// Copyright 2012 the V8 project authors. All rights reserved. // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following // disclaimer in the documentation and/or other materials provided // with the distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived // from this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. #ifndef V8_X64_LITHIUM_CODEGEN_X64_H_ #define V8_X64_LITHIUM_CODEGEN_X64_H_ #include "x64/lithium-x64.h" #include "checks.h" #include "deoptimizer.h" #include "safepoint-table.h" #include "scopes.h" #include "x64/lithium-gap-resolver-x64.h" namespace v8 { namespace internal { // Forward declarations. class LDeferredCode; class SafepointGenerator; class LCodeGen BASE_EMBEDDED { public: LCodeGen(LChunk* chunk, MacroAssembler* assembler, CompilationInfo* info) : zone_(info->zone()), chunk_(static_cast(chunk)), masm_(assembler), info_(info), current_block_(-1), current_instruction_(-1), instructions_(chunk->instructions()), deoptimizations_(4, info->zone()), jump_table_(4, info->zone()), deoptimization_literals_(8, info->zone()), inlined_function_count_(0), scope_(info->scope()), status_(UNUSED), translations_(info->zone()), deferred_(8, info->zone()), osr_pc_offset_(-1), last_lazy_deopt_pc_(0), safepoints_(info->zone()), resolver_(this), expected_safepoint_kind_(Safepoint::kSimple) { PopulateDeoptimizationLiteralsWithInlinedFunctions(); } // Simple accessors. MacroAssembler* masm() const { return masm_; } CompilationInfo* info() const { return info_; } Isolate* isolate() const { return info_->isolate(); } Factory* factory() const { return isolate()->factory(); } Heap* heap() const { return isolate()->heap(); } Zone* zone() const { return zone_; } // Support for converting LOperands to assembler types. Register ToRegister(LOperand* op) const; XMMRegister ToDoubleRegister(LOperand* op) const; bool IsInteger32Constant(LConstantOperand* op) const; int ToInteger32(LConstantOperand* op) const; double ToDouble(LConstantOperand* op) const; bool IsTaggedConstant(LConstantOperand* op) const; Handle ToHandle(LConstantOperand* op) const; Operand ToOperand(LOperand* op) const; // Try to generate code for the entire chunk, but it may fail if the // chunk contains constructs we cannot handle. Returns true if the // code generation attempt succeeded. bool GenerateCode(); // Finish the code by setting stack height, safepoint, and bailout // information on it. void FinishCode(Handle code); // Deferred code support. void DoDeferredNumberTagD(LNumberTagD* instr); void DoDeferredNumberTagU(LNumberTagU* instr); void DoDeferredTaggedToI(LTaggedToI* instr); void DoDeferredMathAbsTaggedHeapNumber(LUnaryMathOperation* instr); void DoDeferredStackCheck(LStackCheck* instr); void DoDeferredRandom(LRandom* instr); void DoDeferredStringCharCodeAt(LStringCharCodeAt* instr); void DoDeferredStringCharFromCode(LStringCharFromCode* instr); void DoDeferredAllocateObject(LAllocateObject* instr); void DoDeferredInstanceOfKnownGlobal(LInstanceOfKnownGlobal* instr, Label* map_check); void DoCheckMapCommon(Register reg, Handle map, CompareMapMode mode, LEnvironment* env); // Parallel move support. void DoParallelMove(LParallelMove* move); void DoGap(LGap* instr); // Emit frame translation commands for an environment. void WriteTranslation(LEnvironment* environment, Translation* translation, int* arguments_index, int* arguments_count); // Declare methods that deal with the individual node types. #define DECLARE_DO(type) void Do##type(L##type* node); LITHIUM_CONCRETE_INSTRUCTION_LIST(DECLARE_DO) #undef DECLARE_DO private: enum Status { UNUSED, GENERATING, DONE, ABORTED }; bool is_unused() const { return status_ == UNUSED; } bool is_generating() const { return status_ == GENERATING; } bool is_done() const { return status_ == DONE; } bool is_aborted() const { return status_ == ABORTED; } StrictModeFlag strict_mode_flag() const { return info()->is_classic_mode() ? kNonStrictMode : kStrictMode; } LPlatformChunk* chunk() const { return chunk_; } Scope* scope() const { return scope_; } HGraph* graph() const { return chunk_->graph(); } int GetNextEmittedBlock(int block); void EmitClassOfTest(Label* if_true, Label* if_false, Handle class_name, Register input, Register temporary, Register scratch); int GetStackSlotCount() const { return chunk()->spill_slot_count(); } int GetParameterCount() const { return scope()->num_parameters(); } void Abort(const char* reason); void Comment(const char* format, ...); void AddDeferredCode(LDeferredCode* code) { deferred_.Add(code, zone()); } // Code generation passes. Returns true if code generation should // continue. bool GeneratePrologue(); bool GenerateBody(); bool GenerateDeferredCode(); bool GenerateJumpTable(); bool GenerateSafepointTable(); enum SafepointMode { RECORD_SIMPLE_SAFEPOINT, RECORD_SAFEPOINT_WITH_REGISTERS }; void CallCodeGeneric(Handle code, RelocInfo::Mode mode, LInstruction* instr, SafepointMode safepoint_mode, int argc); void CallCode(Handle code, RelocInfo::Mode mode, LInstruction* instr); void CallRuntime(const Runtime::Function* function, int num_arguments, LInstruction* instr); void CallRuntime(Runtime::FunctionId id, int num_arguments, LInstruction* instr) { const Runtime::Function* function = Runtime::FunctionForId(id); CallRuntime(function, num_arguments, instr); } void CallRuntimeFromDeferred(Runtime::FunctionId id, int argc, LInstruction* instr); enum RDIState { RDI_UNINITIALIZED, RDI_CONTAINS_TARGET }; // Generate a direct call to a known function. Expects the function // to be in rdi. void CallKnownFunction(Handle function, int arity, LInstruction* instr, CallKind call_kind, RDIState rdi_state); void RecordSafepointWithLazyDeopt(LInstruction* instr, SafepointMode safepoint_mode, int argc); void RegisterEnvironmentForDeoptimization(LEnvironment* environment, Safepoint::DeoptMode mode); void DeoptimizeIf(Condition cc, LEnvironment* environment); void AddToTranslation(Translation* translation, LOperand* op, bool is_tagged, bool is_uint32, int arguments_index, int arguments_count); void PopulateDeoptimizationData(Handle code); int DefineDeoptimizationLiteral(Handle literal); void PopulateDeoptimizationLiteralsWithInlinedFunctions(); Register ToRegister(int index) const; XMMRegister ToDoubleRegister(int index) const; Operand BuildFastArrayOperand( LOperand* elements_pointer, LOperand* key, ElementsKind elements_kind, uint32_t offset, uint32_t additional_index = 0); // Specific math operations - used from DoUnaryMathOperation. void EmitIntegerMathAbs(LUnaryMathOperation* instr); void DoMathAbs(LUnaryMathOperation* instr); void DoMathFloor(LUnaryMathOperation* instr); void DoMathRound(LUnaryMathOperation* instr); void DoMathSqrt(LUnaryMathOperation* instr); void DoMathPowHalf(LUnaryMathOperation* instr); void DoMathLog(LUnaryMathOperation* instr); void DoMathTan(LUnaryMathOperation* instr); void DoMathCos(LUnaryMathOperation* instr); void DoMathSin(LUnaryMathOperation* instr); // Support for recording safepoint and position information. void RecordSafepoint(LPointerMap* pointers, Safepoint::Kind kind, int arguments, Safepoint::DeoptMode mode); void RecordSafepoint(LPointerMap* pointers, Safepoint::DeoptMode mode); void RecordSafepoint(Safepoint::DeoptMode mode); void RecordSafepointWithRegisters(LPointerMap* pointers, int arguments, Safepoint::DeoptMode mode); void RecordPosition(int position); static Condition TokenToCondition(Token::Value op, bool is_unsigned); void EmitGoto(int block); void EmitBranch(int left_block, int right_block, Condition cc); void EmitNumberUntagD(Register input, XMMRegister result, bool deoptimize_on_undefined, bool deoptimize_on_minus_zero, LEnvironment* env); void DeoptIfTaggedButNotSmi(LEnvironment* environment, HValue* value, LOperand* operand); // Emits optimized code for typeof x == "y". Modifies input register. // Returns the condition on which a final split to // true and false label should be made, to optimize fallthrough. Condition EmitTypeofIs(Label* true_label, Label* false_label, Register input, Handle type_name); // Emits optimized code for %_IsObject(x). Preserves input register. // Returns the condition on which a final split to // true and false label should be made, to optimize fallthrough. Condition EmitIsObject(Register input, Label* is_not_object, Label* is_object); // Emits optimized code for %_IsString(x). Preserves input register. // Returns the condition on which a final split to // true and false label should be made, to optimize fallthrough. Condition EmitIsString(Register input, Register temp1, Label* is_not_string); // Emits optimized code for %_IsConstructCall(). // Caller should branch on equal condition. void EmitIsConstructCall(Register temp); void EmitLoadFieldOrConstantFunction(Register result, Register object, Handle type, Handle name, LEnvironment* env); // Emits code for pushing either a tagged constant, a (non-double) // register, or a stack slot operand. void EmitPushTaggedOperand(LOperand* operand); // Emits optimized code to deep-copy the contents of statically known // object graphs (e.g. object literal boilerplate). void EmitDeepCopy(Handle object, Register result, Register source, int* offset); struct JumpTableEntry { explicit inline JumpTableEntry(Address entry) : label(), address(entry) { } Label label; Address address; }; void EnsureSpaceForLazyDeopt(int space_needed); Zone* zone_; LPlatformChunk* const chunk_; MacroAssembler* const masm_; CompilationInfo* const info_; int current_block_; int current_instruction_; const ZoneList* instructions_; ZoneList deoptimizations_; ZoneList jump_table_; ZoneList > deoptimization_literals_; int inlined_function_count_; Scope* const scope_; Status status_; TranslationBuffer translations_; ZoneList deferred_; int osr_pc_offset_; int last_lazy_deopt_pc_; // Builder that keeps track of safepoints in the code. The table // itself is emitted at the end of the generated code. SafepointTableBuilder safepoints_; // Compiler from a set of parallel moves to a sequential list of moves. LGapResolver resolver_; Safepoint::Kind expected_safepoint_kind_; class PushSafepointRegistersScope BASE_EMBEDDED { public: explicit PushSafepointRegistersScope(LCodeGen* codegen) : codegen_(codegen) { ASSERT(codegen_->expected_safepoint_kind_ == Safepoint::kSimple); codegen_->masm_->PushSafepointRegisters(); codegen_->expected_safepoint_kind_ = Safepoint::kWithRegisters; } ~PushSafepointRegistersScope() { ASSERT(codegen_->expected_safepoint_kind_ == Safepoint::kWithRegisters); codegen_->masm_->PopSafepointRegisters(); codegen_->expected_safepoint_kind_ = Safepoint::kSimple; } private: LCodeGen* codegen_; }; friend class LDeferredCode; friend class LEnvironment; friend class SafepointGenerator; DISALLOW_COPY_AND_ASSIGN(LCodeGen); }; class LDeferredCode: public ZoneObject { public: explicit LDeferredCode(LCodeGen* codegen) : codegen_(codegen), external_exit_(NULL), instruction_index_(codegen->current_instruction_) { codegen->AddDeferredCode(this); } virtual ~LDeferredCode() { } virtual void Generate() = 0; virtual LInstruction* instr() = 0; void SetExit(Label* exit) { external_exit_ = exit; } Label* entry() { return &entry_; } Label* exit() { return external_exit_ != NULL ? external_exit_ : &exit_; } int instruction_index() const { return instruction_index_; } protected: LCodeGen* codegen() const { return codegen_; } MacroAssembler* masm() const { return codegen_->masm(); } private: LCodeGen* codegen_; Label entry_; Label exit_; Label* external_exit_; int instruction_index_; }; } } // namespace v8::internal #endif // V8_X64_LITHIUM_CODEGEN_X64_H_