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itemdocument.cpp

/***************************************************************************
 *   Copyright (C) 2005 by David Saxton                                    *
 *   david@bluehaze.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.                                   *
 ***************************************************************************/

#include "canvasmanipulator.h"
#include "circuitdocument.h"
#include "connector.h"
#include "cnitem.h"
#include "drawpart.h"
#include "ecnode.h"
#include "flowcodedocument.h"
#include "icnview.h"
#include "itemdocumentdata.h"
#include "itemgroup.h"
#include "itemselector.h"
#include "ktechlab.h"
#include "core/ktlconfig.h"
#include "pin.h"
#include "simulator.h"

#include <kapplication.h>
#include <kdebug.h>
#include <kfiledialog.h>
#include <kiconloader.h>
#include <klocale.h>
#include <kmessagebox.h>
#include <kpopupmenu.h>
#include <kprinter.h>
#include <qcheckbox.h>
#include <qclipboard.h>
#include <qcursor.h>
#include <qimage.h>
#include <qpaintdevicemetrics.h>
#include <qpainter.h>
#include <qpicture.h>
#include <qregexp.h> 
#include <qsimplerichtext.h>
#include <qtimer.h>

#include <cmath>


//BEGIN class ItemDocument
int ItemDocument::m_nextActionTicket = 0;

ItemDocument::ItemDocument( const QString &caption, KTechlab *ktechlab, const char *name)
      : Document( caption, ktechlab, name )
{
      m_queuedEvents = 0;
      p_ktechlab = ktechlab;
      m_nextIdNum = 1;
      m_savedState = 0l;
      m_currentState = 0l;
      m_bIsLoading = false;
      
      m_canvas = new Canvas( this, "canvas" );
      m_canvasTip = new CanvasTip(this,m_canvas);
      m_cmManager = new CMManager(this);
      m_undoStack.setAutoDelete(true);
      m_redoStack.setAutoDelete(true);
      
      updateBackground();
      m_canvas->resize( 0, 0 );
      m_canvas->setDoubleBuffering(true);
      
      m_pEventTimer = new QTimer(this);
      connect( m_pEventTimer, SIGNAL(timeout()), this, SLOT(processItemDocumentEvents()) );
      
      connect( this, SIGNAL(itemSelected(Item*)), this, SLOT(slotInitItemActions(Item*)) );
      connect( this, SIGNAL(itemUnselected(Item*)), this, SLOT(slotInitItemActions(Item*)) );
      
      connect( ComponentSelector::self(), SIGNAL(itemClicked(const QString& )),           this, SLOT(slotUnsetRepeatedItemId()) );
      connect( FlowPartSelector::self(),  SIGNAL(itemClicked(const QString& )),           this, SLOT(slotUnsetRepeatedItemId()) );
#ifdef MECHANICS
      connect( MechanicsSelector::self(), SIGNAL(itemClicked(const QString& )),           this, SLOT(slotUnsetRepeatedItemId()) );
#endif

      m_pAlignmentAction = new KActionMenu( i18n("Alignment"), "rightjust", this );
      
      slotUpdateConfiguration();
}


ItemDocument::~ItemDocument()
{
      m_bDeleted = true;
      
      ItemList toDelete = m_itemList;
      const ItemList::iterator end = toDelete.end();
      for ( ItemList::iterator it = toDelete.begin(); it != end; ++it )
            delete *it;
      
      delete m_cmManager;
      m_cmManager = 0l;
      delete m_currentState;
      m_currentState = 0l;
      delete m_canvasTip;
      m_canvasTip = 0l;
}


00108 void ItemDocument::handleNewView( View * view )
{
      Document::handleNewView(view);
      requestEvent( ItemDocument::ItemDocumentEvent::ResizeCanvasToItems );
}


00115 bool ItemDocument::registerItem( QCanvasItem *qcanvasItem )
{
      if (!qcanvasItem)
            return false;
      
      requestEvent( ItemDocument::ItemDocumentEvent::ResizeCanvasToItems );
      
      switch (qcanvasItem->rtti())
      {
            case ItemDocument::RTTI::DrawPart:
            case ItemDocument::RTTI::CNItem:
            {
                  Item *item = dynamic_cast<Item*>(qcanvasItem);
                  m_itemList.append(item);
                  connect( item, SIGNAL(removed(Item*)), this, SLOT(requestRerouteInvalidatedConnectors()) );
                  connect( item, SIGNAL(selected(Item*,bool)), this, SIGNAL(itemSelected(Item*)) );
                  connect( item, SIGNAL(unselected(Item*,bool)), this, SIGNAL(itemUnselected(Item*)) );
                  itemAdded(item);
                  return true;
            }
            default:
                  return false;
      }
}


00141 void ItemDocument::slotSetDrawAction( int drawAction )
{
      m_cmManager->setDrawAction(drawAction);
}


00147 void ItemDocument::cancelCurrentOperation()
{
      m_cmManager->cancelCurrentManipulation();
}


00153 void ItemDocument::slotSetRepeatedItemId( const QString &id )
{
      m_cmManager->setCMState( CMManager::cms_repeated_add, true );
      m_cmManager->setRepeatedAddId(id);
}


00160 void ItemDocument::slotUnsetRepeatedItemId()
{
      m_cmManager->setCMState( CMManager::cms_repeated_add, false );
}


00166 void ItemDocument::fileSave()
{
      if ( url().isEmpty() && !getURL(m_fileExtensionInfo) ) return;
      writeFile();
}


00173 void ItemDocument::fileSaveAs()
{
      if ( !getURL(m_fileExtensionInfo) ) return;
      writeFile();
      
      // Our modified state may not have changed, but we emit this to force the
      // main window to update our caption.
      emit modifiedStateChanged();
}


void ItemDocument::writeFile()
{
      ItemDocumentData data( type() );
      data.saveDocumentState(this);
      
      if ( data.saveData(url()) )
      {
            m_savedState = m_currentState;
            setModified(false);
      }
}


00197 bool ItemDocument::openURL( const KURL &url )
{
      ItemDocumentData data( type() );
      
      if ( !data.loadData(url) )
            return false;
      
      // Why do we stop simulating while loading a document?
      // Crash possible when loading a circuit document, and the Qt event loop is
      // reentered (such as when a PIC component pops-up a message box), which
      // will then call the Simulator::step function, which might use components
      // that have not fully initialized themselves.
      
      m_bIsLoading = true;
      bool wasSimulating = Simulator::self()->isSimulating();
      Simulator::self()->slotSetSimulating( false );
      data.restoreDocument(this);
      Simulator::self()->slotSetSimulating( wasSimulating );
      m_bIsLoading = false;
      
      setURL(url);
      clearHistory();
      m_savedState = m_currentState;
      setModified(false);
      
      if ( FlowCodeDocument *fcd = dynamic_cast<FlowCodeDocument*>(this) )
      {
            // We need to tell all pic-depedent components about what pic type is in use
            emit fcd->picTypeChanged();
      }
      
      requestEvent( ItemDocument::ItemDocumentEvent::ResizeCanvasToItems );
      
      // Load Z-position info
      m_zOrder.clear();
      ItemList::iterator end = m_itemList.end();
      for ( ItemList::iterator it = m_itemList.begin(); it != end; ++it )
      {
            if ( !*it || (*it)->parentItem() )
                  continue;
            
            m_zOrder[(*it)->baseZ()] = *it;
      }
      slotUpdateZOrdering();
      
      return true;
}

00245 void ItemDocument::print()
{
      static KPrinter * printer = new KPrinter;
      
      if ( ! printer->setup( p_ktechlab ) )
            return;
      
      // setup the printer.  with Qt, you always "print" to a
      // QPainter.. whether the output medium is a pixmap, a screen,
      // or paper
      QPainter p;
      p.begin( printer );
      
      // we let our view do the actual printing
      QPaintDeviceMetrics metrics( printer );
      
      // Round to 16 (= 2 * 8) so that we cut in the middle of squares
      int w = 16*int(metrics.width()/16);
      int h = 16*int(metrics.height()/16);
      
      p.setClipping( true );
      p.setClipRect( 0, 0, w, h, QPainter::CoordPainter );
      
      // Send off the painter for drawing
      m_canvas->setBackgroundPixmap( 0 );
      
      QRect bounding = canvasBoundingRect();
      unsigned int rows = (unsigned) std::ceil( double( bounding.height() ) / double( h ) );
      unsigned int cols = (unsigned) std::ceil( double( bounding.width() ) / double( w ) );
      int offset_x = bounding.x();
      int offset_y = bounding.y();
      
      for ( unsigned row = 0; row < rows; ++row )
      {
            for ( unsigned col = 0; col < cols; ++col )
            {
                  if ( row != 0 || col != 0 )
                        printer->newPage();
                  
                  QRect drawArea( offset_x + (col * w), offset_y + (row * h), w, h );
                  m_canvas->drawArea( drawArea, & p );
                  
                  p.translate( -w, 0 );
            }
            p.translate( w * cols, -h );
      }
      
      updateBackground();
      
      // and send the result to the printer
      p.end();
}


00299 void ItemDocument::requestStateSave( int actionTicket )
{
      if ( m_bIsLoading )
            return;
      
      m_redoStack.clear();
      
      if ( (actionTicket >= 0) && (actionTicket == m_currentActionTicket) )
      {
            delete m_currentState;
            m_currentState = 0l;
      }
      
      m_currentActionTicket = actionTicket;
      
      if (m_currentState)
            m_undoStack.push(m_currentState);
      
      m_currentState = new ItemDocumentData( type() );
      m_currentState->saveDocumentState(this);
      
      if (!m_savedState)
            m_savedState = m_currentState;
      
      setModified( m_savedState != m_currentState );
      
      emit undoRedoStateChanged();
      
      //FIXME To resize undo queue, have to pop and push everything
      int maxUndo = KTLConfig::maxUndo();
      if ( maxUndo <= 0 || m_undoStack.count() < (unsigned)maxUndo )
            return;
      IDDStack tempStack;
      int pushed = 0;
      while ( !m_undoStack.isEmpty() && pushed < maxUndo )
      {
            tempStack.push( m_undoStack.pop() );
            pushed++;
      }
      m_undoStack.clear();
      while ( !tempStack.isEmpty() )
            m_undoStack.push( tempStack.pop() );
}


00344 void ItemDocument::clearHistory()
{
      m_undoStack.clear();
      m_redoStack.clear();
      delete m_currentState;
      m_currentState = 0l;
      requestStateSave();
}


00354 bool ItemDocument::isUndoAvailable() const
{
      return !m_undoStack.isEmpty();
}


00360 bool ItemDocument::isRedoAvailable() const
{
      return !m_redoStack.isEmpty();
}


00366 void ItemDocument::undo()
{
      ItemDocumentData *idd = m_undoStack.pop();
      if (!idd)
            return;
      
      if (m_currentState)
            m_redoStack.push(m_currentState);
      
      idd->restoreDocument(this);
      m_currentState = idd;
      
      setModified( m_savedState != m_currentState );
      emit undoRedoStateChanged();
}


00383 void ItemDocument::redo()
{
      ItemDocumentData *idd = m_redoStack.pop();
      if (!idd)
            return;
      
      if (m_currentState)
            m_undoStack.push(m_currentState);
      
      idd->restoreDocument(this);
      m_currentState = idd;
      
      setModified( m_savedState != m_currentState );
      emit undoRedoStateChanged();
}


00400 void ItemDocument::cut()
{
    copy();
    deleteSelection();
}


00407 void ItemDocument::paste()
{
      QString xml = KApplication::clipboard()->text( QClipboard::Clipboard );
      if ( xml.isEmpty() )
            return;
      
      unselectAll();
      
      ItemDocumentData data( type() );
      data.fromXML(xml);
      data.generateUniqueIDs(this);
      data.translateContents( 64, 64 );
      data.mergeWithDocument( this, true );
      
      // Get rid of any garbage that shouldn't be around / merge connectors / etc
      flushDeleteList();
      
      requestStateSave();
}


00428 Item *ItemDocument::itemWithID( const QString &id )
{
      const ItemList::iterator end = m_itemList.end();
      for ( ItemList::iterator it = m_itemList.begin(); it != end; ++it )
      {
            if ( (*it)->id() == id )
                  return *it;
      }
      return 0L;
}


00440 void ItemDocument::unselectAll()
{
      selectList()->removeAllItems();
}


00446 void ItemDocument::select( QCanvasItem * item )
{
      if (!item)
            return;
      item->setSelected( selectList()->contains( item ) || selectList()->addQCanvasItem( item ) );
}


00454 void ItemDocument::select( const QCanvasItemList & list )
{
      const QCanvasItemList::const_iterator end = list.end();
      for ( QCanvasItemList::const_iterator it = list.begin(); it != end; ++it )
            selectList()->addQCanvasItem(*it);
      
      selectList()->setSelected(true);
}


00464 void ItemDocument::unselect( QCanvasItem *qcanvasItem )
{
      selectList()->removeQCanvasItem(qcanvasItem);
      qcanvasItem->setSelected(false);
}


00471 void ItemDocument::slotUpdateConfiguration()
{
      updateBackground();
      m_canvas->setUpdatePeriod( int(1000./KTLConfig::refreshRate()) );
}


00478 QCanvasItem* ItemDocument::itemAtTop( const QPoint &pos ) const
{
      QCanvasItemList list = m_canvas->collisions( QRect( pos.x()-1, pos.y()-1, 3, 3 ) );
      
      QCanvasItemList::const_iterator it = list.begin();
      const QCanvasItemList::const_iterator end = list.end();
      while ( it != end )
      {
            QCanvasItem *item = *it;
            if ( item == m_canvasTip ||
                           item->rtti() == QCanvasItem::Rtti_Line ||
                           item->rtti() == QCanvasItem::Rtti_Text ||
                           item->rtti() == QCanvasItem::Rtti_Rectangle ) 
            {
                  ++it;
            }
            else
            {
                  if ( item->rtti() == ItemDocument::RTTI::ConnectorLine )
                        return (static_cast<ConnectorLine*>(item))->parent();
                  
                  return item;
            }
      }
      
      return 0L;
}



00508 void ItemDocument::alignHorizontally( )
{
      selectList()->slotAlignHorizontally();
      if ( ICNDocument *icnd = dynamic_cast<ICNDocument*>(this) )
            icnd->requestRerouteInvalidatedConnectors();
}
00514 void ItemDocument::alignVertically( )
{
      selectList()->slotAlignVertically();
      if ( ICNDocument *icnd = dynamic_cast<ICNDocument*>(this) )
            icnd->requestRerouteInvalidatedConnectors();
}
00520 void ItemDocument::distributeHorizontally( )
{
      selectList()->slotDistributeHorizontally();
      if ( ICNDocument *icnd = dynamic_cast<ICNDocument*>(this) )
            icnd->requestRerouteInvalidatedConnectors();
}
00526 void ItemDocument::distributeVertically( )
{
      selectList()->slotDistributeVertically();
      if ( ICNDocument *icnd = dynamic_cast<ICNDocument*>(this) )
            icnd->requestRerouteInvalidatedConnectors();
}


00534 bool ItemDocument::registerUID( const QString &UID )
{
      if ( m_idList.findIndex(UID) == -1 )
      {
            m_idList.append(UID);
            return true;
      }
      
      return false;
}


00546 void ItemDocument::unregisterUID( const QString & uid )
{
      m_idList.remove(uid);
}


00552 QString ItemDocument::generateUID( QString name )
{
      name.remove( QRegExp("__.*") ); // Change 'node__13' to 'node', for example
      QString idAttempt = name;
//    if ( idAttempt.find("__") != -1 ) idAttempt.truncate( idAttempt.find("__") );
      while ( !registerUID(idAttempt) ) { idAttempt = name + "__" + QString::number(m_nextIdNum++); }
      
      return idAttempt;
}


00563 void ItemDocument::canvasRightClick( const QPoint &pos, QCanvasItem* item )
{
      if (item)
      {
            if ( item->rtti() == ItemDocument::RTTI::CNItem &&
                  !item->isSelected() )
            {
                  unselectAll();
                  select(item);
            }
      }
      
      p_ktechlab->unplugActionList("alignment_actionlist");
      p_ktechlab->unplugActionList("orientation_actionlist");
      p_ktechlab->unplugActionList("component_actionlist");
      fillContextMenu(pos);
      
      QPopupMenu *pop = static_cast<QPopupMenu*>(p_ktechlab->factory()->container("item_popup", p_ktechlab));
      
      if (!pop)
            return;
      
      pop->popup(pos);
}


00589 void ItemDocument::fillContextMenu( const QPoint & pos )
{
      Q_UNUSED(pos);
      
      ItemView * activeItemView = dynamic_cast<ItemView*>(activeView());
      if ( !p_ktechlab || !activeItemView )
            return;
      
      KAction * align_actions[] = { 
            activeItemView->action("align_horizontally"),
            activeItemView->action("align_vertically"),
            activeItemView->action("distribute_horizontally"),
            activeItemView->action("distribute_vertically") };
      
      bool enableAlignment = selectList()->itemCount() > 1;
      
      if ( !enableAlignment )
            return;
      
      for ( unsigned i = 0; i < 4; ++i )
      {
            align_actions[i]->setEnabled(true);
            m_pAlignmentAction->remove( align_actions[i] );
            m_pAlignmentAction->insert( align_actions[i] );
      }
      QPtrList<KAction> alignment_actions;
      alignment_actions.append( m_pAlignmentAction );
      p_ktechlab->plugActionList( "alignment_actionlist", alignment_actions );
}


00620 void ItemDocument::slotInitItemActions( Item *item )
{
      Q_UNUSED(item);
      
      ItemView * activeItemView = dynamic_cast<ItemView*>(activeView());
      if ( !p_ktechlab || !activeItemView )
            return;
      
      KAction * align_actions[] = { 
            activeItemView->action("align_horizontally"),
            activeItemView->action("align_vertically"),
            activeItemView->action("distribute_horizontally"),
            activeItemView->action("distribute_vertically") };
      
      bool enableAlignment = selectList()->itemCount() > 1;
      for ( unsigned i = 0; i < 4; ++i )
            align_actions[i]->setEnabled(enableAlignment);
}


00640 void ItemDocument::updateBackground()
{
      // Also used in the constructor to make the background initially.
      
      // Thoughts.
      // ~The pixmap could be done somehow with 1bpp. It might save some waste
      // I expect it won't hurt for now.
      // ~This is all rather static, only works with square etc... should be no prob. for most uses. IMO. 
      // ~If you want, decide what maximum and minimum spacing should be, then enforce them
      // in the Config (I suppose you can use <max></max> tags?)
      // ~Defaults based on the existing grid background png. It should produce identical results, to your
      // original png.
      
      // **** Below where it says "interval * 10", that decides how big the pixmap will be (always square)
      // Originally I set this to 32, which give 256x256 with 8 spacing, as that was the size of your pixmap
      // Are there any good reasons to make the a certain size? (i.e. big or small ?).
      
      int interval = 8;
      int bigness = interval * 10;
      QPixmap pm( bigness, bigness );
//    pm.fill( KTLConfig::bgColor() ); // first fill the background colour in
      pm.fill( Qt::white );
      
      if( KTLConfig::showGrid() ){
            QPainter p(&pm); // setup painter to draw on pixmap
            p.setPen( KTLConfig::gridColor() ); // set forecolour
            // note: anything other than 8 borks this
            for( int i = (interval / 2); i < bigness; i+=interval ){
                  p.drawLine( 0, i, bigness, i ); // horizontal
                  p.drawLine( i, 0, i, bigness ); // vertical
            }
            p.end(); // all done
      }

      pm.setDefaultOptimization( QPixmap::BestOptim );
      m_canvas->setBackgroundPixmap(pm); // and the finale.
}


00679 void ItemDocument::requestEvent( ItemDocumentEvent::type type )
{
      m_queuedEvents |= type;
      m_pEventTimer->stop();
      m_pEventTimer->start( 0, true );
}


00687 void ItemDocument::processItemDocumentEvents()
{
      // Copy it incase we have new events requested while doing this...
      unsigned queuedEvents = m_queuedEvents;
      m_queuedEvents = 0;
      
      if ( queuedEvents & ItemDocumentEvent::ResizeCanvasToItems )
            resizeCanvasToItems();
      
      if ( queuedEvents & ItemDocumentEvent::UpdateZOrdering )
            slotUpdateZOrdering();
      
      ICNDocument * icnd = dynamic_cast<ICNDocument*>(this);
      
      if ( icnd && (queuedEvents & ItemDocumentEvent::UpdateNodeGroups) )
            icnd->slotAssignNodeGroups();
      
      if ( icnd && (queuedEvents & ItemDocumentEvent::RerouteInvalidatedConnectors) )
            icnd->rerouteInvalidatedConnectors();
}


00709 void ItemDocument::resizeCanvasToItems()
{
      const ViewList::iterator end = m_viewList.end();
      
      QRect bound = canvasBoundingRect();
      QSize size( bound.right(), bound.bottom() );
      
      m_viewList.remove((View*)0);
      
      for ( ViewList::iterator it = m_viewList.begin(); it != end; ++it )
      {
            CVBEditor * cvbEditor = (static_cast<ItemView*>((View*)*it))->cvbEditor();
            
            int contentsX, contentsY;
            int contentsWMX, contentsWMY;
            
            cvbEditor->viewportToContents( cvbEditor->viewport()->width(), cvbEditor->viewport()->height(), contentsX, contentsY );
            cvbEditor->inverseWorldMatrix().map( contentsX, contentsY, &contentsWMX, &contentsWMY );
            
            // Hack to fix a bug whereby when scrolled, but emoty gap before scrollbars,
            // size slowly decreases one pixel at a time
            if ( (contentsX - contentsWMX) == 1 )
                  contentsWMX = contentsX;
            if ( (contentsY - contentsWMY) == 1 )
                  contentsWMY = contentsY;
            
            size = size.expandedTo( QSize( contentsWMX, contentsWMY ) );
      }
      
      // We want to avoid flicker....
      for ( ViewList::iterator it = m_viewList.begin(); it != end; ++it )
      {
            ItemView * itemView = static_cast<ItemView*>((View*)*it);
            CVBEditor * cvbEditor = itemView->cvbEditor();
            
            cvbEditor->setVScrollBarMode( ((size.height()*itemView->zoomLevel()) > cvbEditor->visibleHeight()) ? QScrollView::AlwaysOn : QScrollView::AlwaysOff );
            cvbEditor->setHScrollBarMode( ((size.width()*itemView->zoomLevel()) > cvbEditor->visibleWidth()) ? QScrollView::AlwaysOn : QScrollView::AlwaysOff );
      }
      
      bool changedSize = canvas()->size() != size;
      canvas()->resize( size.width(), size.height() );
      
      if (changedSize)
            requestEvent( ItemDocumentEvent::ResizeCanvasToItems );
      else if ( ICNDocument * icnd = dynamic_cast<ICNDocument*>(this) )
            icnd->createCellMap();
}


00758 QRect ItemDocument::canvasBoundingRect() const
{
      QRect bound;
      
      const QCanvasItemList allItems = canvas()->allItems();
      const QCanvasItemList::const_iterator end = allItems.end();
      for ( QCanvasItemList::const_iterator it = allItems.begin(); it != end; ++it )
      {
            if ( !(*it)->isVisible() )
                  continue;
            bound |= (*it)->boundingRect();
      }
      
      if ( !bound.isNull() )
      {
            bound.setLeft( bound.left() - 16 );
            bound.setTop( bound.top() - 16 );
            bound.setRight( bound.right() + 16 );
            bound.setBottom( bound.bottom() + 16 );
      }
      
      return bound;
}


00783 void ItemDocument::exportToImage()
{
      // scaralously copied from print.
      // this slot is called whenever the File->Export menu is selected,
      // the Export shortcut is pressed or the Export toolbar
      // button is clicked
      
      // widget for the kfiledialog
      // It is the bit that says "Crop circuit?"
      // Okay need to think of something way better to say here.
      // gotme here, KFileDialog makes itself parent so tries to destroy cropCheck when it is deleted.
      // therefore we use a pointer.
      QString cropMessage;
      if ( type() == Document::dt_flowcode )
            cropMessage = i18n("Crop image to program parts");
      
      else if ( type() == Document::dt_circuit )
            cropMessage = i18n("Crop image to circuit components");
      
      else 
            cropMessage = i18n("Crop image");
      
      QCheckBox *cropCheck = new QCheckBox( cropMessage, p_ktechlab, "cropCheck" );
      cropCheck->setChecked(true); // yes by default?
      
      // we need an object so we can retrieve which image type was selected by the user
      // so setup the filedialog.
      KFileDialog exportDialog(QString::null, "*.png|PNG Image\n*.bmp|BMP Image\n*.svg|SVG Image" , p_ktechlab, i18n("Export As Image"), true, cropCheck);
      
      exportDialog.setOperationMode( KFileDialog::Saving );
      // now actually show it
      if ( exportDialog.exec() == QDialog::Rejected )
            return;
      KURL url = exportDialog.selectedURL();

      if ( url.isEmpty() )
            return;
      
      if ( QFile::exists( url.path() ) )
      {
            int query = KMessageBox::warningYesNo( p_ktechlab, i18n( "A file named \"%1\" already exists. " "Are you sure you want to overwrite it?" ).arg( url.fileName() ), i18n( "Overwrite File?" ), i18n( "Overwrite" ), KStdGuiItem::cancel() );
            if ( query == KMessageBox::No ) return;
      }
      
      // with Qt, you always "print" to a
      // QPainter.. whether the output medium is a pixmap, a screen,
      // or paper
      
      // needs to be something like QPicture to do SVG etc...
      // at the moment the pixmap is just as big as the canvas,
      // intend to make some kind of cropping thing so it just 
      // takes the bit with the circuit on.
      
      QRect saveArea;
      QString type;
      QRect cropArea;
      QPaintDevice *outputImage;
      QString filter = exportDialog.currentFilter();
      filter = filter.lower(); // gently soften the appearance of the letters.
      
      // did have a switch here but seems you can't use that on strings
      if ( filter == "*.png" )
            type = "PNG";
      
      else if ( filter == "*.bmp" )
            type = "BMP";
      
      else if ( filter == "*.svg" )
      {
            KMessageBox::information( NULL, i18n("SVG export is sub-functional"), i18n("Export As Image") );
            type = "SVG";
      }
      // I don't like forcing people to use the right extension (personally)
      // but it is the easiest way to decide image type.
      else
      {
            KMessageBox::sorry( NULL, i18n("Unknown extension, please select one from the filter list."), i18n("Export As Image") );
            return;
      }

      if ( cropCheck->isChecked() )
      {
            cropArea = canvasBoundingRect();
            if ( cropArea.isNull() )
            {  
                  KMessageBox::sorry( 0l, i18n("There is nothing to crop"), i18n("Export As Image") );
                  return;
            }
            else
            {
                  cropArea &= canvas()->rect();
            }
      }

      saveArea = m_canvas->rect();

      if ( type == "PNG" || type == "BMP" )
            outputImage = new QPixmap( saveArea.size() );
      
      else if ( type == "SVG" )
      {
            setSVGExport(true);
            outputImage = new QPicture();
            // svg can't be cropped using the qimage method.
            saveArea = cropArea;
      }
      else
      {
            kdWarning() << "Unknown type!" << endl;
            return;
      }
      
      QPainter p(outputImage);
      
      m_canvas->setBackgroundPixmap(QPixmap());
      m_canvas->drawArea( saveArea, &p );
      updateBackground();
      
      p.end();

      bool saveResult;
      
      // if cropping we need to convert to an image,
      // crop, then save.
      if ( cropCheck->isChecked() )
      {
            if( type == "SVG" )
                  saveResult = dynamic_cast<QPicture*>(outputImage)->save( url.path(), type);
            
            else
            {
                  QImage img = dynamic_cast<QPixmap*>(outputImage)->convertToImage();
                  img = img.copy(cropArea);
                  saveResult = img.save(url.path(),type);
            }
      }
      else
      {
            if ( type=="SVG" )
                  saveResult = dynamic_cast<QPicture*>(outputImage)->save( url.path(), type );
            else
                  saveResult = dynamic_cast<QPixmap*>(outputImage)->save( url.path(), type );
      }
      
      //if(saveResult == true)      KMessageBox::information( this, i18n("Sucessfully exported to \"%1\"").arg( url.filename() ), i18n("Image Export") );
      //else KMessageBox::information( this, i18n("Export failed"), i18n("Image Export") );
      
      if ( type == "SVG" )
            setSVGExport(false);
      
      if (saveResult == false)
            KMessageBox::information( p_ktechlab, i18n("Export failed"), i18n("Image Export") );
      
      delete outputImage;
}


00940 void ItemDocument::setSVGExport( bool svgExport )
{
      // Find any items and tell them not to draw buttons or sliders
      QCanvasItemList items = m_canvas->allItems();
      const QCanvasItemList::iterator end = items.end();
      for ( QCanvasItemList::Iterator it = items.begin(); it != end; ++it )
      {
            if ( CNItem * cnItem = dynamic_cast<CNItem*>(*it) )
                  cnItem->setDrawWidgets(!svgExport);
      }
}

00952 void ItemDocument::raiseZ()
{
      raiseZ( selectList()->items(true) );
}
00956 void ItemDocument::raiseZ( const ItemList & itemList )
{
      if ( m_zOrder.isEmpty() )
            slotUpdateZOrdering();
      
      if ( m_zOrder.isEmpty() )
            return;
      
      IntItemMap::iterator begin = m_zOrder.begin();
      IntItemMap::iterator previous = m_zOrder.end();
      IntItemMap::iterator it = --m_zOrder.end();
      do
      {
            Item * previousData = (previous == m_zOrder.end()) ? 0l : previous.data();
            Item * currentData = it.data();
            
            if ( currentData && previousData && itemList.contains(currentData) && !itemList.contains(previousData) )
            {
                  previous.data() = currentData;
                  it.data() = previousData;
            }
            
            previous = it;
            --it;
      }
      while ( previous != begin );
      
      slotUpdateZOrdering();
}


00987 void ItemDocument::lowerZ()
{
      lowerZ( selectList()->items(true) );
}
00991 void ItemDocument::lowerZ( const ItemList & itemList )
{
      if ( m_zOrder.isEmpty() )
            slotUpdateZOrdering();
      
      if ( m_zOrder.isEmpty() )
            return;
      
      IntItemMap::iterator previous = m_zOrder.begin();
      IntItemMap::iterator end = m_zOrder.end();
      for ( IntItemMap::iterator it = m_zOrder.begin(); it != end; ++it )
      {
            Item * previousData = previous.data();
            Item * currentData = it.data();
            
            if ( currentData && previousData && itemList.contains(currentData) && !itemList.contains(previousData) )
            {
                  previous.data() = currentData;
                  it.data() = previousData;
            }
            
            previous = it;
      }
      
      slotUpdateZOrdering();
}


01019 void ItemDocument::itemAdded( Item * )
{
      requestEvent( ItemDocument::ItemDocumentEvent::UpdateZOrdering );
}


01025 void ItemDocument::slotUpdateZOrdering()
{
      ItemList toAdd = m_itemList;
      toAdd.remove((Item*)0l);
      
      IntItemMap newZOrder;
      int atLevel = 0;
      
      IntItemMap::iterator zEnd = m_zOrder.end();
      for ( IntItemMap::iterator it = m_zOrder.begin(); it != zEnd; ++it )
      {     
            Item * item = it.data();
            if (!item)
                  continue;
            
            toAdd.remove(item);
            
            if ( !item->parentItem() && item->isMovable() )
                  newZOrder[atLevel++] = item;
      }
      
      ItemList::iterator addEnd = toAdd.end();
      for ( ItemList::iterator it = toAdd.begin(); it != addEnd; ++it )
      {
            Item * item = *it;
            if ( item->parentItem() || !item->isMovable() )
                  continue;
            
            newZOrder[atLevel++] = item;
      }
      
      m_zOrder = newZOrder;
      
      zEnd = m_zOrder.end();
      for ( IntItemMap::iterator it = m_zOrder.begin(); it != zEnd; ++it )
            it.data()->updateZ( it.key() );
}


01064 void ItemDocument::update( )
{
      ItemList::iterator end = m_itemList.end();
      for ( ItemList::iterator it = m_itemList.begin(); it != end; ++it )
      {
            if ( (*it)->hasDynamicContent() )
                  (*it)->setChanged();
      }
}
//END class ItemDocument



//BEGIN class CanvasTip
CanvasTip::CanvasTip( ItemDocument *itemDocument, QCanvas *qcanvas )
      : QCanvasText(qcanvas)
{
      p_itemDocument = itemDocument;
      
      setColor( Qt::black );
      setZ( ICNDocument::Z::Tip );
}

CanvasTip::~CanvasTip()
{
}

void CanvasTip::displayVI( ECNode *node, const QPoint &pos )
{
      if ( !node || !updateVI() )
            return;
      
      unsigned num = node->numPins();
      
      m_v.resize(num);
      m_i.resize(num);
      
      for ( unsigned i = 0; i < num; i++ )
      {
            if ( Pin * pin = node->pin(i) )
            {
                  m_v[i] = pin->voltage();
                  m_i[i] = pin->current();
            }
      }
      
      display(pos);
}


void CanvasTip::displayVI( Connector *connector, const QPoint &pos )
{
      if ( !connector || !updateVI())
            return;
      
      unsigned num = connector->numWires();
      
      m_v.resize(num);
      m_i.resize(num);
      
      for ( unsigned i = 0; i < num; i++ )
      {
            if ( Wire * wire = connector->wire(i) )
            {
                  m_v[i] = wire->voltage();
                  m_i[i] = std::abs(wire->current());
            }
      }
      
      display(pos);
}


bool CanvasTip::updateVI()
{
      CircuitDocument *circuitDocument = dynamic_cast<CircuitDocument*>(p_itemDocument);
      if ( !circuitDocument || !Simulator::self()->isSimulating() )
            return false;
      
      circuitDocument->calculateConnectorCurrents();
      return true;
}


void CanvasTip::display( const QPoint &pos )
{
      unsigned num = m_v.size();
      
      for ( unsigned i = 0; i < num; i++ )
      {
            if ( !std::isfinite(m_v[i]) || std::abs(m_v[i]) < 1e-9 )
                  m_v[i] = 0.;
            
            if ( !std::isfinite(m_i[i]) || std::abs(m_i[i]) < 1e-9 )
                  m_i[i] = 0.;
      }
      
      move( pos.x()+20, pos.y()+4 );
      
      if ( num == 0 )
            return;
      
      if ( num == 1 )
            setText( displayText(0) );
      
      else
      {
            QString text;
            for ( unsigned i = 0; i < num; i++ )
                  text += QString(" %1: %2\n").arg( QString::number(i) ).arg( displayText(i) );
            setText(text);
      }
}


QString CanvasTip::displayText( unsigned num ) const
{
      if ( m_v.size() <= num )
            return QString::null;
      
      return QString(" %1%2V  %3%4A ")
                  .arg( QString::number( m_v[num] / CNItem::getMultiplier(m_v[num]), 'g', 3 ) )
                  .arg( CNItem::getNumberMag( m_v[num] ) )
                  .arg( QString::number( m_i[num] / CNItem::getMultiplier(m_i[num]), 'g', 3 ) )
                  .arg( CNItem::getNumberMag( m_i[num] ) );
}


void CanvasTip::draw( QPainter &p )
{
      CircuitDocument *circuitDocument = dynamic_cast<CircuitDocument*>(p_itemDocument);
      if ( !circuitDocument || !Simulator::self()->isSimulating() )
            return;
      
      p.setBrush( QColor( 0xff, 0xff, 0xdc ) );
      p.setPen( Qt::black );
      p.drawRect( boundingRect() );
      QCanvasText::draw(p);
}
//END class CanvasTip




//BEGIN class Canvas
Canvas::Canvas( ItemDocument *itemDocument, const char * name )
      : QCanvas( itemDocument, name )
{
      p_itemDocument = itemDocument;
      m_pMessageTimeout = new QTimer(this);
      connect( m_pMessageTimeout, SIGNAL(timeout()), this, SLOT(slotSetAllChanged()) );
}


01218 void Canvas::setMessage( const QString & message )
{
      m_message = message;
      
      if ( message.isEmpty() )
            m_pMessageTimeout->stop();
      
      else
            m_pMessageTimeout->start( 2000, true );
      
      setAllChanged();
}


void Canvas::drawBackground ( QPainter &p, const QRect & clip )
{
      QCanvas::drawBackground( p, clip );
#if 0
      const int scx = (int)((clip.left()-4)/8);
      const int ecx = (int)((clip.right()+4)/8);
      const int scy = (int)((clip.top()-4)/8);
      const int ecy = (int)((clip.bottom()+4)/8);
      if ( !((ICNDocument*)(p_itemDocument))->isValidCellReference( scx, scy ) ||
                     !((ICNDocument*)(p_itemDocument))->isValidCellReference( ecx, ecy ) ) return;
      Cells *c = ((ICNDocument*)(p_itemDocument))->cells();
      for ( int x=scx; x<=ecx; x++ )
      {
            for ( int y=scy; y<=ecy; y++ )
            {
                  const double score = (*c)[x][y].CIpenalty+(*c)[x][y].Cpenalty;
                  int value = (int)std::log(score)*20;
                  if ( value>255 ) value=255;
                  else if (value<0 ) value=0;
                  p.setBrush( QColor( 255, (255-value), (255-value) ) );
                  p.setPen( Qt::NoPen );
                  p.drawRect( (x*8), (y*8), 8, 8 );
            }
      }
#endif
}


void Canvas::drawForeground ( QPainter &p, const QRect & clip )
{
      QCanvas::drawForeground( p, clip );
      
      if ( !m_pMessageTimeout->isActive() )
            return;
      
      
      
      // Following code stolen and adapted from amarok/src/playlist.cpp :)
      
      // Find out width of smallest view
      QSize minSize;
      const ViewList viewList = p_itemDocument->viewList();
      ViewList::const_iterator end = viewList.end();
      View * firstView = 0l;
      for ( ViewList::const_iterator it = viewList.begin(); it != end; ++it )
      {
            if ( !*it )
                  continue;
            
            if ( !firstView )
            {
                  firstView = *it;
                  minSize = (*it)->size();
            }
            else
                  minSize = minSize.boundedTo( (*it)->size() );
      }
      
      if ( !firstView )
            return;
      
      QSimpleRichText * t = new QSimpleRichText( m_message, QApplication::font() );
      
      int w = t->width();
      int h = t->height();
      int x = 15;
      int y = 15;
      int b = 10; // text padding
      
      if ( w+2*b >= minSize.width() || h+2*b >= minSize.height() )
      {
            delete t;
            return;
      }
      
      p.setBrush( firstView->colorGroup().background() );
      p.drawRoundRect( x, y, w+2*b, h+2*b, (8*200)/(w+2*b), (8*200)/(h+2*b) );
      t->draw( &p, x+b, y+b, QRect(), firstView->colorGroup() );
      delete t;
}


void Canvas::update()
{
      p_itemDocument->update();
      QCanvas::update();
}
//END class Canvas

#include "itemdocument.moc"



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