doc/ref/RelativePositionMover_8h_source.html

 /**

  *  \file IMP/em2d/RelativePositionMover.h

  *  \brief Mover for Rigid Bodies moving respect to each other

  *

  *  Copyright 2007-2022 IMP Inventors. All rights reserved.

  *

  */


 #ifndef IMPEM2D_RELATIVE_POSITION_MOVER_H

 #define IMPEM2D_RELATIVE_POSITION_MOVER_H


 #include <IMP/em2d/em2d_config.h>

 #include "IMP/core/RigidBodyMover.h"

 #include "IMP/core/rigid_bodies.h"

 #include "IMP/algebra/Transformation3D.h"

 #include <vector>


 IMPEM2D_BEGIN_NAMESPACE


 /*! Class for the movement of rigid bodies respect to each other. The class

     is initiated with the rigid body that is going to move (let's call it A).

     Afterwards, one  of more rigid bodies can be added as references.

     Each reference rigid

     body needs to specify the set of the internal (relative) transformations

     that A can have respect to it.

 */

 typedef std::vector<algebra::Transformation3Ds> Transformation3DsList;


 /** Move a nested rigid body. */

 class IMPEM2DEXPORT RelativePositionMover : public core::RigidBodyMover {


  protected:

   core::RigidBody rbA_;

   core::RigidBodies reference_rbs_;

   Transformation3DsList transformations_map_;

   algebra::Transformation3D last_transformation_;

   Float max_translation_;

   Float max_angle_;

   Float probability_of_random_move_;


  public:

   RelativePositionMover(core::RigidBody d, Float max_translation,

                         Float max_rotation);


   /*! Adds a reference RigidBody and the set of internal transformations.

       The internal transformations are used for positioning the rigid body

       that this Mover is moving

     \param[in] d Reference rigid body

     \param[in] transforms The internal transformations

   */

   void add_internal_transformations(core::RigidBody d,

                                     algebra::Transformation3Ds transforms);


   /*!

     \param[in] p Probability of a random move instead of a relative one.

                  default is 0.

   */

   void set_random_move_probability(Float p) { probability_of_random_move_ = p; }


  protected:

   virtual core::MonteCarloMoverResult do_propose() override;

   virtual void do_reject() override;

   IMP_OBJECT_METHODS(RelativePositionMover);

 };


 IMPEM2D_END_NAMESPACE


 #endif /* IMPEM2D_RELATIVE_POSITION_MOVER_H */

IMP::algebra::Transformation3D
Simple 3D transformation class.
Definition: Transformation3D.h:37

IMP::core::RigidBodyMover::do_propose
virtual MonteCarloMoverResult do_propose() override
Implement propose_move()

IMP::em2d::RelativePositionMover
Definition: RelativePositionMover.h:30

IMP_OBJECT_METHODS
#define IMP_OBJECT_METHODS(Name)
Define the basic things needed by any Object.
Definition: object_macros.h:25

IMP::core::RigidBodyMover::do_reject
virtual void do_reject() override
Implement reset_proposed_move()

IMP::core::RigidBodyMover
Modify the transformation of a rigid body.
Definition: core/RigidBodyMover.h:31

IMP::core::MonteCarloMoverResult
Return value of the MonteCarloMover::propose() function.
Definition: MonteCarloMover.h:31

IMP::Vector< RigidBody >

RigidBodyMover.h
A mover that transforms a rigid body.

rigid_bodies.h
functionality for defining rigid bodies

Transformation3D.h
Simple 3D transformation class.

IMP::em2d::RelativePositionMover::set_random_move_probability
void set_random_move_probability(Float p)
Definition: RelativePositionMover.h:58

IMP::Float
double Float
Basic floating-point value (could be float, double...)
Definition: types.h:19

IMP::core::RigidBody
A decorator for a rigid body.
Definition: rigid_bodies.h:82

IMP::em2d::Transformation3DsList
std::vector< algebra::Transformation3Ds > Transformation3DsList
Definition: RelativePositionMover.h:27