/**************************************************************************** ** ** Implementation of TQScrollView class ** ** Created : 950524 ** ** 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 "ntqwidget.h" #ifndef TQT_NO_SCROLLVIEW #include "ntqscrollbar.h" #include "ntqobjectlist.h" #include "ntqpainter.h" #include "ntqpixmap.h" #include "ntqcursor.h" #include "ntqfocusdata.h" #include "ntqscrollview.h" #include "ntqptrdict.h" #include "ntqapplication.h" #include "ntqtimer.h" #include "ntqstyle.h" #include "ntqlistview.h" #ifdef TQ_WS_MAC # include "qt_mac.h" #endif static const int coord_limit = 4000; static const int autoscroll_margin = 16; static const int initialScrollTime = 30; static const int initialScrollAccel = 5; struct TQSVChildRec { TQSVChildRec(TQWidget* c, int xx, int yy) : child(c), x(xx), y(yy) { } void hideOrShow(TQScrollView* sv, TQWidget* clipped_viewport); void moveTo(TQScrollView* sv, int xx, int yy, TQWidget* clipped_viewport) { if ( x != xx || y != yy ) { x = xx; y = yy; hideOrShow(sv,clipped_viewport); } } TQWidget* child; int x, y; }; void TQSVChildRec::hideOrShow(TQScrollView* sv, TQWidget* clipped_viewport) { if ( clipped_viewport ) { if ( x+child->width() < sv->contentsX()+clipped_viewport->x() || x > sv->contentsX()+clipped_viewport->width() || y+child->height() < sv->contentsY()+clipped_viewport->y() || y > sv->contentsY()+clipped_viewport->height() ) { child->move(clipped_viewport->width(), clipped_viewport->height()); } else { child->move(x-sv->contentsX()-clipped_viewport->x(), y-sv->contentsY()-clipped_viewport->y()); } } else { child->move(x-sv->contentsX(), y-sv->contentsY()); } } class TQViewportWidget : public TQWidget { TQ_OBJECT public: TQViewportWidget( TQScrollView* parent=0, const char* name=0, WFlags f = 0 ) : TQWidget( parent, name, f ) {} }; class TQClipperWidget : public TQWidget { TQ_OBJECT public: TQClipperWidget( TQWidget * parent=0, const char * name=0, WFlags f=0 ) : TQWidget ( parent,name,f) {} }; #include "qscrollview.moc" class TQScrollViewData { public: TQScrollViewData(TQScrollView* parent, int vpwflags) : hbar( new TQScrollBar( TQScrollBar::Horizontal, parent, "qt_hbar" ) ), vbar( new TQScrollBar( TQScrollBar::Vertical, parent, "qt_vbar" ) ), viewport( new TQViewportWidget( parent, "qt_viewport", vpwflags ) ), clipped_viewport( 0 ), flags( vpwflags ), vx( 0 ), vy( 0 ), vwidth( 1 ), vheight( 1 ), #ifndef TQT_NO_DRAGANDDROP autoscroll_timer( parent, "scrollview autoscroll timer" ), drag_autoscroll( TRUE ), #endif scrollbar_timer( parent, "scrollview scrollbar timer" ), inresize( FALSE ), use_cached_size_hint( TRUE ) { l_marg = r_marg = t_marg = b_marg = 0; viewport->polish(); viewport->setBackgroundMode( TQWidget::PaletteDark ); viewport->setBackgroundOrigin( TQWidget::WidgetOrigin ); vMode = TQScrollView::Auto; hMode = TQScrollView::Auto; corner = 0; defaultCorner = new TQWidget( parent, "qt_default_corner" ); defaultCorner->hide(); vbar->setSteps( 20, 1/*set later*/ ); hbar->setSteps( 20, 1/*set later*/ ); policy = TQScrollView::Default; signal_choke = FALSE; static_bg = FALSE; fake_scroll = FALSE; hbarPressed = FALSE; vbarPressed = FALSE; } ~TQScrollViewData(); TQSVChildRec* rec(TQWidget* w) { return childDict.find(w); } TQSVChildRec* ancestorRec(TQWidget* w); TQSVChildRec* addChildRec(TQWidget* w, int x, int y ) { TQSVChildRec *r = new TQSVChildRec(w,x,y); children.append(r); childDict.insert(w, r); return r; } void deleteChildRec(TQSVChildRec* r) { childDict.remove(r->child); children.removeRef(r); delete r; } void hideOrShowAll(TQScrollView* sv, bool isScroll = FALSE ); void moveAllBy(int dx, int dy); bool anyVisibleChildren(); void autoMove(TQScrollView* sv); void autoResize(TQScrollView* sv); void autoResizeHint(TQScrollView* sv); void viewportResized( int w, int h ); TQScrollBar* hbar; TQScrollBar* vbar; bool hbarPressed; bool vbarPressed; TQViewportWidget* viewport; TQClipperWidget* clipped_viewport; int flags; TQPtrList children; TQPtrDict childDict; TQWidget* corner, *defaultCorner; int vx, vy, vwidth, vheight; // for drawContents-style usage int l_marg, r_marg, t_marg, b_marg; TQScrollView::ResizePolicy policy; TQScrollView::ScrollBarMode vMode; TQScrollView::ScrollBarMode hMode; #ifndef TQT_NO_DRAGANDDROP TQPoint cpDragStart; TQTimer autoscroll_timer; int autoscroll_time; int autoscroll_accel; bool drag_autoscroll; #endif TQTimer scrollbar_timer; uint static_bg : 1; uint fake_scroll : 1; // This variable allows ensureVisible to move the contents then // update both the sliders. Otherwise, updating the sliders would // cause two image scrolls, creating ugly flashing. // uint signal_choke : 1; // This variables indicates in updateScrollBars() that we are // in a resizeEvent() and thus don't want to flash scrollbars uint inresize : 1; uint use_cached_size_hint : 1; TQSize cachedSizeHint; inline int contentsX() const { return -vx; } inline int contentsY() const { return -vy; } inline int contentsWidth() const { return vwidth; } }; inline TQScrollViewData::~TQScrollViewData() { children.setAutoDelete( TRUE ); } TQSVChildRec* TQScrollViewData::ancestorRec(TQWidget* w) { if ( clipped_viewport ) { while (w->parentWidget() != clipped_viewport) { w = w->parentWidget(); if (!w) return 0; } } else { while (w->parentWidget() != viewport) { w = w->parentWidget(); if (!w) return 0; } } return rec(w); } void TQScrollViewData::hideOrShowAll(TQScrollView* sv, bool isScroll ) { if ( !clipped_viewport ) return; if ( clipped_viewport->x() <= 0 && clipped_viewport->y() <= 0 && clipped_viewport->width()+clipped_viewport->x() >= viewport->width() && clipped_viewport->height()+clipped_viewport->y() >= viewport->height() ) { // clipped_viewport still covers viewport if( static_bg ) clipped_viewport->repaint( TRUE ); else if ( ( !isScroll && !clipped_viewport->testWFlags( TQt::WStaticContents) ) || static_bg ) TQApplication::postEvent( clipped_viewport, new TQPaintEvent( clipped_viewport->clipRegion(), !clipped_viewport->testWFlags(TQt::WResizeNoErase) ) ); } else { // Re-center int nx = ( viewport->width() - clipped_viewport->width() ) / 2; int ny = ( viewport->height() - clipped_viewport->height() ) / 2; clipped_viewport->move(nx,ny); clipped_viewport->update(); } for (TQSVChildRec *r = children.first(); r; r=children.next()) { r->hideOrShow(sv, clipped_viewport); } } void TQScrollViewData::moveAllBy(int dx, int dy) { if ( clipped_viewport && !static_bg ) { clipped_viewport->move( clipped_viewport->x()+dx, clipped_viewport->y()+dy ); } else { for (TQSVChildRec *r = children.first(); r; r=children.next()) { r->child->move(r->child->x()+dx,r->child->y()+dy); } if ( static_bg ) viewport->repaint( TRUE ); } } bool TQScrollViewData::anyVisibleChildren() { for (TQSVChildRec *r = children.first(); r; r=children.next()) { if (r->child->isVisible()) return TRUE; } return FALSE; } void TQScrollViewData::autoMove(TQScrollView* sv) { if ( policy == TQScrollView::AutoOne ) { TQSVChildRec* r = children.first(); if (r) sv->setContentsPos(-r->child->x(),-r->child->y()); } } void TQScrollViewData::autoResize(TQScrollView* sv) { if ( policy == TQScrollView::AutoOne ) { TQSVChildRec* r = children.first(); if (r) sv->resizeContents(r->child->width(),r->child->height()); } } void TQScrollViewData::autoResizeHint(TQScrollView* sv) { if ( policy == TQScrollView::AutoOne ) { TQSVChildRec* r = children.first(); if (r) { TQSize s = r->child->sizeHint(); if ( s.isValid() ) r->child->resize(s); } } else if ( policy == TQScrollView::AutoOneFit ) { TQSVChildRec* r = children.first(); if (r) { TQSize sh = r->child->sizeHint(); sh = sh.boundedTo( r->child->maximumSize() ); sv->resizeContents( sh.width(), sh.height() ); } } } void TQScrollViewData::viewportResized( int w, int h ) { if ( policy == TQScrollView::AutoOneFit ) { TQSVChildRec* r = children.first(); if (r) { TQSize sh = r->child->sizeHint(); sh = sh.boundedTo( r->child->maximumSize() ); r->child->resize( TQMAX(w,sh.width()), TQMAX(h,sh.height()) ); } } } /*! \class TQScrollView ntqscrollview.h \brief The TQScrollView widget provides a scrolling area with on-demand scroll bars. \ingroup abstractwidgets \mainclass The TQScrollView is a large canvas - potentially larger than the coordinate system normally supported by the underlying window system. This is important because it is quite easy to go beyond these limitations (e.g. many web pages are more than 32000 pixels high). Additionally, the TQScrollView can have TQWidgets positioned on it that scroll around with the drawn content. These sub-widgets can also have positions outside the normal coordinate range (but they are still limited in size). To provide content for the widget, inherit from TQScrollView, reimplement drawContents() and use resizeContents() to set the size of the viewed area. Use addChild() and moveChild() to position widgets on the view. To use TQScrollView effectively it is important to understand its widget structure in the three styles of use: a single large child widget, a large panning area with some widgets and a large panning area with many widgets. \section1 Using One Big Widget \img qscrollview-vp2.png The first, simplest usage of TQScrollView (depicted above), is appropriate for scrolling areas that are never more than about 4000 pixels in either dimension (this is about the maximum reliable size on X11 servers). In this usage, you just make one large child in the TQScrollView. The child should be a child of the viewport() of the scrollview and be added with addChild(): \code TQScrollView* sv = new TQScrollView(...); TQVBox* big_box = new TQVBox(sv->viewport()); sv->addChild(big_box); \endcode You can go on to add arbitrary child widgets to the single child in the scrollview as you would with any widget: \code TQLabel* child1 = new TQLabel("CHILD", big_box); TQLabel* child2 = new TQLabel("CHILD", big_box); TQLabel* child3 = new TQLabel("CHILD", big_box); ... \endcode Here the TQScrollView has four children: the viewport(), the verticalScrollBar(), the horizontalScrollBar() and a small cornerWidget(). The viewport() has one child: the big TQVBox. The TQVBox has the three TQLabel objects as child widgets. When the view is scrolled, the TQVBox is moved; its children move with it as child widgets normally do. \section1 Using a Very Big View with Some Widgets \img qscrollview-vp.png The second usage of TQScrollView (depicted above) is appropriate when few, if any, widgets are on a very large scrolling area that is potentially larger than 4000 pixels in either dimension. In this usage you call resizeContents() to set the size of the area and reimplement drawContents() to paint the contents. You may also add some widgets by making them children of the viewport() and adding them with addChild() (this is the same as the process for the single large widget in the previous example): \code TQScrollView* sv = new TQScrollView(...); TQLabel* child1 = new TQLabel("CHILD", sv->viewport()); sv->addChild(child1); TQLabel* child2 = new TQLabel("CHILD", sv->viewport()); sv->addChild(child2); TQLabel* child3 = new TQLabel("CHILD", sv->viewport()); sv->addChild(child3); \endcode Here, the TQScrollView has the same four children: the viewport(), the verticalScrollBar(), the horizontalScrollBar() and a small cornerWidget(). The viewport() has the three TQLabel objects as child widgets. When the view is scrolled, the scrollview moves the child widgets individually. \section1 Using a Very Big View with Many Widgets \target enableclipper \img qscrollview-cl.png The final usage of TQScrollView (depicted above) is appropriate when many widgets are on a very large scrolling area that is potentially larger than 4000 pixels in either dimension. In this usage you call resizeContents() to set the size of the area and reimplement drawContents() to paint the contents. You then call enableClipper(TRUE) and add widgets, again by making them children of the viewport(), and adding them with addChild(): \code TQScrollView* sv = new TQScrollView(...); sv->enableClipper(TRUE); TQLabel* child1 = new TQLabel("CHILD", sv->viewport()); sv->addChild(child1); TQLabel* child2 = new TQLabel("CHILD", sv->viewport()); sv->addChild(child2); TQLabel* child3 = new TQLabel("CHILD", sv->viewport()); sv->addChild(child3); \endcode Here, the TQScrollView has four children: the clipper() (not the viewport() this time), the verticalScrollBar(), the horizontalScrollBar() and a small cornerWidget(). The clipper() has one child: the viewport(). The viewport() has the same three labels as child widgets. When the view is scrolled the viewport() is moved; its children move with it as child widgets normally do. \target allviews \section1 Details Relevant for All Views Normally you will use the first or third method if you want any child widgets in the view. Note that the widget you see in the scrolled area is the viewport() widget, not the TQScrollView itself. So to turn mouse tracking on, for example, use viewport()->setMouseTracking(TRUE). To enable drag-and-drop, you would setAcceptDrops(TRUE) on the TQScrollView (because drag-and-drop events propagate to the parent). But to work out the logical position in the view, you would need to map the drop co-ordinate from being relative to the TQScrollView to being relative to the contents; use the function viewportToContents() for this. To handle mouse events on the scrolling area, subclass scrollview as you would subclass other widgets, but rather than reimplementing mousePressEvent(), reimplement contentsMousePressEvent() instead. The contents specific event handlers provide translated events in the coordinate system of the scrollview. If you reimplement mousePressEvent(), you'll get called only when part of the TQScrollView is clicked: and the only such part is the "corner" (if you don't set a cornerWidget()) and the frame; everything else is covered up by the viewport, clipper or scroll bars. When you construct a TQScrollView, some of the widget flags apply to the viewport() instead of being sent to the TQWidget constructor for the TQScrollView. This applies to \c WNoAutoErase, \c WStaticContents, and \c WPaintClever. See \l TQt::WidgetFlags for documentation about these flags. Here are some examples: \list \i An image-manipulation widget would use \c WNoAutoErase|WStaticContents because the widget draws all pixels itself, and when its size increases, it only needs a paint event for the new part because the old part remains unchanged. \i A scrolling game widget in which the background scrolls as the characters move might use \c WNoAutoErase (in addition to \c WStaticContents) so that the window system background does not flash in and out during scrolling. \i A word processing widget might use \c WNoAutoErase and repaint itself line by line to get a less-flickery resizing. If the widget is in a mode in which no text justification can take place, it might use \c WStaticContents too, so that it would only get a repaint for the newly visible parts. \endlist Child widgets may be moved using addChild() or moveChild(). Use childX() and childY() to get the position of a child widget. A widget may be placed in the corner between the vertical and horizontal scrollbars with setCornerWidget(). You can get access to the scrollbars using horizontalScrollBar() and verticalScrollBar(), and to the viewport with viewport(). The scroll view can be scrolled using scrollBy(), ensureVisible(), setContentsPos() or center(). The visible area is given by visibleWidth() and visibleHeight(), and the contents area by contentsWidth() and contentsHeight(). The contents may be repainted using one of the repaintContents() or updateContents() functions. Coordinate conversion is provided by contentsToViewport() and viewportToContents(). The contentsMoving() signal is emitted just before the contents are moved to a new position. \warning TQScrollView currently does not erase the background when resized, i.e. you must always clear the background manually in scrollview subclasses. This will change in a future version of TQt and we recommend specifying the WNoAutoErase flag explicitly. */ /*! \enum TQScrollView::ResizePolicy This enum type is used to control a TQScrollView's reaction to resize events. \value Default the TQScrollView selects one of the other settings automatically when it has to. In this version of TQt, TQScrollView changes to \c Manual if you resize the contents with resizeContents() and to \c AutoOne if a child is added. \value Manual the contents stays the size set by resizeContents(). \value AutoOne if there is only one child widget the contents stays the size of that widget. Otherwise the behavior is undefined. \value AutoOneFit if there is only one child widget the contents stays the size of that widget's sizeHint(). If the scrollview is resized larger than the child's sizeHint(), the child will be resized to fit. If there is more than one child, the behavior is undefined. */ //#### The widget will be resized to its sizeHint() when a LayoutHint event //#### is received /*! Constructs a TQScrollView called \a name with parent \a parent and widget flags \a f. The widget flags \c WStaticContents, \c WNoAutoErase and \c WPaintClever are propagated to the viewport() widget. The other widget flags are propagated to the parent constructor as usual. */ TQScrollView::TQScrollView( TQWidget *parent, const char *name, WFlags f ) : TQFrame( parent, name, f & (~WStaticContents) & (~WResizeNoErase) ) { WFlags flags = WResizeNoErase | (f&WPaintClever) | (f&WRepaintNoErase) | (f&WStaticContents); d = new TQScrollViewData( this, flags ); #ifndef TQT_NO_DRAGANDDROP connect( &d->autoscroll_timer, TQ_SIGNAL( timeout() ), this, TQ_SLOT( doDragAutoScroll() ) ); #endif connect( d->hbar, TQ_SIGNAL( valueChanged(int) ), this, TQ_SLOT( hslide(int) ) ); connect( d->vbar, TQ_SIGNAL( valueChanged(int) ), this, TQ_SLOT( vslide(int) ) ); connect( d->hbar, TQ_SIGNAL(sliderPressed()), this, TQ_SLOT(hbarIsPressed()) ); connect( d->hbar, TQ_SIGNAL(sliderReleased()), this, TQ_SLOT(hbarIsReleased()) ); connect( d->vbar, TQ_SIGNAL(sliderPressed()), this, TQ_SLOT(vbarIsPressed()) ); connect( d->vbar, TQ_SIGNAL(sliderReleased()), this, TQ_SLOT(vbarIsReleased()) ); d->viewport->installEventFilter( this ); connect( &d->scrollbar_timer, TQ_SIGNAL( timeout() ), this, TQ_SLOT( updateScrollBars() ) ); setFrameStyle( TQFrame::StyledPanel | TQFrame::Sunken ); setLineWidth( style().pixelMetric(TQStyle::PM_DefaultFrameWidth, this) ); setSizePolicy( TQSizePolicy( TQSizePolicy::Expanding, TQSizePolicy::Expanding ) ); } /*! Destroys the TQScrollView. Any children added with addChild() will be deleted. */ TQScrollView::~TQScrollView() { // Be careful not to get all those useless events... if ( d->clipped_viewport ) d->clipped_viewport->removeEventFilter( this ); else d->viewport->removeEventFilter( this ); // order is important // ~TQWidget may cause a WM_ERASEBKGND on Windows delete d->vbar; d->vbar = 0; delete d->hbar; d->hbar = 0; delete d->viewport; d->viewport = 0; delete d; d = 0; } /*! \fn void TQScrollView::horizontalSliderPressed() This signal is emitted whenever the user presses the horizontal slider. */ /*! \fn void TQScrollView::horizontalSliderReleased() This signal is emitted whenever the user releases the horizontal slider. */ /*! \fn void TQScrollView::verticalSliderPressed() This signal is emitted whenever the user presses the vertical slider. */ /*! \fn void TQScrollView::verticalSliderReleased() This signal is emitted whenever the user releases the vertical slider. */ void TQScrollView::hbarIsPressed() { d->hbarPressed = TRUE; emit( horizontalSliderPressed() ); } void TQScrollView::hbarIsReleased() { d->hbarPressed = FALSE; emit( horizontalSliderReleased() ); } /*! Returns TRUE if horizontal slider is pressed by user; otherwise returns FALSE. */ bool TQScrollView::isHorizontalSliderPressed() { return d->hbarPressed; } void TQScrollView::vbarIsPressed() { d->vbarPressed = TRUE; emit( verticalSliderPressed() ); } void TQScrollView::vbarIsReleased() { d->vbarPressed = FALSE; emit( verticalSliderReleased() ); } /*! Returns TRUE if vertical slider is pressed by user; otherwise returns FALSE. */ bool TQScrollView::isVerticalSliderPressed() { return d->vbarPressed; } /*! \reimp */ void TQScrollView::styleChange( TQStyle& old ) { TQWidget::styleChange( old ); updateScrollBars(); d->cachedSizeHint = TQSize(); } /*! \reimp */ void TQScrollView::fontChange( const TQFont &old ) { TQWidget::fontChange( old ); updateScrollBars(); d->cachedSizeHint = TQSize(); } void TQScrollView::hslide( int pos ) { if ( !d->signal_choke ) { moveContents( -pos, -d->contentsY() ); TQApplication::syncX(); } } void TQScrollView::vslide( int pos ) { if ( !d->signal_choke ) { moveContents( -d->contentsX(), -pos ); TQApplication::syncX(); } } /*! Called when the horizontal scroll bar geometry changes. This is provided as a protected function so that subclasses can do interesting things such as providing extra buttons in some of the space normally used by the scroll bars. The default implementation simply gives all the space to \a hbar. The new geometry is given by \a x, \a y, \a w and \a h. \sa setVBarGeometry() */ void TQScrollView::setHBarGeometry(TQScrollBar& hbar, int x, int y, int w, int h) { hbar.setGeometry( x, y, w, h ); } /*! Called when the vertical scroll bar geometry changes. This is provided as a protected function so that subclasses can do interesting things such as providing extra buttons in some of the space normally used by the scroll bars. The default implementation simply gives all the space to \a vbar. The new geometry is given by \a x, \a y, \a w and \a h. \sa setHBarGeometry() */ void TQScrollView::setVBarGeometry( TQScrollBar& vbar, int x, int y, int w, int h) { vbar.setGeometry( x, y, w, h ); } /*! Returns the viewport size for size (\a x, \a y). The viewport size depends on \a (x, y) (the size of the contents), the size of this widget and the modes of the horizontal and vertical scroll bars. This function permits widgets that can trade vertical and horizontal space for each other to control scroll bar appearance better. For example, a word processor or web browser can control the width of the right margin accurately, whether or not there needs to be a vertical scroll bar. */ TQSize TQScrollView::viewportSize( int x, int y ) const { int fw = frameWidth(); int lmarg = fw+d->l_marg; int rmarg = fw+d->r_marg; int tmarg = fw+d->t_marg; int bmarg = fw+d->b_marg; int w = width(); int h = height(); bool needh, needv; bool showh, showv; int hsbExt = horizontalScrollBar()->sizeHint().height(); int vsbExt = verticalScrollBar()->sizeHint().width(); if ( d->policy != AutoOne || d->anyVisibleChildren() ) { // Do we definitely need the scrollbar? needh = w-lmarg-rmarg < x; needv = h-tmarg-bmarg < y; // Do we intend to show the scrollbar? if (d->hMode == AlwaysOn) showh = TRUE; else if (d->hMode == AlwaysOff) showh = FALSE; else showh = needh; if (d->vMode == AlwaysOn) showv = TRUE; else if (d->vMode == AlwaysOff) showv = FALSE; else showv = needv; // Given other scrollbar will be shown, NOW do we need one? if ( showh && h-vsbExt-tmarg-bmarg < y ) { if (d->vMode == Auto) showv=TRUE; } if ( showv && w-hsbExt-lmarg-rmarg < x ) { if (d->hMode == Auto) showh=TRUE; } } else { // Scrollbars not needed, only show scrollbar that are always on. showh = d->hMode == AlwaysOn; showv = d->vMode == AlwaysOn; } return TQSize( w-lmarg-rmarg - (showv ? vsbExt : 0), h-tmarg-bmarg - (showh ? hsbExt : 0) ); } /*! Updates scroll bars: all possibilities are considered. You should never need to call this in your code. */ void TQScrollView::updateScrollBars() { if(!horizontalScrollBar() && !verticalScrollBar()) return; // I support this should use viewportSize()... but it needs // so many of the temporary variables from viewportSize. hm. int fw = frameWidth(); int lmarg = fw+d->l_marg; int rmarg = fw+d->r_marg; int tmarg = fw+d->t_marg; int bmarg = fw+d->b_marg; int w = width(); int h = height(); int portw, porth; bool needh; bool needv; bool showh; bool showv; bool showc = FALSE; int hsbExt = horizontalScrollBar()->sizeHint().height(); int vsbExt = verticalScrollBar()->sizeHint().width(); TQSize oldVisibleSize( visibleWidth(), visibleHeight() ); if ( d->policy != AutoOne || d->anyVisibleChildren() ) { // Do we definitely need the scrollbar? needh = w-lmarg-rmarg < d->contentsWidth(); if ( d->inresize ) needh = !horizontalScrollBar()->isHidden(); needv = h-tmarg-bmarg < contentsHeight(); // Do we intend to show the scrollbar? if (d->hMode == AlwaysOn) showh = TRUE; else if (d->hMode == AlwaysOff) showh = FALSE; else showh = needh; if (d->vMode == AlwaysOn) showv = TRUE; else if (d->vMode == AlwaysOff) showv = FALSE; else showv = needv; #ifdef TQ_WS_MAC bool mac_need_scroll = FALSE; if(!parentWidget()) { mac_need_scroll = TRUE; } else { TQWidget *tlw = topLevelWidget(); TQPoint tlw_br = TQPoint(tlw->width(), tlw->height()), my_br = posInWindow(this) + TQPoint(w, h); if(my_br.x() >= tlw_br.x() - 3 && my_br.y() >= tlw_br.y() - 3) mac_need_scroll = TRUE; } if(mac_need_scroll) { WindowAttributes attr; GetWindowAttributes((WindowPtr)handle(), &attr); mac_need_scroll = (attr & kWindowResizableAttribute); } if(mac_need_scroll) { showc = TRUE; if(d->vMode == Auto) showv = TRUE; if(d->hMode == Auto) showh = TRUE; } #endif // Given other scrollbar will be shown, NOW do we need one? if ( showh && h-vsbExt-tmarg-bmarg < contentsHeight() ) { needv=TRUE; if (d->vMode == Auto) showv=TRUE; } if ( showv && !d->inresize && w-hsbExt-lmarg-rmarg < d->contentsWidth() ) { needh=TRUE; if (d->hMode == Auto) showh=TRUE; } } else { // Scrollbars not needed, only show scrollbar that are always on. needh = needv = FALSE; showh = d->hMode == AlwaysOn; showv = d->vMode == AlwaysOn; } bool sc = d->signal_choke; d->signal_choke=TRUE; // Hide unneeded scrollbar, calculate viewport size if ( showh ) { porth=h-hsbExt-tmarg-bmarg; } else { if (!needh) d->hbar->setValue(0); d->hbar->hide(); porth=h-tmarg-bmarg; } if ( showv ) { portw=w-vsbExt-lmarg-rmarg; } else { if (!needv) d->vbar->setValue(0); d->vbar->hide(); portw=w-lmarg-rmarg; } // Configure scrollbars that we will show if ( needv ) { d->vbar->setRange( 0, contentsHeight()-porth ); d->vbar->setSteps( TQScrollView::d->vbar->lineStep(), porth ); } else { d->vbar->setRange( 0, 0 ); } if ( needh ) { d->hbar->setRange( 0, TQMAX(0, d->contentsWidth()-portw) ); d->hbar->setSteps( TQScrollView::d->hbar->lineStep(), portw ); } else { d->hbar->setRange( 0, 0 ); } // Position the scrollbars, viewport and corner widget. int bottom; bool reverse = TQApplication::reverseLayout(); int xoffset = ( reverse && (showv || cornerWidget() )) ? vsbExt : 0; int xpos = reverse ? 0 : w - vsbExt; bool frameContentsOnly = style().styleHint(TQStyle::SH_ScrollView_FrameOnlyAroundContents); if( ! frameContentsOnly ) { if ( reverse ) xpos += fw; else xpos -= fw; } if ( showh ) { int right = ( showc || showv || cornerWidget() ) ? w-vsbExt : w; if ( ! frameContentsOnly ) setHBarGeometry( *d->hbar, fw + xoffset, h-hsbExt-fw, right-fw-fw, hsbExt ); else setHBarGeometry( *d->hbar, 0 + xoffset, h-hsbExt, right, hsbExt ); bottom=h-hsbExt; } else { bottom=h; } if ( showv ) { clipper()->setGeometry( lmarg + xoffset, tmarg, w-vsbExt-lmarg-rmarg, bottom-tmarg-bmarg ); d->viewportResized( w-vsbExt-lmarg-rmarg, bottom-tmarg-bmarg ); if ( ! frameContentsOnly ) changeFrameRect(TQRect(0, 0, w, h) ); else changeFrameRect(TQRect(xoffset, 0, w-vsbExt, bottom)); if (showc || cornerWidget()) { if ( ! frameContentsOnly ) setVBarGeometry( *d->vbar, xpos, fw, vsbExt, h-hsbExt-fw-fw ); else setVBarGeometry( *d->vbar, xpos, 0, vsbExt, h-hsbExt ); } else { if ( ! frameContentsOnly ) setVBarGeometry( *d->vbar, xpos, fw, vsbExt, bottom-fw-fw ); else setVBarGeometry( *d->vbar, xpos, 0, vsbExt, bottom ); } } else { if ( ! frameContentsOnly ) changeFrameRect(TQRect(0, 0, w, h)); else changeFrameRect(TQRect(0, 0, w, bottom)); clipper()->setGeometry( lmarg, tmarg, w-lmarg-rmarg, bottom-tmarg-bmarg ); d->viewportResized( w-lmarg-rmarg, bottom-tmarg-bmarg ); } TQWidget *corner = d->corner; if ( !d->corner ) corner = d->defaultCorner; if ( ! frameContentsOnly ) corner->setGeometry( xpos, h-hsbExt-fw, vsbExt, hsbExt ); else corner->setGeometry( xpos, h-hsbExt, vsbExt, hsbExt ); d->signal_choke=sc; if ( d->contentsX()+visibleWidth() > d->contentsWidth() ) { int x; #if 0 if ( reverse ) x =TQMIN(0,d->contentsWidth()-visibleWidth()); else #endif x =TQMAX(0,d->contentsWidth()-visibleWidth()); d->hbar->setValue(x); // Do it even if it is recursive moveContents( -x, -d->contentsY() ); } if ( d->contentsY()+visibleHeight() > contentsHeight() ) { int y=TQMAX(0,contentsHeight()-visibleHeight()); d->vbar->setValue(y); // Do it even if it is recursive moveContents( -d->contentsX(), -y ); } // Finally, show the scroll bars if ( showh && ( d->hbar->isHidden() || !d->hbar->isVisible() ) ) d->hbar->show(); if ( showv && ( d->vbar->isHidden() || !d->vbar->isVisible() ) ) d->vbar->show(); d->signal_choke=TRUE; d->vbar->setValue( d->contentsY() ); d->hbar->setValue( d->contentsX() ); d->signal_choke=FALSE; TQSize newVisibleSize( visibleWidth(), visibleHeight() ); if ( d->clipped_viewport && oldVisibleSize != newVisibleSize ) { TQResizeEvent e( newVisibleSize, oldVisibleSize ); viewportResizeEvent( &e ); } } /*! \reimp */ void TQScrollView::show() { if ( isVisible() ) return; TQWidget::show(); updateScrollBars(); d->hideOrShowAll(this); } /*! \reimp */ void TQScrollView::resize( int w, int h ) { TQWidget::resize( w, h ); } /*! \reimp */ void TQScrollView::resize( const TQSize& s ) { resize( s.width(), s.height() ); } /*! \reimp */ void TQScrollView::resizeEvent( TQResizeEvent* event ) { TQFrame::resizeEvent( event ); #if 0 if ( TQApplication::reverseLayout() ) { d->fake_scroll = TRUE; scrollBy( -event->size().width() + event->oldSize().width(), 0 ); d->fake_scroll = FALSE; } #endif bool inresize = d->inresize; d->inresize = TRUE; updateScrollBars(); d->inresize = inresize; d->scrollbar_timer.start( 0, TRUE ); d->hideOrShowAll(this); } /*! \reimp */ void TQScrollView::mousePressEvent( TQMouseEvent * e) //#### remove for 4.0 { e->ignore(); } /*! \reimp */ void TQScrollView::mouseReleaseEvent( TQMouseEvent *e ) //#### remove for 4.0 { e->ignore(); } /*! \reimp */ void TQScrollView::mouseDoubleClickEvent( TQMouseEvent *e ) //#### remove for 4.0 { e->ignore(); } /*! \reimp */ void TQScrollView::mouseMoveEvent( TQMouseEvent *e ) //#### remove for 4.0 { e->ignore(); } /*! \reimp */ #ifndef TQT_NO_WHEELEVENT void TQScrollView::wheelEvent( TQWheelEvent *e ) { TQWheelEvent ce( viewport()->mapFromGlobal( e->globalPos() ), e->globalPos(), e->delta(), e->state(), e->orientation()); viewportWheelEvent(&ce); if ( !ce.isAccepted() ) { if ( e->orientation() == Horizontal && horizontalScrollBar() && horizontalScrollBar()->isEnabled() ) TQApplication::sendEvent( horizontalScrollBar(), e); else if (e->orientation() == Vertical && verticalScrollBar() && verticalScrollBar()->isEnabled() ) TQApplication::sendEvent( verticalScrollBar(), e); } else { e->accept(); } } #endif /*! \reimp */ void TQScrollView::contextMenuEvent( TQContextMenuEvent *e ) { if ( e->reason() != TQContextMenuEvent::Keyboard ) { e->ignore(); return; } TQContextMenuEvent ce( e->reason(), viewport()->mapFromGlobal( e->globalPos() ), e->globalPos(), e->state() ); viewportContextMenuEvent( &ce ); if ( ce.isAccepted() ) e->accept(); else e->ignore(); } TQScrollView::ScrollBarMode TQScrollView::vScrollBarMode() const { return d->vMode; } /*! \enum TQScrollView::ScrollBarMode This enum type describes the various modes of TQScrollView's scroll bars. \value Auto TQScrollView shows a scroll bar when the content is too large to fit and not otherwise. This is the default. \value AlwaysOff TQScrollView never shows a scroll bar. \value AlwaysOn TQScrollView always shows a scroll bar. (The modes for the horizontal and vertical scroll bars are independent.) */ /*! \property TQScrollView::vScrollBarMode \brief the mode for the vertical scroll bar The default mode is \c TQScrollView::Auto. \sa hScrollBarMode */ void TQScrollView::setVScrollBarMode( ScrollBarMode mode ) { if (d->vMode != mode) { d->vMode = mode; updateScrollBars(); } } /*! \property TQScrollView::hScrollBarMode \brief the mode for the horizontal scroll bar The default mode is \c TQScrollView::Auto. \sa vScrollBarMode */ TQScrollView::ScrollBarMode TQScrollView::hScrollBarMode() const { return d->hMode; } void TQScrollView::setHScrollBarMode( ScrollBarMode mode ) { if (d->hMode != mode) { d->hMode = mode; updateScrollBars(); } } /*! Returns the widget in the corner between the two scroll bars. By default, no corner widget is present. */ TQWidget* TQScrollView::cornerWidget() const { return d->corner; } /*! Sets the widget in the \a corner between the two scroll bars. You will probably also want to set at least one of the scroll bar modes to \c AlwaysOn. Passing 0 shows no widget in the corner. Any previous \a corner widget is hidden. You may call setCornerWidget() with the same widget at different times. All widgets set here will be deleted by the TQScrollView when it is destroyed unless you separately reparent the widget after setting some other corner widget (or 0). Any \e newly set widget should have no current parent. By default, no corner widget is present. \sa setVScrollBarMode(), setHScrollBarMode() */ void TQScrollView::setCornerWidget(TQWidget* corner) { TQWidget* oldcorner = d->corner; if (oldcorner != corner) { if (oldcorner) oldcorner->hide(); d->corner = corner; if ( corner && corner->parentWidget() != this ) { // #### No clean way to get current WFlags corner->reparent( this, (((TQScrollView*)corner))->getWFlags(), TQPoint(0,0), FALSE ); } updateScrollBars(); if ( corner ) corner->show(); } } void TQScrollView::setResizePolicy( ResizePolicy r ) { d->policy = r; } /*! \property TQScrollView::resizePolicy \brief the resize policy The default is \c Default. \sa ResizePolicy */ TQScrollView::ResizePolicy TQScrollView::resizePolicy() const { return d->policy; } /*! \reimp */ void TQScrollView::setEnabled( bool enable ) { TQFrame::setEnabled( enable ); } /*! Removes the \a child widget from the scrolled area. Note that this happens automatically if the \a child is deleted. */ void TQScrollView::removeChild(TQWidget* child) { if ( !d || !child ) // First check in case we are destructing return; TQSVChildRec *r = d->rec(child); if ( r ) d->deleteChildRec( r ); } /*! \reimp */ void TQScrollView::removeChild(TQObject* child) { TQFrame::removeChild(child); } /*! Inserts the widget, \a child, into the scrolled area positioned at (\a x, \a y). The position defaults to (0, 0). If the child is already in the view, it is just moved. You may want to call enableClipper(TRUE) if you add a large number of widgets. */ void TQScrollView::addChild(TQWidget* child, int x, int y) { if ( !child ) { #if defined(QT_CHECK_NULL) tqWarning( "TQScrollView::addChild(): Cannot add null child" ); #endif return; } child->polish(); child->setBackgroundOrigin(WidgetOrigin); if ( child->parentWidget() == viewport() ) { // May already be there TQSVChildRec *r = d->rec(child); if (r) { r->moveTo(this,x,y,d->clipped_viewport); if ( d->policy > Manual ) { d->autoResizeHint(this); d->autoResize(this); // #### better to just deal with this one widget! } return; } } if ( d->children.isEmpty() && d->policy != Manual ) { if ( d->policy == Default ) setResizePolicy( AutoOne ); child->installEventFilter( this ); } else if ( d->policy == AutoOne ) { child->removeEventFilter( this ); //#### ????? setResizePolicy( Manual ); } if ( child->parentWidget() != viewport() ) { child->reparent( viewport(), 0, TQPoint(0,0), FALSE ); } d->addChildRec(child,x,y)->hideOrShow(this, d->clipped_viewport); if ( d->policy > Manual ) { d->autoResizeHint(this); d->autoResize(this); // #### better to just deal with this one widget! } } /*! Repositions the \a child widget to (\a x, \a y). This function is the same as addChild(). */ void TQScrollView::moveChild(TQWidget* child, int x, int y) { addChild(child,x,y); } /*! Returns the X position of the given \a child widget. Use this rather than TQWidget::x() for widgets added to the view. This function returns 0 if \a child has not been added to the view. */ int TQScrollView::childX(TQWidget* child) { TQSVChildRec *r = d->rec(child); return r ? r->x : 0; } /*! Returns the Y position of the given \a child widget. Use this rather than TQWidget::y() for widgets added to the view. This function returns 0 if \a child has not been added to the view. */ int TQScrollView::childY(TQWidget* child) { TQSVChildRec *r = d->rec(child); return r ? r->y : 0; } /*! \fn bool TQScrollView::childIsVisible(TQWidget*) \obsolete Returns TRUE if \a child is visible. This is equivalent to child->isVisible(). */ /*! \fn void TQScrollView::showChild(TQWidget* child, bool y) \obsolete Sets the visibility of \a child. Equivalent to TQWidget::show() or TQWidget::hide(). */ /*! This event filter ensures the scroll bars are updated when a single contents widget is resized, shown, hidden or destroyed; it passes mouse events to the TQScrollView. The event is in \a e and the object is in \a obj. */ bool TQScrollView::eventFilter( TQObject *obj, TQEvent *e ) { if ( !d ) return FALSE; // we are destructing if ( obj == d->viewport || obj == d->clipped_viewport ) { switch ( e->type() ) { /* Forward many events to viewport...() functions */ case TQEvent::Paint: viewportPaintEvent( (TQPaintEvent*)e ); break; case TQEvent::Resize: if ( !d->clipped_viewport ) viewportResizeEvent( (TQResizeEvent *)e ); break; case TQEvent::MouseButtonPress: viewportMousePressEvent( (TQMouseEvent*)e ); if ( ((TQMouseEvent*)e)->isAccepted() ) return TRUE; break; case TQEvent::MouseButtonRelease: viewportMouseReleaseEvent( (TQMouseEvent*)e ); if ( ((TQMouseEvent*)e)->isAccepted() ) return TRUE; break; case TQEvent::MouseButtonDblClick: viewportMouseDoubleClickEvent( (TQMouseEvent*)e ); if ( ((TQMouseEvent*)e)->isAccepted() ) return TRUE; break; case TQEvent::MouseMove: viewportMouseMoveEvent( (TQMouseEvent*)e ); if ( ((TQMouseEvent*)e)->isAccepted() ) return TRUE; break; #ifndef TQT_NO_DRAGANDDROP case TQEvent::DragEnter: viewportDragEnterEvent( (TQDragEnterEvent*)e ); break; case TQEvent::DragMove: { if ( d->drag_autoscroll ) { TQPoint vp = ((TQDragMoveEvent*) e)->pos(); TQRect inside_margin( autoscroll_margin, autoscroll_margin, visibleWidth() - autoscroll_margin * 2, visibleHeight() - autoscroll_margin * 2 ); if ( !inside_margin.contains( vp ) ) { startDragAutoScroll(); // Keep sending move events ( (TQDragMoveEvent*)e )->accept( TQRect(0,0,0,0) ); } } viewportDragMoveEvent( (TQDragMoveEvent*)e ); } break; case TQEvent::DragLeave: stopDragAutoScroll(); viewportDragLeaveEvent( (TQDragLeaveEvent*)e ); break; case TQEvent::Drop: stopDragAutoScroll(); viewportDropEvent( (TQDropEvent*)e ); break; #endif // TQT_NO_DRAGANDDROP case TQEvent::ContextMenu: viewportContextMenuEvent( (TQContextMenuEvent*)e ); if ( ((TQContextMenuEvent*)e)->isAccepted() ) return TRUE; break; case TQEvent::ChildRemoved: removeChild((TQWidget*)((TQChildEvent*)e)->child()); break; case TQEvent::LayoutHint: d->autoResizeHint(this); break; case TQEvent::WindowActivate: case TQEvent::WindowDeactivate: return TRUE; default: break; } } else if ( d && d->rec((TQWidget*)obj) ) { // must be a child if ( e->type() == TQEvent::Resize ) d->autoResize(this); else if ( e->type() == TQEvent::Move ) d->autoMove(this); } return TQFrame::eventFilter( obj, e ); // always continue with standard event processing } /*! This event handler is called whenever the TQScrollView receives a mousePressEvent(): the press position in \a e is translated to be a point on the contents. */ void TQScrollView::contentsMousePressEvent( TQMouseEvent* e ) { e->ignore(); } /*! This event handler is called whenever the TQScrollView receives a mouseReleaseEvent(): the release position in \a e is translated to be a point on the contents. */ void TQScrollView::contentsMouseReleaseEvent( TQMouseEvent* e ) { e->ignore(); } /*! This event handler is called whenever the TQScrollView receives a mouseDoubleClickEvent(): the click position in \a e is translated to be a point on the contents. The default implementation generates a normal mouse press event. */ void TQScrollView::contentsMouseDoubleClickEvent( TQMouseEvent* e ) { contentsMousePressEvent(e); // try mouse press event } /*! This event handler is called whenever the TQScrollView receives a mouseMoveEvent(): the mouse position in \a e is translated to be a point on the contents. */ void TQScrollView::contentsMouseMoveEvent( TQMouseEvent* e ) { e->ignore(); } #ifndef TQT_NO_DRAGANDDROP /*! This event handler is called whenever the TQScrollView receives a dragEnterEvent(): the drag position is translated to be a point on the contents. */ void TQScrollView::contentsDragEnterEvent( TQDragEnterEvent * ) { } /*! This event handler is called whenever the TQScrollView receives a dragMoveEvent(): the drag position is translated to be a point on the contents. */ void TQScrollView::contentsDragMoveEvent( TQDragMoveEvent * ) { } /*! This event handler is called whenever the TQScrollView receives a dragLeaveEvent(): the drag position is translated to be a point on the contents. */ void TQScrollView::contentsDragLeaveEvent( TQDragLeaveEvent * ) { } /*! This event handler is called whenever the TQScrollView receives a dropEvent(): the drop position is translated to be a point on the contents. */ void TQScrollView::contentsDropEvent( TQDropEvent * ) { } #endif // TQT_NO_DRAGANDDROP /*! This event handler is called whenever the TQScrollView receives a wheelEvent() in \a{e}: the mouse position is translated to be a point on the contents. */ #ifndef TQT_NO_WHEELEVENT void TQScrollView::contentsWheelEvent( TQWheelEvent * e ) { e->ignore(); } #endif /*! This event handler is called whenever the TQScrollView receives a contextMenuEvent() in \a{e}: the mouse position is translated to be a point on the contents. */ void TQScrollView::contentsContextMenuEvent( TQContextMenuEvent *e ) { e->ignore(); } /*! This is a low-level painting routine that draws the viewport contents. Reimplement this if drawContents() is too high-level (for example, if you don't want to open a TQPainter on the viewport). The paint event is passed in \a pe. */ void TQScrollView::viewportPaintEvent( TQPaintEvent* pe ) { TQWidget* vp = viewport(); TQPainter p(vp); TQRect r = pe->rect(); if ( d->clipped_viewport ) { TQRect rr( -d->clipped_viewport->x(), -d->clipped_viewport->y(), d->viewport->width(), d->viewport->height() ); r &= rr; if ( r.isValid() ) { int ex = r.x() + d->clipped_viewport->x() + d->contentsX(); int ey = r.y() + d->clipped_viewport->y() + d->contentsY(); int ew = r.width(); int eh = r.height(); drawContentsOffset(&p, d->contentsX()+d->clipped_viewport->x(), d->contentsY()+d->clipped_viewport->y(), ex, ey, ew, eh); } } else { r &= d->viewport->rect(); int ex = r.x() + d->contentsX(); int ey = r.y() + d->contentsY(); int ew = r.width(); int eh = r.height(); drawContentsOffset(&p, d->contentsX(), d->contentsY(), ex, ey, ew, eh); } } /*! To provide simple processing of events on the contents, this function receives all resize events sent to the viewport. \sa TQWidget::resizeEvent() */ void TQScrollView::viewportResizeEvent( TQResizeEvent* ) { } /*! \internal To provide simple processing of events on the contents, this function receives all mouse press events sent to the viewport, translates the event and calls contentsMousePressEvent(). \sa contentsMousePressEvent(), TQWidget::mousePressEvent() */ void TQScrollView::viewportMousePressEvent( TQMouseEvent* e ) { TQMouseEvent ce(e->type(), viewportToContents(e->pos()), e->globalPos(), e->button(), e->state()); contentsMousePressEvent(&ce); if ( !ce.isAccepted() ) e->ignore(); } /*!\internal To provide simple processing of events on the contents, this function receives all mouse release events sent to the viewport, translates the event and calls contentsMouseReleaseEvent(). \sa TQWidget::mouseReleaseEvent() */ void TQScrollView::viewportMouseReleaseEvent( TQMouseEvent* e ) { TQMouseEvent ce(e->type(), viewportToContents(e->pos()), e->globalPos(), e->button(), e->state()); contentsMouseReleaseEvent(&ce); if ( !ce.isAccepted() ) e->ignore(); } /*!\internal To provide simple processing of events on the contents, this function receives all mouse double click events sent to the viewport, translates the event and calls contentsMouseDoubleClickEvent(). \sa TQWidget::mouseDoubleClickEvent() */ void TQScrollView::viewportMouseDoubleClickEvent( TQMouseEvent* e ) { TQMouseEvent ce(e->type(), viewportToContents(e->pos()), e->globalPos(), e->button(), e->state()); contentsMouseDoubleClickEvent(&ce); if ( !ce.isAccepted() ) e->ignore(); } /*!\internal To provide simple processing of events on the contents, this function receives all mouse move events sent to the viewport, translates the event and calls contentsMouseMoveEvent(). \sa TQWidget::mouseMoveEvent() */ void TQScrollView::viewportMouseMoveEvent( TQMouseEvent* e ) { TQMouseEvent ce(e->type(), viewportToContents(e->pos()), e->globalPos(), e->button(), e->state()); contentsMouseMoveEvent(&ce); if ( !ce.isAccepted() ) e->ignore(); } #ifndef TQT_NO_DRAGANDDROP /*!\internal To provide simple processing of events on the contents, this function receives all drag enter events sent to the viewport, translates the event and calls contentsDragEnterEvent(). \sa TQWidget::dragEnterEvent() */ void TQScrollView::viewportDragEnterEvent( TQDragEnterEvent* e ) { e->setPoint(viewportToContents(e->pos())); contentsDragEnterEvent(e); e->setPoint(contentsToViewport(e->pos())); } /*!\internal To provide simple processing of events on the contents, this function receives all drag move events sent to the viewport, translates the event and calls contentsDragMoveEvent(). \sa TQWidget::dragMoveEvent() */ void TQScrollView::viewportDragMoveEvent( TQDragMoveEvent* e ) { e->setPoint(viewportToContents(e->pos())); contentsDragMoveEvent(e); e->setPoint(contentsToViewport(e->pos())); } /*!\internal To provide simple processing of events on the contents, this function receives all drag leave events sent to the viewport and calls contentsDragLeaveEvent(). \sa TQWidget::dragLeaveEvent() */ void TQScrollView::viewportDragLeaveEvent( TQDragLeaveEvent* e ) { contentsDragLeaveEvent(e); } /*!\internal To provide simple processing of events on the contents, this function receives all drop events sent to the viewport, translates the event and calls contentsDropEvent(). \sa TQWidget::dropEvent() */ void TQScrollView::viewportDropEvent( TQDropEvent* e ) { e->setPoint(viewportToContents(e->pos())); contentsDropEvent(e); e->setPoint(contentsToViewport(e->pos())); } #endif // TQT_NO_DRAGANDDROP /*!\internal To provide simple processing of events on the contents, this function receives all wheel events sent to the viewport, translates the event and calls contentsWheelEvent(). \sa TQWidget::wheelEvent() */ #ifndef TQT_NO_WHEELEVENT void TQScrollView::viewportWheelEvent( TQWheelEvent* e ) { /* Different than standard mouse events, because wheel events might be sent to the focus widget if the widget-under-mouse doesn't want the event itself. */ TQWheelEvent ce( viewportToContents(e->pos()), e->globalPos(), e->delta(), e->state(), e->orientation()); contentsWheelEvent(&ce); if ( ce.isAccepted() ) e->accept(); else e->ignore(); } #endif /*! \internal To provide simple processing of events on the contents, this function receives all context menu events sent to the viewport, translates the event and calls contentsContextMenuEvent(). */ void TQScrollView::viewportContextMenuEvent( TQContextMenuEvent *e ) { TQContextMenuEvent ce(e->reason(), viewportToContents(e->pos()), e->globalPos(), e->state() ); contentsContextMenuEvent( &ce ); if ( ce.isAccepted() ) e->accept(); else e->ignore(); } /*! Returns the component horizontal scroll bar. It is made available to allow accelerators, autoscrolling, etc. It should not be used for other purposes. This function never returns 0. */ TQScrollBar* TQScrollView::horizontalScrollBar() const { return d->hbar; } /*! Returns the component vertical scroll bar. It is made available to allow accelerators, autoscrolling, etc. It should not be used for other purposes. This function never returns 0. */ TQScrollBar* TQScrollView::verticalScrollBar() const { return d->vbar; } /*! Scrolls the content so that the point \a (x, y) is visible with at least 50-pixel margins (if possible, otherwise centered). */ void TQScrollView::ensureVisible( int x, int y ) { ensureVisible(x, y, 50, 50); } /*! \overload Scrolls the content so that the point \a (x, y) is visible with at least the \a xmargin and \a ymargin margins (if possible, otherwise centered). */ void TQScrollView::ensureVisible( int x, int y, int xmargin, int ymargin ) { int pw=visibleWidth(); int ph=visibleHeight(); int cx=-d->contentsX(); int cy=-d->contentsY(); int cw=d->contentsWidth(); int ch=contentsHeight(); if ( pw < xmargin*2 ) xmargin=pw/2; if ( ph < ymargin*2 ) ymargin=ph/2; if ( cw <= pw ) { xmargin=0; cx=0; } if ( ch <= ph ) { ymargin=0; cy=0; } if ( x < -cx+xmargin ) cx = -x+xmargin; else if ( x >= -cx+pw-xmargin ) cx = -x+pw-xmargin; if ( y < -cy+ymargin ) cy = -y+ymargin; else if ( y >= -cy+ph-ymargin ) cy = -y+ph-ymargin; if ( cx > 0 ) cx=0; else if ( cx < pw-cw && cw>pw ) cx=pw-cw; if ( cy > 0 ) cy=0; else if ( cy < ph-ch && ch>ph ) cy=ph-ch; setContentsPos( -cx, -cy ); } /*! Scrolls the content so that the point \a (x, y) is in the top-left corner. */ void TQScrollView::setContentsPos( int x, int y ) { #if 0 // bounds checking... if ( TQApplication::reverseLayout() ) if ( x > d->contentsWidth() - visibleWidth() ) x = d->contentsWidth() - visibleWidth(); else #endif if ( x < 0 ) x = 0; if ( y < 0 ) y = 0; // Choke signal handling while we update BOTH sliders. d->signal_choke=TRUE; moveContents( -x, -y ); d->vbar->setValue( y ); d->hbar->setValue( x ); d->signal_choke=FALSE; } /*! Scrolls the content by \a dx to the left and \a dy upwards. */ void TQScrollView::scrollBy( int dx, int dy ) { setContentsPos( TQMAX( d->contentsX()+dx, 0 ), TQMAX( d->contentsY()+dy, 0 ) ); } /*! Scrolls the content so that the point \a (x, y) is in the center of visible area. */ void TQScrollView::center( int x, int y ) { ensureVisible( x, y, 32000, 32000 ); } /*! \overload Scrolls the content so that the point \a (x, y) is visible with the \a xmargin and \a ymargin margins (as fractions of visible the area). For example: \list \i Margin 0.0 allows (x, y) to be on the edge of the visible area. \i Margin 0.5 ensures that (x, y) is in middle 50% of the visible area. \i Margin 1.0 ensures that (x, y) is in the center of the the visible area. \endlist */ void TQScrollView::center( int x, int y, float xmargin, float ymargin ) { int pw=visibleWidth(); int ph=visibleHeight(); ensureVisible( x, y, int( xmargin/2.0*pw+0.5 ), int( ymargin/2.0*ph+0.5 ) ); } /*! \fn void TQScrollView::contentsMoving(int x, int y) This signal is emitted just before the contents are moved to position \a (x, y). \sa contentsX(), contentsY() */ /*! Moves the contents by \a (x, y). */ void TQScrollView::moveContents(int x, int y) { if ( -x+visibleWidth() > d->contentsWidth() ) #if 0 if( TQApplication::reverseLayout() ) x=TQMAX(0,-d->contentsWidth()+visibleWidth()); else #endif x=TQMIN(0,-d->contentsWidth()+visibleWidth()); if ( -y+visibleHeight() > contentsHeight() ) y=TQMIN(0,-contentsHeight()+visibleHeight()); int dx = x - d->vx; int dy = y - d->vy; if (!dx && !dy) return; // Nothing to do emit contentsMoving( -x, -y ); d->vx = x; d->vy = y; if ( d->clipped_viewport || d->static_bg ) { // Cheap move (usually) d->moveAllBy(dx,dy); } else if ( /*dx && dy ||*/ ( TQABS(dy) * 5 > visibleHeight() * 4 ) || ( TQABS(dx) * 5 > visibleWidth() * 4 ) ) { // Big move if ( viewport()->isUpdatesEnabled() ) viewport()->update(); d->moveAllBy(dx,dy); } else if ( !d->fake_scroll || d->contentsWidth() > visibleWidth() ) { // Small move clipper()->scroll(dx,dy); } d->hideOrShowAll(this, TRUE ); } /*! \property TQScrollView::contentsX \brief the X coordinate of the contents that are at the left edge of the viewport. */ int TQScrollView::contentsX() const { return d->contentsX(); } /*! \property TQScrollView::contentsY \brief the Y coordinate of the contents that are at the top edge of the viewport. */ int TQScrollView::contentsY() const { return d->contentsY(); } /*! \property TQScrollView::contentsWidth \brief the width of the contents area */ int TQScrollView::contentsWidth() const { return d->contentsWidth(); } /*! \property TQScrollView::contentsHeight \brief the height of the contents area */ int TQScrollView::contentsHeight() const { return d->vheight; } /*! Sets the size of the contents area to \a w pixels wide and \a h pixels high and updates the viewport accordingly. */ void TQScrollView::resizeContents( int w, int h ) { int ow = d->vwidth; int oh = d->vheight; d->vwidth = w; d->vheight = h; d->scrollbar_timer.start( 0, TRUE ); if ( d->children.isEmpty() && d->policy == Default ) setResizePolicy( Manual ); if ( ow > w ) { // Swap int t=w; w=ow; ow=t; } // Refresh area ow..w if ( ow < visibleWidth() && w >= 0 ) { if ( ow < 0 ) ow = 0; if ( w > visibleWidth() ) w = visibleWidth(); clipper()->update( d->contentsX()+ow, 0, w-ow, visibleHeight() ); } if ( oh > h ) { // Swap int t=h; h=oh; oh=t; } // Refresh area oh..h if ( oh < visibleHeight() && h >= 0 ) { if ( oh < 0 ) oh = 0; if ( h > visibleHeight() ) h = visibleHeight(); clipper()->update( 0, d->contentsY()+oh, visibleWidth(), h-oh); } } /*! Calls update() on a rectangle defined by \a x, \a y, \a w, \a h, translated appropriately. If the rectangle is not visible, nothing is repainted. \sa repaintContents() */ void TQScrollView::updateContents( int x, int y, int w, int h ) { if ( testWState(WState_Visible|WState_BlockUpdates) != WState_Visible ) return; TQWidget* vp = viewport(); // Translate x -= d->contentsX(); y -= d->contentsY(); // Clip to TQCOORD space if ( x < 0 ) { w += x; x = 0; } if ( y < 0 ) { h += y; y = 0; } if ( w < 0 || h < 0 ) return; if ( x > visibleWidth() || y > visibleHeight() ) return; if ( w > visibleWidth() ) w = visibleWidth(); if ( h > visibleHeight() ) h = visibleHeight(); if ( d->clipped_viewport ) { // Translate clipper() to viewport() x -= d->clipped_viewport->x(); y -= d->clipped_viewport->y(); } vp->update( x, y, w, h ); } /*! \overload Updates the contents in rectangle \a r */ void TQScrollView::updateContents( const TQRect& r ) { updateContents(r.x(), r.y(), r.width(), r.height()); } /*! \overload */ void TQScrollView::updateContents() { updateContents( d->contentsX(), d->contentsY(), visibleWidth(), visibleHeight() ); } /*! \overload Repaints the contents of rectangle \a r. If \a erase is TRUE the background is cleared using the background color. */ void TQScrollView::repaintContents( const TQRect& r, bool erase ) { repaintContents(r.x(), r.y(), r.width(), r.height(), erase); } /*! \overload Repaints the contents. If \a erase is TRUE the background is cleared using the background color. */ void TQScrollView::repaintContents( bool erase ) { repaintContents( d->contentsX(), d->contentsY(), visibleWidth(), visibleHeight(), erase ); } /*! Calls repaint() on a rectangle defined by \a x, \a y, \a w, \a h, translated appropriately. If the rectangle is not visible, nothing is repainted. If \a erase is TRUE the background is cleared using the background color. \sa updateContents() */ void TQScrollView::repaintContents( int x, int y, int w, int h, bool erase ) { if ( testWState(WState_Visible|WState_BlockUpdates) != WState_Visible ) return; TQWidget* vp = viewport(); // Translate logical to clipper() x -= d->contentsX(); y -= d->contentsY(); // Clip to TQCOORD space if ( x < 0 ) { w += x; x = 0; } if ( y < 0 ) { h += y; y = 0; } if ( w < 0 || h < 0 ) return; if ( w > visibleWidth() ) w = visibleWidth(); if ( h > visibleHeight() ) h = visibleHeight(); if ( d->clipped_viewport ) { // Translate clipper() to viewport() x -= d->clipped_viewport->x(); y -= d->clipped_viewport->y(); } vp->repaint( x, y, w, h, erase ); } /*! For backward-compatibility only. It is easier to use drawContents(TQPainter*,int,int,int,int). The default implementation translates the painter appropriately and calls drawContents(TQPainter*,int,int,int,int). See drawContents() for an explanation of the parameters \a p, \a offsetx, \a offsety, \a clipx, \a clipy, \a clipw and \a cliph. */ void TQScrollView::drawContentsOffset(TQPainter* p, int offsetx, int offsety, int clipx, int clipy, int clipw, int cliph) { p->translate(-offsetx,-offsety); drawContents(p, clipx, clipy, clipw, cliph); } /*! \fn void TQScrollView::drawContents(TQPainter* p, int clipx, int clipy, int clipw, int cliph) Reimplement this function if you are viewing a drawing area rather than a widget. The function should draw the rectangle (\a clipx, \a clipy, \a clipw, \a cliph) of the contents using painter \a p. The clip rectangle is in the scrollview's coordinates. For example: \code { // Fill a 40000 by 50000 rectangle at (100000,150000) // Calculate the coordinates... int x1 = 100000, y1 = 150000; int x2 = x1+40000-1, y2 = y1+50000-1; // Clip the coordinates so X/Windows will not have problems... if (x1 < clipx) x1=clipx; if (y1 < clipy) y1=clipy; if (x2 > clipx+clipw-1) x2=clipx+clipw-1; if (y2 > clipy+cliph-1) y2=clipy+cliph-1; // Paint using the small coordinates... if ( x2 >= x1 && y2 >= y1 ) p->fillRect(x1, y1, x2-x1+1, y2-y1+1, red); } \endcode The clip rectangle and translation of the painter \a p is already set appropriately. */ void TQScrollView::drawContents(TQPainter*, int, int, int, int) { } /*! \reimp */ void TQScrollView::frameChanged() { // slight ugle-hack - the listview header needs readjusting when // changing the frame if (TQListView *lv = ::tqt_cast(this)) lv->triggerUpdate(); TQFrame::frameChanged(); updateScrollBars(); } /*! Returns the viewport widget of the scrollview. This is the widget containing the contents widget or which is the drawing area. */ TQWidget* TQScrollView::viewport() const { if ( d->clipped_viewport ) return d->clipped_viewport; return d->viewport; } /*! Returns the clipper widget. Contents in the scrollview are ultimately clipped to be inside the clipper widget. You should not need to use this function. \sa visibleWidth(), visibleHeight() */ TQWidget* TQScrollView::clipper() const { return d->viewport; } /*! \property TQScrollView::visibleWidth \brief the horizontal amount of the content that is visible */ int TQScrollView::visibleWidth() const { return clipper()->width(); } /*! \property TQScrollView::visibleHeight \brief the vertical amount of the content that is visible */ int TQScrollView::visibleHeight() const { return clipper()->height(); } void TQScrollView::changeFrameRect(const TQRect& r) { TQRect oldr = frameRect(); if (oldr != r) { TQRect cr = contentsRect(); TQRegion fr( frameRect() ); fr = fr.subtract( contentsRect() ); setFrameRect( r ); if ( isVisible() ) { cr = cr.intersect( contentsRect() ); fr = fr.unite( frameRect() ); fr = fr.subtract( cr ); if ( !fr.isEmpty() ) TQApplication::postEvent( this, new TQPaintEvent( fr, FALSE ) ); } } } /*! Sets the margins around the scrolling area to \a left, \a top, \a right and \a bottom. This is useful for applications such as spreadsheets with "locked" rows and columns. The marginal space is \e inside the frameRect() and is left blank; reimplement drawFrame() or put widgets in the unused area. By default all margins are zero. \sa frameChanged() */ void TQScrollView::setMargins(int left, int top, int right, int bottom) { if ( left == d->l_marg && top == d->t_marg && right == d->r_marg && bottom == d->b_marg ) return; d->l_marg = left; d->t_marg = top; d->r_marg = right; d->b_marg = bottom; updateScrollBars(); } /*! Returns the left margin. \sa setMargins() */ int TQScrollView::leftMargin() const { return d->l_marg; } /*! Returns the top margin. \sa setMargins() */ int TQScrollView::topMargin() const { return d->t_marg; } /*! Returns the right margin. \sa setMargins() */ int TQScrollView::rightMargin() const { return d->r_marg; } /*! Returns the bottom margin. \sa setMargins() */ int TQScrollView::bottomMargin() const { return d->b_marg; } /*! \reimp */ bool TQScrollView::focusNextPrevChild( bool next ) { // Makes sure that the new focus widget is on-screen, if // necessary by scrolling the scroll view. // first set things up for the scan TQFocusData *f = focusData(); TQWidget *startingPoint = f->home(); TQWidget *candidate = 0; TQWidget *w = next ? f->next() : f->prev(); TQSVChildRec *r; extern bool tqt_tab_all_widgets; uint focus_flag = tqt_tab_all_widgets ? TabFocus : StrongFocus; // then scan for a possible focus widget candidate while( !candidate && w != startingPoint ) { if ( w != startingPoint && (w->focusPolicy() & focus_flag) == focus_flag && w->isEnabled() &&!w->focusProxy() && w->isVisible() ) candidate = w; w = next ? f->next() : f->prev(); } // if we could not find one, maybe super or parentWidget() can? if ( !candidate ) return TQFrame::focusNextPrevChild( next ); // we've found one. r = d->ancestorRec( candidate ); if ( r && ( r->child == candidate || candidate->isVisibleTo( r->child ) ) ) { TQPoint cp = r->child->mapToGlobal(TQPoint(0,0)); TQPoint cr = candidate->mapToGlobal(TQPoint(0,0)) - cp; ensureVisible( r->x+cr.x()+candidate->width()/2, r->y+cr.y()+candidate->height()/2, candidate->width()/2, candidate->height()/2 ); } candidate->setFocus(); return TRUE; } /*! When a large numbers of child widgets are in a scrollview, especially if they are close together, the scrolling performance can suffer greatly. If \a y is TRUE the scrollview will use an extra widget to group child widgets. Note that you may only call enableClipper() prior to adding widgets. For a full discussion, see this class's \link #enableclipper detailed description\endlink. */ void TQScrollView::enableClipper(bool y) { if ( !d->clipped_viewport == !y ) return; if ( d->children.count() ) tqFatal("May only call TQScrollView::enableClipper() before adding widgets"); if ( y ) { d->clipped_viewport = new TQClipperWidget(clipper(), "qt_clipped_viewport", d->flags); d->clipped_viewport->setGeometry(-coord_limit/2,-coord_limit/2, coord_limit,coord_limit); d->clipped_viewport->setBackgroundMode( d->viewport->backgroundMode() ); d->viewport->setBackgroundMode(NoBackground); // no exposures for this d->viewport->removeEventFilter( this ); d->clipped_viewport->installEventFilter( this ); d->clipped_viewport->show(); } else { delete d->clipped_viewport; d->clipped_viewport = 0; } } /*! Sets the scrollview to have a static background if \a y is TRUE, or a scrolling background if \a y is FALSE. By default, the background is scrolling. Be aware that this mode is quite slow, as a full repaint of the visible area has to be triggered on every contents move. \sa hasStaticBackground() */ void TQScrollView::setStaticBackground(bool y) { d->static_bg = y; } /*! Returns TRUE if TQScrollView uses a static background; otherwise returns FALSE. \sa setStaticBackground() */ bool TQScrollView::hasStaticBackground() const { return d->static_bg; } /*! \overload Returns the point \a p translated to a point on the viewport() widget. */ TQPoint TQScrollView::contentsToViewport( const TQPoint& p ) const { if ( d->clipped_viewport ) { return TQPoint( p.x() - d->contentsX() - d->clipped_viewport->x(), p.y() - d->contentsY() - d->clipped_viewport->y() ); } else { return TQPoint( p.x() - d->contentsX(), p.y() - d->contentsY() ); } } /*! \overload Returns the point on the viewport \a vp translated to a point in the contents. */ TQPoint TQScrollView::viewportToContents( const TQPoint& vp ) const { if ( d->clipped_viewport ) { return TQPoint( vp.x() + d->contentsX() + d->clipped_viewport->x(), vp.y() + d->contentsY() + d->clipped_viewport->y() ); } else { return TQPoint( vp.x() + d->contentsX(), vp.y() + d->contentsY() ); } } /*! Translates a point (\a x, \a y) in the contents to a point (\a vx, \a vy) on the viewport() widget. */ void TQScrollView::contentsToViewport( int x, int y, int& vx, int& vy ) const { const TQPoint v = contentsToViewport(TQPoint(x,y)); vx = v.x(); vy = v.y(); } /*! Translates a point (\a vx, \a vy) on the viewport() widget to a point (\a x, \a y) in the contents. */ void TQScrollView::viewportToContents( int vx, int vy, int& x, int& y ) const { const TQPoint c = viewportToContents(TQPoint(vx,vy)); x = c.x(); y = c.y(); } /*! \reimp */ TQSize TQScrollView::sizeHint() const { if ( d->use_cached_size_hint && d->cachedSizeHint.isValid() ) return d->cachedSizeHint; constPolish(); int f = 2 * frameWidth(); int h = fontMetrics().height(); TQSize sz( f, f ); if ( d->policy > Manual ) { TQSVChildRec *r = d->children.first(); if ( r ) { TQSize cs = r->child->sizeHint(); if ( cs.isValid() ) sz += cs.boundedTo( r->child->maximumSize() ); else sz += r->child->size(); } } else { sz += TQSize( d->contentsWidth(), contentsHeight() ); } if (d->vMode == AlwaysOn) sz.setWidth(sz.width() + d->vbar->sizeHint().width()); if (d->hMode == AlwaysOn) sz.setHeight(sz.height() + d->hbar->sizeHint().height()); return sz.expandedTo( TQSize(12 * h, 8 * h) ) .boundedTo( TQSize(36 * h, 24 * h) ); } /*! \reimp */ TQSize TQScrollView::minimumSizeHint() const { int h = fontMetrics().height(); if ( h < 10 ) h = 10; int f = 2 * frameWidth(); return TQSize( (6 * h) + f, (4 * h) + f ); } /*! \reimp (Implemented to get rid of a compiler warning.) */ void TQScrollView::drawContents( TQPainter * ) { } #ifndef TQT_NO_DRAGANDDROP /*! \internal */ void TQScrollView::startDragAutoScroll() { if ( !d->autoscroll_timer.isActive() ) { d->autoscroll_time = initialScrollTime; d->autoscroll_accel = initialScrollAccel; d->autoscroll_timer.start( d->autoscroll_time ); } } /*! \internal */ void TQScrollView::stopDragAutoScroll() { d->autoscroll_timer.stop(); } /*! \internal */ void TQScrollView::doDragAutoScroll() { TQPoint p = d->viewport->mapFromGlobal( TQCursor::pos() ); if ( d->autoscroll_accel-- <= 0 && d->autoscroll_time ) { d->autoscroll_accel = initialScrollAccel; d->autoscroll_time--; d->autoscroll_timer.start( d->autoscroll_time ); } int l = TQMAX( 1, ( initialScrollTime- d->autoscroll_time ) ); int dx = 0, dy = 0; if ( p.y() < autoscroll_margin ) { dy = -l; } else if ( p.y() > visibleHeight() - autoscroll_margin ) { dy = +l; } if ( p.x() < autoscroll_margin ) { dx = -l; } else if ( p.x() > visibleWidth() - autoscroll_margin ) { dx = +l; } if ( dx || dy ) { scrollBy(dx,dy); } else { stopDragAutoScroll(); } } /*! \property TQScrollView::dragAutoScroll \brief whether autoscrolling in drag move events is enabled If this property is set to TRUE (the default), the TQScrollView automatically scrolls the contents in drag move events if the user moves the cursor close to a border of the view. Of course this works only if the viewport accepts drops. Specifying FALSE disables this autoscroll feature. \warning Enabling this property might not be enough to effectively turn on autoscrolling. If you put a custom widget in the TQScrollView, you might need to call TQDragEvent::ignore() on the event in the dragEnterEvent() and dragMoveEvent() reimplementations. */ void TQScrollView::setDragAutoScroll( bool b ) { d->drag_autoscroll = b; } bool TQScrollView::dragAutoScroll() const { return d->drag_autoscroll; } #endif // TQT_NO_DRAGANDDROP /*!\internal */ void TQScrollView::setCachedSizeHint( const TQSize &sh ) const { if ( isVisible() && !d->cachedSizeHint.isValid() ) d->cachedSizeHint = sh; } /*!\internal */ void TQScrollView::disableSizeHintCaching() { d->use_cached_size_hint = FALSE; } /*!\internal */ TQSize TQScrollView::cachedSizeHint() const { return d->use_cached_size_hint ? d->cachedSizeHint : TQSize(); } #endif // TQT_NO_SCROLLVIEW