/** * Compares two nodes for their unique order. * * @param node1 first node * @param node2 node to be compared * @return {@code 0} if the nodes are identical, or {@code 1}/{@code -1} if the first node appears * after/before the second */ static int diff(final ANode node1, final ANode node2) { // cache parents of first node final ANodeList nl = new ANodeList(); for (ANode n = node1; n != null; n = n.parent()) { if (n == node2) return 1; nl.add(n); } // find lowest common ancestor ANode c2 = node2; LOOP: for (ANode n = node2; (n = n.parent()) != null; ) { final int is = nl.size(); for (int i = 1; i < is; i++) { if (n == node1) return -1; if (!nl.get(i).is(n)) continue; // check which node appears as first LCA child final ANode c1 = nl.get(i - 1); final BasicNodeIter ir = n.children(); for (ANode c; (c = ir.next()) != null; ) { if (c.is(c1)) return -1; if (c.is(c2)) return 1; } break LOOP; } c2 = n; } // subtraction is used instead of comparison to support overflow of node id return node1.id - node2.id < 0 ? -1 : 1; }
@Override protected ANodeList eval(final Iter[] iter) throws QueryException { final ANodeList list = new ANodeList().check(); for (Item it; (it = iter[0].next()) != null; ) list.add(toNode(it)); final boolean db = list.dbnodes(); final int el = exprs.length; for (int e = 1; e < el && !list.isEmpty(); e++) { final Iter ir = iter[e]; for (Item it; (it = ir.next()) != null; ) { final int i = list.indexOf(toNode(it), db); if (i != -1) list.delete(i); } } return list; }
/** * Adds children of a sub node. * * @param ch child nodes * @param nb node cache */ static void addDesc(final BasicNodeIter ch, final ANodeList nb) { for (ANode n; (n = ch.next()) != null; ) { nb.add(n.finish()); addDesc(n.children(), nb); } }