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389 lines
10 KiB
389 lines
10 KiB
#ifndef _KPILOT_PILOTDATEENTRY_H
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#define _KPILOT_PILOTDATEENTRY_H
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/* pilotDateEntry.h KPilot
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**
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** Copyright (C) 1998-2001 by Dan Pilone
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** Copyright (C) 2003-2004 Reinhold Kainhofer <reinhold@kainhofer.com>
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**
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** See the .cpp file for an explanation of what this file is for.
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*/
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/** @file pilotDateEntry.h defines a wrapper for datebook entries. */
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/*
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** This program is free software; you can redistribute it and/or modify
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** it under the terms of the GNU Lesser General Public License as published by
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** the Free Software Foundation; either version 2.1 of the License, or
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** (at your option) any later version.
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**
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** This program is distributed in the hope that it will be useful,
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** but WITHOUT ANY WARRANTY; without even the implied warranty of
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** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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** GNU Lesser General Public License for more details.
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**
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** You should have received a copy of the GNU Lesser General Public License
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** along with this program in a file called COPYING; if not, write to
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** the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
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** MA 02110-1301, USA.
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*/
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/*
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** Bug reports and questions can be sent to kde-pim@kde.org
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*/
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#include <pi-macros.h>
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#include <pi-datebook.h>
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#include <tqbitarray.h>
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#include <tqdatetime.h>
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#include <tqnamespace.h>
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#include "pilotRecord.h"
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#include "pilotAppInfo.h"
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namespace KCal
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{
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class Event;
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}
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/** Interpreted form of the AppInfo block in the datebook database. */
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typedef PilotAppInfo<
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AppointmentAppInfo,
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unpack_AppointmentAppInfo,
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pack_AppointmentAppInfo> PilotDateInfo_;
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class PilotDateInfo : public PilotDateInfo_
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{
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public:
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PilotDateInfo(PilotDatabase *d) : PilotDateInfo_(d)
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{
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}
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/** This resets the entire AppInfo block to one as it would be
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* in an English-language handheld, with 3 categories and
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* default field labels for everything.
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*/
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void resetToDefault();
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};
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/** This class is a wrapper for pilot-link's datebook entries (struct Appointment). */
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class KDE_EXPORT PilotDateEntry : public PilotRecordBase
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{
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public:
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/** Constructor. Zeroes out the appointment. */
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PilotDateEntry();
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/** Constructor. Interprets the given record as an appointment. */
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PilotDateEntry(PilotRecord *rec);
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/** Copy constructor. */
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PilotDateEntry(const PilotDateEntry &e);
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/** Destructor. */
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~PilotDateEntry()
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{
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free_Appointment(&fAppointmentInfo);
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}
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/** Assignment operator. */
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PilotDateEntry& operator=(const PilotDateEntry &e);
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/** Create a textual representation (human-readable) of this appointment.
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* If @p richText is true, then the text representation uses qt style
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* tags as well.
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*/
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TQString getTextRepresentation(TQt::TextFormat richText);
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/** Is this appointment a "floating" appointment?
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*
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* Floating appointments are those that have a day assigned, but no time
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* in that day (birthday appointments are like that). You can think of these
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* as "events", which don't have a time associated with them for a given day,
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* as opposed to a regular "appointment", which does normally have a time
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* associated with it.
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*/
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inline bool doesFloat() const
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{
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return fAppointmentInfo.event;
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}
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/** Is this a non-time-related event as opposed to an appointment that has a
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* time associated with it?.
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*/
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inline bool isEvent() const
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{
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return doesFloat();
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}
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/** Sets this appointment's floating status.
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*
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* Floating appointments are those that have a day assigned, but no time
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* in that day (birthday appointments are like that). You can think of these
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* as "events", which don't have a time associated with them for a given day,
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* as opposed to a regular "appointment", which does normally have a time
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* associated with it.
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*/
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inline void setFloats(bool f)
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{
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fAppointmentInfo.event = (f ? 1 : 0) /* Force 1 or 0 */ ;
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}
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/** Get the start time of this appointment. See dtStart() for caveats. */
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inline struct tm getEventStart() const { return fAppointmentInfo.begin; }
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/** Get a pointer to the start time of this appointment. See dtStart() for caveats. */
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inline const struct tm *getEventStart_p() const
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{
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return &fAppointmentInfo.begin;
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}
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/** Sets the start time of this appointment. */
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inline void setEventStart(struct tm& start)
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{
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fAppointmentInfo.begin = start;
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}
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/** Get the start time of this appointment. For floating appointments, the
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* time is undefined (perhaps 1 minute past midnight).
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*
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* Floating appointments are those that have a day assigned, but no time
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* in that day (birthday appointments are like that).
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*/
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TQDateTime dtStart() const;
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/** Get the end time of this appointment. See dtEnd() for caveats. */
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inline struct tm getEventEnd() const
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{
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return fAppointmentInfo.end;
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}
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/** Get a pointer to the end time of this appointment. See dtEnd() for caveats. */
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inline const struct tm *getEventEnd_p() const
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{
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return &fAppointmentInfo.end;
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}
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/** Set the end time of this appointment. */
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inline void setEventEnd(struct tm& end)
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{
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fAppointmentInfo.end = end;
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}
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/** Get the end time of this appointment. For floating appointments, the
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* time is undefined (perhaps 1 minute past midnight).
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*
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* Floating appointments are those that have a day assigned, but no time
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* in that day (birthday appointments are like that).
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*/
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TQDateTime dtEnd() const;
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/** Does this appointment have an alarm set? On the Pilot, an event
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* may have an alarm (or not). If it has one, it is also enabled and
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* causes the Pilot to beep (or whatever is set in the system preferences).
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*/
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inline bool isAlarmEnabled() const
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{
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return fAppointmentInfo.alarm;
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}
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/** Set whether this appointment has an alarm. */
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inline void setAlarmEnabled(bool b)
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{
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fAppointmentInfo.alarm = (b?1:0) /* Force to known int values */ ;
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}
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/** Get the numeric part of "alarm: __ (v) minutes" on the pilot -- you
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* set the alarm time in two parts, a number and a unit type to use; unit
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* types are minutes, hours, days and the number is whatever you like.
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*
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* If alarms are not enabled for this appointment, returns garbage.
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*
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* @see alarmLeadTime()
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* @see dtAlarm()
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*/
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inline int getAdvance() const
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{
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return fAppointmentInfo.advance;
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}
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/** Set the numeric part of the alarm setting. See getAdvance for details. */
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inline void setAdvance(int advance)
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{
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fAppointmentInfo.advance = advance;
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}
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/** Returns the units part of the alarm time. See getAdvance . */
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inline int getAdvanceUnits() const
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{
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return fAppointmentInfo.advanceUnits;
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}
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/** Sets the unites part of the alarm time. See getAdvance . */
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inline void setAdvanceUnits(int units)
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{
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fAppointmentInfo.advanceUnits = units;
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}
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/** Returns the number of @em seconds "lead time" the alarm should sound
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* before the actual appointment. This interprets the advance number and units.
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* The value is always positive, 0 if no alarms are enabled.
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*/
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unsigned int alarmLeadTime() const;
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/** Returns the absolute date and time that the alarm should sound for
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* this appointment.
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*/
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inline TQDateTime dtAlarm() const
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{
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return dtStart().addSecs(-alarmLeadTime());
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}
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// The following need set routines written
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inline repeatTypes getRepeatType() const
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{
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return fAppointmentInfo.repeatType;
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}
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inline void setRepeatType(repeatTypes r)
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{
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fAppointmentInfo.repeatType = r;
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}
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inline int getRepeatForever() const
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{
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return fAppointmentInfo.repeatForever;
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}
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inline void setRepeatForever(int f = 1)
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{
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fAppointmentInfo.repeatForever = f;
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}
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inline struct tm getRepeatEnd() const
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{
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return fAppointmentInfo.repeatEnd;
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}
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inline void setRepeatEnd(struct tm tm)
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{
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fAppointmentInfo.repeatEnd = tm;
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}
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/** Returns the date and time that the repeat ends. If there is no repeat,
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* returns an invalid date and time.
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*/
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TQDateTime dtRepeatEnd() const;
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inline int getRepeatFrequency() const
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{
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return fAppointmentInfo.repeatFrequency;
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}
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inline void setRepeatFrequency(int f)
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{
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fAppointmentInfo.repeatFrequency = f;
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}
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inline DayOfMonthType getRepeatDay() const
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{
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return fAppointmentInfo.repeatDay;
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}
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inline void setRepeatDay(DayOfMonthType rd)
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{
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fAppointmentInfo.repeatDay = rd;
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};
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inline const int *getRepeatDays() const
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{
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return fAppointmentInfo.repeatDays;
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}
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inline void setRepeatDays(int *rd)
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{
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for (int i = 0; i < 7; i++)
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{
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fAppointmentInfo.repeatDays[i] = rd[i];
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}
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}
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inline void setRepeatDays(TQBitArray rba)
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{
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for (int i = 0; i < 7; i++)
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{
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fAppointmentInfo.repeatDays[i] = (rba[i] ? 1 : 0);
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}
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}
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inline int getExceptionCount() const
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{
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return fAppointmentInfo.exceptions;
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}
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inline void setExceptionCount(int e)
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{
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fAppointmentInfo.exceptions = e;
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}
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inline const struct tm *getExceptions() const
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{
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return fAppointmentInfo.exception;
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}
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void setExceptions(struct tm *e);
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/** Sets the description of the appointment. This is the short string
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* entered in the day view on the handheld, and it is called the summary
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* in libkcal.
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*/
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void setDescription(const TQString &);
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/** Gets the description of the appointment. See setDescription for meaning. */
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TQString getDescription() const;
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/** Sets the note for the appointment. The note is the long text entry
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* that is possible - but clumsy - on the handheld. It is called the
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* description in libkcal.
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*/
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void setNote(const TQString &);
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/** Gets the note for this appointment. See setNote for meaning. */
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TQString getNote() const;
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/**
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* Sets the location for the appointment. For now it will be placed within
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* the notes on the handheld. It will be placed on one line and starts with:
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* Location: {location}. Everything on that line will be counted as location.
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* TODO: Make distinguish between handhelds that support the location field
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* and the ones that don't. (Shouldn't this be done in the pilot-link lib?)
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*/
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void setLocation(const TQString &);
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/** Gets the location for this appointment. See setNote for meaning. */
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TQString getLocation() const;
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protected:
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void setDescriptionP(const char* desc, int l=-1);
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const char* getDescriptionP() const
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{
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return fAppointmentInfo.description;
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}
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void setNoteP(const char* note, int l=-1);
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const char* getNoteP() const
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{
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return fAppointmentInfo.note;
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}
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public:
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bool isMultiDay() const
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{
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return ((fAppointmentInfo.repeatType == repeatDaily) &&
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(fAppointmentInfo.repeatFrequency == 1) &&
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( !getRepeatForever() ) &&
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!doesFloat() );
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}
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PilotRecord *pack() const;
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private:
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struct Appointment fAppointmentInfo;
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void _copyExceptions(const PilotDateEntry &e);
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};
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#endif
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