File: Executable.h

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/*
 * Copyright (C) 2009, 2010, 2013, 2014 Apple Inc. All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 * 2. Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 *
 * THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY
 * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL APPLE INC. OR
 * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
 * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
 * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
 * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
 * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 
 */

#ifndef Executable_h
#define Executable_h

#include "ArityCheckMode.h"
#include "CallData.h"
#include "CodeBlockHash.h"
#include "CodeSpecializationKind.h"
#include "CompilationResult.h"
#include "DFGPlan.h"
#include "HandlerInfo.h"
#include "JSFunction.h"
#include "Interpreter.h"
#include "JITCode.h"
#include "JSGlobalObject.h"
#include "RegisterPreservationMode.h"
#include "SamplingTool.h"
#include "SourceCode.h"
#include "TypeSet.h"
#include "UnlinkedCodeBlock.h"
#include <wtf/PassOwnPtr.h>

namespace JSC {

class CodeBlock;
class Debugger;
class EvalCodeBlock;
class FunctionCodeBlock;
class LLIntOffsetsExtractor;
class ProgramCodeBlock;
class JSScope;
    
enum CompilationKind { FirstCompilation, OptimizingCompilation };

inline bool isCall(CodeSpecializationKind kind)
{
    if (kind == CodeForCall)
        return true;
    ASSERT(kind == CodeForConstruct);
    return false;
}

class ExecutableBase : public JSCell, public DoublyLinkedListNode<ExecutableBase> {
    friend class WTF::DoublyLinkedListNode<ExecutableBase>;
    friend class JIT;

protected:
    static const int NUM_PARAMETERS_IS_HOST = 0;
    static const int NUM_PARAMETERS_NOT_COMPILED = -1;

    ExecutableBase(VM& vm, Structure* structure, int numParameters)
        : JSCell(vm, structure)
        , m_numParametersForCall(numParameters)
        , m_numParametersForConstruct(numParameters)
    {
    }

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

public:
    typedef JSCell Base;

    static const bool needsDestruction = true;
    static const bool hasImmortalStructure = true;
    static void destroy(JSCell*);
        
    CodeBlockHash hashFor(CodeSpecializationKind) const;

    bool isEvalExecutable()
    {
        return type() == EvalExecutableType;
    }
    bool isFunctionExecutable()
    {
        return type() == FunctionExecutableType;
    }
    bool isProgramExecutable()
    {
        return type() == ProgramExecutableType;
    }

    bool isHostFunction() const
    {
        ASSERT((m_numParametersForCall == NUM_PARAMETERS_IS_HOST) == (m_numParametersForConstruct == NUM_PARAMETERS_IS_HOST));
        return m_numParametersForCall == NUM_PARAMETERS_IS_HOST;
    }

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

    DECLARE_EXPORT_INFO;

protected:
    static const unsigned StructureFlags = StructureIsImmortal;
    int m_numParametersForCall;
    int m_numParametersForConstruct;

public:
    static void clearCodeVirtual(ExecutableBase*);

    PassRefPtr<JITCode> generatedJITCodeForCall()
    {
        ASSERT(m_jitCodeForCall);
        return m_jitCodeForCall;
    }

    PassRefPtr<JITCode> generatedJITCodeForConstruct()
    {
        ASSERT(m_jitCodeForConstruct);
        return m_jitCodeForConstruct;
    }
        
    PassRefPtr<JITCode> generatedJITCodeFor(CodeSpecializationKind kind)
    {
        if (kind == CodeForCall)
            return generatedJITCodeForCall();
        ASSERT(kind == CodeForConstruct);
        return generatedJITCodeForConstruct();
    }
    
    MacroAssemblerCodePtr entrypointFor(
        VM& vm, CodeSpecializationKind kind, ArityCheckMode arity, RegisterPreservationMode registers)
    {
        // Check if we have a cached result. We only have it for arity check because we use the
        // no-arity entrypoint in non-virtual calls, which will "cache" this value directly in
        // machine code.
        if (arity == MustCheckArity) {
            switch (kind) {
            case CodeForCall:
                switch (registers) {
                case RegisterPreservationNotRequired:
                    if (MacroAssemblerCodePtr result = m_jitCodeForCallWithArityCheck)
                        return result;
                    break;
                case MustPreserveRegisters:
                    if (MacroAssemblerCodePtr result = m_jitCodeForCallWithArityCheckAndPreserveRegs)
                        return result;
                    break;
                }
                break;
            case CodeForConstruct:
                switch (registers) {
                case RegisterPreservationNotRequired:
                    if (MacroAssemblerCodePtr result = m_jitCodeForConstructWithArityCheck)
                        return result;
                    break;
                case MustPreserveRegisters:
                    if (MacroAssemblerCodePtr result = m_jitCodeForConstructWithArityCheckAndPreserveRegs)
                        return result;
                    break;
                }
                break;
            }
        }
        MacroAssemblerCodePtr result =
            generatedJITCodeFor(kind)->addressForCall(vm, this, arity, registers);
        if (arity == MustCheckArity) {
            // Cache the result; this is necessary for the JIT's virtual call optimizations.
            switch (kind) {
            case CodeForCall:
                switch (registers) {
                case RegisterPreservationNotRequired:
                    m_jitCodeForCallWithArityCheck = result;
                    break;
                case MustPreserveRegisters:
                    m_jitCodeForCallWithArityCheckAndPreserveRegs = result;
                    break;
                }
                break;
            case CodeForConstruct:
                switch (registers) {
                case RegisterPreservationNotRequired:
                    m_jitCodeForConstructWithArityCheck = result;
                    break;
                case MustPreserveRegisters:
                    m_jitCodeForConstructWithArityCheckAndPreserveRegs = result;
                    break;
                }
                break;
            }
        }
        return result;
    }

    static ptrdiff_t offsetOfJITCodeWithArityCheckFor(
        CodeSpecializationKind kind, RegisterPreservationMode registers)
    {
        switch (kind) {
        case CodeForCall:
            switch (registers) {
            case RegisterPreservationNotRequired:
                return OBJECT_OFFSETOF(ExecutableBase, m_jitCodeForCallWithArityCheck);
            case MustPreserveRegisters:
                return OBJECT_OFFSETOF(ExecutableBase, m_jitCodeForCallWithArityCheckAndPreserveRegs);
            }
        case CodeForConstruct:
            switch (registers) {
            case RegisterPreservationNotRequired:
                return OBJECT_OFFSETOF(ExecutableBase, m_jitCodeForConstructWithArityCheck);
            case MustPreserveRegisters:
                return OBJECT_OFFSETOF(ExecutableBase, m_jitCodeForConstructWithArityCheckAndPreserveRegs);
            }
        }
        RELEASE_ASSERT_NOT_REACHED();
        return 0;
    }
    
    static ptrdiff_t offsetOfNumParametersFor(CodeSpecializationKind kind)
    {
        if (kind == CodeForCall)
            return OBJECT_OFFSETOF(ExecutableBase, m_numParametersForCall);
        ASSERT(kind == CodeForConstruct);
        return OBJECT_OFFSETOF(ExecutableBase, m_numParametersForConstruct);
    }

    bool hasJITCodeForCall() const
    {
        return m_numParametersForCall >= 0;
    }
        
    bool hasJITCodeForConstruct() const
    {
        return m_numParametersForConstruct >= 0;
    }
        
    bool hasJITCodeFor(CodeSpecializationKind kind) const
    {
        if (kind == CodeForCall)
            return hasJITCodeForCall();
        ASSERT(kind == CodeForConstruct);
        return hasJITCodeForConstruct();
    }

    // Intrinsics are only for calls, currently.
    Intrinsic intrinsic() const;
        
    Intrinsic intrinsicFor(CodeSpecializationKind kind) const
    {
        if (isCall(kind))
            return intrinsic();
        return NoIntrinsic;
    }
    
    void dump(PrintStream&) const;
        
protected:
    ExecutableBase* m_prev;
    ExecutableBase* m_next;

    RefPtr<JITCode> m_jitCodeForCall;
    RefPtr<JITCode> m_jitCodeForConstruct;
    MacroAssemblerCodePtr m_jitCodeForCallWithArityCheck;
    MacroAssemblerCodePtr m_jitCodeForConstructWithArityCheck;
    MacroAssemblerCodePtr m_jitCodeForCallWithArityCheckAndPreserveRegs;
    MacroAssemblerCodePtr m_jitCodeForConstructWithArityCheckAndPreserveRegs;
};

class NativeExecutable : public ExecutableBase {
    friend class JIT;
    friend class LLIntOffsetsExtractor;
public:
    typedef ExecutableBase Base;

    static NativeExecutable* create(VM& vm, PassRefPtr<JITCode> callThunk, NativeFunction function, PassRefPtr<JITCode> constructThunk, NativeFunction constructor, Intrinsic intrinsic)
    {
        NativeExecutable* executable;
        executable = new (NotNull, allocateCell<NativeExecutable>(vm.heap)) NativeExecutable(vm, function, constructor);
        executable->finishCreation(vm, callThunk, constructThunk, intrinsic);
        return executable;
    }

    static void destroy(JSCell*);

    CodeBlockHash hashFor(CodeSpecializationKind) const;

    NativeFunction function() { return m_function; }
    NativeFunction constructor() { return m_constructor; }
        
    NativeFunction nativeFunctionFor(CodeSpecializationKind kind)
    {
        if (kind == CodeForCall)
            return function();
        ASSERT(kind == CodeForConstruct);
        return constructor();
    }
        
    static ptrdiff_t offsetOfNativeFunctionFor(CodeSpecializationKind kind)
    {
        if (kind == CodeForCall)
            return OBJECT_OFFSETOF(NativeExecutable, m_function);
        ASSERT(kind == CodeForConstruct);
        return OBJECT_OFFSETOF(NativeExecutable, m_constructor);
    }

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

    Intrinsic intrinsic() const;

protected:
    void finishCreation(VM& vm, PassRefPtr<JITCode> callThunk, PassRefPtr<JITCode> constructThunk, Intrinsic intrinsic)
    {
        Base::finishCreation(vm);
        m_jitCodeForCall = callThunk;
        m_jitCodeForConstruct = constructThunk;
        m_intrinsic = intrinsic;
    }

private:
    NativeExecutable(VM& vm, NativeFunction function, NativeFunction constructor)
        : ExecutableBase(vm, vm.nativeExecutableStructure.get(), NUM_PARAMETERS_IS_HOST)
        , m_function(function)
        , m_constructor(constructor)
    {
    }

    NativeFunction m_function;
    NativeFunction m_constructor;
        
    Intrinsic m_intrinsic;
};

class ScriptExecutable : public ExecutableBase {
public:
    typedef ExecutableBase Base;

    ScriptExecutable(Structure* structure, VM& vm, const SourceCode& source, bool isInStrictContext);

    static void destroy(JSCell*);
        
    CodeBlockHash hashFor(CodeSpecializationKind) const;

    const SourceCode& source() const { return m_source; }
    intptr_t sourceID() const { return m_source.providerID(); }
    const String& sourceURL() const { return m_source.provider()->url(); }
    int lineNo() const { return m_firstLine; }
    int lastLine() const { return m_lastLine; }
    unsigned startColumn() const { return m_startColumn; }
    unsigned endColumn() const { return m_endColumn; }
    unsigned typeProfilingStartOffset() const { return m_typeProfilingStartOffset; }
    unsigned typeProfilingEndOffset() const { return m_typeProfilingEndOffset; }

    bool usesEval() const { return m_features & EvalFeature; }
    bool usesArguments() const { return m_features & ArgumentsFeature; }
    bool needsActivation() const { return m_hasCapturedVariables || m_features & (EvalFeature | WithFeature | CatchFeature); }
    bool isStrictMode() const { return m_features & StrictModeFeature; }
    ECMAMode ecmaMode() const { return isStrictMode() ? StrictMode : NotStrictMode; }
        
    void setNeverInline(bool value) { m_neverInline = value; }
    void setDidTryToEnterInLoop(bool value) { m_didTryToEnterInLoop = value; }
    bool neverInline() const { return m_neverInline; }
    bool didTryToEnterInLoop() const { return m_didTryToEnterInLoop; }
    bool isInliningCandidate() const { return !neverInline(); }
    
    bool* addressOfDidTryToEnterInLoop() { return &m_didTryToEnterInLoop; }

    void unlinkCalls();
        
    CodeFeatures features() const { return m_features; }
        
    DECLARE_INFO;

    void recordParse(CodeFeatures features, bool hasCapturedVariables, int firstLine, int lastLine, unsigned startColumn, unsigned endColumn)
    {
        m_features = features;
        m_hasCapturedVariables = hasCapturedVariables;
        m_firstLine = firstLine;
        m_lastLine = lastLine;
        ASSERT(startColumn != UINT_MAX);
        m_startColumn = startColumn;
        ASSERT(endColumn != UINT_MAX);
        m_endColumn = endColumn;
    }

    void installCode(CodeBlock*);
    PassRefPtr<CodeBlock> newCodeBlockFor(CodeSpecializationKind, JSFunction*, JSScope**, JSObject*& exception);
    PassRefPtr<CodeBlock> newReplacementCodeBlockFor(CodeSpecializationKind);
    
    JSObject* prepareForExecution(ExecState* exec, JSFunction* function, JSScope** scope, CodeSpecializationKind kind)
    {
        if (hasJITCodeFor(kind))
            return 0;
        return prepareForExecutionImpl(exec, function, scope, kind);
    }

    template <typename Functor> void forEachCodeBlock(Functor&&);

private:
    JSObject* prepareForExecutionImpl(ExecState*, JSFunction*, JSScope**, CodeSpecializationKind);

protected:
    void finishCreation(VM& vm)
    {
        Base::finishCreation(vm);
        vm.heap.addCompiledCode(this); // Balanced by Heap::deleteUnmarkedCompiledCode().

#if ENABLE(CODEBLOCK_SAMPLING)
        if (SamplingTool* sampler = vm.interpreter->sampler())
            sampler->notifyOfScope(vm, this);
#endif
    }

    SourceCode m_source;
    CodeFeatures m_features;
    bool m_hasCapturedVariables;
    bool m_neverInline;
    bool m_didTryToEnterInLoop;
    int m_firstLine;
    int m_lastLine;
    unsigned m_startColumn;
    unsigned m_endColumn;
    unsigned m_typeProfilingStartOffset;
    unsigned m_typeProfilingEndOffset;
};

class EvalExecutable : public ScriptExecutable {
    friend class LLIntOffsetsExtractor;
public:
    typedef ScriptExecutable Base;

    static void destroy(JSCell*);

    EvalCodeBlock* codeBlock()
    {
        return m_evalCodeBlock.get();
    }

    static EvalExecutable* create(ExecState*, const SourceCode&, bool isInStrictContext);

    PassRefPtr<JITCode> generatedJITCode()
    {
        return generatedJITCodeForCall();
    }

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

    void unlinkCalls();

    void clearCode();

    ExecutableInfo executableInfo() const { return ExecutableInfo(needsActivation(), usesEval(), isStrictMode(), false, false); }

    unsigned numVariables() { return m_unlinkedEvalCodeBlock->numVariables(); }
    unsigned numberOfFunctionDecls() { return m_unlinkedEvalCodeBlock->numberOfFunctionDecls(); }

private:
    friend class ScriptExecutable;
    EvalExecutable(ExecState*, const SourceCode&, bool);

    static void visitChildren(JSCell*, SlotVisitor&);

    RefPtr<EvalCodeBlock> m_evalCodeBlock;
    WriteBarrier<UnlinkedEvalCodeBlock> m_unlinkedEvalCodeBlock;
};

class ProgramExecutable : public ScriptExecutable {
    friend class LLIntOffsetsExtractor;
public:
    typedef ScriptExecutable Base;

    static ProgramExecutable* create(ExecState* exec, const SourceCode& source)
    {
        ProgramExecutable* executable = new (NotNull, allocateCell<ProgramExecutable>(*exec->heap())) ProgramExecutable(exec, source);
        executable->finishCreation(exec->vm());
        return executable;
    }


    JSObject* initializeGlobalProperties(VM&, CallFrame*, JSScope*);

    static void destroy(JSCell*);

    ProgramCodeBlock* codeBlock()
    {
        return m_programCodeBlock.get();
    }

    JSObject* checkSyntax(ExecState*);

    PassRefPtr<JITCode> generatedJITCode()
    {
        return generatedJITCodeForCall();
    }
        
    static Structure* createStructure(VM& vm, JSGlobalObject* globalObject, JSValue proto)
    {
        return Structure::create(vm, globalObject, proto, TypeInfo(ProgramExecutableType, StructureFlags), info());
    }
        
    DECLARE_INFO;
        
    void unlinkCalls();

    void clearCode();

    ExecutableInfo executableInfo() const { return ExecutableInfo(needsActivation(), usesEval(), isStrictMode(), false, false); }

private:
    friend class ScriptExecutable;

    ProgramExecutable(ExecState*, const SourceCode&);

    static void visitChildren(JSCell*, SlotVisitor&);

    WriteBarrier<UnlinkedProgramCodeBlock> m_unlinkedProgramCodeBlock;
    RefPtr<ProgramCodeBlock> m_programCodeBlock;
};

class FunctionExecutable : public ScriptExecutable {
    friend class JIT;
    friend class LLIntOffsetsExtractor;
public:
    typedef ScriptExecutable Base;

    static FunctionExecutable* create(VM& vm, const SourceCode& source, UnlinkedFunctionExecutable* unlinkedExecutable, unsigned firstLine, unsigned lastLine, unsigned startColumn, unsigned endColumn, bool bodyIncludesBraces = true)
    {
        FunctionExecutable* executable = new (NotNull, allocateCell<FunctionExecutable>(vm.heap)) FunctionExecutable(vm, source, unlinkedExecutable, firstLine, lastLine, startColumn, endColumn, bodyIncludesBraces);
        executable->finishCreation(vm);
        return executable;
    }
    static FunctionExecutable* fromGlobalCode(const Identifier& name, ExecState*, Debugger*, const SourceCode&, JSObject** exception);

    static void destroy(JSCell*);
        
    UnlinkedFunctionExecutable* unlinkedExecutable()
    {
        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()
    {
        if (m_codeBlockForCall)
            return m_codeBlockForCall.get();
        return m_codeBlockForConstruct.get();
    }
        
    bool isGeneratedForCall() const
    {
        return m_codeBlockForCall;
    }

    FunctionCodeBlock* codeBlockForCall()
    {
        return m_codeBlockForCall.get();
    }

    bool isGeneratedForConstruct() const
    {
        return m_codeBlockForConstruct;
    }

    FunctionCodeBlock* codeBlockForConstruct()
    {
        return 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() 
    {
        if (!m_returnStatementTypeSet)
            m_returnStatementTypeSet = TypeSet::create();

        return m_returnStatementTypeSet;
    }
        
    FunctionMode functionMode() { return m_unlinkedExecutable->functionMode(); }
    bool isBuiltinFunction() const { return m_unlinkedExecutable->isBuiltinFunction(); }
    const Identifier& name() { return m_unlinkedExecutable->name(); }
    const Identifier& inferredName() { return m_unlinkedExecutable->inferredName(); }
    JSString* nameValue() const { return m_unlinkedExecutable->nameValue(); }
    size_t parameterCount() const { return m_unlinkedExecutable->parameterCount(); } // Excluding 'this'!
    String paramString() const;
    SymbolTable* symbolTable(CodeSpecializationKind);

    void clearCodeIfNotCompiling();
    void clearUnlinkedCodeForRecompilationIfNotCompiling();
    static void visitChildren(JSCell*, SlotVisitor&);
    static Structure* createStructure(VM& vm, JSGlobalObject* globalObject, JSValue proto)
    {
        return Structure::create(vm, globalObject, proto, TypeInfo(FunctionExecutableType, StructureFlags), info());
    }
        
    DECLARE_INFO;
        
    void unlinkCalls();

    void clearCode();

    bool bodyIncludesBraces() const { return m_bodyIncludesBraces; }

private:
    FunctionExecutable(VM&, const SourceCode&, UnlinkedFunctionExecutable*, unsigned firstLine, unsigned lastLine, unsigned startColumn, unsigned endColumn, bool bodyIncludesBraces);

    bool isCompiling()
    {
#if ENABLE(JIT)
        if (!m_jitCodeForCall && m_codeBlockForCall)
            return true;
        if (!m_jitCodeForConstruct && m_codeBlockForConstruct)
            return true;
#endif
        return false;
    }

    friend class ScriptExecutable;

    WriteBarrier<UnlinkedFunctionExecutable> m_unlinkedExecutable;
    RefPtr<FunctionCodeBlock> m_codeBlockForCall;
    RefPtr<FunctionCodeBlock> m_codeBlockForConstruct;
    bool m_bodyIncludesBraces;
    bool m_didParseForTheFirstTime;
    RefPtr<TypeSet> m_returnStatementTypeSet;
};

inline void ExecutableBase::clearCodeVirtual(ExecutableBase* executable)
{
    switch (executable->type()) {
    case EvalExecutableType:
        return jsCast<EvalExecutable*>(executable)->clearCode();
    case ProgramExecutableType:
        return jsCast<ProgramExecutable*>(executable)->clearCode();
    case FunctionExecutableType:
        return jsCast<FunctionExecutable*>(executable)->clearCode();
    default:
        return jsCast<NativeExecutable*>(executable)->clearCode();
    }
}

inline void ScriptExecutable::unlinkCalls()
{
    switch (type()) {
    case EvalExecutableType:
        return jsCast<EvalExecutable*>(this)->unlinkCalls();
    case ProgramExecutableType:
        return jsCast<ProgramExecutable*>(this)->unlinkCalls();
    case FunctionExecutableType:
        return jsCast<FunctionExecutable*>(this)->unlinkCalls();
    default:
        RELEASE_ASSERT_NOT_REACHED();
    }
}

}

#endif