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These rights are described in The Qt Company LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #ifndef QV4ERROROBJECT_H #define QV4ERROROBJECT_H // // W A R N I N G // ------------- // // This file is not part of the Qt API. It exists purely as an // implementation detail. This header file may change from version to // version without notice, or even be removed. // // We mean it. // #include "qv4object_p.h" #include "qv4functionobject_p.h" #include "qv4string_p.h" QT_BEGIN_NAMESPACE namespace QV4 { struct SyntaxErrorObject; namespace Heap { struct ErrorObject : Object { enum ErrorType { Error, EvalError, RangeError, ReferenceError, SyntaxError, TypeError, URIError }; ErrorObject(); ErrorObject(const Value &message, ErrorType t = Error); ErrorObject(const Value &message, const QString &fileName, int line, int column, ErrorType t = Error); ErrorType errorType; StackTrace stackTrace; Pointer stack; }; struct EvalErrorObject : ErrorObject { EvalErrorObject(const Value &message); }; struct RangeErrorObject : ErrorObject { RangeErrorObject(const Value &message); }; struct ReferenceErrorObject : ErrorObject { ReferenceErrorObject(const Value &message); ReferenceErrorObject(const Value &msg, const QString &fileName, int lineNumber, int columnNumber); }; struct SyntaxErrorObject : ErrorObject { SyntaxErrorObject(const Value &message); SyntaxErrorObject(const Value &msg, const QString &fileName, int lineNumber, int columnNumber); }; struct TypeErrorObject : ErrorObject { TypeErrorObject(const Value &message); }; struct URIErrorObject : ErrorObject { URIErrorObject(const Value &message); }; struct ErrorCtor : Heap::FunctionObject { ErrorCtor(QV4::ExecutionContext *scope); ErrorCtor(QV4::ExecutionContext *scope, const QString &name); }; struct EvalErrorCtor : ErrorCtor { EvalErrorCtor(QV4::ExecutionContext *scope); }; struct RangeErrorCtor : ErrorCtor { RangeErrorCtor(QV4::ExecutionContext *scope); }; struct ReferenceErrorCtor : ErrorCtor { ReferenceErrorCtor(QV4::ExecutionContext *scope); }; struct SyntaxErrorCtor : ErrorCtor { SyntaxErrorCtor(QV4::ExecutionContext *scope); }; struct TypeErrorCtor : ErrorCtor { TypeErrorCtor(QV4::ExecutionContext *scope); }; struct URIErrorCtor : ErrorCtor { URIErrorCtor(QV4::ExecutionContext *scope); }; } struct ErrorObject: Object { enum { IsErrorObject = true }; enum { Index_Stack = 0, // Accessor Property Index_FileName = 2, Index_LineNumber = 3, Index_Message = 4 }; V4_OBJECT2(ErrorObject, Object) Q_MANAGED_TYPE(ErrorObject) V4_INTERNALCLASS(errorClass) V4_PROTOTYPE(errorPrototype) V4_NEEDS_DESTROY template static Heap::Object *create(ExecutionEngine *e, const Value &message); template static Heap::Object *create(ExecutionEngine *e, const QString &message); template static Heap::Object *create(ExecutionEngine *e, const QString &message, const QString &filename, int line, int column); SyntaxErrorObject *asSyntaxError(); static const char *className(Heap::ErrorObject::ErrorType t); static ReturnedValue method_get_stack(CallContext *ctx); static void markObjects(Heap::Base *that, ExecutionEngine *e); }; template<> inline const ErrorObject *Value::as() const { return isManaged() && m() && m()->vtable()->isErrorObject ? reinterpret_cast(this) : 0; } struct EvalErrorObject: ErrorObject { typedef Heap::EvalErrorObject Data; V4_PROTOTYPE(evalErrorPrototype) const Data *d() const { return static_cast(ErrorObject::d()); } Data *d() { return static_cast(ErrorObject::d()); } }; struct RangeErrorObject: ErrorObject { typedef Heap::RangeErrorObject Data; V4_PROTOTYPE(rangeErrorPrototype) const Data *d() const { return static_cast(ErrorObject::d()); } Data *d() { return static_cast(ErrorObject::d()); } }; struct ReferenceErrorObject: ErrorObject { typedef Heap::ReferenceErrorObject Data; V4_PROTOTYPE(referenceErrorPrototype) const Data *d() const { return static_cast(ErrorObject::d()); } Data *d() { return static_cast(ErrorObject::d()); } }; struct SyntaxErrorObject: ErrorObject { V4_OBJECT2(SyntaxErrorObject, ErrorObject) V4_PROTOTYPE(syntaxErrorPrototype) }; struct TypeErrorObject: ErrorObject { typedef Heap::TypeErrorObject Data; V4_PROTOTYPE(typeErrorPrototype) const Data *d() const { return static_cast(ErrorObject::d()); } Data *d() { return static_cast(ErrorObject::d()); } }; struct URIErrorObject: ErrorObject { typedef Heap::URIErrorObject Data; V4_PROTOTYPE(uRIErrorPrototype) const Data *d() const { return static_cast(ErrorObject::d()); } Data *d() { return static_cast(ErrorObject::d()); } }; struct ErrorCtor: FunctionObject { V4_OBJECT2(ErrorCtor, FunctionObject) static ReturnedValue construct(const Managed *, CallData *callData); static ReturnedValue call(const Managed *that, CallData *callData); }; struct EvalErrorCtor: ErrorCtor { V4_OBJECT2(EvalErrorCtor, ErrorCtor) static ReturnedValue construct(const Managed *m, CallData *callData); }; struct RangeErrorCtor: ErrorCtor { V4_OBJECT2(RangeErrorCtor, ErrorCtor) static ReturnedValue construct(const Managed *m, CallData *callData); }; struct ReferenceErrorCtor: ErrorCtor { V4_OBJECT2(ReferenceErrorCtor, ErrorCtor) static ReturnedValue construct(const Managed *m, CallData *callData); }; struct SyntaxErrorCtor: ErrorCtor { V4_OBJECT2(SyntaxErrorCtor, ErrorCtor) static ReturnedValue construct(const Managed *m, CallData *callData); }; struct TypeErrorCtor: ErrorCtor { V4_OBJECT2(TypeErrorCtor, ErrorCtor) static ReturnedValue construct(const Managed *m, CallData *callData); }; struct URIErrorCtor: ErrorCtor { V4_OBJECT2(URIErrorCtor, ErrorCtor) static ReturnedValue construct(const Managed *m, CallData *callData); }; struct ErrorPrototype : ErrorObject { enum { Index_Constructor = 0, Index_Message = 1, Index_Name = 2 }; void init(ExecutionEngine *engine, Object *ctor) { init(engine, ctor, this, Heap::ErrorObject::Error); } static void init(ExecutionEngine *engine, Object *ctor, Object *obj, Heap::ErrorObject::ErrorType t); static ReturnedValue method_toString(CallContext *ctx); }; struct EvalErrorPrototype : ErrorObject { void init(ExecutionEngine *engine, Object *ctor) { ErrorPrototype::init(engine, ctor, this, Heap::ErrorObject::EvalError); } }; struct RangeErrorPrototype : ErrorObject { void init(ExecutionEngine *engine, Object *ctor) { ErrorPrototype::init(engine, ctor, this, Heap::ErrorObject::RangeError); } }; struct ReferenceErrorPrototype : ErrorObject { void init(ExecutionEngine *engine, Object *ctor) { ErrorPrototype::init(engine, ctor, this, Heap::ErrorObject::ReferenceError); } }; struct SyntaxErrorPrototype : ErrorObject { void init(ExecutionEngine *engine, Object *ctor) { ErrorPrototype::init(engine, ctor, this, Heap::ErrorObject::SyntaxError); } }; struct TypeErrorPrototype : ErrorObject { void init(ExecutionEngine *engine, Object *ctor) { ErrorPrototype::init(engine, ctor, this, Heap::ErrorObject::TypeError); } }; struct URIErrorPrototype : ErrorObject { void init(ExecutionEngine *engine, Object *ctor) { ErrorPrototype::init(engine, ctor, this, Heap::ErrorObject::URIError); } }; inline SyntaxErrorObject *ErrorObject::asSyntaxError() { return d()->errorType == QV4::Heap::ErrorObject::SyntaxError ? static_cast(this) : 0; } template Heap::Object *ErrorObject::create(ExecutionEngine *e, const Value &message) { return e->memoryManager->allocObject(message.isUndefined() ? e->errorClass : e->errorClassWithMessage, T::defaultPrototype(e), message); } template Heap::Object *ErrorObject::create(ExecutionEngine *e, const QString &message) { Scope scope(e); ScopedValue v(scope, message.isEmpty() ? Encode::undefined() : e->newString(message)->asReturnedValue()); return e->memoryManager->allocObject(v->isUndefined() ? e->errorClass : e->errorClassWithMessage, T::defaultPrototype(e), v); } template Heap::Object *ErrorObject::create(ExecutionEngine *e, const QString &message, const QString &filename, int line, int column) { Scope scope(e); ScopedValue v(scope, message.isEmpty() ? Encode::undefined() : e->newString(message)->asReturnedValue()); return e->memoryManager->allocObject(v->isUndefined() ? e->errorClass : e->errorClassWithMessage, T::defaultPrototype(e), v, filename, line, column); } } QT_END_NAMESPACE #endif // QV4ECMAOBJECTS_P_H