Source/JavaScriptCore/bytecode/UnlinkedCodeBlock.h - WebKit - Git at Google

 /*
  * Copyright (C) 2012-2021 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 "ArithProfile.h"
 #include "ArrayProfile.h"
 #include "BytecodeConventions.h"
 #include "CodeType.h"
 #include "DFGExitProfile.h"
 #include "ExecutionCounter.h"
 #include "ExpressionRangeInfo.h"
 #include "HandlerInfo.h"
 #include "Identifier.h"
 #include "InstructionStream.h"
 #include "JSCast.h"
 #include "Opcode.h"
 #include "ParserModes.h"
 #include "RegExp.h"
 #include "UnlinkedFunctionExecutable.h"
 #include "UnlinkedMetadataTable.h"
 #include "ValueProfile.h"
 #include "VirtualRegister.h"
 #include <algorithm>
 #include <wtf/BitVector.h>
 #include <wtf/FixedVector.h>
 #include <wtf/RobinHoodHashMap.h>
 #include <wtf/TriState.h>
 #include <wtf/Vector.h>
 #include <wtf/text/UniquedStringImpl.h>

 namespace JSC {

 class BytecodeLivenessAnalysis;
 class BytecodeRewriter;
 class CodeBlock;
 class Debugger;
 class FunctionExecutable;
 class ParserError;
 class ScriptExecutable;
 class SourceCode;
 class SourceProvider;
 class UnlinkedCodeBlock;
 class UnlinkedCodeBlockGenerator;
 class UnlinkedFunctionCodeBlock;
 class UnlinkedFunctionExecutable;
 class BaselineJITCode;
 struct ExecutableInfo;
 enum class LinkTimeConstant : int32_t;

 template<typename CodeBlockType>
 class CachedCodeBlock;

 typedef unsigned UnlinkedArrayAllocationProfile;
 typedef unsigned UnlinkedObjectAllocationProfile;
 typedef unsigned UnlinkedLLIntCallLinkInfo;

 struct UnlinkedStringJumpTable {
     struct OffsetLocation {
         int32_t m_branchOffset;
         unsigned m_indexInTable;
     };

     using StringOffsetTable = MemoryCompactLookupOnlyRobinHoodHashMap<RefPtr<StringImpl>, OffsetLocation>;
     StringOffsetTable m_offsetTable;

     inline int32_t offsetForValue(StringImpl* value, int32_t defaultOffset) const
     {
         auto loc = m_offsetTable.find(value);
         if (loc == m_offsetTable.end())
             return defaultOffset;
         return loc->value.m_branchOffset;
     }

     inline unsigned indexForValue(StringImpl* value, unsigned defaultIndex) const
     {
         auto loc = m_offsetTable.find(value);
         if (loc == m_offsetTable.end())
             return defaultIndex;
         return loc->value.m_indexInTable;
     }
 };

 struct UnlinkedSimpleJumpTable {
     FixedVector<int32_t> m_branchOffsets;
     int32_t m_min;

     inline int32_t offsetForValue(int32_t value, int32_t defaultOffset) const
     {
         if (value >= m_min && static_cast<uint32_t>(value - m_min) < m_branchOffsets.size()) {
             int32_t offset = m_branchOffsets[value - m_min];
             if (offset)
                 return offset;
         }
         return defaultOffset;
     }

     void add(int32_t key, int32_t offset)
     {
         if (!m_branchOffsets[key])
             m_branchOffsets[key] = offset;
     }
 };

 class UnlinkedCodeBlock : public JSCell {
 public:
     typedef JSCell Base;
     static constexpr unsigned StructureFlags = Base::StructureFlags;

     static constexpr bool needsDestruction = true;

     template<typename, SubspaceAccess>
     static void subspaceFor(VM&)
     {
         RELEASE_ASSERT_NOT_REACHED();
     }

     friend class LLIntOffsetsExtractor;

     enum { CallFunction, ApplyFunction };

     void initializeLoopHintExecutionCounter();

     bool isConstructor() const { return m_isConstructor; }
     bool usesCallEval() const { return m_usesCallEval; }
     void setUsesCallEval() { m_usesCallEval = true; }
     SourceParseMode parseMode() const { return m_parseMode; }
     bool isArrowFunction() const { return isArrowFunctionParseMode(parseMode()); }
     DerivedContextType derivedContextType() const { return static_cast<DerivedContextType>(m_derivedContextType); }
     EvalContextType evalContextType() const { return static_cast<EvalContextType>(m_evalContextType); }
     bool isArrowFunctionContext() const { return m_isArrowFunctionContext; }
     bool isClassContext() const { return m_isClassContext; }
     bool hasTailCalls() const { return m_hasTailCalls; }
     void setHasTailCalls() { m_hasTailCalls = true; }
     bool allowDirectEvalCache() const { return !(m_features & NoEvalCacheFeature); }

     bool hasExpressionInfo() { return m_expressionInfo.size(); }
     const FixedVector<ExpressionRangeInfo>& expressionInfo() { return m_expressionInfo; }

     bool hasCheckpoints() const { return m_hasCheckpoints; }
     void setHasCheckpoints() { m_hasCheckpoints = true; }

     // Special registers
     void setThisRegister(VirtualRegister thisRegister) { m_thisRegister = thisRegister; }
     void setScopeRegister(VirtualRegister scopeRegister) { m_scopeRegister = scopeRegister; }

     // Parameter information
     void setNumParameters(int newValue) { m_numParameters = newValue; }
     unsigned numParameters() const { return m_numParameters; }

     // Constant Pools

     size_t numberOfIdentifiers() const { return m_identifiers.size(); }
     const Identifier& identifier(int index) const { return m_identifiers[index]; }
     const FixedVector<Identifier>& identifiers() const { return m_identifiers; }

     BitVector& bitVector(size_t i) { ASSERT(m_rareData); return m_rareData->m_bitVectors[i]; }

     const FixedVector<WriteBarrier<Unknown>>& constantRegisters() { return m_constantRegisters; }
     const WriteBarrier<Unknown>& constantRegister(VirtualRegister reg) const { return m_constantRegisters[reg.toConstantIndex()]; }
     WriteBarrier<Unknown>& constantRegister(VirtualRegister reg) { return m_constantRegisters[reg.toConstantIndex()]; }
     ALWAYS_INLINE JSValue getConstant(VirtualRegister reg) const { return m_constantRegisters[reg.toConstantIndex()].get(); }
     const FixedVector<SourceCodeRepresentation>& constantsSourceCodeRepresentation() { return m_constantsSourceCodeRepresentation; }

     SourceCodeRepresentation constantSourceCodeRepresentation(VirtualRegister reg) const
     {
         return constantSourceCodeRepresentation(reg.toConstantIndex());
     }
     SourceCodeRepresentation constantSourceCodeRepresentation(unsigned index) const
     {
         if (index < m_constantsSourceCodeRepresentation.size())
             return m_constantsSourceCodeRepresentation[index];
         return SourceCodeRepresentation::Other;
     }

     unsigned numberOfConstantIdentifierSets() const { return m_rareData ? m_rareData->m_constantIdentifierSets.size() : 0; }
     const FixedVector<IdentifierSet>& constantIdentifierSets() { ASSERT(m_rareData); return m_rareData->m_constantIdentifierSets; }

     // Jumps
     size_t numberOfJumpTargets() const { return m_jumpTargets.size(); }
     unsigned jumpTarget(int index) const { return m_jumpTargets[index]; }
     unsigned lastJumpTarget() const { return m_jumpTargets.last(); }

     UnlinkedHandlerInfo* handlerForBytecodeIndex(BytecodeIndex, RequiredHandler = RequiredHandler::AnyHandler);
     UnlinkedHandlerInfo* handlerForIndex(unsigned, RequiredHandler = RequiredHandler::AnyHandler);

     bool isBuiltinFunction() const { return m_isBuiltinFunction; }

     ConstructorKind constructorKind() const { return static_cast<ConstructorKind>(m_constructorKind); }
     SuperBinding superBinding() const { return static_cast<SuperBinding>(m_superBinding); }
     JSParserScriptMode scriptMode() const { return static_cast<JSParserScriptMode>(m_scriptMode); }

     const InstructionStream& instructions() const;
     const Instruction* instructionAt(BytecodeIndex index) const { return instructions().at(index).ptr(); }
     unsigned bytecodeOffset(const Instruction* instruction)
     {
         const auto* instructionsBegin = instructions().at(0).ptr();
         const auto* instructionsEnd = reinterpret_cast<const Instruction*>(reinterpret_cast<uintptr_t>(instructionsBegin) + instructions().size());
         RELEASE_ASSERT(instruction >= instructionsBegin && instruction < instructionsEnd);
         return instruction - instructionsBegin;
     }
     unsigned instructionsSize() const { return instructions().size(); }

     unsigned numCalleeLocals() const { return m_numCalleeLocals; }
     unsigned numVars() const { return m_numVars; }

     // Jump Tables

     size_t numberOfUnlinkedSwitchJumpTables() const { return m_rareData ? m_rareData->m_unlinkedSwitchJumpTables.size() : 0; }
     const UnlinkedSimpleJumpTable& unlinkedSwitchJumpTable(int tableIndex) const { ASSERT(m_rareData); return m_rareData->m_unlinkedSwitchJumpTables[tableIndex]; }

     size_t numberOfUnlinkedStringSwitchJumpTables() const { return m_rareData ? m_rareData->m_unlinkedStringSwitchJumpTables.size() : 0; }
     const UnlinkedStringJumpTable& unlinkedStringSwitchJumpTable(int tableIndex) const { ASSERT(m_rareData); return m_rareData->m_unlinkedStringSwitchJumpTables[tableIndex]; }

     UnlinkedFunctionExecutable* functionDecl(int index) { return m_functionDecls[index].get(); }
     size_t numberOfFunctionDecls() { return m_functionDecls.size(); }
     UnlinkedFunctionExecutable* functionExpr(int index) { return m_functionExprs[index].get(); }
     size_t numberOfFunctionExprs() { return m_functionExprs.size(); }

     // Exception handling support
     size_t numberOfExceptionHandlers() const { return m_rareData ? m_rareData->m_exceptionHandlers.size() : 0; }
     UnlinkedHandlerInfo& exceptionHandler(int index) { ASSERT(m_rareData); return m_rareData->m_exceptionHandlers[index]; }

     CodeType codeType() const { return static_cast<CodeType>(m_codeType); }

     VirtualRegister thisRegister() const { return m_thisRegister; }
     VirtualRegister scopeRegister() const { return m_scopeRegister; }

     bool hasRareData() const { return m_rareData.get(); }

     int lineNumberForBytecodeIndex(BytecodeIndex);

     void expressionRangeForBytecodeIndex(BytecodeIndex, int& divot,
         int& startOffset, int& endOffset, unsigned& line, unsigned& column) const;

     bool typeProfilerExpressionInfoForBytecodeOffset(unsigned bytecodeOffset, unsigned& startDivot, unsigned& endDivot);

     void recordParse(CodeFeatures features, LexicalScopeFeatures lexicalScopeFeatures, bool hasCapturedVariables, unsigned lineCount, unsigned endColumn)
     {
         m_features = features;
         m_lexicalScopeFeatures = lexicalScopeFeatures;
         m_hasCapturedVariables = hasCapturedVariables;
         m_lineCount = lineCount;
         // For the UnlinkedCodeBlock, startColumn is always 0.
         m_endColumn = endColumn;
     }

     StringImpl* sourceURLDirective() const { return m_sourceURLDirective.get(); }
     StringImpl* sourceMappingURLDirective() const { return m_sourceMappingURLDirective.get(); }
     void setSourceURLDirective(const String& sourceURL) { m_sourceURLDirective = sourceURL.impl(); }
     void setSourceMappingURLDirective(const String& sourceMappingURL) { m_sourceMappingURLDirective = sourceMappingURL.impl(); }

     CodeFeatures codeFeatures() const { return m_features; }
     LexicalScopeFeatures lexicalScopeFeatures() const { return static_cast<LexicalScopeFeatures>(m_lexicalScopeFeatures); }
     bool hasCapturedVariables() const { return m_hasCapturedVariables; }
     unsigned lineCount() const { return m_lineCount; }
     ALWAYS_INLINE unsigned startColumn() const { return 0; }
     unsigned endColumn() const { return m_endColumn; }

     const FixedVector<InstructionStream::Offset>& opProfileControlFlowBytecodeOffsets() const
     {
         ASSERT(m_rareData);
         return m_rareData->m_opProfileControlFlowBytecodeOffsets;
     }
     bool hasOpProfileControlFlowBytecodeOffsets() const
     {
         return m_rareData && !m_rareData->m_opProfileControlFlowBytecodeOffsets.isEmpty();
     }

     void dumpExpressionRangeInfo(); // For debugging purpose only.

     bool wasCompiledWithDebuggingOpcodes() const { return m_codeGenerationMode.contains(CodeGenerationMode::Debugger); }
     bool wasCompiledWithTypeProfilerOpcodes() const { return m_codeGenerationMode.contains(CodeGenerationMode::TypeProfiler); }
     bool wasCompiledWithControlFlowProfilerOpcodes() const { return m_codeGenerationMode.contains(CodeGenerationMode::ControlFlowProfiler); }
     OptionSet<CodeGenerationMode> codeGenerationMode() const { return m_codeGenerationMode; }

     TriState didOptimize() const { return static_cast<TriState>(m_didOptimize); }
     void setDidOptimize(TriState didOptimize) { m_didOptimize = static_cast<unsigned>(didOptimize); }

     static constexpr unsigned maxAge = 7;

     unsigned age() const { return m_age; }
     void resetAge() { m_age = 0; }

     NeedsClassFieldInitializer needsClassFieldInitializer() const
     {
         if (m_rareData)
             return static_cast<NeedsClassFieldInitializer>(m_rareData->m_needsClassFieldInitializer);
         return NeedsClassFieldInitializer::No;
     }

     PrivateBrandRequirement privateBrandRequirement() const
     {
         if (m_rareData)
             return static_cast<PrivateBrandRequirement>(m_rareData->m_privateBrandRequirement);
         return PrivateBrandRequirement::None;
     }

     void dump(PrintStream&) const;

     BytecodeLivenessAnalysis& livenessAnalysis(CodeBlock* codeBlock)
     {
         if (m_liveness)
             return *m_liveness;
         return livenessAnalysisSlow(codeBlock);
     }

 #if ENABLE(DFG_JIT)
     bool hasExitSite(const ConcurrentJSLocker& locker, const DFG::FrequentExitSite& site) const
     {
         return m_exitProfile.hasExitSite(locker, site);
     }

     bool hasExitSite(const DFG::FrequentExitSite& site)
     {
         ConcurrentJSLocker locker(m_lock);
         return hasExitSite(locker, site);
     }

     DFG::ExitProfile& exitProfile() { return m_exitProfile; }
 #endif

     UnlinkedMetadataTable& metadata() { return m_metadata.get(); }

     size_t metadataSizeInBytes()
     {
         return m_metadata->sizeInBytes();
     }

     bool loopHintsAreEligibleForFuzzingEarlyReturn()
     {
         // Some builtins are required to always complete the loops they run.
         return !isBuiltinFunction();
     }
     void allocateSharedProfiles(unsigned numBinaryArithProfiles, unsigned numUnaryArithProfiles);
     UnlinkedValueProfile& unlinkedValueProfile(unsigned index) { return m_valueProfiles[index]; }
     UnlinkedArrayProfile& unlinkedArrayProfile(unsigned index) { return m_arrayProfiles[index]; }
     unsigned numberOfValueProfiles() const { return m_valueProfiles.size(); }
     unsigned numberOfArrayProfiles() const { return m_arrayProfiles.size(); }

 #if ASSERT_ENABLED
     bool hasIdentifier(UniquedStringImpl*);
 #endif

     int32_t thresholdForJIT(int32_t threshold);

 protected:
     UnlinkedCodeBlock(VM&, Structure*, CodeType, const ExecutableInfo&, OptionSet<CodeGenerationMode>);

     template<typename CodeBlockType>
     UnlinkedCodeBlock(Decoder&, Structure*, const CachedCodeBlock<CodeBlockType>&);

     ~UnlinkedCodeBlock();

     void finishCreation(VM& vm)
     {
         Base::finishCreation(vm);
     }

 private:
     friend class BytecodeRewriter;
     friend class UnlinkedCodeBlockGenerator;
     template<typename Traits>
     friend class BytecodeGeneratorBase;

     template<typename CodeBlockType>
     friend class CachedCodeBlock;

     void createRareDataIfNecessary(const AbstractLocker&)
     {
         if (!m_rareData)
             m_rareData = makeUnique<RareData>();
     }

     void getLineAndColumn(const ExpressionRangeInfo&, unsigned& line, unsigned& column) const;
     BytecodeLivenessAnalysis& livenessAnalysisSlow(CodeBlock*);


     VirtualRegister m_thisRegister;
     VirtualRegister m_scopeRegister;

     unsigned m_numVars : 31;
     unsigned m_usesCallEval : 1;
     unsigned m_numCalleeLocals : 31;
     unsigned m_isConstructor : 1;
     unsigned m_numParameters : 31;
     unsigned m_hasCapturedVariables : 1;

     unsigned m_isBuiltinFunction : 1;
     unsigned m_superBinding : 1;
     unsigned m_scriptMode: 1;
     unsigned m_isArrowFunctionContext : 1;
     unsigned m_isClassContext : 1;
     unsigned m_hasTailCalls : 1;
     unsigned m_constructorKind : 2;
     unsigned m_derivedContextType : 2;
     unsigned m_evalContextType : 2;
     unsigned m_codeType : 2;
     unsigned m_didOptimize : 2;
     unsigned m_age : 3;
     static_assert(((1U << 3) - 1) >= maxAge);
     bool m_hasCheckpoints : 1;
     unsigned m_lexicalScopeFeatures : 4;
 public:
     ConcurrentJSLock m_lock;
 #if ENABLE(JIT)
     RefPtr<BaselineJITCode> m_unlinkedBaselineCode;
 #endif
 private:
     CodeFeatures m_features { 0 };
     SourceParseMode m_parseMode;
     OptionSet<CodeGenerationMode> m_codeGenerationMode;

     unsigned m_lineCount { 0 };
     unsigned m_endColumn { UINT_MAX };

     PackedRefPtr<StringImpl> m_sourceURLDirective;
     PackedRefPtr<StringImpl> m_sourceMappingURLDirective;

     FixedVector<InstructionStream::Offset> m_jumpTargets;
     Ref<UnlinkedMetadataTable> m_metadata;
     std::unique_ptr<InstructionStream> m_instructions;
     std::unique_ptr<BytecodeLivenessAnalysis> m_liveness;

 #if ENABLE(DFG_JIT)
     DFG::ExitProfile m_exitProfile;
 #endif

     // Constant Pools
     FixedVector<Identifier> m_identifiers;
     FixedVector<WriteBarrier<Unknown>> m_constantRegisters;
     FixedVector<SourceCodeRepresentation> m_constantsSourceCodeRepresentation;
     using FunctionExpressionVector = FixedVector<WriteBarrier<UnlinkedFunctionExecutable>>;
     FunctionExpressionVector m_functionDecls;
     FunctionExpressionVector m_functionExprs;

 public:
     struct RareData {
         WTF_MAKE_STRUCT_FAST_ALLOCATED;

         size_t sizeInBytes(const AbstractLocker&) const;

         FixedVector<UnlinkedHandlerInfo> m_exceptionHandlers;

         // Jump Tables
         FixedVector<UnlinkedSimpleJumpTable> m_unlinkedSwitchJumpTables;
         FixedVector<UnlinkedStringJumpTable> m_unlinkedStringSwitchJumpTables;

         FixedVector<ExpressionRangeInfo::FatPosition> m_expressionInfoFatPositions;

         struct TypeProfilerExpressionRange {
             unsigned m_startDivot;
             unsigned m_endDivot;
         };
         HashMap<unsigned, TypeProfilerExpressionRange> m_typeProfilerInfoMap;
         FixedVector<InstructionStream::Offset> m_opProfileControlFlowBytecodeOffsets;
         FixedVector<BitVector> m_bitVectors;
         FixedVector<IdentifierSet> m_constantIdentifierSets;

         unsigned m_needsClassFieldInitializer : 1;
         unsigned m_privateBrandRequirement : 1;
     };

     int outOfLineJumpOffset(InstructionStream::Offset);
     int outOfLineJumpOffset(const InstructionStream::Ref& instruction)
     {
         return outOfLineJumpOffset(instruction.offset());
     }
     int outOfLineJumpOffset(const Instruction* pc)
     {
         unsigned bytecodeOffset = this->bytecodeOffset(pc);
         return outOfLineJumpOffset(bytecodeOffset);
     }

     BinaryArithProfile& binaryArithProfile(unsigned i) { return m_binaryArithProfiles[i]; }
     UnaryArithProfile& unaryArithProfile(unsigned i) { return m_unaryArithProfiles[i]; }

     BaselineExecutionCounter& llintExecuteCounter() { return m_llintExecuteCounter; }

 private:
     using OutOfLineJumpTargets = HashMap<InstructionStream::Offset, int>;

     OutOfLineJumpTargets m_outOfLineJumpTargets;
     std::unique_ptr<RareData> m_rareData;
     FixedVector<ExpressionRangeInfo> m_expressionInfo;
     BaselineExecutionCounter m_llintExecuteCounter;
     FixedVector<UnlinkedValueProfile> m_valueProfiles;
     FixedVector<UnlinkedArrayProfile> m_arrayProfiles;
     FixedVector<BinaryArithProfile> m_binaryArithProfiles;
     FixedVector<UnaryArithProfile> m_unaryArithProfiles;

 #if ASSERT_ENABLED
     Lock m_cachedIdentifierUidsLock;
     HashSet<UniquedStringImpl*> m_cachedIdentifierUids;
 #endif

 protected:
     DECLARE_VISIT_CHILDREN;
     static size_t estimatedSize(JSCell*, VM&);

 public:
     DECLARE_INFO;
 };

 }
	/*
	* Copyright (C) 2012-2021 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 "ArithProfile.h"
	#include "ArrayProfile.h"
	#include "BytecodeConventions.h"
	#include "CodeType.h"
	#include "DFGExitProfile.h"
	#include "ExecutionCounter.h"
	#include "ExpressionRangeInfo.h"
	#include "HandlerInfo.h"
	#include "Identifier.h"
	#include "InstructionStream.h"
	#include "JSCast.h"
	#include "Opcode.h"
	#include "ParserModes.h"
	#include "RegExp.h"
	#include "UnlinkedFunctionExecutable.h"
	#include "UnlinkedMetadataTable.h"
	#include "ValueProfile.h"
	#include "VirtualRegister.h"
	#include <algorithm>
	#include <wtf/BitVector.h>
	#include <wtf/FixedVector.h>
	#include <wtf/RobinHoodHashMap.h>
	#include <wtf/TriState.h>
	#include <wtf/Vector.h>
	#include <wtf/text/UniquedStringImpl.h>

	namespace JSC {

	class BytecodeLivenessAnalysis;
	class BytecodeRewriter;
	class CodeBlock;
	class Debugger;
	class FunctionExecutable;
	class ParserError;
	class ScriptExecutable;
	class SourceCode;
	class SourceProvider;
	class UnlinkedCodeBlock;
	class UnlinkedCodeBlockGenerator;
	class UnlinkedFunctionCodeBlock;
	class UnlinkedFunctionExecutable;
	class BaselineJITCode;
	struct ExecutableInfo;
	enum class LinkTimeConstant : int32_t;

	template<typename CodeBlockType>
	class CachedCodeBlock;

	typedef unsigned UnlinkedArrayAllocationProfile;
	typedef unsigned UnlinkedObjectAllocationProfile;
	typedef unsigned UnlinkedLLIntCallLinkInfo;

	struct UnlinkedStringJumpTable {
	struct OffsetLocation {
	int32_t m_branchOffset;
	unsigned m_indexInTable;
	};

	using StringOffsetTable = MemoryCompactLookupOnlyRobinHoodHashMap<RefPtr<StringImpl>, OffsetLocation>;
	StringOffsetTable m_offsetTable;

	inline int32_t offsetForValue(StringImpl* value, int32_t defaultOffset) const
	{
	auto loc = m_offsetTable.find(value);
	if (loc == m_offsetTable.end())
	return defaultOffset;
	return loc->value.m_branchOffset;
	}

	inline unsigned indexForValue(StringImpl* value, unsigned defaultIndex) const
	{
	auto loc = m_offsetTable.find(value);
	if (loc == m_offsetTable.end())
	return defaultIndex;
	return loc->value.m_indexInTable;
	}
	};

	struct UnlinkedSimpleJumpTable {
	FixedVector<int32_t> m_branchOffsets;
	int32_t m_min;

	inline int32_t offsetForValue(int32_t value, int32_t defaultOffset) const
	{
	if (value >= m_min && static_cast<uint32_t>(value - m_min) < m_branchOffsets.size()) {
	int32_t offset = m_branchOffsets[value - m_min];
	if (offset)
	return offset;
	}
	return defaultOffset;
	}

	void add(int32_t key, int32_t offset)
	{
	if (!m_branchOffsets[key])
	m_branchOffsets[key] = offset;
	}
	};

	class UnlinkedCodeBlock : public JSCell {
	public:
	typedef JSCell Base;
	static constexpr unsigned StructureFlags = Base::StructureFlags;

	static constexpr bool needsDestruction = true;

	template<typename, SubspaceAccess>
	static void subspaceFor(VM&)
	{
	RELEASE_ASSERT_NOT_REACHED();
	}

	friend class LLIntOffsetsExtractor;

	enum { CallFunction, ApplyFunction };

	void initializeLoopHintExecutionCounter();

	bool isConstructor() const { return m_isConstructor; }
	bool usesCallEval() const { return m_usesCallEval; }
	void setUsesCallEval() { m_usesCallEval = true; }
	SourceParseMode parseMode() const { return m_parseMode; }
	bool isArrowFunction() const { return isArrowFunctionParseMode(parseMode()); }
	DerivedContextType derivedContextType() const { return static_cast<DerivedContextType>(m_derivedContextType); }
	EvalContextType evalContextType() const { return static_cast<EvalContextType>(m_evalContextType); }
	bool isArrowFunctionContext() const { return m_isArrowFunctionContext; }
	bool isClassContext() const { return m_isClassContext; }
	bool hasTailCalls() const { return m_hasTailCalls; }
	void setHasTailCalls() { m_hasTailCalls = true; }
	bool allowDirectEvalCache() const { return !(m_features & NoEvalCacheFeature); }

	bool hasExpressionInfo() { return m_expressionInfo.size(); }
	const FixedVector<ExpressionRangeInfo>& expressionInfo() { return m_expressionInfo; }

	bool hasCheckpoints() const { return m_hasCheckpoints; }
	void setHasCheckpoints() { m_hasCheckpoints = true; }

	// Special registers
	void setThisRegister(VirtualRegister thisRegister) { m_thisRegister = thisRegister; }
	void setScopeRegister(VirtualRegister scopeRegister) { m_scopeRegister = scopeRegister; }

	// Parameter information
	void setNumParameters(int newValue) { m_numParameters = newValue; }
	unsigned numParameters() const { return m_numParameters; }

	// Constant Pools

	size_t numberOfIdentifiers() const { return m_identifiers.size(); }
	const Identifier& identifier(int index) const { return m_identifiers[index]; }
	const FixedVector<Identifier>& identifiers() const { return m_identifiers; }

	BitVector& bitVector(size_t i) { ASSERT(m_rareData); return m_rareData->m_bitVectors[i]; }

	const FixedVector<WriteBarrier<Unknown>>& constantRegisters() { return m_constantRegisters; }
	const WriteBarrier<Unknown>& constantRegister(VirtualRegister reg) const { return m_constantRegisters[reg.toConstantIndex()]; }
	WriteBarrier<Unknown>& constantRegister(VirtualRegister reg) { return m_constantRegisters[reg.toConstantIndex()]; }
	ALWAYS_INLINE JSValue getConstant(VirtualRegister reg) const { return m_constantRegisters[reg.toConstantIndex()].get(); }
	const FixedVector<SourceCodeRepresentation>& constantsSourceCodeRepresentation() { return m_constantsSourceCodeRepresentation; }

	SourceCodeRepresentation constantSourceCodeRepresentation(VirtualRegister reg) const
	{
	return constantSourceCodeRepresentation(reg.toConstantIndex());
	}
	SourceCodeRepresentation constantSourceCodeRepresentation(unsigned index) const
	{
	if (index < m_constantsSourceCodeRepresentation.size())
	return m_constantsSourceCodeRepresentation[index];
	return SourceCodeRepresentation::Other;
	}

	unsigned numberOfConstantIdentifierSets() const { return m_rareData ? m_rareData->m_constantIdentifierSets.size() : 0; }
	const FixedVector<IdentifierSet>& constantIdentifierSets() { ASSERT(m_rareData); return m_rareData->m_constantIdentifierSets; }

	// Jumps
	size_t numberOfJumpTargets() const { return m_jumpTargets.size(); }
	unsigned jumpTarget(int index) const { return m_jumpTargets[index]; }
	unsigned lastJumpTarget() const { return m_jumpTargets.last(); }

	UnlinkedHandlerInfo* handlerForBytecodeIndex(BytecodeIndex, RequiredHandler = RequiredHandler::AnyHandler);
	UnlinkedHandlerInfo* handlerForIndex(unsigned, RequiredHandler = RequiredHandler::AnyHandler);

	bool isBuiltinFunction() const { return m_isBuiltinFunction; }

	ConstructorKind constructorKind() const { return static_cast<ConstructorKind>(m_constructorKind); }
	SuperBinding superBinding() const { return static_cast<SuperBinding>(m_superBinding); }
	JSParserScriptMode scriptMode() const { return static_cast<JSParserScriptMode>(m_scriptMode); }

	const InstructionStream& instructions() const;
	const Instruction* instructionAt(BytecodeIndex index) const { return instructions().at(index).ptr(); }
	unsigned bytecodeOffset(const Instruction* instruction)
	{
	const auto* instructionsBegin = instructions().at(0).ptr();
	const auto* instructionsEnd = reinterpret_cast<const Instruction*>(reinterpret_cast<uintptr_t>(instructionsBegin) + instructions().size());
	RELEASE_ASSERT(instruction >= instructionsBegin && instruction < instructionsEnd);
	return instruction - instructionsBegin;
	}
	unsigned instructionsSize() const { return instructions().size(); }

	unsigned numCalleeLocals() const { return m_numCalleeLocals; }
	unsigned numVars() const { return m_numVars; }

	// Jump Tables

	size_t numberOfUnlinkedSwitchJumpTables() const { return m_rareData ? m_rareData->m_unlinkedSwitchJumpTables.size() : 0; }
	const UnlinkedSimpleJumpTable& unlinkedSwitchJumpTable(int tableIndex) const { ASSERT(m_rareData); return m_rareData->m_unlinkedSwitchJumpTables[tableIndex]; }

	size_t numberOfUnlinkedStringSwitchJumpTables() const { return m_rareData ? m_rareData->m_unlinkedStringSwitchJumpTables.size() : 0; }
	const UnlinkedStringJumpTable& unlinkedStringSwitchJumpTable(int tableIndex) const { ASSERT(m_rareData); return m_rareData->m_unlinkedStringSwitchJumpTables[tableIndex]; }

	UnlinkedFunctionExecutable* functionDecl(int index) { return m_functionDecls[index].get(); }
	size_t numberOfFunctionDecls() { return m_functionDecls.size(); }
	UnlinkedFunctionExecutable* functionExpr(int index) { return m_functionExprs[index].get(); }
	size_t numberOfFunctionExprs() { return m_functionExprs.size(); }

	// Exception handling support
	size_t numberOfExceptionHandlers() const { return m_rareData ? m_rareData->m_exceptionHandlers.size() : 0; }
	UnlinkedHandlerInfo& exceptionHandler(int index) { ASSERT(m_rareData); return m_rareData->m_exceptionHandlers[index]; }

	CodeType codeType() const { return static_cast<CodeType>(m_codeType); }

	VirtualRegister thisRegister() const { return m_thisRegister; }
	VirtualRegister scopeRegister() const { return m_scopeRegister; }

	bool hasRareData() const { return m_rareData.get(); }

	int lineNumberForBytecodeIndex(BytecodeIndex);

	void expressionRangeForBytecodeIndex(BytecodeIndex, int& divot,
	int& startOffset, int& endOffset, unsigned& line, unsigned& column) const;

	bool typeProfilerExpressionInfoForBytecodeOffset(unsigned bytecodeOffset, unsigned& startDivot, unsigned& endDivot);

	void recordParse(CodeFeatures features, LexicalScopeFeatures lexicalScopeFeatures, bool hasCapturedVariables, unsigned lineCount, unsigned endColumn)
	{
	m_features = features;
	m_lexicalScopeFeatures = lexicalScopeFeatures;
	m_hasCapturedVariables = hasCapturedVariables;
	m_lineCount = lineCount;
	// For the UnlinkedCodeBlock, startColumn is always 0.
	m_endColumn = endColumn;
	}

	StringImpl* sourceURLDirective() const { return m_sourceURLDirective.get(); }
	StringImpl* sourceMappingURLDirective() const { return m_sourceMappingURLDirective.get(); }
	void setSourceURLDirective(const String& sourceURL) { m_sourceURLDirective = sourceURL.impl(); }
	void setSourceMappingURLDirective(const String& sourceMappingURL) { m_sourceMappingURLDirective = sourceMappingURL.impl(); }

	CodeFeatures codeFeatures() const { return m_features; }
	LexicalScopeFeatures lexicalScopeFeatures() const { return static_cast<LexicalScopeFeatures>(m_lexicalScopeFeatures); }
	bool hasCapturedVariables() const { return m_hasCapturedVariables; }
	unsigned lineCount() const { return m_lineCount; }
	ALWAYS_INLINE unsigned startColumn() const { return 0; }
	unsigned endColumn() const { return m_endColumn; }

	const FixedVector<InstructionStream::Offset>& opProfileControlFlowBytecodeOffsets() const
	{
	ASSERT(m_rareData);
	return m_rareData->m_opProfileControlFlowBytecodeOffsets;
	}
	bool hasOpProfileControlFlowBytecodeOffsets() const
	{
	return m_rareData && !m_rareData->m_opProfileControlFlowBytecodeOffsets.isEmpty();
	}

	void dumpExpressionRangeInfo(); // For debugging purpose only.

	bool wasCompiledWithDebuggingOpcodes() const { return m_codeGenerationMode.contains(CodeGenerationMode::Debugger); }
	bool wasCompiledWithTypeProfilerOpcodes() const { return m_codeGenerationMode.contains(CodeGenerationMode::TypeProfiler); }
	bool wasCompiledWithControlFlowProfilerOpcodes() const { return m_codeGenerationMode.contains(CodeGenerationMode::ControlFlowProfiler); }
	OptionSet<CodeGenerationMode> codeGenerationMode() const { return m_codeGenerationMode; }

	TriState didOptimize() const { return static_cast<TriState>(m_didOptimize); }
	void setDidOptimize(TriState didOptimize) { m_didOptimize = static_cast<unsigned>(didOptimize); }

	static constexpr unsigned maxAge = 7;

	unsigned age() const { return m_age; }
	void resetAge() { m_age = 0; }

	NeedsClassFieldInitializer needsClassFieldInitializer() const
	{
	if (m_rareData)
	return static_cast<NeedsClassFieldInitializer>(m_rareData->m_needsClassFieldInitializer);
	return NeedsClassFieldInitializer::No;
	}

	PrivateBrandRequirement privateBrandRequirement() const
	{
	if (m_rareData)
	return static_cast<PrivateBrandRequirement>(m_rareData->m_privateBrandRequirement);
	return PrivateBrandRequirement::None;
	}

	void dump(PrintStream&) const;

	BytecodeLivenessAnalysis& livenessAnalysis(CodeBlock* codeBlock)
	{
	if (m_liveness)
	return *m_liveness;
	return livenessAnalysisSlow(codeBlock);
	}

	#if ENABLE(DFG_JIT)
	bool hasExitSite(const ConcurrentJSLocker& locker, const DFG::FrequentExitSite& site) const
	{
	return m_exitProfile.hasExitSite(locker, site);
	}

	bool hasExitSite(const DFG::FrequentExitSite& site)
	{
	ConcurrentJSLocker locker(m_lock);
	return hasExitSite(locker, site);
	}

	DFG::ExitProfile& exitProfile() { return m_exitProfile; }
	#endif

	UnlinkedMetadataTable& metadata() { return m_metadata.get(); }

	size_t metadataSizeInBytes()
	{
	return m_metadata->sizeInBytes();
	}

	bool loopHintsAreEligibleForFuzzingEarlyReturn()
	{
	// Some builtins are required to always complete the loops they run.
	return !isBuiltinFunction();
	}
	void allocateSharedProfiles(unsigned numBinaryArithProfiles, unsigned numUnaryArithProfiles);
	UnlinkedValueProfile& unlinkedValueProfile(unsigned index) { return m_valueProfiles[index]; }
	UnlinkedArrayProfile& unlinkedArrayProfile(unsigned index) { return m_arrayProfiles[index]; }
	unsigned numberOfValueProfiles() const { return m_valueProfiles.size(); }
	unsigned numberOfArrayProfiles() const { return m_arrayProfiles.size(); }

	#if ASSERT_ENABLED
	bool hasIdentifier(UniquedStringImpl*);
	#endif

	int32_t thresholdForJIT(int32_t threshold);

	protected:
	UnlinkedCodeBlock(VM&, Structure*, CodeType, const ExecutableInfo&, OptionSet<CodeGenerationMode>);

	template<typename CodeBlockType>
	UnlinkedCodeBlock(Decoder&, Structure*, const CachedCodeBlock<CodeBlockType>&);

	~UnlinkedCodeBlock();

	void finishCreation(VM& vm)
	{
	Base::finishCreation(vm);
	}

	private:
	friend class BytecodeRewriter;
	friend class UnlinkedCodeBlockGenerator;
	template<typename Traits>
	friend class BytecodeGeneratorBase;

	template<typename CodeBlockType>
	friend class CachedCodeBlock;

	void createRareDataIfNecessary(const AbstractLocker&)
	{
	if (!m_rareData)
	m_rareData = makeUnique<RareData>();
	}

	void getLineAndColumn(const ExpressionRangeInfo&, unsigned& line, unsigned& column) const;
	BytecodeLivenessAnalysis& livenessAnalysisSlow(CodeBlock*);


	VirtualRegister m_thisRegister;
	VirtualRegister m_scopeRegister;

	unsigned m_numVars : 31;
	unsigned m_usesCallEval : 1;
	unsigned m_numCalleeLocals : 31;
	unsigned m_isConstructor : 1;
	unsigned m_numParameters : 31;
	unsigned m_hasCapturedVariables : 1;

	unsigned m_isBuiltinFunction : 1;
	unsigned m_superBinding : 1;
	unsigned m_scriptMode: 1;
	unsigned m_isArrowFunctionContext : 1;
	unsigned m_isClassContext : 1;
	unsigned m_hasTailCalls : 1;
	unsigned m_constructorKind : 2;
	unsigned m_derivedContextType : 2;
	unsigned m_evalContextType : 2;
	unsigned m_codeType : 2;
	unsigned m_didOptimize : 2;
	unsigned m_age : 3;
	static_assert(((1U << 3) - 1) >= maxAge);
	bool m_hasCheckpoints : 1;
	unsigned m_lexicalScopeFeatures : 4;
	public:
	ConcurrentJSLock m_lock;
	#if ENABLE(JIT)
	RefPtr<BaselineJITCode> m_unlinkedBaselineCode;
	#endif
	private:
	CodeFeatures m_features { 0 };
	SourceParseMode m_parseMode;
	OptionSet<CodeGenerationMode> m_codeGenerationMode;

	unsigned m_lineCount { 0 };
	unsigned m_endColumn { UINT_MAX };

	PackedRefPtr<StringImpl> m_sourceURLDirective;
	PackedRefPtr<StringImpl> m_sourceMappingURLDirective;

	FixedVector<InstructionStream::Offset> m_jumpTargets;
	Ref<UnlinkedMetadataTable> m_metadata;
	std::unique_ptr<InstructionStream> m_instructions;
	std::unique_ptr<BytecodeLivenessAnalysis> m_liveness;

	#if ENABLE(DFG_JIT)
	DFG::ExitProfile m_exitProfile;
	#endif

	// Constant Pools
	FixedVector<Identifier> m_identifiers;
	FixedVector<WriteBarrier<Unknown>> m_constantRegisters;
	FixedVector<SourceCodeRepresentation> m_constantsSourceCodeRepresentation;
	using FunctionExpressionVector = FixedVector<WriteBarrier<UnlinkedFunctionExecutable>>;
	FunctionExpressionVector m_functionDecls;
	FunctionExpressionVector m_functionExprs;

	public:
	struct RareData {
	WTF_MAKE_STRUCT_FAST_ALLOCATED;

	size_t sizeInBytes(const AbstractLocker&) const;

	FixedVector<UnlinkedHandlerInfo> m_exceptionHandlers;

	// Jump Tables
	FixedVector<UnlinkedSimpleJumpTable> m_unlinkedSwitchJumpTables;
	FixedVector<UnlinkedStringJumpTable> m_unlinkedStringSwitchJumpTables;

	FixedVector<ExpressionRangeInfo::FatPosition> m_expressionInfoFatPositions;

	struct TypeProfilerExpressionRange {
	unsigned m_startDivot;
	unsigned m_endDivot;
	};
	HashMap<unsigned, TypeProfilerExpressionRange> m_typeProfilerInfoMap;
	FixedVector<InstructionStream::Offset> m_opProfileControlFlowBytecodeOffsets;
	FixedVector<BitVector> m_bitVectors;
	FixedVector<IdentifierSet> m_constantIdentifierSets;

	unsigned m_needsClassFieldInitializer : 1;
	unsigned m_privateBrandRequirement : 1;
	};

	int outOfLineJumpOffset(InstructionStream::Offset);
	int outOfLineJumpOffset(const InstructionStream::Ref& instruction)
	{
	return outOfLineJumpOffset(instruction.offset());
	}
	int outOfLineJumpOffset(const Instruction* pc)
	{
	unsigned bytecodeOffset = this->bytecodeOffset(pc);
	return outOfLineJumpOffset(bytecodeOffset);
	}

	BinaryArithProfile& binaryArithProfile(unsigned i) { return m_binaryArithProfiles[i]; }
	UnaryArithProfile& unaryArithProfile(unsigned i) { return m_unaryArithProfiles[i]; }

	BaselineExecutionCounter& llintExecuteCounter() { return m_llintExecuteCounter; }

	private:
	using OutOfLineJumpTargets = HashMap<InstructionStream::Offset, int>;

	OutOfLineJumpTargets m_outOfLineJumpTargets;
	std::unique_ptr<RareData> m_rareData;
	FixedVector<ExpressionRangeInfo> m_expressionInfo;
	BaselineExecutionCounter m_llintExecuteCounter;
	FixedVector<UnlinkedValueProfile> m_valueProfiles;
	FixedVector<UnlinkedArrayProfile> m_arrayProfiles;
	FixedVector<BinaryArithProfile> m_binaryArithProfiles;
	FixedVector<UnaryArithProfile> m_unaryArithProfiles;

	#if ASSERT_ENABLED
	Lock m_cachedIdentifierUidsLock;
	HashSet<UniquedStringImpl*> m_cachedIdentifierUids;
	#endif

	protected:
	DECLARE_VISIT_CHILDREN;
	static size_t estimatedSize(JSCell*, VM&);

	public:
	DECLARE_INFO;
	};

	}