/* * 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. * * The Original Code is Copyright (C) 2001-2002 by NaN Holding BV. * All rights reserved. */ #pragma once /** \file * \ingroup bke */ #include "BKE_mesh_types.h" #include "BLI_utildefines.h" struct BLI_Stack; struct BMesh; struct BMeshCreateParams; struct BMeshFromMeshParams; struct BMeshToMeshParams; struct BoundBox; struct CustomData; struct CustomData_MeshMasks; struct Depsgraph; struct EdgeHash; struct ID; struct KeyBlock; struct LinkNode; struct ListBase; struct MDeformVert; struct MDisps; struct MEdge; struct MFace; struct MLoop; struct MLoopTri; struct MLoopUV; struct MPoly; struct MVert; struct Main; struct MemArena; struct Mesh; struct ModifierData; struct Object; struct PointCloud; struct Scene; #ifdef __cplusplus extern "C" { #endif /* setting zero so we can catch bugs in OpenMP/BMesh */ #ifdef DEBUG # define BKE_MESH_OMP_LIMIT 0 #else # define BKE_MESH_OMP_LIMIT 10000 #endif /* *** mesh.c *** */ struct BMesh *BKE_mesh_to_bmesh_ex(const struct Object *ob, const struct Mesh *me, const struct BMeshCreateParams *create_params, const struct BMeshFromMeshParams *convert_params); struct BMesh *BKE_mesh_to_bmesh(struct Mesh *me, struct Object *ob, const bool add_key_index, const struct BMeshCreateParams *params); struct Mesh *BKE_mesh_from_bmesh_nomain(struct BMesh *bm, const struct BMeshToMeshParams *params, const struct Mesh *me_settings); struct Mesh *BKE_mesh_from_bmesh_for_eval_nomain(struct BMesh *bm, const struct CustomData_MeshMasks *cd_mask_extra, const struct Mesh *me_settings); int poly_find_loop_from_vert(const struct MPoly *poly, const struct MLoop *loopstart, uint vert); int poly_get_adj_loops_from_vert(const struct MPoly *poly, const struct MLoop *mloop, unsigned int vert, unsigned int r_adj[2]); int BKE_mesh_edge_other_vert(const struct MEdge *e, int v); void BKE_mesh_looptri_get_real_edges(const struct Mesh *mesh, const struct MLoopTri *looptri, int r_edges[3]); void BKE_mesh_free_data_for_undo(struct Mesh *me); void BKE_mesh_clear_geometry(struct Mesh *me); struct Mesh *BKE_mesh_add(struct Main *bmain, const char *name); void BKE_mesh_copy_parameters_for_eval(struct Mesh *me_dst, const struct Mesh *me_src); void BKE_mesh_copy_parameters(struct Mesh *me_dst, const struct Mesh *me_src); void BKE_mesh_update_customdata_pointers(struct Mesh *me, const bool do_ensure_tess_cd); void BKE_mesh_ensure_skin_customdata(struct Mesh *me); struct Mesh *BKE_mesh_new_nomain( int verts_len, int edges_len, int tessface_len, int loops_len, int polys_len); struct Mesh *BKE_mesh_new_nomain_from_template(const struct Mesh *me_src, int verts_len, int edges_len, int tessface_len, int loops_len, int polys_len); struct Mesh *BKE_mesh_new_nomain_from_template_ex(const struct Mesh *me_src, int verts_len, int edges_len, int tessface_len, int loops_len, int polys_len, struct CustomData_MeshMasks mask); void BKE_mesh_eval_delete(struct Mesh *mesh_eval); /* Performs copy for use during evaluation, * optional referencing original arrays to reduce memory. */ struct Mesh *BKE_mesh_copy_for_eval(const struct Mesh *source, bool reference); /* These functions construct a new Mesh, * contrary to BKE_mesh_to_curve_nurblist which modifies ob itself. */ struct Mesh *BKE_mesh_new_nomain_from_curve(const struct Object *ob); struct Mesh *BKE_mesh_new_nomain_from_curve_displist(const struct Object *ob, const struct ListBase *dispbase); bool BKE_mesh_ensure_facemap_customdata(struct Mesh *me); bool BKE_mesh_clear_facemap_customdata(struct Mesh *me); float (*BKE_mesh_orco_verts_get(struct Object *ob))[3]; void BKE_mesh_orco_verts_transform(struct Mesh *me, float (*orco)[3], int totvert, int invert); int BKE_mesh_mface_index_validate(struct MFace *mface, struct CustomData *mfdata, int mfindex, int nr); struct Mesh *BKE_mesh_from_object(struct Object *ob); void BKE_mesh_assign_object(struct Main *bmain, struct Object *ob, struct Mesh *me); void BKE_mesh_from_metaball(struct ListBase *lb, struct Mesh *me); void BKE_mesh_to_curve_nurblist(const struct Mesh *me, struct ListBase *nurblist, const int edge_users_test); void BKE_mesh_to_curve(struct Main *bmain, struct Depsgraph *depsgraph, struct Scene *scene, struct Object *ob); void BKE_pointcloud_from_mesh(struct Mesh *me, struct PointCloud *pointcloud); void BKE_mesh_to_pointcloud(struct Main *bmain, struct Depsgraph *depsgraph, struct Scene *scene, struct Object *ob); void BKE_mesh_from_pointcloud(const struct PointCloud *pointcloud, struct Mesh *me); void BKE_pointcloud_to_mesh(struct Main *bmain, struct Depsgraph *depsgraph, struct Scene *scene, struct Object *ob); void BKE_mesh_material_index_remove(struct Mesh *me, short index); bool BKE_mesh_material_index_used(struct Mesh *me, short index); void BKE_mesh_material_index_clear(struct Mesh *me); void BKE_mesh_material_remap(struct Mesh *me, const unsigned int *remap, unsigned int remap_len); void BKE_mesh_smooth_flag_set(struct Mesh *me, const bool use_smooth); /* Needed after converting a mesh with subsurf optimal display to mesh. */ void BKE_mesh_edges_set_draw_render(struct Mesh *me); const char *BKE_mesh_cmp(struct Mesh *me1, struct Mesh *me2, float thresh); struct BoundBox *BKE_mesh_boundbox_get(struct Object *ob); void BKE_mesh_texspace_calc(struct Mesh *me); void BKE_mesh_texspace_ensure(struct Mesh *me); void BKE_mesh_texspace_get(struct Mesh *me, float r_loc[3], float r_size[3]); void BKE_mesh_texspace_get_reference(struct Mesh *me, short **r_texflag, float **r_loc, float **r_size); void BKE_mesh_texspace_copy_from_object(struct Mesh *me, struct Object *ob); void BKE_mesh_split_faces(struct Mesh *mesh, bool free_loop_normals); /* Create new mesh from the given object at its current state. * The owner of this mesh is unknown, it is up to the caller to decide. * * If preserve_all_data_layers is truth then the modifier stack is re-evaluated to ensure it * preserves all possible custom data layers. * * NOTE: Dependency graph argument is required when preserve_all_data_layers is truth, and is * ignored otherwise. */ struct Mesh *BKE_mesh_new_from_object(struct Depsgraph *depsgraph, struct Object *object, const bool preserve_all_data_layers, const bool preserve_origindex); /* This is a version of BKE_mesh_new_from_object() which stores mesh in the given main database. * However, that function enforces object type to be a geometry one, and ensures a mesh is always * generated, be it empty. */ struct Mesh *BKE_mesh_new_from_object_to_bmain(struct Main *bmain, struct Depsgraph *depsgraph, struct Object *object, bool preserve_all_data_layers); struct Mesh *BKE_mesh_create_derived_for_modifier(struct Depsgraph *depsgraph, struct Scene *scene, struct Object *ob_eval, struct ModifierData *md_eval, const bool build_shapekey_layers); /* Copies a nomain-Mesh into an existing Mesh. */ void BKE_mesh_nomain_to_mesh(struct Mesh *mesh_src, struct Mesh *mesh_dst, struct Object *ob, const struct CustomData_MeshMasks *mask, bool take_ownership); void BKE_mesh_nomain_to_meshkey(struct Mesh *mesh_src, struct Mesh *mesh_dst, struct KeyBlock *kb); /* vertex level transformations & checks (no derived mesh) */ bool BKE_mesh_minmax(const struct Mesh *me, float r_min[3], float r_max[3]); void BKE_mesh_transform(struct Mesh *me, const float mat[4][4], bool do_keys); void BKE_mesh_translate(struct Mesh *me, const float offset[3], const bool do_keys); void BKE_mesh_tessface_ensure(struct Mesh *mesh); void BKE_mesh_tessface_clear(struct Mesh *mesh); void BKE_mesh_do_versions_cd_flag_init(struct Mesh *mesh); void BKE_mesh_mselect_clear(struct Mesh *me); void BKE_mesh_mselect_validate(struct Mesh *me); int BKE_mesh_mselect_find(struct Mesh *me, int index, int type); int BKE_mesh_mselect_active_get(struct Mesh *me, int type); void BKE_mesh_mselect_active_set(struct Mesh *me, int index, int type); void BKE_mesh_count_selected_items(const struct Mesh *mesh, int r_count[3]); float (*BKE_mesh_vert_coords_alloc(const struct Mesh *mesh, int *r_vert_len))[3]; void BKE_mesh_vert_coords_get(const struct Mesh *mesh, float (*vert_coords)[3]); void BKE_mesh_vert_coords_apply_with_mat4(struct Mesh *mesh, const float (*vert_coords)[3], const float mat[4][4]); void BKE_mesh_vert_coords_apply(struct Mesh *mesh, const float (*vert_coords)[3]); void BKE_mesh_vert_normals_apply(struct Mesh *mesh, const short (*vert_normals)[3]); /* *** mesh_tessellate.c *** */ int BKE_mesh_tessface_calc_ex(struct CustomData *fdata, struct CustomData *ldata, struct CustomData *pdata, struct MVert *mvert, int totface, int totloop, int totpoly, const bool do_face_nor_copy); void BKE_mesh_tessface_calc(struct Mesh *mesh); void BKE_mesh_recalc_looptri(const struct MLoop *mloop, const struct MPoly *mpoly, const struct MVert *mvert, int totloop, int totpoly, struct MLoopTri *mlooptri); void BKE_mesh_recalc_looptri_with_normals(const struct MLoop *mloop, const struct MPoly *mpoly, const struct MVert *mvert, int totloop, int totpoly, struct MLoopTri *mlooptri, const float (*poly_normals)[3]); /* *** mesh_normals.cc *** */ void BKE_mesh_normals_tag_dirty(struct Mesh *mesh); void BKE_mesh_calc_normals_poly(const struct MVert *mvert, int mvert_len, const struct MLoop *mloop, int mloop_len, const struct MPoly *mpoly, int mpoly_len, float (*r_poly_normals)[3]); void BKE_mesh_calc_normals_poly_and_vertex(struct MVert *mvert, int mvert_len, const struct MLoop *mloop, int mloop_len, const struct MPoly *mpolys, int mpoly_len, float (*r_poly_normals)[3], float (*r_vert_normals)[3]); void BKE_mesh_calc_normals(struct Mesh *me); void BKE_mesh_ensure_normals(struct Mesh *me); void BKE_mesh_ensure_normals_for_display(struct Mesh *mesh); void BKE_mesh_calc_normals_looptri(struct MVert *mverts, int numVerts, const struct MLoop *mloop, const struct MLoopTri *looptri, int looptri_num, float (*r_tri_nors)[3]); void BKE_mesh_loop_manifold_fan_around_vert_next(const struct MLoop *mloops, const struct MPoly *mpolys, const int *loop_to_poly, const int *e2lfan_curr, const uint mv_pivot_index, const struct MLoop **r_mlfan_curr, int *r_mlfan_curr_index, int *r_mlfan_vert_index, int *r_mpfan_curr_index); void BKE_edges_sharp_from_angle_set(const struct MVert *mverts, const int numVerts, struct MEdge *medges, const int numEdges, struct MLoop *mloops, const int numLoops, struct MPoly *mpolys, const float (*polynors)[3], const int numPolys, const float split_angle); /** * References a contiguous loop-fan with normal offset vars. */ typedef struct MLoopNorSpace { /** Automatically computed loop normal. */ float vec_lnor[3]; /** Reference vector, orthogonal to vec_lnor. */ float vec_ref[3]; /** Third vector, orthogonal to vec_lnor and vec_ref. */ float vec_ortho[3]; /** Reference angle, around vec_ortho, in ]0, pi] range (0.0 marks that space as invalid). */ float ref_alpha; /** Reference angle, around vec_lnor, in ]0, 2pi] range (0.0 marks that space as invalid). */ float ref_beta; /** All loops using this lnor space (i.e. smooth fan of loops), * as (depending on owning MLoopNorSpaceArrary.data_type): * - Indices (uint_in_ptr), or * - BMLoop pointers. */ struct LinkNode *loops; char flags; /** To be used for extended processing related to loop normal spaces (aka smooth fans). */ void *user_data; } MLoopNorSpace; /** * MLoopNorSpace.flags */ enum { MLNOR_SPACE_IS_SINGLE = 1 << 0, }; /** * Collection of #MLoopNorSpace basic storage & pre-allocation. */ typedef struct MLoopNorSpaceArray { MLoopNorSpace **lspacearr; /* MLoop aligned array */ struct LinkNode *loops_pool; /* Allocated once, avoids to call BLI_linklist_prepend_arena() for each loop! */ char data_type; /* Whether we store loop indices, or pointers to BMLoop. */ int num_spaces; /* Number of clnors spaces defined in this array. */ struct MemArena *mem; } MLoopNorSpaceArray; /** * MLoopNorSpaceArray.data_type */ enum { MLNOR_SPACEARR_LOOP_INDEX = 0, MLNOR_SPACEARR_BMLOOP_PTR = 1, }; /* Low-level custom normals functions. */ void BKE_lnor_spacearr_init(MLoopNorSpaceArray *lnors_spacearr, const int numLoops, const char data_type); void BKE_lnor_spacearr_clear(MLoopNorSpaceArray *lnors_spacearr); void BKE_lnor_spacearr_free(MLoopNorSpaceArray *lnors_spacearr); void BKE_lnor_spacearr_tls_init(MLoopNorSpaceArray *lnors_spacearr, MLoopNorSpaceArray *lnors_spacearr_tls); void BKE_lnor_spacearr_tls_join(MLoopNorSpaceArray *lnors_spacearr, MLoopNorSpaceArray *lnors_spacearr_tls); MLoopNorSpace *BKE_lnor_space_create(MLoopNorSpaceArray *lnors_spacearr); void BKE_lnor_space_define(MLoopNorSpace *lnor_space, const float lnor[3], float vec_ref[3], float vec_other[3], struct BLI_Stack *edge_vectors); void BKE_lnor_space_add_loop(MLoopNorSpaceArray *lnors_spacearr, MLoopNorSpace *lnor_space, const int ml_index, void *bm_loop, const bool is_single); void BKE_lnor_space_custom_data_to_normal(MLoopNorSpace *lnor_space, const short clnor_data[2], float r_custom_lnor[3]); void BKE_lnor_space_custom_normal_to_data(MLoopNorSpace *lnor_space, const float custom_lnor[3], short r_clnor_data[2]); /* Medium-level custom normals functions. */ void BKE_mesh_normals_loop_split(const struct MVert *mverts, const int numVerts, struct MEdge *medges, const int numEdges, struct MLoop *mloops, float (*r_loopnors)[3], const int numLoops, struct MPoly *mpolys, const float (*polynors)[3], const int numPolys, const bool use_split_normals, const float split_angle, MLoopNorSpaceArray *r_lnors_spacearr, short (*clnors_data)[2], int *r_loop_to_poly); void BKE_mesh_normals_loop_custom_set(const struct MVert *mverts, const int numVerts, struct MEdge *medges, const int numEdges, struct MLoop *mloops, float (*r_custom_loopnors)[3], const int numLoops, struct MPoly *mpolys, const float (*polynors)[3], const int numPolys, short (*r_clnors_data)[2]); void BKE_mesh_normals_loop_custom_from_vertices_set(const struct MVert *mverts, float (*r_custom_vertnors)[3], const int numVerts, struct MEdge *medges, const int numEdges, struct MLoop *mloops, const int numLoops, struct MPoly *mpolys, const float (*polynors)[3], const int numPolys, short (*r_clnors_data)[2]); void BKE_mesh_normals_loop_to_vertex(const int numVerts, const struct MLoop *mloops, const int numLoops, const float (*clnors)[3], float (*r_vert_clnors)[3]); /* High-level custom normals functions. */ bool BKE_mesh_has_custom_loop_normals(struct Mesh *me); void BKE_mesh_calc_normals_split(struct Mesh *mesh); void BKE_mesh_calc_normals_split_ex(struct Mesh *mesh, struct MLoopNorSpaceArray *r_lnors_spacearr); void BKE_mesh_set_custom_normals(struct Mesh *mesh, float (*r_custom_loopnors)[3]); void BKE_mesh_set_custom_normals_from_vertices(struct Mesh *mesh, float (*r_custom_vertnors)[3]); /* *** mesh_evaluate.cc *** */ void BKE_mesh_calc_poly_normal(const struct MPoly *mpoly, const struct MLoop *loopstart, const struct MVert *mvarray, float r_no[3]); void BKE_mesh_calc_poly_normal_coords(const struct MPoly *mpoly, const struct MLoop *loopstart, const float (*vertex_coords)[3], float r_no[3]); void BKE_mesh_calc_poly_center(const struct MPoly *mpoly, const struct MLoop *loopstart, const struct MVert *mvarray, float r_cent[3]); float BKE_mesh_calc_poly_area(const struct MPoly *mpoly, const struct MLoop *loopstart, const struct MVert *mvarray); float BKE_mesh_calc_area(const struct Mesh *me); float BKE_mesh_calc_poly_uv_area(const struct MPoly *mpoly, const struct MLoopUV *uv_array); void BKE_mesh_calc_poly_angles(const struct MPoly *mpoly, const struct MLoop *loopstart, const struct MVert *mvarray, float angles[]); void BKE_mesh_poly_edgehash_insert(struct EdgeHash *ehash, const struct MPoly *mp, const struct MLoop *mloop); void BKE_mesh_poly_edgebitmap_insert(unsigned int *edge_bitmap, const struct MPoly *mp, const struct MLoop *mloop); bool BKE_mesh_center_median(const struct Mesh *me, float r_cent[3]); bool BKE_mesh_center_median_from_polys(const struct Mesh *me, float r_cent[3]); bool BKE_mesh_center_bounds(const struct Mesh *me, float r_cent[3]); bool BKE_mesh_center_of_surface(const struct Mesh *me, float r_cent[3]); bool BKE_mesh_center_of_volume(const struct Mesh *me, float r_cent[3]); void BKE_mesh_calc_volume(const struct MVert *mverts, const int mverts_num, const struct MLoopTri *mlooptri, const int looptri_num, const struct MLoop *mloop, float *r_volume, float r_center[3]); /* tessface */ void BKE_mesh_convert_mfaces_to_mpolys(struct Mesh *mesh); void BKE_mesh_do_versions_convert_mfaces_to_mpolys(struct Mesh *mesh); void BKE_mesh_convert_mfaces_to_mpolys_ex(struct ID *id, struct CustomData *fdata, struct CustomData *ldata, struct CustomData *pdata, int totedge_i, int totface_i, int totloop_i, int totpoly_i, struct MEdge *medge, struct MFace *mface, int *r_totloop, int *r_totpoly, struct MLoop **r_mloop, struct MPoly **r_mpoly); void BKE_mesh_mdisp_flip(struct MDisps *md, const bool use_loop_mdisp_flip); void BKE_mesh_polygon_flip_ex(struct MPoly *mpoly, struct MLoop *mloop, struct CustomData *ldata, float (*lnors)[3], struct MDisps *mdisp, const bool use_loop_mdisp_flip); void BKE_mesh_polygon_flip(struct MPoly *mpoly, struct MLoop *mloop, struct CustomData *ldata); void BKE_mesh_polygons_flip(struct MPoly *mpoly, struct MLoop *mloop, struct CustomData *ldata, int totpoly); /* Merge verts. */ /* Enum for merge_mode of #BKE_mesh_merge_verts. * Refer to mesh_merge.c for details. */ enum { MESH_MERGE_VERTS_DUMP_IF_MAPPED, MESH_MERGE_VERTS_DUMP_IF_EQUAL, }; struct Mesh *BKE_mesh_merge_verts(struct Mesh *mesh, const int *vtargetmap, const int tot_vtargetmap, const int merge_mode); /* flush flags */ void BKE_mesh_flush_hidden_from_verts_ex(const struct MVert *mvert, const struct MLoop *mloop, struct MEdge *medge, const int totedge, struct MPoly *mpoly, const int totpoly); void BKE_mesh_flush_hidden_from_verts(struct Mesh *me); void BKE_mesh_flush_hidden_from_polys_ex(struct MVert *mvert, const struct MLoop *mloop, struct MEdge *medge, const int totedge, const struct MPoly *mpoly, const int totpoly); void BKE_mesh_flush_hidden_from_polys(struct Mesh *me); void BKE_mesh_flush_select_from_polys_ex(struct MVert *mvert, const int totvert, const struct MLoop *mloop, struct MEdge *medge, const int totedge, const struct MPoly *mpoly, const int totpoly); void BKE_mesh_flush_select_from_polys(struct Mesh *me); void BKE_mesh_flush_select_from_verts_ex(const struct MVert *mvert, const int totvert, const struct MLoop *mloop, struct MEdge *medge, const int totedge, struct MPoly *mpoly, const int totpoly); void BKE_mesh_flush_select_from_verts(struct Mesh *me); /* spatial evaluation */ void BKE_mesh_calc_relative_deform(const struct MPoly *mpoly, const int totpoly, const struct MLoop *mloop, const int totvert, const float (*vert_cos_src)[3], const float (*vert_cos_dst)[3], const float (*vert_cos_org)[3], float (*vert_cos_new)[3]); /* *** mesh_validate.c *** */ bool BKE_mesh_validate(struct Mesh *me, const bool do_verbose, const bool cddata_check_mask); bool BKE_mesh_is_valid(struct Mesh *me); bool BKE_mesh_validate_material_indices(struct Mesh *me); bool BKE_mesh_validate_arrays(struct Mesh *me, struct MVert *mverts, unsigned int totvert, struct MEdge *medges, unsigned int totedge, struct MFace *mfaces, unsigned int totface, struct MLoop *mloops, unsigned int totloop, struct MPoly *mpolys, unsigned int totpoly, struct MDeformVert *dverts, /* assume totvert length */ const bool do_verbose, const bool do_fixes, bool *r_change); bool BKE_mesh_validate_all_customdata(struct CustomData *vdata, const uint totvert, struct CustomData *edata, const uint totedge, struct CustomData *ldata, const uint totloop, struct CustomData *pdata, const uint totpoly, const bool check_meshmask, const bool do_verbose, const bool do_fixes, bool *r_change); void BKE_mesh_strip_loose_faces(struct Mesh *me); void BKE_mesh_strip_loose_polysloops(struct Mesh *me); void BKE_mesh_strip_loose_edges(struct Mesh *me); void BKE_mesh_calc_edges_legacy(struct Mesh *me, const bool use_old); void BKE_mesh_calc_edges_loose(struct Mesh *mesh); void BKE_mesh_calc_edges(struct Mesh *mesh, bool keep_existing_edges, const bool select_new_edges); void BKE_mesh_calc_edges_tessface(struct Mesh *mesh); /* In DerivedMesh.cc */ void BKE_mesh_wrapper_deferred_finalize(struct Mesh *me_eval, const struct CustomData_MeshMasks *cd_mask_finalize); /* **** Depsgraph evaluation **** */ void BKE_mesh_eval_geometry(struct Depsgraph *depsgraph, struct Mesh *mesh); /* Draw Cache */ void BKE_mesh_batch_cache_dirty_tag(struct Mesh *me, eMeshBatchDirtyMode mode); void BKE_mesh_batch_cache_free(struct Mesh *me); extern void (*BKE_mesh_batch_cache_dirty_tag_cb)(struct Mesh *me, eMeshBatchDirtyMode mode); extern void (*BKE_mesh_batch_cache_free_cb)(struct Mesh *me); /* Inlines */ /* Instead of -1 that function uses ORIGINDEX_NONE as defined in BKE_customdata.h, * but I don't want to force every user of BKE_mesh.h to also include that file. * ~~ Sybren */ BLI_INLINE int BKE_mesh_origindex_mface_mpoly(const int *index_mf_to_mpoly, const int *index_mp_to_orig, const int i) { const int j = index_mf_to_mpoly[i]; return (j != -1) ? (index_mp_to_orig ? index_mp_to_orig[j] : j) : -1; } #ifdef __cplusplus } #endif