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-rw-r--r--libkcal/calendar.cpp6
-rw-r--r--libkcal/calendarlocal.cpp6
-rw-r--r--libkcal/calfilter.cpp6
-rw-r--r--libkcal/event.h1
-rw-r--r--libkcal/freebusy.h1
-rw-r--r--libkcal/icalformat.cpp4
-rw-r--r--libkcal/icalformatimpl.cpp6
-rw-r--r--libkcal/incidence.cpp6
-rw-r--r--libkcal/incidencebase.h2
-rw-r--r--libkcal/journal.h1
-rw-r--r--libkcal/kincidenceformatter.cpp4
-rw-r--r--libkcal/todo.cpp5
-rw-r--r--libkcal/todo.h1
13 files changed, 26 insertions, 23 deletions
diff --git a/libkcal/calendar.cpp b/libkcal/calendar.cpp
index ed39ddb..7e8e2c5 100644
--- a/libkcal/calendar.cpp
+++ b/libkcal/calendar.cpp
@@ -164,312 +164,312 @@ QString Calendar::getTimeZoneStr() const
{
if (mLocalTime)
return "";
QString tmpStr;
int hours = abs(mTimeZone / 60);
int minutes = abs(mTimeZone % 60);
bool neg = mTimeZone < 0;
tmpStr.sprintf("%c%.2d%.2d",
(neg ? '-' : '+'),
hours, minutes);
return tmpStr;
}
void Calendar::setTimeZone(int tz)
{
mTimeZone = tz;
mLocalTime = false;
setModified( true );
}
int Calendar::getTimeZone() const
{
return mTimeZone;
}
void Calendar::setTimeZoneId(const QString &id)
{
mTimeZoneId = id;
mLocalTime = false;
mTimeZone = KGlobal::locale()->timezoneOffset(mTimeZoneId);
if ( mTimeZone > 1000)
setLocalTime();
//qDebug("Calendar::setTimeZoneOffset %s %d ",mTimeZoneId.latin1(), mTimeZone);
setModified( true );
}
QString Calendar::timeZoneId() const
{
return mTimeZoneId;
}
void Calendar::setLocalTime()
{
//qDebug("Calendar::setLocalTime() ");
mLocalTime = true;
mTimeZone = 0;
mTimeZoneId = "";
setModified( true );
}
bool Calendar::isLocalTime() const
{
return mLocalTime;
}
const QString &Calendar::getEmail()
{
return mOwnerEmail;
}
void Calendar::setEmail(const QString &e)
{
mOwnerEmail = e;
setModified( true );
}
void Calendar::setFilter(CalFilter *filter)
{
mFilter = filter;
}
CalFilter *Calendar::filter()
{
return mFilter;
}
QPtrList<Incidence> Calendar::incidences()
{
QPtrList<Incidence> incidences;
Incidence *i;
QPtrList<Event> e = events();
for( i = e.first(); i; i = e.next() ) incidences.append( i );
QPtrList<Todo> t = todos();
for( i = t.first(); i; i = t.next() ) incidences.append( i );
QPtrList<Journal> j = journals();
for( i = j.first(); i; i = j.next() ) incidences.append( i );
return incidences;
}
void Calendar::resetPilotStat(int id )
{
QPtrList<Incidence> incidences;
Incidence *i;
QPtrList<Event> e = rawEvents();
for( i = e.first(); i; i = e.next() ) i->setPilotId( id );
QPtrList<Todo> t = rawTodos();
for( i = t.first(); i; i = t.next() ) i->setPilotId( id );
QPtrList<Journal> j = journals();
for( i = j.first(); i; i = j.next() ) i->setPilotId( id );
}
void Calendar::resetTempSyncStat()
{
QPtrList<Incidence> incidences;
Incidence *i;
QPtrList<Event> e = rawEvents();
for( i = e.first(); i; i = e.next() ) i->setTempSyncStat( SYNC_TEMPSTATE_INITIAL );
QPtrList<Todo> t = rawTodos();
for( i = t.first(); i; i = t.next() ) i->setTempSyncStat( SYNC_TEMPSTATE_INITIAL );
QPtrList<Journal> j = journals();
for( i = j.first(); i; i = j.next() ) i->setTempSyncStat( SYNC_TEMPSTATE_INITIAL );
}
QPtrList<Incidence> Calendar::rawIncidences()
{
QPtrList<Incidence> incidences;
Incidence *i;
QPtrList<Event> e = rawEvents();
for( i = e.first(); i; i = e.next() ) incidences.append( i );
QPtrList<Todo> t = rawTodos();
for( i = t.first(); i; i = t.next() ) incidences.append( i );
QPtrList<Journal> j = journals();
for( i = j.first(); i; i = j.next() ) incidences.append( i );
return incidences;
}
QPtrList<Event> Calendar::events( const QDate &date, bool sorted )
{
QPtrList<Event> el = rawEventsForDate(date,sorted);
mFilter->apply(&el);
return el;
}
QPtrList<Event> Calendar::events( const QDateTime &qdt )
{
QPtrList<Event> el = rawEventsForDate(qdt);
mFilter->apply(&el);
return el;
}
QPtrList<Event> Calendar::events( const QDate &start, const QDate &end,
bool inclusive)
{
QPtrList<Event> el = rawEvents(start,end,inclusive);
mFilter->apply(&el);
return el;
}
QPtrList<Event> Calendar::events()
{
QPtrList<Event> el = rawEvents();
mFilter->apply(&el);
return el;
}
void Calendar::addIncidenceBranch(Incidence *i)
{
addIncidence( i );
Incidence * inc;
QPtrList<Incidence> Relations = i->relations();
for (inc=Relations.first();inc;inc=Relations.next()) {
addIncidenceBranch( inc );
}
}
bool Calendar::addIncidence(Incidence *i)
{
Incidence::AddVisitor<Calendar> v(this);
return i->accept(v);
}
void Calendar::deleteIncidence(Incidence *in)
{
- if ( in->type() == "Event" )
+ if ( in->typeID() == eventID )
deleteEvent( (Event*) in );
- else if ( in->type() =="Todo" )
+ else if ( in->typeID() == todoID )
deleteTodo( (Todo*) in);
- else if ( in->type() =="Journal" )
+ else if ( in->typeID() == journalID )
deleteJournal( (Journal*) in );
}
Incidence* Calendar::incidence( const QString& uid )
{
Incidence* i;
if( (i = todo( uid )) != 0 )
return i;
if( (i = event( uid )) != 0 )
return i;
if( (i = journal( uid )) != 0 )
return i;
return 0;
}
QPtrList<Todo> Calendar::todos()
{
QPtrList<Todo> tl = rawTodos();
mFilter->apply( &tl );
return tl;
}
// When this is called, the todo have already been added to the calendar.
// This method is only about linking related todos
void Calendar::setupRelations( Incidence *incidence )
{
QString uid = incidence->uid();
//qDebug("Calendar::setupRelations ");
// First, go over the list of orphans and see if this is their parent
while( Incidence* i = mOrphans[ uid ] ) {
mOrphans.remove( uid );
i->setRelatedTo( incidence );
incidence->addRelation( i );
mOrphanUids.remove( i->uid() );
}
// Now see about this incidences parent
if( !incidence->relatedTo() && !incidence->relatedToUid().isEmpty() ) {
// This incidence has a uid it is related to, but is not registered to it yet
// Try to find it
Incidence* parent = this->incidence( incidence->relatedToUid() );
if( parent ) {
// Found it
incidence->setRelatedTo( parent );
parent->addRelation( incidence );
} else {
// Not found, put this in the mOrphans list
mOrphans.insert( incidence->relatedToUid(), incidence );
mOrphanUids.insert( incidence->uid(), incidence );
}
}
}
// If a task with subtasks is deleted, move it's subtasks to the orphans list
void Calendar::removeRelations( Incidence *incidence )
{
// qDebug("Calendar::removeRelations ");
QString uid = incidence->uid();
QPtrList<Incidence> relations = incidence->relations();
for( Incidence* i = relations.first(); i; i = relations.next() )
if( !mOrphanUids.find( i->uid() ) ) {
mOrphans.insert( uid, i );
mOrphanUids.insert( i->uid(), i );
i->setRelatedTo( 0 );
i->setRelatedToUid( uid );
}
// If this incidence is related to something else, tell that about it
if( incidence->relatedTo() )
incidence->relatedTo()->removeRelation( incidence );
// Remove this one from the orphans list
if( mOrphanUids.remove( uid ) )
// This incidence is located in the orphans list - it should be removed
if( !( incidence->relatedTo() != 0 && mOrphans.remove( incidence->relatedTo()->uid() ) ) ) {
// Removing wasn't that easy
for( QDictIterator<Incidence> it( mOrphans ); it.current(); ++it ) {
if( it.current()->uid() == uid ) {
mOrphans.remove( it.currentKey() );
break;
}
}
}
}
void Calendar::registerObserver( Observer *observer )
{
mObserver = observer;
mNewObserver = true;
}
void Calendar::setModified( bool modified )
{
if ( mObserver ) mObserver->calendarModified( modified, this );
if ( modified != mModified || mNewObserver ) {
mNewObserver = false;
// if ( mObserver ) mObserver->calendarModified( modified, this );
mModified = modified;
}
}
void Calendar::setLoadedProductId( const QString &id )
{
mLoadedProductId = id;
}
QString Calendar::loadedProductId()
{
return mLoadedProductId;
}
//#include "calendar.moc"
diff --git a/libkcal/calendarlocal.cpp b/libkcal/calendarlocal.cpp
index bc76c0b..fe74052 100644
--- a/libkcal/calendarlocal.cpp
+++ b/libkcal/calendarlocal.cpp
@@ -269,416 +269,412 @@ Event *CalendarLocal::event( QString syncProf, QString id )
for ( todo = mEventList.first(); todo; todo = mEventList.next() ) {
if ( todo->getID( syncProf ) == id ) return todo;
}
return 0;
}
Todo *CalendarLocal::todo( const QString &uid )
{
Todo *todo;
for ( todo = mTodoList.first(); todo; todo = mTodoList.next() ) {
if ( todo->uid() == uid ) return todo;
}
return 0;
}
QString CalendarLocal::nextSummary() const
{
return mNextSummary;
}
QDateTime CalendarLocal::nextAlarmEventDateTime() const
{
return mNextAlarmEventDateTime;
}
void CalendarLocal::checkAlarmForIncidence( Incidence * incidence, bool deleted)
{
//mNextAlarmIncidence
//mNextAlarmDateTime
//return mNextSummary;
//return mNextAlarmEventDateTime;
bool newNextAlarm = false;
bool computeNextAlarm = false;
bool ok;
int offset;
QDateTime nextA;
// QString nextSum;
//QDateTime nextEvent;
if ( mNextAlarmIncidence == 0 || incidence == 0 ) {
computeNextAlarm = true;
} else {
if ( ! deleted ) {
nextA = incidence->getNextAlarmDateTime(& ok, &offset, QDateTime::currentDateTime() ) ;
if ( ok ) {
if ( nextA < mNextAlarmDateTime ) {
deRegisterAlarm();
mNextAlarmDateTime = nextA;
mNextSummary = incidence->summary();
mNextAlarmEventDateTime = nextA.addSecs(offset ) ;
mNextAlarmEventDateTimeString = KGlobal::locale()->formatDateTime(mNextAlarmEventDateTime);
newNextAlarm = true;
mNextAlarmIncidence = incidence;
} else {
if ( incidence == mNextAlarmIncidence ) {
computeNextAlarm = true;
}
}
} else {
if ( mNextAlarmIncidence == incidence ) {
computeNextAlarm = true;
}
}
} else { // deleted
if ( incidence == mNextAlarmIncidence ) {
computeNextAlarm = true;
}
}
}
if ( computeNextAlarm ) {
deRegisterAlarm();
nextA = nextAlarm( 1000 );
if (! mNextAlarmIncidence ) {
return;
}
newNextAlarm = true;
}
if ( newNextAlarm )
registerAlarm();
}
QString CalendarLocal:: getAlarmNotification()
{
QString ret;
// this should not happen
if (! mNextAlarmIncidence )
return "cal_alarm"+ mNextSummary.left( 25 )+"\n"+mNextAlarmEventDateTimeString;
Alarm* alarm = mNextAlarmIncidence->alarms().first();
if ( alarm->type() == Alarm::Procedure ) {
ret = "proc_alarm" + alarm->programFile()+"+++";
} else {
ret = "audio_alarm" +alarm->audioFile() +"+++";
}
ret += "cal_alarm"+ mNextSummary.left( 25 );
if ( mNextSummary.length() > 25 )
ret += "\n" + mNextSummary.mid(25, 25 );
ret+= "\n"+mNextAlarmEventDateTimeString;
return ret;
}
void CalendarLocal::registerAlarm()
{
mLastAlarmNotificationString = getAlarmNotification();
// qDebug("++ register Alarm %s %s",mNextAlarmDateTime.toString().latin1(), mLastAlarmNotificationString.latin1() );
emit addAlarm ( mNextAlarmDateTime, mLastAlarmNotificationString );
// #ifndef DESKTOP_VERSION
// AlarmServer::addAlarm ( mNextAlarmDateTime,"koalarm", mLastAlarmNotificationString.latin1() );
// #endif
}
void CalendarLocal::deRegisterAlarm()
{
if ( mLastAlarmNotificationString.isNull() )
return;
//qDebug("-- deregister Alarm %s ", mLastAlarmNotificationString.latin1() );
emit removeAlarm ( mNextAlarmDateTime, mLastAlarmNotificationString );
mNextAlarmEventDateTime = QDateTime();
// #ifndef DESKTOP_VERSION
// AlarmServer::deleteAlarm (mNextAlarmDateTime ,"koalarm" ,mLastAlarmNotificationString.latin1() );
// #endif
}
QPtrList<Todo> CalendarLocal::todos( const QDate &date )
{
QPtrList<Todo> todos;
Todo *todo;
for ( todo = mTodoList.first(); todo; todo = mTodoList.next() ) {
if ( todo->hasDueDate() && todo->dtDue().date() == date ) {
todos.append( todo );
}
}
filter()->apply( &todos );
return todos;
}
void CalendarLocal::reInitAlarmSettings()
{
if ( !mNextAlarmIncidence ) {
nextAlarm( 1000 );
}
deRegisterAlarm();
mNextAlarmIncidence = 0;
checkAlarmForIncidence( 0, false );
}
QDateTime CalendarLocal::nextAlarm( int daysTo )
{
QDateTime nextA = QDateTime::currentDateTime().addDays( daysTo );
QDateTime start = QDateTime::currentDateTime().addSecs( 30 );
QDateTime next;
Event *e;
bool ok;
bool found = false;
int offset;
mNextAlarmIncidence = 0;
for( e = mEventList.first(); e; e = mEventList.next() ) {
next = e->getNextAlarmDateTime(& ok, &offset, QDateTime::currentDateTime() ) ;
if ( ok ) {
if ( next < nextA ) {
nextA = next;
found = true;
mNextSummary = e->summary();
mNextAlarmEventDateTime = next.addSecs(offset ) ;
mNextAlarmIncidence = (Incidence *) e;
}
}
}
Todo *t;
for( t = mTodoList.first(); t; t = mTodoList.next() ) {
next = t->getNextAlarmDateTime(& ok, &offset, QDateTime::currentDateTime() ) ;
if ( ok ) {
if ( next < nextA ) {
nextA = next;
found = true;
mNextSummary = t->summary();
mNextAlarmEventDateTime = next.addSecs(offset );
mNextAlarmIncidence = (Incidence *) t;
}
}
}
if ( mNextAlarmIncidence ) {
mNextAlarmEventDateTimeString = KGlobal::locale()->formatDateTime(mNextAlarmEventDateTime);
mNextAlarmDateTime = nextA;
}
return nextA;
}
Alarm::List CalendarLocal::alarmsTo( const QDateTime &to )
{
return alarms( QDateTime( QDate( 1900, 1, 1 ) ), to );
}
Alarm::List CalendarLocal::alarms( const QDateTime &from, const QDateTime &to )
{
- kdDebug(5800) << "CalendarLocal::alarms(" << from.toString() << " - "
- << to.toString() << ")\n";
-
+
Alarm::List alarms;
Event *e;
for( e = mEventList.first(); e; e = mEventList.next() ) {
if ( e->doesRecur() ) appendRecurringAlarms( alarms, e, from, to );
else appendAlarms( alarms, e, from, to );
}
Todo *t;
for( t = mTodoList.first(); t; t = mTodoList.next() ) {
appendAlarms( alarms, t, from, to );
}
return alarms;
}
void CalendarLocal::appendAlarms( Alarm::List &alarms, Incidence *incidence,
const QDateTime &from, const QDateTime &to )
{
QPtrList<Alarm> alarmList = incidence->alarms();
Alarm *alarm;
for( alarm = alarmList.first(); alarm; alarm = alarmList.next() ) {
// kdDebug(5800) << "CalendarLocal::appendAlarms() '" << alarm->text()
// << "': " << alarm->time().toString() << " - " << alarm->enabled() << endl;
if ( alarm->enabled() ) {
if ( alarm->time() >= from && alarm->time() <= to ) {
- kdDebug(5800) << "CalendarLocal::appendAlarms() '" << incidence->summary()
- << "': " << alarm->time().toString() << endl;
alarms.append( alarm );
}
}
}
}
void CalendarLocal::appendRecurringAlarms( Alarm::List &alarms,
Incidence *incidence,
const QDateTime &from,
const QDateTime &to )
{
QPtrList<Alarm> alarmList = incidence->alarms();
Alarm *alarm;
QDateTime qdt;
for( alarm = alarmList.first(); alarm; alarm = alarmList.next() ) {
if (incidence->recursOn(from.date())) {
qdt.setTime(alarm->time().time());
qdt.setDate(from.date());
}
else qdt = alarm->time();
// qDebug("1 %s %s %s", qdt.toString().latin1(), from.toString().latin1(), to.toString().latin1());
if ( alarm->enabled() ) {
if ( qdt >= from && qdt <= to ) {
alarms.append( alarm );
}
}
}
}
/****************************** PROTECTED METHODS ****************************/
// after changes are made to an event, this should be called.
void CalendarLocal::update( IncidenceBase *incidence )
{
incidence->setSyncStatus( Event::SYNCMOD );
incidence->setLastModified( QDateTime::currentDateTime() );
// we should probably update the revision number here,
// or internally in the Event itself when certain things change.
// need to verify with ical documentation.
setModified( true );
}
void CalendarLocal::insertEvent( Event *event )
{
if ( mEventList.findRef( event ) < 0 ) mEventList.append( event );
}
QPtrList<Event> CalendarLocal::rawEventsForDate( const QDate &qd, bool sorted )
{
QPtrList<Event> eventList;
Event *event;
for( event = mEventList.first(); event; event = mEventList.next() ) {
if ( event->doesRecur() ) {
if ( event->isMultiDay() ) {
int extraDays = event->dtStart().date().daysTo( event->dtEnd().date() );
int i;
for ( i = 0; i <= extraDays; i++ ) {
if ( event->recursOn( qd.addDays( -i ) ) ) {
eventList.append( event );
break;
}
}
} else {
if ( event->recursOn( qd ) )
eventList.append( event );
}
} else {
if ( event->dtStart().date() <= qd && event->dtEnd().date() >= qd ) {
eventList.append( event );
}
}
}
if ( !sorted ) {
return eventList;
}
// kdDebug(5800) << "Sorting events for date\n" << endl;
// now, we have to sort it based on dtStart.time()
QPtrList<Event> eventListSorted;
Event *sortEvent;
for ( event = eventList.first(); event; event = eventList.next() ) {
sortEvent = eventListSorted.first();
int i = 0;
while ( sortEvent && event->dtStart().time()>=sortEvent->dtStart().time() )
{
i++;
sortEvent = eventListSorted.next();
}
eventListSorted.insert( i, event );
}
return eventListSorted;
}
QPtrList<Event> CalendarLocal::rawEvents( const QDate &start, const QDate &end,
bool inclusive )
{
Event *event = 0;
QPtrList<Event> eventList;
// Get non-recurring events
for( event = mEventList.first(); event; event = mEventList.next() ) {
if ( event->doesRecur() ) {
QDate rStart = event->dtStart().date();
bool found = false;
if ( inclusive ) {
if ( rStart >= start && rStart <= end ) {
// Start date of event is in range. Now check for end date.
// if duration is negative, event recurs forever, so do not include it.
if ( event->recurrence()->duration() == 0 ) { // End date set
QDate rEnd = event->recurrence()->endDate();
if ( rEnd >= start && rEnd <= end ) { // End date within range
found = true;
}
} else if ( event->recurrence()->duration() > 0 ) { // Duration set
// TODO: Calculate end date from duration. Should be done in Event
// For now exclude all events with a duration.
}
}
} else {
bool founOne;
QDate next = event->getNextOccurence( start, &founOne ).date();
if ( founOne ) {
if ( next <= end ) {
found = true;
}
}
/*
// crap !!!
if ( rStart <= end ) { // Start date not after range
if ( rStart >= start ) { // Start date within range
found = true;
} else if ( event->recurrence()->duration() == -1 ) { // Recurs forever
found = true;
} else if ( event->recurrence()->duration() == 0 ) { // End date set
QDate rEnd = event->recurrence()->endDate();
if ( rEnd >= start && rEnd <= end ) { // End date within range
found = true;
}
} else { // Duration set
// TODO: Calculate end date from duration. Should be done in Event
// For now include all events with a duration.
found = true;
}
}
*/
}
if ( found ) eventList.append( event );
} else {
QDate s = event->dtStart().date();
QDate e = event->dtEnd().date();
if ( inclusive ) {
if ( s >= start && e <= end ) {
eventList.append( event );
}
} else {
if ( ( s >= start && s <= end ) || ( e >= start && e <= end ) ) {
eventList.append( event );
}
}
}
}
return eventList;
}
QPtrList<Event> CalendarLocal::rawEventsForDate( const QDateTime &qdt )
{
return rawEventsForDate( qdt.date() );
}
QPtrList<Event> CalendarLocal::rawEvents()
{
return mEventList;
}
bool CalendarLocal::addJournal(Journal *journal)
{
if ( journal->dtStart().isValid())
kdDebug(5800) << "Adding Journal on " << journal->dtStart().toString() << endl;
else
diff --git a/libkcal/calfilter.cpp b/libkcal/calfilter.cpp
index c425dfc..20078a7 100644
--- a/libkcal/calfilter.cpp
+++ b/libkcal/calfilter.cpp
@@ -1,212 +1,212 @@
/*
This file is part of libkcal.
Copyright (c) 2001 Cornelius Schumacher <schumacher@kde.org>
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.
This library 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
Library General Public License for more details.
You should have received a copy of the GNU Library General Public License
along with this library; see the file COPYING.LIB. If not, write to
the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
Boston, MA 02111-1307, USA.
*/
#include <kdebug.h>
#include "calfilter.h"
using namespace KCal;
CalFilter::CalFilter()
{
mEnabled = true;
mCriteria = ShowPublic | ShowPrivate| ShowConfidential ;
}
CalFilter::CalFilter(const QString &name)
{
mName = name;
mEnabled = true;
mCriteria = ShowPublic | ShowPrivate| ShowConfidential ;
}
CalFilter::~CalFilter()
{
}
void CalFilter::apply(QPtrList<Event> *eventlist)
{
if (!mEnabled) return;
// kdDebug(5800) << "CalFilter::apply()" << endl;
Event *event = eventlist->first();
while(event) {
if (!filterEvent(event)) {
eventlist->remove();
event = eventlist->current();
} else {
event = eventlist->next();
}
}
// kdDebug(5800) << "CalFilter::apply() done" << endl;
}
// TODO: avoid duplicating apply() code
void CalFilter::apply(QPtrList<Todo> *eventlist)
{
if (!mEnabled) return;
Todo *event = eventlist->first();
while(event) {
if (!filterTodo(event)) {
eventlist->remove();
event = eventlist->current();
} else {
event = eventlist->next();
}
}
// kdDebug(5800) << "CalFilter::apply() done" << endl;
}
bool CalFilter::filterCalendarItem(Incidence *in)
{
- if ( in->type() == "Event" )
+ if ( in->typeID() == eventID )
return filterEvent( (Event*) in );
- else if ( in->type() =="Todo" )
+ else if ( in->typeID() == todoID )
return filterTodo( (Todo*) in);
- else if ( in->type() =="Journal" )
+ else if ( in->typeID () == journalID )
return filterJournal( (Journal*) in );
return false;
}
bool CalFilter::filterEvent(Event *event)
{
if (mCriteria & HideEvents)
return false;
if (mCriteria & HideRecurring) {
if (event->recurrence()->doesRecur()) return false;
}
return filterIncidence(event);
}
bool CalFilter::filterJournal(Journal *j)
{
if (mCriteria & HideJournals)
return false;
return true;
}
bool CalFilter::filterTodo(Todo *todo)
{
if (mCriteria & HideTodos)
return false;
if (mCriteria & HideCompleted) {
if (todo->isCompleted()) return false;
}
return filterIncidence(todo);
}
bool CalFilter::showCategories()
{
return mCriteria & ShowCategories;
}
int CalFilter::getSecrecy()
{
if ( (mCriteria & ShowPublic ))
return Incidence::SecrecyPublic;
if ( (mCriteria & ShowPrivate ))
return Incidence::SecrecyPrivate;
if ( (mCriteria & ShowConfidential ))
return Incidence::SecrecyConfidential;
return Incidence::SecrecyPublic;
}
bool CalFilter::filterIncidence(Incidence *incidence)
{
if ( mCriteria > 7 ) {
switch (incidence->secrecy()) {
case Incidence::SecrecyPublic:
if (! (mCriteria & ShowPublic ))
return false;
break;
case Incidence::SecrecyPrivate:
if (! (mCriteria & ShowPrivate ))
return false;
break;
case Incidence::SecrecyConfidential:
if (! (mCriteria & ShowConfidential ))
return false;
break;
default:
return false;
break;
}
}
// kdDebug(5800) << "CalFilter::filterEvent(): " << event->getSummary() << endl;
if (mCriteria & ShowCategories) {
for (QStringList::Iterator it = mCategoryList.begin();
it != mCategoryList.end(); ++it ) {
QStringList incidenceCategories = incidence->categories();
for (QStringList::Iterator it2 = incidenceCategories.begin();
it2 != incidenceCategories.end(); ++it2 ) {
if ((*it) == (*it2)) {
return true;
}
}
}
return false;
} else {
for (QStringList::Iterator it = mCategoryList.begin();
it != mCategoryList.end(); ++it ) {
QStringList incidenceCategories = incidence->categories();
for (QStringList::Iterator it2 = incidenceCategories.begin();
it2 != incidenceCategories.end(); ++it2 ) {
if ((*it) == (*it2)) {
return false;
}
}
}
return true;
}
// kdDebug(5800) << "CalFilter::filterEvent(): passed" << endl;
return true;
}
void CalFilter::setEnabled(bool enabled)
{
mEnabled = enabled;
}
bool CalFilter::isEnabled()
{
return mEnabled;
}
void CalFilter::setCriteria(int criteria)
{
mCriteria = criteria;
}
int CalFilter::criteria()
{
return mCriteria;
}
void CalFilter::setCategoryList(const QStringList &categoryList)
{
mCategoryList = categoryList;
}
QStringList CalFilter::categoryList()
{
return mCategoryList;
}
diff --git a/libkcal/event.h b/libkcal/event.h
index 8729956..287d403 100644
--- a/libkcal/event.h
+++ b/libkcal/event.h
@@ -1,90 +1,91 @@
/*
This file is part of libkcal.
Copyright (c) 2001 Cornelius Schumacher <schumacher@kde.org>
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.
This library 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
Library General Public License for more details.
You should have received a copy of the GNU Library General Public License
along with this library; see the file COPYING.LIB. If not, write to
the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
Boston, MA 02111-1307, USA.
*/
#ifndef EVENT_H
#define EVENT_H
//
// Event component, representing a VEVENT object
//
#include "incidence.h"
namespace KCal {
/**
This class provides an Event in the sense of RFC2445.
*/
class Event : public Incidence
{
public:
enum Transparency { Opaque, Transparent };
typedef ListBase<Event> List;
Event();
Event(const Event &);
~Event();
QCString type() const { return "Event"; }
+ IncTypeID typeID() const { return eventID; }
Incidence *clone();
QDateTime getNextAlarmDateTime( bool * ok, int * offset ,QDateTime start_dt ) const;
/** for setting an event's ending date/time with a QDateTime. */
void setDtEnd(const QDateTime &dtEnd);
/** Return the event's ending date/time as a QDateTime. */
virtual QDateTime dtEnd() const;
/** returns an event's end time as a string formatted according to the
users locale settings */
QString dtEndTimeStr() const;
/** returns an event's end date as a string formatted according to the
users locale settings */
QString dtEndDateStr(bool shortfmt=true) const;
/** returns an event's end date and time as a string formatted according
to the users locale settings */
QString dtEndStr(bool shortfmt=true) const;
void setHasEndDate(bool);
/** Return whether the event has an end date/time. */
bool hasEndDate() const;
/** Return true if the event spans multiple days, otherwise return false. */
bool isMultiDay() const;
/** set the event's time transparency level. */
void setTransparency(Transparency transparency);
/** get the event's time transparency level. */
Transparency transparency() const;
void setDuration(int seconds);
bool contains ( Event*);
private:
bool accept(Visitor &v) { return v.visit(this); }
QDateTime mDtEnd;
bool mHasEndDate;
Transparency mTransparency;
};
bool operator==( const Event&, const Event& );
}
#endif
diff --git a/libkcal/freebusy.h b/libkcal/freebusy.h
index 054feda..d741c72 100644
--- a/libkcal/freebusy.h
+++ b/libkcal/freebusy.h
@@ -1,72 +1,73 @@
/*
This file is part of libkcal.
Copyright (c) 2001 Cornelius Schumacher <schumacher@kde.org>
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.
This library 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
Library General Public License for more details.
You should have received a copy of the GNU Library General Public License
along with this library; see the file COPYING.LIB. If not, write to
the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
Boston, MA 02111-1307, USA.
*/
#ifndef KCAL_FREEBUSY_H
#define KCAL_FREEBUSY_H
//
// FreeBusy - information about free/busy times
//
#include <qdatetime.h>
#include <qvaluelist.h>
#include <qptrlist.h>
#include "period.h"
#include "calendar.h"
#include "incidencebase.h"
namespace KCal {
/**
This class provides information about free/busy time of a calendar user.
*/
class FreeBusy : public IncidenceBase
{
public:
FreeBusy();
FreeBusy(const QDateTime &start, const QDateTime &end);
FreeBusy(Calendar *calendar, const QDateTime &start, const QDateTime &end);
FreeBusy(QValueList<Period> busyPeriods);
~FreeBusy();
QCString type() const { return "FreeBusy"; }
+ IncTypeID typeID() const { return freebusyID; }
virtual QDateTime dtEnd() const;
bool setDtEnd( const QDateTime &end );
QValueList<Period> busyPeriods() const;
void addPeriod(const QDateTime &start, const QDateTime &end);
void sortList();
private:
//This is used for creating a freebusy object for the current user
bool addLocalPeriod(const QDateTime &start, const QDateTime &end);
QDateTime mDtEnd;
QValueList<Period> mBusyPeriods;
Calendar *mCalendar;
};
}
#endif
diff --git a/libkcal/icalformat.cpp b/libkcal/icalformat.cpp
index 3a2aac6..d9fe40b 100644
--- a/libkcal/icalformat.cpp
+++ b/libkcal/icalformat.cpp
@@ -195,266 +195,266 @@ QString ICalFormat::toString( Calendar *cal )
Event *ev;
for(ev=events.first();ev;ev=events.next()) {
component = mImpl->writeEvent(ev);
icalcomponent_add_component(calendar,component);
//qDebug("events ");
qApp->processEvents();
}
// journals
QPtrList<Journal> journals = cal->journals();
Journal *j;
for(j=journals.first();j;j=journals.next()) {
component = mImpl->writeJournal(j);
icalcomponent_add_component(calendar,component);
//qDebug("journals ");
qApp->processEvents();
}
const char *text;
QString ret ="";
text = icalcomponent_as_ical_string( calendar );
qApp->processEvents();
// text = "BEGIN:VCALENDAR\nPRODID\n :-//K Desktop Environment//NONSGML libkcal 3.1//EN\nVERSION\n :2.0\nBEGIN:VEVENT\nDTSTAMP\n :20031231T213514Z\nORGANIZER\n :MAILTO:lutz@putz.de\nCREATED\n :20031231T213513Z\nUID\n :libkcal-1295166342.120\nSEQUENCE\n :0\nLAST-MODIFIED\n :20031231T213513Z\nSUMMARY\n :test1\nCLASS\n :PUBLIC\nPRIORITY\n :3\nDTSTART\n :20040101T090000Z\nDTEND\n :20040101T110000Z\nTRANSP\n :OPAQUE\nEND:VEVENT\nEND:VCALENDAR\n";
if ( text ) {
ret = QString ( text );
}
icalcomponent_free( calendar );
if (!text) {
setException(new ErrorFormat(ErrorFormat::SaveError,
i18n("libical error")));
return QString::null;
}
return ret;
}
QString ICalFormat::toICalString( Incidence *incidence )
{
CalendarLocal cal( mTimeZoneId );
cal.addIncidence( incidence->clone() );
return toString( &cal );
}
QString ICalFormat::toString( Incidence *incidence )
{
icalcomponent *component;
component = mImpl->writeIncidence( incidence );
const char *text = icalcomponent_as_ical_string( component );
icalcomponent_free( component );
return QString::fromLocal8Bit( text );
}
QString ICalFormat::toString( Recurrence *recurrence )
{
icalproperty *property;
property = mImpl->writeRecurrenceRule( recurrence );
const char *text = icalproperty_as_ical_string( property );
icalproperty_free( property );
return QString::fromLocal8Bit( text );
}
/*
bool ICalFormat::fromString( Recurrence * recurrence, const QString& rrule )
{
bool success = true;
icalerror_clear_errno();
struct icalrecurrencetype recur = icalrecurrencetype_from_string( rrule );
if ( icalerrno != ICAL_NO_ERROR ) {
kdDebug() << "Recurrence parsing error: " << icalerror_strerror( icalerrno ) << endl;
success = false;
}
if ( success ) {
mImpl->readRecurrence( recur, recurrence );
}
return success;
}
*/
QString ICalFormat::createScheduleMessage(IncidenceBase *incidence,
Scheduler::Method method)
{
icalcomponent *message = mImpl->createScheduleComponent(incidence,method);
QString messageText = icalcomponent_as_ical_string(message);
return messageText;
}
ScheduleMessage *ICalFormat::parseScheduleMessage( Calendar *cal,
const QString &messageText )
{
setTimeZone( cal->timeZoneId(), !cal->isLocalTime() );
clearException();
if (messageText.isEmpty()) return 0;
icalcomponent *message;
message = icalparser_parse_string(messageText.local8Bit());
if (!message) return 0;
icalproperty *m = icalcomponent_get_first_property(message,
ICAL_METHOD_PROPERTY);
if (!m) return 0;
icalcomponent *c;
IncidenceBase *incidence = 0;
c = icalcomponent_get_first_component(message,ICAL_VEVENT_COMPONENT);
if (c) {
incidence = mImpl->readEvent(c);
}
if (!incidence) {
c = icalcomponent_get_first_component(message,ICAL_VTODO_COMPONENT);
if (c) {
incidence = mImpl->readTodo(c);
}
}
if (!incidence) {
c = icalcomponent_get_first_component(message,ICAL_VFREEBUSY_COMPONENT);
if (c) {
incidence = mImpl->readFreeBusy(c);
}
}
if (!incidence) {
kdDebug() << "ICalFormat:parseScheduleMessage: object is not a freebusy, event or todo" << endl;
return 0;
}
kdDebug(5800) << "ICalFormat::parseScheduleMessage() getting method..." << endl;
icalproperty_method icalmethod = icalproperty_get_method(m);
Scheduler::Method method;
switch (icalmethod) {
case ICAL_METHOD_PUBLISH:
method = Scheduler::Publish;
break;
case ICAL_METHOD_REQUEST:
method = Scheduler::Request;
break;
case ICAL_METHOD_REFRESH:
method = Scheduler::Refresh;
break;
case ICAL_METHOD_CANCEL:
method = Scheduler::Cancel;
break;
case ICAL_METHOD_ADD:
method = Scheduler::Add;
break;
case ICAL_METHOD_REPLY:
method = Scheduler::Reply;
break;
case ICAL_METHOD_COUNTER:
method = Scheduler::Counter;
break;
case ICAL_METHOD_DECLINECOUNTER:
method = Scheduler::Declinecounter;
break;
default:
method = Scheduler::NoMethod;
kdDebug(5800) << "ICalFormat::parseScheduleMessage(): Unknow method" << endl;
break;
}
if (!icalrestriction_check(message)) {
setException(new ErrorFormat(ErrorFormat::Restriction,
Scheduler::translatedMethodName(method) + ": " +
mImpl->extractErrorProperty(c)));
return 0;
}
icalcomponent *calendarComponent = mImpl->createCalendarComponent(cal);
Incidence *existingIncidence = cal->event(incidence->uid());
if (existingIncidence) {
// TODO: check, if cast is required, or if it can be done by virtual funcs.
- if (existingIncidence->type() == "Todo") {
+ if (existingIncidence->typeID() == todoID ) {
Todo *todo = static_cast<Todo *>(existingIncidence);
icalcomponent_add_component(calendarComponent,
mImpl->writeTodo(todo));
}
- if (existingIncidence->type() == "Event") {
+ if (existingIncidence->typeID() == eventID ) {
Event *event = static_cast<Event *>(existingIncidence);
icalcomponent_add_component(calendarComponent,
mImpl->writeEvent(event));
}
} else {
calendarComponent = 0;
}
qDebug("icalclassify commented out ");
ScheduleMessage::Status status;
#if 0
icalclass result = icalclassify(message,calendarComponent,(char *)"");
switch (result) {
case ICAL_PUBLISH_NEW_CLASS:
status = ScheduleMessage::PublishNew;
break;
case ICAL_OBSOLETE_CLASS:
status = ScheduleMessage::Obsolete;
break;
case ICAL_REQUEST_NEW_CLASS:
status = ScheduleMessage::RequestNew;
break;
case ICAL_REQUEST_UPDATE_CLASS:
status = ScheduleMessage::RequestUpdate;
break;
case ICAL_UNKNOWN_CLASS:
default:
status = ScheduleMessage::Unknown;
break;
}
#endif
status = ScheduleMessage::RequestUpdate;
return new ScheduleMessage(incidence,method,status);
}
void ICalFormat::setTimeZone( const QString &id, bool utc )
{
mTimeZoneId = id;
mUtc = utc;
tzOffsetMin = KGlobal::locale()->timezoneOffset(mTimeZoneId);
//qDebug("ICalFormat::setTimeZoneOffset %s %d ",mTimeZoneId.latin1(), tzOffsetMin);
}
QString ICalFormat::timeZoneId() const
{
return mTimeZoneId;
}
bool ICalFormat::utc() const
{
return mUtc;
}
int ICalFormat::timeOffset()
{
return tzOffsetMin;
}
const char *ICalFormat::tzString()
{
const char* ret = (const char* ) mTzString;
return ret;
}
diff --git a/libkcal/icalformatimpl.cpp b/libkcal/icalformatimpl.cpp
index 2405682..3e28714 100644
--- a/libkcal/icalformatimpl.cpp
+++ b/libkcal/icalformatimpl.cpp
@@ -1966,207 +1966,207 @@ bool ICalFormatImpl::populate( Calendar *cal, icalcomponent *calendar)
}
#if 0
initPropIterator(&i, vcal);
// go through all the vobjects in the vcal
while (moreIteration(&i)) {
curVO = nextVObject(&i);
/************************************************************************/
// now, check to see that the object is an event or todo.
if (strcmp(vObjectName(curVO), VCEventProp) == 0) {
if ((curVOProp = isAPropertyOf(curVO, KPilotStatusProp)) != 0) {
char *s;
s = fakeCString(vObjectUStringZValue(curVOProp));
// check to see if event was deleted by the kpilot conduit
if (atoi(s) == Event::SYNCDEL) {
deleteStr(s);
goto SKIP;
}
deleteStr(s);
}
// this code checks to see if we are trying to read in an event
// that we already find to be in the calendar. If we find this
// to be the case, we skip the event.
if ((curVOProp = isAPropertyOf(curVO, VCUniqueStringProp)) != 0) {
char *s = fakeCString(vObjectUStringZValue(curVOProp));
QString tmpStr(s);
deleteStr(s);
if (cal->event(tmpStr)) {
goto SKIP;
}
if (cal->todo(tmpStr)) {
goto SKIP;
}
}
if ((!(curVOProp = isAPropertyOf(curVO, VCDTstartProp))) &&
(!(curVOProp = isAPropertyOf(curVO, VCDTendProp)))) {
kdDebug(5800) << "found a VEvent with no DTSTART and no DTEND! Skipping..." << endl;
goto SKIP;
}
anEvent = VEventToEvent(curVO);
// we now use addEvent instead of insertEvent so that the
// signal/slot get connected.
if (anEvent)
cal->addEvent(anEvent);
else {
// some sort of error must have occurred while in translation.
goto SKIP;
}
} else if (strcmp(vObjectName(curVO), VCTodoProp) == 0) {
anEvent = VTodoToEvent(curVO);
cal->addTodo(anEvent);
} else if ((strcmp(vObjectName(curVO), VCVersionProp) == 0) ||
(strcmp(vObjectName(curVO), VCProdIdProp) == 0) ||
(strcmp(vObjectName(curVO), VCTimeZoneProp) == 0)) {
// do nothing, we know these properties and we want to skip them.
// we have either already processed them or are ignoring them.
;
} else {
;
}
SKIP:
;
} // while
#endif
// Post-Process list of events with relations, put Event objects in relation
Event *ev;
for ( ev=mEventsRelate.first(); ev != 0; ev=mEventsRelate.next() ) {
Incidence * inc = cal->event(ev->relatedToUid());
if ( inc )
ev->setRelatedTo( inc );
}
Todo *todo;
for ( todo=mTodosRelate.first(); todo != 0; todo=mTodosRelate.next() ) {
Incidence * inc = cal->todo(todo->relatedToUid());
if ( inc )
todo->setRelatedTo( inc );
}
return true;
}
QString ICalFormatImpl::extractErrorProperty(icalcomponent *c)
{
// kdDebug(5800) << "ICalFormatImpl:extractErrorProperty: "
// << icalcomponent_as_ical_string(c) << endl;
QString errorMessage;
icalproperty *error;
error = icalcomponent_get_first_property(c,ICAL_XLICERROR_PROPERTY);
while(error) {
errorMessage += icalproperty_get_xlicerror(error);
errorMessage += "\n";
error = icalcomponent_get_next_property(c,ICAL_XLICERROR_PROPERTY);
}
// kdDebug(5800) << "ICalFormatImpl:extractErrorProperty: " << errorMessage << endl;
return errorMessage;
}
void ICalFormatImpl::dumpIcalRecurrence(icalrecurrencetype r)
{
int i;
if (r.by_day[0] != ICAL_RECURRENCE_ARRAY_MAX) {
int index = 0;
QString out = " By Day: ";
while((i = r.by_day[index++]) != ICAL_RECURRENCE_ARRAY_MAX) {
out.append(QString::number(i) + " ");
}
}
if (r.by_month_day[0] != ICAL_RECURRENCE_ARRAY_MAX) {
int index = 0;
QString out = " By Month Day: ";
while((i = r.by_month_day[index++]) != ICAL_RECURRENCE_ARRAY_MAX) {
out.append(QString::number(i) + " ");
}
}
if (r.by_year_day[0] != ICAL_RECURRENCE_ARRAY_MAX) {
int index = 0;
QString out = " By Year Day: ";
while((i = r.by_year_day[index++]) != ICAL_RECURRENCE_ARRAY_MAX) {
out.append(QString::number(i) + " ");
}
}
if (r.by_month[0] != ICAL_RECURRENCE_ARRAY_MAX) {
int index = 0;
QString out = " By Month: ";
while((i = r.by_month[index++]) != ICAL_RECURRENCE_ARRAY_MAX) {
out.append(QString::number(i) + " ");
}
}
if (r.by_set_pos[0] != ICAL_RECURRENCE_ARRAY_MAX) {
int index = 0;
QString out = " By Set Pos: ";
while((i = r.by_set_pos[index++]) != ICAL_RECURRENCE_ARRAY_MAX) {
out.append(QString::number(i) + " ");
}
}
}
icalcomponent *ICalFormatImpl::createScheduleComponent(IncidenceBase *incidence,
Scheduler::Method method)
{
icalcomponent *message = createCalendarComponent();
icalproperty_method icalmethod = ICAL_METHOD_NONE;
switch (method) {
case Scheduler::Publish:
icalmethod = ICAL_METHOD_PUBLISH;
break;
case Scheduler::Request:
icalmethod = ICAL_METHOD_REQUEST;
break;
case Scheduler::Refresh:
icalmethod = ICAL_METHOD_REFRESH;
break;
case Scheduler::Cancel:
icalmethod = ICAL_METHOD_CANCEL;
break;
case Scheduler::Add:
icalmethod = ICAL_METHOD_ADD;
break;
case Scheduler::Reply:
icalmethod = ICAL_METHOD_REPLY;
break;
case Scheduler::Counter:
icalmethod = ICAL_METHOD_COUNTER;
break;
case Scheduler::Declinecounter:
icalmethod = ICAL_METHOD_DECLINECOUNTER;
break;
default:
return message;
}
icalcomponent_add_property(message,icalproperty_new_method(icalmethod));
// TODO: check, if dynamic cast is required
- if(incidence->type() == "Todo") {
+ if(incidence->typeID() == todoID ) {
Todo *todo = static_cast<Todo *>(incidence);
icalcomponent_add_component(message,writeTodo(todo));
}
- if(incidence->type() == "Event") {
+ if(incidence->typeID() == eventID ) {
Event *event = static_cast<Event *>(incidence);
icalcomponent_add_component(message,writeEvent(event));
}
- if(incidence->type() == "FreeBusy") {
+ if(incidence->typeID() == freebusyID) {
FreeBusy *freebusy = static_cast<FreeBusy *>(incidence);
icalcomponent_add_component(message,writeFreeBusy(freebusy, method));
}
return message;
}
diff --git a/libkcal/incidence.cpp b/libkcal/incidence.cpp
index 762103f..f446197 100644
--- a/libkcal/incidence.cpp
+++ b/libkcal/incidence.cpp
@@ -47,385 +47,385 @@ Incidence::Incidence() :
}
Incidence::Incidence( const Incidence &i ) : IncidenceBase( i )
{
// TODO: reenable attributes currently commented out.
mRevision = i.mRevision;
mCreated = i.mCreated;
mDescription = i.mDescription;
mSummary = i.mSummary;
mCategories = i.mCategories;
// Incidence *mRelatedTo; Incidence *mRelatedTo;
mRelatedTo = 0;
mRelatedToUid = i.mRelatedToUid;
// QPtrList<Incidence> mRelations; QPtrList<Incidence> mRelations;
mExDates = i.mExDates;
mAttachments = i.mAttachments;
mResources = i.mResources;
mSecrecy = i.mSecrecy;
mPriority = i.mPriority;
mLocation = i.mLocation;
mCancelled = i.mCancelled;
mHasStartDate = i.mHasStartDate;
QPtrListIterator<Alarm> it( i.mAlarms );
const Alarm *a;
while( (a = it.current()) ) {
Alarm *b = new Alarm( *a );
b->setParent( this );
mAlarms.append( b );
++it;
}
mAlarms.setAutoDelete(true);
mHasRecurrenceID = i.mHasRecurrenceID;
mRecurrenceID = i.mRecurrenceID;
mRecurrence = new Recurrence( *(i.mRecurrence), this );
mHoliday = i.mHoliday ;
mBirthday = i.mBirthday;
mAnniversary = i.mAnniversary;
}
Incidence::~Incidence()
{
Incidence *ev;
QPtrList<Incidence> Relations = relations();
for (ev=Relations.first();ev;ev=Relations.next()) {
if (ev->relatedTo() == this) ev->setRelatedTo(0);
}
if (relatedTo()) relatedTo()->removeRelation(this);
delete mRecurrence;
}
bool Incidence::isHoliday() const
{
return mHoliday;
}
bool Incidence::isBirthday() const
{
return mBirthday ;
}
bool Incidence::isAnniversary() const
{
return mAnniversary ;
}
bool Incidence::hasRecurrenceID() const
{
return mHasRecurrenceID;
}
void Incidence::setHasRecurrenceID( bool b )
{
mHasRecurrenceID = b;
}
void Incidence::setRecurrenceID(QDateTime d)
{
mRecurrenceID = d;
mHasRecurrenceID = true;
updated();
}
QDateTime Incidence::recurrenceID () const
{
return mRecurrenceID;
}
bool Incidence::cancelled() const
{
return mCancelled;
}
void Incidence::setCancelled( bool b )
{
mCancelled = b;
updated();
}
bool Incidence::hasStartDate() const
{
return mHasStartDate;
}
void Incidence::setHasStartDate(bool f)
{
if (mReadOnly) return;
mHasStartDate = f;
updated();
}
// A string comparison that considers that null and empty are the same
static bool stringCompare( const QString& s1, const QString& s2 )
{
if ( s1.isEmpty() && s2.isEmpty() )
return true;
return s1 == s2;
}
bool KCal::operator==( const Incidence& i1, const Incidence& i2 )
{
if( i1.alarms().count() != i2.alarms().count() ) {
return false; // no need to check further
}
if ( i1.alarms().count() > 0 ) {
if ( !( *(i1.alarms().first()) == *(i2.alarms().first())) )
{
qDebug("alarm not equal ");
return false;
}
}
#if 0
QPtrListIterator<Alarm> a1( i1.alarms() );
QPtrListIterator<Alarm> a2( i2.alarms() );
for( ; a1.current() && a2.current(); ++a1, ++a2 ) {
if( *a1.current() == *a2.current() ) {
continue;
}
else {
return false;
}
}
#endif
if ( i1.hasRecurrenceID() == i2.hasRecurrenceID() ) {
if ( i1.hasRecurrenceID() ) {
if ( i1.recurrenceID() != i2.recurrenceID() )
return false;
}
} else {
return false;
}
if ( ! operator==( (const IncidenceBase&)i1, (const IncidenceBase&)i2 ) )
return false;
if ( i1.hasStartDate() == i2.hasStartDate() ) {
if ( i1.hasStartDate() ) {
if ( i1.dtStart() != i2.dtStart() )
return false;
}
} else {
return false;
}
if (!( *i1.recurrence() == *i2.recurrence()) ) {
qDebug("recurrence is NOT equal ");
return false;
}
return
// i1.created() == i2.created() &&
stringCompare( i1.description(), i2.description() ) &&
stringCompare( i1.summary(), i2.summary() ) &&
i1.categories() == i2.categories() &&
// no need to compare mRelatedTo
stringCompare( i1.relatedToUid(), i2.relatedToUid() ) &&
// i1.relations() == i2.relations() &&
i1.exDates() == i2.exDates() &&
i1.attachments() == i2.attachments() &&
i1.resources() == i2.resources() &&
i1.secrecy() == i2.secrecy() &&
i1.priority() == i2.priority() &&
i1.cancelled() == i2.cancelled() &&
stringCompare( i1.location(), i2.location() );
}
Incidence* Incidence::recreateCloneException( QDate d )
{
Incidence* newInc = clone();
newInc->recreate();
if ( doesRecur() ) {
addExDate( d );
newInc->recurrence()->unsetRecurs();
- if ( type() == "Event") {
+ if ( typeID() == eventID ) {
int len = dtStart().secsTo( ((Event*)this)->dtEnd());
QTime tim = dtStart().time();
newInc->setDtStart( QDateTime(d, tim) );
((Event*)newInc)->setDtEnd( newInc->dtStart().addSecs( len ) );
} else {
int len = dtStart().secsTo( ((Todo*)this)->dtDue());
QTime tim = ((Todo*)this)->dtDue().time();
((Todo*)newInc)->setDtDue( QDateTime(d, tim) );
((Todo*)newInc)->setDtStart( ((Todo*)newInc)->dtDue().addSecs( -len ) );
((Todo*)this)->setRecurDates();
}
newInc->setExDates( DateList () );
}
return newInc;
}
void Incidence::recreate()
{
setCreated(QDateTime::currentDateTime());
setUid(CalFormat::createUniqueId());
setRevision(0);
setIDStr( ":" );
setLastModified(QDateTime::currentDateTime());
}
void Incidence::cloneRelations( Incidence * newInc )
{
// newInc is already a clone of this incidence
Incidence * inc;
Incidence * cloneInc;
QPtrList<Incidence> Relations = relations();
for (inc=Relations.first();inc;inc=Relations.next()) {
cloneInc = inc->clone();
cloneInc->recreate();
cloneInc->setRelatedTo( newInc );
inc->cloneRelations( cloneInc );
}
}
void Incidence::setReadOnly( bool readOnly )
{
IncidenceBase::setReadOnly( readOnly );
recurrence()->setRecurReadOnly( readOnly);
}
void Incidence::setCreated(QDateTime created)
{
if (mReadOnly) return;
mCreated = getEvenTime(created);
}
QDateTime Incidence::created() const
{
return mCreated;
}
void Incidence::setRevision(int rev)
{
if (mReadOnly) return;
mRevision = rev;
updated();
}
int Incidence::revision() const
{
return mRevision;
}
void Incidence::setDtStart(const QDateTime &dtStart)
{
QDateTime dt = getEvenTime(dtStart);
recurrence()->setRecurStart( dt);
IncidenceBase::setDtStart( dt );
}
void Incidence::setDescription(const QString &description)
{
if (mReadOnly) return;
mDescription = description;
updated();
}
QString Incidence::description() const
{
return mDescription;
}
void Incidence::setSummary(const QString &summary)
{
if (mReadOnly) return;
mSummary = summary;
updated();
}
QString Incidence::summary() const
{
return mSummary;
}
void Incidence::checkCategories()
{
mHoliday = mCategories.contains("Holiday") || mCategories.contains(i18n("Holiday"));
mBirthday = mCategories.contains("Birthday") || mCategories.contains(i18n("Birthday"));
mAnniversary = mCategories.contains("Anniversary") || mCategories.contains(i18n("Anniversary"));
}
void Incidence::addCategories(const QStringList &categories, bool addToRelations ) //addToRelations = false
{
if (mReadOnly) return;
int i;
for( i = 0; i < categories.count(); ++i ) {
if ( !mCategories.contains (categories[i]))
mCategories.append( categories[i] );
}
checkCategories();
updated();
if ( addToRelations ) {
Incidence * inc;
QPtrList<Incidence> Relations = relations();
for (inc=Relations.first();inc;inc=Relations.next()) {
inc->addCategories( categories, true );
}
}
}
void Incidence::setCategories(const QStringList &categories, bool setForRelations ) //setForRelations = false
{
if (mReadOnly) return;
mCategories = categories;
checkCategories();
updated();
if ( setForRelations ) {
Incidence * inc;
QPtrList<Incidence> Relations = relations();
for (inc=Relations.first();inc;inc=Relations.next()) {
inc->setCategories( categories, true );
}
}
}
// TODO: remove setCategories(QString) function
void Incidence::setCategories(const QString &catStr)
{
if (mReadOnly) return;
mCategories.clear();
if (catStr.isEmpty()) return;
mCategories = QStringList::split(",",catStr);
QStringList::Iterator it;
for(it = mCategories.begin();it != mCategories.end(); ++it) {
*it = (*it).stripWhiteSpace();
}
checkCategories();
updated();
}
QStringList Incidence::categories() const
{
return mCategories;
}
QString Incidence::categoriesStr()
{
return mCategories.join(",");
}
QString Incidence::categoriesStrWithSpace()
{
return mCategories.join(", ");
}
void Incidence::setRelatedToUid(const QString &relatedToUid)
{
if (mReadOnly) return;
mRelatedToUid = relatedToUid;
}
QString Incidence::relatedToUid() const
{
return mRelatedToUid;
}
void Incidence::setRelatedTo(Incidence *relatedTo)
{
//qDebug("Incidence::setRelatedTo %d ", relatedTo);
//qDebug("setRelatedTo(Incidence *relatedTo) %s %s", summary().latin1(), relatedTo->summary().latin1() );
if (mReadOnly || mRelatedTo == relatedTo) return;
if(mRelatedTo) {
// updated();
@@ -535,210 +535,210 @@ void Incidence::deleteAttachments(const QString& mime)
QPtrList<Attachment> Incidence::attachments() const
{
return mAttachments;
}
QPtrList<Attachment> Incidence::attachments(const QString& mime) const
{
QPtrList<Attachment> attachments;
QPtrListIterator<Attachment> it( mAttachments );
Attachment *at;
while ( (at = it.current()) ) {
if (at->mimeType() == mime)
attachments.append(at);
++it;
}
return attachments;
}
void Incidence::setResources(const QStringList &resources)
{
if (mReadOnly) return;
mResources = resources;
updated();
}
QStringList Incidence::resources() const
{
return mResources;
}
void Incidence::setPriority(int priority)
{
if (mReadOnly) return;
mPriority = priority;
updated();
}
int Incidence::priority() const
{
return mPriority;
}
void Incidence::setSecrecy(int sec)
{
if (mReadOnly) return;
mSecrecy = sec;
updated();
}
int Incidence::secrecy() const
{
return mSecrecy;
}
QString Incidence::secrecyStr() const
{
return secrecyName(mSecrecy);
}
QString Incidence::secrecyName(int secrecy)
{
switch (secrecy) {
case SecrecyPublic:
return i18n("Public");
break;
case SecrecyPrivate:
return i18n("Private");
break;
case SecrecyConfidential:
return i18n("Confidential");
break;
default:
return i18n("Undefined");
break;
}
}
QStringList Incidence::secrecyList()
{
QStringList list;
list << secrecyName(SecrecyPublic);
list << secrecyName(SecrecyPrivate);
list << secrecyName(SecrecyConfidential);
return list;
}
QPtrList<Alarm> Incidence::alarms() const
{
return mAlarms;
}
Alarm* Incidence::newAlarm()
{
Alarm* alarm = new Alarm(this);
mAlarms.append(alarm);
// updated();
return alarm;
}
void Incidence::addAlarm(Alarm *alarm)
{
mAlarms.append(alarm);
updated();
}
void Incidence::removeAlarm(Alarm *alarm)
{
mAlarms.removeRef(alarm);
updated();
}
void Incidence::clearAlarms()
{
mAlarms.clear();
updated();
}
bool Incidence::isAlarmEnabled() const
{
Alarm* alarm;
for (QPtrListIterator<Alarm> it(mAlarms); (alarm = it.current()) != 0; ++it) {
if (alarm->enabled())
return true;
}
return false;
}
Recurrence *Incidence::recurrence() const
{
return mRecurrence;
}
void Incidence::setRecurrence( Recurrence * r)
{
delete mRecurrence;
mRecurrence = r;
}
void Incidence::setLocation(const QString &location)
{
if (mReadOnly) return;
mLocation = location;
updated();
}
QString Incidence::location() const
{
return mLocation;
}
ushort Incidence::doesRecur() const
{
if ( mRecurrence ) return mRecurrence->doesRecur();
else return Recurrence::rNone;
}
QDateTime Incidence::getNextOccurence( const QDateTime& dt, bool* ok ) const
{
QDateTime incidenceStart = dt;
*ok = false;
if ( doesRecur() ) {
bool last;
recurrence()->getPreviousDateTime( incidenceStart , &last );
int count = 0;
if ( !last ) {
while ( !last ) {
++count;
incidenceStart = recurrence()->getNextDateTime( incidenceStart, &last );
if ( recursOn( incidenceStart.date() ) ) {
last = true; // exit while llop
} else {
if ( last ) { // no alarm on last recurrence
return QDateTime ();
}
int year = incidenceStart.date().year();
// workaround for bug in recurrence
if ( count == 100 || year < 1000 || year > 5000 ) {
return QDateTime ();
}
incidenceStart = incidenceStart.addSecs( 1 );
}
}
} else {
return QDateTime ();
}
} else {
if ( hasStartDate () ) {
incidenceStart = dtStart();
}
- if ( type() =="Todo" ) {
+ if ( typeID() == todoID ) {
if ( ((Todo*)this)->hasDueDate() )
incidenceStart = ((Todo*)this)->dtDue();
}
}
if ( incidenceStart > dt )
*ok = true;
return incidenceStart;
}
QDateTime Incidence::dtStart() const
{
if ( doesRecur() ) {
- if ( type() == "Todo" ) {
+ if ( typeID() == todoID ) {
((Todo*)this)->checkSetCompletedFalse();
}
}
return mDtStart;
}
diff --git a/libkcal/incidencebase.h b/libkcal/incidencebase.h
index 8624786..05209e0 100644
--- a/libkcal/incidencebase.h
+++ b/libkcal/incidencebase.h
@@ -1,172 +1,174 @@
/*
This file is part of libkcal.
Copyright (c) 2001 Cornelius Schumacher <schumacher@kde.org>
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.
This library 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
Library General Public License for more details.
You should have received a copy of the GNU Library General Public License
along with this library; see the file COPYING.LIB. If not, write to
the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
Boston, MA 02111-1307, USA.
*/
#ifndef KCAL_INCIDENCEBASE_H
#define KCAL_INCIDENCEBASE_H
//
// Incidence - base class of calendaring components
//
#include <qdatetime.h>
#include <qstringlist.h>
#include <qvaluelist.h>
#include <qptrlist.h>
#include "customproperties.h"
#include "attendee.h"
namespace KCal {
typedef QValueList<QDate> DateList;
+ enum IncTypeID { eventID,todoID,journalID,freebusyID };
/**
This class provides the base class common to all calendar components.
*/
class IncidenceBase : public CustomProperties
{
public:
class Observer {
public:
virtual void incidenceUpdated( IncidenceBase * ) = 0;
};
IncidenceBase();
IncidenceBase(const IncidenceBase &);
virtual ~IncidenceBase();
virtual QCString type() const = 0;
+ virtual IncTypeID typeID() const = 0;
/** Set the unique id for the event */
void setUid(const QString &);
/** Return the unique id for the event */
QString uid() const;
/** Sets the time the incidence was last modified. */
void setLastModified(const QDateTime &lm);
/** Return the time the incidence was last modified. */
QDateTime lastModified() const;
/** sets the organizer for the event */
void setOrganizer(const QString &o);
QString organizer() const;
/** Set readonly status. */
virtual void setReadOnly( bool );
/** Return if the object is read-only. */
bool isReadOnly() const { return mReadOnly; }
/** for setting the event's starting date/time with a QDateTime. */
virtual void setDtStart(const QDateTime &dtStart);
/** returns an event's starting date/time as a QDateTime. */
virtual QDateTime dtStart() const;
/** returns an event's starting time as a string formatted according to the
users locale settings */
QString dtStartTimeStr() const;
/** returns an event's starting date as a string formatted according to the
users locale settings */
QString dtStartDateStr(bool shortfmt=true) const;
/** returns an event's starting date and time as a string formatted according
to the users locale settings */
QString dtStartStr(bool shortfmt=true) const;
virtual void setDuration(int seconds);
int duration() const;
void setHasDuration(bool);
bool hasDuration() const;
/** Return true or false depending on whether the incidence "floats,"
* i.e. has a date but no time attached to it. */
bool doesFloat() const;
/** Set whether the incidence floats, i.e. has a date but no time attached to it. */
void setFloats(bool f);
/**
Add Attendee to this incidence. IncidenceBase takes ownership of the
Attendee object.
*/
bool addAttendee(Attendee *a, bool doupdate=true );
// void removeAttendee(Attendee *a);
// void removeAttendee(const char *n);
/** Remove all Attendees. */
void clearAttendees();
/** Return list of attendees. */
QPtrList<Attendee> attendees() const { return mAttendees; };
/** Return number of attendees. */
int attendeeCount() const { return mAttendees.count(); };
/** Return the Attendee with this email */
Attendee* attendeeByMail(const QString &);
/** Return first Attendee with one of this emails */
Attendee* attendeeByMails(const QStringList &, const QString& email = QString::null);
/** pilot syncronization states */
enum { SYNCNONE = 0, SYNCMOD = 1, SYNCDEL = 3 };
/** Set synchronisation satus. */
void setSyncStatus(int stat);
/** Return synchronisation status. */
int syncStatus() const;
/** Set Pilot Id. */
void setPilotId(int id);
/** Return Pilot Id. */
int pilotId() const;
void setTempSyncStat(int id);
int tempSyncStat() const;
void setIDStr( const QString & );
QString IDStr() const;
void setID( const QString &, const QString & );
QString getID( const QString & );
void setCsum( const QString &, const QString & );
QString getCsum( const QString & );
void removeID(const QString &);
void registerObserver( Observer * );
void unRegisterObserver( Observer * );
void updated();
protected:
QDateTime mDtStart;
bool mReadOnly;
QDateTime getEvenTime( QDateTime );
private:
// base components
QString mOrganizer;
QString mUid;
QDateTime mLastModified;
QPtrList<Attendee> mAttendees;
bool mFloats;
int mDuration;
bool mHasDuration;
QString mExternalId;
int mTempSyncStat;
// PILOT SYNCHRONIZATION STUFF
int mPilotId; // unique id for pilot sync
int mSyncStatus; // status (for sync)
QPtrList<Observer> mObservers;
};
bool operator==( const IncidenceBase&, const IncidenceBase& );
}
#endif
diff --git a/libkcal/journal.h b/libkcal/journal.h
index 2c1d7ea..1cd0a22 100644
--- a/libkcal/journal.h
+++ b/libkcal/journal.h
@@ -1,50 +1,51 @@
/*
This file is part of libkcal.
Copyright (c) 2001 Cornelius Schumacher <schumacher@kde.org>
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.
This library 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
Library General Public License for more details.
You should have received a copy of the GNU Library General Public License
along with this library; see the file COPYING.LIB. If not, write to
the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
Boston, MA 02111-1307, USA.
*/
#ifndef JOURNAL_H
#define JOURNAL_H
//
// Journal component, representing a VJOURNAL object
//
#include "incidence.h"
namespace KCal {
/**
This class provides a Journal in the sense of RFC2445.
*/
class Journal : public Incidence
{
public:
Journal();
~Journal();
QCString type() const { return "Journal"; }
+ IncTypeID typeID() const { return journalID; }
Incidence *clone();
QDateTime getNextAlarmDateTime( bool * ok, int * offset ,QDateTime start_dt ) const;
private:
bool accept(Visitor &v) { return v.visit(this); }
};
bool operator==( const Journal&, const Journal& );
}
#endif
diff --git a/libkcal/kincidenceformatter.cpp b/libkcal/kincidenceformatter.cpp
index 7d61b7f..d1ace4f 100644
--- a/libkcal/kincidenceformatter.cpp
+++ b/libkcal/kincidenceformatter.cpp
@@ -1,218 +1,218 @@
#include "kincidenceformatter.h"
#include <kstaticdeleter.h>
#include <kglobal.h>
#include <klocale.h>
#ifdef DEKTOP_VERSION
#include <kabc/stdaddressbook.h>
#define size count
#endif
KIncidenceFormatter* KIncidenceFormatter::mInstance = 0;
static KStaticDeleter<KIncidenceFormatter> insd;
QString KIncidenceFormatter::getFormattedText( Incidence * inc, bool details, bool created , bool modified )
{
// #ifndef QT_NO_INPUTDIALOG
// return QInputDialog::getItem( caption, label, items, current, editable );
// #else
// return QString::null;
// #endif
mDetails = details;
mCreated = created ;
mModified = modified;
mText = "";
- if ( inc->type() == "Event" )
+ if ( inc->typeID() == eventID )
setEvent((Event *) inc );
- else if ( inc->type() == "Todo" )
+ else if ( inc->typeID() == todoID )
setTodo((Todo *) inc );
return mText;
}
KIncidenceFormatter* KIncidenceFormatter::instance()
{
if (!mInstance) {
mInstance = insd.setObject(new KIncidenceFormatter());
}
return mInstance;
}
KIncidenceFormatter::~KIncidenceFormatter()
{
if (mInstance == this)
mInstance = insd.setObject(0);
//qDebug("KIncidenceFormatter::~KIncidenceFormatter ");
}
KIncidenceFormatter::KIncidenceFormatter()
{
mColorMode = 0;
}
void KIncidenceFormatter::setEvent(Event *event)
{
int mode = 0;
mCurrentIncidence = event;
bool shortDate = true;
if ( mode == 0 ) {
addTag("h3",deTag(event->summary()));
}
else {
if ( mColorMode == 1 ) {
mText +="<font color=\"#00A000\">";
}
if ( mColorMode == 2 ) {
mText +="<font color=\"#C00000\">";
}
// mText +="<font color=\"#F00000\">" + i18n("O-due!") + "</font>";
if ( mode == 1 ) {
addTag("h2",i18n( "Local: " ) +deTag(event->summary()));
} else {
addTag("h2",i18n( "Remote: " ) +deTag(event->summary()));
}
addTag("h3",i18n( "Last modified: " ) + KGlobal::locale()->formatDateTime(event->lastModified(),shortDate, true ) );
if ( mColorMode )
mText += "</font>";
}
if (event->cancelled ()) {
mText +="<font color=\"#B00000\">";
addTag("i",i18n("This event has been cancelled!"));
mText.append("<br>");
mText += "</font>";
}
if (event->doesFloat()) {
if (event->isMultiDay()) {
mText.append(i18n("<p><b>From:</b> %1 </p><p><b>To:</b> %2</p>")
.arg(event->dtStartDateStr(shortDate))
.arg(event->dtEndDateStr(shortDate)));
} else {
mText.append(i18n("<p><b>On:</b> %1</p>").arg(event->dtStartDateStr( shortDate )));
}
} else {
if (event->isMultiDay()) {
mText.append(i18n("<p><b>From:</b> %1</p> ")
.arg(event->dtStartStr( shortDate)));
mText.append(i18n("<p><b>To:</b> %1</p>")
.arg(event->dtEndStr(shortDate)));
} else {
mText.append(i18n("<p><b>From:</b> %1 <b>To:</b> %2</p>")
.arg(event->dtStartTimeStr())
.arg(event->dtEndTimeStr()));
mText.append(i18n("<p><b>On:</b> %1</p> ")
.arg(event->dtStartDateStr( shortDate )));
}
}
if (!event->location().isEmpty()) {
addTag("b",i18n("Location: "));
mText.append(deTag(event->location())+"<br>");
}
if (event->recurrence()->doesRecur()) {
QString recurText = event->recurrence()->recurrenceText();
addTag("p","<em>" + i18n("This is a %1 recurring event.").arg(recurText ) + "</em>");
bool ok;
QDate start = QDate::currentDate();
QDateTime next;
next = event->getNextOccurence( QDateTime::currentDateTime() , &ok );
if ( ok ) {
addTag("p",i18n("<b>Next recurrence is on:</b>") );
addTag("p", KGlobal::locale()->formatDate( next.date(), shortDate ));
} else {
bool last;
QDate nextd;
nextd = event->recurrence()->getPreviousDate( QDate::currentDate() , &last );
if ( last ) {
addTag("p",i18n("<b>Last recurrence was on:</b>") );
addTag("p", KGlobal::locale()->formatDate( nextd, shortDate ));
}
}
}
if (event->isAlarmEnabled()) {
Alarm *alarm =event->alarms().first() ;
QDateTime t = alarm->time();
QString s =i18n("( %1 before )").arg( alarm->offsetText() );
addTag("p",i18n("<b>Alarm on: </b>") + s + ": "+KGlobal::locale()->formatDateTime( t, shortDate ));
//addTag("p", KGlobal::locale()->formatDateTime( t, shortDate ));
//addTag("p",s);
}
addTag("p",i18n("<b>Access: </b>") +event->secrecyStr() );
// mText.append(event->secrecyStr()+"<br>");
formatCategories(event);
formatReadOnly(event);
formatAttendees(event);
if ( mCreated ) {
#ifdef DESKTOP_VERSION
addTag("p",i18n("<b>Created: ") +" </b>"+KGlobal::locale()->formatDateTime( event->created(), shortDate ));
#else
addTag("p",i18n("<b>Created: ") +" </b>");
addTag("p", KGlobal::locale()->formatDateTime( event->created(), shortDate ));
#endif
}
if ( mModified ) {
#ifdef DESKTOP_VERSION
addTag("p",i18n("<b>Last modified: ") +" </b>"+KGlobal::locale()->formatDateTime( event->lastModified(), shortDate ));
#else
addTag("p",i18n("<b>Last modified: ") +" </b>");
addTag("p", KGlobal::locale()->formatDateTime( event->lastModified(), shortDate ));
#endif
}
if ( mDetails ) {
if (!event->description().isEmpty()) {
addTag("p",i18n("<b>Details: </b>"));
addTag("p",deTag(event->description()));
}
}
}
void KIncidenceFormatter::setTodo(Todo *event )
{
int mode = 0;
mCurrentIncidence = event;
bool shortDate = true;
if (mode == 0 )
addTag("h3",deTag(event->summary()));
else {
if ( mColorMode == 1 ) {
mText +="<font color=\"#00A000\">";
}
if ( mColorMode == 2 ) {
mText +="<font color=\"#B00000\">";
}
if ( mode == 1 ) {
addTag("h2",i18n( "Local: " ) +deTag(event->summary()));
} else {
addTag("h2",i18n( "Remote: " ) +deTag(event->summary()));
}
addTag("h3",i18n( "Last modified: " ) + KGlobal::locale()->formatDateTime(event->lastModified(),shortDate, true ) );
if ( mColorMode )
mText += "</font>";
}
if ( event->percentComplete() == 100 && event->hasCompletedDate() ) {
mText +="<font color=\"#B00000\">";
addTag("i", i18n("<p><i>Completed on %1</i></p>").arg( event->completedStr(shortDate) ) );
mText += "</font>";
} else {
mText.append(i18n("<p><i>%1 % completed</i></p>")
.arg(event->percentComplete()));
}
if (event->cancelled ()) {
mText +="<font color=\"#B00000\">";
addTag("i",i18n("This todo has been cancelled!"));
mText.append("<br>");
mText += "</font>";
}
if (event->recurrence()->doesRecur()) {
QString recurText = event->recurrence()->recurrenceText();
addTag("p","<em>" + i18n("This is a %1 recurring todo.").arg(recurText ) + "</em>");
diff --git a/libkcal/todo.cpp b/libkcal/todo.cpp
index 38ba2c7..c97a61e 100644
--- a/libkcal/todo.cpp
+++ b/libkcal/todo.cpp
@@ -1,325 +1,325 @@
/*
This file is part of libkcal.
Copyright (c) 2001 Cornelius Schumacher <schumacher@kde.org>
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.
This library 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
Library General Public License for more details.
You should have received a copy of the GNU Library General Public License
along with this library; see the file COPYING.LIB. If not, write to
the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
Boston, MA 02111-1307, USA.
*/
#include <kglobal.h>
#include <kglobalsettings.h>
#include <klocale.h>
#include <kdebug.h>
#include <qregexp.h>
#include <qfileinfo.h>
#include "calendarlocal.h"
#include "icalformat.h"
#include "todo.h"
using namespace KCal;
Todo::Todo(): QObject(), Incidence()
{
// mStatus = TENTATIVE;
mHasDueDate = false;
setHasStartDate( false );
mCompleted = getEvenTime(QDateTime::currentDateTime());
mHasCompletedDate = false;
mPercentComplete = 0;
mRunning = false;
mRunSaveTimer = 0;
}
Todo::Todo(const Todo &t) : QObject(),Incidence(t)
{
mDtDue = t.mDtDue;
mHasDueDate = t.mHasDueDate;
mCompleted = t.mCompleted;
mHasCompletedDate = t.mHasCompletedDate;
mPercentComplete = t.mPercentComplete;
mRunning = false;
mRunSaveTimer = 0;
}
Todo::~Todo()
{
setRunning( false );
//qDebug("Todo::~Todo() ");
}
void Todo::setRunningFalse( QString s )
{
if ( ! mRunning )
return;
mRunning = false;
mRunSaveTimer->stop();
saveRunningInfoToFile( s );
}
void Todo::setRunning( bool run )
{
if ( run == mRunning )
return;
//qDebug("Todo::setRunning %d ", run);
if ( !mRunSaveTimer ) {
mRunSaveTimer = new QTimer ( this );
connect ( mRunSaveTimer, SIGNAL( timeout() ), this , SLOT ( saveRunningInfoToFile() ) );
}
mRunning = run;
if ( mRunning ) {
mRunSaveTimer->start( 1000 * 60 * 5 ); // 5 min
mRunStart = QDateTime::currentDateTime();
} else {
mRunSaveTimer->stop();
saveRunningInfoToFile();
}
}
void Todo::saveRunningInfoToFile( QString comment )
{
//qDebug("Todo::saveRunningInfoToFile() %s", summary().latin1());
if ( mRunStart.secsTo ( QDateTime::currentDateTime() ) < 30 ) {
qDebug("Running time < 30 seconds. Skipped. ");
return;
}
QString dir = KGlobalSettings::timeTrackerDir();
//qDebug("%s ", dir.latin1());
QString file = "%1%2%3-%4%5%6-";
file = file.arg( mRunStart.date().year(), 4).arg( mRunStart.date().month(),2 ).arg( mRunStart.date().day(), 2 ).arg( mRunStart.time().hour(),2 ).arg( mRunStart.time().minute(),2 ).arg( mRunStart.time().second(),2 );
file.replace ( QRegExp (" "), "0" );
file += uid();
//qDebug("File %s ",file.latin1() );
CalendarLocal cal;
cal.setLocalTime();
Todo * to = (Todo*) clone();
to->setFloats( false );
to->setDtStart( mRunStart );
to->setHasStartDate( true );
to->setDtDue( QDateTime::currentDateTime() );
to->setHasDueDate( true );
to->setUid( file );
if ( !comment.isEmpty() ) {
QString des = to->description();
if ( des.isEmpty () )
to->setDescription( "TT-Note: " + comment );
else
to->setDescription( "TT-Note: " + comment +"\n" + des );
}
cal.addIncidence( to );
ICalFormat format;
file = dir +"/" +file +".ics";
format.save( &cal, file );
saveParents();
}
void Todo::saveParents()
{
if (!relatedTo() )
return;
Incidence * inc = relatedTo();
- if ( inc->type() != "Todo" )
+ if ( inc->typeID() != todoID )
return;
Todo* to = (Todo*)inc;
bool saveTodo = false;
QString file = KGlobalSettings::timeTrackerDir() + "/"+ to->uid() + ".ics";
QFileInfo fi ( file );
if ( fi.exists() ) {
if ( fi.lastModified () < to->lastModified ())
saveTodo = true;
} else {
saveTodo = true;
}
if ( saveTodo ) {
CalendarLocal cal;
cal.setLocalTime();
Todo * par = (Todo *) to->clone();
cal.addIncidence( par );
ICalFormat format;
format.save( &cal, file );
}
to->saveParents();
}
int Todo::runTime()
{
if ( !mRunning )
return 0;
return mRunStart.secsTo( QDateTime::currentDateTime() );
}
bool Todo::hasRunningSub()
{
if ( mRunning )
return true;
Incidence *aTodo;
for (aTodo = mRelations.first(); aTodo; aTodo = mRelations.next()) {
if ( ((Todo*)aTodo)->hasRunningSub() )
return true;
}
return false;
}
Incidence *Todo::clone()
{
return new Todo(*this);
}
bool Todo::contains ( Todo* from )
{
if ( !from->summary().isEmpty() )
if ( !summary().startsWith( from->summary() ))
return false;
if ( from->hasStartDate() ) {
if ( !hasStartDate() )
return false;
if ( from->dtStart() != dtStart())
return false;
}
if ( from->hasDueDate() ){
if ( !hasDueDate() )
return false;
if ( from->dtDue() != dtDue())
return false;
}
if ( !from->location().isEmpty() )
if ( !location().startsWith( from->location() ) )
return false;
if ( !from->description().isEmpty() )
if ( !description().startsWith( from->description() ))
return false;
if ( from->alarms().count() ) {
Alarm *a = from->alarms().first();
if ( a->enabled() ){
if ( !alarms().count() )
return false;
Alarm *b = alarms().first();
if( ! b->enabled() )
return false;
if ( ! (a->offset() == b->offset() ))
return false;
}
}
QStringList cat = categories();
QStringList catFrom = from->categories();
QString nCat;
unsigned int iii;
for ( iii = 0; iii < catFrom.count();++iii ) {
nCat = catFrom[iii];
if ( !nCat.isEmpty() )
if ( !cat.contains( nCat )) {
return false;
}
}
if ( from->isCompleted() ) {
if ( !isCompleted() )
return false;
}
if( priority() != from->priority() )
return false;
return true;
}
bool KCal::operator==( const Todo& t1, const Todo& t2 )
{
bool ret = operator==( (const Incidence&)t1, (const Incidence&)t2 );
if ( ! ret )
return false;
if ( t1.hasDueDate() == t2.hasDueDate() ) {
if ( t1.hasDueDate() ) {
if ( t1.doesFloat() == t2.doesFloat() ) {
if ( t1.doesFloat() ) {
if ( t1.dtDue().date() != t2.dtDue().date() )
return false;
} else
if ( t1.dtDue() != t2.dtDue() )
return false;
} else
return false;// float !=
}
} else
return false;
if ( t1.percentComplete() != t2.percentComplete() )
return false;
if ( t1.isCompleted() ) {
if ( t1.hasCompletedDate() == t2.hasCompletedDate() ) {
if ( t1.hasCompletedDate() ) {
if ( t1.completed() != t2.completed() )
return false;
}
} else
return false;
}
return true;
}
void Todo::setDtDue(const QDateTime &dtDue)
{
//int diffsecs = mDtDue.secsTo(dtDue);
/*if (mReadOnly) return;
const QPtrList<Alarm>& alarms = alarms();
for (Alarm* alarm = alarms.first(); alarm; alarm = alarms.next()) {
if (alarm->enabled()) {
alarm->setTime(alarm->time().addSecs(diffsecs));
}
}*/
mDtDue = getEvenTime(dtDue);
//kdDebug(5800) << "setDtDue says date is " << mDtDue.toString() << endl;
/*const QPtrList<Alarm>& alarms = alarms();
for (Alarm* alarm = alarms.first(); alarm; alarm = alarms.next())
alarm->setAlarmStart(mDtDue);*/
updated();
}
QDateTime Todo::dtDue() const
{
return mDtDue;
}
QString Todo::dtDueTimeStr() const
{
return KGlobal::locale()->formatTime(mDtDue.time());
}
QString Todo::dtDueDateStr(bool shortfmt) const
{
return KGlobal::locale()->formatDate(mDtDue.date(),shortfmt);
}
QString Todo::dtDueStr(bool shortfmt) const
{
if ( doesFloat() )
return KGlobal::locale()->formatDate(mDtDue.date(),shortfmt);
return KGlobal::locale()->formatDateTime(mDtDue, shortfmt);
}
// retval 0 : no found
// 1 : due for date found
// 2 : overdue for date found
int Todo::hasDueSubTodoForDate( const QDate & date, bool checkSubtodos )
{
int retval = 0;
if ( isCompleted() )
return 0;
if ( hasDueDate() ) {
if ( dtDue().date() < date )
@@ -375,206 +375,207 @@ void Todo::setStatus(const QString &statStr)
mStatus = TENTATIVE;
else if (ss == "CONFIRMED")
mStatus = CONFIRMED;
else if (ss == "DECLINED")
mStatus = DECLINED;
else if (ss == "COMPLETED")
mStatus = COMPLETED;
else if (ss == "DELEGATED")
mStatus = DELEGATED;
updated();
}
void Todo::setStatus(int status)
{
if (mReadOnly) return;
mStatus = status;
updated();
}
int Todo::status() const
{
return mStatus;
}
QString Todo::statusStr() const
{
switch(mStatus) {
case NEEDS_ACTION:
return QString("NEEDS ACTION");
break;
case ACCEPTED:
return QString("ACCEPTED");
break;
case SENT:
return QString("SENT");
break;
case TENTATIVE:
return QString("TENTATIVE");
break;
case CONFIRMED:
return QString("CONFIRMED");
break;
case DECLINED:
return QString("DECLINED");
break;
case COMPLETED:
return QString("COMPLETED");
break;
case DELEGATED:
return QString("DELEGATED");
break;
}
return QString("");
}
#endif
bool Todo::isCompleted() const
{
if (mPercentComplete == 100) {
return true;
}
else return false;
}
void Todo::setCompleted(bool completed)
{
if ( mHasRecurrenceID && completed && mPercentComplete != 100 ) {
if ( !setRecurDates() )
completed = false;
}
if (completed) mPercentComplete = 100;
else {
mPercentComplete = 0;
mHasCompletedDate = false;
}
updated();
}
QDateTime Todo::completed() const
{
return mCompleted;
}
QString Todo::completedStr( bool shortF ) const
{
return KGlobal::locale()->formatDateTime(mCompleted, shortF);
}
void Todo::setCompleted(const QDateTime &completed)
{
//qDebug("Todo::setCompleted ");
if ( mHasCompletedDate ) {
// qDebug("has completed data - return ");
return;
}
mHasCompletedDate = true;
mPercentComplete = 100;
mCompleted = getEvenTime(completed);
updated();
}
bool Todo::hasCompletedDate() const
{
return mHasCompletedDate;
}
int Todo::percentComplete() const
{
return mPercentComplete;
}
bool Todo::setRecurDates()
{
if ( !mHasRecurrenceID )
return true;
int secs = mDtStart.secsTo( dtDue() );
bool ok;
qDebug("T:setRecurDates() ");
//qDebug("%s %s %s ",mDtStart.toString().latin1(), dtDue().toString().latin1(),mRecurrenceID.toString().latin1() );
QDateTime next = getNextOccurence( mRecurrenceID, &ok );
if ( ok ) {
mRecurrenceID = next;
mDtStart = next;
setDtDue( next.addSecs( secs ) );
if ( QDateTime::currentDateTime() > next)
return false;
} else {
setHasRecurrenceID( false );
recurrence()->unsetRecurs();
}
return true;
}
void Todo::setPercentComplete(int v)
{
if ( mHasRecurrenceID && v == 100 && mPercentComplete != 100 ) {
if ( !setRecurDates() )
v = 0;
}
mPercentComplete = v;
if ( v != 100 )
mHasCompletedDate = false;
updated();
}
QDateTime Todo::getNextAlarmDateTime( bool * ok, int * offset, QDateTime start_dt ) const
{
if ( isCompleted() || ! hasDueDate() || cancelled() ) {
*ok = false;
return QDateTime ();
}
QDateTime incidenceStart;
incidenceStart = dtDue();
bool enabled = false;
Alarm* alarm;
int off = 0;
QDateTime alarmStart = QDateTime::currentDateTime().addDays( 3650 );;
// if ( QDateTime::currentDateTime() > incidenceStart ){
// *ok = false;
// return incidenceStart;
// }
for (QPtrListIterator<Alarm> it(mAlarms); (alarm = it.current()) != 0; ++it) {
if (alarm->enabled()) {
if ( alarm->hasTime () ) {
if ( alarm->time() < alarmStart ) {
alarmStart = alarm->time();
enabled = true;
off = alarmStart.secsTo( incidenceStart );
}
} else {
int secs = alarm->startOffset().asSeconds();
if ( incidenceStart.addSecs( secs ) < alarmStart ) {
alarmStart = incidenceStart.addSecs( secs );
enabled = true;
off = -secs;
}
}
}
}
if ( enabled ) {
if ( alarmStart > start_dt ) {
*ok = true;
* offset = off;
return alarmStart;
}
}
*ok = false;
return QDateTime ();
}
void Todo::checkSetCompletedFalse()
{
- if ( !hasRecurrenceID() ) {
+ if ( !mHasRecurrenceID ) {
qDebug("ERROR 1 in Todo::checkSetCompletedFalse");
+ return;
}
// qDebug("Todo::checkSetCompletedFalse()");
//qDebug("%s %s %s ",mDtStart.toString().latin1(), dtDue().toString().latin1(),mRecurrenceID.toString().latin1() );
if ( mPercentComplete == 100 ) {
QDateTime dt = QDateTime::currentDateTime();
if ( dt > mDtStart && dt > mRecurrenceID ) {
qDebug("start: %s --due: %s --recID: %s ",mDtStart.toString().latin1(), dtDue().toString().latin1(),mRecurrenceID.toString().latin1() );
setCompleted( false );
qDebug("Todo::checkSetCompletedFalse ");
}
}
}
diff --git a/libkcal/todo.h b/libkcal/todo.h
index ab8fdf1..501c2ba 100644
--- a/libkcal/todo.h
+++ b/libkcal/todo.h
@@ -1,150 +1,151 @@
/*
This file is part of libkcal.
Copyright (c) 2001 Cornelius Schumacher <schumacher@kde.org>
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.
This library 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
Library General Public License for more details.
You should have received a copy of the GNU Library General Public License
along with this library; see the file COPYING.LIB. If not, write to
the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
Boston, MA 02111-1307, USA.
*/
#ifndef TODO_H
#define TODO_H
//
// Todo component, representing a VTODO object
//
#include "incidence.h"
#include <qtimer.h>
namespace KCal {
/**
This class provides a Todo in the sense of RFC2445.
*/
class Todo : public QObject,public Incidence
{
Q_OBJECT
public:
Todo();
Todo(const Todo &);
~Todo();
typedef ListBase<Todo> List;
QCString type() const { return "Todo"; }
+ IncTypeID typeID() const { return todoID; }
/** Return an exact copy of this todo. */
Incidence *clone();
QDateTime getNextAlarmDateTime( bool * ok, int * offset, QDateTime start_dt ) const;
/** for setting the todo's due date/time with a QDateTime. */
void setDtDue(const QDateTime &dtDue);
/** returns an event's Due date/time as a QDateTime. */
QDateTime dtDue() const;
/** returns an event's due time as a string formatted according to the
users locale settings */
QString dtDueTimeStr() const;
/** returns an event's due date as a string formatted according to the
users locale settings */
QString dtDueDateStr(bool shortfmt=true) const;
/** returns an event's due date and time as a string formatted according
to the users locale settings */
QString dtDueStr(bool shortfmt=true) const;
/** returns TRUE or FALSE depending on whether the todo has a due date */
bool hasDueDate() const;
/** sets the event's hasDueDate value. */
void setHasDueDate(bool f);
/*
Looks for a subtodo (including itself ) which is not complete and is
- overdue, or
- due today.
It returns 0 for nothing found,
1 for found a todo which is due today and no overdue found
2 for found a overdue todo
*/
int hasDueSubTodo( bool checkSubtodos = true );
/* same as above, but a specific date can be specified*/
int hasDueSubTodoForDate( const QDate & date, bool checkSubtodos );
/** sets the event's status to the string specified. The string
* must be a recognized value for the status field, i.e. a string
* equivalent of the possible status enumerations previously described. */
// void setStatus(const QString &statStr);
/** sets the event's status to the value specified. See the enumeration
* above for possible values. */
// void setStatus(int);
/** return the event's status. */
// int status() const;
/** return the event's status in string format. */
// QString statusStr() const;
/** return, if this todo is completed */
bool isCompleted() const;
/** set completed state of this todo */
void setCompleted(bool);
/**
Return how many percent of the task are completed. Returns a value
between 0 and 100.
*/
int percentComplete() const;
/**
Set how many percent of the task are completed. Valid values are in the
range from 0 to 100.
*/
void setPercentComplete(int);
/** return date and time when todo was completed */
QDateTime completed() const;
QString completedStr(bool shortF = true) const;
/** set date and time of completion */
void setCompleted(const QDateTime &completed);
/** Return true, if todo has a date associated with completion */
bool hasCompletedDate() const;
bool contains ( Todo*);
void checkSetCompletedFalse();
bool setRecurDates();
bool isRunning() {return mRunning;}
bool hasRunningSub();
void setRunning( bool );
void setRunningFalse( QString );
int runTime();
QDateTime runStart () const { return mRunStart;}
public slots:
void saveRunningInfoToFile( QString st = QString::null );
void saveParents();
private:
bool mRunning;
QTimer * mRunSaveTimer;
QDateTime mRunStart;
bool accept(Visitor &v) { return v.visit(this); }
QDateTime mDtDue; // due date of todo
bool mHasDueDate; // if todo has associated due date
// int mStatus; // confirmed/delegated/tentative/etc
QDateTime mCompleted;
bool mHasCompletedDate;
int mPercentComplete;
};
bool operator==( const Todo&, const Todo& );
}
#endif