/** * Creates a directed tree constraint : g forms an arborescence rooted in vertex 'root' i.e. g has * no circuit and a path exists from the root to every node * * @param g a directed graph variable * @param root the (fixed) root of the tree * @return a directed tree constraint */ public static Constraint directed_tree(IDirectedGraphVar g, int root) { int n = g.getNbMaxNodes(); int[] nbPreds = new int[n]; for (int i = 0; i < n; i++) { nbPreds[i] = 1; } nbPreds[root] = 0; return new Constraint( "directed_tree", new PropArborescence(g, root), new PropNodeDegree_AtMost_Coarse(g, Orientation.PREDECESSORS, nbPreds), new PropNodeDegree_AtLeast_Incr(g, Orientation.PREDECESSORS, nbPreds)); }
/** * g must form a circuit * * @param g a directed graph variable * @return a circuit constraint */ public static Constraint circuit(IDirectedGraphVar g) { if (g.getMandatoryNodes().getSize() == g.getNbMaxNodes()) { return hamiltonian_circuit(g); } return new Constraint( "circuit", new PropNodeDegree_AtLeast_Incr(g, Orientation.SUCCESSORS, 1), new PropNodeDegree_AtLeast_Incr(g, Orientation.PREDECESSORS, 1), new PropNodeDegree_AtMost_Incr(g, Orientation.SUCCESSORS, 1), new PropNodeDegree_AtMost_Incr(g, Orientation.PREDECESSORS, 1), new PropNbSCC(g, g.getSolver().ONE), new PropCircuit(g)); }
/** * Creates a path constraint : g forms a path from node 'from' to node 'to' Basic but fast * propagation * * @param g a directed graph variable * @param from an integer variable * @param to an integer variable * @return a path constraint */ public static Constraint path(IDirectedGraphVar g, int from, int to) { int n = g.getNbMaxNodes(); int[] succs = new int[n]; int[] preds = new int[n]; for (int i = 0; i < n; i++) { succs[i] = preds[i] = 1; } succs[to] = preds[from] = 0; Propagator[] props = new Propagator[] { new PropNodeDegree_AtLeast_Coarse(g, Orientation.SUCCESSORS, succs), new PropNodeDegree_AtMost_Incr(g, Orientation.SUCCESSORS, succs), new PropNodeDegree_AtLeast_Coarse(g, Orientation.PREDECESSORS, preds), new PropNodeDegree_AtMost_Incr(g, Orientation.PREDECESSORS, preds), new PropPathNoCircuit(g) }; return new Constraint("path", props); }
/** * Creates a strong connectedness constraint which ensures that g is strongly connected * * @param g a directed graph variable * @return A strong connectedness constraint which ensures that g is strongly connected */ public static Constraint strongly_connected(IDirectedGraphVar g) { return nb_strongly_connected_components( g, VF.bounded("nbSCC", 0, g.getNbMaxNodes(), g.getSolver())); }