示例#1
0
/*---------------------------------------------------------*/
void NOMAD::Barrier::insert ( const NOMAD::Eval_Point & x )
{
    // we compare the eval types (_SGTE_ or _TRUTH_) of x and *this:
    if ( x.get_eval_type() != _eval_type )
        throw Barrier::Insert_Error ( "Barrier.cpp" , __LINE__ ,
                                     "insertion of an Eval_Point into the bad Barrier object" );
    
    // basic check:
    if ( !x.is_eval_ok() )
    {
        _one_eval_succ = NOMAD::UNSUCCESSFUL;
        return;
    }
    
    // pre-filter: if tag(x) is already in the pre-filter,
    // then return _UNSUCCESSFUL_:
    size_t size_before = _prefilter.size();
    _prefilter.insert ( x.get_tag() );
    if ( _prefilter.size() == size_before )
    {
        _one_eval_succ = NOMAD::UNSUCCESSFUL;
        return;
    }
    
    // insertion in _all_inserted:
    _all_inserted.push_back ( &x );
    
    // other checks:
    const NOMAD::Double & h = x.get_h();
    if ( !x.is_EB_ok             () ||
        !x.get_f().is_defined   () ||
        !h.is_defined           () ||
        h.value() > _h_max.value()    )
    {
        _one_eval_succ = NOMAD::UNSUCCESSFUL;
        return;
    }
    
    // insert_feasible or insert_infeasible:
    _one_eval_succ = ( x.is_feasible ( _p.get_h_min() ) ) ?
    insert_feasible ( x ) : insert_infeasible(x);
    
    if ( _one_eval_succ > _success )
        _success = _one_eval_succ;
}
示例#2
0
/*-----------------------------------------------------------------*/
void NOMAD::Cache::update ( NOMAD::Eval_Point       & cache_x ,
                           const NOMAD::Eval_Point & x         ) const
{
    const NOMAD::Point & bbo_x = x.get_bb_outputs();
    
    if ( &cache_x == &x         ||
        !x.is_eval_ok()        ||
        !cache_x.is_in_cache() ||
        bbo_x.empty()          ||
        cache_x != x              )
        return;
    
    // check the eval types:
    if ( x.get_eval_type      () != _eval_type ||
        cache_x.get_eval_type() != _eval_type    )
        throw NOMAD::Cache::Cache_Error ( "Cache.cpp" , __LINE__ ,
                                         "NOMAD::Cache:update(): problem with the eval. types" );
    
    const NOMAD::Point & bbo_cache_x = cache_x.get_bb_outputs();
    int                  m           = bbo_cache_x.size();
    
    _sizeof -= cache_x.size_of();
    
    // if the current point could not evaluate and x did,
    // or if the number of bb outputs is different, we set cache_x = x:
    if ( !cache_x.is_eval_ok() || m != bbo_x.size() )
    {
        cache_x.set_eval_status ( NOMAD::EVAL_OK     );
        cache_x.set_bb_output   ( bbo_x              );
        cache_x.set_signature   ( x.get_signature () );
        cache_x.set_direction   ( x.get_direction () );
        
        _sizeof += cache_x.size_of();
        return;
    }
    
    // we complete _bb_outputs:
    int c1 = 0;
    int c2 = 0;
    
    for ( int i = 0 ; i < m ; ++i ) {
        
        if ( bbo_cache_x[i].is_defined() )
            ++c1;
        
        if ( bbo_x[i].is_defined() )
            ++c2;
        
        if ( !bbo_cache_x[i].is_defined() && bbo_x[i].is_defined() )
            cache_x.set_bb_output ( i , bbo_x[i] );
    }
    
    // the two points are 'eval_ok' and have comparable outputs:
    // we select the best as the one with the more defined bb_outputs:
    if ( c2 > c1 ) {
        cache_x.set_signature  ( x.get_signature () );
        cache_x.set_direction  ( x.get_direction () );
        
    }
    
    _sizeof += cache_x.size_of();
}
    /*-------------------------------------------------------------------*/
    bool NOMAD::Evaluator::eval_x ( NOMAD::Eval_Point	& x          ,
                                   const NOMAD::Double	& h_max      ,
                                   bool					& count_eval   ) const
    {
        count_eval = false;
        
        if ( _bb_exe.empty() || !x.is_complete() )
            throw NOMAD::Exception ( "Evaluator.cpp" , __LINE__ ,
                                    "Evaluator: no BB_EXE is defined (blackbox executable names)" );
        
        bool sgte = x.get_eval_type() == NOMAD::SGTE;
        if ( sgte && _sgte_exe.empty() )
            throw NOMAD::Exception ( "Evaluator.cpp" , __LINE__ ,
                                    "Evaluator: no SGTE_EXE is defined (surrogate executable names)" );
        
        int         pid     = NOMAD::get_pid();
        int         seed    = _p.get_seed();
        std::string tmp_dir = _p.get_tmp_dir();
        
        std::ostringstream oss;
        oss << "." << seed;
        if ( pid != seed )
            oss << "." << pid;
        oss << "." << x.get_tag() << ".";
        const std::string & sint = oss.str();
        
        // for the parallel version: no need to include the process rank in the names
        // as the point tags are unique for all the processes: each process creates
        // its own points and uses Eval_Point::set_tag()
        
        // blackbox input file writing:
        // ----------------------------
        std::string bb_input_file_name =
        tmp_dir + NOMAD::BLACKBOX_INPUT_FILE_PREFIX
        + sint + NOMAD::BLACKBOX_INPUT_FILE_EXT;
        
        std::string bb_output_file_name =
        tmp_dir + NOMAD::BLACKBOX_OUTPUT_FILE_PREFIX
        + sint + NOMAD::BLACKBOX_OUTPUT_FILE_EXT;
        
        std::ofstream fout ( bb_input_file_name.c_str() );
        if ( fout.fail() )
        {
            std::string err = "could not create file blackbox input file " + bb_input_file_name + ". \n \n #### Please check that write permission are granted for the working directory. #### ";
            throw NOMAD::Exception ( "Evaluator.cpp" , __LINE__ , err );
       }
        
        // include seed:
        if ( _p.get_bb_input_include_seed() )
            fout << seed << " ";
        
        // include tag:
        if ( _p.get_bb_input_include_tag() )
            fout << x.get_tag() << " ";
        
        fout.setf ( std::ios::fixed );
        fout.precision ( NOMAD::DISPLAY_PRECISION_BB );
        x.Point::display ( fout , " " , -1 , -1 );
        fout << std::endl;
        
        fout.close();
        
        if ( fout.fail() )
            return false;
        
        x.set_eval_status ( NOMAD::EVAL_IN_PROGRESS );
        
        std::string   cmd , bb_exe;
        std::ifstream fin;
        bool          failed;
        NOMAD::Double d;
        int           j , nbbok;
        int           ibbo = 0;
        
        // system call to evaluate the blackbox:
        // -------------------------------------
        size_t bn = _bb_exe.size();
        for ( size_t k = 0 ; k < bn ; ++k )
        {
            
            // executable name:
            bb_exe = ( sgte ) ? _sgte_exe[k] : _bb_exe[k];
            
            // system command:
            cmd = bb_exe + " " + bb_input_file_name;
            
            // redirection ? if no, the blackbox has to create
            // the output file 'bb_output_file_name':
            if ( _p.get_bb_redirection() )
                cmd += " > " + bb_output_file_name;
            
#ifdef DEBUG
#ifdef USE_MPI
            int rank;
            MPI_Comm_rank ( MPI_COMM_WORLD, &rank);
            _p.out() << "command(rank=" << rank
            << ") = \'" << cmd << "\'" << std::endl;
#else
            _p.out() << "command=\'" << cmd << "\'" << std::endl;
#endif
#endif
            
            // the evaluation:
            {
                int signal = system ( cmd.c_str() );
                
                // catch the ctrl-c signal:
                if ( signal == SIGINT )
                    raise ( SIGINT );
                
                // other evaluation error:
                failed = ( signal != 0 );
                count_eval = true;
            }
            
            // the evaluation failed (we stop the evaluations):
            if ( failed )
            {
                x.set_eval_status ( NOMAD::EVAL_FAIL );
                break;
            }
            
            // reading of the blackbox output file:
            // ------------------------------------
            else
            {
                
                // bb-output file reading:
                fin.open ( bb_output_file_name.c_str() );
                
                failed          = false;
                bool is_defined = true;
                bool is_inf     = false;
                
                // loop on the number of outputs for this blackbox:
                nbbok = _bb_nbo[k];
                for ( j = 0 ; j < nbbok ; ++j )
                {
                    
                    fin >> d;
                    
                    if ( !d.is_defined() )
                    {
                        is_defined = false;
                        break;
                    }
                    
                    if ( fin.fail() )
                    {
                        failed = true;
                        break;
                    }
                    
                    if ( d.value() >= NOMAD::INF )
                    {
                        is_inf = true;
                        break;
                    }
                    
                    x.set_bb_output ( ibbo++ , d );
                }
                
                fin.close();
                
                // the evaluation failed:
                if ( failed || !is_defined || is_inf )
                {
                    x.set_eval_status ( NOMAD::EVAL_FAIL );
                    break;
                }
                
                // stop the evaluations if h > h_max or if a 'EB' constraint is violated:
                if ( k < _bb_exe.size() - 1 && interrupt_evaluations ( x , h_max ) )
                    break;
            }
        }
        
        if ( x.get_eval_status() == NOMAD::EVAL_IN_PROGRESS )
            x.set_eval_status ( NOMAD::EVAL_OK );
        
        // delete the blackbox input and output files:
        // -------------------------------------------
        remove ( bb_input_file_name.c_str () );
        remove ( bb_output_file_name.c_str() );
        
        // check the CNT_EVAL output:
        // --------------------------
        int index_cnt_eval = _p.get_index_cnt_eval();
        if ( index_cnt_eval >= 0 && x.get_bb_outputs()[index_cnt_eval] == 0.0 )
            count_eval = false;
        
        return x.is_eval_ok();
    }