/usr/include/liggghts/container_base.h is in libliggghts-dev 3.5.0+repack1-10.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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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:
Christoph Kloss (DCS Computing GmbH, Linz)
Christoph Kloss (JKU Linz)
Philippe Seil (JKU Linz)
Copyright 2012- DCS Computing GmbH, Linz
Copyright 2009-2012 JKU Linz
------------------------------------------------------------------------- */
#ifndef LMP_CONTAINER_BASE_H
#define LMP_CONTAINER_BASE_H
#include <string.h>
namespace LAMMPS_NS
{
// buffer operation types (for push and pop)
enum{ OPERATION_COMM_EXCHANGE,
OPERATION_COMM_BORDERS,
OPERATION_COMM_FORWARD,
OPERATION_COMM_REVERSE,
OPERATION_RESTART,
OPERATION_UNDEFINED};
/* ----------------------------------------------------------------------
definition of reference frames and comm types
------------------------------------------------------------------------- */
// reference frame types
// invariant: invariant to scaling, translation, rotation
// trans invariant: invariant to translation, not invariant to scaling, rotation
// trans+rot invariant: invariant to translation, rotation, not invariant to scaling
// general: not invariant to scaling, translation, rotation
enum{ REF_FRAME_UNDEFINED,
REF_FRAME_INVARIANT,
REF_FRAME_SCALE_TRANS_INVARIANT,
REF_FRAME_TRANS_ROT_INVARIANT,
REF_FRAME_TRANS_INVARIANT,
REF_FRAME_GENERAL};
// communication types
enum{ // communication invoked manually
COMM_TYPE_MANUAL,
// only exchange and borders comm
COMM_EXCHANGE_BORDERS,
// forward comm every step
COMM_TYPE_FORWARD,
// forward comm based on reference frame setting
// ie if mesh rotates, egdeVecs are communicated
COMM_TYPE_FORWARD_FROM_FRAME,
// reverse comm every step
COMM_TYPE_REVERSE,
// reverse comm every step
COMM_TYPE_REVERSE_BITFIELD,
// no comm at all
COMM_TYPE_NONE,
// undefined state for error check
COMM_TYPE_UNDEFINED}; // communication types
// restart types
enum{ RESTART_TYPE_UNDEFINED,
RESTART_TYPE_YES,
RESTART_TYPE_NO};
/* ----------------------------------------------------------------------
class definitions
------------------------------------------------------------------------- */
class ContainerBase
{
public:
ContainerBase(const char *_id);
virtual ~ContainerBase();
void setProperties(const char *_id, const char* _comm, const char* _ref, const char *_restart,int _scalePower = 1);
bool propertiesSetCorrectly();
void setContainerStatistics(double _weighting_factor, class ContainerBase *_cb_stat, class ContainerBase *_cb_scale,
class ContainerBase *_cb_red_scale = 0, bool _forget = true);
inline const char* id()
{return id_; }
inline void id(char *_id);
inline bool matches_id(const char *_id);
virtual bool isDoubleData() = 0;
virtual bool isIntData() = 0;
virtual void addZero() = 0;
virtual void addUninitialized(int n) = 0;
virtual int size() const = 0;
virtual int capacity() const = 0;
virtual int nVec() const = 0;
virtual int lenVec() const = 0;
virtual void* begin_slow_dirty() = 0;
virtual void clearContainer() = 0;
virtual void copy(int from,int to) = 0;
virtual void del(int n) = 0;
virtual void delForward(int n,bool scale,bool translate,bool rotate) = 0;
virtual void delRestart(int n,bool scale,bool translate,bool rotate) = 0;
virtual void delRestart(bool scale,bool translate,bool rotate) = 0;
virtual void clearReverse(bool scale,bool translate,bool rotate) = 0;
virtual bool setFromContainer(ContainerBase *cont) = 0;
bool isStatisticsContainer()
{ return (container_statistics_raw_data_!=0); }
bool calcStatistics();
bool updateScalingContainer();
bool normalizeStatistics();
virtual bool calcAvgFromContainer() = 0;
virtual bool calcMeanSquareFromContainer() = 0;
virtual bool calcSumFromContainer() = 0;
virtual bool normalizeContainer() = 0;
virtual void scale(double factor) = 0;
virtual void move(double *dx) = 0;
virtual void moveElement(int i,double *dx) = 0;
virtual void rotate(double *dQ) = 0;
virtual void setToDefault(int n) = 0;
virtual void setAllToZero() = 0;
inline bool useDefault()
{ return useDefault_ ; }
inline int getStatLevel() const
{ return statLevel_; }
bool isScalingContainer() const
{ return scalingContainer_; }
void setScalingContainer(bool _value)
{ scalingContainer_ = _value; }
inline void setWeightingFactor(double _value)
{ weighting_factor_ = _value; }
inline void setAveragingForget(bool _value)
{ averaging_forget_ = _value; }
inline int communicationType() const
{ return communicationType_; }
// buffer functions for parallelization
virtual int bufSize(int operation = OPERATION_UNDEFINED,
bool scale=false,bool translate=false, bool rotate=false) const = 0;
virtual int popFromBuffer(double *buf,int operation,
bool scale=false,bool translate=false, bool rotate=false) = 0;
virtual int pushToBuffer(double *buf,int operation,
bool scale=false,bool translate=false, bool rotate=false) = 0;
virtual int elemListBufSize(int n, int operation = OPERATION_UNDEFINED,
bool scale=false,bool translate=false, bool rotate=false) = 0;
virtual int pushElemListToBuffer(int n, int *list, double *buf, int operation,
bool scale=false,bool translate=false, bool rotate=false) = 0;
virtual int popElemListFromBuffer(int first, int n, double *buf, int operation,
bool scale=false,bool translate=false, bool rotate=false) = 0;
virtual int pushElemListToBufferReverse(int first, int n, double *buf, int operation,
bool scale=false,bool translate=false, bool rotate=false) = 0;
virtual int popElemListFromBufferReverse(int n, int *list, double *buf, int operation,
bool scale=false,bool translate=false, bool rotate=false) = 0;
virtual int elemBufSize(int operation = OPERATION_UNDEFINED,
bool scale=false,bool translate=false, bool rotate=false) = 0;
virtual int pushElemToBuffer(int n, double *buf,int operation,
bool scale=false,bool translate=false, bool rotate=false) = 0;
virtual int popElemFromBuffer(double *buf,int operation,
bool scale=false,bool translate=false, bool rotate=false) = 0;
// static elements
static const char * AVERAGESUFFIX;
static const char * MEANSQUARESUFFIX;
protected:
ContainerBase(const char *_id, const char* _comm, const char* _ref, const char *_restart,int _scalePower);
ContainerBase(ContainerBase const &orig);
inline bool isScaleInvariant() const;
inline bool isTranslationInvariant() const;
inline bool isRotationInvariant() const;
inline bool decidePackUnpackOperation(int operation,bool scale,bool translate, bool rotate) const;
inline bool decideCommOperation(int operation) const;
inline bool decideCreateNewElements(int operation);
char *id_;
int communicationType_;
int refFrame_;
int restartType_;
int scalePower_;
bool useDefault_;
class ContainerBase *container_statistics_raw_data_;
class ContainerBase *container_statistics_scale_data_;
class ContainerBase *container_statistics_reduced_scale_data_;
int statLevel_;
double weighting_factor_;
bool scalingContainer_;
bool averaging_forget_;
private:
ContainerBase();
};
// *************************************
#include "container_base_I.h"
// *************************************
} /* LAMPPS_NS */
#endif /* CONTAINERBASE_H_ */
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