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tdepim/libkcal/alarm.cpp

460 lines
10 KiB

/*
This file is part of libkcal.
Copyright (c) 1998 Preston Brown <pbrown@kde.org>
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., 51 Franklin Street, Fifth Floor,
Boston, MA 02110-1301, USA.
*/
#include <kdebug.h>
#include "incidence.h"
#include "todo.h"
#include "alarm.h"
using namespace KCal;
Alarm::Alarm(Incidence *parent)
: mParent(parent),
mType(Invalid),
mDescription(""), // to make operator==() not fail
mFile(""), // to make operator==() not fail
mMailSubject(""), // to make operator==() not fail
mAlarmSnoozeTime(5),
mAlarmRepeatCount(0),
mEndOffset(false),
mHasTime(false),
mAlarmEnabled(false)
{
}
Alarm::~Alarm()
{
}
bool Alarm::operator==( const Alarm& rhs ) const
{
if ( mType != rhs.mType ||
mAlarmSnoozeTime != rhs.mAlarmSnoozeTime ||
mAlarmRepeatCount != rhs.mAlarmRepeatCount ||
mAlarmEnabled != rhs.mAlarmEnabled ||
mHasTime != rhs.mHasTime)
return false;
if (mHasTime) {
if (mAlarmTime != rhs.mAlarmTime)
return false;
} else {
if (mOffset != rhs.mOffset ||
mEndOffset != rhs.mEndOffset)
return false;
}
switch (mType) {
case Display:
return mDescription == rhs.mDescription;
case Email:
return mDescription == rhs.mDescription &&
mMailAttachFiles == rhs.mMailAttachFiles &&
mMailAddresses == rhs.mMailAddresses &&
mMailSubject == rhs.mMailSubject;
case Procedure:
return mFile == rhs.mFile &&
mDescription == rhs.mDescription;
case Audio:
return mFile == rhs.mFile;
case Invalid:
break;
}
return false;
}
void Alarm::setType(Alarm::Type type)
{
if (type == mType)
return;
switch (type) {
case Display:
mDescription = "";
break;
case Procedure:
mFile = mDescription = "";
break;
case Audio:
mFile = "";
break;
case Email:
mMailSubject = mDescription = "";
mMailAddresses.clear();
mMailAttachFiles.clear();
break;
case Invalid:
break;
default:
return;
}
mType = type;
if ( mParent ) mParent->updated();
}
Alarm::Type Alarm::type() const
{
return mType;
}
void Alarm::setAudioAlarm(const TQString &audioFile)
{
mType = Audio;
mFile = audioFile;
if ( mParent ) mParent->updated();
}
void Alarm::setAudioFile(const TQString &audioFile)
{
if (mType == Audio) {
mFile = audioFile;
if ( mParent ) mParent->updated();
}
}
TQString Alarm::audioFile() const
{
return (mType == Audio) ? mFile : TQString::null;
}
void Alarm::setProcedureAlarm(const TQString &programFile, const TQString &arguments)
{
mType = Procedure;
mFile = programFile;
mDescription = arguments;
if ( mParent ) mParent->updated();
}
void Alarm::setProgramFile(const TQString &programFile)
{
if (mType == Procedure) {
mFile = programFile;
if ( mParent ) mParent->updated();
}
}
TQString Alarm::programFile() const
{
return (mType == Procedure) ? mFile : TQString::null;
}
void Alarm::setProgramArguments(const TQString &arguments)
{
if (mType == Procedure) {
mDescription = arguments;
if ( mParent ) mParent->updated();
}
}
TQString Alarm::programArguments() const
{
return (mType == Procedure) ? mDescription : TQString::null;
}
void Alarm::setEmailAlarm(const TQString &subject, const TQString &text,
const TQValueList<Person> &addressees, const TQStringList &attachments)
{
mType = Email;
mMailSubject = subject;
mDescription = text;
mMailAddresses = addressees;
mMailAttachFiles = attachments;
if ( mParent ) mParent->updated();
}
void Alarm::setMailAddress(const Person &mailAddress)
{
if (mType == Email) {
mMailAddresses.clear();
mMailAddresses += mailAddress;
if ( mParent ) mParent->updated();
}
}
void Alarm::setMailAddresses(const TQValueList<Person> &mailAddresses)
{
if (mType == Email) {
mMailAddresses = mailAddresses;
if ( mParent ) mParent->updated();
}
}
void Alarm::addMailAddress(const Person &mailAddress)
{
if (mType == Email) {
mMailAddresses += mailAddress;
if ( mParent ) mParent->updated();
}
}
TQValueList<Person> Alarm::mailAddresses() const
{
return (mType == Email) ? mMailAddresses : TQValueList<Person>();
}
void Alarm::setMailSubject(const TQString &mailAlarmSubject)
{
if (mType == Email) {
mMailSubject = mailAlarmSubject;
if ( mParent ) mParent->updated();
}
}
TQString Alarm::mailSubject() const
{
return (mType == Email) ? mMailSubject : TQString::null;
}
void Alarm::setMailAttachment(const TQString &mailAttachFile)
{
if (mType == Email) {
mMailAttachFiles.clear();
mMailAttachFiles += mailAttachFile;
if ( mParent ) mParent->updated();
}
}
void Alarm::setMailAttachments(const TQStringList &mailAttachFiles)
{
if (mType == Email) {
mMailAttachFiles = mailAttachFiles;
if ( mParent ) mParent->updated();
}
}
void Alarm::addMailAttachment(const TQString &mailAttachFile)
{
if (mType == Email) {
mMailAttachFiles += mailAttachFile;
if ( mParent ) mParent->updated();
}
}
TQStringList Alarm::mailAttachments() const
{
return (mType == Email) ? mMailAttachFiles : TQStringList();
}
void Alarm::setMailText(const TQString &text)
{
if (mType == Email) {
mDescription = text;
if ( mParent ) mParent->updated();
}
}
TQString Alarm::mailText() const
{
return (mType == Email) ? mDescription : TQString::null;
}
void Alarm::setDisplayAlarm(const TQString &text)
{
mType = Display;
if ( !text.isNull() )
mDescription = text;
if ( mParent ) mParent->updated();
}
void Alarm::setText(const TQString &text)
{
if (mType == Display) {
mDescription = text;
if ( mParent ) mParent->updated();
}
}
TQString Alarm::text() const
{
return (mType == Display) ? mDescription : TQString::null;
}
void Alarm::setTime(const TQDateTime &alarmTime)
{
mAlarmTime = alarmTime;
mHasTime = true;
if ( mParent ) mParent->updated();
}
TQDateTime Alarm::time() const
{
if ( hasTime() )
return mAlarmTime;
else if ( mParent )
{
if (mParent->type()=="Todo") {
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() );
}
} else return TQDateTime();
}
bool Alarm::hasTime() const
{
return mHasTime;
}
void Alarm::setSnoozeTime(int alarmSnoozeTime)
{
if (alarmSnoozeTime > 0) {
mAlarmSnoozeTime = alarmSnoozeTime;
if ( mParent ) mParent->updated();
}
}
int Alarm::snoozeTime() const
{
return mAlarmSnoozeTime;
}
void Alarm::setRepeatCount(int alarmRepeatCount)
{
mAlarmRepeatCount = alarmRepeatCount;
if ( mParent ) mParent->updated();
}
int Alarm::repeatCount() const
{
return mAlarmRepeatCount;
}
int Alarm::duration() const
{
return mAlarmRepeatCount * mAlarmSnoozeTime * 60;
}
TQDateTime Alarm::nextRepetition(const TQDateTime& preTime) const
{
// This method is coded to avoid 32-bit integer overflow using
// TQDateTime::secsTo(), which occurs with time spans > 68 years.
TQDateTime at = time();
if (at > preTime)
return at;
if (!mAlarmRepeatCount)
return TQDateTime(); // there isn't an occurrence after the specified time
int snoozeSecs = mAlarmSnoozeTime * 60;
TQDateTime lastRepetition = at.addSecs(mAlarmRepeatCount * snoozeSecs);
if (lastRepetition <= preTime)
return TQDateTime(); // all repetitions have finished before the specified time
int repetition = (at.secsTo(preTime) + snoozeSecs) / snoozeSecs;
return at.addSecs(repetition * snoozeSecs);
}
TQDateTime Alarm::previousRepetition(const TQDateTime& afterTime) const
{
// This method is coded to avoid 32-bit integer overflow using
// TQDateTime::secsTo(), which occurs with time spans > 68 years.
TQDateTime at = time();
if (at >= afterTime)
return TQDateTime(); // alarm's first/only time is at/after the specified time
if (!mAlarmRepeatCount)
return at;
int snoozeSecs = mAlarmSnoozeTime * 60;
TQDateTime lastRepetition = at.addSecs(mAlarmRepeatCount * snoozeSecs);
if (lastRepetition < afterTime)
return lastRepetition; // all repetitions have finished before the specified time
int repetition = (at.secsTo(afterTime) - 1) / snoozeSecs;
return at.addSecs(repetition * snoozeSecs);
}
TQDateTime Alarm::endTime() const
{
if (mAlarmRepeatCount)
return time().addSecs(mAlarmRepeatCount * mAlarmSnoozeTime * 60);
else
return time();
}
void Alarm::toggleAlarm()
{
mAlarmEnabled = !mAlarmEnabled;
if ( mParent ) mParent->updated();
}
void Alarm::setEnabled(bool enable)
{
mAlarmEnabled = enable;
if ( mParent ) mParent->updated();
}
bool Alarm::enabled() const
{
return mAlarmEnabled;
}
void Alarm::setStartOffset( const Duration &offset )
{
mOffset = offset;
mEndOffset = false;
mHasTime = false;
if ( mParent ) 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;
if ( mParent ) mParent->updated();
}
Duration Alarm::endOffset() const
{
return (mHasTime || !mEndOffset) ? 0 : mOffset;
}
void Alarm::setParent( Incidence *parent )
{
mParent = parent;
}
void Alarm::customPropertyUpdated()
{
if ( mParent ) mParent->updated();
}