root/src/x64/lithium-codegen-x64.h
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// Copyright 2012 the V8 project authors. All rights reserved.
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// modification, are permitted provided that the following conditions are
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//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
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#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<LPlatformChunk*>(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<Object> 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> code);
// Deferred code support.
void DoDeferredNumberTagD(LNumberTagD* 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> 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);
// 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<String> 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* format, ...);
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> code,
RelocInfo::Mode mode,
LInstruction* instr,
SafepointMode safepoint_mode,
int argc);
void CallCode(Handle<Code> 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<JSFunction> 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);
void PopulateDeoptimizationData(Handle<Code> code);
int DefineDeoptimizationLiteral(Handle<Object> 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);
// 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<String> 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<Map> type,
Handle<String> 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<JSObject> 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<LInstruction*>* instructions_;
ZoneList<LEnvironment*> deoptimizations_;
ZoneList<JumpTableEntry> jump_table_;
ZoneList<Handle<Object> > deoptimization_literals_;
int inlined_function_count_;
Scope* const scope_;
Status status_;
TranslationBuffer translations_;
ZoneList<LDeferredCode*> 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_