// (C) Copyright Jeremy Siek 2004 // Distributed under the Boost Software License, Version 1.0. (See // accompanying file LICENSE_1_0.txt or copy at // http://www.boost.org/LICENSE_1_0.txt) #ifndef BOOST_DETAIL_DISJOINT_SETS_HPP #define BOOST_DETAIL_DISJOINT_SETS_HPP namespace boost { namespace detail { template Vertex find_representative_with_path_halving(ParentPA p, Vertex v) { Vertex parent = get(p, v); Vertex grandparent = get(p, parent); while (parent != grandparent) { put(p, v, grandparent); v = grandparent; parent = get(p, v); grandparent = get(p, parent); } return parent; } template Vertex find_representative_with_full_compression(ParentPA parent, Vertex v) { Vertex old = v; Vertex ancestor = get(parent, v); while (ancestor != v) { v = ancestor; ancestor = get(parent, v); } v = get(parent, old); while (ancestor != v) { put(parent, old, ancestor); old = v; v = get(parent, old); } return ancestor; } /* the postcondition of link sets is: component_representative(i) == component_representative(j) */ template inline void link_sets(ParentPA p, RankPA rank, Vertex i, Vertex j, ComponentRepresentative comp_rep) { i = comp_rep(p, i); j = comp_rep(p, j); if (i == j) return; if (get(rank, i) > get(rank, j)) put(p, j, i); else { put(p, i, j); if (get(rank, i) == get(rank, j)) put(rank, j, get(rank, j) + 1); } } // normalize components has the following postcondidition: // i >= p[i] // that is, the representative is the node with the smallest index in its class // as its precondition it it assumes that the node container is compressed template inline void normalize_node(ParentPA p, Vertex i) { if (i > get(p,i) || get(p, get(p,i)) != get(p,i)) put(p,i, get(p, get(p,i))); else { put(p, get(p,i), i); put(p, i, i); } } } // namespace detail } // namespace boost #endif // BOOST_DETAIL_DISJOINT_SETS_HPP