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-rw-r--r--core/launcher/desktop.cpp4
-rw-r--r--core/launcher/launcher.cpp2
2 files changed, 1 insertions, 5 deletions
diff --git a/core/launcher/desktop.cpp b/core/launcher/desktop.cpp
index 1fd3f6a..3546e28 100644
--- a/core/launcher/desktop.cpp
+++ b/core/launcher/desktop.cpp
@@ -122,562 +122,558 @@ public:
parent, name, FALSE )
{
currentPriority = INT_MAX;
alertCount = 0;
}
void alert( const QString &text, int priority );
void hideEvent( QHideEvent * );
private:
int currentPriority;
int alertCount;
};
void DesktopPowerAlerter::alert( const QString &text, int priority )
{
alertCount++;
if ( alertCount < priority )
return ;
if ( priority > currentPriority )
return ;
currentPriority = priority;
setText( text );
show();
}
void DesktopPowerAlerter::hideEvent( QHideEvent *e )
{
QMessageBox::hideEvent( e );
alertCount = 0;
currentPriority = INT_MAX;
}
class QPEScreenSaver : public QWSScreenSaver
{
private:
int LcdOn;
public:
QPEScreenSaver()
{
m_disable_suspend = 100;
m_enable_dim = false;
m_enable_lightoff = false;
m_enable_onlylcdoff = false;
m_lcd_status = true;
m_backlight_bright = -1;
m_backlight_forcedoff = false;
// Make sure the LCD is in fact on, (if opie was killed while the LCD is off it would still be off)
ODevice::inst ( ) -> setDisplayStatus ( true );
}
void restore()
{
if ( !m_lcd_status ) { // We must have turned it off
ODevice::inst ( ) -> setDisplayStatus ( true );
m_lcd_status = true;
}
setBacklight ( -1 );
}
bool save( int level )
{
switch ( level ) {
case 0:
if ( m_disable_suspend > 0 && m_enable_dim ) {
if ( backlight() > 1 )
setBacklight( 1 ); // lowest non-off
}
return true;
break;
case 1:
if ( m_disable_suspend > 1 && m_enable_lightoff ) {
setBacklight( 0 ); // off
}
return true;
break;
case 2:
if ( m_enable_onlylcdoff ) {
ODevice::inst ( ) -> setDisplayStatus ( false );
m_lcd_status = false;
return true;
}
else // We're going to suspend the whole machine
{
if ( ( m_disable_suspend > 2 ) &&
( PowerStatusManager::readStatus().acStatus() != PowerStatus::Online ) &&
( !Network::networkOnline ( ) ) ) {
QWSServer::sendKeyEvent( 0xffff, Qt::Key_F34, FALSE, TRUE, FALSE );
return true;
}
}
break;
}
return false;
}
private:
static int ssi( int interval, Config & config, const QString & enable, const QString & value, int def )
{
if ( !enable.isEmpty() && config.readNumEntry( enable, 0 ) == 0 )
return 0;
if ( interval < 0 ) {
// Restore screen blanking and power saving state
interval = config.readNumEntry( value, def );
}
return interval;
}
public:
void setIntervals( int i1, int i2, int i3 )
{
Config config( "qpe" );
config.setGroup( "Screensaver" );
int v[ 4 ];
i1 = ssi( i1, config, "Dim", "Interval_Dim", 30 );
i2 = ssi( i2, config, "LightOff", "Interval_LightOff", 20 );
i3 = ssi( i3, config, "", "Interval", 60 );
//qDebug("screen saver intervals: %d %d %d", i1, i2, i3);
v [ 0 ] = QMAX( 1000 * i1, 100 );
v [ 1 ] = QMAX( 1000 * i2, 100 );
v [ 2 ] = QMAX( 1000 * i3, 100 );
v [ 3 ] = 0;
m_enable_dim = ( ( i1 != 0 ) ? config. readNumEntry ( "Dim", 1 ) : false );
m_enable_lightoff = ( ( i2 != 0 ) ? config. readNumEntry ( "LightOff", 1 ) : false );
m_enable_onlylcdoff = config. readNumEntry ( "LcdOffOnly", 0 );
if ( !i1 && !i2 && !i3 )
QWSServer::setScreenSaverInterval( 0 );
else
QWSServer::setScreenSaverIntervals( v );
}
void setInterval ( int interval )
{
setIntervals ( -1, -1, interval );
}
void setMode ( int mode )
{
if ( mode > m_disable_suspend )
setInterval( -1 );
m_disable_suspend = mode;
}
int backlight ( )
{
if ( m_backlight_bright == -1 ) {
// Read from config
Config config ( "qpe" );
config. setGroup ( "Screensaver" );
m_backlight_bright = config. readNumEntry ( "Brightness", 255 );
}
return m_backlight_bright;
}
void setBacklight ( int bright )
{
if ( bright == -3 ) {
// Forced on
m_backlight_forcedoff = false;
bright = -1;
}
if ( m_backlight_forcedoff && bright != -2 )
return ;
if ( bright == -2 ) {
// Toggle between off and on
bright = m_backlight_bright ? 0 : -1;
m_backlight_forcedoff = !bright;
}
m_backlight_bright = bright;
bright = backlight ( );
ODevice::inst ( ) -> setDisplayBrightness ( bright );
m_backlight_bright = bright;
}
void setDisplayState ( bool on )
{
if ( m_lcd_status != on ) {
ODevice::inst ( ) -> setDisplayStatus ( on );
m_lcd_status = on;
}
}
private:
int m_disable_suspend;
bool m_enable_dim;
bool m_enable_lightoff;
bool m_enable_onlylcdoff;
bool m_lcd_status;
int m_backlight_bright;
bool m_backlight_forcedoff;
};
void DesktopApplication::switchLCD ( bool on )
{
if ( qApp ) {
DesktopApplication *dapp = (DesktopApplication *) qApp;
if ( dapp-> m_screensaver ) {
if ( on ) {
dapp-> m_screensaver-> setDisplayState ( true );
dapp-> m_screensaver-> setBacklight ( -3 );
}
else {
dapp-> m_screensaver-> setDisplayState ( false );
}
}
}
}
DesktopApplication::DesktopApplication( int& argc, char **argv, Type appType )
: QPEApplication( argc, argv, appType )
{
QTimer * t = new QTimer( this );
connect( t, SIGNAL( timeout() ), this, SLOT( psTimeout() ) );
t->start( 10000 );
ps = new PowerStatus;
pa = new DesktopPowerAlerter( 0 );
channel = new QCopChannel( "QPE/Desktop", this );
connect( channel, SIGNAL( received( const QCString&, const QByteArray& ) ),
this, SLOT( desktopMessage( const QCString&, const QByteArray& ) ) );
channel = new QCopChannel( "QPE/System", this );
connect( channel, SIGNAL( received( const QCString&, const QByteArray& ) ),
this, SLOT( systemMessage( const QCString&, const QByteArray& ) ) );
m_screensaver = new QPEScreenSaver;
m_screensaver-> setInterval ( -1 );
QWSServer::setScreenSaver( m_screensaver );
}
DesktopApplication::~DesktopApplication()
{
delete ps;
delete pa;
}
void DesktopApplication::desktopMessage( const QCString &msg, const QByteArray &data )
{
-#ifdef Q_WS_QWS
QDataStream stream( data, IO_ReadOnly );
if ( msg == "keyRegister(int key, QString channel, QString message)" ) {
int k;
QString c, m;
stream >> k;
stream >> c;
stream >> m;
qWarning( "KeyRegisterReceived: %i, %s, %s", k, ( const char* ) c, ( const char * ) m );
keyRegisterList.append( QCopKeyRegister( k, c, m ) );
}
-#endif
}
void DesktopApplication::systemMessage( const QCString & msg, const QByteArray & data )
{
-#ifdef Q_WS_QWS
QDataStream stream ( data, IO_ReadOnly );
if ( msg == "setScreenSaverInterval(int)" ) {
int time;
stream >> time;
m_screensaver-> setInterval( time );
}
else if ( msg == "setScreenSaverIntervals(int,int,int)" ) {
int t1, t2, t3;
stream >> t1 >> t2 >> t3;
m_screensaver-> setIntervals( t1, t2, t3 );
}
else if ( msg == "setBacklight(int)" ) {
int bright;
stream >> bright;
m_screensaver-> setBacklight( bright );
}
else if ( msg == "setScreenSaverMode(int)" ) {
int mode;
stream >> mode;
m_screensaver-> setMode ( mode );
}
else if ( msg == "setDisplayState(int)" ) {
int state;
stream >> state;
m_screensaver-> setDisplayState ( state != 0 );
}
else if ( msg == "suspend()" ) {
emit power();
}
-#endif
}
enum MemState { Unknown, VeryLow, Low, Normal } memstate = Unknown;
#ifdef Q_WS_QWS
bool DesktopApplication::qwsEventFilter( QWSEvent *e )
{
qpedesktop->checkMemory();
if ( e->type == QWSEvent::Key ) {
QWSKeyEvent * ke = ( QWSKeyEvent * ) e;
if ( !loggedin && ke->simpleData.keycode != Key_F34 )
return TRUE;
bool press = ke->simpleData.is_press;
bool autoRepeat = ke->simpleData.is_auto_repeat;
/*
app that registers key/message to be sent back to the app, when it doesn't have focus,
when user presses key, unless keyboard has been requested from app.
will not send multiple repeats if user holds key
i.e. one shot
*/
if ( !keyRegisterList.isEmpty() && ke->simpleData.keycode !=0 && press) {
// qDebug("<<<<<<<<<<<<<keycode %d", ke->simpleData.keycode);
KeyRegisterList::Iterator it;
for ( it = keyRegisterList.begin(); it != keyRegisterList.end(); ++it ) {
if ( ( *it ).getKeyCode() == ke->simpleData.keycode && !autoRepeat && !keyboardGrabbed() ) {
if ( press )
qDebug( "press" );
else
qDebug( "release" );
QCopEnvelope( ( *it ).getChannel().utf8(), ( *it ).getMessage().utf8() );
}
}
}
if ( !keyboardGrabbed() ) {
if ( ke->simpleData.keycode == Key_F9 ) {
if ( press )
emit datebook();
return TRUE;
}
if ( ke->simpleData.keycode == Key_F10 ) {
if ( !press && cardSendTimer ) {
emit contacts();
delete cardSendTimer;
}
else if ( press ) {
cardSendTimer = new QTimer();
cardSendTimer->start( 2000, TRUE );
connect( cardSendTimer, SIGNAL( timeout() ), this, SLOT( sendCard() ) );
}
return TRUE;
}
/* menu key now opens application menu/toolbar
if ( ke->simpleData.keycode == Key_F11 ) {
if ( press ) emit menu();
return TRUE;
}
*/
if ( ke->simpleData.keycode == Key_F12 ) {
while ( activePopupWidget() )
activePopupWidget() ->close();
if ( press )
emit launch();
return TRUE;
}
if ( ke->simpleData.keycode == Key_F13 ) {
if ( press )
emit email();
return TRUE;
}
}
if ( ke->simpleData.keycode == Key_F34 ) {
if ( press )
emit power();
return TRUE;
}
// This was used for the iPAQ PowerButton
// See main.cpp for new KeyboardFilter
//
// if ( ke->simpleData.keycode == Key_SysReq ) {
// if ( press ) emit power();
// return TRUE;
// }
if ( ke->simpleData.keycode == Key_F35 ) {
if ( press )
emit backlight();
return TRUE;
}
if ( ke->simpleData.keycode == Key_F32 ) {
if ( press )
QCopEnvelope e( "QPE/Desktop", "startSync()" );
return TRUE;
}
if ( ke->simpleData.keycode == Key_F31 && !ke->simpleData.modifiers ) {
if ( press )
emit symbol();
return TRUE;
}
if ( ke->simpleData.keycode == Key_NumLock ) {
if ( press )
emit numLockStateToggle();
}
if ( ke->simpleData.keycode == Key_CapsLock ) {
if ( press )
emit capsLockStateToggle();
}
if ( ( press && !autoRepeat ) || ( !press && autoRepeat ) )
qpedesktop->keyClick();
}
else {
if ( e->type == QWSEvent::Mouse ) {
QWSMouseEvent * me = ( QWSMouseEvent * ) e;
static bool up = TRUE;
if ( me->simpleData.state & LeftButton ) {
if ( up ) {
up = FALSE;
qpedesktop->screenClick();
}
}
else {
up = TRUE;
}
}
}
return QPEApplication::qwsEventFilter( e );
}
#endif
void DesktopApplication::psTimeout()
{
qpedesktop->checkMemory(); // in case no events are being generated
*ps = PowerStatusManager::readStatus();
if ( ( ps->batteryStatus() == PowerStatus::VeryLow ) ) {
pa->alert( tr( "Battery is running very low." ), 6 );
}
if ( ps->batteryStatus() == PowerStatus::Critical ) {
pa->alert( tr( "Battery level is critical!\n"
"Keep power off until power restored!" ), 1 );
}
if ( ps->backupBatteryStatus() == PowerStatus::VeryLow ) {
pa->alert( tr( "The Back-up battery is very low.\nPlease charge the back-up battery." ), 3 );
}
}
void DesktopApplication::sendCard()
{
delete cardSendTimer;
cardSendTimer = 0;
QString card = getenv( "HOME" );
card += "/Applications/addressbook/businesscard.vcf";
if ( QFile::exists( card ) ) {
QCopEnvelope e( "QPE/Obex", "send(QString,QString,QString)" );
QString mimetype = "text/x-vCard";
e << tr( "business card" ) << card << mimetype;
}
}
#if defined(QPE_HAVE_MEMALERTER)
QPE_MEMALERTER_IMPL
#endif
//===========================================================================
Desktop::Desktop() :
QWidget( 0, 0, WStyle_Tool | WStyle_Customize ),
qcopBridge( 0 ),
transferServer( 0 ),
packageSlave( 0 )
{
qpedesktop = this;
// bg = new Info( this );
tb = new TaskBar;
launcher = new Launcher( 0, 0, WStyle_Customize | QWidget::WGroupLeader );
connect( launcher, SIGNAL( busy() ), tb, SLOT( startWait() ) );
connect( launcher, SIGNAL( notBusy( const QString& ) ), tb, SLOT( stopWait( const QString& ) ) );
int displayw = qApp->desktop() ->width();
int displayh = qApp->desktop() ->height();
QSize sz = tb->sizeHint();
setGeometry( 0, displayh - sz.height(), displayw, sz.height() );
tb->setGeometry( 0, displayh - sz.height(), displayw, sz.height() );
tb->show();
launcher->showMaximized();
launcher->show();
launcher->raise();
#if defined(QPE_HAVE_MEMALERTER)
initMemalerter();
#endif
// start services
startTransferServer();
( void ) new IrServer( this );
rereadVolumes();
packageSlave = new PackageSlave( this );
connect( qApp, SIGNAL( volumeChanged( bool ) ), this, SLOT( rereadVolumes() ) );
qApp->installEventFilter( this );
qApp-> setMainWidget ( launcher );
}
void Desktop::show()
{
login( TRUE );
QWidget::show();
}
Desktop::~Desktop()
{
delete launcher;
delete tb;
delete qcopBridge;
delete transferServer;
}
bool Desktop::recoverMemory()
{
return tb->recoverMemory();
}
void Desktop::checkMemory()
{
#if defined(QPE_HAVE_MEMALERTER)
static bool ignoreNormal = FALSE;
static bool existingMessage = FALSE;
if ( existingMessage )
return ; // don't show a second message while still on first
existingMessage = TRUE;
switch ( memstate ) {
case Unknown:
break;
case Low:
memstate = Unknown;
if ( recoverMemory() )
ignoreNormal = TRUE;
else
diff --git a/core/launcher/launcher.cpp b/core/launcher/launcher.cpp
index a5955a4..5a9ee1b 100644
--- a/core/launcher/launcher.cpp
+++ b/core/launcher/launcher.cpp
@@ -371,513 +371,513 @@ LauncherView *CategoryTabWidget::view( const QString &id )
int idx = ids.findIndex( id );
return (LauncherView *)stack->widget(idx);
}
void CategoryTabWidget::setBusyIndicatorType ( const QString &type )
{
for ( QStringList::Iterator it = ids. begin ( ); it != ids. end ( ); ++it )
view ( *it )-> setBusyIndicatorType ( type );
}
//===========================================================================
CategoryTabBar::CategoryTabBar( QWidget *parent, const char *name )
: QTabBar( parent, name )
{
setFocusPolicy( NoFocus );
connect( this, SIGNAL( selected(int) ), this, SLOT( layoutTabs() ) );
}
CategoryTabBar::~CategoryTabBar()
{
}
void CategoryTabBar::layoutTabs()
{
if ( !count() )
return;
// int percentFalloffTable[] = { 100, 70, 40, 12, 6, 3, 1, 0 };
int available = width()-1;
QFontMetrics fm = fontMetrics();
int hiddenTabWidth = -7;
int middleTab = currentTab();
int hframe, vframe, overlap;
style().tabbarMetrics( this, hframe, vframe, overlap );
int x = 0;
QRect r;
QTab *t;
int required = 0;
int eventabwidth = (width()-1)/count();
enum Mode { HideBackText, Pack, Even } mode=Even;
for ( int i = 0; i < count(); i++ ) {
t = tab(i);
int iw = fm.width( t->text() ) + hframe - overlap;
if ( i != middleTab ) {
available -= hiddenTabWidth + hframe - overlap;
if ( t->iconSet() != 0 )
available -= t->iconSet()->pixmap( QIconSet::Small, QIconSet::Normal ).width();
}
if ( t->iconSet() != 0 )
iw += t->iconSet()->pixmap( QIconSet::Small, QIconSet::Normal ).width();
required += iw;
// As space gets tight, packed looks better than even. "10" must be at least 0.
if ( iw >= eventabwidth-10 )
mode = Pack;
}
if ( mode == Pack && required > width()-1 )
mode = HideBackText;
for ( int i = 0; i < count(); i++ ) {
t = tab(i);
if ( mode != HideBackText ) {
int w = fm.width( t->text() );
int ih = 0;
if ( t->iconSet() != 0 ) {
w += t->iconSet()->pixmap( QIconSet::Small, QIconSet::Normal ).width();
ih = t->iconSet()->pixmap( QIconSet::Small, QIconSet::Normal ).height();
}
int h = QMAX( fm.height(), ih );
h = QMAX( h, QApplication::globalStrut().height() );
h += vframe;
w += hframe;
QRect tr(x, 0,
mode == Even ? eventabwidth : w * (width()-1)/required, h);
t->setRect(tr);
x += tr.width() - overlap;
r = r.unite(tr);
} else if ( i != middleTab ) {
int w = hiddenTabWidth;
int ih = 0;
if ( t->iconSet() != 0 ) {
w += t->iconSet()->pixmap( QIconSet::Small, QIconSet::Normal ).width();
ih = t->iconSet()->pixmap( QIconSet::Small, QIconSet::Normal ).height();
}
int h = QMAX( fm.height(), ih );
h = QMAX( h, QApplication::globalStrut().height() );
h += vframe;
w += hframe;
t->setRect( QRect(x, 0, w, h) );
x += t->rect().width() - overlap;
r = r.unite( t->rect() );
} else {
int ih = 0;
if ( t->iconSet() != 0 ) {
ih = t->iconSet()->pixmap( QIconSet::Small, QIconSet::Normal ).height();
}
int h = QMAX( fm.height(), ih );
h = QMAX( h, QApplication::globalStrut().height() );
h += vframe;
t->setRect( QRect(x, 0, available, h) );
x += t->rect().width() - overlap;
r = r.unite( t->rect() );
}
}
QRect rr = tab(count()-1)->rect();
rr.setRight(width()-1);
tab(count()-1)->setRect( rr );
for ( t = tabList()->first(); t; t = tabList()->next() ) {
QRect tr = t->rect();
tr.setHeight( r.height() );
t->setRect( tr );
}
update();
}
void CategoryTabBar::paint( QPainter * p, QTab * t, bool selected ) const
{
CategoryTabBar *that = (CategoryTabBar *) this;
CategoryTab *ct = (CategoryTab *)t;
QPalette pal = palette();
bool setPal = FALSE;
if ( ct->bgColor.isValid() ) {
pal.setColor( QPalette::Active, QColorGroup::Background, ct->bgColor );
pal.setColor( QPalette::Active, QColorGroup::Button, ct->bgColor );
pal.setColor( QPalette::Inactive, QColorGroup::Background, ct->bgColor );
pal.setColor( QPalette::Inactive, QColorGroup::Button, ct->bgColor );
that->setUpdatesEnabled( FALSE );
that->setPalette( pal );
setPal = TRUE;
}
#if QT_VERSION >= 300
QStyle::SFlags flags = QStyle::Style_Default;
if ( selected )
flags |= QStyle::Style_Selected;
style().drawControl( QStyle::CE_TabBarTab, p, this, t->rect(),
colorGroup(), flags, QStyleOption(t) );
#else
style().drawTab( p, this, t, selected );
#endif
QRect r( t->rect() );
QFont f( font() );
if ( selected )
f.setBold( TRUE );
p->setFont( f );
if ( ct->fgColor.isValid() ) {
pal.setColor( QPalette::Active, QColorGroup::Foreground, ct->fgColor );
pal.setColor( QPalette::Inactive, QColorGroup::Foreground, ct->fgColor );
that->setUpdatesEnabled( FALSE );
that->setPalette( pal );
setPal = TRUE;
}
int iw = 0;
int ih = 0;
if ( t->iconSet() != 0 ) {
iw = t->iconSet()->pixmap( QIconSet::Small, QIconSet::Normal ).width() + 2;
ih = t->iconSet()->pixmap( QIconSet::Small, QIconSet::Normal ).height();
}
int w = iw + p->fontMetrics().width( t->text() ) + 4;
int h = QMAX(p->fontMetrics().height() + 4, ih );
paintLabel( p, QRect( r.left() + (r.width()-w)/2 - 3,
r.top() + (r.height()-h)/2, w, h ), t,
#if QT_VERSION >= 300
t->identifier() == keyboardFocusTab()
#else
t->identitifer() == keyboardFocusTab()
#endif
);
if ( setPal ) {
that->unsetPalette();
that->setUpdatesEnabled( TRUE );
}
}
void CategoryTabBar::paintLabel( QPainter* p, const QRect&,
QTab* t, bool has_focus ) const
{
QRect r = t->rect();
// if ( t->id != currentTab() )
//r.moveBy( 1, 1 );
//
if ( t->iconSet() ) {
// the tab has an iconset, draw it in the right mode
QIconSet::Mode mode = (t->isEnabled() && isEnabled()) ? QIconSet::Normal : QIconSet::Disabled;
if ( mode == QIconSet::Normal && has_focus )
mode = QIconSet::Active;
QPixmap pixmap = t->iconSet()->pixmap( QIconSet::Small, mode );
int pixw = pixmap.width();
int pixh = pixmap.height();
p->drawPixmap( r.left() + 6, r.center().y() - pixh / 2 + 1, pixmap );
r.setLeft( r.left() + pixw + 5 );
}
QRect tr = r;
if ( r.width() < 20 )
return;
if ( t->isEnabled() && isEnabled() ) {
#if defined(_WS_WIN32_)
if ( colorGroup().brush( QColorGroup::Button ) == colorGroup().brush( QColorGroup::Background ) )
p->setPen( colorGroup().buttonText() );
else
p->setPen( colorGroup().foreground() );
#else
p->setPen( colorGroup().foreground() );
#endif
p->drawText( tr, AlignCenter | AlignVCenter | ShowPrefix, t->text() );
} else {
p->setPen( palette().disabled().foreground() );
p->drawText( tr, AlignCenter | AlignVCenter | ShowPrefix, t->text() );
}
}
//---------------------------------------------------------------------------
Launcher::Launcher( QWidget* parent, const char* name, WFlags fl )
: QMainWindow( parent, name, fl )
{
setCaption( tr("Launcher") );
syncDialog = 0;
// we have a pretty good idea how big we'll be
setGeometry( 0, 0, qApp->desktop()->width(), qApp->desktop()->height() );
tabs = 0;
rootFolder = 0;
docsFolder = 0;
int stamp = uidgen.generate(); // this is our timestamp to see which devices we know
//uidgen.store( stamp );
m_timeStamp = QString::number( stamp );
tabs = new CategoryTabWidget( this );
tabs->setMaximumWidth( qApp->desktop()->width() );
setCentralWidget( tabs );
connect( tabs, SIGNAL(selected(const QString&)),
this, SLOT(viewSelected(const QString&)) );
connect( tabs, SIGNAL(clicked(const AppLnk*)),
this, SLOT(select(const AppLnk*)));
connect( tabs, SIGNAL(rightPressed(AppLnk*)),
this, SLOT(properties(AppLnk*)));
-#if defined(Q_WS_QWS) && !defined(QT_NO_COP)
+#if !defined(QT_NO_COP)
QCopChannel* sysChannel = new QCopChannel( "QPE/System", this );
connect( sysChannel, SIGNAL(received(const QCString &, const QByteArray &)),
this, SLOT(systemMessage( const QCString &, const QByteArray &)) );
QCopChannel *channel = new QCopChannel( "QPE/Launcher", this );
connect( channel, SIGNAL(received(const QCString&, const QByteArray&)),
this, SLOT(launcherMessage(const QCString&, const QByteArray&)) );
#endif
storage = new StorageInfo( this );
connect( storage, SIGNAL( disksChanged() ), SLOT( storageChanged() ) );
updateTabs();
preloadApps();
in_lnk_props = FALSE;
got_lnk_change = FALSE;
}
Launcher::~Launcher()
{
delete rootFolder;
delete docsFolder;
}
static bool isVisibleWindow(int wid)
{
#ifdef QWS
const QList<QWSWindow> &list = qwsServer->clientWindows();
QWSWindow* w;
for (QListIterator<QWSWindow> it(list); (w=it.current()); ++it) {
if ( w->winId() == wid )
return !w->isFullyObscured();
}
#endif
return FALSE;
}
void Launcher::showMaximized()
{
if ( isVisibleWindow( winId() ) )
doMaximize();
else
QTimer::singleShot( 20, this, SLOT(doMaximize()) );
}
void Launcher::doMaximize()
{
QMainWindow::showMaximized();
}
void Launcher::updateMimeTypes()
{
MimeType::clear();
updateMimeTypes(rootFolder);
}
void Launcher::updateMimeTypes(AppLnkSet* folder)
{
for ( QListIterator<AppLnk> it( folder->children() ); it.current(); ++it ) {
AppLnk *app = it.current();
if ( app->type() == "Folder" ) // No tr
updateMimeTypes((AppLnkSet *)app);
else {
MimeType::registerApp(*app);
}
}
}
/** This is a HACK....
* Reason: scanning huge mediums, microdirvers for examples
* consomes time. To avoid that we invented the MediumMountCheck
*
* a) the user globally disabled medium checking. We can ignore
* all removable medium
* b) the user enabled medium checking globally and we need to use this mimefilter
* c) the user enabled medium checking on a per medium bases
* c1) we already checked and its not ask again turns
* c2) we need to ask and then apply the mimefilter
*/
void Launcher::loadDocs() // ok here comes a hack belonging to Global::
{
delete docsFolder;
docsFolder = new DocLnkSet;
DocLnkSet *tmp = 0;
QString home = QString(getenv("HOME")) + "/Documents";
tmp = new DocLnkSet( home , QString::null);
docsFolder->appendFrom( *tmp );
delete tmp;
// RAM documents
StorageInfo storage;
const QList<FileSystem> &fileSystems = storage.fileSystems();
QListIterator<FileSystem> it ( fileSystems );
for ( ; it.current(); ++it ) {
if ( (*it)->disk() == "/dev/mtdblock6" || (*it)->disk() == "tmpfs" ) {
tmp = new DocLnkSet( (*it)->path(), QString::null );
docsFolder->appendFrom( *tmp );
delete tmp;
}
}
Config mediumCfg( "medium");
mediumCfg.setGroup("main");
// a) -zecke we don't want to check
if(!mediumCfg.readBoolEntry("use", true ) )
return;
// find out wich filesystems are new in this round
// We will do this by having a timestamp inside each mountpoint
// if the current timestamp doesn't match this is a new file system and
// come up with our MediumMountGui :) let the hacking begin
int stamp = uidgen.generate();
QString newStamp = QString::number( stamp ); // generates newtime Stamp
// b)
if( mediumCfg.readBoolEntry("global", true ) ){
QString mime = configToMime(&mediumCfg).join(";");
for( it.toFirst(); it.current(); ++it ){
if( (*it)->isRemovable() ){
tmp = new DocLnkSet( (*it)->path(), mime );
docsFolder->appendFrom( *tmp );
delete tmp;
}
} // done
return; // save the else
}
// c) zecke
for ( it.toFirst(); it.current(); ++it ) {
if ( (*it)->isRemovable() ) { // let's find out if we should search on it
Config cfg( (*it)->path() + "/.opiestorage.cf", Config::File);
cfg.setGroup("main");
QString stamp = cfg.readEntry("timestamp", QDateTime::currentDateTime().toString() );
/** This medium is uptodate
*/
if( stamp == m_timeStamp ){ // ok we know this card
cfg.writeEntry("timestamp", newStamp ); //just write a new timestamp
// we need to scan the list now. Hopefully the cache will be there
// read the mimetypes from the config and search for documents
QStringList mimetypes = configToMime( &cfg);
tmp = new DocLnkSet( (*it)->path(), mimetypes.join(";") );
docsFolder->appendFrom( *tmp );
delete tmp;
}else{ // come up with the gui cause this a new card
MediumMountGui medium(&cfg, (*it)->path() );
if( medium.check() ){ // we did not ask before or ask again is off
/** c2) */
if( medium.exec() ){ // he clicked yes so search it
// speicher
//cfg.read(); // cause of a race we need to reread - fixed
cfg.setGroup("main");
cfg.writeEntry("timestamp", newStamp );
cfg.write();
tmp = new DocLnkSet( (*it)->path(), medium.mimeTypes().join(";" ) );
docsFolder->appendFrom( *tmp );
delete tmp;
}// no else
/** c1) */
}else{ // we checked
// do something different see what we need to do
// let's see if we should check the device
cfg.setGroup("main" );
bool check = cfg.readBoolEntry("autocheck", true );
if( check ){ // find the documents
tmp = new DocLnkSet( (*it)->path(), configToMime(&cfg ).join(";") );
docsFolder->appendFrom( *tmp );
delete tmp;
}
}
}
}
}
m_timeStamp = newStamp;
}
void Launcher::updateTabs()
{
MimeType::updateApplications(); // ### reads all applnks twice
delete rootFolder;
rootFolder = new AppLnkSet( MimeType::appsFolderName() );
loadDocs();
tabs->initializeCategories(rootFolder, docsFolder, storage->fileSystems());
}
void Launcher::updateDocs()
{
loadDocs();
tabs->updateDocs(docsFolder,storage->fileSystems());
}
void Launcher::viewSelected(const QString& s)
{
setCaption( s + tr(" - Launcher") );
}
void Launcher::nextView()
{
tabs->nextTab();
}
void Launcher::select( const AppLnk *appLnk )
{
if ( appLnk->type() == "Folder" ) { // No tr
// Not supported: flat is simpler for the user
} else {
if ( appLnk->exec().isNull() ) {
QMessageBox::information(this,tr("No application"),
tr("<p>No application is defined for this document."
"<p>Type is %1.").arg(appLnk->type()));
return;
}
tabs->setBusy(TRUE);
emit executing( appLnk );
appLnk->execute();
}
}
void Launcher::externalSelected(const AppLnk *appLnk)
{
tabs->setBusy(TRUE);
emit executing( appLnk );
}
void Launcher::properties( AppLnk *appLnk )
{
if ( appLnk->type() == "Folder" ) { // No tr
// Not supported: flat is simpler for the user
} else {
in_lnk_props = TRUE;
got_lnk_change = FALSE;
LnkProperties prop(appLnk);
connect(&prop, SIGNAL(select(const AppLnk *)), this, SLOT(externalSelected(const AppLnk *)));
prop.showMaximized();
prop.exec();
in_lnk_props = FALSE;
if ( got_lnk_change ) {
updateLink(lnk_change);
}
}
}
void Launcher::updateLink(const QString& link)
{
if (link.isNull())
updateTabs();
else if (link.isEmpty())
updateDocs();
else