Example #1
0
EXPORT_C void CHuiCanvasGc::Clip(const TRect& aClipRect)
    {
    if (!iGc)
       {
       return;    
       }
    
    switch (iClipMode)
        {
        case EHuiCanvasClipModeNormal:
        case EHuiCanvasClipModeDelayed:
            {
            if (iClippingRegion.Count())
                {
                CancelClipping();    
                }

            if (!aClipRect.IsEmpty())
                {
                iTempRegion.Clear();
                iTempRegion.AddRect(aClipRect);
                ClipRegion(iTempRegion);
                }
            break;    
            }
        case EHuiCanvasClipModeNone:
        default:
            {
            // Do nothing            
            break;    
            }
        }    
    }
Example #2
0
void TestRRegion::TestAddRect()
	{
	RRegion rgn;
	TInt index,i;

	if (!rect[0].IsEmpty())
		{
		for(index=0;index<4;index++)
			{
			for(i=0;i<=index;i++)
				rgn.AddRect(rect[index]);
			test(rgn.Count()==(index+1));
			}
		test(rgn.BoundingRect()==bounds);
		if (!xrect.IsEmpty())
			{
			rgn.AddRect(xrect);
			TInt count = rgn.Count();
			test( (count > 4) && (count <= 9) );
			}
		}
	rgn.AddRect(bounds);
	test(rgn.Count()==1);
	rgn.Close();
	}
Example #3
0
CHuiCanvasGc::TClipRectVisibility CHuiCanvasGc::IsClipped(const TRect& aRect, const TRegion& aClippingRegion) const
    {
    TClipRectVisibility isClipped = EFullyOutside;
    if (!aClippingRegion.Count())
        {
        return EFullyInside;
        }
    
    if (!aRect.IsEmpty() && aClippingRegion.Count())
        {    
#if 0            
        TBool test = EFalse;        
        if (test)
            {
            for (TInt i=0; i<aClippingRegion.Count(); i++)
                {
#ifdef _DEBUG
                RDebug::Print(_L("aClippingRegion Rect: %d %d %d %d"), 
                        aClippingRegion[i].iTl.iX, 
                        aClippingRegion[i].iTl.iY,
                        aClippingRegion[i].iBr.iX,
                        aClippingRegion[i].iBr.iY);
#endif
                }                            
            }
#endif        
        
        if (aClippingRegion.Intersects(aRect))
            {            
            iTempRegion.Clear();
            iTempRegion2.Clear();

            iTempRegion.AddRect(aRect);
            
            iTempRegion2.Intersection(aClippingRegion, iTempRegion);
            iTempRegion2.Tidy();
            
            // Assume it is only partially inside region -> Clipped
            isClipped = EPartialOverlap;
            
            if (iTempRegion2.Count() == 1)
                {
                if (iTempRegion2[0] == aRect)
                    {
                    // Fully inside region -> Not clipped
                    isClipped = EFullyInside;    
                    }                
                }
            
            }
        else
            {
            // No overlap -> aRect is completely outside region -> Clipped
            isClipped = EFullyOutside;    
            }                    
        }
    return isClipped;
    }
Example #4
0
void TestRRegion::CheckRectRegion(const TRegion& region,const TRect& rect)
// Check the region matches the rectangle
	{
	const TRect* rlist;

	if (rect.IsEmpty())
		test(region.Count()==0);
	else
		{
		test(region.Count()==1);
		rlist=region.RectangleList();
		test(rlist[0]==rect);
		test(region[0]==rect);
		}
	}
Example #5
0
void TScrollBar::DrawThumb(TDrawContext& context)
{
	TRect	thumbArea;
	GetThumbArea(thumbArea);

	TRect thumb;
	GetThumb(thumb);

	if (context.GetDepth() < 8)
	{
		context.SetStipple(TGraphicsUtils::GetGrayStipple());
		context.SetForeColor(kBlackColor);
		context.SetBackColor(kWhiteColor);
	}
	else
		context.SetForeColor(kMediumGrayColor);

	if (thumb.IsEmpty())
	{
		context.PaintRect(thumbArea);
	}
	else
	{
		if (IsVertical())
		{
			TRect r(thumbArea.left, thumbArea.top, thumbArea.right, thumb.top);
			context.PaintRect(r);
			r.Set(thumb.left, thumb.bottom, thumbArea.right, thumbArea.bottom);
			context.PaintRect(r);
		}
		else
		{
			TRect r(thumbArea.left, thumbArea.top, thumb.left, thumbArea.bottom);
			context.PaintRect(r);
			r.Set(thumb.right, thumbArea.top, thumbArea.right, thumbArea.bottom);
			context.PaintRect(r);
		}	

		TGraphicsUtils::Draw3DBorderAndInset(context, thumb);
		context.SetForeColor(kLightGrayColor);
		context.PaintRect(thumb);
	}
}
Example #6
0
/**
 * Prepares the sprite in the set of type aSpriteType to be displayed at
 * aSpritePos with size aSpriteSize.  The sprite will be resized as necessary under the
 * restriction of aSpriteResizeMode.
 */
EXPORT_C void CSpriteSet::PrepareSpriteForDisplayL(TInt aSpriteType, const TPoint& aSpritePos, const TSize& aSpriteSize, TSpriteResizeMode aSpriteResizeMode)
	{
	__ASSERT_DEBUG((aSpriteType >= 0) && (aSpriteType < iSourceMembers.Count()),Panic(EEgulPanicInvalidSpriteIndex));
	__ASSERT_DEBUG((aSpriteSize.iWidth >= 0) && (aSpriteSize.iHeight >= 0),Panic(EEgulPanicNegativeSpriteSize));
	iSpritePosition = aSpritePos;
	iMainFbsBitGc->SetOrigin(TPoint(0,0));
	TSize spriteSize(aSpriteSize);
	const TSize sourceSize(iSourceMembers[aSpriteType]->Bitmap()->SizeInPixels());
	AdjustSpriteSizeAccordingToResizeMode(spriteSize, sourceSize, aSpriteResizeMode);
	User::LeaveIfError(iMainBmpDevice->Resize(spriteSize));
	User::LeaveIfError(iMaskBmpDevice->Resize(spriteSize));
	iMainFbsBitGc->Resized();
	iMaskFbsBitGc->Resized();
	iMaskFbsBitGc->SetBrushColor(KRgbBlack);
	iMaskFbsBitGc->Clear();
	const TRect translatedClipRect(iClippingRect.iTl - aSpritePos, iClippingRect.Size());
	if(!translatedClipRect.IsEmpty())
		iMaskFbsBitGc->SetClippingRect(translatedClipRect);
	TInternalSpriteResizeMode resizeMode = EHSameVSame;
	ComputeInternalResizeMode(resizeMode,aSpriteResizeMode,sourceSize,spriteSize);
	RenderSprite(aSpriteType,resizeMode,sourceSize,spriteSize);
	iMaskFbsBitGc->CancelClippingRect();
	iMainFbsBitGc->SetOrigin(-aSpritePos);
	}
Example #7
0
void TFuncSpecView::Paint(TDC& dc, bool erase, TRect& rect)
{
  TSwitchMinApp* theApp = TYPESAFE_DOWNCAST(GetApplication(), TSwitchMinApp);
  if (theApp) {
    // Only paint if we're printing and we have something to paint, otherwise do nothing.
    //
    if (theApp->Printing && theApp->Printer && !rect.IsEmpty()) {
      // Use pageSize to get the size of the window to render into.  For a Window it's the client area,
      // for a printer it's the printer DC dimensions and for print preview it's the layout window.
      //
      TSize   pageSize(rect.right - rect.left, rect.bottom - rect.top);

      TPrintDialog::TData& printerData = theApp->Printer->GetSetup();

      // Get area we can draw in
      TRect drawingArea(swdoc->PaintHeader(dc, rect, "", 0, 0, false), rect.BottomRight());

      TEXTMETRIC tm;
      dc.SelectObject(TFont("Arial", -12));
      if (!dc.GetTextMetrics(tm)) {
        dc.SelectObject(TFont("Arial", -12));
        dc.GetTextMetrics(tm);
      }
      int fHeight=tm.tmHeight+tm.tmExternalLeading;

      unsigned long inputs=swdoc->GetSystem()->GetInputs();

      XPosVector xpos;
      uint divider;
      char* data;

      Print_CreateWidths(xpos, divider, dc);
      if (xpos.back().x < rect.Size().cx) {  // put space in structure to stretch across page
        uint spacing=(rect.Size().cx - xpos.back().x)/(xpos.size()+1);
        uint space_inc=spacing;
        for(XPosVector::size_type i=0; i<xpos.size(); i++) {
          if (i==inputs) {  // after inputs section, increase divider
            divider += space_inc;
            space_inc += spacing;
          }
          xpos[i].x += space_inc;
          space_inc += spacing;
        }
      }

      data=new char[xpos.size()];

      unsigned long PagesDown=1+pow(2,inputs)/( (drawingArea.Size().cy/fHeight) - 2);  // 2 lines for header and horz divider
      unsigned long PagesAcross=1+xpos.back().x/drawingArea.Size().cx;
      unsigned long Pages=1+PagesDown*PagesAcross;

      // Compute the number of pages to print.
      //
      printerData.MinPage = 1;
      printerData.MaxPage = Pages;


      int fromPage = printerData.FromPage == -1 ? 1 : printerData.FromPage;
      int toPage = printerData.ToPage == -1 ? 1 : printerData.ToPage;
      int currentPage = fromPage;

      TPoint p;

      dc.SelectObject(TPen(TColor::Black));

      while (currentPage <= toPage) {
        swdoc->PaintHeader(dc, rect, "Specification", currentPage, Pages, true);
        if (currentPage==1) Print_Summary(dc, drawingArea);
        else {
          // Calculate origin of line by page number
            // x
            int col=((currentPage-2) ) % PagesAcross;
            p.x=drawingArea.left - col * drawingArea.Size().cx;
            // y
            int row=floor((currentPage-2)/PagesAcross);
            p.y=drawingArea.top/* - row * drawingArea.Size().cy*/;

          // Calculate starting and ending input states
          CELL_TYPE state, stateEnd;
          state=(row*(drawingArea.Size().cy-fHeight))/fHeight;
          stateEnd=state+(drawingArea.Size().cy-fHeight)/fHeight;
          if (stateEnd >= (pow(2,inputs)-1) ) stateEnd=pow(2,inputs)-1;

          //
          // Draw header and lines

          // Vertical
          if ( ((p.x+divider) > drawingArea.left) && ((p.x+divider)<drawingArea.right) ) {
            dc.MoveTo(p.x+divider, p.y);
            dc.LineTo(p.x+divider, p.y+((stateEnd-state)+3)*fHeight);
          }

          // Labels
          for(XPosVector::size_type i=0; i<xpos.size(); i++)
            dc.TextOut(TPoint(xpos[i].x, p.y), xpos[i].s.c_str());
          p.y += fHeight;

          // Horizontal
          dc.MoveTo(drawingArea.left, p.y + fHeight/2);
          dc.LineTo(p.x+xpos.back().x, p.y + fHeight/2);
          p.y += fHeight;

          //
          // Draw each line
          while(state <= stateEnd) {
            Print_GenerateLine(data, state);
            Print_Line(dc, p, xpos, data);
            p.y += fHeight;
            state++;
          }
        }

        currentPage++;
      }

      delete[] data;
    }
    else {
      // INSERT>> Normal painting code goes here.
      wTabs->InvalidateRect(rect, erase);
    }
  }
}
Example #8
0
//
// Paint routine for Window, Printer, and PrintPreview for a TEdit/TListBox client.
//
void poundsMDIChild::Paint (TDC& dc, BOOL, TRect& rect)
{
    poundsApp *theApp = TYPESAFE_DOWNCAST(GetApplication(), poundsApp);
    if (theApp) {
        // Only paint if we're printing and we have something to paint, otherwise do nothing.
        if (theApp->Printing && theApp->Printer && !rect.IsEmpty()) {
            // Use pageSize to get the size of the window to render into.  For a Window it's the client area,
            // for a printer it's the printer DC dimensions and for print preview it's the layout window.
            TSize   pageSize(rect.right - rect.left, rect.bottom - rect.top);

            HFONT   hFont = (HFONT)GetClientWindow()->GetWindowFont();
            TFont   font("Arial", -12);
            if (hFont == 0)
              dc.SelectObject(font);
            else
              dc.SelectObject(TFont(hFont));

            TEXTMETRIC  tm;
            int fHeight = (dc.GetTextMetrics(tm) == TRUE) ? tm.tmHeight + tm.tmExternalLeading : 10;

            // How many lines of this font can we fit on a page.
            int linesPerPage = MulDiv(pageSize.cy, 1, fHeight);
            if (linesPerPage) {
                TPrintDialog::TData &printerData = theApp->Printer->GetSetup();

                int maxPg = 1;

                // Get the client class window (this is the contents we're going to print).
                TEdit *clientEditWindow /* = 0*/;
                TListBox *clientListWindow = 0;
                TWindow *clientUnknownWindow = 0;

                clientEditWindow = TYPESAFE_DOWNCAST(GetClientWindow(), TEdit);
                if (clientEditWindow)
                    maxPg = ((clientEditWindow->GetNumLines() / linesPerPage) + 1.0);
                else {
                    clientListWindow = TYPESAFE_DOWNCAST(GetClientWindow(), TListBox);
                    if (clientListWindow)
                        maxPg = ((clientListWindow->GetCount() / linesPerPage) + 1.0);
                    else
                       clientUnknownWindow = TYPESAFE_DOWNCAST(GetClientWindow(), TWindow);
                }

                // Compute the number of pages to print.
                printerData.MinPage = 1;
                printerData.MaxPage = maxPg;

                // Do the text stuff:
                int     fromPage = printerData.FromPage == -1 ? 1 : printerData.FromPage;
                int     toPage = printerData.ToPage == -1 ? 1 : printerData.ToPage;
                char    buffer[255];
                int     currentPage = fromPage;

                while (currentPage <= toPage) {
                    int startLine = (currentPage - 1) * linesPerPage;
                    int lineIdx = 0;
                    while (lineIdx < linesPerPage) {
                        // If the string is no longer valid then there's nothing more to display.
                        if (clientEditWindow) {
                            if (!clientEditWindow->GetLine(buffer, sizeof(buffer), startLine + lineIdx))
                                break;
                        }
                        else if (clientListWindow) {
                            if (clientListWindow->GetString(buffer, startLine + lineIdx) < 0)
                                break;
                        }
                        else if (clientUnknownWindow) {
                           clientUnknownWindow->Paint(dc, FALSE, rect);
                           break;
                        }
                        dc.TabbedTextOut(TPoint(0, lineIdx * fHeight), buffer, lstrlen(buffer), 0, NULL, 0);
                        lineIdx++;
                    }
                    currentPage++;
                }
            }
        }
    }
}
Example #9
0
// -------------------------------------------------------------------------
void ctkTreeComboBox::resizePopup()
{
  // copied from QComboBox.cpp
  Q_D(ctkTreeComboBox);

  QStyle * const style = this->style();
  QWidget* container = qobject_cast<QWidget*>(this->view()->parent());

  QStyleOptionComboBox opt;
  this->initStyleOption(&opt);
  QRect listRect(style->subControlRect(QStyle::CC_ComboBox, &opt,
                                       QStyle::SC_ComboBoxListBoxPopup, this));
  QRect screen = QApplication::desktop()->availableGeometry(
    QApplication::desktop()->screenNumber(this));
  QPoint below = this->mapToGlobal(listRect.bottomLeft());
  int belowHeight = screen.bottom() - below.y();
  QPoint above = this->mapToGlobal(listRect.topLeft());
  int aboveHeight = above.y() - screen.y();
  bool boundToScreen = !this->window()->testAttribute(Qt::WA_DontShowOnScreen);

  const bool usePopup = style->styleHint(QStyle::SH_ComboBox_Popup, &opt, this);
    {
    int listHeight = 0;
    int count = 0;
    QStack<QModelIndex> toCheck;
    toCheck.push(this->view()->rootIndex());
#ifndef QT_NO_TREEVIEW
    QTreeView *treeView = qobject_cast<QTreeView*>(this->view());
    if (treeView && treeView->header() && !treeView->header()->isHidden())
      listHeight += treeView->header()->height();
#endif
    while (!toCheck.isEmpty())
      {
      QModelIndex parent = toCheck.pop();
      for (int i = 0; i < this->model()->rowCount(parent); ++i)
        {
        QModelIndex idx = this->model()->index(i, this->modelColumn(), parent);
        if (!idx.isValid())
          {
          continue;
          }
        listHeight += this->view()->visualRect(idx).height(); /* + container->spacing() */;
#ifndef QT_NO_TREEVIEW
        if (this->model()->hasChildren(idx) && treeView && treeView->isExpanded(idx))
          {
          toCheck.push(idx);
          }
#endif
        ++count;
        if (!usePopup && count > this->maxVisibleItems())
          {
          toCheck.clear();
          break;
          }
        }
      }
    listRect.setHeight(listHeight);
    }
      {
      // add the spacing for the grid on the top and the bottom;
      int heightMargin = 0;//2*container->spacing();

      // add the frame of the container
      int marginTop, marginBottom;
      container->getContentsMargins(0, &marginTop, 0, &marginBottom);
      heightMargin += marginTop + marginBottom;

      //add the frame of the view
      this->view()->getContentsMargins(0, &marginTop, 0, &marginBottom);
      //marginTop += static_cast<QAbstractScrollAreaPrivate *>(QObjectPrivate::get(this->view()))->top;
      //marginBottom += static_cast<QAbstractScrollAreaPrivate *>(QObjectPrivate::get(this->view()))->bottom;
      heightMargin += marginTop + marginBottom;

      listRect.setHeight(listRect.height() + heightMargin);
      }

      // Add space for margin at top and bottom if the style wants it.
      if (usePopup)
        {
        listRect.setHeight(listRect.height() + style->pixelMetric(QStyle::PM_MenuVMargin, &opt, this) * 2);
        }

      // Make sure the popup is wide enough to display its contents.
      if (usePopup)
        {
        const int diff = d->computeWidthHint() - this->width();
        if (diff > 0)
          {
          listRect.setWidth(listRect.width() + diff);
          }
        }

      //we need to activate the layout to make sure the min/maximum size are set when the widget was not yet show
      container->layout()->activate();
      //takes account of the minimum/maximum size of the container
      listRect.setSize( listRect.size().expandedTo(container->minimumSize())
                        .boundedTo(container->maximumSize()));

      // make sure the widget fits on screen
      if (boundToScreen)
        {
        if (listRect.width() > screen.width() )
          {
          listRect.setWidth(screen.width());
          }
        if (this->mapToGlobal(listRect.bottomRight()).x() > screen.right())
          {
          below.setX(screen.x() + screen.width() - listRect.width());
          above.setX(screen.x() + screen.width() - listRect.width());
          }
        if (this->mapToGlobal(listRect.topLeft()).x() < screen.x() )
          {
          below.setX(screen.x());
          above.setX(screen.x());
          }
        }

      if (usePopup)
        {
        // Position horizontally.
        listRect.moveLeft(above.x());

#ifndef Q_WS_S60
        // Position vertically so the curently selected item lines up
        // with the combo box.
        const QRect currentItemRect = this->view()->visualRect(this->view()->currentIndex());
        const int offset = listRect.top() - currentItemRect.top();
        listRect.moveTop(above.y() + offset - listRect.top());
#endif

      // Clamp the listRect height and vertical position so we don't expand outside the
      // available screen geometry.This may override the vertical position, but it is more
      // important to show as much as possible of the popup.
        const int height = !boundToScreen ? listRect.height() : qMin(listRect.height(), screen.height());
#ifdef Q_WS_S60
        //popup needs to be stretched with screen minimum dimension
        listRect.setHeight(qMin(screen.height(), screen.width()));
#else
        listRect.setHeight(height);
#endif

        if (boundToScreen)
          {
          if (listRect.top() < screen.top())
            {
            listRect.moveTop(screen.top());
            }
          if (listRect.bottom() > screen.bottom())
            {
            listRect.moveBottom(screen.bottom());
            }
          }
#ifdef Q_WS_S60
        if (screen.width() < screen.height())
          {
          // in portait, menu should be positioned above softkeys
          listRect.moveBottom(screen.bottom());
          }
        else
          {
          TRect staConTopRect = TRect();
          AknLayoutUtils::LayoutMetricsRect(AknLayoutUtils::EStaconTop, staConTopRect);
          listRect.setWidth(listRect.height());
          //by default popup is centered on screen in landscape
          listRect.moveCenter(screen.center());
          if (staConTopRect.IsEmpty())
            {
            // landscape without stacon, menu should be at the right
            (opt.direction == Qt::LeftToRight) ? listRect.setRight(screen.right()) :
              listRect.setLeft(screen.left());
            }
          }
#endif
        }
      else if (!boundToScreen || listRect.height() <= belowHeight)
        {
        listRect.moveTopLeft(below);
        }
      else if (listRect.height() <= aboveHeight)
        {
        listRect.moveBottomLeft(above);
        }
      else if (belowHeight >= aboveHeight)
        {
        listRect.setHeight(belowHeight);
        listRect.moveTopLeft(below);
        }
      else
        {
        listRect.setHeight(aboveHeight);
        listRect.moveBottomLeft(above);
        }

#if QT_VERSION < QT_VERSION_CHECK(5,0,0) && !defined QT_NO_IM
      if (QInputContext *qic = this->inputContext())
        {
        qic->reset();
        }
#endif
      QScrollBar *sb = this->view()->horizontalScrollBar();
      Qt::ScrollBarPolicy policy = this->view()->horizontalScrollBarPolicy();
      bool needHorizontalScrollBar =
        (policy == Qt::ScrollBarAsNeeded || policy == Qt::ScrollBarAlwaysOn)
        && sb->minimum() < sb->maximum();
      if (needHorizontalScrollBar)
        {
        listRect.adjust(0, 0, 0, sb->height());
        }
      container->setGeometry(listRect);
}