/* 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. */ /*----------------------- Everything ----------------------------------* * * * One big structure that containts everthing we need to run a * * a calculation (or do setup). Used to make passing all the damned * * arguments to functions easier. * * * *-----------------------------------------------------------------------*/ #ifndef DFT_EVERYTHING_H #define DFT_EVERYTHING_H class Everything { public: // The lattice vectors describing the periodic system // the scaling from the input file specified by `latt-scale' // is included. Lattice lattice; // Parameters and flags controlling the electronic minimization Control cntrl; // Parameters for the basis. BasisSpec basis_spec; // Ionic information Ioninfo ioninfo; // Symmetries of the lattice, crystal basis and k points Symmetries symm; // Ion dynamics information // IonDyninfo iondyninfo; // Static parameters for the electrons Elecinfo elecinfo; // Dynamic variables describing the electrons Elecvars elecvars; // Container for the energies Energies energies; // Constructor: all objects own constructors will do everything // They need. We just have to worry about IonDyninfo. // IonDyninfo contains a pointer to an Ioninfo that it needs... Everything() { //iondyninfo.ioninfo = &ioninfo; } // Each structure's setup routines // Do all setups in the right order void setup() { ioninfo.setup(*this); lattice.setup(*this); basis_spec.setup(*this); // do a basis setup call, which happens before we know about k points etc. used to initialize elecvars.basis elecvars.basis.setup_template(basis_spec); symm.setup(*this,elecvars.basis); //iondyninfo.setup(*this); // inside elecvars.setup, there are basis setup calls, which depend on k points,ie elecvars.states[i].basis elecvars.setup(*this); /* Bases for wavefunctions get * set up inside here */ } }; #endif // DFT_EVERYTHING_H