/usr/include/liggghts/domain_I.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:
(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_DOMAIN_I_H
#define LMP_DOMAIN_I_H
/* ----------------------------------------------------------------------
check if coordinate in domain, subdomain or extended subdomain
need to test with <= and >= for domain, and < and >= for subdomain
inlined for performance
------------------------------------------------------------------------- */
inline int Domain::is_in_domain(double* pos)
{
if(is_wedge)
return is_in_domain_wedge(pos);
if
(
pos[0] >= boxlo[0] && pos[0] <= boxhi[0] &&
pos[1] >= boxlo[1] && pos[1] <= boxhi[1] &&
pos[2] >= boxlo[2] && pos[2] <= boxhi[2]
) return 1;
return 0;
}
inline int Domain::is_in_subdomain(double* pos)
{
if(is_wedge)
return is_in_subdomain_wedge(pos);
double checkhi[3];
double checklo[3];
// If subdomain touches the lower or upper boundaries of the bounding box then
// add a small padding to avoid rounding errors
checkhi[0] = subhi[0] + (MathExtraLiggghts::compDouble(subhi[0], boxhi[0]) ? SMALL_DMBRDR : 0.0);
checkhi[1] = subhi[1] + (MathExtraLiggghts::compDouble(subhi[1], boxhi[1]) ? SMALL_DMBRDR : 0.0);
checkhi[2] = subhi[2] + (MathExtraLiggghts::compDouble(subhi[2], boxhi[2]) ? SMALL_DMBRDR : 0.0);
checklo[0] = sublo[0] - (MathExtraLiggghts::compDouble(sublo[0], boxlo[0]) ? SMALL_DMBRDR : 0.0);
checklo[1] = sublo[1] - (MathExtraLiggghts::compDouble(sublo[1], boxlo[1]) ? SMALL_DMBRDR : 0.0);
checklo[2] = sublo[2] - (MathExtraLiggghts::compDouble(sublo[2], boxlo[2]) ? SMALL_DMBRDR : 0.0);
if ( pos[0] >= checklo[0] && pos[0] < checkhi[0] &&
pos[1] >= checklo[1] && pos[1] < checkhi[1] &&
pos[2] >= checklo[2] && pos[2] < checkhi[2])
return 1;
return 0;
}
inline int Domain::is_in_extended_subdomain(double* pos)
{
if(is_wedge)
return is_in_extended_subdomain_wedge(pos);
// called on insertion
// yields true if particle would be in subdomain after box extension
if (is_in_subdomain(pos))
return 1;
else if (dimension == 2)
error->all(FLERR,"Domain::is_in_extended_subdomain() not implemented for 2d");
else
{
bool flag = true;
for(int idim = 0; idim < 3; idim++)
{
if (comm->procgrid[idim] == 1) {}
else if(comm->myloc[idim] == comm->procgrid[idim]-1)
flag = flag && (pos[idim] >= sublo[idim]);
else if(comm->myloc[idim] == 0)
flag = flag && (pos[idim] <= subhi[idim]);
else
flag = flag && (pos[idim] >= sublo[idim] && pos[idim] < subhi[idim]);
}
if(flag) return 1;
return 0;
}
return 0;
}
/* ----------------------------------------------------------------------
check distance from borders of subbox
------------------------------------------------------------------------- */
inline double Domain::dist_subbox_borders(double* pos)
{
if(is_wedge)
return dist_subbox_borders_wedge(pos);
double deltalo[3], deltahi[3], dlo, dhi;
vectorSubtract3D(sublo,pos,deltalo);
vectorSubtract3D(subhi,pos,deltahi);
vectorAbs3D(deltalo);
vectorAbs3D(deltahi);
dlo = vectorMin3D(deltalo);
dhi = vectorMin3D(deltahi);
if(dlo < dhi)
return dlo;
return dhi;
}
/* ----------------------------------------------------------------------
return smallest extent ob subbox
------------------------------------------------------------------------- */
inline void Domain::min_subbox_extent(double &min_extent,int &dim)
{
if(is_wedge)
error->one(FLERR,"missing implementation");
double delta[3];
vectorSubtract3D(subhi,sublo,delta);
min_extent = vectorMin3D(delta,dim);
}
/* ----------------------------------------------------------------------
domain check
------------------------------------------------------------------------- */
inline int Domain::is_periodic_ghost(int i)
{
if(i < atom->nlocal) return 0;
if(is_wedge)
return is_periodic_ghost_wedge(i);
int idim;
double *x = atom->x[i];
const double cutneighmax = neighbor->cutneighmax;
for(idim = 0; idim < 3; idim++)
if ((x[idim] < (boxlo[idim]+cutneighmax) || x[idim] > (boxhi[idim]-cutneighmax)) && periodicity[idim])
return 1;
return 0;
}
/* ----------------------------------------------------------------------
check if atom is the true representation of the particle on this subdomain
used when tallying stats across owned and ghost particles
------------------------------------------------------------------------- */
inline bool Domain::is_owned_or_first_ghost(int i)
{
if(!atom->tag_enable)
error->one(FLERR,"The current simulation setup requires atoms to have tags");
if(0 == atom->map_style)
error->one(FLERR,"The current simulation setup requires an 'atom_modify map' command to allocate an atom map");
if(i == atom->map(atom->tag[i]))
return true;
return false;
}
#endif
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