MD-Bench/src/atom.c

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/*
* =======================================================================================
*
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* Author: Jan Eitzinger (je), jan.eitzinger@fau.de
* Copyright (c) 2020 RRZE, University Erlangen-Nuremberg
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*
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* This file is part of MD-Bench.
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*
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* MD-Bench is free software: you can redistribute it and/or modify it
* under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
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*
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* MD-Bench 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 Lesser General Public License for more
* details.
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*
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* You should have received a copy of the GNU Lesser General Public License along
* with MD-Bench. If not, see <https://www.gnu.org/licenses/>.
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* =======================================================================================
*/
#include <stdlib.h>
#include <stdio.h>
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#include <math.h>
#include <atom.h>
#include <allocate.h>
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#include <util.h>
#define DELTA 20000
void initAtom(Atom *atom)
{
atom->x = NULL; atom->y = NULL; atom->z = NULL;
atom->vx = NULL; atom->vy = NULL; atom->vz = NULL;
atom->fx = NULL; atom->fy = NULL; atom->fz = NULL;
atom->Natoms = 0;
atom->Nlocal = 0;
atom->Nghost = 0;
atom->Nmax = 0;
}
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void createAtom(Atom *atom, Parameter *param)
{
double xlo = 0.0; double xhi = param->xprd;
double ylo = 0.0; double yhi = param->yprd;
double zlo = 0.0; double zhi = param->zprd;
atom->Natoms = 4 * param->nx * param->ny * param->nz;
atom->Nlocal = 0;
double alat = pow((4.0 / param->rho), (1.0 / 3.0));
int ilo = (int) (xlo / (0.5 * alat) - 1);
int ihi = (int) (xhi / (0.5 * alat) + 1);
int jlo = (int) (ylo / (0.5 * alat) - 1);
int jhi = (int) (yhi / (0.5 * alat) + 1);
int klo = (int) (zlo / (0.5 * alat) - 1);
int khi = (int) (zhi / (0.5 * alat) + 1);
ilo = MAX(ilo, 0);
ihi = MIN(ihi, 2 * param->nx - 1);
jlo = MAX(jlo, 0);
jhi = MIN(jhi, 2 * param->ny - 1);
klo = MAX(klo, 0);
khi = MIN(khi, 2 * param->nz - 1);
double xtmp, ytmp, ztmp, vxtmp, vytmp, vztmp;
int i, j, k, m, n;
int sx = 0; int sy = 0; int sz = 0;
int ox = 0; int oy = 0; int oz = 0;
int subboxdim = 8;
while(oz * subboxdim <= khi) {
k = oz * subboxdim + sz;
j = oy * subboxdim + sy;
i = ox * subboxdim + sx;
if(((i + j + k) % 2 == 0) &&
(i >= ilo) && (i <= ihi) &&
(j >= jlo) && (j <= jhi) &&
(k >= klo) && (k <= khi)) {
xtmp = 0.5 * alat * i;
ytmp = 0.5 * alat * j;
ztmp = 0.5 * alat * k;
if( xtmp >= xlo && xtmp < xhi &&
ytmp >= ylo && ytmp < yhi &&
ztmp >= zlo && ztmp < zhi ) {
n = k * (2 * param->ny) * (2 * param->nx) +
j * (2 * param->nx) +
i + 1;
for(m = 0; m < 5; m++) {
myrandom(&n);
}
vxtmp = myrandom(&n);
for(m = 0; m < 5; m++){
myrandom(&n);
}
vytmp = myrandom(&n);
for(m = 0; m < 5; m++) {
myrandom(&n);
}
vztmp = myrandom(&n);
if(atom->Nlocal == atom->Nmax) {
growAtom(atom);
}
atom->x[atom->Nlocal] = xtmp;
atom->y[atom->Nlocal] = ytmp;
atom->z[atom->Nlocal] = ztmp;
atom->vx[atom->Nlocal] = vxtmp;
atom->vy[atom->Nlocal] = vytmp;
atom->vz[atom->Nlocal] = vztmp;
atom->Nlocal++;
}
}
sx++;
if(sx == subboxdim) { sx = 0; sy++; }
if(sy == subboxdim) { sy = 0; sz++; }
if(sz == subboxdim) { sz = 0; ox++; }
if(ox * subboxdim > ihi) { ox = 0; oy++; }
if(oy * subboxdim > jhi) { oy = 0; oz++; }
}
}
void growAtom(Atom *atom)
{
int nold = atom->Nmax;
atom->Nmax += DELTA;
atom->x = (double*) reallocate(atom->x, ALIGNMENT, atom->Nmax * sizeof(double), nold * sizeof(double));
atom->y = (double*) reallocate(atom->y, ALIGNMENT, atom->Nmax * sizeof(double), nold * sizeof(double));
atom->z = (double*) reallocate(atom->z, ALIGNMENT, atom->Nmax * sizeof(double), nold * sizeof(double));
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atom->vx = (double*) reallocate(atom->vx, ALIGNMENT, atom->Nmax * sizeof(double), nold * sizeof(double));
atom->vy = (double*) reallocate(atom->vy, ALIGNMENT, atom->Nmax * sizeof(double), nold * sizeof(double));
atom->vz = (double*) reallocate(atom->vz, ALIGNMENT, atom->Nmax * sizeof(double), nold * sizeof(double));
atom->fx = (double*) reallocate(atom->fx, ALIGNMENT, atom->Nmax * sizeof(double), nold * sizeof(double));
atom->fy = (double*) reallocate(atom->fy, ALIGNMENT, atom->Nmax * sizeof(double), nold * sizeof(double));
atom->fz = (double*) reallocate(atom->fz, ALIGNMENT, atom->Nmax * sizeof(double), nold * sizeof(double));
}
/* void sortAtom() */
/* { */
/* binatoms(neighbor); */
/* int* binpos = neighbor->bincount; */
/* int* bins = neighbor->bins; */
/* int mbins = neighbor->mbins; */
/* int atoms_per_bin = neighbor->atoms_per_bin; */
/* for(int i=1; i<mbins; i++) { */
/* binpos[i] += binpos[i-1]; */
/* } */
/* double* new_x = (double*) malloc(Nmax * sizeof(double)); */
/* double* new_y = (double*) malloc(Nmax * sizeof(double)); */
/* double* new_z = (double*) malloc(Nmax * sizeof(double)); */
/* double* new_vx = (double*) malloc(Nmax * sizeof(double)); */
/* double* new_vy = (double*) malloc(Nmax * sizeof(double)); */
/* double* new_vz = (double*) malloc(Nmax * sizeof(double)); */
/* double* old_x = x; double* old_y = y; double* old_z = z; */
/* double* old_vx = vx; double* old_vy = vy; double* old_vz = vz; */
/* for(int mybin = 0; mybin<mbins; mybin++) { */
/* int start = mybin>0?binpos[mybin-1]:0; */
/* int count = binpos[mybin] - start; */
/* for(int k=0; k<count; k++) { */
/* int new_i = start + k; */
/* int old_i = bins[mybin * atoms_per_bin + k]; */
/* new_x[new_i] = old_x[old_i]; */
/* new_y[new_i] = old_y[old_i]; */
/* new_z[new_i] = old_z[old_i]; */
/* new_vx[new_i] = old_vx[old_i]; */
/* new_vy[new_i] = old_vy[old_i]; */
/* new_vz[new_i] = old_vz[old_i]; */
/* } */
/* } */
/* free(x); free(y); free(z); */
/* free(vx); free(vy); free(vz); */
/* x = new_x; y = new_y; z = new_z; */
/* vx = new_vx; vy = new_vy; vz = new_vz; */
/* } */