/* * Copyright (C) 2009, 2010 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 "CallData.h" #include "JSFunction.h" #include "Interpreter.h" #include "Nodes.h" #include "SamplingTool.h" #include namespace JSC { class CodeBlock; class Debugger; class EvalCodeBlock; class FunctionCodeBlock; class ProgramCodeBlock; class ScopeChainNode; struct ExceptionInfo; class ExecutableBase : public RefCounted { friend class JIT; protected: static const int NUM_PARAMETERS_IS_HOST = 0; static const int NUM_PARAMETERS_NOT_COMPILED = -1; public: ExecutableBase(int numParameters) : m_numParametersForCall(numParameters) , m_numParametersForConstruct(numParameters) { } virtual ~ExecutableBase() {} bool isHostFunction() const { ASSERT((m_numParametersForCall == NUM_PARAMETERS_IS_HOST) == (m_numParametersForConstruct == NUM_PARAMETERS_IS_HOST)); return m_numParametersForCall == NUM_PARAMETERS_IS_HOST; } protected: int m_numParametersForCall; int m_numParametersForConstruct; #if ENABLE(JIT) public: JITCode& generatedJITCodeForCall() { ASSERT(m_jitCodeForCall); return m_jitCodeForCall; } JITCode& generatedJITCodeForConstruct() { ASSERT(m_jitCodeForConstruct); return m_jitCodeForConstruct; } protected: JITCode m_jitCodeForCall; JITCode m_jitCodeForConstruct; MacroAssemblerCodePtr m_jitCodeForCallWithArityCheck; MacroAssemblerCodePtr m_jitCodeForConstructWithArityCheck; #endif }; #if ENABLE(JIT) class NativeExecutable : public ExecutableBase { friend class JIT; public: static PassRefPtr create(MacroAssemblerCodePtr callThunk, NativeFunction function, MacroAssemblerCodePtr constructThunk, NativeFunction constructor) { if (!callThunk) return adoptRef(new NativeExecutable(JITCode(), function, JITCode(), constructor)); return adoptRef(new NativeExecutable(JITCode::HostFunction(callThunk), function, JITCode::HostFunction(constructThunk), constructor)); } ~NativeExecutable(); NativeFunction function() { return m_function; } private: NativeExecutable(JITCode callThunk, NativeFunction function, JITCode constructThunk, NativeFunction constructor) : ExecutableBase(NUM_PARAMETERS_IS_HOST) , m_function(function) , m_constructor(constructor) { m_jitCodeForCall = callThunk; m_jitCodeForConstruct = constructThunk; m_jitCodeForCallWithArityCheck = callThunk.addressForCall(); m_jitCodeForConstructWithArityCheck = constructThunk.addressForCall(); } NativeFunction m_function; // Probably should be a NativeConstructor, but this will currently require rewriting the JIT // trampoline. It may be easier to make NativeFunction be passed 'this' as a part of the ArgList. NativeFunction m_constructor; }; #endif class VPtrHackExecutable : public ExecutableBase { public: VPtrHackExecutable() : ExecutableBase(NUM_PARAMETERS_IS_HOST) { } ~VPtrHackExecutable(); }; class ScriptExecutable : public ExecutableBase { public: ScriptExecutable(JSGlobalData* globalData, const SourceCode& source, bool isInStrictContext) : ExecutableBase(NUM_PARAMETERS_NOT_COMPILED) , m_source(source) , m_features(isInStrictContext ? StrictModeFeature : 0) { #if ENABLE(CODEBLOCK_SAMPLING) relaxAdoptionRequirement(); if (SamplingTool* sampler = globalData->interpreter->sampler()) sampler->notifyOfScope(this); #else UNUSED_PARAM(globalData); #endif } ScriptExecutable(ExecState* exec, const SourceCode& source, bool isInStrictContext) : ExecutableBase(NUM_PARAMETERS_NOT_COMPILED) , m_source(source) , m_features(isInStrictContext ? StrictModeFeature : 0) { #if ENABLE(CODEBLOCK_SAMPLING) relaxAdoptionRequirement(); if (SamplingTool* sampler = exec->globalData().interpreter->sampler()) sampler->notifyOfScope(this); #else UNUSED_PARAM(exec); #endif } const SourceCode& source() { return m_source; } intptr_t sourceID() const { return m_source.provider()->asID(); } const UString& sourceURL() const { return m_source.provider()->url(); } int lineNo() const { return m_firstLine; } int lastLine() const { return m_lastLine; } 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; } virtual PassOwnPtr reparseExceptionInfo(ScopeChainNode*, CodeBlock*) = 0; protected: void recordParse(CodeFeatures features, bool hasCapturedVariables, int firstLine, int lastLine) { m_features = features; m_hasCapturedVariables = hasCapturedVariables; m_firstLine = firstLine; m_lastLine = lastLine; } SourceCode m_source; CodeFeatures m_features; bool m_hasCapturedVariables; int m_firstLine; int m_lastLine; }; class EvalExecutable : public ScriptExecutable { public: ~EvalExecutable(); JSObject* compile(ExecState* exec, ScopeChainNode* scopeChainNode) { JSObject* error = 0; if (!m_evalCodeBlock) error = compileInternal(exec, scopeChainNode); ASSERT(!error == !!m_evalCodeBlock); return error; } EvalCodeBlock& generatedBytecode() { ASSERT(m_evalCodeBlock); return *m_evalCodeBlock; } static PassRefPtr create(ExecState* exec, const SourceCode& source, bool isInStrictContext) { return adoptRef(new EvalExecutable(exec, source, isInStrictContext)); } #if ENABLE(JIT) JITCode& generatedJITCode() { return generatedJITCodeForCall(); } #endif private: EvalExecutable(ExecState*, const SourceCode&, bool); JSObject* compileInternal(ExecState*, ScopeChainNode*); virtual PassOwnPtr reparseExceptionInfo(ScopeChainNode*, CodeBlock*); OwnPtr m_evalCodeBlock; }; class ProgramExecutable : public ScriptExecutable { public: static PassRefPtr create(ExecState* exec, const SourceCode& source) { return adoptRef(new ProgramExecutable(exec, source)); } ~ProgramExecutable(); JSObject* compile(ExecState* exec, ScopeChainNode* scopeChainNode) { JSObject* error = 0; if (!m_programCodeBlock) error = compileInternal(exec, scopeChainNode); ASSERT(!error == !!m_programCodeBlock); return error; } ProgramCodeBlock& generatedBytecode() { ASSERT(m_programCodeBlock); return *m_programCodeBlock; } JSObject* checkSyntax(ExecState*); #if ENABLE(JIT) JITCode& generatedJITCode() { return generatedJITCodeForCall(); } #endif private: ProgramExecutable(ExecState*, const SourceCode&); JSObject* compileInternal(ExecState*, ScopeChainNode*); virtual PassOwnPtr reparseExceptionInfo(ScopeChainNode*, CodeBlock*); OwnPtr m_programCodeBlock; }; class FunctionExecutable : public ScriptExecutable { friend class JIT; public: static PassRefPtr create(ExecState* exec, const Identifier& name, const SourceCode& source, bool forceUsesArguments, FunctionParameters* parameters, bool isInStrictContext, int firstLine, int lastLine) { return adoptRef(new FunctionExecutable(exec, name, source, forceUsesArguments, parameters, isInStrictContext, firstLine, lastLine)); } static PassRefPtr create(JSGlobalData* globalData, const Identifier& name, const SourceCode& source, bool forceUsesArguments, FunctionParameters* parameters, bool isInStrictContext, int firstLine, int lastLine) { return adoptRef(new FunctionExecutable(globalData, name, source, forceUsesArguments, parameters, isInStrictContext, firstLine, lastLine)); } ~FunctionExecutable(); JSFunction* make(ExecState* exec, ScopeChainNode* scopeChain) { return new (exec) JSFunction(exec, this, scopeChain); } // 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& generatedBytecode() { if (m_codeBlockForCall) return *m_codeBlockForCall; ASSERT(m_codeBlockForConstruct); return *m_codeBlockForConstruct; } JSObject* compileForCall(ExecState* exec, ScopeChainNode* scopeChainNode) { JSObject* error = 0; if (!m_codeBlockForCall) error = compileForCallInternal(exec, scopeChainNode); ASSERT(!error == !!m_codeBlockForCall); return error; } bool isGeneratedForCall() const { return m_codeBlockForCall; } FunctionCodeBlock& generatedBytecodeForCall() { ASSERT(m_codeBlockForCall); return *m_codeBlockForCall; } JSObject* compileForConstruct(ExecState* exec, ScopeChainNode* scopeChainNode) { JSObject* error = 0; if (!m_codeBlockForConstruct) error = compileForConstructInternal(exec, scopeChainNode); ASSERT(!error == !!m_codeBlockForConstruct); return error; } bool isGeneratedForConstruct() const { return m_codeBlockForConstruct; } FunctionCodeBlock& generatedBytecodeForConstruct() { ASSERT(m_codeBlockForConstruct); return *m_codeBlockForConstruct; } const Identifier& name() { return m_name; } size_t parameterCount() const { return m_parameters->size(); } unsigned capturedVariableCount() const { return m_numCapturedVariables; } UString paramString() const; SharedSymbolTable* symbolTable() const { return m_symbolTable; } void recompile(ExecState*); void markAggregate(MarkStack&); static PassRefPtr fromGlobalCode(const Identifier&, ExecState*, Debugger*, const SourceCode&, JSObject** exception); private: FunctionExecutable(JSGlobalData*, const Identifier& name, const SourceCode&, bool forceUsesArguments, FunctionParameters*, bool, int firstLine, int lastLine); FunctionExecutable(ExecState*, const Identifier& name, const SourceCode&, bool forceUsesArguments, FunctionParameters*, bool, int firstLine, int lastLine); JSObject* compileForCallInternal(ExecState*, ScopeChainNode*); JSObject* compileForConstructInternal(ExecState*, ScopeChainNode*); virtual PassOwnPtr reparseExceptionInfo(ScopeChainNode*, CodeBlock*); unsigned m_numCapturedVariables : 31; bool m_forceUsesArguments : 1; RefPtr m_parameters; OwnPtr m_codeBlockForCall; OwnPtr m_codeBlockForConstruct; Identifier m_name; SharedSymbolTable* m_symbolTable; #if ENABLE(JIT) public: MacroAssemblerCodePtr generatedJITCodeForCallWithArityCheck() { ASSERT(m_jitCodeForCall); ASSERT(m_jitCodeForCallWithArityCheck); return m_jitCodeForCallWithArityCheck; } MacroAssemblerCodePtr generatedJITCodeForConstructWithArityCheck() { ASSERT(m_jitCodeForConstruct); ASSERT(m_jitCodeForConstructWithArityCheck); return m_jitCodeForConstructWithArityCheck; } #endif }; inline FunctionExecutable* JSFunction::jsExecutable() const { ASSERT(!isHostFunctionNonInline()); return static_cast(m_executable.get()); } inline bool JSFunction::isHostFunction() const { ASSERT(m_executable); return m_executable->isHostFunction(); } #if ENABLE(JIT) inline NativeFunction JSFunction::nativeFunction() { ASSERT(isHostFunction()); return static_cast(m_executable.get())->function(); } #endif } #endif