alpar@209: /* -*- mode: C++; indent-tabs-mode: nil; -*-
alpar@103:  *
alpar@209:  * This file is a part of LEMON, a generic C++ optimization library.
alpar@103:  *
alpar@440:  * Copyright (C) 2003-2009
alpar@103:  * Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
alpar@103:  * (Egervary Research Group on Combinatorial Optimization, EGRES).
alpar@103:  *
alpar@103:  * Permission to use, modify and distribute this software is granted
alpar@103:  * provided that this copyright notice appears in all copies. For
alpar@103:  * precise terms see the accompanying LICENSE file.
alpar@103:  *
alpar@103:  * This software is provided "AS IS" with no warranty of any kind,
alpar@103:  * express or implied, and with no claim as to its suitability for any
alpar@103:  * purpose.
alpar@103:  *
alpar@103:  */
alpar@103: 
alpar@105: #include <lemon/list_graph.h>
alpar@103: #include <lemon/maps.h>
alpar@103: #include <lemon/unionfind.h>
alpar@103: #include "test_tools.h"
alpar@103: 
alpar@103: using namespace lemon;
alpar@103: using namespace std;
alpar@103: 
alpar@105: typedef UnionFindEnum<ListGraph::NodeMap<int> > UFE;
alpar@103: 
alpar@103: int main() {
alpar@105:   ListGraph g;
alpar@105:   ListGraph::NodeMap<int> base(g);
alpar@103:   UFE U(base);
alpar@105:   vector<ListGraph::Node> n;
alpar@209: 
alpar@105:   for(int i=0;i<20;i++) n.push_back(g.addNode());
alpar@103: 
alpar@105:   U.insert(n[1]);
alpar@105:   U.insert(n[2]);
alpar@103: 
kpeter@171:   check(U.join(n[1],n[2]) != -1, "Something is wrong with UnionFindEnum");
alpar@103: 
alpar@105:   U.insert(n[3]);
alpar@105:   U.insert(n[4]);
alpar@105:   U.insert(n[5]);
alpar@105:   U.insert(n[6]);
alpar@105:   U.insert(n[7]);
alpar@103: 
alpar@103: 
kpeter@171:   check(U.join(n[1],n[4]) != -1, "Something is wrong with UnionFindEnum");
kpeter@171:   check(U.join(n[2],n[4]) == -1, "Something is wrong with UnionFindEnum");
kpeter@171:   check(U.join(n[3],n[5]) != -1, "Something is wrong with UnionFindEnum");
alpar@103: 
alpar@103: 
alpar@105:   U.insert(n[8],U.find(n[5]));
alpar@103: 
alpar@103: 
kpeter@171:   check(U.size(U.find(n[4])) == 3, "Something is wrong with UnionFindEnum");
kpeter@171:   check(U.size(U.find(n[5])) == 3, "Something is wrong with UnionFindEnum");
kpeter@171:   check(U.size(U.find(n[6])) == 1, "Something is wrong with UnionFindEnum");
kpeter@171:   check(U.size(U.find(n[2])) == 3, "Something is wrong with UnionFindEnum");
alpar@103: 
alpar@103: 
alpar@105:   U.insert(n[9]);
alpar@105:   U.insert(n[10],U.find(n[9]));
alpar@103: 
alpar@103: 
kpeter@171:   check(U.join(n[8],n[10])  != -1, "Something is wrong with UnionFindEnum");
alpar@103: 
alpar@103: 
kpeter@171:   check(U.size(U.find(n[4])) == 3, "Something is wrong with UnionFindEnum");
kpeter@171:   check(U.size(U.find(n[9])) == 5, "Something is wrong with UnionFindEnum");
alpar@103: 
kpeter@171:   check(U.size(U.find(n[8])) == 5, "Something is wrong with UnionFindEnum");
alpar@103: 
alpar@105:   U.erase(n[9]);
alpar@105:   U.erase(n[1]);
alpar@103: 
kpeter@171:   check(U.size(U.find(n[10])) == 4, "Something is wrong with UnionFindEnum");
kpeter@171:   check(U.size(U.find(n[2]))  == 2, "Something is wrong with UnionFindEnum");
alpar@103: 
alpar@105:   U.erase(n[6]);
alpar@105:   U.split(U.find(n[8]));
alpar@103: 
alpar@103: 
kpeter@171:   check(U.size(U.find(n[4])) == 2, "Something is wrong with UnionFindEnum");
kpeter@171:   check(U.size(U.find(n[3])) == 1, "Something is wrong with UnionFindEnum");
kpeter@171:   check(U.size(U.find(n[2])) == 2, "Something is wrong with UnionFindEnum");
alpar@103: 
alpar@103: 
kpeter@171:   check(U.join(n[3],n[4]) != -1, "Something is wrong with UnionFindEnum");
kpeter@171:   check(U.join(n[2],n[4]) == -1, "Something is wrong with UnionFindEnum");
alpar@103: 
alpar@103: 
kpeter@171:   check(U.size(U.find(n[4])) == 3, "Something is wrong with UnionFindEnum");
kpeter@171:   check(U.size(U.find(n[3])) == 3, "Something is wrong with UnionFindEnum");
kpeter@171:   check(U.size(U.find(n[2])) == 3, "Something is wrong with UnionFindEnum");
alpar@103: 
alpar@105:   U.eraseClass(U.find(n[4]));
alpar@105:   U.eraseClass(U.find(n[7]));
alpar@103: 
alpar@103:   return 0;
alpar@103: }