister()); |
| locations->SetInAt(1, Location::RequiresFpuRegister()); |
| // The following is sub-optimal, but all we can do for now. It would be fine to also accept |
| // the second input to be the output (we can simply swap inputs). |
| locations->SetOut(Location::SameAsFirstInput()); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitMathMinDoubleDouble(HInvoke* invoke) { |
| CreateFPFPToFP(arena_, invoke); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitMathMinDoubleDouble(HInvoke* invoke) { |
| GenMinMaxFP(invoke->GetLocations(), true, true, GetAssembler(), codegen_); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitMathMinFloatFloat(HInvoke* invoke) { |
| CreateFPFPToFP(arena_, invoke); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitMathMinFloatFloat(HInvoke* invoke) { |
| GenMinMaxFP(invoke->GetLocations(), true, false, GetAssembler(), codegen_); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitMathMaxDoubleDouble(HInvoke* invoke) { |
| CreateFPFPToFP(arena_, invoke); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitMathMaxDoubleDouble(HInvoke* invoke) { |
| GenMinMaxFP(invoke->GetLocations(), false, true, GetAssembler(), codegen_); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitMathMaxFloatFloat(HInvoke* invoke) { |
| CreateFPFPToFP(arena_, invoke); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitMathMaxFloatFloat(HInvoke* invoke) { |
| GenMinMaxFP(invoke->GetLocations(), false, false, GetAssembler(), codegen_); |
| } |
| |
| static void GenMinMax(LocationSummary* locations, bool is_min, bool is_long, |
| X86_64Assembler* assembler) { |
| Location op1_loc = locations->InAt(0); |
| Location op2_loc = locations->InAt(1); |
| |
| // Shortcut for same input locations. |
| if (op1_loc.Equals(op2_loc)) { |
| // Can return immediately, as op1_loc == out_loc. |
| // Note: if we ever support separate registers, e.g., output into memory, we need to check for |
| // a copy here. |
| DCHECK(locations->Out().Equals(op1_loc)); |
| return; |
| } |
| |
| CpuRegister out = locations->Out().AsRegister<CpuRegister>(); |
| CpuRegister op2 = op2_loc.AsRegister<CpuRegister>(); |
| |
| // (out := op1) |
| // out <=? op2 |
| // if out is min jmp done |
| // out := op2 |
| // done: |
| |
| if (is_long) { |
| __ cmpq(out, op2); |
| } else { |
| __ cmpl(out, op2); |
| } |
| |
| __ cmov(is_min ? Condition::kGreater : Condition::kLess, out, op2, is_long); |
| } |
| |
| 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::SameAsFirstInput()); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitMathMinIntInt(HInvoke* invoke) { |
| CreateIntIntToIntLocations(arena_, invoke); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitMathMinIntInt(HInvoke* invoke) { |
| GenMinMax(invoke->GetLocations(), true, false, GetAssembler()); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitMathMinLongLong(HInvoke* invoke) { |
| CreateIntIntToIntLocations(arena_, invoke); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitMathMinLongLong(HInvoke* invoke) { |
| GenMinMax(invoke->GetLocations(), true, true, GetAssembler()); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitMathMaxIntInt(HInvoke* invoke) { |
| CreateIntIntToIntLocations(arena_, invoke); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitMathMaxIntInt(HInvoke* invoke) { |
| GenMinMax(invoke->GetLocations(), false, false, GetAssembler()); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitMathMaxLongLong(HInvoke* invoke) { |
| CreateIntIntToIntLocations(arena_, invoke); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitMathMaxLongLong(HInvoke* invoke) { |
| GenMinMax(invoke->GetLocations(), false, true, GetAssembler()); |
| } |
| |
| 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()); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitMathSqrt(HInvoke* invoke) { |
| CreateFPToFPLocations(arena_, invoke); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitMathSqrt(HInvoke* invoke) { |
| LocationSummary* locations = invoke->GetLocations(); |
| XmmRegister in = locations->InAt(0).AsFpuRegister<XmmRegister>(); |
| XmmRegister out = locations->Out().AsFpuRegister<XmmRegister>(); |
| |
| GetAssembler()->sqrtsd(out, in); |
| } |
| |
| static void InvokeOutOfLineIntrinsic(CodeGeneratorX86_64* codegen, HInvoke* invoke) { |
| MoveArguments(invoke, codegen); |
| |
| DCHECK(invoke->IsInvokeStaticOrDirect()); |
| codegen->GenerateStaticOrDirectCall(invoke->AsInvokeStaticOrDirect(), CpuRegister(RDI)); |
| codegen->RecordPcInfo(invoke, invoke->GetDexPc()); |
| |
| // Copy the result back to the expected output. |
| Location out = invoke->GetLocations()->Out(); |
| if (out.IsValid()) { |
| DCHECK(out.IsRegister()); |
| MoveFromReturnRegister(out, invoke->GetType(), codegen); |
| } |
| } |
| |
| static void CreateSSE41FPToFPLocations(ArenaAllocator* arena, |
| HInvoke* invoke, |
| CodeGeneratorX86_64* codegen) { |
| // Do we have instruction support? |
| if (codegen->GetInstructionSetFeatures().HasSSE4_1()) { |
| CreateFPToFPLocations(arena, invoke); |
| return; |
| } |
| |
| // We have to fall back to a call to the intrinsic. |
| LocationSummary* locations = new (arena) LocationSummary(invoke, |
| LocationSummary::kCall); |
| InvokeRuntimeCallingConvention calling_convention; |
| locations->SetInAt(0, Location::RegisterLocation(calling_convention.GetFpuRegisterAt(0))); |
| locations->SetOut(Location::FpuRegisterLocation(XMM0)); |
| // Needs to be RDI for the invoke. |
| locations->AddTemp(Location::RegisterLocation(RDI)); |
| } |
| |
| static void GenSSE41FPToFPIntrinsic(CodeGeneratorX86_64* codegen, |
| HInvoke* invoke, |
| X86_64Assembler* assembler, |
| int round_mode) { |
| LocationSummary* locations = invoke->GetLocations(); |
| if (locations->WillCall()) { |
| InvokeOutOfLineIntrinsic(codegen, invoke); |
| } else { |
| XmmRegister in = locations->InAt(0).AsFpuRegister<XmmRegister>(); |
| XmmRegister out = locations->Out().AsFpuRegister<XmmRegister>(); |
| __ roundsd(out, in, Immediate(round_mode)); |
| } |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitMathCeil(HInvoke* invoke) { |
| CreateSSE41FPToFPLocations(arena_, invoke, codegen_); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitMathCeil(HInvoke* invoke) { |
| GenSSE41FPToFPIntrinsic(codegen_, invoke, GetAssembler(), 2); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitMathFloor(HInvoke* invoke) { |
| CreateSSE41FPToFPLocations(arena_, invoke, codegen_); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitMathFloor(HInvoke* invoke) { |
| GenSSE41FPToFPIntrinsic(codegen_, invoke, GetAssembler(), 1); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitMathRint(HInvoke* invoke) { |
| CreateSSE41FPToFPLocations(arena_, invoke, codegen_); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitMathRint(HInvoke* invoke) { |
| GenSSE41FPToFPIntrinsic(codegen_, invoke, GetAssembler(), 0); |
| } |
| |
| static void CreateSSE41FPToIntLocations(ArenaAllocator* arena, |
| HInvoke* invoke, |
| CodeGeneratorX86_64* codegen) { |
| // Do we have instruction support? |
| if (codegen->GetInstructionSetFeatures().HasSSE4_1()) { |
| LocationSummary* locations = new (arena) LocationSummary(invoke, |
| LocationSummary::kNoCall, |
| kIntrinsified); |
| locations->SetInAt(0, Location::RequiresFpuRegister()); |
| locations->SetOut(Location::RequiresFpuRegister()); |
| locations->AddTemp(Location::RequiresFpuRegister()); |
| return; |
| } |
| |
| // We have to fall back to a call to the intrinsic. |
| LocationSummary* locations = new (arena) LocationSummary(invoke, |
| LocationSummary::kCall); |
| InvokeRuntimeCallingConvention calling_convention; |
| locations->SetInAt(0, Location::RegisterLocation(calling_convention.GetFpuRegisterAt(0))); |
| locations->SetOut(Location::RegisterLocation(RAX)); |
| // Needs to be RDI for the invoke. |
| locations->AddTemp(Location::RegisterLocation(RDI)); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitMathRoundFloat(HInvoke* invoke) { |
| CreateSSE41FPToIntLocations(arena_, invoke, codegen_); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitMathRoundFloat(HInvoke* invoke) { |
| LocationSummary* locations = invoke->GetLocations(); |
| if (locations->WillCall()) { |
| InvokeOutOfLineIntrinsic(codegen_, invoke); |
| return; |
| } |
| |
| // Implement RoundFloat as t1 = floor(input + 0.5f); convert to int. |
| XmmRegister in = locations->InAt(0).AsFpuRegister<XmmRegister>(); |
| CpuRegister out = locations->Out().AsRegister<CpuRegister>(); |
| XmmRegister inPlusPointFive = locations->GetTemp(0).AsFpuRegister<XmmRegister>(); |
| Label done, nan; |
| X86_64Assembler* assembler = GetAssembler(); |
| |
| // Load 0.5 into inPlusPointFive. |
| __ movss(inPlusPointFive, codegen_->LiteralFloatAddress(0.5f)); |
| |
| // Add in the input. |
| __ addss(inPlusPointFive, in); |
| |
| // And truncate to an integer. |
| __ roundss(inPlusPointFive, inPlusPointFive, Immediate(1)); |
| |
| // if inPlusPointFive >= maxInt goto done |
| __ comiss(inPlusPointFive, codegen_->LiteralFloatAddress(static_cast<float>(kPrimIntMax))); |
| __ j(kAboveEqual, &done); |
| |
| // if input == NaN goto nan |
| __ j(kUnordered, &nan); |
| |
| // output = float-to-int-truncate(input) |
| __ cvttss2si(out, inPlusPointFive); |
| __ jmp(&done); |
| __ Bind(&nan); |
| |
| // output = 0 |
| __ xorl(out, out); |
| __ Bind(&done); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitMathRoundDouble(HInvoke* invoke) { |
| CreateSSE41FPToIntLocations(arena_, invoke, codegen_); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitMathRoundDouble(HInvoke* invoke) { |
| LocationSummary* locations = invoke->GetLocations(); |
| if (locations->WillCall()) { |
| InvokeOutOfLineIntrinsic(codegen_, invoke); |
| return; |
| } |
| |
| // Implement RoundDouble as t1 = floor(input + 0.5); convert to long. |
| XmmRegister in = locations->InAt(0).AsFpuRegister<XmmRegister>(); |
| CpuRegister out = locations->Out().AsRegister<CpuRegister>(); |
| XmmRegister inPlusPointFive = locations->GetTemp(0).AsFpuRegister<XmmRegister>(); |
| Label done, nan; |
| X86_64Assembler* assembler = GetAssembler(); |
| |
| // Load 0.5 into inPlusPointFive. |
| __ movsd(inPlusPointFive, codegen_->LiteralDoubleAddress(0.5)); |
| |
| // Add in the input. |
| __ addsd(inPlusPointFive, in); |
| |
| // And truncate to an integer. |
| __ roundsd(inPlusPointFive, inPlusPointFive, Immediate(1)); |
| |
| // if inPlusPointFive >= maxLong goto done |
| __ comisd(inPlusPointFive, codegen_->LiteralDoubleAddress(static_cast<double>(kPrimLongMax))); |
| __ j(kAboveEqual, &done); |
| |
| // if input == NaN goto nan |
| __ j(kUnordered, &nan); |
| |
| // output = double-to-long-truncate(input) |
| __ cvttsd2si(out, inPlusPointFive, true); |
| __ jmp(&done); |
| __ Bind(&nan); |
| |
| // output = 0 |
| __ xorl(out, out); |
| __ Bind(&done); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitStringCharAt(HInvoke* invoke) { |
| // The inputs plus one temp. |
| LocationSummary* locations = new (arena_) LocationSummary(invoke, |
| LocationSummary::kCallOnSlowPath, |
| kIntrinsified); |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetInAt(1, Location::RequiresRegister()); |
| locations->SetOut(Location::SameAsFirstInput()); |
| locations->AddTemp(Location::RequiresRegister()); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitStringCharAt(HInvoke* invoke) { |
| LocationSummary* locations = invoke->GetLocations(); |
| |
| // Location of reference to data array |
| const int32_t value_offset = mirror::String::ValueOffset().Int32Value(); |
| // Location of count |
| const int32_t count_offset = mirror::String::CountOffset().Int32Value(); |
| |
| CpuRegister obj = locations->InAt(0).AsRegister<CpuRegister>(); |
| CpuRegister idx = locations->InAt(1).AsRegister<CpuRegister>(); |
| CpuRegister out = locations->Out().AsRegister<CpuRegister>(); |
| |
| // 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). |
| |
| SlowPathCodeX86_64* slow_path = new (GetAllocator()) IntrinsicSlowPathX86_64(invoke); |
| codegen_->AddSlowPath(slow_path); |
| |
| X86_64Assembler* assembler = GetAssembler(); |
| |
| __ cmpl(idx, Address(obj, count_offset)); |
| codegen_->MaybeRecordImplicitNullCheck(invoke); |
| __ j(kAboveEqual, slow_path->GetEntryLabel()); |
| |
| // out = out[2*idx]. |
| __ movzxw(out, Address(out, idx, ScaleFactor::TIMES_2, value_offset)); |
| |
| __ Bind(slow_path->GetExitLabel()); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitStringCompareTo(HInvoke* invoke) { |
| 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(RAX)); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitStringCompareTo(HInvoke* invoke) { |
| X86_64Assembler* assembler = GetAssembler(); |
| LocationSummary* locations = invoke->GetLocations(); |
| |
| // Note that the null check must have been done earlier. |
| DCHECK(!invoke->CanDoImplicitNullCheckOn(invoke->InputAt(0))); |
| |
| CpuRegister argument = locations->InAt(1).AsRegister<CpuRegister>(); |
| __ testl(argument, argument); |
| SlowPathCodeX86_64* slow_path = new (GetAllocator()) IntrinsicSlowPathX86_64(invoke); |
| codegen_->AddSlowPath(slow_path); |
| __ j(kEqual, slow_path->GetEntryLabel()); |
| |
| __ gs()->call(Address::Absolute( |
| QUICK_ENTRYPOINT_OFFSET(kX86_64WordSize, pStringCompareTo), true)); |
| __ Bind(slow_path->GetExitLabel()); |
| } |
| |
| static void CreateStringIndexOfLocations(HInvoke* invoke, |
| ArenaAllocator* allocator, |
| bool start_at_zero) { |
| LocationSummary* locations = new (allocator) LocationSummary(invoke, |
| LocationSummary::kCallOnSlowPath, |
| kIntrinsified); |
| // The data needs to be in RDI for scasw. So request that the string is there, anyways. |
| locations->SetInAt(0, Location::RegisterLocation(RDI)); |
| // If we look for a constant char, we'll still have to copy it into RAX. So just request the |
| // allocator to do that, anyways. We can still do the constant check by checking the parameter |
| // of the instruction explicitly. |
| // Note: This works as we don't clobber RAX anywhere. |
| locations->SetInAt(1, Location::RegisterLocation(RAX)); |
| if (!start_at_zero) { |
| locations->SetInAt(2, Location::RequiresRegister()); // The starting index. |
| } |
| // As we clobber RDI during execution anyways, also use it as the output. |
| locations->SetOut(Location::SameAsFirstInput()); |
| |
| // repne scasw uses RCX as the counter. |
| locations->AddTemp(Location::RegisterLocation(RCX)); |
| // Need another temporary to be able to compute the result. |
| locations->AddTemp(Location::RequiresRegister()); |
| } |
| |
| static void GenerateStringIndexOf(HInvoke* invoke, |
| X86_64Assembler* assembler, |
| CodeGeneratorX86_64* codegen, |
| ArenaAllocator* allocator, |
| bool start_at_zero) { |
| LocationSummary* locations = invoke->GetLocations(); |
| |
| // Note that the null check must have been done earlier. |
| DCHECK(!invoke->CanDoImplicitNullCheckOn(invoke->InputAt(0))); |
| |
| CpuRegister string_obj = locations->InAt(0).AsRegister<CpuRegister>(); |
| CpuRegister search_value = locations->InAt(1).AsRegister<CpuRegister>(); |
| CpuRegister counter = locations->GetTemp(0).AsRegister<CpuRegister>(); |
| CpuRegister string_length = locations->GetTemp(1).AsRegister<CpuRegister>(); |
| CpuRegister out = locations->Out().AsRegister<CpuRegister>(); |
| |
| // Check our assumptions for registers. |
| DCHECK_EQ(string_obj.AsRegister(), RDI); |
| DCHECK_EQ(search_value.AsRegister(), RAX); |
| DCHECK_EQ(counter.AsRegister(), RCX); |
| DCHECK_EQ(out.AsRegister(), RDI); |
| |
| // Check for code points > 0xFFFF. Either a slow-path check when we don't know statically, |
| // or directly dispatch if we have a constant. |
| SlowPathCodeX86_64* slow_path = nullptr; |
| if (invoke->InputAt(1)->IsIntConstant()) { |
| if (static_cast<uint32_t>(invoke->InputAt(1)->AsIntConstant()->GetValue()) > |
| std::numeric_limits<uint16_t>::max()) { |
| // 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) IntrinsicSlowPathX86_64(invoke); |
| codegen->AddSlowPath(slow_path); |
| __ jmp(slow_path->GetEntryLabel()); |
| __ Bind(slow_path->GetExitLabel()); |
| return; |
| } |
| } else { |
| __ cmpl(search_value, Immediate(std::numeric_limits<uint16_t>::max())); |
| slow_path = new (allocator) IntrinsicSlowPathX86_64(invoke); |
| codegen->AddSlowPath(slow_path); |
| __ j(kAbove, slow_path->GetEntryLabel()); |
| } |
| |
| // From here down, we know that we are looking for a char that fits in 16 bits. |
| // Location of reference to data array within the String object. |
| int32_t value_offset = mirror::String::ValueOffset().Int32Value(); |
| // Location of count within the String object. |
| int32_t count_offset = mirror::String::CountOffset().Int32Value(); |
| |
| // Load string length, i.e., the count field of the string. |
| __ movl(string_length, Address(string_obj, count_offset)); |
| |
| // Do a length check. |
| // TODO: Support jecxz. |
| Label not_found_label; |
| __ testl(string_length, string_length); |
| __ j(kEqual, ¬_found_label); |
| |
| if (start_at_zero) { |
| // Number of chars to scan is the same as the string length. |
| __ movl(counter, string_length); |
| |
| // Move to the start of the string. |
| __ addq(string_obj, Immediate(value_offset)); |
| } else { |
| CpuRegister start_index = locations->InAt(2).AsRegister<CpuRegister>(); |
| |
| // Do a start_index check. |
| __ cmpl(start_index, string_length); |
| __ j(kGreaterEqual, ¬_found_label); |
| |
| // Ensure we have a start index >= 0; |
| __ xorl(counter, counter); |
| __ cmpl(start_index, Immediate(0)); |
| __ cmov(kGreater, counter, start_index, false); // 32-bit copy is enough. |
| |
| // Move to the start of the string: string_obj + value_offset + 2 * start_index. |
| __ leaq(string_obj, Address(string_obj, counter, ScaleFactor::TIMES_2, value_offset)); |
| |
| // Now update ecx, the work counter: it's gonna be string.length - start_index. |
| __ negq(counter); // Needs to be 64-bit negation, as the address computation is 64-bit. |
| __ leaq(counter, Address(string_length, counter, ScaleFactor::TIMES_1, 0)); |
| } |
| |
| // Everything is set up for repne scasw: |
| // * Comparison address in RDI. |
| // * Counter in ECX. |
| __ repne_scasw(); |
| |
| // Did we find a match? |
| __ j(kNotEqual, ¬_found_label); |
| |
| // Yes, we matched. Compute the index of the result. |
| __ subl(string_length, counter); |
| __ leal(out, Address(string_length, -1)); |
| |
| Label done; |
| __ jmp(&done); |
| |
| // Failed to match; return -1. |
| __ Bind(¬_found_label); |
| __ movl(out, Immediate(-1)); |
| |
| // And join up at the end. |
| __ Bind(&done); |
| if (slow_path != nullptr) { |
| __ Bind(slow_path->GetExitLabel()); |
| } |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitStringIndexOf(HInvoke* invoke) { |
| CreateStringIndexOfLocations(invoke, arena_, true); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitStringIndexOf(HInvoke* invoke) { |
| GenerateStringIndexOf(invoke, GetAssembler(), codegen_, GetAllocator(), true); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitStringIndexOfAfter(HInvoke* invoke) { |
| CreateStringIndexOfLocations(invoke, arena_, false); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitStringIndexOfAfter(HInvoke* invoke) { |
| GenerateStringIndexOf(invoke, GetAssembler(), codegen_, GetAllocator(), false); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitStringNewStringFromBytes(HInvoke* invoke) { |
| 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->SetInAt(2, Location::RegisterLocation(calling_convention.GetRegisterAt(2))); |
| locations->SetInAt(3, Location::RegisterLocation(calling_convention.GetRegisterAt(3))); |
| locations->SetOut(Location::RegisterLocation(RAX)); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitStringNewStringFromBytes(HInvoke* invoke) { |
| X86_64Assembler* assembler = GetAssembler(); |
| LocationSummary* locations = invoke->GetLocations(); |
| |
| CpuRegister byte_array = locations->InAt(0).AsRegister<CpuRegister>(); |
| __ testl(byte_array, byte_array); |
| SlowPathCodeX86_64* slow_path = new (GetAllocator()) IntrinsicSlowPathX86_64(invoke); |
| codegen_->AddSlowPath(slow_path); |
| __ j(kEqual, slow_path->GetEntryLabel()); |
| |
| __ gs()->call(Address::Absolute( |
| QUICK_ENTRYPOINT_OFFSET(kX86_64WordSize, pAllocStringFromBytes), true)); |
| codegen_->RecordPcInfo(invoke, invoke->GetDexPc()); |
| __ Bind(slow_path->GetExitLabel()); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitStringNewStringFromChars(HInvoke* invoke) { |
| 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->SetInAt(2, Location::RegisterLocation(calling_convention.GetRegisterAt(2))); |
| locations->SetOut(Location::RegisterLocation(RAX)); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitStringNewStringFromChars(HInvoke* invoke) { |
| X86_64Assembler* assembler = GetAssembler(); |
| |
| __ gs()->call(Address::Absolute( |
| QUICK_ENTRYPOINT_OFFSET(kX86_64WordSize, pAllocStringFromChars), true)); |
| codegen_->RecordPcInfo(invoke, invoke->GetDexPc()); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitStringNewStringFromString(HInvoke* invoke) { |
| LocationSummary* locations = new (arena_) LocationSummary(invoke, |
| LocationSummary::kCall, |
| kIntrinsified); |
| InvokeRuntimeCallingConvention calling_convention; |
| locations->SetInAt(0, Location::RegisterLocation(calling_convention.GetRegisterAt(0))); |
| locations->SetOut(Location::RegisterLocation(RAX)); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitStringNewStringFromString(HInvoke* invoke) { |
| X86_64Assembler* assembler = GetAssembler(); |
| LocationSummary* locations = invoke->GetLocations(); |
| |
| CpuRegister string_to_copy = locations->InAt(0).AsRegister<CpuRegister>(); |
| __ testl(string_to_copy, string_to_copy); |
| SlowPathCodeX86_64* slow_path = new (GetAllocator()) IntrinsicSlowPathX86_64(invoke); |
| codegen_->AddSlowPath(slow_path); |
| __ j(kEqual, slow_path->GetEntryLabel()); |
| |
| __ gs()->call(Address::Absolute( |
| QUICK_ENTRYPOINT_OFFSET(kX86_64WordSize, pAllocStringFromString), true)); |
| codegen_->RecordPcInfo(invoke, invoke->GetDexPc()); |
| __ Bind(slow_path->GetExitLabel()); |
| } |
| |
| static void GenPeek(LocationSummary* locations, Primitive::Type size, X86_64Assembler* assembler) { |
| CpuRegister address = locations->InAt(0).AsRegister<CpuRegister>(); |
| CpuRegister out = locations->Out().AsRegister<CpuRegister>(); // == address, here for clarity. |
| // x86 allows unaligned access. We do not have to check the input or use specific instructions |
| // to avoid a SIGBUS. |
| switch (size) { |
| case Primitive::kPrimByte: |
| __ movsxb(out, Address(address, 0)); |
| break; |
| case Primitive::kPrimShort: |
| __ movsxw(out, Address(address, 0)); |
| break; |
| case Primitive::kPrimInt: |
| __ movl(out, Address(address, 0)); |
| break; |
| case Primitive::kPrimLong: |
| __ movq(out, Address(address, 0)); |
| break; |
| default: |
| LOG(FATAL) << "Type not recognized for peek: " << size; |
| UNREACHABLE(); |
| } |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitMemoryPeekByte(HInvoke* invoke) { |
| CreateIntToIntLocations(arena_, invoke); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitMemoryPeekByte(HInvoke* invoke) { |
| GenPeek(invoke->GetLocations(), Primitive::kPrimByte, GetAssembler()); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitMemoryPeekIntNative(HInvoke* invoke) { |
| CreateIntToIntLocations(arena_, invoke); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitMemoryPeekIntNative(HInvoke* invoke) { |
| GenPeek(invoke->GetLocations(), Primitive::kPrimInt, GetAssembler()); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitMemoryPeekLongNative(HInvoke* invoke) { |
| CreateIntToIntLocations(arena_, invoke); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitMemoryPeekLongNative(HInvoke* invoke) { |
| GenPeek(invoke->GetLocations(), Primitive::kPrimLong, GetAssembler()); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitMemoryPeekShortNative(HInvoke* invoke) { |
| CreateIntToIntLocations(arena_, invoke); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitMemoryPeekShortNative(HInvoke* invoke) { |
| GenPeek(invoke->GetLocations(), Primitive::kPrimShort, GetAssembler()); |
| } |
| |
| 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::RegisterOrInt32LongConstant(invoke->InputAt(1))); |
| } |
| |
| static void GenPoke(LocationSummary* locations, Primitive::Type size, X86_64Assembler* assembler) { |
| CpuRegister address = locations->InAt(0).AsRegister<CpuRegister>(); |
| Location value = locations->InAt(1); |
| // x86 allows unaligned access. We do not have to check the input or use specific instructions |
| // to avoid a SIGBUS. |
| switch (size) { |
| case Primitive::kPrimByte: |
| if (value.IsConstant()) { |
| __ movb(Address(address, 0), |
| Immediate(CodeGenerator::GetInt32ValueOf(value.GetConstant()))); |
| } else { |
| __ movb(Address(address, 0), value.AsRegister<CpuRegister>()); |
| } |
| break; |
| case Primitive::kPrimShort: |
| if (value.IsConstant()) { |
| __ movw(Address(address, 0), |
| Immediate(CodeGenerator::GetInt32ValueOf(value.GetConstant()))); |
| } else { |
| __ movw(Address(address, 0), value.AsRegister<CpuRegister>()); |
| } |
| break; |
| case Primitive::kPrimInt: |
| if (value.IsConstant()) { |
| __ movl(Address(address, 0), |
| Immediate(CodeGenerator::GetInt32ValueOf(value.GetConstant()))); |
| } else { |
| __ movl(Address(address, 0), value.AsRegister<CpuRegister>()); |
| } |
| break; |
| case Primitive::kPrimLong: |
| if (value.IsConstant()) { |
| int64_t v = value.GetConstant()->AsLongConstant()->GetValue(); |
| DCHECK(IsInt<32>(v)); |
| int32_t v_32 = v; |
| __ movq(Address(address, 0), Immediate(v_32)); |
| } else { |
| __ movq(Address(address, 0), value.AsRegister<CpuRegister>()); |
| } |
| break; |
| default: |
| LOG(FATAL) << "Type not recognized for poke: " << size; |
| UNREACHABLE(); |
| } |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitMemoryPokeByte(HInvoke* invoke) { |
| CreateIntIntToVoidLocations(arena_, invoke); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitMemoryPokeByte(HInvoke* invoke) { |
| GenPoke(invoke->GetLocations(), Primitive::kPrimByte, GetAssembler()); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitMemoryPokeIntNative(HInvoke* invoke) { |
| CreateIntIntToVoidLocations(arena_, invoke); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitMemoryPokeIntNative(HInvoke* invoke) { |
| GenPoke(invoke->GetLocations(), Primitive::kPrimInt, GetAssembler()); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitMemoryPokeLongNative(HInvoke* invoke) { |
| CreateIntIntToVoidLocations(arena_, invoke); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitMemoryPokeLongNative(HInvoke* invoke) { |
| GenPoke(invoke->GetLocations(), Primitive::kPrimLong, GetAssembler()); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitMemoryPokeShortNative(HInvoke* invoke) { |
| CreateIntIntToVoidLocations(arena_, invoke); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitMemoryPokeShortNative(HInvoke* invoke) { |
| GenPoke(invoke->GetLocations(), Primitive::kPrimShort, GetAssembler()); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitThreadCurrentThread(HInvoke* invoke) { |
| LocationSummary* locations = new (arena_) LocationSummary(invoke, |
| LocationSummary::kNoCall, |
| kIntrinsified); |
| locations->SetOut(Location::RequiresRegister()); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitThreadCurrentThread(HInvoke* invoke) { |
| CpuRegister out = invoke->GetLocations()->Out().AsRegister<CpuRegister>(); |
| GetAssembler()->gs()->movl(out, Address::Absolute(Thread::PeerOffset<kX86_64WordSize>(), true)); |
| } |
| |
| static void GenUnsafeGet(LocationSummary* locations, Primitive::Type type, |
| bool is_volatile ATTRIBUTE_UNUSED, X86_64Assembler* assembler) { |
| CpuRegister base = locations->InAt(1).AsRegister<CpuRegister>(); |
| CpuRegister offset = locations->InAt(2).AsRegister<CpuRegister>(); |
| CpuRegister trg = locations->Out().AsRegister<CpuRegister>(); |
| |
| switch (type) { |
| case Primitive::kPrimInt: |
| case Primitive::kPrimNot: |
| __ movl(trg, Address(base, offset, ScaleFactor::TIMES_1, 0)); |
| break; |
| |
| case Primitive::kPrimLong: |
| __ movq(trg, Address(base, offset, ScaleFactor::TIMES_1, 0)); |
| break; |
| |
| default: |
| LOG(FATAL) << "Unsupported op size " << type; |
| UNREACHABLE(); |
| } |
| } |
| |
| 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()); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitUnsafeGet(HInvoke* invoke) { |
| CreateIntIntIntToIntLocations(arena_, invoke); |
| } |
| void IntrinsicLocationsBuilderX86_64::VisitUnsafeGetVolatile(HInvoke* invoke) { |
| CreateIntIntIntToIntLocations(arena_, invoke); |
| } |
| void IntrinsicLocationsBuilderX86_64::VisitUnsafeGetLong(HInvoke* invoke) { |
| CreateIntIntIntToIntLocations(arena_, invoke); |
| } |
| void IntrinsicLocationsBuilderX86_64::VisitUnsafeGetLongVolatile(HInvoke* invoke) { |
| CreateIntIntIntToIntLocations(arena_, invoke); |
| } |
| void IntrinsicLocationsBuilderX86_64::VisitUnsafeGetObject(HInvoke* invoke) { |
| CreateIntIntIntToIntLocations(arena_, invoke); |
| } |
| void IntrinsicLocationsBuilderX86_64::VisitUnsafeGetObjectVolatile(HInvoke* invoke) { |
| CreateIntIntIntToIntLocations(arena_, invoke); |
| } |
| |
| |
| void IntrinsicCodeGeneratorX86_64::VisitUnsafeGet(HInvoke* invoke) { |
| GenUnsafeGet(invoke->GetLocations(), Primitive::kPrimInt, false, GetAssembler()); |
| } |
| void IntrinsicCodeGeneratorX86_64::VisitUnsafeGetVolatile(HInvoke* invoke) { |
| GenUnsafeGet(invoke->GetLocations(), Primitive::kPrimInt, true, GetAssembler()); |
| } |
| void IntrinsicCodeGeneratorX86_64::VisitUnsafeGetLong(HInvoke* invoke) { |
| GenUnsafeGet(invoke->GetLocations(), Primitive::kPrimLong, false, GetAssembler()); |
| } |
| void IntrinsicCodeGeneratorX86_64::VisitUnsafeGetLongVolatile(HInvoke* invoke) { |
| GenUnsafeGet(invoke->GetLocations(), Primitive::kPrimLong, true, GetAssembler()); |
| } |
| void IntrinsicCodeGeneratorX86_64::VisitUnsafeGetObject(HInvoke* invoke) { |
| GenUnsafeGet(invoke->GetLocations(), Primitive::kPrimNot, false, GetAssembler()); |
| } |
| void IntrinsicCodeGeneratorX86_64::VisitUnsafeGetObjectVolatile(HInvoke* invoke) { |
| GenUnsafeGet(invoke->GetLocations(), Primitive::kPrimNot, true, GetAssembler()); |
| } |
| |
| |
| static void CreateIntIntIntIntToVoidPlusTempsLocations(ArenaAllocator* arena, |
| Primitive::Type type, |
| 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::kPrimNot) { |
| // Need temp registers for card-marking. |
| locations->AddTemp(Location::RequiresRegister()); |
| locations->AddTemp(Location::RequiresRegister()); |
| } |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitUnsafePut(HInvoke* invoke) { |
| CreateIntIntIntIntToVoidPlusTempsLocations(arena_, Primitive::kPrimInt, invoke); |
| } |
| void IntrinsicLocationsBuilderX86_64::VisitUnsafePutOrdered(HInvoke* invoke) { |
| CreateIntIntIntIntToVoidPlusTempsLocations(arena_, Primitive::kPrimInt, invoke); |
| } |
| void IntrinsicLocationsBuilderX86_64::VisitUnsafePutVolatile(HInvoke* invoke) { |
| CreateIntIntIntIntToVoidPlusTempsLocations(arena_, Primitive::kPrimInt, invoke); |
| } |
| void IntrinsicLocationsBuilderX86_64::VisitUnsafePutObject(HInvoke* invoke) { |
| CreateIntIntIntIntToVoidPlusTempsLocations(arena_, Primitive::kPrimNot, invoke); |
| } |
| void IntrinsicLocationsBuilderX86_64::VisitUnsafePutObjectOrdered(HInvoke* invoke) { |
| CreateIntIntIntIntToVoidPlusTempsLocations(arena_, Primitive::kPrimNot, invoke); |
| } |
| void IntrinsicLocationsBuilderX86_64::VisitUnsafePutObjectVolatile(HInvoke* invoke) { |
| CreateIntIntIntIntToVoidPlusTempsLocations(arena_, Primitive::kPrimNot, invoke); |
| } |
| void IntrinsicLocationsBuilderX86_64::VisitUnsafePutLong(HInvoke* invoke) { |
| CreateIntIntIntIntToVoidPlusTempsLocations(arena_, Primitive::kPrimLong, invoke); |
| } |
| void IntrinsicLocationsBuilderX86_64::VisitUnsafePutLongOrdered(HInvoke* invoke) { |
| CreateIntIntIntIntToVoidPlusTempsLocations(arena_, Primitive::kPrimLong, invoke); |
| } |
| void IntrinsicLocationsBuilderX86_64::VisitUnsafePutLongVolatile(HInvoke* invoke) { |
| CreateIntIntIntIntToVoidPlusTempsLocations(arena_, Primitive::kPrimLong, invoke); |
| } |
| |
| // We don't care for ordered: it requires an AnyStore barrier, which is already given by the x86 |
| // memory model. |
| static void GenUnsafePut(LocationSummary* locations, Primitive::Type type, bool is_volatile, |
| CodeGeneratorX86_64* codegen) { |
| X86_64Assembler* assembler = reinterpret_cast<X86_64Assembler*>(codegen->GetAssembler()); |
| CpuRegister base = locations->InAt(1).AsRegister<CpuRegister>(); |
| CpuRegister offset = locations->InAt(2).AsRegister<CpuRegister>(); |
| CpuRegister value = locations->InAt(3).AsRegister<CpuRegister>(); |
| |
| if (type == Primitive::kPrimLong) { |
| __ movq(Address(base, offset, ScaleFactor::TIMES_1, 0), value); |
| } else { |
| __ movl(Address(base, offset, ScaleFactor::TIMES_1, 0), value); |
| } |
| |
| if (is_volatile) { |
| __ mfence(); |
| } |
| |
| if (type == Primitive::kPrimNot) { |
| bool value_can_be_null = true; // TODO: Worth finding out this information? |
| codegen->MarkGCCard(locations->GetTemp(0).AsRegister<CpuRegister>(), |
| locations->GetTemp(1).AsRegister<CpuRegister>(), |
| base, |
| value, |
| value_can_be_null); |
| } |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitUnsafePut(HInvoke* invoke) { |
| GenUnsafePut(invoke->GetLocations(), Primitive::kPrimInt, false, codegen_); |
| } |
| void IntrinsicCodeGeneratorX86_64::VisitUnsafePutOrdered(HInvoke* invoke) { |
| GenUnsafePut(invoke->GetLocations(), Primitive::kPrimInt, false, codegen_); |
| } |
| void IntrinsicCodeGeneratorX86_64::VisitUnsafePutVolatile(HInvoke* invoke) { |
| GenUnsafePut(invoke->GetLocations(), Primitive::kPrimInt, true, codegen_); |
| } |
| void IntrinsicCodeGeneratorX86_64::VisitUnsafePutObject(HInvoke* invoke) { |
| GenUnsafePut(invoke->GetLocations(), Primitive::kPrimNot, false, codegen_); |
| } |
| void IntrinsicCodeGeneratorX86_64::VisitUnsafePutObjectOrdered(HInvoke* invoke) { |
| GenUnsafePut(invoke->GetLocations(), Primitive::kPrimNot, false, codegen_); |
| } |
| void IntrinsicCodeGeneratorX86_64::VisitUnsafePutObjectVolatile(HInvoke* invoke) { |
| GenUnsafePut(invoke->GetLocations(), Primitive::kPrimNot, true, codegen_); |
| } |
| void IntrinsicCodeGeneratorX86_64::VisitUnsafePutLong(HInvoke* invoke) { |
| GenUnsafePut(invoke->GetLocations(), Primitive::kPrimLong, false, codegen_); |
| } |
| void IntrinsicCodeGeneratorX86_64::VisitUnsafePutLongOrdered(HInvoke* invoke) { |
| GenUnsafePut(invoke->GetLocations(), Primitive::kPrimLong, false, codegen_); |
| } |
| void IntrinsicCodeGeneratorX86_64::VisitUnsafePutLongVolatile(HInvoke* invoke) { |
| GenUnsafePut(invoke->GetLocations(), Primitive::kPrimLong, true, codegen_); |
| } |
| |
| static void CreateIntIntIntIntIntToInt(ArenaAllocator* arena, Primitive::Type type, |
| 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()); |
| // expected value must be in EAX/RAX. |
| locations->SetInAt(3, Location::RegisterLocation(RAX)); |
| locations->SetInAt(4, Location::RequiresRegister()); |
| |
| locations->SetOut(Location::RequiresRegister()); |
| if (type == Primitive::kPrimNot) { |
| // Need temp registers for card-marking. |
| locations->AddTemp(Location::RequiresRegister()); |
| locations->AddTemp(Location::RequiresRegister()); |
| } |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitUnsafeCASInt(HInvoke* invoke) { |
| CreateIntIntIntIntIntToInt(arena_, Primitive::kPrimInt, invoke); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitUnsafeCASLong(HInvoke* invoke) { |
| CreateIntIntIntIntIntToInt(arena_, Primitive::kPrimLong, invoke); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitUnsafeCASObject(HInvoke* invoke) { |
| CreateIntIntIntIntIntToInt(arena_, Primitive::kPrimNot, invoke); |
| } |
| |
| static void GenCAS(Primitive::Type type, HInvoke* invoke, CodeGeneratorX86_64* codegen) { |
| X86_64Assembler* assembler = |
| reinterpret_cast<X86_64Assembler*>(codegen->GetAssembler()); |
| LocationSummary* locations = invoke->GetLocations(); |
| |
| CpuRegister base = locations->InAt(1).AsRegister<CpuRegister>(); |
| CpuRegister offset = locations->InAt(2).AsRegister<CpuRegister>(); |
| CpuRegister expected = locations->InAt(3).AsRegister<CpuRegister>(); |
| DCHECK_EQ(expected.AsRegister(), RAX); |
| CpuRegister value = locations->InAt(4).AsRegister<CpuRegister>(); |
| CpuRegister out = locations->Out().AsRegister<CpuRegister>(); |
| |
| if (type == Primitive::kPrimLong) { |
| __ LockCmpxchgq(Address(base, offset, TIMES_1, 0), value); |
| } else { |
| // Integer or object. |
| if (type == Primitive::kPrimNot) { |
| // Mark card for object assuming new value is stored. |
| bool value_can_be_null = true; // TODO: Worth finding out this information? |
| codegen->MarkGCCard(locations->GetTemp(0).AsRegister<CpuRegister>(), |
| locations->GetTemp(1).AsRegister<CpuRegister>(), |
| base, |
| value, |
| value_can_be_null); |
| } |
| |
| __ LockCmpxchgl(Address(base, offset, TIMES_1, 0), value); |
| } |
| |
| // locked cmpxchg has full barrier semantics, and we don't need scheduling |
| // barriers at this time. |
| |
| // Convert ZF into the boolean result. |
| __ setcc(kZero, out); |
| __ movzxb(out, out); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitUnsafeCASInt(HInvoke* invoke) { |
| GenCAS(Primitive::kPrimInt, invoke, codegen_); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitUnsafeCASLong(HInvoke* invoke) { |
| GenCAS(Primitive::kPrimLong, invoke, codegen_); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitUnsafeCASObject(HInvoke* invoke) { |
| GenCAS(Primitive::kPrimNot, invoke, codegen_); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitIntegerReverse(HInvoke* invoke) { |
| LocationSummary* locations = new (arena_) LocationSummary(invoke, |
| LocationSummary::kNoCall, |
| kIntrinsified); |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetOut(Location::SameAsFirstInput()); |
| locations->AddTemp(Location::RequiresRegister()); |
| } |
| |
| static void SwapBits(CpuRegister reg, CpuRegister temp, int32_t shift, int32_t mask, |
| X86_64Assembler* assembler) { |
| Immediate imm_shift(shift); |
| Immediate imm_mask(mask); |
| __ movl(temp, reg); |
| __ shrl(reg, imm_shift); |
| __ andl(temp, imm_mask); |
| __ andl(reg, imm_mask); |
| __ shll(temp, imm_shift); |
| __ orl(reg, temp); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitIntegerReverse(HInvoke* invoke) { |
| X86_64Assembler* assembler = |
| reinterpret_cast<X86_64Assembler*>(codegen_->GetAssembler()); |
| LocationSummary* locations = invoke->GetLocations(); |
| |
| CpuRegister reg = locations->InAt(0).AsRegister<CpuRegister>(); |
| CpuRegister temp = locations->GetTemp(0).AsRegister<CpuRegister>(); |
| |
| /* |
| * Use one bswap instruction to reverse byte order first and then use 3 rounds of |
| * swapping bits to reverse bits in a number x. Using bswap to save instructions |
| * compared to generic luni implementation which has 5 rounds of swapping bits. |
| * x = bswap x |
| * x = (x & 0x55555555) << 1 | (x >> 1) & 0x55555555; |
| * x = (x & 0x33333333) << 2 | (x >> 2) & 0x33333333; |
| * x = (x & 0x0F0F0F0F) << 4 | (x >> 4) & 0x0F0F0F0F; |
| */ |
| __ bswapl(reg); |
| SwapBits(reg, temp, 1, 0x55555555, assembler); |
| SwapBits(reg, temp, 2, 0x33333333, assembler); |
| SwapBits(reg, temp, 4, 0x0f0f0f0f, assembler); |
| } |
| |
| void IntrinsicLocationsBuilderX86_64::VisitLongReverse(HInvoke* invoke) { |
| LocationSummary* locations = new (arena_) LocationSummary(invoke, |
| LocationSummary::kNoCall, |
| kIntrinsified); |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetOut(Location::SameAsFirstInput()); |
| locations->AddTemp(Location::RequiresRegister()); |
| locations->AddTemp(Location::RequiresRegister()); |
| } |
| |
| static void SwapBits64(CpuRegister reg, CpuRegister temp, CpuRegister temp_mask, |
| int32_t shift, int64_t mask, X86_64Assembler* assembler) { |
| Immediate imm_shift(shift); |
| __ movq(temp_mask, Immediate(mask)); |
| __ movq(temp, reg); |
| __ shrq(reg, imm_shift); |
| __ andq(temp, temp_mask); |
| __ andq(reg, temp_mask); |
| __ shlq(temp, imm_shift); |
| __ orq(reg, temp); |
| } |
| |
| void IntrinsicCodeGeneratorX86_64::VisitLongReverse(HInvoke* invoke) { |
| X86_64Assembler* assembler = |
| reinterpret_cast<X86_64Assembler*>(codegen_->GetAssembler()); |
| LocationSummary* locations = invoke->GetLocations(); |
| |
| CpuRegister reg = locations->InAt(0).AsRegister<CpuRegister>(); |
| CpuRegister temp1 = locations->GetTemp(0).AsRegister<CpuRegister>(); |
| CpuRegister temp2 = locations->GetTemp(1).AsRegister<CpuRegister>(); |
| |
| /* |
| * Use one bswap instruction to reverse byte order first and then use 3 rounds of |
| * swapping bits to reverse bits in a long number x. Using bswap to save instructions |
| * compared to generic luni implementation which has 5 rounds of swapping bits. |
| * x = bswap x |
| * x = (x & 0x5555555555555555) << 1 | (x >> 1) & 0x5555555555555555; |
| * x = (x & 0x3333333333333333) << 2 | (x >> 2) & 0x3333333333333333; |
| * x = (x & 0x0F0F0F0F0F0F0F0F) << 4 | (x >> 4) & 0x0F0F0F0F0F0F0F0F; |
| */ |
| __ bswapq(reg); |
| SwapBits64(reg, temp1, temp2, 1, INT64_C(0x5555555555555555), assembler); |
| SwapBits64(reg, temp1, temp2, 2, INT64_C(0x3333333333333333), assembler); |
| SwapBits64(reg, temp1, temp2, 4, INT64_C(0x0f0f0f0f0f0f0f0f), assembler); |
| } |
| |
| // Unimplemented intrinsics. |
| |
| #define UNIMPLEMENTED_INTRINSIC(Name) \ |
| void IntrinsicLocationsBuilderX86_64::Visit ## Name(HInvoke* invoke ATTRIBUTE_UNUSED) { \ |
| } \ |
| void IntrinsicCodeGeneratorX86_64::Visit ## Name(HInvoke* invoke ATTRIBUTE_UNUSED) { \ |
| } |
| |
| UNIMPLEMENTED_INTRINSIC(StringGetCharsNoCheck) |
| UNIMPLEMENTED_INTRINSIC(SystemArrayCopyChar) |
| UNIMPLEMENTED_INTRINSIC(ReferenceGetReferent) |
| |
| } // namespace x86_64 |
| } // namespace art |