author | zautrix <zautrix> | 2005-08-23 20:09:28 (UTC) |
---|---|---|
committer | zautrix <zautrix> | 2005-08-23 20:09:28 (UTC) |
commit | 6f5464760f5fb1e4c13027464cfe4943b85d29a0 (patch) (side-by-side diff) | |
tree | 3c074b7e313d965516b60b9ba97fe27a7ee774a1 /microkde/kdeui | |
parent | 13a736b71dec27ef7ffef06b91f34d220d89cce6 (diff) | |
download | kdepimpi-6f5464760f5fb1e4c13027464cfe4943b85d29a0.zip kdepimpi-6f5464760f5fb1e4c13027464cfe4943b85d29a0.tar.gz kdepimpi-6f5464760f5fb1e4c13027464cfe4943b85d29a0.tar.bz2 |
fixx
-rw-r--r-- | microkde/kdeui/kmainwindow.cpp | 11 | ||||
-rw-r--r-- | microkde/kdeui/kmainwindow.h | 2 |
2 files changed, 7 insertions, 6 deletions
diff --git a/microkde/kdeui/kmainwindow.cpp b/microkde/kdeui/kmainwindow.cpp index 3ae4c87..fa678f2 100644 --- a/microkde/kdeui/kmainwindow.cpp +++ b/microkde/kdeui/kmainwindow.cpp @@ -1,995 +1,996 @@ /* This file is part of the KDE libraries Copyright (C) 2000 Reginald Stadlbauer (reggie@kde.org) (C) 1997 Stephan Kulow (coolo@kde.org) (C) 1997-2000 Sven Radej (radej@kde.org) (C) 1997-2000 Matthias Ettrich (ettrich@kde.org) (C) 1999 Chris Schlaeger (cs@kde.org) (C) 2002 Joseph Wenninger (jowenn@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 version 2 as published by the Free Software Foundation. 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 <qobjectlist.h> #include <qstringlist.h> #include <qtimer.h> #include <qmenubar.h> #include <qstatusbar.h> #include <qapplication.h> #include "kdebug.h" #include "kmainwindow.h" #include "kglobalsettings.h" #include "kactioncollection.h" class KMainWindowPrivate { public: //US bool showHelpMenu:1; bool autoSaveSettings:1; bool settingsDirty:1; bool autoSaveWindowSize:1; bool care_about_geometry:1; QString autoSaveGroup; //US KAccel * kaccel; //US KMainWindowInterface *m_interface; KDEPrivate::ToolBarHandler *toolBarHandler; QTimer* settingsTimer; KToggleAction *showStatusBarAction; QRect defaultWindowSize; }; static bool no_query_exit = false; -KMainWindow::KMainWindow( QWidget* parent, const char *name, WFlags f ) +KMainWindow::KMainWindow( QWidget* parent, const char *name ) : QMainWindow( parent, name ) /*LR, f ) with the default widget flag we cannot have fastload */ /*US, KXMLGUIBuilder( this ), helpMenu2( 0 ), factory_( 0 )*/ { mQToolBar = 0; initKMainWindow(name); } void KMainWindow::parseGeometry(bool parsewidth) { //US the following code is not getting used in the embedded version !! So disable it for now /*US assert ( !kapp->geometryArgument().isNull() ); assert ( d->care_about_geometry ); #ifndef Q_WS_QWS // FIXME: (E) Implement something similar for Qt Embedded (or decide we don't need it) int x, y; int w, h; int m = XParseGeometry( kapp->geometryArgument().latin1(), &x, &y, (unsigned int*)&w, (unsigned int*)&h); if (parsewidth) { QSize minSize = minimumSize(); QSize maxSize = maximumSize(); if ( (m & WidthValue) == 0 ) w = width(); if ( (m & HeightValue) == 0 ) h = height(); w = QMIN(w,maxSize.width()); h = QMIN(h,maxSize.height()); w = QMAX(w,minSize.width()); h = QMAX(h,minSize.height()); resize(w, h); } else { if ( parsewidth && (m & XValue) == 0 ) x = geometry().x(); if ( parsewidth && (m & YValue) == 0 ) y = geometry().y(); if ( (m & XNegative) ) x = KApplication::desktop()->width() + x - w; if ( (m & YNegative) ) y = KApplication::desktop()->height() + y - h; move(x, y); } #endif */ } KMainWindow::~KMainWindow() { delete d->settingsTimer; QMenuBar* mb = internalMenuBar(); delete mb; //US delete d->m_interface; delete d; //US memberList->remove( this ); } void KMainWindow::initKMainWindow(const char *name) { setDockMenuEnabled( FALSE ); //US mHelpMenu = 0; //US kapp->setTopWidget( this ); actionCollection()->setWidget( this ); //US connect(kapp, SIGNAL(shutDown()), this, SLOT(shuttingDown())); //US if( !memberList ) //US memberList = new QPtrList<KMainWindow>; /*US if ( !ksm ) ksm = ksmd.setObject(new KMWSessionManaged()); // set a unique object name. Required by session management. QCString objname; QCString s; int unusedNumber; if ( !name ) { // no name given objname = kapp->instanceName() + "-mainwindow#"; s = objname + '1'; // start adding number immediately unusedNumber = 1; } else if( name[ strlen( name ) - 1 ] == '#' ) { // trailing # - always add a number objname = name; s = objname + '1'; // start adding number immediately unusedNumber = 1; } else { objname = name; s = objname; unusedNumber = 0; // add numbers only when needed } for(;;) { QWidgetList* list = kapp->topLevelWidgets(); QWidgetListIt it( *list ); bool found = false; for( QWidget* w = it.current(); w != NULL; ++it, w = it.current()) if( w != this && w->name() == s ) { found = true; break; } delete list; if( !found ) break; s.setNum( ++unusedNumber ); s = objname + s; } setName( s ); memberList->append( this ); */ d = new KMainWindowPrivate; //US d->showHelpMenu = true; d->settingsDirty = false; d->autoSaveSettings = false; d->autoSaveWindowSize = true; // for compatibility //US d->kaccel = actionCollection()->kaccel(); d->toolBarHandler = 0; d->settingsTimer = 0; d->showStatusBarAction = NULL; /*US if ((d->care_about_geometry == beeing_first)) { beeing_first = false; if ( kapp->geometryArgument().isNull() ) // if there is no geometry, it doesn't mater d->care_about_geometry = false; else parseGeometry(false); } */ d->care_about_geometry = false; //US setCaption( kapp->caption() ); // attach dcop interface //US d->m_interface = new KMainWindowInterface(this); //US if (!kapp->authorize("movable_toolbars")) //US setDockWindowsMovable(false); } KAction *KMainWindow::toolBarMenuAction() { if ( !d->toolBarHandler ) return 0; return d->toolBarHandler->toolBarMenuAction(); } bool KMainWindow::canBeRestored( int number ) { /*US we do not have and want to save sessioninformation. Use info from the default application config. */ //US if ( !kapp->isRestored() ) //US return FALSE; //US KConfig *config = kapp->sessionConfig(); KConfig *config = KGlobal::config(); if ( !config ) return FALSE; config->setGroup( QString::fromLatin1("Number") ); int n = config->readNumEntry( QString::fromLatin1("NumberOfWindows") , 1 ); return number >= 1 && number <= n; } const QString KMainWindow::classNameOfToplevel( int number ) { /*US we do not have and want to save sessioninformation. Use info from the default application config. */ //US if ( !kapp->isRestored() ) //US return QString::null; //US KConfig *config = kapp->sessionConfig(); KConfig *config = KGlobal::config(); if ( !config ) return QString::null; QString s; s.setNum( number ); s.prepend( QString::fromLatin1("WindowProperties") ); config->setGroup( s ); if ( !config->hasKey( QString::fromLatin1("ClassName") ) ) return QString::null; else return config->readEntry( QString::fromLatin1("ClassName") ); } bool KMainWindow::restore( int number, bool show ) { /*US we do not have and want to save sessioninformation. Use info from the default application config. */ if ( !canBeRestored( number ) ) return FALSE; //US KConfig *config = kapp->sessionConfig(); KConfig *config = KGlobal::config(); if ( readPropertiesInternal( config, number ) ){ if ( show ) KMainWindow::show(); return FALSE; } return FALSE; } void KMainWindow::setCaption( const QString &caption ) { //US setPlainCaption( kapp->makeStdCaption(caption) ); setPlainCaption( caption ); } void KMainWindow::setCaption( const QString &caption, bool modified ) { //US setPlainCaption( kapp->makeStdCaption(caption, true, modified) ); setPlainCaption( caption + "modified:" ); } void KMainWindow::setPlainCaption( const QString &caption ) { QMainWindow::setCaption( caption ); #ifndef Q_WS_QWS //US the following is disabled for the embedded version //US NETWinInfo info( qt_xdisplay(), winId(), qt_xrootwin(), 0 ); //US info.setName( caption.utf8().data() ); #endif } void KMainWindow::slotStateChanged(const QString &newstate) { stateChanged(newstate, KXMLGUIClient::StateNoReverse); } /* * Get rid of this for KDE 4.0 */ void KMainWindow::slotStateChanged(const QString &newstate, KXMLGUIClient::ReverseStateChange reverse) { stateChanged(newstate, reverse); } void KMainWindow::closeEvent ( QCloseEvent *e ) { //qDebug("MainWindow::closeEvent "); // Save settings if auto-save is enabled, and settings have changed if (d->settingsDirty && d->autoSaveSettings) saveAutoSaveSettings(); if (queryClose()) { e->accept(); int not_withdrawn = 0; /*US QPtrListIterator<KMainWindow> it(*KMainWindow::memberList); for (it.toFirst(); it.current(); ++it){ if ( !it.current()->isHidden() && it.current()->isTopLevel() && it.current() != this ) not_withdrawn++; } */ if ( !no_query_exit && not_withdrawn <= 0 ) { // last window close accepted? /*US if ( queryExit() && !kapp->sessionSaving()) { // Yes, Quit app? // don't call queryExit() twice disconnect(kapp, SIGNAL(shutDown()), this, SLOT(shuttingDown())); kapp->deref(); // ...and quit aplication. } else { // cancel closing, it's stupid to end up with no windows at all.... e->ignore(); } */ //US we have no sessionmanagement. Simply close app. if ( queryExit() ) { // Yes, Quit app? qDebug("KMainWindow::closeEvent: Exit application ???"); // don't call queryExit() twice //US disconnect(kapp, SIGNAL(shutDown()), this, SLOT(shuttingDown())); } } } } bool KMainWindow::queryExit() { return TRUE; } bool KMainWindow::queryClose() { return TRUE; } void KMainWindow::saveGlobalProperties( KConfig* ) { } void KMainWindow::readGlobalProperties( KConfig* ) { } void KMainWindow::savePropertiesInternal( KConfig *config, int number ) { bool oldASWS = d->autoSaveWindowSize; d->autoSaveWindowSize = true; // make saveMainWindowSettings save the window size QString s; s.setNum(number); s.prepend(QString::fromLatin1("WindowProperties")); config->setGroup(s); // store objectName, className, Width and Height for later restoring // (Only useful for session management) config->writeEntry(QString::fromLatin1("ObjectName"), name()); config->writeEntry(QString::fromLatin1("ClassName"), className()); saveMainWindowSettings(config); // Menubar, statusbar and Toolbar settings. s.setNum(number); config->setGroup(s); saveProperties(config); d->autoSaveWindowSize = oldASWS; } void KMainWindow::setStandardToolBarMenuEnabled( bool enable ) { if ( enable ) { if ( d->toolBarHandler ) return; d->toolBarHandler = new KDEPrivate::ToolBarHandler( this ); /*US if ( factory() ) factory()->addClient( d->toolBarHandler ); */ } else { if ( !d->toolBarHandler ) return; /*US if ( factory() ) factory()->removeClient( d->toolBarHandler ); */ delete d->toolBarHandler; d->toolBarHandler = 0; } } bool KMainWindow::isStandardToolBarMenuEnabled() const { return ( d->toolBarHandler != 0 ); } void KMainWindow::createStandardStatusBarAction(){ if(!d->showStatusBarAction){ d->showStatusBarAction = KStdAction::showStatusbar(this, SLOT(setSettingsDirty()), actionCollection()); connect(d->showStatusBarAction, SIGNAL(toggled(bool)), statusBar(), SLOT(setShown(bool))); if(internalStatusBar()) d->showStatusBarAction->setChecked(!internalStatusBar()->isHidden()); } } QToolBar *KMainWindow::tBar( ) { if ( ! mQToolBar ) mQToolBar = new QToolBar( this ); return mQToolBar; } KToolBar *KMainWindow::toolBar( const char * name ) { if (!name) name = "mainToolBar"; KToolBar *tb = (KToolBar*)child( name, "KToolBar" ); if ( tb ) return tb; bool honor_mode = (name == "mainToolBar"); /*US if ( builderClient() ) return new KToolBar(this, name, honor_mode); // XMLGUI constructor else */ return new KToolBar(this, Top, false, name, honor_mode ); // non-XMLGUI } QPtrListIterator<KToolBar> KMainWindow::toolBarIterator() { toolbarList.clear(); QPtrList<QToolBar> lst; for ( int i = (int)QMainWindow::Unmanaged; i <= (int)Minimized; ++i ) { lst = toolBars( (ToolBarDock)i ); for ( QToolBar *tb = lst.first(); tb; tb = lst.next() ) { if ( !tb->inherits( "KToolBar" ) ) continue; toolbarList.append( (KToolBar*)tb ); } } return QPtrListIterator<KToolBar>( toolbarList ); } void KMainWindow::setAutoSaveSettings( const QString & groupName, bool saveWindowSize ) { d->autoSaveSettings = true; d->autoSaveGroup = groupName; d->autoSaveWindowSize = saveWindowSize; // Get notified when the user moves a toolbar around //US connect( this, SIGNAL( dockWindowPositionChanged( QDockWindow * ) ), //US this, SLOT( setSettingsDirty() ) ); connect( this, SIGNAL( toolBarPositionChanged(QToolBar *) ), this, SLOT( setSettingsDirty() ) ); // Get default values //US int scnum = QApplication::desktop()->screenNumber(parentWidget()); //US QRect desk = QApplication::desktop()->screenGeometry(scnum); QRect desk = KGlobalSettings::desktopGeometry(0); d->defaultWindowSize = QRect(desk.width(), width(), desk.height(), height()); // Now read the previously saved settings applyMainWindowSettings( KGlobal::config(), groupName ); } void KMainWindow::resetAutoSaveSettings() { d->autoSaveSettings = false; if ( d->settingsTimer ) d->settingsTimer->stop(); } bool KMainWindow::autoSaveSettings() const { return d->autoSaveSettings; } QString KMainWindow::autoSaveGroup() const { return d->autoSaveGroup; } void KMainWindow::saveAutoSaveSettings() { ASSERT( d->autoSaveSettings ); //kdDebug(200) << "KMainWindow::saveAutoSaveSettings -> saving settings" << endl; saveMainWindowSettings( KGlobal::config(), d->autoSaveGroup ); KGlobal::config()->sync(); d->settingsDirty = false; if ( d->settingsTimer ) d->settingsTimer->stop(); } void KMainWindow::createGUI( const QString &xmlfile, bool _conserveMemory ) { // disabling the updates prevents unnecessary redraws setUpdatesEnabled( false ); // just in case we are rebuilding, let's remove our old client //US guiFactory()->removeClient( this ); // make sure to have an empty GUI QMenuBar* mb = internalMenuBar(); if ( mb ) mb->clear(); (void)toolBarIterator(); // make sure toolbarList is most-up-to-date toolbarList.setAutoDelete( true ); toolbarList.clear(); toolbarList.setAutoDelete( false ); /*US // don't build a help menu unless the user ask for it if (d->showHelpMenu) { // we always want a help menu if (helpMenu2 == 0) helpMenu2 = new KHelpMenu(this, instance()->aboutData(), true, actionCollection()); } // we always want to load in our global standards file setXMLFile( locate( "config", "ui/ui_standards.rc", instance() ) ); // now, merge in our local xml file. if this is null, then that // means that we will be only using the global file if ( !xmlfile.isNull() ) { setXMLFile( xmlfile, true ); } else { QString auto_file(instance()->instanceName() + "ui.rc"); setXMLFile( auto_file, true ); } // make sure we don't have any state saved already setXMLGUIBuildDocument( QDomDocument() ); // do the actual GUI building guiFactory()->addClient( this ); // try and get back *some* of our memory if ( _conserveMemory ) { // before freeing the memory allocated by the DOM document we also // free all memory allocated internally in the KXMLGUIFactory for // the menubar and the toolbars . This however implies that we // have to take care of deleting those widgets ourselves. For // destruction this is no problem, but when rebuilding we have // to take care of that (and we want to rebuild the GUI when // using stuff like the toolbar editor ). // In addition we have to take care of not removing containers // like popupmenus, defined in the XML document. // this code should probably go into a separate method in KMainWindow. // there's just one problem: I'm bad in finding names ;-) , so // I skipped this ;-) QDomDocument doc = domDocument(); QDomElement e = doc.documentElement().firstChild().toElement(); for (; !e.isNull(); e = e.nextSibling().toElement() ) { if ( e.tagName().lower() == "toolbar" ) factory_->resetContainer( e.attribute( "name" ) ); else if ( e.tagName().lower() == "menubar" ) factory_->resetContainer( e.tagName(), true ); } conserveMemory(); } */ setUpdatesEnabled( true ); updateGeometry(); } void KMainWindow::saveMainWindowSettings(KConfig *config, const QString &configGroup) { kdDebug(200) << "KMainWindow::saveMainWindowSettings " << configGroup << endl; //US QStrList entryList; QStringList entryList; QString oldGroup; if (!configGroup.isEmpty()) { oldGroup = config->group(); config->setGroup(configGroup); } // Called by session management - or if we want to save the window size anyway if ( d->autoSaveWindowSize ) saveWindowSize( config ); QStatusBar* sb = internalStatusBar(); if (sb) { entryList.clear(); if ( sb->isHidden() ) entryList.append("Disabled"); else entryList.append("Enabled"); if(sb->isHidden()) //US config->writeEntry(QString::fromLatin1("StatusBar"), entryList, ';'); config->writeEntry(QString::fromLatin1("StatusBar"), entryList); else config->deleteEntry(QString::fromLatin1("StatusBar")); } QMenuBar* mb = internalMenuBar(); if (mb) { entryList.clear(); if ( mb->isHidden() ) entryList.append("Disabled"); else entryList.append("Enabled"); // By default we don't hide. if(mb->isHidden()) //US config->writeEntry(QString::fromLatin1("MenuBar"), entryList, ';'); config->writeEntry(QString::fromLatin1("MenuBar"), entryList); else config->deleteEntry(QString::fromLatin1("MenuBar")); } int n = 1; // Toolbar counter. toolbars are counted from 1, KToolBar *toolbar = 0; QPtrListIterator<KToolBar> it( toolBarIterator() ); while ( ( toolbar = it.current() ) ) { ++it; QString group; if (!configGroup.isEmpty()) { // Give a number to the toolbar, but prefer a name if there is one, // because there's no real guarantee on the ordering of toolbars group = (!::qstrcmp(toolbar->name(), "unnamed") ? QString::number(n) : QString(" ")+toolbar->name()); group.prepend(" Toolbar"); group.prepend(configGroup); } toolbar->saveSettings(config, group); n++; } if (!configGroup.isEmpty()) config->setGroup(oldGroup); } bool KMainWindow::readPropertiesInternal( KConfig *config, int number ) { if ( number == 1 ) readGlobalProperties( config ); // in order they are in toolbar list QString s; s.setNum(number); s.prepend(QString::fromLatin1("WindowProperties")); config->setGroup(s); // restore the object name (window role) if ( config->hasKey(QString::fromLatin1("ObjectName" )) ) setName( config->readEntry(QString::fromLatin1("ObjectName")).latin1()); // latin1 is right here applyMainWindowSettings(config); // Menubar, statusbar and toolbar settings. s.setNum(number); config->setGroup(s); readProperties(config); return true; } void KMainWindow::applyMainWindowSettings(KConfig *config, const QString &configGroup) { kdDebug(200) << "KMainWindow::applyMainWindowSettings" << endl; QString entry; //US QStrList entryList; QStringList entryList; int i = 0; // Number of entries in list if (!configGroup.isEmpty()) config->setGroup(configGroup); restoreWindowSize(config); QStatusBar* sb = internalStatusBar(); if (sb) { entryList.clear(); //US i = config->readListEntry (QString::fromLatin1("StatusBar"), entryList, ';'); entryList = config->readListEntry (QString::fromLatin1("StatusBar")); entry = entryList.first(); if (entry == QString::fromLatin1("Disabled")) sb->hide(); else sb->show(); if(d->showStatusBarAction) d->showStatusBarAction->setChecked(!sb->isHidden()); } QMenuBar* mb = internalMenuBar(); if (mb) { entryList.clear(); //US i = config->readListEntry (QString::fromLatin1("MenuBar"), entryList, ';'); entryList = config->readListEntry (QString::fromLatin1("MenuBar")); entry = entryList.first(); if (entry==QString::fromLatin1("Disabled")) { mb->hide(); } else { mb->show(); } } int n = 1; // Toolbar counter. toolbars are counted from 1, KToolBar *toolbar; QPtrListIterator<KToolBar> it( toolBarIterator() ); // must use own iterator for ( ; it.current(); ++it) { toolbar= it.current(); QString group; if (!configGroup.isEmpty()) { // Give a number to the toolbar, but prefer a name if there is one, // because there's no real guarantee on the ordering of toolbars group = (!::qstrcmp(toolbar->name(), "unnamed") ? QString::number(n) : QString(" ")+toolbar->name()); group.prepend(" Toolbar"); group.prepend(configGroup); } toolbar->applySettings(config, group); n++; } finalizeGUI( true ); } void KMainWindow::finalizeGUI( bool force ) { //kdDebug(200) << "KMainWindow::finalizeGUI force=" << force << endl; // The whole reason for this is that moveToolBar relies on the indexes // of the other toolbars, so in theory it should be called only once per // toolbar, but in increasing order of indexes. // Since we can't do that immediately, we move them, and _then_ // we call positionYourself again for each of them, but this time // the toolbariterator should give them in the proper order. // Both the XMLGUI and applySettings call this, hence "force" for the latter. QPtrListIterator<KToolBar> it( toolBarIterator() ); for ( ; it.current() ; ++ it ) it.current()->positionYourself( force ); d->settingsDirty = false; } void KMainWindow::saveWindowSize( KConfig * config ) const { /*US int scnum = QApplication::desktop()->screenNumber(parentWidget()); QRect desk = QApplication::desktop()->screenGeometry(scnum); */ QRect desk = KGlobalSettings::desktopGeometry(0); QRect size( desk.width(), width(), desk.height(), height() ); if(size != d->defaultWindowSize){ config->writeEntry(QString::fromLatin1("Width %1").arg(desk.width()), width() ); config->writeEntry(QString::fromLatin1("Height %1").arg(desk.height()), height() ); } else{ config->deleteEntry(QString::fromLatin1("Width %1").arg(desk.width())); config->deleteEntry(QString::fromLatin1("Height %1").arg(desk.height())); } } void KMainWindow::restoreWindowSize( KConfig * config ) { if (d->care_about_geometry) { parseGeometry(true); } else { // restore the size /*US int scnum = QApplication::desktop()->screenNumber(parentWidget()); QRect desk = QApplication::desktop()->screenGeometry(scnum); */ QRect desk = KGlobalSettings::desktopGeometry(0); QSize size( config->readNumEntry( QString::fromLatin1("Width %1").arg(desk.width()), 0 ), config->readNumEntry( QString::fromLatin1("Height %1").arg(desk.height()), 0 ) ); if (size.isEmpty()) { // try the KDE 2.0 way size = QSize( config->readNumEntry( QString::fromLatin1("Width"), 0 ), config->readNumEntry( QString::fromLatin1("Height"), 0 ) ); if (!size.isEmpty()) { // make sure the other resolutions don't get old settings config->writeEntry( QString::fromLatin1("Width"), 0 ); config->writeEntry( QString::fromLatin1("Height"), 0 ); } } if ( !size.isEmpty() ) resize( size ); } } bool KMainWindow::initialGeometrySet() const { return d->care_about_geometry; } void KMainWindow::ignoreInitialGeometry() { d->care_about_geometry = false; } void KMainWindow::setSettingsDirty() { //kdDebug(200) << "KMainWindow::setSettingsDirty" << endl; d->settingsDirty = true; if ( d->autoSaveSettings ) { // Use a timer to save "immediately" user-wise, but not too immediately // (to compress calls and save only once, in case of multiple changes) if ( !d->settingsTimer ) { d->settingsTimer = new QTimer( this ); connect( d->settingsTimer, SIGNAL( timeout() ), SLOT( saveAutoSaveSettings() ) ); } d->settingsTimer->start( 500, true ); } } bool KMainWindow::settingsDirty() const { return d->settingsDirty; } QString KMainWindow::settingsGroup() const { return d->autoSaveGroup; } -void KMainWindow::resizeEvent( QResizeEvent * ) +void KMainWindow::resizeEvent( QResizeEvent * e) { if ( d->autoSaveWindowSize ) - setSettingsDirty(); + setSettingsDirty(); + QMainWindow::resizeEvent( e ); } bool KMainWindow::hasMenuBar() { return (internalMenuBar()); } //US KMenuBar *KMainWindow::menuBar() QMenuBar *KMainWindow::menuBar() { //US KMenuBar * mb = internalMenuBar(); QMenuBar * mb = internalMenuBar(); if ( !mb ) { //US mb = new KMenuBar( this ); mb = new QMenuBar( this ); // trigger a re-layout and trigger a call to the private // setMenuBar method. QMainWindow::menuBar(); } return mb; } //US KStatusBar *KMainWindow::statusBar() QStatusBar *KMainWindow::statusBar() { //US KStatusBar * sb = internalStatusBar(); QStatusBar * sb = internalStatusBar(); if ( !sb ) { //US sb = new KStatusBar( this ); sb = new QStatusBar( this ); // trigger a re-layout and trigger a call to the private // setStatusBar method. QMainWindow::statusBar(); } return sb; } void KMainWindow::shuttingDown() { // Needed for Qt <= 3.0.3 at least to prevent reentrancy // when queryExit() shows a dialog. Check before removing! static bool reentrancy_protection = false; if (!reentrancy_protection) { reentrancy_protection = true; // call the virtual queryExit queryExit(); reentrancy_protection = false; } } //US KMenuBar *KMainWindow::internalMenuBar() QMenuBar *KMainWindow::internalMenuBar() { //US QObjectList *l = queryList( "KMenuBar", 0, false, false ); QObjectList *l = queryList( "QMenuBar", 0, false, false ); if ( !l || !l->first() ) { delete l; return 0; } //US KMenuBar *m = (KMenuBar*)l->first(); QMenuBar *m = (QMenuBar*)l->first(); delete l; return m; } //US KStatusBar *KMainWindow::internalStatusBar() QStatusBar *KMainWindow::internalStatusBar() { //US QObjectList *l = queryList( "KStatusBar", 0, false, false ); QObjectList *l = queryList( "QStatusBar", 0, false, false ); if ( !l || !l->first() ) { delete l; return 0; } //US KStatusBar *s = (KStatusBar*)l->first(); QStatusBar *s = (QStatusBar*)l->first(); delete l; return s; } void KMainWindow::childEvent( QChildEvent* e) { QMainWindow::childEvent( e ); } -void KMainWindow::paintEvent( QPaintEvent * ) +void KMainWindow::paintEvent( QPaintEvent * e) { - // do nothing + QMainWindow::paintEvent( e ); } QSize KMainWindow::sizeForCentralWidgetSize(QSize size) { KToolBar *tb = (KToolBar*)child( "mainToolBar", "KToolBar" ); if (tb && !tb->isHidden()) { switch( tb->barPos() ) { case KToolBar::Top: case KToolBar::Bottom: size += QSize(0, tb->sizeHint().height()); break; case KToolBar::Left: case KToolBar::Right: size += QSize(toolBar()->sizeHint().width(), 0); break; case KToolBar::Flat: //US size += QSize(0, 3+kapp->style().pixelMetric( QStyle::PM_DockWindowHandleExtent )); size += QSize(0, tb->sizeHint().height()); break; default: break; } } //US KMenuBar *mb = menuBar(); QMenuBar *mb = menuBar(); if (!mb->isHidden()) { size += QSize(0,mb->heightForWidth(size.width())); /*US if (style().styleHint(QStyle::SH_MainWindow_SpaceBelowMenuBar, this)) size += QSize( 0, dockWindowsMovable() ? 1 : 2); */ size += QSize( 0, 2); } QStatusBar *sb = internalStatusBar(); if( sb && !sb->isHidden() ) size += QSize(0, sb->sizeHint().height()); return size; } // why do we support old gcc versions? using KXMLGUIBuilder::finalizeGUI; void KMainWindow::finalizeGUI( KXMLGUIClient *client ) { /*US KXMLGUIBuilder::finalizeGUI( client );*/ } void KMainWindow::virtual_hook( int id, void* data ) { /*US KXMLGUIBuilder::virtual_hook( id, data );*/ KXMLGUIClient::virtual_hook( id, data ); } diff --git a/microkde/kdeui/kmainwindow.h b/microkde/kdeui/kmainwindow.h index 2aafb9d..2dc8033 100644 --- a/microkde/kdeui/kmainwindow.h +++ b/microkde/kdeui/kmainwindow.h @@ -1,777 +1,777 @@ /* This file is part of the KDE libraries This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License version 2 as published by the Free Software Foundation. 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. $Id$ */ #ifndef KMAINWINDOW_H #define KMAINWINDOW_H /*US #include "kxmlguifactory.h" #include "kxmlguiclient.h" #include "kxmlguibuilder.h" #include <qmetaobject.h> class KPopupMenu; class KXMLGUIFactory; class KConfig; class KHelpMenu; class KStatusBar; class QStatusBar; class KMenuBar; class KMWSessionManaged; class KAccel; class KToolBarMenuAction; */ class QMenuBar; class QStatusBar; class KMainWindowPrivate; class KAction; #include <ktoolbar.h> #include <ktoolbarhandler.h> #include <kxmlguiclient.h> #include <qmainwindow.h> #include <qptrlist.h> class KActionCollection; class KMainWindow : public QMainWindow, virtual public KXMLGUIClient { Q_OBJECT private: //US create private defaultconstructor KMainWindow() {;}; public: /** * Construct a main window. * * @param parent The widget parent. This is usually 0 but it may also be the window * group leader. In that case, the KMainWindow becomes sort of a * secondary window. * * @param name The object name. For session management and window management to work * properly, all main windows in the application should have a * different name. When passing 0 (the default), KMainWindow will create * a unique name, but it's recommended to explicitly pass a window name that will * also describe the type of the window. If there can be several windows of the same * type, append '#' (hash) to the name, and KMainWindow will append numbers to make * the names unique. For example, for a mail client which has one main window showing * the mails and folders, and which can also have one or more windows for composing * mails, the name for the folders window should be e.g. "mainwindow" and * for the composer windows "composer#". * * @param f Specify the widget flags. The default is * WType_TopLevel and WDestructiveClose. TopLevel indicates that a * main window is a toplevel window, regardless of whether it has a * parent or not. DestructiveClose indicates that a main window is * automatically destroyed when its window is closed. Pass 0 if * you do not want this behavior. * * KMainWindows must be created on the heap with 'new', like: * <pre> KMainWindow *kmw = new KMainWindow (...</pre> **/ //LR remove WDestructiveClose - KMainWindow( QWidget* parent = 0, const char *name = 0, WFlags f = WType_TopLevel /*| WDestructiveClose*/ ); + KMainWindow( QWidget* parent = 0, const char *name = 0 ); //, WFlags f = WType_TopLevel /*| WDestructiveClose*/ ; /** * Destructor. * * Will also destroy the toolbars, and menubar if * needed. */ virtual ~KMainWindow(); /** * Retrieve the standard help menu. * * It contains entires for the * help system (activated by F1), an optional "What's This?" entry * (activated by Shift F1), an application specific dialog box, * and an "About KDE" dialog box. * * Example (adding a standard help menu to your application): * <pre> * KPopupMenu *help = helpMenu( <myTextString> ); * menuBar()->insertItem( i18n("&Help"), help ); * </pre> * * @param aboutAppText The string that is used in the application * specific dialog box. If you leave this string empty the * information in the global @ref KAboutData of the * application will be used to make a standard dialog box. * * @param showWhatsThis Set this to false if you do not want to include * the "What's This" menu entry. * * @return A standard help menu. */ //US KPopupMenu* helpMenu( const QString &aboutAppText = QString::null, //US bool showWhatsThis = TRUE ); /** * Returns the help menu. Creates a standard help menu if none exists yet. * * It contains entries for the * help system (activated by F1), an optional "What's This?" entry * (activated by Shift F1), an application specific dialog box, * and an "About KDE" dialog box. You must create the application * specific dialog box yourself. When the "About application" * menu entry is activated, a signal will trigger the * @ref showAboutApplication slot. See @ref showAboutApplication for more * information. * * Example (adding a help menu to your application): * <pre> * menuBar()->insertItem( i18n("&Help"), customHelpMenu() ); * </pre> * * @param showWhatsThis Set this to @p false if you do not want to include * the "What's This" menu entry. * * @return A standard help menu. */ //US KPopupMenu* customHelpMenu( bool showWhatsThis = TRUE ); /** * @sect Session Management * * Try to restore the toplevel widget as defined by the number (1..X). * * If the session did not contain so high a number, the configuration * is not changed and @p false returned. * * That means clients could simply do the following: * <pre> * if (kapp->isRestored()){ * int n = 1; * while (KMainWindow::canBeRestored(n)){ * (new childMW)->restore(n); * n++; * } * } else { * // create default application as usual * } * </pre> * Note that @ref QWidget::show() is called implicitly in restore. * * With this you can easily restore all toplevel windows of your * application. * * If your application uses different kinds of toplevel * windows, then you can use @ref KMainWindow::classNameOfToplevel(n) * to determine the exact type before calling the childMW * constructor in the example from above. * * If your client has only one kind of toplevel widgets (which * should be pretty usual) then you should use the RESTORE-macro * for backwards compatibility with 3.1 and 3.0 branches: * * <pre> * if (kapp->isRestored()) * RESTORE(childMW) * else { * // create default application as usual * } * </pre> * * The macro expands to the term above but is easier to use and * less code to write. * * For new code or if you have more than one kind of toplevel * widget (each derived from @ref KMainWindow, of course), you can * use the templated @ref kRestoreMainWindows global functions: * * <pre> * if (kapp->isRestored()) * kRestoreMainWindows< childMW1, childMW2, childMW3 >(); * else { * // create default application as usual * } * </pre> * * Currently, these functions are provided for up to three * template arguments. If you need more, tell us. To help you in * deciding whether or not you can use @ref kRestoreMainWindows, a * define KDE_RESTORE_MAIN_WINDOWS_NUM_TEMPLATE_ARGS is provided. * * @see restore() * @see classNameOfToplevel() * **/ static bool canBeRestored( int number ); /** * Returns the @ref className() of the @p number of the toplevel window which * should be restored. * * This is only useful if your application uses * different kinds of toplevel windows. */ static const QString classNameOfToplevel( int number ); /** * Restore the session specified by @p number. * * Returns @p false if this * fails, otherwise returns @p true and shows the window. * You should call @ref canBeRestored() first. * If @p show is true (default), this widget will be shown automatically. */ bool restore( int number, bool show = TRUE ); //US virtual KXMLGUIFactory *guiFactory(); /** * Create a GUI given a local XML file. * * If @p xmlfile is NULL, * then it will try to construct a local XML filename like * appnameui.rc where 'appname' is your app's name. If that file * does not exist, then the XML UI code will only use the global * (standard) XML file for the layout purposes. * * Note that when passing true for the conserveMemory argument subsequent * calls to guiFactory()->addClient/removeClient may not work as expected. * Also retrieving references to containers like popup menus or toolbars using * the container method will not work. * * @param xmlfile The local xmlfile (relative or absolute) * @param _conserveMemory Specify whether createGUI() should call * @ref KXMLGuiClient::conserveMemory() to free all memory * allocated by the @ref QDomDocument and by the KXMLGUIFactory. */ void createGUI( const QString &xmlfile = QString::null, bool _conserveMemory = TRUE ); /** * Enables the build of a standard help menu when calling createGUI(). * * The default behavior is to build one, you must call this function * to disable it */ void setHelpMenuEnabled(bool showHelpMenu = true); /** * Return @p true when the help menu is enabled */ bool isHelpMenuEnabled(); /** * Returns true, if there is a menubar * @since 3.1 */ bool hasMenuBar(); /** * Returns a pointer to the menu bar. * * If there is no menu bar yet one will be created. **/ //US KMenuBar *menuBar(); QMenuBar *menuBar(); /** * Returns a pointer to the status bar. * * If there is no * status bar yet one will be created. */ //US KStatusBar *statusBar(); QStatusBar *statusBar(); /** * List of members of KMainWindow class. */ //US static QPtrList<KMainWindow>* memberList; /** * Returns a pointer to the toolbar with the specified name. * This refers to toolbars created dynamically from the XML UI * framework. If the toolbar does not exist one will be created. * * @param name The internal name of the toolbar. If no name is * specified "mainToolBar" is assumed. * * @return A pointer to the toolbar **/ KToolBar *toolBar( const char *name=0 ); // method for getting rid of KDE-Crap QToolBar *tBar( ); /** * @return An iterator over the list of all toolbars for this window. */ QPtrListIterator<KToolBar> toolBarIterator(); /** * @return A KAccel instance bound to this mainwindow. Used automatically * by KAction to make keybindings work in all cases. */ KAccel *accel(); void setFrameBorderWidth( int ) {} /** * Call this to enable "auto-save" of toolbar/menubar/statusbar settings * (and optionally window size). * If the *bars were moved around/shown/hidden when the window is closed, * saveMainWindowSettings( KGlobal::config(), groupName ) will be called. * * @param groupName a name that identifies this "type of window". * You can have several types of window in the same application. * * @param saveWindowSize set it to true to include the window size * when saving. * * Typically, you will call setAutoSaveSettings() in your * KMainWindow-inherited class constructor, and it will take care * of restoring and saving automatically. Make sure you call this * _after all_ your *bars have been created. */ void setAutoSaveSettings( const QString & groupName = QString::fromLatin1("MainWindow"), bool saveWindowSize = true ); /** * Disable the auto-save-settings feature. * You don't normally need to call this, ever. */ void resetAutoSaveSettings(); /** * @return the current autosave setting, i.e. true if setAutoSaveSettings() was called, * false by default or if resetAutoSaveSettings() was called. * @since 3.1 */ bool autoSaveSettings() const; /** * @return the group used for setting-autosaving. * Only meaningful if setAutoSaveSettings() was called. * This can be useful for forcing a save or an apply, e.g. before and after * using KEditToolbar. * @since 3.1 */ QString autoSaveGroup() const; /** * Read settings for statusbar, menubar and toolbar from their respective * groups in the config file and apply them. * * @param config Config file to read the settings from. * @param groupName Group name to use. If not specified, the last used * group name is used. */ void applyMainWindowSettings(KConfig *config, const QString &groupName = QString::null); /** * Save settings for statusbar, menubar and toolbar to their respective * groups in the config file @p config. * * @param config Config file to save the settings to. * @param groupName Group name to use. If not specified, the last used * group name is used */ void saveMainWindowSettings(KConfig *config, const QString &groupName = QString::null); /** * Sets whether KMainWindow should provide a menu that allows showing/hiding * the available toolbars ( using @ref KToggleToolBarAction ) . In case there * is only one toolbar configured a simple 'Show <toolbar name here>' menu item * is shown. * * The menu / menu item is implemented using xmlgui. It will be inserted in your * menu structure in the 'Settings' menu. * * If your application uses a non-standard xmlgui resource file then you can * specify the exact position of the menu / menu item by adding a * <Merge name="StandardToolBarMenuHandler" /> * line to the settings menu section of your resource file ( usually appname.rc ). * * Note that you should enable this feature before calling createGUI() ( or similar ) . * You enable/disable it anytime if you pass false to the conserveMemory argument of createGUI. * @since 3.1 */ void setStandardToolBarMenuEnabled( bool enable ); /// @since 3.1 bool isStandardToolBarMenuEnabled() const; /** * Sets whether KMainWindow should provide a menu that allows showing/hiding * of the statusbar ( using @ref KToggleStatusBarAction ). * * The menu / menu item is implemented using xmlgui. It will be inserted * in your menu structure in the 'Settings' menu. * * Note that you should enable this feature before calling createGUI() * ( or similar ). * * If an application maintains the action on its own (i.e. never calls * this function) a connection needs to be made to let KMainWindow * know when that status (hidden/shown) of the statusbar has changed. * For example: * connect(action, SIGNAL(activated()), * kmainwindow, SLOT(setSettingsDirty())); * Otherwise the status (hidden/show) of the statusbar might not be saved * by KMainWindow. * @since 3.2 */ void createStandardStatusBarAction(); /** * Returns a pointer to the mainwindows action responsible for the toolbars menu * @since 3.1 */ KAction *toolBarMenuAction(); // why do we support old gcc versions? using KXMLGUIBuilder::finalizeGUI; /// @since 3.1 virtual void finalizeGUI( KXMLGUIClient *client ); /** * @internal */ void finalizeGUI( bool force ); /** * @return true if a -geometry argument was given on the command line, * and this is the first window created (the one on which this option applies) */ bool initialGeometrySet() const; /** * @internal * Used from Konqueror when reusing the main window. */ void ignoreInitialGeometry(); /** * @return the size the mainwindow should have so that the central * widget will be of @p size. */ QSize sizeForCentralWidgetSize(QSize size); public slots: /** * Makes a KDE compliant caption. * * @param caption Your caption. @em Do @em not include the application name * in this string. It will be added automatically according to the KDE * standard. */ virtual void setCaption( const QString &caption ); /** * Makes a KDE compliant caption. * * @param caption Your caption. @em Do @em not include the application name * in this string. It will be added automatically according to the KDE * standard. * @param modified Specify whether the document is modified. This displays * an additional sign in the title bar, usually "**". */ virtual void setCaption( const QString &caption, bool modified ); /** * Make a plain caption without any modifications. * * @param caption Your caption. This is the string that will be * displayed in the window title. */ virtual void setPlainCaption( const QString &caption ); /** * Open the help page for the application. * * The application name is * used as a key to determine what to display and the system will attempt * to open <appName>/index.html. * * This method is intended for use by a help button in the toolbar or * components outside the regular help menu. Use @ref helpMenu() when you * want to provide access to the help system from the help menu. * * Example (adding a help button to the first toolbar): * * <pre> * KIconLoader &loader = *KGlobal::iconLoader(); * QPixmap pixmap = loader.loadIcon( "help" ); * toolBar(0)->insertButton( pixmap, 0, SIGNAL(clicked()), * this, SLOT(appHelpActivated()), true, i18n("Help") ); * </pre> * */ //US void appHelpActivated( void ); /** * Apply a state change * * Enable and disable actions as defined in the XML rc file * @since 3.1 */ virtual void slotStateChanged(const QString &newstate); /** * Apply a state change * * Enable and disable actions as defined in the XML rc file, * can "reverse" the state (disable the actions which should be * enabled, and vice-versa) if specified. * @since 3.1 */ void slotStateChanged(const QString &newstate, KXMLGUIClient::ReverseStateChange); // KDE 4.0: remove this /** * Apply a state change * * Enable and disable actions as defined in the XML rc file, * can "reverse" the state (disable the actions which should be * enabled, and vice-versa) if specified. */ // void slotStateChanged(const QString &newstate, // bool reverse); // KDE 4.0: enable this /** * Tell the main window that it should save its settings when being closed. * This is part of the auto-save-settings feature. * For everything related to toolbars this happens automatically, * but you have to call setSettingsDirty() in the slot that toggles * the visibility of the statusbar. */ void setSettingsDirty(); protected: void paintEvent( QPaintEvent* e ); void childEvent( QChildEvent* e); void resizeEvent( QResizeEvent* e); /** * Reimplemented to call the queryClose() and queryExit() handlers. * * We recommend that you reimplement the handlers rather than @ref closeEvent(). * If you do it anyway, ensure to call the base implementation to keep * @ref queryExit() running. */ virtual void closeEvent ( QCloseEvent *); // KDE4 This seems to be flawed to me. Either the app has only one // mainwindow, so queryClose() is enough, or if it can have more of them, // then the windows should take care of themselves, and queryExit() // would be useful only for the annoying 'really quit' dialog, which // also doesn't make sense in apps with multiple mainwindows. // And saving configuration in something called queryExit()? IMHO // one can e.g. use KApplication::shutDown(), which if nothing else // has at least better fitting name. // See also KApplication::sessionSaving(). // This stuff should get changed somehow, so that it at least doesn't // mess with session management. /** Called before the very last window is closed, either by the user or indirectly by the session manager. It is not recommended to do any user interaction in this function other than indicating severe errors. Better ask the user on @ref queryClose() (see below). A typical usage of @ref queryExit() is to write configuration data back. Note that the application may continue to run after @ref queryExit() (the user may have cancelled a shutdown), so you should not do any cleanups here. The purpose of @ref queryExit() is purely to prepare the application (with possible user interaction) so it can safely be closed later (without user interaction). If you need to do serious things on exit (like shutting a dial-up connection down), connect to the signal @ref KApplication::shutDown(). Default implementation returns @p true. Returning @p false will cancel the exiting. In the latter case, the last window will remain visible. If KApplication::sessionSaving() is true, refusing the exit will also cancel KDE logout. @see queryClose() @see KApplication::sessionSaving() */ virtual bool queryExit(); /** Called before the window is closed, either by the user or indirectly by the session manager. The purpose of this function is to prepare the window in a way that it is safe to close it, i.e. without the user losing some data. Default implementation returns true. Returning @p false will cancel the closing, and, if KApplication::sessionSaving() is true, it will also cancel KDE logout. Reimplement this function to prevent the user from losing data. Example: <pre> switch ( KMessageBox::warningYesNoCancel( this, i18n("Save changes to document foo?")) ) { case KMessageBox::Yes : // save document here. If saving fails, return FALSE; return TRUE; case KMessageBox::No : return TRUE; default: // cancel return FALSE; </pre> @see queryExit() @see KApplication::sessionSaving() */ virtual bool queryClose(); /** * Save your instance-specific properties. The function is * invoked when the session manager requests your application * to save its state. * * You @em must @em not change the group of the @p kconfig object, since * KMainWindow uses one group for each window. Please * reimplement these function in childclasses. * * Note: No user interaction is allowed * in this function! * */ virtual void saveProperties( KConfig* ) {} /** * Read your instance-specific properties. */ virtual void readProperties( KConfig* ) {} /** * Save your application-wide properties. The function is * invoked when the session manager requests your application * to save its state. * * This function is similar to @ref saveProperties() but is only called for * the very first main window, regardless how many main window are open. * Override it if you need to save other data about your documents on * session end. sessionConfig is a config to which that data should be * saved. Normally, you don't need this function. But if you want to save * data about your documents that are not in opened windows you might need * it. * * Default implementation does nothing. */ virtual void saveGlobalProperties( KConfig* sessionConfig ); /** * The counterpart of @ref saveGlobalProperties(). * * Read the application-specific properties in again. */ virtual void readGlobalProperties( KConfig* sessionConfig ); void savePropertiesInternal( KConfig*, int ); bool readPropertiesInternal( KConfig*, int ); /** * For inherited classes */ bool settingsDirty() const; /** * For inherited classes */ QString settingsGroup() const; /** * For inherited classes * Note that the group must be set before calling */ void saveWindowSize( KConfig * config ) const; /** * For inherited classes * Note that the group must be set before calling, and that * a -geometry on the command line has priority. */ void restoreWindowSize( KConfig * config ); /// parse the geometry from the geometry command line argument void parseGeometry(bool parsewidth); protected slots: /** * This slot does nothing. * * It must be reimplemented if you want * to use a custom About Application dialog box. This slot is * connected to the About Application entry in the menu returned * by @ref customHelpMenu. * * Example: * <pre> * * void MyMainLevel::setupInterface() * { * .. * menuBar()->insertItem( i18n("&Help"), customHelpMenu() ); * .. * } * * void MyMainLevel::showAboutApplication() * { * <activate your custom dialog> * } * </pre> */ //US virtual void showAboutApplication(); private slots: /** * Called when the app is shutting down. */ void shuttingDown(); void saveAutoSaveSettings(); private: QToolBar * mQToolBar; //US KMenuBar *internalMenuBar(); QMenuBar *internalMenuBar(); //US KStatusBar *internalStatusBar(); QStatusBar *internalStatusBar(); KMainWindowPrivate *d; void initKMainWindow(const char *name); QPtrList<KToolBar> toolbarList; protected: virtual void virtual_hook( int id, void* data ); }; #endif |