/**
* aran_solver2d_remove_point:
* @solver: an #AranSolver2d.
* @point: a particle.
*
* Removes a particle from the associated #VsgPRTree2d.
*
* Returns: %TRUE on success.
*/
gboolean aran_solver2d_remove_point (AranSolver2d *solver,
VsgPoint2 point)
{
g_return_val_if_fail (solver != NULL, FALSE);
return vsg_prtree2d_remove_point (solver->prtree, point);
}
gint main (gint argc, gchar ** argv)
{
gint ret = 0;
VsgVector2d lb = {-1., -1.};
VsgVector2d ub = {1., 1.};
NodeCounter counter = {0, 0};
const guint n = 1000;
Pt points[n];
VsgPRTree2d *tree;
gint i;
if (argc > 1 && g_strncasecmp (argv[1], "--version", 9) == 0)
{
g_print ("%s\n", PACKAGE_VERSION);
return 0;
}
vsg_init_gdouble ();
/* create the tree */
tree = vsg_prtree2d_new (&lb, &ub, NULL, 1);
vsg_prtree2d_set_node_data (tree, TYPE_NODE_COUNTER, &counter);
/* create the points */
create_points (points, n);
/* insert the points into the tree */
for (i=0; i<n; i++)
{
vsg_prtree2d_insert_point (tree, &points[i]);
}
/* accumulate the point counts across the tree */
vsg_prtree2d_traverse (tree, G_POST_ORDER, (VsgPRTree2dFunc) up, NULL);
/* do some near/far traversal */
vsg_prtree2d_near_far_traversal (tree, (VsgPRTree2dFarInteractionFunc) far,
(VsgPRTree2dInteractionFunc) near,
&ret);
/* distribute back the point counts across the tree */
vsg_prtree2d_traverse (tree, G_PRE_ORDER, (VsgPRTree2dFunc) down, NULL);
/* check the results */
for (i=0; i<n; i++)
{
if (points[i].count != n)
{
g_printerr ("ERROR: wrong count on point %d: %d (should be %d).\n",
i, points[i].count, n);
ret ++;
}
}
/* remove the points */
for (i=0; i<n; i++)
{
vsg_prtree2d_remove_point (tree, &points[i]);
}
/* destroy the tree */
vsg_prtree2d_free (tree);
return ret;
}
gint main (gint argc, gchar ** argv)
{
gint ret = 0;
VsgVector2d lb = {-1., -1.};
VsgVector2d ub = {1., 1.};
VsgVector2d points[] = {
{-0.5, -0.5},
{0.5, -0.5},
{-0.5, 0.5},
{0.25, 0.25},
{0.75, 0.75},
{1.75, 1.75}, /* exterior point */
};
const guint n = sizeof (points) / sizeof (VsgVector2d);
VsgPRTree2d *tree;
VsgPRTree2d *tree_clone;
gint i;
if (argc > 1 && g_ascii_strncasecmp (argv[1], "--version", 9) == 0)
{
g_print ("%s\n", PACKAGE_VERSION);
return 0;
}
vsg_init_gdouble ();
/* create the tree */
tree =
vsg_prtree2d_new_full (&lb, &ub,
(VsgPoint2dLocFunc) vsg_vector2d_vector2d_locfunc,
(VsgPoint2dDistFunc) vsg_vector2d_dist,
NULL, 1);
/* insert some points */
for (i=0; i<n; i++)
{
vsg_prtree2d_insert_point (tree, &points[i]);
}
/* clone the tree and destroy it */
tree_clone = vsg_prtree2d_clone (tree);
vsg_prtree2d_free (tree);
/* do some traversal */
i=0;
vsg_prtree2d_traverse (tree_clone, G_PRE_ORDER,
(VsgPRTree2dFunc) traverse_point_count, &i);
/* check the results */
if (i != n)
{
g_printerr ("ERROR: traverse point count %d (should be %d)\n",
i, n);
ret ++;
}
/* remove the points */
for (i=0; i<n; i++)
{
vsg_prtree2d_remove_point (tree_clone, &points[i]);
}
/* destroy the cloned tree */
vsg_prtree2d_free (tree_clone);
return ret;
}
gint main (gint argc, gchar ** argv)
{
gint ret = 0;
VsgVector2d lb = {-1., -1.};
VsgVector2d ub = {1., 1.};
VsgPRTree2d *tree;
VsgPRTree2d *treeref;
gint i;
gint ref_far_count;
vsg_init_gdouble ();
parse_args (argc, argv);
#ifdef VSG_HAVE_MPI
if (_mpi)
{
MPI_Init (&argc, &argv);
MPI_Comm_size (MPI_COMM_WORLD, &sz);
MPI_Comm_rank (MPI_COMM_WORLD, &rk);
if (counts != NULL)
{
gint i = 0;
gint tmp = 0;
while (counts[i+1] != NULL && i<rk) i ++;
if (sscanf (counts[i], "%u", &tmp) == 1)
_expect_far_count = tmp;
else
test_printerr ("Invalid expected far count list (--expect-far-counts)\n");
g_strfreev (counts);
}
}
#endif
points_array = g_ptr_array_new ();
if (rk == 0) _fill (&_npoints, points_array);
else _npoints = 0;
pointsref_array = g_ptr_array_sized_new (_npoints);
for (i=0; i<_npoints; i++)
{
Pt *ptref = pt_alloc (TRUE, pointsref_array);
memcpy (ptref, (Pt *) g_ptr_array_index (points_array, i), sizeof (Pt));
}
/* create the trees */
tree =
vsg_prtree2d_new_full (&lb, &ub,
(VsgPoint2dLocFunc) vsg_vector2d_vector2d_locfunc,
(VsgPoint2dDistFunc) vsg_vector2d_dist,
NULL, _maxbox);
treeref = vsg_prtree2d_clone (tree);
vsg_prtree2d_set_nf_isleaf (tree, _nf_isleaf_virtual_maxbox,
&_virtual_maxbox);
vsg_parallel_vtable_set (&pconfig.node_data,
node_counter_alloc, NULL,
node_counter_destroy, NULL);
vsg_prtree2d_set_node_data_vtable (tree, &pconfig.node_data);
vsg_parallel_vtable_set (&prefconfig.node_data,
node_counter_alloc, NULL,
node_counter_destroy, NULL);
vsg_prtree2d_set_node_data_vtable (treeref, &prefconfig.node_data);
#ifdef VSG_HAVE_MPI
if (_mpi)
{
vsg_parallel_vtable_set (&pconfig.point,
pt_alloc, points_array,
pt_destroy, points_array);
vsg_parallel_vtable_set (&prefconfig.point,
pt_alloc, pointsref_array,
pt_destroy, pointsref_array);
vsg_parallel_vtable_set_parallel (&pconfig.point,
pt_migrate_pack, NULL,
pt_migrate_unpack, NULL,
NULL, NULL,
pt_visit_fw_pack, NULL,
pt_visit_fw_unpack, NULL,
NULL, NULL,
pt_visit_bw_pack, NULL,
pt_visit_bw_unpack, NULL,
pt_visit_bw_reduce, NULL);
vsg_parallel_vtable_set_parallel (&pconfig.node_data,
nc_migrate_pack, NULL,
nc_migrate_unpack, NULL,
NULL, NULL,
nc_visit_fw_pack, NULL,
nc_visit_fw_unpack, NULL,
nc_visit_fw_reduce, NULL,
nc_visit_bw_pack, NULL,
nc_visit_bw_unpack, NULL,
nc_visit_bw_reduce, NULL);
vsg_parallel_vtable_set_parallel (&prefconfig.point,
pt_migrate_pack, NULL,
pt_migrate_unpack, NULL,
NULL, NULL,
pt_visit_fw_pack, NULL,
pt_visit_fw_unpack, NULL,
NULL, NULL,
pt_visit_bw_pack, NULL,
pt_visit_bw_unpack, NULL,
pt_visit_bw_reduce, NULL);
vsg_parallel_vtable_set_parallel (&prefconfig.node_data,
nc_migrate_pack, NULL,
nc_migrate_unpack, NULL,
NULL, NULL,
nc_visit_fw_pack, NULL,
nc_visit_fw_unpack, NULL,
nc_visit_fw_reduce, NULL,
nc_visit_bw_pack, NULL,
nc_visit_bw_unpack, NULL,
nc_visit_bw_reduce, NULL);
vsg_prtree_parallel_config_set_communicator (&pconfig, MPI_COMM_WORLD);
vsg_prtree_parallel_config_set_communicator (&prefconfig, MPI_COMM_WORLD);
vsg_prtree2d_set_parallel (tree, &pconfig);
vsg_prtree2d_set_parallel (treeref, &prefconfig);
}
#endif
/* insert points */
for (i=0; i<_npoints; i++)
{
if (_verbose)
{
test_printerr ("points[%d]: ", i);
vsg_vector2d_write (g_ptr_array_index (points_array, i), stderr);
g_printerr ("\n");
}
vsg_prtree2d_insert_point (tree, g_ptr_array_index (points_array, i));
vsg_prtree2d_insert_point (treeref,
g_ptr_array_index (pointsref_array, i));
}
#ifdef VSG_HAVE_MPI
if (_mpi)
{
vsg_prtree2d_migrate_flush (tree);
vsg_prtree2d_migrate_flush (treeref);
vsg_prtree2d_distribute_contiguous_leaves (tree);
vsg_prtree2d_distribute_contiguous_leaves (treeref);
}
#endif
if (_write)
{
gchar fn[128];
FILE *f;
g_sprintf (fn, "tree-%03d.txt", rk);
f = fopen (fn, "w");
vsg_prtree2d_write (tree, f);
fclose (f);
g_sprintf (fn, "treeref-%03d.txt", rk);
f = fopen (fn, "w");
vsg_prtree2d_write (treeref, f);
fclose (f);
}
/* compute neaf/far interactions for treeref */
_far_count = 0;
_do_upward_pass (treeref);
vsg_prtree2d_near_far_traversal (treeref, (VsgPRTree2dFarInteractionFunc) _far,
(VsgPRTree2dInteractionFunc) _near,
&ret);
vsg_prtree2d_traverse (treeref, G_PRE_ORDER, (VsgPRTree2dFunc) _down, NULL);
ref_far_count = _far_count;
/* compute neaf/far interactions for tree */
_far_count = 0;
_do_upward_pass (tree);
vsg_prtree2d_near_far_traversal (tree, (VsgPRTree2dFarInteractionFunc) _far,
(VsgPRTree2dInteractionFunc) _near,
&ret);
vsg_prtree2d_traverse (tree, G_PRE_ORDER, (VsgPRTree2dFunc) _down, NULL);
#ifdef VSG_HAVE_MPI
if (_mpi)
{
/* migrate points back to processor 0 before checking */
vsg_prtree2d_distribute_concentrate (tree, 0);
vsg_prtree2d_distribute_concentrate (treeref, 0);
}
#endif
/* check results */
for (i=0; i<points_array->len; i++)
{
Pt *pt = g_ptr_array_index (points_array, i);
/* FIXME: what if pointsref and points are no longer in the same order? */
Pt *ptref = g_ptr_array_index (pointsref_array, i);
if (pt->count != ptref->count)
{
test_printerr ("error pt[");
vsg_vector2d_write (&pt->vector, stderr);
g_printerr ("]=%ld ptref[", pt->count);
vsg_vector2d_write (&ptref->vector, stderr);
g_printerr ("]=%ld\n", ptref->count);
}
else if (_verbose)
{
test_printerr ("correct comparison [");
vsg_vector2d_write (&pt->vector, stderr);
g_printerr ("]=%ld ptref[", pt->count);
vsg_vector2d_write (&ptref->vector, stderr);
g_printerr ("]=%ld\n", ptref->count);
}
}
if ((_expect_far_count >= 0) && (_expect_far_count != _far_count))
test_printerr ("far_count=%d != expected far_count=%d (ref=%d)\n",
_far_count, _expect_far_count, ref_far_count);
else if (_verbose)
test_printerr ("far_count=%d == expected far_count=%d (ref=%d)\n",
_far_count, _expect_far_count, ref_far_count);
/* remove the points */
for (i=0; i<points_array->len; i++)
{
vsg_prtree2d_remove_point (tree, g_ptr_array_index (points_array, i));
vsg_prtree2d_remove_point (treeref,
g_ptr_array_index (pointsref_array, i));
}
/* destroy the trees */
vsg_prtree2d_free (tree);
vsg_prtree2d_free (treeref);
for (i=0; i<points_array->len; i++)
pt_destroy (g_ptr_array_index (points_array, i), FALSE, points_array);
for (i=0; i<pointsref_array->len; i++)
pt_destroy (g_ptr_array_index (pointsref_array, i), FALSE, pointsref_array);
g_ptr_array_free (points_array, TRUE);
g_ptr_array_free (pointsref_array, TRUE);
#ifdef VSG_HAVE_MPI
if (_mpi)
MPI_Finalize ();
#endif
return ret;
}
