X-Git-Url: https://git.saurik.com/apple/javascriptcore.git/blobdiff_plain/14957cd040308e3eeec43d26bae5d76da13fcd85..8b637bb680022adfddad653280734877951535a9:/interpreter/Interpreter.cpp diff --git a/interpreter/Interpreter.cpp b/interpreter/Interpreter.cpp index 1514933..87a9c2b 100644 --- a/interpreter/Interpreter.cpp +++ b/interpreter/Interpreter.cpp @@ -1,5 +1,5 @@ /* - * Copyright (C) 2008, 2009, 2010 Apple Inc. All rights reserved. + * Copyright (C) 2008, 2009, 2010, 2012, 2013 Apple Inc. All rights reserved. * Copyright (C) 2008 Cameron Zwarich * * Redistribution and use in source and binary forms, with or without @@ -44,496 +44,370 @@ #include "GetterSetter.h" #include "JSActivation.h" #include "JSArray.h" -#include "JSByteArray.h" -#include "JSFunction.h" +#include "JSBoundFunction.h" +#include "JSNameScope.h" #include "JSNotAnObject.h" #include "JSPropertyNameIterator.h" -#include "LiteralParser.h" -#include "JSStaticScopeObject.h" +#include "JSStackInlines.h" #include "JSString.h" +#include "JSWithScope.h" +#include "LLIntCLoop.h" +#include "LegacyProfiler.h" +#include "LiteralParser.h" +#include "NameInstance.h" #include "ObjectPrototype.h" #include "Operations.h" #include "Parser.h" -#include "Profiler.h" #include "RegExpObject.h" #include "RegExpPrototype.h" #include "Register.h" #include "SamplingTool.h" #include "StrictEvalActivation.h" -#include "UStringConcatenate.h" +#include "StrongInlines.h" #include #include +#include +#include #include +#include +#include #if ENABLE(JIT) #include "JIT.h" #endif -#define WTF_USE_GCC_COMPUTED_GOTO_WORKAROUND (ENABLE(COMPUTED_GOTO_INTERPRETER) && !defined(__llvm__)) +#define WTF_USE_GCC_COMPUTED_GOTO_WORKAROUND (ENABLE(LLINT) && !defined(__llvm__)) using namespace std; namespace JSC { -// Returns the depth of the scope chain within a given call frame. -static int depth(CodeBlock* codeBlock, ScopeChainNode* sc) +Interpreter::ErrorHandlingMode::ErrorHandlingMode(ExecState *exec) + : m_interpreter(*exec->interpreter()) { - if (!codeBlock->needsFullScopeChain()) - return 0; - return sc->localDepth(); + if (!m_interpreter.m_errorHandlingModeReentry) + m_interpreter.stack().enableErrorStackReserve(); + m_interpreter.m_errorHandlingModeReentry++; } -#if ENABLE(INTERPRETER) -static NEVER_INLINE JSValue concatenateStrings(ExecState* exec, Register* strings, unsigned count) +Interpreter::ErrorHandlingMode::~ErrorHandlingMode() { - return jsString(exec, strings, count); + m_interpreter.m_errorHandlingModeReentry--; + ASSERT(m_interpreter.m_errorHandlingModeReentry >= 0); + if (!m_interpreter.m_errorHandlingModeReentry) + m_interpreter.stack().disableErrorStackReserve(); } -NEVER_INLINE bool Interpreter::resolve(CallFrame* callFrame, Instruction* vPC, JSValue& exceptionValue) -{ - int dst = vPC[1].u.operand; - int property = vPC[2].u.operand; - ScopeChainNode* scopeChain = callFrame->scopeChain(); - ScopeChainIterator iter = scopeChain->begin(); - ScopeChainIterator end = scopeChain->end(); - ASSERT(iter != end); +// The Interpreter::StackPolicy class is used to compute a stack capacity +// requirement to ensure that we have enough room on the native stack for: +// 1. the max cumulative stack used by the interpreter and all code +// paths sub of it up till leaf functions. +// 2. the max cumulative stack used by the interpreter before it reaches +// the next checkpoint (execute...() function) in the interpreter. +// +// The interpreter can be run on different threads and hence, different +// native stacks (with different sizes) before exiting out of the first +// frame. Hence, the required capacity needs to be re-computed on every +// entry into the interpreter. +// +// Currently the requiredStack is computed based on a policy. See comments +// in StackPolicy::StackPolicy() for details. + +Interpreter::StackPolicy::StackPolicy(Interpreter& interpreter, const StackBounds& stack) + : m_interpreter(interpreter) +{ + const size_t size = stack.size(); - CodeBlock* codeBlock = callFrame->codeBlock(); - Identifier& ident = codeBlock->identifier(property); - do { - JSObject* o = iter->get(); - PropertySlot slot(o); - if (o->getPropertySlot(callFrame, ident, slot)) { - JSValue result = slot.getValue(callFrame, ident); - exceptionValue = callFrame->globalData().exception; - if (exceptionValue) - return false; - callFrame->uncheckedR(dst) = JSValue(result); - return true; - } - } while (++iter != end); - exceptionValue = createUndefinedVariableError(callFrame, ident); - return false; -} + // We have two separate stack limits, one for regular JS execution, and one + // for when we're handling errors. We need the error stack to be smaller + // otherwise there would obviously not be any stack left to execute JS in when + // there's a stack overflow. + // + // These sizes were derived from the stack usage of a number of sites when + // layout occurs when we've already consumed most of the C stack. + const size_t requiredStack = 256 * KB; + const size_t errorModeRequiredStack = 64 * KB; -NEVER_INLINE bool Interpreter::resolveSkip(CallFrame* callFrame, Instruction* vPC, JSValue& exceptionValue) -{ - CodeBlock* codeBlock = callFrame->codeBlock(); + size_t requiredCapacity = m_interpreter.m_errorHandlingModeReentry ? errorModeRequiredStack : requiredStack; - int dst = vPC[1].u.operand; - int property = vPC[2].u.operand; - int skip = vPC[3].u.operand; - - ScopeChainNode* scopeChain = callFrame->scopeChain(); - ScopeChainIterator iter = scopeChain->begin(); - ScopeChainIterator end = scopeChain->end(); - ASSERT(iter != end); - bool checkTopLevel = codeBlock->codeType() == FunctionCode && codeBlock->needsFullScopeChain(); - ASSERT(skip || !checkTopLevel); - if (checkTopLevel && skip--) { - if (callFrame->uncheckedR(codeBlock->activationRegister()).jsValue()) - ++iter; - } - while (skip--) { - ++iter; - ASSERT(iter != end); - } - Identifier& ident = codeBlock->identifier(property); - do { - JSObject* o = iter->get(); - PropertySlot slot(o); - if (o->getPropertySlot(callFrame, ident, slot)) { - JSValue result = slot.getValue(callFrame, ident); - exceptionValue = callFrame->globalData().exception; - if (exceptionValue) - return false; - ASSERT(result); - callFrame->uncheckedR(dst) = JSValue(result); - return true; - } - } while (++iter != end); - exceptionValue = createUndefinedVariableError(callFrame, ident); - return false; + RELEASE_ASSERT(size > requiredCapacity); + + m_requiredCapacity = requiredCapacity; } -NEVER_INLINE bool Interpreter::resolveGlobal(CallFrame* callFrame, Instruction* vPC, JSValue& exceptionValue) -{ - int dst = vPC[1].u.operand; - CodeBlock* codeBlock = callFrame->codeBlock(); - JSGlobalObject* globalObject = codeBlock->globalObject(); - ASSERT(globalObject->isGlobalObject()); - int property = vPC[2].u.operand; - Structure* structure = vPC[3].u.structure.get(); - int offset = vPC[4].u.operand; - - if (structure == globalObject->structure()) { - callFrame->uncheckedR(dst) = JSValue(globalObject->getDirectOffset(offset)); - return true; - } - - Identifier& ident = codeBlock->identifier(property); - PropertySlot slot(globalObject); - if (globalObject->getPropertySlot(callFrame, ident, slot)) { - JSValue result = slot.getValue(callFrame, ident); - if (slot.isCacheableValue() && !globalObject->structure()->isUncacheableDictionary() && slot.slotBase() == globalObject) { - vPC[3].u.structure.set(callFrame->globalData(), codeBlock->ownerExecutable(), globalObject->structure()); - vPC[4] = slot.cachedOffset(); - callFrame->uncheckedR(dst) = JSValue(result); - return true; - } - exceptionValue = callFrame->globalData().exception; - if (exceptionValue) - return false; - callFrame->uncheckedR(dst) = JSValue(result); - return true; - } +static CallFrame* getCallerInfo(VM*, CallFrame*, unsigned& bytecodeOffset, CodeBlock*& callerOut); - exceptionValue = createUndefinedVariableError(callFrame, ident); - return false; +// Returns the depth of the scope chain within a given call frame. +static int depth(CodeBlock* codeBlock, JSScope* sc) +{ + if (!codeBlock->needsFullScopeChain()) + return 0; + return sc->localDepth(); } -NEVER_INLINE bool Interpreter::resolveGlobalDynamic(CallFrame* callFrame, Instruction* vPC, JSValue& exceptionValue) +JSValue eval(CallFrame* callFrame) { - int dst = vPC[1].u.operand; - CodeBlock* codeBlock = callFrame->codeBlock(); - JSGlobalObject* globalObject = codeBlock->globalObject(); - ASSERT(globalObject->isGlobalObject()); - int property = vPC[2].u.operand; - Structure* structure = vPC[3].u.structure.get(); - int offset = vPC[4].u.operand; - int skip = vPC[5].u.operand; + if (!callFrame->argumentCount()) + return jsUndefined(); + + JSValue program = callFrame->argument(0); + if (!program.isString()) + return program; - ScopeChainNode* scopeChain = callFrame->scopeChain(); - ScopeChainIterator iter = scopeChain->begin(); - ScopeChainIterator end = scopeChain->end(); - ASSERT(iter != end); - bool checkTopLevel = codeBlock->codeType() == FunctionCode && codeBlock->needsFullScopeChain(); - ASSERT(skip || !checkTopLevel); - if (checkTopLevel && skip--) { - if (callFrame->uncheckedR(codeBlock->activationRegister()).jsValue()) - ++iter; - } - while (skip--) { - JSObject* o = iter->get(); - if (o->hasCustomProperties()) { - Identifier& ident = codeBlock->identifier(property); - do { - PropertySlot slot(o); - if (o->getPropertySlot(callFrame, ident, slot)) { - JSValue result = slot.getValue(callFrame, ident); - exceptionValue = callFrame->globalData().exception; - if (exceptionValue) - return false; - ASSERT(result); - callFrame->uncheckedR(dst) = JSValue(result); - return true; - } - if (iter == end) - break; - o = iter->get(); - ++iter; - } while (true); - exceptionValue = createUndefinedVariableError(callFrame, ident); - return false; - } - ++iter; - } + TopCallFrameSetter topCallFrame(callFrame->vm(), callFrame); + String programSource = asString(program)->value(callFrame); + if (callFrame->hadException()) + return JSValue(); - if (structure == globalObject->structure()) { - callFrame->uncheckedR(dst) = JSValue(globalObject->getDirectOffset(offset)); - ASSERT(callFrame->uncheckedR(dst).jsValue()); - return true; - } - - Identifier& ident = codeBlock->identifier(property); - PropertySlot slot(globalObject); - if (globalObject->getPropertySlot(callFrame, ident, slot)) { - JSValue result = slot.getValue(callFrame, ident); - if (slot.isCacheableValue() && !globalObject->structure()->isUncacheableDictionary() && slot.slotBase() == globalObject) { - vPC[3].u.structure.set(callFrame->globalData(), codeBlock->ownerExecutable(), globalObject->structure()); - vPC[4] = slot.cachedOffset(); - ASSERT(result); - callFrame->uncheckedR(dst) = JSValue(result); - return true; + CallFrame* callerFrame = callFrame->callerFrame(); + CodeBlock* callerCodeBlock = callerFrame->codeBlock(); + JSScope* callerScopeChain = callerFrame->scope(); + EvalExecutable* eval = callerCodeBlock->evalCodeCache().tryGet(callerCodeBlock->isStrictMode(), programSource, callerScopeChain); + + if (!eval) { + if (!callerCodeBlock->isStrictMode()) { + // FIXME: We can use the preparser in strict mode, we just need additional logic + // to prevent duplicates. + if (programSource.is8Bit()) { + LiteralParser preparser(callFrame, programSource.characters8(), programSource.length(), NonStrictJSON); + if (JSValue parsedObject = preparser.tryLiteralParse()) + return parsedObject; + } else { + LiteralParser preparser(callFrame, programSource.characters16(), programSource.length(), NonStrictJSON); + if (JSValue parsedObject = preparser.tryLiteralParse()) + return parsedObject; + } } - exceptionValue = callFrame->globalData().exception; - if (exceptionValue) - return false; - ASSERT(result); - callFrame->uncheckedR(dst) = JSValue(result); - return true; + // If the literal parser bailed, it should not have thrown exceptions. + ASSERT(!callFrame->vm().exception); + + JSValue exceptionValue; + eval = callerCodeBlock->evalCodeCache().getSlow(callFrame, callerCodeBlock->unlinkedCodeBlock()->codeCacheForEval().get(), callerCodeBlock->ownerExecutable(), callerCodeBlock->isStrictMode(), programSource, callerScopeChain, exceptionValue); + + ASSERT(!eval == exceptionValue); + if (UNLIKELY(!eval)) + return throwError(callFrame, exceptionValue); } - - exceptionValue = createUndefinedVariableError(callFrame, ident); - return false; -} -NEVER_INLINE void Interpreter::resolveBase(CallFrame* callFrame, Instruction* vPC) -{ - int dst = vPC[1].u.operand; - int property = vPC[2].u.operand; - bool isStrictPut = vPC[3].u.operand; - Identifier ident = callFrame->codeBlock()->identifier(property); - JSValue result = JSC::resolveBase(callFrame, ident, callFrame->scopeChain(), isStrictPut); - if (result) { - callFrame->uncheckedR(dst) = result; - ASSERT(callFrame->uncheckedR(dst).jsValue()); - } else - callFrame->globalData().exception = createErrorForInvalidGlobalAssignment(callFrame, ident.ustring()); + JSValue thisValue = callerFrame->thisValue(); + ASSERT(isValidThisObject(thisValue, callFrame)); + Interpreter* interpreter = callFrame->vm().interpreter; + return interpreter->execute(eval, callFrame, thisValue, callerScopeChain); } -NEVER_INLINE bool Interpreter::resolveBaseAndProperty(CallFrame* callFrame, Instruction* vPC, JSValue& exceptionValue) +CallFrame* loadVarargs(CallFrame* callFrame, JSStack* stack, JSValue thisValue, JSValue arguments, int firstFreeRegister) { - int baseDst = vPC[1].u.operand; - int propDst = vPC[2].u.operand; - int property = vPC[3].u.operand; - - ScopeChainNode* scopeChain = callFrame->scopeChain(); - ScopeChainIterator iter = scopeChain->begin(); - ScopeChainIterator end = scopeChain->end(); - - // FIXME: add scopeDepthIsZero optimization - - ASSERT(iter != end); - - CodeBlock* codeBlock = callFrame->codeBlock(); - Identifier& ident = codeBlock->identifier(property); - JSObject* base; - do { - base = iter->get(); - PropertySlot slot(base); - if (base->getPropertySlot(callFrame, ident, slot)) { - JSValue result = slot.getValue(callFrame, ident); - exceptionValue = callFrame->globalData().exception; - if (exceptionValue) - return false; - callFrame->uncheckedR(propDst) = JSValue(result); - callFrame->uncheckedR(baseDst) = JSValue(base); - return true; + if (!arguments) { // f.apply(x, arguments), with arguments unmodified. + unsigned argumentCountIncludingThis = callFrame->argumentCountIncludingThis(); + CallFrame* newCallFrame = CallFrame::create(callFrame->registers() + firstFreeRegister + argumentCountIncludingThis + JSStack::CallFrameHeaderSize); + if (argumentCountIncludingThis > Arguments::MaxArguments + 1 || !stack->grow(newCallFrame->registers())) { + callFrame->vm().exception = createStackOverflowError(callFrame); + return 0; } - ++iter; - } while (iter != end); - - exceptionValue = createUndefinedVariableError(callFrame, ident); - return false; -} -#endif // ENABLE(INTERPRETER) - -ALWAYS_INLINE CallFrame* Interpreter::slideRegisterWindowForCall(CodeBlock* newCodeBlock, RegisterFile* registerFile, CallFrame* callFrame, size_t registerOffset, int argc) -{ - Register* r = callFrame->registers(); - Register* newEnd = r + registerOffset + newCodeBlock->m_numCalleeRegisters; + newCallFrame->setArgumentCountIncludingThis(argumentCountIncludingThis); + newCallFrame->setThisValue(thisValue); + for (size_t i = 0; i < callFrame->argumentCount(); ++i) + newCallFrame->setArgument(i, callFrame->argumentAfterCapture(i)); + return newCallFrame; + } - if (LIKELY(argc == newCodeBlock->m_numParameters)) { // correct number of arguments - if (UNLIKELY(!registerFile->grow(newEnd))) - return 0; - r += registerOffset; - } else if (argc < newCodeBlock->m_numParameters) { // too few arguments -- fill in the blanks - size_t omittedArgCount = newCodeBlock->m_numParameters - argc; - registerOffset += omittedArgCount; - newEnd += omittedArgCount; - if (!registerFile->grow(newEnd)) + if (arguments.isUndefinedOrNull()) { + CallFrame* newCallFrame = CallFrame::create(callFrame->registers() + firstFreeRegister + 1 + JSStack::CallFrameHeaderSize); + if (!stack->grow(newCallFrame->registers())) { + callFrame->vm().exception = createStackOverflowError(callFrame); return 0; - r += registerOffset; + } + newCallFrame->setArgumentCountIncludingThis(1); + newCallFrame->setThisValue(thisValue); + return newCallFrame; + } - Register* argv = r - RegisterFile::CallFrameHeaderSize - omittedArgCount; - for (size_t i = 0; i < omittedArgCount; ++i) - argv[i] = jsUndefined(); - } else { // too many arguments -- copy expected arguments, leaving the extra arguments behind - size_t numParameters = newCodeBlock->m_numParameters; - registerOffset += numParameters; - newEnd += numParameters; + if (!arguments.isObject()) { + callFrame->vm().exception = createInvalidParamError(callFrame, "Function.prototype.apply", arguments); + return 0; + } - if (!registerFile->grow(newEnd)) + if (asObject(arguments)->classInfo() == &Arguments::s_info) { + Arguments* argsObject = asArguments(arguments); + unsigned argCount = argsObject->length(callFrame); + CallFrame* newCallFrame = CallFrame::create(callFrame->registers() + firstFreeRegister + CallFrame::offsetFor(argCount + 1)); + if (argCount > Arguments::MaxArguments || !stack->grow(newCallFrame->registers())) { + callFrame->vm().exception = createStackOverflowError(callFrame); return 0; - r += registerOffset; - - Register* argv = r - RegisterFile::CallFrameHeaderSize - numParameters - argc; - for (size_t i = 0; i < numParameters; ++i) - argv[i + argc] = argv[i]; + } + newCallFrame->setArgumentCountIncludingThis(argCount + 1); + newCallFrame->setThisValue(thisValue); + argsObject->copyToArguments(callFrame, newCallFrame, argCount); + return newCallFrame; } - return CallFrame::create(r); -} + if (isJSArray(arguments)) { + JSArray* array = asArray(arguments); + unsigned argCount = array->length(); + CallFrame* newCallFrame = CallFrame::create(callFrame->registers() + firstFreeRegister + CallFrame::offsetFor(argCount + 1)); + if (argCount > Arguments::MaxArguments || !stack->grow(newCallFrame->registers())) { + callFrame->vm().exception = createStackOverflowError(callFrame); + return 0; + } + newCallFrame->setArgumentCountIncludingThis(argCount + 1); + newCallFrame->setThisValue(thisValue); + array->copyToArguments(callFrame, newCallFrame, argCount); + return newCallFrame; + } -#if ENABLE(INTERPRETER) -static NEVER_INLINE bool isInvalidParamForIn(CallFrame* callFrame, JSValue value, JSValue& exceptionData) -{ - if (value.isObject()) - return false; - exceptionData = createInvalidParamError(callFrame, "in" , value); - return true; + JSObject* argObject = asObject(arguments); + unsigned argCount = argObject->get(callFrame, callFrame->propertyNames().length).toUInt32(callFrame); + CallFrame* newCallFrame = CallFrame::create(callFrame->registers() + firstFreeRegister + CallFrame::offsetFor(argCount + 1)); + if (argCount > Arguments::MaxArguments || !stack->grow(newCallFrame->registers())) { + callFrame->vm().exception = createStackOverflowError(callFrame); + return 0; + } + newCallFrame->setArgumentCountIncludingThis(argCount + 1); + newCallFrame->setThisValue(thisValue); + for (size_t i = 0; i < argCount; ++i) { + newCallFrame->setArgument(i, asObject(arguments)->get(callFrame, i)); + if (UNLIKELY(callFrame->vm().exception)) + return 0; + } + return newCallFrame; } -static NEVER_INLINE bool isInvalidParamForInstanceOf(CallFrame* callFrame, JSValue value, JSValue& exceptionData) +Interpreter::Interpreter(VM& vm) + : m_sampleEntryDepth(0) + , m_stack(vm) + , m_errorHandlingModeReentry(0) +#if !ASSERT_DISABLED + , m_initialized(false) +#endif { - if (value.isObject() && asObject(value)->structure()->typeInfo().implementsHasInstance()) - return false; - exceptionData = createInvalidParamError(callFrame, "instanceof" , value); - return true; } -#endif -NEVER_INLINE JSValue Interpreter::callEval(CallFrame* callFrame, RegisterFile* registerFile, Register* argv, int argc, int registerOffset) +Interpreter::~Interpreter() { - if (argc < 2) - return jsUndefined(); - - JSValue program = argv[1].jsValue(); - - if (!program.isString()) - return program; - - UString programSource = asString(program)->value(callFrame); - if (callFrame->hadException()) - return JSValue(); - - CodeBlock* codeBlock = callFrame->codeBlock(); - if (!codeBlock->isStrictMode()) { - // FIXME: We can use the preparser in strict mode, we just need additional logic - // to prevent duplicates. - LiteralParser preparser(callFrame, programSource.characters(), programSource.length(), LiteralParser::NonStrictJSON); - if (JSValue parsedObject = preparser.tryLiteralParse()) - return parsedObject; - } - - ScopeChainNode* scopeChain = callFrame->scopeChain(); - JSValue exceptionValue; - EvalExecutable* eval = codeBlock->evalCodeCache().get(callFrame, codeBlock->ownerExecutable(), codeBlock->isStrictMode(), programSource, scopeChain, exceptionValue); - - ASSERT(!eval == exceptionValue); - if (UNLIKELY(!eval)) - return throwError(callFrame, exceptionValue); - - return callFrame->globalData().interpreter->execute(eval, callFrame, callFrame->uncheckedR(codeBlock->thisRegister()).jsValue().toThisObject(callFrame), callFrame->registers() - registerFile->start() + registerOffset, scopeChain); } -Interpreter::Interpreter(JSGlobalData& globalData) - : m_sampleEntryDepth(0) - , m_reentryDepth(0) - , m_registerFile(globalData) +void Interpreter::initialize(bool canUseJIT) { -#if ENABLE(COMPUTED_GOTO_INTERPRETER) - privateExecute(InitializeAndReturn, 0, 0); + UNUSED_PARAM(canUseJIT); +#if ENABLE(COMPUTED_GOTO_OPCODES) && ENABLE(LLINT) + m_opcodeTable = LLInt::opcodeMap(); for (int i = 0; i < numOpcodeIDs; ++i) m_opcodeIDTable.add(m_opcodeTable[i], static_cast(i)); -#endif // ENABLE(COMPUTED_GOTO_INTERPRETER) +#endif + +#if !ASSERT_DISABLED + m_initialized = true; +#endif #if ENABLE(OPCODE_SAMPLING) enableSampler(); #endif } -#ifndef NDEBUG +#ifdef NDEBUG + +void Interpreter::dumpCallFrame(CallFrame*) +{ +} + +#else void Interpreter::dumpCallFrame(CallFrame* callFrame) { - callFrame->codeBlock()->dump(callFrame); + callFrame->codeBlock()->dumpBytecode(); dumpRegisters(callFrame); } void Interpreter::dumpRegisters(CallFrame* callFrame) { - printf("Register frame: \n\n"); - printf("-----------------------------------------------------------------------------\n"); - printf(" use | address | value \n"); - printf("-----------------------------------------------------------------------------\n"); + dataLogF("Register frame: \n\n"); + dataLogF("-----------------------------------------------------------------------------\n"); + dataLogF(" use | address | value \n"); + dataLogF("-----------------------------------------------------------------------------\n"); CodeBlock* codeBlock = callFrame->codeBlock(); - RegisterFile* registerFile = &callFrame->scopeChain()->globalObject->globalData().interpreter->registerFile(); const Register* it; const Register* end; - JSValue v; - - if (codeBlock->codeType() == GlobalCode) { - it = registerFile->lastGlobal(); - end = it + registerFile->numGlobals(); - while (it != end) { - v = (*it).jsValue(); -#if USE(JSVALUE32_64) - printf("[global var] | %10p | %-16s 0x%llx \n", it, v.description(), JSValue::encode(v)); -#else - printf("[global var] | %10p | %-16s %p \n", it, v.description(), JSValue::encode(v)); -#endif - ++it; - } - printf("-----------------------------------------------------------------------------\n"); + + it = callFrame->registers() - JSStack::CallFrameHeaderSize - callFrame->argumentCountIncludingThis(); + end = callFrame->registers() - JSStack::CallFrameHeaderSize; + while (it < end) { + JSValue v = it->jsValue(); + int registerNumber = it - callFrame->registers(); + String name = codeBlock->nameForRegister(registerNumber); + dataLogF("[r% 3d %14s] | %10p | %-16s 0x%lld \n", registerNumber, name.ascii().data(), it, toCString(v).data(), (long long)JSValue::encode(v)); + it++; } - it = callFrame->registers() - RegisterFile::CallFrameHeaderSize - codeBlock->m_numParameters; - v = (*it).jsValue(); -#if USE(JSVALUE32_64) - printf("[this] | %10p | %-16s 0x%llx \n", it, v.description(), JSValue::encode(v)); ++it; -#else - printf("[this] | %10p | %-16s %p \n", it, v.description(), JSValue::encode(v)); ++it; -#endif - end = it + max(codeBlock->m_numParameters - 1, 0); // - 1 to skip "this" - if (it != end) { - do { - v = (*it).jsValue(); -#if USE(JSVALUE32_64) - printf("[param] | %10p | %-16s 0x%llx \n", it, v.description(), JSValue::encode(v)); -#else - printf("[param] | %10p | %-16s %p \n", it, v.description(), JSValue::encode(v)); + dataLogF("-----------------------------------------------------------------------------\n"); + dataLogF("[ArgumentCount] | %10p | %lu \n", it, (unsigned long) callFrame->argumentCount()); + ++it; + dataLogF("[CallerFrame] | %10p | %p \n", it, callFrame->callerFrame()); + ++it; + dataLogF("[Callee] | %10p | %p \n", it, callFrame->callee()); + ++it; + dataLogF("[ScopeChain] | %10p | %p \n", it, callFrame->scope()); + ++it; +#if ENABLE(JIT) + AbstractPC pc = callFrame->abstractReturnPC(callFrame->vm()); + if (pc.hasJITReturnAddress()) + dataLogF("[ReturnJITPC] | %10p | %p \n", it, pc.jitReturnAddress().value()); #endif - ++it; - } while (it != end); - } - printf("-----------------------------------------------------------------------------\n"); - printf("[CodeBlock] | %10p | %p \n", it, (*it).codeBlock()); ++it; - printf("[ScopeChain] | %10p | %p \n", it, (*it).scopeChain()); ++it; - printf("[CallerRegisters] | %10p | %d \n", it, (*it).i()); ++it; - printf("[ReturnPC] | %10p | %p \n", it, (*it).vPC()); ++it; - printf("[ArgumentCount] | %10p | %d \n", it, (*it).i()); ++it; - printf("[Callee] | %10p | %p \n", it, (*it).function()); ++it; - printf("-----------------------------------------------------------------------------\n"); + unsigned bytecodeOffset = 0; + int line = 0; + CodeBlock* callerCodeBlock = 0; + getCallerInfo(&callFrame->vm(), callFrame, bytecodeOffset, callerCodeBlock); + line = callerCodeBlock->lineNumberForBytecodeOffset(bytecodeOffset); + dataLogF("[ReturnVPC] | %10p | %d (line %d)\n", it, bytecodeOffset, line); + ++it; + dataLogF("[CodeBlock] | %10p | %p \n", it, callFrame->codeBlock()); + ++it; + dataLogF("-----------------------------------------------------------------------------\n"); int registerCount = 0; end = it + codeBlock->m_numVars; if (it != end) { do { - v = (*it).jsValue(); -#if USE(JSVALUE32_64) - printf("[r%2d] | %10p | %-16s 0x%llx \n", registerCount, it, v.description(), JSValue::encode(v)); -#else - printf("[r%2d] | %10p | %-16s %p \n", registerCount, it, v.description(), JSValue::encode(v)); -#endif + JSValue v = it->jsValue(); + int registerNumber = it - callFrame->registers(); + String name = codeBlock->nameForRegister(registerNumber); + dataLogF("[r% 3d %14s] | %10p | %-16s 0x%lld \n", registerNumber, name.ascii().data(), it, toCString(v).data(), (long long)JSValue::encode(v)); ++it; ++registerCount; } while (it != end); } - printf("-----------------------------------------------------------------------------\n"); + dataLogF("-----------------------------------------------------------------------------\n"); end = it + codeBlock->m_numCalleeRegisters - codeBlock->m_numVars; if (it != end) { do { - v = (*it).jsValue(); -#if USE(JSVALUE32_64) - printf("[r%2d] | %10p | %-16s 0x%llx \n", registerCount, it, v.description(), JSValue::encode(v)); -#else - printf("[r%2d] | %10p | %-16s %p \n", registerCount, it, v.description(), JSValue::encode(v)); -#endif + JSValue v = (*it).jsValue(); + dataLogF("[r% 3d] | %10p | %-16s 0x%lld \n", registerCount, it, toCString(v).data(), (long long)JSValue::encode(v)); ++it; ++registerCount; } while (it != end); } - printf("-----------------------------------------------------------------------------\n"); + dataLogF("-----------------------------------------------------------------------------\n"); } #endif bool Interpreter::isOpcode(Opcode opcode) { -#if ENABLE(COMPUTED_GOTO_INTERPRETER) +#if ENABLE(COMPUTED_GOTO_OPCODES) +#if !ENABLE(LLINT) + return static_cast(bitwise_cast(opcode)) <= op_end; +#else return opcode != HashTraits::emptyValue() && !HashTraits::isDeletedValue(opcode) && m_opcodeIDTable.contains(opcode); +#endif #else return opcode >= 0 && opcode <= op_end; #endif @@ -542,62 +416,37 @@ bool Interpreter::isOpcode(Opcode opcode) NEVER_INLINE bool Interpreter::unwindCallFrame(CallFrame*& callFrame, JSValue exceptionValue, unsigned& bytecodeOffset, CodeBlock*& codeBlock) { CodeBlock* oldCodeBlock = codeBlock; - ScopeChainNode* scopeChain = callFrame->scopeChain(); + JSScope* scope = callFrame->scope(); if (Debugger* debugger = callFrame->dynamicGlobalObject()->debugger()) { DebuggerCallFrame debuggerCallFrame(callFrame, exceptionValue); if (callFrame->callee()) - debugger->returnEvent(debuggerCallFrame, codeBlock->ownerExecutable()->sourceID(), codeBlock->ownerExecutable()->lastLine()); + debugger->returnEvent(debuggerCallFrame, codeBlock->ownerExecutable()->sourceID(), codeBlock->ownerExecutable()->lastLine(), 0); else - debugger->didExecuteProgram(debuggerCallFrame, codeBlock->ownerExecutable()->sourceID(), codeBlock->ownerExecutable()->lastLine()); + debugger->didExecuteProgram(debuggerCallFrame, codeBlock->ownerExecutable()->sourceID(), codeBlock->ownerExecutable()->lastLine(), 0); } - // If this call frame created an activation or an 'arguments' object, tear it off. - if (oldCodeBlock->codeType() == FunctionCode && oldCodeBlock->needsFullScopeChain()) { - if (!callFrame->uncheckedR(oldCodeBlock->activationRegister()).jsValue()) { - oldCodeBlock->createActivation(callFrame); - scopeChain = callFrame->scopeChain(); - } - while (!scopeChain->object->inherits(&JSActivation::s_info)) - scopeChain = scopeChain->pop(); + JSValue activation; + if (oldCodeBlock->codeType() == FunctionCode && oldCodeBlock->needsActivation()) { + activation = callFrame->uncheckedR(oldCodeBlock->activationRegister()).jsValue(); + if (activation) + jsCast(activation)->tearOff(*scope->vm()); + } - callFrame->setScopeChain(scopeChain); - JSActivation* activation = asActivation(scopeChain->object.get()); - activation->copyRegisters(*scopeChain->globalData); + if (oldCodeBlock->codeType() == FunctionCode && oldCodeBlock->usesArguments()) { if (JSValue arguments = callFrame->uncheckedR(unmodifiedArgumentsRegister(oldCodeBlock->argumentsRegister())).jsValue()) { - if (!oldCodeBlock->isStrictMode()) - asArguments(arguments)->setActivation(callFrame->globalData(), activation); + if (activation) + jsCast(arguments)->didTearOffActivation(callFrame, jsCast(activation)); + else + jsCast(arguments)->tearOff(callFrame); } - } else if (oldCodeBlock->usesArguments() && !oldCodeBlock->isStrictMode()) { - if (JSValue arguments = callFrame->uncheckedR(unmodifiedArgumentsRegister(oldCodeBlock->argumentsRegister())).jsValue()) - asArguments(arguments)->copyRegisters(callFrame->globalData()); } CallFrame* callerFrame = callFrame->callerFrame(); + callFrame->vm().topCallFrame = callerFrame; if (callerFrame->hasHostCallFrameFlag()) return false; - - codeBlock = callerFrame->codeBlock(); - - // Because of how the JIT records call site->bytecode offset - // information the JIT reports the bytecodeOffset for the returnPC - // to be at the beginning of the opcode that has caused the call. - // In the interpreter we have an actual return address, which is - // the beginning of next instruction to execute. To get an offset - // inside the call instruction that triggered the exception we - // have to subtract 1. -#if ENABLE(JIT) && ENABLE(INTERPRETER) - if (callerFrame->globalData().canUseJIT()) - bytecodeOffset = codeBlock->bytecodeOffset(callFrame->returnPC()); - else - bytecodeOffset = codeBlock->bytecodeOffset(callFrame->returnVPC()) - 1; -#elif ENABLE(JIT) - bytecodeOffset = codeBlock->bytecodeOffset(callFrame->returnPC()); -#else - bytecodeOffset = codeBlock->bytecodeOffset(callFrame->returnVPC()) - 1; -#endif - - callFrame = callerFrame; + callFrame = getCallerInfo(&callFrame->vm(), callFrame, bytecodeOffset, codeBlock); return true; } @@ -611,51 +460,286 @@ static void appendSourceToError(CallFrame* callFrame, ErrorInstance* exception, int startOffset = 0; int endOffset = 0; int divotPoint = 0; + unsigned line = 0; + unsigned column = 0; CodeBlock* codeBlock = callFrame->codeBlock(); - codeBlock->expressionRangeForBytecodeOffset(bytecodeOffset, divotPoint, startOffset, endOffset); + codeBlock->expressionRangeForBytecodeOffset(bytecodeOffset, divotPoint, startOffset, endOffset, line, column); int expressionStart = divotPoint - startOffset; int expressionStop = divotPoint + endOffset; - if (!expressionStop || expressionStart > codeBlock->source()->length()) + const String& sourceString = codeBlock->source()->source(); + if (!expressionStop || expressionStart > static_cast(sourceString.length())) return; - JSGlobalData* globalData = &callFrame->globalData(); - JSValue jsMessage = exception->getDirect(*globalData, globalData->propertyNames->message); + VM* vm = &callFrame->vm(); + JSValue jsMessage = exception->getDirect(*vm, vm->propertyNames->message); if (!jsMessage || !jsMessage.isString()) return; - UString message = asString(jsMessage)->value(callFrame); + String message = asString(jsMessage)->value(callFrame); if (expressionStart < expressionStop) - message = makeUString(message, " (evaluating '", codeBlock->source()->getRange(expressionStart, expressionStop), "')"); + message = makeString(message, " (evaluating '", codeBlock->source()->getRange(expressionStart, expressionStop), "')"); else { // No range information, so give a few characters of context - const UChar* data = codeBlock->source()->data(); - int dataLength = codeBlock->source()->length(); + const StringImpl* data = sourceString.impl(); + int dataLength = sourceString.length(); int start = expressionStart; int stop = expressionStart; // Get up to 20 characters of context to the left and right of the divot, clamping to the line. // then strip whitespace. - while (start > 0 && (expressionStart - start < 20) && data[start - 1] != '\n') + while (start > 0 && (expressionStart - start < 20) && (*data)[start - 1] != '\n') start--; - while (start < (expressionStart - 1) && isStrWhiteSpace(data[start])) + while (start < (expressionStart - 1) && isStrWhiteSpace((*data)[start])) start++; - while (stop < dataLength && (stop - expressionStart < 20) && data[stop] != '\n') + while (stop < dataLength && (stop - expressionStart < 20) && (*data)[stop] != '\n') stop++; - while (stop > expressionStart && isStrWhiteSpace(data[stop - 1])) + while (stop > expressionStart && isStrWhiteSpace((*data)[stop - 1])) stop--; - message = makeUString(message, " (near '...", codeBlock->source()->getRange(start, stop), "...')"); + message = makeString(message, " (near '...", codeBlock->source()->getRange(start, stop), "...')"); + } + + exception->putDirect(*vm, vm->propertyNames->message, jsString(vm, message)); +} + +static unsigned getBytecodeOffsetForCallFrame(CallFrame* callFrame) +{ + callFrame = callFrame->removeHostCallFrameFlag(); + CodeBlock* codeBlock = callFrame->codeBlock(); + if (!codeBlock) + return 0; +#if ENABLE(DFG_JIT) + if (codeBlock->getJITType() == JITCode::DFGJIT) + return codeBlock->codeOrigin(callFrame->codeOriginIndexForDFG()).bytecodeIndex; +#endif + return callFrame->bytecodeOffsetForNonDFGCode(); +} + +static CallFrame* getCallerInfo(VM* vm, CallFrame* callFrame, unsigned& bytecodeOffset, CodeBlock*& caller) +{ + ASSERT_UNUSED(vm, vm); + bytecodeOffset = 0; + ASSERT(!callFrame->hasHostCallFrameFlag()); + CallFrame* trueCallerFrame = callFrame->trueCallerFrame(); + bool wasCalledByHost = callFrame->callerFrame()->hasHostCallFrameFlag(); + ASSERT(!trueCallerFrame->hasHostCallFrameFlag()); + + if (trueCallerFrame == CallFrame::noCaller() || !trueCallerFrame || !trueCallerFrame->codeBlock()) { + caller = 0; + return trueCallerFrame; + } + + CodeBlock* callerCodeBlock = trueCallerFrame->codeBlock(); + + if (!callFrame->hasReturnPC()) + wasCalledByHost = true; + + if (wasCalledByHost) { +#if ENABLE(DFG_JIT) + if (callerCodeBlock && callerCodeBlock->getJITType() == JITCode::DFGJIT) { + unsigned codeOriginIndex = callFrame->callerFrame()->removeHostCallFrameFlag()->codeOriginIndexForDFG(); + CodeOrigin origin = callerCodeBlock->codeOrigin(codeOriginIndex); + bytecodeOffset = origin.bytecodeIndex; + if (InlineCallFrame* inlineCallFrame = origin.inlineCallFrame) + callerCodeBlock = inlineCallFrame->baselineCodeBlock(); + } else +#endif + bytecodeOffset = trueCallerFrame->bytecodeOffsetForNonDFGCode(); + } else { +#if ENABLE(DFG_JIT) + if (callFrame->isInlineCallFrame()) { + InlineCallFrame* icf = callFrame->inlineCallFrame(); + bytecodeOffset = icf->caller.bytecodeIndex; + if (InlineCallFrame* parentCallFrame = icf->caller.inlineCallFrame) { + FunctionExecutable* executable = static_cast(parentCallFrame->executable.get()); + CodeBlock* newCodeBlock = executable->baselineCodeBlockFor(parentCallFrame->isCall ? CodeForCall : CodeForConstruct); + ASSERT(newCodeBlock); + ASSERT(newCodeBlock->instructionCount() > bytecodeOffset); + callerCodeBlock = newCodeBlock; + } + } else if (callerCodeBlock && callerCodeBlock->getJITType() == JITCode::DFGJIT) { + CodeOrigin origin; + if (!callerCodeBlock->codeOriginForReturn(callFrame->returnPC(), origin)) { + // This should not be possible, but we're seeing cases where it does happen + // CallFrame already has robustness against bogus stack walks, so + // we'll extend that to here as well. + ASSERT_NOT_REACHED(); + caller = 0; + return 0; + } + bytecodeOffset = origin.bytecodeIndex; + if (InlineCallFrame* icf = origin.inlineCallFrame) { + FunctionExecutable* executable = static_cast(icf->executable.get()); + CodeBlock* newCodeBlock = executable->baselineCodeBlockFor(icf->isCall ? CodeForCall : CodeForConstruct); + ASSERT(newCodeBlock); + ASSERT(newCodeBlock->instructionCount() > bytecodeOffset); + callerCodeBlock = newCodeBlock; + } + } else +#endif + { + RELEASE_ASSERT(callerCodeBlock); + bytecodeOffset = callerCodeBlock->bytecodeOffset(trueCallerFrame, callFrame->returnPC()); + } + } + + RELEASE_ASSERT(callerCodeBlock); + caller = callerCodeBlock; + return trueCallerFrame; +} + +static ALWAYS_INLINE const String getSourceURLFromCallFrame(CallFrame* callFrame) +{ + ASSERT(!callFrame->hasHostCallFrameFlag()); + return callFrame->codeBlock()->ownerExecutable()->sourceURL(); +} + +static StackFrameCodeType getStackFrameCodeType(CallFrame* callFrame) +{ + ASSERT(!callFrame->hasHostCallFrameFlag()); + + switch (callFrame->codeBlock()->codeType()) { + case EvalCode: + return StackFrameEvalCode; + case FunctionCode: + return StackFrameFunctionCode; + case GlobalCode: + return StackFrameGlobalCode; + } + RELEASE_ASSERT_NOT_REACHED(); + return StackFrameGlobalCode; +} + +void StackFrame::computeLineAndColumn(unsigned& line, unsigned& column) +{ + if (!codeBlock) { + line = 0; + column = 0; + return; + } + + int divot = 0; + int unusedStartOffset = 0; + int unusedEndOffset = 0; + unsigned divotLine = 0; + unsigned divotColumn = 0; + expressionInfo(divot, unusedStartOffset, unusedEndOffset, divotLine, divotColumn); + + line = divotLine + lineOffset; + column = divotColumn + (divotLine ? 1 : firstLineColumnOffset); +} + +void StackFrame::expressionInfo(int& divot, int& startOffset, int& endOffset, unsigned& line, unsigned& column) +{ + codeBlock->expressionRangeForBytecodeOffset(bytecodeOffset, divot, startOffset, endOffset, line, column); + divot += characterOffset; +} + +String StackFrame::toString(CallFrame* callFrame) +{ + StringBuilder traceBuild; + String functionName = friendlyFunctionName(callFrame); + String sourceURL = friendlySourceURL(); + traceBuild.append(functionName); + if (!sourceURL.isEmpty()) { + if (!functionName.isEmpty()) + traceBuild.append('@'); + traceBuild.append(sourceURL); + if (codeType != StackFrameNativeCode) { + unsigned line; + unsigned column; + computeLineAndColumn(line, column); + + traceBuild.append(':'); + traceBuild.appendNumber(line); + traceBuild.append(':'); + traceBuild.appendNumber(column); + } + } + return traceBuild.toString().impl(); +} + +void Interpreter::getStackTrace(VM* vm, Vector& results, size_t maxStackSize) +{ + CallFrame* callFrame = vm->topCallFrame->removeHostCallFrameFlag(); + if (!callFrame || callFrame == CallFrame::noCaller()) + return; + unsigned bytecodeOffset = getBytecodeOffsetForCallFrame(callFrame); + callFrame = callFrame->trueCallFrameFromVMCode(); + if (!callFrame) + return; + CodeBlock* callerCodeBlock = callFrame->codeBlock(); + + while (callFrame && callFrame != CallFrame::noCaller() && maxStackSize--) { + String sourceURL; + if (callerCodeBlock) { + sourceURL = getSourceURLFromCallFrame(callFrame); + StackFrame s = { + Strong(*vm, callFrame->callee()), + getStackFrameCodeType(callFrame), + Strong(*vm, callerCodeBlock->ownerExecutable()), + Strong(*vm, callerCodeBlock->unlinkedCodeBlock()), + callerCodeBlock->source(), + callerCodeBlock->ownerExecutable()->lineNo(), + callerCodeBlock->firstLineColumnOffset(), + callerCodeBlock->sourceOffset(), + bytecodeOffset, + sourceURL + }; + + results.append(s); + } else { + StackFrame s = { Strong(*vm, callFrame->callee()), StackFrameNativeCode, Strong(), Strong(), 0, 0, 0, 0, 0, String()}; + results.append(s); + } + callFrame = getCallerInfo(vm, callFrame, bytecodeOffset, callerCodeBlock); + } +} + +void Interpreter::addStackTraceIfNecessary(CallFrame* callFrame, JSValue error) +{ + VM* vm = &callFrame->vm(); + ASSERT(callFrame == vm->topCallFrame || callFrame == callFrame->lexicalGlobalObject()->globalExec() || callFrame == callFrame->dynamicGlobalObject()->globalExec()); + + Vector stackTrace; + getStackTrace(&callFrame->vm(), stackTrace); + vm->exceptionStack() = RefCountedArray(stackTrace); + if (stackTrace.isEmpty() || !error.isObject()) + return; + + JSObject* errorObject = asObject(error); + JSGlobalObject* globalObject = 0; + if (isTerminatedExecutionException(error)) + globalObject = vm->dynamicGlobalObject; + else + globalObject = errorObject->globalObject(); + + // FIXME: JSStringJoiner could be more efficient than StringBuilder here. + StringBuilder builder; + for (unsigned i = 0; i < stackTrace.size(); i++) { + builder.append(String(stackTrace[i].toString(globalObject->globalExec()).impl())); + if (i != stackTrace.size() - 1) + builder.append('\n'); } - exception->putDirect(*globalData, globalData->propertyNames->message, jsString(globalData, message)); + if (errorObject->hasProperty(callFrame, vm->propertyNames->stack)) + return; + errorObject->putDirect(*vm, vm->propertyNames->stack, jsString(vm, builder.toString()), ReadOnly | DontDelete); } NEVER_INLINE HandlerInfo* Interpreter::throwException(CallFrame*& callFrame, JSValue& exceptionValue, unsigned bytecodeOffset) { CodeBlock* codeBlock = callFrame->codeBlock(); - bool isInterrupt = false; + bool isTermination = false; + + ASSERT(!exceptionValue.isEmpty()); + ASSERT(!exceptionValue.isCell() || exceptionValue.asCell()); + // This shouldn't be possible (hence the assertions), but we're already in the slowest of + // slow cases, so let's harden against it anyway to be safe. + if (exceptionValue.isEmpty() || (exceptionValue.isCell() && !exceptionValue.asCell())) + exceptionValue = jsNull(); // Set up the exception object if (exceptionValue.isObject()) { @@ -664,59 +748,53 @@ NEVER_INLINE HandlerInfo* Interpreter::throwException(CallFrame*& callFrame, JSV if (exception->isErrorInstance() && static_cast(exception)->appendSourceToMessage()) appendSourceToError(callFrame, static_cast(exception), bytecodeOffset); - // Using hasExpressionInfo to imply we are interested in rich exception info. - if (codeBlock->hasExpressionInfo() && !hasErrorInfo(callFrame, exception)) { - ASSERT(codeBlock->hasLineInfo()); - + if (!hasErrorInfo(callFrame, exception)) { // FIXME: should only really be adding these properties to VM generated exceptions, // but the inspector currently requires these for all thrown objects. addErrorInfo(callFrame, exception, codeBlock->lineNumberForBytecodeOffset(bytecodeOffset), codeBlock->ownerExecutable()->source()); } - ComplType exceptionType = exception->exceptionType(); - isInterrupt = exceptionType == Interrupted || exceptionType == Terminated; + isTermination = isTerminatedExecutionException(exception); + } else { + if (!callFrame->vm().exceptionStack().size()) { + Vector stack; + Interpreter::getStackTrace(&callFrame->vm(), stack); + callFrame->vm().exceptionStack() = RefCountedArray(stack); + } } if (Debugger* debugger = callFrame->dynamicGlobalObject()->debugger()) { DebuggerCallFrame debuggerCallFrame(callFrame, exceptionValue); bool hasHandler = codeBlock->handlerForBytecodeOffset(bytecodeOffset); - debugger->exception(debuggerCallFrame, codeBlock->ownerExecutable()->sourceID(), codeBlock->lineNumberForBytecodeOffset(bytecodeOffset), hasHandler); + debugger->exception(debuggerCallFrame, codeBlock->ownerExecutable()->sourceID(), codeBlock->lineNumberForBytecodeOffset(bytecodeOffset), 0, hasHandler); } // Calculate an exception handler vPC, unwinding call frames as necessary. HandlerInfo* handler = 0; - while (isInterrupt || !(handler = codeBlock->handlerForBytecodeOffset(bytecodeOffset))) { + while (isTermination || !(handler = codeBlock->handlerForBytecodeOffset(bytecodeOffset))) { if (!unwindCallFrame(callFrame, exceptionValue, bytecodeOffset, codeBlock)) { - if (Profiler* profiler = *Profiler::enabledProfilerReference()) + if (LegacyProfiler* profiler = callFrame->vm().enabledProfiler()) profiler->exceptionUnwind(callFrame); return 0; } } - if (Profiler* profiler = *Profiler::enabledProfilerReference()) + if (LegacyProfiler* profiler = callFrame->vm().enabledProfiler()) profiler->exceptionUnwind(callFrame); - // Shrink the JS stack, in case stack overflow made it huge. - Register* highWaterMark = 0; - for (CallFrame* callerFrame = callFrame; callerFrame; callerFrame = callerFrame->callerFrame()->removeHostCallFrameFlag()) { - CodeBlock* codeBlock = callerFrame->codeBlock(); - if (!codeBlock) - continue; - Register* callerHighWaterMark = callerFrame->registers() + codeBlock->m_numCalleeRegisters; - highWaterMark = max(highWaterMark, callerHighWaterMark); - } - m_registerFile.shrink(highWaterMark); - // Unwind the scope chain within the exception handler's call frame. - ScopeChainNode* scopeChain = callFrame->scopeChain(); + JSScope* scope = callFrame->scope(); int scopeDelta = 0; if (!codeBlock->needsFullScopeChain() || codeBlock->codeType() != FunctionCode - || callFrame->uncheckedR(codeBlock->activationRegister()).jsValue()) - scopeDelta = depth(codeBlock, scopeChain) - handler->scopeDepth; - ASSERT(scopeDelta >= 0); + || callFrame->uncheckedR(codeBlock->activationRegister()).jsValue()) { + int currentDepth = depth(codeBlock, scope); + int targetDepth = handler->scopeDepth; + scopeDelta = currentDepth - targetDepth; + RELEASE_ASSERT(scopeDelta >= 0); + } while (scopeDelta--) - scopeChain = scopeChain->pop(); - callFrame->setScopeChain(scopeChain); + scope = scope->next(); + callFrame->setScope(scope); return handler; } @@ -733,41 +811,79 @@ static inline JSObject* checkedReturn(JSObject* returnValue) return returnValue; } -JSValue Interpreter::execute(ProgramExecutable* program, CallFrame* callFrame, ScopeChainNode* scopeChain, JSObject* thisObj) +class SamplingScope { +public: + SamplingScope(Interpreter* interpreter) + : m_interpreter(interpreter) + { + interpreter->startSampling(); + } + ~SamplingScope() + { + m_interpreter->stopSampling(); + } +private: + Interpreter* m_interpreter; +}; + +JSValue Interpreter::execute(ProgramExecutable* program, CallFrame* callFrame, JSObject* thisObj) { - ASSERT(!scopeChain->globalData->exception); - ASSERT(!callFrame->globalData().isCollectorBusy()); - if (callFrame->globalData().isCollectorBusy()) + SamplingScope samplingScope(this); + + JSScope* scope = callFrame->scope(); + VM& vm = *scope->vm(); + + ASSERT(isValidThisObject(thisObj, callFrame)); + ASSERT(!vm.exception); + ASSERT(!vm.isCollectorBusy()); + if (vm.isCollectorBusy()) return jsNull(); - if (m_reentryDepth >= MaxSmallThreadReentryDepth && m_reentryDepth >= callFrame->globalData().maxReentryDepth) + StackStats::CheckPoint stackCheckPoint; + const StackBounds& nativeStack = wtfThreadData().stack(); + StackPolicy policy(*this, nativeStack); + if (!nativeStack.isSafeToRecurse(policy.requiredCapacity())) return checkedReturn(throwStackOverflowError(callFrame)); - DynamicGlobalObjectScope globalObjectScope(*scopeChain->globalData, scopeChain->globalObject.get()); - LiteralParser literalParser(callFrame, program->source().data(), program->source().length(), LiteralParser::JSONP); - Vector JSONPData; - if (literalParser.tryJSONPParse(JSONPData, scopeChain->globalObject->supportsRichSourceInfo())) { - JSGlobalObject* globalObject = scopeChain->globalObject.get(); + // First check if the "program" is actually just a JSON object. If so, + // we'll handle the JSON object here. Else, we'll handle real JS code + // below at failedJSONP. + DynamicGlobalObjectScope globalObjectScope(vm, scope->globalObject()); + Vector JSONPData; + bool parseResult; + const String programSource = program->source().toString(); + if (programSource.isNull()) + return jsUndefined(); + if (programSource.is8Bit()) { + LiteralParser literalParser(callFrame, programSource.characters8(), programSource.length(), JSONP); + parseResult = literalParser.tryJSONPParse(JSONPData, scope->globalObject()->globalObjectMethodTable()->supportsRichSourceInfo(scope->globalObject())); + } else { + LiteralParser literalParser(callFrame, programSource.characters16(), programSource.length(), JSONP); + parseResult = literalParser.tryJSONPParse(JSONPData, scope->globalObject()->globalObjectMethodTable()->supportsRichSourceInfo(scope->globalObject())); + } + + if (parseResult) { + JSGlobalObject* globalObject = scope->globalObject(); JSValue result; for (unsigned entry = 0; entry < JSONPData.size(); entry++) { - Vector JSONPPath; + Vector JSONPPath; JSONPPath.swap(JSONPData[entry].m_path); JSValue JSONPValue = JSONPData[entry].m_value.get(); - if (JSONPPath.size() == 1 && JSONPPath[0].m_type == LiteralParser::JSONPPathEntryTypeDeclare) { + if (JSONPPath.size() == 1 && JSONPPath[0].m_type == JSONPPathEntryTypeDeclare) { if (globalObject->hasProperty(callFrame, JSONPPath[0].m_pathEntryName)) { PutPropertySlot slot; - globalObject->put(callFrame, JSONPPath[0].m_pathEntryName, JSONPValue, slot); + globalObject->methodTable()->put(globalObject, callFrame, JSONPPath[0].m_pathEntryName, JSONPValue, slot); } else - globalObject->putWithAttributes(callFrame, JSONPPath[0].m_pathEntryName, JSONPValue, DontEnum | DontDelete); + globalObject->methodTable()->putDirectVirtual(globalObject, callFrame, JSONPPath[0].m_pathEntryName, JSONPValue, DontEnum | DontDelete); // var declarations return undefined result = jsUndefined(); continue; } JSValue baseObject(globalObject); for (unsigned i = 0; i < JSONPPath.size() - 1; i++) { - ASSERT(JSONPPath[i].m_type != LiteralParser::JSONPPathEntryTypeDeclare); + ASSERT(JSONPPath[i].m_type != JSONPPathEntryTypeDeclare); switch (JSONPPath[i].m_type) { - case LiteralParser::JSONPPathEntryTypeDot: { + case JSONPPathEntryTypeDot: { if (i == 0) { PropertySlot slot(globalObject); if (!globalObject->getPropertySlot(callFrame, JSONPPath[i].m_pathEntryName, slot)) { @@ -782,20 +898,20 @@ JSValue Interpreter::execute(ProgramExecutable* program, CallFrame* callFrame, S return jsUndefined(); continue; } - case LiteralParser::JSONPPathEntryTypeLookup: { + case JSONPPathEntryTypeLookup: { baseObject = baseObject.get(callFrame, JSONPPath[i].m_pathIndex); if (callFrame->hadException()) return jsUndefined(); continue; } default: - ASSERT_NOT_REACHED(); + RELEASE_ASSERT_NOT_REACHED(); return jsUndefined(); } } PutPropertySlot slot; switch (JSONPPath.last().m_type) { - case LiteralParser::JSONPPathEntryTypeCall: { + case JSONPPathEntryTypeCall: { JSValue function = baseObject.get(callFrame, JSONPPath.last().m_pathEntryName); if (callFrame->hadException()) return jsUndefined(); @@ -811,20 +927,20 @@ JSValue Interpreter::execute(ProgramExecutable* program, CallFrame* callFrame, S return jsUndefined(); break; } - case LiteralParser::JSONPPathEntryTypeDot: { + case JSONPPathEntryTypeDot: { baseObject.put(callFrame, JSONPPath.last().m_pathEntryName, JSONPValue, slot); if (callFrame->hadException()) return jsUndefined(); break; } - case LiteralParser::JSONPPathEntryTypeLookup: { - baseObject.put(callFrame, JSONPPath.last().m_pathIndex, JSONPValue); + case JSONPPathEntryTypeLookup: { + baseObject.putByIndex(callFrame, JSONPPath.last().m_pathIndex, JSONPValue, slot.isStrictMode()); if (callFrame->hadException()) return jsUndefined(); break; } default: - ASSERT_NOT_REACHED(); + RELEASE_ASSERT_NOT_REACHED(); return jsUndefined(); } result = JSONPValue; @@ -832,442 +948,407 @@ JSValue Interpreter::execute(ProgramExecutable* program, CallFrame* callFrame, S return result; } failedJSONP: - JSObject* error = program->compile(callFrame, scopeChain); - if (error) + // If we get here, then we have already proven that the script is not a JSON + // object. + + // Compile source to bytecode if necessary: + if (JSObject* error = program->initializeGlobalProperties(vm, callFrame, scope)) return checkedReturn(throwError(callFrame, error)); - CodeBlock* codeBlock = &program->generatedBytecode(); - Register* oldEnd = m_registerFile.end(); - Register* newEnd = oldEnd + codeBlock->m_numParameters + RegisterFile::CallFrameHeaderSize + codeBlock->m_numCalleeRegisters; - if (!m_registerFile.grow(newEnd)) - return checkedReturn(throwStackOverflowError(callFrame)); + if (JSObject* error = program->compile(callFrame, scope)) + return checkedReturn(throwError(callFrame, error)); + + ProgramCodeBlock* codeBlock = &program->generatedBytecode(); - JSGlobalObject* lastGlobalObject = m_registerFile.globalObject(); - JSGlobalObject* globalObject = callFrame->dynamicGlobalObject(); - globalObject->copyGlobalsTo(m_registerFile); + if (UNLIKELY(vm.watchdog.didFire(callFrame))) + return throwTerminatedExecutionException(callFrame); + + // Push the call frame for this invocation: + ASSERT(codeBlock->numParameters() == 1); // 1 parameter for 'this'. + CallFrame* newCallFrame = m_stack.pushFrame(callFrame, codeBlock, scope, 1, 0); + if (UNLIKELY(!newCallFrame)) + return checkedReturn(throwStackOverflowError(callFrame)); - CallFrame* newCallFrame = CallFrame::create(oldEnd + codeBlock->m_numParameters + RegisterFile::CallFrameHeaderSize); - ASSERT(codeBlock->m_numParameters == 1); // 1 parameter for 'this'. - newCallFrame->init(codeBlock, 0, scopeChain, CallFrame::noCaller(), codeBlock->m_numParameters, 0); - newCallFrame->uncheckedR(newCallFrame->hostThisRegister()) = JSValue(thisObj); + // Set the arguments for the callee: + newCallFrame->setThisValue(thisObj); - Profiler** profiler = Profiler::enabledProfilerReference(); - if (*profiler) - (*profiler)->willExecute(callFrame, program->sourceURL(), program->lineNo()); + if (LegacyProfiler* profiler = vm.enabledProfiler()) + profiler->willExecute(callFrame, program->sourceURL(), program->lineNo()); + // Execute the code: JSValue result; { SamplingTool::CallRecord callRecord(m_sampler.get()); + Watchdog::Scope watchdogScope(vm.watchdog); - m_reentryDepth++; -#if ENABLE(JIT) - if (callFrame->globalData().canUseJIT()) - result = program->generatedJITCode().execute(&m_registerFile, newCallFrame, scopeChain->globalData); - else -#endif - result = privateExecute(Normal, &m_registerFile, newCallFrame); - - m_reentryDepth--; +#if ENABLE(LLINT_C_LOOP) + result = LLInt::CLoop::execute(newCallFrame, llint_program_prologue); +#elif ENABLE(JIT) + result = program->generatedJITCode().execute(&m_stack, newCallFrame, &vm); +#endif // ENABLE(JIT) } - if (*profiler) - (*profiler)->didExecute(callFrame, program->sourceURL(), program->lineNo()); - - if (m_reentryDepth && lastGlobalObject && globalObject != lastGlobalObject) - lastGlobalObject->copyGlobalsTo(m_registerFile); + if (LegacyProfiler* profiler = vm.enabledProfiler()) + profiler->didExecute(callFrame, program->sourceURL(), program->lineNo()); - m_registerFile.shrink(oldEnd); + m_stack.popFrame(newCallFrame); return checkedReturn(result); } JSValue Interpreter::executeCall(CallFrame* callFrame, JSObject* function, CallType callType, const CallData& callData, JSValue thisValue, const ArgList& args) { + VM& vm = callFrame->vm(); + ASSERT(isValidThisObject(thisValue, callFrame)); ASSERT(!callFrame->hadException()); - ASSERT(!callFrame->globalData().isCollectorBusy()); - if (callFrame->globalData().isCollectorBusy()) + ASSERT(!vm.isCollectorBusy()); + if (vm.isCollectorBusy()) return jsNull(); - if (m_reentryDepth >= MaxSmallThreadReentryDepth && m_reentryDepth >= callFrame->globalData().maxReentryDepth) - return checkedReturn(throwStackOverflowError(callFrame)); - - Register* oldEnd = m_registerFile.end(); - int argCount = 1 + args.size(); // implicit "this" parameter - size_t registerOffset = argCount + RegisterFile::CallFrameHeaderSize; - - if (!m_registerFile.grow(oldEnd + registerOffset)) + StackStats::CheckPoint stackCheckPoint; + const StackBounds& nativeStack = wtfThreadData().stack(); + StackPolicy policy(*this, nativeStack); + if (!nativeStack.isSafeToRecurse(policy.requiredCapacity())) return checkedReturn(throwStackOverflowError(callFrame)); - CallFrame* newCallFrame = CallFrame::create(oldEnd); - size_t dst = 0; - newCallFrame->uncheckedR(0) = thisValue; - ArgList::const_iterator end = args.end(); - for (ArgList::const_iterator it = args.begin(); it != end; ++it) - newCallFrame->uncheckedR(++dst) = *it; - - if (callType == CallTypeJS) { - ScopeChainNode* callDataScopeChain = callData.js.scopeChain; + bool isJSCall = (callType == CallTypeJS); + JSScope* scope; + CodeBlock* newCodeBlock; + size_t argsCount = 1 + args.size(); // implicit "this" parameter - DynamicGlobalObjectScope globalObjectScope(*callDataScopeChain->globalData, callDataScopeChain->globalObject.get()); + if (isJSCall) + scope = callData.js.scope; + else { + ASSERT(callType == CallTypeHost); + scope = callFrame->scope(); + } + DynamicGlobalObjectScope globalObjectScope(vm, scope->globalObject()); - JSObject* compileError = callData.js.functionExecutable->compileForCall(callFrame, callDataScopeChain); + if (isJSCall) { + // Compile the callee: + JSObject* compileError = callData.js.functionExecutable->compileForCall(callFrame, scope); if (UNLIKELY(!!compileError)) { - m_registerFile.shrink(oldEnd); return checkedReturn(throwError(callFrame, compileError)); } + newCodeBlock = &callData.js.functionExecutable->generatedBytecodeForCall(); + ASSERT(!!newCodeBlock); + } else + newCodeBlock = 0; - CodeBlock* newCodeBlock = &callData.js.functionExecutable->generatedBytecodeForCall(); - newCallFrame = slideRegisterWindowForCall(newCodeBlock, &m_registerFile, newCallFrame, registerOffset, argCount); - if (UNLIKELY(!newCallFrame)) { - m_registerFile.shrink(oldEnd); - return checkedReturn(throwStackOverflowError(callFrame)); - } - - newCallFrame->init(newCodeBlock, 0, callDataScopeChain, callFrame->addHostCallFrameFlag(), argCount, function); + if (UNLIKELY(vm.watchdog.didFire(callFrame))) + return throwTerminatedExecutionException(callFrame); - Profiler** profiler = Profiler::enabledProfilerReference(); - if (*profiler) - (*profiler)->willExecute(callFrame, function); + CallFrame* newCallFrame = m_stack.pushFrame(callFrame, newCodeBlock, scope, argsCount, function); + if (UNLIKELY(!newCallFrame)) + return checkedReturn(throwStackOverflowError(callFrame)); - JSValue result; - { - SamplingTool::CallRecord callRecord(m_sampler.get()); + // Set the arguments for the callee: + newCallFrame->setThisValue(thisValue); + for (size_t i = 0; i < args.size(); ++i) + newCallFrame->setArgument(i, args.at(i)); - m_reentryDepth++; -#if ENABLE(JIT) - if (callFrame->globalData().canUseJIT()) - result = callData.js.functionExecutable->generatedJITCodeForCall().execute(&m_registerFile, newCallFrame, callDataScopeChain->globalData); - else -#endif - result = privateExecute(Normal, &m_registerFile, newCallFrame); - m_reentryDepth--; - } + if (LegacyProfiler* profiler = vm.enabledProfiler()) + profiler->willExecute(callFrame, function); - if (*profiler) - (*profiler)->didExecute(callFrame, function); + JSValue result; + { + SamplingTool::CallRecord callRecord(m_sampler.get(), !isJSCall); + Watchdog::Scope watchdogScope(vm.watchdog); - m_registerFile.shrink(oldEnd); - return checkedReturn(result); + // Execute the code: + if (isJSCall) { +#if ENABLE(LLINT_C_LOOP) + result = LLInt::CLoop::execute(newCallFrame, llint_function_for_call_prologue); +#elif ENABLE(JIT) + result = callData.js.functionExecutable->generatedJITCodeForCall().execute(&m_stack, newCallFrame, &vm); +#endif // ENABLE(JIT) + } else + result = JSValue::decode(callData.native.function(newCallFrame)); } - ASSERT(callType == CallTypeHost); - ScopeChainNode* scopeChain = callFrame->scopeChain(); - newCallFrame = CallFrame::create(newCallFrame->registers() + registerOffset); - newCallFrame->init(0, 0, scopeChain, callFrame->addHostCallFrameFlag(), argCount, function); + if (LegacyProfiler* profiler = vm.enabledProfiler()) + profiler->didExecute(callFrame, function); - DynamicGlobalObjectScope globalObjectScope(*scopeChain->globalData, scopeChain->globalObject.get()); - - Profiler** profiler = Profiler::enabledProfilerReference(); - if (*profiler) - (*profiler)->willExecute(callFrame, function); - - JSValue result; - { - SamplingTool::HostCallRecord callRecord(m_sampler.get()); - result = JSValue::decode(callData.native.function(newCallFrame)); - } - - if (*profiler) - (*profiler)->didExecute(callFrame, function); - - m_registerFile.shrink(oldEnd); - return checkedReturn(result); -} + m_stack.popFrame(newCallFrame); + return checkedReturn(result); +} JSObject* Interpreter::executeConstruct(CallFrame* callFrame, JSObject* constructor, ConstructType constructType, const ConstructData& constructData, const ArgList& args) { + VM& vm = callFrame->vm(); ASSERT(!callFrame->hadException()); - ASSERT(!callFrame->globalData().isCollectorBusy()); + ASSERT(!vm.isCollectorBusy()); // We throw in this case because we have to return something "valid" but we're // already in an invalid state. - if (callFrame->globalData().isCollectorBusy()) - return checkedReturn(throwStackOverflowError(callFrame)); - - if (m_reentryDepth >= MaxSmallThreadReentryDepth && m_reentryDepth >= callFrame->globalData().maxReentryDepth) + if (vm.isCollectorBusy()) return checkedReturn(throwStackOverflowError(callFrame)); - Register* oldEnd = m_registerFile.end(); - int argCount = 1 + args.size(); // implicit "this" parameter - size_t registerOffset = argCount + RegisterFile::CallFrameHeaderSize; - - if (!m_registerFile.grow(oldEnd + registerOffset)) + StackStats::CheckPoint stackCheckPoint; + const StackBounds& nativeStack = wtfThreadData().stack(); + StackPolicy policy(*this, nativeStack); + if (!nativeStack.isSafeToRecurse(policy.requiredCapacity())) return checkedReturn(throwStackOverflowError(callFrame)); - CallFrame* newCallFrame = CallFrame::create(oldEnd); - size_t dst = 0; - ArgList::const_iterator end = args.end(); - for (ArgList::const_iterator it = args.begin(); it != end; ++it) - newCallFrame->uncheckedR(++dst) = *it; + bool isJSConstruct = (constructType == ConstructTypeJS); + JSScope* scope; + CodeBlock* newCodeBlock; + size_t argsCount = 1 + args.size(); // implicit "this" parameter - if (constructType == ConstructTypeJS) { - ScopeChainNode* constructDataScopeChain = constructData.js.scopeChain; + if (isJSConstruct) + scope = constructData.js.scope; + else { + ASSERT(constructType == ConstructTypeHost); + scope = callFrame->scope(); + } - DynamicGlobalObjectScope globalObjectScope(*constructDataScopeChain->globalData, constructDataScopeChain->globalObject.get()); + DynamicGlobalObjectScope globalObjectScope(vm, scope->globalObject()); - JSObject* compileError = constructData.js.functionExecutable->compileForConstruct(callFrame, constructDataScopeChain); + if (isJSConstruct) { + // Compile the callee: + JSObject* compileError = constructData.js.functionExecutable->compileForConstruct(callFrame, scope); if (UNLIKELY(!!compileError)) { - m_registerFile.shrink(oldEnd); return checkedReturn(throwError(callFrame, compileError)); } + newCodeBlock = &constructData.js.functionExecutable->generatedBytecodeForConstruct(); + ASSERT(!!newCodeBlock); + } else + newCodeBlock = 0; - CodeBlock* newCodeBlock = &constructData.js.functionExecutable->generatedBytecodeForConstruct(); - newCallFrame = slideRegisterWindowForCall(newCodeBlock, &m_registerFile, newCallFrame, registerOffset, argCount); - if (UNLIKELY(!newCallFrame)) { - m_registerFile.shrink(oldEnd); - return checkedReturn(throwStackOverflowError(callFrame)); - } - - newCallFrame->init(newCodeBlock, 0, constructDataScopeChain, callFrame->addHostCallFrameFlag(), argCount, constructor); - - Profiler** profiler = Profiler::enabledProfilerReference(); - if (*profiler) - (*profiler)->willExecute(callFrame, constructor); - - JSValue result; - { - SamplingTool::CallRecord callRecord(m_sampler.get()); - - m_reentryDepth++; -#if ENABLE(JIT) - if (callFrame->globalData().canUseJIT()) - result = constructData.js.functionExecutable->generatedJITCodeForConstruct().execute(&m_registerFile, newCallFrame, constructDataScopeChain->globalData); - else -#endif - result = privateExecute(Normal, &m_registerFile, newCallFrame); - m_reentryDepth--; - } - - if (*profiler) - (*profiler)->didExecute(callFrame, constructor); - - m_registerFile.shrink(oldEnd); - if (callFrame->hadException()) - return 0; - ASSERT(result.isObject()); - return checkedReturn(asObject(result)); - } + if (UNLIKELY(vm.watchdog.didFire(callFrame))) + return throwTerminatedExecutionException(callFrame); - ASSERT(constructType == ConstructTypeHost); - ScopeChainNode* scopeChain = callFrame->scopeChain(); - newCallFrame = CallFrame::create(newCallFrame->registers() + registerOffset); - newCallFrame->init(0, 0, scopeChain, callFrame->addHostCallFrameFlag(), argCount, constructor); + CallFrame* newCallFrame = m_stack.pushFrame(callFrame, newCodeBlock, scope, argsCount, constructor); + if (UNLIKELY(!newCallFrame)) + return checkedReturn(throwStackOverflowError(callFrame)); - DynamicGlobalObjectScope globalObjectScope(*scopeChain->globalData, scopeChain->globalObject.get()); + // Set the arguments for the callee: + newCallFrame->setThisValue(jsUndefined()); + for (size_t i = 0; i < args.size(); ++i) + newCallFrame->setArgument(i, args.at(i)); - Profiler** profiler = Profiler::enabledProfilerReference(); - if (*profiler) - (*profiler)->willExecute(callFrame, constructor); + if (LegacyProfiler* profiler = vm.enabledProfiler()) + profiler->willExecute(callFrame, constructor); JSValue result; { - SamplingTool::HostCallRecord callRecord(m_sampler.get()); - result = JSValue::decode(constructData.native.function(newCallFrame)); + SamplingTool::CallRecord callRecord(m_sampler.get(), !isJSConstruct); + Watchdog::Scope watchdogScope(vm.watchdog); + + // Execute the code. + if (isJSConstruct) { +#if ENABLE(LLINT_C_LOOP) + result = LLInt::CLoop::execute(newCallFrame, llint_function_for_construct_prologue); +#elif ENABLE(JIT) + result = constructData.js.functionExecutable->generatedJITCodeForConstruct().execute(&m_stack, newCallFrame, &vm); +#endif // ENABLE(JIT) + } else + result = JSValue::decode(constructData.native.function(newCallFrame)); } - if (*profiler) - (*profiler)->didExecute(callFrame, constructor); + if (LegacyProfiler* profiler = vm.enabledProfiler()) + profiler->didExecute(callFrame, constructor); + + m_stack.popFrame(newCallFrame); - m_registerFile.shrink(oldEnd); if (callFrame->hadException()) return 0; ASSERT(result.isObject()); return checkedReturn(asObject(result)); } -CallFrameClosure Interpreter::prepareForRepeatCall(FunctionExecutable* FunctionExecutable, CallFrame* callFrame, JSFunction* function, int argCount, ScopeChainNode* scopeChain) +CallFrameClosure Interpreter::prepareForRepeatCall(FunctionExecutable* functionExecutable, CallFrame* callFrame, JSFunction* function, int argumentCountIncludingThis, JSScope* scope) { - ASSERT(!scopeChain->globalData->exception); - - if (m_reentryDepth >= MaxSmallThreadReentryDepth) { - if (m_reentryDepth >= callFrame->globalData().maxReentryDepth) { - throwStackOverflowError(callFrame); - return CallFrameClosure(); - } - } + VM& vm = *scope->vm(); + ASSERT(!vm.exception); - Register* oldEnd = m_registerFile.end(); - int argc = 1 + argCount; // implicit "this" parameter - - if (!m_registerFile.grow(oldEnd + argc)) { + if (vm.isCollectorBusy()) + return CallFrameClosure(); + + StackStats::CheckPoint stackCheckPoint; + const StackBounds& nativeStack = wtfThreadData().stack(); + StackPolicy policy(*this, nativeStack); + if (!nativeStack.isSafeToRecurse(policy.requiredCapacity())) { throwStackOverflowError(callFrame); return CallFrameClosure(); } - CallFrame* newCallFrame = CallFrame::create(oldEnd); - // We initialise |this| unnecessarily here for the sake of code clarity - size_t dst = 0; - for (int i = 0; i < argc; ++i) - newCallFrame->uncheckedR(dst++) = jsUndefined(); - - JSObject* error = FunctionExecutable->compileForCall(callFrame, scopeChain); + // Compile the callee: + JSObject* error = functionExecutable->compileForCall(callFrame, scope); if (error) { throwError(callFrame, error); - m_registerFile.shrink(oldEnd); return CallFrameClosure(); } - CodeBlock* codeBlock = &FunctionExecutable->generatedBytecodeForCall(); + CodeBlock* newCodeBlock = &functionExecutable->generatedBytecodeForCall(); + + size_t argsCount = argumentCountIncludingThis; + + CallFrame* newCallFrame = m_stack.pushFrame(callFrame, newCodeBlock, scope, argsCount, function); + if (UNLIKELY(!newCallFrame)) { + throwStackOverflowError(callFrame); + return CallFrameClosure(); + } - newCallFrame = slideRegisterWindowForCall(codeBlock, &m_registerFile, newCallFrame, argc + RegisterFile::CallFrameHeaderSize, argc); if (UNLIKELY(!newCallFrame)) { throwStackOverflowError(callFrame); - m_registerFile.shrink(oldEnd); return CallFrameClosure(); } - newCallFrame->init(codeBlock, 0, scopeChain, callFrame->addHostCallFrameFlag(), argc, function); - CallFrameClosure result = { callFrame, newCallFrame, function, FunctionExecutable, scopeChain->globalData, oldEnd, scopeChain, codeBlock->m_numParameters, argc }; + + // Return the successful closure: + CallFrameClosure result = { callFrame, newCallFrame, function, functionExecutable, &vm, scope, newCodeBlock->numParameters(), argumentCountIncludingThis }; return result; } JSValue Interpreter::execute(CallFrameClosure& closure) { - ASSERT(!closure.oldCallFrame->globalData().isCollectorBusy()); - if (closure.oldCallFrame->globalData().isCollectorBusy()) + VM& vm = *closure.vm; + SamplingScope samplingScope(this); + + ASSERT(!vm.isCollectorBusy()); + if (vm.isCollectorBusy()) return jsNull(); + + StackStats::CheckPoint stackCheckPoint; + m_stack.validateFence(closure.newCallFrame, "BEFORE"); closure.resetCallFrame(); - Profiler** profiler = Profiler::enabledProfilerReference(); - if (*profiler) - (*profiler)->willExecute(closure.oldCallFrame, closure.function); - + m_stack.validateFence(closure.newCallFrame, "STEP 1"); + + if (LegacyProfiler* profiler = vm.enabledProfiler()) + profiler->willExecute(closure.oldCallFrame, closure.function); + + if (UNLIKELY(vm.watchdog.didFire(closure.oldCallFrame))) + return throwTerminatedExecutionException(closure.oldCallFrame); + + // The code execution below may push more frames and point the topCallFrame + // to those newer frames, or it may pop to the top frame to the caller of + // the current repeat frame, or it may leave the top frame pointing to the + // current repeat frame. + // + // Hence, we need to preserve the topCallFrame here ourselves before + // repeating this call on a second callback function. + + TopCallFrameSetter topCallFrame(vm, closure.newCallFrame); + + // Execute the code: JSValue result; { SamplingTool::CallRecord callRecord(m_sampler.get()); - - m_reentryDepth++; -#if ENABLE(JIT) -#if ENABLE(INTERPRETER) - if (closure.newCallFrame->globalData().canUseJIT()) -#endif - result = closure.functionExecutable->generatedJITCodeForCall().execute(&m_registerFile, closure.newCallFrame, closure.globalData); -#if ENABLE(INTERPRETER) - else -#endif -#endif -#if ENABLE(INTERPRETER) - result = privateExecute(Normal, &m_registerFile, closure.newCallFrame); -#endif - m_reentryDepth--; + Watchdog::Scope watchdogScope(vm.watchdog); + +#if ENABLE(LLINT_C_LOOP) + result = LLInt::CLoop::execute(closure.newCallFrame, llint_function_for_call_prologue); +#elif ENABLE(JIT) + result = closure.functionExecutable->generatedJITCodeForCall().execute(&m_stack, closure.newCallFrame, &vm); +#endif // ENABLE(JIT) } - - if (*profiler) - (*profiler)->didExecute(closure.oldCallFrame, closure.function); + + if (LegacyProfiler* profiler = vm.enabledProfiler()) + profiler->didExecute(closure.oldCallFrame, closure.function); + + m_stack.validateFence(closure.newCallFrame, "AFTER"); return checkedReturn(result); } void Interpreter::endRepeatCall(CallFrameClosure& closure) { - m_registerFile.shrink(closure.oldEnd); -} - -JSValue Interpreter::execute(EvalExecutable* eval, CallFrame* callFrame, JSObject* thisObj, ScopeChainNode* scopeChain) -{ - JSObject* compileError = eval->compile(callFrame, scopeChain); - if (UNLIKELY(!!compileError)) - return checkedReturn(throwError(callFrame, compileError)); - return execute(eval, callFrame, thisObj, m_registerFile.size() + eval->generatedBytecode().m_numParameters + RegisterFile::CallFrameHeaderSize, scopeChain); + m_stack.popFrame(closure.newCallFrame); } -JSValue Interpreter::execute(EvalExecutable* eval, CallFrame* callFrame, JSObject* thisObj, int globalRegisterOffset, ScopeChainNode* scopeChain) +JSValue Interpreter::execute(EvalExecutable* eval, CallFrame* callFrame, JSValue thisValue, JSScope* scope) { - ASSERT(!scopeChain->globalData->exception); - ASSERT(!callFrame->globalData().isCollectorBusy()); - if (callFrame->globalData().isCollectorBusy()) + VM& vm = *scope->vm(); + SamplingScope samplingScope(this); + + ASSERT(scope->vm() == &callFrame->vm()); + ASSERT(isValidThisObject(thisValue, callFrame)); + ASSERT(!vm.exception); + ASSERT(!vm.isCollectorBusy()); + if (vm.isCollectorBusy()) return jsNull(); - DynamicGlobalObjectScope globalObjectScope(*scopeChain->globalData, scopeChain->globalObject.get()); + DynamicGlobalObjectScope globalObjectScope(vm, scope->globalObject()); - if (m_reentryDepth >= MaxSmallThreadReentryDepth && m_reentryDepth >= callFrame->globalData().maxReentryDepth) + StackStats::CheckPoint stackCheckPoint; + const StackBounds& nativeStack = wtfThreadData().stack(); + StackPolicy policy(*this, nativeStack); + if (!nativeStack.isSafeToRecurse(policy.requiredCapacity())) return checkedReturn(throwStackOverflowError(callFrame)); - JSObject* compileError = eval->compile(callFrame, scopeChain); + // Compile the callee: + JSObject* compileError = eval->compile(callFrame, scope); if (UNLIKELY(!!compileError)) return checkedReturn(throwError(callFrame, compileError)); EvalCodeBlock* codeBlock = &eval->generatedBytecode(); JSObject* variableObject; - for (ScopeChainNode* node = scopeChain; ; node = node->next.get()) { - ASSERT(node); - if (node->object->isVariableObject()) { - variableObject = static_cast(node->object.get()); + for (JSScope* node = scope; ; node = node->next()) { + RELEASE_ASSERT(node); + if (node->isVariableObject() && !node->isNameScopeObject()) { + variableObject = node; break; } } unsigned numVariables = codeBlock->numVariables(); int numFunctions = codeBlock->numberOfFunctionDecls(); - bool pushedScope = false; if (numVariables || numFunctions) { if (codeBlock->isStrictMode()) { - variableObject = new (callFrame) StrictEvalActivation(callFrame); - scopeChain = scopeChain->push(variableObject); - pushedScope = true; + scope = StrictEvalActivation::create(callFrame); + variableObject = scope; } // Scope for BatchedTransitionOptimizer - BatchedTransitionOptimizer optimizer(callFrame->globalData(), variableObject); + BatchedTransitionOptimizer optimizer(vm, variableObject); for (unsigned i = 0; i < numVariables; ++i) { const Identifier& ident = codeBlock->variable(i); if (!variableObject->hasProperty(callFrame, ident)) { PutPropertySlot slot; - variableObject->put(callFrame, ident, jsUndefined(), slot); + variableObject->methodTable()->put(variableObject, callFrame, ident, jsUndefined(), slot); } } for (int i = 0; i < numFunctions; ++i) { FunctionExecutable* function = codeBlock->functionDecl(i); PutPropertySlot slot; - variableObject->put(callFrame, function->name(), function->make(callFrame, scopeChain), slot); + variableObject->methodTable()->put(variableObject, callFrame, function->name(), JSFunction::create(callFrame, function, scope), slot); } } - Register* oldEnd = m_registerFile.end(); - Register* newEnd = m_registerFile.start() + globalRegisterOffset + codeBlock->m_numCalleeRegisters; - if (!m_registerFile.grow(newEnd)) { - if (pushedScope) - scopeChain->pop(); - return checkedReturn(throwStackOverflowError(callFrame)); - } + if (UNLIKELY(vm.watchdog.didFire(callFrame))) + return throwTerminatedExecutionException(callFrame); - CallFrame* newCallFrame = CallFrame::create(m_registerFile.start() + globalRegisterOffset); + // Push the frame: + ASSERT(codeBlock->numParameters() == 1); // 1 parameter for 'this'. + CallFrame* newCallFrame = m_stack.pushFrame(callFrame, codeBlock, scope, 1, 0); + if (UNLIKELY(!newCallFrame)) + return checkedReturn(throwStackOverflowError(callFrame)); - ASSERT(codeBlock->m_numParameters == 1); // 1 parameter for 'this'. - newCallFrame->init(codeBlock, 0, scopeChain, callFrame->addHostCallFrameFlag(), codeBlock->m_numParameters, 0); - newCallFrame->uncheckedR(newCallFrame->hostThisRegister()) = JSValue(thisObj); + // Set the arguments for the callee: + newCallFrame->setThisValue(thisValue); - Profiler** profiler = Profiler::enabledProfilerReference(); - if (*profiler) - (*profiler)->willExecute(callFrame, eval->sourceURL(), eval->lineNo()); + if (LegacyProfiler* profiler = vm.enabledProfiler()) + profiler->willExecute(callFrame, eval->sourceURL(), eval->lineNo()); + // Execute the code: JSValue result; { SamplingTool::CallRecord callRecord(m_sampler.get()); + Watchdog::Scope watchdogScope(vm.watchdog); - m_reentryDepth++; - -#if ENABLE(JIT) -#if ENABLE(INTERPRETER) - if (callFrame->globalData().canUseJIT()) -#endif - result = eval->generatedJITCode().execute(&m_registerFile, newCallFrame, scopeChain->globalData); -#if ENABLE(INTERPRETER) - else -#endif -#endif -#if ENABLE(INTERPRETER) - result = privateExecute(Normal, &m_registerFile, newCallFrame); -#endif - m_reentryDepth--; +#if ENABLE(LLINT_C_LOOP) + result = LLInt::CLoop::execute(newCallFrame, llint_eval_prologue); +#elif ENABLE(JIT) + result = eval->generatedJITCode().execute(&m_stack, newCallFrame, &vm); +#endif // ENABLE(JIT) } - if (*profiler) - (*profiler)->didExecute(callFrame, eval->sourceURL(), eval->lineNo()); + if (LegacyProfiler* profiler = vm.enabledProfiler()) + profiler->didExecute(callFrame, eval->sourceURL(), eval->lineNo()); - m_registerFile.shrink(oldEnd); - if (pushedScope) - scopeChain->pop(); + m_stack.popFrame(newCallFrame); return checkedReturn(result); } -NEVER_INLINE void Interpreter::debug(CallFrame* callFrame, DebugHookID debugHookID, int firstLine, int lastLine) +NEVER_INLINE void Interpreter::debug(CallFrame* callFrame, DebugHookID debugHookID, int firstLine, int lastLine, int column) { Debugger* debugger = callFrame->dynamicGlobalObject()->debugger(); if (!debugger) @@ -1275,3725 +1356,91 @@ NEVER_INLINE void Interpreter::debug(CallFrame* callFrame, DebugHookID debugHook switch (debugHookID) { case DidEnterCallFrame: - debugger->callEvent(callFrame, callFrame->codeBlock()->ownerExecutable()->sourceID(), firstLine); + debugger->callEvent(callFrame, callFrame->codeBlock()->ownerExecutable()->sourceID(), firstLine, column); return; case WillLeaveCallFrame: - debugger->returnEvent(callFrame, callFrame->codeBlock()->ownerExecutable()->sourceID(), lastLine); + debugger->returnEvent(callFrame, callFrame->codeBlock()->ownerExecutable()->sourceID(), lastLine, column); return; case WillExecuteStatement: - debugger->atStatement(callFrame, callFrame->codeBlock()->ownerExecutable()->sourceID(), firstLine); + debugger->atStatement(callFrame, callFrame->codeBlock()->ownerExecutable()->sourceID(), firstLine, column); return; case WillExecuteProgram: - debugger->willExecuteProgram(callFrame, callFrame->codeBlock()->ownerExecutable()->sourceID(), firstLine); + debugger->willExecuteProgram(callFrame, callFrame->codeBlock()->ownerExecutable()->sourceID(), firstLine, column); return; case DidExecuteProgram: - debugger->didExecuteProgram(callFrame, callFrame->codeBlock()->ownerExecutable()->sourceID(), lastLine); + debugger->didExecuteProgram(callFrame, callFrame->codeBlock()->ownerExecutable()->sourceID(), lastLine, column); return; case DidReachBreakpoint: - debugger->didReachBreakpoint(callFrame, callFrame->codeBlock()->ownerExecutable()->sourceID(), lastLine); + debugger->didReachBreakpoint(callFrame, callFrame->codeBlock()->ownerExecutable()->sourceID(), lastLine, column); return; } } -#if ENABLE(INTERPRETER) -NEVER_INLINE ScopeChainNode* Interpreter::createExceptionScope(CallFrame* callFrame, const Instruction* vPC) +JSValue Interpreter::retrieveArgumentsFromVMCode(CallFrame* callFrame, JSFunction* function) const { - int dst = vPC[1].u.operand; - CodeBlock* codeBlock = callFrame->codeBlock(); - Identifier& property = codeBlock->identifier(vPC[2].u.operand); - JSValue value = callFrame->r(vPC[3].u.operand).jsValue(); - JSObject* scope = new (callFrame) JSStaticScopeObject(callFrame, property, value, DontDelete); - callFrame->uncheckedR(dst) = JSValue(scope); + CallFrame* functionCallFrame = findFunctionCallFrameFromVMCode(callFrame, function); + if (!functionCallFrame) + return jsNull(); - return callFrame->scopeChain()->push(scope); + Arguments* arguments = Arguments::create(functionCallFrame->vm(), functionCallFrame); + arguments->tearOff(functionCallFrame); + return JSValue(arguments); } -NEVER_INLINE void Interpreter::tryCachePutByID(CallFrame* callFrame, CodeBlock* codeBlock, Instruction* vPC, JSValue baseValue, const PutPropertySlot& slot) +JSValue Interpreter::retrieveCallerFromVMCode(CallFrame* callFrame, JSFunction* function) const { - // Recursive invocation may already have specialized this instruction. - if (vPC[0].u.opcode != getOpcode(op_put_by_id)) - return; - - if (!baseValue.isCell()) - return; + CallFrame* functionCallFrame = findFunctionCallFrameFromVMCode(callFrame, function); - // Uncacheable: give up. - if (!slot.isCacheable()) { - vPC[0] = getOpcode(op_put_by_id_generic); - return; - } + if (!functionCallFrame) + return jsNull(); - JSCell* baseCell = baseValue.asCell(); - Structure* structure = baseCell->structure(); - - if (structure->isUncacheableDictionary() || structure->typeInfo().prohibitsPropertyCaching()) { - vPC[0] = getOpcode(op_put_by_id_generic); - return; - } - - // Cache miss: record Structure to compare against next time. - Structure* lastStructure = vPC[4].u.structure.get(); - if (structure != lastStructure) { - // First miss: record Structure to compare against next time. - if (!lastStructure) { - vPC[4].u.structure.set(callFrame->globalData(), codeBlock->ownerExecutable(), structure); - return; - } - - // Second miss: give up. - vPC[0] = getOpcode(op_put_by_id_generic); - return; - } - - // Cache hit: Specialize instruction and ref Structures. - - // If baseCell != slot.base(), then baseCell must be a proxy for another object. - if (baseCell != slot.base()) { - vPC[0] = getOpcode(op_put_by_id_generic); - return; - } - - // Structure transition, cache transition info - if (slot.type() == PutPropertySlot::NewProperty) { - if (structure->isDictionary()) { - vPC[0] = getOpcode(op_put_by_id_generic); - return; - } + unsigned bytecodeOffset; + CodeBlock* unusedCallerCodeBlock = 0; + CallFrame* callerFrame = getCallerInfo(&callFrame->vm(), functionCallFrame, bytecodeOffset, unusedCallerCodeBlock); + if (!callerFrame) + return jsNull(); + JSValue caller = callerFrame->callee(); + if (!caller) + return jsNull(); - // put_by_id_transition checks the prototype chain for setters. - normalizePrototypeChain(callFrame, baseCell); - JSCell* owner = codeBlock->ownerExecutable(); - JSGlobalData& globalData = callFrame->globalData(); - // Get the prototype here because the call to prototypeChain could cause a - // GC allocation, which we don't want to happen while we're in the middle of - // initializing the union. - StructureChain* prototypeChain = structure->prototypeChain(callFrame); - vPC[0] = getOpcode(op_put_by_id_transition); - vPC[4].u.structure.set(globalData, owner, structure->previousID()); - vPC[5].u.structure.set(globalData, owner, structure); - vPC[6].u.structureChain.set(callFrame->globalData(), codeBlock->ownerExecutable(), prototypeChain); - ASSERT(vPC[6].u.structureChain); - vPC[7] = slot.cachedOffset(); - return; + // Skip over function bindings. + ASSERT(caller.isObject()); + while (asObject(caller)->inherits(&JSBoundFunction::s_info)) { + callerFrame = getCallerInfo(&callFrame->vm(), callerFrame, bytecodeOffset, unusedCallerCodeBlock); + if (!callerFrame) + return jsNull(); + caller = callerFrame->callee(); + if (!caller) + return jsNull(); } - vPC[0] = getOpcode(op_put_by_id_replace); - vPC[5] = slot.cachedOffset(); -} - -NEVER_INLINE void Interpreter::uncachePutByID(CodeBlock*, Instruction* vPC) -{ - vPC[0] = getOpcode(op_put_by_id); - vPC[4] = 0; + return caller; } -NEVER_INLINE void Interpreter::tryCacheGetByID(CallFrame* callFrame, CodeBlock* codeBlock, Instruction* vPC, JSValue baseValue, const Identifier& propertyName, const PropertySlot& slot) +void Interpreter::retrieveLastCaller(CallFrame* callFrame, int& lineNumber, intptr_t& sourceID, String& sourceURL, JSValue& function) const { - // Recursive invocation may already have specialized this instruction. - if (vPC[0].u.opcode != getOpcode(op_get_by_id)) - return; - - // FIXME: Cache property access for immediates. - if (!baseValue.isCell()) { - vPC[0] = getOpcode(op_get_by_id_generic); - return; - } - - JSGlobalData* globalData = &callFrame->globalData(); - if (isJSArray(globalData, baseValue) && propertyName == callFrame->propertyNames().length) { - vPC[0] = getOpcode(op_get_array_length); - return; - } - - if (isJSString(globalData, baseValue) && propertyName == callFrame->propertyNames().length) { - vPC[0] = getOpcode(op_get_string_length); - return; - } - - // Uncacheable: give up. - if (!slot.isCacheable()) { - vPC[0] = getOpcode(op_get_by_id_generic); - return; - } - - Structure* structure = baseValue.asCell()->structure(); - - if (structure->isUncacheableDictionary() || structure->typeInfo().prohibitsPropertyCaching()) { - vPC[0] = getOpcode(op_get_by_id_generic); - return; - } - - // Cache miss - Structure* lastStructure = vPC[4].u.structure.get(); - if (structure != lastStructure) { - // First miss: record Structure to compare against next time. - if (!lastStructure) { - vPC[4].u.structure.set(callFrame->globalData(), codeBlock->ownerExecutable(), structure); - return; - } - - // Second miss: give up. - vPC[0] = getOpcode(op_get_by_id_generic); - return; - } - - // Cache hit: Specialize instruction and ref Structures. - - if (slot.slotBase() == baseValue) { - switch (slot.cachedPropertyType()) { - case PropertySlot::Getter: - vPC[0] = getOpcode(op_get_by_id_getter_self); - vPC[5] = slot.cachedOffset(); - break; - case PropertySlot::Custom: - vPC[0] = getOpcode(op_get_by_id_custom_self); - vPC[5] = slot.customGetter(); - break; - default: - vPC[0] = getOpcode(op_get_by_id_self); - vPC[5] = slot.cachedOffset(); - break; - } - return; - } - - if (structure->isDictionary()) { - vPC[0] = getOpcode(op_get_by_id_generic); - return; - } - - if (slot.slotBase() == structure->prototypeForLookup(callFrame)) { - ASSERT(slot.slotBase().isObject()); - - JSObject* baseObject = asObject(slot.slotBase()); - size_t offset = slot.cachedOffset(); - - // Since we're accessing a prototype in a loop, it's a good bet that it - // should not be treated as a dictionary. - if (baseObject->structure()->isDictionary()) { - baseObject->flattenDictionaryObject(callFrame->globalData()); - offset = baseObject->structure()->get(callFrame->globalData(), propertyName); - } + function = JSValue(); + lineNumber = -1; + sourceURL = String(); - ASSERT(!baseObject->structure()->isUncacheableDictionary()); - - switch (slot.cachedPropertyType()) { - case PropertySlot::Getter: - vPC[0] = getOpcode(op_get_by_id_getter_proto); - vPC[6] = offset; - break; - case PropertySlot::Custom: - vPC[0] = getOpcode(op_get_by_id_custom_proto); - vPC[6] = slot.customGetter(); - break; - default: - vPC[0] = getOpcode(op_get_by_id_proto); - vPC[6] = offset; - break; - } - vPC[5].u.structure.set(callFrame->globalData(), codeBlock->ownerExecutable(), baseObject->structure()); + CallFrame* callerFrame = callFrame->callerFrame(); + if (callerFrame->hasHostCallFrameFlag()) return; - } - size_t offset = slot.cachedOffset(); - size_t count = normalizePrototypeChain(callFrame, baseValue, slot.slotBase(), propertyName, offset); - if (!count) { - vPC[0] = getOpcode(op_get_by_id_generic); - return; - } - - - switch (slot.cachedPropertyType()) { - case PropertySlot::Getter: - vPC[0] = getOpcode(op_get_by_id_getter_chain); - vPC[7] = offset; - break; - case PropertySlot::Custom: - vPC[0] = getOpcode(op_get_by_id_custom_chain); - vPC[7] = slot.customGetter(); - break; - default: - vPC[0] = getOpcode(op_get_by_id_chain); - vPC[7] = offset; - break; - } - vPC[4].u.structure.set(callFrame->globalData(), codeBlock->ownerExecutable(), structure); - vPC[5].u.structureChain.set(callFrame->globalData(), codeBlock->ownerExecutable(), structure->prototypeChain(callFrame)); - vPC[6] = count; -} - -NEVER_INLINE void Interpreter::uncacheGetByID(CodeBlock*, Instruction* vPC) -{ - vPC[0] = getOpcode(op_get_by_id); - vPC[4] = 0; -} - -#endif // ENABLE(INTERPRETER) - -JSValue Interpreter::privateExecute(ExecutionFlag flag, RegisterFile* registerFile, CallFrame* callFrame) -{ - // One-time initialization of our address tables. We have to put this code - // here because our labels are only in scope inside this function. - if (UNLIKELY(flag == InitializeAndReturn)) { - #if ENABLE(COMPUTED_GOTO_INTERPRETER) - #define LIST_OPCODE_LABEL(id, length) &&id, - static Opcode labels[] = { FOR_EACH_OPCODE_ID(LIST_OPCODE_LABEL) }; - for (size_t i = 0; i < WTF_ARRAY_LENGTH(labels); ++i) - m_opcodeTable[i] = labels[i]; - #undef LIST_OPCODE_LABEL - #endif // ENABLE(COMPUTED_GOTO_INTERPRETER) - return JSValue(); - } - -#if ENABLE(JIT) -#if ENABLE(INTERPRETER) - // Mixing Interpreter + JIT is not supported. - if (callFrame->globalData().canUseJIT()) -#endif - ASSERT_NOT_REACHED(); -#endif - -#if !ENABLE(INTERPRETER) - UNUSED_PARAM(registerFile); - UNUSED_PARAM(callFrame); - return JSValue(); -#else - - JSGlobalData* globalData = &callFrame->globalData(); - JSValue exceptionValue; - HandlerInfo* handler = 0; - - CodeBlock* codeBlock = callFrame->codeBlock(); - Instruction* vPC = codeBlock->instructions().begin(); - Profiler** enabledProfilerReference = Profiler::enabledProfilerReference(); - unsigned tickCount = globalData->timeoutChecker.ticksUntilNextCheck(); - JSValue functionReturnValue; - -#define CHECK_FOR_EXCEPTION() \ - do { \ - if (UNLIKELY(globalData->exception != JSValue())) { \ - exceptionValue = globalData->exception; \ - goto vm_throw; \ - } \ - } while (0) - -#if ENABLE(OPCODE_STATS) - OpcodeStats::resetLastInstruction(); -#endif - -#define CHECK_FOR_TIMEOUT() \ - if (!--tickCount) { \ - if (globalData->terminator.shouldTerminate() || globalData->timeoutChecker.didTimeOut(callFrame)) { \ - exceptionValue = jsNull(); \ - goto vm_throw; \ - } \ - tickCount = globalData->timeoutChecker.ticksUntilNextCheck(); \ - } - -#if ENABLE(OPCODE_SAMPLING) - #define SAMPLE(codeBlock, vPC) m_sampler->sample(codeBlock, vPC) -#else - #define SAMPLE(codeBlock, vPC) -#endif - -#if ENABLE(COMPUTED_GOTO_INTERPRETER) - #define NEXT_INSTRUCTION() SAMPLE(codeBlock, vPC); goto *vPC->u.opcode -#if ENABLE(OPCODE_STATS) - #define DEFINE_OPCODE(opcode) opcode: OpcodeStats::recordInstruction(opcode); -#else - #define DEFINE_OPCODE(opcode) opcode: -#endif - NEXT_INSTRUCTION(); -#else - #define NEXT_INSTRUCTION() SAMPLE(codeBlock, vPC); goto interpreterLoopStart -#if ENABLE(OPCODE_STATS) - #define DEFINE_OPCODE(opcode) case opcode: OpcodeStats::recordInstruction(opcode); -#else - #define DEFINE_OPCODE(opcode) case opcode: -#endif - while (1) { // iterator loop begins - interpreterLoopStart:; - switch (vPC->u.opcode) -#endif - { - DEFINE_OPCODE(op_new_object) { - /* new_object dst(r) - - Constructs a new empty Object instance using the original - constructor, and puts the result in register dst. - */ - int dst = vPC[1].u.operand; - callFrame->uncheckedR(dst) = JSValue(constructEmptyObject(callFrame)); - - vPC += OPCODE_LENGTH(op_new_object); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_new_array) { - /* new_array dst(r) firstArg(r) argCount(n) - - Constructs a new Array instance using the original - constructor, and puts the result in register dst. - The array will contain argCount elements with values - taken from registers starting at register firstArg. - */ - int dst = vPC[1].u.operand; - int firstArg = vPC[2].u.operand; - int argCount = vPC[3].u.operand; - ArgList args(callFrame->registers() + firstArg, argCount); - callFrame->uncheckedR(dst) = JSValue(constructArray(callFrame, args)); - - vPC += OPCODE_LENGTH(op_new_array); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_new_array_buffer) { - /* new_array_buffer dst(r) index(n) argCount(n) - - Constructs a new Array instance using the original - constructor, and puts the result in register dst. - The array be initialized with the values from constantBuffer[index] - */ - int dst = vPC[1].u.operand; - int firstArg = vPC[2].u.operand; - int argCount = vPC[3].u.operand; - ArgList args(codeBlock->constantBuffer(firstArg), argCount); - callFrame->uncheckedR(dst) = JSValue(constructArray(callFrame, args)); - - vPC += OPCODE_LENGTH(op_new_array); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_new_regexp) { - /* new_regexp dst(r) regExp(re) - - Constructs a new RegExp instance using the original - constructor from regexp regExp, and puts the result in - register dst. - */ - int dst = vPC[1].u.operand; - RegExp* regExp = codeBlock->regexp(vPC[2].u.operand); - if (!regExp->isValid()) { - exceptionValue = createSyntaxError(callFrame, "Invalid flags supplied to RegExp constructor."); - goto vm_throw; - } - callFrame->uncheckedR(dst) = JSValue(new (globalData) RegExpObject(callFrame->lexicalGlobalObject(), callFrame->scopeChain()->globalObject->regExpStructure(), regExp)); - - vPC += OPCODE_LENGTH(op_new_regexp); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_mov) { - /* mov dst(r) src(r) - - Copies register src to register dst. - */ - int dst = vPC[1].u.operand; - int src = vPC[2].u.operand; - - callFrame->uncheckedR(dst) = callFrame->r(src); - - vPC += OPCODE_LENGTH(op_mov); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_eq) { - /* eq dst(r) src1(r) src2(r) - - Checks whether register src1 and register src2 are equal, - as with the ECMAScript '==' operator, and puts the result - as a boolean in register dst. - */ - int dst = vPC[1].u.operand; - JSValue src1 = callFrame->r(vPC[2].u.operand).jsValue(); - JSValue src2 = callFrame->r(vPC[3].u.operand).jsValue(); - if (src1.isInt32() && src2.isInt32()) - callFrame->uncheckedR(dst) = jsBoolean(src1.asInt32() == src2.asInt32()); - else { - JSValue result = jsBoolean(JSValue::equalSlowCase(callFrame, src1, src2)); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = result; - } - - vPC += OPCODE_LENGTH(op_eq); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_eq_null) { - /* eq_null dst(r) src(r) - - Checks whether register src is null, as with the ECMAScript '!=' - operator, and puts the result as a boolean in register dst. - */ - int dst = vPC[1].u.operand; - JSValue src = callFrame->r(vPC[2].u.operand).jsValue(); - - if (src.isUndefinedOrNull()) { - callFrame->uncheckedR(dst) = jsBoolean(true); - vPC += OPCODE_LENGTH(op_eq_null); - NEXT_INSTRUCTION(); - } - - callFrame->uncheckedR(dst) = jsBoolean(src.isCell() && src.asCell()->structure()->typeInfo().masqueradesAsUndefined()); - vPC += OPCODE_LENGTH(op_eq_null); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_neq) { - /* neq dst(r) src1(r) src2(r) - - Checks whether register src1 and register src2 are not - equal, as with the ECMAScript '!=' operator, and puts the - result as a boolean in register dst. - */ - int dst = vPC[1].u.operand; - JSValue src1 = callFrame->r(vPC[2].u.operand).jsValue(); - JSValue src2 = callFrame->r(vPC[3].u.operand).jsValue(); - if (src1.isInt32() && src2.isInt32()) - callFrame->uncheckedR(dst) = jsBoolean(src1.asInt32() != src2.asInt32()); - else { - JSValue result = jsBoolean(!JSValue::equalSlowCase(callFrame, src1, src2)); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = result; - } - - vPC += OPCODE_LENGTH(op_neq); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_neq_null) { - /* neq_null dst(r) src(r) - - Checks whether register src is not null, as with the ECMAScript '!=' - operator, and puts the result as a boolean in register dst. - */ - int dst = vPC[1].u.operand; - JSValue src = callFrame->r(vPC[2].u.operand).jsValue(); - - if (src.isUndefinedOrNull()) { - callFrame->uncheckedR(dst) = jsBoolean(false); - vPC += OPCODE_LENGTH(op_neq_null); - NEXT_INSTRUCTION(); - } - - callFrame->uncheckedR(dst) = jsBoolean(!src.isCell() || !src.asCell()->structure()->typeInfo().masqueradesAsUndefined()); - vPC += OPCODE_LENGTH(op_neq_null); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_stricteq) { - /* stricteq dst(r) src1(r) src2(r) - - Checks whether register src1 and register src2 are strictly - equal, as with the ECMAScript '===' operator, and puts the - result as a boolean in register dst. - */ - int dst = vPC[1].u.operand; - JSValue src1 = callFrame->r(vPC[2].u.operand).jsValue(); - JSValue src2 = callFrame->r(vPC[3].u.operand).jsValue(); - bool result = JSValue::strictEqual(callFrame, src1, src2); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = jsBoolean(result); - - vPC += OPCODE_LENGTH(op_stricteq); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_nstricteq) { - /* nstricteq dst(r) src1(r) src2(r) - - Checks whether register src1 and register src2 are not - strictly equal, as with the ECMAScript '!==' operator, and - puts the result as a boolean in register dst. - */ - int dst = vPC[1].u.operand; - JSValue src1 = callFrame->r(vPC[2].u.operand).jsValue(); - JSValue src2 = callFrame->r(vPC[3].u.operand).jsValue(); - bool result = !JSValue::strictEqual(callFrame, src1, src2); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = jsBoolean(result); - - vPC += OPCODE_LENGTH(op_nstricteq); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_less) { - /* less dst(r) src1(r) src2(r) - - Checks whether register src1 is less than register src2, as - with the ECMAScript '<' operator, and puts the result as - a boolean in register dst. - */ - int dst = vPC[1].u.operand; - JSValue src1 = callFrame->r(vPC[2].u.operand).jsValue(); - JSValue src2 = callFrame->r(vPC[3].u.operand).jsValue(); - JSValue result = jsBoolean(jsLess(callFrame, src1, src2)); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = result; - - vPC += OPCODE_LENGTH(op_less); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_lesseq) { - /* lesseq dst(r) src1(r) src2(r) - - Checks whether register src1 is less than or equal to - register src2, as with the ECMAScript '<=' operator, and - puts the result as a boolean in register dst. - */ - int dst = vPC[1].u.operand; - JSValue src1 = callFrame->r(vPC[2].u.operand).jsValue(); - JSValue src2 = callFrame->r(vPC[3].u.operand).jsValue(); - JSValue result = jsBoolean(jsLessEq(callFrame, src1, src2)); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = result; - - vPC += OPCODE_LENGTH(op_lesseq); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_pre_inc) { - /* pre_inc srcDst(r) - - Converts register srcDst to number, adds one, and puts the result - back in register srcDst. - */ - int srcDst = vPC[1].u.operand; - JSValue v = callFrame->r(srcDst).jsValue(); - if (v.isInt32() && v.asInt32() < INT_MAX) - callFrame->uncheckedR(srcDst) = jsNumber(v.asInt32() + 1); - else { - JSValue result = jsNumber(v.toNumber(callFrame) + 1); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(srcDst) = result; - } - - vPC += OPCODE_LENGTH(op_pre_inc); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_pre_dec) { - /* pre_dec srcDst(r) - - Converts register srcDst to number, subtracts one, and puts the result - back in register srcDst. - */ - int srcDst = vPC[1].u.operand; - JSValue v = callFrame->r(srcDst).jsValue(); - if (v.isInt32() && v.asInt32() > INT_MIN) - callFrame->uncheckedR(srcDst) = jsNumber(v.asInt32() - 1); - else { - JSValue result = jsNumber(v.toNumber(callFrame) - 1); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(srcDst) = result; - } - - vPC += OPCODE_LENGTH(op_pre_dec); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_post_inc) { - /* post_inc dst(r) srcDst(r) - - Converts register srcDst to number. The number itself is - written to register dst, and the number plus one is written - back to register srcDst. - */ - int dst = vPC[1].u.operand; - int srcDst = vPC[2].u.operand; - JSValue v = callFrame->r(srcDst).jsValue(); - if (v.isInt32() && v.asInt32() < INT_MAX) { - callFrame->uncheckedR(srcDst) = jsNumber(v.asInt32() + 1); - callFrame->uncheckedR(dst) = v; - } else { - JSValue number = callFrame->r(srcDst).jsValue().toJSNumber(callFrame); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(srcDst) = jsNumber(number.uncheckedGetNumber() + 1); - callFrame->uncheckedR(dst) = number; - } - - vPC += OPCODE_LENGTH(op_post_inc); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_post_dec) { - /* post_dec dst(r) srcDst(r) - - Converts register srcDst to number. The number itself is - written to register dst, and the number minus one is written - back to register srcDst. - */ - int dst = vPC[1].u.operand; - int srcDst = vPC[2].u.operand; - JSValue v = callFrame->r(srcDst).jsValue(); - if (v.isInt32() && v.asInt32() > INT_MIN) { - callFrame->uncheckedR(srcDst) = jsNumber(v.asInt32() - 1); - callFrame->uncheckedR(dst) = v; - } else { - JSValue number = callFrame->r(srcDst).jsValue().toJSNumber(callFrame); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(srcDst) = jsNumber(number.uncheckedGetNumber() - 1); - callFrame->uncheckedR(dst) = number; - } - - vPC += OPCODE_LENGTH(op_post_dec); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_to_jsnumber) { - /* to_jsnumber dst(r) src(r) - - Converts register src to number, and puts the result - in register dst. - */ - int dst = vPC[1].u.operand; - int src = vPC[2].u.operand; - - JSValue srcVal = callFrame->r(src).jsValue(); - - if (LIKELY(srcVal.isNumber())) - callFrame->uncheckedR(dst) = callFrame->r(src); - else { - JSValue result = srcVal.toJSNumber(callFrame); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = result; - } - - vPC += OPCODE_LENGTH(op_to_jsnumber); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_negate) { - /* negate dst(r) src(r) - - Converts register src to number, negates it, and puts the - result in register dst. - */ - int dst = vPC[1].u.operand; - JSValue src = callFrame->r(vPC[2].u.operand).jsValue(); - if (src.isInt32() && (src.asInt32() & 0x7fffffff)) // non-zero and no overflow - callFrame->uncheckedR(dst) = jsNumber(-src.asInt32()); - else { - JSValue result = jsNumber(-src.toNumber(callFrame)); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = result; - } - - vPC += OPCODE_LENGTH(op_negate); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_add) { - /* add dst(r) src1(r) src2(r) - - Adds register src1 and register src2, and puts the result - in register dst. (JS add may be string concatenation or - numeric add, depending on the types of the operands.) - */ - int dst = vPC[1].u.operand; - JSValue src1 = callFrame->r(vPC[2].u.operand).jsValue(); - JSValue src2 = callFrame->r(vPC[3].u.operand).jsValue(); - if (src1.isInt32() && src2.isInt32() && !(src1.asInt32() | (src2.asInt32() & 0xc0000000))) // no overflow - callFrame->uncheckedR(dst) = jsNumber(src1.asInt32() + src2.asInt32()); - else { - JSValue result = jsAdd(callFrame, src1, src2); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = result; - } - vPC += OPCODE_LENGTH(op_add); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_mul) { - /* mul dst(r) src1(r) src2(r) - - Multiplies register src1 and register src2 (converted to - numbers), and puts the product in register dst. - */ - int dst = vPC[1].u.operand; - JSValue src1 = callFrame->r(vPC[2].u.operand).jsValue(); - JSValue src2 = callFrame->r(vPC[3].u.operand).jsValue(); - if (src1.isInt32() && src2.isInt32() && !(src1.asInt32() | src2.asInt32() >> 15)) // no overflow - callFrame->uncheckedR(dst) = jsNumber(src1.asInt32() * src2.asInt32()); - else { - JSValue result = jsNumber(src1.toNumber(callFrame) * src2.toNumber(callFrame)); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = result; - } - - vPC += OPCODE_LENGTH(op_mul); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_div) { - /* div dst(r) dividend(r) divisor(r) - - Divides register dividend (converted to number) by the - register divisor (converted to number), and puts the - quotient in register dst. - */ - int dst = vPC[1].u.operand; - JSValue dividend = callFrame->r(vPC[2].u.operand).jsValue(); - JSValue divisor = callFrame->r(vPC[3].u.operand).jsValue(); - - JSValue result = jsNumber(dividend.toNumber(callFrame) / divisor.toNumber(callFrame)); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = result; - - vPC += OPCODE_LENGTH(op_div); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_mod) { - /* mod dst(r) dividend(r) divisor(r) - - Divides register dividend (converted to number) by - register divisor (converted to number), and puts the - remainder in register dst. - */ - int dst = vPC[1].u.operand; - JSValue dividend = callFrame->r(vPC[2].u.operand).jsValue(); - JSValue divisor = callFrame->r(vPC[3].u.operand).jsValue(); - - if (dividend.isInt32() && divisor.isInt32() && divisor.asInt32() != 0) { - JSValue result = jsNumber(dividend.asInt32() % divisor.asInt32()); - ASSERT(result); - callFrame->uncheckedR(dst) = result; - vPC += OPCODE_LENGTH(op_mod); - NEXT_INSTRUCTION(); - } - - // Conversion to double must happen outside the call to fmod since the - // order of argument evaluation is not guaranteed. - double d1 = dividend.toNumber(callFrame); - double d2 = divisor.toNumber(callFrame); - JSValue result = jsNumber(fmod(d1, d2)); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = result; - vPC += OPCODE_LENGTH(op_mod); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_sub) { - /* sub dst(r) src1(r) src2(r) - - Subtracts register src2 (converted to number) from register - src1 (converted to number), and puts the difference in - register dst. - */ - int dst = vPC[1].u.operand; - JSValue src1 = callFrame->r(vPC[2].u.operand).jsValue(); - JSValue src2 = callFrame->r(vPC[3].u.operand).jsValue(); - if (src1.isInt32() && src2.isInt32() && !(src1.asInt32() | (src2.asInt32() & 0xc0000000))) // no overflow - callFrame->uncheckedR(dst) = jsNumber(src1.asInt32() - src2.asInt32()); - else { - JSValue result = jsNumber(src1.toNumber(callFrame) - src2.toNumber(callFrame)); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = result; - } - vPC += OPCODE_LENGTH(op_sub); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_lshift) { - /* lshift dst(r) val(r) shift(r) - - Performs left shift of register val (converted to int32) by - register shift (converted to uint32), and puts the result - in register dst. - */ - int dst = vPC[1].u.operand; - JSValue val = callFrame->r(vPC[2].u.operand).jsValue(); - JSValue shift = callFrame->r(vPC[3].u.operand).jsValue(); - - if (val.isInt32() && shift.isInt32()) - callFrame->uncheckedR(dst) = jsNumber(val.asInt32() << (shift.asInt32() & 0x1f)); - else { - JSValue result = jsNumber((val.toInt32(callFrame)) << (shift.toUInt32(callFrame) & 0x1f)); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = result; - } - - vPC += OPCODE_LENGTH(op_lshift); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_rshift) { - /* rshift dst(r) val(r) shift(r) - - Performs arithmetic right shift of register val (converted - to int32) by register shift (converted to - uint32), and puts the result in register dst. - */ - int dst = vPC[1].u.operand; - JSValue val = callFrame->r(vPC[2].u.operand).jsValue(); - JSValue shift = callFrame->r(vPC[3].u.operand).jsValue(); - - if (val.isInt32() && shift.isInt32()) - callFrame->uncheckedR(dst) = jsNumber(val.asInt32() >> (shift.asInt32() & 0x1f)); - else { - JSValue result = jsNumber((val.toInt32(callFrame)) >> (shift.toUInt32(callFrame) & 0x1f)); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = result; - } - - vPC += OPCODE_LENGTH(op_rshift); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_urshift) { - /* rshift dst(r) val(r) shift(r) - - Performs logical right shift of register val (converted - to uint32) by register shift (converted to - uint32), and puts the result in register dst. - */ - int dst = vPC[1].u.operand; - JSValue val = callFrame->r(vPC[2].u.operand).jsValue(); - JSValue shift = callFrame->r(vPC[3].u.operand).jsValue(); - if (val.isUInt32() && shift.isInt32()) - callFrame->uncheckedR(dst) = jsNumber(val.asInt32() >> (shift.asInt32() & 0x1f)); - else { - JSValue result = jsNumber((val.toUInt32(callFrame)) >> (shift.toUInt32(callFrame) & 0x1f)); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = result; - } - - vPC += OPCODE_LENGTH(op_urshift); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_bitand) { - /* bitand dst(r) src1(r) src2(r) - - Computes bitwise AND of register src1 (converted to int32) - and register src2 (converted to int32), and puts the result - in register dst. - */ - int dst = vPC[1].u.operand; - JSValue src1 = callFrame->r(vPC[2].u.operand).jsValue(); - JSValue src2 = callFrame->r(vPC[3].u.operand).jsValue(); - if (src1.isInt32() && src2.isInt32()) - callFrame->uncheckedR(dst) = jsNumber(src1.asInt32() & src2.asInt32()); - else { - JSValue result = jsNumber(src1.toInt32(callFrame) & src2.toInt32(callFrame)); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = result; - } - - vPC += OPCODE_LENGTH(op_bitand); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_bitxor) { - /* bitxor dst(r) src1(r) src2(r) - - Computes bitwise XOR of register src1 (converted to int32) - and register src2 (converted to int32), and puts the result - in register dst. - */ - int dst = vPC[1].u.operand; - JSValue src1 = callFrame->r(vPC[2].u.operand).jsValue(); - JSValue src2 = callFrame->r(vPC[3].u.operand).jsValue(); - if (src1.isInt32() && src2.isInt32()) - callFrame->uncheckedR(dst) = jsNumber(src1.asInt32() ^ src2.asInt32()); - else { - JSValue result = jsNumber(src1.toInt32(callFrame) ^ src2.toInt32(callFrame)); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = result; - } - - vPC += OPCODE_LENGTH(op_bitxor); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_bitor) { - /* bitor dst(r) src1(r) src2(r) - - Computes bitwise OR of register src1 (converted to int32) - and register src2 (converted to int32), and puts the - result in register dst. - */ - int dst = vPC[1].u.operand; - JSValue src1 = callFrame->r(vPC[2].u.operand).jsValue(); - JSValue src2 = callFrame->r(vPC[3].u.operand).jsValue(); - if (src1.isInt32() && src2.isInt32()) - callFrame->uncheckedR(dst) = jsNumber(src1.asInt32() | src2.asInt32()); - else { - JSValue result = jsNumber(src1.toInt32(callFrame) | src2.toInt32(callFrame)); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = result; - } - - vPC += OPCODE_LENGTH(op_bitor); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_bitnot) { - /* bitnot dst(r) src(r) - - Computes bitwise NOT of register src1 (converted to int32), - and puts the result in register dst. - */ - int dst = vPC[1].u.operand; - JSValue src = callFrame->r(vPC[2].u.operand).jsValue(); - if (src.isInt32()) - callFrame->uncheckedR(dst) = jsNumber(~src.asInt32()); - else { - JSValue result = jsNumber(~src.toInt32(callFrame)); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = result; - } - vPC += OPCODE_LENGTH(op_bitnot); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_not) { - /* not dst(r) src(r) - - Computes logical NOT of register src (converted to - boolean), and puts the result in register dst. - */ - int dst = vPC[1].u.operand; - int src = vPC[2].u.operand; - JSValue result = jsBoolean(!callFrame->r(src).jsValue().toBoolean(callFrame)); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = result; - - vPC += OPCODE_LENGTH(op_not); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_check_has_instance) { - /* check_has_instance constructor(r) - - Check 'constructor' is an object with the internal property - [HasInstance] (i.e. is a function ... *shakes head sadly at - JSC API*). Raises an exception if register constructor is not - an valid parameter for instanceof. - */ - int base = vPC[1].u.operand; - JSValue baseVal = callFrame->r(base).jsValue(); - - if (isInvalidParamForInstanceOf(callFrame, baseVal, exceptionValue)) - goto vm_throw; - - vPC += OPCODE_LENGTH(op_check_has_instance); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_instanceof) { - /* instanceof dst(r) value(r) constructor(r) constructorProto(r) - - Tests whether register value is an instance of register - constructor, and puts the boolean result in register - dst. Register constructorProto must contain the "prototype" - property (not the actual prototype) of the object in - register constructor. This lookup is separated so that - polymorphic inline caching can apply. - - Raises an exception if register constructor is not an - object. - */ - int dst = vPC[1].u.operand; - int value = vPC[2].u.operand; - int base = vPC[3].u.operand; - int baseProto = vPC[4].u.operand; - - JSValue baseVal = callFrame->r(base).jsValue(); - - ASSERT(!isInvalidParamForInstanceOf(callFrame, baseVal, exceptionValue)); - - bool result = asObject(baseVal)->hasInstance(callFrame, callFrame->r(value).jsValue(), callFrame->r(baseProto).jsValue()); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = jsBoolean(result); - - vPC += OPCODE_LENGTH(op_instanceof); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_typeof) { - /* typeof dst(r) src(r) - - Determines the type string for src according to ECMAScript - rules, and puts the result in register dst. - */ - int dst = vPC[1].u.operand; - int src = vPC[2].u.operand; - callFrame->uncheckedR(dst) = JSValue(jsTypeStringForValue(callFrame, callFrame->r(src).jsValue())); - - vPC += OPCODE_LENGTH(op_typeof); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_is_undefined) { - /* is_undefined dst(r) src(r) - - Determines whether the type string for src according to - the ECMAScript rules is "undefined", and puts the result - in register dst. - */ - int dst = vPC[1].u.operand; - int src = vPC[2].u.operand; - JSValue v = callFrame->r(src).jsValue(); - callFrame->uncheckedR(dst) = jsBoolean(v.isCell() ? v.asCell()->structure()->typeInfo().masqueradesAsUndefined() : v.isUndefined()); - - vPC += OPCODE_LENGTH(op_is_undefined); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_is_boolean) { - /* is_boolean dst(r) src(r) - - Determines whether the type string for src according to - the ECMAScript rules is "boolean", and puts the result - in register dst. - */ - int dst = vPC[1].u.operand; - int src = vPC[2].u.operand; - callFrame->uncheckedR(dst) = jsBoolean(callFrame->r(src).jsValue().isBoolean()); - - vPC += OPCODE_LENGTH(op_is_boolean); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_is_number) { - /* is_number dst(r) src(r) - - Determines whether the type string for src according to - the ECMAScript rules is "number", and puts the result - in register dst. - */ - int dst = vPC[1].u.operand; - int src = vPC[2].u.operand; - callFrame->uncheckedR(dst) = jsBoolean(callFrame->r(src).jsValue().isNumber()); - - vPC += OPCODE_LENGTH(op_is_number); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_is_string) { - /* is_string dst(r) src(r) - - Determines whether the type string for src according to - the ECMAScript rules is "string", and puts the result - in register dst. - */ - int dst = vPC[1].u.operand; - int src = vPC[2].u.operand; - callFrame->uncheckedR(dst) = jsBoolean(callFrame->r(src).jsValue().isString()); - - vPC += OPCODE_LENGTH(op_is_string); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_is_object) { - /* is_object dst(r) src(r) - - Determines whether the type string for src according to - the ECMAScript rules is "object", and puts the result - in register dst. - */ - int dst = vPC[1].u.operand; - int src = vPC[2].u.operand; - callFrame->uncheckedR(dst) = jsBoolean(jsIsObjectType(callFrame->r(src).jsValue())); - - vPC += OPCODE_LENGTH(op_is_object); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_is_function) { - /* is_function dst(r) src(r) - - Determines whether the type string for src according to - the ECMAScript rules is "function", and puts the result - in register dst. - */ - int dst = vPC[1].u.operand; - int src = vPC[2].u.operand; - callFrame->uncheckedR(dst) = jsBoolean(jsIsFunctionType(callFrame->r(src).jsValue())); - - vPC += OPCODE_LENGTH(op_is_function); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_in) { - /* in dst(r) property(r) base(r) - - Tests whether register base has a property named register - property, and puts the boolean result in register dst. - - Raises an exception if register constructor is not an - object. - */ - int dst = vPC[1].u.operand; - int property = vPC[2].u.operand; - int base = vPC[3].u.operand; - - JSValue baseVal = callFrame->r(base).jsValue(); - if (isInvalidParamForIn(callFrame, baseVal, exceptionValue)) - goto vm_throw; - - JSObject* baseObj = asObject(baseVal); - - JSValue propName = callFrame->r(property).jsValue(); - - uint32_t i; - if (propName.getUInt32(i)) - callFrame->uncheckedR(dst) = jsBoolean(baseObj->hasProperty(callFrame, i)); - else { - Identifier property(callFrame, propName.toString(callFrame)); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = jsBoolean(baseObj->hasProperty(callFrame, property)); - } - - vPC += OPCODE_LENGTH(op_in); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_resolve) { - /* resolve dst(r) property(id) - - Looks up the property named by identifier property in the - scope chain, and writes the resulting value to register - dst. If the property is not found, raises an exception. - */ - if (UNLIKELY(!resolve(callFrame, vPC, exceptionValue))) - goto vm_throw; - - vPC += OPCODE_LENGTH(op_resolve); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_resolve_skip) { - /* resolve_skip dst(r) property(id) skip(n) - - Looks up the property named by identifier property in the - scope chain skipping the top 'skip' levels, and writes the resulting - value to register dst. If the property is not found, raises an exception. - */ - if (UNLIKELY(!resolveSkip(callFrame, vPC, exceptionValue))) - goto vm_throw; - - vPC += OPCODE_LENGTH(op_resolve_skip); - - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_resolve_global) { - /* resolve_skip dst(r) globalObject(c) property(id) structure(sID) offset(n) - - Performs a dynamic property lookup for the given property, on the provided - global object. If structure matches the Structure of the global then perform - a fast lookup using the case offset, otherwise fall back to a full resolve and - cache the new structure and offset - */ - if (UNLIKELY(!resolveGlobal(callFrame, vPC, exceptionValue))) - goto vm_throw; - - vPC += OPCODE_LENGTH(op_resolve_global); - - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_resolve_global_dynamic) { - /* resolve_skip dst(r) globalObject(c) property(id) structure(sID) offset(n), depth(n) - - Performs a dynamic property lookup for the given property, on the provided - global object. If structure matches the Structure of the global then perform - a fast lookup using the case offset, otherwise fall back to a full resolve and - cache the new structure and offset. - - This walks through n levels of the scope chain to verify that none of those levels - in the scope chain include dynamically added properties. - */ - if (UNLIKELY(!resolveGlobalDynamic(callFrame, vPC, exceptionValue))) - goto vm_throw; - - vPC += OPCODE_LENGTH(op_resolve_global_dynamic); - - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_get_global_var) { - /* get_global_var dst(r) globalObject(c) index(n) - - Gets the global var at global slot index and places it in register dst. - */ - int dst = vPC[1].u.operand; - JSGlobalObject* scope = codeBlock->globalObject(); - ASSERT(scope->isGlobalObject()); - int index = vPC[2].u.operand; - - callFrame->uncheckedR(dst) = scope->registerAt(index).get(); - vPC += OPCODE_LENGTH(op_get_global_var); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_put_global_var) { - /* put_global_var globalObject(c) index(n) value(r) - - Puts value into global slot index. - */ - JSGlobalObject* scope = codeBlock->globalObject(); - ASSERT(scope->isGlobalObject()); - int index = vPC[1].u.operand; - int value = vPC[2].u.operand; - - scope->registerAt(index).set(*globalData, scope, callFrame->r(value).jsValue()); - vPC += OPCODE_LENGTH(op_put_global_var); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_get_scoped_var) { - /* get_scoped_var dst(r) index(n) skip(n) - - Loads the contents of the index-th local from the scope skip nodes from - the top of the scope chain, and places it in register dst. - */ - int dst = vPC[1].u.operand; - int index = vPC[2].u.operand; - int skip = vPC[3].u.operand; - - ScopeChainNode* scopeChain = callFrame->scopeChain(); - ScopeChainIterator iter = scopeChain->begin(); - ScopeChainIterator end = scopeChain->end(); - ASSERT(iter != end); - ASSERT(codeBlock == callFrame->codeBlock()); - bool checkTopLevel = codeBlock->codeType() == FunctionCode && codeBlock->needsFullScopeChain(); - ASSERT(skip || !checkTopLevel); - if (checkTopLevel && skip--) { - if (callFrame->r(codeBlock->activationRegister()).jsValue()) - ++iter; - } - while (skip--) { - ++iter; - ASSERT(iter != end); - } - ASSERT((*iter)->isVariableObject()); - JSVariableObject* scope = static_cast(iter->get()); - callFrame->uncheckedR(dst) = scope->registerAt(index).get(); - ASSERT(callFrame->r(dst).jsValue()); - vPC += OPCODE_LENGTH(op_get_scoped_var); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_put_scoped_var) { - /* put_scoped_var index(n) skip(n) value(r) - - */ - int index = vPC[1].u.operand; - int skip = vPC[2].u.operand; - int value = vPC[3].u.operand; - - ScopeChainNode* scopeChain = callFrame->scopeChain(); - ScopeChainIterator iter = scopeChain->begin(); - ScopeChainIterator end = scopeChain->end(); - ASSERT(codeBlock == callFrame->codeBlock()); - ASSERT(iter != end); - bool checkTopLevel = codeBlock->codeType() == FunctionCode && codeBlock->needsFullScopeChain(); - ASSERT(skip || !checkTopLevel); - if (checkTopLevel && skip--) { - if (callFrame->r(codeBlock->activationRegister()).jsValue()) - ++iter; - } - while (skip--) { - ++iter; - ASSERT(iter != end); - } - - ASSERT((*iter)->isVariableObject()); - JSVariableObject* scope = static_cast(iter->get()); - ASSERT(callFrame->r(value).jsValue()); - scope->registerAt(index).set(*globalData, scope, callFrame->r(value).jsValue()); - vPC += OPCODE_LENGTH(op_put_scoped_var); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_resolve_base) { - /* resolve_base dst(r) property(id) isStrict(bool) - - Searches the scope chain for an object containing - identifier property, and if one is found, writes it to - register dst. If none is found and isStrict is false, the - outermost scope (which will be the global object) is - stored in register dst. - */ - resolveBase(callFrame, vPC); - CHECK_FOR_EXCEPTION(); - - vPC += OPCODE_LENGTH(op_resolve_base); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_ensure_property_exists) { - /* ensure_property_exists base(r) property(id) - - Throws an exception if property does not exist on base - */ - int base = vPC[1].u.operand; - int property = vPC[2].u.operand; - Identifier& ident = codeBlock->identifier(property); - - JSValue baseVal = callFrame->r(base).jsValue(); - JSObject* baseObject = asObject(baseVal); - PropertySlot slot(baseVal); - if (!baseObject->getPropertySlot(callFrame, ident, slot)) { - exceptionValue = createErrorForInvalidGlobalAssignment(callFrame, ident.ustring()); - goto vm_throw; - } - - vPC += OPCODE_LENGTH(op_ensure_property_exists); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_resolve_with_base) { - /* resolve_with_base baseDst(r) propDst(r) property(id) - - Searches the scope chain for an object containing - identifier property, and if one is found, writes it to - register srcDst, and the retrieved property value to register - propDst. If the property is not found, raises an exception. - - This is more efficient than doing resolve_base followed by - resolve, or resolve_base followed by get_by_id, as it - avoids duplicate hash lookups. - */ - if (UNLIKELY(!resolveBaseAndProperty(callFrame, vPC, exceptionValue))) - goto vm_throw; - - vPC += OPCODE_LENGTH(op_resolve_with_base); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_get_by_id) { - /* get_by_id dst(r) base(r) property(id) structure(sID) nop(n) nop(n) nop(n) - - Generic property access: Gets the property named by identifier - property from the value base, and puts the result in register dst. - */ - int dst = vPC[1].u.operand; - int base = vPC[2].u.operand; - int property = vPC[3].u.operand; - - Identifier& ident = codeBlock->identifier(property); - JSValue baseValue = callFrame->r(base).jsValue(); - PropertySlot slot(baseValue); - JSValue result = baseValue.get(callFrame, ident, slot); - CHECK_FOR_EXCEPTION(); - - tryCacheGetByID(callFrame, codeBlock, vPC, baseValue, ident, slot); - - callFrame->uncheckedR(dst) = result; - vPC += OPCODE_LENGTH(op_get_by_id); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_get_by_id_self) { - /* op_get_by_id_self dst(r) base(r) property(id) structure(sID) offset(n) nop(n) nop(n) - - Cached property access: Attempts to get a cached property from the - value base. If the cache misses, op_get_by_id_self reverts to - op_get_by_id. - */ - int base = vPC[2].u.operand; - JSValue baseValue = callFrame->r(base).jsValue(); - - if (LIKELY(baseValue.isCell())) { - JSCell* baseCell = baseValue.asCell(); - Structure* structure = vPC[4].u.structure.get(); - - if (LIKELY(baseCell->structure() == structure)) { - ASSERT(baseCell->isObject()); - JSObject* baseObject = asObject(baseCell); - int dst = vPC[1].u.operand; - int offset = vPC[5].u.operand; - - ASSERT(baseObject->get(callFrame, codeBlock->identifier(vPC[3].u.operand)) == baseObject->getDirectOffset(offset)); - callFrame->uncheckedR(dst) = JSValue(baseObject->getDirectOffset(offset)); - - vPC += OPCODE_LENGTH(op_get_by_id_self); - NEXT_INSTRUCTION(); - } - } - - uncacheGetByID(codeBlock, vPC); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_get_by_id_proto) { - /* op_get_by_id_proto dst(r) base(r) property(id) structure(sID) prototypeStructure(sID) offset(n) nop(n) - - Cached property access: Attempts to get a cached property from the - value base's prototype. If the cache misses, op_get_by_id_proto - reverts to op_get_by_id. - */ - int base = vPC[2].u.operand; - JSValue baseValue = callFrame->r(base).jsValue(); - - if (LIKELY(baseValue.isCell())) { - JSCell* baseCell = baseValue.asCell(); - Structure* structure = vPC[4].u.structure.get(); - - if (LIKELY(baseCell->structure() == structure)) { - ASSERT(structure->prototypeForLookup(callFrame).isObject()); - JSObject* protoObject = asObject(structure->prototypeForLookup(callFrame)); - Structure* prototypeStructure = vPC[5].u.structure.get(); - - if (LIKELY(protoObject->structure() == prototypeStructure)) { - int dst = vPC[1].u.operand; - int offset = vPC[6].u.operand; - - ASSERT(protoObject->get(callFrame, codeBlock->identifier(vPC[3].u.operand)) == protoObject->getDirectOffset(offset)); - ASSERT(baseValue.get(callFrame, codeBlock->identifier(vPC[3].u.operand)) == protoObject->getDirectOffset(offset)); - callFrame->uncheckedR(dst) = JSValue(protoObject->getDirectOffset(offset)); - - vPC += OPCODE_LENGTH(op_get_by_id_proto); - NEXT_INSTRUCTION(); - } - } - } - - uncacheGetByID(codeBlock, vPC); - NEXT_INSTRUCTION(); - } -#if USE(GCC_COMPUTED_GOTO_WORKAROUND) - goto *(&&skip_id_getter_proto); -#endif - DEFINE_OPCODE(op_get_by_id_getter_proto) { - /* op_get_by_id_getter_proto dst(r) base(r) property(id) structure(sID) prototypeStructure(sID) offset(n) nop(n) - - Cached property access: Attempts to get a cached getter property from the - value base's prototype. If the cache misses, op_get_by_id_getter_proto - reverts to op_get_by_id. - */ - int base = vPC[2].u.operand; - JSValue baseValue = callFrame->r(base).jsValue(); - - if (LIKELY(baseValue.isCell())) { - JSCell* baseCell = baseValue.asCell(); - Structure* structure = vPC[4].u.structure.get(); - - if (LIKELY(baseCell->structure() == structure)) { - ASSERT(structure->prototypeForLookup(callFrame).isObject()); - JSObject* protoObject = asObject(structure->prototypeForLookup(callFrame)); - Structure* prototypeStructure = vPC[5].u.structure.get(); - - if (LIKELY(protoObject->structure() == prototypeStructure)) { - int dst = vPC[1].u.operand; - int offset = vPC[6].u.operand; - if (GetterSetter* getterSetter = asGetterSetter(protoObject->getDirectOffset(offset).asCell())) { - JSObject* getter = getterSetter->getter(); - CallData callData; - CallType callType = getter->getCallData(callData); - JSValue result = call(callFrame, getter, callType, callData, asObject(baseCell), ArgList()); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = result; - } else - callFrame->uncheckedR(dst) = jsUndefined(); - vPC += OPCODE_LENGTH(op_get_by_id_getter_proto); - NEXT_INSTRUCTION(); - } - } - } - uncacheGetByID(codeBlock, vPC); - NEXT_INSTRUCTION(); - } -#if USE(GCC_COMPUTED_GOTO_WORKAROUND) - skip_id_getter_proto: -#endif -#if USE(GCC_COMPUTED_GOTO_WORKAROUND) - goto *(&&skip_id_custom_proto); -#endif - DEFINE_OPCODE(op_get_by_id_custom_proto) { - /* op_get_by_id_custom_proto dst(r) base(r) property(id) structure(sID) prototypeStructure(sID) offset(n) nop(n) - - Cached property access: Attempts to use a cached named property getter - from the value base's prototype. If the cache misses, op_get_by_id_custom_proto - reverts to op_get_by_id. - */ - int base = vPC[2].u.operand; - JSValue baseValue = callFrame->r(base).jsValue(); - - if (LIKELY(baseValue.isCell())) { - JSCell* baseCell = baseValue.asCell(); - Structure* structure = vPC[4].u.structure.get(); - - if (LIKELY(baseCell->structure() == structure)) { - ASSERT(structure->prototypeForLookup(callFrame).isObject()); - JSObject* protoObject = asObject(structure->prototypeForLookup(callFrame)); - Structure* prototypeStructure = vPC[5].u.structure.get(); - - if (LIKELY(protoObject->structure() == prototypeStructure)) { - int dst = vPC[1].u.operand; - int property = vPC[3].u.operand; - Identifier& ident = codeBlock->identifier(property); - - PropertySlot::GetValueFunc getter = vPC[6].u.getterFunc; - JSValue result = getter(callFrame, protoObject, ident); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = result; - vPC += OPCODE_LENGTH(op_get_by_id_custom_proto); - NEXT_INSTRUCTION(); - } - } - } - uncacheGetByID(codeBlock, vPC); - NEXT_INSTRUCTION(); - } -#if USE(GCC_COMPUTED_GOTO_WORKAROUND) - skip_id_custom_proto: -#endif - DEFINE_OPCODE(op_get_by_id_self_list) { - // Polymorphic self access caching currently only supported when JITting. - ASSERT_NOT_REACHED(); - // This case of the switch must not be empty, else (op_get_by_id_self_list == op_get_by_id_chain)! - vPC += OPCODE_LENGTH(op_get_by_id_self_list); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_get_by_id_proto_list) { - // Polymorphic prototype access caching currently only supported when JITting. - ASSERT_NOT_REACHED(); - // This case of the switch must not be empty, else (op_get_by_id_proto_list == op_get_by_id_chain)! - vPC += OPCODE_LENGTH(op_get_by_id_proto_list); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_get_by_id_getter_self_list) { - // Polymorphic self access caching currently only supported when JITting. - ASSERT_NOT_REACHED(); - // This case of the switch must not be empty, else (op_get_by_id_self_list == op_get_by_id_chain)! - vPC += OPCODE_LENGTH(op_get_by_id_self_list); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_get_by_id_getter_proto_list) { - // Polymorphic prototype access caching currently only supported when JITting. - ASSERT_NOT_REACHED(); - // This case of the switch must not be empty, else (op_get_by_id_proto_list == op_get_by_id_chain)! - vPC += OPCODE_LENGTH(op_get_by_id_proto_list); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_get_by_id_custom_self_list) { - // Polymorphic self access caching currently only supported when JITting. - ASSERT_NOT_REACHED(); - // This case of the switch must not be empty, else (op_get_by_id_self_list == op_get_by_id_chain)! - vPC += OPCODE_LENGTH(op_get_by_id_custom_self_list); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_get_by_id_custom_proto_list) { - // Polymorphic prototype access caching currently only supported when JITting. - ASSERT_NOT_REACHED(); - // This case of the switch must not be empty, else (op_get_by_id_proto_list == op_get_by_id_chain)! - vPC += OPCODE_LENGTH(op_get_by_id_proto_list); - NEXT_INSTRUCTION(); - } -#if USE(GCC_COMPUTED_GOTO_WORKAROUND) - goto *(&&skip_get_by_id_chain); -#endif - DEFINE_OPCODE(op_get_by_id_chain) { - /* op_get_by_id_chain dst(r) base(r) property(id) structure(sID) structureChain(chain) count(n) offset(n) - - Cached property access: Attempts to get a cached property from the - value base's prototype chain. If the cache misses, op_get_by_id_chain - reverts to op_get_by_id. - */ - int base = vPC[2].u.operand; - JSValue baseValue = callFrame->r(base).jsValue(); - - if (LIKELY(baseValue.isCell())) { - JSCell* baseCell = baseValue.asCell(); - Structure* structure = vPC[4].u.structure.get(); - - if (LIKELY(baseCell->structure() == structure)) { - WriteBarrier* it = vPC[5].u.structureChain->head(); - size_t count = vPC[6].u.operand; - WriteBarrier* end = it + count; - - while (true) { - JSObject* baseObject = asObject(baseCell->structure()->prototypeForLookup(callFrame)); - - if (UNLIKELY(baseObject->structure() != (*it).get())) - break; - - if (++it == end) { - int dst = vPC[1].u.operand; - int offset = vPC[7].u.operand; - - ASSERT(baseObject->get(callFrame, codeBlock->identifier(vPC[3].u.operand)) == baseObject->getDirectOffset(offset)); - ASSERT(baseValue.get(callFrame, codeBlock->identifier(vPC[3].u.operand)) == baseObject->getDirectOffset(offset)); - callFrame->uncheckedR(dst) = JSValue(baseObject->getDirectOffset(offset)); - - vPC += OPCODE_LENGTH(op_get_by_id_chain); - NEXT_INSTRUCTION(); - } - - // Update baseCell, so that next time around the loop we'll pick up the prototype's prototype. - baseCell = baseObject; - } - } - } - - uncacheGetByID(codeBlock, vPC); - NEXT_INSTRUCTION(); - } -#if USE(GCC_COMPUTED_GOTO_WORKAROUND) - skip_get_by_id_chain: - goto *(&&skip_id_getter_self); -#endif - DEFINE_OPCODE(op_get_by_id_getter_self) { - /* op_get_by_id_self dst(r) base(r) property(id) structure(sID) offset(n) nop(n) nop(n) - - Cached property access: Attempts to get a cached property from the - value base. If the cache misses, op_get_by_id_getter_self reverts to - op_get_by_id. - */ - int base = vPC[2].u.operand; - JSValue baseValue = callFrame->r(base).jsValue(); - - if (LIKELY(baseValue.isCell())) { - JSCell* baseCell = baseValue.asCell(); - Structure* structure = vPC[4].u.structure.get(); - - if (LIKELY(baseCell->structure() == structure)) { - ASSERT(baseCell->isObject()); - JSObject* baseObject = asObject(baseCell); - int dst = vPC[1].u.operand; - int offset = vPC[5].u.operand; - - if (GetterSetter* getterSetter = asGetterSetter(baseObject->getDirectOffset(offset).asCell())) { - JSObject* getter = getterSetter->getter(); - CallData callData; - CallType callType = getter->getCallData(callData); - JSValue result = call(callFrame, getter, callType, callData, baseObject, ArgList()); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = result; - } else - callFrame->uncheckedR(dst) = jsUndefined(); - - vPC += OPCODE_LENGTH(op_get_by_id_getter_self); - NEXT_INSTRUCTION(); - } - } - uncacheGetByID(codeBlock, vPC); - NEXT_INSTRUCTION(); - } -#if USE(GCC_COMPUTED_GOTO_WORKAROUND) - skip_id_getter_self: -#endif -#if USE(GCC_COMPUTED_GOTO_WORKAROUND) - goto *(&&skip_id_custom_self); -#endif - DEFINE_OPCODE(op_get_by_id_custom_self) { - /* op_get_by_id_custom_self dst(r) base(r) property(id) structure(sID) offset(n) nop(n) nop(n) - - Cached property access: Attempts to use a cached named property getter - from the value base. If the cache misses, op_get_by_id_custom_self reverts to - op_get_by_id. - */ - int base = vPC[2].u.operand; - JSValue baseValue = callFrame->r(base).jsValue(); - - if (LIKELY(baseValue.isCell())) { - JSCell* baseCell = baseValue.asCell(); - Structure* structure = vPC[4].u.structure.get(); - - if (LIKELY(baseCell->structure() == structure)) { - ASSERT(baseCell->isObject()); - int dst = vPC[1].u.operand; - int property = vPC[3].u.operand; - Identifier& ident = codeBlock->identifier(property); - - PropertySlot::GetValueFunc getter = vPC[5].u.getterFunc; - JSValue result = getter(callFrame, baseValue, ident); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = result; - vPC += OPCODE_LENGTH(op_get_by_id_custom_self); - NEXT_INSTRUCTION(); - } - } - uncacheGetByID(codeBlock, vPC); - NEXT_INSTRUCTION(); - } -#if USE(GCC_COMPUTED_GOTO_WORKAROUND) -skip_id_custom_self: -#endif - DEFINE_OPCODE(op_get_by_id_generic) { - /* op_get_by_id_generic dst(r) base(r) property(id) nop(sID) nop(n) nop(n) nop(n) - - Generic property access: Gets the property named by identifier - property from the value base, and puts the result in register dst. - */ - int dst = vPC[1].u.operand; - int base = vPC[2].u.operand; - int property = vPC[3].u.operand; - - Identifier& ident = codeBlock->identifier(property); - JSValue baseValue = callFrame->r(base).jsValue(); - PropertySlot slot(baseValue); - JSValue result = baseValue.get(callFrame, ident, slot); - CHECK_FOR_EXCEPTION(); - - callFrame->uncheckedR(dst) = result; - vPC += OPCODE_LENGTH(op_get_by_id_generic); - NEXT_INSTRUCTION(); - } -#if USE(GCC_COMPUTED_GOTO_WORKAROUND) - goto *(&&skip_id_getter_chain); -#endif - DEFINE_OPCODE(op_get_by_id_getter_chain) { - /* op_get_by_id_getter_chain dst(r) base(r) property(id) structure(sID) structureChain(chain) count(n) offset(n) - - Cached property access: Attempts to get a cached property from the - value base's prototype chain. If the cache misses, op_get_by_id_getter_chain - reverts to op_get_by_id. - */ - int base = vPC[2].u.operand; - JSValue baseValue = callFrame->r(base).jsValue(); - - if (LIKELY(baseValue.isCell())) { - JSCell* baseCell = baseValue.asCell(); - Structure* structure = vPC[4].u.structure.get(); - - if (LIKELY(baseCell->structure() == structure)) { - WriteBarrier* it = vPC[5].u.structureChain->head(); - size_t count = vPC[6].u.operand; - WriteBarrier* end = it + count; - - while (true) { - JSObject* baseObject = asObject(baseCell->structure()->prototypeForLookup(callFrame)); - - if (UNLIKELY(baseObject->structure() != (*it).get())) - break; - - if (++it == end) { - int dst = vPC[1].u.operand; - int offset = vPC[7].u.operand; - if (GetterSetter* getterSetter = asGetterSetter(baseObject->getDirectOffset(offset).asCell())) { - JSObject* getter = getterSetter->getter(); - CallData callData; - CallType callType = getter->getCallData(callData); - JSValue result = call(callFrame, getter, callType, callData, baseValue, ArgList()); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = result; - } else - callFrame->uncheckedR(dst) = jsUndefined(); - vPC += OPCODE_LENGTH(op_get_by_id_getter_chain); - NEXT_INSTRUCTION(); - } - - // Update baseCell, so that next time around the loop we'll pick up the prototype's prototype. - baseCell = baseObject; - } - } - } - uncacheGetByID(codeBlock, vPC); - NEXT_INSTRUCTION(); - } -#if USE(GCC_COMPUTED_GOTO_WORKAROUND) - skip_id_getter_chain: -#endif -#if USE(GCC_COMPUTED_GOTO_WORKAROUND) - goto *(&&skip_id_custom_chain); -#endif - DEFINE_OPCODE(op_get_by_id_custom_chain) { - /* op_get_by_id_custom_chain dst(r) base(r) property(id) structure(sID) structureChain(chain) count(n) offset(n) - - Cached property access: Attempts to use a cached named property getter on the - value base's prototype chain. If the cache misses, op_get_by_id_custom_chain - reverts to op_get_by_id. - */ - int base = vPC[2].u.operand; - JSValue baseValue = callFrame->r(base).jsValue(); - - if (LIKELY(baseValue.isCell())) { - JSCell* baseCell = baseValue.asCell(); - Structure* structure = vPC[4].u.structure.get(); - - if (LIKELY(baseCell->structure() == structure)) { - WriteBarrier* it = vPC[5].u.structureChain->head(); - size_t count = vPC[6].u.operand; - WriteBarrier* end = it + count; - - while (true) { - JSObject* baseObject = asObject(baseCell->structure()->prototypeForLookup(callFrame)); - - if (UNLIKELY(baseObject->structure() != (*it).get())) - break; - - if (++it == end) { - int dst = vPC[1].u.operand; - int property = vPC[3].u.operand; - Identifier& ident = codeBlock->identifier(property); - - PropertySlot::GetValueFunc getter = vPC[7].u.getterFunc; - JSValue result = getter(callFrame, baseObject, ident); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = result; - vPC += OPCODE_LENGTH(op_get_by_id_custom_chain); - NEXT_INSTRUCTION(); - } - - // Update baseCell, so that next time around the loop we'll pick up the prototype's prototype. - baseCell = baseObject; - } - } - } - uncacheGetByID(codeBlock, vPC); - NEXT_INSTRUCTION(); - } -#if USE(GCC_COMPUTED_GOTO_WORKAROUND) - skip_id_custom_chain: - goto *(&&skip_get_array_length); -#endif - DEFINE_OPCODE(op_get_array_length) { - /* op_get_array_length dst(r) base(r) property(id) nop(sID) nop(n) nop(n) nop(n) - - Cached property access: Gets the length of the array in register base, - and puts the result in register dst. If register base does not hold - an array, op_get_array_length reverts to op_get_by_id. - */ - - int base = vPC[2].u.operand; - JSValue baseValue = callFrame->r(base).jsValue(); - if (LIKELY(isJSArray(globalData, baseValue))) { - int dst = vPC[1].u.operand; - callFrame->uncheckedR(dst) = jsNumber(asArray(baseValue)->length()); - vPC += OPCODE_LENGTH(op_get_array_length); - NEXT_INSTRUCTION(); - } - - uncacheGetByID(codeBlock, vPC); - NEXT_INSTRUCTION(); - } -#if USE(GCC_COMPUTED_GOTO_WORKAROUND) - skip_get_array_length: - goto *(&&skip_get_string_length); -#endif - DEFINE_OPCODE(op_get_string_length) { - /* op_get_string_length dst(r) base(r) property(id) nop(sID) nop(n) nop(n) nop(n) - - Cached property access: Gets the length of the string in register base, - and puts the result in register dst. If register base does not hold - a string, op_get_string_length reverts to op_get_by_id. - */ - - int base = vPC[2].u.operand; - JSValue baseValue = callFrame->r(base).jsValue(); - if (LIKELY(isJSString(globalData, baseValue))) { - int dst = vPC[1].u.operand; - callFrame->uncheckedR(dst) = jsNumber(asString(baseValue)->length()); - vPC += OPCODE_LENGTH(op_get_string_length); - NEXT_INSTRUCTION(); - } - - uncacheGetByID(codeBlock, vPC); - NEXT_INSTRUCTION(); - } -#if USE(GCC_COMPUTED_GOTO_WORKAROUND) - skip_get_string_length: - goto *(&&skip_put_by_id); -#endif - DEFINE_OPCODE(op_put_by_id) { - /* put_by_id base(r) property(id) value(r) nop(n) nop(n) nop(n) nop(n) direct(b) - - Generic property access: Sets the property named by identifier - property, belonging to register base, to register value. - - Unlike many opcodes, this one does not write any output to - the register file. - - The "direct" flag should only be set this put_by_id is to initialize - an object literal. - */ - - int base = vPC[1].u.operand; - int property = vPC[2].u.operand; - int value = vPC[3].u.operand; - int direct = vPC[8].u.operand; - - JSValue baseValue = callFrame->r(base).jsValue(); - Identifier& ident = codeBlock->identifier(property); - PutPropertySlot slot(codeBlock->isStrictMode()); - if (direct) { - baseValue.putDirect(callFrame, ident, callFrame->r(value).jsValue(), slot); - ASSERT(slot.base() == baseValue); - } else - baseValue.put(callFrame, ident, callFrame->r(value).jsValue(), slot); - CHECK_FOR_EXCEPTION(); - - tryCachePutByID(callFrame, codeBlock, vPC, baseValue, slot); - - vPC += OPCODE_LENGTH(op_put_by_id); - NEXT_INSTRUCTION(); - } -#if USE(GCC_COMPUTED_GOTO_WORKAROUND) - skip_put_by_id: -#endif - DEFINE_OPCODE(op_put_by_id_transition) { - /* op_put_by_id_transition base(r) property(id) value(r) oldStructure(sID) newStructure(sID) structureChain(chain) offset(n) direct(b) - - Cached property access: Attempts to set a new property with a cached transition - property named by identifier property, belonging to register base, - to register value. If the cache misses, op_put_by_id_transition - reverts to op_put_by_id_generic. - - Unlike many opcodes, this one does not write any output to - the register file. - */ - int base = vPC[1].u.operand; - JSValue baseValue = callFrame->r(base).jsValue(); - - if (LIKELY(baseValue.isCell())) { - JSCell* baseCell = baseValue.asCell(); - Structure* oldStructure = vPC[4].u.structure.get(); - Structure* newStructure = vPC[5].u.structure.get(); - - if (LIKELY(baseCell->structure() == oldStructure)) { - ASSERT(baseCell->isObject()); - JSObject* baseObject = asObject(baseCell); - int direct = vPC[8].u.operand; - - if (!direct) { - WriteBarrier* it = vPC[6].u.structureChain->head(); - - JSValue proto = baseObject->structure()->prototypeForLookup(callFrame); - while (!proto.isNull()) { - if (UNLIKELY(asObject(proto)->structure() != (*it).get())) { - uncachePutByID(codeBlock, vPC); - NEXT_INSTRUCTION(); - } - ++it; - proto = asObject(proto)->structure()->prototypeForLookup(callFrame); - } - } - baseObject->transitionTo(*globalData, newStructure); - - int value = vPC[3].u.operand; - unsigned offset = vPC[7].u.operand; - ASSERT(baseObject->offsetForLocation(baseObject->getDirectLocation(*globalData, codeBlock->identifier(vPC[2].u.operand))) == offset); - baseObject->putDirectOffset(callFrame->globalData(), offset, callFrame->r(value).jsValue()); - - vPC += OPCODE_LENGTH(op_put_by_id_transition); - NEXT_INSTRUCTION(); - } - } - - uncachePutByID(codeBlock, vPC); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_put_by_id_replace) { - /* op_put_by_id_replace base(r) property(id) value(r) structure(sID) offset(n) nop(n) nop(n) direct(b) - - Cached property access: Attempts to set a pre-existing, cached - property named by identifier property, belonging to register base, - to register value. If the cache misses, op_put_by_id_replace - reverts to op_put_by_id. - - Unlike many opcodes, this one does not write any output to - the register file. - */ - int base = vPC[1].u.operand; - JSValue baseValue = callFrame->r(base).jsValue(); - - if (LIKELY(baseValue.isCell())) { - JSCell* baseCell = baseValue.asCell(); - Structure* structure = vPC[4].u.structure.get(); - - if (LIKELY(baseCell->structure() == structure)) { - ASSERT(baseCell->isObject()); - JSObject* baseObject = asObject(baseCell); - int value = vPC[3].u.operand; - unsigned offset = vPC[5].u.operand; - - ASSERT(baseObject->offsetForLocation(baseObject->getDirectLocation(*globalData, codeBlock->identifier(vPC[2].u.operand))) == offset); - baseObject->putDirectOffset(callFrame->globalData(), offset, callFrame->r(value).jsValue()); - - vPC += OPCODE_LENGTH(op_put_by_id_replace); - NEXT_INSTRUCTION(); - } - } - - uncachePutByID(codeBlock, vPC); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_put_by_id_generic) { - /* op_put_by_id_generic base(r) property(id) value(r) nop(n) nop(n) nop(n) nop(n) direct(b) - - Generic property access: Sets the property named by identifier - property, belonging to register base, to register value. - - Unlike many opcodes, this one does not write any output to - the register file. - */ - int base = vPC[1].u.operand; - int property = vPC[2].u.operand; - int value = vPC[3].u.operand; - int direct = vPC[8].u.operand; - - JSValue baseValue = callFrame->r(base).jsValue(); - Identifier& ident = codeBlock->identifier(property); - PutPropertySlot slot(codeBlock->isStrictMode()); - if (direct) { - baseValue.putDirect(callFrame, ident, callFrame->r(value).jsValue(), slot); - ASSERT(slot.base() == baseValue); - } else - baseValue.put(callFrame, ident, callFrame->r(value).jsValue(), slot); - CHECK_FOR_EXCEPTION(); - - vPC += OPCODE_LENGTH(op_put_by_id_generic); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_del_by_id) { - /* del_by_id dst(r) base(r) property(id) - - Converts register base to Object, deletes the property - named by identifier property from the object, and writes a - boolean indicating success (if true) or failure (if false) - to register dst. - */ - int dst = vPC[1].u.operand; - int base = vPC[2].u.operand; - int property = vPC[3].u.operand; - - JSObject* baseObj = callFrame->r(base).jsValue().toObject(callFrame); - Identifier& ident = codeBlock->identifier(property); - bool result = baseObj->deleteProperty(callFrame, ident); - if (!result && codeBlock->isStrictMode()) { - exceptionValue = createTypeError(callFrame, "Unable to delete property."); - goto vm_throw; - } - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = jsBoolean(result); - vPC += OPCODE_LENGTH(op_del_by_id); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_get_by_pname) { - int dst = vPC[1].u.operand; - int base = vPC[2].u.operand; - int property = vPC[3].u.operand; - int expected = vPC[4].u.operand; - int iter = vPC[5].u.operand; - int i = vPC[6].u.operand; - - JSValue baseValue = callFrame->r(base).jsValue(); - JSPropertyNameIterator* it = callFrame->r(iter).propertyNameIterator(); - JSValue subscript = callFrame->r(property).jsValue(); - JSValue expectedSubscript = callFrame->r(expected).jsValue(); - int index = callFrame->r(i).i() - 1; - JSValue result; - int offset = 0; - if (subscript == expectedSubscript && baseValue.isCell() && (baseValue.asCell()->structure() == it->cachedStructure()) && it->getOffset(index, offset)) { - callFrame->uncheckedR(dst) = JSValue(asObject(baseValue)->getDirectOffset(offset)); - vPC += OPCODE_LENGTH(op_get_by_pname); - NEXT_INSTRUCTION(); - } - { - Identifier propertyName(callFrame, subscript.toString(callFrame)); - result = baseValue.get(callFrame, propertyName); - } - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = result; - vPC += OPCODE_LENGTH(op_get_by_pname); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_get_arguments_length) { - int dst = vPC[1].u.operand; - int argumentsRegister = vPC[2].u.operand; - int property = vPC[3].u.operand; - JSValue arguments = callFrame->r(argumentsRegister).jsValue(); - if (arguments) { - Identifier& ident = codeBlock->identifier(property); - PropertySlot slot(arguments); - JSValue result = arguments.get(callFrame, ident, slot); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = result; - } else - callFrame->uncheckedR(dst) = jsNumber(callFrame->argumentCount()); - - vPC += OPCODE_LENGTH(op_get_arguments_length); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_get_argument_by_val) { - int dst = vPC[1].u.operand; - int argumentsRegister = vPC[2].u.operand; - int property = vPC[3].u.operand; - JSValue arguments = callFrame->r(argumentsRegister).jsValue(); - JSValue subscript = callFrame->r(property).jsValue(); - if (!arguments && subscript.isUInt32() && subscript.asUInt32() < callFrame->argumentCount()) { - unsigned arg = subscript.asUInt32() + 1; - unsigned numParameters = callFrame->codeBlock()->m_numParameters; - if (arg < numParameters) - callFrame->uncheckedR(dst) = callFrame->r(arg - RegisterFile::CallFrameHeaderSize - numParameters); - else - callFrame->uncheckedR(dst) = callFrame->r(arg - RegisterFile::CallFrameHeaderSize - numParameters - callFrame->argumentCount() - 1); - vPC += OPCODE_LENGTH(op_get_argument_by_val); - NEXT_INSTRUCTION(); - } - if (!arguments) { - Arguments* arguments = new (globalData) Arguments(callFrame); - callFrame->uncheckedR(argumentsRegister) = JSValue(arguments); - callFrame->uncheckedR(unmodifiedArgumentsRegister(argumentsRegister)) = JSValue(arguments); - } - // fallthrough - } - DEFINE_OPCODE(op_get_by_val) { - /* get_by_val dst(r) base(r) property(r) - - Converts register base to Object, gets the property named - by register property from the object, and puts the result - in register dst. property is nominally converted to string - but numbers are treated more efficiently. - */ - int dst = vPC[1].u.operand; - int base = vPC[2].u.operand; - int property = vPC[3].u.operand; - - JSValue baseValue = callFrame->r(base).jsValue(); - JSValue subscript = callFrame->r(property).jsValue(); - - JSValue result; - - if (LIKELY(subscript.isUInt32())) { - uint32_t i = subscript.asUInt32(); - if (isJSArray(globalData, baseValue)) { - JSArray* jsArray = asArray(baseValue); - if (jsArray->canGetIndex(i)) - result = jsArray->getIndex(i); - else - result = jsArray->JSArray::get(callFrame, i); - } else if (isJSString(globalData, baseValue) && asString(baseValue)->canGetIndex(i)) - result = asString(baseValue)->getIndex(callFrame, i); - else if (isJSByteArray(globalData, baseValue) && asByteArray(baseValue)->canAccessIndex(i)) - result = asByteArray(baseValue)->getIndex(callFrame, i); - else - result = baseValue.get(callFrame, i); - } else { - Identifier property(callFrame, subscript.toString(callFrame)); - result = baseValue.get(callFrame, property); - } - - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = result; - vPC += OPCODE_LENGTH(op_get_by_val); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_put_by_val) { - /* put_by_val base(r) property(r) value(r) - - Sets register value on register base as the property named - by register property. Base is converted to object - first. register property is nominally converted to string - but numbers are treated more efficiently. - - Unlike many opcodes, this one does not write any output to - the register file. - */ - int base = vPC[1].u.operand; - int property = vPC[2].u.operand; - int value = vPC[3].u.operand; - - JSValue baseValue = callFrame->r(base).jsValue(); - JSValue subscript = callFrame->r(property).jsValue(); - - if (LIKELY(subscript.isUInt32())) { - uint32_t i = subscript.asUInt32(); - if (isJSArray(globalData, baseValue)) { - JSArray* jsArray = asArray(baseValue); - if (jsArray->canSetIndex(i)) - jsArray->setIndex(*globalData, i, callFrame->r(value).jsValue()); - else - jsArray->JSArray::put(callFrame, i, callFrame->r(value).jsValue()); - } else if (isJSByteArray(globalData, baseValue) && asByteArray(baseValue)->canAccessIndex(i)) { - JSByteArray* jsByteArray = asByteArray(baseValue); - double dValue = 0; - JSValue jsValue = callFrame->r(value).jsValue(); - if (jsValue.isInt32()) - jsByteArray->setIndex(i, jsValue.asInt32()); - else if (jsValue.getNumber(dValue)) - jsByteArray->setIndex(i, dValue); - else - baseValue.put(callFrame, i, jsValue); - } else - baseValue.put(callFrame, i, callFrame->r(value).jsValue()); - } else { - Identifier property(callFrame, subscript.toString(callFrame)); - if (!globalData->exception) { // Don't put to an object if toString threw an exception. - PutPropertySlot slot(codeBlock->isStrictMode()); - baseValue.put(callFrame, property, callFrame->r(value).jsValue(), slot); - } - } - - CHECK_FOR_EXCEPTION(); - vPC += OPCODE_LENGTH(op_put_by_val); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_del_by_val) { - /* del_by_val dst(r) base(r) property(r) - - Converts register base to Object, deletes the property - named by register property from the object, and writes a - boolean indicating success (if true) or failure (if false) - to register dst. - */ - int dst = vPC[1].u.operand; - int base = vPC[2].u.operand; - int property = vPC[3].u.operand; - - JSObject* baseObj = callFrame->r(base).jsValue().toObject(callFrame); // may throw - - JSValue subscript = callFrame->r(property).jsValue(); - bool result; - uint32_t i; - if (subscript.getUInt32(i)) - result = baseObj->deleteProperty(callFrame, i); - else { - CHECK_FOR_EXCEPTION(); - Identifier property(callFrame, subscript.toString(callFrame)); - CHECK_FOR_EXCEPTION(); - result = baseObj->deleteProperty(callFrame, property); - } - if (!result && codeBlock->isStrictMode()) { - exceptionValue = createTypeError(callFrame, "Unable to delete property."); - goto vm_throw; - } - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(dst) = jsBoolean(result); - vPC += OPCODE_LENGTH(op_del_by_val); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_put_by_index) { - /* put_by_index base(r) property(n) value(r) - - Sets register value on register base as the property named - by the immediate number property. Base is converted to - object first. - - Unlike many opcodes, this one does not write any output to - the register file. - - This opcode is mainly used to initialize array literals. - */ - int base = vPC[1].u.operand; - unsigned property = vPC[2].u.operand; - int value = vPC[3].u.operand; - - callFrame->r(base).jsValue().put(callFrame, property, callFrame->r(value).jsValue()); - - vPC += OPCODE_LENGTH(op_put_by_index); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_loop) { - /* loop target(offset) - - Jumps unconditionally to offset target from the current - instruction. - - Additionally this loop instruction may terminate JS execution is - the JS timeout is reached. - */ -#if ENABLE(OPCODE_STATS) - OpcodeStats::resetLastInstruction(); -#endif - int target = vPC[1].u.operand; - CHECK_FOR_TIMEOUT(); - vPC += target; - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_jmp) { - /* jmp target(offset) - - Jumps unconditionally to offset target from the current - instruction. - */ -#if ENABLE(OPCODE_STATS) - OpcodeStats::resetLastInstruction(); -#endif - int target = vPC[1].u.operand; - - vPC += target; - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_loop_if_true) { - /* loop_if_true cond(r) target(offset) - - Jumps to offset target from the current instruction, if and - only if register cond converts to boolean as true. - - Additionally this loop instruction may terminate JS execution is - the JS timeout is reached. - */ - int cond = vPC[1].u.operand; - int target = vPC[2].u.operand; - if (callFrame->r(cond).jsValue().toBoolean(callFrame)) { - vPC += target; - CHECK_FOR_TIMEOUT(); - NEXT_INSTRUCTION(); - } - - vPC += OPCODE_LENGTH(op_loop_if_true); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_loop_if_false) { - /* loop_if_true cond(r) target(offset) - - Jumps to offset target from the current instruction, if and - only if register cond converts to boolean as false. - - Additionally this loop instruction may terminate JS execution is - the JS timeout is reached. - */ - int cond = vPC[1].u.operand; - int target = vPC[2].u.operand; - if (!callFrame->r(cond).jsValue().toBoolean(callFrame)) { - vPC += target; - CHECK_FOR_TIMEOUT(); - NEXT_INSTRUCTION(); - } - - vPC += OPCODE_LENGTH(op_loop_if_true); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_jtrue) { - /* jtrue cond(r) target(offset) - - Jumps to offset target from the current instruction, if and - only if register cond converts to boolean as true. - */ - int cond = vPC[1].u.operand; - int target = vPC[2].u.operand; - if (callFrame->r(cond).jsValue().toBoolean(callFrame)) { - vPC += target; - NEXT_INSTRUCTION(); - } - - vPC += OPCODE_LENGTH(op_jtrue); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_jfalse) { - /* jfalse cond(r) target(offset) - - Jumps to offset target from the current instruction, if and - only if register cond converts to boolean as false. - */ - int cond = vPC[1].u.operand; - int target = vPC[2].u.operand; - if (!callFrame->r(cond).jsValue().toBoolean(callFrame)) { - vPC += target; - NEXT_INSTRUCTION(); - } - - vPC += OPCODE_LENGTH(op_jfalse); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_jeq_null) { - /* jeq_null src(r) target(offset) - - Jumps to offset target from the current instruction, if and - only if register src is null. - */ - int src = vPC[1].u.operand; - int target = vPC[2].u.operand; - JSValue srcValue = callFrame->r(src).jsValue(); - - if (srcValue.isUndefinedOrNull() || (srcValue.isCell() && srcValue.asCell()->structure()->typeInfo().masqueradesAsUndefined())) { - vPC += target; - NEXT_INSTRUCTION(); - } - - vPC += OPCODE_LENGTH(op_jeq_null); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_jneq_null) { - /* jneq_null src(r) target(offset) - - Jumps to offset target from the current instruction, if and - only if register src is not null. - */ - int src = vPC[1].u.operand; - int target = vPC[2].u.operand; - JSValue srcValue = callFrame->r(src).jsValue(); - - if (!srcValue.isUndefinedOrNull() && (!srcValue.isCell() || !srcValue.asCell()->structure()->typeInfo().masqueradesAsUndefined())) { - vPC += target; - NEXT_INSTRUCTION(); - } - - vPC += OPCODE_LENGTH(op_jneq_null); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_jneq_ptr) { - /* jneq_ptr src(r) ptr(jsCell) target(offset) - - Jumps to offset target from the current instruction, if the value r is equal - to ptr, using pointer equality. - */ - int src = vPC[1].u.operand; - int target = vPC[3].u.operand; - JSValue srcValue = callFrame->r(src).jsValue(); - if (srcValue != vPC[2].u.jsCell.get()) { - vPC += target; - NEXT_INSTRUCTION(); - } - - vPC += OPCODE_LENGTH(op_jneq_ptr); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_loop_if_less) { - /* loop_if_less src1(r) src2(r) target(offset) - - Checks whether register src1 is less than register src2, as - with the ECMAScript '<' operator, and then jumps to offset - target from the current instruction, if and only if the - result of the comparison is true. - - Additionally this loop instruction may terminate JS execution is - the JS timeout is reached. - */ - JSValue src1 = callFrame->r(vPC[1].u.operand).jsValue(); - JSValue src2 = callFrame->r(vPC[2].u.operand).jsValue(); - int target = vPC[3].u.operand; - - bool result = jsLess(callFrame, src1, src2); - CHECK_FOR_EXCEPTION(); - - if (result) { - vPC += target; - CHECK_FOR_TIMEOUT(); - NEXT_INSTRUCTION(); - } - - vPC += OPCODE_LENGTH(op_loop_if_less); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_loop_if_lesseq) { - /* loop_if_lesseq src1(r) src2(r) target(offset) - - Checks whether register src1 is less than or equal to register - src2, as with the ECMAScript '<=' operator, and then jumps to - offset target from the current instruction, if and only if the - result of the comparison is true. - - Additionally this loop instruction may terminate JS execution is - the JS timeout is reached. - */ - JSValue src1 = callFrame->r(vPC[1].u.operand).jsValue(); - JSValue src2 = callFrame->r(vPC[2].u.operand).jsValue(); - int target = vPC[3].u.operand; - - bool result = jsLessEq(callFrame, src1, src2); - CHECK_FOR_EXCEPTION(); - - if (result) { - vPC += target; - CHECK_FOR_TIMEOUT(); - NEXT_INSTRUCTION(); - } - - vPC += OPCODE_LENGTH(op_loop_if_lesseq); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_jnless) { - /* jnless src1(r) src2(r) target(offset) - - Checks whether register src1 is less than register src2, as - with the ECMAScript '<' operator, and then jumps to offset - target from the current instruction, if and only if the - result of the comparison is false. - */ - JSValue src1 = callFrame->r(vPC[1].u.operand).jsValue(); - JSValue src2 = callFrame->r(vPC[2].u.operand).jsValue(); - int target = vPC[3].u.operand; - - bool result = jsLess(callFrame, src1, src2); - CHECK_FOR_EXCEPTION(); - - if (!result) { - vPC += target; - NEXT_INSTRUCTION(); - } - - vPC += OPCODE_LENGTH(op_jnless); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_jless) { - /* jless src1(r) src2(r) target(offset) - - Checks whether register src1 is less than register src2, as - with the ECMAScript '<' operator, and then jumps to offset - target from the current instruction, if and only if the - result of the comparison is true. - */ - JSValue src1 = callFrame->r(vPC[1].u.operand).jsValue(); - JSValue src2 = callFrame->r(vPC[2].u.operand).jsValue(); - int target = vPC[3].u.operand; - - bool result = jsLess(callFrame, src1, src2); - CHECK_FOR_EXCEPTION(); - - if (result) { - vPC += target; - NEXT_INSTRUCTION(); - } - - vPC += OPCODE_LENGTH(op_jless); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_jnlesseq) { - /* jnlesseq src1(r) src2(r) target(offset) - - Checks whether register src1 is less than or equal to - register src2, as with the ECMAScript '<=' operator, - and then jumps to offset target from the current instruction, - if and only if theresult of the comparison is false. - */ - JSValue src1 = callFrame->r(vPC[1].u.operand).jsValue(); - JSValue src2 = callFrame->r(vPC[2].u.operand).jsValue(); - int target = vPC[3].u.operand; - - bool result = jsLessEq(callFrame, src1, src2); - CHECK_FOR_EXCEPTION(); - - if (!result) { - vPC += target; - NEXT_INSTRUCTION(); - } - - vPC += OPCODE_LENGTH(op_jnlesseq); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_jlesseq) { - /* jlesseq src1(r) src2(r) target(offset) - - Checks whether register src1 is less than or equal to - register src2, as with the ECMAScript '<=' operator, - and then jumps to offset target from the current instruction, - if and only if the result of the comparison is true. - */ - JSValue src1 = callFrame->r(vPC[1].u.operand).jsValue(); - JSValue src2 = callFrame->r(vPC[2].u.operand).jsValue(); - int target = vPC[3].u.operand; - - bool result = jsLessEq(callFrame, src1, src2); - CHECK_FOR_EXCEPTION(); - - if (result) { - vPC += target; - NEXT_INSTRUCTION(); - } - - vPC += OPCODE_LENGTH(op_jlesseq); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_switch_imm) { - /* switch_imm tableIndex(n) defaultOffset(offset) scrutinee(r) - - Performs a range checked switch on the scrutinee value, using - the tableIndex-th immediate switch jump table. If the scrutinee value - is an immediate number in the range covered by the referenced jump - table, and the value at jumpTable[scrutinee value] is non-zero, then - that value is used as the jump offset, otherwise defaultOffset is used. - */ - int tableIndex = vPC[1].u.operand; - int defaultOffset = vPC[2].u.operand; - JSValue scrutinee = callFrame->r(vPC[3].u.operand).jsValue(); - if (scrutinee.isInt32()) - vPC += codeBlock->immediateSwitchJumpTable(tableIndex).offsetForValue(scrutinee.asInt32(), defaultOffset); - else { - double value; - int32_t intValue; - if (scrutinee.getNumber(value) && ((intValue = static_cast(value)) == value)) - vPC += codeBlock->immediateSwitchJumpTable(tableIndex).offsetForValue(intValue, defaultOffset); - else - vPC += defaultOffset; - } - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_switch_char) { - /* switch_char tableIndex(n) defaultOffset(offset) scrutinee(r) - - Performs a range checked switch on the scrutinee value, using - the tableIndex-th character switch jump table. If the scrutinee value - is a single character string in the range covered by the referenced jump - table, and the value at jumpTable[scrutinee value] is non-zero, then - that value is used as the jump offset, otherwise defaultOffset is used. - */ - int tableIndex = vPC[1].u.operand; - int defaultOffset = vPC[2].u.operand; - JSValue scrutinee = callFrame->r(vPC[3].u.operand).jsValue(); - if (!scrutinee.isString()) - vPC += defaultOffset; - else { - StringImpl* value = asString(scrutinee)->value(callFrame).impl(); - if (value->length() != 1) - vPC += defaultOffset; - else - vPC += codeBlock->characterSwitchJumpTable(tableIndex).offsetForValue(value->characters()[0], defaultOffset); - } - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_switch_string) { - /* switch_string tableIndex(n) defaultOffset(offset) scrutinee(r) - - Performs a sparse hashmap based switch on the value in the scrutinee - register, using the tableIndex-th string switch jump table. If the - scrutinee value is a string that exists as a key in the referenced - jump table, then the value associated with the string is used as the - jump offset, otherwise defaultOffset is used. - */ - int tableIndex = vPC[1].u.operand; - int defaultOffset = vPC[2].u.operand; - JSValue scrutinee = callFrame->r(vPC[3].u.operand).jsValue(); - if (!scrutinee.isString()) - vPC += defaultOffset; - else - vPC += codeBlock->stringSwitchJumpTable(tableIndex).offsetForValue(asString(scrutinee)->value(callFrame).impl(), defaultOffset); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_new_func) { - /* new_func dst(r) func(f) - - Constructs a new Function instance from function func and - the current scope chain using the original Function - constructor, using the rules for function declarations, and - puts the result in register dst. - */ - int dst = vPC[1].u.operand; - int func = vPC[2].u.operand; - int shouldCheck = vPC[3].u.operand; - ASSERT(codeBlock->codeType() != FunctionCode || !codeBlock->needsFullScopeChain() || callFrame->r(codeBlock->activationRegister()).jsValue()); - if (!shouldCheck || !callFrame->r(dst).jsValue()) - callFrame->uncheckedR(dst) = JSValue(codeBlock->functionDecl(func)->make(callFrame, callFrame->scopeChain())); - - vPC += OPCODE_LENGTH(op_new_func); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_new_func_exp) { - /* new_func_exp dst(r) func(f) - - Constructs a new Function instance from function func and - the current scope chain using the original Function - constructor, using the rules for function expressions, and - puts the result in register dst. - */ - int dst = vPC[1].u.operand; - int funcIndex = vPC[2].u.operand; - - ASSERT(codeBlock->codeType() != FunctionCode || !codeBlock->needsFullScopeChain() || callFrame->r(codeBlock->activationRegister()).jsValue()); - FunctionExecutable* function = codeBlock->functionExpr(funcIndex); - JSFunction* func = function->make(callFrame, callFrame->scopeChain()); - - /* - The Identifier in a FunctionExpression can be referenced from inside - the FunctionExpression's FunctionBody to allow the function to call - itself recursively. However, unlike in a FunctionDeclaration, the - Identifier in a FunctionExpression cannot be referenced from and - does not affect the scope enclosing the FunctionExpression. - */ - if (!function->name().isNull()) { - JSStaticScopeObject* functionScopeObject = new (callFrame) JSStaticScopeObject(callFrame, function->name(), func, ReadOnly | DontDelete); - func->setScope(*globalData, func->scope()->push(functionScopeObject)); - } - - callFrame->uncheckedR(dst) = JSValue(func); - - vPC += OPCODE_LENGTH(op_new_func_exp); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_call_eval) { - /* call_eval func(r) argCount(n) registerOffset(n) - - Call a function named "eval" with no explicit "this" value - (which may therefore be the eval operator). If register - thisVal is the global object, and register func contains - that global object's original global eval function, then - perform the eval operator in local scope (interpreting - the argument registers as for the "call" - opcode). Otherwise, act exactly as the "call" opcode would. - */ - - int func = vPC[1].u.operand; - int argCount = vPC[2].u.operand; - int registerOffset = vPC[3].u.operand; - - ASSERT(codeBlock->codeType() != FunctionCode || !codeBlock->needsFullScopeChain() || callFrame->r(codeBlock->activationRegister()).jsValue()); - JSValue funcVal = callFrame->r(func).jsValue(); - - Register* newCallFrame = callFrame->registers() + registerOffset; - Register* argv = newCallFrame - RegisterFile::CallFrameHeaderSize - argCount; - JSValue thisValue = argv[0].jsValue(); - JSGlobalObject* globalObject = callFrame->scopeChain()->globalObject.get(); - - if (thisValue == globalObject && funcVal == globalObject->evalFunction()) { - JSValue result = callEval(callFrame, registerFile, argv, argCount, registerOffset); - if ((exceptionValue = globalData->exception)) - goto vm_throw; - functionReturnValue = result; - - vPC += OPCODE_LENGTH(op_call_eval); - NEXT_INSTRUCTION(); - } - - // We didn't find the blessed version of eval, so process this - // instruction as a normal function call. - // fall through to op_call - } - DEFINE_OPCODE(op_call) { - /* call func(r) argCount(n) registerOffset(n) - - Perform a function call. - - registerOffset is the distance the callFrame pointer should move - before the VM initializes the new call frame's header. - - dst is where op_ret should store its result. - */ - - int func = vPC[1].u.operand; - int argCount = vPC[2].u.operand; - int registerOffset = vPC[3].u.operand; - - JSValue v = callFrame->r(func).jsValue(); - - CallData callData; - CallType callType = getCallData(v, callData); - - if (callType == CallTypeJS) { - ScopeChainNode* callDataScopeChain = callData.js.scopeChain; - - JSObject* error = callData.js.functionExecutable->compileForCall(callFrame, callDataScopeChain); - if (UNLIKELY(!!error)) { - exceptionValue = error; - goto vm_throw; - } - - CallFrame* previousCallFrame = callFrame; - CodeBlock* newCodeBlock = &callData.js.functionExecutable->generatedBytecodeForCall(); - callFrame = slideRegisterWindowForCall(newCodeBlock, registerFile, callFrame, registerOffset, argCount); - if (UNLIKELY(!callFrame)) { - callFrame = previousCallFrame; - exceptionValue = createStackOverflowError(callFrame); - goto vm_throw; - } - - callFrame->init(newCodeBlock, vPC + OPCODE_LENGTH(op_call), callDataScopeChain, previousCallFrame, argCount, asFunction(v)); - codeBlock = newCodeBlock; - ASSERT(codeBlock == callFrame->codeBlock()); - vPC = newCodeBlock->instructions().begin(); - -#if ENABLE(OPCODE_STATS) - OpcodeStats::resetLastInstruction(); -#endif - - NEXT_INSTRUCTION(); - } - - if (callType == CallTypeHost) { - ScopeChainNode* scopeChain = callFrame->scopeChain(); - CallFrame* newCallFrame = CallFrame::create(callFrame->registers() + registerOffset); - if (!registerFile->grow(newCallFrame->registers())) { - exceptionValue = createStackOverflowError(callFrame); - goto vm_throw; - } - - newCallFrame->init(0, vPC + OPCODE_LENGTH(op_call), scopeChain, callFrame, argCount, asObject(v)); - - JSValue returnValue; - { - SamplingTool::HostCallRecord callRecord(m_sampler.get()); - returnValue = JSValue::decode(callData.native.function(newCallFrame)); - } - CHECK_FOR_EXCEPTION(); - - functionReturnValue = returnValue; - - vPC += OPCODE_LENGTH(op_call); - NEXT_INSTRUCTION(); - } - - ASSERT(callType == CallTypeNone); - - exceptionValue = createNotAFunctionError(callFrame, v); - goto vm_throw; - } - DEFINE_OPCODE(op_load_varargs) { - int argCountDst = vPC[1].u.operand; - int argsOffset = vPC[2].u.operand; - - JSValue arguments = callFrame->r(argsOffset).jsValue(); - uint32_t argCount = 0; - if (!arguments) { - argCount = (uint32_t)(callFrame->argumentCount()); - argCount = min(argCount, Arguments::MaxArguments); - int32_t sizeDelta = argsOffset + argCount + RegisterFile::CallFrameHeaderSize; - Register* newEnd = callFrame->registers() + sizeDelta; - if (!registerFile->grow(newEnd) || ((newEnd - callFrame->registers()) != sizeDelta)) { - exceptionValue = createStackOverflowError(callFrame); - goto vm_throw; - } - ASSERT(!asFunction(callFrame->callee())->isHostFunction()); - int32_t expectedParams = asFunction(callFrame->callee())->jsExecutable()->parameterCount(); - int32_t inplaceArgs = min(static_cast(argCount), expectedParams); - int32_t i = 0; - Register* argStore = callFrame->registers() + argsOffset; - - // First step is to copy the "expected" parameters from their normal location relative to the callframe - for (; i < inplaceArgs; i++) - argStore[i] = callFrame->registers()[i - RegisterFile::CallFrameHeaderSize - expectedParams]; - // Then we copy any additional arguments that may be further up the stack ('-1' to account for 'this') - for (; i < static_cast(argCount); i++) - argStore[i] = callFrame->registers()[i - RegisterFile::CallFrameHeaderSize - expectedParams - static_cast(argCount) - 1]; - } else if (!arguments.isUndefinedOrNull()) { - if (!arguments.isObject()) { - exceptionValue = createInvalidParamError(callFrame, "Function.prototype.apply", arguments); - goto vm_throw; - } - if (asObject(arguments)->classInfo() == &Arguments::s_info) { - Arguments* args = asArguments(arguments); - argCount = args->numProvidedArguments(callFrame); - argCount = min(argCount, Arguments::MaxArguments); - int32_t sizeDelta = argsOffset + argCount + RegisterFile::CallFrameHeaderSize; - Register* newEnd = callFrame->registers() + sizeDelta; - if (!registerFile->grow(newEnd) || ((newEnd - callFrame->registers()) != sizeDelta)) { - exceptionValue = createStackOverflowError(callFrame); - goto vm_throw; - } - args->copyToRegisters(callFrame, callFrame->registers() + argsOffset, argCount); - } else if (isJSArray(&callFrame->globalData(), arguments)) { - JSArray* array = asArray(arguments); - argCount = array->length(); - argCount = min(argCount, Arguments::MaxArguments); - int32_t sizeDelta = argsOffset + argCount + RegisterFile::CallFrameHeaderSize; - Register* newEnd = callFrame->registers() + sizeDelta; - if (!registerFile->grow(newEnd) || ((newEnd - callFrame->registers()) != sizeDelta)) { - exceptionValue = createStackOverflowError(callFrame); - goto vm_throw; - } - array->copyToRegisters(callFrame, callFrame->registers() + argsOffset, argCount); - } else if (asObject(arguments)->inherits(&JSArray::s_info)) { - JSObject* argObject = asObject(arguments); - argCount = argObject->get(callFrame, callFrame->propertyNames().length).toUInt32(callFrame); - argCount = min(argCount, Arguments::MaxArguments); - int32_t sizeDelta = argsOffset + argCount + RegisterFile::CallFrameHeaderSize; - Register* newEnd = callFrame->registers() + sizeDelta; - if (!registerFile->grow(newEnd) || ((newEnd - callFrame->registers()) != sizeDelta)) { - exceptionValue = createStackOverflowError(callFrame); - goto vm_throw; - } - Register* argsBuffer = callFrame->registers() + argsOffset; - for (uint32_t i = 0; i < argCount; ++i) { - argsBuffer[i] = asObject(arguments)->get(callFrame, i); - CHECK_FOR_EXCEPTION(); - } - } else { - exceptionValue = createInvalidParamError(callFrame, "Function.prototype.apply", arguments); - goto vm_throw; - } - } - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(argCountDst) = Register::withInt(argCount + 1); - vPC += OPCODE_LENGTH(op_load_varargs); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_call_varargs) { - /* call_varargs func(r) argCountReg(r) baseRegisterOffset(n) - - Perform a function call with a dynamic set of arguments. - - registerOffset is the distance the callFrame pointer should move - before the VM initializes the new call frame's header, excluding - space for arguments. - - dst is where op_ret should store its result. - */ - - int func = vPC[1].u.operand; - int argCountReg = vPC[2].u.operand; - int registerOffset = vPC[3].u.operand; - - JSValue v = callFrame->r(func).jsValue(); - int argCount = callFrame->r(argCountReg).i(); - registerOffset += argCount; - CallData callData; - CallType callType = getCallData(v, callData); - - if (callType == CallTypeJS) { - ScopeChainNode* callDataScopeChain = callData.js.scopeChain; - - JSObject* error = callData.js.functionExecutable->compileForCall(callFrame, callDataScopeChain); - if (UNLIKELY(!!error)) { - exceptionValue = error; - goto vm_throw; - } - - CallFrame* previousCallFrame = callFrame; - CodeBlock* newCodeBlock = &callData.js.functionExecutable->generatedBytecodeForCall(); - callFrame = slideRegisterWindowForCall(newCodeBlock, registerFile, callFrame, registerOffset, argCount); - if (UNLIKELY(!callFrame)) { - callFrame = previousCallFrame; - exceptionValue = createStackOverflowError(callFrame); - goto vm_throw; - } - - callFrame->init(newCodeBlock, vPC + OPCODE_LENGTH(op_call_varargs), callDataScopeChain, previousCallFrame, argCount, asFunction(v)); - codeBlock = newCodeBlock; - ASSERT(codeBlock == callFrame->codeBlock()); - vPC = newCodeBlock->instructions().begin(); - -#if ENABLE(OPCODE_STATS) - OpcodeStats::resetLastInstruction(); -#endif - - NEXT_INSTRUCTION(); - } - - if (callType == CallTypeHost) { - ScopeChainNode* scopeChain = callFrame->scopeChain(); - CallFrame* newCallFrame = CallFrame::create(callFrame->registers() + registerOffset); - if (!registerFile->grow(newCallFrame->registers())) { - exceptionValue = createStackOverflowError(callFrame); - goto vm_throw; - } - newCallFrame->init(0, vPC + OPCODE_LENGTH(op_call_varargs), scopeChain, callFrame, argCount, asObject(v)); - - JSValue returnValue; - { - SamplingTool::HostCallRecord callRecord(m_sampler.get()); - returnValue = JSValue::decode(callData.native.function(newCallFrame)); - } - CHECK_FOR_EXCEPTION(); - - functionReturnValue = returnValue; - - vPC += OPCODE_LENGTH(op_call_varargs); - NEXT_INSTRUCTION(); - } - - ASSERT(callType == CallTypeNone); - - exceptionValue = createNotAFunctionError(callFrame, v); - goto vm_throw; - } - DEFINE_OPCODE(op_tear_off_activation) { - /* tear_off_activation activation(r) arguments(r) - - Copy locals and named parameters from the register file to the heap. - Point the bindings in 'activation' and 'arguments' to this new backing - store. (Note that 'arguments' may not have been created. If created, - 'arguments' already holds a copy of any extra / unnamed parameters.) - - This opcode appears before op_ret in functions that require full scope chains. - */ - - int activation = vPC[1].u.operand; - int arguments = vPC[2].u.operand; - ASSERT(codeBlock->needsFullScopeChain()); - JSValue activationValue = callFrame->r(activation).jsValue(); - if (activationValue) { - asActivation(activationValue)->copyRegisters(*globalData); - - if (JSValue argumentsValue = callFrame->r(unmodifiedArgumentsRegister(arguments)).jsValue()) { - if (!codeBlock->isStrictMode()) - asArguments(argumentsValue)->setActivation(*globalData, asActivation(activationValue)); - } - } else if (JSValue argumentsValue = callFrame->r(unmodifiedArgumentsRegister(arguments)).jsValue()) { - if (!codeBlock->isStrictMode()) - asArguments(argumentsValue)->copyRegisters(*globalData); - } - - vPC += OPCODE_LENGTH(op_tear_off_activation); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_tear_off_arguments) { - /* tear_off_arguments arguments(r) - - Copy named parameters from the register file to the heap. Point the - bindings in 'arguments' to this new backing store. (Note that - 'arguments' may not have been created. If created, 'arguments' already - holds a copy of any extra / unnamed parameters.) - - This opcode appears before op_ret in functions that don't require full - scope chains, but do use 'arguments'. - */ - - int src1 = vPC[1].u.operand; - ASSERT(!codeBlock->needsFullScopeChain() && codeBlock->ownerExecutable()->usesArguments()); - - if (JSValue arguments = callFrame->r(unmodifiedArgumentsRegister(src1)).jsValue()) - asArguments(arguments)->copyRegisters(*globalData); - - vPC += OPCODE_LENGTH(op_tear_off_arguments); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_ret) { - /* ret result(r) - - Return register result as the return value of the current - function call, writing it into functionReturnValue. - In addition, unwind one call frame and restore the scope - chain, code block instruction pointer and register base - to those of the calling function. - */ - - int result = vPC[1].u.operand; - - JSValue returnValue = callFrame->r(result).jsValue(); - - vPC = callFrame->returnVPC(); - callFrame = callFrame->callerFrame(); - - if (callFrame->hasHostCallFrameFlag()) - return returnValue; - - functionReturnValue = returnValue; - codeBlock = callFrame->codeBlock(); - ASSERT(codeBlock == callFrame->codeBlock()); - - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_call_put_result) { - /* op_call_put_result result(r) - - Move call result from functionReturnValue to caller's - expected return value register. - */ - - callFrame->uncheckedR(vPC[1].u.operand) = functionReturnValue; - - vPC += OPCODE_LENGTH(op_call_put_result); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_ret_object_or_this) { - /* ret result(r) - - Return register result as the return value of the current - function call, writing it into the caller's expected return - value register. In addition, unwind one call frame and - restore the scope chain, code block instruction pointer and - register base to those of the calling function. - */ - - int result = vPC[1].u.operand; - - JSValue returnValue = callFrame->r(result).jsValue(); - - if (UNLIKELY(!returnValue.isObject())) - returnValue = callFrame->r(vPC[2].u.operand).jsValue(); - - vPC = callFrame->returnVPC(); - callFrame = callFrame->callerFrame(); - - if (callFrame->hasHostCallFrameFlag()) - return returnValue; - - functionReturnValue = returnValue; - codeBlock = callFrame->codeBlock(); - ASSERT(codeBlock == callFrame->codeBlock()); - - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_enter) { - /* enter - - Initializes local variables to undefined. If the code block requires - an activation, enter_with_activation is used instead. - - This opcode appears only at the beginning of a code block. - */ - - size_t i = 0; - for (size_t count = codeBlock->m_numVars; i < count; ++i) - callFrame->uncheckedR(i) = jsUndefined(); - - vPC += OPCODE_LENGTH(op_enter); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_create_activation) { - /* create_activation dst(r) - - If the activation object for this callframe has not yet been created, - this creates it and writes it back to dst. - */ - - int activationReg = vPC[1].u.operand; - if (!callFrame->r(activationReg).jsValue()) { - JSActivation* activation = new (globalData) JSActivation(callFrame, static_cast(codeBlock->ownerExecutable())); - callFrame->r(activationReg) = JSValue(activation); - callFrame->setScopeChain(callFrame->scopeChain()->push(activation)); - } - vPC += OPCODE_LENGTH(op_create_activation); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_get_callee) { - /* op_get_callee callee(r) - - Move callee into a register. - */ - - callFrame->uncheckedR(vPC[1].u.operand) = JSValue(callFrame->callee()); - - vPC += OPCODE_LENGTH(op_get_callee); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_create_this) { - /* op_create_this this(r) proto(r) - - Allocate an object as 'this', fr use in construction. - - This opcode should only be used at the beginning of a code - block. - */ - - int thisRegister = vPC[1].u.operand; - int protoRegister = vPC[2].u.operand; - - JSFunction* constructor = asFunction(callFrame->callee()); -#if !ASSERT_DISABLED - ConstructData constructData; - ASSERT(constructor->getConstructData(constructData) == ConstructTypeJS); -#endif - - Structure* structure; - JSValue proto = callFrame->r(protoRegister).jsValue(); - if (proto.isObject()) - structure = asObject(proto)->inheritorID(callFrame->globalData()); - else - structure = constructor->scope()->globalObject->emptyObjectStructure(); - callFrame->uncheckedR(thisRegister) = constructEmptyObject(callFrame, structure); - - vPC += OPCODE_LENGTH(op_create_this); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_convert_this) { - /* convert_this this(r) - - Takes the value in the 'this' register, converts it to a - value that is suitable for use as the 'this' value, and - stores it in the 'this' register. This opcode is emitted - to avoid doing the conversion in the caller unnecessarily. - - This opcode should only be used at the beginning of a code - block. - */ - - int thisRegister = vPC[1].u.operand; - JSValue thisVal = callFrame->r(thisRegister).jsValue(); - if (thisVal.needsThisConversion()) - callFrame->uncheckedR(thisRegister) = JSValue(thisVal.toThisObject(callFrame)); - - vPC += OPCODE_LENGTH(op_convert_this); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_convert_this_strict) { - /* convert_this_strict this(r) - - Takes the value in the 'this' register, and converts it to - its "this" form if (and only if) "this" is an object with a - custom this conversion - - This opcode should only be used at the beginning of a code - block. - */ - - int thisRegister = vPC[1].u.operand; - JSValue thisVal = callFrame->r(thisRegister).jsValue(); - if (thisVal.isObject() && thisVal.needsThisConversion()) - callFrame->uncheckedR(thisRegister) = JSValue(thisVal.toStrictThisObject(callFrame)); - - vPC += OPCODE_LENGTH(op_convert_this_strict); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_init_lazy_reg) { - /* init_lazy_reg dst(r) - - Initialises dst(r) to JSValue(). - - This opcode appears only at the beginning of a code block. - */ - int dst = vPC[1].u.operand; - - callFrame->uncheckedR(dst) = JSValue(); - vPC += OPCODE_LENGTH(op_init_lazy_reg); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_create_arguments) { - /* create_arguments dst(r) - - Creates the 'arguments' object and places it in both the - 'arguments' call frame slot and the local 'arguments' - register, if it has not already been initialised. - */ - - int dst = vPC[1].u.operand; - - if (!callFrame->r(dst).jsValue()) { - Arguments* arguments = new (globalData) Arguments(callFrame); - callFrame->uncheckedR(dst) = JSValue(arguments); - callFrame->uncheckedR(unmodifiedArgumentsRegister(dst)) = JSValue(arguments); - } - vPC += OPCODE_LENGTH(op_create_arguments); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_construct) { - /* construct func(r) argCount(n) registerOffset(n) proto(r) thisRegister(r) - - Invoke register "func" as a constructor. For JS - functions, the calling convention is exactly as for the - "call" opcode, except that the "this" value is a newly - created Object. For native constructors, no "this" - value is passed. In either case, the argCount and registerOffset - registers are interpreted as for the "call" opcode. - - Register proto must contain the prototype property of - register func. This is to enable polymorphic inline - caching of this lookup. - */ - - int func = vPC[1].u.operand; - int argCount = vPC[2].u.operand; - int registerOffset = vPC[3].u.operand; - - JSValue v = callFrame->r(func).jsValue(); - - ConstructData constructData; - ConstructType constructType = getConstructData(v, constructData); - - if (constructType == ConstructTypeJS) { - ScopeChainNode* callDataScopeChain = constructData.js.scopeChain; - - JSObject* error = constructData.js.functionExecutable->compileForConstruct(callFrame, callDataScopeChain); - if (UNLIKELY(!!error)) { - exceptionValue = error; - goto vm_throw; - } - - CallFrame* previousCallFrame = callFrame; - CodeBlock* newCodeBlock = &constructData.js.functionExecutable->generatedBytecodeForConstruct(); - callFrame = slideRegisterWindowForCall(newCodeBlock, registerFile, callFrame, registerOffset, argCount); - if (UNLIKELY(!callFrame)) { - callFrame = previousCallFrame; - exceptionValue = createStackOverflowError(callFrame); - goto vm_throw; - } - - callFrame->init(newCodeBlock, vPC + OPCODE_LENGTH(op_construct), callDataScopeChain, previousCallFrame, argCount, asFunction(v)); - codeBlock = newCodeBlock; - vPC = newCodeBlock->instructions().begin(); -#if ENABLE(OPCODE_STATS) - OpcodeStats::resetLastInstruction(); -#endif - - NEXT_INSTRUCTION(); - } - - if (constructType == ConstructTypeHost) { - ScopeChainNode* scopeChain = callFrame->scopeChain(); - CallFrame* newCallFrame = CallFrame::create(callFrame->registers() + registerOffset); - if (!registerFile->grow(newCallFrame->registers())) { - exceptionValue = createStackOverflowError(callFrame); - goto vm_throw; - } - newCallFrame->init(0, vPC + OPCODE_LENGTH(op_construct), scopeChain, callFrame, argCount, asObject(v)); - - JSValue returnValue; - { - SamplingTool::HostCallRecord callRecord(m_sampler.get()); - returnValue = JSValue::decode(constructData.native.function(newCallFrame)); - } - CHECK_FOR_EXCEPTION(); - functionReturnValue = returnValue; - - vPC += OPCODE_LENGTH(op_construct); - NEXT_INSTRUCTION(); - } - - ASSERT(constructType == ConstructTypeNone); - - exceptionValue = createNotAConstructorError(callFrame, v); - goto vm_throw; - } - DEFINE_OPCODE(op_strcat) { - /* strcat dst(r) src(r) count(n) - - Construct a new String instance using the original - constructor, and puts the result in register dst. - The string will be the result of concatenating count - strings with values taken from registers starting at - register src. - */ - int dst = vPC[1].u.operand; - int src = vPC[2].u.operand; - int count = vPC[3].u.operand; - - callFrame->uncheckedR(dst) = concatenateStrings(callFrame, &callFrame->registers()[src], count); - CHECK_FOR_EXCEPTION(); - vPC += OPCODE_LENGTH(op_strcat); - - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_to_primitive) { - int dst = vPC[1].u.operand; - int src = vPC[2].u.operand; - - callFrame->uncheckedR(dst) = callFrame->r(src).jsValue().toPrimitive(callFrame); - vPC += OPCODE_LENGTH(op_to_primitive); - - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_push_scope) { - /* push_scope scope(r) - - Converts register scope to object, and pushes it onto the top - of the current scope chain. The contents of the register scope - are replaced by the result of toObject conversion of the scope. - */ - int scope = vPC[1].u.operand; - JSValue v = callFrame->r(scope).jsValue(); - JSObject* o = v.toObject(callFrame); - CHECK_FOR_EXCEPTION(); - - callFrame->uncheckedR(scope) = JSValue(o); - callFrame->setScopeChain(callFrame->scopeChain()->push(o)); - - vPC += OPCODE_LENGTH(op_push_scope); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_pop_scope) { - /* pop_scope - - Removes the top item from the current scope chain. - */ - callFrame->setScopeChain(callFrame->scopeChain()->pop()); - - vPC += OPCODE_LENGTH(op_pop_scope); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_get_pnames) { - /* get_pnames dst(r) base(r) i(n) size(n) breakTarget(offset) - - Creates a property name list for register base and puts it - in register dst, initializing i and size for iteration. If - base is undefined or null, jumps to breakTarget. - */ - int dst = vPC[1].u.operand; - int base = vPC[2].u.operand; - int i = vPC[3].u.operand; - int size = vPC[4].u.operand; - int breakTarget = vPC[5].u.operand; - - JSValue v = callFrame->r(base).jsValue(); - if (v.isUndefinedOrNull()) { - vPC += breakTarget; - NEXT_INSTRUCTION(); - } - - JSObject* o = v.toObject(callFrame); - Structure* structure = o->structure(); - JSPropertyNameIterator* jsPropertyNameIterator = structure->enumerationCache(); - if (!jsPropertyNameIterator || jsPropertyNameIterator->cachedPrototypeChain() != structure->prototypeChain(callFrame)) - jsPropertyNameIterator = JSPropertyNameIterator::create(callFrame, o); - - callFrame->uncheckedR(dst) = jsPropertyNameIterator; - callFrame->uncheckedR(base) = JSValue(o); - callFrame->uncheckedR(i) = Register::withInt(0); - callFrame->uncheckedR(size) = Register::withInt(jsPropertyNameIterator->size()); - vPC += OPCODE_LENGTH(op_get_pnames); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_next_pname) { - /* next_pname dst(r) base(r) i(n) size(n) iter(r) target(offset) - - Copies the next name from the property name list in - register iter to dst, then jumps to offset target. If there are no - names left, invalidates the iterator and continues to the next - instruction. - */ - int dst = vPC[1].u.operand; - int base = vPC[2].u.operand; - int i = vPC[3].u.operand; - int size = vPC[4].u.operand; - int iter = vPC[5].u.operand; - int target = vPC[6].u.operand; - - JSPropertyNameIterator* it = callFrame->r(iter).propertyNameIterator(); - while (callFrame->r(i).i() != callFrame->r(size).i()) { - JSValue key = it->get(callFrame, asObject(callFrame->r(base).jsValue()), callFrame->r(i).i()); - CHECK_FOR_EXCEPTION(); - callFrame->uncheckedR(i) = Register::withInt(callFrame->r(i).i() + 1); - if (key) { - CHECK_FOR_TIMEOUT(); - callFrame->uncheckedR(dst) = key; - vPC += target; - NEXT_INSTRUCTION(); - } - } - - vPC += OPCODE_LENGTH(op_next_pname); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_jmp_scopes) { - /* jmp_scopes count(n) target(offset) - - Removes the a number of items from the current scope chain - specified by immediate number count, then jumps to offset - target. - */ - int count = vPC[1].u.operand; - int target = vPC[2].u.operand; - - ScopeChainNode* tmp = callFrame->scopeChain(); - while (count--) - tmp = tmp->pop(); - callFrame->setScopeChain(tmp); - - vPC += target; - NEXT_INSTRUCTION(); - } -#if ENABLE(COMPUTED_GOTO_INTERPRETER) - // Appease GCC - goto *(&&skip_new_scope); -#endif - DEFINE_OPCODE(op_push_new_scope) { - /* new_scope dst(r) property(id) value(r) - - Constructs a new StaticScopeObject with property set to value. That scope - object is then pushed onto the ScopeChain. The scope object is then stored - in dst for GC. - */ - callFrame->setScopeChain(createExceptionScope(callFrame, vPC)); - - vPC += OPCODE_LENGTH(op_push_new_scope); - NEXT_INSTRUCTION(); - } -#if ENABLE(COMPUTED_GOTO_INTERPRETER) - skip_new_scope: -#endif - DEFINE_OPCODE(op_catch) { - /* catch ex(r) - - Retrieves the VM's current exception and puts it in register - ex. This is only valid after an exception has been raised, - and usually forms the beginning of an exception handler. - */ - ASSERT(exceptionValue); - ASSERT(!globalData->exception); - int ex = vPC[1].u.operand; - callFrame->uncheckedR(ex) = exceptionValue; - exceptionValue = JSValue(); - - vPC += OPCODE_LENGTH(op_catch); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_throw) { - /* throw ex(r) - - Throws register ex as an exception. This involves three - steps: first, it is set as the current exception in the - VM's internal state, then the stack is unwound until an - exception handler or a native code boundary is found, and - then control resumes at the exception handler if any or - else the script returns control to the nearest native caller. - */ - - int ex = vPC[1].u.operand; - exceptionValue = callFrame->r(ex).jsValue(); - - handler = throwException(callFrame, exceptionValue, vPC - codeBlock->instructions().begin()); - if (!handler) - return throwError(callFrame, exceptionValue); - - codeBlock = callFrame->codeBlock(); - vPC = codeBlock->instructions().begin() + handler->target; - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_throw_reference_error) { - /* op_throw_reference_error message(k) - - Constructs a new reference Error instance using the - original constructor, using constant message as the - message string. The result is thrown. - */ - UString message = callFrame->r(vPC[1].u.operand).jsValue().toString(callFrame); - exceptionValue = JSValue(createReferenceError(callFrame, message)); - goto vm_throw; - } - DEFINE_OPCODE(op_end) { - /* end result(r) - - Return register result as the value of a global or eval - program. Return control to the calling native code. - */ - - int result = vPC[1].u.operand; - return callFrame->r(result).jsValue(); - } - DEFINE_OPCODE(op_put_getter) { - /* put_getter base(r) property(id) function(r) - - Sets register function on register base as the getter named - by identifier property. Base and function are assumed to be - objects as this op should only be used for getters defined - in object literal form. - - Unlike many opcodes, this one does not write any output to - the register file. - */ - int base = vPC[1].u.operand; - int property = vPC[2].u.operand; - int function = vPC[3].u.operand; - - ASSERT(callFrame->r(base).jsValue().isObject()); - JSObject* baseObj = asObject(callFrame->r(base).jsValue()); - Identifier& ident = codeBlock->identifier(property); - ASSERT(callFrame->r(function).jsValue().isObject()); - baseObj->defineGetter(callFrame, ident, asObject(callFrame->r(function).jsValue())); - - vPC += OPCODE_LENGTH(op_put_getter); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_put_setter) { - /* put_setter base(r) property(id) function(r) - - Sets register function on register base as the setter named - by identifier property. Base and function are assumed to be - objects as this op should only be used for setters defined - in object literal form. - - Unlike many opcodes, this one does not write any output to - the register file. - */ - int base = vPC[1].u.operand; - int property = vPC[2].u.operand; - int function = vPC[3].u.operand; - - ASSERT(callFrame->r(base).jsValue().isObject()); - JSObject* baseObj = asObject(callFrame->r(base).jsValue()); - Identifier& ident = codeBlock->identifier(property); - ASSERT(callFrame->r(function).jsValue().isObject()); - baseObj->defineSetter(callFrame, ident, asObject(callFrame->r(function).jsValue()), 0); - - vPC += OPCODE_LENGTH(op_put_setter); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_method_check) { - vPC++; - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_jsr) { - /* jsr retAddrDst(r) target(offset) - - Places the address of the next instruction into the retAddrDst - register and jumps to offset target from the current instruction. - */ - int retAddrDst = vPC[1].u.operand; - int target = vPC[2].u.operand; - callFrame->r(retAddrDst) = vPC + OPCODE_LENGTH(op_jsr); - - vPC += target; - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_sret) { - /* sret retAddrSrc(r) - - Jumps to the address stored in the retAddrSrc register. This - differs from op_jmp because the target address is stored in a - register, not as an immediate. - */ - int retAddrSrc = vPC[1].u.operand; - vPC = callFrame->r(retAddrSrc).vPC(); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_debug) { - /* debug debugHookID(n) firstLine(n) lastLine(n) - - Notifies the debugger of the current state of execution. This opcode - is only generated while the debugger is attached. - */ - int debugHookID = vPC[1].u.operand; - int firstLine = vPC[2].u.operand; - int lastLine = vPC[3].u.operand; - - debug(callFrame, static_cast(debugHookID), firstLine, lastLine); - - vPC += OPCODE_LENGTH(op_debug); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_profile_will_call) { - /* op_profile_will_call function(r) - - Notifies the profiler of the beginning of a function call. This opcode - is only generated if developer tools are enabled. - */ - int function = vPC[1].u.operand; - - if (*enabledProfilerReference) - (*enabledProfilerReference)->willExecute(callFrame, callFrame->r(function).jsValue()); - - vPC += OPCODE_LENGTH(op_profile_will_call); - NEXT_INSTRUCTION(); - } - DEFINE_OPCODE(op_profile_did_call) { - /* op_profile_did_call function(r) - - Notifies the profiler of the end of a function call. This opcode - is only generated if developer tools are enabled. - */ - int function = vPC[1].u.operand; - - if (*enabledProfilerReference) - (*enabledProfilerReference)->didExecute(callFrame, callFrame->r(function).jsValue()); - - vPC += OPCODE_LENGTH(op_profile_did_call); - NEXT_INSTRUCTION(); - } - vm_throw: { - globalData->exception = JSValue(); - if (!tickCount) { - // The exceptionValue is a lie! (GCC produces bad code for reasons I - // cannot fathom if we don't assign to the exceptionValue before branching) - exceptionValue = createInterruptedExecutionException(globalData); - } - JSGlobalObject* globalObject = callFrame->lexicalGlobalObject(); - handler = throwException(callFrame, exceptionValue, vPC - codeBlock->instructions().begin()); - if (!handler) { - // Can't use the callframe at this point as the scopechain, etc have - // been released. - return throwError(globalObject->globalExec(), exceptionValue); - } - - codeBlock = callFrame->codeBlock(); - vPC = codeBlock->instructions().begin() + handler->target; - NEXT_INSTRUCTION(); - } - } -#if !ENABLE(COMPUTED_GOTO_INTERPRETER) - } // iterator loop ends -#endif - #undef NEXT_INSTRUCTION - #undef DEFINE_OPCODE - #undef CHECK_FOR_EXCEPTION - #undef CHECK_FOR_TIMEOUT -#endif // ENABLE(INTERPRETER) -} - -JSValue Interpreter::retrieveArguments(CallFrame* callFrame, JSFunction* function) const -{ - CallFrame* functionCallFrame = findFunctionCallFrame(callFrame, function); - if (!functionCallFrame) - return jsNull(); - - CodeBlock* codeBlock = functionCallFrame->codeBlock(); - if (codeBlock->usesArguments()) { - ASSERT(codeBlock->codeType() == FunctionCode); - int argumentsRegister = codeBlock->argumentsRegister(); - int realArgumentsRegister = unmodifiedArgumentsRegister(argumentsRegister); - if (JSValue arguments = functionCallFrame->uncheckedR(argumentsRegister).jsValue()) - return arguments; - JSValue arguments = JSValue(new (callFrame) Arguments(functionCallFrame)); - functionCallFrame->r(argumentsRegister) = arguments; - functionCallFrame->r(realArgumentsRegister) = arguments; - return arguments; - } - - Arguments* arguments = new (functionCallFrame) Arguments(functionCallFrame); - arguments->copyRegisters(functionCallFrame->globalData()); - return arguments; -} - -JSValue Interpreter::retrieveCaller(CallFrame* callFrame, JSFunction* function) const -{ - CallFrame* functionCallFrame = findFunctionCallFrame(callFrame, function); - if (!functionCallFrame) - return jsNull(); - - CallFrame* callerFrame = functionCallFrame->callerFrame(); - if (callerFrame->hasHostCallFrameFlag()) - return jsNull(); - - JSValue caller = callerFrame->callee(); - if (!caller) - return jsNull(); - - return caller; -} - -void Interpreter::retrieveLastCaller(CallFrame* callFrame, int& lineNumber, intptr_t& sourceID, UString& sourceURL, JSValue& function) const -{ - function = JSValue(); - lineNumber = -1; - sourceURL = UString(); - - CallFrame* callerFrame = callFrame->callerFrame(); - if (callerFrame->hasHostCallFrameFlag()) - return; - - CodeBlock* callerCodeBlock = callerFrame->codeBlock(); - if (!callerCodeBlock) + CodeBlock* callerCodeBlock = callerFrame->codeBlock(); + if (!callerCodeBlock) return; unsigned bytecodeOffset = 0; -#if ENABLE(INTERPRETER) - if (!callerFrame->globalData().canUseJIT()) - bytecodeOffset = callerCodeBlock->bytecodeOffset(callFrame->returnVPC()); -#if ENABLE(JIT) - else - bytecodeOffset = callerCodeBlock->bytecodeOffset(callFrame->returnPC()); -#endif -#else - bytecodeOffset = callerCodeBlock->bytecodeOffset(callFrame->returnPC()); -#endif + bytecodeOffset = callerCodeBlock->bytecodeOffset(callerFrame, callFrame->returnPC()); lineNumber = callerCodeBlock->lineNumberForBytecodeOffset(bytecodeOffset - 1); sourceID = callerCodeBlock->ownerExecutable()->sourceID(); sourceURL = callerCodeBlock->ownerExecutable()->sourceURL(); function = callerFrame->callee(); } -CallFrame* Interpreter::findFunctionCallFrame(CallFrame* callFrame, JSFunction* function) +CallFrame* Interpreter::findFunctionCallFrameFromVMCode(CallFrame* callFrame, JSFunction* function) { - for (CallFrame* candidate = callFrame; candidate; candidate = candidate->callerFrame()->removeHostCallFrameFlag()) { + for (CallFrame* candidate = callFrame->trueCallFrameFromVMCode(); candidate; candidate = candidate->trueCallerFrame()) { if (candidate->callee() == function) return candidate; } @@ -5004,7 +1451,7 @@ void Interpreter::enableSampler() { #if ENABLE(OPCODE_SAMPLING) if (!m_sampler) { - m_sampler.set(new SamplingTool(this)); + m_sampler = adoptPtr(new SamplingTool(this)); m_sampler->setup(); } #endif