/* ---------------------------------------------------------------------- LAMMPS - Large-scale Atomic/Molecular Massively Parallel Simulator http://lammps.sandia.gov, 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 "atom_vec_full.h" #include "atom.h" using namespace LAMMPS_NS; /* ---------------------------------------------------------------------- */ AtomVecFull::AtomVecFull(LAMMPS *lmp) : AtomVec(lmp) { molecular = 1; bonds_allow = angles_allow = dihedrals_allow = impropers_allow = 1; mass_type = 1; atom->molecule_flag = atom->q_flag = 1; // strings with peratom variables to include in each AtomVec method // strings cannot contain fields in corresponding AtomVec default strings // order of fields in a string does not matter // except: fields_data_atom & fields_data_vel must match data file fields_grow = (char *) "q molecule num_bond bond_type bond_atom " "num_angle angle_type angle_atom1 angle_atom2 angle_atom3 " "num_dihedral dihedral_type dihedral_atom1 dihedral_atom2 " "dihedral_atom3 dihedral_atom4 " "num_improper improper_type improper_atom1 improper_atom2 " "improper_atom3 improper_atom4 " "nspecial special"; fields_copy = (char *) "q molecule num_bond bond_type bond_atom " "num_angle angle_type angle_atom1 angle_atom2 angle_atom3 " "num_dihedral dihedral_type dihedral_atom1 dihedral_atom2 " "dihedral_atom3 dihedral_atom4 " "num_improper improper_type improper_atom1 improper_atom2 " "improper_atom3 improper_atom4 " "nspecial special"; fields_comm = (char *) ""; fields_comm_vel = (char *) ""; fields_reverse = (char *) ""; fields_border = (char *) "q molecule"; fields_border_vel = (char *) "q molecule"; fields_exchange = (char *) "q molecule num_bond bond_type bond_atom " "num_angle angle_type angle_atom1 angle_atom2 angle_atom3 " "num_dihedral dihedral_type dihedral_atom1 dihedral_atom2 " "dihedral_atom3 dihedral_atom4 " "num_improper improper_type improper_atom1 improper_atom2 " "improper_atom3 improper_atom4 " "nspecial special"; fields_restart = (char *) "q molecule num_bond bond_type bond_atom " "num_angle angle_type angle_atom1 angle_atom2 angle_atom3 " "num_dihedral dihedral_type dihedral_atom1 dihedral_atom2 " "dihedral_atom3 dihedral_atom4 " "num_improper improper_type improper_atom1 improper_atom2 " "improper_atom3 improper_atom4"; fields_create = (char *) "q molecule num_bond num_angle num_dihedral num_improper nspecial"; fields_data_atom = (char *) "id molecule type q x"; fields_data_vel = (char *) "id v"; setup_fields(); bond_per_atom = angle_per_atom = dihedral_per_atom = improper_per_atom = 0; bond_negative = angle_negative = dihedral_negative = improper_negative = NULL; } /* ---------------------------------------------------------------------- */ AtomVecFull::~AtomVecFull() { delete [] bond_negative; delete [] angle_negative; delete [] dihedral_negative; delete [] improper_negative; } /* ---------------------------------------------------------------------- set local copies of all grow ptrs used by this class, except defaults needed in replicate when 2 atom classes exist and it calls pack_restart() ------------------------------------------------------------------------- */ void AtomVecFull::grow_pointers() { num_bond = atom->num_bond; bond_type = atom->bond_type; num_angle = atom->num_angle; angle_type = atom->angle_type; num_dihedral = atom->num_dihedral; dihedral_type = atom->dihedral_type; num_improper = atom->num_improper; improper_type = atom->improper_type; nspecial = atom->nspecial; } /* ---------------------------------------------------------------------- modify values for AtomVec::pack_restart() to pack ------------------------------------------------------------------------- */ void AtomVecFull::pack_restart_pre(int ilocal) { // insure negative vectors are needed length if (bond_per_atom < atom->bond_per_atom) { delete [] bond_negative; bond_per_atom = atom->bond_per_atom; bond_negative = new int[bond_per_atom]; } if (angle_per_atom < atom->angle_per_atom) { delete [] angle_negative; angle_per_atom = atom->angle_per_atom; angle_negative = new int[angle_per_atom]; } if (dihedral_per_atom < atom->dihedral_per_atom) { delete [] dihedral_negative; dihedral_per_atom = atom->dihedral_per_atom; dihedral_negative = new int[dihedral_per_atom]; } if (improper_per_atom < atom->improper_per_atom) { delete [] improper_negative; improper_per_atom = atom->improper_per_atom; improper_negative = new int[improper_per_atom]; } // flip any negative types to positive and flag which ones any_bond_negative = 0; for (int m = 0; m < num_bond[ilocal]; m++) { if (bond_type[ilocal][m] < 0) { bond_negative[m] = 1; bond_type[ilocal][m] = -bond_type[ilocal][m]; any_bond_negative = 1; } else bond_negative[m] = 0; } any_angle_negative = 0; for (int m = 0; m < num_angle[ilocal]; m++) { if (angle_type[ilocal][m] < 0) { angle_negative[m] = 1; angle_type[ilocal][m] = -angle_type[ilocal][m]; any_angle_negative = 1; } else angle_negative[m] = 0; } any_dihedral_negative = 0; for (int m = 0; m < num_dihedral[ilocal]; m++) { if (dihedral_type[ilocal][m] < 0) { dihedral_negative[m] = 1; dihedral_type[ilocal][m] = -dihedral_type[ilocal][m]; any_dihedral_negative = 1; } else dihedral_negative[m] = 0; } any_improper_negative = 0; for (int m = 0; m < num_improper[ilocal]; m++) { if (improper_type[ilocal][m] < 0) { improper_negative[m] = 1; improper_type[ilocal][m] = -improper_type[ilocal][m]; any_improper_negative = 1; } else improper_negative[m] = 0; } } /* ---------------------------------------------------------------------- unmodify values packed by AtomVec::pack_restart() ------------------------------------------------------------------------- */ void AtomVecFull::pack_restart_post(int ilocal) { // restore the flagged types to their negative values if (any_bond_negative) { for (int m = 0; m < num_bond[ilocal]; m++) if (bond_negative[m]) bond_type[ilocal][m] = -bond_type[ilocal][m]; } if (any_angle_negative) { for (int m = 0; m < num_angle[ilocal]; m++) if (angle_negative[m]) angle_type[ilocal][m] = -angle_type[ilocal][m]; } if (any_dihedral_negative) { for (int m = 0; m < num_dihedral[ilocal]; m++) if (dihedral_negative[m]) dihedral_type[ilocal][m] = -dihedral_type[ilocal][m]; } if (any_improper_negative) { for (int m = 0; m < num_improper[ilocal]; m++) if (improper_negative[m]) improper_type[ilocal][m] = -improper_type[ilocal][m]; } } /* ---------------------------------------------------------------------- initialize other atom quantities after AtomVec::unpack_restart() ------------------------------------------------------------------------- */ void AtomVecFull::unpack_restart_init(int ilocal) { nspecial[ilocal][0] = 0; nspecial[ilocal][1] = 0; nspecial[ilocal][2] = 0; } /* ---------------------------------------------------------------------- modify what AtomVec::data_atom() just unpacked or initialize other atom quantities ------------------------------------------------------------------------- */ void AtomVecFull::data_atom_post(int ilocal) { num_bond[ilocal] = 0; num_angle[ilocal] = 0; num_dihedral[ilocal] = 0; num_improper[ilocal] = 0; nspecial[ilocal][0] = 0; nspecial[ilocal][1] = 0; nspecial[ilocal][2] = 0; }