/* This file is part of the KDE project Copyright (C) 2001-2002 Matthias Kretz This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License version 2 as published by the Free Software Foundation. This program 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 General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "kimagecanvas.h" #include "kimageholder.h" #include "version.h" #include "config/defaults.h" #include #include #include #include #include #include #include #include #include #include #define KIMAGECANVAS_WIPESIZE 5 const int MOUSECURSORHIDETIME = 3000; //extern bool qt_use_xrender; typedef KGenericFactory KImageCanvasFactory; K_EXPORT_COMPONENT_FACTORY( libkviewcanvas, KImageCanvasFactory( "kviewcanvas" ) ) KImageCanvas::KImageCanvas( TQWidget * parent, const char * name, const TQStringList & ) : TQScrollView( parent, name, WResizeNoErase | WStaticContents ) , m_client( 0 ) , m_oldClient( 0 ) , m_image( 0 ) , m_imageTransformed( 0 ) , m_pixmap( 0 ) , m_pTimer( new TQTimer( this, "KImageCanvas/Timer" ) ) , m_maxsize( Defaults::maxSize ) , m_minsize( Defaults::minSize ) , m_currentsize( 0, 0 ) , m_zoom( 1.0 ) , m_fastscale( ! Defaults::smoothScaling ) , m_keepaspectratio( Defaults::keepAspectRatio ) , m_bImageChanged( false ) , m_bSizeChanged( false ) , m_bNeedNewPixmap( false ) , m_bCentered( Defaults::centerImage ) , m_bImageUpdateScheduled( false ) , m_bNewImage( false ) , m_iBlendTimerId( 0 ) { kdDebug( 4620 ) << k_funcinfo << endl; setFrameStyle( TQFrame::NoFrame ); setResizePolicy( TQScrollView::Manual ); setMinimumSize( 0, 0 ); setBgColor( Defaults::bgColor ); connect( this, TQT_SIGNAL( imageChanged() ), this, TQT_SLOT( slotImageChanged() ) ); connect( m_pTimer, TQT_SIGNAL( timeout() ), this, TQT_SLOT( hideCursor() ) ); KSettings::Dispatcher::self()->registerInstance( KImageCanvasFactory::instance(), TQT_TQOBJECT(this), TQT_SLOT( loadSettings() ) ); viewport()->setFocusProxy( this ); clear(); TQWidget::setMouseTracking( true ); viewport()->setMouseTracking( true ); m_cursor.setShape( Qt::CrossCursor ); viewport()->setCursor( m_cursor ); m_pTimer->start( MOUSECURSORHIDETIME, true ); loadSettings(); } KImageCanvas::~KImageCanvas() { kdDebug( 4620 ) << k_funcinfo << endl; delete m_image; m_image = 0; delete m_pixmap; m_pixmap = 0; } void KImageCanvas::setBgColor( const TQColor & color ) { kdDebug( 4620 ) << k_funcinfo << endl; viewport()->setPaletteBackgroundColor( color ); if( m_client ) m_client->setPaletteBackgroundColor( color ); } const TQColor & KImageCanvas::bgColor() const { kdDebug( 4620 ) << k_funcinfo << endl; return viewport()->paletteBackgroundColor(); } int KImageCanvas::imageDepth() const { kdDebug( 4620 ) << k_funcinfo << endl; if( ! m_image ) return 0; return m_image->depth(); } TQSize KImageCanvas::imageSize() const { //kdDebug( 4620 ) << k_funcinfo << endl; if( ! m_image ) return TQSize( 0, 0 ); return m_matrix.isIdentity() ? m_image->size() : m_matrix.mapRect( TQRect( TQPoint(), m_image->size() ) ).size(); } TQSize KImageCanvas::currentSize() const { kdDebug( 4620 ) << k_funcinfo << endl; if( ! m_image ) return TQSize( 0, 0 ); return m_currentsize; } const TQImage * KImageCanvas::image() const { if( m_imageTransformed ) return m_imageTransformed; return m_image; } TQRect KImageCanvas::selection() const { kdDebug( 4620 ) << k_funcinfo << endl; if( m_client ) return m_selection; else return TQRect(); } void KImageCanvas::setCentered( bool centered ) { kdDebug( 4620 ) << k_funcinfo << endl; if( m_bCentered != centered ) { m_bCentered = centered; center(); } } void KImageCanvas::setImage( const TQImage & newimage ) { bool emitHasImage = m_image ? false : true; m_matrix.reset(); matrixChanged(); delete m_image; m_image = new TQImage( newimage ); m_bNewImage = true; // don't emit the signal here - call the slot directly slotImageChanged(); sizeFromZoom( m_zoom ); updateImage(); if( emitHasImage && m_image ) emit hasImage( true ); } void KImageCanvas::setImage( const TQImage & newimage, const TQSize & size ) { kdDebug( 4620 ) << k_funcinfo << size << endl; bool emitHasImage = m_image ? false : true; m_matrix.reset(); matrixChanged(); delete m_image; m_image = new TQImage( newimage ); m_bNewImage = true; // don't emit the signal here - call the slot directly slotImageChanged(); resizeImage( size ); updateImage(); if( emitHasImage && m_image ) emit hasImage( true ); } void KImageCanvas::setZoom( double zoom ) { kdDebug( 4620 ) << k_funcinfo << zoom << endl; if( m_image == 0 ) return; if( zoom > 0.0 && m_zoom != zoom ) { m_zoom = zoom; sizeFromZoom( m_zoom ); emit zoomChanged( m_zoom ); updateImage(); } } void KImageCanvas::boundImageTo( const TQSize & size ) { bool keepAspectRatio = m_keepaspectratio; m_keepaspectratio = true; resizeImage( size ); m_keepaspectratio = keepAspectRatio; } void KImageCanvas::setMaximumImageSize( const TQSize & maxsize ) { kdDebug( 4620 ) << k_funcinfo << maxsize << endl; if( ( ! m_minsize.isEmpty() ) && ( maxsize.width() < m_minsize.width() || maxsize.height() < m_minsize.height() ) ) { kdWarning( 4620 ) << "the new maximum image size is smaller than the minimum size" << endl; return; } m_maxsize = maxsize; resizeImage( m_currentsize ); } void KImageCanvas::setMinimumImageSize( const TQSize & minsize ) { kdDebug( 4620 ) << k_funcinfo << minsize << endl; if( ( ! m_maxsize.isEmpty() ) && ( minsize.width() > m_maxsize.width() || minsize.height() > m_maxsize.height() ) ) { kdWarning( 4620 ) << "the new minimum image size is greater than the maximum size" << endl; return; } m_minsize = minsize; resizeImage( m_currentsize ); } void KImageCanvas::resizeImage( const TQSize & newsize ) { kdDebug( 4620 ) << k_funcinfo << endl; if( m_image == 0 ) return; TQSize size = newsize; // check that it fits into min and max sizes checkBounds( size ); // calculate the new zoom factor zoomFromSize( size ); if( size != m_currentsize ) { m_currentsize = size; sizeChanged(); updateImage(); } } void KImageCanvas::hideScrollbars( bool hidden ) { kdDebug( 4620 ) << k_funcinfo << endl; if( hidden ) { setVScrollBarMode( AlwaysOff ); setHScrollBarMode( AlwaysOff ); } else { setVScrollBarMode( Auto ); setHScrollBarMode( Auto ); } } void KImageCanvas::setKeepAspectRatio( bool aspect ) { kdDebug( 4620 ) << k_funcinfo << endl; m_keepaspectratio = aspect; } unsigned int KImageCanvas::numOfBlendEffects() const { return Defaults::numOfBlendEffects; } TQString KImageCanvas::blendEffectDescription( unsigned int idx ) const { kdDebug( 4620 ) << k_funcinfo << endl; switch( idx ) { case NoBlending: kdWarning( 4620 ) << k_funcinfo << " shouldn't be called with an index of 0 - That's always not really defined\n"; return i18n( Defaults::blendEffectDescription[ 0 ] ); case AlphaBlend: return i18n( Defaults::blendEffectDescription[ 5 ] ); case WipeFromLeft: return i18n( Defaults::blendEffectDescription[ 1 ] ); case WipeFromRight: return i18n( Defaults::blendEffectDescription[ 2 ] ); case WipeFromTop: return i18n( Defaults::blendEffectDescription[ 3 ] ); case WipeFromBottom: return i18n( Defaults::blendEffectDescription[ 4 ] ); } kdError( 4620 ) << "Effect description for effect with index " << idx << " doesn't exist\n"; return TQString(); } bool KImageCanvas::eventFilter( TQObject * obj, TQEvent * ev ) { if( ( TQT_BASE_OBJECT(obj) == TQT_BASE_OBJECT(m_client) || TQT_BASE_OBJECT(obj) == TQT_BASE_OBJECT(m_oldClient) ) && ev->type() == TQEvent::MouseMove ) mouseMoveEvent( TQT_TQMOUSEEVENT( ev ) ); return TQScrollView::eventFilter( obj, ev ); } void KImageCanvas::setFastScale( bool fastscale ) { kdDebug( 4620 ) << k_funcinfo << endl; m_fastscale = fastscale; if( m_fastscale ) { // wo do scaling with a matrix now, so the m_imageTransformed isn't needed anymore delete m_imageTransformed; m_imageTransformed = 0; } else { matrixChanged(); // set the flag to dirty so that a new m_imageTransformed will be created // else we very relyably get a crash } updateImage(); } void KImageCanvas::clear() { kdDebug( 4620 ) << k_funcinfo << endl; bool emitHasImage = m_image ? true : false; delete m_image; m_image = 0; m_currentsize -= m_currentsize; //zero size if( m_client ) m_client->clear(); if( emitHasImage && ! m_image ) emit hasImage( false ); } void KImageCanvas::flipHorizontal( bool change ) { kdDebug( 4620 ) << k_funcinfo << endl; if( m_image == 0 ) return; if( change ) { TQWMatrix matrix( 1.0F, 0.0F, 0.0F, -1.0F, 0.0F, 0.0F ); *m_image = m_image->xForm( matrix ); emit imageChanged(); } else { m_matrix.scale( 1.0, -1.0 ); matrixChanged(); } // size didn't change updateImage(); } void KImageCanvas::flipVertical( bool change ) { kdDebug( 4620 ) << k_funcinfo << endl; if( m_image == 0 ) return; if( change ) { TQWMatrix matrix( -1.0F, 0.0F, 0.0F, 1.0F, 0.0F, 0.0F ); *m_image = m_image->xForm( matrix ); emit imageChanged(); } else { m_matrix.scale( -1.0, 1.0 ); matrixChanged(); } // size didn't change updateImage(); } void KImageCanvas::rotate( double a, bool change ) { kdDebug( 4620 ) << k_funcinfo << endl; if( m_image == 0 ) return; if( change ) { TQWMatrix matrix; matrix.rotate( a ); *m_image = m_image->xForm( matrix ); emit imageChanged(); } else { m_matrix.rotate( a ); matrixChanged(); } //adjust m_currentsize sizeFromZoom( m_zoom ); updateImage(); } void KImageCanvas::checkBounds( TQSize & newsize ) { kdDebug( 4620 ) << k_funcinfo << endl; if( m_keepaspectratio ) { // check that the new size has the same aspect ratio the original image had TQSize origsize = imageSize(); double x1 = double( origsize.height() ) / double( newsize.height() ); double x2 = double( origsize.width() ) / double( newsize.width() ); if( ( newsize * x1 != origsize ) || ( newsize * x2 != origsize ) ) { // not OK kdDebug( 4620 ) << "checkBounds: the aspect ratio wasn't kept changing from " << newsize << endl; // the user want's that the aspect ratio doesn't change. The // question is: make it larger or smaller? // we make it smaller (we depend on that in boundImageTo) newsize = origsize / KMAX( x1, x2 ); kdDebug( 4620 ) << "checkBounds: to " << newsize << endl; } } if( ( ! m_maxsize.isEmpty() ) && ( newsize.width() > m_maxsize.width() || newsize.height() > m_maxsize.height() ) ) { kdDebug( 4620 ) << "checkBounds: the new size is bigger than the max size" << endl; if( m_keepaspectratio ) { double x1 = double( m_maxsize.height() ) / double( newsize.height() ); double x2 = double( m_maxsize.width() ) / double( newsize.width() ); double x = KMIN( x1, x2 );//( x1 > x2 ) ? x2 : x1; newsize *= x; } else newsize = newsize.boundedTo( m_maxsize ); } if( ( ! m_minsize.isEmpty() ) && ( newsize.width() < m_minsize.width() || newsize.height() < m_minsize.height() ) ) { kdDebug( 4620 ) << "checkBounds: the new size is smaller than the min size" << endl; if( m_keepaspectratio ) { double x1 = double( m_minsize.height() ) / double( newsize.height() ); double x2 = double( m_minsize.width() ) / double( newsize.width() ); double x = KMAX( x1, x2 );//( x1 > x2 ) ? x1 : x2; newsize *= x; } else newsize = newsize.expandedTo( m_minsize ); } // if it still won't fit we have a problem: we can't keep the aspect ratio or we have // to violate the min/max settings if( ( ! m_maxsize.isEmpty() ) && ( newsize.width() > m_maxsize.width() || newsize.height() > m_maxsize.height() ) ) { kdDebug( 4620 ) << "checkBounds: Sorry, I can't keep the aspect ratio." << endl; newsize = newsize.boundedTo( m_maxsize ); } } void KImageCanvas::zoomFromSize( const TQSize & newsize ) { kdDebug( 4620 ) << k_funcinfo << endl; if( ! m_image ) return; TQSize originalsize = imageSize(); double widthzoom = double( newsize.width() ) / double( originalsize.width() ); double heightzoom = double( newsize.height() ) / double( originalsize.height() ); double zoom = ( widthzoom + heightzoom ) / 2; if( zoom != m_zoom ) { m_zoom = zoom; emit zoomChanged( m_zoom ); } } void KImageCanvas::sizeFromZoom( double zoom ) { kdDebug( 4620 ) << k_funcinfo << endl; if( ! m_image ) return; TQSize newsize = zoom * imageSize(); kdDebug( 4620 ) << "change size from " << imageSize() << " to " << newsize << endl; resizeImage( newsize ); } void KImageCanvas::updateImage() { kdDebug( 4620 ) << k_funcinfo << endl; if( ! m_bImageUpdateScheduled ) TQTimer::singleShot( 0, this, TQT_SLOT( slotUpdateImage() ) ); m_bImageUpdateScheduled = true; } void KImageCanvas::slotUpdateImage() { kdDebug( 4620 ) << k_funcinfo << endl; m_bImageUpdateScheduled = false; if( m_image == 0 ) return; //only update if something was changed if( m_bImageChanged || m_bSizeChanged || m_bMatrixChanged ) { kdDebug( 4620 ) << "actually updating the image now" << endl; TQApplication::setOverrideCursor( WaitCursor ); if( m_bNewImage || ! m_client ) { finishNewClient(); m_oldClient = m_client; m_client = createNewClient(); } m_client->setImage( pixmap() ); if( m_bSizeChanged || m_bNewImage ) { TQSize sh = m_client->sizeHint(); if( ! sh.isValid() ) sh = TQSize( 0, 0 ); m_client->resize( sh ); resizeContents( sh.width(), sh.height() ); center(); } TQRect drawRect = m_client->drawRect(); switch( m_iBlendEffect ) { case NoBlending: break; case AlphaBlend: break; case WipeFromLeft: drawRect.setRight( KIMAGECANVAS_WIPESIZE + contentsX() ); m_client->setDrawRect( drawRect ); break; case WipeFromRight: drawRect.rLeft() += KMIN( drawRect.width() - KIMAGECANVAS_WIPESIZE, contentsX() + visibleWidth() ); m_client->setDrawRect( drawRect ); break; case WipeFromTop: drawRect.setBottom( KIMAGECANVAS_WIPESIZE + contentsY() ); m_client->setDrawRect( drawRect ); break; case WipeFromBottom: drawRect.setTop( KMIN( drawRect.height() - KIMAGECANVAS_WIPESIZE, contentsY() + visibleHeight() ) ); m_client->setDrawRect( drawRect ); break; } m_client->update(); m_iBlendTimerId = startTimer( 5 ); TQApplication::restoreOverrideCursor(); } m_bNewImage = false; m_bImageChanged = false; m_bSizeChanged = false; m_bMatrixChanged = false; } void KImageCanvas::mouseMoveEvent( TQMouseEvent * ) { if( m_cursor.shape() == TQt::BlankCursor ) { m_cursor.setShape( Qt::CrossCursor ); viewport()->setCursor( m_cursor ); if( m_client ) m_client->setCursor( m_cursor ); } m_pTimer->start( MOUSECURSORHIDETIME, true ); } void KImageCanvas::resizeEvent( TQResizeEvent * ev ) { kdDebug( 4620 ) << "KImageCanvas resized to " << ev->size() << endl; TQScrollView::resizeEvent( ev ); center(); } void KImageCanvas::contentsMousePressEvent( TQMouseEvent * ev ) { if ( ev->button() == Qt::RightButton ) emit contextPress( ev->globalPos() ); TQScrollView::contentsMousePressEvent( ev ); } void KImageCanvas::contentsWheelEvent( TQWheelEvent * ev ) { //kdDebug( 4620 ) << k_funcinfo << endl; // Ctrl+Wheelmouse changes the zoom. // Wheelmouse scrolls around if ( ev->state() & ControlButton ) { int delta = ev->delta() / 120; double zoom = m_zoom; // make zoom a value of 1/16, 1/15, 1/14, .. , 1/2, 1, 2, 3, .. , 15, 16 bool done = false; for( int i = 15; i > 0; --i ) { if( zoom <= ( 1.0 / i ) ) { if( zoom < ( 1.0 / ( i + 0.5 ) ) ) zoom = ( 1.0 / ( i + 1 ) ); else zoom = ( 1.0 / i ); done = true; // zoom = 1/16, 1/15, .. , 1/2, 1 double x = 1.0 / zoom - delta; if( x == 0 ) zoom = 2.0; else zoom = 1.0 / x; break; } } if( ! done ) for( int i = 2; i < 17; ++i ) { if( zoom < (double)i ) { if( zoom < ( i - 0.5 ) ) zoom = i - 1.0; else zoom = (double)i; done = true; // zoom = 1, 2, .., 15, 16 zoom = zoom + delta; if( zoom < 0.9 ) zoom = 0.5; break; } } if( ! done ) { zoom = 16.0; zoom = zoom + delta; if( zoom > 16.0 ) zoom = 16.0; } kdDebug( 4620 ) << "Mousewheel: oldzoom = " << m_zoom << " newzoom = " << zoom << endl; ev->accept(); bool oldscale = fastScale(); setFastScale( true ); setZoom( zoom ); setFastScale( oldscale ); } else TQScrollView::contentsWheelEvent( ev ); } void KImageCanvas::keyPressEvent( TQKeyEvent * ev ) { //kdDebug( 4620 ) << k_funcinfo << endl; switch( ev->key() ) { case Key_Down: ev->accept(); verticalScrollBar()->addLine(); break; case Key_Up: ev->accept(); verticalScrollBar()->subtractLine(); break; case Key_Left: ev->accept(); horizontalScrollBar()->subtractLine(); break; case Key_Right: ev->accept(); horizontalScrollBar()->addLine(); break; case Key_PageUp: ev->accept(); verticalScrollBar()->subtractPage(); break; case Key_PageDown: ev->accept(); verticalScrollBar()->addPage(); break; default: ev->ignore(); break; } } void KImageCanvas::timerEvent( TQTimerEvent * ev ) { if( ev->timerId() == m_iBlendTimerId ) { TQRect drawRect = m_client->drawRect(); switch( m_iBlendEffect ) { case NoBlending: finishNewClient(); break; case AlphaBlend: finishNewClient(); //if( qt_use_xrender ) //{ //} //else //{ //kdWarning( 4620 ) << "no XRender" << endl; //finishNewClient(); //} break; case WipeFromLeft: drawRect.rRight() += KIMAGECANVAS_WIPESIZE; m_client->setDrawRect( drawRect ); m_client->update( drawRect.right() - KIMAGECANVAS_WIPESIZE, 0, KIMAGECANVAS_WIPESIZE, m_client->height() ); if( drawRect.right() >= contentsX() + visibleWidth() ) finishNewClient(); break; case WipeFromRight: drawRect.rLeft() -= KIMAGECANVAS_WIPESIZE; m_client->setDrawRect( drawRect ); m_client->update( drawRect.left(), 0, KIMAGECANVAS_WIPESIZE, m_client->height() ); if( drawRect.left() <= contentsX() ) finishNewClient(); break; case WipeFromTop: drawRect.rBottom() += KIMAGECANVAS_WIPESIZE; m_client->setDrawRect( drawRect ); m_client->update( 0, drawRect.bottom() - KIMAGECANVAS_WIPESIZE, m_client->width(), KIMAGECANVAS_WIPESIZE ); if( drawRect.bottom() >= contentsY() + visibleHeight() ) finishNewClient(); break; case WipeFromBottom: drawRect.rTop() -= KIMAGECANVAS_WIPESIZE; m_client->setDrawRect( drawRect ); m_client->update( 0, drawRect.top(), m_client->width(), KIMAGECANVAS_WIPESIZE ); if( drawRect.top() <= contentsY() ) finishNewClient(); break; default: kdFatal( 4620 ) << "unknown Blend Effect" << endl; break; } } else killTimer( ev->timerId() ); } void KImageCanvas::hideCursor() { kdDebug( 4620 ) << k_funcinfo << endl; m_cursor.setShape( Qt::BlankCursor ); viewport()->setCursor( m_cursor ); if( m_client ) m_client->setCursor( m_cursor ); } const KPixmap KImageCanvas::pixmap() { kdDebug( 4620 ) << k_funcinfo << ( m_bNeedNewPixmap ? "convert from Image" : "use old copy" ) << endl; // create a new Pixmap in m_pixmap if needed if( m_bNeedNewPixmap ) { // only do it again if requested m_bNeedNewPixmap = false; // ok, the old one may go now delete m_pixmap; // if smoothscaling is wanted and the transformation matrix or the image // itself changed... if( ! m_fastscale && ( m_bMatrixChanged || m_bImageChanged ) ) { delete m_imageTransformed; // we create a new image transformed by the matrix m_imageTransformed = new TQImage( m_matrix.isIdentity() ? *m_image : m_image->xForm( m_matrix ) ); kdDebug( 4620 ) << "Size of m_image: " << m_image->size() << endl; kdDebug( 4620 ) << "Size of m_imageTransformed: " << m_imageTransformed->size() << endl; } // smoothScale or fast scaling via m_matrix m_pixmap = new KPixmap(); m_pixmap->convertFromImage( m_fastscale ? *m_image : m_imageTransformed->smoothScale( m_currentsize ), KPixmap::ColorOnly ); } if( m_fastscale ) { // fast scaling is needed so we need to scale now TQWMatrix matrix( m_matrix ); matrix.scale( m_zoom, m_zoom ); if( ! matrix.isIdentity() ) return m_pixmap->xForm( matrix ); } return *m_pixmap; } void KImageCanvas::slotImageChanged() { kdDebug( 4620 ) << k_funcinfo << endl; m_bImageChanged = true; m_bNeedNewPixmap = true; } void KImageCanvas::loadSettings() { KConfigGroup cfgGroup( KImageCanvasFactory::instance()->config(), "Settings" ); setFastScale( ! cfgGroup.readBoolEntry( "Smooth Scaling", ! fastScale() ) ); setKeepAspectRatio( cfgGroup.readBoolEntry( "Keep Aspect Ratio", keepAspectRatio() ) ); setCentered( cfgGroup.readBoolEntry( "Center Image", centered() ) ); setBgColor( cfgGroup.readColorEntry( "Background Color", &bgColor() ) ); setMinimumImageSize( TQSize( cfgGroup.readNumEntry( "Minimum Width", minimumImageSize().width() ), cfgGroup.readNumEntry( "Minimum Height", minimumImageSize().height() ) ) ); setMaximumImageSize( TQSize( cfgGroup.readNumEntry( "Maximum Width", maximumImageSize().width() ), cfgGroup.readNumEntry( "Maximum Height", maximumImageSize().height() ) ) ); KConfigGroup blendConfig( KImageCanvasFactory::instance()->config(), "Blend Effects" ); /* TODO m_vEffects.clear(); for( unsigned int i = 1; i <= numOfBlendEffects(); ++i ) { if( blendConfig.readBoolEntry( TQString::number( i ), false ) ) m_vEffects.push_back( i ); } // and now tell the canvas what blend effect to use switchBlendEffect(); */ } void KImageCanvas::selected( const TQRect & rect ) { //kdDebug( 4620 ) << k_funcinfo << rect << endl; m_selection = rect; if( ! m_selection.isNull() ) { m_selection.setTop( int( ( m_selection.top() + 0.5 ) / m_zoom ) ); m_selection.setLeft( int( ( m_selection.left() + 0.5 ) / m_zoom ) ); m_selection.setRight( int( ( m_selection.right() + 0.5 ) / m_zoom ) ); m_selection.setBottom( int( ( m_selection.bottom() + 0.5 ) / m_zoom ) ); } //kdDebug( 4620 ) << "m_selection = " << m_selection << endl; emit selectionChanged( m_selection ); } void KImageCanvas::mapCursorPos( const TQPoint & pos ) { TQPoint mapped( static_cast( ( pos.x() + 0.5 ) / m_zoom ), static_cast( ( pos.y() + 0.5 ) / m_zoom ) ); //kdDebug( 4620 ) << k_funcinfo << pos << " -> " << mapped << endl; emit cursorPos( mapped ); } void KImageCanvas::sizeChanged() { kdDebug( 4620 ) << k_funcinfo << endl; m_bSizeChanged = true; if( ! m_fastscale ) m_bNeedNewPixmap = true; emit imageSizeChanged( m_currentsize ); } void KImageCanvas::matrixChanged() { kdDebug( 4620 ) << k_funcinfo << endl; m_bMatrixChanged = true; m_bNeedNewPixmap = true; } void KImageCanvas::center() { kdDebug( 4620 ) << k_funcinfo << endl; if( m_bCentered && m_client ) { int x = 0; int y = 0; int scrollbarwidth = ( height() >= m_currentsize.height() ) ? 0 : verticalScrollBar()->width(); int scrollbarheight = ( width() - scrollbarwidth >= m_currentsize.width() ) ? 0 : horizontalScrollBar()->height(); scrollbarwidth = ( height() - scrollbarheight >= m_currentsize.height() ) ? 0 : verticalScrollBar()->width(); int availheight = height() - scrollbarheight; int availwidth = width() - scrollbarwidth; if( availwidth > m_currentsize.width() ) x = ( availwidth - m_currentsize.width() ) / 2; if( availheight > m_currentsize.height() ) y = ( availheight - m_currentsize.height() ) / 2; kdDebug( 4620 ) << "center with left top at " << x << ", " << y << endl; moveChild( m_client, x, y ); } } void KImageCanvas::finishNewClient() { kdDebug( 4620 ) << k_funcinfo << endl; killTimer( m_iBlendTimerId ); if( m_client ) m_client->setDrawRect( m_client->rect() ); delete m_oldClient; m_oldClient = 0; emit showingImageDone(); } KImageHolder * KImageCanvas::createNewClient() { kdDebug( 4620 ) << k_funcinfo << endl; KImageHolder * client = new KImageHolder( viewport() ); client->setMinimumSize( 0, 0 ); client->setMouseTracking( true ); client->installEventFilter( this ); setFocusProxy( client ); client->setFocusPolicy( TQ_StrongFocus ); client->setFocus(); addChild( client, 0, 0 ); connect( client, TQT_SIGNAL( contextPress( const TQPoint& ) ), TQT_SIGNAL( contextPress( const TQPoint& ) ) ); connect( client, TQT_SIGNAL( cursorPos( const TQPoint & ) ), TQT_SLOT( mapCursorPos( const TQPoint & ) ) ); connect( client, TQT_SIGNAL( selected( const TQRect & ) ), TQT_SLOT( selected( const TQRect & ) ) ); connect( client, TQT_SIGNAL( wannaScroll( int, int ) ), TQT_SLOT( scrollBy( int, int ) ) ); return client; } #include "kimagecanvas.moc" // vim:sw=4:ts=4