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blender-archive/source/blender/bmesh/intern/bmesh_iterators.h
Germano Cavalcante 0b5a0d8412 Transform/Snap: EditMesh/BKE_bvhutils API improvements 
Separate the creation of trees from EditMesh from the creation of trees from DerivedMesh.
This was meant to simplify the API, but didn't work out so well.

`bvhtree_from_mesh_*` actually is working as `bvhtree_from_derivedmesh_*`.
This is inconsistent with the trees created from EditMesh. Since for create them does not use the DerivedMesh.

In such cases the dm is being used only to cache the tree in the struct DerivedMesh. What is immediately released once
bvhtree is being used in functions that change(tag) the DM cleaning the cache.

- Use a filter function so users of SnapObjectContext can define how edit-mesh elements are handled.
- Remove em_evil.
- bvhtree of EditMesh is now really cached in the snap functions.
- Code becomes organized and easier to maintain.

This is an important patch for future improvements in snapping functions.
2016-05-06 05:01:51 +10:00

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/*
* ***** BEGIN GPL LICENSE BLOCK *****
*
* This program 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.
*
* This program 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 this program; if not, write to the Free Software Foundation,
* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* Contributor(s): Joseph Eagar.
*
* ***** END GPL LICENSE BLOCK *****
*/
#ifndef __BMESH_ITERATORS_H__
#define __BMESH_ITERATORS_H__
/** \file blender/bmesh/intern/bmesh_iterators.h
* \ingroup bmesh
*/
/**
* \brief BMesh Iterators
*
* The functions and structures in this file
* provide a unified method for iterating over
* the elements of a mesh and answering simple
* adjacency queries. Tool authors should use
* the iterators provided in this file instead
* of inspecting the structure directly.
*
*/
#include "BLI_compiler_attrs.h"
#include "BLI_mempool.h"
/* Defines for passing to BM_iter_new.
*
* "OF" can be substituted for "around"
* so BM_VERTS_OF_FACE means "vertices
* around a face."
*/
/* these iterator over all elements of a specific
* type in the mesh.
*
* be sure to keep 'bm_iter_itype_htype_map' in sync with any changes
*/
typedef enum BMIterType {
BM_VERTS_OF_MESH = 1,
BM_EDGES_OF_MESH = 2,
BM_FACES_OF_MESH = 3,
/* these are topological iterators. */
BM_EDGES_OF_VERT = 4,
BM_FACES_OF_VERT = 5,
BM_LOOPS_OF_VERT = 6,
BM_VERTS_OF_EDGE = 7, /* just v1, v2: added so py can use generalized sequencer wrapper */
BM_FACES_OF_EDGE = 8,
BM_VERTS_OF_FACE = 9,
BM_EDGES_OF_FACE = 10,
BM_LOOPS_OF_FACE = 11,
/* returns elements from all boundaries, and returns
* the first element at the end to flag that we're entering
* a different face hole boundary*/
// BM_ALL_LOOPS_OF_FACE = 12,
/* iterate through loops around this loop, which are fetched
* from the other faces in the radial cycle surrounding the
* input loop's edge.*/
BM_LOOPS_OF_LOOP = 12,
BM_LOOPS_OF_EDGE = 13
} BMIterType;
#define BM_ITYPE_MAX 14
/* the iterator htype for each iterator */
extern const char bm_iter_itype_htype_map[BM_ITYPE_MAX];
#define BM_ITER_MESH(ele, iter, bm, itype) \
for (BM_CHECK_TYPE_ELEM_ASSIGN(ele) = BM_iter_new(iter, bm, itype, NULL); \
ele; \
BM_CHECK_TYPE_ELEM_ASSIGN(ele) = BM_iter_step(iter))
#define BM_ITER_MESH_INDEX(ele, iter, bm, itype, indexvar) \
for (BM_CHECK_TYPE_ELEM_ASSIGN(ele) = BM_iter_new(iter, bm, itype, NULL), indexvar = 0; \
ele; \
BM_CHECK_TYPE_ELEM_ASSIGN(ele) = BM_iter_step(iter), (indexvar)++)
/* a version of BM_ITER_MESH which keeps the next item in storage
* so we can delete the current item, see bug [#36923] */
#ifdef DEBUG
# define BM_ITER_MESH_MUTABLE(ele, ele_next, iter, bm, itype) \
for (BM_CHECK_TYPE_ELEM_ASSIGN(ele) = BM_iter_new(iter, bm, itype, NULL); \
ele ? ((void)((iter)->count = BM_iter_mesh_count(itype, bm)), \
(void)(ele_next = BM_iter_step(iter)), 1) : 0; \
BM_CHECK_TYPE_ELEM_ASSIGN(ele) = ele_next)
#else
# define BM_ITER_MESH_MUTABLE(ele, ele_next, iter, bm, itype) \
for (BM_CHECK_TYPE_ELEM_ASSIGN(ele) = BM_iter_new(iter, bm, itype, NULL); \
ele ? ((BM_CHECK_TYPE_ELEM_ASSIGN(ele_next) = BM_iter_step(iter)), 1) : 0; \
ele = ele_next)
#endif
#define BM_ITER_ELEM(ele, iter, data, itype) \
for (BM_CHECK_TYPE_ELEM_ASSIGN(ele) = BM_iter_new(iter, NULL, itype, data); \
ele; \
BM_CHECK_TYPE_ELEM_ASSIGN(ele) = BM_iter_step(iter))
#define BM_ITER_ELEM_INDEX(ele, iter, data, itype, indexvar) \
for (BM_CHECK_TYPE_ELEM_ASSIGN(ele) = BM_iter_new(iter, NULL, itype, data), indexvar = 0; \
ele; \
BM_CHECK_TYPE_ELEM_ASSIGN(ele) = BM_iter_step(iter), (indexvar)++)
/* iterator type structs */
struct BMIter__elem_of_mesh {
BLI_mempool_iter pooliter;
};
struct BMIter__edge_of_vert {
BMVert *vdata;
BMEdge *e_first, *e_next;
};
struct BMIter__face_of_vert {
BMVert *vdata;
BMLoop *l_first, *l_next;
BMEdge *e_first, *e_next;
};
struct BMIter__loop_of_vert {
BMVert *vdata;
BMLoop *l_first, *l_next;
BMEdge *e_first, *e_next;
};
struct BMIter__loop_of_edge {
BMEdge *edata;
BMLoop *l_first, *l_next;
};
struct BMIter__loop_of_loop {
BMLoop *ldata;
BMLoop *l_first, *l_next;
};
struct BMIter__face_of_edge {
BMEdge *edata;
BMLoop *l_first, *l_next;
};
struct BMIter__vert_of_edge {
BMEdge *edata;
};
struct BMIter__vert_of_face {
BMFace *pdata;
BMLoop *l_first, *l_next;
};
struct BMIter__edge_of_face {
BMFace *pdata;
BMLoop *l_first, *l_next;
};
struct BMIter__loop_of_face {
BMFace *pdata;
BMLoop *l_first, *l_next;
};
typedef void (*BMIter__begin_cb) (void *);
typedef void *(*BMIter__step_cb) (void *);
/* Iterator Structure */
/* note: some of these vars are not used,
* so they have been commented to save stack space since this struct is used all over */
typedef struct BMIter {
/* keep union first */
union {
struct BMIter__elem_of_mesh elem_of_mesh;
struct BMIter__edge_of_vert edge_of_vert;
struct BMIter__face_of_vert face_of_vert;
struct BMIter__loop_of_vert loop_of_vert;
struct BMIter__loop_of_edge loop_of_edge;
struct BMIter__loop_of_loop loop_of_loop;
struct BMIter__face_of_edge face_of_edge;
struct BMIter__vert_of_edge vert_of_edge;
struct BMIter__vert_of_face vert_of_face;
struct BMIter__edge_of_face edge_of_face;
struct BMIter__loop_of_face loop_of_face;
} data;
BMIter__begin_cb begin;
BMIter__step_cb step;
int count; /* note, only some iterators set this, don't rely on it */
char itype;
} BMIter;
void *BM_iter_at_index(BMesh *bm, const char itype, void *data, int index) ATTR_WARN_UNUSED_RESULT;
int BM_iter_as_array(BMesh *bm, const char itype, void *data, void **array, const int len);
void *BM_iter_as_arrayN(
BMesh *bm, const char itype, void *data, int *r_len,
void **stack_array, int stack_array_size) ATTR_WARN_UNUSED_RESULT;
int BMO_iter_as_array(
BMOpSlot slot_args[BMO_OP_MAX_SLOTS], const char *slot_name, const char restrictmask,
void **array, const int len);
void *BMO_iter_as_arrayN(
BMOpSlot slot_args[BMO_OP_MAX_SLOTS], const char *slot_name, const char restrictmask,
int *r_len,
/* optional args to avoid an alloc (normally stack array) */
void **stack_array, int stack_array_size);
int BM_iter_mesh_bitmap_from_filter(
const char itype, BMesh *bm,
unsigned int *bitmap,
bool (*test_fn)(BMElem *, void *user_data),
void *user_data);
int BM_iter_mesh_bitmap_from_filter_tessface(
BMesh *bm,
unsigned int *bitmap,
bool (*test_fn)(BMFace *, void *user_data),
void *user_data);
int BM_iter_elem_count_flag(const char itype, void *data, const char hflag, const bool value);
int BMO_iter_elem_count_flag(BMesh *bm, const char itype, void *data, const short oflag, const bool value);
int BM_iter_mesh_count(const char itype, BMesh *bm);
int BM_iter_mesh_count_flag(const char itype, BMesh *bm, const char hflag, const bool value);
/* private for bmesh_iterators_inline.c */
#define BMITER_CB_DEF(name) \
struct BMIter__##name; \
void bmiter__##name##_begin(struct BMIter__##name *iter); \
void *bmiter__##name##_step(struct BMIter__##name *iter)
BMITER_CB_DEF(elem_of_mesh);
BMITER_CB_DEF(edge_of_vert);
BMITER_CB_DEF(face_of_vert);
BMITER_CB_DEF(loop_of_vert);
BMITER_CB_DEF(loop_of_edge);
BMITER_CB_DEF(loop_of_loop);
BMITER_CB_DEF(face_of_edge);
BMITER_CB_DEF(vert_of_edge);
BMITER_CB_DEF(vert_of_face);
BMITER_CB_DEF(edge_of_face);
BMITER_CB_DEF(loop_of_face);
#undef BMITER_CB_DEF
#include "intern/bmesh_iterators_inline.h"
#define BM_ITER_CHECK_TYPE_DATA(data) \
CHECK_TYPE_ANY(data, void *, BMFace *, BMEdge *, BMVert *, BMLoop *, BMElem *)
#define BM_iter_new(iter, bm, itype, data) \
(BM_ITER_CHECK_TYPE_DATA(data), BM_iter_new(iter, bm, itype, data))
#define BM_iter_init(iter, bm, itype, data) \
(BM_ITER_CHECK_TYPE_DATA(data), BM_iter_init(iter, bm, itype, data))
#endif /* __BMESH_ITERATORS_H__ */
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