demo/sat-2.cc
author deba
Tue, 10 Jun 2008 11:36:17 +0000
changeset 2612 3d65053d01a3
parent 2420 07c4f9bcb4d5
permissions -rw-r--r--
Bug fix initialization
The std::numeric_limits<double>::min() means the smallest positive number,
and not the smallest number in the whole range of double.
     1 /* -*- C++ -*-
     2  *
     3  * This file is a part of LEMON, a generic C++ optimization library
     4  *
     5  * Copyright (C) 2003-2008
     6  * Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
     7  * (Egervary Research Group on Combinatorial Optimization, EGRES).
     8  *
     9  * Permission to use, modify and distribute this software is granted
    10  * provided that this copyright notice appears in all copies. For
    11  * precise terms see the accompanying LICENSE file.
    12  *
    13  * This software is provided "AS IS" with no warranty of any kind,
    14  * express or implied, and with no claim as to its suitability for any
    15  * purpose.
    16  *
    17  */
    18 
    19 /// \ingroup demos
    20 /// \file
    21 /// \brief Solver for SAT-2 problems.
    22 ///
    23 /// This demo progam solves the SAT-2 problem, i.e. the boolean
    24 /// satisfiability problem where each disjuction consists at most 2
    25 /// terms.
    26 ///
    27 /// The program generates a graph from the boolean expression. Two
    28 /// nodes are assigned to each boolean variable, an <tt>x</tt> and a
    29 /// <tt>not x</tt> nodes. If there is an <tt>x or y</tt> disjunction
    30 /// in the formula, then the <tt>not x => y</tt> and the <tt>not y =>
    31 /// x</tt> edges are added to the graph. If there is a single
    32 /// <tt>x</tt> term disjunction in the formula then the <tt>not x
    33 /// =>x</tt> edge is added to the graph.
    34 ///
    35 /// The boolean formula could be satified if and only if the
    36 /// <tt>x</tt> and <tt>not x</tt> nodes are in different strongly connected
    37 /// components. A feasible solution could be get from the current
    38 /// component numbering.
    39 ///
    40 /// \include sat-2.cc
    41 
    42 #include <iostream>
    43 #include <fstream>
    44 #include <sstream>
    45 #include <string>
    46 #include <map>
    47 
    48 #include <lemon/smart_graph.h>
    49 #include <lemon/topology.h>
    50 
    51 using namespace std;
    52 using namespace lemon;
    53 
    54 
    55 int main(int argc, const char *argv[]) {
    56   if (argc != 2) {
    57     std::cerr << "The SAT-2 solver demo" << std::endl << std::endl;
    58     std::cerr << "The  parameter should be a filename" << std::endl;
    59     std::cerr << "Each line of the file should contain a bool expression:" 
    60               << std::endl;
    61     std::cerr << "  [not] <variable> [or [not] <variable>]" << std::endl;
    62     std::cerr << "The program prints a feasible solution if it exists" 
    63               << std::endl;
    64     return -1;
    65   }
    66   ifstream is(argv[1]);
    67 
    68   SmartGraph graph;
    69   map<string, pair<SmartGraph::Node, SmartGraph::Node> > var;
    70 
    71   string line;
    72   while (getline(is, line)) {
    73     istringstream ls(line);
    74     string var1, var2, op;
    75     bool neg1 = false, neg2 = false;
    76 
    77     ls >> var1;
    78     if (var1 == "not") {
    79       neg1 = true;
    80       ls >> var1;
    81     }
    82     if (ls >> op) {
    83       if (op != "or") {
    84         cerr << "Wrong bool expression" << std::endl;
    85         return -1;
    86       } else {
    87         ls >> var2;
    88         if (var2 == "not") {
    89           neg2 = true;
    90           ls >> var2;
    91         }
    92       }
    93       if (ls >> op) {
    94         cerr << "Wrong bool expression" << std::endl;
    95         return -1;
    96       }
    97 
    98       map<string, pair<SmartGraph::Node, SmartGraph::Node> >::iterator it1;
    99       map<string, pair<SmartGraph::Node, SmartGraph::Node> >::iterator it2;    
   100       it1 = var.find(var1);
   101       if (it1 == var.end()) {
   102         SmartGraph::Node node = graph.addNode();
   103         SmartGraph::Node negNode = graph.addNode();
   104         it1 = var.insert(make_pair(var1, make_pair(node, negNode))).first;
   105       }
   106 
   107       it2 = var.find(var2);
   108       if (it2 == var.end()) {
   109         SmartGraph::Node node = graph.addNode();
   110         SmartGraph::Node negNode = graph.addNode();
   111         it2 = var.insert(make_pair(var2, make_pair(node, negNode))).first;
   112       }
   113 
   114       graph.addEdge(neg1 ? it1->second.first : it1->second.second, 
   115                     neg2 ? it2->second.second : it2->second.first);
   116 
   117       graph.addEdge(neg2 ? it2->second.first : it2->second.second, 
   118                     neg1 ? it1->second.second : it1->second.first);
   119     } else {
   120 
   121       map<string, pair<SmartGraph::Node, SmartGraph::Node> >::iterator it1;
   122       it1 = var.find(var1);
   123       if (it1 == var.end()) {
   124         SmartGraph::Node node = graph.addNode();
   125         SmartGraph::Node negNode = graph.addNode();
   126         it1 = var.insert(make_pair(var1, make_pair(node, negNode))).first;
   127       }
   128       graph.addEdge(neg1 ? it1->second.first : it1->second.second, 
   129                     neg1 ? it1->second.second : it1->second.first);
   130       
   131     }
   132     
   133   }
   134   
   135   SmartGraph::NodeMap<int> comp(graph);
   136 
   137   stronglyConnectedComponents(graph, comp); 
   138 
   139   for (map<string, pair<SmartGraph::Node, SmartGraph::Node> >::iterator
   140          it = var.begin(); it != var.end(); ++it) {
   141     if (comp[it->second.first] == comp[it->second.second]) {
   142       std::cout << "There is no feasible solution." << std::endl;
   143       return 0;
   144     }
   145   }
   146 
   147   for (map<string, pair<SmartGraph::Node, SmartGraph::Node> >::iterator
   148          it = var.begin(); it != var.end(); ++it) {
   149     if (comp[it->second.first] < comp[it->second.second]) {
   150       std::cout << it->first << " = false " << std::endl;
   151     } else {
   152       std::cout << it->first << " = true " << std::endl;
   153     }
   154   }
   155   
   156   return 0;
   157 }