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colvar::tilt Class Reference

\brief Colvar component: projection of the orientation vector onto a predefined axis (colvarvalue::type_scalar type, range [-1:1]). More...

#include <colvarcomp.h>

Inheritance diagram for colvar::tilt:

colvar::orientation colvar::cvc colvarparse colvardeps colvarparams List of all members.

Public Methods

 tilt (std::string const &conf)
virtual int init (std::string const &conf)
 An init function should be defined for every class inheriting from cvc
Parameters:
conf  Contents of the configuration file pertaining to this cvc.
More...


virtual ~tilt ()
virtual void calc_value ()
 \brief Calculate the variable. More...

virtual void calc_gradients ()
 \brief Calculate the atomic gradients, to be reused later in order to apply forces. More...

virtual void apply_force (colvarvalue const &force)
 \brief Apply the collective variable force, by communicating the atomic forces to the simulation program (Note: the ft member is not altered by this function) Note: multiple calls to this function within the same simulation step will add the forces altogether
Parameters:
cvforce  The collective variable force, usually coming from the biases and eventually manipulated by the parent colvar object.
More...


virtual cvm::real dist2 (colvarvalue const &x1, colvarvalue const &x2) const
 \brief Square distance between x1 and x2 (can be redefined to transparently implement constraints, symmetries and periodicities) colvar::cvc::dist2() and the related functions are declared as "const" functions, but not "static", because additional parameters defining the metrics (e.g. the periodicity) may be specific to each colvar::cvc object. If symmetries or periodicities are present, the colvar::cvc::dist2() should be redefined to return the "closest distance" value and colvar::cvc::dist2_lgrad(), colvar::cvc::dist2_rgrad() to return its gradients. If constraints are present (and not already implemented by any of the colvarvalue types), the colvar::cvc::dist2_lgrad() and colvar::cvc::dist2_rgrad() functions should be redefined to provide a gradient which is compatible with the constraint, i.e. already deprived of its component normal to the constraint hypersurface. Finally, another useful application, if you are performing very many operations with these functions, could be to override the colvarvalue member functions and access directly its member data. For instance: to define dist2(x1,x2) as (x2.real_value-x1.real_value)*(x2.real_value-x1.real_value) in case of a scalar colvarvalue type. More...

virtual colvarvalue dist2_lgrad (colvarvalue const &x1, colvarvalue const &x2) const
 \brief Gradient(with respect to x1) of the square distance (can be redefined to transparently implement constraints, symmetries and periodicities). More...

virtual colvarvalue dist2_rgrad (colvarvalue const &x1, colvarvalue const &x2) const
 \brief Gradient(with respect to x2) of the square distance (can be redefined to transparently implement constraints, symmetries and periodicities). More...


Protected Attributes

cvm::rvector axis

Detailed Description

\brief Colvar component: projection of the orientation vector onto a predefined axis (colvarvalue::type_scalar type, range [-1:1]).

Definition at line 1298 of file colvarcomp.h.


Constructor & Destructor Documentation

colvar::tilt::tilt std::string const &    conf
 

virtual colvar::tilt::~tilt   [inline, virtual]
 

Definition at line 1309 of file colvarcomp.h.


Member Function Documentation

void colvar::tilt::apply_force colvarvalue const &    force [virtual]
 

\brief Apply the collective variable force, by communicating the atomic forces to the simulation program (Note: the ft member is not altered by this function) Note: multiple calls to this function within the same simulation step will add the forces altogether

Parameters:
cvforce  The collective variable force, usually coming from the biases and eventually manipulated by the parent colvar object.

Reimplemented from colvar::orientation.

Definition at line 319 of file colvarcomp_rotations.C.

References colvar::orientation::atoms, force, and colvarvalue::real_value.

void colvar::tilt::calc_gradients   [virtual]
 

\brief Calculate the atomic gradients, to be reused later in order to apply forces.

Reimplemented from colvar::orientation.

Definition at line 306 of file colvarcomp_rotations.C.

References colvar::orientation::atoms, and colvar::orientation::rot.

void colvar::tilt::calc_value   [virtual]
 

\brief Calculate the variable.

Reimplemented from colvar::orientation.

Definition at line 296 of file colvarcomp_rotations.C.

References colvar::orientation::atoms, colvar::orientation::atoms_cog, colvarvalue::real_value, colvar::orientation::ref_pos, colvar::orientation::rot, and colvar::cvc::x.

virtual cvm::real colvar::tilt::dist2 colvarvalue const &    x1,
colvarvalue const &    x2
const [virtual]
 

\brief Square distance between x1 and x2 (can be redefined to transparently implement constraints, symmetries and periodicities) colvar::cvc::dist2() and the related functions are declared as "const" functions, but not "static", because additional parameters defining the metrics (e.g. the periodicity) may be specific to each colvar::cvc object. If symmetries or periodicities are present, the colvar::cvc::dist2() should be redefined to return the "closest distance" value and colvar::cvc::dist2_lgrad(), colvar::cvc::dist2_rgrad() to return its gradients. If constraints are present (and not already implemented by any of the colvarvalue types), the colvar::cvc::dist2_lgrad() and colvar::cvc::dist2_rgrad() functions should be redefined to provide a gradient which is compatible with the constraint, i.e. already deprived of its component normal to the constraint hypersurface. Finally, another useful application, if you are performing very many operations with these functions, could be to override the colvarvalue member functions and access directly its member data. For instance: to define dist2(x1,x2) as (x2.real_value-x1.real_value)*(x2.real_value-x1.real_value) in case of a scalar colvarvalue type.

Reimplemented from colvar::orientation.

virtual colvarvalue colvar::tilt::dist2_lgrad colvarvalue const &    x1,
colvarvalue const &    x2
const [virtual]
 

\brief Gradient(with respect to x1) of the square distance (can be redefined to transparently implement constraints, symmetries and periodicities).

Reimplemented from colvar::orientation.

virtual colvarvalue colvar::tilt::dist2_rgrad colvarvalue const &    x1,
colvarvalue const &    x2
const [virtual]
 

\brief Gradient(with respect to x2) of the square distance (can be redefined to transparently implement constraints, symmetries and periodicities).

Reimplemented from colvar::orientation.

int colvar::tilt::init std::string const &    conf [virtual]
 

An init function should be defined for every class inheriting from cvc

Parameters:
conf  Contents of the configuration file pertaining to this cvc.

Reimplemented from colvar::orientation.

Definition at line 280 of file colvarcomp_rotations.C.

References conf, colvarparse::get_keyval, and colvarmodule::log.


Member Data Documentation

cvm::rvector colvar::tilt::axis [protected]
 

Definition at line 1303 of file colvarcomp.h.


The documentation for this class was generated from the following files:
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