src/work/akos/simann.h
changeset 1015 e3bb0e118bb4
parent 966 5e865c5c8a87
child 1018 68beae6758a7
equal deleted inserted replaced
3:a7d773882d48 4:a2a9c298de4a
    49           controller->rejectEvent();
    49           controller->rejectEvent();
    50         }
    50         }
    51       }
    51       }
    52     }
    52     }
    53 
    53 
       
    54     /*! \brief A base class for controllers. */
    54     class Controller {
    55     class Controller {
    55     public:
    56     public:
    56       SimAnnBase *base;
    57       SimAnnBase *base;
    57       virtual void init() {}
    58       virtual void init() {}
       
    59       /*! \brief This is called when a neighbouring state gets accepted. */
    58       virtual void acceptEvent() {}
    60       virtual void acceptEvent() {}
       
    61       /*! \brief This is called when the accepted neighbouring state's cost is
       
    62        *  less than the best found one's.
       
    63        */
    59       virtual void improveEvent() {}
    64       virtual void improveEvent() {}
       
    65       /*! \brief This is called when a neighbouring state gets rejected. */
    60       virtual void rejectEvent() {}
    66       virtual void rejectEvent() {}
    61       virtual void setBase(SimAnnBase *_base) { base = _base; }
    67       virtual void setBase(SimAnnBase *_base) { base = _base; }
       
    68       /*! */
    62       virtual bool next() = 0;
    69       virtual bool next() = 0;
       
    70       /*! */
    63       virtual bool accept() = 0;
    71       virtual bool accept() = 0;
    64     };
    72     };
    65   };
    73   };
    66 
    74 
    67   template <typename E>
    75   template <typename E>
   104    *  \todo Find a way to set the various parameters.
   112    *  \todo Find a way to set the various parameters.
   105    */
   113    */
   106   class SimpleController : public SimAnnBase::Controller {
   114   class SimpleController : public SimAnnBase::Controller {
   107   public:
   115   public:
   108     long iter, last_impr, max_iter, max_no_impr;
   116     long iter, last_impr, max_iter, max_no_impr;
   109     double temp, annealing_factor;
   117     double temp, ann_fact;
   110     SimpleController() {
   118     /*! \param _max_iter maximum number of iterations
   111       iter = last_impr = 0;
   119      *  \param _max_no_impr maximum number of consecutive iterations which do
   112       max_iter = 500000;
   120      *         not yield a better solution
   113       max_no_impr = 20000;
   121      *  \param _temp initial temperature
   114       annealing_factor = 0.9999;
   122      *  \param _ann_fact annealing factor
   115       temp = 1000;
   123      */
   116     }
   124     SimpleController(long _max_iter = 500000, long _max_no_impr = 20000,
       
   125     double _temp = 1000, double _ann_fact = 0.9999) : iter(0), last_impr(0),
       
   126     max_iter(_max_iter), max_no_impr(_max_no_impr), temp(_temp),
       
   127     ann_fact(_ann_fact) {}
   117     void acceptEvent() {
   128     void acceptEvent() {
   118       iter++;
   129       iter++;
   119     }
   130     }
   120     void improveEvent() {
   131     void improveEvent() {
   121       last_impr = iter;
   132       last_impr = iter;
   122     }
   133     }
   123     void rejectEvent() {
   134     void rejectEvent() {
   124       iter++;
   135       iter++;
   125     }
   136     }
   126     bool next() {
   137     bool next() {
   127       temp *= annealing_factor;
   138       temp *= ann_fact;
   128       bool quit = (iter > max_iter) || (iter - last_impr > max_no_impr);
   139       bool quit = (iter > max_iter) || (iter - last_impr > max_no_impr);
   129       return !quit;
   140       return !quit;
   130     }
   141     }
   131     bool accept() {
   142     bool accept() {
   132       return (drand48() <= exp(base->getPrevCost() - base->getCurrCost() /
   143       return (drand48() <= exp(base->getPrevCost() - base->getCurrCost() /
   138    *  class.
   149    *  class.
   139    *  \todo Find a better name.
   150    *  \todo Find a better name.
   140    */
   151    */
   141   class AdvancedController : public SimAnnBase::Controller {
   152   class AdvancedController : public SimAnnBase::Controller {
   142   private:
   153   private:
   143     double threshold() { return 0.0; }
   154     /*! \param time the elapsed time in seconds */
   144   public:
   155     double threshold(double time) { return 0.0; }
   145     double alpha;
   156   public:
   146     double temp;
   157     double alpha, beta, gamma;
       
   158     double end_time, start_time;
   147     double avg_cost;
   159     double avg_cost;
   148     double start_time, end_time;
   160     double temp, ann_fact;
       
   161     /*! \param _end_time running_time
       
   162      *  \param _alpha parameter used to calculate the running average
       
   163      *  \param _beta parameter used to decrease the annealing factor
       
   164      *  \param _gamma parameter used to increase the temperature
       
   165      */
       
   166     AdvancedController(double _end_time, double _alpha = 0.2,
       
   167     double _beta = 0.9, double _gamma = 1.2) : alpha(_alpha), beta(_beta),
       
   168     gamma(_gamma), end_time(_end_time) {}
   149     void init() {
   169     void init() {
   150       timeval tv;
   170       timeval tv;
   151       gettimeofday(&tv, 0);
   171       gettimeofday(&tv, 0);
   152       start_time = tv.tv_sec + double(tv.tv_usec) / 1e6;
   172       start_time = tv.tv_sec + double(tv.tv_usec) / 1e6;
   153     }
   173     }
   157     void improveEvent() {
   177     void improveEvent() {
   158     }
   178     }
   159     void rejectEvent() {
   179     void rejectEvent() {
   160     }
   180     }
   161     bool next() {
   181     bool next() {
   162       // abs(avg_cost - base->getBestCost())
       
   163       // ha nagy: cooling factor novelese
       
   164       // ha kicsi: homerseklet novelese
       
   165       // de mennyivel?
       
   166       timeval tv;
   182       timeval tv;
   167       gettimeofday(&tv, 0);
   183       gettimeofday(&tv, 0);
   168       double elapsed_time = tv.tv_sec + double(tv.tv_usec) / 1e6 - start_time;
   184       double elapsed_time = tv.tv_sec + double(tv.tv_usec) / 1e6 - start_time;
       
   185       if (fabs(avg_cost - base->getBestCost()) > threshold(elapsed_time)) {
       
   186 	// decrease the annealing factor
       
   187         ann_fact *= beta;
       
   188       }
       
   189       else {
       
   190         // increase the temperature
       
   191         temp *= gamma;
       
   192       }
       
   193       temp *= ann_fact;
   169       return elapsed_time < end_time;
   194       return elapsed_time < end_time;
   170     }
   195     }
   171     bool accept() {
   196     bool accept() {
   172       return (drand48() <= exp(base->getPrevCost() - base->getCurrCost() /
   197       return (drand48() <= exp(base->getPrevCost() - base->getCurrCost() /
   173         temp));
   198         temp));