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|
/*
This file is part of libkcal.
Copyright (c) 2001 Cornelius Schumacher <schumacher@kde.org>
Copyright (C) 2003-2004 Reinhold Kainhofer <reinhold@kainhofer.com>
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., 51 Franklin Street, Fifth Floor,
Boston, MA 02110-1301, USA.
*/
#include <kglobal.h>
#include <klocale.h>
#include <kdebug.h>
#include "calformat.h"
#include "incidence.h"
#include "calendar.h"
using namespace KCal;
Incidence::Incidence() :
IncidenceBase(),
mRelatedTo(0), mStatus(StatusNone), mSecrecy(SecrecyPublic),
mPriority(0), mRecurrence(0),
mHasRecurrenceID( false ), mChildRecurrenceEvents()
{
recreate();
mAlarms.setAutoDelete(true);
mAttachments.setAutoDelete(true);
}
Incidence::Incidence( const Incidence &i ) : IncidenceBase( i ),Recurrence::Observer()
{
// 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;
// Incidence::List mRelations; Incidence::List mRelations;
mResources = i.mResources;
mStatusString = i.mStatusString;
mStatus = i.mStatus;
mSecrecy = i.mSecrecy;
mPriority = i.mPriority;
mLocation = i.mLocation;
mRecurrenceID = i.mRecurrenceID;
mHasRecurrenceID = i.mHasRecurrenceID;
mChildRecurrenceEvents = i.mChildRecurrenceEvents;
// Alarms and Attachments are stored in ListBase<...>, which is a TQValueList<...*>.
// We need to really duplicate the objects stored therein, otherwise deleting
// i will also delete all attachments from this object (setAutoDelete...)
Alarm::List::ConstIterator it;
for( it = i.mAlarms.begin(); it != i.mAlarms.end(); ++it ) {
Alarm *b = new Alarm( **it );
b->setParent( this );
mAlarms.append( b );
}
mAlarms.setAutoDelete(true);
Attachment::List::ConstIterator it1;
for ( it1 = i.mAttachments.begin(); it1 != i.mAttachments.end(); ++it1 ) {
Attachment *a = new Attachment( **it1 );
mAttachments.append( a );
}
mAttachments.setAutoDelete( true );
if (i.mRecurrence) {
mRecurrence = new Recurrence( *(i.mRecurrence) );
mRecurrence->addObserver( this );
} else
mRecurrence = 0;
mSchedulingID = i.mSchedulingID;
}
Incidence::~Incidence()
{
Incidence::List Relations = mRelations;
List::ConstIterator it;
for ( it = Relations.begin(); it != Relations.end(); ++it ) {
if ( (*it)->relatedTo() == this ) (*it)->mRelatedTo = 0;
}
if ( relatedTo() ) relatedTo()->removeRelation( this );
delete mRecurrence;
}
// A string comparison that considers that null and empty are the same
static bool stringCompare( const TQString& s1, const TQString& s2 )
{
return ( s1.isEmpty() && s2.isEmpty() ) || (s1 == s2);
}
Incidence& Incidence::operator=( const Incidence &i )
{
if ( &i == this )
return *this;
IncidenceBase::operator=( i );
mRevision = i.mRevision;
mCreated = i.mCreated;
mDescription = i.mDescription;
mSummary = i.mSummary;
mCategories = i.mCategories;
mRelatedTo = 0;
mRelatedToUid = i.mRelatedToUid;
mRelations.clear();
mResources = i.mResources;
mStatusString = i.mStatusString;
mStatus = i.mStatus;
mSecrecy = i.mSecrecy;
mPriority = i.mPriority;
mLocation = i.mLocation;
mRecurrenceID = i.mRecurrenceID;
mHasRecurrenceID = i.mHasRecurrenceID;
mChildRecurrenceEvents = i.mChildRecurrenceEvents;
mAlarms.clearAll();
Alarm::List::ConstIterator it;
for( it = i.mAlarms.begin(); it != i.mAlarms.end(); ++it ) {
Alarm *b = new Alarm( **it );
b->setParent( this );
mAlarms.append( b );
}
mAttachments.clearAll();
Attachment::List::ConstIterator it1;
for ( it1 = i.mAttachments.begin(); it1 != i.mAttachments.end(); ++it1 ) {
Attachment *a = new Attachment( **it1 );
mAttachments.append( a );
}
delete mRecurrence;
if (i.mRecurrence) {
mRecurrence = new Recurrence( *(i.mRecurrence) );
mRecurrence->addObserver( this );
} else
mRecurrence = 0;
mSchedulingID = i.mSchedulingID;
return *this;
}
bool Incidence::operator==( const Incidence& i2 ) const
{
if( alarms().count() != i2.alarms().count() ) {
return false; // no need to check further
}
Alarm::List::ConstIterator a1 = alarms().begin();
Alarm::List::ConstIterator a2 = i2.alarms().begin();
for( ; a1 != alarms().end() && a2 != i2.alarms().end(); ++a1, ++a2 )
if( **a1 == **a2 )
continue;
else {
return false;
}
if ( !IncidenceBase::operator==(i2) )
return false;
bool recurrenceEqual = ( mRecurrence == 0 && i2.mRecurrence == 0 );
if ( !recurrenceEqual )
{
recurrenceEqual = mRecurrence != 0 &&
i2.mRecurrence != 0 &&
*mRecurrence == *i2.mRecurrence;
}
return
recurrenceEqual &&
created() == i2.created() &&
stringCompare( description(), i2.description() ) &&
stringCompare( summary(), i2.summary() ) &&
categories() == i2.categories() &&
// no need to compare mRelatedTo
stringCompare( relatedToUid(), i2.relatedToUid() ) &&
relations() == i2.relations() &&
attachments() == i2.attachments() &&
resources() == i2.resources() &&
mStatus == i2.mStatus &&
( mStatus == StatusNone || stringCompare( mStatusString, i2.mStatusString ) ) &&
secrecy() == i2.secrecy() &&
priority() == i2.priority() &&
stringCompare( location(), i2.location() ) &&
stringCompare( schedulingID(), i2.schedulingID() );
}
void Incidence::recreate()
{
setCreated(TQDateTime::tqcurrentDateTime());
setUid(CalFormat::createUniqueId());
setSchedulingID( TQString::null );
setRevision(0);
setLastModified(TQDateTime::tqcurrentDateTime());
setPilotId( 0 );
setSyncStatus( SYNCNONE );
}
void Incidence::setReadOnly( bool readOnly )
{
IncidenceBase::setReadOnly( readOnly );
if ( mRecurrence )
mRecurrence->setRecurReadOnly( readOnly );
}
void Incidence::setFloats(bool f)
{
if (mReadOnly) return;
if ( recurrence() )
recurrence()->setFloats( f );
IncidenceBase::setFloats( f );
}
void Incidence::setCreated( const TQDateTime &created )
{
if (mReadOnly) return;
mCreated = created;
// FIXME: Shouldn't we call updated for the creation date, too?
// updated();
}
TQDateTime 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 TQDateTime &dtStart)
{
if ( mRecurrence ) {
mRecurrence->setStartDateTime( dtStart );
mRecurrence->setFloats( doesFloat() );
}
IncidenceBase::setDtStart( dtStart );
}
void Incidence::setDescription(const TQString &description)
{
if (mReadOnly) return;
mDescription = description;
updated();
}
TQString Incidence::description() const
{
return mDescription;
}
void Incidence::setSummary(const TQString &summary)
{
if (mReadOnly) return;
mSummary = summary;
updated();
}
TQString Incidence::summary() const
{
return mSummary;
}
void Incidence::setCategories(const TQStringList &categories)
{
if (mReadOnly) return;
mCategories = categories;
updated();
}
// TODO: remove setCategories(TQString) function
void Incidence::setCategories(const TQString &catStr)
{
if (mReadOnly) return;
mCategories.clear();
if (catStr.isEmpty()) return;
mCategories = TQStringList::split(",",catStr);
TQStringList::Iterator it;
for(it = mCategories.begin();it != mCategories.end(); ++it) {
*it = (*it).stripWhiteSpace();
}
updated();
}
TQStringList Incidence::categories() const
{
return mCategories;
}
TQString Incidence::categoriesStr() const
{
return mCategories.join(",");
}
void Incidence::setRelatedToUid(const TQString &relatedToUid)
{
if ( mReadOnly || mRelatedToUid == relatedToUid ) return;
mRelatedToUid = relatedToUid;
updated();
}
TQString Incidence::relatedToUid() const
{
return mRelatedToUid;
}
void Incidence::setRelatedTo(Incidence *relatedTo)
{
if (mReadOnly || mRelatedTo == relatedTo) return;
if(mRelatedTo)
mRelatedTo->removeRelation(this);
mRelatedTo = relatedTo;
if (mRelatedTo) {
mRelatedTo->addRelation(this);
if ( mRelatedTo->uid() != mRelatedToUid )
setRelatedToUid( mRelatedTo->uid() );
} else {
setRelatedToUid( TQString::null );
}
}
Incidence *Incidence::relatedTo() const
{
return mRelatedTo;
}
Incidence::List Incidence::relations() const
{
return mRelations;
}
void Incidence::addRelation( Incidence *event )
{
if ( mRelations.find( event ) == mRelations.end() ) {
mRelations.append( event );
}
}
void Incidence::removeRelation(Incidence *event)
// Remove the relation of our incident. E.g. if you have a task t and a
// subtask, the subtask will have its relation to the task t.
{
mRelations.removeRef(event);
// if (event->getRelatedTo() == this) event->setRelatedTo(0);
mRelatedToUid=TQString();
}
// %%%%%%%%%%%% Recurrence-related methods %%%%%%%%%%%%%%%%%%%%
Recurrence *Incidence::recurrence() const
{
if (!mRecurrence)
{
const_cast<KCal::Incidence*>(this)->mRecurrence = new Recurrence();
mRecurrence->setStartDateTime( IncidenceBase::dtStart() );
mRecurrence->setFloats( doesFloat() );
mRecurrence->setRecurReadOnly( mReadOnly );
mRecurrence->addObserver( const_cast<KCal::Incidence*>(this) );
}
return mRecurrence;
}
void Incidence::clearRecurrence()
{
delete mRecurrence;
mRecurrence = 0;
}
uint Incidence::recurrenceType() const
{
if ( mRecurrence ) return mRecurrence->recurrenceType();
else return Recurrence::rNone;
}
bool Incidence::doesRecur() const
{
if ( mRecurrence ) return mRecurrence->doesRecur();
else return false;
}
bool Incidence::recursOn(const TQDate &qd) const
{
bool doesRecur = false;
doesRecur = mRecurrence && mRecurrence->recursOn(qd);
return doesRecur;
}
bool Incidence::recursAt(const TQDateTime &qdt) const
{
bool doesRecur = false;
doesRecur = mRecurrence && mRecurrence->recursAt(qdt);
return doesRecur;
}
bool Incidence::recursOn(const TQDate &qd, Calendar *cal) const
{
bool doesRecur = false;
doesRecur = mRecurrence && mRecurrence->recursOn(qd);
// Make sure that this instance has not been moved through a RECURRENCE-ID statement
if (hasRecurrenceID() == false) {
IncidenceList il = childIncidences();
IncidenceListIterator it;
for ( it = il.begin(); it != il.end(); ++it ) {
QDateTime modifiedDt = cal->incidence(*it)->recurrenceID();
modifiedDt.setTime(QTime());
if (QDateTime(qd) == modifiedDt) {
doesRecur = false;
}
}
}
return doesRecur;
}
bool Incidence::recursAt(const TQDateTime &qdt, Calendar *cal) const
{
bool doesRecur = false;
doesRecur = mRecurrence && mRecurrence->recursAt(qdt);
// Make sure that this instance has not been moved through a RECURRENCE-ID statement
if (hasRecurrenceID() == false) {
IncidenceList il = childIncidences();
IncidenceListIterator it;
for ( it = il.begin(); it != il.end(); ++it ) {
if (qdt == cal->incidence(*it)->recurrenceID()) {
doesRecur = false;
}
}
}
return doesRecur;
}
/**
Calculates the start date/time for all recurrences that happen at some time
on the given date (might start before that date, but end on or after the
given date).
@param date the date where the incidence should occur
@return the start date/time of all occurences that overlap with the given
date. Empty list if the incidence does not overlap with the date at all
*/
TQValueList<TQDateTime> Incidence::startDateTimesForDate( const TQDate &date ) const
{
//kdDebug(5800) << "Incidence::startDateTimesForDate " << date << ", incidence=" << summary() << endl;
TQDateTime start = dtStart();
TQDateTime end = endDateRecurrenceBase();
TQValueList<TQDateTime> result;
// TODO_Recurrence: Also work if only due date is given...
if ( !start.isValid() && ! end.isValid() ) {
return result;
}
// if the incidence doesn't recur,
if ( !doesRecur() ) {
if ( !(start.date() > date || end.date() < date ) ) {
result << start;
}
return result;
}
int days = start.daysTo( end );
// Account for possible recurrences going over midnight, while the original event doesn't
TQDate tmpday( date.addDays( -days - 1 ) );
TQDateTime tmp;
while ( tmpday <= date ) {
if ( recurrence()->recursOn( tmpday ) ) {
TQValueList<TQTime> times = recurrence()->recurTimesOn( tmpday );
for ( TQValueList<TQTime>::ConstIterator it = times.begin(); it != times.end(); ++it ) {
tmp = TQDateTime( tmpday, *it );
if ( endDateForStart( tmp ).date() >= date )
result << tmp;
}
}
tmpday = tmpday.addDays( 1 );
}
return result;
}
/**
Calculates the start date/time for all recurrences that happen at the given
time.
@param datetime the date/time where the incidence should occur
@return the start date/time of all occurences that overlap with the given
date/time. Empty list if the incidence does not happen at the given
time at all.
*/
TQValueList<TQDateTime> Incidence::startDateTimesForDateTime( const TQDateTime &datetime ) const
{
// kdDebug(5800) << "Incidence::startDateTimesForDateTime " << datetime << ", incidence=" << summary() << endl;
TQDateTime start = dtStart();
TQDateTime end = endDateRecurrenceBase();
TQValueList<TQDateTime> result;
// TODO_Recurrence: Also work if only due date is given...
if ( !start.isValid() && ! end.isValid() ) {
return result;
}
// if the incidence doesn't recur,
if ( !doesRecur() ) {
if ( !(start > datetime || end < datetime ) ) {
result << start;
}
return result;
}
int days = start.daysTo( end );
// Account for possible recurrences going over midnight, while the original event doesn't
TQDate tmpday( datetime.date().addDays( -days - 1 ) );
TQDateTime tmp;
while ( tmpday <= datetime.date() ) {
if ( recurrence()->recursOn( tmpday ) ) {
TQValueList<TQTime> times = recurrence()->recurTimesOn( tmpday );
for ( TQValueList<TQTime>::ConstIterator it = times.begin(); it != times.end(); ++it ) {
tmp = TQDateTime( tmpday, *it );
if ( !(tmp > datetime || endDateForStart( tmp ) < datetime ) )
result << tmp;
}
}
tmpday = tmpday.addDays( 1 );
}
return result;
}
/** Return the end time of the occurrence if it starts at the given date/time */
TQDateTime Incidence::endDateForStart( const TQDateTime &startDt ) const
{
TQDateTime start = dtStart();
TQDateTime end = endDateRecurrenceBase();
if ( !end.isValid() ) return start;
if ( !start.isValid() ) return end;
return startDt.addSecs( start.secsTo( end ) );
}
// %%%%%%%%%%%%%%%%% begin:RecurrenceRule %%%%%%%%%%%%%%%%%
// Exception Dates
/*void Incidence::setExDates(const DateList &exDates)
{
if ( mReadOnly ) return;
recurrence()->setExDates( exDates );
updated();
}
void Incidence::addExDate( const TQDate &date )
{
if ( mReadOnly ) return;
recurrence()->addExDate( date );
updated();
}
DateList Incidence::exDates() const
{
if ( mRecurrence ) return mRecurrence->exDates();
else return DateList();
}
// Exception DateTimes
void Incidence::setExDateTimes( const DateTimeList &exDates )
{
if ( mReadOnly ) return;
recurrence()->setExDateTimes( exDates );
updated();
}
void Incidence::addExDateTime( const TQDateTime &date )
{
if ( mReadOnly ) return;
recurrence()->addExDateTime( date );
updated();
}
DateTimeList Incidence::exDateTimes() const
{
if ( mRecurrence ) return mRecurrence->exDateTimes();
else return DateTimeList();
}
// Recurrence Dates
void Incidence::setRDates(const DateList &exDates)
{
if ( mReadOnly ) return;
recurrence()->setRDates( exDates );
updated();
}
void Incidence::addRDate( const TQDate &date )
{
if ( mReadOnly ) return;
recurrence()->addRDate( date );
updated();
}
DateList Incidence::rDates() const
{
if ( mRecurrence ) return mRecurrence->rDates();
else return DateList();
}
// Recurrence DateTimes
void Incidence::setRDateTimes( const DateTimeList &exDates )
{
if ( mReadOnly ) return;
recurrence()->setRDateTimes( exDates );
updated();
}
void Incidence::addRDateTime( const TQDateTime &date )
{
if ( mReadOnly ) return;
recurrence()->addRDateTime( date );
updated();
}
DateTimeList Incidence::rDateTimes() const
{
if ( mRecurrence ) return mRecurrence->rDateTimes();
else return DateTimeList();
}*/
// %%%%%%%%%%%%%%%%% end:RecurrenceRule %%%%%%%%%%%%%%%%%
void Incidence::addAttachment(Attachment *attachment)
{
if (mReadOnly || !attachment) return;
mAttachments.append(attachment);
updated();
}
void Incidence::deleteAttachment(Attachment *attachment)
{
mAttachments.removeRef(attachment);
}
void Incidence::deleteAttachments( const TQString &mime )
{
Attachment::List::Iterator it = mAttachments.begin();
while( it != mAttachments.end() ) {
if ( (*it)->mimeType() == mime ) mAttachments.remove( it );
else ++it;
}
}
Attachment::List Incidence::attachments() const
{
return mAttachments;
}
Attachment::List Incidence::attachments(const TQString& mime) const
{
Attachment::List attachments;
Attachment::List::ConstIterator it;
for( it = mAttachments.begin(); it != mAttachments.end(); ++it ) {
if ( (*it)->mimeType() == mime ) attachments.append( *it );
}
return attachments;
}
void Incidence::clearAttachments()
{
mAttachments.clearAll();
}
void Incidence::setResources(const TQStringList &resources)
{
if (mReadOnly) return;
mResources = resources;
updated();
}
TQStringList Incidence::resources() const
{
return mResources;
}
void Incidence::setPriority(int priority)
{
if (mReadOnly) return;
mPriority = priority;
updated();
}
int Incidence::priority() const
{
return mPriority;
}
void Incidence::seStatus(Incidence::Status status)
{
if (mReadOnly || status == StatusX) return;
mStatus = status;
mStatusString = TQString::null;
updated();
}
void Incidence::setCustomStatus(const TQString &status)
{
if (mReadOnly) return;
mStatus = status.isEmpty() ? StatusNone : StatusX;
mStatusString = status;
updated();
}
Incidence::Status Incidence::status() const
{
return mStatus;
}
TQString Incidence::statusStr() const
{
if (mStatus == StatusX)
return mStatusString;
return statusName(mStatus);
}
TQString Incidence::statusName(Incidence::Status status)
{
switch (status) {
case StatusTentative: return i18n("incidence status", "Tentative");
case StatusConfirmed: return i18n("Confirmed");
case StatusCompleted: return i18n("Completed");
case StatusNeedsAction: return i18n("Needs-Action");
case StatusCanceled: return i18n("Canceled");
case StatusInProcess: return i18n("In-Process");
case StatusDraft: return i18n("Draft");
case StatusFinal: return i18n("Final");
case StatusX:
case StatusNone:
default: return TQString::null;
}
}
void Incidence::setSecrecy(int sec)
{
if (mReadOnly) return;
mSecrecy = sec;
updated();
}
int Incidence::secrecy() const
{
return mSecrecy;
}
TQString Incidence::secrecyStr() const
{
return secrecyName(mSecrecy);
}
TQString Incidence::secrecyName(int secrecy)
{
switch (secrecy) {
case SecrecyPublic:
return i18n("Public");
case SecrecyPrivate:
return i18n("Private");
case SecrecyConfidential:
return i18n("Confidential");
default:
return i18n("Undefined");
}
}
TQStringList Incidence::secrecyList()
{
TQStringList list;
list << secrecyName(SecrecyPublic);
list << secrecyName(SecrecyPrivate);
list << secrecyName(SecrecyConfidential);
return list;
}
const Alarm::List &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.clearAll();
updated();
}
bool Incidence::isAlarmEnabled() const
{
Alarm::List::ConstIterator it;
for( it = mAlarms.begin(); it != mAlarms.end(); ++it ) {
if ( (*it)->enabled() ) return true;
}
return false;
}
void Incidence::setLocation(const TQString &location)
{
if (mReadOnly) return;
mLocation = location;
updated();
}
TQString Incidence::location() const
{
return mLocation;
}
void Incidence::setSchedulingID( const TQString& sid )
{
mSchedulingID = sid;
}
TQString Incidence::schedulingID() const
{
if ( mSchedulingID.isNull() )
// Nothing set, so use the normal uid
return uid();
return mSchedulingID;
}
bool Incidence::hasRecurrenceID() const
{
return mHasRecurrenceID;
}
void Incidence::setHasRecurrenceID( bool hasRecurrenceID )
{
if ( mReadOnly ) {
return;
}
mHasRecurrenceID = hasRecurrenceID;
updated();
}
TQDateTime Incidence::recurrenceID() const
{
return mRecurrenceID;
}
void Incidence::setRecurrenceID( const TQDateTime &recurrenceID )
{
if ( mReadOnly ) {
return;
}
// update();
mRecurrenceID = recurrenceID;
updated();
}
void Incidence::addChildIncidence( TQString childIncidence )
{
mChildRecurrenceEvents.append(childIncidence);
}
void Incidence::deleteChildIncidence( TQString childIncidence )
{
mChildRecurrenceEvents.remove(childIncidence);
}
IncidenceList Incidence::childIncidences() const
{
return mChildRecurrenceEvents;
}
/** Observer interface for the recurrence class. If the recurrence is changed,
this method will be called for the incidence the recurrence object
belongs to. */
void Incidence::recurrenceUpdated( Recurrence *recurrence )
{
if ( recurrence == mRecurrence )
updated();
}
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