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/*
* Copyright (C) 2008, 2012 Apple Inc. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. 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.
*
* THIS SOFTWARE IS PROVIDED BY APPLE INC. ``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 APPLE INC. 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 JIT_h
#define JIT_h
#if ENABLE(JIT)
// Verbose logging of code generation
#define ENABLE_JIT_VERBOSE 0
// Verbose logging for OSR-related code.
#define ENABLE_JIT_VERBOSE_OSR 0
// We've run into some problems where changing the size of the class JIT leads to
// performance fluctuations. Try forcing alignment in an attempt to stabalize this.
#if COMPILER(GCC)
#define JIT_CLASS_ALIGNMENT __attribute__ ((aligned (32)))
#else
#define JIT_CLASS_ALIGNMENT
#endif
#define ASSERT_JIT_OFFSET(actual, expected) ASSERT_WITH_MESSAGE(actual == expected, "JIT Offset \"%s\" should be %d, not %d.\n", #expected, static_cast<int>(expected), static_cast<int>(actual));
#include "CodeBlock.h"
#include "CompactJITCodeMap.h"
#include "Interpreter.h"
#include "JSInterfaceJIT.h"
#include "Opcode.h"
#include "Profiler.h"
#include <bytecode/SamplingTool.h>
namespace JSC {
class CodeBlock;
class FunctionExecutable;
class JIT;
class JSPropertyNameIterator;
class Interpreter;
class Register;
class RegisterFile;
class JSScope;
class StructureChain;
struct CallLinkInfo;
struct Instruction;
struct OperandTypes;
struct PolymorphicAccessStructureList;
struct SimpleJumpTable;
struct StringJumpTable;
struct StructureStubInfo;
struct CallRecord {
MacroAssembler::Call from;
unsigned bytecodeOffset;
void* to;
CallRecord()
{
}
CallRecord(MacroAssembler::Call from, unsigned bytecodeOffset, void* to = 0)
: from(from)
, bytecodeOffset(bytecodeOffset)
, to(to)
{
}
};
struct JumpTable {
MacroAssembler::Jump from;
unsigned toBytecodeOffset;
JumpTable(MacroAssembler::Jump f, unsigned t)
: from(f)
, toBytecodeOffset(t)
{
}
};
struct SlowCaseEntry {
MacroAssembler::Jump from;
unsigned to;
unsigned hint;
SlowCaseEntry(MacroAssembler::Jump f, unsigned t, unsigned h = 0)
: from(f)
, to(t)
, hint(h)
{
}
};
struct SwitchRecord {
enum Type {
Immediate,
Character,
String
};
Type type;
union {
SimpleJumpTable* simpleJumpTable;
StringJumpTable* stringJumpTable;
} jumpTable;
unsigned bytecodeOffset;
unsigned defaultOffset;
SwitchRecord(SimpleJumpTable* jumpTable, unsigned bytecodeOffset, unsigned defaultOffset, Type type)
: type(type)
, bytecodeOffset(bytecodeOffset)
, defaultOffset(defaultOffset)
{
this->jumpTable.simpleJumpTable = jumpTable;
}
SwitchRecord(StringJumpTable* jumpTable, unsigned bytecodeOffset, unsigned defaultOffset)
: type(String)
, bytecodeOffset(bytecodeOffset)
, defaultOffset(defaultOffset)
{
this->jumpTable.stringJumpTable = jumpTable;
}
};
enum PropertyStubGetById_T { PropertyStubGetById };
enum PropertyStubPutById_T { PropertyStubPutById };
struct PropertyStubCompilationInfo {
enum Type { GetById, PutById, MethodCheck } m_type;
unsigned bytecodeIndex;
MacroAssembler::Call callReturnLocation;
MacroAssembler::Label hotPathBegin;
MacroAssembler::DataLabelPtr getStructureToCompare;
MacroAssembler::PatchableJump getStructureCheck;
MacroAssembler::ConvertibleLoadLabel propertyStorageLoad;
#if USE(JSVALUE64)
MacroAssembler::DataLabelCompact getDisplacementLabel;
#else
MacroAssembler::DataLabelCompact getDisplacementLabel1;
MacroAssembler::DataLabelCompact getDisplacementLabel2;
#endif
MacroAssembler::Label getPutResult;
MacroAssembler::Label getColdPathBegin;
MacroAssembler::DataLabelPtr putStructureToCompare;
#if USE(JSVALUE64)
MacroAssembler::DataLabel32 putDisplacementLabel;
#else
MacroAssembler::DataLabel32 putDisplacementLabel1;
MacroAssembler::DataLabel32 putDisplacementLabel2;
#endif
MacroAssembler::DataLabelPtr methodCheckStructureToCompare;
MacroAssembler::DataLabelPtr methodCheckProtoObj;
MacroAssembler::DataLabelPtr methodCheckProtoStructureToCompare;
MacroAssembler::DataLabelPtr methodCheckPutFunction;
#if !ASSERT_DISABLED
PropertyStubCompilationInfo()
: bytecodeIndex(std::numeric_limits<unsigned>::max())
{
}
#endif
PropertyStubCompilationInfo(
PropertyStubGetById_T, unsigned bytecodeIndex, MacroAssembler::Label hotPathBegin,
MacroAssembler::DataLabelPtr structureToCompare,
MacroAssembler::PatchableJump structureCheck,
MacroAssembler::ConvertibleLoadLabel propertyStorageLoad,
#if USE(JSVALUE64)
MacroAssembler::DataLabelCompact displacementLabel,
#else
MacroAssembler::DataLabelCompact displacementLabel1,
MacroAssembler::DataLabelCompact displacementLabel2,
#endif
MacroAssembler::Label putResult)
: m_type(GetById)
, bytecodeIndex(bytecodeIndex)
, hotPathBegin(hotPathBegin)
, getStructureToCompare(structureToCompare)
, getStructureCheck(structureCheck)
, propertyStorageLoad(propertyStorageLoad)
#if USE(JSVALUE64)
, getDisplacementLabel(displacementLabel)
#else
, getDisplacementLabel1(displacementLabel1)
, getDisplacementLabel2(displacementLabel2)
#endif
, getPutResult(putResult)
{
}
PropertyStubCompilationInfo(
PropertyStubPutById_T, unsigned bytecodeIndex, MacroAssembler::Label hotPathBegin,
MacroAssembler::DataLabelPtr structureToCompare,
MacroAssembler::ConvertibleLoadLabel propertyStorageLoad,
#if USE(JSVALUE64)
MacroAssembler::DataLabel32 displacementLabel
#else
MacroAssembler::DataLabel32 displacementLabel1,
MacroAssembler::DataLabel32 displacementLabel2
#endif
)
: m_type(PutById)
, bytecodeIndex(bytecodeIndex)
, hotPathBegin(hotPathBegin)
, propertyStorageLoad(propertyStorageLoad)
, putStructureToCompare(structureToCompare)
#if USE(JSVALUE64)
, putDisplacementLabel(displacementLabel)
#else
, putDisplacementLabel1(displacementLabel1)
, putDisplacementLabel2(displacementLabel2)
#endif
{
}
void slowCaseInfo(PropertyStubGetById_T, MacroAssembler::Label coldPathBegin, MacroAssembler::Call call)
{
ASSERT(m_type == GetById || m_type == MethodCheck);
callReturnLocation = call;
getColdPathBegin = coldPathBegin;
}
void slowCaseInfo(PropertyStubPutById_T, MacroAssembler::Call call)
{
ASSERT(m_type == PutById);
callReturnLocation = call;
}
void addMethodCheckInfo(MacroAssembler::DataLabelPtr structureToCompare, MacroAssembler::DataLabelPtr protoObj, MacroAssembler::DataLabelPtr protoStructureToCompare, MacroAssembler::DataLabelPtr putFunction)
{
m_type = MethodCheck;
methodCheckStructureToCompare = structureToCompare;
methodCheckProtoObj = protoObj;
methodCheckProtoStructureToCompare = protoStructureToCompare;
methodCheckPutFunction = putFunction;
}
void copyToStubInfo(StructureStubInfo& info, LinkBuffer &patchBuffer);
};
struct StructureStubCompilationInfo {
MacroAssembler::DataLabelPtr hotPathBegin;
MacroAssembler::Call hotPathOther;
MacroAssembler::Call callReturnLocation;
CallLinkInfo::CallType callType;
unsigned bytecodeIndex;
};
struct MethodCallCompilationInfo {
MethodCallCompilationInfo(unsigned bytecodeIndex, unsigned propertyAccessIndex)
: bytecodeIndex(bytecodeIndex)
, propertyAccessIndex(propertyAccessIndex)
{
}
unsigned bytecodeIndex;
MacroAssembler::DataLabelPtr structureToCompare;
unsigned propertyAccessIndex;
};
// Near calls can only be patched to other JIT code, regular calls can be patched to JIT code or relinked to stub functions.
void ctiPatchNearCallByReturnAddress(CodeBlock* codeblock, ReturnAddressPtr returnAddress, MacroAssemblerCodePtr newCalleeFunction);
void ctiPatchCallByReturnAddress(CodeBlock* codeblock, ReturnAddressPtr returnAddress, MacroAssemblerCodePtr newCalleeFunction);
void ctiPatchCallByReturnAddress(CodeBlock* codeblock, ReturnAddressPtr returnAddress, FunctionPtr newCalleeFunction);
class JIT : private JSInterfaceJIT {
friend class JITStubCall;
friend struct PropertyStubCompilationInfo;
using MacroAssembler::Jump;
using MacroAssembler::JumpList;
using MacroAssembler::Label;
static const int patchGetByIdDefaultStructure = -1;
static const int patchGetByIdDefaultOffset = 0;
// Magic number - initial offset cannot be representable as a signed 8bit value, or the X86Assembler
// will compress the displacement, and we may not be able to fit a patched offset.
static const int patchPutByIdDefaultOffset = 256;
public:
static JITCode compile(JSGlobalData* globalData, CodeBlock* codeBlock, JITCompilationEffort effort, CodePtr* functionEntryArityCheck = 0)
{
return JIT(globalData, codeBlock).privateCompile(functionEntryArityCheck, effort);
}
static void compileGetByIdProto(JSGlobalData* globalData, CallFrame* callFrame, CodeBlock* codeBlock, StructureStubInfo* stubInfo, Structure* structure, Structure* prototypeStructure, const Identifier& ident, const PropertySlot& slot, PropertyOffset cachedOffset, ReturnAddressPtr returnAddress)
{
JIT jit(globalData, codeBlock);
jit.m_bytecodeOffset = stubInfo->bytecodeIndex;
jit.privateCompileGetByIdProto(stubInfo, structure, prototypeStructure, ident, slot, cachedOffset, returnAddress, callFrame);
}
static void compileGetByIdSelfList(JSGlobalData* globalData, CodeBlock* codeBlock, StructureStubInfo* stubInfo, PolymorphicAccessStructureList* polymorphicStructures, int currentIndex, Structure* structure, const Identifier& ident, const PropertySlot& slot, PropertyOffset cachedOffset)
{
JIT jit(globalData, codeBlock);
jit.m_bytecodeOffset = stubInfo->bytecodeIndex;
jit.privateCompileGetByIdSelfList(stubInfo, polymorphicStructures, currentIndex, structure, ident, slot, cachedOffset);
}
static void compileGetByIdProtoList(JSGlobalData* globalData, CallFrame* callFrame, CodeBlock* codeBlock, StructureStubInfo* stubInfo, PolymorphicAccessStructureList* prototypeStructureList, int currentIndex, Structure* structure, Structure* prototypeStructure, const Identifier& ident, const PropertySlot& slot, PropertyOffset cachedOffset)
{
JIT jit(globalData, codeBlock);
jit.m_bytecodeOffset = stubInfo->bytecodeIndex;
jit.privateCompileGetByIdProtoList(stubInfo, prototypeStructureList, currentIndex, structure, prototypeStructure, ident, slot, cachedOffset, callFrame);
}
static void compileGetByIdChainList(JSGlobalData* globalData, CallFrame* callFrame, CodeBlock* codeBlock, StructureStubInfo* stubInfo, PolymorphicAccessStructureList* prototypeStructureList, int currentIndex, Structure* structure, StructureChain* chain, size_t count, const Identifier& ident, const PropertySlot& slot, PropertyOffset cachedOffset)
{
JIT jit(globalData, codeBlock);
jit.m_bytecodeOffset = stubInfo->bytecodeIndex;
jit.privateCompileGetByIdChainList(stubInfo, prototypeStructureList, currentIndex, structure, chain, count, ident, slot, cachedOffset, callFrame);
}
static void compileGetByIdChain(JSGlobalData* globalData, CallFrame* callFrame, CodeBlock* codeBlock, StructureStubInfo* stubInfo, Structure* structure, StructureChain* chain, size_t count, const Identifier& ident, const PropertySlot& slot, PropertyOffset cachedOffset, ReturnAddressPtr returnAddress)
{
JIT jit(globalData, codeBlock);
jit.m_bytecodeOffset = stubInfo->bytecodeIndex;
jit.privateCompileGetByIdChain(stubInfo, structure, chain, count, ident, slot, cachedOffset, returnAddress, callFrame);
}
static void compilePutByIdTransition(JSGlobalData* globalData, CodeBlock* codeBlock, StructureStubInfo* stubInfo, Structure* oldStructure, Structure* newStructure, PropertyOffset cachedOffset, StructureChain* chain, ReturnAddressPtr returnAddress, bool direct)
{
JIT jit(globalData, codeBlock);
jit.m_bytecodeOffset = stubInfo->bytecodeIndex;
jit.privateCompilePutByIdTransition(stubInfo, oldStructure, newStructure, cachedOffset, chain, returnAddress, direct);
}
static PassRefPtr<ExecutableMemoryHandle> compileCTIMachineTrampolines(JSGlobalData* globalData, TrampolineStructure *trampolines)
{
if (!globalData->canUseJIT())
return 0;
JIT jit(globalData, 0);
return jit.privateCompileCTIMachineTrampolines(globalData, trampolines);
}
static CodeRef compileCTINativeCall(JSGlobalData* globalData, NativeFunction func)
{
if (!globalData->canUseJIT()) {
#if ENABLE(LLINT)
return CodeRef::createLLIntCodeRef(llint_native_call_trampoline);
#else
return CodeRef();
#endif
}
JIT jit(globalData, 0);
return jit.privateCompileCTINativeCall(globalData, func);
}
static void resetPatchGetById(RepatchBuffer&, StructureStubInfo*);
static void resetPatchPutById(RepatchBuffer&, StructureStubInfo*);
static void patchGetByIdSelf(CodeBlock*, StructureStubInfo*, Structure*, PropertyOffset cachedOffset, ReturnAddressPtr);
static void patchPutByIdReplace(CodeBlock*, StructureStubInfo*, Structure*, PropertyOffset cachedOffset, ReturnAddressPtr, bool direct);
static void patchMethodCallProto(JSGlobalData&, CodeBlock*, MethodCallLinkInfo&, StructureStubInfo&, JSObject*, Structure*, JSObject*, ReturnAddressPtr);
static void compilePatchGetArrayLength(JSGlobalData* globalData, CodeBlock* codeBlock, ReturnAddressPtr returnAddress)
{
JIT jit(globalData, codeBlock);
return jit.privateCompilePatchGetArrayLength(returnAddress);
}
static void linkFor(JSFunction* callee, CodeBlock* callerCodeBlock, CodeBlock* calleeCodeBlock, CodePtr, CallLinkInfo*, JSGlobalData*, CodeSpecializationKind);
private:
JIT(JSGlobalData*, CodeBlock* = 0);
void privateCompileMainPass();
void privateCompileLinkPass();
void privateCompileSlowCases();
JITCode privateCompile(CodePtr* functionEntryArityCheck, JITCompilationEffort);
void privateCompileGetByIdProto(StructureStubInfo*, Structure*, Structure* prototypeStructure, const Identifier&, const PropertySlot&, PropertyOffset cachedOffset, ReturnAddressPtr, CallFrame*);
void privateCompileGetByIdSelfList(StructureStubInfo*, PolymorphicAccessStructureList*, int, Structure*, const Identifier&, const PropertySlot&, PropertyOffset cachedOffset);
void privateCompileGetByIdProtoList(StructureStubInfo*, PolymorphicAccessStructureList*, int, Structure*, Structure* prototypeStructure, const Identifier&, const PropertySlot&, PropertyOffset cachedOffset, CallFrame*);
void privateCompileGetByIdChainList(StructureStubInfo*, PolymorphicAccessStructureList*, int, Structure*, StructureChain*, size_t count, const Identifier&, const PropertySlot&, PropertyOffset cachedOffset, CallFrame*);
void privateCompileGetByIdChain(StructureStubInfo*, Structure*, StructureChain*, size_t count, const Identifier&, const PropertySlot&, PropertyOffset cachedOffset, ReturnAddressPtr, CallFrame*);
void privateCompilePutByIdTransition(StructureStubInfo*, Structure*, Structure*, PropertyOffset cachedOffset, StructureChain*, ReturnAddressPtr, bool direct);
PassRefPtr<ExecutableMemoryHandle> privateCompileCTIMachineTrampolines(JSGlobalData*, TrampolineStructure*);
Label privateCompileCTINativeCall(JSGlobalData*, bool isConstruct = false);
CodeRef privateCompileCTINativeCall(JSGlobalData*, NativeFunction);
void privateCompilePatchGetArrayLength(ReturnAddressPtr returnAddress);
static bool isDirectPutById(StructureStubInfo*);
void addSlowCase(Jump);
void addSlowCase(JumpList);
void addSlowCase();
void addJump(Jump, int);
void emitJumpSlowToHot(Jump, int);
void compileOpCall(OpcodeID, Instruction*, unsigned callLinkInfoIndex);
void compileOpCallSlowCase(OpcodeID, Instruction*, Vector<SlowCaseEntry>::iterator&, unsigned callLinkInfoIndex);
void compileLoadVarargs(Instruction*);
void compileCallEval();
void compileCallEvalSlowCase(Vector<SlowCaseEntry>::iterator&);
enum CompileOpStrictEqType { OpStrictEq, OpNStrictEq };
void compileOpStrictEq(Instruction* instruction, CompileOpStrictEqType type);
bool isOperandConstantImmediateDouble(unsigned src);
void emitLoadDouble(int index, FPRegisterID value);
void emitLoadInt32ToDouble(int index, FPRegisterID value);
Jump emitJumpIfNotObject(RegisterID structureReg);
Jump emitJumpIfNotType(RegisterID baseReg, RegisterID scratchReg, JSType);
void testPrototype(JSValue, JumpList& failureCases);
enum WriteBarrierMode { UnconditionalWriteBarrier, ShouldFilterImmediates };
// value register in write barrier is used before any scratch registers
// so may safely be the same as either of the scratch registers.
void emitWriteBarrier(RegisterID owner, RegisterID valueTag, RegisterID scratch, RegisterID scratch2, WriteBarrierMode, WriteBarrierUseKind);
void emitWriteBarrier(JSCell* owner, RegisterID value, RegisterID scratch, WriteBarrierMode, WriteBarrierUseKind);
template<typename ClassType, bool destructor, typename StructureType> void emitAllocateBasicJSObject(StructureType, RegisterID result, RegisterID storagePtr);
void emitAllocateBasicStorage(size_t, RegisterID result);
template<typename T> void emitAllocateJSFinalObject(T structure, RegisterID result, RegisterID storagePtr);
void emitAllocateJSArray(unsigned valuesRegister, unsigned length, RegisterID cellResult, RegisterID storageResult, RegisterID storagePtr);
#if ENABLE(VALUE_PROFILER)
// This assumes that the value to profile is in regT0 and that regT3 is available for
// scratch.
void emitValueProfilingSite(ValueProfile*);
void emitValueProfilingSite(unsigned bytecodeOffset);
void emitValueProfilingSite();
#else
void emitValueProfilingSite(unsigned) { }
void emitValueProfilingSite() { }
#endif
enum FinalObjectMode { MayBeFinal, KnownNotFinal };
#if USE(JSVALUE32_64)
bool getOperandConstantImmediateInt(unsigned op1, unsigned op2, unsigned& op, int32_t& constant);
void emitLoadTag(int index, RegisterID tag);
void emitLoadPayload(int index, RegisterID payload);
void emitLoad(const JSValue& v, RegisterID tag, RegisterID payload);
void emitLoad(int index, RegisterID tag, RegisterID payload, RegisterID base = callFrameRegister);
void emitLoad2(int index1, RegisterID tag1, RegisterID payload1, int index2, RegisterID tag2, RegisterID payload2);
void emitStore(int index, RegisterID tag, RegisterID payload, RegisterID base = callFrameRegister);
void emitStore(int index, const JSValue constant, RegisterID base = callFrameRegister);
void emitStoreInt32(int index, RegisterID payload, bool indexIsInt32 = false);
void emitStoreInt32(int index, TrustedImm32 payload, bool indexIsInt32 = false);
void emitStoreAndMapInt32(int index, RegisterID tag, RegisterID payload, bool indexIsInt32, size_t opcodeLength);
void emitStoreCell(int index, RegisterID payload, bool indexIsCell = false);
void emitStoreBool(int index, RegisterID payload, bool indexIsBool = false);
void emitStoreDouble(int index, FPRegisterID value);
bool isLabeled(unsigned bytecodeOffset);
void map(unsigned bytecodeOffset, int virtualRegisterIndex, RegisterID tag, RegisterID payload);
void unmap(RegisterID);
void unmap();
bool isMapped(int virtualRegisterIndex);
bool getMappedPayload(int virtualRegisterIndex, RegisterID& payload);
bool getMappedTag(int virtualRegisterIndex, RegisterID& tag);
void emitJumpSlowCaseIfNotJSCell(int virtualRegisterIndex);
void emitJumpSlowCaseIfNotJSCell(int virtualRegisterIndex, RegisterID tag);
void compileGetByIdHotPath();
void compileGetByIdSlowCase(int resultVReg, int baseVReg, Identifier* ident, Vector<SlowCaseEntry>::iterator& iter, bool isMethodCheck = false);
void compileGetDirectOffset(RegisterID base, RegisterID resultTag, RegisterID resultPayload, PropertyOffset cachedOffset);
void compileGetDirectOffset(JSObject* base, RegisterID resultTag, RegisterID resultPayload, PropertyOffset cachedOffset);
void compileGetDirectOffset(RegisterID base, RegisterID resultTag, RegisterID resultPayload, RegisterID offset, FinalObjectMode = MayBeFinal);
void compilePutDirectOffset(RegisterID base, RegisterID valueTag, RegisterID valuePayload, PropertyOffset cachedOffset);
// Arithmetic opcode helpers
void emitAdd32Constant(unsigned dst, unsigned op, int32_t constant, ResultType opType);
void emitSub32Constant(unsigned dst, unsigned op, int32_t constant, ResultType opType);
void emitBinaryDoubleOp(OpcodeID, unsigned dst, unsigned op1, unsigned op2, OperandTypes, JumpList& notInt32Op1, JumpList& notInt32Op2, bool op1IsInRegisters = true, bool op2IsInRegisters = true);
#if CPU(ARM_TRADITIONAL)
// sequenceOpCall
static const int sequenceOpCallInstructionSpace = 12;
static const int sequenceOpCallConstantSpace = 2;
// sequenceMethodCheck
static const int sequenceMethodCheckInstructionSpace = 40;
static const int sequenceMethodCheckConstantSpace = 6;
// sequenceGetByIdHotPath
static const int sequenceGetByIdHotPathInstructionSpace = 36;
static const int sequenceGetByIdHotPathConstantSpace = 4;
// sequenceGetByIdSlowCase
static const int sequenceGetByIdSlowCaseInstructionSpace = 64;
static const int sequenceGetByIdSlowCaseConstantSpace = 4;
// sequencePutById
static const int sequencePutByIdInstructionSpace = 36;
static const int sequencePutByIdConstantSpace = 4;
#elif CPU(SH4)
// sequenceOpCall
static const int sequenceOpCallInstructionSpace = 12;
static const int sequenceOpCallConstantSpace = 2;
// sequenceMethodCheck
static const int sequenceMethodCheckInstructionSpace = 40;
static const int sequenceMethodCheckConstantSpace = 6;
// sequenceGetByIdHotPath
static const int sequenceGetByIdHotPathInstructionSpace = 36;
static const int sequenceGetByIdHotPathConstantSpace = 5;
// sequenceGetByIdSlowCase
static const int sequenceGetByIdSlowCaseInstructionSpace = 38;
static const int sequenceGetByIdSlowCaseConstantSpace = 4;
// sequencePutById
static const int sequencePutByIdInstructionSpace = 36;
static const int sequencePutByIdConstantSpace = 5;
#endif
#else // USE(JSVALUE32_64)
void emitGetVirtualRegister(int src, RegisterID dst);
void emitGetVirtualRegisters(int src1, RegisterID dst1, int src2, RegisterID dst2);
void emitPutVirtualRegister(unsigned dst, RegisterID from = regT0);
void emitStoreCell(unsigned dst, RegisterID payload, bool /* only used in JSValue32_64 */ = false)
{
emitPutVirtualRegister(dst, payload);
}
int32_t getConstantOperandImmediateInt(unsigned src);
void killLastResultRegister();
Jump emitJumpIfJSCell(RegisterID);
Jump emitJumpIfBothJSCells(RegisterID, RegisterID, RegisterID);
void emitJumpSlowCaseIfJSCell(RegisterID);
Jump emitJumpIfNotJSCell(RegisterID);
void emitJumpSlowCaseIfNotJSCell(RegisterID);
void emitJumpSlowCaseIfNotJSCell(RegisterID, int VReg);
Jump emitJumpIfImmediateInteger(RegisterID);
Jump emitJumpIfNotImmediateInteger(RegisterID);
Jump emitJumpIfNotImmediateIntegers(RegisterID, RegisterID, RegisterID);
void emitJumpSlowCaseIfNotImmediateInteger(RegisterID);
void emitJumpSlowCaseIfNotImmediateNumber(RegisterID);
void emitJumpSlowCaseIfNotImmediateIntegers(RegisterID, RegisterID, RegisterID);
void emitFastArithReTagImmediate(RegisterID src, RegisterID dest);
void emitFastArithIntToImmNoCheck(RegisterID src, RegisterID dest);
void emitTagAsBoolImmediate(RegisterID reg);
void compileBinaryArithOp(OpcodeID, unsigned dst, unsigned src1, unsigned src2, OperandTypes opi);
void compileBinaryArithOpSlowCase(OpcodeID, Vector<SlowCaseEntry>::iterator&, unsigned dst, unsigned src1, unsigned src2, OperandTypes, bool op1HasImmediateIntFastCase, bool op2HasImmediateIntFastCase);
void compileGetByIdHotPath(int baseVReg, Identifier*);
void compileGetByIdSlowCase(int resultVReg, int baseVReg, Identifier* ident, Vector<SlowCaseEntry>::iterator& iter, bool isMethodCheck = false);
void compileGetDirectOffset(RegisterID base, RegisterID result, PropertyOffset cachedOffset);
void compileGetDirectOffset(JSObject* base, RegisterID result, PropertyOffset cachedOffset);
void compileGetDirectOffset(RegisterID base, RegisterID result, RegisterID offset, RegisterID scratch, FinalObjectMode = MayBeFinal);
void compilePutDirectOffset(RegisterID base, RegisterID value, PropertyOffset cachedOffset);
#endif // USE(JSVALUE32_64)
#if (defined(ASSEMBLER_HAS_CONSTANT_POOL) && ASSEMBLER_HAS_CONSTANT_POOL)
#define BEGIN_UNINTERRUPTED_SEQUENCE(name) do { beginUninterruptedSequence(name ## InstructionSpace, name ## ConstantSpace); } while (false)
#define END_UNINTERRUPTED_SEQUENCE_FOR_PUT(name, dst) do { endUninterruptedSequence(name ## InstructionSpace, name ## ConstantSpace, dst); } while (false)
#define END_UNINTERRUPTED_SEQUENCE(name) END_UNINTERRUPTED_SEQUENCE_FOR_PUT(name, 0)
void beginUninterruptedSequence(int, int);
void endUninterruptedSequence(int, int, int);
#else
#define BEGIN_UNINTERRUPTED_SEQUENCE(name)
#define END_UNINTERRUPTED_SEQUENCE(name)
#define END_UNINTERRUPTED_SEQUENCE_FOR_PUT(name, dst)
#endif
void emit_compareAndJump(OpcodeID, unsigned op1, unsigned op2, unsigned target, RelationalCondition);
void emit_compareAndJumpSlow(unsigned op1, unsigned op2, unsigned target, DoubleCondition, int (JIT_STUB *stub)(STUB_ARGS_DECLARATION), bool invert, Vector<SlowCaseEntry>::iterator&);
void emit_op_add(Instruction*);
void emit_op_bitand(Instruction*);
void emit_op_bitor(Instruction*);
void emit_op_bitxor(Instruction*);
void emit_op_call(Instruction*);
void emit_op_call_eval(Instruction*);
void emit_op_call_varargs(Instruction*);
void emit_op_call_put_result(Instruction*);
void emit_op_catch(Instruction*);
void emit_op_construct(Instruction*);
void emit_op_create_this(Instruction*);
void emit_op_convert_this(Instruction*);
void emit_op_create_arguments(Instruction*);
void emit_op_debug(Instruction*);
void emit_op_del_by_id(Instruction*);
void emit_op_div(Instruction*);
void emit_op_end(Instruction*);
void emit_op_enter(Instruction*);
void emit_op_create_activation(Instruction*);
void emit_op_eq(Instruction*);
void emit_op_eq_null(Instruction*);
void emit_op_get_by_id(Instruction*);
void emit_op_get_arguments_length(Instruction*);
void emit_op_get_by_val(Instruction*);
void emit_op_get_argument_by_val(Instruction*);
void emit_op_get_by_pname(Instruction*);
void emit_op_get_global_var(Instruction*);
void emit_op_get_global_var_watchable(Instruction* instruction) { emit_op_get_global_var(instruction); }
void emit_op_get_scoped_var(Instruction*);
void emit_op_init_lazy_reg(Instruction*);
void emit_op_check_has_instance(Instruction*);
void emit_op_instanceof(Instruction*);
void emit_op_is_undefined(Instruction*);
void emit_op_is_boolean(Instruction*);
void emit_op_is_number(Instruction*);
void emit_op_is_string(Instruction*);
void emit_op_jeq_null(Instruction*);
void emit_op_jfalse(Instruction*);
void emit_op_jmp(Instruction*);
void emit_op_jmp_scopes(Instruction*);
void emit_op_jneq_null(Instruction*);
void emit_op_jneq_ptr(Instruction*);
void emit_op_jless(Instruction*);
void emit_op_jlesseq(Instruction*);
void emit_op_jgreater(Instruction*);
void emit_op_jgreatereq(Instruction*);
void emit_op_jnless(Instruction*);
void emit_op_jnlesseq(Instruction*);
void emit_op_jngreater(Instruction*);
void emit_op_jngreatereq(Instruction*);
void emit_op_jtrue(Instruction*);
void emit_op_loop(Instruction*);
void emit_op_loop_hint(Instruction*);
void emit_op_loop_if_less(Instruction*);
void emit_op_loop_if_lesseq(Instruction*);
void emit_op_loop_if_greater(Instruction*);
void emit_op_loop_if_greatereq(Instruction*);
void emit_op_loop_if_true(Instruction*);
void emit_op_loop_if_false(Instruction*);
void emit_op_lshift(Instruction*);
void emit_op_method_check(Instruction*);
void emit_op_mod(Instruction*);
void emit_op_mov(Instruction*);
void emit_op_mul(Instruction*);
void emit_op_negate(Instruction*);
void emit_op_neq(Instruction*);
void emit_op_neq_null(Instruction*);
void emit_op_new_array(Instruction*);
void emit_op_new_array_buffer(Instruction*);
void emit_op_new_func(Instruction*);
void emit_op_new_func_exp(Instruction*);
void emit_op_new_object(Instruction*);
void emit_op_new_regexp(Instruction*);
void emit_op_get_pnames(Instruction*);
void emit_op_next_pname(Instruction*);
void emit_op_not(Instruction*);
void emit_op_nstricteq(Instruction*);
void emit_op_pop_scope(Instruction*);
void emit_op_post_dec(Instruction*);
void emit_op_post_inc(Instruction*);
void emit_op_pre_dec(Instruction*);
void emit_op_pre_inc(Instruction*);
void emit_op_profile_did_call(Instruction*);
void emit_op_profile_will_call(Instruction*);
void emit_op_push_name_scope(Instruction*);
void emit_op_push_with_scope(Instruction*);
void emit_op_put_by_id(Instruction*);
void emit_op_put_by_index(Instruction*);
void emit_op_put_by_val(Instruction*);
void emit_op_put_getter_setter(Instruction*);
void emit_op_put_global_var(Instruction*);
void emit_op_put_global_var_check(Instruction*);
void emit_op_put_scoped_var(Instruction*);
void emit_op_resolve(Instruction*);
void emit_op_resolve_base(Instruction*);
void emit_op_ensure_property_exists(Instruction*);
void emit_op_resolve_global(Instruction*, bool dynamic = false);
void emit_op_resolve_global_dynamic(Instruction*);
void emit_op_resolve_skip(Instruction*);
void emit_op_resolve_with_base(Instruction*);
void emit_op_resolve_with_this(Instruction*);
void emit_op_ret(Instruction*);
void emit_op_ret_object_or_this(Instruction*);
void emit_op_rshift(Instruction*);
void emit_op_strcat(Instruction*);
void emit_op_stricteq(Instruction*);
void emit_op_sub(Instruction*);
void emit_op_switch_char(Instruction*);
void emit_op_switch_imm(Instruction*);
void emit_op_switch_string(Instruction*);
void emit_op_tear_off_activation(Instruction*);
void emit_op_tear_off_arguments(Instruction*);
void emit_op_throw(Instruction*);
void emit_op_throw_reference_error(Instruction*);
void emit_op_to_jsnumber(Instruction*);
void emit_op_to_primitive(Instruction*);
void emit_op_unexpected_load(Instruction*);
void emit_op_urshift(Instruction*);
void emitSlow_op_add(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_bitand(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_bitor(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_bitxor(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_call(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_call_eval(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_call_varargs(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_construct(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_convert_this(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_create_this(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_div(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_eq(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_get_by_id(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_get_arguments_length(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_get_by_val(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_get_argument_by_val(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_get_by_pname(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_check_has_instance(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_instanceof(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_jfalse(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_jless(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_jlesseq(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_jgreater(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_jgreatereq(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_jnless(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_jnlesseq(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_jngreater(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_jngreatereq(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_jtrue(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_loop_if_less(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_loop_if_lesseq(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_loop_if_greater(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_loop_if_greatereq(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_loop_if_true(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_loop_if_false(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_lshift(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_method_check(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_mod(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_mul(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_negate(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_neq(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_new_object(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_not(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_nstricteq(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_post_dec(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_post_inc(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_pre_dec(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_pre_inc(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_put_by_id(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_put_by_val(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_put_global_var_check(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_resolve_global(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_resolve_global_dynamic(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_rshift(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_stricteq(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_sub(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_to_jsnumber(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_to_primitive(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_urshift(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitSlow_op_new_array(Instruction*, Vector<SlowCaseEntry>::iterator&);
void emitRightShift(Instruction*, bool isUnsigned);
void emitRightShiftSlowCase(Instruction*, Vector<SlowCaseEntry>::iterator&, bool isUnsigned);
/* This function is deprecated. */
void emitGetJITStubArg(unsigned argumentNumber, RegisterID dst);
void emitInitRegister(unsigned dst);
void emitPutToCallFrameHeader(RegisterID from, RegisterFile::CallFrameHeaderEntry entry);
void emitPutCellToCallFrameHeader(RegisterID from, RegisterFile::CallFrameHeaderEntry);
void emitPutIntToCallFrameHeader(RegisterID from, RegisterFile::CallFrameHeaderEntry);
void emitPutImmediateToCallFrameHeader(void* value, RegisterFile::CallFrameHeaderEntry entry);
void emitGetFromCallFrameHeaderPtr(RegisterFile::CallFrameHeaderEntry entry, RegisterID to, RegisterID from = callFrameRegister);
void emitGetFromCallFrameHeader32(RegisterFile::CallFrameHeaderEntry entry, RegisterID to, RegisterID from = callFrameRegister);
JSValue getConstantOperand(unsigned src);
bool isOperandConstantImmediateInt(unsigned src);
bool isOperandConstantImmediateChar(unsigned src);
bool atJumpTarget();
Jump getSlowCase(Vector<SlowCaseEntry>::iterator& iter)
{
return iter++->from;
}
void linkSlowCase(Vector<SlowCaseEntry>::iterator& iter)
{
iter->from.link(this);
++iter;
}
void linkDummySlowCase(Vector<SlowCaseEntry>::iterator& iter)
{
ASSERT(!iter->from.isSet());
++iter;
}
void linkSlowCaseIfNotJSCell(Vector<SlowCaseEntry>::iterator&, int virtualRegisterIndex);
Jump checkStructure(RegisterID reg, Structure* structure);
void restoreArgumentReference();
void restoreArgumentReferenceForTrampoline();
void updateTopCallFrame();
Call emitNakedCall(CodePtr function = CodePtr());
void preserveReturnAddressAfterCall(RegisterID);
void restoreReturnAddressBeforeReturn(RegisterID);
void restoreReturnAddressBeforeReturn(Address);
// Loads the character value of a single character string into dst.
void emitLoadCharacterString(RegisterID src, RegisterID dst, JumpList& failures);
enum OptimizationCheckKind { LoopOptimizationCheck, EnterOptimizationCheck };
#if ENABLE(DFG_JIT)
void emitOptimizationCheck(OptimizationCheckKind);
#else
void emitOptimizationCheck(OptimizationCheckKind) { }
#endif
void emitTimeoutCheck();
#ifndef NDEBUG
void printBytecodeOperandTypes(unsigned src1, unsigned src2);
#endif
#if ENABLE(SAMPLING_FLAGS)
void setSamplingFlag(int32_t);
void clearSamplingFlag(int32_t);
#endif
#if ENABLE(SAMPLING_COUNTERS)
void emitCount(AbstractSamplingCounter&, int32_t = 1);
#endif
#if ENABLE(OPCODE_SAMPLING)
void sampleInstruction(Instruction*, bool = false);
#endif
#if ENABLE(CODEBLOCK_SAMPLING)
void sampleCodeBlock(CodeBlock*);
#else
void sampleCodeBlock(CodeBlock*) {}
#endif
#if ENABLE(DFG_JIT)
bool canBeOptimized() { return m_canBeOptimized; }
bool shouldEmitProfiling() { return m_shouldEmitProfiling; }
#else
bool canBeOptimized() { return false; }
// Enables use of value profiler with tiered compilation turned off,
// in which case all code gets profiled.
bool shouldEmitProfiling() { return true; }
#endif
Interpreter* m_interpreter;
JSGlobalData* m_globalData;
CodeBlock* m_codeBlock;
Vector<CallRecord> m_calls;
Vector<Label> m_labels;
Vector<PropertyStubCompilationInfo> m_propertyAccessCompilationInfo;
Vector<StructureStubCompilationInfo> m_callStructureStubCompilationInfo;
Vector<MethodCallCompilationInfo> m_methodCallCompilationInfo;
Vector<JumpTable> m_jmpTable;
unsigned m_bytecodeOffset;
Vector<SlowCaseEntry> m_slowCases;
Vector<SwitchRecord> m_switches;
unsigned m_propertyAccessInstructionIndex;
unsigned m_globalResolveInfoIndex;
unsigned m_callLinkInfoIndex;
#if USE(JSVALUE32_64)
unsigned m_jumpTargetIndex;
unsigned m_mappedBytecodeOffset;
int m_mappedVirtualRegisterIndex;
RegisterID m_mappedTag;
RegisterID m_mappedPayload;
#else
int m_lastResultBytecodeRegister;
#endif
unsigned m_jumpTargetsPosition;
#ifndef NDEBUG
#if defined(ASSEMBLER_HAS_CONSTANT_POOL) && ASSEMBLER_HAS_CONSTANT_POOL
Label m_uninterruptedInstructionSequenceBegin;
int m_uninterruptedConstantSequenceBegin;
#endif
#endif
WeakRandom m_randomGenerator;
static CodeRef stringGetByValStubGenerator(JSGlobalData*);
#if ENABLE(VALUE_PROFILER)
bool m_canBeOptimized;
bool m_shouldEmitProfiling;
#endif
} JIT_CLASS_ALIGNMENT;
inline void JIT::emit_op_loop(Instruction* currentInstruction)
{
emitTimeoutCheck();
emit_op_jmp(currentInstruction);
}
inline void JIT::emit_op_loop_hint(Instruction*)
{
emitOptimizationCheck(LoopOptimizationCheck);
}
inline void JIT::emit_op_loop_if_true(Instruction* currentInstruction)
{
emitTimeoutCheck();
emit_op_jtrue(currentInstruction);
}
inline void JIT::emitSlow_op_loop_if_true(Instruction* currentInstruction, Vector<SlowCaseEntry>::iterator& iter)
{
emitSlow_op_jtrue(currentInstruction, iter);
}
inline void JIT::emit_op_loop_if_false(Instruction* currentInstruction)
{
emitTimeoutCheck();
emit_op_jfalse(currentInstruction);
}
inline void JIT::emitSlow_op_loop_if_false(Instruction* currentInstruction, Vector<SlowCaseEntry>::iterator& iter)
{
emitSlow_op_jfalse(currentInstruction, iter);
}
inline void JIT::emit_op_loop_if_less(Instruction* currentInstruction)
{
emitTimeoutCheck();
emit_op_jless(currentInstruction);
}
inline void JIT::emitSlow_op_loop_if_less(Instruction* currentInstruction, Vector<SlowCaseEntry>::iterator& iter)
{
emitSlow_op_jless(currentInstruction, iter);
}
inline void JIT::emit_op_loop_if_lesseq(Instruction* currentInstruction)
{
emitTimeoutCheck();
emit_op_jlesseq(currentInstruction);
}
inline void JIT::emitSlow_op_loop_if_lesseq(Instruction* currentInstruction, Vector<SlowCaseEntry>::iterator& iter)
{
emitSlow_op_jlesseq(currentInstruction, iter);
}
inline void JIT::emit_op_loop_if_greater(Instruction* currentInstruction)
{
emitTimeoutCheck();
emit_op_jgreater(currentInstruction);
}
inline void JIT::emitSlow_op_loop_if_greater(Instruction* currentInstruction, Vector<SlowCaseEntry>::iterator& iter)
{
emitSlow_op_jgreater(currentInstruction, iter);
}
inline void JIT::emit_op_loop_if_greatereq(Instruction* currentInstruction)
{
emitTimeoutCheck();
emit_op_jgreatereq(currentInstruction);
}
inline void JIT::emitSlow_op_loop_if_greatereq(Instruction* currentInstruction, Vector<SlowCaseEntry>::iterator& iter)
{
emitSlow_op_jgreatereq(currentInstruction, iter);
}
} // namespace JSC
#endif // ENABLE(JIT)
#endif // JIT_h
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