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; }
static void get_drawn(DiagramItemList & items, Q3PtrDict<DiagramItem> & drawn) { DiagramItem * di; for (di = items.first(); di != 0; di = items.next()) { UmlCode k = di->type(); switch (k) { case UmlComponent: case UmlPackage: drawn.replace(di->get_bn()->get_data(), di); break; default: if (IsaSimpleRelation(k)) drawn.replace(((ArrowCanvas *) di)->get_data(), di); } } }
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 DiagramItem::addChild(DiagramItem *di) { children->append(di); }
int DiagramItem::numChildren() const { return children->count(); }