/**************************************************************************** ** ** Implementation of TQTab and TQTabBar classes ** ** Copyright (C) 1992-2008 Trolltech ASA. All rights reserved. ** ** This file is part of the widgets module of the TQt GUI Toolkit. ** ** This file may be used under the terms of the GNU General ** Public License versions 2.0 or 3.0 as published by the Free ** Software Foundation and appearing in the files LICENSE.GPL2 ** and LICENSE.GPL3 included in the packaging of this file. ** Alternatively you may (at your option) use any later version ** of the GNU General Public License if such license has been ** publicly approved by Trolltech ASA (or its successors, if any) ** and the KDE Free TQt Foundation. ** ** Please review the following information to ensure GNU General ** Public Licensing requirements will be met: ** http://trolltech.com/products/qt/licenses/licensing/opensource/. ** If you are unsure which license is appropriate for your use, please ** review the following information: ** http://trolltech.com/products/qt/licenses/licensing/licensingoverview ** or contact the sales department at sales@trolltech.com. ** ** This file may be used under the terms of the Q Public License as ** defined by Trolltech ASA and appearing in the file LICENSE.TQPL ** included in the packaging of this file. Licensees holding valid TQt ** Commercial licenses may use this file in accordance with the TQt ** Commercial License Agreement provided with the Software. ** ** This file is provided "AS IS" with NO WARRANTY OF ANY KIND, ** INCLUDING THE WARRANTIES OF DESIGN, MERCHANTABILITY AND FITNESS FOR ** A PARTICULAR PURPOSE. Trolltech reserves all rights not granted ** herein. ** **********************************************************************/ #include "ntqtabbar.h" #ifndef QT_NO_TABBAR #include "ntqaccel.h" #include "ntqbitmap.h" #include "ntqtoolbutton.h" #include "ntqtooltip.h" #include "ntqapplication.h" #include "ntqstyle.h" #include "ntqpainter.h" #include "ntqiconset.h" #include "ntqcursor.h" #include "../kernel/qinternal_p.h" #if defined(QT_ACCESSIBILITY_SUPPORT) #include "ntqaccessible.h" #endif #ifdef Q_WS_MACX #include #endif /*! \class TQTab ntqtabbar.h \brief The TQTab class provides the structures in a TQTabBar. \ingroup advanced This class is used for custom TQTabBar tab headings. \sa TQTabBar */ /*! Constructs an empty tab. All fields are set to empty. */ TQTab::TQTab() : enabled( TRUE ), id ( 0 ), iconset( 0 ), tb( 0 ) { } /*! Constructs a tab with the text \a text. */ TQTab::TQTab( const TQString &text ) : label( text ), enabled( TRUE ), id( 0 ), iconset( 0 ), tb( 0 ) { } /*! Constructs a tab with an \a icon and the text, \a text. */ TQTab::TQTab( const TQIconSet& icon, const TQString& text ) : label( text ), enabled( TRUE ), id( 0 ), iconset( new TQIconSet(icon) ), tb( 0 ) { } /*! \fn TQString TQTab::text() const Returns the text of the TQTab label. */ /*! \fn TQIconSet TQTab::iconSet() const Return the TQIconSet of the TQTab. */ /*! \fn void TQTab::setRect( const TQRect &rect ) Set the TQTab TQRect to \a rect. */ /*! \fn TQRect TQTab::rect() const Return the TQRect for the TQTab. */ /*! \fn void TQTab::setEnabled( bool enable ) If \a enable is TRUE enable the TQTab, otherwise disable it. */ /*! \fn bool TQTab::isEnabled() const Returns TRUE if the TQTab is enabled; otherwise returns FALSE. */ /*! \fn void TQTab::setIdentifier( int i ) Set the identifier for the TQTab to \a i. Each TQTab's identifier within a TQTabBar must be unique. */ /*! \fn int TQTab::identifier() const Return the TQTab's identifier. */ /*! Destroys the tab and frees up all allocated resources. */ TQTab::~TQTab() { delete iconset; tb = 0; } /*! \class TQTabBar ntqtabbar.h \brief The TQTabBar class provides a tab bar, e.g. for use in tabbed dialogs. \ingroup advanced TQTabBar is straightforward to use; it draws the tabs using one of the predefined \link TQTabBar::Shape shapes\endlink, and emits a signal when a tab is selected. It can be subclassed to tailor the look and feel. TQt also provides a ready-made \l{TQTabWidget} and a \l{TQTabDialog}. The choice of tab shape is a matter of taste, although tab dialogs (for preferences and similar) invariably use \c RoundedAbove; nobody uses \c TriangularAbove. Tab controls in windows other than dialogs almost always use either \c RoundedBelow or \c TriangularBelow. Many spreadsheets and other tab controls in which all the pages are essentially similar use \c TriangularBelow, whereas \c RoundedBelow is used mostly when the pages are different (e.g. a multi-page tool palette). The most important part of TQTabBar's API is the selected() signal. This is emitted whenever the selected page changes (even at startup, when the selected page changes from 'none'). There is also a slot, setCurrentTab(), which can be used to select a page programmatically. TQTabBar creates automatic accelerator keys in the manner of TQButton; e.g. if a tab's label is "\&Graphics", Alt+G becomes an accelerator key for switching to that tab. The following virtual functions may need to be reimplemented: \list \i paint() paints a single tab. paintEvent() calls paint() for each tab so that any overlap will look right. \i addTab() creates a new tab and adds it to the bar. \i selectTab() decides which tab, if any, the user selects with the mouse. \endlist The index of the current tab is returned by currentTab(). The tab with a particular index is returned by tabAt(), the tab with a particular id is returned by tab(). The index of a tab is returned by indexOf(). The current tab can be set by index or tab pointer using one of the setCurrentTab() functions. */ /*! \enum TQTabBar::Shape This enum type lists the built-in shapes supported by TQTabBar: \value RoundedAbove the normal rounded look above the pages \value RoundedBelow the normal rounded look below the pages \value TriangularAbove triangular tabs above the pages (very unusual; included for completeness) \value TriangularBelow triangular tabs similar to those used in the Excel spreadsheet, for example */ class TQTabBarToolTip; struct TQTabPrivate { int id; int focus; #ifndef QT_NO_ACCEL TQAccel * a; #endif TQTab *pressed; TQTabBar::Shape s; TQToolButton* rightB; TQToolButton* leftB; int btnWidth; bool scrolls; TQTabBarToolTip * toolTips; }; #ifndef QT_NO_TOOLTIP /* \internal */ class TQTabBarToolTip : public TQToolTip { public: TQTabBarToolTip( TQWidget * parent ) : TQToolTip( parent ) {} virtual ~TQTabBarToolTip() {} void add( TQTab * tab, const TQString & tip ) { tabTips.replace( tab, tip ); } void remove( TQTab * tab ) { tabTips.erase( tab ); } TQString tipForTab( TQTab * tab ) const { TQMapConstIterator it; it = tabTips.find( tab ); if ( it != tabTips.end() ) return it.data(); else return TQString(); } protected: void maybeTip( const TQPoint & p ) { TQTabBar * tb = (TQTabBar *) parentWidget(); if ( !tb ) return; // check if the scroll buttons in the tab bar are visible - // don't display any tips if the pointer is over one of them TQRect rectL, rectR; rectL.setRect( tb->d->leftB->x(), tb->d->leftB->y(), tb->d->leftB->width(), tb->d->leftB->height() ); rectR.setRect( tb->d->rightB->x(), tb->d->rightB->y(), tb->d->rightB->width(), tb->d->rightB->height() ); if ( tb->d->scrolls && (rectL.contains( p ) || rectR.contains( p )) ) return; #ifndef QT_NO_TOOLTIP // find and show the tool tip for the tab under the point p TQMapIterator it; for ( it = tabTips.begin(); it != tabTips.end(); ++it ) { if ( it.key()->rect().contains( p ) ) tip( it.key()->rect(), it.data() ); } #endif } private: TQMap tabTips; }; #endif /*! \fn void TQTabBar::selected( int id ) TQTabBar emits this signal whenever any tab is selected, whether by the program or by the user. The argument \a id is the id of the tab as returned by addTab(). show() is guaranteed to emit this signal; you can display your page in a slot connected to this signal. */ /*! \fn void TQTabBar::layoutChanged() TQTabBar emits the signal whenever the layout of the tab bar has been recalculated, for example when the contents of a tab change. */ /*! Constructs a new, empty tab bar; the \a parent and \a name arguments are passed on to the TQWidget constructor. */ TQTabBar::TQTabBar( TQWidget * parent, const char *name ) : TQWidget( parent, name, WNoAutoErase | WNoMousePropagation ) { d = new TQTabPrivate; d->pressed = 0; d->id = 0; d->focus = 0; d->toolTips = 0; #ifndef QT_NO_ACCEL d->a = new TQAccel( this, "tab accelerators" ); connect( d->a, SIGNAL(activated(int)), this, SLOT(setCurrentTab(int)) ); connect( d->a, SIGNAL(activatedAmbiguously(int)), this, SLOT(setCurrentTab(int)) ); #endif d->s = RoundedAbove; d->scrolls = FALSE; d->leftB = new TQToolButton( LeftArrow, this, "qt_left_btn" ); connect( d->leftB, SIGNAL( clicked() ), this, SLOT( scrollTabs() ) ); d->leftB->hide(); d->rightB = new TQToolButton( RightArrow, this, "qt_right_btn" ); connect( d->rightB, SIGNAL( clicked() ), this, SLOT( scrollTabs() ) ); d->rightB->hide(); d->btnWidth = style().pixelMetric(TQStyle::PM_TabBarScrollButtonWidth, this); l = new TQPtrList; lstatic = new TQPtrList; lstatic->setAutoDelete( TRUE ); setFocusPolicy( TabFocus ); setSizePolicy( TQSizePolicy( TQSizePolicy::Preferred, TQSizePolicy::Fixed ) ); } /*! Destroys the tab control, freeing memory used. */ TQTabBar::~TQTabBar() { #ifndef QT_NO_TOOLTIP if ( d->toolTips ) delete d->toolTips; #endif delete d; d = 0; delete l; l = 0; delete lstatic; lstatic = 0; } /*! Adds the tab, \a newTab, to the tab control. Sets \a newTab's id to a new id and places the tab just to the right of the existing tabs. If the tab's label contains an ampersand, the letter following the ampersand is used as an accelerator for the tab, e.g. if the label is "Bro\&wse" then Alt+W becomes an accelerator which will move the focus to this tab. Returns the id. \sa insertTab() */ int TQTabBar::addTab( TQTab * newTab ) { return insertTab( newTab ); } /*! Inserts the tab, \a newTab, into the tab control. If \a index is not specified, the tab is simply appended. Otherwise it's inserted at the specified position. Sets \a newTab's id to a new id. If the tab's label contains an ampersand, the letter following the ampersand is used as an accelerator for the tab, e.g. if the label is "Bro\&wse" then Alt+W becomes an accelerator which will move the focus to this tab. Returns the id. \sa addTab() */ int TQTabBar::insertTab( TQTab * newTab, int index ) { newTab->id = d->id++; if ( !tab( d->focus ) ) d->focus = newTab->id; newTab->setTabBar( this ); l->insert( 0, newTab ); if ( index < 0 || index > int(lstatic->count()) ) lstatic->append( newTab ); else lstatic->insert( index, newTab ); layoutTabs(); updateArrowButtons(); makeVisible( tab( currentTab() ) ); #ifndef QT_NO_ACCEL int p = TQAccel::shortcutKey( newTab->label ); if ( p ) d->a->insertItem( p, newTab->id ); #endif return newTab->id; } /*! Removes tab \a t from the tab control, and deletes the tab. */ void TQTabBar::removeTab( TQTab * t ) { //#### accelerator labels?? #ifndef QT_NO_TOOLTIP if ( d->toolTips ) d->toolTips->remove( t ); #endif #ifndef QT_NO_ACCEL if ( d->a ) d->a->removeItem( t->id ); #endif bool updateFocus = t->id == d->focus; // remove the TabBar Reference if(d->pressed == t) d->pressed = 0; t->setTabBar( 0 ); l->remove( t ); lstatic->remove( t ); layoutTabs(); updateArrowButtons(); makeVisible( tab( currentTab() ) ); if ( updateFocus ) d->focus = currentTab(); update(); } /*! Enables tab \a id if \a enabled is TRUE or disables it if \a enabled is FALSE. If \a id is currently selected, setTabEnabled(FALSE) makes another tab selected. setTabEnabled() updates the display if this causes a change in \a id's status. \sa update(), isTabEnabled() */ void TQTabBar::setTabEnabled( int id, bool enabled ) { TQTab * t; for( t = l->first(); t; t = l->next() ) { if ( t && t->id == id ) { if ( t->enabled != enabled ) { t->enabled = enabled; #ifndef QT_NO_ACCEL d->a->setItemEnabled( t->id, enabled ); #endif TQRect r( t->r ); if ( !enabled && id == currentTab() ) { TQPoint p1( t->r.center() ), p2; int m = 2147483647; int distance; // look for the closest enabled tab - measure the // distance between the centers of the two tabs for( TQTab * n = l->first(); n; n = l->next() ) { if ( n->enabled ) { p2 = n->r.center(); distance = (p2.x() - p1.x())*(p2.x() - p1.x()) + (p2.y() - p1.y())*(p2.y() - p1.y()); if ( distance < m ) { t = n; m = distance; } } } if ( t->enabled ) { r = r.unite( t->r ); l->append( l->take( l->findRef( t ) ) ); emit selected( t->id ); } } repaint( r, FALSE ); } return; } } } /*! Returns TRUE if the tab with id \a id exists and is enabled; otherwise returns FALSE. \sa setTabEnabled() */ bool TQTabBar::isTabEnabled( int id ) const { TQTab * t = tab( id ); if ( t ) return t->enabled; return FALSE; } /*! \reimp */ TQSize TQTabBar::sizeHint() const { TQSize sz(0, 0); if ( TQTab * t = l->first() ) { TQRect r( t->r ); while ( (t = l->next()) != 0 ) r = r.unite( t->r ); sz = r.size(); } return sz.expandedTo(TQApplication::globalStrut()); } /*! \reimp */ TQSize TQTabBar::minimumSizeHint() const { if(style().styleHint( TQStyle::SH_TabBar_PreferNoArrows, this )) return sizeHint(); return TQSize( d->rightB->sizeHint().width() * 2 + 75, sizeHint().height() ); } /*! Paints the tab \a t using painter \a p. If and only if \a selected is TRUE, \a t is drawn currently selected. This virtual function may be reimplemented to change the look of TQTabBar. If you decide to reimplement it, you may also need to reimplement sizeHint(). */ void TQTabBar::paint( TQPainter * p, TQTab * t, bool selected ) const { TQStyle::SFlags flags = TQStyle::Style_Default; if (isEnabled() && t->isEnabled()) flags |= TQStyle::Style_Enabled; if (topLevelWidget() == tqApp->activeWindow()) flags |= TQStyle::Style_Active; if ( selected ) flags |= TQStyle::Style_Selected; else if(t == d->pressed) flags |= TQStyle::Style_Sunken; //selection flags if(t->rect().contains(mapFromGlobal(TQCursor::pos()))) flags |= TQStyle::Style_MouseOver; style().drawControl( TQStyle::CE_TabBarTab, p, this, t->rect(), colorGroup(), flags, TQStyleOption(t) ); TQRect r( t->r ); p->setFont( font() ); int iw = 0; int ih = 0; if ( t->iconset != 0 ) { iw = t->iconset->pixmap( TQIconSet::Small, TQIconSet::Normal ).width() + 4; ih = t->iconset->pixmap( TQIconSet::Small, TQIconSet::Normal ).height(); } TQFontMetrics fm = p->fontMetrics(); int fw = fm.width( t->label ); fw -= t->label.contains('&') * fm.width('&'); fw += t->label.contains("&&") * fm.width('&'); int w = iw + fw + 4; int h = TQMAX(fm.height() + 4, ih ); int offset = 3; #ifdef Q_WS_MAC if (::qt_cast(&style())) offset = 0; #endif paintLabel( p, TQRect( r.left() + (r.width()-w)/2 - offset, r.top() + (r.height()-h)/2, w, h ), t, t->id == keyboardFocusTab() ); } /*! Paints the label of tab \a t centered in rectangle \a br using painter \a p. A focus indication is drawn if \a has_focus is TRUE. */ void TQTabBar::paintLabel( TQPainter* p, const TQRect& br, TQTab* t, bool has_focus ) const { TQRect r = br; bool selected = currentTab() == t->id; if ( t->iconset) { // the tab has an iconset, draw it in the right mode TQIconSet::Mode mode = (t->enabled && isEnabled()) ? TQIconSet::Normal : TQIconSet::Disabled; if ( mode == TQIconSet::Normal && has_focus ) mode = TQIconSet::Active; TQPixmap pixmap = t->iconset->pixmap( TQIconSet::Small, mode ); int pixw = pixmap.width(); int pixh = pixmap.height(); r.setLeft( r.left() + pixw + 4 ); r.setRight( r.right() + 2 ); int xoff = 0, yoff = 0; if(!selected) { xoff = style().pixelMetric(TQStyle::PM_TabBarTabShiftHorizontal, this); yoff = style().pixelMetric(TQStyle::PM_TabBarTabShiftVertical, this); } p->drawPixmap( br.left() + 2 + xoff, br.center().y()-pixh/2 + yoff, pixmap ); } TQStyle::SFlags flags = TQStyle::Style_Default; if (isEnabled() && t->isEnabled()) flags |= TQStyle::Style_Enabled; if (has_focus) flags |= TQStyle::Style_HasFocus; if ( selected ) flags |= TQStyle::Style_Selected; else if(t == d->pressed) flags |= TQStyle::Style_Sunken; if(t->rect().contains(mapFromGlobal(TQCursor::pos()))) flags |= TQStyle::Style_MouseOver; style().drawControl( TQStyle::CE_TabBarLabel, p, this, r, t->isEnabled() ? colorGroup(): palette().disabled(), flags, TQStyleOption(t) ); } /*! Repaints the tab row. All the painting is done by paint(); paintEvent() only decides which tabs need painting and in what order. The event is passed in \a e. \sa paint() */ void TQTabBar::paintEvent( TQPaintEvent * e ) { if ( e->rect().isNull() ) return; TQSharedDoubleBuffer buffer( this, e->rect() ); TQTab * t; t = l->first(); do { TQTab * n = l->next(); if ( t && t->r.intersects( e->rect() ) ) paint( buffer.painter(), t, n == 0 ); t = n; } while ( t != 0 ); if ( d->scrolls && lstatic->first()->r.left() < 0 ) { TQPointArray a; int h = height(); if ( d->s == RoundedAbove ) { buffer.painter()->fillRect( 0, 3, 4, h-5, colorGroup().brush( TQColorGroup::Background ) ); a.setPoints( 5, 0,2, 3,h/4, 0,h/2, 3,3*h/4, 0,h ); } else if ( d->s == RoundedBelow ) { buffer.painter()->fillRect( 0, 2, 4, h-5, colorGroup().brush( TQColorGroup::Background ) ); a.setPoints( 5, 0,0, 3,h/4, 0,h/2, 3,3*h/4, 0,h-3 ); } if ( !a.isEmpty() ) { buffer.painter()->setPen( colorGroup().light() ); buffer.painter()->drawPolyline( a ); a.translate( 1, 0 ); buffer.painter()->setPen( colorGroup().midlight() ); buffer.painter()->drawPolyline( a ); } } } /*! This virtual function is called by the mouse event handlers to determine which tab is pressed. The default implementation returns a pointer to the tab whose bounding rectangle contains \a p, if exactly one tab's bounding rectangle contains \a p. Otherwise it returns 0. \sa mousePressEvent() mouseReleaseEvent() */ TQTab * TQTabBar::selectTab( const TQPoint & p ) const { TQTab * selected = 0; bool moreThanOne = FALSE; TQPtrListIterator i( *l ); while( i.current() ) { TQTab * t = i.current(); ++i; if ( t && t->r.contains( p ) ) { if ( selected ) moreThanOne = TRUE; else selected = t; } } return moreThanOne ? 0 : selected; } /*! \reimp */ void TQTabBar::mousePressEvent( TQMouseEvent * e ) { if ( e->button() != LeftButton ) { e->ignore(); return; } TQTab *t = selectTab( e->pos() ); if ( t && t->enabled ) { d->pressed = t; if(e->type() == style().styleHint( TQStyle::SH_TabBar_SelectMouseType, this )) setCurrentTab( t ); else repaint(t->rect(), FALSE); } } /*! \reimp */ void TQTabBar::mouseMoveEvent ( TQMouseEvent *e ) { if ( e->state() != LeftButton ) { e->ignore(); return; } if(style().styleHint( TQStyle::SH_TabBar_SelectMouseType, this ) == TQEvent::MouseButtonRelease) { TQTab *t = selectTab( e->pos() ); if(t != d->pressed) { if(d->pressed) repaint(d->pressed->rect(), FALSE); if((d->pressed = t)) repaint(t->rect(), FALSE); } } } /*! \reimp */ void TQTabBar::mouseReleaseEvent( TQMouseEvent *e ) { if ( e->button() != LeftButton ) e->ignore(); if(d->pressed) { TQTab *t = selectTab( e->pos() ) == d->pressed ? d->pressed : 0; d->pressed = 0; if(t && t->enabled && e->type() == style().styleHint( TQStyle::SH_TabBar_SelectMouseType, this )) setCurrentTab( t ); } } /*! \reimp */ void TQTabBar::show() { // ensures that one tab is selected. TQTab * t = l->last(); TQWidget::show(); if ( t ) emit selected( t->id ); } /*! \property TQTabBar::currentTab \brief the id of the tab bar's visible tab If no tab page is currently visible, the property's value is -1. Even if the property's value is not -1, you cannot assume that the user can see the relevant page, or that the tab is enabled. When you need to display something the value of this property represents the best page to display. When this property is set to \e id, it will raise the tab with the id \e id and emit the selected() signal. \sa selected() isTabEnabled() */ int TQTabBar::currentTab() const { const TQTab * t = l->getLast(); return t ? t->id : -1; } void TQTabBar::setCurrentTab( int id ) { setCurrentTab( tab( id ) ); } /*! \overload Raises \a tab and emits the selected() signal unless the tab was already current. \sa currentTab() selected() */ void TQTabBar::setCurrentTab( TQTab * tab ) { if ( tab && l ) { if ( l->last() == tab ) return; TQRect r = l->last()->r; if ( l->findRef( tab ) >= 0 ) l->append( l->take() ); d->focus = tab->id; setMicroFocusHint( tab->rect().x(), tab->rect().y(), tab->rect().width(), tab->rect().height(), FALSE ); if ( tab->r.intersects( r ) ) { repaint( r.unite( tab->r ), FALSE ); } else { #ifdef Q_WS_MACX update(); #else repaint( r, FALSE ); repaint( tab->r, FALSE ); #endif } makeVisible( tab ); emit selected( tab->id ); #ifdef QT_ACCESSIBILITY_SUPPORT TQAccessible::updateAccessibility( this, indexOf(tab->id)+1, TQAccessible::Focus ); #endif } } /*! \property TQTabBar::keyboardFocusTab \brief the id of the tab that has the keyboard focus This property contains the id of the tab that has the keyboard focus or -1 if the tab bar does not have the keyboard focus. */ int TQTabBar::keyboardFocusTab() const { return hasFocus() ? d->focus : -1; } /*! \reimp */ void TQTabBar::keyPressEvent( TQKeyEvent * e ) { // The right and left arrow keys move a selector, the spacebar // makes the tab with the selector active. All other keys are // ignored. int old = d->focus; bool reverse = TQApplication::reverseLayout(); if ( ( !reverse && e->key() == Key_Left ) || ( reverse && e->key() == Key_Right ) ) { // left - skip past any disabled ones if ( d->focus >= 0 ) { TQTab * t = lstatic->last(); while ( t && t->id != d->focus ) t = lstatic->prev(); do { t = lstatic->prev(); } while ( t && !t->enabled); if (t) d->focus = t->id; } if ( d->focus < 0 ) d->focus = old; } else if ( ( !reverse && e->key() == Key_Right ) || ( reverse && e->key() == Key_Left ) ) { TQTab * t = lstatic->first(); while ( t && t->id != d->focus ) t = lstatic->next(); do { t = lstatic->next(); } while ( t && !t->enabled); if (t) d->focus = t->id; if ( d->focus >= d->id ) d->focus = old; } else { // other keys - ignore e->ignore(); return; } // if the focus moved, repaint and signal if ( old != d->focus ) { setCurrentTab( d->focus ); } } /*! Returns the tab with id \a id or 0 if there is no such tab. \sa count() */ TQTab * TQTabBar::tab( int id ) const { TQTab * t; for( t = l->first(); t; t = l->next() ) if ( t && t->id == id ) return t; return 0; } /*! Returns the tab at position \a index. \sa indexOf() */ TQTab * TQTabBar::tabAt( int index ) const { TQTab * t; t = lstatic->at( index ); return t; } /*! Returns the position index of the tab with id \a id or -1 if no tab has this \a id. \sa tabAt() */ int TQTabBar::indexOf( int id ) const { TQTab * t; int idx = 0; for( t = lstatic->first(); t; t = lstatic->next() ) { if ( t && t->id == id ) return idx; idx++; } return -1; } /*! \property TQTabBar::count \brief the number of tabs in the tab bar \sa tab() */ int TQTabBar::count() const { return l->count(); } /*! The list of TQTab objects in the tab bar. This list is unlikely to be in the order that the TQTab elements appear visually. One way of iterating over the tabs is like this: \code for ( uint i = 0; i < myTabBar->count(); ++i ) { nextTab = myTabBar->tabAt( i ); // do something with nextTab } \endcode */ TQPtrList * TQTabBar::tabList() { return l; } /*! \property TQTabBar::shape \brief the shape of the tabs in the tab bar The value of this property is one of the following: \c RoundedAbove (default), \c RoundedBelow, \c TriangularAbove or \c TriangularBelow. \sa Shape */ TQTabBar::Shape TQTabBar::shape() const { return d ? d->s : RoundedAbove; } void TQTabBar::setShape( Shape s ) { if ( !d || d->s == s ) return; //######### must recalculate heights d->s = s; update(); } /*! Lays out all existing tabs according to their label and their iconset. */ void TQTabBar::layoutTabs() { if ( lstatic->isEmpty() ) return; TQSize oldSh(0, 0); if ( TQTab * t = l->first() ) { TQRect r( t->r ); while ( (t = l->next()) != 0 ) r = r.unite( t->r ); oldSh = r.size(); } d->btnWidth = style().pixelMetric(TQStyle::PM_TabBarScrollButtonWidth, this); int hframe, vframe, overlap; hframe = style().pixelMetric( TQStyle::PM_TabBarTabHSpace, this ); vframe = style().pixelMetric( TQStyle::PM_TabBarTabVSpace, this ); overlap = style().pixelMetric( TQStyle::PM_TabBarTabOverlap, this ); TQFontMetrics fm = fontMetrics(); TQRect r; TQTab *t; bool reverse = TQApplication::reverseLayout(); if ( reverse ) t = lstatic->last(); else t = lstatic->first(); int x = 0; int offset = (t && d->scrolls) ? t->r.x() : 0; while ( t ) { int lw = fm.width( t->label ); lw -= t->label.contains('&') * fm.width('&'); lw += t->label.contains("&&") * fm.width('&'); int iw = 0; int ih = 0; if ( t->iconset != 0 ) { iw = t->iconset->pixmap( TQIconSet::Small, TQIconSet::Normal ).width() + 4; ih = t->iconset->pixmap( TQIconSet::Small, TQIconSet::Normal ).height(); } int h = TQMAX( fm.height(), ih ); h = TQMAX( h, TQApplication::globalStrut().height() ); h += vframe; t->r = TQRect(TQPoint(x, 0), style().sizeFromContents(TQStyle::CT_TabBarTab, this, TQSize( TQMAX( lw + hframe + iw, TQApplication::globalStrut().width() ), h ), TQStyleOption(t) )); x += t->r.width() - overlap; r = r.unite( t->r ); if ( reverse ) t = lstatic->prev(); else t = lstatic->next(); } x += overlap; int w = (d->scrolls) ? d->leftB->x() : width(); if (x + offset < w) offset = w - x; if (offset > 0) offset = 0; for ( t = lstatic->first(); t; t = lstatic->next() ) { t->r.moveBy( offset, 0 ); t->r.setHeight( r.height() ); } if ( sizeHint() != oldSh ) updateGeometry(); emit layoutChanged(); } /*! \reimp */ bool TQTabBar::event( TQEvent *e ) { if ( e->type() == TQEvent::LanguageChange ) { layoutTabs(); updateArrowButtons(); makeVisible( tab( currentTab() )); } return TQWidget::event( e ); } /*! \reimp */ void TQTabBar::styleChange( TQStyle& old ) { layoutTabs(); updateArrowButtons(); TQWidget::styleChange( old ); } /*! \reimp */ void TQTabBar::focusInEvent( TQFocusEvent * ) { TQTab *t = tab( d->focus ); if ( t ) repaint( t->r, FALSE ); } /*! \reimp */ void TQTabBar::focusOutEvent( TQFocusEvent * ) { TQTab *t = tab( d->focus ); if ( t ) repaint( t->r, FALSE ); } /*! \reimp */ void TQTabBar::resizeEvent( TQResizeEvent * ) { const int arrowWidth = TQMAX( d->btnWidth, TQApplication::globalStrut().width() );; d->rightB->setGeometry( width() - arrowWidth, 0, arrowWidth, height() ); d->leftB->setGeometry( width() - 2*arrowWidth, 0, arrowWidth, height() ); layoutTabs(); updateArrowButtons(); makeVisible( tab( currentTab() )); } void TQTabBar::scrollTabs() { TQTab* left = 0; TQTab* right = 0; for ( TQTab* t = lstatic->first(); t; t = lstatic->next() ) { if ( t->r.left() < 0 && t->r.right() > 0 ) left = t; if ( t->r.left() < d->leftB->x()+2 ) right = t; } if ( sender() == d->leftB ) makeVisible( left ); else if ( sender() == d->rightB ) makeVisible( right ); } void TQTabBar::makeVisible( TQTab* tab ) { bool tooFarLeft = ( tab && tab->r.left() < 0 ); bool tooFarRight = ( tab && tab->r.right() >= d->leftB->x() ); if ( !d->scrolls || ( !tooFarLeft && ! tooFarRight ) ) return; bool bs = signalsBlocked(); blockSignals(TRUE); layoutTabs(); blockSignals(bs); int offset = 0; if ( tooFarLeft ) { offset = tab->r.left(); if (tab != lstatic->first()) offset -= 8; } else if ( tooFarRight ) { offset = tab->r.right() - d->leftB->x() + 1; } for ( TQTab* t = lstatic->first(); t; t = lstatic->next() ) t->r.moveBy( -offset, 0 ); d->leftB->setEnabled( lstatic->first()->r.left() < 0); d->rightB->setEnabled( lstatic->last()->r.right() >= d->leftB->x() ); // Make sure disabled buttons pop up again if ( !d->leftB->isEnabled() && d->leftB->isDown() ) d->leftB->setDown( FALSE ); if ( !d->rightB->isEnabled() && d->rightB->isDown() ) d->rightB->setDown( FALSE ); update(); emit layoutChanged(); } void TQTabBar::updateArrowButtons() { if (lstatic->isEmpty()) { d->scrolls = FALSE; } else { d->scrolls = (lstatic->last()->r.right() - lstatic->first()->r.left() > width()); } if ( d->scrolls ) { const int arrowWidth = TQMAX( d->btnWidth, TQApplication::globalStrut().width() ); if ( TQApplication::reverseLayout() ) { d->rightB->setGeometry( arrowWidth, 0, arrowWidth, height() ); d->leftB->setGeometry( 0, 0, arrowWidth, height() ); } else { d->rightB->setGeometry( width() - arrowWidth, 0, arrowWidth, height() ); d->leftB->setGeometry( width() - 2*arrowWidth, 0, arrowWidth, height() ); } d->leftB->setEnabled( lstatic->first()->r.left() < 0); d->rightB->setEnabled( lstatic->last()->r.right() >= d->leftB->x() ); d->leftB->show(); d->rightB->show(); } else { d->leftB->hide(); d->rightB->hide(); layoutTabs(); } } /*! Removes the tool tip for the tab at index position \a index. */ void TQTabBar::removeToolTip( int index ) { #ifndef QT_NO_TOOLTIP TQTab * tab = tabAt( index ); if ( !tab || !d->toolTips ) return; d->toolTips->remove( tab ); #endif } /*! Sets the tool tip for the tab at index position \a index to \a tip. */ void TQTabBar::setToolTip( int index, const TQString & tip ) { #ifndef QT_NO_TOOLTIP TQTab * tab = tabAt( index ); if ( !tab ) return; if ( d->toolTips == 0 ) d->toolTips = new TQTabBarToolTip( this ); d->toolTips->add( tab, tip ); #endif } /*! Returns the tool tip for the tab at index position \a index. */ TQString TQTabBar::toolTip( int index ) const { #ifndef QT_NO_TOOLTIP if ( d->toolTips ) return d->toolTips->tipForTab( tabAt( index ) ); else #endif return TQString(); } /*! Sets the text of the tab to \a text. */ void TQTab::setText( const TQString& text ) { label = text; if ( tb ) { #ifndef QT_NO_ACCEL tb->d->a->removeItem( id ); int p = TQAccel::shortcutKey( text ); if ( p ) tb->d->a->insertItem( p, id ); #endif tb->layoutTabs(); tb->repaint(FALSE); #if defined(QT_ACCESSIBILITY_SUPPORT) TQAccessible::updateAccessibility( tb, tb->indexOf(id)+1, TQAccessible::NameChanged ); #endif } } /*! Sets the tab's iconset to \a icon */ void TQTab::setIconSet( const TQIconSet &icon ) { iconset = new TQIconSet( icon ); } // this allows us to handle accelerators that are in a TQTabBar. void TQTab::setTabBar( TQTabBar *newTb ) { tb = newTb; } /*! \internal */ void TQTabBar::fontChange( const TQFont & oldFont ) { layoutTabs(); TQWidget::fontChange( oldFont ); } #endif