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update de la lesson 1 de tout

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git-svn-id: svn://scm.gforge.inria.fr/svnroot/paradiseo@1752 331e1502-861f-0410-8da2-ba01fb791d7f
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verel 2010-04-28 15:24:35 +00:00
commit d71d58bd63
6 changed files with 374 additions and 176 deletions
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trunk/paradiseo-mo/tutorial/Lesson1/lesson1_randomBestHC.cpp
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@ -1,7 +1,7 @@
//-----------------------------------------------------------------------------
/** testRandomBestHC.cpp
/** first_randomBestHC.cpp
*
* SV - 24/01/10
* SV - 27/04/10 - version 1
*
*/
//-----------------------------------------------------------------------------
@ -11,175 +11,174 @@
#include <stdexcept> // runtime_error
#include <iostream> // cout
#include <sstream> // ostrstream, istrstream
#include <sstream> // ostrstream, istrstream
#include <fstream>
#include <string.h>
// the general include for eo
#include <eo>
#include <ga.h>
// declaration of the namespace
using namespace std;
//-----------------------------------------------------------------------------
// fitness function
#include <problems/eval/oneMaxFullEval.h>
#include <problems/bitString/moBitNeighbor.h>
#include <eoInt.h>
#include <neighborhood/moOrderNeighborhood.h>
// 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
#include <eval/moFullEvalByModif.h>
#include <eval/moFullEvalByCopy.h>
#include <comparator/moNeighborComparator.h>
#include <comparator/moSolNeighborComparator.h>
#include <continuator/moTrueContinuator.h>
#include <algo/moLocalSearch.h>
#include <explorer/moRandomBestHCExplorer.h>
// REPRESENTATION
//-----------------------------------------------------------------------------
typedef eoBit<unsigned> Indi;
typedef moBitNeighbor<unsigned int> Neighbor ; // incremental evaluation
typedef moOrderNeighborhood<Neighbor> Neighborhood ;
// fitness function, and evaluation of neighbors
#include <problems/eval/oneMaxFullEval.h>
#include <problems/eval/moOneMaxIncrEval.h>
#include <eval/moFullEvalByModif.h>
//-----------------------------------------------------------------------------
// neighborhood description
#include <neighborhood/moOrderNeighborhood.h> // visit all neighbors in increasing order of bit index
//-----------------------------------------------------------------------------
// the Hill-Climbing local search which randomly one of the best solution
#include <algo/moRandomBestHC.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
*
* ========================================================= */
/* =========================================================
*
* 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);
// 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
// For each parameter, define Parameter, read it through the parser,
// and assign the value to the variable
eoValueParam<uint32_t> seedParam(time(0), "seed", "Random number seed", 'S');
parser.processParam( seedParam );
unsigned seed = seedParam.value();
// random seed parameter
eoValueParam<uint32_t> seedParam(time(0), "seed", "Random number seed", 'S');
parser.processParam( seedParam );
unsigned seed = seedParam.value();
// description of genotype
eoValueParam<unsigned int> vecSizeParam(8, "vecSize", "Genotype size", 'V');
parser.processParam( vecSizeParam, "Representation" );
unsigned vecSize = vecSizeParam.value();
// length of the bit string
eoValueParam<unsigned int> vecSizeParam(20, "vecSize", "Genotype size", 'V');
parser.processParam( vecSizeParam, "Representation" );
unsigned vecSize = vecSizeParam.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" );
// 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
}
// 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
*
* ========================================================= */
/* =========================================================
*
* Random seed
*
* ========================================================= */
//reproducible random seed: if you don't change SEED above,
// you'll aways get the same result, NOT a random run
rng.reseed(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);
/* =========================================================
*
* Initialization of the solution
*
* ========================================================= */
/* =========================================================
*
* Eval fitness function
*
* ========================================================= */
// 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);
oneMaxFullEval<Indi> eval;
/* =========================================================
*
* Eval fitness function (full evaluation)
*
* ========================================================= */
// the fitness function is just the number of 1 in the bit string
oneMaxFullEval<Indi> fullEval;
/* =========================================================
*
* Initilisation of the solution
*
* ========================================================= */
/* =========================================================
*
* evaluation of a neighbor solution
*
* ========================================================= */
// a Indi random initializer
eoUniformGenerator<bool> uGen;
eoInitFixedLength<Indi> random(vecSize, uGen);
// 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: fitness is modified by +/- 1
moOneMaxIncrEval<Neighbor> neighborEval;
/* =========================================================
*
* evaluation of a neighbor solution
*
* ========================================================= */
/* =========================================================
*
* the neighborhood of a solution
*
* ========================================================= */
moFullEvalByModif<Neighbor> fulleval(eval);
// Exploration of the neighborhood in increasing order of the neigbor's index:
// bit-flip from bit 0 to bit (vecSize - 1)
moOrderNeighborhood<Neighbor> neighborhood(vecSize);
//An eval by copy can be used instead of the eval by modif
//moFullEvalByCopy<Neighbor> fulleval(eval);
/* =========================================================
*
* the local search algorithm
*
* ========================================================= */
moRandomBestHC<Neighbor> hc(neighborhood, fullEval, neighborEval);
/* =========================================================
*
* Comparator of neighbors
*
* ========================================================= */
/* =========================================================
*
* executes the local search from a random solution
*
* ========================================================= */
moNeighborComparator<Neighbor> comparator;
moSolNeighborComparator<Neighbor> solComparator;
// The current solution
Indi solution;
// Apply random initialization
random(solution);
/* =========================================================
*
* the neighborhood of a 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);
Neighborhood neighborhood(vecSize);
// Output: the intial solution
std::cout << "initial: " << solution << std::endl ;
// Apply the local search on the solution !
hc(solution);
/* =========================================================
*
* a neighborhood explorer solution
*
* ========================================================= */
moRandomBestHCExplorer<Neighbor> explorer(neighborhood, fulleval, comparator, solComparator);
/* =========================================================
*
* the local search algorithm
*
* ========================================================= */
moTrueContinuator<Neighbor> continuator;//always continue
moLocalSearch<Neighbor> localSearch(explorer, continuator, eval);
/* =========================================================
*
* execute the local search from random sollution
*
* ========================================================= */
Indi solution;
random(solution);
//Can be eval here, else it will be done at the beginning of the localSearch
//eval(solution);
std::cout << "initial: " << solution << std::endl ;
localSearch(solution);
std::cout << "final: " << solution << std::endl ;
// Output: the final solution
std::cout << "final: " << solution << std::endl ;
}
@ -187,11 +186,11 @@ void main_function(int argc, char **argv)
int main(int argc, char **argv)
{
try {
main_function(argc, argv);
}
catch (exception& e) {
cout << "Exception: " << e.what() << '\n';
}
return 1;
try {
main_function(argc, argv);
}
catch (exception& e) {
cout << "Exception: " << e.what() << '\n';
}
return 1;
}