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Created: Sun, Jun 23, 03:11

fix_ti_rs.cpp
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	/* -------------------------------------------------------------------------
	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.
	------------------------------------------------------------------------- */

	/* -------------------------------------------------------------------------
	Contributing authors:
	Rodrigo Freitas (Unicamp/Brazil) - rodrigohb@gmail.com
	Maurice de Koning (Unicamp/Brazil) - dekoning@ifi.unicamp.br
	------------------------------------------------------------------------- */

	#include <stdlib.h>
	#include <string.h>
	#include <math.h>
	#include "fix_ti_rs.h"
	#include "atom.h"
	#include "update.h"
	#include "respa.h"
	#include "error.h"
	#include "force.h"

	using namespace LAMMPS_NS;
	using namespace FixConst;

	/* ---------------------------------------------------------------------- */

	// Class constructor initialize all variables.

	FixTIRS::FixTIRS(LAMMPS lmp, int narg, char *arg) : Fix(lmp, narg, arg)
	{
	// Checking the input information.
	if (narg < 7 \|\| narg > 9) error->all(FLERR,"Illegal fix ti/rs command");

	// Fix flags.
	vector_flag = 1;
	size_vector = 2;
	global_freq = 1;
	extvector = 1;

	// Time variables.
	t_switch = force->bnumeric(FLERR,arg[5]);
	t_equil = force->bnumeric(FLERR,arg[6]);
	t0 = update->ntimestep;
	if (t_switch <= 0) error->all(FLERR,"Illegal fix ti/rs command");
	if (t_equil <= 0) error->all(FLERR,"Illegal fix ti/rs command");

	// Coupling parameter limits and initialization.
	l_initial = force->numeric(FLERR,arg[3]);
	l_final = force->numeric(FLERR,arg[4]);
	sf = 1;
	if (narg > 7) {
	if (strcmp(arg[7], "function") == 0) sf = force->inumeric(FLERR,arg[8]);
	else error->all(FLERR,"Illegal fix ti/rs switching function");
	if ((sf<1) \|\| (sf>3))
	error->all(FLERR,"Illegal fix ti/rs switching function");
	}
	lambda = switch_func(0);
	dlambda = dswitch_func(0);
	}

	/* ---------------------------------------------------------------------- */

	FixTIRS::~FixTIRS()
	{
	// unregister callbacks to this fix from Atom class
	atom->delete_callback(id,0);
	atom->delete_callback(id,1);
	}

	/* ---------------------------------------------------------------------- */

	int FixTIRS::setmask()
	{
	int mask = 0;
	mask \|= INITIAL_INTEGRATE;
	mask \|= POST_FORCE;
	return mask;
	}

	/* ---------------------------------------------------------------------- */

	void FixTIRS::init()
	{
	if (strstr(update->integrate_style,"respa"))
	nlevels_respa = ((Respa *) update->integrate)->nlevels;
	}

	/* ---------------------------------------------------------------------- */

	void FixTIRS::setup(int vflag)
	{
	if (strstr(update->integrate_style,"verlet"))
	post_force(vflag);
	else {
	((Respa *) update->integrate)->copy_flevel_f(nlevels_respa-1);
	post_force_respa(vflag,nlevels_respa-1,0);
	((Respa *) update->integrate)->copy_f_flevel(nlevels_respa-1);
	}
	}

	/* ---------------------------------------------------------------------- */

	void FixTIRS::min_setup(int vflag)
	{
	post_force(vflag);
	}


	/* ---------------------------------------------------------------------- */

	void FixTIRS::post_force(int vflag)
	{

	int *mask = atom->mask;
	int nlocal = atom->nlocal;
	double **f = atom->f;

	// Scaling forces.
	for (int i = 0; i < nlocal; i++) {
	if (mask[i] & groupbit) {
	f[i][0] = lambda * f[i][0];
	f[i][1] = lambda * f[i][1];
	f[i][2] = lambda * f[i][2];
	}
	}
	}

	/* ---------------------------------------------------------------------- */

	void FixTIRS::post_force_respa(int vflag, int ilevel, int iloop)
	{
	if (ilevel == nlevels_respa-1) post_force(vflag);
	}

	/* ---------------------------------------------------------------------- */

	void FixTIRS::min_post_force(int vflag)
	{
	post_force(vflag);
	}

	/* ---------------------------------------------------------------------- */

	void FixTIRS::initial_integrate(int vflag)
	{
	// Update the coupling parameter value.
	const bigint t = update->ntimestep - (t0+t_equil);
	const double r_switch = 1.0/t_switch;

	if( (t >= 0) && (t <= t_switch) ) {
	lambda = switch_func(t*r_switch);
	dlambda = dswitch_func(t*r_switch);
	}

	if( (t >= t_equil+t_switch) && (t <= (t_equil+2*t_switch)) ) {
	lambda = switch_func(1.0 - (t - t_switch - t_equil)*r_switch);
	dlambda = - dswitch_func(1.0 - (t - t_switch - t_equil)*r_switch);
	}
	}

	/* ---------------------------------------------------------------------- */

	double FixTIRS::compute_vector(int n)
	{
	linfo[0] = lambda;
	linfo[1] = dlambda;
	return linfo[n];
	}

	/* ---------------------------------------------------------------------- */

	double FixTIRS::switch_func(double t)
	{
	if (sf == 2) return l_initial / (1 + t * (l_initial/l_final - 1));
	if (sf == 3) return l_initial / (1 + log2(1+t) * (l_initial/l_final - 1));

	// Default option is sf = 1.
	return l_initial + (l_final - l_initial) * t;
	}

	/* ---------------------------------------------------------------------- */

	double FixTIRS::dswitch_func(double t)
	{
	double aux = (1.0/l_initial - 1.0/l_final);
	if (sf == 2) return lambda * lambda * aux / t_switch;
	if (sf == 3) return lambda * lambda * aux / (t_switch * log(2) * (1 + t));

	// Default option is sf = 1.
	return (l_final-l_initial)/t_switch;
	}

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