/* DFT++ is a density functional package developed by the research group of Professor Tomas Arias Copyright 1996-2003 Sohrab Ismail-Beigi This file is part of DFT++. DFT++ is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. DFT++ 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. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with DFT++; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA Please see the file CREDITS for a list of authors. For academic users, we request that publications using results obtained with this software reference "New algebraic formulation of density functional calculation," by Sohrab Ismail-Beigi and T.A. Arias, Computer Physics Communications 128:1-2, 1-45 (June 2000). and, if using the wavelet basis, further reference "Multiresolution analysis of electronic structure: semicardinal and wavelet bases," T.A. Arias, Reviews of Modern Physics 71:1, 267-311 (January 1999). and "Robust ab initio calculation of condensed matter: transparent convergence through semicardinal multiresolution analysis,'' I.P. Daykov, T.A. Arias, and Torkel D. Engeness, Physical Review Letters, 90:21, 216402 (May 2003). For your convenience, preprints of the above articles may be obtained from http://arXiv.org/abs/cond-mat/9909130, 9805262, and 0204411, respectively. */ #include "header.h" Speciesinfo::Speciesinfo(double Z_, char name_[], int natoms_, vector3* atpos_, double mass_, int* move_, vector3* forces_, vector3* old_forces_, vector3* ion_vel_, double ion_damp_, double ion_fac_): Z(Z_),natoms(natoms_),atpos(atpos_),mass(mass_),move(move_),forces(forces_),old_forces(old_forces_),ion_vel(ion_vel_), ion_damp(ion_damp_),ion_fac(ion_fac_) { strcpy(name, name_); } Speciesinfo::~Speciesinfo() { if (natoms>0) { myfree(atpos); myfree(forces); myfree(old_forces); myfree(move); myfree(ion_vel); } } void Speciesinfo::setup(Everything &e) { // If we have a species with no atoms, that is bad. Complain and die if (natoms == 0) die("\n\nSpecies '%s' was defined but there are no such atoms.\nPlease enter some such atoms, or remove the species definition.\n\n",name); // some pots might need this pot.Z = Z; pot.setup(e); } void Speciesinfo::print(const Output *out, Everything &e) { vector3 xx; out->printf(">> Species %s:\n",name); out->printf(">> Z = %f\tmass = %f\tnatoms = %d\n>> Positions follow in LATTICE coordinates:\n", Z, mass, natoms); for (int i=0; i < natoms; i++) { xx = atpos[i]; out->printf(">> %d [%24.16e%24.16e%24.16e ] %d\n", i, xx.v[0], xx.v[1], xx.v[2], move[i]); } } void Speciesinfo::print_force(const Output *out, Everything &e) const { vector3 ff; out->printf("Species %s, natoms = %d, forces follow:\n\n", name, natoms); for (int i=0; i < natoms; i++){ if(e.ioninfo.coords_type == LATTICE_COORDS){ ff = forces[i]; } else if(e.ioninfo.coords_type == CARTESIAN_COORDS){ ff = (~(inv3(e.lattice.latvec))) * forces[i]; }else { die("Wrong CoordsType in Speciesinfo::print()\n"); } out->printf("%3d %18.10le %18.10le %18.10le %d\n", i, ff.v[0], ff.v[1], ff.v[2], move[i]); } out->printf("\n"); }