nojhan/paradiseo
1
0
Fork 0
Code Issues Pull requests Projects Releases Packages Wiki Activity

Ajout de la fitness max SAT (avec incr eval)

Browse source 
git-svn-id: svn://scm.gforge.inria.fr/svnroot/paradiseo@1800 331e1502-861f-0410-8da2-ba01fb791d7f
This commit is contained in:
verel 2010-05-07 14:44:53 +00:00
commit d83cebe643
6 changed files with 622 additions and 1 deletions
Download patch file Download diff file Expand all files Collapse all files

1
trunk/paradiseo-mo/src/mo.h
View file

@ -90,6 +90,7 @@
#include <eval/moFullEvalByModif.h>
#include <eval/moDummyEval.h>
#include <eval/moEvalCounter.h>
#include <eval/moMaxSATincrEval.h>
#include <explorer/moFirstImprHCexplorer.h>
#include <explorer/moNeutralHCexplorer.h>

121
trunk/paradiseo-mo/src/problems/eval/moMaxSATincrEval.h Normal file
View file

@ -0,0 +1,121 @@
/*
<moMaxSATincrEval.h>
Copyright (C) DOLPHIN Project-Team, INRIA Lille - Nord Europe, 2006-2010
Sebastien Verel, Arnaud Liefooghe, Jeremie Humeau
This software is governed by the CeCILL license under French law and
abiding by the rules of distribution of free software. You can ue,
modify and/ or redistribute the software under the terms of the CeCILL
license as circulated by CEA, CNRS and INRIA at the following URL
"http://www.cecill.info".
In this respect, the user's attention is drawn to the risks associated
with loading, using, modifying and/or developing or reproducing the
software by the user in light of its specific status of free software,
that may mean that it is complicated to manipulate, and that also
therefore means that it is reserved for developers and experienced
professionals having in-depth computer knowledge. Users are therefore
encouraged to load and test the software's suitability as regards their
requirements in conditions enabling the security of their systems and/or
data to be ensured and, more generally, to use and operate it in the
same conditions as regards security.
The fact that you are presently reading this means that you have had
knowledge of the CeCILL license and that you accept its terms.
ParadisEO WebSite : http://paradiseo.gforge.inria.fr
Contact: paradiseo-help@lists.gforge.inria.fr
*/
#ifndef _moMaxSATincrEval_h
#define _moMaxSATincrEval_h
#include <eval/moEval.h>
#include <eval/maxSATeval.h>
/**
* Incremental evaluation Function for the max SAT problem
*/
template <class Neighbor>
class moMaxSATincrEval : public moEval <Neighbor> {
public :
typedef typename Neighbor::EOT EOT;
moMaxSATincrEval(MaxSATeval<EOT> & _fulleval) : fulleval(_fulleval) {
nbClauses = _fulleval.nbClauses;
nbVar = _fulleval.nbVar;
clauses = _fulleval.clauses;
variables = _fulleval.variables;
}
/*
* incremental evaluation of the neighbor for the max SAT problem
* @param _solution the solution (of type bit string) to move
* @param _neighbor the neighbor (of type moBitNeigbor) to consider
*/
virtual void operator()(EOT & _solution, Neighbor & _neighbor) {
// the difference of fitness
int delta = 0;
// the flipped bit
unsigned int bit = _neighbor.index();
// clauses which can be modified by the flipped bit
const vector<int> & modifiedClauses = variables[bit + 1] ; // remember that the variables start at index 1 and not 0
unsigned int size = modifiedClauses.size();
int nc;
bool litt;
for(unsigned int k = 0; k < size; k++) {
// number of the clause
nc = modifiedClauses[k];
// negative means that the not(variable) is in the clause
if (nc < 0) {
nc = - nc;
litt = !_solution[bit];
} else
litt = _solution[bit];
if (litt) {
// the litteral was true and becomes false
_solution[bit] = !_solution[bit];
if (!fulleval.clauseEval(nc, _solution))
// the clause was true and becomes false
delta--;
_solution[bit] = !_solution[bit];
} else {
// the litteral was false and becomes true
if (!fulleval.clauseEval(nc, _solution))
// the clause was false and becomes true
delta++;
}
}
_neighbor.fitness(_solution.fitness() + delta);
}
protected:
// number of variables
unsigned int nbVar;
// number of clauses
unsigned int nbClauses;
// list of clauses:
// each clause has the number of the variable (from 1 to nbVar)
// when the value, litteral = not(variable)
vector<int> * clauses;
// list of variables:
// for each variable, the list of clauses
vector<int> * variables;
//full eval of the max SAT
MaxSATeval<EOT> & fulleval;
};
#endif

2
trunk/paradiseo-mo/src/problems/eval/moRoyalRoadIncrEval.h
View file

@ -44,7 +44,7 @@ public:
/**
* Default constructor
* @param _k size of a block
* @param _rr full evaluation of the Royal Road (to have the same block size)
*/
moRoyalRoadIncrEval(RoyalRoadEval<EOT> & _rr) : k(_rr.blockSize()) {}

2
trunk/paradiseo-mo/tutorial/Lesson1/CMakeLists.txt
View file

@ -14,6 +14,7 @@ ADD_EXECUTABLE(lesson1_fitContinuator lesson1_fitContinuator.cpp)
ADD_EXECUTABLE(lesson1_fullEvalContinuator lesson1_fullEvalContinuator.cpp)
ADD_EXECUTABLE(lesson1_evalContinuator lesson1_evalContinuator.cpp)
ADD_EXECUTABLE(lesson1_combinedContinuator lesson1_combinedContinuator.cpp)
ADD_EXECUTABLE(firstImprHC_maxSAT firstImprHC_maxSAT.cpp)
TARGET_LINK_LIBRARIES(lesson1_simpleHC eoutils ga eo)
TARGET_LINK_LIBRARIES(lesson1_firstImprHC eoutils ga eo)
@ -24,3 +25,4 @@ TARGET_LINK_LIBRARIES(lesson1_fitContinuator eoutils ga eo)
TARGET_LINK_LIBRARIES(lesson1_fullEvalContinuator eoutils ga eo)
TARGET_LINK_LIBRARIES(lesson1_evalContinuator eoutils ga eo)
TARGET_LINK_LIBRARIES(lesson1_combinedContinuator eoutils ga eo)
TARGET_LINK_LIBRARIES(firstImprHC_maxSAT eoutils ga eo)

222
trunk/paradiseo-mo/tutorial/Lesson1/firstImprHC_maxSAT.cpp Normal file
View file

@ -0,0 +1,222 @@
//-----------------------------------------------------------------------------
/** firstImprHC_maxSAT.cpp
*
* SV - 05/05/10
*
*/
//-----------------------------------------------------------------------------
// standard includes
#define HAVE_SSTREAM
#include <stdexcept> // runtime_error
#include <iostream> // cout
#include <sstream> // ostrstream, istrstream
#include <fstream>
#include <string.h>
// the general include for eo
#include <eo>
// declaration of the namespace
using namespace std;
//-----------------------------------------------------------------------------
// representation of solutions, and neighbors
#include <ga/eoBit.h> // bit string : see also EO tutorial lesson 1: FirstBitGA.cpp
#include <problems/bitString/moBitNeighbor.h> // neighbor of bit string
//-----------------------------------------------------------------------------
// fitness function, and evaluation of neighbors
#include <eval/maxSATeval.h>
#include <problems/eval/moMaxSATincrEval.h>
#include <eval/moFullEvalByModif.h>
//-----------------------------------------------------------------------------
// neighborhood description
#include <neighborhood/moRndWithoutReplNeighborhood.h> // visit all neighbors in random order without repeating any neighbor
//-----------------------------------------------------------------------------
// the first improvement Hill-Climbing local search
#include <algo/moFirstImprHC.h>
// Declaration of types
//-----------------------------------------------------------------------------
// Indi is the typedef of the solution type like in paradisEO-eo
typedef eoBit<unsigned int> Indi; // bit string with unsigned fitness type
// Neighbor is the typedef of the neighbor type,
// Neighbor = How to compute the neighbor from the solution + information on it (i.e. fitness)
// all classes from paradisEO-mo use this template type
typedef moBitNeighbor<unsigned int> Neighbor ; // bit string neighbor with unsigned fitness type
// Main function
//-----------------------------------------------------------------------------
void main_function(int argc, char **argv)
{
/* =========================================================
*
* Parameters from parser
*
* ========================================================= */
// more information on the input parameters: see EO tutorial lesson 3
// but don't care at first it just read the parameters of the bit string size and the random seed.
// First define a parser from the command-line arguments
eoParser parser(argc, argv);
// For each parameter, define Parameter, read it through the parser,
// and assign the value to the variable
// random seed parameter
eoValueParam<uint32_t> seedParam(time(0), "seed", "Random number seed", 'S');
parser.processParam( seedParam );
unsigned seed = seedParam.value();
// length of the bit string
eoValueParam<unsigned int> vecSizeParam(20, "vecSize", "Genotype size", 'V');
parser.processParam( vecSizeParam, "Representation" );
unsigned vecSize = vecSizeParam.value();
// Number of clauses of the max SAT problem
eoValueParam<unsigned int> ncParam(10, "nbClauses", "Number of clauses", 'm');
parser.processParam( ncParam, "Representation" );
unsigned nbClause = ncParam.value();
// Number of litteral by clauses
eoValueParam<unsigned int> kParam(3, "nbLitt", "Number of litteral by clauses", 'k');
parser.processParam( kParam, "Representation" );
unsigned nbLitteral = kParam.value();
// the name of the instance file
string str_in = "" ; // default value
eoValueParam<string> inParam(str_in.c_str(), "in", "Input file of the file in ncf format", 'f');
parser.processParam(inParam, "Persistence" );
str_in = inParam.value();
// the name of the "status" file where all actual parameter values will be saved
string str_status = parser.ProgramName() + ".status"; // default value
eoValueParam<string> statusParam(str_status.c_str(), "status", "Status file");
parser.processParam( statusParam, "Persistence" );
// do the following AFTER ALL PARAMETERS HAVE BEEN PROCESSED
// i.e. in case you need parameters somewhere else, postpone these
if (parser.userNeedsHelp()) {
parser.printHelp(cout);
exit(1);
}
if (statusParam.value() != "") {
ofstream os(statusParam.value().c_str());
os << parser;// and you can use that file as parameter file
}
/* =========================================================
*
* Random seed
*
* ========================================================= */
// reproducible random seed: if you don't change SEED above,
// you'll aways get the same result, NOT a random run
// more information: see EO tutorial lesson 1 (FirstBitGA.cpp)
rng.reseed(seed);
/* =========================================================
*
* Eval fitness function (full evaluation)
*
* ========================================================= */
// the max SAT evaluation
MaxSATeval<Indi> * fullEval;
if (str_in.compare("") == 0)
fullEval = new MaxSATeval<Indi>(vecSize, nbClause, nbLitteral);
else {
fullEval = new MaxSATeval<Indi>(str_in);
vecSize = fullEval->nbVar ;
}
// string out = "cnf.dat";
// fullEval->save(out);
/* =========================================================
*
* evaluation of a neighbor solution
*
* ========================================================= */
// Use it if there is no incremental evaluation: a neighbor is evaluated by the full evaluation of a solution
// moFullEvalByModif<Neighbor> neighborEval(*fullEval);
// Incremental evaluation of the neighbor:
moMaxSATincrEval<Neighbor> neighborEval(*fullEval);
/* =========================================================
*
* Initialization of the solution
*
* ========================================================= */
// a Indi random initializer: each bit is random
// more information: see EO tutorial lesson 1 (FirstBitGA.cpp)
eoUniformGenerator<bool> uGen;
eoInitFixedLength<Indi> random(vecSize, uGen);
/* =========================================================
*
* the neighborhood of a solution
*
* ========================================================= */
// Exploration of the neighborhood in random order of the neigbor's index:
// each neighbor is visited only once
moRndWithoutReplNeighborhood<Neighbor> neighborhood(vecSize);
/* =========================================================
*
* the local search algorithm
*
* ========================================================= */
moFirstImprHC<Neighbor> hc(neighborhood, *fullEval, neighborEval);
/* =========================================================
*
* executes the local search from a random solution
*
* ========================================================= */
// The current solution
Indi solution;
// Apply random initialization
random(solution);
// Evaluation of the initial solution:
// can be evaluated here, or else it will be done at the beginning of the local search
(*fullEval)(solution);
// Output: the intial solution
std::cout << "initial: " << solution << std::endl ;
// Apply the local search on the solution !
hc(solution);
// Output: the final solution
std::cout << "final: " << solution << std::endl ;
}
// A main that catches the exceptions
int main(int argc, char **argv)
{
try {
main_function(argc, argv);
}
catch (exception& e) {
cout << "Exception: " << e.what() << '\n';
}
return 1;
}

275
trunk/problems/eval/maxSATeval.h Normal file
View file

@ -0,0 +1,275 @@
/*
<maxSATeval.h>
Copyright (C) DOLPHIN Project-Team, INRIA Lille - Nord Europe, 2006-2010
Sebastien Verel, Arnaud Liefooghe, Jeremie Humeau
This software is governed by the CeCILL license under French law and
abiding by the rules of distribution of free software. You can ue,
modify and/ or redistribute the software under the terms of the CeCILL
license as circulated by CEA, CNRS and INRIA at the following URL
"http://www.cecill.info".
In this respect, the user's attention is drawn to the risks associated
with loading, using, modifying and/or developing or reproducing the
software by the user in light of its specific status of free software,
that may mean that it is complicated to manipulate, and that also
therefore means that it is reserved for developers and experienced
professionals having in-depth computer knowledge. Users are therefore
encouraged to load and test the software's suitability as regards their
requirements in conditions enabling the security of their systems and/or
data to be ensured and, more generally, to use and operate it in the
same conditions as regards security.
The fact that you are presently reading this means that you have had
knowledge of the CeCILL license and that you accept its terms.
ParadisEO WebSite : http://paradiseo.gforge.inria.fr
Contact: paradiseo-help@lists.gforge.inria.fr
*/
#ifndef _maxSATeval_h
#define _maxSATeval_h
#include <vector>
#include <eoEvalFunc.h>
/**
* Full evaluation Function for max-SAT problem
*/
template< class EOT >
class MaxSATeval : public eoEvalFunc<EOT>
{
public:
/**
* Constructor
* generate a random instance of max k-SAT problem
*
* @param _n number of variables
* @param _m number of clauses
* @param _k of litteral by clause
*/
MaxSATeval(unsigned _n, unsigned _m, unsigned _k) {
nbVar = _n;
nbClauses = _m;
nbLitteral = _k;
// creation of the clauses
clauses = new vector<int>[nbClauses];
// the variables are numbered from 1 to nbVar
variables = new vector<int>[nbVar + 1];
int var[nbVar];
unsigned i, j, ind;
// to selected nbLitteral different variables in the clauses
for(i = 0; i < nbVar; i++)
var[i] = i + 1;
int number, tmp;
// generation of the clauses
for(i = 0; i < nbClauses; i++) {
for(j = 0 ; j < nbLitteral; j++) {
// selection of the variable
ind = rng.random(nbVar - j);
number = var[ind];
// permutation for forbidd identical variables
tmp = var[ind];
var[ind] = var[nbVar - j - 1];
var[nbVar - j - 1] = tmp;
// litteral = (variable) or (not variable) ?
// negative value means not variable
if (rng.flip())
number = -number;
// variable number belong to clause i
if (number < 0)
variables[-number].push_back(-i);
else
variables[number].push_back(i);
// clause i has got the litteral number
clauses[i].push_back(number);
}
}
}
/**
* Constructor
* instance is given in the cnf format (see dimacs)
*
* @param _fileName file name of the instance in cnf format
*/
MaxSATeval(string & _fileName) {
fstream file(_fileName.c_str(), ios::in);
if (!file) {
string str = "MaxSATeval: Could not open file [" + _fileName + "]." ;
throw runtime_error(str);
}
string s;
// commentaries
string line;
file >> s;
while (s[0] == 'c') {
getline(file,line,'\n');
file >> s;
}
// parameters
if (s[0] != 'p') {
string str = "MaxSATeval: could not read the parameters of the instance from file [" + _fileName + "]." ;
throw runtime_error(str);
}
file >> s;
if (s != "cnf") {
string str = "MaxSATeval: " + _fileName + " is not a file in cnf format.";
throw runtime_error(str);
}
file >> nbVar >> nbClauses;
nbLitteral = 0; // could be different from one clause to antoher, so no value
// creation of the clauses
clauses = new vector<int>[nbClauses];
// the variables are numbered from 1 to nbVar
variables = new vector<int>[nbVar + 1];
// read the clauses
int number;
for(unsigned i = 0; i < nbClauses; i++) {
do {
file >> number;
if (number != 0) {
clauses[i].push_back(number);
if (number < 0)
number = -number;
if (number < 0)
variables[-number].push_back(-i);
else
variables[number].push_back(i);
}
} while (number != 0);
}
file.close();
}
/**
* Destructor
*/
~MaxSATeval() {
// delete the clauses
delete[] clauses;
// delete the variables
delete[] variables;
}
/**
* export the instance to a file in cnf format
*
* @param _fileName file name to export the instance
*/
void save(string & _fileName) {
fstream file(_fileName.c_str(), ios::out);
if (!file) {
string str = "MaxSATeval: Could not open " + _fileName;
throw runtime_error(str);
}
// write some commentaries
file << "c random max k-SAT generated by maxSATeval from paradisEO framework on sourceForge" << endl;
file << "c "<< endl;
// write the parameters
file << "p cnf " << nbVar << " " << nbClauses << endl;
// write the clauses
unsigned int i, j;
for(i = 0; i < nbClauses; i++) {
j = 0;
while (j < clauses[i].size()) {
file << clauses[i][j] << " ";
j++;
}
file << "0" << std::endl;
}
file.close();
}
/**
* evaluation the clause
*
* @param _n number of the given clause
* @param _solution the solution to evaluation
* @return true when the clause is true
*/
bool clauseEval(unsigned int _n, EOT & _solution) {
unsigned nLitteral = clauses[_n].size();
int litteral;
bool clause = false;
unsigned int j = 0;
while (j < nLitteral && !clause) {
litteral = clauses[_n][j];
clause = ((litteral > 0) && _solution[litteral - 1]) || ((litteral < 0) && !(_solution[-litteral - 1]));
j++;
}
return clause;
}
/**
* fitness evaluation of the solution
*
* @param _solution the solution to evaluation
*/
virtual void operator()(EOT & _solution) {
unsigned int fit = 0;
for(unsigned i = 0; i < nbClauses; i++)
if (clauseEval(i, _solution))
fit++;
_solution.fitness(fit);
}
/**
* Public variables (used in incremental evaluation)
*/
// number of variables
unsigned int nbVar;
// number of clauses
unsigned int nbClauses;
// number of litteral by clause (0 when the instance is read from file)
unsigned int nbLitteral;
// list of clauses:
// each clause has the number of the variable (from 1 to nbVar)
// when the value is negative, litteral = not(variable)
vector<int> * clauses;
// list of variables:
// for each variable, the list of clauses
// when the value is negative, litteral = not(variable) in this clause
vector<int> * variables;
};
#endif