示例#1
0
void TreeDiagram::computeExtremes(uint *maxLabelLen,uint *maxXPos)
{
  uint ml=0,mx=0;
  QListIterator<DiagramRow> it(*this);
  DiagramRow *dr;
  bool done=FALSE;
  for (;(dr=it.current()) && !done;++it)
  {
    QListIterator<DiagramItem> rit(*dr);
    DiagramItem *di;
    for (;(di=rit.current());++rit)
    {
      if (di->isInList()) done=TRUE;
      if (maxXPos) mx=QMAX(mx,(uint)di->xPos());
      if (maxLabelLen) ml=QMAX(ml,Image::stringLength(di->label()));
    }
  }
  if (maxLabelLen) *maxLabelLen=ml;
  if (maxXPos)     *maxXPos=mx;
}
示例#2
0
bool TreeDiagram::layoutTree(DiagramItem *root,int r)
{
  bool moved=FALSE;
  //printf("layoutTree(%s,%d)\n",root->label().data(),r);

  DiagramItemList *dil=root->getChildren(); 
  if (dil->count()>0)
  {
    uint k;
    int pPos=root->xPos();
    int cPos=root->avgChildPos();
    if (pPos>cPos) // move children
    {
      DiagramRow *row=at(r+1);
      //printf("Moving children %d-%d in row %d\n",
      //    dil->getFirst()->number(),row->count()-1,r+1);
      for (k=dil->getFirst()->number();k<row->count();k++)
        row->at(k)->move(pPos-cPos,0);
      moved=TRUE;
    }
    else if (pPos<cPos) // move parent
    {
      DiagramRow *row=at(r);
      //printf("Moving parents %d-%d in row %d\n",
      //    root->number(),row->count()-1,r);
      for (k=root->number();k<row->count();k++)
        row->at(k)->move(cPos-pPos,0);
      moved=TRUE;
    }

    // recurse to children
    QListIterator<DiagramItem> it(*dil);
    DiagramItem *di;
    for (;(di=it.current()) && !moved && !di->isInList();++it)
    {
      moved = layoutTree(di,r+1);
    }
  }
  return moved;
}
示例#3
0
void TreeDiagram::drawConnectors(FTextStream &t,Image *image,
                                 bool doBase,bool bitmap,
                                 uint baseRows,uint superRows,
                                 uint cellWidth,uint cellHeight)
{
  DiagramRow *dr=first();
  bool done=FALSE;
  while (dr && !done) // for each row
  {
    DiagramItem *di=dr->first();
    if (di->isInList()) // row consists of list connectors
    {
      int x=0,y=0,ys=0;
      float xf=0.0,yf=0.0,ysf=0.0;
      while (di)
      {
        DiagramItem *pi=di->parentItem();
        DiagramItemList *dil=pi->getChildren();
        DiagramItem *last=dil->getLast();
        if (di==last) // single child
        {
          if (bitmap) // draw pixels
          {
            x = di->xPos()*(cellWidth+labelHorSpacing)/gridWidth + cellWidth/2;
            if (doBase) // base classes
            {
              y = image->getHeight()-
                (superRows-1)*(cellHeight+labelVertSpacing)-
                di->yPos()*(cellHeight+labelVertSpacing)/gridHeight;
              image->drawVertArrow(x,y,y+labelVertSpacing/2,
                                   protToColor(di->protection()),
                                   protToMask(di->protection()));
            }
            else // super classes
            {
              y = (baseRows-1)*(cellHeight+labelVertSpacing)-
                labelVertSpacing/2+
                di->yPos()*(cellHeight+labelVertSpacing)/gridHeight;
              image->drawVertLine(x,y,y+labelVertSpacing/2,
                                  protToColor(di->protection()),
                                  protToMask(di->protection()));
            }
          }
          else // draw vectors
          {
            t << protToString(di->protection()) << endl;
            if (doBase)
            {
              t << "1 " << (di->xPos()/(float)gridWidth) << " " 
                << (di->yPos()/(float)gridHeight+superRows-1) << " in\n";
            }
            else
            {
              t << "0 " << (di->xPos()/(float)gridWidth) << " " 
                << ((float)superRows-0.25-di->yPos()/(float)gridHeight)
                << " in\n";
            }
          }
        }
        else // multiple children, put them in a vertical list
        {
          if (bitmap)
          {
            x = di->parentItem()->xPos()*
              (cellWidth+labelHorSpacing)/gridWidth+cellWidth/2;
            if (doBase) // base classes
            {
              ys = image->getHeight()-
                (superRows-1)*(cellHeight+labelVertSpacing)-
                di->yPos()*(cellHeight+labelVertSpacing)/gridHeight;
              y = ys - cellHeight/2;
            }
            else // super classes
            {
              ys = (baseRows-1)*(cellHeight+labelVertSpacing)+
                di->yPos()*(cellHeight+labelVertSpacing)/gridHeight;
              y = ys + cellHeight/2;
            }
          }
          else
          {
            xf = di->parentItem()->xPos()/(float)gridWidth;
            if (doBase)
            {
              ysf = di->yPos()/(float)gridHeight+superRows-1;
              yf = ysf + 0.5;
            }
            else
            {
              ysf = (float)superRows-0.25-di->yPos()/(float)gridHeight;
              yf = ysf - 0.25;
            }
          }
          while (di!=last) // more children to add
          {
            if (bitmap)
            {
              if (doBase) // base classes
              {
                image->drawHorzArrow(y,x,x+cellWidth/2+labelHorSpacing,
                    protToColor(di->protection()),
                    protToMask(di->protection()));
                y -= cellHeight+labelVertSpacing;
              }
              else // super classes
              {
                image->drawHorzLine(y,x,x+cellWidth/2+labelHorSpacing,
                    protToColor(di->protection()),
                    protToMask(di->protection()));
                y += cellHeight+labelVertSpacing;
              }
            }
            else
            {
              t << protToString(di->protection()) << endl;
              if (doBase)
              {
                t << "1 " << xf << " " << yf << " hedge\n";
                yf += 1.0;
              }
              else
              {
                t << "0 " << xf << " " << yf << " hedge\n";
                yf -= 1.0;
              }
            }
            di=dr->next();
          }
          // add last horizonal line and a vertical connection line
          if (bitmap)
          {
            if (doBase) // base classes
            {
              image->drawHorzArrow(y,x,x+cellWidth/2+labelHorSpacing,
                  protToColor(di->protection()),
                  protToMask(di->protection()));
              image->drawVertLine(x,y,ys+labelVertSpacing/2,
                  protToColor(getMinProtectionLevel(dil)),
                  protToMask(getMinProtectionLevel(dil)));
            }
            else // super classes
            {
              image->drawHorzLine(y,x,x+cellWidth/2+labelHorSpacing,
                  protToColor(di->protection()),
                  protToMask(di->protection()));
              image->drawVertLine(x,ys-labelVertSpacing/2,y,
                  protToColor(getMinProtectionLevel(dil)),
                  protToMask(getMinProtectionLevel(dil)));
            }
          }
          else
          {
            t << protToString(di->protection()) << endl;
            if (doBase)
            {
              t << "1 " << xf << " " << yf << " hedge\n";
            }
            else
            {
              t << "0 " << xf << " " << yf << " hedge\n";
            }
            t << protToString(getMinProtectionLevel(dil)) << endl;
            if (doBase)
            {
              t << xf << " " << ysf << " " << yf << " vedge\n";
            }
            else
            {
              t << xf << " " << (ysf + 0.25) << " " << yf << " vedge\n";
            }
          }
        }
        di=dr->next();
      }
      done=TRUE; // the tree is drawn now
    }
    else // normal tree connector
    {
      while (di)
      {
        int x=0,y=0;
        DiagramItemList *dil = di->getChildren();
        DiagramItem *parent  = di->parentItem();
        if (parent) // item has a parent -> connect to it
        {
          if (bitmap) // draw pixels
          {
            x = di->xPos()*(cellWidth+labelHorSpacing)/gridWidth + cellWidth/2;
            if (doBase) // base classes
            {
              y = image->getHeight()-
                (superRows-1)*(cellHeight+labelVertSpacing)-
                di->yPos()*(cellHeight+labelVertSpacing)/gridHeight;
              /* write input line */
              image->drawVertArrow(x,y,y+labelVertSpacing/2,
                  protToColor(di->protection()),
                  protToMask(di->protection()));
            }
            else // super classes
            {
              y = (baseRows-1)*(cellHeight+labelVertSpacing)-
                labelVertSpacing/2+
                di->yPos()*(cellHeight+labelVertSpacing)/gridHeight;
              /* write output line */
              image->drawVertLine(x,y,y+labelVertSpacing/2,
                  protToColor(di->protection()),
                  protToMask(di->protection()));
            }
          }
          else // draw pixels
          {
            t << protToString(di->protection()) << endl;
            if (doBase)
            {
              t << "1 " << di->xPos()/(float)gridWidth << " " 
                << (di->yPos()/(float)gridHeight+superRows-1) << " in\n";
            }
            else
            {
              t << "0 " << di->xPos()/(float)gridWidth << " " 
                << ((float)superRows-0.25-di->yPos()/(float)gridHeight)
                << " in\n";
            }
          }
        }
        if (dil->count()>0)
        {
          Protection p=getMinProtectionLevel(dil);
          uint mask=protToMask(p);
          uint col=protToColor(p);
          if (bitmap)
          {
            x = di->xPos()*(cellWidth+labelHorSpacing)/gridWidth + cellWidth/2;
            if (doBase) // base classes
            {
              y = image->getHeight()-
                (superRows-1)*(cellHeight+labelVertSpacing)-
                cellHeight-labelVertSpacing/2-
                di->yPos()*(cellHeight+labelVertSpacing)/gridHeight;
              image->drawVertLine(x,y,y+labelVertSpacing/2-1,col,mask);
            }
            else // super classes
            {
              y = (baseRows-1)*(cellHeight+labelVertSpacing)+
                cellHeight+
                di->yPos()*(cellHeight+labelVertSpacing)/gridHeight;
              image->drawVertArrow(x,y,y+labelVertSpacing/2-1,col,mask);
            }
          }
          else
          {
            t << protToString(p) << endl;
            if (doBase)
            {
              t << "0 " << di->xPos()/(float)gridWidth  << " " 
                << (di->yPos()/(float)gridHeight+superRows-1) << " out\n";
            }
            else
            {
              t << "1 " << di->xPos()/(float)gridWidth  << " " 
                << ((float)superRows-1.75-di->yPos()/(float)gridHeight)
                << " out\n";
            }
          }
          /* write input line */
          DiagramItem *first = dil->first();
          DiagramItem *last  = dil->last();
          if (first!=last && !first->isInList()) /* connect with all base classes */
          {
            if (bitmap)
            {
              int xs = first->xPos()*(cellWidth+labelHorSpacing)/gridWidth
                + cellWidth/2;
              int xe = last->xPos()*(cellWidth+labelHorSpacing)/gridWidth
                + cellWidth/2; 
              if (doBase) // base classes
              {
                image->drawHorzLine(y,xs,xe,col,mask); 
              }
              else // super classes
              {
                image->drawHorzLine(y+labelVertSpacing/2,xs,xe,col,mask); 
              }
            }
            else
            {
              t << protToString(p) << endl;
              if (doBase)
              {
                t << first->xPos()/(float)gridWidth << " " 
                  << last->xPos()/(float)gridWidth << " "
                  << (first->yPos()/(float)gridHeight+superRows-1) 
                  << " conn\n";
              }
              else
              {
                t << first->xPos()/(float)gridWidth << " " 
                  << last->xPos()/(float)gridWidth << " "
                  << ((float)superRows-first->yPos()/(float)gridHeight)
                  << " conn\n";
              }
            }
          }
        }
        di=dr->next();
      }
      dr=next();
    }
  }
}
示例#4
0
void TreeDiagram::drawBoxes(FTextStream &t,Image *image, 
                            bool doBase,bool bitmap,
                            uint baseRows,uint superRows,
                            uint cellWidth,uint cellHeight,
                            QCString relPath,
                            bool generateMap)
{
  QListIterator<DiagramRow> it(*this);
  DiagramRow *dr;
  if (!doBase) ++it;
  bool done=FALSE;
  bool firstRow = doBase;
  for (;(dr=it.current()) && !done;++it)
  {
    int x=0,y=0;
    float xf=0.0f,yf=0.0f;
    QListIterator<DiagramItem> rit(*dr);
    DiagramItem *di = rit.current();
    if (di->isInList()) // put boxes in a list
    {
      DiagramItem *opi=0;
      if (doBase) rit.toLast(); else rit.toFirst();
      while ((di=rit.current()))
      {
        if (di->parentItem()==opi)
        {
          if (bitmap)
          {
            if (doBase) y -= cellHeight+labelVertSpacing;
            else        y += cellHeight+labelVertSpacing;
          }
          else
          {
            if (doBase) yf += 1.0f;
            else        yf -= 1.0f;
          }
        }
        else
        {
          if (bitmap)
          {
            x = di->xPos()*(cellWidth+labelHorSpacing)/gridWidth;
            if (doBase)
            {
              y = image->getHeight()-
                superRows*cellHeight-
                (superRows-1)*labelVertSpacing-
                di->yPos()*(cellHeight+labelVertSpacing)/gridHeight;
            }
            else
            {
              y = (baseRows-1)*(cellHeight+labelVertSpacing)+
                di->yPos()*(cellHeight+labelVertSpacing)/gridHeight;
            }
          }
          else
          {
            xf = di->xPos()/(float)gridWidth;
            if (doBase)
            {
              yf = di->yPos()/(float)gridHeight+superRows-1;
            }
            else
            {
              yf = superRows-1-di->yPos()/(float)gridHeight;
            }
          }
        }
        opi=di->parentItem();
        
        if (bitmap)
        {
          bool hasDocs=di->getClassDef()->isLinkable();
          writeBitmapBox(di,image,x,y,cellWidth,cellHeight,firstRow,
              hasDocs,di->getChildren()->count()>0); 
          if (!firstRow && generateMap) 
            writeMapArea(t,di->getClassDef(),relPath,x,y,cellWidth,cellHeight);
        }
        else
        {
          writeVectorBox(t,di,xf,yf,di->getChildren()->count()>0);
        }
        
        if (doBase) --rit; else ++rit;
      }
      done=TRUE;
    }
    else // draw a tree of boxes
    {
      for (rit.toFirst();(di=rit.current());++rit)
      {
        if (bitmap)
        {
          x = di->xPos()*(cellWidth+labelHorSpacing)/gridWidth;
          if (doBase)
          {
            y = image->getHeight()-
              superRows*cellHeight-
              (superRows-1)*labelVertSpacing-
              di->yPos()*(cellHeight+labelVertSpacing)/gridHeight;
          }
          else
          {
            y = (baseRows-1)*(cellHeight+labelVertSpacing)+
              di->yPos()*(cellHeight+labelVertSpacing)/gridHeight;
          }
          bool hasDocs=di->getClassDef()->isLinkable();
          writeBitmapBox(di,image,x,y,cellWidth,cellHeight,firstRow,hasDocs); 
          if (!firstRow && generateMap) 
            writeMapArea(t,di->getClassDef(),relPath,x,y,cellWidth,cellHeight);
        }
        else
        {
          xf=di->xPos()/(float)gridWidth;
          if (doBase)
          {
            yf = di->yPos()/(float)gridHeight+superRows-1;
          }
          else
          {
            yf = superRows-1-di->yPos()/(float)gridHeight;
          }
          writeVectorBox(t,di,xf,yf);
        }
      }
    }
    firstRow=FALSE;
  }
}
示例#5
0
void ClassDiagram::writeFigure(FTextStream &output,const char *path,
                               const char *fileName) const
{
  uint baseRows=base->computeRows();
  uint superRows=super->computeRows();
  uint baseMaxX, baseMaxLabelWidth, superMaxX, superMaxLabelWidth;
  base->computeExtremes(&baseMaxLabelWidth,&baseMaxX);
  super->computeExtremes(&superMaxLabelWidth,&superMaxX);

  uint rows=baseRows+superRows-1;
  uint cols=(QMAX(baseMaxX,superMaxX)+gridWidth*2-1)/gridWidth;
  
  // Estimate the image aspect width and height in pixels.
  uint estHeight = rows*40;
  uint estWidth  = cols*(20+QMAX(baseMaxLabelWidth,superMaxLabelWidth));
  //printf("Estimated size %d x %d\n",estWidth,estHeight);
  
  const float pageWidth = 14.0f; // estimated page width in cm.
                                 // Somewhat lower to deal with estimation
                                 // errors. 
  
  // compute the image height in centimeters based on the estimates
  float realHeight = QMIN(rows,12); // real height in cm
  float realWidth  = realHeight * estWidth/(float)estHeight;
  if (realWidth>pageWidth) // assume that the page width is about 15 cm
  {
    realHeight*=pageWidth/realWidth; 
    realWidth=pageWidth;
  }

  //output << "}\n";
  output << "\\begin{figure}[H]\n"
            "\\begin{center}\n"
            "\\leavevmode\n";
  output << "\\includegraphics[height=" << realHeight << "cm]{" 
                                        << fileName << "}" << endl;
  output << "\\end{center}\n"
            "\\end{figure}\n";
  
  //printf("writeFigure rows=%d cols=%d\n",rows,cols);

  QCString epsBaseName=(QCString)path+"/"+fileName;
  QCString epsName=epsBaseName+".eps";
  QFile f1;
  f1.setName(epsName.data());
  if (!f1.open(IO_WriteOnly))
  {
    err("Could not open file %s for writing\n",f1.name().data());
    exit(1);
  }
  FTextStream t(&f1);
  
  //printf("writeEPS() rows=%d cols=%d\n",rows,cols);
  
  // generate EPS header and postscript variables and procedures
  
  t << "%!PS-Adobe-2.0 EPSF-2.0\n";
  t << "%%Title: ClassName\n";
  t << "%%Creator: Doxygen\n";
  t << "%%CreationDate: Time\n";
  t << "%%For: \n";
  t << "%Magnification: 1.00\n";
  t << "%%Orientation: Portrait\n";
  t << "%%BoundingBox: 0 0 500 " << estHeight*500.0/(float)estWidth << "\n";
  t << "%%Pages: 0\n";
  t << "%%BeginSetup\n";
  t << "%%EndSetup\n";
  t << "%%EndComments\n";
  t << "\n";
  t << "% ----- variables -----\n";
  t << "\n";
  t << "/boxwidth 0 def\n";
  t << "/boxheight 40 def\n";
  t << "/fontheight 24 def\n";
  t << "/marginwidth 10 def\n";
  t << "/distx 20 def\n";
  t << "/disty 40 def\n";
  t << "/boundaspect " << estWidth/(float)estHeight << " def  % aspect ratio of the BoundingBox (width/height)\n";
  t << "/boundx 500 def\n";
  t << "/boundy boundx boundaspect div def\n";
  t << "/xspacing 0 def\n";
  t << "/yspacing 0 def\n";
  t << "/rows " << rows << " def\n";
  t << "/cols " << cols << " def\n";
  t << "/scalefactor 0 def\n";
  t << "/boxfont /Times-Roman findfont fontheight scalefont def\n";
  t << "\n";
  t << "% ----- procedures -----\n";
  t << "\n";
  t << "/dotted { [1 4] 0 setdash } def\n";
  t << "/dashed { [5] 0 setdash } def\n";
  t << "/solid  { [] 0 setdash } def\n";
  t << "\n";
  t << "/max % result = MAX(arg1,arg2)\n";
  t << "{\n";
  t << "  /a exch def\n";
  t << "  /b exch def\n";
  t << "  a b gt {a} {b} ifelse\n";
  t << "} def\n";
  t << "\n";
  t << "/xoffset % result = MAX(0,(scalefactor-(boxwidth*cols+distx*(cols-1)))/2)\n";
  t << "{\n";
  t << "  0 scalefactor boxwidth cols mul distx cols 1 sub mul add sub 2 div max\n";
  t << "} def\n";
  t << "\n";
  t << "/cw % boxwidth = MAX(boxwidth, stringwidth(arg1))\n";
  t << "{\n";
  t << "  /str exch def\n";
  t << "  /boxwidth boxwidth str stringwidth pop max def\n";
  t << "} def\n";
  t << "\n";
  t << "/box % draws a box with text `arg1' at grid pos (arg2,arg3)\n";
  t << "{ gsave\n";
  t << "  2 setlinewidth\n";
  t << "  newpath\n";
  t << "  exch xspacing mul xoffset add\n";
  t << "  exch yspacing mul\n";
  t << "  moveto\n";
  t << "  boxwidth 0 rlineto \n";
  t << "  0 boxheight rlineto \n";
  t << "  boxwidth neg 0 rlineto \n";
  t << "  0 boxheight neg rlineto \n";
  t << "  closepath\n";
  t << "  dup stringwidth pop neg boxwidth add 2 div\n";
  t << "  boxheight fontheight 2 div sub 2 div\n";
  t << "  rmoveto show stroke\n";
  t << "  grestore\n";
  t << "} def  \n";
  t << "\n";
  t << "/mark\n";
  t << "{ newpath\n";
  t << "  exch xspacing mul xoffset add boxwidth add\n";
  t << "  exch yspacing mul\n";
  t << "  moveto\n";
  t << "  0 boxheight 4 div rlineto\n";
  t << "  boxheight neg 4 div boxheight neg 4 div rlineto\n";
  t << "  closepath\n";
  t << "  eofill\n";
  t << "  stroke\n";
  t << "} def\n";
  t << "\n";
  t << "/arrow\n";
  t << "{ newpath\n";
  t << "  moveto\n";
  t << "  3 -8 rlineto\n";
  t << "  -6 0 rlineto\n";
  t << "  3 8 rlineto\n";
  t << "  closepath\n";
  t << "  eofill\n";
  t << "  stroke\n";
  t << "} def\n";
  t << "\n";
  t << "/out % draws an output connector for the block at (arg1,arg2)\n";
  t << "{\n";
  t << "  newpath\n";
  t << "  exch xspacing mul xoffset add boxwidth 2 div add\n";
  t << "  exch yspacing mul boxheight add\n";
  t << "  /y exch def\n";
  t << "  /x exch def\n";
  t << "  x y moveto\n";
  t << "  0 disty 2 div rlineto \n";
  t << "  stroke\n";
  t << "  1 eq { x y disty 2 div add arrow } if\n";
  t << "} def\n";
  t << "\n";
  t << "/in % draws an input connector for the block at (arg1,arg2)\n";
  t << "{\n";
  t << "  newpath\n";
  t << "  exch xspacing mul xoffset add boxwidth 2 div add\n";
  t << "  exch yspacing mul disty 2 div sub\n";
  t << "  /y exch def\n";
  t << "  /x exch def\n";
  t << "  x y moveto\n";
  t << "  0 disty 2 div rlineto\n";
  t << "  stroke\n";
  t << "  1 eq { x y disty 2 div add arrow } if\n";
  t << "} def\n";
  t << "\n";
  t << "/hedge\n";
  t << "{\n";
  t << "  exch xspacing mul xoffset add boxwidth 2 div add\n";
  t << "  exch yspacing mul boxheight 2 div sub\n";
  t << "  /y exch def\n";
  t << "  /x exch def\n";
  t << "  newpath\n";
  t << "  x y moveto\n";
  t << "  boxwidth 2 div distx add 0 rlineto\n";
  t << "  stroke\n";
  t << "  1 eq\n";
  t << "  { newpath x boxwidth 2 div distx add add y moveto\n";
  t << "    -8 3 rlineto\n";
  t << "    0 -6 rlineto\n";
  t << "    8 3 rlineto\n";
  t << "    closepath\n";
  t << "    eofill\n";
  t << "    stroke\n";
  t << "  } if\n";
  t << "} def\n";
  t << "\n";
  t << "/vedge\n";
  t << "{\n";
  t << "  /ye exch def\n";
  t << "  /ys exch def\n";
  t << "  /xs exch def\n";
  t << "  newpath\n";
  t << "  xs xspacing mul xoffset add boxwidth 2 div add dup\n";
  t << "  ys yspacing mul boxheight 2 div sub\n";
  t << "  moveto\n";
  t << "  ye yspacing mul boxheight 2 div sub\n";
  t << "  lineto\n";
  t << "  stroke\n";
  t << "} def\n";
  t << "\n";
  t << "/conn % connections the blocks from col `arg1' to `arg2' of row `arg3'\n";
  t << "{\n";
  t << "  /ys exch def\n";
  t << "  /xe exch def\n";
  t << "  /xs exch def\n";
  t << "  newpath\n";
  t << "  xs xspacing mul xoffset add boxwidth 2 div add\n";
  t << "  ys yspacing mul disty 2 div sub\n";
  t << "  moveto\n";
  t << "  xspacing xe xs sub mul 0\n";
  t << "  rlineto\n";
  t << "  stroke\n";
  t << "} def\n";
  t << "\n";
  t << "% ----- main ------\n";
  t << "\n";
  t << "boxfont setfont\n";
  t << "1 boundaspect scale\n";


  bool done=FALSE;
  QListIterator<DiagramRow> bit(*base);
  DiagramRow *dr;
  for (;(dr=bit.current()) && !done;++bit)
  {
    QListIterator<DiagramItem> rit(*dr);
    DiagramItem *di;
    for (;(di=rit.current());++rit)
    {
      done=di->isInList();
      t << "(" << di->label() << ") cw\n";
    }
  }
  QListIterator<DiagramRow> sit(*super);
  ++sit;
  done=FALSE;
  for (;(dr=sit.current()) && !done;++sit)
  {
    QListIterator<DiagramItem> rit(*dr);
    DiagramItem *di;
    for (;(di=rit.current());++rit)
    {
      done=di->isInList();
      t << "(" << di->label() << ") cw\n";
    }
  }

  t << "/boxwidth boxwidth marginwidth 2 mul add def\n"
    << "/xspacing boxwidth distx add def\n"
    << "/yspacing boxheight disty add def\n"
    << "/scalefactor \n"
    << "  boxwidth cols mul distx cols 1 sub mul add\n"
    << "  boxheight rows mul disty rows 1 sub mul add boundaspect mul \n"
    << "  max def\n"
    << "boundx scalefactor div boundy scalefactor div scale\n";
  
  t << "\n% ----- classes -----\n\n";
  base->drawBoxes(t,0,TRUE,FALSE,baseRows,superRows,0,0);
  super->drawBoxes(t,0,FALSE,FALSE,baseRows,superRows,0,0);
  
  t << "\n% ----- relations -----\n\n";
  base->drawConnectors(t,0,TRUE,FALSE,baseRows,superRows,0,0);
  super->drawConnectors(t,0,FALSE,FALSE,baseRows,superRows,0,0);

  f1.close();
  if (Config_getBool(USE_PDFLATEX))
  {
    QCString epstopdfArgs(4096);
    epstopdfArgs.sprintf("\"%s.eps\" --outfile=\"%s.pdf\"",
                   epsBaseName.data(),epsBaseName.data());
    //printf("Converting eps using `%s'\n",epstopdfArgs.data());
    portable_sysTimerStart();
    if (portable_system("epstopdf",epstopdfArgs)!=0)
    {
       err("Problems running epstopdf. Check your TeX installation!\n");
       portable_sysTimerStop();
       return;
    }
    portable_sysTimerStop();
  }
}