const void * KFileItem::extraData( const void *key ) const
{
QMapConstIterator<const void*,void*> it = m_extra.find( key );
if ( it != m_extra.end() )
return it.data();
return 0L;
}
void ODateBookAccessBackend_SQL::initFields()
{
// This map contains the translation of the fieldtype id's to
// the names of the table columns
m_fieldMap.insert( OEvent::FUid, "uid" );
m_fieldMap.insert( OEvent::FCategories, "Categories" );
m_fieldMap.insert( OEvent::FDescription, "Description" );
m_fieldMap.insert( OEvent::FLocation, "Location" );
m_fieldMap.insert( OEvent::FType, "Type" );
m_fieldMap.insert( OEvent::FAlarm, "Alarm" );
m_fieldMap.insert( OEvent::FSound, "Sound" );
m_fieldMap.insert( OEvent::FRType, "RType" );
m_fieldMap.insert( OEvent::FRWeekdays, "RWeekdays" );
m_fieldMap.insert( OEvent::FRPosition, "RPosition" );
m_fieldMap.insert( OEvent::FRFreq, "RFreq" );
m_fieldMap.insert( OEvent::FRHasEndDate, "RHasEndDate" );
m_fieldMap.insert( OEvent::FREndDate, "REndDate" );
m_fieldMap.insert( OEvent::FRCreated, "RCreated" );
m_fieldMap.insert( OEvent::FRExceptions, "RExceptions" );
m_fieldMap.insert( OEvent::FStart, "Start" );
m_fieldMap.insert( OEvent::FEnd, "End" );
m_fieldMap.insert( OEvent::FNote, "Note" );
m_fieldMap.insert( OEvent::FTimeZone, "TimeZone" );
m_fieldMap.insert( OEvent::FRecParent, "RecParent" );
m_fieldMap.insert( OEvent::FRecChildren, "Recchildren" );
// Create a map that maps the column name to the id
QMapConstIterator<int, QString> it;
for ( it = ++m_fieldMap.begin(); it != m_fieldMap.end(); ++it ){
m_reverseFieldMap.insert( it.data(), it.key() );
}
}
void KDModule::propagateUsers()
{
groupmap.clear();
emit clearUsers();
QMap< QString, int > lusers;
QMapConstIterator< QString, QPair< int, QStringList > > it;
QStringList::ConstIterator jt;
QMap< QString, int >::Iterator gmapi;
for(it = usermap.begin(); it != usermap.end(); ++it)
{
int uid = it.data().first;
if(!uid || (uid >= minshowuid && uid <= maxshowuid))
{
lusers[it.key()] = uid;
for(jt = it.data().second.begin(); jt != it.data().second.end(); ++jt)
if((gmapi = groupmap.find(*jt)) == groupmap.end())
{
groupmap[*jt] = 1;
lusers['@' + *jt] = -uid;
}
else
(*gmapi)++;
}
}
emit addUsers(lusers);
updateOK = true;
}
QString ParserData::keywordToString(Parse::Keyword k) const
{
for (QMapConstIterator<QString, Keyword> it = m_keywords.begin(); it != m_keywords.end(); ++it)
if (it.data() == k)
return it.key();
return QString();
}
int
KMacroMapExpander<QString,VT>::expandEscapedMacro( const QString &str, uint pos, QStringList &ret )
{
if (str[pos + 1] == escapeChar()) {
ret += QString( escapeChar() );
return 2;
}
uint sl, rsl, rpos;
if (str[pos + 1] == '{') {
rpos = pos + 2;
for (sl = 0; str[rpos + sl] != '}'; sl++)
if (rpos + sl >= str.length())
return 0;
rsl = sl + 3;
} else {
rpos = pos + 1;
for (sl = 0; isIdentifier( str[rpos + sl].unicode() ); sl++);
rsl = sl + 1;
}
if (!sl)
return 0;
QMapConstIterator<QString,VT> it =
macromap.find( QConstString( str.unicode() + rpos, sl ).string() );
if (it != macromap.end()) {
ret += it.data();
return rsl;
}
return 0;
}
int
KMacroMapExpander<QChar,VT>::expandPlainMacro( const QString &str, uint pos, QStringList &ret )
{
QMapConstIterator<QChar,VT> it = macromap.find(str[pos]);
if (it != macromap.end()) {
ret += it.data();
return 1;
}
return 0;
}
void KTouchStatistics::run(const KURL& currentLecture, const KTouchStatisticsData& stats,
const KTouchLevelStats& currLevelStats,
const KTouchSessionStats& currSessionStats)
{
// kdDebug() << "[KTouchStatistics::run]" << endl;
// kdDebug() << " currentLecture = '" << currentLecture << "'" << endl;
// fill lecture combo with data
// loop over all lecturestatistics
lectureCombo->clear();
QMapConstIterator<KURL, KTouchLectureStats> it = stats.m_lectureStats.begin();
m_currentIndex = 0;
while (it != stats.m_lectureStats.end()) {
QString t = it.data().m_lectureTitle;
// if current lecture, remember index and adjust text
if (it.key() == currentLecture ||
currentLecture.isEmpty() && it.key().url()=="default")
{
m_currentIndex = lectureCombo->count();
if (t == "default") t = i18n("Default level...");
lectureLabel1->setText(t);
lectureLabel2->setText(t);
t = i18n("***current*** ") + t;
}
lectureCombo->insertItem(t);
++it;
}
if (lectureCombo->count()==0) {
// this shouldn't happen if the dialog is run with proper data
KMessageBox::information(this, i18n("No statistics data available yet!"));
return;
}
// remember stats
m_allStats = stats;
m_currLevelStats = currLevelStats;
m_currSessionStats = currSessionStats;
// modify current lecture entry
lectureCombo->setCurrentItem(m_currentIndex);
lectureActivated(m_currentIndex);
m_lectureIndex = m_currentIndex;
// update the current tabs with current session/level data
updateCurrentSessionTab();
updateCurrentLevelTab();
// set current session as current tab
tabWidget->showPage(currentTab);
exec();
}
int
KMacroMapExpander<QChar,VT>::expandEscapedMacro( const QString &str, uint pos, QStringList &ret )
{
if (str[pos + 1] == escapeChar()) {
ret += QString( escapeChar() );
return 2;
}
QMapConstIterator<QChar,VT> it = macromap.find(str[pos+1]);
if (it != macromap.end()) {
ret += it.data();
return 2;
}
return 0;
}
int
KMacroMapExpander<QString,VT>::expandPlainMacro( const QString &str, uint pos, QStringList &ret )
{
if (isIdentifier( str[pos - 1].unicode() ))
return 0;
uint sl;
for (sl = 0; isIdentifier( str[pos + sl].unicode() ); sl++);
if (!sl)
return 0;
QMapConstIterator<QString,VT> it =
macromap.find( QConstString( str.unicode() + pos, sl ).string() );
if (it != macromap.end()) {
ret += it.data();
return sl;
}
return 0;
}
void Template::compose( const TemplateManager & tm )
{
QMapConstIterator <QString, QString> i =
const_cast<QMap<QString, QString> &>(
d->requestedNestedTemplates).begin();
for( ; i != const_cast<QMap<QString, QString> &>(
d->requestedNestedTemplates).end(); ++i ) {
//try to acquire template of a given type
Template * t = tm.instantiate( i.data(), getLoggerPtr(),
d->requestedNestedTemplateLibs[ i.key() ] );
if( t != NULL ) {
// recursively compose even our nested templates
t->compose( tm );
// and put our template to our internal hash
registerNestedTemplate( i.key(), t );
}
}
}
void KDModule::slotMinMaxUID(int min, int max)
{
if(updateOK)
{
QMap< QString, int > alusers, dlusers;
QMapConstIterator< QString, QPair< int, QStringList > > it;
QStringList::ConstIterator jt;
QMap< QString, int >::Iterator gmapi;
for(it = usermap.begin(); it != usermap.end(); ++it)
{
int uid = it.data().first;
if(!uid)
continue;
if((uid >= minshowuid && uid <= maxshowuid) && !(uid >= min && uid <= max))
{
dlusers[it.key()] = uid;
for(jt = it.data().second.begin(); jt != it.data().second.end(); ++jt)
{
gmapi = groupmap.find(*jt);
if(!--(*gmapi))
{
groupmap.remove(gmapi);
dlusers['@' + *jt] = -uid;
}
}
}
else if((uid >= min && uid <= max) && !(uid >= minshowuid && uid <= maxshowuid))
{
alusers[it.key()] = uid;
for(jt = it.data().second.begin(); jt != it.data().second.end(); ++jt)
if((gmapi = groupmap.find(*jt)) == groupmap.end())
{
groupmap[*jt] = 1;
alusers['@' + *jt] = -uid;
}
else
(*gmapi)++;
}
}
emit delUsers(dlusers);
emit addUsers(alusers);
}
minshowuid = min;
maxshowuid = max;
}
void K3bVideoDVDRippingDialog::slotStartClicked()
{
//
// check if the selected audio codec is usable for all selected audio streams
// We can only use the AC3 pass-through mode for AC3 streams
//
if( m_w->selectedAudioCodec() == K3bVideoDVDTitleTranscodingJob::AUDIO_CODEC_AC3_PASSTHROUGH ) {
for( QMap<QCheckListItem*, K3bVideoDVDRippingJob::TitleRipInfo>::iterator it = m_titleRipInfos.begin();
it != m_titleRipInfos.end(); ++it ) {
if( m_dvd[it.data().title-1].numAudioStreams() > 0 &&
m_dvd[it.data().title-1].audioStream(it.data().audioStream).format() != K3bVideoDVD::AUDIO_FORMAT_AC3 ) {
KMessageBox::sorry( this, i18n("<p>When using the <em>AC3 pass-through</em> audio codec all selected audio "
"streams need to be in AC3 format. Please select another audio codec or "
"choose AC3 audio streams for all ripped titles."),
i18n("AC3 Pass-through") );
return;
}
}
}
// check if we need to overwrite some files...
QStringList filesToOverwrite;
for( QMap<QCheckListItem*, K3bVideoDVDRippingJob::TitleRipInfo>::iterator it = m_titleRipInfos.begin();
it != m_titleRipInfos.end(); ++it ) {
if( QFile::exists( it.data().filename ) )
filesToOverwrite.append( it.data().filename );
}
if( !filesToOverwrite.isEmpty() )
if( KMessageBox::questionYesNoList( this,
i18n("Do you want to overwrite these files?"),
filesToOverwrite,
i18n("Files Exist"), i18n("Overwrite"), KStdGuiItem::cancel() ) == KMessageBox::No )
return;
QSize videoSize = m_w->selectedPictureSize();
int i = 0;
QValueVector<K3bVideoDVDRippingJob::TitleRipInfo> titles( m_titleRipInfos.count() );
for( QMapConstIterator<QCheckListItem*, K3bVideoDVDRippingJob::TitleRipInfo> it = m_titleRipInfos.begin();
it != m_titleRipInfos.end(); ++it ) {
titles[i] = it.data();
titles[i].videoBitrate = 0; // use the global bitrate set below
titles[i].width = videoSize.width();
titles[i].height = videoSize.height();
++i;
}
// sort the titles which come from a map and are thus not sorted properly
// simple bubble sort for these small arrays is sufficient
for( unsigned int i = 0; i < titles.count(); ++i ) {
for( unsigned int j = i+1; j < titles.count(); ++j ) {
if( titles[i].title > titles[j].title ) {
K3bVideoDVDRippingJob::TitleRipInfo tmp = titles[i];
titles[i] = titles[j];
titles[j] = tmp;
}
}
}
// start the job
K3bJobProgressDialog dlg( parentWidget() );
K3bVideoDVDRippingJob* job = new K3bVideoDVDRippingJob( &dlg, &dlg );
job->setVideoDVD( m_dvd );
job->setTitles( titles );
job->setVideoBitrate( m_w->m_spinVideoBitrate->value() );
job->setTwoPassEncoding( m_w->m_checkTwoPassEncoding->isChecked() );
job->setResampleAudioTo44100( m_w->m_checkAudioResampling->isChecked() );
job->setAutoClipping( m_w->m_checkAutoClipping->isChecked() );
job->setVideoCodec( m_w->selectedVideoCodec() );
job->setAudioCodec( m_w->selectedAudioCodec() );
job->setLowPriority( m_w->m_checkLowPriority->isChecked() );
job->setAudioBitrate( m_w->selectedAudioBitrate() );
job->setAudioVBR( m_w->m_checkAudioVBR->isChecked() );
hide();
dlg.startJob( job );
close();
}