Source/JavaScriptCore/runtime/JSGlobalData.cpp - WebKit - Git at Google

 /*
  * Copyright (C) 2008, 2011 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.
  * 3.  Neither the name of Apple Computer, Inc. ("Apple") 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 APPLE AND ITS 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 APPLE OR ITS 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.
  */

 #include "config.h"
 #include "JSGlobalData.h"

 #include "ArgList.h"
 #include "Heap.h"
 #include "CommonIdentifiers.h"
 #include "DebuggerActivation.h"
 #include "FunctionConstructor.h"
 #include "GetterSetter.h"
 #include "Interpreter.h"
 #include "JSActivation.h"
 #include "JSAPIValueWrapper.h"
 #include "JSArray.h"
 #include "JSByteArray.h"
 #include "JSClassRef.h"
 #include "JSFunction.h"
 #include "JSLock.h"
 #include "JSNotAnObject.h"
 #include "JSPropertyNameIterator.h"
 #include "JSStaticScopeObject.h"
 #include "Lexer.h"
 #include "Lookup.h"
 #include "Nodes.h"
 #include "ParserArena.h"
 #include "RegExpCache.h"
 #include "RegExpObject.h"
 #include "StrictEvalActivation.h"
 #include "StrongInlines.h"
 #include <wtf/Threading.h>
 #include <wtf/WTFThreadData.h>

 #if ENABLE(REGEXP_TRACING)
 #include "RegExp.h"
 #endif

 #if PLATFORM(MAC)
 #include <CoreFoundation/CoreFoundation.h>
 #endif

 using namespace WTF;

 namespace {

 using namespace JSC;

 class Recompiler : public MarkedBlock::VoidFunctor {
 public:
     void operator()(JSCell*);
 };

 inline void Recompiler::operator()(JSCell* cell)
 {
     if (!cell->inherits(&JSFunction::s_info))
         return;
     JSFunction* function = asFunction(cell);
     if (!function->executable() || function->executable()->isHostFunction())
         return;
     function->jsExecutable()->discardCode();
 }

 } // namespace

 namespace JSC {

 extern const HashTable arrayConstructorTable;
 extern const HashTable arrayPrototypeTable;
 extern const HashTable booleanPrototypeTable;
 extern const HashTable jsonTable;
 extern const HashTable dateTable;
 extern const HashTable dateConstructorTable;
 extern const HashTable errorPrototypeTable;
 extern const HashTable globalObjectTable;
 extern const HashTable mathTable;
 extern const HashTable numberConstructorTable;
 extern const HashTable numberPrototypeTable;
 JS_EXPORTDATA extern const HashTable objectConstructorTable;
 extern const HashTable objectPrototypeTable;
 extern const HashTable regExpTable;
 extern const HashTable regExpConstructorTable;
 extern const HashTable regExpPrototypeTable;
 extern const HashTable stringTable;
 extern const HashTable stringConstructorTable;

 JSGlobalData::JSGlobalData(GlobalDataType globalDataType, ThreadStackType threadStackType, HeapSize heapSize)
     : globalDataType(globalDataType)
     , clientData(0)
     , topCallFrame(CallFrame::noCaller())
     , arrayConstructorTable(fastNew<HashTable>(JSC::arrayConstructorTable))
     , arrayPrototypeTable(fastNew<HashTable>(JSC::arrayPrototypeTable))
     , booleanPrototypeTable(fastNew<HashTable>(JSC::booleanPrototypeTable))
     , dateTable(fastNew<HashTable>(JSC::dateTable))
     , dateConstructorTable(fastNew<HashTable>(JSC::dateConstructorTable))
     , errorPrototypeTable(fastNew<HashTable>(JSC::errorPrototypeTable))
     , globalObjectTable(fastNew<HashTable>(JSC::globalObjectTable))
     , jsonTable(fastNew<HashTable>(JSC::jsonTable))
     , mathTable(fastNew<HashTable>(JSC::mathTable))
     , numberConstructorTable(fastNew<HashTable>(JSC::numberConstructorTable))
     , numberPrototypeTable(fastNew<HashTable>(JSC::numberPrototypeTable))
     , objectConstructorTable(fastNew<HashTable>(JSC::objectConstructorTable))
     , objectPrototypeTable(fastNew<HashTable>(JSC::objectPrototypeTable))
     , regExpTable(fastNew<HashTable>(JSC::regExpTable))
     , regExpConstructorTable(fastNew<HashTable>(JSC::regExpConstructorTable))
     , regExpPrototypeTable(fastNew<HashTable>(JSC::regExpPrototypeTable))
     , stringTable(fastNew<HashTable>(JSC::stringTable))
     , stringConstructorTable(fastNew<HashTable>(JSC::stringConstructorTable))
     , identifierTable(globalDataType == Default ? wtfThreadData().currentIdentifierTable() : createIdentifierTable())
     , propertyNames(new CommonIdentifiers(this))
     , emptyList(new MarkedArgumentBuffer)
 #if ENABLE(ASSEMBLER)
     , executableAllocator(*this)
 #endif
     , parserArena(adoptPtr(new ParserArena))
     , keywords(adoptPtr(new Keywords(this)))
     , interpreter(0)
     , heap(this, heapSize)
 #if ENABLE(DFG_JIT)
     , sizeOfLastScratchBuffer(0)
 #endif
     , dynamicGlobalObject(0)
     , cachedUTCOffset(std::numeric_limits<double>::quiet_NaN())
     , maxReentryDepth(threadStackType == ThreadStackTypeSmall ? MaxSmallThreadReentryDepth : MaxLargeThreadReentryDepth)
     , m_regExpCache(new RegExpCache(this))
 #if ENABLE(REGEXP_TRACING)
     , m_rtTraceList(new RTTraceList())
 #endif
 #ifndef NDEBUG
     , exclusiveThread(0)
 #endif
 #if CPU(X86) && ENABLE(JIT)
     , m_timeoutCount(512)
 #endif
 #if ENABLE(GC_VALIDATION)
     , m_isInitializingObject(false)
 #endif
 {
     interpreter = new Interpreter;

     // Need to be careful to keep everything consistent here
     IdentifierTable* existingEntryIdentifierTable = wtfThreadData().setCurrentIdentifierTable(identifierTable);
     JSLock lock(SilenceAssertionsOnly);
     structureStructure.set(*this, Structure::createStructure(*this));
     debuggerActivationStructure.set(*this, DebuggerActivation::createStructure(*this, 0, jsNull()));
     activationStructure.set(*this, JSActivation::createStructure(*this, 0, jsNull()));
     interruptedExecutionErrorStructure.set(*this, InterruptedExecutionError::createStructure(*this, 0, jsNull()));
     terminatedExecutionErrorStructure.set(*this, TerminatedExecutionError::createStructure(*this, 0, jsNull()));
     staticScopeStructure.set(*this, JSStaticScopeObject::createStructure(*this, 0, jsNull()));
     strictEvalActivationStructure.set(*this, StrictEvalActivation::createStructure(*this, 0, jsNull()));
     stringStructure.set(*this, JSString::createStructure(*this, 0, jsNull()));
     notAnObjectStructure.set(*this, JSNotAnObject::createStructure(*this, 0, jsNull()));
     propertyNameIteratorStructure.set(*this, JSPropertyNameIterator::createStructure(*this, 0, jsNull()));
     getterSetterStructure.set(*this, GetterSetter::createStructure(*this, 0, jsNull()));
     apiWrapperStructure.set(*this, JSAPIValueWrapper::createStructure(*this, 0, jsNull()));
     scopeChainNodeStructure.set(*this, ScopeChainNode::createStructure(*this, 0, jsNull()));
     executableStructure.set(*this, ExecutableBase::createStructure(*this, 0, jsNull()));
     nativeExecutableStructure.set(*this, NativeExecutable::createStructure(*this, 0, jsNull()));
     evalExecutableStructure.set(*this, EvalExecutable::createStructure(*this, 0, jsNull()));
     programExecutableStructure.set(*this, ProgramExecutable::createStructure(*this, 0, jsNull()));
     functionExecutableStructure.set(*this, FunctionExecutable::createStructure(*this, 0, jsNull()));
     regExpStructure.set(*this, RegExp::createStructure(*this, 0, jsNull()));
     structureChainStructure.set(*this, StructureChain::createStructure(*this, 0, jsNull()));

     wtfThreadData().setCurrentIdentifierTable(existingEntryIdentifierTable);

 #if ENABLE(JIT) && ENABLE(CLASSIC_INTERPRETER)
 #if USE(CF)
     CFStringRef canUseJITKey = CFStringCreateWithCString(0 , "JavaScriptCoreUseJIT", kCFStringEncodingMacRoman);
     CFBooleanRef canUseJIT = (CFBooleanRef)CFPreferencesCopyAppValue(canUseJITKey, kCFPreferencesCurrentApplication);
     if (canUseJIT) {
         m_canUseJIT = kCFBooleanTrue == canUseJIT;
         CFRelease(canUseJIT);
     } else {
       char* canUseJITString = getenv("JavaScriptCoreUseJIT");
       m_canUseJIT = !canUseJITString || atoi(canUseJITString);
     }
     CFRelease(canUseJITKey);
 #elif OS(UNIX)
     char* canUseJITString = getenv("JavaScriptCoreUseJIT");
     m_canUseJIT = !canUseJITString || atoi(canUseJITString);
 #else
     m_canUseJIT = true;
 #endif
 #endif
 #if ENABLE(JIT)
 #if ENABLE(CLASSIC_INTERPRETER)
     if (m_canUseJIT)
         m_canUseJIT = executableAllocator.isValid();
 #endif
     jitStubs = adoptPtr(new JITThunks(this));
 #endif

     interpreter->initialize(this->canUseJIT());

     heap.notifyIsSafeToCollect();
 }

 void JSGlobalData::clearBuiltinStructures()
 {
     structureStructure.clear();
     debuggerActivationStructure.clear();
     activationStructure.clear();
     interruptedExecutionErrorStructure.clear();
     terminatedExecutionErrorStructure.clear();
     staticScopeStructure.clear();
     strictEvalActivationStructure.clear();
     stringStructure.clear();
     notAnObjectStructure.clear();
     propertyNameIteratorStructure.clear();
     getterSetterStructure.clear();
     apiWrapperStructure.clear();
     scopeChainNodeStructure.clear();
     executableStructure.clear();
     nativeExecutableStructure.clear();
     evalExecutableStructure.clear();
     programExecutableStructure.clear();
     functionExecutableStructure.clear();
     regExpStructure.clear();
     structureChainStructure.clear();
 }

 JSGlobalData::~JSGlobalData()
 {
     // By the time this is destroyed, heap.destroy() must already have been called.

     delete interpreter;
 #ifndef NDEBUG
     // Zeroing out to make the behavior more predictable when someone attempts to use a deleted instance.
     interpreter = 0;
 #endif

     arrayPrototypeTable->deleteTable();
     arrayConstructorTable->deleteTable();
     booleanPrototypeTable->deleteTable();
     dateTable->deleteTable();
     dateConstructorTable->deleteTable();
     errorPrototypeTable->deleteTable();
     globalObjectTable->deleteTable();
     jsonTable->deleteTable();
     mathTable->deleteTable();
     numberConstructorTable->deleteTable();
     numberPrototypeTable->deleteTable();
     objectConstructorTable->deleteTable();
     objectPrototypeTable->deleteTable();
     regExpTable->deleteTable();
     regExpConstructorTable->deleteTable();
     regExpPrototypeTable->deleteTable();
     stringTable->deleteTable();
     stringConstructorTable->deleteTable();

     fastDelete(const_cast<HashTable*>(arrayConstructorTable));
     fastDelete(const_cast<HashTable*>(arrayPrototypeTable));
     fastDelete(const_cast<HashTable*>(booleanPrototypeTable));
     fastDelete(const_cast<HashTable*>(dateTable));
     fastDelete(const_cast<HashTable*>(dateConstructorTable));
     fastDelete(const_cast<HashTable*>(errorPrototypeTable));
     fastDelete(const_cast<HashTable*>(globalObjectTable));
     fastDelete(const_cast<HashTable*>(jsonTable));
     fastDelete(const_cast<HashTable*>(mathTable));
     fastDelete(const_cast<HashTable*>(numberConstructorTable));
     fastDelete(const_cast<HashTable*>(numberPrototypeTable));
     fastDelete(const_cast<HashTable*>(objectConstructorTable));
     fastDelete(const_cast<HashTable*>(objectPrototypeTable));
     fastDelete(const_cast<HashTable*>(regExpTable));
     fastDelete(const_cast<HashTable*>(regExpConstructorTable));
     fastDelete(const_cast<HashTable*>(regExpPrototypeTable));
     fastDelete(const_cast<HashTable*>(stringTable));
     fastDelete(const_cast<HashTable*>(stringConstructorTable));

     opaqueJSClassData.clear();

     delete emptyList;

     delete propertyNames;
     if (globalDataType != Default)
         deleteIdentifierTable(identifierTable);

     delete clientData;
     delete m_regExpCache;
 #if ENABLE(REGEXP_TRACING)
     delete m_rtTraceList;
 #endif

 #if ENABLE(DFG_JIT)
     for (unsigned i = 0; i < scratchBuffers.size(); ++i)
         fastFree(scratchBuffers[i]);
 #endif
 }

 PassRefPtr<JSGlobalData> JSGlobalData::createContextGroup(ThreadStackType type, HeapSize heapSize)
 {
     return adoptRef(new JSGlobalData(APIContextGroup, type, heapSize));
 }

 PassRefPtr<JSGlobalData> JSGlobalData::create(ThreadStackType type, HeapSize heapSize)
 {
     return adoptRef(new JSGlobalData(Default, type, heapSize));
 }

 PassRefPtr<JSGlobalData> JSGlobalData::createLeaked(ThreadStackType type, HeapSize heapSize)
 {
     return create(type, heapSize);
 }

 bool JSGlobalData::sharedInstanceExists()
 {
     return sharedInstanceInternal();
 }

 JSGlobalData& JSGlobalData::sharedInstance()
 {
     JSGlobalData*& instance = sharedInstanceInternal();
     if (!instance) {
         instance = adoptRef(new JSGlobalData(APIShared, ThreadStackTypeSmall, SmallHeap)).leakRef();
         instance->makeUsableFromMultipleThreads();
     }
     return *instance;
 }

 JSGlobalData*& JSGlobalData::sharedInstanceInternal()
 {
     ASSERT(JSLock::currentThreadIsHoldingLock());
     static JSGlobalData* sharedInstance;
     return sharedInstance;
 }

 #if ENABLE(JIT)
 static ThunkGenerator thunkGeneratorForIntrinsic(Intrinsic intrinsic)
 {
     switch (intrinsic) {
     case CharCodeAtIntrinsic:
         return charCodeAtThunkGenerator;
     case CharAtIntrinsic:
         return charAtThunkGenerator;
     case FromCharCodeIntrinsic:
         return fromCharCodeThunkGenerator;
     case SqrtIntrinsic:
         return sqrtThunkGenerator;
     case PowIntrinsic:
         return powThunkGenerator;
     case AbsIntrinsic:
         return absThunkGenerator;
     case FloorIntrinsic:
         return floorThunkGenerator;
     case CeilIntrinsic:
         return ceilThunkGenerator;
     case RoundIntrinsic:
         return roundThunkGenerator;
     case ExpIntrinsic:
         return expThunkGenerator;
     case LogIntrinsic:
         return logThunkGenerator;
     default:
         return 0;
     }
 }

 NativeExecutable* JSGlobalData::getHostFunction(NativeFunction function, NativeFunction constructor)
 {
 #if ENABLE(CLASSIC_INTERPRETER)
     if (!canUseJIT())
         return NativeExecutable::create(*this, function, constructor);
 #endif
     return jitStubs->hostFunctionStub(this, function, constructor);
 }
 NativeExecutable* JSGlobalData::getHostFunction(NativeFunction function, Intrinsic intrinsic)
 {
     ASSERT(canUseJIT());
     return jitStubs->hostFunctionStub(this, function, intrinsic != NoIntrinsic ? thunkGeneratorForIntrinsic(intrinsic) : 0, intrinsic);
 }
 #else
 NativeExecutable* JSGlobalData::getHostFunction(NativeFunction function, NativeFunction constructor)
 {
     return NativeExecutable::create(*this, function, constructor);
 }
 #endif

 JSGlobalData::ClientData::~ClientData()
 {
 }

 void JSGlobalData::resetDateCache()
 {
     cachedUTCOffset = std::numeric_limits<double>::quiet_NaN();
     dstOffsetCache.reset();
     cachedDateString = UString();
     cachedDateStringValue = std::numeric_limits<double>::quiet_NaN();
     dateInstanceCache.reset();
 }

 void JSGlobalData::startSampling()
 {
     interpreter->startSampling();
 }

 void JSGlobalData::stopSampling()
 {
     interpreter->stopSampling();
 }

 void JSGlobalData::dumpSampleData(ExecState* exec)
 {
     interpreter->dumpSampleData(exec);
 #if ENABLE(ASSEMBLER)
     ExecutableAllocator::dumpProfile();
 #endif
 }

 void JSGlobalData::recompileAllJSFunctions()
 {
     // If JavaScript is running, it's not safe to recompile, since we'll end
     // up throwing away code that is live on the stack.
     ASSERT(!dynamicGlobalObject);

     heap.objectSpace().forEachCell<Recompiler>();
 }

 struct StackPreservingRecompiler : public MarkedBlock::VoidFunctor {
     HashSet<FunctionExecutable*> currentlyExecutingFunctions;
     void operator()(JSCell* cell)
     {
         if (!cell->inherits(&FunctionExecutable::s_info))
             return;
         FunctionExecutable* executable = jsCast<FunctionExecutable*>(cell);
         if (currentlyExecutingFunctions.contains(executable))
             return;
         executable->discardCode();
     }
 };

 void JSGlobalData::releaseExecutableMemory()
 {
     if (dynamicGlobalObject) {
         StackPreservingRecompiler recompiler;
         HashSet<JSCell*> roots;
         heap.getConservativeRegisterRoots(roots);
         HashSet<JSCell*>::iterator end = roots.end();
         for (HashSet<JSCell*>::iterator ptr = roots.begin(); ptr != end; ++ptr) {
             ScriptExecutable* executable = 0;
             JSCell* cell = *ptr;
             if (cell->inherits(&ScriptExecutable::s_info))
                 executable = static_cast<ScriptExecutable*>(*ptr);
             else if (cell->inherits(&JSFunction::s_info)) {
                 JSFunction* function = asFunction(*ptr);
                 if (function->isHostFunction())
                     continue;
                 executable = function->jsExecutable();
             } else
                 continue;
             ASSERT(executable->inherits(&ScriptExecutable::s_info));
             executable->unlinkCalls();
             if (executable->inherits(&FunctionExecutable::s_info))
                 recompiler.currentlyExecutingFunctions.add(static_cast<FunctionExecutable*>(executable));

         }
         heap.objectSpace().forEachCell<StackPreservingRecompiler>(recompiler);
     }
     m_regExpCache->invalidateCode();
     heap.collectAllGarbage();
 }

 void releaseExecutableMemory(JSGlobalData& globalData)
 {
     globalData.releaseExecutableMemory();
 }

 #if ENABLE(REGEXP_TRACING)
 void JSGlobalData::addRegExpToTrace(RegExp* regExp)
 {
     m_rtTraceList->add(regExp);
 }

 void JSGlobalData::dumpRegExpTrace()
 {
     // The first RegExp object is ignored.  It is create by the RegExpPrototype ctor and not used.
     RTTraceList::iterator iter = ++m_rtTraceList->begin();

     if (iter != m_rtTraceList->end()) {
         dataLog("\nRegExp Tracing\n");
         dataLog("                                                            match()    matches\n");
         dataLog("Regular Expression                          JIT Address      calls      found\n");
         dataLog("----------------------------------------+----------------+----------+----------\n");

         unsigned reCount = 0;

         for (; iter != m_rtTraceList->end(); ++iter, ++reCount)
             (*iter)->printTraceData();

         dataLog("%d Regular Expressions\n", reCount);
     }

     m_rtTraceList->clear();
 }
 #else
 void JSGlobalData::dumpRegExpTrace()
 {
 }
 #endif

 } // namespace JSC
	/*
	* Copyright (C) 2008, 2011 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.
	* 3. Neither the name of Apple Computer, Inc. ("Apple") 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 APPLE AND ITS 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 APPLE OR ITS 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.
	*/

	#include "config.h"
	#include "JSGlobalData.h"

	#include "ArgList.h"
	#include "Heap.h"
	#include "CommonIdentifiers.h"
	#include "DebuggerActivation.h"
	#include "FunctionConstructor.h"
	#include "GetterSetter.h"
	#include "Interpreter.h"
	#include "JSActivation.h"
	#include "JSAPIValueWrapper.h"
	#include "JSArray.h"
	#include "JSByteArray.h"
	#include "JSClassRef.h"
	#include "JSFunction.h"
	#include "JSLock.h"
	#include "JSNotAnObject.h"
	#include "JSPropertyNameIterator.h"
	#include "JSStaticScopeObject.h"
	#include "Lexer.h"
	#include "Lookup.h"
	#include "Nodes.h"
	#include "ParserArena.h"
	#include "RegExpCache.h"
	#include "RegExpObject.h"
	#include "StrictEvalActivation.h"
	#include "StrongInlines.h"
	#include <wtf/Threading.h>
	#include <wtf/WTFThreadData.h>

	#if ENABLE(REGEXP_TRACING)
	#include "RegExp.h"
	#endif

	#if PLATFORM(MAC)
	#include <CoreFoundation/CoreFoundation.h>
	#endif

	using namespace WTF;

	namespace {

	using namespace JSC;

	class Recompiler : public MarkedBlock::VoidFunctor {
	public:
	void operator()(JSCell*);
	};

	inline void Recompiler::operator()(JSCell* cell)
	{
	if (!cell->inherits(&JSFunction::s_info))
	return;
	JSFunction* function = asFunction(cell);
	if (!function->executable() \|\| function->executable()->isHostFunction())
	return;
	function->jsExecutable()->discardCode();
	}

	} // namespace

	namespace JSC {

	extern const HashTable arrayConstructorTable;
	extern const HashTable arrayPrototypeTable;
	extern const HashTable booleanPrototypeTable;
	extern const HashTable jsonTable;
	extern const HashTable dateTable;
	extern const HashTable dateConstructorTable;
	extern const HashTable errorPrototypeTable;
	extern const HashTable globalObjectTable;
	extern const HashTable mathTable;
	extern const HashTable numberConstructorTable;
	extern const HashTable numberPrototypeTable;
	JS_EXPORTDATA extern const HashTable objectConstructorTable;
	extern const HashTable objectPrototypeTable;
	extern const HashTable regExpTable;
	extern const HashTable regExpConstructorTable;
	extern const HashTable regExpPrototypeTable;
	extern const HashTable stringTable;
	extern const HashTable stringConstructorTable;

	JSGlobalData::JSGlobalData(GlobalDataType globalDataType, ThreadStackType threadStackType, HeapSize heapSize)
	: globalDataType(globalDataType)
	, clientData(0)
	, topCallFrame(CallFrame::noCaller())
	, arrayConstructorTable(fastNew<HashTable>(JSC::arrayConstructorTable))
	, arrayPrototypeTable(fastNew<HashTable>(JSC::arrayPrototypeTable))
	, booleanPrototypeTable(fastNew<HashTable>(JSC::booleanPrototypeTable))
	, dateTable(fastNew<HashTable>(JSC::dateTable))
	, dateConstructorTable(fastNew<HashTable>(JSC::dateConstructorTable))
	, errorPrototypeTable(fastNew<HashTable>(JSC::errorPrototypeTable))
	, globalObjectTable(fastNew<HashTable>(JSC::globalObjectTable))
	, jsonTable(fastNew<HashTable>(JSC::jsonTable))
	, mathTable(fastNew<HashTable>(JSC::mathTable))
	, numberConstructorTable(fastNew<HashTable>(JSC::numberConstructorTable))
	, numberPrototypeTable(fastNew<HashTable>(JSC::numberPrototypeTable))
	, objectConstructorTable(fastNew<HashTable>(JSC::objectConstructorTable))
	, objectPrototypeTable(fastNew<HashTable>(JSC::objectPrototypeTable))
	, regExpTable(fastNew<HashTable>(JSC::regExpTable))
	, regExpConstructorTable(fastNew<HashTable>(JSC::regExpConstructorTable))
	, regExpPrototypeTable(fastNew<HashTable>(JSC::regExpPrototypeTable))
	, stringTable(fastNew<HashTable>(JSC::stringTable))
	, stringConstructorTable(fastNew<HashTable>(JSC::stringConstructorTable))
	, identifierTable(globalDataType == Default ? wtfThreadData().currentIdentifierTable() : createIdentifierTable())
	, propertyNames(new CommonIdentifiers(this))
	, emptyList(new MarkedArgumentBuffer)
	#if ENABLE(ASSEMBLER)
	, executableAllocator(*this)
	#endif
	, parserArena(adoptPtr(new ParserArena))
	, keywords(adoptPtr(new Keywords(this)))
	, interpreter(0)
	, heap(this, heapSize)
	#if ENABLE(DFG_JIT)
	, sizeOfLastScratchBuffer(0)
	#endif
	, dynamicGlobalObject(0)
	, cachedUTCOffset(std::numeric_limits<double>::quiet_NaN())
	, maxReentryDepth(threadStackType == ThreadStackTypeSmall ? MaxSmallThreadReentryDepth : MaxLargeThreadReentryDepth)
	, m_regExpCache(new RegExpCache(this))
	#if ENABLE(REGEXP_TRACING)
	, m_rtTraceList(new RTTraceList())
	#endif
	#ifndef NDEBUG
	, exclusiveThread(0)
	#endif
	#if CPU(X86) && ENABLE(JIT)
	, m_timeoutCount(512)
	#endif
	#if ENABLE(GC_VALIDATION)
	, m_isInitializingObject(false)
	#endif
	{
	interpreter = new Interpreter;

	// Need to be careful to keep everything consistent here
	IdentifierTable* existingEntryIdentifierTable = wtfThreadData().setCurrentIdentifierTable(identifierTable);
	JSLock lock(SilenceAssertionsOnly);
	structureStructure.set(this, Structure::createStructure(this));
	debuggerActivationStructure.set(this, DebuggerActivation::createStructure(this, 0, jsNull()));
	activationStructure.set(this, JSActivation::createStructure(this, 0, jsNull()));
	interruptedExecutionErrorStructure.set(this, InterruptedExecutionError::createStructure(this, 0, jsNull()));
	terminatedExecutionErrorStructure.set(this, TerminatedExecutionError::createStructure(this, 0, jsNull()));
	staticScopeStructure.set(this, JSStaticScopeObject::createStructure(this, 0, jsNull()));
	strictEvalActivationStructure.set(this, StrictEvalActivation::createStructure(this, 0, jsNull()));
	stringStructure.set(this, JSString::createStructure(this, 0, jsNull()));
	notAnObjectStructure.set(this, JSNotAnObject::createStructure(this, 0, jsNull()));
	propertyNameIteratorStructure.set(this, JSPropertyNameIterator::createStructure(this, 0, jsNull()));
	getterSetterStructure.set(this, GetterSetter::createStructure(this, 0, jsNull()));
	apiWrapperStructure.set(this, JSAPIValueWrapper::createStructure(this, 0, jsNull()));
	scopeChainNodeStructure.set(this, ScopeChainNode::createStructure(this, 0, jsNull()));
	executableStructure.set(this, ExecutableBase::createStructure(this, 0, jsNull()));
	nativeExecutableStructure.set(this, NativeExecutable::createStructure(this, 0, jsNull()));
	evalExecutableStructure.set(this, EvalExecutable::createStructure(this, 0, jsNull()));
	programExecutableStructure.set(this, ProgramExecutable::createStructure(this, 0, jsNull()));
	functionExecutableStructure.set(this, FunctionExecutable::createStructure(this, 0, jsNull()));
	regExpStructure.set(this, RegExp::createStructure(this, 0, jsNull()));
	structureChainStructure.set(this, StructureChain::createStructure(this, 0, jsNull()));

	wtfThreadData().setCurrentIdentifierTable(existingEntryIdentifierTable);

	#if ENABLE(JIT) && ENABLE(CLASSIC_INTERPRETER)
	#if USE(CF)
	CFStringRef canUseJITKey = CFStringCreateWithCString(0 , "JavaScriptCoreUseJIT", kCFStringEncodingMacRoman);
	CFBooleanRef canUseJIT = (CFBooleanRef)CFPreferencesCopyAppValue(canUseJITKey, kCFPreferencesCurrentApplication);
	if (canUseJIT) {
	m_canUseJIT = kCFBooleanTrue == canUseJIT;
	CFRelease(canUseJIT);
	} else {
	char* canUseJITString = getenv("JavaScriptCoreUseJIT");
	m_canUseJIT = !canUseJITString \|\| atoi(canUseJITString);
	}
	CFRelease(canUseJITKey);
	#elif OS(UNIX)
	char* canUseJITString = getenv("JavaScriptCoreUseJIT");
	m_canUseJIT = !canUseJITString \|\| atoi(canUseJITString);
	#else
	m_canUseJIT = true;
	#endif
	#endif
	#if ENABLE(JIT)
	#if ENABLE(CLASSIC_INTERPRETER)
	if (m_canUseJIT)
	m_canUseJIT = executableAllocator.isValid();
	#endif
	jitStubs = adoptPtr(new JITThunks(this));
	#endif

	interpreter->initialize(this->canUseJIT());

	heap.notifyIsSafeToCollect();
	}

	void JSGlobalData::clearBuiltinStructures()
	{
	structureStructure.clear();
	debuggerActivationStructure.clear();
	activationStructure.clear();
	interruptedExecutionErrorStructure.clear();
	terminatedExecutionErrorStructure.clear();
	staticScopeStructure.clear();
	strictEvalActivationStructure.clear();
	stringStructure.clear();
	notAnObjectStructure.clear();
	propertyNameIteratorStructure.clear();
	getterSetterStructure.clear();
	apiWrapperStructure.clear();
	scopeChainNodeStructure.clear();
	executableStructure.clear();
	nativeExecutableStructure.clear();
	evalExecutableStructure.clear();
	programExecutableStructure.clear();
	functionExecutableStructure.clear();
	regExpStructure.clear();
	structureChainStructure.clear();
	}

	JSGlobalData::~JSGlobalData()
	{
	// By the time this is destroyed, heap.destroy() must already have been called.

	delete interpreter;
	#ifndef NDEBUG
	// Zeroing out to make the behavior more predictable when someone attempts to use a deleted instance.
	interpreter = 0;
	#endif

	arrayPrototypeTable->deleteTable();
	arrayConstructorTable->deleteTable();
	booleanPrototypeTable->deleteTable();
	dateTable->deleteTable();
	dateConstructorTable->deleteTable();
	errorPrototypeTable->deleteTable();
	globalObjectTable->deleteTable();
	jsonTable->deleteTable();
	mathTable->deleteTable();
	numberConstructorTable->deleteTable();
	numberPrototypeTable->deleteTable();
	objectConstructorTable->deleteTable();
	objectPrototypeTable->deleteTable();
	regExpTable->deleteTable();
	regExpConstructorTable->deleteTable();
	regExpPrototypeTable->deleteTable();
	stringTable->deleteTable();
	stringConstructorTable->deleteTable();

	fastDelete(const_cast<HashTable*>(arrayConstructorTable));
	fastDelete(const_cast<HashTable*>(arrayPrototypeTable));
	fastDelete(const_cast<HashTable*>(booleanPrototypeTable));
	fastDelete(const_cast<HashTable*>(dateTable));
	fastDelete(const_cast<HashTable*>(dateConstructorTable));
	fastDelete(const_cast<HashTable*>(errorPrototypeTable));
	fastDelete(const_cast<HashTable*>(globalObjectTable));
	fastDelete(const_cast<HashTable*>(jsonTable));
	fastDelete(const_cast<HashTable*>(mathTable));
	fastDelete(const_cast<HashTable*>(numberConstructorTable));
	fastDelete(const_cast<HashTable*>(numberPrototypeTable));
	fastDelete(const_cast<HashTable*>(objectConstructorTable));
	fastDelete(const_cast<HashTable*>(objectPrototypeTable));
	fastDelete(const_cast<HashTable*>(regExpTable));
	fastDelete(const_cast<HashTable*>(regExpConstructorTable));
	fastDelete(const_cast<HashTable*>(regExpPrototypeTable));
	fastDelete(const_cast<HashTable*>(stringTable));
	fastDelete(const_cast<HashTable*>(stringConstructorTable));

	opaqueJSClassData.clear();

	delete emptyList;

	delete propertyNames;
	if (globalDataType != Default)
	deleteIdentifierTable(identifierTable);

	delete clientData;
	delete m_regExpCache;
	#if ENABLE(REGEXP_TRACING)
	delete m_rtTraceList;
	#endif

	#if ENABLE(DFG_JIT)
	for (unsigned i = 0; i < scratchBuffers.size(); ++i)
	fastFree(scratchBuffers[i]);
	#endif
	}

	PassRefPtr<JSGlobalData> JSGlobalData::createContextGroup(ThreadStackType type, HeapSize heapSize)
	{
	return adoptRef(new JSGlobalData(APIContextGroup, type, heapSize));
	}

	PassRefPtr<JSGlobalData> JSGlobalData::create(ThreadStackType type, HeapSize heapSize)
	{
	return adoptRef(new JSGlobalData(Default, type, heapSize));
	}

	PassRefPtr<JSGlobalData> JSGlobalData::createLeaked(ThreadStackType type, HeapSize heapSize)
	{
	return create(type, heapSize);
	}

	bool JSGlobalData::sharedInstanceExists()
	{
	return sharedInstanceInternal();
	}

	JSGlobalData& JSGlobalData::sharedInstance()
	{
	JSGlobalData*& instance = sharedInstanceInternal();
	if (!instance) {
	instance = adoptRef(new JSGlobalData(APIShared, ThreadStackTypeSmall, SmallHeap)).leakRef();
	instance->makeUsableFromMultipleThreads();
	}
	return *instance;
	}

	JSGlobalData*& JSGlobalData::sharedInstanceInternal()
	{
	ASSERT(JSLock::currentThreadIsHoldingLock());
	static JSGlobalData* sharedInstance;
	return sharedInstance;
	}

	#if ENABLE(JIT)
	static ThunkGenerator thunkGeneratorForIntrinsic(Intrinsic intrinsic)
	{
	switch (intrinsic) {
	case CharCodeAtIntrinsic:
	return charCodeAtThunkGenerator;
	case CharAtIntrinsic:
	return charAtThunkGenerator;
	case FromCharCodeIntrinsic:
	return fromCharCodeThunkGenerator;
	case SqrtIntrinsic:
	return sqrtThunkGenerator;
	case PowIntrinsic:
	return powThunkGenerator;
	case AbsIntrinsic:
	return absThunkGenerator;
	case FloorIntrinsic:
	return floorThunkGenerator;
	case CeilIntrinsic:
	return ceilThunkGenerator;
	case RoundIntrinsic:
	return roundThunkGenerator;
	case ExpIntrinsic:
	return expThunkGenerator;
	case LogIntrinsic:
	return logThunkGenerator;
	default:
	return 0;
	}
	}

	NativeExecutable* JSGlobalData::getHostFunction(NativeFunction function, NativeFunction constructor)
	{
	#if ENABLE(CLASSIC_INTERPRETER)
	if (!canUseJIT())
	return NativeExecutable::create(*this, function, constructor);
	#endif
	return jitStubs->hostFunctionStub(this, function, constructor);
	}
	NativeExecutable* JSGlobalData::getHostFunction(NativeFunction function, Intrinsic intrinsic)
	{
	ASSERT(canUseJIT());
	return jitStubs->hostFunctionStub(this, function, intrinsic != NoIntrinsic ? thunkGeneratorForIntrinsic(intrinsic) : 0, intrinsic);
	}
	#else
	NativeExecutable* JSGlobalData::getHostFunction(NativeFunction function, NativeFunction constructor)
	{
	return NativeExecutable::create(*this, function, constructor);
	}
	#endif

	JSGlobalData::ClientData::~ClientData()
	{
	}

	void JSGlobalData::resetDateCache()
	{
	cachedUTCOffset = std::numeric_limits<double>::quiet_NaN();
	dstOffsetCache.reset();
	cachedDateString = UString();
	cachedDateStringValue = std::numeric_limits<double>::quiet_NaN();
	dateInstanceCache.reset();
	}

	void JSGlobalData::startSampling()
	{
	interpreter->startSampling();
	}

	void JSGlobalData::stopSampling()
	{
	interpreter->stopSampling();
	}

	void JSGlobalData::dumpSampleData(ExecState* exec)
	{
	interpreter->dumpSampleData(exec);
	#if ENABLE(ASSEMBLER)
	ExecutableAllocator::dumpProfile();
	#endif
	}

	void JSGlobalData::recompileAllJSFunctions()
	{
	// If JavaScript is running, it's not safe to recompile, since we'll end
	// up throwing away code that is live on the stack.
	ASSERT(!dynamicGlobalObject);

	heap.objectSpace().forEachCell<Recompiler>();
	}

	struct StackPreservingRecompiler : public MarkedBlock::VoidFunctor {
	HashSet<FunctionExecutable*> currentlyExecutingFunctions;
	void operator()(JSCell* cell)
	{
	if (!cell->inherits(&FunctionExecutable::s_info))
	return;
	FunctionExecutable* executable = jsCast<FunctionExecutable*>(cell);
	if (currentlyExecutingFunctions.contains(executable))
	return;
	executable->discardCode();
	}
	};

	void JSGlobalData::releaseExecutableMemory()
	{
	if (dynamicGlobalObject) {
	StackPreservingRecompiler recompiler;
	HashSet<JSCell*> roots;
	heap.getConservativeRegisterRoots(roots);
	HashSet<JSCell*>::iterator end = roots.end();
	for (HashSet<JSCell*>::iterator ptr = roots.begin(); ptr != end; ++ptr) {
	ScriptExecutable* executable = 0;
	JSCell* cell = *ptr;
	if (cell->inherits(&ScriptExecutable::s_info))
	executable = static_cast<ScriptExecutable>(ptr);
	else if (cell->inherits(&JSFunction::s_info)) {
	JSFunction* function = asFunction(*ptr);
	if (function->isHostFunction())
	continue;
	executable = function->jsExecutable();
	} else
	continue;
	ASSERT(executable->inherits(&ScriptExecutable::s_info));
	executable->unlinkCalls();
	if (executable->inherits(&FunctionExecutable::s_info))
	recompiler.currentlyExecutingFunctions.add(static_cast<FunctionExecutable*>(executable));

	}
	heap.objectSpace().forEachCell<StackPreservingRecompiler>(recompiler);
	}
	m_regExpCache->invalidateCode();
	heap.collectAllGarbage();
	}

	void releaseExecutableMemory(JSGlobalData& globalData)
	{
	globalData.releaseExecutableMemory();
	}

	#if ENABLE(REGEXP_TRACING)
	void JSGlobalData::addRegExpToTrace(RegExp* regExp)
	{
	m_rtTraceList->add(regExp);
	}

	void JSGlobalData::dumpRegExpTrace()
	{
	// The first RegExp object is ignored. It is create by the RegExpPrototype ctor and not used.
	RTTraceList::iterator iter = ++m_rtTraceList->begin();

	if (iter != m_rtTraceList->end()) {
	dataLog("\nRegExp Tracing\n");
	dataLog(" match() matches\n");
	dataLog("Regular Expression JIT Address calls found\n");
	dataLog("----------------------------------------+----------------+----------+----------\n");

	unsigned reCount = 0;

	for (; iter != m_rtTraceList->end(); ++iter, ++reCount)
	(*iter)->printTraceData();

	dataLog("%d Regular Expressions\n", reCount);
	}

	m_rtTraceList->clear();
	}
	#else
	void JSGlobalData::dumpRegExpTrace()
	{
	}
	#endif

	} // namespace JSC