/**************************************************************************** ** ** Copyright (C) 2013 Digia Plc and/or its subsidiary(-ies). ** Contact: http://www.qt-project.org/legal ** ** This file is part of the QtQml module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and Digia. For licensing terms and ** conditions see http://qt.digia.com/licensing. For further information ** use the contact form at http://qt.digia.com/contact-us. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Digia gives you certain additional ** rights. These rights are described in the Digia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3.0 as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU General Public License version 3.0 requirements will be ** met: http://www.gnu.org/copyleft/gpl.html. ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include #include #include #include #include #include #include #include #include #include #include #include "qv4function_p.h" #include #include #include #include #include #include #include "qv4mm_p.h" #include #include #include #include #include #include "qv4debugging_p.h" #include "qv4executableallocator_p.h" #include "qv4sequenceobject_p.h" #include "qv4qobjectwrapper_p.h" #include "qv4qmlextensions_p.h" #ifdef V4_ENABLE_JIT #include "qv4isel_masm_p.h" #endif // V4_ENABLE_JIT #include "qv4isel_moth_p.h" #if USE(PTHREADS) # include # include #endif QT_BEGIN_NAMESPACE using namespace QV4; static QBasicAtomicInt engineSerial = Q_BASIC_ATOMIC_INITIALIZER(1); static ReturnedValue throwTypeError(CallContext *ctx) { return ctx->throwTypeError(); } quintptr getStackLimit() { quintptr stackLimit; #if USE(PTHREADS) && !OS(QNX) # if OS(DARWIN) pthread_t thread_self = pthread_self(); void *stackTop = pthread_get_stackaddr_np(thread_self); stackLimit = reinterpret_cast(stackTop); quintptr size = 0; if (pthread_main_np()) { rlimit limit; getrlimit(RLIMIT_STACK, &limit); size = limit.rlim_cur; } else size = pthread_get_stacksize_np(thread_self); stackLimit -= size; # else void* stackBottom = 0; pthread_attr_t attr; pthread_getattr_np(pthread_self(), &attr); size_t stackSize = 0; pthread_attr_getstack(&attr, &stackBottom, &stackSize); pthread_attr_destroy(&attr); # if defined(Q_OS_ANDROID) // Bionic pretends that the main thread has a tiny stack; work around it if (gettid() == getpid()) { rlimit limit; getrlimit(RLIMIT_STACK, &limit); stackBottom = reinterpret_cast(reinterpret_cast(stackBottom) + stackSize - limit.rlim_cur); } # endif stackLimit = reinterpret_cast(stackBottom); # endif // This is wrong. StackLimit is the currently committed stack size, not the real end. // only way to get that limit is apparently by using VirtualQuery (Yuck) //#elif OS(WINDOWS) // PNT_TIB tib = (PNT_TIB)NtCurrentTeb(); // stackLimit = static_cast(tib->StackLimit); #else int dummy; // this is inexact, as part of the stack is used when being called here, // but let's simply default to 1MB from where the stack is right now stackLimit = reinterpret_cast(&dummy) - 1024*1024; #endif // 256k slack return stackLimit + 256*1024; } ExecutionEngine::ExecutionEngine(QQmlJS::EvalISelFactory *factory) : memoryManager(new QV4::MemoryManager) , executableAllocator(new QV4::ExecutableAllocator) , regExpAllocator(new QV4::ExecutableAllocator) , current(0) , bumperPointerAllocator(new WTF::BumpPointerAllocator) , jsStack(new WTF::PageAllocation) , debugger(0) , globalObject(0) , globalCode(0) , v8Engine(0) , m_engineId(engineSerial.fetchAndAddOrdered(1)) , regExpCache(0) , m_multiplyWrappedQObjects(0) , m_qmlExtensions(0) { MemoryManager::GCBlocker gcBlocker(memoryManager); exceptionValue = Encode::undefined(); hasException = false; if (!factory) { #ifdef V4_ENABLE_JIT static const bool forceMoth = !qgetenv("QV4_FORCE_INTERPRETER").isEmpty(); if (forceMoth) factory = new QQmlJS::Moth::ISelFactory; else factory = new QQmlJS::MASM::ISelFactory; #else // !V4_ENABLE_JIT factory = new QQmlJS::Moth::ISelFactory; #endif // V4_ENABLE_JIT } iselFactory.reset(factory); memoryManager->setExecutionEngine(this); // reserve space for the JS stack // we allow it to grow to 2 times JSStackLimit, as we can overshoot due to garbage collection // and ScopedValues allocated outside of JIT'ed methods. *jsStack = WTF::PageAllocation::allocate(2*JSStackLimit, WTF::OSAllocator::JSVMStackPages, true); jsStackBase = (SafeValue *)jsStack->base(); jsStackTop = jsStackBase; // set up stack limits jsStackLimit = jsStackBase + JSStackLimit/sizeof(SafeValue); cStackLimit = getStackLimit(); Scope scope(this); identifierTable = new IdentifierTable(this); emptyClass = new (classPool.allocate(sizeof(InternalClass))) InternalClass(this); executionContextClass = emptyClass->changeVTable(&ExecutionContext::static_vtbl); stringClass = emptyClass->changeVTable(&String::static_vtbl); regExpValueClass = emptyClass->changeVTable(&RegExp::static_vtbl); id_undefined = newIdentifier(QStringLiteral("undefined")); id_null = newIdentifier(QStringLiteral("null")); id_true = newIdentifier(QStringLiteral("true")); id_false = newIdentifier(QStringLiteral("false")); id_boolean = newIdentifier(QStringLiteral("boolean")); id_number = newIdentifier(QStringLiteral("number")); id_string = newIdentifier(QStringLiteral("string")); id_object = newIdentifier(QStringLiteral("object")); id_function = newIdentifier(QStringLiteral("function")); id_length = newIdentifier(QStringLiteral("length")); id_prototype = newIdentifier(QStringLiteral("prototype")); id_constructor = newIdentifier(QStringLiteral("constructor")); id_arguments = newIdentifier(QStringLiteral("arguments")); id_caller = newIdentifier(QStringLiteral("caller")); id_callee = newIdentifier(QStringLiteral("callee")); id_this = newIdentifier(QStringLiteral("this")); id___proto__ = newIdentifier(QStringLiteral("__proto__")); id_enumerable = newIdentifier(QStringLiteral("enumerable")); id_configurable = newIdentifier(QStringLiteral("configurable")); id_writable = newIdentifier(QStringLiteral("writable")); id_value = newIdentifier(QStringLiteral("value")); id_get = newIdentifier(QStringLiteral("get")); id_set = newIdentifier(QStringLiteral("set")); id_eval = newIdentifier(QStringLiteral("eval")); id_uintMax = newIdentifier(QStringLiteral("4294967295")); id_name = newIdentifier(QStringLiteral("name")); id_index = newIdentifier(QStringLiteral("index")); id_input = newIdentifier(QStringLiteral("input")); id_toString = newIdentifier(QStringLiteral("toString")); id_valueOf = newIdentifier(QStringLiteral("valueOf")); ObjectPrototype *objectPrototype = new (memoryManager) ObjectPrototype(emptyClass->changeVTable(&ObjectPrototype::static_vtbl)); objectClass = InternalClass::create(this, &Object::static_vtbl, objectPrototype); Q_ASSERT(objectClass->vtable == &Object::static_vtbl); arrayClass = InternalClass::create(this, &ArrayObject::static_vtbl, objectPrototype); arrayClass = arrayClass->addMember(id_length, Attr_NotConfigurable|Attr_NotEnumerable); ArrayPrototype *arrayPrototype = new (memoryManager) ArrayPrototype(arrayClass); arrayClass = arrayClass->changePrototype(arrayPrototype); InternalClass *argsClass = InternalClass::create(this, &ArgumentsObject::static_vtbl, objectPrototype); argsClass = argsClass->addMember(id_length, Attr_NotEnumerable); argumentsObjectClass = argsClass->addMember(id_callee, Attr_Data|Attr_NotEnumerable); strictArgumentsObjectClass = argsClass->addMember(id_callee, Attr_Accessor|Attr_NotConfigurable|Attr_NotEnumerable); strictArgumentsObjectClass = strictArgumentsObjectClass->addMember(id_caller, Attr_Accessor|Attr_NotConfigurable|Attr_NotEnumerable); Q_ASSERT(argumentsObjectClass->vtable == &ArgumentsObject::static_vtbl); Q_ASSERT(strictArgumentsObjectClass->vtable == &ArgumentsObject::static_vtbl); initRootContext(); StringPrototype *stringPrototype = new (memoryManager) StringPrototype(objectClass); stringObjectClass = InternalClass::create(this, &String::static_vtbl, stringPrototype); NumberPrototype *numberPrototype = new (memoryManager) NumberPrototype(objectClass); numberClass = InternalClass::create(this, &NumberObject::static_vtbl, numberPrototype); BooleanPrototype *booleanPrototype = new (memoryManager) BooleanPrototype(objectClass); booleanClass = InternalClass::create(this, &BooleanObject::static_vtbl, booleanPrototype); DatePrototype *datePrototype = new (memoryManager) DatePrototype(objectClass); dateClass = InternalClass::create(this, &DateObject::static_vtbl, datePrototype); FunctionPrototype *functionPrototype = new (memoryManager) FunctionPrototype(InternalClass::create(this, &FunctionPrototype::static_vtbl, objectPrototype)); functionClass = InternalClass::create(this, &FunctionObject::static_vtbl, functionPrototype); uint index; functionWithProtoClass = functionClass->addMember(id_prototype, Attr_NotEnumerable|Attr_NotConfigurable, &index); Q_ASSERT(index == FunctionObject::Index_Prototype); protoClass = objectClass->addMember(id_constructor, Attr_NotEnumerable, &index); Q_ASSERT(index == FunctionObject::Index_ProtoConstructor); RegExpPrototype *regExpPrototype = new (memoryManager) RegExpPrototype(objectClass); regExpClass = InternalClass::create(this, &RegExpObject::static_vtbl, regExpPrototype); regExpExecArrayClass = arrayClass->addMember(id_index, Attr_Data, &index); Q_ASSERT(index == RegExpObject::Index_ArrayIndex); regExpExecArrayClass = regExpExecArrayClass->addMember(id_input, Attr_Data, &index); Q_ASSERT(index == RegExpObject::Index_ArrayInput); ErrorPrototype *errorPrototype = new (memoryManager) ErrorPrototype(objectClass); errorClass = InternalClass::create(this, &ErrorObject::static_vtbl, errorPrototype); EvalErrorPrototype *evalErrorPrototype = new (memoryManager) EvalErrorPrototype(errorClass); evalErrorClass = InternalClass::create(this, &EvalErrorObject::static_vtbl, evalErrorPrototype); RangeErrorPrototype *rangeErrorPrototype = new (memoryManager) RangeErrorPrototype(errorClass); rangeErrorClass = InternalClass::create(this, &RangeErrorObject::static_vtbl, rangeErrorPrototype); ReferenceErrorPrototype *referenceErrorPrototype = new (memoryManager) ReferenceErrorPrototype(errorClass); referenceErrorClass = InternalClass::create(this, &ReferenceErrorObject::static_vtbl, referenceErrorPrototype); SyntaxErrorPrototype *syntaxErrorPrototype = new (memoryManager) SyntaxErrorPrototype(errorClass); syntaxErrorClass = InternalClass::create(this, &SyntaxErrorObject::static_vtbl, syntaxErrorPrototype); TypeErrorPrototype *typeErrorPrototype = new (memoryManager) TypeErrorPrototype(errorClass); typeErrorClass = InternalClass::create(this, &TypeErrorObject::static_vtbl, typeErrorPrototype); URIErrorPrototype *uRIErrorPrototype = new (memoryManager) URIErrorPrototype(errorClass); uriErrorClass = InternalClass::create(this, &URIErrorObject::static_vtbl, uRIErrorPrototype); VariantPrototype *variantPrototype = new (memoryManager) VariantPrototype(InternalClass::create(this, &VariantPrototype::static_vtbl, objectPrototype)); variantClass = InternalClass::create(this, &VariantObject::static_vtbl, variantPrototype); Q_ASSERT(variantClass->prototype == variantPrototype); Q_ASSERT(variantPrototype->internalClass->prototype == objectPrototype); sequencePrototype = new (memoryManager) SequencePrototype(arrayClass); objectCtor = new (memoryManager) ObjectCtor(rootContext); stringCtor = new (memoryManager) StringCtor(rootContext); numberCtor = new (memoryManager) NumberCtor(rootContext); booleanCtor = new (memoryManager) BooleanCtor(rootContext); arrayCtor = new (memoryManager) ArrayCtor(rootContext); functionCtor = new (memoryManager) FunctionCtor(rootContext); dateCtor = new (memoryManager) DateCtor(rootContext); regExpCtor = new (memoryManager) RegExpCtor(rootContext); errorCtor = new (memoryManager) ErrorCtor(rootContext); evalErrorCtor = new (memoryManager) EvalErrorCtor(rootContext); rangeErrorCtor = new (memoryManager) RangeErrorCtor(rootContext); referenceErrorCtor = new (memoryManager) ReferenceErrorCtor(rootContext); syntaxErrorCtor = new (memoryManager) SyntaxErrorCtor(rootContext); typeErrorCtor = new (memoryManager) TypeErrorCtor(rootContext); uRIErrorCtor = new (memoryManager) URIErrorCtor(rootContext); objectPrototype->init(this, objectCtor); stringPrototype->init(this, stringCtor); numberPrototype->init(this, numberCtor); booleanPrototype->init(this, booleanCtor); arrayPrototype->init(this, arrayCtor); datePrototype->init(this, dateCtor); functionPrototype->init(this, functionCtor); regExpPrototype->init(this, regExpCtor); errorPrototype->init(this, errorCtor); evalErrorPrototype->init(this, evalErrorCtor); rangeErrorPrototype->init(this, rangeErrorCtor); referenceErrorPrototype->init(this, referenceErrorCtor); syntaxErrorPrototype->init(this, syntaxErrorCtor); typeErrorPrototype->init(this, typeErrorCtor); uRIErrorPrototype->init(this, uRIErrorCtor); variantPrototype->init(); static_cast(sequencePrototype.managed())->init(); // // set up the global object // globalObject = newObject()->getPointer(); rootContext->global = globalObject; rootContext->callData->thisObject = globalObject; Q_ASSERT(globalObject->internalClass->vtable); globalObject->defineDefaultProperty(QStringLiteral("Object"), objectCtor); globalObject->defineDefaultProperty(QStringLiteral("String"), stringCtor); globalObject->defineDefaultProperty(QStringLiteral("Number"), numberCtor); globalObject->defineDefaultProperty(QStringLiteral("Boolean"), booleanCtor); globalObject->defineDefaultProperty(QStringLiteral("Array"), arrayCtor); globalObject->defineDefaultProperty(QStringLiteral("Function"), functionCtor); globalObject->defineDefaultProperty(QStringLiteral("Date"), dateCtor); globalObject->defineDefaultProperty(QStringLiteral("RegExp"), regExpCtor); globalObject->defineDefaultProperty(QStringLiteral("Error"), errorCtor); globalObject->defineDefaultProperty(QStringLiteral("EvalError"), evalErrorCtor); globalObject->defineDefaultProperty(QStringLiteral("RangeError"), rangeErrorCtor); globalObject->defineDefaultProperty(QStringLiteral("ReferenceError"), referenceErrorCtor); globalObject->defineDefaultProperty(QStringLiteral("SyntaxError"), syntaxErrorCtor); globalObject->defineDefaultProperty(QStringLiteral("TypeError"), typeErrorCtor); globalObject->defineDefaultProperty(QStringLiteral("URIError"), uRIErrorCtor); ScopedObject o(scope); globalObject->defineDefaultProperty(QStringLiteral("Math"), (o = new (memoryManager) MathObject(this))); globalObject->defineDefaultProperty(QStringLiteral("JSON"), (o = new (memoryManager) JsonObject(this))); globalObject->defineReadonlyProperty(QStringLiteral("undefined"), Primitive::undefinedValue()); globalObject->defineReadonlyProperty(QStringLiteral("NaN"), Primitive::fromDouble(std::numeric_limits::quiet_NaN())); globalObject->defineReadonlyProperty(QStringLiteral("Infinity"), Primitive::fromDouble(Q_INFINITY)); evalFunction = new (memoryManager) EvalFunction(rootContext); globalObject->defineDefaultProperty(QStringLiteral("eval"), (o = evalFunction)); globalObject->defineDefaultProperty(QStringLiteral("parseInt"), GlobalFunctions::method_parseInt, 2); globalObject->defineDefaultProperty(QStringLiteral("parseFloat"), GlobalFunctions::method_parseFloat, 1); globalObject->defineDefaultProperty(QStringLiteral("isNaN"), GlobalFunctions::method_isNaN, 1); globalObject->defineDefaultProperty(QStringLiteral("isFinite"), GlobalFunctions::method_isFinite, 1); globalObject->defineDefaultProperty(QStringLiteral("decodeURI"), GlobalFunctions::method_decodeURI, 1); globalObject->defineDefaultProperty(QStringLiteral("decodeURIComponent"), GlobalFunctions::method_decodeURIComponent, 1); globalObject->defineDefaultProperty(QStringLiteral("encodeURI"), GlobalFunctions::method_encodeURI, 1); globalObject->defineDefaultProperty(QStringLiteral("encodeURIComponent"), GlobalFunctions::method_encodeURIComponent, 1); globalObject->defineDefaultProperty(QStringLiteral("escape"), GlobalFunctions::method_escape, 1); globalObject->defineDefaultProperty(QStringLiteral("unescape"), GlobalFunctions::method_unescape, 1); Scoped name(scope, newString(QStringLiteral("thrower"))); thrower = newBuiltinFunction(rootContext, name, throwTypeError)->getPointer(); } ExecutionEngine::~ExecutionEngine() { delete debugger; delete m_multiplyWrappedQObjects; m_multiplyWrappedQObjects = 0; delete identifierTable; delete memoryManager; QSet remainingUnits; qSwap(compilationUnits, remainingUnits); foreach (QV4::CompiledData::CompilationUnit *unit, remainingUnits) unit->unlink(); delete m_qmlExtensions; emptyClass->destroy(); delete bumperPointerAllocator; delete regExpCache; delete regExpAllocator; delete executableAllocator; jsStack->deallocate(); delete jsStack; } void ExecutionEngine::enableDebugger() { Q_ASSERT(!debugger); debugger = new Debugging::Debugger(this); iselFactory.reset(new QQmlJS::Moth::ISelFactory); } void ExecutionEngine::initRootContext() { rootContext = static_cast(memoryManager->allocManaged(sizeof(GlobalContext) + sizeof(CallData))); new (rootContext) GlobalContext(this); rootContext->callData = reinterpret_cast(rootContext + 1); rootContext->callData->tag = QV4::Value::_Integer_Type; rootContext->callData->argc = 0; rootContext->callData->thisObject = globalObject; rootContext->callData->args[0] = Encode::undefined(); } InternalClass *ExecutionEngine::newClass(const InternalClass &other) { return new (classPool.allocate(sizeof(InternalClass))) InternalClass(other); } ExecutionContext *ExecutionEngine::pushGlobalContext() { GlobalContext *g = new (memoryManager) GlobalContext(this); g->callData = rootContext->callData; Q_ASSERT(currentContext() == g); return g; } Returned *ExecutionEngine::newBuiltinFunction(ExecutionContext *scope, const StringRef name, ReturnedValue (*code)(CallContext *)) { BuiltinFunction *f = new (memoryManager) BuiltinFunction(scope, name, code); return f->asReturned(); } Returned *ExecutionEngine::newBoundFunction(ExecutionContext *scope, FunctionObjectRef target, const ValueRef boundThis, const QVector &boundArgs) { Q_ASSERT(target); BoundFunction *f = new (memoryManager) BoundFunction(scope, target, boundThis, boundArgs); return f->asReturned(); } Returned *ExecutionEngine::newObject() { Object *object = new (memoryManager) Object(this); return object->asReturned(); } Returned *ExecutionEngine::newObject(InternalClass *internalClass) { Object *object = new (memoryManager) Object(internalClass); return object->asReturned(); } Returned *ExecutionEngine::newString(const QString &s) { return (new (memoryManager) String(this, s))->asReturned(); } String *ExecutionEngine::newIdentifier(const QString &text) { return identifierTable->insertString(text); } Returned *ExecutionEngine::newStringObject(const ValueRef value) { StringObject *object = new (memoryManager) StringObject(this, value); return object->asReturned(); } Returned *ExecutionEngine::newNumberObject(const ValueRef value) { NumberObject *object = new (memoryManager) NumberObject(this, value); return object->asReturned(); } Returned *ExecutionEngine::newBooleanObject(const ValueRef value) { Object *object = new (memoryManager) BooleanObject(this, value); return object->asReturned(); } Returned *ExecutionEngine::newArrayObject(int count) { ArrayObject *object = new (memoryManager) ArrayObject(this); if (count) { if (count < 0x1000) object->arrayReserve(count); object->setArrayLengthUnchecked(count); } return object->asReturned(); } Returned *ExecutionEngine::newArrayObject(const QStringList &list) { ArrayObject *object = new (memoryManager) ArrayObject(this, list); return object->asReturned(); } Returned *ExecutionEngine::newArrayObject(InternalClass *ic) { ArrayObject *object = new (memoryManager) ArrayObject(ic); return object->asReturned(); } Returned *ExecutionEngine::newDateObject(const ValueRef value) { DateObject *object = new (memoryManager) DateObject(this, value); return object->asReturned(); } Returned *ExecutionEngine::newDateObject(const QDateTime &dt) { DateObject *object = new (memoryManager) DateObject(this, dt); return object->asReturned(); } Returned *ExecutionEngine::newRegExpObject(const QString &pattern, int flags) { bool global = (flags & QQmlJS::V4IR::RegExp::RegExp_Global); bool ignoreCase = false; bool multiline = false; if (flags & QQmlJS::V4IR::RegExp::RegExp_IgnoreCase) ignoreCase = true; if (flags & QQmlJS::V4IR::RegExp::RegExp_Multiline) multiline = true; Scope scope(this); Scoped re(scope, RegExp::create(this, pattern, ignoreCase, multiline)); return newRegExpObject(re, global); } Returned *ExecutionEngine::newRegExpObject(Referenced re, bool global) { RegExpObject *object = new (memoryManager) RegExpObject(this, re, global); return object->asReturned(); } Returned *ExecutionEngine::newRegExpObject(const QRegExp &re) { RegExpObject *object = new (memoryManager) RegExpObject(this, re); return object->asReturned(); } Returned *ExecutionEngine::newErrorObject(const ValueRef value) { ErrorObject *object = new (memoryManager) ErrorObject(errorClass, value); return object->asReturned(); } Returned *ExecutionEngine::newSyntaxErrorObject(const QString &message) { Scope scope(this); ScopedString s(scope, newString(message)); Object *error = new (memoryManager) SyntaxErrorObject(this, s); return error->asReturned(); } Returned *ExecutionEngine::newSyntaxErrorObject(const QString &message, const QString &fileName, int line, int column) { Object *error = new (memoryManager) SyntaxErrorObject(this, message, fileName, line, column); return error->asReturned(); } Returned *ExecutionEngine::newReferenceErrorObject(const QString &message) { Object *o = new (memoryManager) ReferenceErrorObject(this, message); return o->asReturned(); } Returned *ExecutionEngine::newReferenceErrorObject(const QString &message, const QString &fileName, int lineNumber, int columnNumber) { Object *o = new (memoryManager) ReferenceErrorObject(this, message, fileName, lineNumber, columnNumber); return o->asReturned(); } Returned *ExecutionEngine::newTypeErrorObject(const QString &message) { Object *o = new (memoryManager) TypeErrorObject(this, message); return o->asReturned(); } Returned *ExecutionEngine::newRangeErrorObject(const QString &message) { Object *o = new (memoryManager) RangeErrorObject(this, message); return o->asReturned(); } Returned *ExecutionEngine::newURIErrorObject(const ValueRef message) { Object *o = new (memoryManager) URIErrorObject(this, message); return o->asReturned(); } Returned *ExecutionEngine::newVariantObject(const QVariant &v) { Object *o = new (memoryManager) VariantObject(this, v); return o->asReturned(); } Returned *ExecutionEngine::newForEachIteratorObject(ExecutionContext *ctx, const ObjectRef o) { Object *obj = new (memoryManager) ForEachIteratorObject(ctx, o); return obj->asReturned(); } Returned *ExecutionEngine::qmlContextObject() const { ExecutionContext *ctx = currentContext(); if (ctx->type == QV4::ExecutionContext::Type_SimpleCallContext && !ctx->outer) ctx = ctx->parent; if (!ctx->outer) return 0; while (ctx->outer && ctx->outer->type != ExecutionContext::Type_GlobalContext) ctx = ctx->outer; Q_ASSERT(ctx); if (ctx->type != ExecutionContext::Type_QmlContext) return 0; return static_cast(ctx)->activation->asReturned(); } namespace { struct LineNumberResolver { const ExecutionEngine* engine; LineNumberResolver(const ExecutionEngine *engine) : engine(engine) { } void resolve(StackFrame *frame, ExecutionContext *context, Function *function) { qptrdiff offset; if (context->interpreterInstructionPointer) { offset = *context->interpreterInstructionPointer - 1 - function->codeData; frame->line = function->lineNumberForProgramCounter(offset); } else { frame->line = context->lineNumber; } } }; } QVector ExecutionEngine::stackTrace(int frameLimit) const { LineNumberResolver lineNumbers(this); QVector stack; QV4::ExecutionContext *c = currentContext(); while (c && frameLimit) { CallContext *callCtx = c->asCallContext(); if (callCtx && callCtx->function) { StackFrame frame; if (callCtx->function->function) frame.source = callCtx->function->function->sourceFile(); frame.function = callCtx->function->name->toQString(); frame.line = -1; frame.column = -1; if (callCtx->function->function) lineNumbers.resolve(&frame, callCtx, callCtx->function->function); stack.append(frame); --frameLimit; } c = c->parent; } if (frameLimit && globalCode) { StackFrame frame; frame.source = globalCode->sourceFile(); frame.function = globalCode->name->toQString(); frame.line = -1; frame.column = -1; lineNumbers.resolve(&frame, rootContext, globalCode); stack.append(frame); } return stack; } StackFrame ExecutionEngine::currentStackFrame() const { StackFrame frame; frame.line = -1; frame.column = -1; QVector trace = stackTrace(/*limit*/ 1); if (!trace.isEmpty()) frame = trace.first(); return frame; } QUrl ExecutionEngine::resolvedUrl(const QString &file) { QUrl src(file); if (!src.isRelative()) return src; QUrl base; QV4::ExecutionContext *c = currentContext(); while (c) { CallContext *callCtx = c->asCallContext(); if (callCtx && callCtx->function) { if (callCtx->function->function) base.setUrl(callCtx->function->function->sourceFile()); break; } c = c->parent; } if (base.isEmpty() && globalCode) base.setUrl(globalCode->sourceFile()); if (base.isEmpty()) return src; return base.resolved(src); } void ExecutionEngine::requireArgumentsAccessors(int n) { if (n <= argumentsAccessors.size()) return; Scope scope(this); ScopedFunctionObject get(scope); ScopedFunctionObject set(scope); uint oldSize = argumentsAccessors.size(); argumentsAccessors.resize(n); for (int i = oldSize; i < n; ++i) { get = new (memoryManager) ArgumentsGetterFunction(rootContext, i); set = new (memoryManager) ArgumentsSetterFunction(rootContext, i); Property pd = Property::fromAccessor(get.getPointer(), set.getPointer()); argumentsAccessors[i] = pd; } } void ExecutionEngine::markObjects() { identifierTable->mark(this); globalObject->mark(this); if (globalCode) globalCode->mark(this); for (int i = 0; i < argumentsAccessors.size(); ++i) { const Property &pd = argumentsAccessors.at(i); if (FunctionObject *getter = pd.getter()) getter->mark(this); if (FunctionObject *setter = pd.setter()) setter->mark(this); } ExecutionContext *c = currentContext(); while (c) { c->mark(this); c = c->parent; } id_length->mark(this); id_prototype->mark(this); id_constructor->mark(this); id_arguments->mark(this); id_caller->mark(this); id_this->mark(this); id___proto__->mark(this); id_enumerable->mark(this); id_configurable->mark(this); id_writable->mark(this); id_value->mark(this); id_get->mark(this); id_set->mark(this); id_eval->mark(this); id_uintMax->mark(this); id_name->mark(this); id_index->mark(this); id_input->mark(this); id_toString->mark(this); id_valueOf->mark(this); objectCtor.mark(this); stringCtor.mark(this); numberCtor.mark(this); booleanCtor.mark(this); arrayCtor.mark(this); functionCtor.mark(this); dateCtor.mark(this); regExpCtor.mark(this); errorCtor.mark(this); evalErrorCtor.mark(this); rangeErrorCtor.mark(this); referenceErrorCtor.mark(this); syntaxErrorCtor.mark(this); typeErrorCtor.mark(this); uRIErrorCtor.mark(this); sequencePrototype.mark(this); exceptionValue.mark(this); thrower->mark(this); if (m_qmlExtensions) m_qmlExtensions->markObjects(this); emptyClass->markObjects(); for (QSet::ConstIterator it = compilationUnits.constBegin(), end = compilationUnits.constEnd(); it != end; ++it) (*it)->markObjects(this); } namespace { struct FindHelper { bool operator()(Function *function, quintptr pc) { return reinterpret_cast(function->code) < pc && (reinterpret_cast(function->code) + function->codeSize) < pc; } bool operator()(quintptr pc, Function *function) { return pc < reinterpret_cast(function->code); } }; } Function *ExecutionEngine::functionForProgramCounter(quintptr pc) const { // ### Use this code path instead of the "else" when the number of compilation units went down to // one per (qml) file. #if 0 for (QSet::ConstIterator unitIt = compilationUnits.constBegin(), unitEnd = compilationUnits.constEnd(); unitIt != unitEnd; ++unitIt) { const QVector &functions = (*unitIt)->runtimeFunctionsSortedByAddress; QVector::ConstIterator it = qBinaryFind(functions.constBegin(), functions.constEnd(), pc, FindHelper()); if (it != functions.constEnd()) return *it; } return 0; #else QMap::ConstIterator it = allFunctions.lowerBound(pc); if (it != allFunctions.begin() && allFunctions.count() > 0) --it; if (it == allFunctions.end()) return 0; if (pc < it.key() || pc >= it.key() + (*it)->codeSize) return 0; return *it; #endif } QmlExtensions *ExecutionEngine::qmlExtensions() { if (!m_qmlExtensions) m_qmlExtensions = new QmlExtensions; return m_qmlExtensions; } ReturnedValue ExecutionEngine::throwException(const ValueRef value) { // we can get in here with an exception already set, as the runtime // doesn't check after every operation that can throw. // in this case preserve the first exception to give correct error // information if (hasException) return Encode::undefined(); hasException = true; exceptionValue = value; QV4::Scope scope(this); QV4::Scoped error(scope, value); if (!!error) exceptionStackTrace = error->stackTrace; else exceptionStackTrace = stackTrace(); if (debugger) debugger->aboutToThrow(); return Encode::undefined(); } ReturnedValue ExecutionEngine::catchException(ExecutionContext *catchingContext, StackTrace *trace) { Q_ASSERT(hasException); Q_UNUSED(catchingContext); Q_ASSERT(currentContext() == catchingContext); if (trace) *trace = exceptionStackTrace; exceptionStackTrace.clear(); hasException = false; ReturnedValue res = exceptionValue.asReturnedValue(); exceptionValue = Primitive::emptyValue(); return res; } QQmlError ExecutionEngine::catchExceptionAsQmlError(ExecutionContext *context) { QV4::StackTrace trace; QV4::Scope scope(context); QV4::ScopedValue exception(scope, context->catchException(&trace)); QQmlError error; if (!trace.isEmpty()) { QV4::StackFrame frame = trace.first(); error.setUrl(QUrl(frame.source)); error.setLine(frame.line); error.setColumn(frame.column); } QV4::Scoped errorObj(scope, exception); if (!!errorObj && errorObj->asSyntaxError()) { QV4::ScopedString m(scope, errorObj->engine()->newString(QStringLiteral("message"))); QV4::ScopedValue v(scope, errorObj->get(m)); error.setDescription(v->toQStringNoThrow()); } else error.setDescription(exception->toQStringNoThrow()); return error; } bool ExecutionEngine::recheckCStackLimits() { int dummy; #ifdef Q_OS_WIN // ### this is only required on windows, where we currently use heuristics to get the stack limit if (cStackLimit - reinterpret_cast(&dummy) > 128*1024) // we're more then 128k away from our stack limit, assume the thread has changed, and // call getStackLimit #endif // this can happen after a thread change cStackLimit = getStackLimit(); return (reinterpret_cast(&dummy) >= cStackLimit); } QT_END_NAMESPACE