// clang-format off /* ---------------------------------------------------------------------- LAMMPS - Large-scale Atomic/Molecular Massively Parallel Simulator https://www.lammps.org/, Sandia National Laboratories Steve Plimpton, sjplimp@sandia.gov Copyright (2003) Sandia Corporation. Under the terms of Contract DE-AC04-94AL85000 with Sandia Corporation, the U.S. Government retains certain rights in this software. This software is distributed under the GNU General Public License. See the README file in the top-level LAMMPS directory. ------------------------------------------------------------------------- */ #include "fix_property_atom.h" #include "atom.h" #include "comm.h" #include "error.h" #include "memory.h" #include "read_data.h" #include "tokenizer.h" #include using namespace LAMMPS_NS; using namespace FixConst; enum{MOLECULE,CHARGE,RMASS,IVEC,DVEC,IARRAY,DARRAY}; /* ---------------------------------------------------------------------- */ FixPropertyAtom::FixPropertyAtom(LAMMPS *lmp, int narg, char **arg) : Fix(lmp, narg, arg), nvalue(0), styles(nullptr), index(nullptr), astyle(nullptr) { if (narg < 4) error->all(FLERR,"Illegal fix property/atom command"); restart_peratom = 1; wd_section = 1; int iarg = 3; nvalue = narg-iarg; styles = new int[nvalue]; cols = new int[nvalue]; index = new int[nvalue]; molecule_flag = 0; q_flag = 0; rmass_flag = 0; nvalue = 0; values_peratom = 0; while (iarg < narg) { if (strcmp(arg[iarg],"mol") == 0) { if (atom->molecule_flag) error->all(FLERR,"Fix property/atom mol when atom_style already has molecule attribute"); if (molecule_flag) error->all(FLERR,"Fix property/atom cannot specify mol twice"); styles[nvalue] = MOLECULE; cols[nvalue] = 0; atom->molecule_flag = molecule_flag = 1; values_peratom++; nvalue++; iarg++; } else if (strcmp(arg[iarg],"q") == 0) { if (atom->q_flag) error->all(FLERR,"Fix property/atom q when atom_style already has charge attribute"); if (q_flag) error->all(FLERR,"Fix property/atom cannot specify q twice"); styles[nvalue] = CHARGE; cols[nvalue] = 0; atom->q_flag = q_flag = 1; values_peratom++; nvalue++; iarg++; } else if (strcmp(arg[iarg],"rmass") == 0) { if (atom->rmass_flag) error->all(FLERR,"Fix property/atom rmass when atom_style already has rmass attribute"); if (rmass_flag) error->all(FLERR,"Fix property/atom cannot specify rmass twice"); styles[nvalue] = RMASS; cols[nvalue] = 0; atom->rmass_flag = rmass_flag = 1; values_peratom++; nvalue++; iarg++; // custom atom vector } else if (utils::strmatch(arg[iarg],"^i_")) { styles[nvalue] = IVEC; int flag,ncols; index[nvalue] = atom->find_custom(&arg[iarg][2],flag,ncols); if (index[nvalue] >= 0) error->all(FLERR,"Fix property/atom vector name already exists"); if (ReadData::is_data_section(id)) error->all(FLERR,"Fix property/atom fix ID must not be a data file section name"); index[nvalue] = atom->add_custom(&arg[iarg][2],0,0); cols[nvalue] = 0; values_peratom++; nvalue++; iarg++; } else if (utils::strmatch(arg[iarg],"^d_")) { styles[nvalue] = DVEC; int flag,ncols; index[nvalue] = atom->find_custom(&arg[iarg][2],flag,ncols); if (index[nvalue] >= 0) error->all(FLERR,"Fix property/atom vector name already exists"); if (ReadData::is_data_section(id)) error->all(FLERR,"Fix property/atom fix ID must not be a data file section name"); index[nvalue] = atom->add_custom(&arg[iarg][2],1,0); cols[nvalue] = 0; values_peratom++; nvalue++; iarg++; // custom atom array } else if (utils::strmatch(arg[iarg],"^[id]2_")) { if (iarg+2 > narg) error->all(FLERR,"Illegal fix property/atom command"); int which,flag,ncols; which = atom->find_custom(&arg[iarg][3],flag,ncols); if (which >= 0) error->all(FLERR,"Fix property/atom array name {} already exists", &arg[iarg][3]); if (ReadData::is_data_section(id)) error->all(FLERR,"Fix property/atom fix ID must not be a data file section name"); ncols = utils::inumeric(FLERR,arg[iarg+1],true,lmp); if (ncols < 1) error->all(FLERR,"Invalid array columns number {} in fix property/atom", ncols); if (arg[iarg][0] == 'i') { which = 0; styles[nvalue] = IARRAY; } else { which = 1; styles[nvalue] = DARRAY; } index[nvalue] = atom->add_custom(&arg[iarg][3],which,ncols); cols[nvalue] = ncols; values_peratom += ncols; nvalue++; iarg += 2; // no match } else break; } // optional args border = 0; while (iarg < narg) { if (strcmp(arg[iarg],"ghost") == 0) { if (iarg+2 > narg) error->all(FLERR,"Illegal fix property/atom command"); border = utils::logical(FLERR,arg[iarg+1],false,lmp); iarg += 2; } else error->all(FLERR,"Illegal fix property/atom command"); } if (border) comm_border = values_peratom; // warn if mol or charge keyword used without ghost yes if (border == 0) { int flag = 0; for (int i = 0; i < nvalue; i++) if (styles[i] == MOLECULE || styles[i] == CHARGE || styles[i] == RMASS) flag = 1; if (flag && comm->me == 0) error->warning(FLERR,"Fix property/atom mol or charge or rmass " "w/out ghost communication"); } // store current atom style astyle = utils::strdup(atom->atom_style); // perform initial allocation of atom-based array // register with Atom class nmax_old = 0; if (!lmp->kokkos) FixPropertyAtom::grow_arrays(atom->nmax); atom->add_callback(Atom::GROW); atom->add_callback(Atom::RESTART); if (border) atom->add_callback(Atom::BORDER); } /* ---------------------------------------------------------------------- */ FixPropertyAtom::~FixPropertyAtom() { // unregister callbacks to this fix from Atom class atom->delete_callback(id,Atom::GROW); atom->delete_callback(id,Atom::RESTART); if (border) atom->delete_callback(id,Atom::BORDER); // deallocate per-atom vectors in Atom class // set ptrs to a null pointer, so they no longer exist for Atom class for (int nv = 0; nv < nvalue; nv++) { if (styles[nv] == MOLECULE) { atom->molecule_flag = 0; memory->destroy(atom->molecule); atom->molecule = nullptr; } else if (styles[nv] == CHARGE) { atom->q_flag = 0; memory->destroy(atom->q); atom->q = nullptr; } else if (styles[nv] == RMASS) { atom->rmass_flag = 0; memory->destroy(atom->rmass); atom->rmass = nullptr; } else if (styles[nv] == IVEC) { atom->remove_custom(index[nv],0,cols[nv]); } else if (styles[nv] == DVEC) { atom->remove_custom(index[nv],1,cols[nv]); } else if (styles[nv] == IARRAY) { atom->remove_custom(index[nv],0,cols[nv]); } else if (styles[nv] == DARRAY) { atom->remove_custom(index[nv],1,cols[nv]); } } delete [] styles; delete [] cols; delete [] index; delete [] astyle; } /* ---------------------------------------------------------------------- */ int FixPropertyAtom::setmask() { int mask = 0; return mask; } /* ---------------------------------------------------------------------- */ void FixPropertyAtom::init() { // error if atom style has changed since fix was defined // don't allow this because user could change to style that defines molecule,q if (strcmp(astyle,atom->atom_style) != 0) error->all(FLERR,"Atom style was redefined after using fix property/atom"); } /* ---------------------------------------------------------------------- unpack N lines in buf from section of data file labeled by keyword id_offset is applied to first atomID field if multiple data files are read ------------------------------------------------------------------------- */ void FixPropertyAtom::read_data_section(char *keyword, int n, char *buf, tagint id_offset) { int j,k,m,ncol; tagint itag; char *next; int mapflag = 0; if (atom->map_style == Atom::MAP_NONE) { mapflag = 1; atom->map_init(); atom->map_set(); } // loop over lines of atom info // tokenize the line into values // if I own atom tag, assign its values tagint map_tag_max = atom->map_tag_max; for (int i = 0; i < n; i++) { next = strchr(buf,'\n'); *next = '\0'; try { ValueTokenizer values(buf); if ((int)values.count() != values_peratom+1) error->all(FLERR,"Incorrect format in {} section of data file: {}" " expected {} and got {}",keyword,buf,values_peratom+1,values.count()); itag = values.next_tagint() + id_offset; if (itag <= 0 || itag > map_tag_max) error->all(FLERR,"Invalid atom ID {} in {} section of data file",itag, keyword); // assign words in line to per-atom vectors if ((m = atom->map(itag)) >= 0) { for (j = 0; j < nvalue; j++) { if (styles[j] == MOLECULE) { atom->molecule[m] = values.next_tagint(); } else if (styles[j] == CHARGE) { atom->q[m] = values.next_double(); } else if (styles[j] == RMASS) { atom->rmass[m] = values.next_double(); } else if (styles[j] == IVEC) { atom->ivector[index[j]][m] = values.next_int(); } else if (styles[j] == DVEC) { atom->dvector[index[j]][m] = values.next_double(); } else if (styles[j] == IARRAY) { ncol = cols[j]; for (k = 0; k < ncol; k++) atom->iarray[index[j]][m][k] = values.next_int(); } else if (styles[j] == DARRAY) { ncol = cols[j]; for (k = 0; k < ncol; k++) atom->darray[index[j]][m][k] = values.next_double(); } } } } catch (TokenizerException &e) { error->all(FLERR,"Invalid format in {} section of data file '{}': {}",keyword, buf,e.what()); } buf = next + 1; } if (mapflag) { atom->map_delete(); atom->map_style = 0; } } /* ---------------------------------------------------------------------- return # of lines in section of data file labeled by keyword ------------------------------------------------------------------------- */ bigint FixPropertyAtom::read_data_skip_lines(char * /*keyword*/) { return atom->natoms; } /* ---------------------------------------------------------------------- return size I own for Mth data section # of data sections = 1 for this fix nx = # of local atoms ny = columns = tag + values_peratom ------------------------------------------------------------------------- */ void FixPropertyAtom::write_data_section_size(int /*mth*/, int &nx, int &ny) { nx = atom->nlocal; ny = values_peratom + 1; } /* ---------------------------------------------------------------------- pack values for Mth data section into 2d buf buf allocated by caller as Nlocal by Nvalues+1 ------------------------------------------------------------------------- */ void FixPropertyAtom::write_data_section_pack(int /*mth*/, double **buf) { int i,k,ncol; // 1st column = atom tag // rest of columns = per-atom values tagint *tag = atom->tag; int nlocal = atom->nlocal; for (i = 0; i < nlocal; i++) buf[i][0] = ubuf(tag[i]).d; int icol = 1; for (int nv = 0; nv < nvalue; nv++) { if (styles[nv] == MOLECULE) { tagint *molecule = atom->molecule; for (i = 0; i < nlocal; i++) buf[i][icol] = ubuf(molecule[i]).d; icol++; } else if (styles[nv] == CHARGE) { double *q = atom->q; for (i = 0; i < nlocal; i++) buf[i][icol] = q[i]; icol++; } else if (styles[nv] == RMASS) { double *rmass = atom->rmass; for (i = 0; i < nlocal; i++) buf[i][icol] = rmass[i]; icol++; } else if (styles[nv] == IVEC) { int *ivec = atom->ivector[index[nv]]; for (i = 0; i < nlocal; i++) buf[i][icol] = ubuf(ivec[i]).d; icol++; } else if (styles[nv] == DVEC) { double *dvec = atom->dvector[index[nv]]; for (i = 0; i < nlocal; i++) buf[i][icol] = dvec[i]; icol++; } else if (styles[nv] == IARRAY) { int **iarray = atom->iarray[index[nv]]; ncol = cols[nv]; for (i = 0; i < nlocal; i++) for (k = 0; k < ncol; k++) buf[i][icol+k] = ubuf(iarray[i][k]).d; icol += ncol; } else if (styles[nv] == DARRAY) { double **darray = atom->darray[index[nv]]; ncol = cols[nv]; for (i = 0; i < nlocal; i++) for (k = 0; k < ncol; k++) buf[i][icol+k] = darray[i][k]; icol += ncol; } } } /* ---------------------------------------------------------------------- write a Molecules or Charges section if that is only field manages by this fix instance. Otherwise write everything to the section labeled by the fix ID only called by proc 0 ------------------------------------------------------------------------- */ void FixPropertyAtom::write_data_section_keyword(int /*mth*/, FILE *fp) { if (nvalue == 1 && styles[0] == MOLECULE) fprintf(fp,"\nMolecules\n\n"); else if (nvalue == 1 && styles[0] == CHARGE) fprintf(fp,"\nCharges\n\n"); else { fprintf(fp,"\n%s #",id); // write column hint as comment for (int i = 0; i < nvalue; ++i) { if (styles[i] == MOLECULE) fputs(" mol",fp); else if (styles[i] == CHARGE) fputs(" q",fp); else if (styles[i] == RMASS) fputs(" rmass",fp); else if (styles[i] == IVEC) fprintf(fp," i_%s", atom->ivname[index[i]]); else if (styles[i] == DVEC) fprintf(fp, " d_%s", atom->dvname[index[i]]); else if (styles[i] == IARRAY) fprintf(fp, " i_%s", atom->ianame[index[i]]); else if (styles[i] == DARRAY) fprintf(fp, " d_%s", atom->daname[index[i]]); } fputs("\n\n",fp); } } /* ---------------------------------------------------------------------- write N lines from buf to file convert buf fields to int or double depending on styles index can be used to prepend global numbering only called by proc 0 ------------------------------------------------------------------------- */ void FixPropertyAtom::write_data_section(int /*mth*/, FILE *fp, int n, double **buf, int /*index*/) { int k,icol,ncol,nv; for (int i = 0; i < n; i++) { fprintf(fp,TAGINT_FORMAT,(tagint) ubuf(buf[i][0]).i); icol = 1; for (nv = 0; nv < nvalue; nv++) { if (styles[nv] == MOLECULE) fprintf(fp," " TAGINT_FORMAT,(tagint) ubuf(buf[i][icol++]).i); else if (styles[nv] == CHARGE) fprintf(fp," %g",buf[i][icol++]); else if (styles[nv] == RMASS) fprintf(fp," %g",buf[i][icol++]); else if (styles[nv] == IVEC) fprintf(fp," %d",(int) ubuf(buf[i][icol++]).i); else if (styles[nv] == DVEC) fprintf(fp," %g",buf[i][icol++]); else if (styles[nv] == IARRAY) { ncol = cols[nv]; for (k = 0; k < ncol; k++) fprintf(fp," %d",(int) ubuf(buf[i][icol+k]).i); icol += ncol; } else if (styles[nv] == DARRAY) { ncol = cols[nv]; for (k = 0; k < ncol; k++) fprintf(fp," %g",buf[i][icol+k]); icol += ncol; } } fprintf(fp,"\n"); } } /* ---------------------------------------------------------------------- memory usage of local atom-based array ------------------------------------------------------------------------- */ double FixPropertyAtom::memory_usage() { double bytes = 0.0; for (int m = 0; m < nvalue; m++) { if (styles[m] == MOLECULE) bytes = atom->nmax * sizeof(tagint); else if (styles[m] == CHARGE) bytes = atom->nmax * sizeof(double); else if (styles[m] == RMASS) bytes = atom->nmax * sizeof(double); else if (styles[m] == IVEC) bytes = atom->nmax * sizeof(int); else if (styles[m] == DVEC) bytes = atom->nmax * sizeof(double); else if (styles[m] == IARRAY) bytes = (size_t) atom->nmax * cols[m] * sizeof(int); else if (styles[m] == DARRAY) bytes = (size_t) atom->nmax * cols[m] * sizeof(double); } return bytes; } /* ---------------------------------------------------------------------- allocate atom-based arrays also initialize new values to 0 since AtomVec class won't do it as atoms are added, e.g. in create_atom() or data_atom() ------------------------------------------------------------------------- */ void FixPropertyAtom::grow_arrays(int nmax) { for (int nv = 0; nv < nvalue; nv++) { if (styles[nv] == MOLECULE) { memory->grow(atom->molecule,nmax,"atom:molecule"); size_t nbytes = (nmax-nmax_old) * sizeof(tagint); memset(&atom->molecule[nmax_old],0,nbytes); } else if (styles[nv] == CHARGE) { memory->grow(atom->q,nmax,"atom:q"); size_t nbytes = (nmax-nmax_old) * sizeof(double); memset(&atom->q[nmax_old],0,nbytes); } else if (styles[nv] == RMASS) { memory->grow(atom->rmass,nmax,"atom:rmass"); size_t nbytes = (nmax-nmax_old) * sizeof(double); memset(&atom->rmass[nmax_old],0,nbytes); } else if (styles[nv] == IVEC) { memory->grow(atom->ivector[index[nv]],nmax,"atom:ivector"); size_t nbytes = (nmax-nmax_old) * sizeof(int); memset(&atom->ivector[index[nv]][nmax_old],0,nbytes); } else if (styles[nv] == DVEC) { memory->grow(atom->dvector[index[nv]],nmax,"atom:dvector"); size_t nbytes = (nmax-nmax_old) * sizeof(double); memset(&atom->dvector[index[nv]][nmax_old],0,nbytes); } else if (styles[nv] == IARRAY) { memory->grow(atom->iarray[index[nv]],nmax,cols[nv],"atom:iarray"); size_t nbytes = (size_t) (nmax-nmax_old) * cols[nv] * sizeof(int); if (nbytes) memset(&atom->iarray[index[nv]][nmax_old][0],0,nbytes); } else if (styles[nv] == DARRAY) { memory->grow(atom->darray[index[nv]],nmax,cols[nv],"atom:darray"); size_t nbytes = (size_t) (nmax-nmax_old) * cols[nv] * sizeof(double); if (nbytes) memset(&atom->darray[index[nv]][nmax_old][0],0,nbytes); } } nmax_old = nmax; } /* ---------------------------------------------------------------------- copy values within local atom-based arrays ------------------------------------------------------------------------- */ void FixPropertyAtom::copy_arrays(int i, int j, int /*delflag*/) { int k,ncol; for (int nv = 0; nv < nvalue; nv++) { if (styles[nv] == MOLECULE) atom->molecule[j] = atom->molecule[i]; else if (styles[nv] == CHARGE) atom->q[j] = atom->q[i]; else if (styles[nv] == RMASS) atom->rmass[j] = atom->rmass[i]; else if (styles[nv] == IVEC) atom->ivector[index[nv]][j] = atom->ivector[index[nv]][i]; else if (styles[nv] == DVEC) atom->dvector[index[nv]][j] = atom->dvector[index[nv]][i]; else if (styles[nv] == IARRAY) { ncol = cols[nv]; for (k = 0; k < ncol; k++) atom->iarray[index[nv]][j][k] = atom->iarray[index[nv]][i][k]; } else if (styles[nv] == DARRAY) { ncol = cols[nv]; for (k = 0; k < ncol; k++) atom->darray[index[nv]][j][k] = atom->darray[index[nv]][i][k]; } } } /* ---------------------------------------------------------------------- pack values for border communication at re-neighboring ------------------------------------------------------------------------- */ int FixPropertyAtom::pack_border(int n, int *list, double *buf) { int i,j,k,ncol; int m = 0; for (int nv = 0; nv < nvalue; nv++) { if (styles[nv] == MOLECULE) { tagint *molecule = atom->molecule; for (i = 0; i < n; i++) { j = list[i]; buf[m++] = ubuf(molecule[j]).d; } } else if (styles[nv] == CHARGE) { double *q = atom->q; for (i = 0; i < n; i++) { j = list[i]; buf[m++] = q[j]; } } else if (styles[nv] == RMASS) { double *rmass = atom->rmass; for (i = 0; i < n; i++) { j = list[i]; buf[m++] = rmass[j]; } } else if (styles[nv] == IVEC) { int *ivector = atom->ivector[index[nv]]; for (i = 0; i < n; i++) { j = list[i]; buf[m++] = ubuf(ivector[j]).d; } } else if (styles[nv] == DVEC) { double *dvector = atom->dvector[index[nv]]; for (i = 0; i < n; i++) { j = list[i]; buf[m++] = dvector[j]; } } else if (styles[nv] == IARRAY) { int **iarray = atom->iarray[index[nv]]; ncol = cols[nv]; for (i = 0; i < n; i++) { j = list[i]; for (k = 0; k < ncol; k++) buf[m++] = ubuf(iarray[j][k]).d; } } else if (styles[nv] == DARRAY) { double **darray = atom->darray[index[nv]]; ncol = cols[nv]; for (i = 0; i < n; i++) { j = list[i]; for (k = 0; k < ncol; k++) buf[m++] = darray[j][k]; } } } return m; } /* ---------------------------------------------------------------------- unpack values for border communication at re-neighboring ------------------------------------------------------------------------- */ int FixPropertyAtom::unpack_border(int n, int first, double *buf) { int i,k,last,ncol; int m = 0; for (int nv = 0; nv < nvalue; nv++) { if (styles[nv] == MOLECULE) { tagint *molecule = atom->molecule; last = first + n; for (i = first; i < last; i++) molecule[i] = (tagint) ubuf(buf[m++]).i; } else if (styles[nv] == CHARGE) { double *q = atom->q; last = first + n; for (i = first; i < last; i++) q[i] = buf[m++]; } else if (styles[nv] == RMASS) { double *rmass = atom->rmass; last = first + n; for (i = first; i < last; i++) rmass[i] = buf[m++]; } else if (styles[nv] == IVEC) { int *ivector = atom->ivector[index[nv]]; last = first + n; for (i = first; i < last; i++) ivector[i] = (int) ubuf(buf[m++]).i; } else if (styles[nv] == DVEC) { double *dvector = atom->dvector[index[nv]]; last = first + n; for (i = first; i < last; i++) dvector[i] = buf[m++]; } else if (styles[nv] == IARRAY) { int **iarray = atom->iarray[index[nv]]; ncol = cols[nv]; last = first + n; for (i = first; i < last; i++) for (k = 0; k < ncol; k++) iarray[i][k] = (int) ubuf(buf[m++]).i; } else if (styles[nv] == DARRAY) { double **darray = atom->darray[index[nv]]; ncol = cols[nv]; last = first + n; for (i = first; i < last; i++) for (k = 0; k < ncol; k++) darray[i][k] = buf[m++]; } } return m; } /* ---------------------------------------------------------------------- pack values in local atom-based array for exchange with another proc ------------------------------------------------------------------------- */ int FixPropertyAtom::pack_exchange(int i, double *buf) { int k,ncol; int m = 0; for (int nv = 0; nv < nvalue; nv++) { if (styles[nv] == MOLECULE) buf[m++] = ubuf(atom->molecule[i]).d; else if (styles[nv] == CHARGE) buf[m++] = atom->q[i]; else if (styles[nv] == RMASS) buf[m++] = atom->rmass[i]; else if (styles[nv] == IVEC) buf[m++] = ubuf(atom->ivector[index[nv]][i]).d; else if (styles[nv] == DVEC) buf[m++] = atom->dvector[index[nv]][i]; else if (styles[nv] == IARRAY) { ncol = cols[nv]; for (k = 0; k < ncol; k++) buf[m++] = ubuf(atom->iarray[index[nv]][i][k]).d; } else if (styles[nv] == DARRAY) { ncol = cols[nv]; for (k = 0; k < ncol; k++) buf[m++] = atom->darray[index[nv]][i][k]; } } return m; } /* ---------------------------------------------------------------------- unpack values in local atom-based array from exchange with another proc ------------------------------------------------------------------------- */ int FixPropertyAtom::unpack_exchange(int nlocal, double *buf) { int k,ncol; int m = 0; for (int nv = 0; nv < nvalue; nv++) { if (styles[nv] == MOLECULE) atom->molecule[nlocal] = (tagint) ubuf(buf[m++]).i; else if (styles[nv] == CHARGE) atom->q[nlocal] = buf[m++]; else if (styles[nv] == RMASS) atom->rmass[nlocal] = buf[m++]; else if (styles[nv] == IVEC) atom->ivector[index[nv]][nlocal] = (int) ubuf(buf[m++]).i; else if (styles[nv] == DVEC) atom->dvector[index[nv]][nlocal] = buf[m++]; else if (styles[nv] == IARRAY) { ncol = cols[nv]; for (k = 0; k < ncol; k++) atom->iarray[index[nv]][nlocal][k] = (int) ubuf(buf[m++]).i; } else if (styles[nv] == DARRAY) { ncol = cols[nv]; for (k = 0; k < ncol; k++) atom->darray[index[nv]][nlocal][k] = buf[m++]; } } return m; } /* ---------------------------------------------------------------------- pack values in local atom-based arrays for restart file ------------------------------------------------------------------------- */ int FixPropertyAtom::pack_restart(int i, double *buf) { int k,ncol; // pack buf[0] this way because other fixes unpack it buf[0] = values_peratom+1; int m = 1; for (int nv = 0; nv < nvalue; nv++) { if (styles[nv] == MOLECULE) buf[m++] = ubuf(atom->molecule[i]).d; else if (styles[nv] == CHARGE) buf[m++] = atom->q[i]; else if (styles[nv] == RMASS) buf[m++] = atom->rmass[i]; else if (styles[nv] == IVEC) buf[m++] = ubuf(atom->ivector[index[nv]][i]).d; else if (styles[nv] == DVEC) buf[m++] = atom->dvector[index[nv]][i]; else if (styles[nv] == IARRAY) { ncol = cols[nv]; for (k = 0; k < ncol; k++) buf[m++] = ubuf(atom->iarray[index[nv]][i][k]).d; } else if (styles[nv] == DARRAY) { ncol = cols[nv]; for (k = 0; k < ncol; k++) buf[m++] = atom->darray[index[nv]][i][k]; } } return values_peratom+1; } /* ---------------------------------------------------------------------- unpack values from atom->extra array to restart the fix ------------------------------------------------------------------------- */ void FixPropertyAtom::unpack_restart(int nlocal, int nth) { int k,ncol; double **extra = atom->extra; // skip to Nth set of extra values // unpack the Nth first values this way because other fixes pack them int m = 0; for (int i = 0; i < nth; i++) m += static_cast (extra[nlocal][m]); m++; for (int nv = 0; nv < nvalue; nv++) { if (styles[nv] == MOLECULE) atom->molecule[nlocal] = (tagint) ubuf(extra[nlocal][m++]).i; else if (styles[nv] == CHARGE) atom->q[nlocal] = extra[nlocal][m++]; else if (styles[nv] == RMASS) atom->rmass[nlocal] = extra[nlocal][m++]; else if (styles[nv] == IVEC) atom->ivector[index[nv]][nlocal] = (int) ubuf(extra[nlocal][m++]).i; else if (styles[nv] == DVEC) atom->dvector[index[nv]][nlocal] = extra[nlocal][m++]; else if (styles[nv] == IARRAY) { ncol = cols[nv]; for (k = 0; k < ncol; k++) atom->iarray[index[nv]][nlocal][k] = (int) ubuf(extra[nlocal][m++]).i; } else if (styles[nv] == DARRAY) { ncol = cols[nv]; for (k = 0; k < ncol; k++) atom->darray[index[nv]][nlocal][k] = extra[nlocal][m++]; } } } /* ---------------------------------------------------------------------- maxsize of any atom's restart data ------------------------------------------------------------------------- */ int FixPropertyAtom::maxsize_restart() { return values_peratom+1; } /* ---------------------------------------------------------------------- size of atom nlocal's restart data ------------------------------------------------------------------------- */ int FixPropertyAtom::size_restart(int /*nlocal*/) { return values_peratom+1; }