1 files changed, 8 insertions, 8 deletions
diff --git a/libkcal/event.cpp b/libkcal/event.cpp
index 235ae55..46e8174 100644
--- a/libkcal/event.cpp
+++ b/libkcal/event.cpp
@@ -78,261 +78,261 @@ bool Event::contains ( Event* from )
        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->doesRecur() ) 
        if ( from->doesRecur() != doesRecur() && ! (from->doesRecur()== Recurrence::rYearlyMonth && doesRecur()== Recurrence::rYearlyDay) )
            return false;
    return true;
 }
 void Event::setDtEnd(const QDateTime &dtEnd)
 {
  if (mReadOnly) return;
  mDtEnd = getEvenTime( dtEnd );
  setHasEndDate(true);
  setHasDuration(false);
  updated();
 }
 QDateTime Event::dtEnd() const
 {
  if (hasEndDate()) return mDtEnd;
  if (hasDuration()) return dtStart().addSecs(duration());
  return dtStart();
 }
 QString Event::dtEndTimeStr() const
 {
  return KGlobal::locale()->formatTime(mDtEnd.time());
 }
 QString Event::dtEndDateStr(bool shortfmt) const
 {
  return KGlobal::locale()->formatDate(mDtEnd.date(),shortfmt);
 }
 QString Event::dtEndStr(bool shortfmt) const
 {
  return KGlobal::locale()->formatDateTime(mDtEnd, shortfmt);
 }
 void Event::setHasEndDate(bool b)
 {
  mHasEndDate = b;
 }
 bool Event::hasEndDate() const
 {
  return mHasEndDate;
 }
 bool Event::isMultiDay() const
 {
  bool multi = !(dtStart().date() == dtEnd().date());
  return multi;
 }
 void Event::setTransparency(Event::Transparency transparency)
 {
  if (mReadOnly) return;
  mTransparency = transparency;
  updated();
 }
 Event::Transparency Event::transparency() const
 {
  return mTransparency;
 }
 void Event::setDuration(int seconds)
 {
  setHasEndDate(false);
  Incidence::setDuration(seconds);
 }
-bool Event::isOverlapping (  Event* testEvent,  QDateTime* overlapDT, bool inFutureOnly )
+bool Event::isOverlapping (  Event* testEvent,  QDateTime* overlapDT, QDateTime* startDT )
 {
    if ( testEvent == this )
        return false;
    if ( ! doesRecur() && !testEvent->doesRecur() ) {
        QDateTime te;
        if ( testEvent->doesFloat() )
            te = testEvent->mDtEnd.addDays( 1 );
        else
            te = testEvent->mDtEnd;
        QDateTime e; 
        if ( doesFloat() )
            e = mDtEnd.addDays( 1 );
        else
            e = mDtEnd;
        if ( mDtStart < te && testEvent->mDtStart < e ) {
            if ( mDtStart < testEvent->mDtStart )
                *overlapDT =  testEvent->mDtStart;
            else
                *overlapDT =  mDtStart;
-            if ( inFutureOnly )
+            if ( startDT )
-                return (*overlapDT >= QDateTime::currentDateTime() );
+                return (*overlapDT >= *startDT );
            return true;
        }
        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 ( inFutureOnly && enr < QDateTime::currentDateTime() )
+        if ( startDT && enr < *startDT )
            return false;
        int recDuration = recurEvent->mDtStart.secsTo( recurEvent->mDtEnd );
        if ( recurEvent->doesFloat() )
            recDuration += 86400;
        bool ok = true;
        QDateTime recStart = recurEvent->mDtStart.addSecs( -300);;
        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 ( inFutureOnly ) {
+                    if ( startDT  ) {
-                        if ( *overlapDT >= QDateTime::currentDateTime() )
+                        if ( *overlapDT >= *startDT )
                            return true;
                    } else
                        return true;
                }
            }
        }
        return false;
    }
    
    QDateTime incidenceStart = mDtStart;
    int duration = mDtStart.secsTo( mDtEnd );
    if ( doesFloat() )
            duration += 86400;
    QDateTime testincidenceStart = testEvent->mDtStart;
    int testduration = testEvent->mDtStart.secsTo( testEvent->mDtEnd );
    if ( testEvent->doesFloat() )
            testduration += 86400;
    bool computeThis = false;
    if ( incidenceStart < testincidenceStart )
        computeThis = true;
    bool ok = true;
    if ( computeThis )
        incidenceStart = incidenceStart.addSecs( -300 );
    else
        testincidenceStart = testincidenceStart.addSecs( -300 );
    int count = 0;
    while ( ok ) {
        ++count;
        if ( count > 1000 ) break;
        if ( computeThis )
            incidenceStart = getNextOccurence( incidenceStart.addSecs( 60 ), &ok );
        else
            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 ( inFutureOnly ) {
+                if (  startDT ) {
-                    if ( *overlapDT >= QDateTime::currentDateTime() )
+                    if ( *overlapDT >= *startDT )
                        return true;
                } else
                    return true;
            }
            computeThis =  ( incidenceStart < testincidenceStart );
        }
        
    }
    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 ();
 }

diff --git a/libkcal/event.cpp b/libkcal/event.cpp index 235ae55..46e8174 100644 --- a/libkcal/event.cpp +++ b/libkcal/event.cpp
@@ -78,261 +78,261 @@ bool Event::contains ( Event* from )
78	Alarm *a = from->alarms().first();	78	Alarm *a = from->alarms().first();
79	if ( a->enabled() ){	79	if ( a->enabled() ){
80	if ( !alarms().count() )	80	if ( !alarms().count() )
81	return false;	81	return false;
82	Alarm *b = alarms().first();	82	Alarm *b = alarms().first();
83	if( ! b->enabled() )	83	if( ! b->enabled() )
84	return false;	84	return false;
85	if ( ! (a->offset() == b->offset() ))	85	if ( ! (a->offset() == b->offset() ))
86	return false;	86	return false;
87	}	87	}
88	}	88	}
89	QStringList cat = categories();	89	QStringList cat = categories();
90	QStringList catFrom = from->categories();	90	QStringList catFrom = from->categories();
91	QString nCat;	91	QString nCat;
92	unsigned int iii;	92	unsigned int iii;
93	for ( iii = 0; iii < catFrom.count();++iii ) {	93	for ( iii = 0; iii < catFrom.count();++iii ) {
94	nCat = catFrom[iii];	94	nCat = catFrom[iii];
95	if ( !nCat.isEmpty() )	95	if ( !nCat.isEmpty() )
96	if ( !cat.contains( nCat )) {	96	if ( !cat.contains( nCat )) {
97	return false;	97	return false;
98	}	98	}
99	}	99	}
100	if ( from->doesRecur() )	100	if ( from->doesRecur() )
101	if ( from->doesRecur() != doesRecur() && ! (from->doesRecur()== Recurrence::rYearlyMonth && doesRecur()== Recurrence::rYearlyDay) )	101	if ( from->doesRecur() != doesRecur() && ! (from->doesRecur()== Recurrence::rYearlyMonth && doesRecur()== Recurrence::rYearlyDay) )
102	return false;	102	return false;
103	return true;	103	return true;
104	}	104	}
105		105
106	void Event::setDtEnd(const QDateTime &dtEnd)	106	void Event::setDtEnd(const QDateTime &dtEnd)
107	{	107	{
108	if (mReadOnly) return;	108	if (mReadOnly) return;
109		109
110	mDtEnd = getEvenTime( dtEnd );	110	mDtEnd = getEvenTime( dtEnd );
111		111
112	setHasEndDate(true);	112	setHasEndDate(true);
113	setHasDuration(false);	113	setHasDuration(false);
114		114
115	updated();	115	updated();
116	}	116	}
117		117
118	QDateTime Event::dtEnd() const	118	QDateTime Event::dtEnd() const
119	{	119	{
120	if (hasEndDate()) return mDtEnd;	120	if (hasEndDate()) return mDtEnd;
121	if (hasDuration()) return dtStart().addSecs(duration());	121	if (hasDuration()) return dtStart().addSecs(duration());
122		122
123	return dtStart();	123	return dtStart();
124	}	124	}
125		125
126	QString Event::dtEndTimeStr() const	126	QString Event::dtEndTimeStr() const
127	{	127	{
128	return KGlobal::locale()->formatTime(mDtEnd.time());	128	return KGlobal::locale()->formatTime(mDtEnd.time());
129	}	129	}
130		130
131	QString Event::dtEndDateStr(bool shortfmt) const	131	QString Event::dtEndDateStr(bool shortfmt) const
132	{	132	{
133	return KGlobal::locale()->formatDate(mDtEnd.date(),shortfmt);	133	return KGlobal::locale()->formatDate(mDtEnd.date(),shortfmt);
134	}	134	}
135		135
136	QString Event::dtEndStr(bool shortfmt) const	136	QString Event::dtEndStr(bool shortfmt) const
137	{	137	{
138	return KGlobal::locale()->formatDateTime(mDtEnd, shortfmt);	138	return KGlobal::locale()->formatDateTime(mDtEnd, shortfmt);
139	}	139	}
140		140
141	void Event::setHasEndDate(bool b)	141	void Event::setHasEndDate(bool b)
142	{	142	{
143	mHasEndDate = b;	143	mHasEndDate = b;
144	}	144	}
145		145
146	bool Event::hasEndDate() const	146	bool Event::hasEndDate() const
147	{	147	{
148	return mHasEndDate;	148	return mHasEndDate;
149	}	149	}
150		150
151	bool Event::isMultiDay() const	151	bool Event::isMultiDay() const
152	{	152	{
153	bool multi = !(dtStart().date() == dtEnd().date());	153	bool multi = !(dtStart().date() == dtEnd().date());
154	return multi;	154	return multi;
155	}	155	}
156		156
157	void Event::setTransparency(Event::Transparency transparency)	157	void Event::setTransparency(Event::Transparency transparency)
158	{	158	{
159	if (mReadOnly) return;	159	if (mReadOnly) return;
160	mTransparency = transparency;	160	mTransparency = transparency;
161	updated();	161	updated();
162	}	162	}
163		163
164	Event::Transparency Event::transparency() const	164	Event::Transparency Event::transparency() const
165	{	165	{
166	return mTransparency;	166	return mTransparency;
167	}	167	}
168		168
169	void Event::setDuration(int seconds)	169	void Event::setDuration(int seconds)
170	{	170	{
171	setHasEndDate(false);	171	setHasEndDate(false);
172	Incidence::setDuration(seconds);	172	Incidence::setDuration(seconds);
173	}	173	}
174	bool Event::isOverlapping ( Event* testEvent, QDateTime* overlapDT, bool inFutureOnly )	174	bool Event::isOverlapping ( Event* testEvent, QDateTime* overlapDT, QDateTime* startDT )
175	{	175	{
176	if ( testEvent == this )	176	if ( testEvent == this )
177	return false;	177	return false;
178	if ( ! doesRecur() && !testEvent->doesRecur() ) {	178	if ( ! doesRecur() && !testEvent->doesRecur() ) {
179	QDateTime te;	179	QDateTime te;
180	if ( testEvent->doesFloat() )	180	if ( testEvent->doesFloat() )
181	te = testEvent->mDtEnd.addDays( 1 );	181	te = testEvent->mDtEnd.addDays( 1 );
182	else	182	else
183	te = testEvent->mDtEnd;	183	te = testEvent->mDtEnd;
184	QDateTime e;	184	QDateTime e;
185	if ( doesFloat() )	185	if ( doesFloat() )
186	e = mDtEnd.addDays( 1 );	186	e = mDtEnd.addDays( 1 );
187	else	187	else
188	e = mDtEnd;	188	e = mDtEnd;
189	if ( mDtStart < te && testEvent->mDtStart < e ) {	189	if ( mDtStart < te && testEvent->mDtStart < e ) {
190	if ( mDtStart < testEvent->mDtStart )	190	if ( mDtStart < testEvent->mDtStart )
191	*overlapDT = testEvent->mDtStart;	191	*overlapDT = testEvent->mDtStart;
192	else	192	else
193	*overlapDT = mDtStart;	193	*overlapDT = mDtStart;
194	if ( inFutureOnly )	194	if ( startDT )
195	return (*overlapDT >= QDateTime::currentDateTime() );	195	return (overlapDT >= startDT );
196	return true;	196	return true;
197	}	197	}
198	return false;	198	return false;
199	}	199	}
200	Event *nonRecur = 0;	200	Event *nonRecur = 0;
201	Event *recurEvent = 0;	201	Event *recurEvent = 0;
202	if ( ! doesRecur() ) {	202	if ( ! doesRecur() ) {
203	nonRecur = this;	203	nonRecur = this;
204	recurEvent = testEvent;	204	recurEvent = testEvent;
205	}	205	}
206	else if ( !testEvent->doesRecur() ) {	206	else if ( !testEvent->doesRecur() ) {
207	nonRecur = testEvent;	207	nonRecur = testEvent;
208	recurEvent = this;	208	recurEvent = this;
209	}	209	}
210	if ( nonRecur ) {	210	if ( nonRecur ) {
211	QDateTime enr;	211	QDateTime enr;
212	if ( nonRecur->doesFloat() )	212	if ( nonRecur->doesFloat() )
213	enr = nonRecur->mDtEnd.addDays( 1 );	213	enr = nonRecur->mDtEnd.addDays( 1 );
214	else	214	else
215	enr = nonRecur->mDtEnd;	215	enr = nonRecur->mDtEnd;
216	if ( enr < recurEvent->mDtStart )	216	if ( enr < recurEvent->mDtStart )
217	return false;	217	return false;
218	if ( inFutureOnly && enr < QDateTime::currentDateTime() )	218	if ( startDT && enr < *startDT )
219	return false;	219	return false;
220	int recDuration = recurEvent->mDtStart.secsTo( recurEvent->mDtEnd );	220	int recDuration = recurEvent->mDtStart.secsTo( recurEvent->mDtEnd );
221	if ( recurEvent->doesFloat() )	221	if ( recurEvent->doesFloat() )
222	recDuration += 86400;	222	recDuration += 86400;
223	bool ok = true;	223	bool ok = true;
224	QDateTime recStart = recurEvent->mDtStart.addSecs( -300);;	224	QDateTime recStart = recurEvent->mDtStart.addSecs( -300);;
225	while ( ok ) {	225	while ( ok ) {
226	recStart = recurEvent->getNextOccurence( recStart.addSecs( 60 ), &ok );	226	recStart = recurEvent->getNextOccurence( recStart.addSecs( 60 ), &ok );
227	if ( ok ) {	227	if ( ok ) {
228	if ( recStart > enr )	228	if ( recStart > enr )
229	return false;	229	return false;
230	QDateTime recEnd = recStart.addSecs( recDuration );	230	QDateTime recEnd = recStart.addSecs( recDuration );
231	if ( nonRecur->mDtStart < recEnd && recStart < nonRecur->mDtEnd ) {	231	if ( nonRecur->mDtStart < recEnd && recStart < nonRecur->mDtEnd ) {
232	if ( nonRecur->mDtStart < recStart )	232	if ( nonRecur->mDtStart < recStart )
233	*overlapDT = recStart;	233	*overlapDT = recStart;
234	else	234	else
235	*overlapDT = nonRecur->mDtStart;	235	*overlapDT = nonRecur->mDtStart;
236	if ( inFutureOnly ) {	236	if ( startDT ) {
237	if ( *overlapDT >= QDateTime::currentDateTime() )	237	if ( overlapDT >= startDT )
238	return true;	238	return true;
239	} else	239	} else
240	return true;	240	return true;
241	}	241	}
242	}	242	}
243	}	243	}
244	return false;	244	return false;
245	}	245	}
246		246
247	QDateTime incidenceStart = mDtStart;	247	QDateTime incidenceStart = mDtStart;
248	int duration = mDtStart.secsTo( mDtEnd );	248	int duration = mDtStart.secsTo( mDtEnd );
249	if ( doesFloat() )	249	if ( doesFloat() )
250	duration += 86400;	250	duration += 86400;
251	QDateTime testincidenceStart = testEvent->mDtStart;	251	QDateTime testincidenceStart = testEvent->mDtStart;
252	int testduration = testEvent->mDtStart.secsTo( testEvent->mDtEnd );	252	int testduration = testEvent->mDtStart.secsTo( testEvent->mDtEnd );
253	if ( testEvent->doesFloat() )	253	if ( testEvent->doesFloat() )
254	testduration += 86400;	254	testduration += 86400;
255	bool computeThis = false;	255	bool computeThis = false;
256	if ( incidenceStart < testincidenceStart )	256	if ( incidenceStart < testincidenceStart )
257	computeThis = true;	257	computeThis = true;
258	bool ok = true;	258	bool ok = true;
259	if ( computeThis )	259	if ( computeThis )
260	incidenceStart = incidenceStart.addSecs( -300 );	260	incidenceStart = incidenceStart.addSecs( -300 );
261	else	261	else
262	testincidenceStart = testincidenceStart.addSecs( -300 );	262	testincidenceStart = testincidenceStart.addSecs( -300 );
263	int count = 0;	263	int count = 0;
264	while ( ok ) {	264	while ( ok ) {
265	++count;	265	++count;
266	if ( count > 1000 ) break;	266	if ( count > 1000 ) break;
267	if ( computeThis )	267	if ( computeThis )
268	incidenceStart = getNextOccurence( incidenceStart.addSecs( 60 ), &ok );	268	incidenceStart = getNextOccurence( incidenceStart.addSecs( 60 ), &ok );
269	else	269	else
270	testincidenceStart = testEvent->getNextOccurence( testincidenceStart.addSecs( 60 ), &ok );	270	testincidenceStart = testEvent->getNextOccurence( testincidenceStart.addSecs( 60 ), &ok );
271	if ( ok ) {	271	if ( ok ) {
272	if ( incidenceStart < testincidenceStart.addSecs( testduration ) && testincidenceStart < incidenceStart.addSecs( duration ) ) {	272	if ( incidenceStart < testincidenceStart.addSecs( testduration ) && testincidenceStart < incidenceStart.addSecs( duration ) ) {
273	if ( incidenceStart < testincidenceStart )	273	if ( incidenceStart < testincidenceStart )
274	*overlapDT = testincidenceStart;	274	*overlapDT = testincidenceStart;
275	else	275	else
276	*overlapDT = incidenceStart;	276	*overlapDT = incidenceStart;
277	if ( inFutureOnly ) {	277	if ( startDT ) {
278	if ( *overlapDT >= QDateTime::currentDateTime() )	278	if ( overlapDT >= startDT )
279	return true;	279	return true;
280	} else	280	} else
281	return true;	281	return true;
282	}	282	}
283	computeThis = ( incidenceStart < testincidenceStart );	283	computeThis = ( incidenceStart < testincidenceStart );
284	}	284	}
285		285
286	}	286	}
287	return false;	287	return false;
288	}	288	}
289	QDateTime Event::getNextAlarmDateTime( bool * ok, int * offset, QDateTime start_dt ) const	289	QDateTime Event::getNextAlarmDateTime( bool * ok, int * offset, QDateTime start_dt ) const
290	{	290	{
291	*ok = false;	291	*ok = false;
292	if ( !alarmEnabled() )	292	if ( !alarmEnabled() )
293	return QDateTime ();	293	return QDateTime ();
294	bool yes;	294	bool yes;
295	QDateTime incidenceStart = getNextOccurence( start_dt, &yes );	295	QDateTime incidenceStart = getNextOccurence( start_dt, &yes );
296	if ( ! yes \|\| cancelled() ) {	296	if ( ! yes \|\| cancelled() ) {
297	*ok = false;	297	*ok = false;
298	return QDateTime ();	298	return QDateTime ();
299	}	299	}
300		300
301	bool enabled = false;	301	bool enabled = false;
302	Alarm* alarm;	302	Alarm* alarm;
303	int off = 0;	303	int off = 0;
304	QDateTime alarmStart = QDateTime::currentDateTime().addDays( 3650 );;	304	QDateTime alarmStart = QDateTime::currentDateTime().addDays( 3650 );;
305	// if ( QDateTime::currentDateTime() > incidenceStart ){	305	// if ( QDateTime::currentDateTime() > incidenceStart ){
306	// *ok = false;	306	// *ok = false;
307	// return incidenceStart;	307	// return incidenceStart;
308	// }	308	// }
309	for (QPtrListIterator<Alarm> it(mAlarms); (alarm = it.current()) != 0; ++it) {	309	for (QPtrListIterator<Alarm> it(mAlarms); (alarm = it.current()) != 0; ++it) {
310	if (alarm->enabled()) {	310	if (alarm->enabled()) {
311	if ( alarm->hasTime () ) {	311	if ( alarm->hasTime () ) {
312	if ( alarm->time() < alarmStart ) {	312	if ( alarm->time() < alarmStart ) {
313	alarmStart = alarm->time();	313	alarmStart = alarm->time();
314	enabled = true;	314	enabled = true;
315	off = alarmStart.secsTo( incidenceStart );	315	off = alarmStart.secsTo( incidenceStart );
316	}	316	}
317		317
318	} else {	318	} else {
319	int secs = alarm->startOffset().asSeconds();	319	int secs = alarm->startOffset().asSeconds();
320	if ( incidenceStart.addSecs( secs ) < alarmStart ) {	320	if ( incidenceStart.addSecs( secs ) < alarmStart ) {
321	alarmStart = incidenceStart.addSecs( secs );	321	alarmStart = incidenceStart.addSecs( secs );
322	enabled = true;	322	enabled = true;
323	off = -secs;	323	off = -secs;
324	}	324	}
325	}	325	}
326	}	326	}
327	}	327	}
328	if ( enabled ) {	328	if ( enabled ) {
329	if ( alarmStart > start_dt ) {	329	if ( alarmStart > start_dt ) {
330	*ok = true;	330	*ok = true;
331	* offset = off;	331	* offset = off;
332	return alarmStart;	332	return alarmStart;
333	}	333	}
334	}	334	}
335	*ok = false;	335	*ok = false;
336	return QDateTime ();	336	return QDateTime ();
337		337
338	}	338	}