p4est 2.8.6
p4est is a software library for parallel adaptive mesh refinement.
p4est_wrap.h
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1/*
2 This file is part of p4est.
3 p4est is a C library to manage a collection (a forest) of multiple
4 connected adaptive quadtrees or octrees in parallel.
5
6 Copyright (C) 2010 The University of Texas System
7 Additional copyright (C) 2011 individual authors
8 Written by Carsten Burstedde, Lucas C. Wilcox, and Tobin Isaac
9
10 p4est is free software; you can redistribute it and/or modify
11 it under the terms of the GNU General Public License as published by
12 the Free Software Foundation; either version 2 of the License, or
13 (at your option) any later version.
14
15 p4est is distributed in the hope that it will be useful,
16 but WITHOUT ANY WARRANTY; without even the implied warranty of
17 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
18 GNU General Public License for more details.
19
20 You should have received a copy of the GNU General Public License
21 along with p4est; if not, write to the Free Software Foundation, Inc.,
22 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
23*/
24
25#ifndef P4EST_WRAP_H
26#define P4EST_WRAP_H
27
35#include <p4est_extended.h>
36#include <sc_refcount.h>
37
38SC_EXTERN_C_BEGIN;
39
40/*** COMPLETE INTERNAL STATE OF P4EST ***/
41
42typedef enum p4est_wrap_flags
43{
44 P4EST_WRAP_NONE = 0,
45 P4EST_WRAP_REFINE = 0x01,
46 P4EST_WRAP_COARSEN = 0x02
47}
48p4est_wrap_flags_t;
49
53typedef struct
54{
55 int hollow;
57 p4est_mesh_params_t mesh_params;
60 p4est_replace_t replace_fn;
66 int coarsen_delay;
70 int coarsen_affect;
74 int partition_for_coarsening;
78 void *user_pointer;
81}
82p4est_wrap_params_t;
83
84typedef struct p4est_wrap
85{
86 /* collection of wrap-related parameters */
87 p4est_wrap_params_t params;
88
94 sc_refcount_t conn_rc;
95 p4est_connectivity_t *conn;
96 struct p4est_wrap *conn_owner;
97
98 /* these members are considered public and read-only */
99 int p4est_dim;
100 int p4est_half;
101 int p4est_faces;
102 int p4est_children;
103 p4est_t *p4est;
105 /* anything below here is considered private und should not be touched */
106 int weight_exponent;
107 uint8_t *flags, *temp_flags;
108 p4est_locidx_t num_refine_flags, inside_counter, num_replaced;
109
110 /* for ghost and mesh use p4est_wrap_get_ghost, _mesh declared below */
111 p4est_ghost_t *ghost;
112 p4est_mesh_t *mesh;
113 p4est_ghost_t *ghost_aux;
114 p4est_mesh_t *mesh_aux;
115 int match_aux;
116}
117p4est_wrap_t;
118
121void p4est_wrap_params_init (p4est_wrap_params_t * params);
122
133p4est_wrap_t *p4est_wrap_new_conn (sc_MPI_Comm mpicomm,
134 p4est_connectivity_t * conn,
135 int initial_level);
136
152p4est_wrap_t *p4est_wrap_new_p4est (p4est_t * p4est, int hollow,
153 p4est_connect_type_t btype,
154 p4est_replace_t replace_fn,
155 void *user_pointer);
156
170p4est_wrap_t *p4est_wrap_new_p4est_params (p4est_t * p4est,
171 p4est_wrap_params_t * params);
172
190p4est_wrap_t *p4est_wrap_new_ext (sc_MPI_Comm mpicomm,
191 p4est_connectivity_t * conn,
192 int initial_level, int hollow,
193 p4est_connect_type_t btype,
194 p4est_replace_t replace_fn,
195 void *user_pointer);
196
209p4est_wrap_t *p4est_wrap_new_params (sc_MPI_Comm mpicomm,
210 p4est_connectivity_t * conn,
211 int initial_level,
212 p4est_wrap_params_t * params);
213
226p4est_wrap_t *p4est_wrap_new_copy (p4est_wrap_t * source,
227 size_t data_size,
228 p4est_replace_t replace_fn,
229 void *user_pointer);
230
234p4est_wrap_t *p4est_wrap_new_unitsquare (sc_MPI_Comm mpicomm,
235 int initial_level);
236p4est_wrap_t *p4est_wrap_new_periodic (sc_MPI_Comm mpicomm,
237 int initial_level);
238p4est_wrap_t *p4est_wrap_new_rotwrap (sc_MPI_Comm mpicomm,
239 int initial_level);
240p4est_wrap_t *p4est_wrap_new_corner (sc_MPI_Comm mpicomm,
241 int initial_level);
242p4est_wrap_t *p4est_wrap_new_pillow (sc_MPI_Comm mpicomm,
243 int initial_level);
244p4est_wrap_t *p4est_wrap_new_moebius (sc_MPI_Comm mpicomm,
245 int initial_level);
246p4est_wrap_t *p4est_wrap_new_cubed (sc_MPI_Comm mpicomm,
247 int initial_level);
248p4est_wrap_t *p4est_wrap_new_disk (sc_MPI_Comm mpicomm, int px, int py,
249 int initial_level);
250p4est_wrap_t *p4est_wrap_new_brick (sc_MPI_Comm mpicomm,
251 int bx, int by, int px, int py,
252 int initial_level);
253
255p4est_wrap_t *p4est_wrap_new_world (int initial_level);
256void p4est_wrap_destroy (p4est_wrap_t * pp);
257
267void p4est_wrap_set_hollow (p4est_wrap_t * pp, int hollow);
268
284void p4est_wrap_set_coarsen_delay (p4est_wrap_t * pp,
285 int coarsen_delay,
286 int coarsen_affect);
287
300void p4est_wrap_set_partitioning (p4est_wrap_t *pp,
301 int partition_for_coarsening);
302
308p4est_ghost_t *p4est_wrap_get_ghost (p4est_wrap_t * pp);
309
315p4est_mesh_t *p4est_wrap_get_mesh (p4est_wrap_t * pp);
316
323void p4est_wrap_mark_refine (p4est_wrap_t * pp,
324 p4est_topidx_t which_tree,
325 p4est_locidx_t which_quad);
326
333void p4est_wrap_mark_coarsen (p4est_wrap_t * pp,
334 p4est_topidx_t which_tree,
335 p4est_locidx_t which_quad);
336
349int p4est_wrap_adapt (p4est_wrap_t * pp);
350
379int p4est_wrap_partition (p4est_wrap_t * pp,
380 int weight_exponent,
381 p4est_locidx_t * unchanged_first,
382 p4est_locidx_t * unchanged_length,
383 p4est_locidx_t *
384 unchanged_old_first);
385
392void p4est_wrap_complete (p4est_wrap_t * pp);
393
394/*** ITERATOR OVER THE FOREST LEAVES ***/
395
396typedef struct p4est_wrap_leaf
397{
398 p4est_wrap_t *pp;
400 /* Information about the current quadrant */
401 p4est_topidx_t which_tree;
402 p4est_locidx_t which_quad;
403 p4est_locidx_t local_quad;
404 p4est_tree_t *tree;
405 sc_array_t *tquadrants;
406 p4est_quadrant_t *quad;
407#if 0 /* DEPRECATED -- anyone using them? */
408 int level;
409 double lowerleft[3];
410 double upperright[3];
411#endif
412
413 /* Information about parallel neighbors */
414 int is_mirror;
415 sc_array_t *mirrors;
416 p4est_locidx_t nm;
417 p4est_locidx_t next_mirror_quadrant;
418}
419p4est_wrap_leaf_t;
420
422#define P4EST_LEAF_IS_FIRST_IN_TREE(wleaf) ((wleaf)->which_quad == 0)
423
424/* Create an iterator over the local leaves in the forest.
425 * Returns a newly allocated state containing the first leaf,
426 * or NULL if the local partition of the tree is empty.
427 * \param [in] pp Legal p4est_wrap structure, hollow or not.
428 * \param [in] track_mirrors If true, \a pp must not be hollow and mirror
429 * information from the ghost layer is stored.
430 * \return NULL if processor is empty, otherwise a leaf iterator for
431 * subsequent use with \a p4est_wrap_leaf_next.
432 */
433p4est_wrap_leaf_t *p4est_wrap_leaf_first (p4est_wrap_t * pp,
434 int track_mirrors);
435
436/* Move the forest leaf iterator forward.
437 * \param [in,out] leaf A non-NULL leaf iterator created by
438 * \ref p4est_wrap_leaf_first.
439 * \return The state that was input with updated information for the
440 * next leaf, or NULL and deallocates the input if called with
441 * the last leaf on this processor.
442 */
443p4est_wrap_leaf_t *p4est_wrap_leaf_next (p4est_wrap_leaf_t * leaf);
444
445SC_EXTERN_C_END;
446
447#endif /* !P4EST_WRAP_H */
p4est_topidx_t
int32_t p4est_topidx_t
Typedef for counting topological entities (trees, tree vertices).
Definition: p4est_base.h:93
p4est_locidx_t
int32_t p4est_locidx_t
Typedef for processor-local indexing of quadrants and nodes.
Definition: p4est_base.h:106
p4est_connect_type_t
p4est_connect_type_t
Characterize a type of adjacency.
Definition: p4est_connectivity.h:113
p4est_extended.h
Interface routines with extended capabilities.
p4est_replace_t
void(* p4est_replace_t)(p4est_t *p4est, p4est_topidx_t which_tree, int num_outgoing, p4est_quadrant_t *outgoing[], int num_incoming, p4est_quadrant_t *incoming[])
Callback function prototype to replace one set of quadrants with another.
Definition: p4est_extended.h:109
p4est_wrap_mark_coarsen
void p4est_wrap_mark_coarsen(p4est_wrap_t *pp, p4est_topidx_t which_tree, p4est_locidx_t which_quad)
Mark a local element for coarsening.
p4est_wrap_new_unitsquare
p4est_wrap_t * p4est_wrap_new_unitsquare(sc_MPI_Comm mpicomm, int initial_level)
Create p4est and auxiliary data structures.
p4est_wrap_get_mesh
p4est_mesh_t * p4est_wrap_get_mesh(p4est_wrap_t *pp)
Return the appropriate mesh structure.
p4est_wrap_new_ext
p4est_wrap_t * p4est_wrap_new_ext(sc_MPI_Comm mpicomm, p4est_connectivity_t *conn, int initial_level, int hollow, p4est_connect_type_t btype, p4est_replace_t replace_fn, void *user_pointer)
Create a p4est wrapper from a given connectivity structure.
p4est_wrap_new_world
p4est_wrap_t * p4est_wrap_new_world(int initial_level)
Passes sc_MPI_COMM_WORLD to p4est_wrap_new_unitsquare.
p4est_wrap_new_p4est
p4est_wrap_t * p4est_wrap_new_p4est(p4est_t *p4est, int hollow, p4est_connect_type_t btype, p4est_replace_t replace_fn, void *user_pointer)
Create a wrapper for a given p4est structure.
p4est_wrap_set_hollow
void p4est_wrap_set_hollow(p4est_wrap_t *pp, int hollow)
Change hollow status of the wrap.
p4est_wrap_new_p4est_params
p4est_wrap_t * p4est_wrap_new_p4est_params(p4est_t *p4est, p4est_wrap_params_t *params)
Create a wrapper for a given p4est structure.
p4est_wrap_complete
void p4est_wrap_complete(p4est_wrap_t *pp)
Free memory for the intermediate mesh.
p4est_wrap_adapt
int p4est_wrap_adapt(p4est_wrap_t *pp)
Call p4est_refine, coarsen, and balance to update pp->p4est.
p4est_wrap_new_conn
p4est_wrap_t * p4est_wrap_new_conn(sc_MPI_Comm mpicomm, p4est_connectivity_t *conn, int initial_level)
Create a p4est wrapper from a given connectivity structure.
p4est_wrap_set_partitioning
void p4est_wrap_set_partitioning(p4est_wrap_t *pp, int partition_for_coarsening)
Set a parameter that ensures future partitions allow one level of coarsening.
p4est_wrap_new_copy
p4est_wrap_t * p4est_wrap_new_copy(p4est_wrap_t *source, size_t data_size, p4est_replace_t replace_fn, void *user_pointer)
Create a p4est wrapper from an existing one.
p4est_wrap_new_params
p4est_wrap_t * p4est_wrap_new_params(sc_MPI_Comm mpicomm, p4est_connectivity_t *conn, int initial_level, p4est_wrap_params_t *params)
Create a p4est wrapper from a given connectivity structure.
p4est_wrap_params_init
void p4est_wrap_params_init(p4est_wrap_params_t *params)
Initialize a default p4est_wrap_params_t structure.
p4est_wrap_mark_refine
void p4est_wrap_mark_refine(p4est_wrap_t *pp, p4est_topidx_t which_tree, p4est_locidx_t which_quad)
Mark a local element for refinement.
p4est_wrap_get_ghost
p4est_ghost_t * p4est_wrap_get_ghost(p4est_wrap_t *pp)
Return the appropriate ghost layer.
p4est_wrap_set_coarsen_delay
void p4est_wrap_set_coarsen_delay(p4est_wrap_t *pp, int coarsen_delay, int coarsen_affect)
Set a parameter that delays coarsening after adaptation.
p4est_wrap_partition
int p4est_wrap_partition(p4est_wrap_t *pp, int weight_exponent, p4est_locidx_t *unchanged_first, p4est_locidx_t *unchanged_length, p4est_locidx_t *unchanged_old_first)
Call p4est_partition for equal leaf distribution.
p4est_connectivity
This structure holds the 2D inter-tree connectivity information.
Definition: p4est_connectivity.h:190
p4est_ghost_t
quadrants that neighbor the local domain
Definition: p4est_ghost.h:41
p4est_mesh_params_t
This structure contains the different parameters of mesh creation.
Definition: p4est_mesh.h:55
p4est_mesh_t
This structure contains complete mesh information on a 2:1 balanced forest.
Definition: p4est_mesh.h:130
p4est_quadrant
The 2D quadrant datatype.
Definition: p4est.h:72
p4est_tree
The p4est tree datatype.
Definition: p4est.h:115
p4est_wrap_leaf
Definition: p4est_wrap.h:397
p4est_wrap_leaf::local_quad
p4est_locidx_t local_quad
Quadrant number relative to proc.
Definition: p4est_wrap.h:403
p4est_wrap_leaf::nm
p4est_locidx_t nm
Internal: mirror counter.
Definition: p4est_wrap.h:416
p4est_wrap_leaf::which_quad
p4est_locidx_t which_quad
Quadrant number relative to tree.
Definition: p4est_wrap.h:402
p4est_wrap_leaf::tree
p4est_tree_t * tree
Current tree.
Definition: p4est_wrap.h:404
p4est_wrap_leaf::which_tree
p4est_topidx_t which_tree
Current tree number.
Definition: p4est_wrap.h:401
p4est_wrap_leaf::mirrors
sc_array_t * mirrors
If not NULL, from pp's ghost.
Definition: p4est_wrap.h:415
p4est_wrap_leaf::is_mirror
int is_mirror
Quadrant at parallel boundary?
Definition: p4est_wrap.h:414
p4est_wrap_leaf::next_mirror_quadrant
p4est_locidx_t next_mirror_quadrant
Internal: next.
Definition: p4est_wrap.h:417
p4est_wrap_leaf::pp
p4est_wrap_t * pp
Must contain a valid ghost.
Definition: p4est_wrap.h:398
p4est_wrap_leaf::quad
p4est_quadrant_t * quad
Current quadrant.
Definition: p4est_wrap.h:406
p4est_wrap_leaf::tquadrants
sc_array_t * tquadrants
Current tree's quadrants.
Definition: p4est_wrap.h:405
p4est_wrap_params_t
This structure contains the different parameters of wrap creation.
Definition: p4est_wrap.h:54
p4est_wrap_params_t::coarsen_affect
int coarsen_affect
Boolean: If true, we delay coarsening not only after refinement, but also between subsequent coarseni...
Definition: p4est_wrap.h:70
p4est_wrap_params_t::hollow
int hollow
Do not allocate flags, ghost, and mesh members.
Definition: p4est_wrap.h:55
p4est_wrap_params_t::coarsen_delay
int coarsen_delay
Non-negative integer telling how many adaptations to wait before any given quadrant may be coarsened ...
Definition: p4est_wrap.h:66
p4est_wrap_params_t::mesh_params
p4est_mesh_params_t mesh_params
Parameters for mesh creation.
Definition: p4est_wrap.h:57
p4est_wrap_params_t::replace_fn
p4est_replace_t replace_fn
This member may be removed soon.
Definition: p4est_wrap.h:60
p4est_wrap_params_t::user_pointer
void * user_pointer
Set the user pointer in p4est_wrap_t.
Definition: p4est_wrap.h:78
p4est_wrap_params_t::partition_for_coarsening
int partition_for_coarsening
If true, the partition is modified to allow one level of coarsening when calling p4est_wrap_partition...
Definition: p4est_wrap.h:74
p4est_wrap
Definition: p4est_wrap.h:85
p4est_wrap::p4est
p4est_t * p4est
p4est->user_pointer is used internally
Definition: p4est_wrap.h:103
p4est_wrap::conn_rc
sc_refcount_t conn_rc
This reference counter is a workaround for internal use only.
Definition: p4est_wrap.h:94
p4est
The p4est forest datatype.
Definition: p4est.h:136