dihedral.cpp
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Created: Mon, Jul 29, 20:27

dihedral.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.
	------------------------------------------------------------------------- */

	#include <math.h>
	#include "dihedral.h"
	#include "atom.h"
	#include "comm.h"
	#include "force.h"
	#include "pair.h"
	#include "suffix.h"
	#include "atom_masks.h"
	#include "memory.h"
	#include "error.h"

	using namespace LAMMPS_NS;

	/* ----------------------------------------------------------------------
	set dihedral contribution to Vdwl and Coulombic energy to 0.0
	DihedralCharmm will override this
	------------------------------------------------------------------------- */

	Dihedral::Dihedral(LAMMPS *lmp) : Pointers(lmp)
	{
	energy = 0.0;
	writedata = 0;

	allocated = 0;

	maxeatom = maxvatom = 0;
	eatom = NULL;
	vatom = NULL;
	setflag = NULL;

	datamask = ALL_MASK;
	datamask_ext = ALL_MASK;

	execution_space = Host;
	datamask_read = ALL_MASK;
	datamask_modify = ALL_MASK;

	copymode = 0;
	}

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

	Dihedral::~Dihedral()
	{
	if (copymode) return;

	memory->destroy(eatom);
	memory->destroy(vatom);
	}

	/* ----------------------------------------------------------------------
	check if all coeffs are set
	------------------------------------------------------------------------- */

	void Dihedral::init()
	{
	if (!allocated && atom->ndihedraltypes)
	error->all(FLERR,"Dihedral coeffs are not set");
	for (int i = 1; i <= atom->ndihedraltypes; i++)
	if (setflag[i] == 0) error->all(FLERR,"All dihedral coeffs are not set");
	init_style();
	}

	/* ----------------------------------------------------------------------
	setup for energy, virial computation
	see integrate::ev_set() for values of eflag (0-3) and vflag (0-6)
	------------------------------------------------------------------------- */

	void Dihedral::ev_setup(int eflag, int vflag)
	{
	int i,n;

	evflag = 1;

	eflag_either = eflag;
	eflag_global = eflag % 2;
	eflag_atom = eflag / 2;

	vflag_either = vflag;
	vflag_global = vflag % 4;
	vflag_atom = vflag / 4;

	// reallocate per-atom arrays if necessary

	if (eflag_atom && atom->nmax > maxeatom) {
	maxeatom = atom->nmax;
	memory->destroy(eatom);
	memory->create(eatom,comm->nthreads*maxeatom,"bond:eatom");
	}
	if (vflag_atom && atom->nmax > maxvatom) {
	maxvatom = atom->nmax;
	memory->destroy(vatom);
	memory->create(vatom,comm->nthreads*maxvatom,6,"bond:vatom");
	}

	// zero accumulators

	if (eflag_global) energy = 0.0;
	if (vflag_global) for (i = 0; i < 6; i++) virial[i] = 0.0;
	if (eflag_atom) {
	n = atom->nlocal;
	if (force->newton_bond) n += atom->nghost;
	for (i = 0; i < n; i++) eatom[i] = 0.0;
	}
	if (vflag_atom) {
	n = atom->nlocal;
	if (force->newton_bond) n += atom->nghost;
	for (i = 0; i < n; i++) {
	vatom[i][0] = 0.0;
	vatom[i][1] = 0.0;
	vatom[i][2] = 0.0;
	vatom[i][3] = 0.0;
	vatom[i][4] = 0.0;
	vatom[i][5] = 0.0;
	}
	}
	}

	/* ----------------------------------------------------------------------
	tally energy and virial into global and per-atom accumulators
	virial = r1F1 + r2F2 + r3F3 + r4F4 = (r1-r2) F1 + (r3-r2) F3 + (r4-r2) F4
	= (r1-r2) F1 + (r3-r2) F3 + (r4-r3 + r3-r2) F4
	= vb1f1 + vb2f3 + (vb3+vb2)*f4
	------------------------------------------------------------------------- */

	void Dihedral::ev_tally(int i1, int i2, int i3, int i4,
	int nlocal, int newton_bond,
	double edihedral, double f1, double f3, double *f4,
	double vb1x, double vb1y, double vb1z,
	double vb2x, double vb2y, double vb2z,
	double vb3x, double vb3y, double vb3z)
	{
	double edihedralquarter,v[6];

	if (eflag_either) {
	if (eflag_global) {
	if (newton_bond) energy += edihedral;
	else {
	edihedralquarter = 0.25*edihedral;
	if (i1 < nlocal) energy += edihedralquarter;
	if (i2 < nlocal) energy += edihedralquarter;
	if (i3 < nlocal) energy += edihedralquarter;
	if (i4 < nlocal) energy += edihedralquarter;
	}
	}
	if (eflag_atom) {
	edihedralquarter = 0.25*edihedral;
	if (newton_bond \|\| i1 < nlocal) eatom[i1] += edihedralquarter;
	if (newton_bond \|\| i2 < nlocal) eatom[i2] += edihedralquarter;
	if (newton_bond \|\| i3 < nlocal) eatom[i3] += edihedralquarter;
	if (newton_bond \|\| i4 < nlocal) eatom[i4] += edihedralquarter;
	}
	}

	if (vflag_either) {
	v[0] = vb1xf1[0] + vb2xf3[0] + (vb3x+vb2x)*f4[0];
	v[1] = vb1yf1[1] + vb2yf3[1] + (vb3y+vb2y)*f4[1];
	v[2] = vb1zf1[2] + vb2zf3[2] + (vb3z+vb2z)*f4[2];
	v[3] = vb1xf1[1] + vb2xf3[1] + (vb3x+vb2x)*f4[1];
	v[4] = vb1xf1[2] + vb2xf3[2] + (vb3x+vb2x)*f4[2];
	v[5] = vb1yf1[2] + vb2yf3[2] + (vb3y+vb2y)*f4[2];

	if (vflag_global) {
	if (newton_bond) {
	virial[0] += v[0];
	virial[1] += v[1];
	virial[2] += v[2];
	virial[3] += v[3];
	virial[4] += v[4];
	virial[5] += v[5];
	} else {
	if (i1 < nlocal) {
	virial[0] += 0.25*v[0];
	virial[1] += 0.25*v[1];
	virial[2] += 0.25*v[2];
	virial[3] += 0.25*v[3];
	virial[4] += 0.25*v[4];
	virial[5] += 0.25*v[5];
	}
	if (i2 < nlocal) {
	virial[0] += 0.25*v[0];
	virial[1] += 0.25*v[1];
	virial[2] += 0.25*v[2];
	virial[3] += 0.25*v[3];
	virial[4] += 0.25*v[4];
	virial[5] += 0.25*v[5];
	}
	if (i3 < nlocal) {
	virial[0] += 0.25*v[0];
	virial[1] += 0.25*v[1];
	virial[2] += 0.25*v[2];
	virial[3] += 0.25*v[3];
	virial[4] += 0.25*v[4];
	virial[5] += 0.25*v[5];
	}
	if (i4 < nlocal) {
	virial[0] += 0.25*v[0];
	virial[1] += 0.25*v[1];
	virial[2] += 0.25*v[2];
	virial[3] += 0.25*v[3];
	virial[4] += 0.25*v[4];
	virial[5] += 0.25*v[5];
	}
	}
	}

	if (vflag_atom) {
	if (newton_bond \|\| i1 < nlocal) {
	vatom[i1][0] += 0.25*v[0];
	vatom[i1][1] += 0.25*v[1];
	vatom[i1][2] += 0.25*v[2];
	vatom[i1][3] += 0.25*v[3];
	vatom[i1][4] += 0.25*v[4];
	vatom[i1][5] += 0.25*v[5];
	}
	if (newton_bond \|\| i2 < nlocal) {
	vatom[i2][0] += 0.25*v[0];
	vatom[i2][1] += 0.25*v[1];
	vatom[i2][2] += 0.25*v[2];
	vatom[i2][3] += 0.25*v[3];
	vatom[i2][4] += 0.25*v[4];
	vatom[i2][5] += 0.25*v[5];
	}
	if (newton_bond \|\| i3 < nlocal) {
	vatom[i3][0] += 0.25*v[0];
	vatom[i3][1] += 0.25*v[1];
	vatom[i3][2] += 0.25*v[2];
	vatom[i3][3] += 0.25*v[3];
	vatom[i3][4] += 0.25*v[4];
	vatom[i3][5] += 0.25*v[5];
	}
	if (newton_bond \|\| i4 < nlocal) {
	vatom[i4][0] += 0.25*v[0];
	vatom[i4][1] += 0.25*v[1];
	vatom[i4][2] += 0.25*v[2];
	vatom[i4][3] += 0.25*v[3];
	vatom[i4][4] += 0.25*v[4];
	vatom[i4][5] += 0.25*v[5];
	}
	}
	}
	}

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

	double Dihedral::memory_usage()
	{
	double bytes = comm->nthreadsmaxeatom sizeof(double);
	bytes += comm->nthreadsmaxvatom6 * sizeof(double);
	return bytes;
	}

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