/**************************************************************************** ** QCamAutoGuidageSimple meta object code from reading C++ file 'QCamAutoGuidageSimple.hpp' ** ** Created: Mon May 15 10:35:02 2006 ** by: The Qt MOC ($Id: qt/moc_yacc.cpp 3.3.5 edited Sep 2 14:41 $) ** ** WARNING! All changes made in this file will be lost! *****************************************************************************/ #undef QT_NO_COMPAT #include "QCamAutoGuidageSimple.hpp" #include #include #include #if !defined(Q_MOC_OUTPUT_REVISION) || (Q_MOC_OUTPUT_REVISION != 26) #error "This file was generated using the moc from 3.3.5. It" #error "cannot be used with the include files from this version of Qt." #error "(The moc has changed too much.)" #endif const char *QCamAutoGuidageSimple::className() const { return "QCamAutoGuidageSimple"; } QMetaObject *QCamAutoGuidageSimple::metaObj = 0; static QMetaObjectCleanUp cleanUp_QCamAutoGuidageSimple( "QCamAutoGuidageSimple", &QCamAutoGuidageSimple::staticMetaObject ); #ifndef QT_NO_TRANSLATION QString QCamAutoGuidageSimple::tr( const char *s, const char *c ) { if ( qApp ) return qApp->translate( "QCamAutoGuidageSimple", s, c, QApplication::DefaultCodec ); else return QString::fromLatin1( s ); } #ifndef QT_NO_TRANSLATION_UTF8 QString QCamAutoGuidageSimple::trUtf8( const char *s, const char *c ) { if ( qApp ) return qApp->translate( "QCamAutoGuidageSimple", s, c, QApplication::UnicodeUTF8 ); else return QString::fromUtf8( s ); } #endif // QT_NO_TRANSLATION_UTF8 #endif // QT_NO_TRANSLATION QMetaObject* QCamAutoGuidageSimple::staticMetaObject() { if ( metaObj ) return metaObj; QMetaObject* parentObject = QCamAutoGuidage::staticMetaObject(); static const QUParameter param_slot_0[] = { { "swap", &static_QUType_bool, 0, QUParameter::In } }; static const QUMethod slot_0 = {"swapEW", 1, param_slot_0 }; static const QUParameter param_slot_1[] = { { "swap", &static_QUType_bool, 0, QUParameter::In } }; static const QUMethod slot_1 = {"swapNS", 1, param_slot_1 }; static const QUParameter param_slot_2[] = { { "center", &static_QUType_bool, 0, QUParameter::In } }; static const QUMethod slot_2 = {"setCenter", 1, param_slot_2 }; static const QUParameter param_slot_3[] = { { "shift", &static_QUType_ptr, "ShiftInfo", QUParameter::In } }; static const QUMethod slot_3 = {"frameShift", 1, param_slot_3 }; static const QUParameter param_slot_4[] = { { "v", &static_QUType_double, 0, QUParameter::In } }; static const QUMethod slot_4 = {"setMinShift", 1, param_slot_4 }; static const QUParameter param_slot_5[] = { { "v", &static_QUType_double, 0, QUParameter::In } }; static const QUMethod slot_5 = {"setMaxShift", 1, param_slot_5 }; static const QUParameter param_slot_6[] = { { "v", &static_QUType_int, 0, QUParameter::In } }; static const QUMethod slot_6 = {"setMinShift", 1, param_slot_6 }; static const QUParameter param_slot_7[] = { { "v", &static_QUType_int, 0, QUParameter::In } }; static const QUMethod slot_7 = {"setMaxShift", 1, param_slot_7 }; static const QMetaData slot_tbl[] = { { "swapEW(bool)", &slot_0, QMetaData::Protected }, { "swapNS(bool)", &slot_1, QMetaData::Protected }, { "setCenter(bool)", &slot_2, QMetaData::Protected }, { "frameShift(const ShiftInfo&)", &slot_3, QMetaData::Protected }, { "setMinShift(double)", &slot_4, QMetaData::Protected }, { "setMaxShift(double)", &slot_5, QMetaData::Protected }, { "setMinShift(int)", &slot_6, QMetaData::Protected }, { "setMaxShift(int)", &slot_7, QMetaData::Protected } }; static const QUParameter param_signal_0[] = { { 0, &static_QUType_double, 0, QUParameter::In } }; static const QUMethod signal_0 = {"shiftAlt", 1, param_signal_0 }; static const QUParameter param_signal_1[] = { { 0, &static_QUType_double, 0, QUParameter::In } }; static const QUMethod signal_1 = {"shiftAsc", 1, param_signal_1 }; static const QMetaData signal_tbl[] = { { "shiftAlt(double)", &signal_0, QMetaData::Protected }, { "shiftAsc(double)", &signal_1, QMetaData::Protected } }; metaObj = QMetaObject::new_metaobject( "QCamAutoGuidageSimple", parentObject, slot_tbl, 8, signal_tbl, 2, #ifndef QT_NO_PROPERTIES 0, 0, 0, 0, #endif // QT_NO_PROPERTIES 0, 0 ); cleanUp_QCamAutoGuidageSimple.setMetaObject( metaObj ); return metaObj; } void* QCamAutoGuidageSimple::qt_cast( const char* clname ) { if ( !qstrcmp( clname, "QCamAutoGuidageSimple" ) ) return this; return QCamAutoGuidage::qt_cast( clname ); } // SIGNAL shiftAlt void QCamAutoGuidageSimple::shiftAlt( double t0 ) { activate_signal( staticMetaObject()->signalOffset() + 0, t0 ); } // SIGNAL shiftAsc void QCamAutoGuidageSimple::shiftAsc( double t0 ) { activate_signal( staticMetaObject()->signalOffset() + 1, t0 ); } bool QCamAutoGuidageSimple::qt_invoke( int _id, QUObject* _o ) { switch ( _id - staticMetaObject()->slotOffset() ) { case 0: swapEW((bool)static_QUType_bool.get(_o+1)); break; case 1: swapNS((bool)static_QUType_bool.get(_o+1)); break; case 2: setCenter((bool)static_QUType_bool.get(_o+1)); break; case 3: frameShift((const ShiftInfo&)*((const ShiftInfo*)static_QUType_ptr.get(_o+1))); break; case 4: setMinShift((double)static_QUType_double.get(_o+1)); break; case 5: setMaxShift((double)static_QUType_double.get(_o+1)); break; case 6: setMinShift((int)static_QUType_int.get(_o+1)); break; case 7: setMaxShift((int)static_QUType_int.get(_o+1)); break; default: return QCamAutoGuidage::qt_invoke( _id, _o ); } return TRUE; } bool QCamAutoGuidageSimple::qt_emit( int _id, QUObject* _o ) { switch ( _id - staticMetaObject()->signalOffset() ) { case 0: shiftAlt((double)static_QUType_double.get(_o+1)); break; case 1: shiftAsc((double)static_QUType_double.get(_o+1)); break; default: return QCamAutoGuidage::qt_emit(_id,_o); } return TRUE; } #ifndef QT_NO_PROPERTIES bool QCamAutoGuidageSimple::qt_property( int id, int f, QVariant* v) { return QCamAutoGuidage::qt_property( id, f, v); } bool QCamAutoGuidageSimple::qt_static_property( QObject* , int , int , QVariant* ){ return FALSE; } #endif // QT_NO_PROPERTIES const char *TrackingControl::className() const { return "TrackingControl"; } QMetaObject *TrackingControl::metaObj = 0; static QMetaObjectCleanUp cleanUp_TrackingControl( "TrackingControl", &TrackingControl::staticMetaObject ); #ifndef QT_NO_TRANSLATION QString TrackingControl::tr( const char *s, const char *c ) { if ( qApp ) return qApp->translate( "TrackingControl", s, c, QApplication::DefaultCodec ); else return QString::fromLatin1( s ); } #ifndef QT_NO_TRANSLATION_UTF8 QString TrackingControl::trUtf8( const char *s, const char *c ) { if ( qApp ) return qApp->translate( "TrackingControl", s, c, QApplication::UnicodeUTF8 ); else return QString::fromUtf8( s ); } #endif // QT_NO_TRANSLATION_UTF8 #endif // QT_NO_TRANSLATION QMetaObject* TrackingControl::staticMetaObject() { if ( metaObj ) return metaObj; QMetaObject* parentObject = QHBox::staticMetaObject(); static const QUParameter param_slot_0[] = { { "shift", &static_QUType_double, 0, QUParameter::In } }; static const QUMethod slot_0 = {"setShift", 1, param_slot_0 }; static const QUParameter param_slot_1[] = { { "min", &static_QUType_int, 0, QUParameter::In } }; static const QUMethod slot_1 = {"setMin", 1, param_slot_1 }; static const QUParameter param_slot_2[] = { { "max", &static_QUType_int, 0, QUParameter::In } }; static const QUMethod slot_2 = {"setMax", 1, param_slot_2 }; static const QUParameter param_slot_3[] = { { 0, &static_QUType_QString, 0, QUParameter::In } }; static const QUMethod slot_3 = {"setMin", 1, param_slot_3 }; static const QUParameter param_slot_4[] = { { 0, &static_QUType_QString, 0, QUParameter::In } }; static const QUMethod slot_4 = {"setMax", 1, param_slot_4 }; static const QUParameter param_slot_5[] = { { 0, &static_QUType_ptr, "MoveDir", QUParameter::In } }; static const QUMethod slot_5 = {"setMoveDir", 1, param_slot_5 }; static const QMetaData slot_tbl[] = { { "setShift(double)", &slot_0, QMetaData::Public }, { "setMin(int)", &slot_1, QMetaData::Public }, { "setMax(int)", &slot_2, QMetaData::Public }, { "setMin(const QString&)", &slot_3, QMetaData::Public }, { "setMax(const QString&)", &slot_4, QMetaData::Public }, { "setMoveDir(MoveDir)", &slot_5, QMetaData::Public } }; static const QUParameter param_signal_0[] = { { 0, &static_QUType_int, 0, QUParameter::In } }; static const QUMethod signal_0 = {"minChanged", 1, param_signal_0 }; static const QUParameter param_signal_1[] = { { 0, &static_QUType_int, 0, QUParameter::In } }; static const QUMethod signal_1 = {"maxChanged", 1, param_signal_1 }; static const QMetaData signal_tbl[] = { { "minChanged(int)", &signal_0, QMetaData::Public }, { "maxChanged(int)", &signal_1, QMetaData::Public } }; metaObj = QMetaObject::new_metaobject( "TrackingControl", parentObject, slot_tbl, 6, signal_tbl, 2, #ifndef QT_NO_PROPERTIES 0, 0, 0, 0, #endif // QT_NO_PROPERTIES 0, 0 ); cleanUp_TrackingControl.setMetaObject( metaObj ); return metaObj; } void* TrackingControl::qt_cast( const char* clname ) { if ( !qstrcmp( clname, "TrackingControl" ) ) return this; return QHBox::qt_cast( clname ); } // SIGNAL minChanged void TrackingControl::minChanged( int t0 ) { activate_signal( staticMetaObject()->signalOffset() + 0, t0 ); } // SIGNAL maxChanged void TrackingControl::maxChanged( int t0 ) { activate_signal( staticMetaObject()->signalOffset() + 1, t0 ); } bool TrackingControl::qt_invoke( int _id, QUObject* _o ) { switch ( _id - staticMetaObject()->slotOffset() ) { case 0: setShift((double)static_QUType_double.get(_o+1)); break; case 1: setMin((int)static_QUType_int.get(_o+1)); break; case 2: setMax((int)static_QUType_int.get(_o+1)); break; case 3: setMin((const QString&)static_QUType_QString.get(_o+1)); break; case 4: setMax((const QString&)static_QUType_QString.get(_o+1)); break; case 5: setMoveDir((MoveDir)(*((MoveDir*)static_QUType_ptr.get(_o+1)))); break; default: return QHBox::qt_invoke( _id, _o ); } return TRUE; } bool TrackingControl::qt_emit( int _id, QUObject* _o ) { switch ( _id - staticMetaObject()->signalOffset() ) { case 0: minChanged((int)static_QUType_int.get(_o+1)); break; case 1: maxChanged((int)static_QUType_int.get(_o+1)); break; default: return QHBox::qt_emit(_id,_o); } return TRUE; } #ifndef QT_NO_PROPERTIES bool TrackingControl::qt_property( int id, int f, QVariant* v) { return QHBox::qt_property( id, f, v); } bool TrackingControl::qt_static_property( QObject* , int , int , QVariant* ){ return FALSE; } #endif // QT_NO_PROPERTIES