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ref_cell_test.c
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ref_cell_test.c
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/* Copyright 2014 United States Government as represented by the
* Administrator of the National Aeronautics and Space
* Administration. No copyright is claimed in the United States under
* Title 17, U.S. Code. All Other Rights Reserved.
*
* The refine platform is licensed under the Apache License, Version
* 2.0 (the "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
* http://www.apache.org/licenses/LICENSE-2.0.
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
* implied. See the License for the specific language governing
* permissions and limitations under the License.
*/
#include "ref_cell.h"
#include <math.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "ref_adj.h"
#include "ref_fixture.h"
#include "ref_grid.h"
#include "ref_list.h"
#include "ref_malloc.h"
#include "ref_math.h"
#include "ref_matrix.h"
#include "ref_mpi.h"
#include "ref_node.h"
#include "ref_sort.h"
static REF_STATUS ref_edg(REF_CELL *ref_cell_ptr) {
return ref_cell_create(ref_cell_ptr, REF_CELL_EDG);
}
static REF_STATUS ref_ed3(REF_CELL *ref_cell_ptr) {
return ref_cell_create(ref_cell_ptr, REF_CELL_ED3);
}
static REF_STATUS ref_tri(REF_CELL *ref_cell_ptr) {
return ref_cell_create(ref_cell_ptr, REF_CELL_TRI);
}
static REF_STATUS ref_qua(REF_CELL *ref_cell_ptr) {
return ref_cell_create(ref_cell_ptr, REF_CELL_QUA);
}
static REF_STATUS ref_tet(REF_CELL *ref_cell_ptr) {
return ref_cell_create(ref_cell_ptr, REF_CELL_TET);
}
static REF_STATUS ref_pyr(REF_CELL *ref_cell_ptr) {
return ref_cell_create(ref_cell_ptr, REF_CELL_PYR);
}
static REF_STATUS ref_pri(REF_CELL *ref_cell_ptr) {
return ref_cell_create(ref_cell_ptr, REF_CELL_PRI);
}
static REF_STATUS ref_hex(REF_CELL *ref_cell_ptr) {
return ref_cell_create(ref_cell_ptr, REF_CELL_HEX);
}
int main(int argc, char *argv[]) {
REF_MPI ref_mpi;
RSS(ref_mpi_start(argc, argv), "start");
RSS(ref_mpi_create(&ref_mpi), "create mpi");
REIS(REF_NULL, ref_cell_free(NULL), "dont free NULL");
{ /* deep copy empty */
REF_CELL ref_cell;
REF_CELL original;
RSS(ref_tet(&original), "create");
RSS(ref_cell_deep_copy(&ref_cell, original), "deep copy");
RSS(ref_cell_free(original), "cleanup");
RSS(ref_cell_free(ref_cell), "cleanup");
}
{ /* add */
REF_CELL ref_cell;
REF_INT nodes[4];
REF_INT cell;
RSS(ref_tet(&ref_cell), "create");
RES(0, ref_cell_n(ref_cell), "init zero cells");
nodes[0] = 0;
nodes[1] = 1;
nodes[2] = 2;
nodes[3] = 3;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
RES(0, cell, "first cell is zero");
RES(1, ref_cell_n(ref_cell), "first cell increments n");
nodes[0] = 0;
nodes[1] = 1;
nodes[2] = 2;
nodes[3] = 3;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
RES(1, cell, "second cell is one");
RES(2, ref_cell_n(ref_cell), "second cell increments n");
RSS(ref_cell_free(ref_cell), "cleanup");
}
{ /* add many global */
REF_CELL ref_cell;
REF_NODE ref_node;
REF_GLOB nodes[4];
REF_INT parts[4];
REF_INT retrieved[4];
RSS(ref_node_create(&ref_node, ref_mpi), "create node");
RSS(ref_tet(&ref_cell), "create");
RES(0, ref_cell_n(ref_cell), "init zero cells");
nodes[0] = 0;
nodes[1] = 10;
nodes[2] = 20;
nodes[3] = 30;
parts[0] = 0;
parts[1] = 1;
parts[2] = 2;
parts[3] = 3;
RSS(ref_cell_add_many_global(ref_cell, ref_node, 1, nodes, parts,
REF_EMPTY),
"add many");
RSS(ref_cell_nodes(ref_cell, 0, retrieved), "cell should exist");
RES(0, retrieved[0], "node 0");
RES(1, retrieved[1], "node 1");
RES(2, retrieved[2], "node 2");
RES(3, retrieved[3], "node 3");
RES(20, ref_node_global(ref_node, 2), "global mapped");
RES(2, ref_node_part(ref_node, 2), "part rec");
RSS(ref_cell_free(ref_cell), "cleanup");
RSS(ref_node_free(ref_node), "cleanup");
}
{ /* ref_cell_nodes bounds */
REF_CELL ref_cell;
REF_INT max;
REF_INT cell, nodes[4];
RSS(ref_tet(&ref_cell), "create");
max = ref_cell_max(ref_cell);
cell = -1;
REIS(REF_INVALID, ref_cell_nodes(ref_cell, cell, nodes), "invalid cell");
cell = max;
REIS(REF_INVALID, ref_cell_nodes(ref_cell, cell, nodes), "invalid cell");
RSS(ref_cell_free(ref_cell), "free cell");
}
{ /* remove */
REF_CELL ref_cell;
REF_INT nodes[4];
REF_INT item;
REF_INT cell;
RSS(ref_tet(&ref_cell), "create");
nodes[0] = 0;
nodes[1] = 1;
nodes[2] = 2;
nodes[3] = 3;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
nodes[0] = 0;
nodes[1] = 4;
nodes[2] = 5;
nodes[3] = 6;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
REIS(REF_INVALID, ref_cell_remove(ref_cell, 3), "remove cell missing cell");
RES(2, ref_cell_n(ref_cell), "still there");
RSS(ref_cell_remove(ref_cell, 0), "remove cell");
RES(1, ref_cell_n(ref_cell), "reduced count")
RAS(!ref_cell_valid(ref_cell, 0), "cell is still here");
each_ref_adj_node_item_with_ref((ref_cell)->ref_adj, 0, item, cell)
RAS(!(cell == 0), "removed cell still in adj");
each_ref_adj_node_item_with_ref((ref_cell)->ref_adj, 2, item, cell)
RAS(!(cell == 0), "removed cell still in adj");
RSS(ref_cell_free(ref_cell), "cleanup");
}
{ /* compact */
REF_CELL ref_cell;
REF_INT nodes[4];
REF_INT cell;
REF_INT *o2n, *n2o;
RSS(ref_tet(&ref_cell), "create");
nodes[0] = 0;
nodes[1] = 1;
nodes[2] = 2;
nodes[3] = 3;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
nodes[0] = 1;
nodes[1] = 2;
nodes[2] = 3;
nodes[3] = 4;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
nodes[0] = 3;
nodes[1] = 4;
nodes[2] = 5;
nodes[3] = 6;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
RSS(ref_cell_remove(ref_cell, 1), "remove cell");
RSS(ref_cell_compact(ref_cell, &o2n, &n2o), "compact");
REIS(0, o2n[0], "o2n");
REIS(REF_EMPTY, o2n[1], "o2n");
REIS(1, o2n[2], "o2n");
REIS(0, n2o[0], "n2o");
REIS(2, n2o[1], "n2o");
ref_free(n2o);
ref_free(o2n);
RSS(ref_cell_free(ref_cell), "cleanup");
}
{ /* remove tri*/
REF_CELL ref_cell;
REF_INT nodes[4];
REF_INT cell;
RSS(ref_tri(&ref_cell), "create");
nodes[0] = 0;
nodes[1] = 1;
nodes[2] = 2;
nodes[3] = 1;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
RSS(ref_cell_remove(ref_cell, cell), "remove cell");
RAS(ref_adj_empty(ref_cell_adj(ref_cell), 1), "id");
RSS(ref_cell_free(ref_cell), "cleanup");
}
{ /* replace whole tri */
REF_CELL ref_cell;
REF_INT nodes[4];
REF_INT cell;
RSS(ref_tri(&ref_cell), "create");
nodes[0] = 0;
nodes[1] = 1;
nodes[2] = 2;
nodes[3] = 10;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
nodes[0] = 2;
nodes[1] = 1;
nodes[2] = 3;
nodes[3] = 20;
RSS(ref_cell_replace_whole(ref_cell, cell, nodes), "replace cell");
RAS(ref_adj_empty(ref_cell_adj(ref_cell), 0), "old node");
RAS(!ref_adj_empty(ref_cell_adj(ref_cell), 3), "new node");
RSS(ref_cell_free(ref_cell), "cleanup");
}
{ /* replace node of tri */
REF_CELL ref_cell;
REF_INT nodes[4];
REF_INT retrieved[4];
REF_INT cell;
RSS(ref_tri(&ref_cell), "create");
nodes[0] = 0;
nodes[1] = 1;
nodes[2] = 2;
nodes[3] = 10;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
RSS(ref_cell_replace_node(ref_cell, 2, 3), "replace node");
RSS(ref_cell_nodes(ref_cell, cell, retrieved), "cell should exist");
REIS(0, retrieved[0], "node 0");
REIS(1, retrieved[1], "node 1");
REIS(3, retrieved[2], "node 2");
REIS(10, retrieved[3], "id");
RAS(ref_adj_empty(ref_cell_adj(ref_cell), 2), "old node");
RAS(!ref_adj_empty(ref_cell_adj(ref_cell), 3), "new node");
RSS(ref_cell_free(ref_cell), "cleanup");
}
{ /* replace node of 2 tri */
REF_CELL ref_cell;
REF_INT nodes[4];
REF_INT cell;
RSS(ref_tri(&ref_cell), "create");
nodes[0] = 0;
nodes[1] = 1;
nodes[2] = 2;
nodes[3] = 10;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
nodes[0] = 2;
nodes[1] = 1;
nodes[2] = 3;
nodes[3] = 10;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
RSS(ref_cell_replace_node(ref_cell, 2, 4), "replace node");
RAS(ref_adj_empty(ref_cell_adj(ref_cell), 2), "old node");
RAS(!ref_adj_empty(ref_cell_adj(ref_cell), 4), "new node");
RSS(ref_cell_free(ref_cell), "cleanup");
}
{ /* force realloc twice */
REF_CELL ref_cell;
REF_INT max, i;
REF_INT cell, nodes[4];
RSS(ref_tet(&ref_cell), "create");
max = ref_cell_max(ref_cell);
for (i = 0; i < max + 1; i++) {
nodes[0] = 0;
nodes[1] = 1;
nodes[2] = 2;
nodes[3] = 3;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
RES(i, cell, "expected ordered new cells first block");
}
RAS(ref_cell_max(ref_cell) > max, "realloc max");
max = ref_cell_max(ref_cell);
for (i = ref_cell_n(ref_cell); i < max + 1; i++) {
nodes[0] = 0;
nodes[1] = 1;
nodes[2] = 2;
nodes[3] = 3;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
RES(i, cell, "expected ordered new cells second block");
}
RAS(ref_cell_max(ref_cell) > max, "realloc max");
RSS(ref_cell_free(ref_cell), "free");
}
{ /* reuse without reallocation */
REF_CELL ref_cell;
REF_INT max, i;
REF_INT cell, nodes[4];
RSS(ref_tet(&ref_cell), "create");
max = ref_cell_max(ref_cell);
for (i = 0; i < max + 10; i++) {
nodes[0] = 0;
nodes[1] = 1;
nodes[2] = 2;
nodes[3] = 3;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
RSS(ref_cell_remove(ref_cell, cell), "rm cell");
}
REIS(max, ref_cell_max(ref_cell), "do not realloc max");
RSS(ref_cell_free(ref_cell), "free");
}
{ /* get nodes */
REF_CELL ref_cell;
REF_INT cell, nodes[4];
REF_INT retrieved[4];
RSS(ref_tet(&ref_cell), "create new");
nodes[0] = 0;
nodes[1] = 1;
nodes[2] = 2;
nodes[3] = 3;
REIS(REF_INVALID, ref_cell_nodes(ref_cell, 0, nodes), "missing cell");
REIS(REF_INVALID, ref_cell_nodes(ref_cell, -1, nodes),
"-1 cell should fail");
REIS(REF_INVALID, ref_cell_nodes(ref_cell, 1000000000, nodes),
"large cell");
nodes[0] = 10;
nodes[1] = 20;
nodes[2] = 30;
nodes[3] = 40;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
RSS(ref_cell_nodes(ref_cell, 0, retrieved), "cell should exist");
RES(10, retrieved[0], "node 0");
RES(20, retrieved[1], "node 1");
RES(30, retrieved[2], "node 2");
RES(40, retrieved[3], "node 3");
RSS(ref_cell_free(ref_cell), "free");
}
{ /* valid? */
REF_CELL ref_cell;
REF_INT cell, nodes[4];
RSS(ref_tet(&ref_cell), "create new");
nodes[0] = 0;
nodes[1] = 1;
nodes[2] = 2;
nodes[3] = 3;
RAS(!ref_cell_valid(ref_cell, -1), "invalid -1");
RAS(!ref_cell_valid(ref_cell, -1), "invalid 0");
RAS(!ref_cell_valid(ref_cell, -1), "invalid 1");
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
RAS(ref_cell_valid(ref_cell, 0), "valid 0");
RSS(ref_cell_free(ref_cell), "free");
}
{ /* orient */
REF_INT nnode, node0, nodes[4];
nnode = 4;
node0 = 0;
nodes[0] = 0;
nodes[1] = 1;
nodes[2] = 2;
nodes[3] = 3;
RSS(ref_cell_orient_node0(nnode, node0, nodes), "orient");
REIS(0, nodes[0], "nodes[0]");
REIS(1, nodes[1], "nodes[1]");
REIS(2, nodes[2], "nodes[2]");
REIS(3, nodes[3], "nodes[3]");
node0 = 1;
nodes[0] = 0;
nodes[1] = 1;
nodes[2] = 2;
nodes[3] = 3;
RSS(ref_cell_orient_node0(nnode, node0, nodes), "orient");
REIS(1, nodes[0], "nodes[0]");
REIS(0, nodes[1], "nodes[1]");
REIS(3, nodes[2], "nodes[2]");
REIS(2, nodes[3], "nodes[3]");
node0 = 2;
nodes[0] = 0;
nodes[1] = 1;
nodes[2] = 2;
nodes[3] = 3;
RSS(ref_cell_orient_node0(nnode, node0, nodes), "orient");
REIS(2, nodes[0], "nodes[0]");
REIS(3, nodes[1], "nodes[1]");
REIS(0, nodes[2], "nodes[2]");
REIS(1, nodes[3], "nodes[3]");
node0 = 3;
nodes[0] = 0;
nodes[1] = 1;
nodes[2] = 2;
nodes[3] = 3;
RSS(ref_cell_orient_node0(nnode, node0, nodes), "orient");
REIS(3, nodes[0], "nodes[0]");
REIS(2, nodes[1], "nodes[1]");
REIS(1, nodes[2], "nodes[2]");
REIS(0, nodes[3], "nodes[3]");
}
{ /* adj */
REF_CELL ref_cell;
REF_INT cell, nodes[4];
RSS(ref_tet(&ref_cell), "create new");
RAS(ref_adj_empty(ref_cell_adj(ref_cell), 0), "first node");
RAS(ref_adj_empty(ref_cell_adj(ref_cell), 3), "last node");
nodes[0] = 0;
nodes[1] = 1;
nodes[2] = 2;
nodes[3] = 3;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
RAS(!ref_adj_empty(ref_cell_adj(ref_cell), 0), "first node");
RAS(!ref_adj_empty(ref_cell_adj(ref_cell), 3), "last node");
RSS(ref_cell_free(ref_cell), "free");
}
{ /* adj with id */
REF_CELL ref_cell;
REF_INT cell, nodes[4];
RSS(ref_tri(&ref_cell), "create new");
nodes[0] = 0;
nodes[1] = 1;
nodes[2] = 2;
nodes[3] = 3;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
RAS(!ref_adj_empty(ref_cell_adj(ref_cell), 0), "first node");
RAS(!ref_adj_empty(ref_cell_adj(ref_cell), 2), "last node");
RAS(ref_adj_empty(ref_cell_adj(ref_cell), 3), "id");
RSS(ref_cell_free(ref_cell), "free");
}
{ /* loop cells */
REF_CELL ref_cell;
REF_INT cell, nodes[4];
REF_INT ncell;
RSS(ref_tet(&ref_cell), "create new");
ncell = 0;
each_ref_cell_valid_cell(ref_cell, cell) ncell++;
RES(0, ncell, "start zero cells");
nodes[0] = 0;
nodes[1] = 1;
nodes[2] = 2;
nodes[3] = 3;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
nodes[0] = -1;
nodes[1] = -1;
nodes[2] = -1;
nodes[3] = -1;
ncell = 0;
each_ref_cell_valid_cell_with_nodes(ref_cell, cell, nodes) ncell++;
RES(1, ncell, "found cell");
RES(0, nodes[0], "got node 0");
RES(1, nodes[1], "got node 1");
RES(2, nodes[2], "got node 2");
RES(3, nodes[3], "got node 3");
RSS(ref_cell_free(ref_cell), "cleanup");
}
{ /* edge_per */
REF_CELL ref_cell;
RSS(ref_tet(&ref_cell), "create");
REIS(6, ref_cell_edge_per(ref_cell), "edge_per");
RSS(ref_cell_free(ref_cell), "cleanup");
RSS(ref_pyr(&ref_cell), "create");
REIS(8, ref_cell_edge_per(ref_cell), "edge_per");
RSS(ref_cell_free(ref_cell), "cleanup");
RSS(ref_pri(&ref_cell), "create");
REIS(9, ref_cell_edge_per(ref_cell), "edge_per");
RSS(ref_cell_free(ref_cell), "cleanup");
RSS(ref_hex(&ref_cell), "create");
REIS(12, ref_cell_edge_per(ref_cell), "edge_per");
RSS(ref_cell_free(ref_cell), "cleanup");
RSS(ref_edg(&ref_cell), "create");
REIS(1, ref_cell_edge_per(ref_cell), "edge_per");
RSS(ref_cell_free(ref_cell), "cleanup");
RSS(ref_ed3(&ref_cell), "create");
REIS(1, ref_cell_edge_per(ref_cell), "edge_per");
RSS(ref_cell_free(ref_cell), "cleanup");
RSS(ref_tri(&ref_cell), "create");
REIS(3, ref_cell_edge_per(ref_cell), "edge_per");
RSS(ref_cell_free(ref_cell), "cleanup");
RSS(ref_qua(&ref_cell), "create");
REIS(4, ref_cell_edge_per(ref_cell), "edge_per");
RSS(ref_cell_free(ref_cell), "cleanup");
}
{ /* face_per */
REF_CELL ref_cell;
RSS(ref_tet(&ref_cell), "create");
RES(4, ref_cell_face_per(ref_cell), "face_per");
RSS(ref_cell_free(ref_cell), "cleanup");
RSS(ref_pyr(&ref_cell), "create");
RES(5, ref_cell_face_per(ref_cell), "face_per");
RSS(ref_cell_free(ref_cell), "cleanup");
RSS(ref_pri(&ref_cell), "create");
RES(5, ref_cell_face_per(ref_cell), "face_per");
RSS(ref_cell_free(ref_cell), "cleanup");
RSS(ref_hex(&ref_cell), "create");
RES(6, ref_cell_face_per(ref_cell), "face_per");
RSS(ref_cell_free(ref_cell), "cleanup");
}
{ /* tet face */
REF_CELL ref_cell;
RSS(ref_tet(&ref_cell), "create");
REIS(1, ref_cell_f2n_gen(ref_cell, 0, 0), "tri face nodes");
REIS(3, ref_cell_f2n_gen(ref_cell, 1, 0), "tri face nodes");
REIS(2, ref_cell_f2n_gen(ref_cell, 2, 0), "tri face nodes");
REIS(ref_cell_f2n_gen(ref_cell, 0, 0), ref_cell_f2n_gen(ref_cell, 3, 0),
"quad not tri");
REIS(0, ref_cell_f2n_gen(ref_cell, 0, 1), "tri face nodes");
REIS(2, ref_cell_f2n_gen(ref_cell, 1, 1), "tri face nodes");
REIS(3, ref_cell_f2n_gen(ref_cell, 2, 1), "tri face nodes");
REIS(ref_cell_f2n_gen(ref_cell, 0, 1), ref_cell_f2n_gen(ref_cell, 3, 1),
"quad not tri");
REIS(0, ref_cell_f2n_gen(ref_cell, 0, 2), "tri face nodes");
REIS(3, ref_cell_f2n_gen(ref_cell, 1, 2), "tri face nodes");
REIS(1, ref_cell_f2n_gen(ref_cell, 2, 2), "tri face nodes");
REIS(ref_cell_f2n_gen(ref_cell, 0, 2), ref_cell_f2n_gen(ref_cell, 3, 2),
"quad not tri");
REIS(0, ref_cell_f2n_gen(ref_cell, 0, 3), "tri face nodes");
REIS(1, ref_cell_f2n_gen(ref_cell, 1, 3), "tri face nodes");
REIS(2, ref_cell_f2n_gen(ref_cell, 2, 3), "tri face nodes");
REIS(ref_cell_f2n_gen(ref_cell, 0, 3), ref_cell_f2n_gen(ref_cell, 3, 3),
"quad not tri");
RSS(ref_cell_free(ref_cell), "cleanup");
}
{ /* tet face nodes*/
REF_CELL ref_cell;
REF_INT cell, nodes[4];
REF_INT cell_face;
RSS(ref_tet(&ref_cell), "create");
nodes[0] = 10;
nodes[1] = 20;
nodes[2] = 30;
nodes[3] = 40;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
cell = 0;
cell_face = 3;
REIS(10, ref_cell_f2n(ref_cell, 0, cell_face, cell), "tri face nodes");
REIS(20, ref_cell_f2n(ref_cell, 1, cell_face, cell), "tri face nodes");
REIS(30, ref_cell_f2n(ref_cell, 2, cell_face, cell), "tri face nodes");
REIS(ref_cell_f2n(ref_cell, 0, cell_face, cell),
ref_cell_f2n(ref_cell, 3, cell_face, cell), "tri face nodes");
RSS(ref_cell_free(ref_cell), "cleanup");
}
{ /* hex edge faces */
REF_CELL ref_cell;
REF_INT edge, face0, face1;
RSS(ref_hex(&ref_cell), "create");
edge = 0;
RSS(ref_cell_gen_edge_face(ref_cell, edge, &face0, &face1), "edge face");
REIS(0, face0, "face0");
REIS(4, face1, "face1");
edge = 1;
RSS(ref_cell_gen_edge_face(ref_cell, edge, &face0, &face1), "edge face");
REIS(3, face0, "face0");
REIS(4, face1, "face1");
edge = 2;
RSS(ref_cell_gen_edge_face(ref_cell, edge, &face0, &face1), "edge face");
REIS(0, face0, "face0");
REIS(3, face1, "face1");
edge = 6;
RSS(ref_cell_gen_edge_face(ref_cell, edge, &face0, &face1), "edge face");
REIS(1, face0, "face0");
REIS(2, face1, "face1");
edge = 11;
RSS(ref_cell_gen_edge_face(ref_cell, edge, &face0, &face1), "edge face");
REIS(2, face0, "face0");
REIS(5, face1, "face1");
RSS(ref_cell_free(ref_cell), "cleanup");
}
{ /* tet with */
REF_CELL ref_cell;
REF_INT cell, nodes[4];
REF_INT found;
RSS(ref_tet(&ref_cell), "create");
nodes[0] = 0;
nodes[1] = 1;
nodes[2] = 2;
nodes[3] = 3;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
RSS(ref_cell_with(ref_cell, nodes, &found), "not found");
REIS(cell, found, "not same");
nodes[0] = 5;
REIS(REF_NOT_FOUND, ref_cell_with(ref_cell, nodes, &found), "found");
REIS(REF_EMPTY, found, "not same")
RSS(ref_cell_free(ref_cell), "cleanup");
}
{ /* list of one tet with two nodes */
REF_CELL ref_cell;
REF_INT cell, nodes[4];
REF_INT ncell, list[5];
RSS(ref_tet(&ref_cell), "create");
nodes[0] = 0;
nodes[1] = 1;
nodes[2] = 2;
nodes[3] = 3;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
RSS(ref_cell_list_with2(ref_cell, 0, 1, 5, &ncell, list), "no list");
REIS(1, ncell, "mis count");
REIS(0, list[0], "not in list");
RSS(ref_cell_free(ref_cell), "cleanup");
}
{ /* list of two tet with two nodes */
REF_CELL ref_cell;
REF_INT cell, nodes[4];
REF_INT ncell, list[5];
RSS(ref_tet(&ref_cell), "create");
nodes[0] = 0;
nodes[1] = 1;
nodes[2] = 2;
nodes[3] = 3;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
nodes[0] = 0;
nodes[1] = 2;
nodes[2] = 1;
nodes[3] = 4;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
REIS(REF_INCREASE_LIMIT,
ref_cell_list_with2(ref_cell, 0, 1, 1, &ncell, list),
"one should be too small");
RSS(ref_cell_list_with2(ref_cell, 0, 1, 5, &ncell, list), "no list");
REIS(2, ncell, "mis count");
REIS(1, list[0], "not in list");
REIS(0, list[1], "not in list");
RSS(ref_cell_free(ref_cell), "cleanup");
}
{ /* degree of tets with two nodes */
REF_CELL ref_cell;
REF_INT cell, nodes[4];
REF_INT degree;
RSS(ref_tet(&ref_cell), "create");
nodes[0] = 0;
nodes[1] = 1;
nodes[2] = 2;
nodes[3] = 3;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
nodes[0] = 0;
nodes[1] = 2;
nodes[2] = 1;
nodes[3] = 4;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
RSS(ref_cell_degree_with2(ref_cell, 3, 4, °ree), "degree 0");
REIS(0, degree, "zero edge");
RSS(ref_cell_degree_with2(ref_cell, 0, 3, °ree), "degree 1");
REIS(1, degree, "one edge");
RSS(ref_cell_degree_with2(ref_cell, 0, 1, °ree), "degree 2");
REIS(2, degree, "two edge");
RSS(ref_cell_free(ref_cell), "cleanup");
}
{ /* list of node */
REF_CELL ref_cell;
REF_INT cell, nodes[4];
REF_INT nnode, list[6];
RSS(ref_tet(&ref_cell), "create");
nodes[0] = 0;
nodes[1] = 1;
nodes[2] = 2;
nodes[3] = 3;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
RSS(ref_cell_node_list_around(ref_cell, 0, 6, &nnode, list), "no list");
REIS(3, nnode, "mis count");
REIS(1, list[0], "not in list");
REIS(2, list[1], "not in list");
REIS(3, list[2], "not in list");
nodes[0] = 0;
nodes[1] = 2;
nodes[2] = 1;
nodes[3] = 4;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
RSS(ref_cell_node_list_around(ref_cell, 0, 6, &nnode, list), "no list");
REIS(4, nnode, "mis count");
REIS(2, list[0], "not in list");
REIS(1, list[1], "not in list");
REIS(4, list[2], "not in list");
REIS(3, list[3], "not in list");
RSS(ref_cell_free(ref_cell), "cleanup");
}
{ /* list of faceid */
REF_CELL ref_cell;
REF_INT cell, nodes[REF_CELL_MAX_SIZE_PER];
REF_INT nfaceid, faceids[3];
RSS(ref_tri(&ref_cell), "create");
RSS(ref_cell_id_list_around(ref_cell, 0, 3, &nfaceid, faceids), "no list");
REIS(0, nfaceid, "mis count");
nodes[0] = 0;
nodes[1] = 1;
nodes[2] = 2;
nodes[3] = 10;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add tri");
RSS(ref_cell_id_list_around(ref_cell, 0, 3, &nfaceid, faceids), "list1");
REIS(1, nfaceid, "mis count");
REIS(10, faceids[0], "not in list");
nodes[0] = 0;
nodes[1] = 2;
nodes[2] = 3;
nodes[3] = 20;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
RSS(ref_cell_id_list_around(ref_cell, 0, 3, &nfaceid, faceids), "list2");
REIS(2, nfaceid, "mis count");
REIS(20, faceids[0], "not in list");
REIS(10, faceids[1], "not in list");
nodes[0] = 0;
nodes[1] = 2;
nodes[2] = 3;
nodes[3] = 30;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
RSS(ref_cell_id_list_around(ref_cell, 0, 3, &nfaceid, faceids), "list3");
REIS(3, nfaceid, "mis count");
REIS(30, faceids[0], "not in list");
REIS(20, faceids[1], "not in list");
REIS(10, faceids[2], "not in list");
nodes[0] = 0;
nodes[1] = 2;
nodes[2] = 3;
nodes[3] = 40;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
REIS(REF_INCREASE_LIMIT,
ref_cell_id_list_around(ref_cell, 0, 3, &nfaceid, faceids), "list4");
REIS(3, nfaceid, "mis count");
REIS(40, faceids[0], "not in list");
REIS(30, faceids[1], "not in list");
REIS(20, faceids[2], "not in list");
RSS(ref_cell_free(ref_cell), "cleanup");
}
{ /* tet tris */
REF_CELL ref_cell;
REF_INT tet_nodes[REF_CELL_MAX_SIZE_PER];
REF_INT tri_nodes[REF_CELL_MAX_SIZE_PER];
REF_INT ntri, cell;
RSS(ref_tri(&ref_cell), "create");
tet_nodes[0] = 0;
tet_nodes[1] = 1;
tet_nodes[2] = 2;
tet_nodes[3] = 3;
RSS(ref_cell_ntri_with_tet_nodes(ref_cell, tet_nodes, &ntri), "tet tris");
REIS(0, ntri, "should be none");
tri_nodes[0] = 0;
tri_nodes[1] = 1;
tri_nodes[2] = 2;
tri_nodes[3] = 10;
RSS(ref_cell_add(ref_cell, tri_nodes, &cell), "add tri");
RSS(ref_cell_ntri_with_tet_nodes(ref_cell, tet_nodes, &ntri), "tet tris");
REIS(1, ntri, "should be one");
tri_nodes[0] = 0;
tri_nodes[1] = 3;
tri_nodes[2] = 1;
tri_nodes[3] = 10;
RSS(ref_cell_add(ref_cell, tri_nodes, &cell), "add tri");
RSS(ref_cell_ntri_with_tet_nodes(ref_cell, tet_nodes, &ntri), "tet tris");
REIS(2, ntri, "should be two");
tri_nodes[0] = 1;
tri_nodes[1] = 3;
tri_nodes[2] = 2;
tri_nodes[3] = 10;
RSS(ref_cell_add(ref_cell, tri_nodes, &cell), "add tri");
RSS(ref_cell_ntri_with_tet_nodes(ref_cell, tet_nodes, &ntri), "tet tris");
REIS(3, ntri, "should be three");
tri_nodes[0] = 0;
tri_nodes[1] = 2;
tri_nodes[2] = 3;
tri_nodes[3] = 10;
RSS(ref_cell_add(ref_cell, tri_nodes, &cell), "add tri");
RSS(ref_cell_ntri_with_tet_nodes(ref_cell, tet_nodes, &ntri), "tet tris");
REIS(4, ntri, "should be all");
RSS(ref_cell_free(ref_cell), "cleanup tri");
}
{ /* tri with */
REF_CELL ref_cell;
REF_INT cell, nodes[4];
REF_INT found;
RSS(ref_tri(&ref_cell), "create");
nodes[0] = 0;
nodes[1] = 1;
nodes[2] = 2;
nodes[3] = 10;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
RSS(ref_cell_with(ref_cell, nodes, &found), "not found");
REIS(cell, found, "not same");
nodes[3] = 5;
RSS(ref_cell_with(ref_cell, nodes, &found), "not found");
REIS(cell, found, "not same");
nodes[0] = 5;
REIS(REF_NOT_FOUND, ref_cell_with(ref_cell, nodes, &found), "found");
REIS(REF_EMPTY, found, "not same")
RSS(ref_cell_free(ref_cell), "cleanup");
}
{ /* pri cell has face */
REF_CELL ref_cell;
REF_INT cell;
REF_INT nodes[REF_CELL_MAX_SIZE_PER];
REF_INT face_nodes[REF_CELL_MAX_SIZE_PER];
REF_INT found0, found1;
RSS(ref_pri(&ref_cell), "create");
nodes[0] = 0;
nodes[1] = 1;
nodes[2] = 2;
nodes[3] = 3;
nodes[4] = 4;
nodes[5] = 5;
RSS(ref_cell_add(ref_cell, nodes, &cell), "add cell");
face_nodes[0] = 0;
face_nodes[1] = 1;
face_nodes[2] = 5;
face_nodes[3] = 0;
RSS(ref_cell_with_face(ref_cell, face_nodes, &found0, &found1), "with");
REIS(REF_EMPTY, found0, "false positive");
REIS(REF_EMPTY, found1, "false positive");
face_nodes[0] = 1;
face_nodes[1] = 0;
face_nodes[2] = 3;