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/*
This file is part of p4est.
p4est is a C library to manage a collection (a forest) of multiple
connected adaptive quadtrees or octrees in parallel.
Copyright (C) 2010 The University of Texas System
Additional copyright (C) 2011 individual authors
Written by Carsten Burstedde, Lucas C. Wilcox, and Tobin Isaac
p4est 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.
p4est 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 p4est; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
#ifndef P4_TO_P8
#include <p4est_bits.h>
#include <p4est_extended.h>
#include <p4est_ghost.h>
#else
#include <p8est_bits.h>
#include <p8est_extended.h>
#include <p8est_ghost.h>
#endif
#ifndef P4_TO_P8
static const int refine_level = 5;
#else
static const int refine_level = 3;
#endif
static const int ueber_level = 10;
static int
refine_fn (p4est_t * p4est, p4est_topidx_t which_tree,
p4est_quadrant_t * quadrant)
{
int cid;
if (which_tree == 2 || which_tree == 3) {
return 0;
}
cid = p4est_quadrant_child_id (quadrant);
if (cid == P4EST_CHILDREN - 1 ||
(quadrant->x >= P4EST_LAST_OFFSET (P4EST_MAXLEVEL - 2) &&
quadrant->y >= P4EST_LAST_OFFSET (P4EST_MAXLEVEL - 2)
#ifdef P4_TO_P8
&& quadrant->z >= P4EST_LAST_OFFSET (P4EST_MAXLEVEL - 2)
#endif
)) {
return (int) quadrant->level < ueber_level;
}
if ((int) quadrant->level >= (refine_level - (int) (which_tree % 3))) {
return 0;
}
if (quadrant->level == 1 && cid == 2) {
return 1;
}
if (quadrant->x == P4EST_QUADRANT_LEN (2) &&
quadrant->y == P4EST_LAST_OFFSET (2)) {
return 1;
}
if (quadrant->y >= P4EST_QUADRANT_LEN (2)) {
return 0;
}
return 1;
}
int
main (int argc, char **argv)
{
sc_MPI_Comm mpicomm;
int mpiret;
int size, rank;
unsigned crcF, crcC;
p4est_connectivity_t *connectivity;
p4est_t *p4est;
p4est_t *p4estF, *p4estC;
#ifdef P4_TO_P8
unsigned crcE;
p4est_t *p4estE;
#endif
/* initialize */
mpiret = sc_MPI_Init (&argc, &argv);
SC_CHECK_MPI (mpiret);
mpicomm = sc_MPI_COMM_WORLD;
mpiret = sc_MPI_Comm_size (mpicomm, &size);
SC_CHECK_MPI (mpiret);
mpiret = sc_MPI_Comm_rank (mpicomm, &rank);
SC_CHECK_MPI (mpiret);
sc_init (mpicomm, 1, 1, NULL, SC_LP_DEFAULT);
p4est_init (NULL, SC_LP_DEFAULT);
/* create forest and refine */
#ifndef P4_TO_P8
connectivity = p4est_connectivity_new_star ();
#else
connectivity = p8est_connectivity_new_rotcubes ();
#endif
p4est = p4est_new_ext (mpicomm, connectivity, 0, 0, 0, 0, NULL, NULL);
p4est_refine (p4est, 1, refine_fn, NULL);
/* test face balance */
p4estF = p4est_copy (p4est, 0);
#ifndef P4_TO_P8
p4est_balance (p4estF, P4EST_CONNECT_FACE, NULL);
#else
p4est_balance (p4estF, P8EST_CONNECT_FACE, NULL);
#endif
crcF = p4est_checksum (p4estF);
P4EST_GLOBAL_INFOF ("Face balance with %lld quadrants and crc 0x%08x\n",
(long long) p4estF->global_num_quadrants, crcF);
#ifdef P4_TO_P8
/* test edge balance */
p4estE = p4est_copy (p4est, 1);
p4est_balance (p4estF, P8EST_CONNECT_EDGE, NULL);
p4est_balance (p4estE, P8EST_CONNECT_EDGE, NULL);
crcE = p4est_checksum (p4estE);
SC_CHECK_ABORT (crcE == p4est_checksum (p4estF), "mismatch A");
P4EST_GLOBAL_INFOF ("Edge balance with %lld quadrants and crc 0x%08x\n",
(long long) p4estE->global_num_quadrants, crcE);
#endif
/* test corner balance */
p4estC = p4est_copy (p4est, 1);
#ifndef P4_TO_P8
p4est_balance (p4estF, P4EST_CONNECT_CORNER, NULL);
p4est_balance (p4estC, P4EST_CONNECT_CORNER, NULL);
#else
p4est_balance (p4estF, P8EST_CONNECT_CORNER, NULL);
p4est_balance (p4estC, P8EST_CONNECT_CORNER, NULL);
#endif
crcC = p4est_checksum (p4estC);
SC_CHECK_ABORT (crcC == p4est_checksum (p4estF), "mismatch B");
P4EST_GLOBAL_INFOF ("Corner balance with %lld quadrants and crc 0x%08x\n",
(long long) p4estC->global_num_quadrants, crcC);
/* destroy forests and connectivity */
p4est_destroy (p4est);
p4est_destroy (p4estF);
#ifdef P4_TO_P8
p4est_destroy (p4estE);
#endif
p4est_destroy (p4estC);
p4est_connectivity_destroy (connectivity);
/* clean up and exit */
sc_finalize ();
mpiret = sc_MPI_Finalize ();
SC_CHECK_MPI (mpiret);
return 0;
}
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