// ----------------------------------------------------------------------------- // PosGenericInfoUser::CopyHGenericInfo // ----------------------------------------------------------------------------- // TInt PosGenericInfoUser::CopyHGenericInfo( const HPositionGenericInfo& aSrc, HPositionGenericInfo& aDes ) { //TRACESTRING( "PosGenericInfoUser::CopyHGenericInfo start" ) //TRACEHEX2( reinterpret_cast < const TUint8* >( &aSrc ), aSrc.PositionClassSize() ) //Set position TPosition position; aSrc.GetPosition( position ); aDes.SetPosition( position ); TInt err( KErrNone ); TInt fieldId = aDes.FirstRequestedFieldId(); while ( fieldId != EPositionFieldNone ) { //TRACESTRING2( "FieldId=%d", fieldId ) if ( aSrc.IsFieldAvailable( fieldId ) ) { err = CopyField( aSrc, aDes, fieldId ); if ( err != KErrNone ) { return err; } } fieldId = aDes.NextRequestedFieldId( fieldId ); } //TRACESTRING( "PosGenericInfoUser::CopyHGenericInfo end" ) return err; }
void PsyUtils::TPositionInfo2QGeoPositionInfo(TPositionInfoBase &aPosInfoBase, QGeoPositionInfo& aQPosInfo) { if (aPosInfoBase.PositionClassType() & EPositionInfoClass || aPosInfoBase.PositionClassType() & EPositionSatelliteInfoClass) { TPositionInfo *posInfo = static_cast<TPositionInfo*>(&aPosInfoBase); TPosition pos; QGeoCoordinate coord; posInfo->GetPosition(pos); coord.setLatitude(pos.Latitude()); coord.setLongitude(pos.Longitude()); coord.setAltitude(pos.Altitude()); //store the QGeoCoordinate values aQPosInfo.setCoordinate(coord); TDateTime datetime = pos.Time().DateTime(); QDateTime dt(QDate(datetime.Year() , datetime.Month() + 1, datetime.Day() + 1), QTime(datetime.Hour() , datetime.Minute(), datetime.Second(), datetime.MicroSecond() / 1000), Qt::UTC); //store the time stamp aQPosInfo.setTimestamp(dt); //store the horizontal accuracy aQPosInfo.setAttribute(QGeoPositionInfo::HorizontalAccuracy, pos.HorizontalAccuracy()); //store the vertical accuracy aQPosInfo.setAttribute(QGeoPositionInfo::VerticalAccuracy, pos.VerticalAccuracy()); if (aPosInfoBase.PositionClassType() & EPositionSatelliteInfoClass) { TCourse course; TPositionSatelliteInfo *satInfo = static_cast<TPositionSatelliteInfo*>(&aPosInfoBase); satInfo->GetCourse(course); aQPosInfo.setAttribute(QGeoPositionInfo::Direction, course.Heading()); aQPosInfo.setAttribute(QGeoPositionInfo::GroundSpeed, course.Speed()); aQPosInfo.setAttribute(QGeoPositionInfo::VerticalSpeed, course.VerticalSpeed()); } } if (aPosInfoBase.PositionClassType() & EPositionGenericInfoClass) { HPositionGenericInfo *genInfo = static_cast<HPositionGenericInfo*>(&aPosInfoBase); float val; //check for the horizontal speed if (genInfo->IsFieldAvailable(EPositionFieldHorizontalSpeed)) { genInfo->GetValue(EPositionFieldHorizontalSpeed, val); aQPosInfo.setAttribute(QGeoPositionInfo::GroundSpeed, val); } //check for the vertcal speed if (genInfo->IsFieldAvailable(EPositionFieldVerticalSpeed)) { genInfo->GetValue(EPositionFieldVerticalSpeed, val); aQPosInfo.setAttribute(QGeoPositionInfo::VerticalSpeed, val); } //check for the magnetic variation if (genInfo->IsFieldAvailable(EPositionFieldMagneticCourseError)) { genInfo->GetValue(EPositionFieldMagneticCourseError, val); aQPosInfo.setAttribute(QGeoPositionInfo::MagneticVariation, val); } //check for the heading if (genInfo->IsFieldAvailable(EPositionFieldHeading)) { genInfo->GetValue(EPositionFieldHeading, val); aQPosInfo.setAttribute(QGeoPositionInfo::Direction, val); } } }