Source/JavaScriptCore/runtime/FunctionExecutable.h - WebKit - Git at Google

 /*
  * Copyright (C) 2009-2021 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.
  */

 #pragma once

 #include "ExecutableToCodeBlockEdge.h"
 #include "ScriptExecutable.h"
 #include "SourceCode.h"
 #include <wtf/Box.h>
 #include <wtf/Markable.h>

 namespace JSC {

 struct FunctionOverrideInfo;

 class FunctionExecutable final : public ScriptExecutable {
     friend class JIT;
     friend class LLIntOffsetsExtractor;
 public:
     typedef ScriptExecutable Base;
     static constexpr unsigned StructureFlags = Base::StructureFlags | StructureIsImmortal;

     template<typename CellType, SubspaceAccess>
     static IsoSubspace* subspaceFor(VM& vm)
     {
         return &vm.functionExecutableSpace.space;
     }

     static FunctionExecutable* create(VM& vm, ScriptExecutable* topLevelExecutable, const SourceCode& source, UnlinkedFunctionExecutable* unlinkedExecutable, Intrinsic intrinsic, bool isInsideOrdinaryFunction)
     {
         FunctionExecutable* executable = new (NotNull, allocateCell<FunctionExecutable>(vm.heap)) FunctionExecutable(vm, source, unlinkedExecutable, intrinsic, isInsideOrdinaryFunction);
         executable->finishCreation(vm, topLevelExecutable);
         return executable;
     }
     static FunctionExecutable* fromGlobalCode(
         const Identifier& name, JSGlobalObject*, const SourceCode&,
         JSObject*& exception, int overrideLineNumber, std::optional<int> functionConstructorParametersEndPosition);

     static void destroy(JSCell*);

     UnlinkedFunctionExecutable* unlinkedExecutable() const
     {
         return m_unlinkedExecutable.get();
     }

     // Returns either call or construct bytecode. This can be appropriate
     // for answering questions that that don't vary between call and construct --
     // for example, argumentsRegister().
     FunctionCodeBlock* eitherCodeBlock()
     {
         ExecutableToCodeBlockEdge* edge;
         if (m_codeBlockForCall)
             edge = m_codeBlockForCall.get();
         else
             edge = m_codeBlockForConstruct.get();
         return bitwise_cast<FunctionCodeBlock*>(ExecutableToCodeBlockEdge::unwrap(edge));
     }

     bool isGeneratedForCall() const
     {
         return !!m_codeBlockForCall;
     }

     FunctionCodeBlock* codeBlockForCall()
     {
         return bitwise_cast<FunctionCodeBlock*>(ExecutableToCodeBlockEdge::unwrap(m_codeBlockForCall.get()));
     }

     bool isGeneratedForConstruct() const
     {
         return !!m_codeBlockForConstruct;
     }

     FunctionCodeBlock* codeBlockForConstruct()
     {
         return bitwise_cast<FunctionCodeBlock*>(ExecutableToCodeBlockEdge::unwrap(m_codeBlockForConstruct.get()));
     }

     bool isGeneratedFor(CodeSpecializationKind kind)
     {
         if (kind == CodeForCall)
             return isGeneratedForCall();
         ASSERT(kind == CodeForConstruct);
         return isGeneratedForConstruct();
     }

     FunctionCodeBlock* codeBlockFor(CodeSpecializationKind kind)
     {
         if (kind == CodeForCall)
             return codeBlockForCall();
         ASSERT(kind == CodeForConstruct);
         return codeBlockForConstruct();
     }

     FunctionCodeBlock* baselineCodeBlockFor(CodeSpecializationKind);

     FunctionCodeBlock* profiledCodeBlockFor(CodeSpecializationKind kind)
     {
         return baselineCodeBlockFor(kind);
     }

     RefPtr<TypeSet> returnStatementTypeSet()
     {
         RareData& rareData = ensureRareData();
         if (!rareData.m_returnStatementTypeSet)
             rareData.m_returnStatementTypeSet = TypeSet::create();
         return rareData.m_returnStatementTypeSet;
     }

     FunctionMode functionMode() { return m_unlinkedExecutable->functionMode(); }
     bool isBuiltinFunction() const { return m_unlinkedExecutable->isBuiltinFunction(); }
     ConstructAbility constructAbility() const { return m_unlinkedExecutable->constructAbility(); }
     bool isClass() const { return m_unlinkedExecutable->isClass(); }
     bool isArrowFunction() const { return parseMode() == SourceParseMode::ArrowFunctionMode; }
     bool isGetter() const { return parseMode() == SourceParseMode::GetterMode; }
     bool isSetter() const { return parseMode() == SourceParseMode::SetterMode; }
     bool isGenerator() const { return isGeneratorParseMode(parseMode()); }
     bool isAsyncGenerator() const { return isAsyncGeneratorParseMode(parseMode()); }
     bool isMethod() const { return parseMode() == SourceParseMode::MethodMode; }
     bool hasPrototypeProperty() const
     {
         return SourceParseModeSet(
             SourceParseMode::NormalFunctionMode,
             SourceParseMode::GeneratorBodyMode,
             SourceParseMode::GeneratorWrapperFunctionMode,
             SourceParseMode::GeneratorWrapperMethodMode,
             SourceParseMode::AsyncGeneratorWrapperFunctionMode,
             SourceParseMode::AsyncGeneratorWrapperMethodMode,
             SourceParseMode::AsyncGeneratorBodyMode
         ).contains(parseMode()) || isClass();
     }
     DerivedContextType derivedContextType() const { return m_unlinkedExecutable->derivedContextType(); }
     bool isClassConstructorFunction() const { return m_unlinkedExecutable->isClassConstructorFunction(); }
     const Identifier& name() { return m_unlinkedExecutable->name(); }
     const Identifier& ecmaName() { return m_unlinkedExecutable->ecmaName(); }
     unsigned parameterCount() const { return m_unlinkedExecutable->parameterCount(); } // Excluding 'this'!
     SourceParseMode parseMode() const { return m_unlinkedExecutable->parseMode(); }
     JSParserScriptMode scriptMode() const { return m_unlinkedExecutable->scriptMode(); }
     SourceCode classSource() const { return m_unlinkedExecutable->classSource(); }

     DECLARE_VISIT_CHILDREN;
     static Structure* createStructure(VM& vm, JSGlobalObject* globalObject, JSValue proto)
     {
         return Structure::create(vm, globalObject, proto, TypeInfo(FunctionExecutableType, StructureFlags), info());
     }

     void setOverrideLineNumber(int overrideLineNumber)
     {
         if (overrideLineNumber == -1) {
             if (UNLIKELY(m_rareData))
                 m_rareData->m_overrideLineNumber = std::nullopt;
             return;
         }
         ensureRareData().m_overrideLineNumber = overrideLineNumber;
     }

     std::optional<int> overrideLineNumber() const
     {
         if (UNLIKELY(m_rareData))
             return m_rareData->m_overrideLineNumber;
         return std::nullopt;
     }

     int lineCount() const
     {
         if (UNLIKELY(m_rareData))
             return m_rareData->m_lineCount;
         return m_unlinkedExecutable->lineCount();
     }

     int endColumn() const
     {
         if (UNLIKELY(m_rareData))
             return m_rareData->m_endColumn;
         return m_unlinkedExecutable->linkedEndColumn(m_source.startColumn().oneBasedInt());
     }

     int firstLine() const
     {
         return source().firstLine().oneBasedInt();
     }

     int lastLine() const
     {
         return firstLine() + lineCount();
     }

     unsigned typeProfilingStartOffset(VM&) const
     {
         return typeProfilingStartOffset();
     }

     unsigned typeProfilingStartOffset() const
     {
         if (UNLIKELY(m_rareData))
             return m_rareData->m_typeProfilingStartOffset;
         return m_unlinkedExecutable->typeProfilingStartOffset();
     }

     unsigned typeProfilingEndOffset(VM&) const
     {
         return typeProfilingEndOffset();
     }

     unsigned typeProfilingEndOffset() const
     {
         if (UNLIKELY(m_rareData))
             return m_rareData->m_typeProfilingEndOffset;
         return m_unlinkedExecutable->typeProfilingEndOffset();
     }

     unsigned parametersStartOffset() const
     {
         if (UNLIKELY(m_rareData))
             return m_rareData->m_parametersStartOffset;
         return m_unlinkedExecutable->parametersStartOffset();
     }

     void overrideInfo(const FunctionOverrideInfo&);

     DECLARE_INFO;

     InferredValue<JSFunction>& singleton()
     {
         return m_singleton;
     }

     void notifyCreation(VM& vm, JSFunction* function, const char* reason)
     {
         m_singleton.notifyWrite(vm, this, function, reason);
     }

     // Cached poly proto structure for the result of constructing this executable.
     Structure* cachedPolyProtoStructure()
     {
         if (UNLIKELY(m_rareData))
             return m_rareData->m_cachedPolyProtoStructure.get();
         return nullptr;
     }
     void setCachedPolyProtoStructure(VM& vm, Structure* structure)
     {
         ensureRareData().m_cachedPolyProtoStructure.set(vm, this, structure);
     }

     InlineWatchpointSet& ensurePolyProtoWatchpoint()
     {
         if (!m_polyProtoWatchpoint)
             m_polyProtoWatchpoint = Box<InlineWatchpointSet>::create(IsWatched);
         return *m_polyProtoWatchpoint;
     }

     Box<InlineWatchpointSet> sharedPolyProtoWatchpoint() const { return m_polyProtoWatchpoint; }

     ScriptExecutable* topLevelExecutable() const { return m_topLevelExecutable.get(); }

     TemplateObjectMap& ensureTemplateObjectMap(VM&);

     void finalizeUnconditionally(VM&);

     JSString* toString(JSGlobalObject*);
     JSString* asStringConcurrently() const
     {
         if (!m_rareData)
             return nullptr;
         return m_rareData->m_asString.get();
     }

     static inline ptrdiff_t offsetOfRareData() { return OBJECT_OFFSETOF(FunctionExecutable, m_rareData); }
     static inline ptrdiff_t offsetOfAsStringInRareData() { return OBJECT_OFFSETOF(RareData, m_asString); }
     static inline ptrdiff_t offsetOfCodeBlockForCall() { return OBJECT_OFFSETOF(FunctionExecutable, m_codeBlockForCall); }
     static inline ptrdiff_t offsetOfCodeBlockForConstruct() { return OBJECT_OFFSETOF(FunctionExecutable, m_codeBlockForConstruct); }

 private:
     friend class ExecutableBase;
     FunctionExecutable(VM&, const SourceCode&, UnlinkedFunctionExecutable*, Intrinsic, bool isInsideOrdinaryFunction);

     void finishCreation(VM&, ScriptExecutable* topLevelExecutable);

     friend class ScriptExecutable;

     struct RareData {
         WTF_MAKE_STRUCT_FAST_ALLOCATED;
         RefPtr<TypeSet> m_returnStatementTypeSet;
         unsigned m_lineCount;
         unsigned m_endColumn;
         Markable<int, IntegralMarkableTraits<int, -1>> m_overrideLineNumber;
         unsigned m_parametersStartOffset { 0 };
         unsigned m_typeProfilingStartOffset { UINT_MAX };
         unsigned m_typeProfilingEndOffset { UINT_MAX };
         std::unique_ptr<TemplateObjectMap> m_templateObjectMap;
         WriteBarrier<Structure> m_cachedPolyProtoStructure;
         WriteBarrier<JSString> m_asString;
     };

     RareData& ensureRareData()
     {
         if (LIKELY(m_rareData))
             return *m_rareData;
         return ensureRareDataSlow();
     }
     RareData& ensureRareDataSlow();

     JSString* toStringSlow(JSGlobalObject*);

     // FIXME: We can merge rareData pointer and top-level executable pointer. First time, setting parent.
     // If RareData is required, materialize RareData, swap it, and store top-level executable pointer inside RareData.
     // https://bugs.webkit.org/show_bug.cgi?id=197625
     std::unique_ptr<RareData> m_rareData;
     WriteBarrier<ScriptExecutable> m_topLevelExecutable;
     WriteBarrier<UnlinkedFunctionExecutable> m_unlinkedExecutable;
     WriteBarrier<ExecutableToCodeBlockEdge> m_codeBlockForCall;
     WriteBarrier<ExecutableToCodeBlockEdge> m_codeBlockForConstruct;
     InferredValue<JSFunction> m_singleton;
     Box<InlineWatchpointSet> m_polyProtoWatchpoint;
 };

 } // namespace JSC
	/*
	* Copyright (C) 2009-2021 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.
	*/

	#pragma once

	#include "ExecutableToCodeBlockEdge.h"
	#include "ScriptExecutable.h"
	#include "SourceCode.h"
	#include <wtf/Box.h>
	#include <wtf/Markable.h>

	namespace JSC {

	struct FunctionOverrideInfo;

	class FunctionExecutable final : public ScriptExecutable {
	friend class JIT;
	friend class LLIntOffsetsExtractor;
	public:
	typedef ScriptExecutable Base;
	static constexpr unsigned StructureFlags = Base::StructureFlags \| StructureIsImmortal;

	template<typename CellType, SubspaceAccess>
	static IsoSubspace* subspaceFor(VM& vm)
	{
	return &vm.functionExecutableSpace.space;
	}

	static FunctionExecutable* create(VM& vm, ScriptExecutable* topLevelExecutable, const SourceCode& source, UnlinkedFunctionExecutable* unlinkedExecutable, Intrinsic intrinsic, bool isInsideOrdinaryFunction)
	{
	FunctionExecutable* executable = new (NotNull, allocateCell<FunctionExecutable>(vm.heap)) FunctionExecutable(vm, source, unlinkedExecutable, intrinsic, isInsideOrdinaryFunction);
	executable->finishCreation(vm, topLevelExecutable);
	return executable;
	}
	static FunctionExecutable* fromGlobalCode(
	const Identifier& name, JSGlobalObject*, const SourceCode&,
	JSObject*& exception, int overrideLineNumber, std::optional<int> functionConstructorParametersEndPosition);

	static void destroy(JSCell*);

	UnlinkedFunctionExecutable* unlinkedExecutable() const
	{
	return m_unlinkedExecutable.get();
	}

	// Returns either call or construct bytecode. This can be appropriate
	// for answering questions that that don't vary between call and construct --
	// for example, argumentsRegister().
	FunctionCodeBlock* eitherCodeBlock()
	{
	ExecutableToCodeBlockEdge* edge;
	if (m_codeBlockForCall)
	edge = m_codeBlockForCall.get();
	else
	edge = m_codeBlockForConstruct.get();
	return bitwise_cast<FunctionCodeBlock*>(ExecutableToCodeBlockEdge::unwrap(edge));
	}

	bool isGeneratedForCall() const
	{
	return !!m_codeBlockForCall;
	}

	FunctionCodeBlock* codeBlockForCall()
	{
	return bitwise_cast<FunctionCodeBlock*>(ExecutableToCodeBlockEdge::unwrap(m_codeBlockForCall.get()));
	}

	bool isGeneratedForConstruct() const
	{
	return !!m_codeBlockForConstruct;
	}

	FunctionCodeBlock* codeBlockForConstruct()
	{
	return bitwise_cast<FunctionCodeBlock*>(ExecutableToCodeBlockEdge::unwrap(m_codeBlockForConstruct.get()));
	}

	bool isGeneratedFor(CodeSpecializationKind kind)
	{
	if (kind == CodeForCall)
	return isGeneratedForCall();
	ASSERT(kind == CodeForConstruct);
	return isGeneratedForConstruct();
	}

	FunctionCodeBlock* codeBlockFor(CodeSpecializationKind kind)
	{
	if (kind == CodeForCall)
	return codeBlockForCall();
	ASSERT(kind == CodeForConstruct);
	return codeBlockForConstruct();
	}

	FunctionCodeBlock* baselineCodeBlockFor(CodeSpecializationKind);

	FunctionCodeBlock* profiledCodeBlockFor(CodeSpecializationKind kind)
	{
	return baselineCodeBlockFor(kind);
	}

	RefPtr<TypeSet> returnStatementTypeSet()
	{
	RareData& rareData = ensureRareData();
	if (!rareData.m_returnStatementTypeSet)
	rareData.m_returnStatementTypeSet = TypeSet::create();
	return rareData.m_returnStatementTypeSet;
	}

	FunctionMode functionMode() { return m_unlinkedExecutable->functionMode(); }
	bool isBuiltinFunction() const { return m_unlinkedExecutable->isBuiltinFunction(); }
	ConstructAbility constructAbility() const { return m_unlinkedExecutable->constructAbility(); }
	bool isClass() const { return m_unlinkedExecutable->isClass(); }
	bool isArrowFunction() const { return parseMode() == SourceParseMode::ArrowFunctionMode; }
	bool isGetter() const { return parseMode() == SourceParseMode::GetterMode; }
	bool isSetter() const { return parseMode() == SourceParseMode::SetterMode; }
	bool isGenerator() const { return isGeneratorParseMode(parseMode()); }
	bool isAsyncGenerator() const { return isAsyncGeneratorParseMode(parseMode()); }
	bool isMethod() const { return parseMode() == SourceParseMode::MethodMode; }
	bool hasPrototypeProperty() const
	{
	return SourceParseModeSet(
	SourceParseMode::NormalFunctionMode,
	SourceParseMode::GeneratorBodyMode,
	SourceParseMode::GeneratorWrapperFunctionMode,
	SourceParseMode::GeneratorWrapperMethodMode,
	SourceParseMode::AsyncGeneratorWrapperFunctionMode,
	SourceParseMode::AsyncGeneratorWrapperMethodMode,
	SourceParseMode::AsyncGeneratorBodyMode
	).contains(parseMode()) \|\| isClass();
	}
	DerivedContextType derivedContextType() const { return m_unlinkedExecutable->derivedContextType(); }
	bool isClassConstructorFunction() const { return m_unlinkedExecutable->isClassConstructorFunction(); }
	const Identifier& name() { return m_unlinkedExecutable->name(); }
	const Identifier& ecmaName() { return m_unlinkedExecutable->ecmaName(); }
	unsigned parameterCount() const { return m_unlinkedExecutable->parameterCount(); } // Excluding 'this'!
	SourceParseMode parseMode() const { return m_unlinkedExecutable->parseMode(); }
	JSParserScriptMode scriptMode() const { return m_unlinkedExecutable->scriptMode(); }
	SourceCode classSource() const { return m_unlinkedExecutable->classSource(); }

	DECLARE_VISIT_CHILDREN;
	static Structure* createStructure(VM& vm, JSGlobalObject* globalObject, JSValue proto)
	{
	return Structure::create(vm, globalObject, proto, TypeInfo(FunctionExecutableType, StructureFlags), info());
	}

	void setOverrideLineNumber(int overrideLineNumber)
	{
	if (overrideLineNumber == -1) {
	if (UNLIKELY(m_rareData))
	m_rareData->m_overrideLineNumber = std::nullopt;
	return;
	}
	ensureRareData().m_overrideLineNumber = overrideLineNumber;
	}

	std::optional<int> overrideLineNumber() const
	{
	if (UNLIKELY(m_rareData))
	return m_rareData->m_overrideLineNumber;
	return std::nullopt;
	}

	int lineCount() const
	{
	if (UNLIKELY(m_rareData))
	return m_rareData->m_lineCount;
	return m_unlinkedExecutable->lineCount();
	}

	int endColumn() const
	{
	if (UNLIKELY(m_rareData))
	return m_rareData->m_endColumn;
	return m_unlinkedExecutable->linkedEndColumn(m_source.startColumn().oneBasedInt());
	}

	int firstLine() const
	{
	return source().firstLine().oneBasedInt();
	}

	int lastLine() const
	{
	return firstLine() + lineCount();
	}

	unsigned typeProfilingStartOffset(VM&) const
	{
	return typeProfilingStartOffset();
	}

	unsigned typeProfilingStartOffset() const
	{
	if (UNLIKELY(m_rareData))
	return m_rareData->m_typeProfilingStartOffset;
	return m_unlinkedExecutable->typeProfilingStartOffset();
	}

	unsigned typeProfilingEndOffset(VM&) const
	{
	return typeProfilingEndOffset();
	}

	unsigned typeProfilingEndOffset() const
	{
	if (UNLIKELY(m_rareData))
	return m_rareData->m_typeProfilingEndOffset;
	return m_unlinkedExecutable->typeProfilingEndOffset();
	}

	unsigned parametersStartOffset() const
	{
	if (UNLIKELY(m_rareData))
	return m_rareData->m_parametersStartOffset;
	return m_unlinkedExecutable->parametersStartOffset();
	}

	void overrideInfo(const FunctionOverrideInfo&);

	DECLARE_INFO;

	InferredValue<JSFunction>& singleton()
	{
	return m_singleton;
	}

	void notifyCreation(VM& vm, JSFunction* function, const char* reason)
	{
	m_singleton.notifyWrite(vm, this, function, reason);
	}

	// Cached poly proto structure for the result of constructing this executable.
	Structure* cachedPolyProtoStructure()
	{
	if (UNLIKELY(m_rareData))
	return m_rareData->m_cachedPolyProtoStructure.get();
	return nullptr;
	}
	void setCachedPolyProtoStructure(VM& vm, Structure* structure)
	{
	ensureRareData().m_cachedPolyProtoStructure.set(vm, this, structure);
	}

	InlineWatchpointSet& ensurePolyProtoWatchpoint()
	{
	if (!m_polyProtoWatchpoint)
	m_polyProtoWatchpoint = Box<InlineWatchpointSet>::create(IsWatched);
	return *m_polyProtoWatchpoint;
	}

	Box<InlineWatchpointSet> sharedPolyProtoWatchpoint() const { return m_polyProtoWatchpoint; }

	ScriptExecutable* topLevelExecutable() const { return m_topLevelExecutable.get(); }

	TemplateObjectMap& ensureTemplateObjectMap(VM&);

	void finalizeUnconditionally(VM&);

	JSString* toString(JSGlobalObject*);
	JSString* asStringConcurrently() const
	{
	if (!m_rareData)
	return nullptr;
	return m_rareData->m_asString.get();
	}

	static inline ptrdiff_t offsetOfRareData() { return OBJECT_OFFSETOF(FunctionExecutable, m_rareData); }
	static inline ptrdiff_t offsetOfAsStringInRareData() { return OBJECT_OFFSETOF(RareData, m_asString); }
	static inline ptrdiff_t offsetOfCodeBlockForCall() { return OBJECT_OFFSETOF(FunctionExecutable, m_codeBlockForCall); }
	static inline ptrdiff_t offsetOfCodeBlockForConstruct() { return OBJECT_OFFSETOF(FunctionExecutable, m_codeBlockForConstruct); }

	private:
	friend class ExecutableBase;
	FunctionExecutable(VM&, const SourceCode&, UnlinkedFunctionExecutable*, Intrinsic, bool isInsideOrdinaryFunction);

	void finishCreation(VM&, ScriptExecutable* topLevelExecutable);

	friend class ScriptExecutable;

	struct RareData {
	WTF_MAKE_STRUCT_FAST_ALLOCATED;
	RefPtr<TypeSet> m_returnStatementTypeSet;
	unsigned m_lineCount;
	unsigned m_endColumn;
	Markable<int, IntegralMarkableTraits<int, -1>> m_overrideLineNumber;
	unsigned m_parametersStartOffset { 0 };
	unsigned m_typeProfilingStartOffset { UINT_MAX };
	unsigned m_typeProfilingEndOffset { UINT_MAX };
	std::unique_ptr<TemplateObjectMap> m_templateObjectMap;
	WriteBarrier<Structure> m_cachedPolyProtoStructure;
	WriteBarrier<JSString> m_asString;
	};

	RareData& ensureRareData()
	{
	if (LIKELY(m_rareData))
	return *m_rareData;
	return ensureRareDataSlow();
	}
	RareData& ensureRareDataSlow();

	JSString* toStringSlow(JSGlobalObject*);

	// FIXME: We can merge rareData pointer and top-level executable pointer. First time, setting parent.
	// If RareData is required, materialize RareData, swap it, and store top-level executable pointer inside RareData.
	// https://bugs.webkit.org/show_bug.cgi?id=197625
	std::unique_ptr<RareData> m_rareData;
	WriteBarrier<ScriptExecutable> m_topLevelExecutable;
	WriteBarrier<UnlinkedFunctionExecutable> m_unlinkedExecutable;
	WriteBarrier<ExecutableToCodeBlockEdge> m_codeBlockForCall;
	WriteBarrier<ExecutableToCodeBlockEdge> m_codeBlockForConstruct;
	InferredValue<JSFunction> m_singleton;
	Box<InlineWatchpointSet> m_polyProtoWatchpoint;
	};

	} // namespace JSC