/usr/include/liggghts/multisphere.h is in libliggghts-dev 3.7.0+repack1-1.
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This is the
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╚══════╝╚═╝ ╚═════╝ ╚═════╝ ╚═════╝ ╚═╝ ╚═╝ ╚═╝ ╚══════╝®
DEM simulation engine, released by
DCS Computing Gmbh, Linz, Austria
http://www.dcs-computing.com, office@dcs-computing.com
LIGGGHTS® is part of CFDEM®project:
http://www.liggghts.com | http://www.cfdem.com
Core developer and main author:
Christoph Kloss, christoph.kloss@dcs-computing.com
LIGGGHTS® is open-source, distributed under the terms of the GNU Public
License, version 2 or later. It is distributed in the hope that it will
be useful, but WITHOUT ANY WARRANTY; without even the implied warranty
of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. You should have
received a copy of the GNU General Public License along with LIGGGHTS®.
If not, see http://www.gnu.org/licenses . See also top-level README
and LICENSE files.
LIGGGHTS® and CFDEM® are registered trade marks of DCS Computing GmbH,
the producer of the LIGGGHTS® software and the CFDEM®coupling software
See http://www.cfdem.com/terms-trademark-policy for details.
-------------------------------------------------------------------------
Contributing author and copyright for this file:
(if not contributing author is listed, this file has been contributed
by the core developer)
Copyright 2012- DCS Computing GmbH, Linz
Copyright 2009-2012 JKU Linz
------------------------------------------------------------------------- */
#ifndef LMP_MULTISPHERE_H
#define LMP_MULTISPHERE_H
#include "pointers.h"
#include "custom_value_tracker.h"
#include "mpi_liggghts.h"
#include "update.h"
#include <vector>
namespace LAMMPS_NS {
class Multisphere : protected Pointers {
friend class FixMultisphere;
friend class FixChangeSizeMultisphere;
friend class SetMultisphere;
friend class FixMoveMultisphere;
public:
void add_body(int nspheres, double *xcm_ins, double *xcm_to_xbound_ins,
double r_bound_ins, double *v_ins, double *omega_ins,
double mass_ins, double dens_ins, int atomtype_ins, int type_ins,
double *inertia_ins, double *ex_space_ins, double *ey_space_ins, double *ez_space_ins,
double **displace_ins,bool *fflag, bool *tflag, int start_step_ins = -1, double *v_integrate_ins = NULL);
void grow_arrays_per_body_local(int);
void grow_arrays_per_body_global(int);
void remove_body(int ilocal);
void copy_body(int from_local, int to_local);
void remap_bodies(int *body);
void clear_map();
void generate_map();
void id_extend_body_extend(int *body);
void calc_nbody_all();
bool check_lost_atoms(int *body, double *atom_delflag,double *body_existflag, double *volumeweight);
int calc_n_steps(int iatom,int body,double *p_ref,double *normalvec,double *v_normal);
void recalc_n_steps(double dt_ratio);
void release(int iatom,int body,double *v_toInsert,double *omega_toInsert);
double max_r_bound();
virtual void exchange() {}
virtual void writeRestart(FILE *);
virtual void restart(double *);
void reset_forces(bool extflag);
void* extract(const char *name, int &, int &);
double *extract_double_scalar(const char *name);
double **extract_double_vector(const char *name);
double extract_ke();
double extract_rke();
double extract_vave();
double extract_omega_ave();
// inline access functions
inline int n_body()
{ return nbody_; }
inline int n_body_all()
{ return nbody_all_; }
inline int tag_max_body()
{ return mapTagMax_; }
inline int map(int ibody_local)
{ return mapArray_?mapArray_[ibody_local]:-1; }
inline int tag(int ibody_local)
{ return id_(ibody_local); }
inline bool has_tag(int _tag)
{ return mapArray_[_tag] == -1 ? false : true;}
inline int atomtype(int ibody_local)
{ return atomtype_(ibody_local); }
inline int nrigid(int ibody_local)
{ return nrigid_(ibody_local); }
inline void xcm(double *x_cm,int ibody_local)
{ vectorCopy3D(xcm_(ibody_local),x_cm); }
inline void vcm(double *v_cm,int ibody_local)
{ vectorCopy3D(vcm_(ibody_local),v_cm); }
inline void quat(double *quat,int ibody_local)
{ vectorCopy4D(quat_(ibody_local),quat); }
inline void add_external_force(double *frc,int ibody_local)
{ vectorAdd3D(fcm_(ibody_local),frc,fcm_(ibody_local)); }
inline void x_bound(double *x_bnd,int ibody_local)
{
vectorZeroize3D(x_bnd);
MathExtraLiggghts::local_coosys_to_cartesian(x_bnd,xcm_to_xbound_(ibody_local),
ex_space_(ibody_local),ey_space_(ibody_local),ez_space_(ibody_local));
vectorAdd3D(xcm_(ibody_local),x_bnd,x_bnd);
}
inline double r_bound(int ibody_local)
{ return r_bound_(ibody_local); }
inline double mass(int ibody_local)
{ return masstotal_(ibody_local); }
inline double density(int ibody_local)
{ return density_(ibody_local); }
inline double volume(int ibody_local)
{ return masstotal_(ibody_local)/density_(ibody_local); }
inline void set_v_body(int ibody_local,double *vel)
{ vcm_.set(ibody_local,vel); }
inline void set_omega_body(int ibody_local,double *omega)
{ omega_.set(ibody_local,omega); }
inline class CustomValueTracker& prop()
{ return customValues_; }
void tagReset(int ibody_local)
{ id_(ibody_local)=-1; }
void nrigidReset(int ibody_local, int resetValue)
{ nrigid_(ibody_local) = resetValue; }
protected:
Multisphere(LAMMPS *lmp);
virtual ~Multisphere();
// class holding fields
CustomValueTracker &customValues_;
// # of local rigid bodies, and global # bodies on all procs
int nbody_, nbody_all_;
// global-local lookup
int mapTagMax_;
int *mapArray_;
// ID of rigid body
ScalarContainer<int> &id_;
// basic body properties
// center-of-mass coords, vels, forces, torques of each rigid body
// extra (external) force on center-of-mass of each
VectorContainer<double,3> &xcm_;
VectorContainer<double,3> &vcm_;
VectorContainer<double,3> &fcm_;
VectorContainer<double,3> &torquecm_;
VectorContainer<double,3> &dragforce_cm_;
VectorContainer<double,3> &hdtorque_cm_;
// angular momentum of each in space coords
// angular velocity of each in space coords
// quaternion of each rigid body
VectorContainer<double,3> &angmom_;
VectorContainer<double,3> &omega_;
VectorContainer<double,4> &quat_;
// density and total mass of each rigid body
// 3 principal components of inertia of each
// principal axes of each in space coords
ScalarContainer<int> &atomtype_;
ScalarContainer<int> &type_;
ScalarContainer<double> &density_;
ScalarContainer<double> &masstotal_;
VectorContainer<double,3> &inertia_;
VectorContainer<double,3> &ex_space_;
VectorContainer<double,3> &ey_space_;
VectorContainer<double,3> &ez_space_;
// # of atoms in each rigid body
ScalarContainer<int> &nrigid_;
// image flags of xcm of each rigid body
ScalarContainer<int> &imagebody_;
VectorContainer<int,4> &remapflag_;
// flag for on/off of center-of-mass force, torque
VectorContainer<bool,3> &fflag_;
VectorContainer<bool,3> &tflag_;
// step to start from for integration
ScalarContainer<int> &start_step_;
VectorContainer<double,3> &v_integrate_;
// bounding radius for each body
// vector from xcm to center of bound sphere
ScalarContainer<double> &r_bound_;
VectorContainer<double,3> &xcm_to_xbound_;
// temperature and buffer for each body
ScalarContainer<double> &temp_;
ScalarContainer<double> &temp_old_;
};
// *************************************
#include "multisphere_I.h"
// *************************************
} //Namespace
#endif
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