/****************************************************************************** * * $Id: diagram.cpp,v 1.30 2001/03/19 19:27:40 root Exp $ * * * Copyright (C) 1997-2011 by Dimitri van Heesch. * * Permission to use, copy, modify, and distribute this software and its * documentation under the terms of the GNU General Public License is hereby * granted. No representations are made about the suitability of this software * for any purpose. It is provided "as is" without express or implied warranty. * See the GNU General Public License for more details. * * Documents produced by Doxygen are derivative works derived from the * input used in their production; they are not affected by this license. * */ #include "qtbc.h" #include #include #include #include #include "ftextstream.h" #include #include "diagram.h" #include "image.h" #include "classdef.h" #include "config.h" #include "message.h" #include "util.h" #include "doxygen.h" #include "portable.h" #include "index.h" //----------------------------------------------------------------------------- const uint maxTreeWidth = 8; const int gridWidth = 100; const int gridHeight = 100; const uint labelHorSpacing = 10; // horizontal distance between labels const uint labelVertSpacing = 32; // vertical distance between labels const uint labelHorMargin = 6; // horiz. spacing between label and box const uint fontHeight = 12; // height of a character //static QCString escapeLatex(const char *s) //{ // QCString result; // char c; // while ((c=*s++)) // { // if (c=='_') result+="\\_"; // else result+=c; // } // return result; //} static uint protToMask(Protection p) { switch(p) { case Public: return 0xffffffff; case Package: // package is not possible! case Protected: return 0xcccccccc; case Private: return 0xaaaaaaaa; } return 0; } static uint protToColor(Protection p) { switch(p) { case Public: return 6; case Package: // package is not possible! case Protected: return 5; case Private: return 4; } return 0; } static QCString protToString(Protection p) { switch(p) { case Public: return "solid"; case Package: // package is not possible! case Protected: return "dashed"; case Private: return "dotted"; } return 0; } static uint virtToMask(Specifier p) { switch(p) { case Normal: return 0xffffffff; case Virtual: return 0xf0f0f0f0; default: return 0; } return 0; } // pre: dil is not empty static Protection getMinProtectionLevel(DiagramItemList *dil) { DiagramItem *di=dil->first(); Protection result=di->protection(); di=dil->next(); while (di) { Protection p=di->protection(); if (p!=result) { if (result==Protected && p==Public) result=p; else if (result==Private) result=p; } di=dil->next(); } return result; } static void writeBitmapBox(DiagramItem *di,Image *image, int x,int y,int w,int h,bool firstRow, bool hasDocs,bool children=FALSE) { int colFill = hasDocs ? (firstRow ? 0 : 2) : 7; int colBorder = (firstRow || !hasDocs) ? 1 : 3; int l = Image::stringLength(di->label()); uint mask=virtToMask(di->virtualness()); image->fillRect(x+1,y+1,w-2,h-2,colFill,mask); image->drawRect(x,y,w,h,colBorder,mask); image->writeString(x+(w-l)/2, y+(h-fontHeight)/2, di->label(),1); if (children) { int i; for (i=0;i<5;i++) image->drawHorzLine(y+h+i-6,x+w-2-i,x+w-2,firstRow?1:3,0xffffffff); } } static void writeVectorBox(FTextStream &t,DiagramItem *di, float x,float y,bool children=FALSE) { if (di->virtualness()==Virtual) t << "dashed\n"; t << " (" << di->label() << ") " << x << " " << y << " box\n"; if (children) t << x << " " << y << " mark\n"; if (di->virtualness()==Virtual) t << "solid\n"; } static void writeMapArea(FTextStream &t,ClassDef *cd,QCString relPath, int x,int y,int w,int h) { if (cd->isLinkable()) { QCString ref=cd->getReference(); t << "getOutputFileBase() << Doxygen::htmlFileExtension; if (!cd->anchor().isEmpty()) { t << "#" << cd->anchor(); } t << "\" "; QCString tooltip = cd->briefDescriptionAsTooltip(); if (!tooltip.isEmpty()) { t << "title=\"" << tooltip << "\" "; } t << "alt=\"" << convertToXML(cd->displayName()); t << "\" shape=\"rect\" coords=\"" << x << "," << y << ","; t << (x+w) << "," << (y+h) << "\"/>" << endl; } } //----------------------------------------------------------------------------- DiagramItem::DiagramItem(DiagramItem *p,int number,ClassDef *cd, Protection pr,Specifier vi,const char *ts) { parent=p; x=y=0; //name=n; num=number; children = new DiagramItemList; prot=pr; virt=vi; inList=FALSE; classDef=cd; templSpec=ts; } DiagramItem::~DiagramItem() { delete children; } QCString DiagramItem::label() const { QCString result; if (!templSpec.isEmpty()) { // we use classDef->name() here and not diplayName() in order // to get the name used in the inheritance relation. result=insertTemplateSpecifierInScope(classDef->name(),templSpec); } else { result=classDef->displayName(); } if (Config_getBool("HIDE_SCOPE_NAMES")) result=stripScope(result); return result; } QCString DiagramItem::fileName() const { return classDef->getOutputFileBase(); } int DiagramItem::avgChildPos() const { DiagramItem *di; int c=children->count(); if (c==0) // no children -> don't move return xPos(); if ((di=children->getFirst())->isInList()) // children should be in a list return di->xPos(); if (c&1) // odd number of children -> get pos of middle child return children->at(c/2)->xPos(); else // even number of children -> get middle of most middle children return (children->at(c/2-1)->xPos()+children->at(c/2)->xPos())/2; } int DiagramItem::numChildren() const { return children->count(); } void DiagramItem::addChild(DiagramItem *di) { children->append(di); } void DiagramRow::insertClass(DiagramItem *parent,ClassDef *cd,bool doBases, Protection prot,Specifier virt,const char *ts) { //if (cd->visited) return; // the visit check does not work in case of // multiple inheritance of the same class! DiagramItem *di=new DiagramItem(parent, diagram->at(level)->count(), cd,prot,virt,ts); //cd->visited=TRUE; if (parent) parent->addChild(di); di->move(count()*gridWidth,level*gridHeight); append(di); BaseClassList *bcl=doBases ? cd->baseClasses() : cd->subClasses(); int count=0; if (bcl) { /* there are base/sub classes */ BaseClassDef *bcd=bcl->first(); while (bcd) { ClassDef *ccd=bcd->classDef; if (ccd && ccd->isVisibleInHierarchy() /*&& !ccd->visited*/) count++; bcd=bcl->next(); } } if (count>0 && (prot!=Private || !doBases)) { DiagramRow *row=0; if (diagram->count()<=level+1) /* add new row */ { row = new DiagramRow(diagram,level+1); diagram->append(row); } else /* get next row */ { row=diagram->at(level+1); } /* insert base classes in the next row */ BaseClassDef *bcd=bcl->first(); while (bcd) { ClassDef *ccd=bcd->classDef; if (ccd && ccd->isVisibleInHierarchy() /*&& !ccd->visited*/) { row->insertClass(di,ccd,doBases,bcd->prot, doBases?bcd->virt:Normal, doBases?bcd->templSpecifiers.data():""); } bcd=bcl->next(); } } } TreeDiagram::TreeDiagram(ClassDef *root,bool doBases) { setAutoDelete(TRUE); DiagramRow *row=new DiagramRow(this,0); append(row); row->insertClass(0,root,doBases,Public,Normal,0); } TreeDiagram::~TreeDiagram() { } void TreeDiagram::moveChildren(DiagramItem *root,int dx) { DiagramItemList *dil=root->getChildren(); DiagramItem *di=dil->first(); while (di) { di->move(dx,0); moveChildren(di,dx); di=dil->next(); } } 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();kcount();k++) row->at(k)->move(pPos-cPos,0); moved=TRUE; } else if (pPosnumber(),row->count()-1,r); for (k=root->number();kcount();k++) row->at(k)->move(cPos-pPos,0); moved=TRUE; } // recurse to children DiagramItem *di=dil->first(); while (di && !moved && !di->isInList()) { moved = layoutTree(di,r+1); di=dil->next(); } } return moved; } void TreeDiagram::computeLayout() { DiagramRow *row=first(); while (row && row->count()number()); DiagramItem *di=row->first(); DiagramItem *opi=0; int delta=0; bool first=TRUE; while (di) { DiagramItem *pi=di->parentItem(); if (pi==opi && !first) { delta-=gridWidth; } first = pi!=opi; opi=pi; di->move(delta,0); // collapse all items in the same // list (except the first) di->putInList(); di=row->next(); } } // re-organize the diagram items DiagramItem *root=getFirst()->getFirst(); while (layoutTree(root,0)) { } // move first items of the lists if (row) { DiagramItem *di=row->first(); while (di) { DiagramItem *pi=di->parentItem(); if (pi->getChildren()->count()>1) { di->move(gridWidth,0); while (di && di->parentItem()==pi) di=row->next(); } else { di=row->next(); } } } } uint TreeDiagram::computeRows() { //printf("TreeDiagram::computeRows()=%d\n",count()); int count=0; DiagramRow *row=first(); while (row && !row->getFirst()->isInList()) { count++; row=next(); } //printf("count=%d row=%p\n",count,row); if (row) { int maxListLen=0; int curListLen=0; DiagramItem *di=row->first(),*opi=0; while (di) { if (di->parentItem()!=opi) curListLen=1; else curListLen++; if (curListLen>maxListLen) maxListLen=curListLen; opi=di->parentItem(); di=row->next(); } //printf("maxListLen=%d\n",maxListLen); count+=maxListLen; } return count; } #if 0 uint TreeDiagram::computeCols() { uint count=0; DiagramRow *row=first(); while (row && !row->getFirst()->isInList()) { if (row->count()>count) count=row->count(); row=next(); } if (row) { row=prev(); uint cols=row->count(); if (row->getLast()->getChildren()->count()>1) cols++; if (cols>count) count=cols; } return count; }; #endif void TreeDiagram::computeExtremes(uint *maxLabelLen,uint *maxXPos) { uint ml=0,mx=0; DiagramRow *dr=first(); bool done=FALSE; while (dr && !done) { DiagramItem *di=dr->first(); while (di) { if (di->isInList()) done=TRUE; if (maxXPos) mx=QMAX(mx,(uint)di->xPos()); if (maxLabelLen) ml=QMAX(ml,Image::stringLength(di->label())); di=dr->next(); } dr=next(); } if (maxLabelLen) *maxLabelLen=ml; if (maxXPos) *maxXPos=mx; } void TreeDiagram::drawBoxes(FTextStream &t,Image *image, bool doBase,bool bitmap, uint baseRows,uint superRows, uint cellWidth,uint cellHeight, QCString relPath, bool generateMap) { DiagramRow *dr=first(); if (!doBase) dr=next(); bool done=FALSE; bool firstRow = doBase; while (dr && !done) { int x=0,y=0; float xf=0.0,yf=0.0; DiagramItem *di=dr->first(); if (di->isInList()) // put boxes in a list { DiagramItem *opi=0; if (doBase) di=dr->last(); while (di) { if (di->parentItem()==opi) { if (bitmap) { if (doBase) y -= cellHeight+labelVertSpacing; else y += cellHeight+labelVertSpacing; } else { if (doBase) yf += 1.0; else yf -= 1.0; } } 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) di=dr->prev(); else di=dr->next(); } done=TRUE; } else // draw a tree of boxes { while (di) { 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); } di=dr->next(); } } dr=next(); firstRow=FALSE; } } 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(); } } } void clearVisitFlags() { ClassSDict::Iterator cli(*Doxygen::classSDict); ClassDef *cd; for (;(cd=cli.current());++cli) { cd->visited=FALSE; } } ClassDiagram::ClassDiagram(ClassDef *root) { clearVisitFlags(); base = new TreeDiagram(root,TRUE); base->computeLayout(); clearVisitFlags(); super = new TreeDiagram(root,FALSE); super->computeLayout(); DiagramItem *baseItem = base->first()->first(); DiagramItem *superItem = super->first()->first(); int xbase = baseItem->xPos(); int xsuper = superItem->xPos(); if (xbase>xsuper) { superItem->move(xbase-xsuper,0); super->moveChildren(superItem,xbase-xsuper); } else if (xbasemove(xsuper-xbase,0); base->moveChildren(baseItem,xsuper-xbase); } } ClassDiagram::~ClassDiagram() { delete base; delete super; } 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 = 14.0; // 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",convertToQCString(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; DiagramRow *dr=base->first(); while (dr && !done) { DiagramItem *di=dr->first(); while (di) { done=di->isInList(); t << "(" << di->label() << ") cw\n"; di=dr->next(); } dr=base->next(); } dr=super->first(); dr=super->next(); done=FALSE; while (dr && !done) { DiagramItem *di=dr->first(); while (di) { done=di->isInList(); t << "(" << di->label() << ") cw\n"; di=dr->next(); } dr=super->next(); } 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",epstopdfCmd.data()); portable_sysTimerStart(); if (portable_system("epstopdf",epstopdfArgs)!=0) { err("error: Problems running epstopdf. Check your TeX installation!\n"); portable_sysTimerStop(); return; } portable_sysTimerStop(); } } void ClassDiagram::writeImage(FTextStream &t,const char *path, const char *relPath,const char *fileName, bool generateMap) const { uint baseRows=base->computeRows(); uint superRows=super->computeRows(); uint rows=baseRows+superRows-1; uint lb,ls,xb,xs; base->computeExtremes(&lb,&xb); super->computeExtremes(&ls,&xs); uint cellWidth = QMAX(lb,ls)+labelHorMargin*2; uint maxXPos = QMAX(xb,xs); uint labelVertMargin = 6; //QMAX(6,(cellWidth-fontHeight)/6); // aspect at least 1:3 uint cellHeight = labelVertMargin*2+fontHeight; uint imageWidth = (maxXPos+gridWidth)*cellWidth/gridWidth+ (maxXPos*labelHorSpacing)/gridWidth; uint imageHeight = rows*cellHeight+(rows-1)*labelVertSpacing; Image image(imageWidth,imageHeight); base->drawBoxes(t,&image,TRUE,TRUE,baseRows,superRows,cellWidth,cellHeight,relPath,generateMap); super->drawBoxes(t,&image,FALSE,TRUE,baseRows,superRows,cellWidth,cellHeight,relPath,generateMap); base->drawConnectors(t,&image,TRUE,TRUE,baseRows,superRows,cellWidth,cellHeight); super->drawConnectors(t,&image,FALSE,TRUE,baseRows,superRows,cellWidth,cellHeight); #define IMAGE_EXT ".png" image.save((QCString)path+"/"+fileName+IMAGE_EXT); Doxygen::indexList.addImageFile(QCString(fileName)+IMAGE_EXT); if (generateMap) t << "" << endl; }