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tdelibs/tdeui/ktabwidget.cpp

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/* This file is part of the KDE libraries
Copyright (C) 2003 Stephan Binner <binner@kde.org>
Copyright (C) 2003 Zack Rusin <zack@kde.org>
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Library General Public License for more details.
You should have received a copy of the GNU Library General Public License
along with this library; see the file COPYING.LIB. If not, write to
the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
Boston, MA 02110-1301, USA.
*/
#include <tqapplication.h>
#include <tqstyle.h>
#include <tqstylesheet.h>
#include <tdeconfig.h>
#include <kiconloader.h>
#include <kstringhandler.h>
#include "ktabwidget.h"
#include "ktabbar.h"
class KTabWidgetPrivate {
public:
bool m_automaticResizeTabs;
int m_maxLength;
int m_minLength;
unsigned int m_CurrentMaxLength;
bool m_mouseWheelScroll;
// Holds the full names of the tab, otherwise all we know about is the shortened name
TQStringList m_tabNames;
KTabWidgetPrivate() : m_automaticResizeTabs(false), m_mouseWheelScroll(true)
{
TDEConfigGroupSaver groupsaver(TDEGlobal::config(), "General");
m_maxLength = TDEGlobal::config()->readNumEntry("MaximumTabLength", 30);
m_minLength = TDEGlobal::config()->readNumEntry("MinimumTabLength", 3);
m_CurrentMaxLength = m_minLength;
}
};
KTabWidget::KTabWidget( TQWidget *parent, const char *name, WFlags f )
: TQTabWidget( parent, name, f )
{
d = new KTabWidgetPrivate;
setTabBar( new KTabBar(this, "tabbar") );
setAcceptDrops( true );
setHoverCloseButtonDelayed(false);
connect(tabBar(), TQT_SIGNAL(contextMenu( int, const TQPoint & )), TQT_SLOT(contextMenu( int, const TQPoint & )));
connect(tabBar(), TQT_SIGNAL(mouseDoubleClick( int )), TQT_SLOT(mouseDoubleClick( int )));
connect(tabBar(), TQT_SIGNAL(mouseMiddleClick( int )), TQT_SLOT(mouseMiddleClick( int )));
connect(tabBar(), TQT_SIGNAL(initiateDrag( int )), TQT_SLOT(initiateDrag( int )));
connect(tabBar(), TQT_SIGNAL(testCanDecode(const TQDragMoveEvent *, bool & )), TQT_SIGNAL(testCanDecode(const TQDragMoveEvent *, bool & )));
connect(tabBar(), TQT_SIGNAL(receivedDropEvent( int, TQDropEvent * )), TQT_SLOT(receivedDropEvent( int, TQDropEvent * )));
connect(tabBar(), TQT_SIGNAL(moveTab( int, int )), TQT_SLOT(moveTab( int, int )));
connect(tabBar(), TQT_SIGNAL(closeRequest( int )), TQT_SLOT(closeRequest( int )));
#ifndef TQT_NO_WHEELEVENT
connect(tabBar(), TQT_SIGNAL(wheelDelta( int )), TQT_SLOT(wheelDelta( int )));
#endif
}
KTabWidget::~KTabWidget()
{
delete d;
}
void KTabWidget::insertTab( TQWidget *child, const TQString &label, int index )
{
TQTabWidget::insertTab( child, label, index );
}
void KTabWidget::insertTab( TQWidget *child, const TQIconSet& iconset, const TQString &label, int index )
{
TQTabWidget::insertTab( child, iconset, label, index );
}
void KTabWidget::insertTab( TQWidget *child, TQTab *tab, int index )
{
TQTabWidget::insertTab( child, tab, index);
if ( d->m_automaticResizeTabs ) {
if ( index < 0 || index >= count() ) {
d->m_tabNames.append( tab->text() );
resizeTabs( d->m_tabNames.count()-1 );
}
else {
d->m_tabNames.insert( d->m_tabNames.at( index ), tab->text() );
resizeTabs( index );
}
}
}
void KTabWidget::setTabBarHidden( bool hide )
{
TQWidget *rightcorner = this->cornerWidget( TopRight );
TQWidget *leftcorner = this->cornerWidget( TopLeft );
if ( hide ) {
if ( leftcorner ) leftcorner->hide();
if ( rightcorner ) rightcorner->hide();
tabBar()->hide();
} else {
tabBar()->show();
if ( leftcorner ) leftcorner->show();
if ( rightcorner ) rightcorner->show();
}
}
bool KTabWidget::isTabBarHidden() const
{
return !( tabBar()->isVisible() );
}
void KTabWidget::setMouseWheelScroll(bool mouseWheelScroll)
{
d->m_mouseWheelScroll = mouseWheelScroll;
}
void KTabWidget::setTabColor( TQWidget *w, const TQColor& color )
{
TQTab *t = tabBar()->tabAt( indexOf( w ) );
if (t) {
static_cast<KTabBar*>(tabBar())->setTabColor( t->identifier(), color );
}
}
void KTabWidget::resetTabColor( TQWidget *w )
{
TQTab *t = tabBar()->tabAt( indexOf( w ) );
if (t) {
static_cast<KTabBar*>(tabBar())->resetTabColor( t->identifier() );
}
}
TQColor KTabWidget::tabColor( TQWidget *w ) const
{
TQTab *t = tabBar()->tabAt( indexOf( w ) );
if (t) {
return static_cast<KTabBar*>(tabBar())->tabColor( t->identifier() );
} else {
return TQColor();
}
}
void KTabWidget::setTabReorderingEnabled( bool on)
{
static_cast<KTabBar*>(tabBar())->setTabReorderingEnabled( on );
}
bool KTabWidget::isTabReorderingEnabled() const
{
return static_cast<KTabBar*>(tabBar())->isTabReorderingEnabled();
}
void KTabWidget::setTabCloseActivatePrevious( bool previous)
{
static_cast<KTabBar*>(tabBar())->setTabCloseActivatePrevious( previous );
}
bool KTabWidget::tabCloseActivatePrevious() const
{
return static_cast<KTabBar*>(tabBar())->tabCloseActivatePrevious();
}
unsigned int KTabWidget::tabBarWidthForMaxChars( uint maxLength )
{
int hframe, overlap;
hframe = tabBar()->style().pixelMetric( TQStyle::PM_TabBarTabHSpace, tabBar() );
overlap = tabBar()->style().pixelMetric( TQStyle::PM_TabBarTabOverlap, tabBar() );
TQFontMetrics fm = tabBar()->fontMetrics();
int x = 0;
for( int i=0; i < count(); ++i ) {
TQString newTitle = d->m_tabNames[ i ];
newTitle = KStringHandler::rsqueeze( newTitle, maxLength ).leftJustify( d->m_minLength, ' ' );
TQTab* tab = tabBar()->tabAt( i );
int lw = fm.width( newTitle );
int iw = 0;
if ( tab->iconSet() )
iw = tab->iconSet()->pixmap( TQIconSet::Small, TQIconSet::Normal ).width() + 4;
x += ( tabBar()->style().tqsizeFromContents( TQStyle::CT_TabBarTab, this,
TQSize( TQMAX( lw + hframe + iw, TQApplication::globalStrut().width() ), 0 ),
TQStyleOption( tab ) ) ).width();
}
return x;
}
void KTabWidget::changeTab( TQWidget *w, const TQString &label )
{
TQTabWidget::changeTab( w, label );
if ( d->m_automaticResizeTabs ) {
int index = indexOf( w );
if ( index != -1 ) {
d->m_tabNames[ index ] = label;
resizeTabs( index );
}
}
}
void KTabWidget::changeTab( TQWidget *w, const TQIconSet &iconset, const TQString &label )
{
TQTabWidget::changeTab( w, iconset, label );
if ( d->m_automaticResizeTabs ) {
int index = indexOf( w );
if ( index != -1 ) {
d->m_tabNames[ index ] = label;
resizeTabs( index );
}
}
}
TQString KTabWidget::label( int index ) const
{
if ( d->m_automaticResizeTabs ) {
if ( index >= 0 && index < count() )
return d->m_tabNames[ index ];
else
return TQString::null;
}
else
return TQTabWidget::label( index );
}
TQString KTabWidget::tabLabel( TQWidget * w ) const
{
if ( d->m_automaticResizeTabs ) {
int index = indexOf( w );
if ( index == -1 )
return TQString::null;
else
return d->m_tabNames[ index ];
}
else
return TQTabWidget::tabLabel( w );
}
void KTabWidget::setTabLabel( TQWidget *w, const TQString &l )
{
TQTabWidget::setTabLabel( w, l );
if ( d->m_automaticResizeTabs ) {
int index = indexOf( w );
if ( index != -1 ) {
d->m_tabNames[ index ] = l;
resizeTabs( index );
}
}
}
void KTabWidget::resizeTabs( int changeTabIndex )
{
uint newMaxLength;
if ( d->m_automaticResizeTabs ) {
// Calculate new max length
newMaxLength=d->m_maxLength;
uint lcw=0, rcw=0;
int tabBarHeight = tabBar()->sizeHint().height();
if ( cornerWidget( TopLeft ) && cornerWidget( TopLeft )->isVisible() )
lcw = TQMAX( cornerWidget( TopLeft )->width(), tabBarHeight );
if ( cornerWidget( TopRight ) && cornerWidget( TopRight )->isVisible() )
rcw = TQMAX( cornerWidget( TopRight )->width(), tabBarHeight );
uint maxTabBarWidth = width() - lcw - rcw;
for ( ; newMaxLength > (uint)d->m_minLength; newMaxLength-- ) {
if ( tabBarWidthForMaxChars( newMaxLength ) < maxTabBarWidth )
break;
}
}
else
newMaxLength = 4711;
// Update hinted or all tabs
if ( d->m_CurrentMaxLength != newMaxLength ) {
d->m_CurrentMaxLength = newMaxLength;
for( int i = 0; i < count(); ++i )
updateTab( i );
}
else if ( changeTabIndex != -1 )
updateTab( changeTabIndex );
}
void KTabWidget::updateTab( int index )
{
TQString title = d->m_automaticResizeTabs ? d->m_tabNames[ index ] : TQTabWidget::label( index );
removeTabToolTip( page( index ) );
if ( title.length() > d->m_CurrentMaxLength ) {
if ( TQStyleSheet::mightBeRichText( title ) )
setTabToolTip( page( index ), TQStyleSheet::escape(title) );
else
setTabToolTip( page( index ), title );
}
title = KStringHandler::rsqueeze( title, d->m_CurrentMaxLength ).leftJustify( d->m_minLength, ' ' );
title.replace( '&', "&&" );
if ( TQTabWidget::label( index ) != title )
TQTabWidget::setTabLabel( page( index ), title );
}
void KTabWidget::dragMoveEvent( TQDragMoveEvent *e )
{
if ( isEmptyTabbarSpace( e->pos() ) ) {
bool accept = false;
// The receivers of the testCanDecode() signal has to adjust
// 'accept' accordingly.
emit testCanDecode( e, accept);
e->accept( accept );
return;
}
e->accept( false );
TQTabWidget::dragMoveEvent( e );
}
void KTabWidget::dropEvent( TQDropEvent *e )
{
if ( isEmptyTabbarSpace( e->pos() ) ) {
emit ( receivedDropEvent( e ) );
return;
}
TQTabWidget::dropEvent( e );
}
#ifndef TQT_NO_WHEELEVENT
void KTabWidget::wheelEvent( TQWheelEvent *e )
{
if ( e->orientation() == TQt::Horizontal )
return;
if ( isEmptyTabbarSpace( e->pos() ) )
wheelDelta( e->delta() );
else
e->ignore();
}
void KTabWidget::wheelDelta(int delta)
{
if (count()<2 || !d->m_mouseWheelScroll)
return;
int page = currentPageIndex();
if (delta<0)
page = (page + 1) % count();
else
{
page--;
if (page<0)
page = count() - 1;
}
setCurrentPage(page);
}
#endif
void KTabWidget::mouseDoubleClickEvent( TQMouseEvent *e )
{
if( e->button() != TQt::LeftButton )
return;
if ( isEmptyTabbarSpace( e->pos() ) ) {
emit( mouseDoubleClick() );
return;
}
TQTabWidget::mouseDoubleClickEvent( e );
}
void KTabWidget::mousePressEvent( TQMouseEvent *e )
{
if ( e->button() == TQt::RightButton ) {
if ( isEmptyTabbarSpace( e->pos() ) ) {
emit( contextMenu( mapToGlobal( e->pos() ) ) );
return;
}
} else if ( e->button() == TQt::MidButton ) {
if ( isEmptyTabbarSpace( e->pos() ) ) {
emit( mouseMiddleClick() );
return;
}
}
TQTabWidget::mousePressEvent( e );
}
void KTabWidget::receivedDropEvent( int index, TQDropEvent *e )
{
emit( receivedDropEvent( page( index ), e ) );
}
void KTabWidget::initiateDrag( int index )
{
emit( initiateDrag( page( index ) ) );
}
void KTabWidget::contextMenu( int index, const TQPoint &p )
{
emit( contextMenu( page( index ), p ) );
}
void KTabWidget::mouseDoubleClick( int index )
{
emit( mouseDoubleClick( page( index ) ) );
}
void KTabWidget::mouseMiddleClick( int index )
{
emit( mouseMiddleClick( page( index ) ) );
}
void KTabWidget::moveTab( int from, int to )
{
TQString tablabel = label( from );
TQWidget *w = page( from );
TQColor color = tabColor( w );
TQIconSet tabiconset = tabIconSet( w );
TQString tabtooltip = tabToolTip( w );
bool current = ( w == currentPage() );
bool enabled = isTabEnabled( w );
blockSignals(true);
removePage( w );
// Work-around tdemdi brain damage which calls showPage() in insertTab()
TQTab * t = new TQTab();
t->setText(tablabel);
TQTabWidget::insertTab( w, t, to );
if ( d->m_automaticResizeTabs ) {
if ( to < 0 || to >= count() )
d->m_tabNames.append( TQString::null );
else
d->m_tabNames.insert( d->m_tabNames.at( to ), TQString::null );
}
w = page( to );
changeTab( w, tabiconset, tablabel );
setTabToolTip( w, tabtooltip );
setTabColor( w, color );
if ( current )
showPage( w );
setTabEnabled( w, enabled );
blockSignals(false);
emit ( movedTab( from, to ) );
}
void KTabWidget::removePage( TQWidget * w ) {
if ( d->m_automaticResizeTabs ) {
int index = indexOf( w );
if ( index != -1 )
d->m_tabNames.remove( d->m_tabNames.at( index ) );
}
TQTabWidget::removePage( w );
if ( d->m_automaticResizeTabs )
resizeTabs();
}
bool KTabWidget::isEmptyTabbarSpace( const TQPoint &point ) const
{
TQSize size( tabBar()->sizeHint() );
if ( ( tabPosition()==Top && point.y()< size.height() ) || ( tabPosition()==Bottom && point.y()>(height()-size.height() ) ) ) {
TQWidget *rightcorner = cornerWidget( TopRight );
if ( rightcorner ) {
if ( point.x()>=width()-rightcorner->width() )
return false;
}
TQWidget *leftcorner = cornerWidget( TopLeft );
if ( leftcorner ) {
if ( point.x()<=leftcorner->width() )
return false;
}
TQTab *tab = tabBar()->selectTab( tabBar()->mapFromParent( point ) );
if( !tab )
return true;
}
return false;
}
void KTabWidget::setHoverCloseButton( bool button )
{
static_cast<KTabBar*>(tabBar())->setHoverCloseButton( button );
}
bool KTabWidget::hoverCloseButton() const
{
return static_cast<KTabBar*>(tabBar())->hoverCloseButton();
}
void KTabWidget::setHoverCloseButtonDelayed( bool delayed )
{
static_cast<KTabBar*>(tabBar())->setHoverCloseButtonDelayed( delayed );
}
bool KTabWidget::hoverCloseButtonDelayed() const
{
return static_cast<KTabBar*>(tabBar())->hoverCloseButtonDelayed();
}
void KTabWidget::setAutomaticResizeTabs( bool enabled )
{
if ( d->m_automaticResizeTabs==enabled )
return;
d->m_automaticResizeTabs = enabled;
if ( enabled ) {
d->m_tabNames.clear();
for( int i = 0; i < count(); ++i )
d->m_tabNames.append( tabBar()->tabAt( i )->text() );
}
else
for( int i = 0; i < count(); ++i )
tabBar()->tabAt( i )->setText( d->m_tabNames[ i ] );
resizeTabs();
}
bool KTabWidget::automaticResizeTabs() const
{
return d->m_automaticResizeTabs;
}
void KTabWidget::closeRequest( int index )
{
emit( closeRequest( page( index ) ) );
}
void KTabWidget::resizeEvent( TQResizeEvent *e )
{
TQTabWidget::resizeEvent( e );
resizeTabs();
}
#include "ktabwidget.moc"