8 #ifndef IMPCORE_MONTE_CARLO_H
9 #define IMPCORE_MONTE_CARLO_H
11 #include <IMP/core/core_config.h>
16 #include <IMP/internal/container_helpers.h>
20 #include <boost/random/uniform_real.hpp>
22 IMPCORE_BEGIN_NAMESPACE
25 #define IMP_CORE_HAS_MONTE_CARLO_MOVER 1
57 void set_return_best(
bool tf) { return_best_ = tf; }
65 void set_kt(
Float t) {
77 <<
" requires return best being on.");
85 return stat_downward_steps_taken_;
89 return stat_upward_steps_taken_;
93 return stat_downward_steps_taken_ + stat_upward_steps_taken_ +
98 return stat_downward_steps_taken_ + stat_upward_steps_taken_;
100 void reset_statistics() {
101 stat_downward_steps_taken_ = 0;
102 stat_upward_steps_taken_ = 0;
103 stat_num_failures_ = 0;
122 double get_maximum_difference()
const {
return max_difference_; }
130 IMP_LIST_ACTION(
public, Mover, Movers, mover, movers, MonteCarloMover *,
142 void set_incremental_scoring_function(IncrementalScoringFunction *isf);
143 bool get_use_incremental_scoring_function()
const {
return isf_; }
144 IncrementalScoringFunction *get_incremental_scoring_function()
const {
151 ParticleIndexes get_movable_particles()
const;
156 bool do_accept_or_reject_move(
double score,
double last,
157 double proposal_ratio);
158 bool do_accept_or_reject_move(
double score,
double proposal_ratio) {
159 return do_accept_or_reject_move(score, get_last_accepted_energy(),
163 MonteCarloMoverResult do_move();
165 virtual void do_step();
182 isf_->set_moved_particles(moved);
184 if (get_maximum_difference() <
NO_MAX) {
186 false, last_energy_ + max_difference_);
196 double max_difference_;
197 unsigned int stat_downward_steps_taken_;
198 unsigned int stat_upward_steps_taken_;
199 unsigned int stat_num_failures_;
203 ::boost::uniform_real<> rand_;
211 unsigned int num_local_;
216 unsigned int get_number_of_steps()
const {
return num_local_; }
218 Optimizer *get_local_optimizer()
const {
return opt_; }
243 IMPCORE_END_NAMESPACE
double get_kt(double T)
Return kT for a given temperature in units of [kcal/mol/K].
unsigned int get_number_of_upward_steps() const
Return how many times the optimizer has stepped to higher score.
Score model efficiently when a small number of particles are changed.
double get_score_threshold() const
Get the score threshold.
const double NO_MAX
Use this value when you want to turn off maximum for restraint evaluation.
IMP::Vector< IMP::Pointer< MonteCarloMover > > MonteCarloMovers
void set_maximum_difference(double d)
#define IMP_OBJECT_METHODS(Name)
Define the basic things needed by any Object.
double get_last_accepted_energy() const
Return the energy of the last accepted state.
Base class for all optimizers.
void set_score_threshold(double s)
Set the score threshold.
Macros to define containers of objects.
A smart pointer to a reference counted object.
#define IMP_INTERNAL_CHECK(expr, message)
An assertion to check for internal errors in IMP. An IMP::ErrorException will be thrown.
virtual void do_step()
a class that inherits from this should override this method
Class for storing model, its restraints, constraints, and particles.
This variant of Monte Carlo uses basis hopping.
unsigned int get_number_of_downward_steps() const
Return how many times the optimizer has stepped to lower score.
virtual double do_optimize(unsigned int ns)=0
override this function to do actual optimization
#define IMP_UNUSED(variable)
virtual double do_evaluate(const ParticleIndexes &moved) const
Get the current energy.
Base class for all optimizers.
The base class for movers for MC optimization.
unsigned int get_number_of_accepted_steps() const
Get number of accepted moves.
A smart pointer to a ref-counted Object that is a class member.
This variant of Monte Carlo that relaxes after each move.
double get_best_accepted_energy() const
If return best is on, returns the best energy found so far.
double Float
Basic floating-point value (could be float, double...)
#define IMP_USAGE_CHECK(expr, message)
A runtime test for incorrect usage of a class or method.
virtual void do_step()
a class that inherits from this should override this method
Store a set of configurations of the model.
Functions to search over vectors.
double evaluate(bool derivatives)
Evaluate and return the score.
unsigned int get_number_of_proposed_steps() const
Get number of proposed moves.
#define IMP_OVERRIDE
Cause a compile error if this method does not override a parent method.
ScoringFunction * get_scoring_function() const
Return the scoring function that is being used.