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path: root/libkcal
authorzautrix <zautrix>2005-07-28 10:38:58 (UTC)
committer zautrix <zautrix>2005-07-28 10:38:58 (UTC)
commitfee4c893fe8fd01af1b55c1ccd40213fc18a36b4 (patch) (side-by-side diff)
tree83a3018d54d60e880d441a6f91ef8fe54254aaff /libkcal
parent27ffa2e08ebb38e71f613af3a214750442418e2c (diff)
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fixxxx
Diffstat (limited to 'libkcal') (more/less context) (ignore whitespace changes)
-rw-r--r--libkcal/alarm.cpp2
-rw-r--r--libkcal/event.cpp8
-rw-r--r--libkcal/event.h1
-rw-r--r--libkcal/incidence.cpp29
-rw-r--r--libkcal/incidence.h3
-rw-r--r--libkcal/todo.cpp10
-rw-r--r--libkcal/todo.h1
7 files changed, 52 insertions, 2 deletions
diff --git a/libkcal/alarm.cpp b/libkcal/alarm.cpp
index 79e0464..3157214 100644
--- a/libkcal/alarm.cpp
+++ b/libkcal/alarm.cpp
@@ -161,323 +161,323 @@ void Alarm::setAudioAlarm(const QString &audioFile)
{
mType = Audio;
mFile = audioFile;
mParent->updated();
}
void Alarm::setAudioFile(const QString &audioFile)
{
if (mType == Audio) {
mFile = audioFile;
mParent->updated();
}
}
QString Alarm::audioFile() const
{
return (mType == Audio) ? mFile : QString::null;
}
void Alarm::setProcedureAlarm(const QString &programFile, const QString &arguments)
{
mType = Procedure;
mFile = programFile;
mDescription = arguments;
mParent->updated();
}
void Alarm::setProgramFile(const QString &programFile)
{
if (mType == Procedure) {
mFile = programFile;
mParent->updated();
}
}
QString Alarm::programFile() const
{
return (mType == Procedure) ? mFile : QString::null;
}
void Alarm::setProgramArguments(const QString &arguments)
{
if (mType == Procedure) {
mDescription = arguments;
mParent->updated();
}
}
QString Alarm::programArguments() const
{
return (mType == Procedure) ? mDescription : QString::null;
}
void Alarm::setEmailAlarm(const QString &subject, const QString &text,
const QValueList<Person> &addressees, const QStringList &attachments)
{
mType = Email;
mMailSubject = subject;
mDescription = text;
mMailAddresses = addressees;
mMailAttachFiles = attachments;
mParent->updated();
}
void Alarm::setMailAddress(const Person &mailAddress)
{
if (mType == Email) {
mMailAddresses.clear();
mMailAddresses += mailAddress;
mParent->updated();
}
}
void Alarm::setMailAddresses(const QValueList<Person> &mailAddresses)
{
if (mType == Email) {
mMailAddresses = mailAddresses;
mParent->updated();
}
}
void Alarm::addMailAddress(const Person &mailAddress)
{
if (mType == Email) {
mMailAddresses += mailAddress;
mParent->updated();
}
}
QValueList<Person> Alarm::mailAddresses() const
{
return (mType == Email) ? mMailAddresses : QValueList<Person>();
}
void Alarm::setMailSubject(const QString &mailAlarmSubject)
{
if (mType == Email) {
mMailSubject = mailAlarmSubject;
mParent->updated();
}
}
QString Alarm::mailSubject() const
{
return (mType == Email) ? mMailSubject : QString::null;
}
void Alarm::setMailAttachment(const QString &mailAttachFile)
{
if (mType == Email) {
mMailAttachFiles.clear();
mMailAttachFiles += mailAttachFile;
mParent->updated();
}
}
void Alarm::setMailAttachments(const QStringList &mailAttachFiles)
{
if (mType == Email) {
mMailAttachFiles = mailAttachFiles;
mParent->updated();
}
}
void Alarm::addMailAttachment(const QString &mailAttachFile)
{
if (mType == Email) {
mMailAttachFiles += mailAttachFile;
mParent->updated();
}
}
QStringList Alarm::mailAttachments() const
{
return (mType == Email) ? mMailAttachFiles : QStringList();
}
void Alarm::setMailText(const QString &text)
{
if (mType == Email) {
mDescription = text;
mParent->updated();
}
}
QString Alarm::mailText() const
{
return (mType == Email) ? mDescription : QString::null;
}
void Alarm::setDisplayAlarm(const QString &text)
{
mType = Display;
mDescription = text;
mParent->updated();
}
void Alarm::setText(const QString &text)
{
if (mType == Display) {
mDescription = text;
mParent->updated();
}
}
QString Alarm::text() const
{
return (mType == Display) ? mDescription : QString::null;
}
void Alarm::setTime(const QDateTime &alarmTime)
{
mAlarmTime = alarmTime;
mHasTime = true;
mParent->updated();
}
int Alarm::offset()
{
if ( hasTime() ) {
if (mParent->typeID() == todoID ) {
Todo *t = static_cast<Todo*>(mParent);
return t->dtDue().secsTo( mAlarmTime ) ;
} else
return mParent->dtStart().secsTo( mAlarmTime ) ;
}
else
{
return mOffset.asSeconds();
}
}
-QString Alarm::offsetText()
+QString Alarm::offsetText()
{
int min = -offset()/60;
int hours = min /60;
min = min % 60;
int days = hours /24;
hours = hours % 24;
QString message;
//qDebug("%d %d %d ", days, hours, min );
if ( days > 0 )
message += i18n("%1d").arg( days );
if ( hours > 0 ) {
if ( !message.isEmpty() ) message += "/";
message += i18n("%1h").arg( hours );
}
if ( min > 0 ) {
if ( !message.isEmpty() ) message += "/";
message += i18n("%1min").arg( min );
}
if ( message.isEmpty() )
message = i18n("%1min").arg( 0 );
if ( !mParent->alarmEnabled() )
return "!"+message + i18n("(disabled)");
return message;
}
QDateTime Alarm::time() const
{
if ( hasTime() )
return mAlarmTime;
else
{
if (mParent->typeID() == todoID ) {
Todo *t = static_cast<Todo*>(mParent);
return mOffset.end( t->dtDue() );
} else if (mEndOffset) {
return mOffset.end( mParent->dtEnd() );
} else {
return mOffset.end( mParent->dtStart() );
}
}
}
bool Alarm::hasTime() const
{
return mHasTime;
}
void Alarm::setSnoozeTime(int alarmSnoozeTime)
{
mAlarmSnoozeTime = alarmSnoozeTime;
mParent->updated();
}
int Alarm::snoozeTime() const
{
return mAlarmSnoozeTime;
}
void Alarm::setRepeatCount(int alarmRepeatCount)
{
kdDebug(5800) << "Alarm::setRepeatCount(): " << alarmRepeatCount << endl;
mAlarmRepeatCount = alarmRepeatCount;
mParent->updated();
}
int Alarm::repeatCount() const
{
kdDebug(5800) << "Alarm::repeatCount(): " << mAlarmRepeatCount << endl;
return mAlarmRepeatCount;
}
void Alarm::toggleAlarm()
{
mAlarmEnabled = !mAlarmEnabled;
mParent->updated();
}
void Alarm::setEnabled(bool enable)
{
mAlarmEnabled = enable;
mParent->updated();
}
bool Alarm::enabled() const
{
return mAlarmEnabled;
}
void Alarm::setStartOffset( const Duration &offset )
{
mOffset = offset;
mEndOffset = false;
mHasTime = false;
mParent->updated();
}
Duration Alarm::startOffset() const
{
return (mHasTime || mEndOffset) ? 0 : mOffset;
}
bool Alarm::hasStartOffset() const
{
return !mHasTime && !mEndOffset;
}
bool Alarm::hasEndOffset() const
{
return !mHasTime && mEndOffset;
}
void Alarm::setEndOffset( const Duration &offset )
{
mOffset = offset;
mEndOffset = true;
mHasTime = false;
mParent->updated();
}
Duration Alarm::endOffset() const
{
return (mHasTime || !mEndOffset) ? 0 : mOffset;
}
void Alarm::setParent( Incidence *parent )
{
mParent = parent;
}
diff --git a/libkcal/event.cpp b/libkcal/event.cpp
index 0766fd9..fdf5657 100644
--- a/libkcal/event.cpp
+++ b/libkcal/event.cpp
@@ -225,192 +225,200 @@ bool Event::isOverlapping ( Event* testEvent, QDateTime* overlapDT, QDateTime*
return false;
}
}
Event *nonRecur = 0;
Event *recurEvent = 0;
if ( ! doesRecur() ) {
nonRecur = this;
recurEvent = testEvent;
}
else if ( !testEvent->doesRecur() ) {
nonRecur = testEvent;
recurEvent = this;
}
if ( nonRecur ) {
QDateTime enr;
if ( nonRecur->doesFloat() )
enr = nonRecur->mDtEnd.addDays( 1 );
else
enr = nonRecur->mDtEnd;
if ( enr < recurEvent->mDtStart )
return false;
if ( startDT && enr < *startDT )
return false;
int recDuration = recurEvent->mDtStart.secsTo( recurEvent->mDtEnd );
if ( recurEvent->doesFloat() )
recDuration += 86400;
bool ok = false;
QDateTime recStart;
if ( startDT ) {
recStart = recurEvent->recurrence()->getPreviousDateTime( startDT->addSecs( 61 ), &ok );
}
if ( recStart.isValid() ) {
//qDebug("%s start at %s ", startDT-> toString().latin1(), recStart.toString().latin1());
recStart = recStart.addSecs( -300);
}
else
recStart = recurEvent->mDtStart.addSecs( -300);
ok = true;
while ( ok ) {
recStart = recurEvent->getNextOccurence( recStart.addSecs( 60 ), &ok );
if ( ok ) {
if ( recStart > enr )
return false;
QDateTime recEnd = recStart.addSecs( recDuration );
if ( nonRecur->mDtStart < recEnd && recStart < nonRecur->mDtEnd ) {
if ( nonRecur->mDtStart < recStart )
*overlapDT = recStart;
else
*overlapDT = nonRecur->mDtStart;
if ( startDT ) {
if ( *overlapDT >= *startDT )
return true;
} else
return true;
}
}
}
return false;
}
if ( !doesFloat() && !testEvent->doesFloat() && !isMultiDay() && !testEvent->isMultiDay() ) {
if ( recurrence()->doesRecur() == Recurrence::rWeekly && testEvent->recurrence()->doesRecur() == Recurrence::rWeekly ) {
bool found = false;
uint i;
for ( i=0; i< recurrence()->days().size();++i ) {
found = found || (recurrence()->days().testBit( i ) && testEvent->recurrence()->days().testBit( i ) );
}
if ( ! found ) {
//qDebug("recurring days mismatch %s -- %s", summary().latin1(),testEvent->summary().latin1());
return false;
}
}
}
bool ok = true;
QDateTime incidenceStart;// = mDtStart;
QDateTime testincidenceStart;// = testEvent->mDtStart;
if ( startDT ) {
incidenceStart = recurrence()->getPreviousDateTime( startDT->addSecs( 61 ), &ok );
testincidenceStart = testEvent->recurrence()->getPreviousDateTime( startDT->addSecs( 61 ), &ok );
}
if ( !testincidenceStart.isValid() )
testincidenceStart = testEvent->mDtStart;
if ( !incidenceStart.isValid() )
incidenceStart = mDtStart;
int duration = mDtStart.secsTo( mDtEnd );
if ( doesFloat() )
duration += 86400;
int testduration = testEvent->mDtStart.secsTo( testEvent->mDtEnd );
if ( testEvent->doesFloat() )
testduration += 86400;
bool computeThis = false;
if ( incidenceStart < testincidenceStart )
computeThis = true;
if ( computeThis )
incidenceStart = incidenceStart.addSecs( -300 );
else
testincidenceStart = testincidenceStart.addSecs( -300 );
int count = 0;
ok = true;
int countbreak = 2000;
QDateTime stopSearch;
bool testStop = false;
if ( startDT ) {
stopSearch = startDT->addDays( 365*3 );
testStop = true;
}
while ( ok ) {
++count;
if ( count > countbreak ) break;
if ( computeThis ) {
if ( testStop )
if ( testincidenceStart > stopSearch )
break;
incidenceStart = getNextOccurence( incidenceStart.addSecs( 60 ), &ok );
}
else {
if ( testStop )
if ( incidenceStart > stopSearch )
break;
testincidenceStart = testEvent->getNextOccurence( testincidenceStart.addSecs( 60 ), &ok );
}
if ( ok ) {
if ( incidenceStart < testincidenceStart.addSecs( testduration ) && testincidenceStart < incidenceStart.addSecs( duration ) ) {
if ( incidenceStart < testincidenceStart )
*overlapDT = testincidenceStart;
else
*overlapDT = incidenceStart;
if ( startDT ) {
if ( *overlapDT >= *startDT )
return true;
} else
return true;
}
computeThis = ( incidenceStart < testincidenceStart );
}
}
//qDebug("%d rec counter stopped at %d - %s %s", ok ,count, summary().latin1(),testEvent->summary().latin1() );
return false;
}
QDateTime Event::getNextAlarmDateTime( bool * ok, int * offset, QDateTime start_dt ) const
{
*ok = false;
if ( !alarmEnabled() )
return QDateTime ();
bool yes;
QDateTime incidenceStart = getNextOccurence( start_dt, &yes );
if ( ! yes || cancelled() ) {
*ok = false;
return QDateTime ();
}
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 ();
}
+
+QString Event::durationText()
+{
+ int sec = mDtStart.secsTo( mDtEnd );
+ if ( doesFloat() )
+ sec += 86400;
+ return durationText4Time( sec );
+}
diff --git a/libkcal/event.h b/libkcal/event.h
index 2da9770..6a58618 100644
--- a/libkcal/event.h
+++ b/libkcal/event.h
@@ -1,94 +1,95 @@
/*
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();
bool matchTime(QDateTime*startDT, QDateTime* endDT);
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*);
bool isOverlapping ( Event*, QDateTime*, QDateTime* );
+ QString durationText();
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/incidence.cpp b/libkcal/incidence.cpp
index 4643a3a..201f593 100644
--- a/libkcal/incidence.cpp
+++ b/libkcal/incidence.cpp
@@ -1,295 +1,324 @@
/*
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 <klocale.h>
#include <kdebug.h>
#include "calformat.h"
#include "incidence.h"
#include "todo.h"
using namespace KCal;
Incidence::Incidence() :
IncidenceBase(),
mRelatedTo(0), mSecrecy(SecrecyPublic), mPriority(3)
{
mRecurrence = 0;//new Recurrence(this);
mCancelled = false;
recreate();
mHasStartDate = true;
mAlarms.setAutoDelete(true);
mAttachments.setAutoDelete(true);
mHasRecurrenceID = false;
mHoliday = false;
mBirthday = false;
mAnniversary = false;
}
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;
if ( i.mRecurrence )
mRecurrence = new Recurrence( *(i.mRecurrence), this );
else
mRecurrence = 0;
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);
if ( mRecurrence )
delete mRecurrence;
}
+QString Incidence::durationText()
+{
+ return "---";
+}
+QString Incidence::durationText4Time( int offset )
+{
+ int min = offset/60;
+ int hours = min /60;
+ min = min % 60;
+ int days = hours /24;
+ hours = hours % 24;
+
+ if ( doesFloat() || ( min == 0 && hours == 0 ) ) {
+ if ( days == 1 )
+ return "1" + i18n(" day");
+ else
+ return QString::number( days )+ i18n(" days");
+ }
+ QString message = QString::number ( hours ) +":";
+ if ( min < 10 ) message += "0";
+ message += QString::number ( min );
+ if ( days > 0 ) {
+ if ( days == 1 )
+ message = "1" + i18n(" day") + " "+message;
+ else
+ message = QString::number( days )+ i18n(" days") + " "+message;
+ }
+ return message;
+}
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.mRecurrence != 0 && i2.mRecurrence != 0 ) {
if (!( *i1.mRecurrence == *i2.mRecurrence) ) {
//qDebug("recurrence is NOT equal ");
return false;
}
} else {
// one ( or both ) recurrence is 0
if ( i1.mRecurrence == 0 ) {
if ( i2.mRecurrence != 0 && i2.mRecurrence->doesRecur() != Recurrence::rNone )
return false;
} else {
// i1.mRecurrence != 0
// i2.mRecurrence == 0
if ( i1.mRecurrence->doesRecur() != Recurrence::rNone )
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 ( 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 );
}
diff --git a/libkcal/incidence.h b/libkcal/incidence.h
index 8519f01..88df217 100644
--- a/libkcal/incidence.h
+++ b/libkcal/incidence.h
@@ -92,231 +92,232 @@ class Incidence : public IncidenceBase
bool visit( Journal *j ) { return mResource->addJournal( j ); }
private:
T *mResource;
};
/** enumeration for describing an event's secrecy. */
enum { SecrecyPublic = 0, SecrecyPrivate = 1, SecrecyConfidential = 2 };
typedef ListBase<Incidence> List;
Incidence();
Incidence(const Incidence &);
~Incidence();
/**
Accept IncidenceVisitor. A class taking part in the visitor mechanism has to
provide this implementation:
<pre>
bool accept(Visitor &v) { return v.visit(this); }
</pre>
*/
virtual bool accept(Visitor &) { return false; }
virtual Incidence *clone() = 0;
virtual void cloneRelations( Incidence * );
void addRelationsToList(QPtrList<Incidence> *rel);
virtual QDateTime getNextAlarmDateTime( bool * ok, int * offset, QDateTime start_dt ) const = 0;
void setReadOnly( bool );
/**
Recreate event. The event is made a new unique event, but already stored
event information is preserved. Sets uniquie id, creation date, last
modification date and revision number.
*/
void recreate();
Incidence* recreateCloneException(QDate);
/** set creation date */
void setCreated(QDateTime);
/** return time and date of creation. */
QDateTime created() const;
/** set the number of revisions this event has seen */
void setRevision(int rev);
/** return the number of revisions this event has seen */
int revision() const;
/** Set starting date/time. */
virtual void setDtStart(const QDateTime &dtStart);
/** Return the incidence's ending date/time as a QDateTime. */
virtual QDateTime dtEnd() const { return QDateTime(); }
/** sets the event's lengthy description. */
void setDescription(const QString &description);
/** returns a reference to the event's description. */
QString description() const;
/** sets the event's short summary. */
void setSummary(const QString &summary);
/** returns a reference to the event's summary. */
QString summary() const;
/** set event's applicable categories */
void setCategories(const QStringList &categories, bool setForRelations = false);
void addCategories(const QStringList &categories, bool addToRelations = false);
/** set event's categories based on a comma delimited string */
void setCategories(const QString &catStr);
/** return categories in a list */
QStringList categories() const;
QStringList* categoriesP();
/** return categories as a comma separated string */
QString categoriesStr();
QString categoriesStrWithSpace();
/** point at some other event to which the event relates. This function should
* only be used when constructing a calendar before the related Event
* exists. */
void setRelatedToUid(const QString &);
/** what event does this one relate to? This function should
* only be used when constructing a calendar before the related Event
* exists. */
QString relatedToUid() const;
/** point at some other event to which the event relates */
void setRelatedTo(Incidence *relatedTo);
/** what event does this one relate to? */
Incidence *relatedTo() const;
/** All events that are related to this event */
QPtrList<Incidence> relations() const;
/** Add an event which is related to this event */
void addRelation(Incidence *);
/** Remove event that is related to this event */
void removeRelation(Incidence *);
/** returns the list of dates which are exceptions to the recurrence rule */
DateList exDates() const;
/** sets the list of dates which are exceptions to the recurrence rule */
void setExDates(const DateList &_exDates);
void setExDates(const char *dates);
/** Add a date to the list of exceptions of the recurrence rule. */
void addExDate(const QDate &date);
/** returns true if there is an exception for this date in the recurrence
rule set, or false otherwise. */
bool isException(const QDate &qd) const;
/** add attachment to this event */
void addAttachment(Attachment *attachment);
/** remove and delete a specific attachment */
void deleteAttachment(Attachment *attachment);
/** remove and delete all attachments with this mime type */
void deleteAttachments(const QString& mime);
/** return list of all associated attachments */
QPtrList<Attachment> attachments() const;
/** find a list of attachments with this mime type */
QPtrList<Attachment> attachments(const QString& mime) const;
/** sets the event's status the value specified. See the enumeration
* above for possible values. */
void setSecrecy(int);
/** return the event's secrecy. */
int secrecy() const;
/** return the event's secrecy in string format. */
QString secrecyStr() const;
/** return list of all availbale secrecy classes */
static QStringList secrecyList();
/** return human-readable name of secrecy class */
static QString secrecyName(int);
/** returns TRUE if the date specified is one on which the event will
* recur. */
bool recursOn(const QDate &qd) const;
// VEVENT and VTODO, but not VJOURNAL (move to EventBase class?):
/** set resources used, such as Office, Car, etc. */
void setResources(const QStringList &resources);
/** return list of current resources */
QStringList resources() const;
/** set the event's priority, 0 is undefined, 1 highest (decreasing order) */
void setPriority(int priority);
/** get the event's priority */
int priority() const;
/** All alarms that are associated with this incidence */
QPtrList<Alarm> alarms() const;
/** Create a new alarm which is associated with this incidence */
Alarm* newAlarm();
/** Add an alarm which is associated with this incidence */
void addAlarm(Alarm*);
/** Remove an alarm that is associated with this incidence */
void removeAlarm(Alarm*);
/** Remove all alarms that are associated with this incidence */
void clearAlarms();
/** return whether any alarm associated with this incidence is enabled */
bool isAlarmEnabled() const;
/**
Return the recurrence rule associated with this incidence. If there is
none, returns an appropriate (non-0) object.
*/
Recurrence *recurrence();
void setRecurrence(Recurrence * r);
/**
Forward to Recurrence::doesRecur().
*/
ushort doesRecur() const;
/** set the event's/todo's location. Do _not_ use it with journal */
void setLocation(const QString &location);
/** return the event's/todo's location. Do _not_ use it with journal */
QString location() const;
/** returns TRUE or FALSE depending on whether the todo has a start date */
bool hasStartDate() const;
/** sets the event's hasStartDate value. */
void setHasStartDate(bool f);
QDateTime getNextOccurence( const QDateTime& dt, bool* yes ) const;
bool cancelled() const;
void setCancelled( bool b );
bool hasRecurrenceID() const;
void setHasRecurrenceID( bool b );
void setRecurrenceID(QDateTime);
QDateTime recurrenceID () const;
QDateTime dtStart() const;
bool isHoliday() const;
bool isBirthday() const;
bool isAnniversary() const;
QDateTime lastModifiedSub();
QString recurrenceText() const;
void setLastModifiedSubInvalid();
-
+ virtual QString durationText();
+ QString durationText4Time( int secs );
Recurrence *mRecurrence;
protected:
QPtrList<Alarm> mAlarms;
QPtrList<Incidence> mRelations;
QDateTime mRecurrenceID;
bool mHasRecurrenceID;
private:
void checkCategories();
bool mHoliday, mBirthday, mAnniversary;
int mRevision;
bool mCancelled;
// base components of jounal, event and todo
QDateTime mCreated;
QDateTime mLastModifiedSub;
QString mDescription;
QString mSummary;
QStringList mCategories;
Incidence *mRelatedTo;
QString mRelatedToUid;
DateList mExDates;
QPtrList<Attachment> mAttachments;
QStringList mResources;
bool mHasStartDate; // if todo has associated start date
int mSecrecy;
int mPriority; // 1 = highest, 2 = less, etc.
//QPtrList<Alarm> mAlarms;
QString mLocation;
};
bool operator==( const Incidence&, const Incidence& );
}
#endif
diff --git a/libkcal/todo.cpp b/libkcal/todo.cpp
index 7bf756a..e4508a0 100644
--- a/libkcal/todo.cpp
+++ b/libkcal/todo.cpp
@@ -425,192 +425,202 @@ QString Todo::statusStr() const
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
{
*ok = false;
if ( ! hasDueDate() || cancelled() || !alarmEnabled() ) {
return QDateTime ();
}
// if the recurring todo is set to complete and requested time < start time of todo
// we want to get the alarm.
bool iscompleted = isCompleted();
if ( iscompleted && doesRecur() ) {
Todo * to = (Todo*) this;
to->checkSetCompletedFalse();
iscompleted = isCompleted();
if ( hasStartDate() && start_dt < dtStart() ){
iscompleted = false;
}
}
if ( iscompleted ) {
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 ( !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 ");
}
}
}
+QString Todo::durationText()
+{
+ if ( mHasDueDate && hasStartDate() ) {
+ int sec = dtStart().secsTo( dtDue() );
+ if ( doesFloat() )
+ sec += 86400;
+ return durationText4Time( sec );
+ }
+ return "---";
+}
diff --git a/libkcal/todo.h b/libkcal/todo.h
index 425dfad..7feb32e 100644
--- a/libkcal/todo.h
+++ b/libkcal/todo.h
@@ -1,155 +1,156 @@
/*
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 );
void stopRunning();
int runTime();
QDateTime runStart () const { return mRunStart;}
void saveRunningInfo( QString comment, QDateTime start, QDateTime end );
public slots:
void saveRunningInfoToFile( QString st );
void saveRunningInfoToFile( );
void saveParents();
+ QString durationText();
private:
bool mRunning;
QTimer * mRunSaveTimer;
QDateTime mRunStart;
QDateTime mRunEnd;
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