// // Copyright 2006 Jim Bublitz // Earlier copyrights 1998 - 2005 Jim Bublitz and/or Phil Thompson // may also apply // Generated by preSip // module tdecore version KDE 3.5.3 // This software is free software; you can redistribute it and/or // modify it under the terms of the GNU General Public License as // published by the Free Software Foundation; either version 2 of // the License, or (at your option) any later version. // // This software is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public // License along with this library; see the file COPYING. // If not, write to the Free Software Foundation, Inc., // 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. %If ( KDE_3_5_0 - ) class KTimezoneSource : KShared { %TypeHeaderCode #include %End public: KTimezoneSource (const TQString&); virtual TQString db (); virtual bool parse (const TQString&, KTimezoneDetails&) const; }; // class KTimezoneSource %End %If ( KDE_3_5_0 - ) class KTimezone { %TypeHeaderCode #include %End public: static const float UNKNOWN; static bool isValidLatitude (float); static bool isValidLongitude (float); KTimezone (KSharedPtr, const TQString&, const TQString& = TQString (), float = KTimezone ::UNKNOWN , float = KTimezone ::UNKNOWN , const TQString& = TQString ()); TQString name () const; TQString countryCode () const; float latitude () const; float longitude () const; int offset (TQt::TimeSpec = TQt ::UTC ) const; int offset (const TQDateTime&) const; TQDateTime convert (const KTimezone*, const TQDateTime&) const; TQString comment () const; bool parse (KTimezoneDetails&) const; private: KTimezone (const KTimezone&); public: //force typedef KSharedPtr TZSourcePtr; //end }; // class KTimezone %End %If ( KDE_3_5_0 - ) class KTimezoneDetails { %TypeHeaderCode #include %End public: KTimezoneDetails (); virtual void parseEnded (); virtual void parseStarted (); virtual void gotHeader (uint, uint, uint, uint, uint, uint); virtual void gotTransitionTime (int, uint); virtual void gotLocalTimeIndex (int, uint); virtual void gotLocalTime (int, int, bool, uint); virtual void gotAbbreviation (int, const TQString&); virtual void gotLeapAdjustment (int, uint, uint); virtual void gotIsStandard (int, bool); virtual void gotIsUTC (int, bool); }; // class KTimezoneDetails %End %If ( KDE_3_5_0 - ) class KTimezones { %TypeHeaderCode #include %End public: KTimezones (); const KTimezone* local (); const KTimezone* zone (const TQString&); typedef TQMap ZoneMap; const KTimezones::ZoneMap allZones (); void add (KTimezone*); private: KTimezones (const KTimezones&); }; // class KTimezones %End %If (KDE_3_5_0 - ) %MappedType KSharedPtr //converts KSharedPtr { %TypeHeaderCode #include #include %End %ConvertFromTypeCode // Convert to a Python instance if (!sipCpp) return NULL; KSharedPtr *cPtr = new KSharedPtr (*(KSharedPtr *)sipCpp); KTimezoneSource *cpp = cPtr->data (); PyObject *obj = sipConvertFromInstance (cpp, sipClass_KTimezoneSource, sipTransferObj); return obj; %End %ConvertToTypeCode // Convert a Python instance to a Ptr on the heap. if (sipIsErr == NULL) return PyInstance_Check(sipPy); int iserr = 0; KTimezoneSource *cpp = (KTimezoneSource *)sipForceConvertToType(sipPy, sipType_KTimezoneSource, sipTransferObj, SIP_NO_CONVERTORS, NULL, &iserr); if (iserr) { *sipIsErr = 1; return 0; } *sipCppPtr = new KSharedPtr (cpp); return 1; %End }; %End %If (KDE_3_5_0 - ) %MappedType KTimezones::ZoneMap //converts a Python dict of TQString:KTimezone { %TypeHeaderCode #include #include #include %End %ConvertFromTypeCode // Convert to a Python dict if (!sipCpp) return PyDict_New(); PyObject *dict; // Create the dictionary. if ((dict = PyDict_New()) == NULL) return NULL; // Get it. const TQMap cppmap = *sipCpp; TQMap::ConstIterator it; for (it = cppmap.begin (); it != cppmap.end (); ++it) { TQString acpp = it.key (); KTimezone *bcpp = it.data (); PyObject *ainst; PyObject *binst = NULL; if (((ainst = sipConvertFromNewType(new TQString(acpp), sipType_TQString, sipTransferObj)) == NULL) || ((binst = sipConvertFromType(bcpp, sipType_KTimezone, sipTransferObj)) == NULL) || (PyDict_SetItem (dict, ainst, binst) < 0)) { Py_XDECREF (ainst); Py_XDECREF (binst); Py_DECREF (dict); return NULL; } } return dict; %End %ConvertToTypeCode // Convert a Python dictionary to a TQMap on the heap. if (sipIsErr == NULL) return PyDict_Check(sipPy); TQMap *cppmap = new TQMap; PyObject *aelem, *belem; SIP_SSIZE_T pos = 0; TQString *acpp; KTimezone *bcpp; while (PyDict_Next(sipPy, &pos, &aelem, &belem)) { int iserr = 0, acpp_state; acpp = (TQString *)sipForceConvertToType(aelem, sipType_TQString, sipTransferObj, SIP_NOT_NONE, &acpp_state, &iserr); bcpp = (KTimezone *)sipForceConvertToType(belem, sipType_KTimezone, sipTransferObj, SIP_NO_CONVERTORS, NULL, &iserr); if (iserr) { if (acpp) sipReleaseType(acpp, sipType_TQString, acpp_state); *sipIsErr = 1; delete cppmap; return 0; } cppmap->insert (*acpp, bcpp); sipReleaseType(acpp, sipType_TQString, acpp_state); } *sipCppPtr = cppmap; return 1; %End }; %End