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758 lines
31 KiB
758 lines
31 KiB
/*
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* Copyright (C) 2014 The Android Open Source Project
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#ifndef ART_COMPILER_OPTIMIZING_CODE_GENERATOR_X86_H_
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#define ART_COMPILER_OPTIMIZING_CODE_GENERATOR_X86_H_
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#include "arch/x86/instruction_set_features_x86.h"
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#include "base/enums.h"
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#include "code_generator.h"
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#include "dex/dex_file_types.h"
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#include "driver/compiler_options.h"
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#include "nodes.h"
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#include "parallel_move_resolver.h"
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#include "utils/x86/assembler_x86.h"
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namespace art {
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namespace x86 {
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// Use a local definition to prevent copying mistakes.
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static constexpr size_t kX86WordSize = static_cast<size_t>(kX86PointerSize);
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class CodeGeneratorX86;
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static constexpr Register kParameterCoreRegisters[] = { ECX, EDX, EBX };
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static constexpr RegisterPair kParameterCorePairRegisters[] = { ECX_EDX, EDX_EBX };
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static constexpr size_t kParameterCoreRegistersLength = arraysize(kParameterCoreRegisters);
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static constexpr XmmRegister kParameterFpuRegisters[] = { XMM0, XMM1, XMM2, XMM3 };
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static constexpr size_t kParameterFpuRegistersLength = arraysize(kParameterFpuRegisters);
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static constexpr Register kRuntimeParameterCoreRegisters[] = { EAX, ECX, EDX, EBX };
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static constexpr size_t kRuntimeParameterCoreRegistersLength =
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arraysize(kRuntimeParameterCoreRegisters);
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static constexpr XmmRegister kRuntimeParameterFpuRegisters[] = { XMM0, XMM1, XMM2, XMM3 };
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static constexpr size_t kRuntimeParameterFpuRegistersLength =
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arraysize(kRuntimeParameterFpuRegisters);
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class InvokeRuntimeCallingConvention : public CallingConvention<Register, XmmRegister> {
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public:
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InvokeRuntimeCallingConvention()
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: CallingConvention(kRuntimeParameterCoreRegisters,
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kRuntimeParameterCoreRegistersLength,
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kRuntimeParameterFpuRegisters,
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kRuntimeParameterFpuRegistersLength,
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kX86PointerSize) {}
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private:
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DISALLOW_COPY_AND_ASSIGN(InvokeRuntimeCallingConvention);
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};
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class InvokeDexCallingConvention : public CallingConvention<Register, XmmRegister> {
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public:
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InvokeDexCallingConvention() : CallingConvention(
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kParameterCoreRegisters,
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kParameterCoreRegistersLength,
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kParameterFpuRegisters,
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kParameterFpuRegistersLength,
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kX86PointerSize) {}
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RegisterPair GetRegisterPairAt(size_t argument_index) {
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DCHECK_LT(argument_index + 1, GetNumberOfRegisters());
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return kParameterCorePairRegisters[argument_index];
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}
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private:
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DISALLOW_COPY_AND_ASSIGN(InvokeDexCallingConvention);
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};
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class InvokeDexCallingConventionVisitorX86 : public InvokeDexCallingConventionVisitor {
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public:
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InvokeDexCallingConventionVisitorX86() {}
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virtual ~InvokeDexCallingConventionVisitorX86() {}
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Location GetNextLocation(DataType::Type type) override;
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Location GetReturnLocation(DataType::Type type) const override;
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Location GetMethodLocation() const override;
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private:
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InvokeDexCallingConvention calling_convention;
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DISALLOW_COPY_AND_ASSIGN(InvokeDexCallingConventionVisitorX86);
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};
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class CriticalNativeCallingConventionVisitorX86 : public InvokeDexCallingConventionVisitor {
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public:
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explicit CriticalNativeCallingConventionVisitorX86(bool for_register_allocation)
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: for_register_allocation_(for_register_allocation) {}
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virtual ~CriticalNativeCallingConventionVisitorX86() {}
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Location GetNextLocation(DataType::Type type) override;
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Location GetReturnLocation(DataType::Type type) const override;
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Location GetMethodLocation() const override;
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size_t GetStackOffset() const { return stack_offset_; }
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private:
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// Register allocator does not support adjusting frame size, so we cannot provide final locations
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// of stack arguments for register allocation. We ask the register allocator for any location and
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// move these arguments to the right place after adjusting the SP when generating the call.
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const bool for_register_allocation_;
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size_t stack_offset_ = 0u;
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DISALLOW_COPY_AND_ASSIGN(CriticalNativeCallingConventionVisitorX86);
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};
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class FieldAccessCallingConventionX86 : public FieldAccessCallingConvention {
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public:
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FieldAccessCallingConventionX86() {}
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Location GetObjectLocation() const override {
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return Location::RegisterLocation(ECX);
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}
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Location GetFieldIndexLocation() const override {
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return Location::RegisterLocation(EAX);
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}
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Location GetReturnLocation(DataType::Type type) const override {
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return DataType::Is64BitType(type)
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? Location::RegisterPairLocation(EAX, EDX)
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: Location::RegisterLocation(EAX);
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}
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Location GetSetValueLocation(DataType::Type type, bool is_instance) const override {
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return DataType::Is64BitType(type)
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? (is_instance
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? Location::RegisterPairLocation(EDX, EBX)
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: Location::RegisterPairLocation(ECX, EDX))
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: (is_instance
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? Location::RegisterLocation(EDX)
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: Location::RegisterLocation(ECX));
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}
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Location GetFpuLocation(DataType::Type type ATTRIBUTE_UNUSED) const override {
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return Location::FpuRegisterLocation(XMM0);
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}
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private:
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DISALLOW_COPY_AND_ASSIGN(FieldAccessCallingConventionX86);
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};
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class ParallelMoveResolverX86 : public ParallelMoveResolverWithSwap {
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public:
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ParallelMoveResolverX86(ArenaAllocator* allocator, CodeGeneratorX86* codegen)
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: ParallelMoveResolverWithSwap(allocator), codegen_(codegen) {}
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void EmitMove(size_t index) override;
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void EmitSwap(size_t index) override;
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void SpillScratch(int reg) override;
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void RestoreScratch(int reg) override;
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X86Assembler* GetAssembler() const;
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private:
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void Exchange(Register reg, int mem);
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void Exchange32(XmmRegister reg, int mem);
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void Exchange128(XmmRegister reg, int mem);
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void ExchangeMemory(int mem1, int mem2, int number_of_words);
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void MoveMemoryToMemory(int dst, int src, int number_of_words);
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CodeGeneratorX86* const codegen_;
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DISALLOW_COPY_AND_ASSIGN(ParallelMoveResolverX86);
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};
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class LocationsBuilderX86 : public HGraphVisitor {
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public:
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LocationsBuilderX86(HGraph* graph, CodeGeneratorX86* codegen)
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: HGraphVisitor(graph), codegen_(codegen) {}
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#define DECLARE_VISIT_INSTRUCTION(name, super) \
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void Visit##name(H##name* instr) override;
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FOR_EACH_CONCRETE_INSTRUCTION_COMMON(DECLARE_VISIT_INSTRUCTION)
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FOR_EACH_CONCRETE_INSTRUCTION_X86(DECLARE_VISIT_INSTRUCTION)
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FOR_EACH_CONCRETE_INSTRUCTION_X86_COMMON(DECLARE_VISIT_INSTRUCTION)
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#undef DECLARE_VISIT_INSTRUCTION
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void VisitInstruction(HInstruction* instruction) override {
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LOG(FATAL) << "Unreachable instruction " << instruction->DebugName()
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<< " (id " << instruction->GetId() << ")";
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}
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private:
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void HandleBitwiseOperation(HBinaryOperation* instruction);
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void HandleInvoke(HInvoke* invoke);
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void HandleCondition(HCondition* condition);
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void HandleShift(HBinaryOperation* instruction);
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void HandleFieldSet(HInstruction* instruction, const FieldInfo& field_info);
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void HandleFieldGet(HInstruction* instruction, const FieldInfo& field_info);
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bool CpuHasAvxFeatureFlag();
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bool CpuHasAvx2FeatureFlag();
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CodeGeneratorX86* const codegen_;
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InvokeDexCallingConventionVisitorX86 parameter_visitor_;
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DISALLOW_COPY_AND_ASSIGN(LocationsBuilderX86);
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};
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class InstructionCodeGeneratorX86 : public InstructionCodeGenerator {
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public:
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InstructionCodeGeneratorX86(HGraph* graph, CodeGeneratorX86* codegen);
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#define DECLARE_VISIT_INSTRUCTION(name, super) \
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void Visit##name(H##name* instr) override;
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FOR_EACH_CONCRETE_INSTRUCTION_COMMON(DECLARE_VISIT_INSTRUCTION)
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FOR_EACH_CONCRETE_INSTRUCTION_X86(DECLARE_VISIT_INSTRUCTION)
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FOR_EACH_CONCRETE_INSTRUCTION_X86_COMMON(DECLARE_VISIT_INSTRUCTION)
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#undef DECLARE_VISIT_INSTRUCTION
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void VisitInstruction(HInstruction* instruction) override {
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LOG(FATAL) << "Unreachable instruction " << instruction->DebugName()
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<< " (id " << instruction->GetId() << ")";
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}
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X86Assembler* GetAssembler() const { return assembler_; }
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// The compare/jump sequence will generate about (1.5 * num_entries) instructions. A jump
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// table version generates 7 instructions and num_entries literals. Compare/jump sequence will
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// generates less code/data with a small num_entries.
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static constexpr uint32_t kPackedSwitchJumpTableThreshold = 5;
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// Generate a GC root reference load:
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//
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// root <- *address
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//
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// while honoring read barriers based on read_barrier_option.
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void GenerateGcRootFieldLoad(HInstruction* instruction,
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Location root,
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const Address& address,
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Label* fixup_label,
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ReadBarrierOption read_barrier_option);
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void HandleFieldSet(HInstruction* instruction,
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uint32_t value_index,
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DataType::Type type,
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Address field_addr,
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Register base,
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bool is_volatile,
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bool value_can_be_null);
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private:
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// Generate code for the given suspend check. If not null, `successor`
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// is the block to branch to if the suspend check is not needed, and after
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// the suspend call.
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void GenerateSuspendCheck(HSuspendCheck* check, HBasicBlock* successor);
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void GenerateClassInitializationCheck(SlowPathCode* slow_path, Register class_reg);
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void GenerateBitstringTypeCheckCompare(HTypeCheckInstruction* check, Register temp);
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void HandleBitwiseOperation(HBinaryOperation* instruction);
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void GenerateDivRemIntegral(HBinaryOperation* instruction);
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void DivRemOneOrMinusOne(HBinaryOperation* instruction);
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void DivByPowerOfTwo(HDiv* instruction);
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void RemByPowerOfTwo(HRem* instruction);
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void GenerateDivRemWithAnyConstant(HBinaryOperation* instruction);
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void GenerateRemFP(HRem* rem);
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void HandleCondition(HCondition* condition);
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void HandleShift(HBinaryOperation* instruction);
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void GenerateShlLong(const Location& loc, Register shifter);
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void GenerateShrLong(const Location& loc, Register shifter);
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void GenerateUShrLong(const Location& loc, Register shifter);
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void GenerateShlLong(const Location& loc, int shift);
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void GenerateShrLong(const Location& loc, int shift);
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void GenerateUShrLong(const Location& loc, int shift);
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void GenerateMinMaxInt(LocationSummary* locations, bool is_min, DataType::Type type);
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void GenerateMinMaxFP(LocationSummary* locations, bool is_min, DataType::Type type);
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void GenerateMinMax(HBinaryOperation* minmax, bool is_min);
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void HandleFieldSet(HInstruction* instruction,
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const FieldInfo& field_info,
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bool value_can_be_null);
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void HandleFieldGet(HInstruction* instruction, const FieldInfo& field_info);
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// Generate a heap reference load using one register `out`:
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//
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// out <- *(out + offset)
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//
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// while honoring heap poisoning and/or read barriers (if any).
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//
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// Location `maybe_temp` is used when generating a read barrier and
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// shall be a register in that case; it may be an invalid location
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// otherwise.
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void GenerateReferenceLoadOneRegister(HInstruction* instruction,
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Location out,
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uint32_t offset,
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Location maybe_temp,
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ReadBarrierOption read_barrier_option);
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// Generate a heap reference load using two different registers
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// `out` and `obj`:
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//
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// out <- *(obj + offset)
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//
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// while honoring heap poisoning and/or read barriers (if any).
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//
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// Location `maybe_temp` is used when generating a Baker's (fast
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// path) read barrier and shall be a register in that case; it may
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// be an invalid location otherwise.
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void GenerateReferenceLoadTwoRegisters(HInstruction* instruction,
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Location out,
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Location obj,
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uint32_t offset,
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ReadBarrierOption read_barrier_option);
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// Push value to FPU stack. `is_fp` specifies whether the value is floating point or not.
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// `is_wide` specifies whether it is long/double or not.
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void PushOntoFPStack(Location source, uint32_t temp_offset,
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uint32_t stack_adjustment, bool is_fp, bool is_wide);
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template<class LabelType>
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void GenerateTestAndBranch(HInstruction* instruction,
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size_t condition_input_index,
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LabelType* true_target,
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LabelType* false_target);
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template<class LabelType>
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void GenerateCompareTestAndBranch(HCondition* condition,
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LabelType* true_target,
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LabelType* false_target);
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template<class LabelType>
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void GenerateFPJumps(HCondition* cond, LabelType* true_label, LabelType* false_label);
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template<class LabelType>
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void GenerateLongComparesAndJumps(HCondition* cond,
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LabelType* true_label,
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LabelType* false_label);
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void HandleGoto(HInstruction* got, HBasicBlock* successor);
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void GenPackedSwitchWithCompares(Register value_reg,
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int32_t lower_bound,
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uint32_t num_entries,
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HBasicBlock* switch_block,
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HBasicBlock* default_block);
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void GenerateFPCompare(Location lhs, Location rhs, HInstruction* insn, bool is_double);
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bool CpuHasAvxFeatureFlag();
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bool CpuHasAvx2FeatureFlag();
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X86Assembler* const assembler_;
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CodeGeneratorX86* const codegen_;
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DISALLOW_COPY_AND_ASSIGN(InstructionCodeGeneratorX86);
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};
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class JumpTableRIPFixup;
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class CodeGeneratorX86 : public CodeGenerator {
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public:
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CodeGeneratorX86(HGraph* graph,
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const CompilerOptions& compiler_options,
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OptimizingCompilerStats* stats = nullptr);
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virtual ~CodeGeneratorX86() {}
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void GenerateFrameEntry() override;
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void GenerateFrameExit() override;
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void Bind(HBasicBlock* block) override;
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void MoveConstant(Location destination, int32_t value) override;
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void MoveLocation(Location dst, Location src, DataType::Type dst_type) override;
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void AddLocationAsTemp(Location location, LocationSummary* locations) override;
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size_t SaveCoreRegister(size_t stack_index, uint32_t reg_id) override;
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size_t RestoreCoreRegister(size_t stack_index, uint32_t reg_id) override;
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size_t SaveFloatingPointRegister(size_t stack_index, uint32_t reg_id) override;
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size_t RestoreFloatingPointRegister(size_t stack_index, uint32_t reg_id) override;
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// Generate code to invoke a runtime entry point.
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void InvokeRuntime(QuickEntrypointEnum entrypoint,
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HInstruction* instruction,
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uint32_t dex_pc,
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SlowPathCode* slow_path = nullptr) override;
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// Generate code to invoke a runtime entry point, but do not record
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// PC-related information in a stack map.
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void InvokeRuntimeWithoutRecordingPcInfo(int32_t entry_point_offset,
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HInstruction* instruction,
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SlowPathCode* slow_path);
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void GenerateInvokeRuntime(int32_t entry_point_offset);
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size_t GetWordSize() const override {
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return kX86WordSize;
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}
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size_t GetSlowPathFPWidth() const override {
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return GetGraph()->HasSIMD()
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? GetSIMDRegisterWidth()
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: 2 * kX86WordSize; // 8 bytes == 2 words for each spill
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}
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size_t GetCalleePreservedFPWidth() const override {
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return 2 * kX86WordSize;
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}
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size_t GetSIMDRegisterWidth() const override {
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return 4 * kX86WordSize;
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}
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HGraphVisitor* GetLocationBuilder() override {
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return &location_builder_;
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}
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HGraphVisitor* GetInstructionVisitor() override {
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return &instruction_visitor_;
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}
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X86Assembler* GetAssembler() override {
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return &assembler_;
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}
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const X86Assembler& GetAssembler() const override {
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return assembler_;
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}
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uintptr_t GetAddressOf(HBasicBlock* block) override {
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return GetLabelOf(block)->Position();
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}
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void SetupBlockedRegisters() const override;
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void DumpCoreRegister(std::ostream& stream, int reg) const override;
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void DumpFloatingPointRegister(std::ostream& stream, int reg) const override;
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ParallelMoveResolverX86* GetMoveResolver() override {
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return &move_resolver_;
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}
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InstructionSet GetInstructionSet() const override {
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return InstructionSet::kX86;
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}
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const X86InstructionSetFeatures& GetInstructionSetFeatures() const;
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// Helper method to move a 32bits value between two locations.
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void Move32(Location destination, Location source);
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// Helper method to move a 64bits value between two locations.
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void Move64(Location destination, Location source);
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// Helper method to load a value from an address to a register.
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void LoadFromMemoryNoBarrier(DataType::Type dst_type,
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Location dst,
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Address src,
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XmmRegister temp = kNoXmmRegister,
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bool is_atomic_load = false);
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// Helper method to move a primitive value from a location to an address.
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void MoveToMemory(DataType::Type src_type,
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Location src,
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Register dst_base,
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Register dst_index = Register::kNoRegister,
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ScaleFactor dst_scale = TIMES_1,
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int32_t dst_disp = 0);
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// Check if the desired_string_load_kind is supported. If it is, return it,
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// otherwise return a fall-back kind that should be used instead.
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HLoadString::LoadKind GetSupportedLoadStringKind(
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HLoadString::LoadKind desired_string_load_kind) override;
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// Check if the desired_class_load_kind is supported. If it is, return it,
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// otherwise return a fall-back kind that should be used instead.
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HLoadClass::LoadKind GetSupportedLoadClassKind(
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HLoadClass::LoadKind desired_class_load_kind) override;
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// Check if the desired_dispatch_info is supported. If it is, return it,
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// otherwise return a fall-back info that should be used instead.
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HInvokeStaticOrDirect::DispatchInfo GetSupportedInvokeStaticOrDirectDispatch(
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const HInvokeStaticOrDirect::DispatchInfo& desired_dispatch_info,
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ArtMethod* method) override;
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void LoadMethod(MethodLoadKind load_kind, Location temp, HInvoke* invoke);
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// Generate a call to a static or direct method.
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void GenerateStaticOrDirectCall(
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HInvokeStaticOrDirect* invoke, Location temp, SlowPathCode* slow_path = nullptr) override;
|
|
// Generate a call to a virtual method.
|
|
void GenerateVirtualCall(
|
|
HInvokeVirtual* invoke, Location temp, SlowPathCode* slow_path = nullptr) override;
|
|
|
|
void RecordBootImageIntrinsicPatch(HX86ComputeBaseMethodAddress* method_address,
|
|
uint32_t intrinsic_data);
|
|
void RecordBootImageRelRoPatch(HX86ComputeBaseMethodAddress* method_address,
|
|
uint32_t boot_image_offset);
|
|
void RecordBootImageMethodPatch(HInvoke* invoke);
|
|
void RecordMethodBssEntryPatch(HInvoke* invoke);
|
|
void RecordBootImageTypePatch(HLoadClass* load_class);
|
|
Label* NewTypeBssEntryPatch(HLoadClass* load_class);
|
|
void RecordBootImageStringPatch(HLoadString* load_string);
|
|
Label* NewStringBssEntryPatch(HLoadString* load_string);
|
|
void RecordBootImageJniEntrypointPatch(HInvokeStaticOrDirect* invoke);
|
|
|
|
void LoadBootImageAddress(Register reg,
|
|
uint32_t boot_image_reference,
|
|
HInvokeStaticOrDirect* invoke);
|
|
void LoadIntrinsicDeclaringClass(Register reg, HInvokeStaticOrDirect* invoke);
|
|
|
|
Label* NewJitRootStringPatch(const DexFile& dex_file,
|
|
dex::StringIndex string_index,
|
|
Handle<mirror::String> handle);
|
|
Label* NewJitRootClassPatch(const DexFile& dex_file,
|
|
dex::TypeIndex type_index,
|
|
Handle<mirror::Class> handle);
|
|
|
|
void MoveFromReturnRegister(Location trg, DataType::Type type) override;
|
|
|
|
// Emit linker patches.
|
|
void EmitLinkerPatches(ArenaVector<linker::LinkerPatch>* linker_patches) override;
|
|
|
|
void PatchJitRootUse(uint8_t* code,
|
|
const uint8_t* roots_data,
|
|
const PatchInfo<Label>& info,
|
|
uint64_t index_in_table) const;
|
|
void EmitJitRootPatches(uint8_t* code, const uint8_t* roots_data) override;
|
|
|
|
// Emit a write barrier.
|
|
void MarkGCCard(Register temp,
|
|
Register card,
|
|
Register object,
|
|
Register value,
|
|
bool value_can_be_null);
|
|
|
|
void GenerateMemoryBarrier(MemBarrierKind kind);
|
|
|
|
Label* GetLabelOf(HBasicBlock* block) const {
|
|
return CommonGetLabelOf<Label>(block_labels_, block);
|
|
}
|
|
|
|
void Initialize() override {
|
|
block_labels_ = CommonInitializeLabels<Label>();
|
|
}
|
|
|
|
bool NeedsTwoRegisters(DataType::Type type) const override {
|
|
return type == DataType::Type::kInt64;
|
|
}
|
|
|
|
bool ShouldSplitLongMoves() const override { return true; }
|
|
|
|
Label* GetFrameEntryLabel() { return &frame_entry_label_; }
|
|
|
|
void AddMethodAddressOffset(HX86ComputeBaseMethodAddress* method_base, int32_t offset) {
|
|
method_address_offset_.Put(method_base->GetId(), offset);
|
|
}
|
|
|
|
int32_t GetMethodAddressOffset(HX86ComputeBaseMethodAddress* method_base) const {
|
|
return method_address_offset_.Get(method_base->GetId());
|
|
}
|
|
|
|
int32_t ConstantAreaStart() const {
|
|
return constant_area_start_;
|
|
}
|
|
|
|
Address LiteralDoubleAddress(double v, HX86ComputeBaseMethodAddress* method_base, Register reg);
|
|
Address LiteralFloatAddress(float v, HX86ComputeBaseMethodAddress* method_base, Register reg);
|
|
Address LiteralInt32Address(int32_t v, HX86ComputeBaseMethodAddress* method_base, Register reg);
|
|
Address LiteralInt64Address(int64_t v, HX86ComputeBaseMethodAddress* method_base, Register reg);
|
|
|
|
// Load a 32-bit value into a register in the most efficient manner.
|
|
void Load32BitValue(Register dest, int32_t value);
|
|
|
|
// Compare a register with a 32-bit value in the most efficient manner.
|
|
void Compare32BitValue(Register dest, int32_t value);
|
|
|
|
// Compare int values. Supports only register locations for `lhs`.
|
|
void GenerateIntCompare(Location lhs, Location rhs);
|
|
void GenerateIntCompare(Register lhs, Location rhs);
|
|
|
|
// Construct address for array access.
|
|
static Address ArrayAddress(Register obj,
|
|
Location index,
|
|
ScaleFactor scale,
|
|
uint32_t data_offset);
|
|
|
|
Address LiteralCaseTable(HX86PackedSwitch* switch_instr, Register reg, Register value);
|
|
|
|
void Finalize(CodeAllocator* allocator) override;
|
|
|
|
// Fast path implementation of ReadBarrier::Barrier for a heap
|
|
// reference field load when Baker's read barriers are used.
|
|
void GenerateFieldLoadWithBakerReadBarrier(HInstruction* instruction,
|
|
Location ref,
|
|
Register obj,
|
|
uint32_t offset,
|
|
bool needs_null_check);
|
|
// Fast path implementation of ReadBarrier::Barrier for a heap
|
|
// reference array load when Baker's read barriers are used.
|
|
void GenerateArrayLoadWithBakerReadBarrier(HInstruction* instruction,
|
|
Location ref,
|
|
Register obj,
|
|
uint32_t data_offset,
|
|
Location index,
|
|
bool needs_null_check);
|
|
// Factored implementation, used by GenerateFieldLoadWithBakerReadBarrier,
|
|
// GenerateArrayLoadWithBakerReadBarrier and some intrinsics.
|
|
//
|
|
// Load the object reference located at address `src`, held by
|
|
// object `obj`, into `ref`, and mark it if needed. The base of
|
|
// address `src` must be `obj`.
|
|
//
|
|
// If `always_update_field` is true, the value of the reference is
|
|
// atomically updated in the holder (`obj`). This operation
|
|
// requires a temporary register, which must be provided as a
|
|
// non-null pointer (`temp`).
|
|
void GenerateReferenceLoadWithBakerReadBarrier(HInstruction* instruction,
|
|
Location ref,
|
|
Register obj,
|
|
const Address& src,
|
|
bool needs_null_check,
|
|
bool always_update_field = false,
|
|
Register* temp = nullptr);
|
|
|
|
// Generate a read barrier for a heap reference within `instruction`
|
|
// using a slow path.
|
|
//
|
|
// A read barrier for an object reference read from the heap is
|
|
// implemented as a call to the artReadBarrierSlow runtime entry
|
|
// point, which is passed the values in locations `ref`, `obj`, and
|
|
// `offset`:
|
|
//
|
|
// mirror::Object* artReadBarrierSlow(mirror::Object* ref,
|
|
// mirror::Object* obj,
|
|
// uint32_t offset);
|
|
//
|
|
// The `out` location contains the value returned by
|
|
// artReadBarrierSlow.
|
|
//
|
|
// When `index` is provided (i.e. for array accesses), the offset
|
|
// value passed to artReadBarrierSlow is adjusted to take `index`
|
|
// into account.
|
|
void GenerateReadBarrierSlow(HInstruction* instruction,
|
|
Location out,
|
|
Location ref,
|
|
Location obj,
|
|
uint32_t offset,
|
|
Location index = Location::NoLocation());
|
|
|
|
// If read barriers are enabled, generate a read barrier for a heap
|
|
// reference using a slow path. If heap poisoning is enabled, also
|
|
// unpoison the reference in `out`.
|
|
void MaybeGenerateReadBarrierSlow(HInstruction* instruction,
|
|
Location out,
|
|
Location ref,
|
|
Location obj,
|
|
uint32_t offset,
|
|
Location index = Location::NoLocation());
|
|
|
|
// Generate a read barrier for a GC root within `instruction` using
|
|
// a slow path.
|
|
//
|
|
// A read barrier for an object reference GC root is implemented as
|
|
// a call to the artReadBarrierForRootSlow runtime entry point,
|
|
// which is passed the value in location `root`:
|
|
//
|
|
// mirror::Object* artReadBarrierForRootSlow(GcRoot<mirror::Object>* root);
|
|
//
|
|
// The `out` location contains the value returned by
|
|
// artReadBarrierForRootSlow.
|
|
void GenerateReadBarrierForRootSlow(HInstruction* instruction, Location out, Location root);
|
|
|
|
// Ensure that prior stores complete to memory before subsequent loads.
|
|
// The locked add implementation will avoid serializing device memory, but will
|
|
// touch (but not change) the top of the stack.
|
|
// The 'non_temporal' parameter should be used to ensure ordering of non-temporal stores.
|
|
void MemoryFence(bool non_temporal = false) {
|
|
if (!non_temporal) {
|
|
assembler_.lock()->addl(Address(ESP, 0), Immediate(0));
|
|
} else {
|
|
assembler_.mfence();
|
|
}
|
|
}
|
|
|
|
void IncreaseFrame(size_t adjustment) override;
|
|
void DecreaseFrame(size_t adjustment) override;
|
|
|
|
void GenerateNop() override;
|
|
void GenerateImplicitNullCheck(HNullCheck* instruction) override;
|
|
void GenerateExplicitNullCheck(HNullCheck* instruction) override;
|
|
|
|
void MaybeGenerateInlineCacheCheck(HInstruction* instruction, Register klass);
|
|
void MaybeIncrementHotness(bool is_frame_entry);
|
|
|
|
// When we don't know the proper offset for the value, we use kPlaceholder32BitOffset.
|
|
// The correct value will be inserted when processing Assembler fixups.
|
|
static constexpr int32_t kPlaceholder32BitOffset = 256;
|
|
|
|
private:
|
|
struct X86PcRelativePatchInfo : PatchInfo<Label> {
|
|
X86PcRelativePatchInfo(HX86ComputeBaseMethodAddress* address,
|
|
const DexFile* target_dex_file,
|
|
uint32_t target_index)
|
|
: PatchInfo(target_dex_file, target_index),
|
|
method_address(address) {}
|
|
HX86ComputeBaseMethodAddress* method_address;
|
|
};
|
|
|
|
template <linker::LinkerPatch (*Factory)(size_t, const DexFile*, uint32_t, uint32_t)>
|
|
void EmitPcRelativeLinkerPatches(const ArenaDeque<X86PcRelativePatchInfo>& infos,
|
|
ArenaVector<linker::LinkerPatch>* linker_patches);
|
|
|
|
Register GetInvokeExtraParameter(HInvoke* invoke, Register temp);
|
|
Register GetInvokeStaticOrDirectExtraParameter(HInvokeStaticOrDirect* invoke, Register temp);
|
|
|
|
// Labels for each block that will be compiled.
|
|
Label* block_labels_; // Indexed by block id.
|
|
Label frame_entry_label_;
|
|
LocationsBuilderX86 location_builder_;
|
|
InstructionCodeGeneratorX86 instruction_visitor_;
|
|
ParallelMoveResolverX86 move_resolver_;
|
|
X86Assembler assembler_;
|
|
|
|
// PC-relative method patch info for kBootImageLinkTimePcRelative.
|
|
ArenaDeque<X86PcRelativePatchInfo> boot_image_method_patches_;
|
|
// PC-relative method patch info for kBssEntry.
|
|
ArenaDeque<X86PcRelativePatchInfo> method_bss_entry_patches_;
|
|
// PC-relative type patch info for kBootImageLinkTimePcRelative.
|
|
ArenaDeque<X86PcRelativePatchInfo> boot_image_type_patches_;
|
|
// PC-relative type patch info for kBssEntry.
|
|
ArenaDeque<X86PcRelativePatchInfo> type_bss_entry_patches_;
|
|
// PC-relative public type patch info for kBssEntryPublic.
|
|
ArenaDeque<X86PcRelativePatchInfo> public_type_bss_entry_patches_;
|
|
// PC-relative package type patch info for kBssEntryPackage.
|
|
ArenaDeque<X86PcRelativePatchInfo> package_type_bss_entry_patches_;
|
|
// PC-relative String patch info for kBootImageLinkTimePcRelative.
|
|
ArenaDeque<X86PcRelativePatchInfo> boot_image_string_patches_;
|
|
// PC-relative String patch info for kBssEntry.
|
|
ArenaDeque<X86PcRelativePatchInfo> string_bss_entry_patches_;
|
|
// PC-relative method patch info for kBootImageLinkTimePcRelative+kCallCriticalNative.
|
|
ArenaDeque<X86PcRelativePatchInfo> boot_image_jni_entrypoint_patches_;
|
|
// PC-relative patch info for IntrinsicObjects for the boot image,
|
|
// and for method/type/string patches for kBootImageRelRo otherwise.
|
|
ArenaDeque<X86PcRelativePatchInfo> boot_image_other_patches_;
|
|
|
|
// Patches for string root accesses in JIT compiled code.
|
|
ArenaDeque<PatchInfo<Label>> jit_string_patches_;
|
|
// Patches for class root accesses in JIT compiled code.
|
|
ArenaDeque<PatchInfo<Label>> jit_class_patches_;
|
|
|
|
// Offset to the start of the constant area in the assembled code.
|
|
// Used for fixups to the constant area.
|
|
int32_t constant_area_start_;
|
|
|
|
// Fixups for jump tables that need to be patched after the constant table is generated.
|
|
ArenaVector<JumpTableRIPFixup*> fixups_to_jump_tables_;
|
|
|
|
// Maps a HX86ComputeBaseMethodAddress instruction id, to its offset in the
|
|
// compiled code.
|
|
ArenaSafeMap<uint32_t, int32_t> method_address_offset_;
|
|
|
|
DISALLOW_COPY_AND_ASSIGN(CodeGeneratorX86);
|
|
};
|
|
|
|
} // namespace x86
|
|
} // namespace art
|
|
|
|
#endif // ART_COMPILER_OPTIMIZING_CODE_GENERATOR_X86_H_
|