/* This file is part of KimageShop^WKrayon^WChalk
*
* Copyright ( c ) 1999 Matthias Elter < me @ kde . org >
* 1999 Michael Koch < koch @ kde . org >
* 1999 Carsten Pfeiffer < pfeiffer @ kde . org >
* 2002 Patrick Julien < freak @ codepimps . org >
* 2003 - 2005 Boudewijn Rempt < boud @ valdyas . org >
* 2004 Clarence Dang < dang @ kde . org >
*
* This program is free software ; you can redistribute it and / or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation ; either version 2 of the License , or
* ( at your option ) any later version .
*
* 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 <algorithm>
# include <cmath>
// TQt
# include <tqapplication.h>
# include <tqbutton.h>
# include <tqcursor.h>
# include <tqevent.h>
# include <tqpainter.h>
# include <tqscrollbar.h>
# include <tqspinbox.h>
# include <tqdockarea.h>
# include <tqstringlist.h>
# include <tqstyle.h>
# include <tqpopupmenu.h>
# include <tqvaluelist.h>
# include <tqstringlist.h>
# include <tqobjectlist.h>
// KDE
# include <kis_meta_registry.h>
# include <tdeglobalsettings.h>
# include <dcopobject.h>
# include <tdeaction.h>
# include <kcolordialog.h>
# include <kiconloader.h>
# include <tdefiledialog.h>
# include <tdelocale.h>
# include <tdemessagebox.h>
# include <knotifyclient.h>
# include <kprinter.h>
# include <kpushbutton.h>
# include <kstatusbar.h>
# include <kstdaction.h>
# include <kinputdialog.h>
# include <kurldrag.h>
# include <tdepopupmenu.h>
# include <kdebug.h>
# include <ksharedptr.h>
# include <tdetoolbar.h>
# include <tdeparts/plugin.h>
# include <kservice.h>
# include <ktrader.h>
# include <tdeparts/componentfactory.h>
# include <tdeparts/event.h>
// KOffice
# include <KoPartSelectAction.h>
# include <KoFilterManager.h>
# include <KoMainWindow.h>
# include <KoView.h>
# include <KoTabBar.h>
# include <ko_gray_widget.h>
# include <ko_hsv_widget.h>
# include <ko_rgb_widget.h>
# include <kopalettemanager.h>
# include <kopalette.h>
// Local
# include "kis_brush.h"
# include "kis_button_press_event.h"
# include "kis_button_release_event.h"
# include "kis_canvas.h"
# include "kis_canvas_painter.h"
# include "kis_color.h"
# include "kis_colorspace_factory_registry.h"
# include "kis_config.h"
# include "kis_controlframe.h"
# include "kis_cursor.h"
# include "kis_doc.h"
# include "kis_double_click_event.h"
# include "kis_factory.h"
# include "kis_filter_strategy.h"
# include "kis_gradient.h"
# include "kis_group_layer.h"
# include "kis_adjustment_layer.h"
# include "kis_paint_device.h"
# include "kis_tool_freehand.h"
//#include "kis_guide.h"
# include "kis_layerbox.h"
# include "kis_import_catcher.h"
# include "kis_layer.h"
# include "kis_paint_layer.h"
# include "kis_move_event.h"
# include "kis_paint_device.h"
# include "kis_painter.h"
# include "kis_paintop_registry.h"
# include "kis_part_layer.h"
# include "kis_part_layer_handler.h"
# include "kis_pattern.h"
# include "kis_profile.h"
# include "kis_rect.h"
# include "kis_resource.h"
# include "kis_palette.h"
# include "kis_ruler.h"
# include "kis_selection.h"
# include "KoToolBox.h"
# include "kis_tool.h"
# include "kis_tool_manager.h"
# include "kis_transaction.h"
# include "kis_selected_transaction.h"
# include "kis_types.h"
# include "kis_undo_adapter.h"
# include "kis_view.h"
# include "kis_view_iface.h"
# include "kis_label_progress.h"
# include "kis_opengl_image_context.h"
# include "kis_background.h"
# include "kis_paint_device_action.h"
# include "kis_filter_configuration.h"
# include "kis_transform_worker.h"
# include "kis_shear_visitor.h"
# include <kis_resourceserver.h>
# include <kis_resource_mediator.h>
# include "kis_icon_item.h"
# include "kis_palette_widget.h"
# include "kis_birdeye_box.h"
# include "kis_color.h"
# include "kis_factory.h"
// Dialog boxes
# include "kis_dlg_new_layer.h"
# include "kis_dlg_layer_properties.h"
# include "kis_dlg_preferences.h"
# include "kis_dlg_image_properties.h"
# include "kis_dlg_adjustment_layer.h"
# include "kis_dlg_adj_layer_props.h"
// Action managers
# include "kis_selection_manager.h"
# include "kis_filter_manager.h"
# include "kis_grid_manager.h"
# include "kis_perspective_grid_manager.h"
# include "kis_custom_palette.h"
# include "wdgpalettechooser.h"
# include <fixx11h.h>
// Time in ms that must pass after a tablet event before a mouse event is allowed to
// change the input device to the mouse. This is needed because mouse events are always
// sent to a receiver if it does not accept the tablet event.
# define MOUSE_CHANGE_EVENT_DELAY 100
KisView : : KisView ( KisDoc * doc , KisUndoAdapter * adapter , TQWidget * parent , const char * name )
: super ( doc , parent , name )
, KXMLGUIBuilder ( shell ( ) )
, m_panning ( false )
, m_oldTool ( 0 )
, m_doc ( doc )
, m_canvas ( 0 )
, m_partHandler ( 0 )
, m_gridManager ( 0 )
, m_perspectiveGridManager ( 0 )
, m_selectionManager ( 0 )
, m_filterManager ( 0 )
, m_paletteManager ( 0 )
, m_toolManager ( 0 )
, m_actLayerVis ( false )
, m_hRuler ( 0 )
, m_vRuler ( 0 )
, m_imgFlatten ( 0 )
, m_imgMergeLayer ( 0 )
, m_imgRename ( 0 )
, m_imgResizeToLayer ( 0 )
, m_imgScan ( 0 )
, m_actionPartLayer ( 0 )
, m_layerAdd ( 0 )
, m_layerBottom ( 0 )
, m_layerDup ( 0 )
, m_layerHide ( 0 )
, m_layerLower ( 0 )
, m_layerProperties ( 0 )
, m_layerRaise ( 0 )
, m_layerRm ( 0 )
, m_layerSaveAs ( 0 )
, m_layerTop ( 0 )
, m_zoomIn ( 0 )
, m_zoomOut ( 0 )
, m_actualPixels ( 0 )
, m_actualSize ( 0 )
, m_fitToCanvas ( 0 )
, m_fullScreen ( 0 )
, m_imgProperties ( 0 )
, m_RulerAction ( 0 )
, m_guideAction ( 0 )
, m_dcop ( 0 )
, m_hScroll ( 0 )
, m_vScroll ( 0 )
, m_scrollX ( 0 )
, m_scrollY ( 0 )
, m_canvasXOffset ( 0 )
, m_canvasYOffset ( 0 )
, m_paintViewEnabled ( false )
, m_guiActivateEventReceived ( false )
, m_showEventReceived ( false )
, m_imageLoaded ( false )
// , m_currentGuide( 0 )
, m_adapter ( adapter )
, m_statusBarZoomLabel ( 0 )
, m_statusBarSelectionLabel ( 0 )
, m_statusBarProfileLabel ( 0 )
, m_progress ( 0 )
, m_layerBox ( 0 )
, m_toolBox ( 0 )
, m_brush ( 0 )
, m_pattern ( 0 )
, m_gradient ( 0 )
, m_toolIsPainting ( false )
, m_monitorProfile ( 0 )
, m_HDRExposure ( 0 )
{
Q_ASSERT ( doc ) ;
Q_ASSERT ( adapter ) ;
Q_ASSERT ( parent ) ;
KisConfig cfg ;
m_currentColorChooserDisplay = KisID ( " BLA " ) ;
setFocusPolicy ( TQ_StrongFocus ) ;
// Must come before input devices are referenced as this detects them.
# ifdef Q_WS_X11
KisCanvasWidget : : initX11Support ( ) ;
# endif
// Install event filter before we create any child widgets so they can see
// the tablet events.
tqApp - > installEventFilter ( this ) ;
m_tabletEventTimer . start ( ) ;
m_inputDevice = KisInputDevice : : mouse ( ) ;
connect ( & m_initialZoomTimer , TQT_SIGNAL ( timeout ( ) ) , TQT_SLOT ( slotInitialZoomTimeout ( ) ) ) ;
m_paletteManager = new KoPaletteManager ( this , actionCollection ( ) , " Chalk palette manager " ) ;
if ( cfg . fixDockerWidth ( ) ) m_paletteManager - > setFixedWidth ( 360 ) ;
m_paletteManager - > createPalette ( chalk : : CONTROL_PALETTE , i18n ( " Control box " ) ) ;
m_paletteManager - > createPalette ( chalk : : COLORBOX , i18n ( " Colors " ) ) ;
m_paletteManager - > createPalette ( chalk : : LAYERBOX , i18n ( " Layers " ) ) ;
m_selectionManager = new KisSelectionManager ( this , doc ) ;
m_filterManager = new KisFilterManager ( this , doc ) ;
m_toolManager = new KisToolManager ( canvasSubject ( ) , getCanvasController ( ) ) ;
m_gridManager = new KisGridManager ( this ) ;
m_perspectiveGridManager = new KisPerspectiveGridManager ( this ) ;
// This needs to be set before the dockers are created.
m_image = m_doc - > currentImage ( ) ;
KisColorSpace * cs = KisMetaRegistry : : instance ( ) - > csRegistry ( ) - > getRGB8 ( ) ;
m_fg = KisColor ( TQt : : black , cs ) ;
m_bg = KisColor ( TQt : : white , cs ) ;
createDockers ( ) ;
setInstance ( KisFactory : : instance ( ) , false ) ;
setClientBuilder ( this ) ;
if ( ! doc - > isReadWrite ( ) )
setXMLFile ( " chalk_readonly.rc " ) ;
else
setXMLFile ( " chalk.rc " ) ;
KStdAction : : keyBindings ( mainWindow ( ) - > guiFactory ( ) , TQT_SLOT ( configureShortcuts ( ) ) , actionCollection ( ) ) ;
createLayerBox ( ) ;
setupCanvas ( ) ;
m_canvas - > hide ( ) ;
setupRulers ( ) ;
setupScrollBars ( ) ;
setupStatusBar ( ) ;
setupActions ( ) ;
dcopObject ( ) ;
connect ( TQT_TQOBJECT ( this ) , TQT_SIGNAL ( autoScroll ( const TQPoint & ) ) , TQT_SLOT ( slotAutoScroll ( const TQPoint & ) ) ) ;
setMouseTracking ( true ) ;
resetMonitorProfile ( ) ;
layersUpdated ( ) ;
m_brushesAndStuffToolBar = new KisControlFrame ( mainWindow ( ) , this ) ;
// Load all plugins
TDETrader : : OfferList offers = TDETrader : : self ( ) - > query ( TQString : : fromLatin1 ( " Chalk/ViewPlugin " ) ,
TQString : : fromLatin1 ( " (Type == 'Service') and "
" ([X-Chalk-Version] == 2) " ) ) ;
TDETrader : : OfferList : : ConstIterator iter ;
for ( iter = offers . begin ( ) ; iter ! = offers . end ( ) ; + + iter )
{
KService : : Ptr service = * iter ;
int errCode = 0 ;
KParts : : Plugin * plugin =
KParts : : ComponentFactory : : createInstanceFromService < KParts : : Plugin > ( service , TQT_TQOBJECT ( this ) , 0 , TQStringList ( ) , & errCode ) ;
if ( plugin ) {
kdDebug ( 41006 ) < < " found plugin " < < service - > property ( " Name " ) . toString ( ) < < " \n " ;
insertChildClient ( plugin ) ;
}
else {
kdDebug ( 41006 ) < < " found plugin " < < service - > property ( " Name " ) . toString ( ) < < " , " < < errCode < < " \n " ;
if ( errCode = = KParts : : ComponentFactory : : ErrNoLibrary )
{
kdWarning ( 41006 ) < < " Error loading plugin was : ErrNoLibrary " < < KLibLoader : : self ( ) - > lastErrorMessage ( ) < < endl ;
}
}
}
if ( ! doc - > isLoading ( ) )
{
slotLoadingFinished ( ) ;
} else {
connect ( doc , TQT_SIGNAL ( loadingFinished ( ) ) , TQT_TQOBJECT ( this ) , TQT_SLOT ( slotLoadingFinished ( ) ) ) ;
}
setFocus ( ) ;
}
KisView : : ~ KisView ( )
{
KisConfig cfg ;
cfg . setShowRulers ( m_RulerAction - > isChecked ( ) ) ;
delete m_dcop ;
delete m_paletteManager ;
delete m_selectionManager ;
delete m_filterManager ;
delete m_toolManager ;
}
static TQt : : Dock stringToDock ( const TQString & attrPosition )
{
TDEToolBar : : Dock dock = TDEToolBar : : DockTop ;
if ( ! attrPosition . isEmpty ( ) ) {
if ( attrPosition = = " top " )
dock = TQt : : DockTop ;
else if ( attrPosition = = " left " )
dock = TQt : : DockLeft ;
else if ( attrPosition = = " right " )
dock = TQt : : DockRight ;
else if ( attrPosition = = " bottom " )
dock = TQt : : DockBottom ;
else if ( attrPosition = = " floating " )
dock = TQt : : DockTornOff ;
else if ( attrPosition = = " flat " )
dock = TQt : : DockMinimized ;
}
return dock ;
}
TQWidget * KisView : : createContainer ( TQWidget * parent , int index , const TQDomElement & element , int & id )
{
if ( element . attribute ( " name " ) = = " ToolBox " )
{
m_toolBox = new KoToolBox ( mainWindow ( ) , " ToolBox " , KisFactory : : instance ( ) , NUMBER_OF_TOOLTYPES ) ;
m_toolBox - > setLabel ( i18n ( " Chalk " ) ) ;
m_toolManager - > setUp ( m_toolBox , m_paletteManager , actionCollection ( ) ) ;
Dock dock = stringToDock ( element . attribute ( " position " ) . lower ( ) ) ;
mainWindow ( ) - > addDockWindow ( m_toolBox , dock , false ) ;
mainWindow ( ) - > moveDockWindow ( m_toolBox , dock , false , 0 , 0 ) ;
}
return KXMLGUIBuilder : : createContainer ( parent , index , element , id ) ;
}
void KisView : : removeContainer ( TQWidget * container , TQWidget * parent , TQDomElement & element , int id )
{
Q_ASSERT ( container ) ;
if ( shell ( ) & & container = = m_toolBox )
{
delete m_toolBox ;
m_toolManager - > youAintGotNoToolBox ( ) ;
}
else {
KXMLGUIBuilder : : removeContainer ( container , parent , element , id ) ;
}
}
KoPaletteManager * KisView : : paletteManager ( )
{
if ( ! m_paletteManager ) {
m_paletteManager = new KoPaletteManager ( this , actionCollection ( ) , " Chalk palette manager " ) ;
TQ_CHECK_PTR ( m_paletteManager ) ;
}
return m_paletteManager ;
}
void KisView : : createLayerBox ( )
{
m_layerBox = new KisLayerBox ( this ) ;
m_layerBox - > setCaption ( i18n ( " Layers " ) ) ;
connect ( m_layerBox , TQT_SIGNAL ( sigRequestLayer ( KisGroupLayerSP , KisLayerSP ) ) ,
TQT_TQOBJECT ( this ) , TQT_SLOT ( addLayer ( KisGroupLayerSP , KisLayerSP ) ) ) ;
connect ( m_layerBox , TQT_SIGNAL ( sigRequestGroupLayer ( KisGroupLayerSP , KisLayerSP ) ) ,
TQT_TQOBJECT ( this ) , TQT_SLOT ( addGroupLayer ( KisGroupLayerSP , KisLayerSP ) ) ) ;
connect ( m_layerBox , TQT_SIGNAL ( sigRequestAdjustmentLayer ( KisGroupLayerSP , KisLayerSP ) ) ,
TQT_TQOBJECT ( this ) , TQT_SLOT ( addAdjustmentLayer ( KisGroupLayerSP , KisLayerSP ) ) ) ;
connect ( m_layerBox , TQT_SIGNAL ( sigRequestPartLayer ( KisGroupLayerSP , KisLayerSP , const KoDocumentEntry & ) ) ,
TQT_TQOBJECT ( this ) , TQT_SLOT ( addPartLayer ( KisGroupLayerSP , KisLayerSP , const KoDocumentEntry & ) ) ) ;
connect ( m_layerBox , TQT_SIGNAL ( sigRequestLayerProperties ( KisLayerSP ) ) ,
TQT_TQOBJECT ( this ) , TQT_SLOT ( showLayerProperties ( KisLayerSP ) ) ) ;
connect ( m_layerBox , TQT_SIGNAL ( sigOpacityChanged ( int , bool ) ) , TQT_TQOBJECT ( this ) , TQT_SLOT ( layerOpacity ( int , bool ) ) ) ;
connect ( m_layerBox , TQT_SIGNAL ( sigOpacityFinishedChanging ( int , int ) ) ,
TQT_TQOBJECT ( this ) , TQT_SLOT ( layerOpacityFinishedChanging ( int , int ) ) ) ;
connect ( m_layerBox , TQT_SIGNAL ( sigItemComposite ( const KisCompositeOp & ) ) , TQT_TQOBJECT ( this ) , TQT_SLOT ( layerCompositeOp ( const KisCompositeOp & ) ) ) ;
paletteManager ( ) - > addWidget ( m_layerBox , " layerbox " , chalk : : LAYERBOX , 0 ) ;
}
DCOPObject * KisView : : dcopObject ( )
{
if ( ! m_dcop ) {
m_dcop = new KisViewIface ( this ) ;
TQ_CHECK_PTR ( m_dcop ) ;
}
return m_dcop ;
}
void KisView : : setupScrollBars ( )
{
m_scrollX = 0 ;
m_scrollY = 0 ;
m_vScroll = new TQScrollBar ( Qt : : Vertical , this ) ;
TQ_CHECK_PTR ( m_vScroll ) ;
m_hScroll = new TQScrollBar ( Qt : : Horizontal , this ) ;
TQ_CHECK_PTR ( m_hScroll ) ;
m_vScroll - > setGeometry ( width ( ) - 16 , 20 , 16 , height ( ) - 36 ) ;
m_hScroll - > setGeometry ( 20 , height ( ) - 16 , width ( ) - 36 , 16 ) ;
m_hScroll - > setValue ( 0 ) ;
m_vScroll - > setValue ( 0 ) ;
TQObject : : connect ( m_vScroll , TQT_SIGNAL ( valueChanged ( int ) ) , TQT_TQOBJECT ( this ) , TQT_SLOT ( scrollV ( int ) ) ) ;
TQObject : : connect ( m_hScroll , TQT_SIGNAL ( valueChanged ( int ) ) , TQT_TQOBJECT ( this ) , TQT_SLOT ( scrollH ( int ) ) ) ;
}
void KisView : : setupRulers ( )
{
m_hRuler = new KisRuler ( Qt : : Horizontal , this ) ;
TQ_CHECK_PTR ( m_hRuler ) ;
m_vRuler = new KisRuler ( Qt : : Vertical , this ) ;
TQ_CHECK_PTR ( m_vRuler ) ;
m_hRuler - > setGeometry ( 20 , 0 , width ( ) - 20 , 20 ) ;
m_vRuler - > setGeometry ( 0 , 20 , 20 , height ( ) - 20 ) ;
if ( statusBar ( ) ) {
m_hRuler - > installEventFilter ( this ) ;
m_vRuler - > installEventFilter ( this ) ;
}
}
# define EPSILON 1e-6
void KisView : : updateStatusBarZoomLabel ( )
{
if ( zoom ( ) < 1 - EPSILON ) {
m_statusBarZoomLabel - > setText ( i18n ( " Zoom %1% " ) . arg ( zoom ( ) * 100 , 0 , ' g ' , 4 ) ) ;
} else {
m_statusBarZoomLabel - > setText ( i18n ( " Zoom %1% " ) . arg ( zoom ( ) * 100 , 0 , ' f ' , 0 ) ) ;
}
m_statusBarZoomLabel - > setMaximumWidth ( m_statusBarZoomLabel - > fontMetrics ( ) . width ( i18n ( " Zoom %1% " ) . arg ( " 0.8888 " ) ) ) ;
}
void KisView : : updateStatusBarSelectionLabel ( )
{
if ( m_statusBarSelectionLabel = = 0 ) {
return ;
}
KisImageSP img = currentImg ( ) ;
if ( img ) {
KisPaintDeviceSP dev = img - > activeDevice ( ) ;
if ( dev ) {
if ( dev - > hasSelection ( ) ) {
TQRect r = dev - > selection ( ) - > selectedExactRect ( ) ;
m_statusBarSelectionLabel - > setText ( i18n ( " Selection Active: x = %1 y = %2 width = %3 height = %4 " ) . arg ( r . x ( ) ) . arg ( r . y ( ) ) . arg ( r . width ( ) ) . arg ( r . height ( ) ) ) ;
return ;
}
}
}
m_statusBarSelectionLabel - > setText ( i18n ( " No Selection " ) ) ;
}
void KisView : : updateStatusBarProfileLabel ( )
{
if ( m_statusBarProfileLabel = = 0 ) {
return ;
}
KisImageSP img = currentImg ( ) ;
if ( ! img ) return ;
if ( img - > getProfile ( ) = = 0 ) {
m_statusBarProfileLabel - > setText ( i18n ( " No profile " ) ) ;
}
else {
m_statusBarProfileLabel - > setText ( img - > colorSpace ( ) - > id ( ) . name ( ) + " " + img - > getProfile ( ) - > productName ( ) ) ;
}
}
KisProfile * KisView : : monitorProfile ( )
{
if ( m_monitorProfile = = 0 ) {
resetMonitorProfile ( ) ;
}
return m_monitorProfile ;
}
void KisView : : resetMonitorProfile ( )
{
m_monitorProfile = KisProfile : : getScreenProfile ( ) ;
if ( m_monitorProfile = = 0 ) {
KisConfig cfg ;
TQString monitorProfileName = cfg . monitorProfile ( ) ;
m_monitorProfile = KisMetaRegistry : : instance ( ) - > csRegistry ( ) - > getProfileByName ( monitorProfileName ) ;
}
}
void KisView : : setupStatusBar ( )
{
KStatusBar * sb = statusBar ( ) ;
if ( sb ) {
m_statusBarZoomLabel = new TQLabel ( sb ) ;
addStatusBarItem ( m_statusBarZoomLabel , 1 ) ;
updateStatusBarZoomLabel ( ) ;
m_statusBarSelectionLabel = new KSqueezedTextLabel ( sb ) ;
addStatusBarItem ( m_statusBarSelectionLabel , 2 ) ;
updateStatusBarSelectionLabel ( ) ;
m_statusBarProfileLabel = new KSqueezedTextLabel ( sb ) ;
addStatusBarItem ( m_statusBarProfileLabel , 3 ) ;
updateStatusBarProfileLabel ( ) ;
//int height = m_statusBarProfileLabel->height();
m_progress = new KisLabelProgress ( this ) ;
m_progress - > setMaximumWidth ( 225 ) ;
m_progress - > setMinimumWidth ( 225 ) ;
m_progress - > setMaximumHeight ( fontMetrics ( ) . height ( ) ) ;
addStatusBarItem ( m_progress , 2 , true ) ;
m_progress - > hide ( ) ;
}
}
void KisView : : setupActions ( )
{
KisConfig cfg ;
m_selectionManager - > setup ( actionCollection ( ) ) ;
m_filterManager - > setup ( actionCollection ( ) ) ;
m_gridManager - > setup ( actionCollection ( ) ) ;
m_perspectiveGridManager - > setup ( actionCollection ( ) ) ;
m_fullScreen = KStdAction : : fullScreen ( NULL , NULL , actionCollection ( ) , this ) ;
connect ( m_fullScreen , TQT_SIGNAL ( toggled ( bool ) ) , TQT_TQOBJECT ( this ) , TQT_SLOT ( slotUpdateFullScreen ( bool ) ) ) ;
m_imgProperties = new TDEAction ( i18n ( " Image Properties " ) , 0 , TQT_TQOBJECT ( this ) , TQT_SLOT ( slotImageProperties ( ) ) , actionCollection ( ) , " img_properties " ) ;
m_imgScan = 0 ; // How the hell do I get a TDEAction to the scan plug-in?!?
m_imgResizeToLayer = new TDEAction ( i18n ( " Resize Image to Size of Current Layer " ) , 0 , TQT_TQOBJECT ( this ) , TQT_SLOT ( imgResizeToActiveLayer ( ) ) , actionCollection ( ) , " resizeimgtolayer " ) ;
// view actions
m_zoomIn = KStdAction : : zoomIn ( TQT_TQOBJECT ( this ) , TQT_SLOT ( slotZoomIn ( ) ) , actionCollection ( ) , " zoom_in " ) ;
m_zoomOut = KStdAction : : zoomOut ( TQT_TQOBJECT ( this ) , TQT_SLOT ( slotZoomOut ( ) ) , actionCollection ( ) , " zoom_out " ) ;
m_actualPixels = new TDEAction ( i18n ( " Actual Pixels " ) , " Ctrl+0 " , TQT_TQOBJECT ( this ) , TQT_SLOT ( slotActualPixels ( ) ) , actionCollection ( ) , " actual_pixels " ) ;
m_actualSize = KStdAction : : actualSize ( TQT_TQOBJECT ( this ) , TQT_SLOT ( slotActualSize ( ) ) , actionCollection ( ) , " actual_size " ) ;
m_actualSize - > setEnabled ( false ) ;
m_fitToCanvas = KStdAction : : fitToPage ( TQT_TQOBJECT ( this ) , TQT_SLOT ( slotFitToCanvas ( ) ) , actionCollection ( ) , " fit_to_canvas " ) ;
// layer actions
m_layerAdd = new TDEAction ( i18n ( " &Add... " ) , " Ctrl+Shift+N " , TQT_TQOBJECT ( this ) , TQT_SLOT ( layerAdd ( ) ) , actionCollection ( ) , " insert_layer " ) ;
m_actionPartLayer = new KoPartSelectAction ( i18n ( " &Object Layer " ) , " frame_query " ,
TQT_TQOBJECT ( this ) , TQT_SLOT ( addPartLayer ( ) ) ,
actionCollection ( ) , " insert_part_layer " ) ;
m_actionAdjustmentLayer = new TDEAction ( i18n ( " &Adjustment Layer " ) , 0 ,
TQT_TQOBJECT ( this ) , TQT_SLOT ( addAdjustmentLayer ( ) ) ,
actionCollection ( ) , " insert_adjustment_layer " ) ;
m_layerRm = new TDEAction ( i18n ( " &Remove " ) , 0 , TQT_TQOBJECT ( this ) , TQT_SLOT ( layerRemove ( ) ) , actionCollection ( ) , " remove_layer " ) ;
m_layerDup = new TDEAction ( i18n ( " Duplicate " ) , 0 , TQT_TQOBJECT ( this ) , TQT_SLOT ( layerDuplicate ( ) ) , actionCollection ( ) , " duplicate_layer " ) ;
m_layerHide = new TDEToggleAction ( i18n ( " &Hide " ) , 0 , TQT_TQOBJECT ( this ) , TQT_SLOT ( layerToggleVisible ( ) ) , actionCollection ( ) , " hide_layer " ) ;
m_layerHide - > setCheckedState ( KGuiItem ( i18n ( " &Show " ) ) ) ;
m_layerHide - > setChecked ( false ) ;
m_layerRaise = new TDEAction ( i18n ( " Raise " ) , " raise " , " Ctrl+] " , TQT_TQOBJECT ( this ) , TQT_SLOT ( layerRaise ( ) ) , actionCollection ( ) , " raiselayer " ) ;
m_layerLower = new TDEAction ( i18n ( " Lower " ) , " lower " , " Ctrl+[ " , TQT_TQOBJECT ( this ) , TQT_SLOT ( layerLower ( ) ) , actionCollection ( ) , " lowerlayer " ) ;
m_layerTop = new TDEAction ( i18n ( " To Top " ) , " bring_forward " , " Ctrl+Shift+] " , TQT_TQOBJECT ( this ) , TQT_SLOT ( layerFront ( ) ) , actionCollection ( ) , " toplayer " ) ;
m_layerBottom = new TDEAction ( i18n ( " To Bottom " ) , " send_backward " , " Ctrl+Shift+[ " , TQT_TQOBJECT ( this ) , TQT_SLOT ( layerBack ( ) ) , actionCollection ( ) , " bottomlayer " ) ;
m_layerProperties = new TDEAction ( i18n ( " Properties " ) , 0 , TQT_TQOBJECT ( this ) , TQT_SLOT ( layerProperties ( ) ) , actionCollection ( ) , " layer_properties " ) ;
( void ) new TDEAction ( i18n ( " I&nsert Image as Layer... " ) , 0 , TQT_TQOBJECT ( this ) , TQT_SLOT ( slotInsertImageAsLayer ( ) ) , actionCollection ( ) , " insert_image_as_layer " ) ;
m_layerSaveAs = new TDEAction ( i18n ( " Save Layer as Image... " ) , " filesave " , TQT_TQOBJECT ( this ) , TQT_SLOT ( saveLayerAsImage ( ) ) , actionCollection ( ) , " save_layer_as_image " ) ;
( void ) new TDEAction ( i18n ( " Flip on &X Axis " ) , " view_left_right " , 0 , TQT_TQOBJECT ( this ) , TQT_SLOT ( mirrorLayerX ( ) ) , actionCollection ( ) , " mirrorLayerX " ) ;
( void ) new TDEAction ( i18n ( " Flip on &Y Axis " ) , " view_top_bottom " , 0 , TQT_TQOBJECT ( this ) , TQT_SLOT ( mirrorLayerY ( ) ) , actionCollection ( ) , " mirrorLayerY " ) ;
m_createMask = new TDEAction ( i18n ( " Create Mask " ) , 0 , TQT_TQOBJECT ( this ) ,
TQT_SLOT ( slotCreateMask ( ) ) , actionCollection ( ) , " create_mask " ) ;
m_maskFromSelection = new TDEAction ( i18n ( " Mask From Selection " ) , 0 , TQT_TQOBJECT ( this ) ,
TQT_SLOT ( slotMaskFromSelection ( ) ) , actionCollection ( ) ,
" mask_fromsel " ) ;
m_maskToSelection = new TDEAction ( i18n ( " Mask to Selection " ) , 0 , TQT_TQOBJECT ( this ) ,
TQT_SLOT ( slotMaskToSelection ( ) ) , actionCollection ( ) , " mask_tosel " ) ;
m_applyMask = new TDEAction ( i18n ( " Apply Mask " ) , 0 , TQT_TQOBJECT ( this ) , TQT_SLOT ( slotApplyMask ( ) ) ,
actionCollection ( ) , " apply_mask " ) ;
m_removeMask = new TDEAction ( i18n ( " Remove Mask " ) , 0 , TQT_TQOBJECT ( this ) ,
TQT_SLOT ( slotRemoveMask ( ) ) , actionCollection ( ) , " remove_mask " ) ;
m_showMask = new TDEToggleAction ( i18n ( " Show Mask " ) , 0 , TQT_TQOBJECT ( this ) ,
TQT_SLOT ( slotShowMask ( ) ) , actionCollection ( ) , " show_mask " ) ;
m_editMask = new TDEToggleAction ( i18n ( " Edit Mask " ) , 0 , TQT_TQOBJECT ( this ) ,
TQT_SLOT ( slotEditMask ( ) ) , actionCollection ( ) , " edit_mask " ) ;
// image actions
m_imgFlatten = new TDEAction ( i18n ( " &Flatten Image " ) , " Ctrl+Shift+E " , TQT_TQOBJECT ( this ) , TQT_SLOT ( flattenImage ( ) ) , actionCollection ( ) , " flatten_image " ) ;
m_imgMergeLayer = new TDEAction ( i18n ( " &Merge with Layer Below " ) , " Ctrl+E " , TQT_TQOBJECT ( this ) , TQT_SLOT ( mergeLayer ( ) ) , actionCollection ( ) , " merge_layer " ) ;
// setting actions
KStdAction : : preferences ( TQT_TQOBJECT ( this ) , TQT_SLOT ( preferences ( ) ) , actionCollection ( ) , " preferences " ) ;
m_RulerAction = new TDEToggleAction ( i18n ( " Show Rulers " ) , " Ctrl+R " , TQT_TQOBJECT ( this ) , TQT_SLOT ( showRuler ( ) ) , actionCollection ( ) , " view_ruler " ) ;
m_RulerAction - > setChecked ( cfg . showRulers ( ) ) ;
m_RulerAction - > setCheckedState ( i18n ( " Hide Rulers " ) ) ;
m_RulerAction - > setWhatsThis ( i18n ( " The rulers show the horizontal and vertical positions of the mouse on the image "
" and can be used to position your mouse at the right place on the canvas. <p>Uncheck this to disable "
" the rulers from being displayed. " ) ) ;
//m_guideAction = new TDEToggleAction( i18n( "Guide Lines" ), 0, TQT_TQOBJECT(this), TQT_SLOT( viewGuideLines() ), actionCollection(), "view_guidelines" );
// Add new palette
new TDEAction ( i18n ( " Add New Palette... " ) , 0 , TQT_TQOBJECT ( this ) , TQT_SLOT ( slotAddPalette ( ) ) ,
actionCollection ( ) , " add_palette " ) ;
new TDEAction ( i18n ( " Edit Palette... " ) , 0 , TQT_TQOBJECT ( this ) , TQT_SLOT ( slotEditPalette ( ) ) ,
actionCollection ( ) , " edit_palette " ) ;
// XXX: This triggers a repaint of the image, but way too early
//showRuler();
}
void KisView : : resizeEvent ( TQResizeEvent * )
{
if ( ! m_paintViewEnabled ) {
startInitialZoomTimerIfReady ( ) ;
}
KisImageSP img = currentImg ( ) ;
TQ_INT32 scrollBarExtent = style ( ) . pixelMetric ( TQStyle : : PM_ScrollBarExtent ) ;
TQ_INT32 drawH ;
TQ_INT32 drawW ;
TQ_INT32 docW ;
TQ_INT32 docH ;
// if (img) {
// KisGuideMgr *mgr = img->guides();
// mgr->resize(size());
// }
docW = static_cast < TQ_INT32 > ( ceil ( docWidth ( ) * zoom ( ) ) ) ;
docH = static_cast < TQ_INT32 > ( ceil ( docHeight ( ) * zoom ( ) ) ) ;
m_rulerThickness = m_RulerAction - > isChecked ( ) ? RULER_THICKNESS : 0 ;
drawH = height ( ) - m_rulerThickness ;
drawW = width ( ) - m_rulerThickness ;
if ( drawH < docH ) {
// Will need vert scrollbar
drawW - = scrollBarExtent ;
if ( drawW < docW )
// Will need horiz scrollbar
drawH - = scrollBarExtent ;
} else if ( drawW < docW ) {
// Will need horiz scrollbar
drawH - = scrollBarExtent ;
if ( drawH < docH )
// Will need vert scrollbar
drawW - = scrollBarExtent ;
}
m_vScroll - > setEnabled ( docH > drawH ) ;
m_hScroll - > setEnabled ( docW > drawW ) ;
if ( docH < = drawH & & docW < = drawW ) {
// we need no scrollbars
m_vScroll - > hide ( ) ;
m_hScroll - > hide ( ) ;
m_vScroll - > setValue ( 0 ) ;
m_hScroll - > setValue ( 0 ) ;
m_vScrollBarExtent = 0 ;
m_hScrollBarExtent = 0 ;
} else if ( docH < = drawH ) {
// we need a horizontal scrollbar only
m_vScroll - > hide ( ) ;
m_vScroll - > setValue ( 0 ) ;
m_hScroll - > setRange ( 0 , docW - drawW ) ;
m_hScroll - > setGeometry ( m_rulerThickness ,
height ( ) - scrollBarExtent ,
width ( ) - m_rulerThickness ,
scrollBarExtent ) ;
m_hScroll - > show ( ) ;
m_hScrollBarExtent = scrollBarExtent ;
m_hScrollBarExtent = scrollBarExtent ;
} else if ( docW < = drawW ) {
// we need a vertical scrollbar only
m_hScroll - > hide ( ) ;
m_hScroll - > setValue ( 0 ) ;
m_vScroll - > setRange ( 0 , docH - drawH ) ;
m_vScroll - > setGeometry ( width ( ) - scrollBarExtent , m_rulerThickness , scrollBarExtent , height ( ) - m_rulerThickness ) ;
m_vScroll - > show ( ) ;
m_vScrollBarExtent = scrollBarExtent ;
} else {
// we need both scrollbars
m_vScroll - > setRange ( 0 , docH - drawH ) ;
m_vScroll - > setGeometry ( width ( ) - scrollBarExtent ,
m_rulerThickness ,
scrollBarExtent ,
height ( ) - 2 * m_rulerThickness ) ;
m_hScroll - > setRange ( 0 , docW - drawW ) ;
m_hScroll - > setGeometry ( m_rulerThickness ,
height ( ) - scrollBarExtent ,
width ( ) - 2 * m_rulerThickness ,
scrollBarExtent ) ;
m_vScroll - > show ( ) ;
m_hScroll - > show ( ) ;
m_vScrollBarExtent = scrollBarExtent ;
m_hScrollBarExtent = scrollBarExtent ;
}
TQ_INT32 oldCanvasXOffset = m_canvasXOffset ;
TQ_INT32 oldCanvasYOffset = m_canvasYOffset ;
if ( docW < drawW ) {
m_canvasXOffset = ( drawW - docW ) / 2 ;
} else {
m_canvasXOffset = 0 ;
}
if ( docH < drawH ) {
m_canvasYOffset = ( drawH - docH ) / 2 ;
} else {
m_canvasYOffset = 0 ;
}
//Check if rulers are visible
if ( m_RulerAction - > isChecked ( ) )
m_canvas - > setGeometry ( m_rulerThickness , m_rulerThickness , drawW , drawH ) ;
else
m_canvas - > setGeometry ( 0 , 0 , drawW , drawH ) ;
m_canvas - > show ( ) ;
if ( ! m_canvas - > isOpenGLCanvas ( ) ) {
if ( m_canvasPixmap . size ( ) ! = TQSize ( drawW , drawH ) ) {
TQ_INT32 oldCanvasWidth = m_canvasPixmap . width ( ) ;
TQ_INT32 oldCanvasHeight = m_canvasPixmap . height ( ) ;
TQ_INT32 newCanvasWidth = drawW ;
TQ_INT32 newCanvasHeight = drawH ;
TQRegion exposedRegion = TQRect ( 0 , 0 , newCanvasWidth , newCanvasHeight ) ;
// Increase size first so that we can copy the old image area to the new one.
m_canvasPixmap . resize ( TQMAX ( oldCanvasWidth , newCanvasWidth ) , TQMAX ( oldCanvasHeight , newCanvasHeight ) ) ;
if ( ! m_canvasPixmap . isNull ( ) ) {
if ( oldCanvasXOffset ! = m_canvasXOffset | | oldCanvasYOffset ! = m_canvasYOffset ) {
TQ_INT32 srcX ;
TQ_INT32 srcY ;
TQ_INT32 srcWidth ;
TQ_INT32 srcHeight ;
TQ_INT32 dstX ;
TQ_INT32 dstY ;
if ( oldCanvasXOffset < = m_canvasXOffset ) {
// Move to the right
srcX = 0 ;
dstX = m_canvasXOffset - oldCanvasXOffset ;
srcWidth = oldCanvasWidth ;
} else {
// Move to the left
srcX = oldCanvasXOffset - m_canvasXOffset ;
dstX = 0 ;
srcWidth = newCanvasWidth ;
}
if ( oldCanvasYOffset < = m_canvasYOffset ) {
// Move down
srcY = 0 ;
dstY = m_canvasYOffset - oldCanvasYOffset ;
srcHeight = oldCanvasHeight ;
} else {
// Move up
srcY = oldCanvasYOffset - m_canvasYOffset ;
dstY = 0 ;
srcHeight = newCanvasHeight ;
}
bitBlt ( & m_canvasPixmap , dstX , dstY , & m_canvasPixmap , srcX , srcY , srcWidth , srcHeight ) ;
exposedRegion - = TQRegion ( TQRect ( dstX , dstY , srcWidth , srcHeight ) ) ;
} else {
exposedRegion - = TQRegion ( TQRect ( 0 , 0 , oldCanvasWidth , oldCanvasHeight ) ) ;
}
}
m_canvasPixmap . resize ( newCanvasWidth , newCanvasHeight ) ;
if ( ! m_canvasPixmap . isNull ( ) & & ! exposedRegion . isEmpty ( ) ) {
TQMemArray < TQRect > rects = exposedRegion . rects ( ) ;
for ( unsigned int i = 0 ; i < rects . count ( ) ; i + + ) {
TQRect r = rects [ i ] ;
updateTQPaintDeviceCanvas ( viewToWindow ( r ) ) ;
}
}
}
}
int fontheight = TQFontMetrics ( TDEGlobalSettings : : generalFont ( ) ) . height ( ) * 3 ;
m_vScroll - > setPageStep ( drawH ) ;
m_vScroll - > setLineStep ( fontheight ) ;
m_hScroll - > setPageStep ( drawW ) ;
m_hScroll - > setLineStep ( fontheight ) ;
m_hRuler - > setGeometry ( m_rulerThickness + m_canvasXOffset , 0 , TQMIN ( docW , drawW ) , m_rulerThickness ) ;
m_vRuler - > setGeometry ( 0 , m_rulerThickness + m_canvasYOffset , m_rulerThickness , TQMIN ( docH , drawH ) ) ;
if ( m_vScroll - > isVisible ( ) )
m_vRuler - > updateVisibleArea ( 0 , m_vScroll - > value ( ) ) ;
else
m_vRuler - > updateVisibleArea ( 0 , 0 ) ;
if ( m_hScroll - > isVisible ( ) )
m_hRuler - > updateVisibleArea ( m_hScroll - > value ( ) , 0 ) ;
else
m_hRuler - > updateVisibleArea ( 0 , 0 ) ;
if ( m_RulerAction - > isChecked ( ) )
{
m_hRuler - > show ( ) ;
m_vRuler - > show ( ) ;
}
else {
m_hRuler - > hide ( ) ;
m_vRuler - > hide ( ) ;
}
emit viewTransformationsChanged ( ) ;
}
void KisView : : styleChange ( TQStyle & oldStyle )
{
Q_UNUSED ( oldStyle ) ;
m_canvas - > updateGeometry ( ) ;
refreshKisCanvas ( ) ;
}
void KisView : : paletteChange ( const TQPalette & oldPalette )
{
Q_UNUSED ( oldPalette ) ;
refreshKisCanvas ( ) ;
}
void KisView : : showEvent ( TQShowEvent * )
{
if ( ! m_showEventReceived ) {
m_showEventReceived = true ;
startInitialZoomTimerIfReady ( ) ;
}
}
void KisView : : updateReadWrite ( bool readwrite )
{
layerUpdateGUI ( readwrite ) ;
}
TQ_INT32 KisView : : horzValue ( ) const
{
return m_hScroll - > value ( ) - m_canvasXOffset ;
}
TQ_INT32 KisView : : vertValue ( ) const
{
return m_vScroll - > value ( ) - m_canvasYOffset ;
}
void KisView : : updateTQPaintDeviceCanvas ( const TQRect & imageRect )
{
TQRect vr = windowToView ( imageRect ) ;
vr & = TQRect ( 0 , 0 , m_canvas - > width ( ) , m_canvas - > height ( ) ) ;
if ( ! vr . isEmpty ( ) ) {
TQPainter gc ;
if ( ! m_canvasPixmap . isNull ( ) & & gc . begin ( & m_canvasPixmap ) ) {
KisImageSP img = currentImg ( ) ;
if ( img & & m_paintViewEnabled ) {
TQRect wr = viewToWindow ( vr ) ;
if ( wr . left ( ) < 0 | | wr . right ( ) > = img - > width ( ) | | wr . top ( ) < 0 | | wr . bottom ( ) > = img - > height ( ) ) {
// Erase areas outside document
TQRegion rg ( vr ) ;
rg - = TQRegion ( windowToView ( TQRect ( 0 , 0 , img - > width ( ) , img - > height ( ) ) ) ) ;
TQMemArray < TQRect > rects = rg . rects ( ) ;
for ( unsigned int i = 0 ; i < rects . count ( ) ; i + + ) {
TQRect er = rects [ i ] ;
gc . fillRect ( er , colorGroup ( ) . mid ( ) ) ;
}
wr & = TQRect ( 0 , 0 , img - > width ( ) , img - > height ( ) ) ;
}
if ( ! wr . isEmpty ( ) ) {
KisImage : : PaintFlags paintFlags = ( KisImage : : PaintFlags ) KisImage : : PAINT_BACKGROUND ;
if ( m_actLayerVis ) {
paintFlags = ( KisImage : : PaintFlags ) ( paintFlags | KisImage : : PAINT_MASKINACTIVELAYERS ) ;
}
if ( m_selectionManager - > displaySelection ( ) )
{
paintFlags = ( KisImage : : PaintFlags ) ( paintFlags | KisImage : : PAINT_SELECTION ) ;
}
if ( zoom ( ) > 1.0 - EPSILON ) {
gc . setWorldXForm ( true ) ;
gc . translate ( - horzValue ( ) , - vertValue ( ) ) ;
gc . scale ( zoomFactor ( ) , zoomFactor ( ) ) ;
m_image - > renderToPainter ( wr . left ( ) , wr . top ( ) ,
wr . right ( ) , wr . bottom ( ) , gc , monitorProfile ( ) ,
paintFlags , HDRExposure ( ) ) ;
} else {
TQRect canvasRect = windowToView ( wr ) ;
TQRect scaledImageRect = canvasRect ;
scaledImageRect . moveBy ( horzValue ( ) , vertValue ( ) ) ;
TQSize scaledImageSize ( static_cast < TQ_INT32 > ( ceil ( docWidth ( ) * zoom ( ) ) ) ,
static_cast < TQ_INT32 > ( ceil ( docHeight ( ) * zoom ( ) ) ) ) ;
TQImage image = m_image - > convertToTQImage ( scaledImageRect , scaledImageSize ,
monitorProfile ( ) , paintFlags , HDRExposure ( ) ) ;
gc . drawImage ( canvasRect . topLeft ( ) , image , image . rect ( ) ) ;
// Set up for the grid drawer.
gc . setWorldXForm ( true ) ;
gc . translate ( - horzValue ( ) , - vertValue ( ) ) ;
gc . scale ( zoomFactor ( ) , zoomFactor ( ) ) ;
}
m_gridManager - > drawGrid ( wr , & gc ) ;
m_perspectiveGridManager - > drawGrid ( wr , & gc ) ;
}
// paintGuides();
} else {
gc . fillRect ( vr , colorGroup ( ) . mid ( ) ) ;
}
}
}
}
void KisView : : paintTQPaintDeviceView ( const TQRegion & canvasRegion )
{
Q_ASSERT ( m_canvas - > TQPaintDeviceWidget ( ) ! = 0 ) ;
if ( m_canvas - > TQPaintDeviceWidget ( ) ! = 0 & & ! m_canvasPixmap . isNull ( ) ) {
TQMemArray < TQRect > rects = canvasRegion . rects ( ) ;
for ( unsigned int i = 0 ; i < rects . count ( ) ; i + + ) {
TQRect r = rects [ i ] ;
bitBlt ( m_canvas - > TQPaintDeviceWidget ( ) , r . x ( ) , r . y ( ) , & m_canvasPixmap ,
r . x ( ) , r . y ( ) , r . width ( ) , r . height ( ) ) ;
}
paintToolOverlay ( canvasRegion ) ;
}
}
void KisView : : updateOpenGLCanvas ( const TQRect & imageRect )
{
# ifdef HAVE_GL
KisImageSP img = currentImg ( ) ;
if ( img & & m_paintViewEnabled ) {
Q_ASSERT ( m_OpenGLImageContext ! = 0 ) ;
if ( m_OpenGLImageContext ! = 0 ) {
m_OpenGLImageContext - > update ( imageRect ) ;
}
}
# else
Q_UNUSED ( imageRect ) ;
# endif
}
void KisView : : paintOpenGLView ( const TQRect & canvasRect )
{
# ifdef HAVE_GL
if ( ! m_canvas - > isUpdatesEnabled ( ) ) {
return ;
}
m_canvas - > OpenGLWidget ( ) - > makeCurrent ( ) ;
glDrawBuffer ( GL_BACK ) ;
TQColor widgetBackgroundColor = colorGroup ( ) . mid ( ) ;
glClearColor ( widgetBackgroundColor . red ( ) / 255.0 , widgetBackgroundColor . green ( ) / 255.0 , widgetBackgroundColor . blue ( ) / 255.0 , 1.0 ) ;
glClear ( GL_COLOR_BUFFER_BIT ) ;
KisImageSP img = currentImg ( ) ;
if ( img & & m_paintViewEnabled ) {
TQRect vr = canvasRect ;
vr & = TQRect ( 0 , 0 , m_canvas - > width ( ) , m_canvas - > height ( ) ) ;
if ( ! vr . isNull ( ) ) {
glMatrixMode ( GL_PROJECTION ) ;
glLoadIdentity ( ) ;
glViewport ( 0 , 0 , m_canvas - > width ( ) , m_canvas - > height ( ) ) ;
glOrtho ( 0 , m_canvas - > width ( ) , m_canvas - > height ( ) , 0 , - 1 , 1 ) ;
glMatrixMode ( GL_MODELVIEW ) ;
glLoadIdentity ( ) ;
glBindTexture ( GL_TEXTURE_2D , m_OpenGLImageContext - > backgroundTexture ( ) ) ;
glTranslatef ( m_canvasXOffset , m_canvasYOffset , 0.0 ) ;
glEnable ( GL_TEXTURE_2D ) ;
glBegin ( GL_QUADS ) ;
glTexCoord2f ( 0.0 , 0.0 ) ;
glVertex2f ( 0.0 , 0.0 ) ;
glTexCoord2f ( ( img - > width ( ) * zoom ( ) ) / KisOpenGLImageContext : : BACKGROUND_TEXTURE_WIDTH , 0.0 ) ;
glVertex2f ( img - > width ( ) * zoom ( ) , 0.0 ) ;
glTexCoord2f ( ( img - > width ( ) * zoom ( ) ) / KisOpenGLImageContext : : BACKGROUND_TEXTURE_WIDTH ,
( img - > height ( ) * zoom ( ) ) / KisOpenGLImageContext : : BACKGROUND_TEXTURE_HEIGHT ) ;
glVertex2f ( img - > width ( ) * zoom ( ) , img - > height ( ) * zoom ( ) ) ;
glTexCoord2f ( 0.0 , ( img - > height ( ) * zoom ( ) ) / KisOpenGLImageContext : : BACKGROUND_TEXTURE_HEIGHT ) ;
glVertex2f ( 0.0 , img - > height ( ) * zoom ( ) ) ;
glEnd ( ) ;
glTranslatef ( - m_canvasXOffset , - m_canvasYOffset , 0.0 ) ;
glTranslatef ( - horzValue ( ) , - vertValue ( ) , 0.0 ) ;
glScalef ( zoomFactor ( ) , zoomFactor ( ) , 1.0 ) ;
glEnable ( GL_BLEND ) ;
glBlendFunc ( GL_SRC_ALPHA , GL_ONE_MINUS_SRC_ALPHA ) ;
TQRect wr = viewToWindow ( TQRect ( 0 , 0 , m_canvas - > width ( ) , m_canvas - > height ( ) ) ) ;
wr & = TQRect ( 0 , 0 , img - > width ( ) , img - > height ( ) ) ;
m_OpenGLImageContext - > setHDRExposure ( HDRExposure ( ) ) ;
m_canvas - > OpenGLWidget ( ) - > makeCurrent ( ) ;
for ( int x = ( wr . left ( ) / m_OpenGLImageContext - > imageTextureTileWidth ( ) ) * m_OpenGLImageContext - > imageTextureTileWidth ( ) ;
x < = wr . right ( ) ;
x + = m_OpenGLImageContext - > imageTextureTileWidth ( ) ) {
for ( int y = ( wr . top ( ) / m_OpenGLImageContext - > imageTextureTileHeight ( ) ) * m_OpenGLImageContext - > imageTextureTileHeight ( ) ;
y < = wr . bottom ( ) ;
y + = m_OpenGLImageContext - > imageTextureTileHeight ( ) ) {
glBindTexture ( GL_TEXTURE_2D , m_OpenGLImageContext - > imageTextureTile ( x , y ) ) ;
glBegin ( GL_QUADS ) ;
glTexCoord2f ( 0.0 , 0.0 ) ;
glVertex2f ( x , y ) ;
glTexCoord2f ( 1.0 , 0.0 ) ;
glVertex2f ( x + m_OpenGLImageContext - > imageTextureTileWidth ( ) , y ) ;
glTexCoord2f ( 1.0 , 1.0 ) ;
glVertex2f ( x + m_OpenGLImageContext - > imageTextureTileWidth ( ) , y + m_OpenGLImageContext - > imageTextureTileHeight ( ) ) ;
glTexCoord2f ( 0.0 , 1.0 ) ;
glVertex2f ( x , y + m_OpenGLImageContext - > imageTextureTileHeight ( ) ) ;
glEnd ( ) ;
}
}
glDisable ( GL_TEXTURE_2D ) ;
glDisable ( GL_BLEND ) ;
m_gridManager - > drawGrid ( wr , 0 , true ) ;
m_perspectiveGridManager - > drawGrid ( wr , 0 , true ) ;
// Unbind the texture otherwise the ATI driver crashes when the canvas context is
// made current after the textures are deleted following an image resize.
glBindTexture ( GL_TEXTURE_2D , 0 ) ;
//paintGuides();
}
}
m_canvas - > OpenGLWidget ( ) - > swapBuffers ( ) ;
paintToolOverlay ( TQRegion ( canvasRect ) ) ;
# else
Q_UNUSED ( canvasRect ) ;
# endif
}
void KisView : : setInputDevice ( KisInputDevice inputDevice )
{
if ( inputDevice ! = m_inputDevice ) {
m_inputDevice = inputDevice ;
m_toolManager - > setToolForInputDevice ( m_inputDevice , inputDevice ) ;
if ( m_toolManager - > currentTool ( ) = = 0 ) {
m_toolManager - > setCurrentTool ( m_toolManager - > findTool ( " tool_brush " , m_inputDevice ) ) ;
}
else {
m_toolManager - > setCurrentTool ( m_toolManager - > currentTool ( ) ) ;
}
m_toolManager - > activateCurrentTool ( ) ;
emit sigInputDeviceChanged ( inputDevice ) ;
}
}
KisInputDevice KisView : : currentInputDevice ( ) const
{
return m_inputDevice ;
}
KisCanvas * KisView : : kiscanvas ( ) const
{
return m_canvas ;
}
void KisView : : updateCanvas ( )
{
if ( m_image ) {
updateCanvas ( m_image - > bounds ( ) ) ;
}
}
void KisView : : updateCanvas ( TQ_INT32 x , TQ_INT32 y , TQ_INT32 w , TQ_INT32 h )
{
updateCanvas ( TQRect ( x , y , w , h ) ) ;
}
void KisView : : updateCanvas ( const TQRect & imageRect )
{
if ( m_canvas - > isOpenGLCanvas ( ) ) {
updateOpenGLCanvas ( imageRect ) ;
paintOpenGLView ( windowToView ( imageRect ) ) ;
} else {
updateTQPaintDeviceCanvas ( imageRect ) ;
//m_canvas->update(windowToView(imageRect));
m_canvas - > repaint ( windowToView ( imageRect ) ) ;
}
}
void KisView : : refreshKisCanvas ( )
{
TQRect imageRect = viewToWindow ( TQRect ( 0 , 0 , m_canvas - > width ( ) , m_canvas - > height ( ) ) ) ;
if ( m_image ) {
imageRect | = m_image - > bounds ( ) ;
}
updateCanvas ( imageRect ) ;
// Enable this if updateCanvas does an m_canvas->update()
//m_canvas->repaint();
}
void KisView : : selectionDisplayToggled ( bool displaySelection )
{
# ifdef HAVE_GL
if ( m_canvas - > isOpenGLCanvas ( ) ) {
if ( m_OpenGLImageContext ) {
m_OpenGLImageContext - > setSelectionDisplayEnabled ( displaySelection ) ;
}
}
# else
Q_UNUSED ( displaySelection ) ;
# endif
updateCanvas ( ) ;
}
void KisView : : layerUpdateGUI ( bool enable )
{
KisImageSP img = currentImg ( ) ;
KisLayerSP layer ;
TQ_INT32 nlayers = 0 ;
TQ_INT32 nvisible = 0 ;
if ( img ) {
layer = img - > activeLayer ( ) ;
nlayers = img - > nlayers ( ) ;
nvisible = nlayers - img - > nHiddenLayers ( ) ;
}
KisPaintLayer * pl = dynamic_cast < KisPaintLayer * > ( layer . data ( ) ) ;
if ( pl & & ( m_currentColorChooserDisplay ! = KisID ( " BLA " ) | |
pl - > paintDevice ( ) - > colorSpace ( ) - > id ( ) ! = m_currentColorChooserDisplay ) ) {
if ( pl - > paintDevice ( ) - > colorSpace ( ) - > id ( ) = = KisID ( " WET " ) ) {
m_paletteManager - > hideWidget ( " hsvwidget " ) ;
m_paletteManager - > hideWidget ( " rgbwidget " ) ;
m_paletteManager - > hideWidget ( " graywidget " ) ;
m_paletteManager - > hideWidget ( " palettewidget " ) ;
m_paletteManager - > showWidget ( " watercolor docker " ) ;
}
else {
m_paletteManager - > hideWidget ( " watercolor docker " ) ;
m_paletteManager - > showWidget ( " palettewidget " ) ;
m_paletteManager - > showWidget ( " graywidget " ) ;
m_paletteManager - > showWidget ( " rgbwidget " ) ;
m_paletteManager - > showWidget ( " hsvwidget " ) ;
}
m_currentColorChooserDisplay = pl - > paintDevice ( ) - > colorSpace ( ) - > id ( ) ;
}
enable = enable & & img & & layer & & layer - > visible ( ) & & ! layer - > locked ( ) ;
m_layerDup - > setEnabled ( enable ) ;
m_layerRm - > setEnabled ( enable ) ;
m_layerHide - > setEnabled ( img & & layer ) ;
m_layerProperties - > setEnabled ( enable ) ;
m_layerSaveAs - > setEnabled ( enable ) ;
m_layerRaise - > setEnabled ( enable & & layer - > prevSibling ( ) ) ;
m_layerLower - > setEnabled ( enable & & layer - > nextSibling ( ) ) ;
m_layerTop - > setEnabled ( enable & & nlayers > 1 & & layer ! = img - > rootLayer ( ) - > firstChild ( ) ) ;
m_layerBottom - > setEnabled ( enable & & nlayers > 1 & & layer ! = img - > rootLayer ( ) - > lastChild ( ) ) ;
// XXX these should be named layer instead of img
m_imgFlatten - > setEnabled ( nlayers > 1 ) ;
m_imgMergeLayer - > setEnabled ( nlayers > 1 & & layer & & layer - > nextSibling ( ) ) ;
m_selectionManager - > updateGUI ( ) ;
m_filterManager - > updateGUI ( ) ;
m_toolManager - > updateGUI ( ) ;
m_gridManager - > updateGUI ( ) ;
m_perspectiveGridManager - > updateGUI ( ) ;
KisPartLayer * partLayer = dynamic_cast < KisPartLayer * > ( layer . data ( ) ) ;
if ( partLayer ) {
setCanvasCursor ( KisCursor : : arrowCursor ( ) ) ;
}
if ( img & & img - > activeDevice ( ) )
emit currentColorSpaceChanged ( img - > activeDevice ( ) - > colorSpace ( ) ) ;
imgUpdateGUI ( ) ;
}
void KisView : : imgUpdateGUI ( )
{
KisImageSP img = currentImg ( ) ;
m_imgResizeToLayer - > setEnabled ( img & & img - > activeLayer ( ) ) ;
updateStatusBarProfileLabel ( ) ;
}
static const double zoomLevels [ ] = {
1.0 / 500 ,
1.0 / 333.333333 ,
1.0 / 250 ,
1.0 / 200 ,
1.0 / 150 ,
1.0 / 100 ,
1.0 / 66.666667 ,
1.0 / 50 ,
1.0 / 33.333333 ,
1.0 / 25 ,
1.0 / 20 ,
1.0 / 16 ,
1.0 / 12 ,
1.0 / 8 ,
1.0 / 6 ,
1.0 / 4 ,
1.0 / 3 ,
1.0 / 2 ,
1.0 / 1.5 ,
1 ,
2 ,
3 ,
4 ,
5 ,
6 ,
7 ,
8 ,
12 ,
16
} ;
# define ARRAY_SIZE(x) (sizeof(x) / sizeof((x)[0]))
# define NUM_ZOOM_LEVELS ARRAY_SIZE(zoomLevels)
# define FIRST_ZOOM_LEVEL_INDEX 0
# define LAST_ZOOM_LEVEL_INDEX (NUM_ZOOM_LEVELS - 1)
# define KISVIEW_MIN_ZOOM (zoomLevels[FIRST_ZOOM_LEVEL_INDEX])
# define KISVIEW_MAX_ZOOM (zoomLevels[LAST_ZOOM_LEVEL_INDEX])
double KisView : : nextZoomInLevel ( ) const
{
uint zoomLevelIndex = FIRST_ZOOM_LEVEL_INDEX ;
while ( zoom ( ) > = zoomLevels [ zoomLevelIndex ] & & zoomLevelIndex < LAST_ZOOM_LEVEL_INDEX ) {
zoomLevelIndex + + ;
}
return zoomLevels [ zoomLevelIndex ] ;
}
double KisView : : nextZoomOutLevel ( double zoomLevel ) const
{
int zoomLevelIndex = LAST_ZOOM_LEVEL_INDEX ;
while ( zoomLevel < = zoomLevels [ zoomLevelIndex ] & & zoomLevelIndex > FIRST_ZOOM_LEVEL_INDEX ) {
zoomLevelIndex - - ;
}
return zoomLevels [ zoomLevelIndex ] ;
}
double KisView : : nextZoomOutLevel ( ) const
{
return nextZoomOutLevel ( zoom ( ) ) ;
}
void KisView : : zoomAroundPoint ( double x , double y , double zf )
{
// Disable updates while we change the scrollbar settings.
m_canvas - > setUpdatesEnabled ( false ) ;
m_hScroll - > setUpdatesEnabled ( false ) ;
m_vScroll - > setUpdatesEnabled ( false ) ;
if ( x < 0 | | y < 0 ) {
// Zoom about the centre of the current display
KisImageSP img = currentImg ( ) ;
if ( img ) {
if ( m_hScroll - > isVisible ( ) ) {
KisPoint c = viewToWindow ( KisPoint ( m_canvas - > width ( ) / 2.0 , m_canvas - > height ( ) / 2.0 ) ) ;
x = c . x ( ) ;
}
else {
x = img - > width ( ) / 2.0 ;
}
if ( m_vScroll - > isVisible ( ) ) {
KisPoint c = viewToWindow ( KisPoint ( m_canvas - > width ( ) / 2.0 , m_canvas - > height ( ) / 2.0 ) ) ;
y = c . y ( ) ;
}
else {
y = img - > height ( ) / 2.0 ;
}
}
else {
x = 0 ;
y = 0 ;
}
}
setZoom ( zf ) ;
Q_ASSERT ( m_zoomIn ) ;
Q_ASSERT ( m_zoomOut ) ;
updateStatusBarZoomLabel ( ) ;
m_zoomIn - > setEnabled ( zf < KISVIEW_MAX_ZOOM ) ;
m_zoomOut - > setEnabled ( zf > KISVIEW_MIN_ZOOM ) ;
resizeEvent ( 0 ) ;
m_hRuler - > setZoom ( zf ) ;
m_vRuler - > setZoom ( zf ) ;
if ( m_hScroll - > isVisible ( ) ) {
double vcx = m_canvas - > width ( ) / 2.0 ;
TQ_INT32 scrollX = tqRound ( x * zoom ( ) - vcx ) ;
m_hScroll - > setValue ( scrollX ) ;
}
if ( m_vScroll - > isVisible ( ) ) {
double vcy = m_canvas - > height ( ) / 2.0 ;
TQ_INT32 scrollY = tqRound ( y * zoom ( ) - vcy ) ;
m_vScroll - > setValue ( scrollY ) ;
}
// Now update everything.
m_canvas - > setUpdatesEnabled ( true ) ;
m_hScroll - > setUpdatesEnabled ( true ) ;
m_vScroll - > setUpdatesEnabled ( true ) ;
m_hScroll - > update ( ) ;
m_vScroll - > update ( ) ;
if ( m_canvas - > isOpenGLCanvas ( ) ) {
paintOpenGLView ( TQRect ( 0 , 0 , m_canvas - > width ( ) , m_canvas - > height ( ) ) ) ;
} else {
refreshKisCanvas ( ) ;
}
emit viewTransformationsChanged ( ) ;
}
void KisView : : zoomTo ( const KisRect & r )
{
if ( ! r . isNull ( ) ) {
double wZoom = fabs ( m_canvas - > width ( ) / r . width ( ) ) ;
double hZoom = fabs ( m_canvas - > height ( ) / r . height ( ) ) ;
double zf = kMin ( wZoom , hZoom ) ;
if ( zf < KISVIEW_MIN_ZOOM ) {
zf = KISVIEW_MIN_ZOOM ;
}
else
if ( zf > KISVIEW_MAX_ZOOM ) {
zf = KISVIEW_MAX_ZOOM ;
}
zoomAroundPoint ( r . center ( ) . x ( ) , r . center ( ) . y ( ) , zf ) ;
}
}
void KisView : : zoomTo ( const TQRect & r )
{
zoomTo ( KisRect ( r ) ) ;
}
void KisView : : zoomTo ( TQ_INT32 x , TQ_INT32 y , TQ_INT32 w , TQ_INT32 h )
{
zoomTo ( KisRect ( x , y , w , h ) ) ;
}
void KisView : : zoomIn ( TQ_INT32 x , TQ_INT32 y )
{
zoomAroundPoint ( x , y , nextZoomInLevel ( ) ) ;
}
void KisView : : zoomOut ( TQ_INT32 x , TQ_INT32 y )
{
zoomAroundPoint ( x , y , nextZoomOutLevel ( ) ) ;
}
void KisView : : zoomIn ( )
{
slotZoomIn ( ) ;
}
void KisView : : zoomOut ( )
{
slotZoomOut ( ) ;
}
void KisView : : slotZoomIn ( )
{
zoomIn ( - 1 , - 1 ) ;
}
void KisView : : slotZoomOut ( )
{
zoomOut ( - 1 , - 1 ) ;
}
void KisView : : slotActualPixels ( )
{
zoomAroundPoint ( - 1 , - 1 , 1.0 ) ;
}
void KisView : : slotActualSize ( )
{
//XXX later this should be update to take screen res and image res into consideration
zoomAroundPoint ( - 1 , - 1 , 1.0 ) ;
}
double KisView : : fitToCanvasZoomLevel ( ) const
{
int fullCanvasWidth = width ( ) ;
if ( m_vRuler - > isVisible ( ) ) {
fullCanvasWidth - = m_vRuler - > width ( ) ;
}
int fullCanvasHeight = height ( ) ;
if ( m_hRuler - > isVisible ( ) ) {
fullCanvasHeight - = m_hRuler - > height ( ) ;
}
KisImageSP img = currentImg ( ) ;
if ( img ) {
double xZoomLevel = static_cast < double > ( fullCanvasWidth ) / img - > width ( ) ;
double yZoomLevel = static_cast < double > ( fullCanvasHeight ) / img - > height ( ) ;
return TQMIN ( xZoomLevel , yZoomLevel ) ;
}
else {
return 1 ;
}
}
void KisView : : slotFitToCanvas ( )
{
zoomAroundPoint ( - 1 , - 1 , fitToCanvasZoomLevel ( ) ) ;
}
void KisView : : setInitialZoomLevel ( )
{
double zoomLevel = fitToCanvasZoomLevel ( ) ;
if ( zoomLevel > 1 ) {
zoomLevel = 1 ;
} else {
zoomLevel = nextZoomOutLevel ( zoomLevel ) ;
}
zoomAroundPoint ( - 1 , - 1 , zoomLevel ) ;
}
void KisView : : imgResizeToActiveLayer ( )
{
KisImageSP img = currentImg ( ) ;
KisLayerSP layer ;
if ( img & & ( layer = img - > activeLayer ( ) ) ) {
if ( m_adapter & & m_adapter - > undo ( ) ) {
m_adapter - > beginMacro ( i18n ( " Resize Image to Size of Current Layer " ) ) ;
}
img - > lock ( ) ;
TQRect r = layer - > exactBounds ( ) ;
img - > resize ( r . width ( ) , r . height ( ) , r . x ( ) , r . y ( ) , true ) ;
img - > unlock ( ) ;
if ( m_adapter & & m_adapter - > undo ( ) ) {
m_adapter - > endMacro ( ) ;
}
}
}
void KisView : : slotImageProperties ( )
{
KisImageSP img = currentImg ( ) ;
if ( ! img ) return ;
KisDlgImageProperties dlg ( img , this ) ;
if ( dlg . exec ( ) = = TQDialog : : Accepted ) {
if ( dlg . imageWidth ( ) ! = img - > width ( ) | |
dlg . imageHeight ( ) ! = img - > height ( ) ) {
resizeCurrentImage ( dlg . imageWidth ( ) ,
dlg . imageHeight ( ) ) ;
}
TQ_INT32 opacity = dlg . opacity ( ) ;
opacity = opacity * 255 / 100 ;
img - > setName ( dlg . imageName ( ) ) ;
img - > setColorSpace ( dlg . colorSpace ( ) ) ;
img - > setResolution ( dlg . resolution ( ) , dlg . resolution ( ) ) ;
img - > setDescription ( dlg . description ( ) ) ;
img - > setProfile ( dlg . profile ( ) ) ;
}
}
void KisView : : slotInsertImageAsLayer ( )
{
if ( importImage ( ) > 0 )
m_doc - > setModified ( true ) ;
}
void KisView : : slotAddPalette ( )
{
KDialogBase * base = new KDialogBase ( this , 0 , true , i18n ( " Add Palette " ) , KDialogBase : : Ok | KDialogBase : : Cancel ) ;
KisCustomPalette * p = new KisCustomPalette ( base , " add palette " , i18n ( " Add Palette " ) , this ) ;
base - > setMainWidget ( p ) ;
base - > show ( ) ;
}
void KisView : : slotEditPalette ( )
{
KisPaletteChooser chooser ( this ) ;
KisResourceServerBase * srv = KisResourceServerRegistry : : instance ( ) - > get ( " PaletteServer " ) ;
if ( ! srv ) {
return ;
}
TQValueList < KisResource * > resources = srv - > resources ( ) ;
TQValueList < KisPalette * > palettes ;
for ( uint i = 0 ; i < resources . count ( ) ; i + + ) {
KisPalette * palette = dynamic_cast < KisPalette * > ( * resources . at ( i ) ) ;
chooser . paletteList - > insertItem ( palette - > name ( ) ) ;
palettes . append ( palette ) ;
}
if ( chooser . exec ( ) ! = TQDialog : : Accepted ) {
return ;
}
int index = chooser . paletteList - > currentItem ( ) ;
if ( index < 0 ) {
KMessageBox : : error ( this , i18n ( " No palette selected. " ) , i18n ( " Palette " ) ) ;
return ;
}
KDialogBase * base = new KDialogBase ( this , 0 , true , i18n ( " Edit Palette " ) , KDialogBase : : Ok ) ;
KisCustomPalette * cp = new KisCustomPalette ( base , " edit palette " ,
i18n ( " Edit Palette " ) , this ) ;
cp - > setEditMode ( true ) ;
cp - > setPalette ( * palettes . at ( index ) ) ;
base - > setMainWidget ( cp ) ;
base - > show ( ) ;
}
void KisView : : saveLayerAsImage ( )
{
TQStringList listMimeFilter = KoFilterManager : : mimeFilter ( " application/x-chalk " , KoFilterManager : : Export ) ;
TQString mimelist = listMimeFilter . join ( " " ) ;
KFileDialog fd ( TQString ( ) , mimelist , this , " Export Layer " , true ) ;
fd . setCaption ( i18n ( " Export Layer " ) ) ;
fd . setMimeFilter ( listMimeFilter ) ;
fd . setOperationMode ( KFileDialog : : Saving ) ;
if ( ! fd . exec ( ) ) return ;
KURL url = fd . selectedURL ( ) ;
TQString mimefilter = fd . currentMimeFilter ( ) ;
if ( url . isEmpty ( ) )
return ;
KisImageSP img = currentImg ( ) ;
if ( ! img ) return ;
KisLayerSP l = img - > activeLayer ( ) ;
if ( ! l ) return ;
TQRect r = l - > exactBounds ( ) ;
KisDoc d ;
d . prepareForImport ( ) ;
KisImageSP dst = new KisImage ( d . undoAdapter ( ) , r . width ( ) , r . height ( ) , img - > colorSpace ( ) , l - > name ( ) ) ;
d . setCurrentImage ( dst ) ;
dst - > addLayer ( l - > clone ( ) , dst - > rootLayer ( ) , 0 ) ;
d . setOutputMimeType ( mimefilter . latin1 ( ) ) ;
d . exp0rt ( url ) ;
}
TQ_INT32 KisView : : importImage ( const KURL & urlArg )
{
KisImageSP currentImage = currentImg ( ) ;
if ( ! currentImage ) {
return 0 ;
}
KURL : : List urls ;
TQ_INT32 rc = 0 ;
if ( urlArg . isEmpty ( ) ) {
TQString mimelist = KoFilterManager : : mimeFilter ( " application/x-chalk " , KoFilterManager : : Import ) . join ( " " ) ;
urls = KFileDialog : : getOpenURLs ( TQString ( ) , mimelist , 0 , i18n ( " Import Image " ) ) ;
} else {
urls . push_back ( urlArg ) ;
}
if ( urls . empty ( ) )
return 0 ;
for ( KURL : : List : : iterator it = urls . begin ( ) ; it ! = urls . end ( ) ; + + it ) {
new KisImportCatcher ( * it , currentImage ) ;
}
updateCanvas ( ) ;
return rc ;
}
void KisView : : rotateLayer180 ( )
{
rotateLayer ( M_PI ) ;
}
void KisView : : rotateLayerLeft90 ( )
{
rotateLayer ( M_PI / 2 - 2 * M_PI ) ;
}
void KisView : : rotateLayerRight90 ( )
{
rotateLayer ( M_PI / 2 ) ;
}
void KisView : : mirrorLayerX ( )
{
if ( ! currentImg ( ) ) return ;
KisPaintDeviceSP dev = currentImg ( ) - > activeDevice ( ) ;
if ( ! dev ) return ;
KisTransaction * t = 0 ;
if ( undoAdapter ( ) & & undoAdapter ( ) - > undo ( ) ) {
t = new KisTransaction ( i18n ( " Mirror Layer X " ) , dev ) ;
TQ_CHECK_PTR ( t ) ;
}
dev - > mirrorX ( ) ;
if ( t ) undoAdapter ( ) - > addCommand ( t ) ;
m_doc - > setModified ( true ) ;
layersUpdated ( ) ;
updateCanvas ( ) ;
}
void KisView : : mirrorLayerY ( )
{
if ( ! currentImg ( ) ) return ;
KisPaintDeviceSP dev = currentImg ( ) - > activeDevice ( ) ;
if ( ! dev ) return ;
KisTransaction * t = 0 ;
if ( undoAdapter ( ) & & undoAdapter ( ) - > undo ( ) ) {
t = new KisTransaction ( i18n ( " Mirror Layer Y " ) , dev ) ;
TQ_CHECK_PTR ( t ) ;
}
dev - > mirrorY ( ) ;
if ( t ) undoAdapter ( ) - > addCommand ( t ) ;
m_doc - > setModified ( true ) ;
layersUpdated ( ) ;
updateCanvas ( ) ;
}
void KisView : : scaleLayer ( double sx , double sy , KisFilterStrategy * filterStrategy )
{
if ( ! currentImg ( ) ) return ;
KisPaintDeviceSP dev = currentImg ( ) - > activeDevice ( ) ;
if ( ! dev ) return ;
KisSelectedTransaction * t = 0 ;
if ( undoAdapter ( ) & & undoAdapter ( ) - > undo ( ) ) {
t = new KisSelectedTransaction ( i18n ( " Scale Layer " ) , dev ) ;
TQ_CHECK_PTR ( t ) ;
}
KisTransformWorker worker ( dev , sx , sy , 0 , 0 , 0.0 , 0 , 0 , m_progress , filterStrategy ) ;
worker . run ( ) ;
if ( t ) undoAdapter ( ) - > addCommand ( t ) ;
currentImg ( ) - > rootLayer ( ) - > setDirty ( false ) ;
m_doc - > setModified ( true ) ;
layersUpdated ( ) ;
updateCanvas ( ) ;
}
void KisView : : rotateLayer ( double radians )
{
if ( ! currentImg ( ) ) return ;
KisPaintDeviceSP dev = currentImg ( ) - > activeDevice ( ) ;
if ( ! dev ) return ;
KisSelectedTransaction * t = 0 ;
if ( undoAdapter ( ) & & undoAdapter ( ) - > undo ( ) ) {
t = new KisSelectedTransaction ( i18n ( " Rotate Layer " ) , dev ) ;
TQ_CHECK_PTR ( t ) ;
}
KisFilterStrategy * filter = KisFilterStrategyRegistry : : instance ( ) - > get ( KisID ( " Triangle " ) ) ;
TQRect r ;
if ( dev - > hasSelection ( ) )
r = dev - > selection ( ) - > selectedExactRect ( ) ;
else
r = dev - > exactBounds ( ) ;
double cx = r . x ( ) + r . width ( ) / 2.0 ;
double cy = r . y ( ) + r . height ( ) / 2.0 ;
TQ_INT32 tx = TQ_INT32 ( cx * cos ( radians ) - cy * sin ( radians ) - cx + 0.5 ) ;
TQ_INT32 ty = TQ_INT32 ( cy * cos ( radians ) + cx * sin ( radians ) - cy + 0.5 ) ;
KisTransformWorker tw ( dev , 1.0 , 1.0 , 0 , 0 , radians , - tx , - ty , m_progress , filter ) ;
tw . run ( ) ;
if ( t ) undoAdapter ( ) - > addCommand ( t ) ;
m_doc - > setModified ( true ) ;
layersUpdated ( ) ;
updateCanvas ( ) ;
}
void KisView : : shearLayer ( double angleX , double angleY )
{
if ( ! currentImg ( ) ) return ;
KisLayerSP layer = currentImg ( ) - > activeLayer ( ) ;
if ( ! layer ) return ;
KisUndoAdapter * undo = 0 ;
if ( ( undo = currentImg ( ) - > undoAdapter ( ) ) ) {
undo - > beginMacro ( i18n ( " Shear layer " ) ) ;
}
KisShearVisitor v ( angleX , angleY , m_progress ) ;
v . setUndoAdapter ( undo ) ;
layer - > accept ( v ) ;
if ( undo ) undo - > endMacro ( ) ;
m_doc - > setModified ( true ) ;
layersUpdated ( ) ;
updateCanvas ( ) ;
}
void KisView : : flattenImage ( )
{
KisImageSP img = currentImg ( ) ;
if ( img ) {
bool doIt = true ;
if ( img - > nHiddenLayers ( ) > 0 ) {
int answer = KMessageBox : : warningYesNo ( this ,
i18n ( " The image contains hidden layers that will be lost. " ) ,
i18n ( " Flatten Image " ) ,
i18n ( " &Flatten Image " ) ,
KStdGuiItem : : cancel ( ) ) ;
if ( answer ! = KMessageBox : : Yes ) {
doIt = false ;
}
}
if ( doIt ) {
img - > flatten ( ) ;
}
}
}
void KisView : : mergeLayer ( )
{
KisImageSP img = currentImg ( ) ;
if ( ! img ) return ;
KisLayerSP layer = img - > activeLayer ( ) ;
if ( ! layer ) return ;
img - > mergeLayer ( layer ) ;
}
void KisView : : preferences ( )
{
# ifdef HAVE_GL
bool canvasWasOpenGL = m_canvas - > isOpenGLCanvas ( ) ;
# endif
if ( PreferencesDialog : : editPreferences ( ) )
{
KisConfig cfg ;
m_paletteManager - > slotResetFont ( ) ;
resetMonitorProfile ( ) ;
# ifdef HAVE_GL
if ( cfg . useOpenGL ( ) ! = canvasWasOpenGL ) {
disconnectCurrentImg ( ) ;
//XXX: Need to notify other views that this global setting has changed.
if ( cfg . useOpenGL ( ) ) {
m_OpenGLImageContext = KisOpenGLImageContext : : getImageContext ( m_image , monitorProfile ( ) ) ;
m_canvas - > createOpenGLCanvas ( m_OpenGLImageContext - > sharedContextWidget ( ) ) ;
} else
{
m_OpenGLImageContext = 0 ;
m_canvas - > createTQPaintDeviceCanvas ( ) ;
}
connectCurrentImg ( ) ;
resizeEvent ( 0 ) ;
}
if ( cfg . useOpenGL ( ) ) {
m_OpenGLImageContext - > setMonitorProfile ( monitorProfile ( ) ) ;
}
# endif
refreshKisCanvas ( ) ;
if ( m_toolManager - > currentTool ( ) ) {
setCanvasCursor ( m_toolManager - > currentTool ( ) - > cursor ( ) ) ;
}
# if defined(EXTENDED_X11_TABLET_SUPPORT)
m_canvas - > selectTabletDeviceEvents ( ) ;
# endif
}
}
void KisView : : layerCompositeOp ( const KisCompositeOp & compositeOp )
{
KisImageSP img = currentImg ( ) ;
if ( ! img ) return ;
KisLayerSP layer = img - > activeLayer ( ) ;
if ( ! layer ) return ;
if ( img - > undo ( ) ) {
KNamedCommand * cmd = layer - > setCompositeOpCommand ( compositeOp ) ;
cmd - > execute ( ) ;
undoAdapter ( ) - > addCommand ( cmd ) ;
}
}
// range: 0 - 100
void KisView : : layerOpacity ( int opacity , bool dontundo )
{
KisImageSP img = currentImg ( ) ;
if ( ! img ) return ;
KisLayerSP layer = img - > activeLayer ( ) ;
if ( ! layer ) return ;
opacity = int ( float ( opacity * 255 ) / 100 + 0.5 ) ;
if ( opacity > 255 )
opacity = 255 ;
if ( opacity = = layer - > opacity ( ) ) return ;
if ( dontundo )
layer - > setOpacity ( opacity ) ;
else
{
if ( img - > undo ( ) ) {
KNamedCommand * cmd = layer - > setOpacityCommand ( opacity ) ;
cmd - > execute ( ) ;
undoAdapter ( ) - > addCommand ( cmd ) ;
}
}
}
void KisView : : layerOpacityFinishedChanging ( int previous , int opacity )
{
KisImageSP img = currentImg ( ) ;
if ( ! img ) return ;
KisLayerSP layer = img - > activeLayer ( ) ;
if ( ! layer ) return ;
opacity = int ( float ( opacity * 255 ) / 100 + 0.5 ) ;
if ( opacity > 255 )
opacity = 255 ;
previous = int ( float ( previous * 255 ) / 100 + 0.5 ) ;
if ( previous > 255 )
previous = 255 ;
if ( previous = = opacity ) return ;
if ( img - > undo ( ) ) {
KNamedCommand * cmd = layer - > setOpacityCommand ( previous , opacity ) ;
m_adapter - > addCommand ( cmd ) ;
}
}
void KisView : : showRuler ( )
{
if ( m_RulerAction - > isChecked ( ) )
{
m_hRuler - > show ( ) ;
m_vRuler - > show ( ) ;
}
else
{
m_hRuler - > hide ( ) ;
m_vRuler - > hide ( ) ;
}
resizeEvent ( 0 ) ;
refreshKisCanvas ( ) ;
}
void KisView : : slotUpdateFullScreen ( bool toggle )
{
if ( KoView : : shell ( ) ) {
uint newState = KoView : : shell ( ) - > windowState ( ) ;
if ( toggle ) {
newState | = TQt : : WindowFullScreen ;
} else {
newState & = ~ TQt : : WindowFullScreen ;
}
KoView : : shell ( ) - > setWindowState ( newState ) ;
}
}
TQ_INT32 KisView : : docWidth ( ) const
{
return currentImg ( ) ? currentImg ( ) - > width ( ) : 0 ;
}
TQ_INT32 KisView : : docHeight ( ) const
{
return currentImg ( ) ? currentImg ( ) - > height ( ) : 0 ;
}
void KisView : : scrollTo ( TQ_INT32 x , TQ_INT32 y )
{
if ( m_hScroll - > isVisible ( ) ) {
m_hScroll - > setValue ( x ) ;
}
if ( m_vScroll - > isVisible ( ) ) {
m_vScroll - > setValue ( y ) ;
}
}
void KisView : : brushActivated ( KisResource * brush )
{
m_brush = dynamic_cast < KisBrush * > ( brush ) ;
if ( m_brush )
{
emit brushChanged ( m_brush ) ;
notifyObservers ( ) ;
}
}
void KisView : : patternActivated ( KisResource * pattern )
{
m_pattern = dynamic_cast < KisPattern * > ( pattern ) ;
if ( m_pattern ) {
emit patternChanged ( m_pattern ) ;
notifyObservers ( ) ;
}
}
void KisView : : gradientActivated ( KisResource * gradient )
{
m_gradient = dynamic_cast < KisGradient * > ( gradient ) ;
if ( m_gradient ) {
emit gradientChanged ( m_gradient ) ;
notifyObservers ( ) ;
}
}
void KisView : : paintopActivated ( const KisID & paintop , const KisPaintOpSettings * paintopSettings )
{
if ( paintop . id ( ) . isNull ( ) | | paintop . id ( ) . isEmpty ( ) ) {
return ;
}
m_paintop = paintop ;
m_paintopSettings = paintopSettings ;
emit paintopChanged ( m_paintop , paintopSettings ) ;
notifyObservers ( ) ;
}
void KisView : : setBGColor ( const KisColor & c )
{
m_bg = c ;
notifyObservers ( ) ;
emit sigBGQColorChanged ( c . toTQColor ( ) ) ;
}
void KisView : : setFGColor ( const KisColor & c )
{
m_fg = c ;
notifyObservers ( ) ;
emit sigFGQColorChanged ( c . toTQColor ( ) ) ;
}
void KisView : : slotSetFGColor ( const KisColor & c )
{
m_fg = c ;
notifyObservers ( ) ;
}
void KisView : : slotSetBGColor ( const KisColor & c )
{
m_bg = c ;
notifyObservers ( ) ;
}
void KisView : : slotSetFGQColor ( const TQColor & c )
{
KisColorSpace * monitorSpace = KisMetaRegistry : : instance ( ) - > csRegistry ( ) - > getColorSpace ( KisID ( " RGBA " ) , m_monitorProfile ) ;
setFGColor ( KisColor ( c , monitorSpace ) ) ;
emit sigFGQColorChanged ( c ) ;
}
void KisView : : slotSetBGQColor ( const TQColor & c )
{
KisColorSpace * monitorSpace = KisMetaRegistry : : instance ( ) - > csRegistry ( ) - > getColorSpace ( KisID ( " RGBA " ) , m_monitorProfile ) ;
setBGColor ( KisColor ( c , monitorSpace ) ) ;
emit sigBGQColorChanged ( c ) ;
}
void KisView : : setupPrinter ( KPrinter & printer )
{
KisImageSP img = currentImg ( ) ;
if ( img ) {
printer . setPageSelection ( KPrinter : : ApplicationSide ) ;
printer . setPageSize ( KPrinter : : A4 ) ;
printer . setOrientation ( KPrinter : : Portrait ) ;
}
}
void KisView : : print ( KPrinter & printer )
{
TQPainter gc ( & printer ) ;
KisImageSP img = currentImg ( ) ;
if ( ! img ) return ;
printer . setFullPage ( true ) ;
gc . setClipping ( false ) ;
KisConfig cfg ;
TQString printerProfileName = cfg . printerProfile ( ) ;
KisProfile * printerProfile = KisMetaRegistry : : instance ( ) - > csRegistry ( ) - > getProfileByName ( printerProfileName ) ;
TQRect r = img - > bounds ( ) ;
img - > renderToPainter ( r . x ( ) , r . y ( ) , r . width ( ) , r . height ( ) , gc , printerProfile , KisImage : : PAINT_IMAGE_ONLY , HDRExposure ( ) ) ;
}
void KisView : : paintToolOverlay ( const TQRegion & region )
{
if ( ! region . isEmpty ( ) & & m_toolManager - > currentTool ( ) & & ! m_toolIsPainting ) {
KisCanvasPainter gc ( m_canvas ) ;
gc . setClipRegion ( region ) ;
gc . setClipping ( true ) ;
// Prevent endless loop if the tool needs to have the canvas repainted
m_toolIsPainting = true ;
m_toolManager - > currentTool ( ) - > paint ( gc , region . boundingRect ( ) ) ;
m_toolIsPainting = false ;
}
}
void KisView : : canvasGotPaintEvent ( TQPaintEvent * event )
{
if ( m_canvas - > isOpenGLCanvas ( ) ) {
paintOpenGLView ( event - > rect ( ) ) ;
} else {
paintTQPaintDeviceView ( event - > region ( ) ) ;
}
}
void KisView : : canvasGotButtonPressEvent ( KisButtonPressEvent * e )
{
# if defined(EXTENDED_X11_TABLET_SUPPORT)
// The event filter doesn't see tablet events going to the canvas.
if ( e - > device ( ) ! = KisInputDevice : : mouse ( ) ) {
m_tabletEventTimer . start ( ) ;
}
# endif // EXTENDED_X11_TABLET_SUPPORT
if ( e - > device ( ) ! = currentInputDevice ( ) ) {
if ( e - > device ( ) = = KisInputDevice : : mouse ( ) ) {
if ( m_tabletEventTimer . elapsed ( ) > MOUSE_CHANGE_EVENT_DELAY ) {
setInputDevice ( KisInputDevice : : mouse ( ) ) ;
}
} else {
setInputDevice ( e - > device ( ) ) ;
}
}
KisImageSP img = currentImg ( ) ;
// if (img) {
// TQPoint pt = mapToScreen(e->pos().floorTQPoint());
// KisGuideMgr *mgr = img->guides();
//
// m_lastGuidePoint = mapToScreen(e->pos().floorTQPoint());
// m_currentGuide = 0;
//
// if ((e->state() & ~TQt::ShiftButton) == Qt::NoButton) {
// KisGuideSP gd = mgr->find(static_cast<TQ_INT32>(pt.x() / zoom()), static_cast<TQ_INT32>(pt.y() / zoom()), TQMAX(2.0, 2.0 / zoom()));
//
// if (gd) {
// m_currentGuide = gd;
//
// if ((e->button() == Qt::RightButton) || ((e->button() & TQt::ShiftButton) == TQt::ShiftButton)) {
// if (gd->isSelected())
// mgr->unselect(gd);
// else
// mgr->select(gd);
// } else {
// if (!gd->isSelected()) {
// mgr->unselectAll();
// mgr->select(gd);
// }
// }
//
// updateGuides();
// return;
// }
// }
// }
if ( e - > button ( ) = = Qt : : RightButton ) {
TQPopupMenu * m_popup = 0 ;
if ( factory ( ) ) {
Q_ASSERT ( factory ( ) ) ;
m_popup = ( TQPopupMenu * ) factory ( ) - > container ( " image_popup " , this ) ;
}
if ( m_popup ) {
m_popup - > popup ( e - > globalPos ( ) . roundTQPoint ( ) ) ;
}
}
else if ( e - > device ( ) = = currentInputDevice ( ) & & m_toolManager - > currentTool ( ) ) {
KisPoint p = viewToWindow ( e - > pos ( ) ) ;
// somewhat of a hack: we should actually test if we intersect with the scrollers,
// but the globalPos seems to be off by a few pixels
if ( m_vScroll - > draggingSlider ( ) | | m_hScroll - > draggingSlider ( ) )
return ;
if ( m_toolManager - > currentTool ( ) - > wantsAutoScroll ( ) ) {
enableAutoScroll ( ) ;
}
KisButtonPressEvent ev ( e - > device ( ) , p , e - > globalPos ( ) , e - > pressure ( ) , e - > xTilt ( ) , e - > yTilt ( ) , e - > button ( ) , e - > state ( ) ) ;
m_toolManager - > currentTool ( ) - > buttonPress ( & ev ) ;
}
}
void KisView : : canvasGotMoveEvent ( KisMoveEvent * e )
{
# if defined(EXTENDED_X11_TABLET_SUPPORT)
// The event filter doesn't see tablet events going to the canvas.
if ( e - > device ( ) ! = KisInputDevice : : mouse ( ) ) {
m_tabletEventTimer . start ( ) ;
}
# endif // EXTENDED_X11_TABLET_SUPPORT
if ( e - > device ( ) ! = currentInputDevice ( ) ) {
if ( e - > device ( ) = = KisInputDevice : : mouse ( ) ) {
if ( m_tabletEventTimer . elapsed ( ) > MOUSE_CHANGE_EVENT_DELAY ) {
setInputDevice ( KisInputDevice : : mouse ( ) ) ;
}
} else {
setInputDevice ( e - > device ( ) ) ;
}
}
KisImageSP img = currentImg ( ) ;
m_hRuler - > updatePointer ( e - > pos ( ) . floorX ( ) - m_canvasXOffset , e - > pos ( ) . floorY ( ) - m_canvasYOffset ) ;
m_vRuler - > updatePointer ( e - > pos ( ) . floorX ( ) - m_canvasXOffset , e - > pos ( ) . floorY ( ) - m_canvasYOffset ) ;
KisPoint wp = viewToWindow ( e - > pos ( ) ) ;
#if 0
if ( img & & m_currentGuide ) {
TQPoint p = mapToScreen ( e - > pos ( ) . floorTQPoint ( ) ) ;
KisGuideMgr * mgr = img - > guides ( ) ;
if ( ( ( e - > state ( ) & Qt : : LeftButton ) = = Qt : : LeftButton ) & & mgr - > hasSelected ( ) ) {
eraseGuides ( ) ;
p - = m_lastGuidePoint ;
if ( p . x ( ) )
mgr - > moveSelectedByX ( p . x ( ) / zoom ( ) ) ;
if ( p . y ( ) )
mgr - > moveSelectedByY ( p . y ( ) / zoom ( ) ) ;
m_doc - > setModified ( true ) ;
paintGuides ( ) ;
}
} else
# endif
if ( e - > device ( ) = = currentInputDevice ( ) & & m_toolManager - > currentTool ( ) ) {
KisMoveEvent ev ( e - > device ( ) , wp , e - > globalPos ( ) , e - > pressure ( ) , e - > xTilt ( ) , e - > yTilt ( ) , e - > state ( ) ) ;
m_toolManager - > currentTool ( ) - > move ( & ev ) ;
}
// m_lastGuidePoint = mapToScreen(e->pos().floorTQPoint());
emit cursorPosition ( wp . floorX ( ) , wp . floorY ( ) ) ;
}
int KisView : : leftBorder ( ) const
{
return m_rulerThickness ;
}
int KisView : : rightBorder ( ) const
{
return m_hScrollBarExtent ;
}
int KisView : : topBorder ( ) const
{
return m_rulerThickness ;
}
int KisView : : bottomBorder ( ) const
{
return m_vScrollBarExtent ;
}
void KisView : : mouseMoveEvent ( TQMouseEvent * e )
{
KisMoveEvent ke ( currentInputDevice ( ) , KisPoint ( e - > pos ( ) ) , KisPoint ( e - > globalPos ( ) ) , PRESSURE_DEFAULT , 0 , 0 , e - > state ( ) ) ;
canvasGotMoveEvent ( & ke ) ;
}
void KisView : : slotAutoScroll ( const TQPoint & p )
{
scrollTo ( horzValue ( ) + p . x ( ) , vertValue ( ) + p . y ( ) ) ;
}
void KisView : : canvasGotButtonReleaseEvent ( KisButtonReleaseEvent * e )
{
# if defined(EXTENDED_X11_TABLET_SUPPORT)
// The event filter doesn't see tablet events going to the canvas.
if ( e - > device ( ) ! = KisInputDevice : : mouse ( ) ) {
m_tabletEventTimer . start ( ) ;
}
# endif // EXTENDED_X11_TABLET_SUPPORT
if ( e - > device ( ) ! = currentInputDevice ( ) ) {
if ( e - > device ( ) = = KisInputDevice : : mouse ( ) ) {
if ( m_tabletEventTimer . elapsed ( ) > MOUSE_CHANGE_EVENT_DELAY ) {
setInputDevice ( KisInputDevice : : mouse ( ) ) ;
}
} else {
setInputDevice ( e - > device ( ) ) ;
}
}
KisImageSP img = currentImg ( ) ;
// if (img && m_currentGuide) {
// m_currentGuide = 0;
// } else
if ( e - > device ( ) = = currentInputDevice ( ) & & m_toolManager - > currentTool ( ) ) {
KisPoint p = viewToWindow ( e - > pos ( ) ) ;
KisButtonReleaseEvent ev ( e - > device ( ) , p , e - > globalPos ( ) , e - > pressure ( ) , e - > xTilt ( ) , e - > yTilt ( ) , e - > button ( ) , e - > state ( ) ) ;
disableAutoScroll ( ) ;
if ( m_toolManager - > currentTool ( ) ) {
m_toolManager - > currentTool ( ) - > buttonRelease ( & ev ) ;
}
}
}
void KisView : : canvasGotDoubleClickEvent ( KisDoubleClickEvent * e )
{
# if defined(EXTENDED_X11_TABLET_SUPPORT)
// The event filter doesn't see tablet events going to the canvas.
if ( e - > device ( ) ! = KisInputDevice : : mouse ( ) ) {
m_tabletEventTimer . start ( ) ;
}
# endif // EXTENDED_X11_TABLET_SUPPORT
if ( e - > device ( ) ! = currentInputDevice ( ) ) {
if ( e - > device ( ) = = KisInputDevice : : mouse ( ) ) {
if ( m_tabletEventTimer . elapsed ( ) > MOUSE_CHANGE_EVENT_DELAY ) {
setInputDevice ( KisInputDevice : : mouse ( ) ) ;
}
} else {
setInputDevice ( e - > device ( ) ) ;
}
}
if ( e - > device ( ) = = currentInputDevice ( ) & & m_toolManager - > currentTool ( ) ) {
KisPoint p = viewToWindow ( e - > pos ( ) ) ;
KisDoubleClickEvent ev ( e - > device ( ) , p , e - > globalPos ( ) , e - > pressure ( ) , e - > xTilt ( ) , e - > yTilt ( ) , e - > button ( ) , e - > state ( ) ) ;
if ( m_toolManager - > currentTool ( ) ) {
m_toolManager - > currentTool ( ) - > doubleClick ( & ev ) ;
}
}
}
void KisView : : canvasGotEnterEvent ( TQEvent * e )
{
Q_UNUSED ( e ) ;
}
void KisView : : canvasGotLeaveEvent ( TQEvent * e )
{
Q_UNUSED ( e ) ;
}
void KisView : : canvasGotMouseWheelEvent ( TQWheelEvent * event )
{
//if(event->state() == ControlButton )
//{
if ( event - > delta ( ) / 120 ! = 0 )
{
if ( event - > delta ( ) > 0 )
{
zoomIn ( ) ;
} else {
zoomOut ( ) ;
}
if ( m_oldTool ) {
KisCanvasPainter gc ( m_canvas ) ;
m_oldTool - > paint ( gc ) ;
}
}
//} else {
// TQApplication::sendEvent(m_vScroll, event);
//}
}
void KisView : : canvasGotKeyPressEvent ( TQKeyEvent * event )
{
if ( ! m_toolManager - > currentTool ( ) ) {
event - > ignore ( ) ;
return ;
}
if ( event - > key ( ) = = TQt : : Key_Space ) {
if ( ! m_panning ) {
// Set tool temporarily to pan
m_panning = true ;
m_oldTool = m_toolManager - > currentTool ( ) ;
m_toolManager - > setCurrentTool ( " tool_pan " ) ;
}
else {
// Unset panning
m_panning = false ;
m_toolManager - > setCurrentTool ( m_oldTool ) ;
m_oldTool = 0 ;
}
}
if ( m_toolManager - > currentTool ( ) )
m_toolManager - > currentTool ( ) - > keyPress ( event ) ;
}
void KisView : : canvasGotKeyReleaseEvent ( TQKeyEvent * event )
{
if ( m_toolManager - > currentTool ( ) )
m_toolManager - > currentTool ( ) - > keyRelease ( event ) ;
}
void KisView : : canvasGotDragEnterEvent ( TQDragEnterEvent * event )
{
bool accept = false ;
// Only accept drag if we're not busy, particularly as we may
// be showing a progress bar and calling tqApp->processEvents().
if ( KURLDrag : : canDecode ( event ) & & TQApplication : : overrideCursor ( ) = = 0 ) {
accept = true ;
}
event - > accept ( accept ) ;
}
void KisView : : canvasGotDropEvent ( TQDropEvent * event )
{
KURL : : List urls ;
if ( KURLDrag : : decode ( event , urls ) )
{
if ( urls . count ( ) > 0 ) {
enum enumActionId {
addLayerId = 1 ,
addDocumentId = 2 ,
cancelId
} ;
TDEPopupMenu popup ( this , " drop_popup " ) ;
if ( urls . count ( ) = = 1 ) {
if ( currentImg ( ) ! = 0 ) {
popup . insertItem ( i18n ( " Insert as New Layer " ) , addLayerId ) ;
}
popup . insertItem ( i18n ( " Open in New Document " ) , addDocumentId ) ;
}
else {
if ( currentImg ( ) ! = 0 ) {
popup . insertItem ( i18n ( " Insert as New Layers " ) , addLayerId ) ;
}
popup . insertItem ( i18n ( " Open in New Documents " ) , addDocumentId ) ;
}
popup . insertSeparator ( ) ;
popup . insertItem ( i18n ( " Cancel " ) , cancelId ) ;
int actionId = popup . exec ( TQCursor : : pos ( ) ) ;
if ( actionId > = 0 & & actionId ! = cancelId ) {
for ( KURL : : List : : ConstIterator it = urls . begin ( ) ; it ! = urls . end ( ) ; + + it ) {
KURL url = * it ;
switch ( actionId ) {
case addLayerId :
importImage ( url ) ;
break ;
case addDocumentId :
if ( shell ( ) ! = 0 ) {
shell ( ) - > openDocument ( url ) ;
}
break ;
}
}
}
}
}
}
void KisView : : layerProperties ( )
{
if ( currentImg ( ) & & currentImg ( ) - > activeLayer ( ) )
showLayerProperties ( currentImg ( ) - > activeLayer ( ) ) ;
}
namespace {
class KisChangeFilterCmd : public KNamedCommand {
typedef KNamedCommand super ;
public :
// The TQStrings are the _serialized_ configs
KisChangeFilterCmd ( KisAdjustmentLayerSP layer ,
KisFilterConfiguration * config ,
const TQString & before ,
const TQString & after ) : super ( i18n ( " Change Filter " ) )
{
m_layer = layer ;
m_config = config ;
m_before = before ;
m_after = after ;
}
public :
virtual void execute ( )
{
TQApplication : : setOverrideCursor ( KisCursor : : waitCursor ( ) ) ;
m_config - > fromXML ( m_after ) ;
//Q_ASSERT(m_after == m_config->toString());
m_layer - > setFilter ( m_config ) ;
m_layer - > setDirty ( ) ;
TQApplication : : restoreOverrideCursor ( ) ;
}
virtual void unexecute ( )
{
TQApplication : : setOverrideCursor ( KisCursor : : waitCursor ( ) ) ;
m_config - > fromXML ( m_before ) ;
//Q_ASSERT(m_before == m_config->toString());
m_layer - > setFilter ( m_config ) ;
m_layer - > setDirty ( ) ;
TQApplication : : restoreOverrideCursor ( ) ;
}
private :
KisAdjustmentLayerSP m_layer ;
KisFilterConfiguration * m_config ;
TQString m_before ;
TQString m_after ;
} ;
}
void KisView : : showLayerProperties ( KisLayerSP layer )
{
Q_ASSERT ( layer ) ;
if ( ! layer ) return ;
KisColorSpace * cs = 0 ;
KisPaintLayer * pl = dynamic_cast < KisPaintLayer * > ( layer . data ( ) ) ;
if ( pl ) {
cs = pl - > paintDevice ( ) - > colorSpace ( ) ;
}
else {
cs = layer - > image ( ) - > colorSpace ( ) ;
}
if ( KisAdjustmentLayerSP alayer = dynamic_cast < KisAdjustmentLayer * > ( layer . data ( ) ) )
{
KisDlgAdjLayerProps dlg ( alayer , alayer - > name ( ) , i18n ( " Adjustment Layer Properties " ) , this , " dlgadjlayerprops " ) ;
TQString before = dlg . filterConfiguration ( ) - > toString ( ) ;
if ( dlg . exec ( ) = = TQDialog : : Accepted )
{
KisChangeFilterCmd * cmd = new KisChangeFilterCmd ( alayer ,
dlg . filterConfiguration ( ) ,
before ,
dlg . filterConfiguration ( ) - > toString ( ) ) ;
cmd - > execute ( ) ;
m_adapter - > addCommand ( cmd ) ;
m_doc - > setModified ( true ) ;
}
}
else
{
KisDlgLayerProperties dlg ( layer - > name ( ) ,
layer - > opacity ( ) ,
layer - > compositeOp ( ) ,
cs ) ;
if ( dlg . exec ( ) = = TQDialog : : Accepted )
{
if ( layer - > name ( ) ! = dlg . getName ( ) | |
layer - > opacity ( ) ! = dlg . getOpacity ( ) | |
layer - > compositeOp ( ) ! = dlg . getCompositeOp ( ) )
{
TQApplication : : setOverrideCursor ( KisCursor : : waitCursor ( ) ) ;
m_adapter - > beginMacro ( i18n ( " Property Changes " ) ) ;
layer - > image ( ) - > setLayerProperties ( layer , dlg . getOpacity ( ) , dlg . getCompositeOp ( ) , dlg . getName ( ) ) ;
layer - > setDirty ( ) ;
m_adapter - > endMacro ( ) ;
TQApplication : : restoreOverrideCursor ( ) ;
m_doc - > setModified ( true ) ;
}
}
}
}
void KisView : : layerAdd ( )
{
KisImageSP img = currentImg ( ) ;
if ( img & & img - > activeLayer ( ) ) {
addLayer ( img - > activeLayer ( ) - > parent ( ) , img - > activeLayer ( ) ) ;
}
else if ( img )
addLayer ( static_cast < KisGroupLayer * > ( img - > rootLayer ( ) . data ( ) ) , 0 ) ;
}
void KisView : : addLayer ( KisGroupLayerSP parent , KisLayerSP above )
{
KisImageSP img = currentImg ( ) ;
if ( img ) {
KisConfig cfg ;
TQString profilename ;
if ( img - > colorSpace ( ) - > getProfile ( ) )
profilename = img - > colorSpace ( ) - > getProfile ( ) - > productName ( ) ;
NewLayerDialog dlg ( img - > colorSpace ( ) - > id ( ) , profilename , img - > nextLayerName ( ) , this ) ;
if ( dlg . exec ( ) = = TQDialog : : Accepted ) {
KisColorSpace * cs = KisMetaRegistry : : instance ( ) - > csRegistry ( ) - >
getColorSpace ( dlg . colorSpaceID ( ) , dlg . profileName ( ) ) ;
KisLayerSP layer = new KisPaintLayer ( img , dlg . layerName ( ) , dlg . opacity ( ) , cs ) ;
if ( layer ) {
layer - > setCompositeOp ( dlg . compositeOp ( ) ) ;
img - > addLayer ( layer , parent . data ( ) , above ) ;
updateCanvas ( ) ;
} else {
KMessageBox : : error ( this , i18n ( " Could not add layer to image. " ) , i18n ( " Layer Error " ) ) ;
}
}
else {
img - > rollBackLayerName ( ) ;
}
}
}
void KisView : : addGroupLayer ( KisGroupLayerSP parent , KisLayerSP above )
{
KisImageSP img = currentImg ( ) ;
if ( img ) {
TQString profilename ;
if ( img - > colorSpace ( ) - > getProfile ( ) )
profilename = img - > colorSpace ( ) - > getProfile ( ) - > productName ( ) ;
KisConfig cfg ;
NewLayerDialog dlg ( img - > colorSpace ( ) - > id ( ) , profilename , img - > nextLayerName ( ) , this ) ;
dlg . setColorSpaceEnabled ( false ) ;
if ( dlg . exec ( ) = = TQDialog : : Accepted ) {
KisLayerSP layer = new KisGroupLayer ( img , dlg . layerName ( ) , dlg . opacity ( ) ) ;
if ( layer ) {
layer - > setCompositeOp ( dlg . compositeOp ( ) ) ;
img - > addLayer ( layer , parent . data ( ) , above ) ;
updateCanvas ( ) ;
} else {
KMessageBox : : error ( this , i18n ( " Could not add layer to image. " ) , i18n ( " Layer Error " ) ) ;
}
}
}
}
void KisView : : addPartLayer ( )
{
KisImageSP img = currentImg ( ) ;
if ( ! img ) return ;
addPartLayer ( img - > rootLayer ( ) , img - > rootLayer ( ) - > firstChild ( ) , m_actionPartLayer - > documentEntry ( ) ) ;
}
void KisView : : addPartLayer ( KisGroupLayerSP parent , KisLayerSP above , const KoDocumentEntry & entry )
{
delete m_partHandler ; // Only one at a time
m_partHandler = new KisPartLayerHandler ( this , entry , parent , above ) ;
disconnect ( m_canvas , TQT_SIGNAL ( sigGotButtonPressEvent ( KisButtonPressEvent * ) ) , this , 0 ) ;
disconnect ( m_canvas , TQT_SIGNAL ( sigGotButtonReleaseEvent ( KisButtonReleaseEvent * ) ) , this , 0 ) ;
disconnect ( m_canvas , TQT_SIGNAL ( sigGotMoveEvent ( KisMoveEvent * ) ) , this , 0 ) ;
disconnect ( m_canvas , TQT_SIGNAL ( sigGotKeyPressEvent ( TQKeyEvent * ) ) , this , 0 ) ;
connect ( m_canvas , TQT_SIGNAL ( sigGotButtonPressEvent ( KisButtonPressEvent * ) ) ,
m_partHandler , TQT_SLOT ( gotButtonPressEvent ( KisButtonPressEvent * ) ) ) ;
connect ( m_canvas , TQT_SIGNAL ( sigGotButtonReleaseEvent ( KisButtonReleaseEvent * ) ) ,
m_partHandler , TQT_SLOT ( gotButtonReleaseEvent ( KisButtonReleaseEvent * ) ) ) ;
connect ( m_canvas , TQT_SIGNAL ( sigGotMoveEvent ( KisMoveEvent * ) ) ,
m_partHandler , TQT_SLOT ( gotMoveEvent ( KisMoveEvent * ) ) ) ;
connect ( m_canvas , TQT_SIGNAL ( sigGotKeyPressEvent ( TQKeyEvent * ) ) ,
m_partHandler , TQT_SLOT ( gotKeyPressEvent ( TQKeyEvent * ) ) ) ;
connect ( m_partHandler , TQT_SIGNAL ( sigGotMoveEvent ( KisMoveEvent * ) ) ,
TQT_TQOBJECT ( this ) , TQT_SLOT ( canvasGotMoveEvent ( KisMoveEvent * ) ) ) ;
connect ( m_partHandler , TQT_SIGNAL ( sigGotKeyPressEvent ( TQKeyEvent * ) ) ,
TQT_TQOBJECT ( this ) , TQT_SLOT ( canvasGotKeyPressEvent ( TQKeyEvent * ) ) ) ;
connect ( m_partHandler , TQT_SIGNAL ( handlerDone ( ) ) ,
TQT_TQOBJECT ( this ) , TQT_SLOT ( reconnectAfterPartInsert ( ) ) ) ;
}
void KisView : : insertPart ( const TQRect & viewRect , const KoDocumentEntry & entry ,
KisGroupLayerSP parent , KisLayerSP above ) {
KisImageSP img = currentImg ( ) ;
if ( ! img ) return ;
KoDocument * doc = entry . createDoc ( m_doc ) ;
if ( ! doc )
return ;
if ( ! doc - > showEmbedInitDialog ( this ) )
return ;
TQRect rect = viewToWindow ( viewRect ) ;
KisChildDoc * childDoc = m_doc - > createChildDoc ( rect , doc ) ;
KisPartLayerImpl * partLayer = new KisPartLayerImpl ( img , childDoc ) ;
partLayer - > setDocType ( entry . service ( ) - > genericName ( ) ) ;
img - > addLayer ( partLayer , parent , above ) ;
m_doc - > setModified ( true ) ;
reconnectAfterPartInsert ( ) ;
}
void KisView : : reconnectAfterPartInsert ( ) {
connect ( m_canvas , TQT_SIGNAL ( sigGotButtonPressEvent ( KisButtonPressEvent * ) ) ,
TQT_TQOBJECT ( this ) , TQT_SLOT ( canvasGotButtonPressEvent ( KisButtonPressEvent * ) ) ) ;
connect ( m_canvas , TQT_SIGNAL ( sigGotButtonReleaseEvent ( KisButtonReleaseEvent * ) ) ,
TQT_TQOBJECT ( this ) , TQT_SLOT ( canvasGotButtonReleaseEvent ( KisButtonReleaseEvent * ) ) ) ;
connect ( m_canvas , TQT_SIGNAL ( sigGotMoveEvent ( KisMoveEvent * ) ) ,
TQT_TQOBJECT ( this ) , TQT_SLOT ( canvasGotMoveEvent ( KisMoveEvent * ) ) ) ;
connect ( m_canvas , TQT_SIGNAL ( sigGotKeyPressEvent ( TQKeyEvent * ) ) ,
TQT_TQOBJECT ( this ) , TQT_SLOT ( canvasGotKeyPressEvent ( TQKeyEvent * ) ) ) ;
delete m_partHandler ;
m_partHandler = 0 ;
}
void KisView : : addAdjustmentLayer ( )
{
KisImageSP img = currentImg ( ) ;
if ( ! img ) return ;
addAdjustmentLayer ( img - > activeLayer ( ) - > parent ( ) , img - > activeLayer ( ) ) ;
}
void KisView : : addAdjustmentLayer ( KisGroupLayerSP parent , KisLayerSP above )
{
Q_ASSERT ( parent ) ;
Q_ASSERT ( above ) ;
KisImageSP img = currentImg ( ) ;
if ( ! img ) return ;
KisLayerSP l = img - > activeLayer ( ) ;
KisPaintDeviceSP dev ;
// Argh! I hate having to cast, cast and cast again to see what kind of a layer I've got!
KisPaintLayer * pl = dynamic_cast < KisPaintLayer * > ( l . data ( ) ) ;
if ( pl ) {
dev = pl - > paintDevice ( ) ;
}
else {
KisGroupLayer * gl = dynamic_cast < KisGroupLayer * > ( l . data ( ) ) ;
if ( gl ) {
dev = gl - > projection ( img - > bounds ( ) ) ;
}
else {
KisAdjustmentLayer * al = dynamic_cast < KisAdjustmentLayer * > ( l . data ( ) ) ;
if ( al ) {
dev = al - > cachedPaintDevice ( ) ;
}
else {
return ;
}
}
}
KisDlgAdjustmentLayer dlg ( img , img - > nextLayerName ( ) , i18n ( " New Adjustment Layer " ) , this , " dlgadjustmentlayer " ) ;
if ( dlg . exec ( ) = = TQDialog : : Accepted ) {
KisSelectionSP selection = 0 ;
if ( dev - > hasSelection ( ) ) {
selection = dev - > selection ( ) ;
}
KisFilterConfiguration * filter = dlg . filterConfiguration ( ) ;
TQString name = dlg . layerName ( ) ;
addAdjustmentLayer ( parent , above , name , filter , selection ) ;
}
}
void KisView : : addAdjustmentLayer ( KisGroupLayerSP parent , KisLayerSP above , const TQString & name ,
KisFilterConfiguration * filter , KisSelectionSP selection )
{
Q_ASSERT ( parent ) ;
Q_ASSERT ( above ) ;
Q_ASSERT ( filter ) ;
KisImageSP img = currentImg ( ) ;
if ( ! img ) return ;
KisAdjustmentLayer * l = new KisAdjustmentLayer ( img , name , filter , selection ) ;
img - > addLayer ( l , parent , above ) ;
}
void KisView : : slotChildActivated ( bool a ) {
// It should be so that the only part (child) we can activate, is the current layer:
if ( currentImg ( ) & & currentImg ( ) - > activeLayer ( ) )
{
if ( a ) {
currentImg ( ) - > activeLayer ( ) - > activate ( ) ;
} else {
currentImg ( ) - > activeLayer ( ) - > deactivate ( ) ;
}
}
super : : slotChildActivated ( a ) ;
}
void KisView : : layerRemove ( )
{
KisImageSP img = currentImg ( ) ;
if ( img ) {
KisLayerSP layer = img - > activeLayer ( ) ;
if ( layer ) {
img - > removeLayer ( layer ) ;
if ( layer - > parent ( ) )
layer - > parent ( ) - > setDirty ( layer - > extent ( ) ) ;
updateCanvas ( ) ;
layerUpdateGUI ( img - > activeLayer ( ) ! = 0 ) ;
}
}
}
void KisView : : layerDuplicate ( )
{
KisImageSP img = currentImg ( ) ;
if ( ! img )
return ;
KisLayerSP active = img - > activeLayer ( ) ;
if ( ! active )
return ;
KisLayerSP dup = active - > clone ( ) ;
dup - > setName ( i18n ( " Duplicate of '%1' " ) . arg ( active - > name ( ) ) ) ;
img - > addLayer ( dup , active - > parent ( ) . data ( ) , active ) ;
if ( dup ) {
img - > activate ( dup ) ;
updateCanvas ( ) ;
} else {
KMessageBox : : error ( this , i18n ( " Could not add layer to image. " ) , i18n ( " Layer Error " ) ) ;
}
}
void KisView : : layerRaise ( )
{
KisImageSP img = currentImg ( ) ;
KisLayerSP layer ;
if ( ! img )
return ;
layer = img - > activeLayer ( ) ;
img - > raiseLayer ( layer ) ;
}
void KisView : : layerLower ( )
{
KisImageSP img = currentImg ( ) ;
KisLayerSP layer ;
if ( ! img )
return ;
layer = img - > activeLayer ( ) ;
img - > lowerLayer ( layer ) ;
}
void KisView : : layerFront ( )
{
KisImageSP img = currentImg ( ) ;
KisLayerSP layer ;
if ( ! img )
return ;
layer = img - > activeLayer ( ) ;
img - > toTop ( layer ) ;
}
void KisView : : layerBack ( )
{
KisImageSP img = currentImg ( ) ;
if ( ! img ) return ;
KisLayerSP layer ;
layer = img - > activeLayer ( ) ;
img - > toBottom ( layer ) ;
}
void KisView : : layersUpdated ( )
{
KisImageSP img = currentImg ( ) ;
if ( ! img ) return ;
KisLayerSP layer = img - > activeLayer ( ) ;
layerUpdateGUI ( img & & layer ) ;
notifyObservers ( ) ;
}
void KisView : : layerToggleVisible ( )
{
KisImageSP img = currentImg ( ) ;
if ( ! img ) return ;
KisLayerSP layer = img - > activeLayer ( ) ;
if ( ! layer ) return ;
layer - > setVisible ( ! layer - > visible ( ) ) ;
}
void KisView : : layerToggleLocked ( )
{
KisImageSP img = currentImg ( ) ;
if ( ! img ) return ;
KisLayerSP layer = img - > activeLayer ( ) ;
if ( ! layer ) return ;
layer - > setLocked ( ! layer - > locked ( ) ) ;
}
void KisView : : actLayerVisChanged ( int show )
{
m_actLayerVis = ( show ! = 0 ) ;
}
bool KisView : : activeLayerHasSelection ( )
{
return m_image & & m_image - > activeDevice ( ) & & m_image - > activeDevice ( ) - > hasSelection ( ) ;
}
void KisView : : scrollH ( int value )
{
m_hRuler - > updateVisibleArea ( value , 0 ) ;
int xShift = m_scrollX - value ;
m_scrollX = value ;
if ( m_canvas - > isUpdatesEnabled ( ) ) {
if ( xShift > 0 ) {
if ( m_canvas - > isOpenGLCanvas ( ) ) {
paintOpenGLView ( TQRect ( 0 , 0 , m_canvas - > width ( ) , m_canvas - > height ( ) ) ) ;
} else {
TQRect drawRect ( 0 , 0 , xShift , m_canvasPixmap . height ( ) ) ;
bitBlt ( & m_canvasPixmap , xShift , 0 , & m_canvasPixmap , 0 , 0 , m_canvasPixmap . width ( ) - xShift , m_canvasPixmap . height ( ) ) ;
updateTQPaintDeviceCanvas ( viewToWindow ( drawRect ) ) ;
m_canvas - > repaint ( ) ;
}
} else if ( xShift < 0 ) {
TQRect drawRect ( m_canvasPixmap . width ( ) + xShift , 0 , - xShift , m_canvasPixmap . height ( ) ) ;
if ( m_canvas - > isOpenGLCanvas ( ) ) {
paintOpenGLView ( TQRect ( 0 , 0 , m_canvas - > width ( ) , m_canvas - > height ( ) ) ) ;
} else {
bitBlt ( & m_canvasPixmap , 0 , 0 , & m_canvasPixmap , - xShift , 0 , m_canvasPixmap . width ( ) + xShift , m_canvasPixmap . height ( ) ) ;
updateTQPaintDeviceCanvas ( viewToWindow ( drawRect ) ) ;
m_canvas - > repaint ( ) ;
}
}
if ( m_oldTool ) {
KisCanvasPainter gc ( m_canvas ) ;
m_oldTool - > paint ( gc ) ;
}
}
if ( xShift ! = 0 ) {
// XXX do sth with the childframe or so
}
emit viewTransformationsChanged ( ) ;
}
void KisView : : scrollV ( int value )
{
m_vRuler - > updateVisibleArea ( 0 , value ) ;
int yShift = m_scrollY - value ;
m_scrollY = value ;
if ( m_canvas - > isUpdatesEnabled ( ) ) {
if ( yShift > 0 ) {
if ( m_canvas - > isOpenGLCanvas ( ) ) {
paintOpenGLView ( TQRect ( 0 , 0 , m_canvas - > width ( ) , m_canvas - > height ( ) ) ) ;
} else {
TQRect drawRect ( 0 , 0 , m_canvasPixmap . width ( ) , yShift ) ;
bitBlt ( & m_canvasPixmap , 0 , yShift , & m_canvasPixmap , 0 , 0 , m_canvasPixmap . width ( ) , m_canvasPixmap . height ( ) - yShift ) ;
updateTQPaintDeviceCanvas ( viewToWindow ( drawRect ) ) ;
m_canvas - > repaint ( ) ;
}
} else if ( yShift < 0 ) {
if ( m_canvas - > isOpenGLCanvas ( ) ) {
paintOpenGLView ( TQRect ( 0 , 0 , m_canvas - > width ( ) , m_canvas - > height ( ) ) ) ;
} else {
TQRect drawRect ( 0 , m_canvasPixmap . height ( ) + yShift , m_canvasPixmap . width ( ) , - yShift ) ;
bitBlt ( & m_canvasPixmap , 0 , 0 , & m_canvasPixmap , 0 , - yShift , m_canvasPixmap . width ( ) , m_canvasPixmap . height ( ) + yShift ) ;
updateTQPaintDeviceCanvas ( viewToWindow ( drawRect ) ) ;
m_canvas - > repaint ( ) ;
}
}
if ( m_oldTool ) {
KisCanvasPainter gc ( m_canvas ) ;
m_oldTool - > paint ( gc ) ;
}
}
if ( yShift ! = 0 ) {
// XXX do sth with the childframe or so
}
emit viewTransformationsChanged ( ) ;
}
void KisView : : setupCanvas ( )
{
m_canvas = new KisCanvas ( this , " kis_canvas " ) ;
m_canvas - > setFocusPolicy ( TQ_StrongFocus ) ;
TQObject : : connect ( m_canvas , TQT_SIGNAL ( sigGotButtonPressEvent ( KisButtonPressEvent * ) ) , TQT_TQOBJECT ( this ) , TQT_SLOT ( canvasGotButtonPressEvent ( KisButtonPressEvent * ) ) ) ;
TQObject : : connect ( m_canvas , TQT_SIGNAL ( sigGotButtonReleaseEvent ( KisButtonReleaseEvent * ) ) , TQT_TQOBJECT ( this ) , TQT_SLOT ( canvasGotButtonReleaseEvent ( KisButtonReleaseEvent * ) ) ) ;
TQObject : : connect ( m_canvas , TQT_SIGNAL ( sigGotDoubleClickEvent ( KisDoubleClickEvent * ) ) , TQT_TQOBJECT ( this ) , TQT_SLOT ( canvasGotDoubleClickEvent ( KisDoubleClickEvent * ) ) ) ;
TQObject : : connect ( m_canvas , TQT_SIGNAL ( sigGotMoveEvent ( KisMoveEvent * ) ) , TQT_TQOBJECT ( this ) , TQT_SLOT ( canvasGotMoveEvent ( KisMoveEvent * ) ) ) ;
TQObject : : connect ( m_canvas , TQT_SIGNAL ( sigGotPaintEvent ( TQPaintEvent * ) ) , TQT_TQOBJECT ( this ) , TQT_SLOT ( canvasGotPaintEvent ( TQPaintEvent * ) ) ) ;
TQObject : : connect ( m_canvas , TQT_SIGNAL ( sigGotEnterEvent ( TQEvent * ) ) , TQT_TQOBJECT ( this ) , TQT_SLOT ( canvasGotEnterEvent ( TQEvent * ) ) ) ;
TQObject : : connect ( m_canvas , TQT_SIGNAL ( sigGotLeaveEvent ( TQEvent * ) ) , TQT_TQOBJECT ( this ) , TQT_SLOT ( canvasGotLeaveEvent ( TQEvent * ) ) ) ;
TQObject : : connect ( m_canvas , TQT_SIGNAL ( sigGotMouseWheelEvent ( TQWheelEvent * ) ) , TQT_TQOBJECT ( this ) , TQT_SLOT ( canvasGotMouseWheelEvent ( TQWheelEvent * ) ) ) ;
TQObject : : connect ( m_canvas , TQT_SIGNAL ( sigGotKeyPressEvent ( TQKeyEvent * ) ) , TQT_TQOBJECT ( this ) , TQT_SLOT ( canvasGotKeyPressEvent ( TQKeyEvent * ) ) ) ;
TQObject : : connect ( m_canvas , TQT_SIGNAL ( sigGotKeyReleaseEvent ( TQKeyEvent * ) ) , TQT_TQOBJECT ( this ) , TQT_SLOT ( canvasGotKeyReleaseEvent ( TQKeyEvent * ) ) ) ;
TQObject : : connect ( m_canvas , TQT_SIGNAL ( sigGotDragEnterEvent ( TQDragEnterEvent * ) ) , TQT_TQOBJECT ( this ) , TQT_SLOT ( canvasGotDragEnterEvent ( TQDragEnterEvent * ) ) ) ;
TQObject : : connect ( m_canvas , TQT_SIGNAL ( sigGotDropEvent ( TQDropEvent * ) ) , TQT_TQOBJECT ( this ) , TQT_SLOT ( canvasGotDropEvent ( TQDropEvent * ) ) ) ;
}
void KisView : : connectCurrentImg ( )
{
if ( m_image ) {
connect ( m_image , TQT_SIGNAL ( sigActiveSelectionChanged ( KisImageSP ) ) , m_selectionManager , TQT_SLOT ( imgSelectionChanged ( KisImageSP ) ) ) ;
connect ( m_image , TQT_SIGNAL ( sigActiveSelectionChanged ( KisImageSP ) ) , TQT_TQOBJECT ( this ) , TQT_SLOT ( updateCanvas ( ) ) ) ;
connect ( m_image , TQT_SIGNAL ( sigColorSpaceChanged ( KisColorSpace * ) ) , TQT_TQOBJECT ( this ) , TQT_SLOT ( updateStatusBarProfileLabel ( ) ) ) ;
connect ( m_image , TQT_SIGNAL ( sigProfileChanged ( KisProfile * ) ) , TQT_SLOT ( profileChanged ( KisProfile * ) ) ) ;
connect ( m_image , TQT_SIGNAL ( sigLayersChanged ( KisGroupLayerSP ) ) , TQT_SLOT ( layersUpdated ( ) ) ) ;
connect ( m_image , TQT_SIGNAL ( sigMaskInfoChanged ( ) ) , TQT_SLOT ( maskUpdated ( ) ) ) ;
connect ( m_image , TQT_SIGNAL ( sigLayerAdded ( KisLayerSP ) ) , TQT_SLOT ( layersUpdated ( ) ) ) ;
connect ( m_image , TQT_SIGNAL ( sigLayerRemoved ( KisLayerSP , KisGroupLayerSP , KisLayerSP ) ) , TQT_SLOT ( layersUpdated ( ) ) ) ;
connect ( m_image , TQT_SIGNAL ( sigLayerMoved ( KisLayerSP , KisGroupLayerSP , KisLayerSP ) ) , TQT_SLOT ( layersUpdated ( ) ) ) ;
connect ( m_image , TQT_SIGNAL ( sigLayerActivated ( KisLayerSP ) ) , TQT_SLOT ( layersUpdated ( ) ) ) ;
connect ( m_image , TQT_SIGNAL ( sigLayerActivated ( KisLayerSP ) ) , TQT_SLOT ( updateCanvas ( ) ) ) ;
connect ( m_image , TQT_SIGNAL ( sigLayerPropertiesChanged ( KisLayerSP ) ) , TQT_SLOT ( layersUpdated ( ) ) ) ;
KisConnectPartLayerVisitor v ( m_image , this , true ) ;
m_image - > rootLayer ( ) - > accept ( v ) ;
connect ( m_image , TQT_SIGNAL ( sigLayerAdded ( KisLayerSP ) ) ,
TQT_SLOT ( handlePartLayerAdded ( KisLayerSP ) ) ) ;
maskUpdated ( ) ;
# ifdef HAVE_GL
if ( m_OpenGLImageContext ! = 0 ) {
connect ( m_OpenGLImageContext , TQT_SIGNAL ( sigImageUpdated ( TQRect ) ) , TQT_SLOT ( slotOpenGLImageUpdated ( TQRect ) ) ) ;
connect ( m_OpenGLImageContext , TQT_SIGNAL ( sigSizeChanged ( TQ_INT32 , TQ_INT32 ) ) , TQT_SLOT ( slotImageSizeChanged ( TQ_INT32 , TQ_INT32 ) ) ) ;
} else
# endif
{
connect ( m_image , TQT_SIGNAL ( sigImageUpdated ( TQRect ) ) , TQT_SLOT ( imgUpdated ( TQRect ) ) ) ;
connect ( m_image , TQT_SIGNAL ( sigSizeChanged ( TQ_INT32 , TQ_INT32 ) ) , TQT_SLOT ( slotImageSizeChanged ( TQ_INT32 , TQ_INT32 ) ) ) ;
}
}
m_layerBox - > setImage ( m_image ) ;
m_birdEyeBox - > setImage ( m_image ) ;
}
void KisView : : disconnectCurrentImg ( )
{
if ( m_image ) {
m_image - > disconnect ( this ) ;
m_layerBox - > setImage ( 0 ) ;
m_birdEyeBox - > setImage ( 0 ) ;
KisConnectPartLayerVisitor v ( m_image , this , false ) ;
m_image - > rootLayer ( ) - > accept ( v ) ;
}
# ifdef HAVE_GL
if ( m_OpenGLImageContext ! = 0 ) {
m_OpenGLImageContext - > disconnect ( this ) ;
}
# endif
}
void KisView : : handlePartLayerAdded ( KisLayerSP layer )
{
KisPartLayer * l = dynamic_cast < KisPartLayer * > ( layer . data ( ) ) ;
if ( ! l )
return ;
connect ( TQT_TQOBJECT ( this ) , TQT_SIGNAL ( childActivated ( KoDocumentChild * ) ) ,
layer , TQT_SLOT ( childActivated ( KoDocumentChild * ) ) ) ;
}
void KisView : : imgUpdated ( TQRect rc )
{
updateCanvas ( rc ) ;
}
void KisView : : slotOpenGLImageUpdated ( TQRect rc )
{
paintOpenGLView ( windowToView ( rc ) ) ;
}
void KisView : : profileChanged ( KisProfile * /*profile*/ )
{
updateStatusBarProfileLabel ( ) ;
}
void KisView : : slotImageSizeChanged ( TQ_INT32 /*w*/ , TQ_INT32 /*h*/ )
{
resizeEvent ( 0 ) ;
refreshKisCanvas ( ) ;
}
void KisView : : resizeCurrentImage ( TQ_INT32 w , TQ_INT32 h , bool cropLayers )
{
if ( ! currentImg ( ) ) return ;
currentImg ( ) - > resize ( w , h , cropLayers ) ;
m_doc - > setModified ( true ) ;
layersUpdated ( ) ;
}
void KisView : : scaleCurrentImage ( double sx , double sy , KisFilterStrategy * filterStrategy )
{
if ( ! currentImg ( ) ) return ;
currentImg ( ) - > scale ( sx , sy , m_progress , filterStrategy ) ;
m_doc - > setModified ( true ) ;
layersUpdated ( ) ;
}
void KisView : : rotateCurrentImage ( double radians )
{
if ( ! currentImg ( ) ) return ;
currentImg ( ) - > rotate ( radians , m_progress ) ;
m_doc - > setModified ( true ) ;
layersUpdated ( ) ;
}
void KisView : : shearCurrentImage ( double angleX , double angleY )
{
if ( ! currentImg ( ) ) return ;
currentImg ( ) - > shear ( angleX , angleY , m_progress ) ;
m_doc - > setModified ( true ) ;
layersUpdated ( ) ;
}
TQPoint KisView : : viewToWindow ( const TQPoint & pt )
{
TQPoint converted ;
converted . rx ( ) = static_cast < int > ( ( pt . x ( ) + horzValue ( ) ) / zoom ( ) ) ;
converted . ry ( ) = static_cast < int > ( ( pt . y ( ) + vertValue ( ) ) / zoom ( ) ) ;
return converted ;
}
TQPoint KisView : : viewToWindow ( const TQPoint & pt ) const
{
TQPoint converted ;
converted . rx ( ) = static_cast < int > ( ( pt . x ( ) + horzValue ( ) ) / zoom ( ) ) ;
converted . ry ( ) = static_cast < int > ( ( pt . y ( ) + vertValue ( ) ) / zoom ( ) ) ;
return converted ;
}
KisPoint KisView : : viewToWindow ( const KisPoint & pt )
{
KisPoint converted ;
converted . setX ( ( pt . x ( ) + horzValue ( ) ) / zoom ( ) ) ;
converted . setY ( ( pt . y ( ) + vertValue ( ) ) / zoom ( ) ) ;
return converted ;
}
TQRect KisView : : viewToWindow ( const TQRect & rc )
{
TQRect r ;
r . setTopLeft ( viewToWindow ( rc . topLeft ( ) ) ) ;
r . setRight ( ( int ) ( ceil ( ( rc . right ( ) + 1.0 + horzValue ( ) ) / zoom ( ) ) - 1 ) ) ;
r . setBottom ( ( int ) ( ceil ( ( rc . bottom ( ) + 1.0 + vertValue ( ) ) / zoom ( ) ) - 1 ) ) ;
return r ;
}
KisRect KisView : : viewToWindow ( const KisRect & rc )
{
KisRect r ;
KisPoint p = viewToWindow ( KisPoint ( rc . x ( ) , rc . y ( ) ) ) ;
r . setX ( p . x ( ) ) ;
r . setY ( p . y ( ) ) ;
r . setWidth ( rc . width ( ) / zoom ( ) ) ;
r . setHeight ( rc . height ( ) / zoom ( ) ) ;
return r ;
}
void KisView : : viewToWindow ( TQ_INT32 * x , TQ_INT32 * y )
{
if ( x & & y ) {
TQPoint p = viewToWindow ( TQPoint ( * x , * y ) ) ;
* x = p . x ( ) ;
* y = p . y ( ) ;
}
}
TQPoint KisView : : windowToView ( const TQPoint & pt )
{
TQPoint p ;
p . setX ( static_cast < int > ( pt . x ( ) * zoom ( ) - horzValue ( ) ) ) ;
p . setY ( static_cast < int > ( pt . y ( ) * zoom ( ) - vertValue ( ) ) ) ;
return p ;
}
TQPoint KisView : : windowToView ( const TQPoint & pt ) const
{
TQPoint p ;
p . setX ( static_cast < int > ( pt . x ( ) * zoom ( ) - horzValue ( ) ) ) ;
p . setY ( static_cast < int > ( pt . y ( ) * zoom ( ) - vertValue ( ) ) ) ;
return p ;
}
KisPoint KisView : : windowToView ( const KisPoint & pt )
{
KisPoint p ;
p . setX ( pt . x ( ) * zoom ( ) - horzValue ( ) ) ;
p . setY ( pt . y ( ) * zoom ( ) - vertValue ( ) ) ;
return p ;
}
TQRect KisView : : windowToView ( const TQRect & rc )
{
TQRect r ;
r . setTopLeft ( windowToView ( rc . topLeft ( ) ) ) ;
r . setRight ( ( int ) ( ceil ( ( rc . right ( ) + 1.0 ) * zoom ( ) ) - horzValue ( ) - 1 ) ) ;
r . setBottom ( ( int ) ( ceil ( ( rc . bottom ( ) + 1.0 ) * zoom ( ) ) - vertValue ( ) - 1 ) ) ;
return r ;
}
KisRect KisView : : windowToView ( const KisRect & rc )
{
KisRect r ;
KisPoint p = windowToView ( KisPoint ( rc . x ( ) , rc . y ( ) ) ) ;
r . setX ( p . x ( ) ) ;
r . setY ( p . y ( ) ) ;
r . setWidth ( rc . width ( ) * zoom ( ) ) ;
r . setHeight ( rc . height ( ) * zoom ( ) ) ;
return r ;
}
void KisView : : windowToView ( TQ_INT32 * x , TQ_INT32 * y )
{
if ( x & & y ) {
TQPoint p = windowToView ( TQPoint ( * x , * y ) ) ;
* x = p . x ( ) ;
* y = p . y ( ) ;
}
}
void KisView : : guiActivateEvent ( KParts : : GUIActivateEvent * event )
{
Q_ASSERT ( event ) ;
if ( event - > activated ( ) ) {
KStatusBar * sb = statusBar ( ) ;
if ( sb ) {
sb - > show ( ) ;
}
if ( ! m_guiActivateEventReceived ) {
m_guiActivateEventReceived = true ;
startInitialZoomTimerIfReady ( ) ;
}
}
super : : guiActivateEvent ( event ) ;
}
bool KisView : : eventFilter ( TQObject * o , TQEvent * e )
{
Q_ASSERT ( o ) ;
Q_ASSERT ( e ) ;
switch ( e - > type ( ) ) {
case TQEvent : : TabletMove :
case TQEvent : : TabletPress :
case TQEvent : : TabletRelease :
{
TQTabletEvent * te = TQT_TQTABLETEVENT ( e ) ;
KisInputDevice device ;
switch ( te - > device ( ) ) {
default :
case TQTabletEvent : : Stylus :
case TQTabletEvent : : NoDevice :
device = KisInputDevice : : stylus ( ) ;
break ;
case TQTabletEvent : : Puck :
device = KisInputDevice : : puck ( ) ;
break ;
case TQTabletEvent : : Eraser :
device = KisInputDevice : : eraser ( ) ;
break ;
}
setInputDevice ( device ) ;
// We ignore device change due to mouse events for a short duration
// after a tablet event, since these are almost certainly mouse events
// sent to receivers that don't accept the tablet event.
m_tabletEventTimer . start ( ) ;
break ;
}
case TQEvent : : MouseButtonPress :
case TQEvent : : MouseMove :
case TQEvent : : MouseButtonRelease :
{
# ifdef EXTENDED_X11_TABLET_SUPPORT
KisInputDevice device = KisCanvasWidget : : findActiveInputDevice ( ) ;
if ( device ! = KisInputDevice : : mouse ( ) ) {
setInputDevice ( device ) ;
m_tabletEventTimer . start ( ) ;
} else
# endif
{
if ( currentInputDevice ( ) ! = KisInputDevice : : mouse ( ) & & m_tabletEventTimer . elapsed ( ) > MOUSE_CHANGE_EVENT_DELAY ) {
setInputDevice ( KisInputDevice : : mouse ( ) ) ;
}
}
break ;
}
case TQEvent : : KeyPress :
case TQEvent : : KeyRelease :
{
if ( m_canvas - > cursorIsOverCanvas ( ) ) {
m_canvas - > handleKeyEvent ( e ) ;
return true ;
}
break ;
}
#if 0
// This code is unnecessary now that there's an application event filter
// This eventFilter is called for all widgets already, no need to install event filters multiple times
// Even worse: with multiple views, they would all install event filters on each other's widgets,
// due to the qapp event filter triggering in all views!
case TQEvent : : ChildInserted :
{
TQChildEvent * childEvent = static_cast < TQChildEvent * > ( e ) ;
TQObject * child = childEvent - > child ( ) ;
if ( child - > isWidgetType ( ) ) {
child - > installEventFilter ( this ) ;
TQObjectList * objectList = child - > queryList ( TQWIDGET_OBJECT_NAME_STRING ) ;
TQObjectListIt it ( * objectList ) ;
TQObject * obj ;
while ( ( obj = it . current ( ) ) ! = 0 ) {
obj - > installEventFilter ( this ) ;
+ + it ;
}
delete objectList ;
}
}
# endif
default :
// Ignore
break ;
}
#if 0
if ( ( o = = m_hRuler | | o = = m_vRuler ) & & ( e - > type ( ) = = TQEvent : : MouseMove | | e - > type ( ) = = TQEvent : : MouseButtonRelease ) ) {
TQMouseEvent * me = dynamic_cast < TQMouseEvent * > ( e ) ;
TQPoint pt = mapFromGlobal ( me - > globalPos ( ) ) ;
KisImageSP img = currentImg ( ) ;
KisGuideMgr * mgr ;
if ( ! img )
return super : : eventFilter ( o , e ) ;
mgr = img - > guides ( ) ;
if ( e - > type ( ) = = TQEvent : : MouseMove & & ( me - > state ( ) & Qt : : LeftButton ) ) {
bool flag = geometry ( ) . contains ( pt ) ;
KisGuideSP gd ;
if ( m_currentGuide = = 0 & & flag ) {
// No guide is being edited and moving mouse over the canvas.
// Create a new guide.
enterEvent ( 0 ) ;
eraseGuides ( ) ;
mgr - > unselectAll ( ) ;
if ( o = = m_vRuler )
gd = mgr - > add ( ( pt . x ( ) - m_vRuler - > width ( ) + horzValue ( ) ) / zoom ( ) , Qt : : Vertical ) ;
else
gd = mgr - > add ( ( pt . y ( ) - m_hRuler - > height ( ) + vertValue ( ) ) / zoom ( ) , Qt : : Horizontal ) ;
m_currentGuide = gd ;
mgr - > select ( gd ) ;
m_lastGuidePoint = mapToScreen ( pt ) ;
} else if ( m_currentGuide ) {
if ( flag ) {
// moved an existing guide.
KisMoveEvent kme ( currentInputDevice ( ) , pt , me - > globalPos ( ) , PRESSURE_DEFAULT , 0 , 0 , me - > state ( ) ) ;
canvasGotMoveEvent ( & kme ) ;
} else {
// moved a guide out of the frame, destroy it
leaveEvent ( 0 ) ;
eraseGuides ( ) ;
mgr - > remove ( m_currentGuide ) ;
paintGuides ( ) ;
m_currentGuide = 0 ;
}
}
} else if ( e - > type ( ) = = TQEvent : : MouseButtonRelease & & m_currentGuide ) {
eraseGuides ( ) ;
mgr - > unselect ( m_currentGuide ) ;
paintGuides ( ) ;
m_currentGuide = 0 ;
enterEvent ( 0 ) ;
KisMoveEvent kme ( currentInputDevice ( ) , pt , me - > globalPos ( ) , PRESSURE_DEFAULT , 0 , 0 , Qt : : NoButton ) ;
canvasGotMoveEvent ( & kme ) ;
}
}
# endif
return super : : eventFilter ( o , e ) ;
}
#if 0
void KisView : : eraseGuides ( )
{
KisImageSP img = currentImg ( ) ;
if ( img ) {
KisGuideMgr * mgr = img - > guides ( ) ;
if ( mgr )
mgr - > erase ( & m_canvasPixmap , this , horzValue ( ) , vertValue ( ) , zoom ( ) ) ;
}
}
void KisView : : paintGuides ( )
{
KisImageSP img = currentImg ( ) ;
if ( img ) {
KisGuideMgr * mgr = img - > guides ( ) ;
if ( mgr )
mgr - > paint ( & m_canvasPixmap , this , horzValue ( ) , vertValue ( ) , zoom ( ) ) ;
}
}
void KisView : : updateGuides ( )
{
eraseGuides ( ) ;
paintGuides ( ) ;
}
# endif
//void KisView::viewGuideLines()
//{
//}
TQPoint KisView : : mapToScreen ( const TQPoint & pt )
{
TQPoint converted ;
converted . rx ( ) = pt . x ( ) + horzValue ( ) ;
converted . ry ( ) = pt . y ( ) + vertValue ( ) ;
return converted ;
}
void KisView : : attach ( KisCanvasObserver * observer )
{
Q_ASSERT ( observer ) ;
if ( observer )
m_observers . push_back ( observer ) ;
}
void KisView : : detach ( KisCanvasObserver * observer )
{
Q_ASSERT ( observer ) ;
if ( observer ) {
vKisCanvasObserver_it it = std : : find ( m_observers . begin ( ) , m_observers . end ( ) , observer ) ;
if ( it ! = m_observers . end ( ) )
m_observers . erase ( it ) ;
}
}
void KisView : : notifyObservers ( )
{
for ( vKisCanvasObserver_it it = m_observers . begin ( ) ; it ! = m_observers . end ( ) ; + + it ) {
( * it ) - > update ( this ) ;
}
}
KisImageSP KisView : : currentImg ( ) const
{
return m_image ;
}
void KisView : : setCurrentImage ( KisImageSP image )
{
if ( ! image ) return ;
disconnectCurrentImg ( ) ;
m_image = image ;
KisConfig cfg ;
# ifdef HAVE_GL
if ( cfg . useOpenGL ( ) ) {
m_OpenGLImageContext = KisOpenGLImageContext : : getImageContext ( image , monitorProfile ( ) ) ;
m_canvas - > createOpenGLCanvas ( m_OpenGLImageContext - > sharedContextWidget ( ) ) ;
}
# endif
connectCurrentImg ( ) ;
m_layerBox - > setImage ( currentImg ( ) ) ;
zoomAroundPoint ( 0 , 0 , 1.0 ) ;
if ( ! currentImg ( ) )
layersUpdated ( ) ;
imgUpdateGUI ( ) ;
image - > blockSignals ( false ) ;
}
KisColor KisView : : bgColor ( ) const
{
return m_bg ;
}
KisColor KisView : : fgColor ( ) const
{
return m_fg ;
}
KisBrush * KisView : : currentBrush ( ) const
{
return m_brush ;
}
KisPattern * KisView : : currentPattern ( ) const
{
return m_pattern ;
}
KisGradient * KisView : : currentGradient ( ) const
{
return m_gradient ;
}
KisID KisView : : currentPaintop ( ) const
{
return m_paintop ;
}
const KisPaintOpSettings * KisView : : currentPaintopSettings ( ) const
{
return m_paintopSettings ;
}
double KisView : : zoomFactor ( ) const
{
return zoom ( ) ;
}
KisUndoAdapter * KisView : : undoAdapter ( ) const
{
return m_adapter ;
}
KisCanvasController * KisView : : canvasController ( ) const
{
return const_cast < KisCanvasController * > ( static_cast < const KisCanvasController * > ( this ) ) ;
}
KisToolControllerInterface * KisView : : toolController ( ) const
{
return const_cast < KisToolControllerInterface * > ( static_cast < const KisToolControllerInterface * > ( m_toolManager ) ) ;
}
KisDoc * KisView : : document ( ) const
{
return m_doc ;
}
KisProgressDisplayInterface * KisView : : progressDisplay ( ) const
{
return m_progress ;
}
TQCursor KisView : : setCanvasCursor ( const TQCursor & cursor )
{
TQCursor oldCursor = m_canvas - > cursor ( ) ;
TQCursor newCursor ;
KisConfig cfg ;
switch ( cfg . cursorStyle ( ) ) {
case CURSOR_STYLE_TOOLICON :
newCursor = cursor ;
break ;
case CURSOR_STYLE_CROSSHAIR :
newCursor = KisCursor : : crossCursor ( ) ;
break ;
case CURSOR_STYLE_POINTER :
newCursor = KisCursor : : arrowCursor ( ) ;
break ;
case CURSOR_STYLE_OUTLINE :
newCursor = cursor ;
break ;
default :
newCursor = cursor ;
}
m_canvas - > setCursor ( newCursor ) ;
return oldCursor ;
}
float KisView : : HDRExposure ( ) const
{
return m_HDRExposure ;
}
void KisView : : setHDRExposure ( float exposure )
{
if ( exposure ! = m_HDRExposure ) {
m_HDRExposure = exposure ;
notifyObservers ( ) ;
updateCanvas ( ) ;
}
}
void KisView : : createDockers ( )
{
m_birdEyeBox = new KisBirdEyeBox ( this ) ;
m_birdEyeBox - > setCaption ( i18n ( " Overview " ) ) ;
m_paletteManager - > addWidget ( m_birdEyeBox , " birdeyebox " , chalk : : CONTROL_PALETTE ) ;
m_hsvwidget = new KoHSVWidget ( this , " hsv " ) ;
m_hsvwidget - > setCaption ( i18n ( " HSV " ) ) ;
connect ( m_hsvwidget , TQT_SIGNAL ( sigFgColorChanged ( const TQColor & ) ) , TQT_TQOBJECT ( this ) , TQT_SLOT ( slotSetFGQColor ( const TQColor & ) ) ) ;
connect ( m_hsvwidget , TQT_SIGNAL ( sigBgColorChanged ( const TQColor & ) ) , TQT_TQOBJECT ( this ) , TQT_SLOT ( slotSetBGQColor ( const TQColor & ) ) ) ;
connect ( TQT_TQOBJECT ( this ) , TQT_SIGNAL ( sigFGQColorChanged ( const TQColor & ) ) , m_hsvwidget , TQT_SLOT ( setFgColor ( const TQColor & ) ) ) ;
connect ( TQT_TQOBJECT ( this ) , TQT_SIGNAL ( sigBGQColorChanged ( const TQColor & ) ) , m_hsvwidget , TQT_SLOT ( setBgColor ( const TQColor & ) ) ) ;
m_paletteManager - > addWidget ( m_hsvwidget , " hsvwidget " , chalk : : COLORBOX , 0 , PALETTE_DOCKER , true ) ;
m_rgbwidget = new KoRGBWidget ( this , " rgb " ) ;
m_rgbwidget - > setCaption ( i18n ( " RGB " ) ) ;
connect ( m_rgbwidget , TQT_SIGNAL ( sigFgColorChanged ( const TQColor & ) ) , TQT_TQOBJECT ( this ) , TQT_SLOT ( slotSetFGQColor ( const TQColor & ) ) ) ;
connect ( m_rgbwidget , TQT_SIGNAL ( sigBgColorChanged ( const TQColor & ) ) , TQT_TQOBJECT ( this ) , TQT_SLOT ( slotSetBGQColor ( const TQColor & ) ) ) ;
connect ( TQT_TQOBJECT ( this ) , TQT_SIGNAL ( sigFGQColorChanged ( const TQColor & ) ) , m_rgbwidget , TQT_SLOT ( setFgColor ( const TQColor & ) ) ) ;
connect ( TQT_TQOBJECT ( this ) , TQT_SIGNAL ( sigBGQColorChanged ( const TQColor & ) ) , m_rgbwidget , TQT_SLOT ( setBgColor ( const TQColor & ) ) ) ;
m_paletteManager - > addWidget ( m_rgbwidget , " rgbwidget " , chalk : : COLORBOX ) ;
m_graywidget = new KoGrayWidget ( this , " gray " ) ;
m_graywidget - > setCaption ( i18n ( " Gray " ) ) ;
connect ( m_graywidget , TQT_SIGNAL ( sigFgColorChanged ( const TQColor & ) ) , TQT_TQOBJECT ( this ) , TQT_SLOT ( slotSetFGQColor ( const TQColor & ) ) ) ;
connect ( m_graywidget , TQT_SIGNAL ( sigBgColorChanged ( const TQColor & ) ) , TQT_TQOBJECT ( this ) , TQT_SLOT ( slotSetBGQColor ( const TQColor & ) ) ) ;
connect ( TQT_TQOBJECT ( this ) , TQT_SIGNAL ( sigFGQColorChanged ( const TQColor & ) ) , m_graywidget , TQT_SLOT ( setFgColor ( const TQColor & ) ) ) ;
connect ( TQT_TQOBJECT ( this ) , TQT_SIGNAL ( sigBGQColorChanged ( const TQColor & ) ) , m_graywidget , TQT_SLOT ( setBgColor ( const TQColor & ) ) ) ;
m_paletteManager - > addWidget ( m_graywidget , " graywidget " , chalk : : COLORBOX ) ;
//make sure the color chooser get right default values
emit sigFGQColorChanged ( m_fg . toTQColor ( ) ) ;
emit sigBGQColorChanged ( m_bg . toTQColor ( ) ) ;
m_palettewidget = new KisPaletteWidget ( this ) ;
m_palettewidget - > setCaption ( i18n ( " Palettes " ) ) ;
connect ( m_palettewidget , TQT_SIGNAL ( colorSelected ( const TQColor & ) ) ,
TQT_TQOBJECT ( this ) , TQT_SLOT ( slotSetFGQColor ( const TQColor & ) ) ) ;
// No BGColor or reverse slotFGChanged->palette connections, since that's not useful here
KisResourceServerBase * rServer ;
rServer = KisResourceServerRegistry : : instance ( ) - > get ( " PaletteServer " ) ;
TQValueList < KisResource * > resources = rServer - > resources ( ) ;
TQValueList < KisResource * > : : iterator it ;
for ( it = resources . begin ( ) ; it ! = resources . end ( ) ; + + it ) {
m_palettewidget - > slotAddPalette ( * it ) ;
}
connect ( m_palettewidget , TQT_SIGNAL ( colorSelected ( const KisColor & ) ) , TQT_TQOBJECT ( this ) , TQT_SLOT ( slotSetFGColor ( const KisColor & ) ) ) ;
m_paletteManager - > addWidget ( m_palettewidget , " palettewidget " , chalk : : COLORBOX , 10 , PALETTE_DOCKER , true ) ;
}
TQPoint KisView : : applyViewTransformations ( const TQPoint & p ) const {
TQPoint point ( windowToView ( p ) ) ;
if ( m_hRuler - > isShown ( ) )
point . ry ( ) + = m_hRuler - > height ( ) ;
if ( m_vRuler - > isShown ( ) )
point . rx ( ) + = m_vRuler - > width ( ) ;
return point ;
}
TQPoint KisView : : reverseViewTransformations ( const TQPoint & p ) const {
// Since we now zoom ourselves, the only thing super::~ does is nothing anymore.
// Hence, zoom ourselves, like super would
// viewToWindow doesn't take the rulers into account, do that ourselves
TQPoint point ( p ) ;
if ( m_hRuler - > isShown ( ) )
point . ry ( ) - = m_hRuler - > height ( ) ;
if ( m_vRuler - > isShown ( ) )
point . rx ( ) - = m_vRuler - > width ( ) ;
return viewToWindow ( point ) ;
}
void KisView : : canvasAddChild ( KoViewChild * child ) {
super : : canvasAddChild ( child ) ;
connect ( TQT_TQOBJECT ( this ) , TQT_SIGNAL ( viewTransformationsChanged ( ) ) , child , TQT_SLOT ( reposition ( ) ) ) ;
m_vScroll - > raise ( ) ;
m_hScroll - > raise ( ) ;
m_vScroll - > raise ( ) ;
m_hRuler - > raise ( ) ;
m_vRuler - > raise ( ) ;
}
void KisView : : slotLoadingFinished ( )
{
// Set the current image for real now everything is ready to go.
setCurrentImage ( document ( ) - > currentImage ( ) ) ;
m_paletteManager - > showWidget ( " layerbox " ) ;
m_canvas - > show ( ) ;
disconnect ( document ( ) , TQT_SIGNAL ( loadingFinished ( ) ) , TQT_TQOBJECT ( this ) , TQT_SLOT ( slotLoadingFinished ( ) ) ) ;
m_imageLoaded = true ;
startInitialZoomTimerIfReady ( ) ;
}
void KisView : : startInitialZoomTimerIfReady ( )
{
if ( m_imageLoaded & & m_showEventReceived & & m_guiActivateEventReceived ) {
m_initialZoomTimer . start ( 250 , true ) ;
}
}
void KisView : : slotInitialZoomTimeout ( )
{
Q_ASSERT ( ! m_paintViewEnabled ) ;
m_paintViewEnabled = true ;
setInitialZoomLevel ( ) ;
}
void KisView : : slotCreateMask ( ) {
KisPaintLayer * layer = dynamic_cast < KisPaintLayer * > ( currentImg ( ) - > activeLayer ( ) . data ( ) ) ;
if ( ! layer )
return ;
KNamedCommand * cmd = layer - > createMaskCommand ( ) ;
cmd - > execute ( ) ;
if ( undoAdapter ( ) & & undoAdapter ( ) - > undo ( ) ) {
undoAdapter ( ) - > addCommand ( cmd ) ;
}
}
void KisView : : slotMaskFromSelection ( ) {
KisPaintLayer * layer = dynamic_cast < KisPaintLayer * > ( currentImg ( ) - > activeLayer ( ) . data ( ) ) ;
if ( ! layer )
return ;
KNamedCommand * cmd = layer - > maskFromSelectionCommand ( ) ;
cmd - > execute ( ) ;
if ( undoAdapter ( ) & & undoAdapter ( ) - > undo ( ) ) {
undoAdapter ( ) - > addCommand ( cmd ) ;
}
}
void KisView : : slotMaskToSelection ( ) {
KisPaintLayer * layer = dynamic_cast < KisPaintLayer * > ( currentImg ( ) - > activeLayer ( ) . data ( ) ) ;
if ( ! layer )
return ;
KNamedCommand * cmd = layer - > maskToSelectionCommand ( ) ;
cmd - > execute ( ) ;
if ( undoAdapter ( ) & & undoAdapter ( ) - > undo ( ) ) {
undoAdapter ( ) - > addCommand ( cmd ) ;
}
}
void KisView : : slotApplyMask ( ) {
KisPaintLayer * layer = dynamic_cast < KisPaintLayer * > ( currentImg ( ) - > activeLayer ( ) . data ( ) ) ;
if ( ! layer )
return ;
KNamedCommand * cmd = layer - > applyMaskCommand ( ) ;
cmd - > execute ( ) ;
if ( undoAdapter ( ) & & undoAdapter ( ) - > undo ( ) ) {
undoAdapter ( ) - > addCommand ( cmd ) ;
}
}
void KisView : : slotRemoveMask ( ) {
KisPaintLayer * layer = dynamic_cast < KisPaintLayer * > ( currentImg ( ) - > activeLayer ( ) . data ( ) ) ;
if ( ! layer )
return ;
KNamedCommand * cmd = layer - > removeMaskCommand ( ) ;
cmd - > execute ( ) ;
if ( undoAdapter ( ) & & undoAdapter ( ) - > undo ( ) ) {
undoAdapter ( ) - > addCommand ( cmd ) ;
}
}
void KisView : : slotEditMask ( ) {
KisPaintLayer * layer = dynamic_cast < KisPaintLayer * > ( currentImg ( ) - > activeLayer ( ) . data ( ) ) ;
if ( ! layer )
return ;
layer - > setEditMask ( m_editMask - > isChecked ( ) ) ;
}
void KisView : : slotShowMask ( ) {
KisPaintLayer * layer = dynamic_cast < KisPaintLayer * > ( currentImg ( ) - > activeLayer ( ) . data ( ) ) ;
if ( ! layer )
return ;
layer - > setRenderMask ( m_showMask - > isChecked ( ) ) ;
}
void KisView : : maskUpdated ( ) {
KisPaintLayer * layer = dynamic_cast < KisPaintLayer * > ( currentImg ( ) - > activeLayer ( ) . data ( ) ) ;
if ( ! layer ) {
m_createMask - > setEnabled ( false ) ;
m_applyMask - > setEnabled ( false ) ;
m_removeMask - > setEnabled ( false ) ;
m_editMask - > setEnabled ( false ) ;
m_showMask - > setEnabled ( false ) ;
return ;
}
m_createMask - > setEnabled ( ! layer - > hasMask ( ) ) ;
m_maskFromSelection - > setEnabled ( true ) ; // Perhaps also update this to false when no selection?
m_maskToSelection - > setEnabled ( layer - > hasMask ( ) ) ;
m_applyMask - > setEnabled ( layer - > hasMask ( ) ) ;
m_removeMask - > setEnabled ( layer - > hasMask ( ) ) ;
m_editMask - > setEnabled ( layer - > hasMask ( ) ) ;
m_editMask - > setChecked ( layer - > editMask ( ) ) ;
m_showMask - > setEnabled ( layer - > hasMask ( ) ) ;
m_showMask - > setChecked ( layer - > renderMask ( ) ) ;
}
# include "kis_view.moc"