/**************************************************************************** ** ** Implementation of QMetaObject class ** ** Created : 930419 ** ** Copyright (C) 1992-2008 Trolltech ASA. All rights reserved. ** ** This file is part of the kernel module of the Qt GUI Toolkit. ** ** This file may be used under the terms of the GNU General ** Public License versions 2.0 or 3.0 as published by the Free ** Software Foundation and appearing in the files LICENSE.GPL2 ** and LICENSE.GPL3 included in the packaging of this file. ** Alternatively you may (at your option) use any later version ** of the GNU General Public License if such license has been ** publicly approved by Trolltech ASA (or its successors, if any) ** and the KDE Free Qt Foundation. ** ** Please review the following information to ensure GNU General ** Public Licensing requirements will be met: ** http://trolltech.com/products/qt/licenses/licensing/opensource/. ** If you are unsure which license is appropriate for your use, please ** review the following information: ** http://trolltech.com/products/qt/licenses/licensing/licensingoverview ** or contact the sales department at sales@trolltech.com. ** ** This file may be used under the terms of the Q Public License as ** defined by Trolltech ASA and appearing in the file LICENSE.QPL ** included in the packaging of this file. Licensees holding valid Qt ** Commercial licenses may use this file in accordance with the Qt ** Commercial License Agreement provided with the Software. ** ** This file is provided "AS IS" with NO WARRANTY OF ANY KIND, ** INCLUDING THE WARRANTIES OF DESIGN, MERCHANTABILITY AND FITNESS FOR ** A PARTICULAR PURPOSE. Trolltech reserves all rights not granted ** herein. ** **********************************************************************/ #include "qmetaobject.h" #include "qasciidict.h" #ifdef TQT_THREAD_SUPPORT #include #endif // TQT_THREAD_SUPPORT /*! \class QMetaData qmetaobject.h \reentrant \brief The QMetaData class provides information about a member function that is known to the meta object system. \internal The struct consists of three members, \e name, \e method and \e access: \code const char *name; // - member name const QUMethod* method; // - detailed method description enum Access { Private, Protected, Public }; Access access; // - access permission \endcode */ /*! \class QClassInfo qmetaobject.h \brief The QClassInfo class provides a struct that stores some basic information about a single class. \internal The class information is a simple \e name - \e value pair: \code const char* name; const char* value; \endcode */ /*! \class QMetaObject qmetaobject.h \brief The QMetaObject class contains meta information about Qt objects. \ingroup objectmodel The Meta Object System in Qt is responsible for the signals and slots inter-object communication mechanism, runtime type information and the property system. All meta information in Qt is kept in a single instance of QMetaObject per class. This class is not normally required for application programming. But if you write meta applications, such as scripting engines or GUI builders, you might find these functions useful: \list \i className() to get the name of a class. \i superClassName() to get the name of the superclass. \i inherits(), the function called by QObject::inherits(). \i superClass() to access the superclass's meta object. \i numSlots(), numSignals(), slotNames(), and signalNames() to get information about a class's signals and slots. \i property() and propertyNames() to obtain information about a class's properties. \endlist Classes may have a list of name-value pairs of class information. The number of pairs is returned by numClassInfo(), and values are returned by classInfo(). \sa \link moc.html moc (Meta Object Compiler)\endlink */ /***************************************************************************** The private object. *****************************************************************************/ // extra flags from moc.y enum Flags { Invalid = 0x00000000, Readable = 0x00000001, Writable = 0x00000002, EnumOrSet = 0x00000004, UnresolvedEnum = 0x00000008, StdSet = 0x00000100, Override = 0x00000200, NotDesignable = 0x00001000, DesignableOverride = 0x00002000, NotScriptable = 0x00004000, ScriptableOverride = 0x00008000, NotStored = 0x00010000, StoredOverride = 0x00020000 }; static QAsciiDict *qt_metaobjects = 0; static int qt_metaobjects_count = 0; class QMetaObjectPrivate { public: QMetaObjectPrivate() : #ifndef QT_NO_PROPERTIES enumData(0), numEnumData(0), propData(0),numPropData(0), qt_static_property(0), #endif classInfo(0), numClassInfo(0) {} #ifndef QT_NO_PROPERTIES const QMetaEnum *enumData; int numEnumData; const QMetaProperty *propData; int numPropData; bool (*qt_static_property)(QObject*, int, int, QVariant*); #endif const QClassInfo *classInfo; int numClassInfo; }; /***************************************************************************** Internal dictionary for fast access to class members *****************************************************************************/ #if defined(Q_CANNOT_DELETE_CONSTANT) typedef QMetaData QConstMetaData; #else typedef const QMetaData QConstMetaData; #endif class Q_EXPORT QMemberDict : public QAsciiDict { public: QMemberDict( int size = 17, bool cs = TRUE, bool ck = TRUE ) : QAsciiDict(size,cs,ck) {} QMemberDict( const QMemberDict &dict ) : QAsciiDict(dict) {} ~QMemberDict() { clear(); } QMemberDict &operator=(const QMemberDict &dict) { return (QMemberDict&)QAsciiDict::operator=(dict); } }; /* Calculate optimal dictionary size for n entries using prime numbers, and assuming there are no more than 40 entries. */ static int optDictSize( int n ) { if ( n < 6 ) n = 5; else if ( n < 10 ) n = 11; else if ( n < 14 ) n = 17; else n = 23; return n; } /***************************************************************************** QMetaObject member functions *****************************************************************************/ /*!\internal */ QMetaObject::QMetaObject( const char *const class_name, QMetaObject *super_class, const QMetaData *const slot_data, int n_slots, const QMetaData *const signal_data, int n_signals, #ifndef QT_NO_PROPERTIES const QMetaProperty *const prop_data, int n_props, const QMetaEnum *const enum_data, int n_enums, #endif const QClassInfo *const class_info, int n_info ) { classname = class_name; // set meta data superclass = super_class; superclassname = superclass ? superclass->className() : 0; slotDict = init( slotData = slot_data, n_slots ); signalDict = init( signalData = signal_data, n_signals ); d = new QMetaObjectPrivate; reserved = 0; #ifndef QT_NO_PROPERTIES d->propData = prop_data; d->numPropData = n_props; d->enumData = enum_data; d->numEnumData = n_enums; #endif d->classInfo = class_info; d->numClassInfo = n_info; signaloffset = superclass ? ( superclass->signalOffset() + superclass->numSignals() ) : 0; slotoffset = superclass ? ( superclass->slotOffset() + superclass->numSlots() ) : 0; #ifndef QT_NO_PROPERTIES propertyoffset = superclass ? ( superclass->propertyOffset() + superclass->numProperties() ) : 0; #endif } #ifndef QT_NO_PROPERTIES /*!\internal */ QMetaObject::QMetaObject( const char *const class_name, QMetaObject *super_class, const QMetaData *const slot_data, int n_slots, const QMetaData *const signal_data, int n_signals, const QMetaProperty *const prop_data, int n_props, const QMetaEnum *const enum_data, int n_enums, bool (*qt_static_property)(QObject*, int, int, QVariant*), const QClassInfo *const class_info, int n_info ) { classname = class_name; // set meta data superclass = super_class; superclassname = superclass ? superclass->className() : 0; slotDict = init( slotData = slot_data, n_slots ); signalDict = init( signalData = signal_data, n_signals ); d = new QMetaObjectPrivate; reserved = 0; d->propData = prop_data; d->numPropData = n_props; d->enumData = enum_data; d->numEnumData = n_enums; d->qt_static_property = qt_static_property; d->classInfo = class_info; d->numClassInfo = n_info; signaloffset = superclass ? ( superclass->signalOffset() + superclass->numSignals() ) : 0; slotoffset = superclass ? ( superclass->slotOffset() + superclass->numSlots() ) : 0; propertyoffset = superclass ? ( superclass->propertyOffset() + superclass->numProperties() ) : 0; } #endif /*!\internal */ QMetaObject::~QMetaObject() { delete slotDict; // delete dicts delete signalDict; delete d; #ifdef TQT_THREAD_SUPPORT QMutexLocker( qt_global_mutexpool ? qt_global_mutexpool->get( &qt_metaobjects ) : 0 ); #endif // TQT_THREAD_SUPPORT if ( qt_metaobjects ) { qt_metaobjects->remove( classname ); if ( qt_metaobjects->isEmpty() ) { delete qt_metaobjects; qt_metaobjects = 0; } } // delete reserved; // Unused void* } /*! \fn const char *QMetaObject::className() const Returns the class name. \sa QObject::className(), superClassName() */ /*! \fn const char *QMetaObject::superClassName() const Returns the class name of the superclass or 0 if there is no superclass in the QObject hierachy. \sa className() */ /*! \fn QMetaObject *QMetaObject::superClass() const Returns the meta object of the super class or 0 if there is no such object. */ /*! Returns the number of slots for this class. If \a super is TRUE, inherited slots are included. \sa slotNames() */ int QMetaObject::numSlots( bool super ) const // number of slots { int n = slotDict ? slotDict->count() : 0; if ( !super || !superclass ) return n; return n + superclass->numSlots( super ); } /*! Returns the number of signals for this class. If \a super is TRUE, inherited signals are included. \sa signalNames() */ int QMetaObject::numSignals( bool super ) const // number of signals { int n = signalDict ? signalDict->count() : 0; if ( !super || !superclass ) return n; return n + superclass->numSignals( super ); } /*! \internal Returns the meta data of the slot with the name \a n or 0 if no such slot exists. If \a super is TRUE, inherited slots are included. */ const QMetaData* QMetaObject::slot( int index, bool super ) const { int idx = index - ( super ? slotOffset() : 0 ); if ( slotDict && idx >= 0 && idx < (int) slotDict->count() ) { return slotData + idx; } if ( !super || !superclass ) return 0; return superclass->slot( index, super ); } /*! \internal Returns the meta data of the signal with the name \a n or 0 if no such signal exists. If \a super is TRUE, inherited signals are included. */ const QMetaData* QMetaObject::signal( int index, bool super ) const { int idx = index - ( super ? signalOffset() : 0 ); if ( signalDict && idx >= 0 && idx < (int) signalDict->count() ) { return signalData + idx; } if ( !super || !superclass ) return 0; return superclass->signal( index, super ); } /*! \fn int QMetaObject::signalOffset() const \internal Returns the signal offset for this metaobject. */ /*! \fn int QMetaObject::propertyOffset() const \internal Returns the property offset for this metaobject. */ /*! \internal Returns the index of the signal with name \n or -1 if no such signal exists. If \a super is TRUE, inherited signals are included. */ int QMetaObject::findSignal( const char* n, bool super ) const { const QMetaObject *mo = this; int offset = -1; do { const QMetaData *md = mo->signalDict ? mo->signalDict->find( n ) : 0; if ( md ) { #if defined(QT_CHECK_RANGE) if ( offset != -1 ) { qWarning( "QMetaObject::findSignal:%s: Conflict with %s::%s", className(), mo->className(), n ); return offset; } #endif offset = mo->signalOffset() + ( md - mo->signalData ); #if !defined(QT_CHECK_RANGE) return offset; #endif } } while ( super && (mo = mo->superclass) ); return offset; } /*! \fn int QMetaObject::slotOffset() const \internal Returns the slot offset for this metaobject. */ /*! \internal Returns the index of the slot with name \n or -1 if no such slot exists. If \a super is TRUE, inherited slots are included. */ int QMetaObject::findSlot( const char* n, bool super ) const { const QMetaData *md = slotDict ? slotDict->find( n ) : 0; if ( md ) return slotOffset() + ( md - slotData ); if ( !super || !superclass) return -1; return superclass->findSlot( n, super ); } /*!\internal */ QMetaObject *QMetaObject::new_metaobject( const char *classname, QMetaObject *superclassobject, const QMetaData * const slot_data, int n_slots, const QMetaData * const signal_data, int n_signals, #ifndef QT_NO_PROPERTIES const QMetaProperty * const prop_data, int n_props, const QMetaEnum * const enum_data, int n_enums, #endif const QClassInfo * const class_info, int n_info ) { return new QMetaObject( classname, superclassobject, slot_data, n_slots, signal_data, n_signals, #ifndef QT_NO_PROPERTIES prop_data, n_props, enum_data, n_enums, #endif class_info, n_info ); } #ifndef QT_NO_PROPERTIES /*!\internal */ QMetaObject *QMetaObject::new_metaobject( const char *classname, QMetaObject *superclassobject, const QMetaData * const slot_data, int n_slots, const QMetaData * const signal_data, int n_signals, const QMetaProperty * const prop_data, int n_props, const QMetaEnum * const enum_data, int n_enums, bool (*qt_static_property)(QObject*, int, int, QVariant*), const QClassInfo * const class_info, int n_info ) { return new QMetaObject( classname, superclassobject, slot_data, n_slots, signal_data, n_signals, prop_data, n_props, enum_data, n_enums, qt_static_property, class_info, n_info ); } #endif /*!\internal */ QMemberDict *QMetaObject::init( const QMetaData * data, int n ) { if ( n == 0 ) // nothing, then make no dict return 0; QMemberDict *dict = new QMemberDict( optDictSize(n), TRUE, FALSE ); Q_CHECK_PTR( dict ); while ( n-- ) { // put all members into dict dict->insert( data->name, data ); data++; } return dict; } /*! Returns the number of items of class information available for this class. If \a super is TRUE, inherited class information is included. */ int QMetaObject::numClassInfo( bool super ) const { return d->numClassInfo + ((super && superclass)?superclass->numClassInfo(super):0); } /*! Returns the class information with index \a index or 0 if no such information exists. If \a super is TRUE, inherited class information is included. */ const QClassInfo* QMetaObject::classInfo( int index, bool super ) const { if ( index < 0 ) return 0; if ( index < d->numClassInfo ) return &(d->classInfo[ index ]); if ( !super || !superclass ) return 0; return superclass->classInfo( index - d->numClassInfo, super ); } /*! \overload Returns the class information with name \a name or 0 if no such information exists. If \a super is TRUE, inherited class information is included. */ const char* QMetaObject::classInfo( const char* name, bool super ) const { for( int i = 0; i < d->numClassInfo; ++i ) { if ( qstrcmp( d->classInfo[i].name, name ) == 0 ) return d->classInfo[i].value; } if ( !super || !superclass ) return 0; return superclass->classInfo( name, super ); } #ifndef QT_NO_PROPERTIES /*! Returns the number of properties for this class. If \a super is TRUE, inherited properties are included. \sa propertyNames() */ int QMetaObject::numProperties( bool super ) const // number of signals { int n = d->numPropData; if ( !super || !superclass ) return n; return n + superclass->numProperties( super ); } /*! Returns the property meta data for the property at index \a index or 0 if no such property exists. If \a super is TRUE, inherited properties are included. \sa propertyNames() */ const QMetaProperty* QMetaObject::property( int index, bool super ) const { int idx = index - ( super ? propertyOffset() : 0 ); if ( d->propData && idx >= 0 && idx < (int)d->numPropData ) return d->propData + idx; if ( !super || !superclass ) return 0; return superclass->property( index, super ); } /*! Returns the index for the property with name \a name or -1 if no such property exists. If \a super is TRUE, inherited properties are included. \sa property(), propertyNames() */ int QMetaObject::findProperty( const char *name, bool super ) const { for( int i = 0; i < d->numPropData; ++i ) { if ( d->propData[i].isValid() && qstrcmp( d->propData[i].name(), name ) == 0 ) { return ( super ? propertyOffset() : 0 ) + i; } } if ( !super || !superclass ) return -1; return superclass->findProperty( name, super ); } /*! \internal Returns the index for the property \a prop or -1 if the property can not be found. If \a super is TRUE, inherited properties are included. \sa property(), propertyNames() */ int QMetaObject::indexOfProperty( const QMetaProperty* prop, bool super ) const { if ( *prop->meta == this ) return ( super ? propertyOffset() : 0 ) + ( prop - d->propData); if ( !super || !superclass ) return -1; return superclass->indexOfProperty( prop, super ); } /*!\internal Returns the parent property of property \a p or 0, if the property cannot be resolved. \a p has to be contained in this meta object */ const QMetaProperty* QMetaObject::resolveProperty( const QMetaProperty* p ) const { if ( !superclass ) return 0; return superclass->property( superclass->findProperty( p->n, TRUE ), TRUE ); } /*!\internal \overload The version of resolveProperty that is used by moc generated code */ int QMetaObject::resolveProperty( int index ) const { if ( !superclass ) return -1; const QMetaProperty* p = d->propData + ( index - propertyOffset() ); return superclass->findProperty( p->n, TRUE ); } /*! Returns a list with the names of all this class's properties. If \a super is TRUE, inherited properties are included. \sa property() */ QStrList QMetaObject::propertyNames( bool super ) const { QStrList l( FALSE ); if ( superclass && super ) { QStrList sl = superclass->propertyNames( super ); for ( QStrListIterator slit( sl ); slit.current(); ++slit ) l.append( slit.current() ); } for( int i = 0; i < d->numPropData; ++i ) { if ( d->propData[i].isValid() ) l.append( d->propData[i].name() ); } return l; } /*! Returns a list with the names of all this class's signals. If \a super is TRUE, inherited signals are included. */ QStrList QMetaObject::signalNames( bool super ) const { QStrList l( FALSE ); int n = numSignals( super ); for( int i = 0; i < n; ++i ) { l.append( signal(i, super)->name ); } return l; } /*! Returns a list with the names of all this class's slots. If \a super is TRUE, inherited slots are included. \sa numSlots() */ QStrList QMetaObject::slotNames( bool super ) const { QStrList l( FALSE ); int n = numSlots( super ); for( int i = 0; i < n; ++i ) l.append( slot( i, super)->name ); return l; } /*!\internal */ int QMetaObject::numEnumerators( bool super ) const { int n = 0; if ( superclass && super ) n += superclass->numEnumerators( super ); return n + d->numEnumData; } /*!\internal */ QStrList QMetaObject::enumeratorNames( bool super ) const { QStrList l( FALSE ); if ( superclass && super ) { QStrList sl = superclass->enumeratorNames( super ); for ( QStrListIterator slit( sl ); slit.current(); ++slit ) l.append( slit.current() ); } for( int i = 0; i < d->numEnumData; ++i ) { if ( d->enumData[i].items ) l.append( d->enumData[i].name ); } return l; } /*!\internal */ const QMetaEnum* QMetaObject::enumerator( const char* name, bool super ) const { for( int i = 0; i < d->numEnumData; ++i ) if ( qstrcmp( d->enumData[i].name, name ) == 0 ) return &(d->enumData[i]); if ( !super || !superclass ) return 0; return superclass->enumerator( name, super ); } #endif // QT_NO_PROPERTIES /*! Returns TRUE if this class inherits \a clname within the meta object inheritance chain; otherwise returns FALSE. (A class is considered to inherit itself.) */ bool QMetaObject::inherits( const char* clname ) const { const QMetaObject *meta = this; while ( meta ) { if ( qstrcmp(clname, meta->className()) == 0 ) return TRUE; meta = meta->superclass; } return FALSE; } /*! \internal */ QMetaObject *QMetaObject::metaObject( const char *class_name ) { if ( !qt_metaobjects ) return 0; #ifdef TQT_THREAD_SUPPORT QMutexLocker( qt_global_mutexpool ? qt_global_mutexpool->get( &qt_metaobjects ) : 0 ); #endif // TQT_THREAD_SUPPORT QtStaticMetaObjectFunction func = (QtStaticMetaObjectFunction)qt_metaobjects->find( class_name ); if ( func ) return func(); return 0; } /*! \internal */ bool QMetaObject::hasMetaObject( const char *class_name ) { if ( !qt_metaobjects ) return FALSE; #ifdef TQT_THREAD_SUPPORT QMutexLocker( qt_global_mutexpool ? qt_global_mutexpool->get( &qt_metaobjects ) : 0 ); #endif // TQT_THREAD_SUPPORT return !!qt_metaobjects->find( class_name ); } #ifndef QT_NO_PROPERTIES /*! \internal ### this functions will go away. It exists purely for the sake of meta ### object code generated with Qt 3.1.0 */ bool QMetaObject::qt_static_property( QObject* o, int id, int f, QVariant* v) { if ( d->qt_static_property ) return d->qt_static_property( o, id, f, v ); else if ( o ) // compatibility return o->qt_property( id, f, v ); else if ( superclass ) return superclass->qt_static_property( o, id, f, v ); switch ( f ) { case 3: case 4: case 5: return TRUE; default: return FALSE; } } /*! \class QMetaProperty qmetaobject.h \brief The QMetaProperty class stores meta data about a property. \ingroup objectmodel Property meta data includes type(), name(), and whether a property is writable(), designable() and stored(). The functions isSetType(), isEnumType() and enumKeys() provide further information about a property's type. The conversion functions keyToValue(), valueToKey(), keysToValue() and valueToKeys() allow conversion between the integer representation of an enumeration or set value and its literal representation. Actual property values are set and received through QObject's set and get functions. See QObject::setProperty() and QObject::property() for details. You receive meta property data through an object's meta object. See QMetaObject::property() and QMetaObject::propertyNames() for details. */ /*! Returns the possible enumeration keys if this property is an enumeration type (or a set type). \sa isEnumType() */ QStrList QMetaProperty::enumKeys() const { QStrList l( FALSE ); const QMetaEnum* ed = enumData; if ( !enumData && meta ) ed = (*meta)->enumerator( t, TRUE ); if ( !ed ) return l; if ( ed != 0 ) { for( uint i = 0; i < ed->count; ++i ) { uint j = 0; while ( j < i && ed->items[j].value != ed->items[i].value ) ++j; if ( i == j ) l.append( ed->items[i].key ); } } return l; } /*! Converts the enumeration key \a key to its integer value. For set types, use keysToValue(). \sa valueToKey(), isSetType(), keysToValue() */ int QMetaProperty::keyToValue( const char* key ) const { const QMetaEnum* ed = enumData; if ( !enumData && meta ) ed = (*meta)->enumerator( t, TRUE ); if ( !ed ) return -1; for ( uint i = 0; i < ed->count; ++i ) { if ( !qstrcmp( key, ed->items[i].key) ) return ed->items[i].value; } return -1; } /*! Converts the enumeration value \a value to its literal key. For set types, use valueToKeys(). \sa valueToKey(), isSetType(), valueToKeys() */ const char* QMetaProperty::valueToKey( int value ) const { const QMetaEnum* ed = enumData; if ( !enumData && meta ) ed = (*meta)->enumerator( t, TRUE ); if ( !ed ) return 0; for ( uint i = 0; i < ed->count; ++i ) { if ( value == ed->items[i].value ) return ed->items[i].key ; } return 0; } /*! Converts the list of keys \a keys to their combined (OR-ed) integer value. \sa isSetType(), valueToKey(), keysToValue() */ int QMetaProperty::keysToValue( const QStrList& keys ) const { const QMetaEnum* ed = enumData; if ( !enumData && meta ) ed = (*meta)->enumerator( t, TRUE ); if ( !ed ) return -1; int value = 0; for ( QStrListIterator it( keys ); it.current(); ++it ) { uint i; for( i = ed->count; i > 0; --i ) { if ( !qstrcmp( it.current(), ed->items[i-1].key) ) { value |= ed->items[i-1].value; break; } } if ( i == 0 ) value |= -1; } return value; } /*! Converts the set value \a value to a list of keys. \sa isSetType(), valueToKey(), valueToKeys() */ QStrList QMetaProperty::valueToKeys( int value ) const { QStrList keys; const QMetaEnum* ed = enumData; if ( !enumData && meta ) ed = (*meta)->enumerator( t, TRUE ); if ( !ed ) return keys; int v = value; for( uint i = ed->count; i > 0; --i ) { int k = ed->items[i-1].value; if ( ( k != 0 && (v & k) == k ) || ( k == value) ) { v = v & ~k; keys.append( ed->items[i-1].key ); } } return keys; } bool QMetaProperty::writable() const { if ( !testFlags( Override ) || testFlags( Writable ) ) return testFlags( Writable ); const QMetaObject* mo = (*meta); const QMetaProperty* parent = mo->resolveProperty( this ); return parent ? parent->writable() : FALSE; } /*!\internal */ bool QMetaProperty::stdSet() const { if ( !testFlags( Override ) || testFlags( Writable ) ) return testFlags( StdSet ); const QMetaObject* mo = (*meta); const QMetaProperty* parent = mo->resolveProperty( this ); return parent ? parent->stdSet() : FALSE; } /*!\internal */ int QMetaProperty::id() const { return _id < 0 ? (*meta)->indexOfProperty( this, TRUE ) : _id; } /*! \internal */ void QMetaProperty::clear() { t = n = 0; meta = 0; enumData = 0; _id = -1; flags = 0; } bool QMetaProperty::isValid() const { if ( testFlags( UnresolvedEnum ) ) { if ( !enumData && (!meta || !(*meta)->enumerator( t, TRUE ) ) ) return FALSE; } if ( !testFlags( Override ) || testFlags( Readable ) ) return testFlags( Readable ); const QMetaObject* mo = (*meta); const QMetaProperty* parent = mo->resolveProperty( this ); return parent ? parent->isValid() : FALSE; } bool QMetaProperty::isSetType() const { const QMetaEnum* ed = enumData; if ( !enumData && meta ) ed = (*meta)->enumerator( t, TRUE ); return ( ed != 0 && ed->set ); } bool QMetaProperty::isEnumType() const { return testFlags( EnumOrSet ); } /*! \fn const char* QMetaProperty::type() const Returns the type of the property. */ /*! \fn const char* QMetaProperty::name() const Returns the name of the property. */ /*! \fn bool QMetaProperty::writable() const Returns TRUE if the property is writable; otherwise returns FALSE. */ /*! \fn bool QMetaProperty::isValid() const \internal Returns whether the property is valid. */ /*! \fn bool QMetaProperty::isEnumType() const Returns TRUE if the property's type is an enumeration value; otherwise returns FALSE. \sa isSetType(), enumKeys() */ /*! \fn bool QMetaProperty::isSetType() const Returns TRUE if the property's type is an enumeration value that is used as set, i.e. if the enumeration values can be OR-ed together; otherwise returns FALSE. A set type is implicitly also an enum type. \sa isEnumType(), enumKeys() */ /*! Returns TRUE if the property is designable for object \a o; otherwise returns FALSE. If no object \a o is given, the function returns a static approximation. */ bool QMetaProperty::designable( QObject* o ) const { if ( !isValid() || !writable() ) return FALSE; if ( o ) { int idx = _id >= 0 ? _id : (*meta)->indexOfProperty( this, TRUE ); return idx >= 0 && o->qt_property( idx, 3, 0 ); } if ( testFlags( DesignableOverride ) ) { const QMetaObject* mo = (*meta); const QMetaProperty* parent = mo->resolveProperty( this ); return parent ? parent->designable() : FALSE; } return !testFlags( NotDesignable ); } /*! Returns TRUE if the property is scriptable for object \a o; otherwise returns FALSE. If no object \a o is given, the function returns a static approximation. */ bool QMetaProperty::scriptable( QObject* o ) const { if ( o ) { int idx = _id >= 0 ? _id : (*meta)->indexOfProperty( this, TRUE ); return idx >= 0 && o->qt_property( idx, 4, 0 ); } if ( testFlags( ScriptableOverride ) ) { const QMetaObject* mo = (*meta); const QMetaProperty* parent = mo->resolveProperty( this ); return parent ? parent->scriptable() : FALSE; } return !testFlags( NotScriptable ); } /*! Returns TRUE if the property shall be stored for object \a o; otherwise returns FALSE. If no object \a o is given, the function returns a static approximation. */ bool QMetaProperty::stored( QObject* o ) const { if ( !isValid() || !writable() ) return FALSE; if ( o ) { int idx = _id >= 0 ? _id : (*meta)->indexOfProperty( this, TRUE ); return idx >= 0 && o->qt_property( idx, 5, 0 ); } if ( testFlags( StoredOverride ) ) { const QMetaObject* mo = (*meta); const QMetaProperty* parent = mo->resolveProperty( this ); return parent ? parent->stored() : FALSE; } return !testFlags( NotStored ); } /*! Tries to reset the property for object \a o with a reset method. On success, returns TRUE; otherwise returns FALSE. Reset methods are optional, usually only a few properties support them. */ bool QMetaProperty::reset( QObject* o ) const { if ( !o ) return FALSE; int idx = _id >= 0 ? _id : (*meta)->indexOfProperty( this, TRUE ); if ( idx < 0 ) return 0; return o->qt_property( idx, 2, 0 ); } /*! \enum QMetaProperty::Flags \internal */ #endif // QT_NO_PROPERTIES /* * QMetaObjectCleanUp is used as static global object in the moc-generated cpp * files and deletes the QMetaObject provided with setMetaObject. It sets the * QObject reference to the metaObj to NULL when it is destroyed. */ QMetaObjectCleanUp::QMetaObjectCleanUp( const char *mo_name, QtStaticMetaObjectFunction func ) : metaObject( 0 ) { #ifdef TQT_THREAD_SUPPORT QMutexLocker( qt_global_mutexpool ? qt_global_mutexpool->get( &qt_metaobjects ) : 0 ); #endif // TQT_THREAD_SUPPORT if ( !qt_metaobjects ) qt_metaobjects = new QAsciiDict( 257 ); qt_metaobjects->insert( mo_name, (void*)func ); qt_metaobjects_count++; } QMetaObjectCleanUp::QMetaObjectCleanUp() : metaObject( 0 ) { } /*! \fn bool QMetaProperty::testFlags( uint f ) const \internal */ QMetaObjectCleanUp::~QMetaObjectCleanUp() { #ifdef TQT_THREAD_SUPPORT QMutexLocker( qt_global_mutexpool ? qt_global_mutexpool->get( &qt_metaobjects ) : 0 ); #endif // TQT_THREAD_SUPPORT if ( !--qt_metaobjects_count ) { delete qt_metaobjects; qt_metaobjects = 0; } if ( metaObject ) { delete *metaObject; *metaObject = 0; metaObject = 0; } } void QMetaObjectCleanUp::setMetaObject( QMetaObject *&mo ) { #if defined(QT_CHECK_RANGE) if (metaObject && metaObject != &mo) qWarning( "QMetaObjectCleanUp::setMetaObject: Double use of QMetaObjectCleanUp!" ); #endif metaObject = &mo; }