/* * 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. */ #include "config.h" #include "Executable.h" #include "BytecodeGenerator.h" #include "CodeBlock.h" #include "JIT.h" #include "Parser.h" #include "UStringBuilder.h" #include "Vector.h" #if ENABLE(DFG_JIT) #include "DFGByteCodeParser.h" #include "DFGJITCompiler.h" #endif namespace JSC { const ClassInfo ExecutableBase::s_info = { "Executable", 0, 0, 0 }; const ClassInfo NativeExecutable::s_info = { "NativeExecutable", &ExecutableBase::s_info, 0, 0 }; NativeExecutable::~NativeExecutable() { } const ClassInfo EvalExecutable::s_info = { "EvalExecutable", &ScriptExecutable::s_info, 0, 0 }; EvalExecutable::EvalExecutable(ExecState* exec, const SourceCode& source, bool inStrictContext) : ScriptExecutable(exec->globalData().evalExecutableStructure.get(), exec, source, inStrictContext) { } EvalExecutable::~EvalExecutable() { } const ClassInfo ProgramExecutable::s_info = { "ProgramExecutable", &ScriptExecutable::s_info, 0, 0 }; ProgramExecutable::ProgramExecutable(ExecState* exec, const SourceCode& source) : ScriptExecutable(exec->globalData().programExecutableStructure.get(), exec, source, false) { } ProgramExecutable::~ProgramExecutable() { } const ClassInfo FunctionExecutable::s_info = { "FunctionExecutable", &ScriptExecutable::s_info, 0, 0 }; FunctionExecutable::FunctionExecutable(JSGlobalData* globalData, const Identifier& name, const SourceCode& source, bool forceUsesArguments, FunctionParameters* parameters, bool inStrictContext, int firstLine, int lastLine) : ScriptExecutable(globalData->functionExecutableStructure.get(), globalData, source, inStrictContext) , m_numCapturedVariables(0) , m_forceUsesArguments(forceUsesArguments) , m_parameters(parameters) , m_name(name) , m_symbolTable(0) { m_firstLine = firstLine; m_lastLine = lastLine; } FunctionExecutable::FunctionExecutable(ExecState* exec, const Identifier& name, const SourceCode& source, bool forceUsesArguments, FunctionParameters* parameters, bool inStrictContext, int firstLine, int lastLine) : ScriptExecutable(exec->globalData().functionExecutableStructure.get(), exec, source, inStrictContext) , m_numCapturedVariables(0) , m_forceUsesArguments(forceUsesArguments) , m_parameters(parameters) , m_name(name) , m_symbolTable(0) { m_firstLine = firstLine; m_lastLine = lastLine; } JSObject* EvalExecutable::compileInternal(ExecState* exec, ScopeChainNode* scopeChainNode) { JSObject* exception = 0; JSGlobalData* globalData = &exec->globalData(); JSGlobalObject* lexicalGlobalObject = exec->lexicalGlobalObject(); RefPtr evalNode = globalData->parser->parse(lexicalGlobalObject, lexicalGlobalObject->debugger(), exec, m_source, 0, isStrictMode() ? JSParseStrict : JSParseNormal, &exception); if (!evalNode) { ASSERT(exception); return exception; } recordParse(evalNode->features(), evalNode->hasCapturedVariables(), evalNode->lineNo(), evalNode->lastLine()); JSGlobalObject* globalObject = scopeChainNode->globalObject.get(); ASSERT(!m_evalCodeBlock); m_evalCodeBlock = adoptPtr(new EvalCodeBlock(this, globalObject, source().provider(), scopeChainNode->localDepth())); OwnPtr generator(adoptPtr(new BytecodeGenerator(evalNode.get(), scopeChainNode, m_evalCodeBlock->symbolTable(), m_evalCodeBlock.get()))); if ((exception = generator->generate())) { m_evalCodeBlock.clear(); evalNode->destroyData(); return exception; } evalNode->destroyData(); #if ENABLE(JIT) if (exec->globalData().canUseJIT()) { m_jitCodeForCall = JIT::compile(scopeChainNode->globalData, m_evalCodeBlock.get()); #if !ENABLE(OPCODE_SAMPLING) if (!BytecodeGenerator::dumpsGeneratedCode()) m_evalCodeBlock->discardBytecode(); #endif } #endif return 0; } void EvalExecutable::markChildren(MarkStack& markStack) { ScriptExecutable::markChildren(markStack); if (m_evalCodeBlock) m_evalCodeBlock->markAggregate(markStack); } JSObject* ProgramExecutable::checkSyntax(ExecState* exec) { JSObject* exception = 0; JSGlobalData* globalData = &exec->globalData(); JSGlobalObject* lexicalGlobalObject = exec->lexicalGlobalObject(); RefPtr programNode = globalData->parser->parse(lexicalGlobalObject, lexicalGlobalObject->debugger(), exec, m_source, 0, JSParseNormal, &exception); if (programNode) return 0; ASSERT(exception); return exception; } JSObject* ProgramExecutable::compileInternal(ExecState* exec, ScopeChainNode* scopeChainNode) { ASSERT(!m_programCodeBlock); JSObject* exception = 0; JSGlobalData* globalData = &exec->globalData(); JSGlobalObject* lexicalGlobalObject = exec->lexicalGlobalObject(); RefPtr programNode = globalData->parser->parse(lexicalGlobalObject, lexicalGlobalObject->debugger(), exec, m_source, 0, isStrictMode() ? JSParseStrict : JSParseNormal, &exception); if (!programNode) { ASSERT(exception); return exception; } recordParse(programNode->features(), programNode->hasCapturedVariables(), programNode->lineNo(), programNode->lastLine()); JSGlobalObject* globalObject = scopeChainNode->globalObject.get(); m_programCodeBlock = adoptPtr(new ProgramCodeBlock(this, GlobalCode, globalObject, source().provider())); OwnPtr generator(adoptPtr(new BytecodeGenerator(programNode.get(), scopeChainNode, &globalObject->symbolTable(), m_programCodeBlock.get()))); if ((exception = generator->generate())) { m_programCodeBlock.clear(); programNode->destroyData(); return exception; } programNode->destroyData(); #if ENABLE(JIT) if (exec->globalData().canUseJIT()) { m_jitCodeForCall = JIT::compile(scopeChainNode->globalData, m_programCodeBlock.get()); #if !ENABLE(OPCODE_SAMPLING) if (!BytecodeGenerator::dumpsGeneratedCode()) m_programCodeBlock->discardBytecode(); #endif } #endif return 0; } #if ENABLE(JIT) static bool tryDFGCompile(JSGlobalData* globalData, CodeBlock* codeBlock, JITCode& jitCode, MacroAssemblerCodePtr& jitCodeWithArityCheck) { #if ENABLE(DFG_JIT) #if ENABLE(DFG_JIT_RESTRICTIONS) // FIXME: No flow control yet supported, don't bother scanning the bytecode if there are any jump targets. // FIXME: temporarily disable property accesses until we fix regressions. if (codeBlock->numberOfJumpTargets() || codeBlock->numberOfStructureStubInfos()) return false; #endif DFG::Graph dfg; if (!parse(dfg, globalData, codeBlock)) return false; DFG::JITCompiler dataFlowJIT(globalData, dfg, codeBlock); dataFlowJIT.compileFunction(jitCode, jitCodeWithArityCheck); return true; #else UNUSED_PARAM(globalData); UNUSED_PARAM(codeBlock); UNUSED_PARAM(jitCode); UNUSED_PARAM(jitCodeWithArityCheck); return false; #endif } #endif void ProgramExecutable::markChildren(MarkStack& markStack) { ScriptExecutable::markChildren(markStack); if (m_programCodeBlock) m_programCodeBlock->markAggregate(markStack); } JSObject* FunctionExecutable::compileForCallInternal(ExecState* exec, ScopeChainNode* scopeChainNode) { JSObject* exception = 0; JSGlobalData* globalData = scopeChainNode->globalData; RefPtr body = globalData->parser->parse(exec->lexicalGlobalObject(), 0, 0, m_source, m_parameters.get(), isStrictMode() ? JSParseStrict : JSParseNormal, &exception); if (!body) { ASSERT(exception); return exception; } if (m_forceUsesArguments) body->setUsesArguments(); body->finishParsing(m_parameters, m_name); recordParse(body->features(), body->hasCapturedVariables(), body->lineNo(), body->lastLine()); JSGlobalObject* globalObject = scopeChainNode->globalObject.get(); ASSERT(!m_codeBlockForCall); m_codeBlockForCall = adoptPtr(new FunctionCodeBlock(this, FunctionCode, globalObject, source().provider(), source().startOffset(), false)); OwnPtr generator(adoptPtr(new BytecodeGenerator(body.get(), scopeChainNode, m_codeBlockForCall->symbolTable(), m_codeBlockForCall.get()))); if ((exception = generator->generate())) { m_codeBlockForCall.clear(); body->destroyData(); return exception; } m_numParametersForCall = m_codeBlockForCall->m_numParameters; ASSERT(m_numParametersForCall); m_numCapturedVariables = m_codeBlockForCall->m_numCapturedVars; m_symbolTable = m_codeBlockForCall->sharedSymbolTable(); body->destroyData(); #if ENABLE(JIT) if (exec->globalData().canUseJIT()) { bool dfgCompiled = tryDFGCompile(&exec->globalData(), m_codeBlockForCall.get(), m_jitCodeForCall, m_jitCodeForCallWithArityCheck); if (!dfgCompiled) m_jitCodeForCall = JIT::compile(scopeChainNode->globalData, m_codeBlockForCall.get(), &m_jitCodeForCallWithArityCheck); #if !ENABLE(OPCODE_SAMPLING) if (!BytecodeGenerator::dumpsGeneratedCode()) m_codeBlockForCall->discardBytecode(); #endif } #endif return 0; } JSObject* FunctionExecutable::compileForConstructInternal(ExecState* exec, ScopeChainNode* scopeChainNode) { JSObject* exception = 0; JSGlobalData* globalData = scopeChainNode->globalData; RefPtr body = globalData->parser->parse(exec->lexicalGlobalObject(), 0, 0, m_source, m_parameters.get(), isStrictMode() ? JSParseStrict : JSParseNormal, &exception); if (!body) { ASSERT(exception); return exception; } if (m_forceUsesArguments) body->setUsesArguments(); body->finishParsing(m_parameters, m_name); recordParse(body->features(), body->hasCapturedVariables(), body->lineNo(), body->lastLine()); JSGlobalObject* globalObject = scopeChainNode->globalObject.get(); ASSERT(!m_codeBlockForConstruct); m_codeBlockForConstruct = adoptPtr(new FunctionCodeBlock(this, FunctionCode, globalObject, source().provider(), source().startOffset(), true)); OwnPtr generator(adoptPtr(new BytecodeGenerator(body.get(), scopeChainNode, m_codeBlockForConstruct->symbolTable(), m_codeBlockForConstruct.get()))); if ((exception = generator->generate())) { m_codeBlockForConstruct.clear(); body->destroyData(); return exception; } m_numParametersForConstruct = m_codeBlockForConstruct->m_numParameters; ASSERT(m_numParametersForConstruct); m_numCapturedVariables = m_codeBlockForConstruct->m_numCapturedVars; m_symbolTable = m_codeBlockForConstruct->sharedSymbolTable(); body->destroyData(); #if ENABLE(JIT) if (exec->globalData().canUseJIT()) { m_jitCodeForConstruct = JIT::compile(scopeChainNode->globalData, m_codeBlockForConstruct.get(), &m_jitCodeForConstructWithArityCheck); #if !ENABLE(OPCODE_SAMPLING) if (!BytecodeGenerator::dumpsGeneratedCode()) m_codeBlockForConstruct->discardBytecode(); #endif } #endif return 0; } void FunctionExecutable::markChildren(MarkStack& markStack) { ScriptExecutable::markChildren(markStack); if (m_codeBlockForCall) m_codeBlockForCall->markAggregate(markStack); if (m_codeBlockForConstruct) m_codeBlockForConstruct->markAggregate(markStack); } void FunctionExecutable::discardCode() { m_codeBlockForCall.clear(); m_codeBlockForConstruct.clear(); m_numParametersForCall = NUM_PARAMETERS_NOT_COMPILED; m_numParametersForConstruct = NUM_PARAMETERS_NOT_COMPILED; #if ENABLE(JIT) m_jitCodeForCall = JITCode(); m_jitCodeForConstruct = JITCode(); #endif } FunctionExecutable* FunctionExecutable::fromGlobalCode(const Identifier& functionName, ExecState* exec, Debugger* debugger, const SourceCode& source, JSObject** exception) { JSGlobalObject* lexicalGlobalObject = exec->lexicalGlobalObject(); RefPtr program = exec->globalData().parser->parse(lexicalGlobalObject, debugger, exec, source, 0, JSParseNormal, exception); if (!program) { ASSERT(*exception); return 0; } // Uses of this function that would not result in a single function expression are invalid. StatementNode* exprStatement = program->singleStatement(); ASSERT(exprStatement); ASSERT(exprStatement->isExprStatement()); ExpressionNode* funcExpr = static_cast(exprStatement)->expr(); ASSERT(funcExpr); ASSERT(funcExpr->isFuncExprNode()); FunctionBodyNode* body = static_cast(funcExpr)->body(); ASSERT(body); return FunctionExecutable::create(&exec->globalData(), functionName, body->source(), body->usesArguments(), body->parameters(), body->isStrictMode(), body->lineNo(), body->lastLine()); } UString FunctionExecutable::paramString() const { FunctionParameters& parameters = *m_parameters; UStringBuilder builder; for (size_t pos = 0; pos < parameters.size(); ++pos) { if (!builder.isEmpty()) builder.append(", "); builder.append(parameters[pos].ustring()); } return builder.toUString(); } }