/usr/include/liggghts/general_container.h is in libliggghts-dev 3.0.3+repack-2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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LIGGGHTS - LAMMPS Improved for General Granular and Granular Heat
Transfer Simulations
LIGGGHTS is part of the CFDEMproject
www.liggghts.com | www.cfdem.com
Christoph Kloss, christoph.kloss@cfdem.com
Copyright 2009-2012 JKU Linz
Copyright 2012- DCS Computing GmbH, Linz
LIGGGHTS is based on LAMMPS
LAMMPS - Large-scale Atomic/Molecular Massively Parallel Simulator
http://lammps.sandia.gov, Sandia National Laboratories
Steve Plimpton, sjplimp@sandia.gov
This software is distributed under the GNU General Public License.
See the README file in the top-level directory.
------------------------------------------------------------------------- */
/* ----------------------------------------------------------------------
Contributing authors:
Christoph Kloss (JKU Linz, DCS Computing GmbH, Linz)
Philippe Seil (JKU Linz)
------------------------------------------------------------------------- */
#ifndef LMP_GENERAL_CONTAINER
#define LMP_GENERAL_CONTAINER
#include "container_base.h"
#include "memory_ns.h"
#include "math_extra_liggghts.h"
#include <string.h>
#define GROW 100
using namespace LAMMPS_MEMORY_NS;
namespace LAMMPS_NS
{
template<typename T, int NUM_VEC, int LEN_VEC>
class GeneralContainer : public ContainerBase
{
public:
bool isDoubleData();
bool isIntData();
void add(T** elem);
void addZero();
void copy(int from,int to);
void del(int n);
void delForward(int n,bool scale,bool translate,bool rotate);
void delRestart(int n,bool scale,bool translate,bool rotate);
void clearReverse(bool scale,bool translate,bool rotate);
void get(int n, T** elem);
void setAll(T def);
void setAll(int to, T def);
void set(int i, T** elem);
void set(int i, int j, T* elem);
bool setFromContainer(ContainerBase *cont);
T max_scalar();
T min_scalar();
T**& operator()(int n);
T** const& operator()(int n) const;
T*** begin();
virtual void* begin_slow_dirty();
inline void scale(double factor);
inline void move(double *dx);
inline void moveElement(int i,double *dx);
inline void rotate(double *dQ);
// all push and pop functions return number of bytes taken from / added to buf
// all push and pop functions expect buf to point to first element with usable data
// push / pop all elements
inline int bufSize(int operation = OPERATION_UNDEFINED,
bool scale=false,bool translate=false, bool rotate=false);
inline int pushToBuffer(double *buf, int operation,
bool scale=false,bool translate=false, bool rotate=false);
inline int popFromBuffer(double *buf, int operation,
bool scale=false,bool translate=false, bool rotate=false);
// push / pop a list elements
inline int elemListBufSize(int n, int operation = OPERATION_UNDEFINED,
bool scale=false,bool translate=false, bool rotate=false);
inline int pushElemListToBuffer(int n, int *list, double *buf, int operation,
bool scale=false,bool translate=false, bool rotate=false);
inline int popElemListFromBuffer(int first, int n, double *buf, int operation,
bool scale=false,bool translate=false, bool rotate=false);
inline int pushElemListToBufferReverse(int first, int n, double *buf, int operation,
bool scale=false,bool translate=false, bool rotate=false);
inline int popElemListFromBufferReverse(int n, int *list, double *buf, int operation,
bool scale=false,bool translate=false, bool rotate=false);
// push / pop one single element
inline int elemBufSize(int operation = OPERATION_UNDEFINED,
bool scale=false,bool translate=false, bool rotate=false);
inline int pushElemToBuffer(int i, double *buf, int operation,
bool scale=false,bool translate=false, bool rotate=false);
inline int popElemFromBuffer(double *buf, int operation,
bool scale=false,bool translate=false, bool rotate=false);
void addUninitialized(int n);
inline int size()
{ return numElem_; }
inline int nVec()
{ return NUM_VEC; }
inline int lenVec()
{ return LEN_VEC; }
inline int capacity()
{ return maxElem_; }
inline void clearContainer()
{ numElem_ = 0; }
protected:
GeneralContainer(const char *_id);
GeneralContainer(const char *_id, const char *_comm, const char *_ref, const char *_restart, int _scalePower = 1);
GeneralContainer(GeneralContainer<T,NUM_VEC,LEN_VEC> const &orig);
virtual ~GeneralContainer();
// shall return the size of an entry in bytes
int getElemSize();
int numElem_, maxElem_;
T*** arr_;
};
// *************************************
#include "general_container_I.h"
// *************************************
} /* LAMPPS_NS */
#endif /* CONTAINERBASE_H_ */
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