public void draw(node leaf, Graphics2D g, int px, int py) { int lvl = leaf.getLevel(); double l = lvl; counts[lvl]++; double xfraq = counts[lvl] / (spacing[lvl] + 1); double yfraq = l / depth; int x = new Double(1600 * xfraq).intValue(); int y = new Double(1200 * yfraq).intValue() + 10; if (leaf.getAttr() != null) { g.drawString(leaf.getAttr(), x - 20, y); } if (leaf.getCrit() != null) { g.drawString(leaf.getCrit(), x - 20, y + 10); } if (leaf.getResult() != null) { g.drawString(leaf.getResult(), x - 20, y + 10); } g.drawLine(x, y, px, py); // g.fillRect(x,y,20,20); ArrayList children = leaf.getChildren(); while (!children.isEmpty()) { draw((node) children.remove(0), g, x, y); } }
public void recreateTree() { System.out.println("Recreating tree"); ArrayList nodes = new ArrayList(); String attr, crit, result; int level; node leaf; while (!list.isEmpty()) { if (((String) list.remove(0)).compareTo("Node") == 0) { leaf = new node(); attr = (String) list.remove(0); // System.out.println("ATTR:"+attr); crit = (String) list.remove(0); try { level = (new Double(crit)).intValue(); crit = null; } catch (Exception e) { // System.out.println("crit:"+crit); level = (new Double((String) list.remove(0))).intValue(); } // System.out.println("lvl:"+level); if (level > depth) { depth = level; } if (((String) list.get(0)).compareTo("Node") != 0) { result = (String) list.remove(0); leaf.setResult(result); } leaf.setSplitCriteria(crit, 0); leaf.setLevel(level); leaf.setAttr(attr); if (attr.compareTo("_root") == 0) { root = leaf; } else { nodes.add(leaf); } } } depth++; levelCount(nodes); System.out.println("Linking " + nodes.size() + " tree nodes"); trav(nodes, root); }
public void trav(ArrayList nodes, node cur) { node temp; while (!nodes.isEmpty()) { temp = (node) nodes.get(0); if (temp.getLevel() - 1 == cur.getLevel()) { nodes.remove(0); cur.addChild(temp); trav(nodes, temp); } else { return; } } }