/* * ***** 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. * * The Original Code is Copyright (C) 2004 Blender Foundation. * All rights reserved. * * The Original Code is: all of this file. * * Contributor(s): none yet. * * ***** END GPL LICENSE BLOCK ***** */ /** \file blender/editors/mesh/editmesh_select.c * \ingroup edmesh */ #include "MEM_guardedalloc.h" #include "BLI_listbase.h" #include "BLI_linklist.h" #include "BLI_math.h" #include "BLI_rand.h" #include "BLI_array.h" #include "BLI_smallhash.h" #include "BKE_context.h" #include "BKE_displist.h" #include "BKE_report.h" #include "BKE_paint.h" #include "BKE_editmesh.h" #include "IMB_imbuf_types.h" #include "IMB_imbuf.h" #include "WM_api.h" #include "WM_types.h" #include "RNA_access.h" #include "RNA_define.h" #include "ED_mesh.h" #include "ED_screen.h" #include "ED_view3d.h" #include "BIF_gl.h" #include "DNA_mesh_types.h" #include "DNA_meshdata_types.h" #include "DNA_object_types.h" #include "GPU_extensions.h" #include "UI_resources.h" #include "mesh_intern.h" /* own include */ /* use bmesh operator flags for a few operators */ #define BMO_ELE_TAG 1 /* ****************************** MIRROR **************** */ void EDBM_select_mirrored(BMEditMesh *em, bool extend, int *r_totmirr, int *r_totfail) { Mesh *me = (Mesh *)em->ob->data; BMesh *bm = em->bm; BMIter iter; int totmirr = 0; int totfail = 0; bool use_topology = (me && (me->editflag & ME_EDIT_MIRROR_TOPO)); *r_totmirr = *r_totfail = 0; /* select -> tag */ if (bm->selectmode & SCE_SELECT_VERTEX) { BMVert *v; BM_ITER_MESH (v, &iter, bm, BM_VERTS_OF_MESH) { BM_elem_flag_set(v, BM_ELEM_TAG, BM_elem_flag_test(v, BM_ELEM_SELECT)); } } else if (em->selectmode & SCE_SELECT_EDGE) { BMEdge *e; BM_ITER_MESH (e, &iter, bm, BM_EDGES_OF_MESH) { BM_elem_flag_set(e, BM_ELEM_TAG, BM_elem_flag_test(e, BM_ELEM_SELECT)); } } else { BMFace *f; BM_ITER_MESH (f, &iter, bm, BM_FACES_OF_MESH) { BM_elem_flag_set(f, BM_ELEM_TAG, BM_elem_flag_test(f, BM_ELEM_SELECT)); } } EDBM_verts_mirror_cache_begin(em, 0, true, true, use_topology); if (!extend) EDBM_flag_disable_all(em, BM_ELEM_SELECT); if (bm->selectmode & SCE_SELECT_VERTEX) { BMVert *v; BM_ITER_MESH (v, &iter, bm, BM_VERTS_OF_MESH) { if (!BM_elem_flag_test(v, BM_ELEM_HIDDEN) && BM_elem_flag_test(v, BM_ELEM_TAG)) { BMVert *v_mirr = EDBM_verts_mirror_get(em, v); if (v_mirr && !BM_elem_flag_test(v_mirr, BM_ELEM_HIDDEN)) { BM_vert_select_set(bm, v_mirr, true); totmirr++; } else { totfail++; } } } } else if (em->selectmode & SCE_SELECT_EDGE) { BMEdge *e; BM_ITER_MESH (e, &iter, bm, BM_EDGES_OF_MESH) { if (!BM_elem_flag_test(e, BM_ELEM_HIDDEN) && BM_elem_flag_test(e, BM_ELEM_TAG)) { BMEdge *e_mirr = EDBM_verts_mirror_get_edge(em, e); if (e_mirr && !BM_elem_flag_test(e_mirr, BM_ELEM_HIDDEN)) { BM_edge_select_set(bm, e_mirr, true); totmirr++; } else { totfail++; } } } } else { BMFace *f; BM_ITER_MESH (f, &iter, bm, BM_FACES_OF_MESH) { if (!BM_elem_flag_test(f, BM_ELEM_HIDDEN) && BM_elem_flag_test(f, BM_ELEM_TAG)) { BMFace *f_mirr = EDBM_verts_mirror_get_face(em, f); if (f_mirr && !BM_elem_flag_test(f_mirr, BM_ELEM_HIDDEN)) { BM_face_select_set(bm, f_mirr, true); totmirr++; } else { totfail++; } } } } EDBM_verts_mirror_cache_end(em); *r_totmirr = totmirr; *r_totfail = totfail; } void EDBM_automerge(Scene *scene, Object *obedit, bool update, const char hflag) { int ok; BMEditMesh *em = BKE_editmesh_from_object(obedit); ok = BMO_op_callf(em->bm, BMO_FLAG_DEFAULTS, "automerge verts=%hv dist=%f", hflag, scene->toolsettings->doublimit); if (LIKELY(ok) && update) { EDBM_update_generic(em, true, true); } } /* ****************************** SELECTION ROUTINES **************** */ unsigned int bm_solidoffs = 0, bm_wireoffs = 0, bm_vertoffs = 0; /* set in drawobject.c ... for colorindices */ /* facilities for border select and circle select */ static char *selbuf = NULL; /* opengl doesn't support concave... */ static void draw_triangulated(const int mcords[][2], const short tot) { ListBase lb = {NULL, NULL}; DispList *dl; float *fp; int a; const float z_up[3] = {0.0f, 0.0f, 1.0f}; /* make displist */ dl = MEM_callocN(sizeof(DispList), "poly disp"); dl->type = DL_POLY; dl->parts = 1; dl->nr = tot; dl->verts = fp = MEM_callocN(tot * 3 * sizeof(float), "poly verts"); BLI_addtail(&lb, dl); for (a = 0; a < tot; a++, fp += 3) { fp[0] = (float)mcords[a][0]; fp[1] = (float)mcords[a][1]; } /* do the fill */ BKE_displist_fill(&lb, &lb, z_up, false); /* do the draw */ dl = lb.first; /* filldisplist adds in head of list */ if (dl->type == DL_INDEX3) { int *index; a = dl->parts; fp = dl->verts; index = dl->index; glBegin(GL_TRIANGLES); while (a--) { glVertex3fv(fp + 3 * index[0]); glVertex3fv(fp + 3 * index[1]); glVertex3fv(fp + 3 * index[2]); index += 3; } glEnd(); } BKE_displist_free(&lb); } /* reads rect, and builds selection array for quick lookup */ /* returns if all is OK */ bool EDBM_backbuf_border_init(ViewContext *vc, short xmin, short ymin, short xmax, short ymax) { struct ImBuf *buf; unsigned int *dr; int a; if (vc->obedit == NULL || vc->v3d->drawtype < OB_SOLID || (vc->v3d->flag & V3D_ZBUF_SELECT) == 0) { return false; } buf = view3d_read_backbuf(vc, xmin, ymin, xmax, ymax); if (buf == NULL) return false; if (bm_vertoffs == 0) return false; dr = buf->rect; /* build selection lookup */ selbuf = MEM_callocN(bm_vertoffs + 1, "selbuf"); a = (xmax - xmin + 1) * (ymax - ymin + 1); while (a--) { if (*dr > 0 && *dr <= bm_vertoffs) selbuf[*dr] = 1; dr++; } IMB_freeImBuf(buf); return true; } int EDBM_backbuf_check(unsigned int index) { if (selbuf == NULL) return 1; if (index > 0 && index <= bm_vertoffs) return selbuf[index]; return 0; } void EDBM_backbuf_free(void) { if (selbuf) MEM_freeN(selbuf); selbuf = NULL; } /* mcords is a polygon mask * - grab backbuffer, * - draw with black in backbuffer, * - grab again and compare * returns 'OK' */ bool EDBM_backbuf_border_mask_init(ViewContext *vc, const int mcords[][2], short tot, short xmin, short ymin, short xmax, short ymax) { unsigned int *dr, *drm; struct ImBuf *buf, *bufmask; int a; /* method in use for face selecting too */ if (vc->obedit == NULL) { if (!(paint_facesel_test(vc->obact) || paint_vertsel_test(vc->obact))) { return false; } } else if (vc->v3d->drawtype < OB_SOLID || (vc->v3d->flag & V3D_ZBUF_SELECT) == 0) { return false; } buf = view3d_read_backbuf(vc, xmin, ymin, xmax, ymax); if (buf == NULL) return false; if (bm_vertoffs == 0) return false; dr = buf->rect; if (vc->rv3d->gpuoffscreen) GPU_offscreen_bind(vc->rv3d->gpuoffscreen); /* draw the mask */ glDisable(GL_DEPTH_TEST); glColor3ub(0, 0, 0); /* yah, opengl doesn't do concave... tsk! */ ED_region_pixelspace(vc->ar); draw_triangulated(mcords, tot); glBegin(GL_LINE_LOOP); /* for zero sized masks, lines */ for (a = 0; a < tot; a++) { glVertex2iv(mcords[a]); } glEnd(); glFinish(); /* to be sure readpixels sees mask */ if (vc->rv3d->gpuoffscreen) GPU_offscreen_unbind(vc->rv3d->gpuoffscreen); /* grab mask */ bufmask = view3d_read_backbuf(vc, xmin, ymin, xmax, ymax); if (bufmask == NULL) { return false; /* only when mem alloc fails, go crash somewhere else! */ } else { drm = bufmask->rect; } /* build selection lookup */ selbuf = MEM_callocN(bm_vertoffs + 1, "selbuf"); a = (xmax - xmin + 1) * (ymax - ymin + 1); while (a--) { if (*dr > 0 && *dr <= bm_vertoffs && *drm == 0) selbuf[*dr] = 1; dr++; drm++; } IMB_freeImBuf(buf); IMB_freeImBuf(bufmask); return true; } /* circle shaped sample area */ bool EDBM_backbuf_circle_init(ViewContext *vc, short xs, short ys, short rads) { struct ImBuf *buf; unsigned int *dr; short xmin, ymin, xmax, ymax, xc, yc; int radsq; /* method in use for face selecting too */ if (vc->obedit == NULL) { if (!(paint_facesel_test(vc->obact) || paint_vertsel_test(vc->obact))) { return false; } } else if (vc->v3d->drawtype < OB_SOLID || (vc->v3d->flag & V3D_ZBUF_SELECT) == 0) { return false; } xmin = xs - rads; xmax = xs + rads; ymin = ys - rads; ymax = ys + rads; buf = view3d_read_backbuf(vc, xmin, ymin, xmax, ymax); if (bm_vertoffs == 0) return false; if (buf == NULL) return false; dr = buf->rect; /* build selection lookup */ selbuf = MEM_callocN(bm_vertoffs + 1, "selbuf"); radsq = rads * rads; for (yc = -rads; yc <= rads; yc++) { for (xc = -rads; xc <= rads; xc++, dr++) { if (xc * xc + yc * yc < radsq) { if (*dr > 0 && *dr <= bm_vertoffs) selbuf[*dr] = 1; } } } IMB_freeImBuf(buf); return true; } static void findnearestvert__doClosest(void *userData, BMVert *eve, const float screen_co[2], int index) { struct { float mval_fl[2], pass, select, strict; float dist, lastIndex, closestIndex; BMVert *closest; } *data = userData; if (data->pass == 0) { if (index <= data->lastIndex) return; } else { if (index > data->lastIndex) return; } if (data->dist > 3) { float dist_test = len_manhattan_v2v2(data->mval_fl, screen_co); if (BM_elem_flag_test(eve, BM_ELEM_SELECT) == data->select) { if (data->strict == 1) { return; } else { dist_test += 5; } } if (dist_test < data->dist) { data->dist = dist_test; data->closest = eve; data->closestIndex = index; } } } static bool findnearestvert__backbufIndextest(void *handle, unsigned int index) { BMEditMesh *em = (BMEditMesh *)handle; BMVert *eve = BM_vert_at_index(em->bm, index - 1); return !(eve && BM_elem_flag_test(eve, BM_ELEM_SELECT)); } /** * findnearestvert * * dist (in/out): minimal distance to the nearest and at the end, actual distance * sel: selection bias * if SELECT, selected vertice are given a 5 pixel bias to make them further than unselect verts * if 0, unselected vertice are given the bias * strict: if 1, the vertice corresponding to the sel parameter are ignored and not just biased */ BMVert *EDBM_vert_find_nearest(ViewContext *vc, float *r_dist, const bool sel, const bool strict) { if (vc->v3d->drawtype > OB_WIRE && (vc->v3d->flag & V3D_ZBUF_SELECT)) { float distance; unsigned int index; BMVert *eve; if (strict) { index = view3d_sample_backbuf_rect(vc, vc->mval, 50, bm_wireoffs, 0xFFFFFF, &distance, strict, vc->em, findnearestvert__backbufIndextest); } else { index = view3d_sample_backbuf_rect(vc, vc->mval, 50, bm_wireoffs, 0xFFFFFF, &distance, 0, NULL, NULL); } eve = BM_vert_at_index(vc->em->bm, index - 1); if (eve && distance < *r_dist) { *r_dist = distance; return eve; } else { return NULL; } } else { struct { float mval_fl[2], pass, select, strict; float dist, lastIndex, closestIndex; BMVert *closest; } data; static int lastSelectedIndex = 0; static BMVert *lastSelected = NULL; if (lastSelected && BM_vert_at_index(vc->em->bm, lastSelectedIndex) != lastSelected) { lastSelectedIndex = 0; lastSelected = NULL; } data.lastIndex = lastSelectedIndex; data.mval_fl[0] = vc->mval[0]; data.mval_fl[1] = vc->mval[1]; data.select = sel ? BM_ELEM_SELECT : 0; data.dist = *r_dist; data.strict = strict; data.closest = NULL; data.closestIndex = 0; data.pass = 0; ED_view3d_init_mats_rv3d(vc->obedit, vc->rv3d); mesh_foreachScreenVert(vc, findnearestvert__doClosest, &data, V3D_PROJ_TEST_CLIP_DEFAULT); if (data.dist > 3) { data.pass = 1; mesh_foreachScreenVert(vc, findnearestvert__doClosest, &data, V3D_PROJ_TEST_CLIP_DEFAULT); } *r_dist = data.dist; lastSelected = data.closest; lastSelectedIndex = data.closestIndex; return data.closest; } } /* note; uses v3d, so needs active 3d window */ static void findnearestedge__doClosest(void *userData, BMEdge *eed, const float screen_co_a[2], const float screen_co_b[2], int UNUSED(index)) { struct { ViewContext vc; float mval_fl[2]; float dist; BMEdge *closest; } *data = userData; int distance; distance = dist_to_line_segment_v2(data->mval_fl, screen_co_a, screen_co_b); if (BM_elem_flag_test(eed, BM_ELEM_SELECT)) { distance += 5; } if (distance < data->dist) { if (data->vc.rv3d->rflag & RV3D_CLIPPING) { float lambda = line_point_factor_v2(data->mval_fl, screen_co_a, screen_co_b); float vec[3]; vec[0] = eed->v1->co[0] + lambda * (eed->v2->co[0] - eed->v1->co[0]); vec[1] = eed->v1->co[1] + lambda * (eed->v2->co[1] - eed->v1->co[1]); vec[2] = eed->v1->co[2] + lambda * (eed->v2->co[2] - eed->v1->co[2]); if (ED_view3d_clipping_test(data->vc.rv3d, vec, true) == 0) { data->dist = distance; data->closest = eed; } } else { data->dist = distance; data->closest = eed; } } } BMEdge *EDBM_edge_find_nearest(ViewContext *vc, float *r_dist) { if (vc->v3d->drawtype > OB_WIRE && (vc->v3d->flag & V3D_ZBUF_SELECT)) { float distance; unsigned int index; BMEdge *eed; view3d_validate_backbuf(vc); index = view3d_sample_backbuf_rect(vc, vc->mval, 50, bm_solidoffs, bm_wireoffs, &distance, 0, NULL, NULL); eed = BM_edge_at_index(vc->em->bm, index - 1); if (eed && distance < *r_dist) { *r_dist = distance; return eed; } else { return NULL; } } else { struct { ViewContext vc; float mval_fl[2]; float dist; BMEdge *closest; } data; data.vc = *vc; data.mval_fl[0] = vc->mval[0]; data.mval_fl[1] = vc->mval[1]; data.dist = *r_dist; data.closest = NULL; ED_view3d_init_mats_rv3d(vc->obedit, vc->rv3d); mesh_foreachScreenEdge(vc, findnearestedge__doClosest, &data, V3D_PROJ_TEST_CLIP_WIN); *r_dist = data.dist; return data.closest; } } static void findnearestface__getDistance(void *userData, BMFace *efa, const float screen_co[2], int UNUSED(index)) { struct { float mval_fl[2]; float dist; BMFace *toFace; } *data = userData; if (efa == data->toFace) { const float dist_test = len_manhattan_v2v2(data->mval_fl, screen_co); if (dist_test < data->dist) { data->dist = dist_test; } } } static void findnearestface__doClosest(void *userData, BMFace *efa, const float screen_co[2], int index) { struct { float mval_fl[2], pass; float dist, lastIndex, closestIndex; BMFace *closest; } *data = userData; if (data->pass == 0) { if (index <= data->lastIndex) return; } else { if (index > data->lastIndex) return; } if (data->dist > 3) { const float dist_test = len_manhattan_v2v2(data->mval_fl, screen_co); if (dist_test < data->dist) { data->dist = dist_test; data->closest = efa; data->closestIndex = index; } } } BMFace *EDBM_face_find_nearest(ViewContext *vc, float *r_dist) { if (vc->v3d->drawtype > OB_WIRE && (vc->v3d->flag & V3D_ZBUF_SELECT)) { unsigned int index; BMFace *efa; view3d_validate_backbuf(vc); index = view3d_sample_backbuf(vc, vc->mval[0], vc->mval[1]); efa = BM_face_at_index(vc->em->bm, index - 1); if (efa) { struct { float mval_fl[2]; float dist; BMFace *toFace; } data; data.mval_fl[0] = vc->mval[0]; data.mval_fl[1] = vc->mval[1]; data.dist = FLT_MAX; data.toFace = efa; ED_view3d_init_mats_rv3d(vc->obedit, vc->rv3d); mesh_foreachScreenFace(vc, findnearestface__getDistance, &data, V3D_PROJ_TEST_CLIP_DEFAULT); if ((vc->em->selectmode == SCE_SELECT_FACE) || (data.dist < *r_dist)) { /* only faces, no dist check */ *r_dist = data.dist; return efa; } } return NULL; } else { struct { float mval_fl[2], pass; float dist, lastIndex, closestIndex; BMFace *closest; } data; static int lastSelectedIndex = 0; static BMFace *lastSelected = NULL; if (lastSelected && BM_face_at_index(vc->em->bm, lastSelectedIndex) != lastSelected) { lastSelectedIndex = 0; lastSelected = NULL; } data.lastIndex = lastSelectedIndex; data.mval_fl[0] = vc->mval[0]; data.mval_fl[1] = vc->mval[1]; data.dist = *r_dist; data.closest = NULL; data.closestIndex = 0; data.pass = 0; ED_view3d_init_mats_rv3d(vc->obedit, vc->rv3d); mesh_foreachScreenFace(vc, findnearestface__doClosest, &data, V3D_PROJ_TEST_CLIP_DEFAULT); if (data.dist > 3.0f) { data.pass = 1; mesh_foreachScreenFace(vc, findnearestface__doClosest, &data, V3D_PROJ_TEST_CLIP_DEFAULT); } *r_dist = data.dist; lastSelected = data.closest; lastSelectedIndex = data.closestIndex; return data.closest; } } /* best distance based on screen coords. * use em->selectmode to define how to use * selected vertices and edges get disadvantage * return 1 if found one */ static int unified_findnearest(ViewContext *vc, BMVert **r_eve, BMEdge **r_eed, BMFace **r_efa) { BMEditMesh *em = vc->em; float dist = 75.0f; *r_eve = NULL; *r_eed = NULL; *r_efa = NULL; /* no afterqueue (yet), so we check it now, otherwise the em_xxxofs indices are bad */ view3d_validate_backbuf(vc); if (em->selectmode & SCE_SELECT_VERTEX) *r_eve = EDBM_vert_find_nearest(vc, &dist, BM_ELEM_SELECT, 0); if (em->selectmode & SCE_SELECT_FACE) *r_efa = EDBM_face_find_nearest(vc, &dist); dist -= 20; /* since edges select lines, we give dots advantage of 20 pix */ if (em->selectmode & SCE_SELECT_EDGE) *r_eed = EDBM_edge_find_nearest(vc, &dist); /* return only one of 3 pointers, for frontbuffer redraws */ if (*r_eed) { *r_efa = NULL; *r_eve = NULL; } else if (*r_efa) { *r_eve = NULL; } return (*r_eve || *r_eed || *r_efa); } /* **************** SIMILAR "group" SELECTS. FACE, EDGE AND VERTEX ************** */ static EnumPropertyItem prop_similar_compare_types[] = { {SIM_CMP_EQ, "EQUAL", 0, "Equal", ""}, {SIM_CMP_GT, "GREATER", 0, "Greater", ""}, {SIM_CMP_LT, "LESS", 0, "Less", ""}, {0, NULL, 0, NULL, NULL} }; static EnumPropertyItem prop_similar_types[] = { {SIMVERT_NORMAL, "NORMAL", 0, "Normal", ""}, {SIMVERT_FACE, "FACE", 0, "Amount of Adjacent Faces", ""}, {SIMVERT_VGROUP, "VGROUP", 0, "Vertex Groups", ""}, {SIMVERT_EDGE, "EDGE", 0, "Amount of connecting edges", ""}, {SIMEDGE_LENGTH, "LENGTH", 0, "Length", ""}, {SIMEDGE_DIR, "DIR", 0, "Direction", ""}, {SIMEDGE_FACE, "FACE", 0, "Amount of Faces Around an Edge", ""}, {SIMEDGE_FACE_ANGLE, "FACE_ANGLE", 0, "Face Angles", ""}, {SIMEDGE_CREASE, "CREASE", 0, "Crease", ""}, {SIMEDGE_BEVEL, "BEVEL", 0, "Bevel", ""}, {SIMEDGE_SEAM, "SEAM", 0, "Seam", ""}, {SIMEDGE_SHARP, "SHARP", 0, "Sharpness", ""}, #ifdef WITH_FREESTYLE {SIMEDGE_FREESTYLE, "FREESTYLE_EDGE", 0, "Freestyle Edge Marks", ""}, #endif {SIMFACE_MATERIAL, "MATERIAL", 0, "Material", ""}, {SIMFACE_IMAGE, "IMAGE", 0, "Image", ""}, {SIMFACE_AREA, "AREA", 0, "Area", ""}, {SIMFACE_SIDES, "SIDES", 0, "Polygon Sides", ""}, {SIMFACE_PERIMETER, "PERIMETER", 0, "Perimeter", ""}, {SIMFACE_NORMAL, "NORMAL", 0, "Normal", ""}, {SIMFACE_COPLANAR, "COPLANAR", 0, "Co-planar", ""}, #ifdef WITH_FREESTYLE {SIMFACE_FREESTYLE, "FREESTYLE_FACE", 0, "Freestyle Face Marks", ""}, #endif {0, NULL, 0, NULL, NULL} }; /* selects new faces/edges/verts based on the existing selection */ static int similar_face_select_exec(bContext *C, wmOperator *op) { Object *ob = CTX_data_edit_object(C); BMEditMesh *em = BKE_editmesh_from_object(ob); BMOperator bmop; /* get the type from RNA */ const int type = RNA_enum_get(op->ptr, "type"); const float thresh = RNA_float_get(op->ptr, "threshold"); const int compare = RNA_enum_get(op->ptr, "compare"); /* initialize the bmop using EDBM api, which does various ui error reporting and other stuff */ EDBM_op_init(em, &bmop, op, "similar_faces faces=%hf type=%i thresh=%f compare=%i", BM_ELEM_SELECT, type, thresh, compare); /* execute the operator */ BMO_op_exec(em->bm, &bmop); /* clear the existing selection */ EDBM_flag_disable_all(em, BM_ELEM_SELECT); /* select the output */ BMO_slot_buffer_hflag_enable(em->bm, bmop.slots_out, "faces.out", BM_FACE, BM_ELEM_SELECT, true); /* finish the operator */ if (!EDBM_op_finish(em, &bmop, op, true)) { return OPERATOR_CANCELLED; } EDBM_update_generic(em, false, false); return OPERATOR_FINISHED; } /* ***************************************************** */ /* EDGE GROUP */ /* wrap the above function but do selection flushing edge to face */ static int similar_edge_select_exec(bContext *C, wmOperator *op) { Object *ob = CTX_data_edit_object(C); BMEditMesh *em = BKE_editmesh_from_object(ob); BMOperator bmop; /* get the type from RNA */ const int type = RNA_enum_get(op->ptr, "type"); const float thresh = RNA_float_get(op->ptr, "threshold"); const int compare = RNA_enum_get(op->ptr, "compare"); /* initialize the bmop using EDBM api, which does various ui error reporting and other stuff */ EDBM_op_init(em, &bmop, op, "similar_edges edges=%he type=%i thresh=%f compare=%i", BM_ELEM_SELECT, type, thresh, compare); /* execute the operator */ BMO_op_exec(em->bm, &bmop); /* clear the existing selection */ EDBM_flag_disable_all(em, BM_ELEM_SELECT); /* select the output */ BMO_slot_buffer_hflag_enable(em->bm, bmop.slots_out, "edges.out", BM_EDGE, BM_ELEM_SELECT, true); EDBM_selectmode_flush(em); /* finish the operator */ if (!EDBM_op_finish(em, &bmop, op, true)) { return OPERATOR_CANCELLED; } EDBM_update_generic(em, false, false); return OPERATOR_FINISHED; } /* ********************************* */ /* * VERT GROUP * mode 1: same normal * mode 2: same number of face users * mode 3: same vertex groups */ static int similar_vert_select_exec(bContext *C, wmOperator *op) { Object *ob = CTX_data_edit_object(C); BMEditMesh *em = BKE_editmesh_from_object(ob); BMOperator bmop; /* get the type from RNA */ const int type = RNA_enum_get(op->ptr, "type"); const float thresh = RNA_float_get(op->ptr, "threshold"); const int compare = RNA_enum_get(op->ptr, "compare"); /* initialize the bmop using EDBM api, which does various ui error reporting and other stuff */ EDBM_op_init(em, &bmop, op, "similar_verts verts=%hv type=%i thresh=%f compare=%i", BM_ELEM_SELECT, type, thresh, compare); /* execute the operator */ BMO_op_exec(em->bm, &bmop); /* clear the existing selection */ EDBM_flag_disable_all(em, BM_ELEM_SELECT); /* select the output */ BMO_slot_buffer_hflag_enable(em->bm, bmop.slots_out, "verts.out", BM_VERT, BM_ELEM_SELECT, true); /* finish the operator */ if (!EDBM_op_finish(em, &bmop, op, true)) { return OPERATOR_CANCELLED; } EDBM_selectmode_flush(em); EDBM_update_generic(em, false, false); return OPERATOR_FINISHED; } static int edbm_select_similar_exec(bContext *C, wmOperator *op) { ToolSettings *ts = CTX_data_tool_settings(C); PropertyRNA *prop = RNA_struct_find_property(op->ptr, "threshold"); const int type = RNA_enum_get(op->ptr, "type"); if (!RNA_property_is_set(op->ptr, prop)) { RNA_property_float_set(op->ptr, prop, ts->select_thresh); } else { ts->select_thresh = RNA_property_float_get(op->ptr, prop); } if (type < 100) return similar_vert_select_exec(C, op); else if (type < 200) return similar_edge_select_exec(C, op); else return similar_face_select_exec(C, op); } static EnumPropertyItem *select_similar_type_itemf(bContext *C, PointerRNA *UNUSED(ptr), PropertyRNA *UNUSED(prop), int *free) { Object *obedit; if (!C) /* needed for docs and i18n tools */ return prop_similar_types; obedit = CTX_data_edit_object(C); if (obedit && obedit->type == OB_MESH) { EnumPropertyItem *item = NULL; int a, totitem = 0; BMEditMesh *em = BKE_editmesh_from_object(obedit); if (em->selectmode & SCE_SELECT_VERTEX) { for (a = SIMVERT_NORMAL; a < SIMEDGE_LENGTH; a++) { RNA_enum_items_add_value(&item, &totitem, prop_similar_types, a); } } else if (em->selectmode & SCE_SELECT_EDGE) { for (a = SIMEDGE_LENGTH; a < SIMFACE_MATERIAL; a++) { RNA_enum_items_add_value(&item, &totitem, prop_similar_types, a); } } else if (em->selectmode & SCE_SELECT_FACE) { #ifdef WITH_FREESTYLE const int a_end = SIMFACE_FREESTYLE; #else const int a_end = SIMFACE_COPLANAR; #endif for (a = SIMFACE_MATERIAL; a <= a_end; a++) { RNA_enum_items_add_value(&item, &totitem, prop_similar_types, a); } } RNA_enum_item_end(&item, &totitem); *free = 1; return item; } return NULL; } void MESH_OT_select_similar(wmOperatorType *ot) { PropertyRNA *prop; /* identifiers */ ot->name = "Select Similar"; ot->idname = "MESH_OT_select_similar"; ot->description = "Select similar vertices, edges or faces by property types"; /* api callbacks */ ot->invoke = WM_menu_invoke; ot->exec = edbm_select_similar_exec; ot->poll = ED_operator_editmesh; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* properties */ prop = ot->prop = RNA_def_enum(ot->srna, "type", prop_similar_types, SIMVERT_NORMAL, "Type", ""); RNA_def_enum_funcs(prop, select_similar_type_itemf); RNA_def_enum(ot->srna, "compare", prop_similar_compare_types, SIM_CMP_EQ, "Compare", ""); RNA_def_float(ot->srna, "threshold", 0.0, 0.0, 1.0, "Threshold", "", 0.0, 1.0); } /* **************** Mode Select *************** */ static int edbm_select_mode_exec(bContext *C, wmOperator *op) { const int type = RNA_enum_get(op->ptr, "type"); const int action = RNA_enum_get(op->ptr, "action"); const bool use_extend = RNA_boolean_get(op->ptr, "use_extend"); const bool use_expand = RNA_boolean_get(op->ptr, "use_expand"); if (EDBM_selectmode_toggle(C, type, action, use_extend, use_expand)) { return OPERATOR_FINISHED; } else { return OPERATOR_CANCELLED; } } static int edbm_select_mode_invoke(bContext *C, wmOperator *op, const wmEvent *event) { /* detecting these options based on shift/ctrl here is weak, but it's done * to make this work when clicking buttons or menus */ if (!RNA_struct_property_is_set(op->ptr, "use_extend")) RNA_boolean_set(op->ptr, "use_extend", event->shift); if (!RNA_struct_property_is_set(op->ptr, "use_expand")) RNA_boolean_set(op->ptr, "use_expand", event->ctrl); return edbm_select_mode_exec(C, op); } void MESH_OT_select_mode(wmOperatorType *ot) { PropertyRNA *prop; static EnumPropertyItem elem_items[] = { {SCE_SELECT_VERTEX, "VERT", ICON_VERTEXSEL, "Vertices", ""}, {SCE_SELECT_EDGE, "EDGE", ICON_EDGESEL, "Edges", ""}, {SCE_SELECT_FACE, "FACE", ICON_FACESEL, "Faces", ""}, {0, NULL, 0, NULL, NULL}, }; static EnumPropertyItem actions_items[] = { {0, "DISABLE", 0, "Disable", "Disable selected markers"}, {1, "ENABLE", 0, "Enable", "Enable selected markers"}, {2, "TOGGLE", 0, "Toggle", "Toggle disabled flag for selected markers"}, {0, NULL, 0, NULL, NULL} }; /* identifiers */ ot->name = "Select Mode"; ot->idname = "MESH_OT_select_mode"; ot->description = "Change selection mode"; /* api callbacks */ ot->invoke = edbm_select_mode_invoke; ot->exec = edbm_select_mode_exec; ot->poll = ED_operator_editmesh; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* properties */ prop = RNA_def_boolean(ot->srna, "use_extend", false, "Extend", ""); RNA_def_property_flag(prop, PROP_SKIP_SAVE); prop = RNA_def_boolean(ot->srna, "use_expand", false, "Expand", ""); RNA_def_property_flag(prop, PROP_SKIP_SAVE); ot->prop = prop = RNA_def_enum(ot->srna, "type", elem_items, 0, "Type", ""); RNA_def_property_flag(prop, PROP_SKIP_SAVE); RNA_def_enum(ot->srna, "action", actions_items, 2, "Action", "Selection action to execute"); } /* ***************************************************** */ /* **************** LOOP SELECTS *************** */ static void walker_select(BMEditMesh *em, int walkercode, void *start, const bool select) { BMesh *bm = em->bm; BMElem *ele; BMWalker walker; BMW_init(&walker, bm, walkercode, BMW_MASK_NOP, BMW_MASK_NOP, BMW_MASK_NOP, BMW_FLAG_TEST_HIDDEN, BMW_NIL_LAY); for (ele = BMW_begin(&walker, start); ele; ele = BMW_step(&walker)) { if (!select) { BM_select_history_remove(bm, ele); } BM_elem_select_set(bm, ele, select); } BMW_end(&walker); } static int edbm_loop_multiselect_exec(bContext *C, wmOperator *op) { Object *obedit = CTX_data_edit_object(C); BMEditMesh *em = BKE_editmesh_from_object(obedit); BMEdge *eed; BMEdge **edarray; int edindex; const bool is_ring = RNA_boolean_get(op->ptr, "ring"); BMIter iter; int totedgesel = 0; BM_ITER_MESH (eed, &iter, em->bm, BM_EDGES_OF_MESH) { if (BM_elem_flag_test(eed, BM_ELEM_SELECT)) { totedgesel++; } } edarray = MEM_mallocN(sizeof(BMEdge *) * totedgesel, "edge array"); edindex = 0; BM_ITER_MESH (eed, &iter, em->bm, BM_EDGES_OF_MESH) { if (BM_elem_flag_test(eed, BM_ELEM_SELECT)) { edarray[edindex] = eed; edindex++; } } if (is_ring) { for (edindex = 0; edindex < totedgesel; edindex += 1) { eed = edarray[edindex]; walker_select(em, BMW_EDGERING, eed, true); } EDBM_selectmode_flush(em); } else { for (edindex = 0; edindex < totedgesel; edindex += 1) { eed = edarray[edindex]; walker_select(em, BMW_LOOP, eed, true); } EDBM_selectmode_flush(em); } MEM_freeN(edarray); // if (EM_texFaceCheck()) WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit); return OPERATOR_FINISHED; } void MESH_OT_loop_multi_select(wmOperatorType *ot) { /* identifiers */ ot->name = "Multi Select Loops"; ot->idname = "MESH_OT_loop_multi_select"; ot->description = "Select a loop of connected edges by connection type"; /* api callbacks */ ot->exec = edbm_loop_multiselect_exec; ot->poll = ED_operator_editmesh; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* properties */ RNA_def_boolean(ot->srna, "ring", 0, "Ring", ""); } /* ***************** MAIN MOUSE SELECTION ************** */ /* ***************** loop select (non modal) ************** */ static void mouse_mesh_loop(bContext *C, const int mval[2], bool extend, bool deselect, bool toggle, bool ring) { ViewContext vc; BMEditMesh *em; BMEdge *eed; bool select = true; float dist = 50.0f; float mvalf[2]; em_setup_viewcontext(C, &vc); mvalf[0] = (float)(vc.mval[0] = mval[0]); mvalf[1] = (float)(vc.mval[1] = mval[1]); em = vc.em; /* no afterqueue (yet), so we check it now, otherwise the bm_xxxofs indices are bad */ view3d_validate_backbuf(&vc); eed = EDBM_edge_find_nearest(&vc, &dist); if (eed) { if (extend == false && deselect == false && toggle == false) { EDBM_flag_disable_all(em, BM_ELEM_SELECT); } if (extend) { select = true; } else if (deselect) { select = false; } else if (BM_elem_flag_test(eed, BM_ELEM_SELECT) == 0) { select = true; } else if (toggle) { select = false; } if (em->selectmode & SCE_SELECT_FACE) { walker_select(em, BMW_FACELOOP, eed, select); } else if (em->selectmode & SCE_SELECT_EDGE) { if (ring) walker_select(em, BMW_EDGERING, eed, select); else walker_select(em, BMW_LOOP, eed, select); } else if (em->selectmode & SCE_SELECT_VERTEX) { if (ring) walker_select(em, BMW_EDGERING, eed, select); else walker_select(em, BMW_LOOP, eed, select); } EDBM_selectmode_flush(em); /* sets as active, useful for other tools */ if (select) { if (em->selectmode & SCE_SELECT_VERTEX) { /* Find nearest vert from mouse * (initialize to large values incase only one vertex can be projected) */ float v1_co[2], v2_co[2]; float length_1 = FLT_MAX; float length_2 = FLT_MAX; /* We can't be sure this has already been set... */ ED_view3d_init_mats_rv3d(vc.obedit, vc.rv3d); if (ED_view3d_project_float_object(vc.ar, eed->v1->co, v1_co, V3D_PROJ_TEST_CLIP_NEAR) == V3D_PROJ_RET_OK) { length_1 = len_squared_v2v2(mvalf, v1_co); } if (ED_view3d_project_float_object(vc.ar, eed->v2->co, v2_co, V3D_PROJ_TEST_CLIP_NEAR) == V3D_PROJ_RET_OK) { length_2 = len_squared_v2v2(mvalf, v2_co); } #if 0 printf("mouse to v1: %f\nmouse to v2: %f\n", len_squared_v2v2(mvalf, v1_co), len_squared_v2v2(mvalf, v2_co)); #endif BM_select_history_store(em->bm, (length_1 < length_2) ? eed->v1 : eed->v2); } else if (em->selectmode & SCE_SELECT_EDGE) { BM_select_history_store(em->bm, eed); } else if (em->selectmode & SCE_SELECT_FACE) { /* Select the face of eed which is the nearest of mouse. */ BMFace *f, *efa = NULL; BMIter iterf; float best_dist = FLT_MAX; /* We can't be sure this has already been set... */ ED_view3d_init_mats_rv3d(vc.obedit, vc.rv3d); BM_ITER_ELEM(f, &iterf, eed, BM_FACES_OF_EDGE) { if (BM_elem_flag_test(f, BM_ELEM_SELECT)) { float cent[3]; float co[2], tdist; BM_face_calc_center_mean(f, cent); if (ED_view3d_project_float_object(vc.ar, cent, co, V3D_PROJ_TEST_CLIP_NEAR) == V3D_PROJ_RET_OK) { tdist = len_squared_v2v2(mvalf, co); if (tdist < best_dist) { /* printf("Best face: %p (%f)\n", f, tdist);*/ best_dist = tdist; efa = f; } } } } if (efa) { BM_mesh_active_face_set(em->bm, efa); BM_select_history_store(em->bm, efa); } } } WM_event_add_notifier(C, NC_GEOM | ND_SELECT, vc.obedit); } } static int edbm_select_loop_invoke(bContext *C, wmOperator *op, const wmEvent *event) { view3d_operator_needs_opengl(C); mouse_mesh_loop(C, event->mval, RNA_boolean_get(op->ptr, "extend"), RNA_boolean_get(op->ptr, "deselect"), RNA_boolean_get(op->ptr, "toggle"), RNA_boolean_get(op->ptr, "ring")); /* cannot do tweaks for as long this keymap is after transform map */ return OPERATOR_FINISHED; } void MESH_OT_loop_select(wmOperatorType *ot) { /* identifiers */ ot->name = "Loop Select"; ot->idname = "MESH_OT_loop_select"; ot->description = "Select a loop of connected edges"; /* api callbacks */ ot->invoke = edbm_select_loop_invoke; ot->poll = ED_operator_editmesh_region_view3d; /* flags */ ot->flag = OPTYPE_UNDO; /* properties */ RNA_def_boolean(ot->srna, "extend", 0, "Extend Select", "Extend the selection"); RNA_def_boolean(ot->srna, "deselect", 0, "Deselect", "Remove from the selection"); RNA_def_boolean(ot->srna, "toggle", 0, "Toggle Select", "Toggle the selection"); RNA_def_boolean(ot->srna, "ring", 0, "Select Ring", "Select ring"); } void MESH_OT_edgering_select(wmOperatorType *ot) { /* description */ ot->name = "Edge Ring Select"; ot->idname = "MESH_OT_edgering_select"; ot->description = "Select an edge ring"; /* callbacks */ ot->invoke = edbm_select_loop_invoke; ot->poll = ED_operator_editmesh_region_view3d; /* flags */ ot->flag = OPTYPE_UNDO; RNA_def_boolean(ot->srna, "extend", 0, "Extend", "Extend the selection"); RNA_def_boolean(ot->srna, "deselect", 0, "Deselect", "Remove from the selection"); RNA_def_boolean(ot->srna, "toggle", 0, "Toggle Select", "Toggle the selection"); RNA_def_boolean(ot->srna, "ring", 1, "Select Ring", "Select ring"); } /* ******************** (de)select all operator **************** */ static int edbm_select_all_exec(bContext *C, wmOperator *op) { Object *obedit = CTX_data_edit_object(C); BMEditMesh *em = BKE_editmesh_from_object(obedit); const int action = RNA_enum_get(op->ptr, "action"); switch (action) { case SEL_TOGGLE: EDBM_select_toggle_all(em); break; case SEL_SELECT: EDBM_flag_enable_all(em, BM_ELEM_SELECT); break; case SEL_DESELECT: EDBM_flag_disable_all(em, BM_ELEM_SELECT); break; case SEL_INVERT: EDBM_select_swap(em); EDBM_selectmode_flush(em); break; } WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit); return OPERATOR_FINISHED; } void MESH_OT_select_all(wmOperatorType *ot) { /* identifiers */ ot->name = "(De)select All"; ot->idname = "MESH_OT_select_all"; ot->description = "(De)select all vertices, edges or faces"; /* api callbacks */ ot->exec = edbm_select_all_exec; ot->poll = ED_operator_editmesh; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; WM_operator_properties_select_all(ot); } static int edbm_faces_select_interior_exec(bContext *C, wmOperator *UNUSED(op)) { Object *obedit = CTX_data_edit_object(C); BMEditMesh *em = BKE_editmesh_from_object(obedit); if (EDBM_select_interior_faces(em)) { WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit); return OPERATOR_FINISHED; } else { return OPERATOR_CANCELLED; } } void MESH_OT_select_interior_faces(wmOperatorType *ot) { /* identifiers */ ot->name = "Select Interior Faces"; ot->idname = "MESH_OT_select_interior_faces"; ot->description = "Select faces where all edges have more than 2 face users"; /* api callbacks */ ot->exec = edbm_faces_select_interior_exec; ot->poll = ED_operator_editmesh; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } /* ************************************************** */ /* here actual select happens */ /* gets called via generic mouse select operator */ bool EDBM_select_pick(bContext *C, const int mval[2], bool extend, bool deselect, bool toggle) { ViewContext vc; BMVert *eve = NULL; BMEdge *eed = NULL; BMFace *efa = NULL; /* setup view context for argument to callbacks */ em_setup_viewcontext(C, &vc); vc.mval[0] = mval[0]; vc.mval[1] = mval[1]; if (unified_findnearest(&vc, &eve, &eed, &efa)) { /* Deselect everything */ if (extend == false && deselect == false && toggle == false) EDBM_flag_disable_all(vc.em, BM_ELEM_SELECT); if (efa) { if (extend) { /* set the last selected face */ BM_mesh_active_face_set(vc.em->bm, efa); /* Work-around: deselect first, so we can guarantee it will */ /* be active even if it was already selected */ BM_select_history_remove(vc.em->bm, efa); BM_face_select_set(vc.em->bm, efa, false); BM_select_history_store(vc.em->bm, efa); BM_face_select_set(vc.em->bm, efa, true); } else if (deselect) { BM_select_history_remove(vc.em->bm, efa); BM_face_select_set(vc.em->bm, efa, false); } else { /* set the last selected face */ BM_mesh_active_face_set(vc.em->bm, efa); if (!BM_elem_flag_test(efa, BM_ELEM_SELECT)) { BM_select_history_store(vc.em->bm, efa); BM_face_select_set(vc.em->bm, efa, true); } else if (toggle) { BM_select_history_remove(vc.em->bm, efa); BM_face_select_set(vc.em->bm, efa, false); } } } else if (eed) { if (extend) { /* Work-around: deselect first, so we can guarantee it will */ /* be active even if it was already selected */ BM_select_history_remove(vc.em->bm, eed); BM_edge_select_set(vc.em->bm, eed, false); BM_select_history_store(vc.em->bm, eed); BM_edge_select_set(vc.em->bm, eed, true); } else if (deselect) { BM_select_history_remove(vc.em->bm, eed); BM_edge_select_set(vc.em->bm, eed, false); } else { if (!BM_elem_flag_test(eed, BM_ELEM_SELECT)) { BM_select_history_store(vc.em->bm, eed); BM_edge_select_set(vc.em->bm, eed, true); } else if (toggle) { BM_select_history_remove(vc.em->bm, eed); BM_edge_select_set(vc.em->bm, eed, false); } } } else if (eve) { if (extend) { /* Work-around: deselect first, so we can guarantee it will */ /* be active even if it was already selected */ BM_select_history_remove(vc.em->bm, eve); BM_vert_select_set(vc.em->bm, eve, false); BM_select_history_store(vc.em->bm, eve); BM_vert_select_set(vc.em->bm, eve, true); } else if (deselect) { BM_select_history_remove(vc.em->bm, eve); BM_vert_select_set(vc.em->bm, eve, false); } else { if (!BM_elem_flag_test(eve, BM_ELEM_SELECT)) { BM_select_history_store(vc.em->bm, eve); BM_vert_select_set(vc.em->bm, eve, true); } else if (toggle) { BM_select_history_remove(vc.em->bm, eve); BM_vert_select_set(vc.em->bm, eve, false); } } } EDBM_selectmode_flush(vc.em); /* change active material on object */ if (efa && efa->mat_nr != vc.obedit->actcol - 1) { vc.obedit->actcol = efa->mat_nr + 1; vc.em->mat_nr = efa->mat_nr; WM_event_add_notifier(C, NC_MATERIAL | ND_SHADING_LINKS, NULL); } WM_event_add_notifier(C, NC_GEOM | ND_SELECT, vc.obedit); return true; } return false; } static void edbm_strip_selections(BMEditMesh *em) { BMEditSelection *ese, *nextese; if (!(em->selectmode & SCE_SELECT_VERTEX)) { ese = em->bm->selected.first; while (ese) { nextese = ese->next; if (ese->htype == BM_VERT) BLI_freelinkN(&(em->bm->selected), ese); ese = nextese; } } if (!(em->selectmode & SCE_SELECT_EDGE)) { ese = em->bm->selected.first; while (ese) { nextese = ese->next; if (ese->htype == BM_EDGE) BLI_freelinkN(&(em->bm->selected), ese); ese = nextese; } } if (!(em->selectmode & SCE_SELECT_FACE)) { ese = em->bm->selected.first; while (ese) { nextese = ese->next; if (ese->htype == BM_FACE) BLI_freelinkN(&(em->bm->selected), ese); ese = nextese; } } } /* when switching select mode, makes sure selection is consistent for editing */ /* also for paranoia checks to make sure edge or face mode works */ void EDBM_selectmode_set(BMEditMesh *em) { BMVert *eve; BMEdge *eed; BMFace *efa; BMIter iter; em->bm->selectmode = em->selectmode; edbm_strip_selections(em); /* strip BMEditSelections from em->selected that are not relevant to new mode */ if (em->bm->totvertsel == 0 && em->bm->totedgesel == 0 && em->bm->totfacesel == 0) { return; } if (em->selectmode & SCE_SELECT_VERTEX) { if (em->bm->totvertsel) { EDBM_select_flush(em); } } else if (em->selectmode & SCE_SELECT_EDGE) { /* deselect vertices, and select again based on edge select */ BM_ITER_MESH (eve, &iter, em->bm, BM_VERTS_OF_MESH) { BM_vert_select_set(em->bm, eve, false); } if (em->bm->totedgesel) { BM_ITER_MESH (eed, &iter, em->bm, BM_EDGES_OF_MESH) { if (BM_elem_flag_test(eed, BM_ELEM_SELECT)) { BM_edge_select_set(em->bm, eed, true); } } /* selects faces based on edge status */ EDBM_selectmode_flush(em); } } else if (em->selectmode & SCE_SELECT_FACE) { /* deselect eges, and select again based on face select */ BM_ITER_MESH (eed, &iter, em->bm, BM_EDGES_OF_MESH) { BM_edge_select_set(em->bm, eed, false); } if (em->bm->totfacesel) { efa = BM_iter_new(&iter, em->bm, BM_FACES_OF_MESH, NULL); for (; efa; efa = BM_iter_step(&iter)) { if (BM_elem_flag_test(efa, BM_ELEM_SELECT)) { BM_face_select_set(em->bm, efa, true); } } } } } /** * Flush the selection up: * - vert -> edge * - edge -> face */ void EDBM_selectmode_convert(BMEditMesh *em, const short selectmode_old, const short selectmode_new) { BMEdge *eed; BMFace *efa; BMIter iter; /* first tag-to-select, then select --- this avoids a feedback loop */ /* have to find out what the selectionmode was previously */ if (selectmode_old == SCE_SELECT_VERTEX) { if (em->bm->totvertsel == 0) { /* pass */ } else if (selectmode_new == SCE_SELECT_EDGE) { /* select all edges associated with every selected vert */ BM_ITER_MESH (eed, &iter, em->bm, BM_EDGES_OF_MESH) { BM_elem_flag_set(eed, BM_ELEM_TAG, BM_edge_is_any_vert_flag_test(eed, BM_ELEM_SELECT)); } BM_ITER_MESH (eed, &iter, em->bm, BM_EDGES_OF_MESH) { if (BM_elem_flag_test(eed, BM_ELEM_TAG)) { BM_edge_select_set(em->bm, eed, true); } } } else if (selectmode_new == SCE_SELECT_FACE) { /* select all faces associated with every selected vert */ BM_ITER_MESH (efa, &iter, em->bm, BM_FACES_OF_MESH) { BM_elem_flag_set(efa, BM_ELEM_TAG, BM_face_is_any_vert_flag_test(efa, BM_ELEM_SELECT)); } BM_ITER_MESH (efa, &iter, em->bm, BM_FACES_OF_MESH) { if (BM_elem_flag_test(efa, BM_ELEM_TAG)) { BM_face_select_set(em->bm, efa, true); } } } } else if (selectmode_old == SCE_SELECT_EDGE) { if (em->bm->totedgesel == 0) { /* pass */ } else if (selectmode_new == SCE_SELECT_FACE) { /* select all faces associated with every selected edge */ BM_ITER_MESH (efa, &iter, em->bm, BM_FACES_OF_MESH) { BM_elem_flag_set(efa, BM_ELEM_TAG, BM_face_is_any_edge_flag_test(efa, BM_ELEM_SELECT)); } BM_ITER_MESH (efa, &iter, em->bm, BM_FACES_OF_MESH) { if (BM_elem_flag_test(efa, BM_ELEM_TAG)) { BM_face_select_set(em->bm, efa, true); } } } } } /* user facing function, does notification and undo push */ bool EDBM_selectmode_toggle(bContext *C, const short selectmode_new, const int action, const bool use_extend, const bool use_expand) { ToolSettings *ts = CTX_data_tool_settings(C); Object *obedit = CTX_data_edit_object(C); BMEditMesh *em = NULL; bool ret = false; if (obedit && obedit->type == OB_MESH) { em = BKE_editmesh_from_object(obedit); } if (em == NULL) { return ret; } switch (action) { case -1: /* already set */ break; case 0: /* disable */ /* check we have something to do */ if ((em->selectmode & selectmode_new) == 0) { return false; } em->selectmode &= ~selectmode_new; break; case 1: /* enable */ /* check we have something to do */ if ((em->selectmode & selectmode_new) != 0) { return false; } em->selectmode |= selectmode_new; break; case 2: /* toggle */ /* can't disable this flag if its the only one set */ if (em->selectmode == selectmode_new) { return false; } em->selectmode ^= selectmode_new; break; default: BLI_assert(0); } switch (selectmode_new) { case SCE_SELECT_VERTEX: if (use_extend == 0 || em->selectmode == 0) em->selectmode = SCE_SELECT_VERTEX; ts->selectmode = em->selectmode; EDBM_selectmode_set(em); ret = true; break; case SCE_SELECT_EDGE: if (use_extend == 0 || em->selectmode == 0) { if (use_expand) { const short selmode_max = highest_order_bit_s(ts->selectmode); if (selmode_max == SCE_SELECT_VERTEX) { EDBM_selectmode_convert(em, selmode_max, SCE_SELECT_EDGE); } } em->selectmode = SCE_SELECT_EDGE; } ts->selectmode = em->selectmode; EDBM_selectmode_set(em); ret = true; break; case SCE_SELECT_FACE: if (use_extend == 0 || em->selectmode == 0) { if (use_expand) { const short selmode_max = highest_order_bit_s(ts->selectmode); if (ELEM(selmode_max, SCE_SELECT_VERTEX, SCE_SELECT_EDGE)) { EDBM_selectmode_convert(em, selmode_max, SCE_SELECT_FACE); } } em->selectmode = SCE_SELECT_FACE; } ts->selectmode = em->selectmode; EDBM_selectmode_set(em); ret = true; break; default: BLI_assert(0); break; } if (ret == true) { WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit->data); WM_main_add_notifier(NC_SCENE | ND_TOOLSETTINGS, NULL); } return ret; } /** * Use to disable a selectmode if its enabled, Using another mode as a fallback * if the disabled mode is the only mode set. * * \return true if the mode is changed. */ bool EDBM_selectmode_disable(Scene *scene, BMEditMesh *em, const short selectmode_disable, const short selectmode_fallback) { /* note essential, but switch out of vertex mode since the * selected regions wont be nicely isolated after flushing */ if (em->selectmode & selectmode_disable) { if (em->selectmode == selectmode_disable) { em->selectmode = selectmode_fallback; } else { em->selectmode &= ~selectmode_disable; } scene->toolsettings->selectmode = em->selectmode; EDBM_selectmode_set(em); WM_main_add_notifier(NC_SCENE | ND_TOOLSETTINGS, scene); return true; } else { return false; } } void EDBM_deselect_by_material(BMEditMesh *em, const short index, const short select) { BMIter iter; BMFace *efa; BM_ITER_MESH (efa, &iter, em->bm, BM_FACES_OF_MESH) { if (BM_elem_flag_test(efa, BM_ELEM_HIDDEN)) continue; if (efa->mat_nr == index) { BM_face_select_set(em->bm, efa, select); } } } void EDBM_select_toggle_all(BMEditMesh *em) /* exported for UV */ { if (em->bm->totvertsel || em->bm->totedgesel || em->bm->totfacesel) EDBM_flag_disable_all(em, BM_ELEM_SELECT); else EDBM_flag_enable_all(em, BM_ELEM_SELECT); } void EDBM_select_swap(BMEditMesh *em) /* exported for UV */ { BMIter iter; BMVert *eve; BMEdge *eed; BMFace *efa; if (em->bm->selectmode & SCE_SELECT_VERTEX) { BM_ITER_MESH (eve, &iter, em->bm, BM_VERTS_OF_MESH) { if (BM_elem_flag_test(eve, BM_ELEM_HIDDEN)) continue; BM_vert_select_set(em->bm, eve, !BM_elem_flag_test(eve, BM_ELEM_SELECT)); } } else if (em->selectmode & SCE_SELECT_EDGE) { BM_ITER_MESH (eed, &iter, em->bm, BM_EDGES_OF_MESH) { if (BM_elem_flag_test(eed, BM_ELEM_HIDDEN)) continue; BM_edge_select_set(em->bm, eed, !BM_elem_flag_test(eed, BM_ELEM_SELECT)); } } else { BM_ITER_MESH (efa, &iter, em->bm, BM_FACES_OF_MESH) { if (BM_elem_flag_test(efa, BM_ELEM_HIDDEN)) continue; BM_face_select_set(em->bm, efa, !BM_elem_flag_test(efa, BM_ELEM_SELECT)); } } // if (EM_texFaceCheck()) } bool EDBM_select_interior_faces(BMEditMesh *em) { BMesh *bm = em->bm; BMIter iter; BMIter eiter; BMFace *efa; BMEdge *eed; bool ok; bool change = false; BM_ITER_MESH (efa, &iter, em->bm, BM_FACES_OF_MESH) { if (BM_elem_flag_test(efa, BM_ELEM_HIDDEN)) continue; ok = true; BM_ITER_ELEM (eed, &eiter, efa, BM_EDGES_OF_FACE) { if (BM_edge_face_count(eed) < 3) { ok = false; break; } } if (ok) { BM_face_select_set(bm, efa, true); change = true; } } return change; } /************************ Select Linked Operator *************************/ static void linked_limit_default(bContext *C, wmOperator *op) { if (!RNA_struct_property_is_set(op->ptr, "limit")) { Object *obedit = CTX_data_edit_object(C); BMEditMesh *em = BKE_editmesh_from_object(obedit); if (em->selectmode == SCE_SELECT_FACE) RNA_boolean_set(op->ptr, "limit", true); else RNA_boolean_set(op->ptr, "limit", false); } } static int edbm_select_linked_exec(bContext *C, wmOperator *op) { Object *obedit = CTX_data_edit_object(C); BMEditMesh *em = BKE_editmesh_from_object(obedit); BMesh *bm = em->bm; BMIter iter; BMVert *v; BMEdge *e; BMWalker walker; int limit; linked_limit_default(C, op); limit = RNA_boolean_get(op->ptr, "limit"); if (em->selectmode == SCE_SELECT_FACE) { BMFace *efa; BM_ITER_MESH (efa, &iter, em->bm, BM_FACES_OF_MESH) { BM_elem_flag_set(efa, BM_ELEM_TAG, (BM_elem_flag_test(efa, BM_ELEM_SELECT) && !BM_elem_flag_test(efa, BM_ELEM_HIDDEN))); } if (limit) { /* grr, shouldn't need to alloc BMO flags here */ BM_mesh_elem_toolflags_ensure(bm); BM_ITER_MESH (e, &iter, bm, BM_EDGES_OF_MESH) { BMO_elem_flag_set(bm, e, BMO_ELE_TAG, !BM_elem_flag_test(e, BM_ELEM_SEAM)); } } BMW_init(&walker, bm, BMW_ISLAND, BMW_MASK_NOP, limit ? BMO_ELE_TAG : BMW_MASK_NOP, BMW_MASK_NOP, BMW_FLAG_TEST_HIDDEN, BMW_NIL_LAY); BM_ITER_MESH (efa, &iter, em->bm, BM_FACES_OF_MESH) { if (BM_elem_flag_test(efa, BM_ELEM_TAG)) { for (efa = BMW_begin(&walker, efa); efa; efa = BMW_step(&walker)) { BM_face_select_set(bm, efa, true); } } } BMW_end(&walker); if (limit) { BM_mesh_elem_toolflags_clear(bm); } } else { BM_ITER_MESH (v, &iter, em->bm, BM_VERTS_OF_MESH) { if (BM_elem_flag_test(v, BM_ELEM_SELECT)) { BM_elem_flag_enable(v, BM_ELEM_TAG); } else { BM_elem_flag_disable(v, BM_ELEM_TAG); } } BMW_init(&walker, em->bm, BMW_SHELL, BMW_MASK_NOP, BMW_MASK_NOP, BMW_MASK_NOP, BMW_FLAG_TEST_HIDDEN, BMW_NIL_LAY); BM_ITER_MESH (v, &iter, em->bm, BM_VERTS_OF_MESH) { if (BM_elem_flag_test(v, BM_ELEM_TAG)) { for (e = BMW_begin(&walker, v); e; e = BMW_step(&walker)) { BM_edge_select_set(em->bm, e, true); } } } BMW_end(&walker); EDBM_selectmode_flush(em); } WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit); return OPERATOR_FINISHED; } void MESH_OT_select_linked(wmOperatorType *ot) { /* identifiers */ ot->name = "Select Linked All"; ot->idname = "MESH_OT_select_linked"; ot->description = "Select all vertices linked to the active mesh"; /* api callbacks */ ot->exec = edbm_select_linked_exec; ot->poll = ED_operator_editmesh; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; RNA_def_boolean(ot->srna, "limit", 0, "Limit by Seams", ""); } static int edbm_select_linked_pick_invoke(bContext *C, wmOperator *op, const wmEvent *event) { Object *obedit = CTX_data_edit_object(C); ViewContext vc; BMesh *bm; BMWalker walker; BMEditMesh *em; BMVert *eve; BMEdge *e, *eed; BMFace *efa; int sel = !RNA_boolean_get(op->ptr, "deselect"); int limit; linked_limit_default(C, op); limit = RNA_boolean_get(op->ptr, "limit"); /* unified_finednearest needs ogl */ view3d_operator_needs_opengl(C); /* setup view context for argument to callbacks */ em_setup_viewcontext(C, &vc); em = vc.em; if (em->bm->totedge == 0) return OPERATOR_CANCELLED; bm = em->bm; vc.mval[0] = event->mval[0]; vc.mval[1] = event->mval[1]; /* return warning! */ if (unified_findnearest(&vc, &eve, &eed, &efa) == 0) { WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit); return OPERATOR_CANCELLED; } if (em->selectmode == SCE_SELECT_FACE) { BMIter iter; if (efa == NULL) return OPERATOR_CANCELLED; if (limit) { /* grr, shouldn't need to alloc BMO flags here */ BM_mesh_elem_toolflags_ensure(bm); /* hflag no-seam --> bmo-tag */ BM_ITER_MESH (e, &iter, bm, BM_EDGES_OF_MESH) { BMO_elem_flag_set(bm, e, BMO_ELE_TAG, !BM_elem_flag_test(e, BM_ELEM_SEAM)); } } /* walk */ BMW_init(&walker, bm, BMW_ISLAND, BMW_MASK_NOP, limit ? BMO_ELE_TAG : BMW_MASK_NOP, BMW_MASK_NOP, BMW_FLAG_TEST_HIDDEN, BMW_NIL_LAY); for (efa = BMW_begin(&walker, efa); efa; efa = BMW_step(&walker)) { BM_face_select_set(bm, efa, sel); } BMW_end(&walker); } else { if (efa) { eed = BM_FACE_FIRST_LOOP(efa)->e; } else if (!eed) { if (!eve || !eve->e) return OPERATOR_CANCELLED; eed = eve->e; } BMW_init(&walker, bm, BMW_SHELL, BMW_MASK_NOP, BMW_MASK_NOP, BMW_MASK_NOP, BMW_FLAG_TEST_HIDDEN, BMW_NIL_LAY); for (e = BMW_begin(&walker, eed->v1); e; e = BMW_step(&walker)) { BM_edge_select_set(bm, e, sel); } BMW_end(&walker); EDBM_selectmode_flush(em); } WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit); return OPERATOR_FINISHED; } void MESH_OT_select_linked_pick(wmOperatorType *ot) { /* identifiers */ ot->name = "Select Linked"; ot->idname = "MESH_OT_select_linked_pick"; ot->description = "(De)select all vertices linked to the edge under the mouse cursor"; /* api callbacks */ ot->invoke = edbm_select_linked_pick_invoke; ot->poll = ED_operator_editmesh; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; RNA_def_boolean(ot->srna, "deselect", 0, "Deselect", ""); RNA_def_boolean(ot->srna, "limit", 0, "Limit by Seams", ""); } static int edbm_select_face_by_sides_exec(bContext *C, wmOperator *op) { Object *obedit = CTX_data_edit_object(C); BMEditMesh *em = BKE_editmesh_from_object(obedit); BMFace *efa; BMIter iter; const int numverts = RNA_int_get(op->ptr, "number"); const int type = RNA_enum_get(op->ptr, "type"); if (!RNA_boolean_get(op->ptr, "extend")) EDBM_flag_disable_all(em, BM_ELEM_SELECT); BM_ITER_MESH (efa, &iter, em->bm, BM_FACES_OF_MESH) { int select; switch (type) { case 0: select = (efa->len < numverts); break; case 1: select = (efa->len == numverts); break; case 2: select = (efa->len > numverts); break; case 3: select = (efa->len != numverts); break; default: BLI_assert(0); select = false; break; } if (select) { BM_face_select_set(em->bm, efa, true); } } EDBM_selectmode_flush(em); WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit->data); return OPERATOR_FINISHED; } void MESH_OT_select_face_by_sides(wmOperatorType *ot) { static const EnumPropertyItem type_items[] = { {0, "LESS", 0, "Less Than", ""}, {1, "EQUAL", 0, "Equal To", ""}, {2, "GREATER", 0, "Greater Than", ""}, {3, "NOTEQUAL", 0, "Not Equal To", ""}, {0, NULL, 0, NULL, NULL} }; /* identifiers */ ot->name = "Select Faces by Sides"; ot->description = "Select vertices or faces by the number of polygon sides"; ot->idname = "MESH_OT_select_face_by_sides"; /* api callbacks */ ot->exec = edbm_select_face_by_sides_exec; ot->poll = ED_operator_editmesh; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* properties */ RNA_def_int(ot->srna, "number", 4, 3, INT_MAX, "Number of Vertices", "", 3, INT_MAX); RNA_def_enum(ot->srna, "type", type_items, 1, "Type", "Type of comparison to make"); RNA_def_boolean(ot->srna, "extend", true, "Extend", "Extend the selection"); } static int edbm_select_loose_exec(bContext *C, wmOperator *op) { Object *obedit = CTX_data_edit_object(C); BMEditMesh *em = BKE_editmesh_from_object(obedit); BMesh *bm = em->bm; BMIter iter; if (!RNA_boolean_get(op->ptr, "extend")) EDBM_flag_disable_all(em, BM_ELEM_SELECT); if (em->selectmode & SCE_SELECT_VERTEX) { BMVert *eve; BM_ITER_MESH (eve, &iter, bm, BM_VERTS_OF_MESH) { if (!eve->e) { BM_vert_select_set(bm, eve, true); } } } if (em->selectmode & SCE_SELECT_EDGE) { BMEdge *eed; BM_ITER_MESH (eed, &iter, bm, BM_EDGES_OF_MESH) { if (BM_edge_is_wire(eed)) { BM_edge_select_set(bm, eed, true); } } } if (em->selectmode & SCE_SELECT_FACE) { BMFace *efa; BM_ITER_MESH (efa, &iter, bm, BM_FACES_OF_MESH) { BMIter liter; BMLoop *l; bool is_loose = true; BM_ITER_ELEM (l, &liter, efa, BM_LOOPS_OF_FACE) { if (!BM_edge_is_boundary(l->e)) { is_loose = false; break; } } if (is_loose) { BM_face_select_set(bm, efa, true); } } } EDBM_selectmode_flush(em); WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit->data); return OPERATOR_FINISHED; } void MESH_OT_select_loose(wmOperatorType *ot) { /* identifiers */ ot->name = "Select Loose Geometry"; ot->description = "Select loose geometry based on the selection mode"; ot->idname = "MESH_OT_select_loose"; /* api callbacks */ ot->exec = edbm_select_loose_exec; ot->poll = ED_operator_editmesh; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* props */ RNA_def_boolean(ot->srna, "extend", false, "Extend", "Extend the selection"); } static int edbm_select_mirror_exec(bContext *C, wmOperator *op) { Object *obedit = CTX_data_edit_object(C); BMEditMesh *em = BKE_editmesh_from_object(obedit); bool extend = RNA_boolean_get(op->ptr, "extend"); if (em->bm->totvert && em->bm->totvertsel) { int totmirr, totfail; EDBM_select_mirrored(em, extend, &totmirr, &totfail); if (totmirr) { EDBM_selectmode_flush(em); WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit->data); } ED_mesh_report_mirror_ex(op, totmirr, totfail, em->bm->selectmode); } return OPERATOR_FINISHED; } void MESH_OT_select_mirror(wmOperatorType *ot) { /* identifiers */ ot->name = "Select Mirror"; ot->description = "Select mesh items at mirrored locations"; ot->idname = "MESH_OT_select_mirror"; /* api callbacks */ ot->exec = edbm_select_mirror_exec; ot->poll = ED_operator_editmesh; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* props */ RNA_def_boolean(ot->srna, "extend", 0, "Extend", "Extend the existing selection"); } /* ******************** **************** */ static int edbm_select_more_exec(bContext *C, wmOperator *UNUSED(op)) { Object *obedit = CTX_data_edit_object(C); BMEditMesh *em = BKE_editmesh_from_object(obedit); EDBM_select_more(em); WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit); return OPERATOR_FINISHED; } void MESH_OT_select_more(wmOperatorType *ot) { /* identifiers */ ot->name = "Select More"; ot->idname = "MESH_OT_select_more"; ot->description = "Select more vertices, edges or faces connected to initial selection"; /* api callbacks */ ot->exec = edbm_select_more_exec; ot->poll = ED_operator_editmesh; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } static int edbm_select_less_exec(bContext *C, wmOperator *UNUSED(op)) { Object *obedit = CTX_data_edit_object(C); BMEditMesh *em = BKE_editmesh_from_object(obedit); EDBM_select_less(em); WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit); return OPERATOR_FINISHED; } void MESH_OT_select_less(wmOperatorType *ot) { /* identifiers */ ot->name = "Select Less"; ot->idname = "MESH_OT_select_less"; ot->description = "Deselect vertices, edges or faces at the boundary of each selection region"; /* api callbacks */ ot->exec = edbm_select_less_exec; ot->poll = ED_operator_editmesh; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } /* Walk all reachable elements of the same type as h_act in breadth-first * order, starting from h_act. Deselects elements if the depth when they * are reached is not a multiple of "nth". */ static void walker_deselect_nth(BMEditMesh *em, int nth, int offset, BMHeader *h_act) { BMElem *ele; BMesh *bm = em->bm; BMWalker walker; BMIter iter; int walktype = 0, itertype = 0, flushtype = 0; short mask_vert = 0, mask_edge = 0, mask_face = 0; /* No active element from which to start - nothing to do */ if (h_act == NULL) { return; } /* Determine which type of iter, walker, and select flush to use * based on type of the elements being deselected */ switch (h_act->htype) { case BM_VERT: itertype = BM_VERTS_OF_MESH; walktype = BMW_CONNECTED_VERTEX; flushtype = SCE_SELECT_VERTEX; mask_vert = BMO_ELE_TAG; break; case BM_EDGE: itertype = BM_EDGES_OF_MESH; walktype = BMW_SHELL; flushtype = SCE_SELECT_EDGE; mask_edge = BMO_ELE_TAG; break; case BM_FACE: itertype = BM_FACES_OF_MESH; walktype = BMW_ISLAND; flushtype = SCE_SELECT_FACE; mask_face = BMO_ELE_TAG; break; } /* grr, shouldn't need to alloc BMO flags here */ BM_mesh_elem_toolflags_ensure(bm); /* Walker restrictions uses BMO flags, not header flags, * so transfer BM_ELEM_SELECT from HFlags onto a BMO flag layer. */ BMO_push(bm, NULL); BM_ITER_MESH (ele, &iter, bm, itertype) { if (BM_elem_flag_test(ele, BM_ELEM_SELECT)) { BMO_elem_flag_enable(bm, (BMElemF *)ele, BMO_ELE_TAG); } } /* Walk over selected elements starting at active */ BMW_init(&walker, bm, walktype, mask_vert, mask_edge, mask_face, BMW_FLAG_NOP, /* don't use BMW_FLAG_TEST_HIDDEN here since we want to desel all */ BMW_NIL_LAY); /* use tag to avoid touching the same verts twice */ BM_ITER_MESH (ele, &iter, bm, itertype) { BM_elem_flag_disable(ele, BM_ELEM_TAG); } BLI_assert(walker.order == BMW_BREADTH_FIRST); for (ele = BMW_begin(&walker, h_act); ele != NULL; ele = BMW_step(&walker)) { if (!BM_elem_flag_test(ele, BM_ELEM_TAG)) { /* Deselect elements that aren't at "nth" depth from active */ if ((offset + BMW_current_depth(&walker)) % nth) { BM_elem_select_set(bm, ele, false); } BM_elem_flag_enable(ele, BM_ELEM_TAG); } } BMW_end(&walker); BMO_pop(bm); /* Flush selection up */ EDBM_selectmode_flush_ex(em, flushtype); } static void deselect_nth_active(BMEditMesh *em, BMVert **r_eve, BMEdge **r_eed, BMFace **r_efa) { BMVert *v; BMEdge *e; BMFace *f; BMIter iter; BMElem *ele; *r_eve = NULL; *r_eed = NULL; *r_efa = NULL; EDBM_selectmode_flush(em); ele = BM_mesh_active_elem_get(em->bm); if (ele) { switch (ele->head.htype) { case BM_VERT: *r_eve = (BMVert *)ele; return; case BM_EDGE: *r_eed = (BMEdge *)ele; return; case BM_FACE: *r_efa = (BMFace *)ele; return; } } if (em->selectmode & SCE_SELECT_VERTEX) { BM_ITER_MESH (v, &iter, em->bm, BM_VERTS_OF_MESH) { if (BM_elem_flag_test(v, BM_ELEM_SELECT)) { *r_eve = v; return; } } } else if (em->selectmode & SCE_SELECT_EDGE) { BM_ITER_MESH (e, &iter, em->bm, BM_EDGES_OF_MESH) { if (BM_elem_flag_test(e, BM_ELEM_SELECT)) { *r_eed = e; return; } } } else if (em->selectmode & SCE_SELECT_FACE) { f = BM_mesh_active_face_get(em->bm, true, false); if (f) { *r_efa = f; return; } } } static bool edbm_deselect_nth(BMEditMesh *em, int nth, int offset) { BMVert *v; BMEdge *e; BMFace *f; deselect_nth_active(em, &v, &e, &f); if (v) { walker_deselect_nth(em, nth, offset, &v->head); return true; } else if (e) { walker_deselect_nth(em, nth, offset, &e->head); return true; } else if (f) { walker_deselect_nth(em, nth, offset, &f->head); return true; } return false; } static int edbm_select_nth_exec(bContext *C, wmOperator *op) { Object *obedit = CTX_data_edit_object(C); BMEditMesh *em = BKE_editmesh_from_object(obedit); const int nth = RNA_int_get(op->ptr, "nth"); int offset = RNA_int_get(op->ptr, "offset"); /* so input of offset zero ends up being (nth - 1) */ offset = (offset + (nth - 1)) % nth; if (edbm_deselect_nth(em, nth, offset) == false) { BKE_report(op->reports, RPT_ERROR, "Mesh has no active vert/edge/face"); return OPERATOR_CANCELLED; } EDBM_update_generic(em, false, false); return OPERATOR_FINISHED; } void MESH_OT_select_nth(wmOperatorType *ot) { /* identifiers */ ot->name = "Checker Deselect"; ot->idname = "MESH_OT_select_nth"; ot->description = "Deselect every Nth element starting from the active vertex, edge or face"; /* api callbacks */ ot->exec = edbm_select_nth_exec; ot->poll = ED_operator_editmesh; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; RNA_def_int(ot->srna, "nth", 2, 2, INT_MAX, "Nth Selection", "", 2, 100); RNA_def_int(ot->srna, "offset", 0, 0, INT_MAX, "Offset", "", 0, 100); } void em_setup_viewcontext(bContext *C, ViewContext *vc) { view3d_set_viewcontext(C, vc); if (vc->obedit) { vc->em = BKE_editmesh_from_object(vc->obedit); } } static int edbm_select_sharp_edges_exec(bContext *C, wmOperator *op) { /* Find edges that have exactly two neighboring faces, * check the angle between those faces, and if angle is * small enough, select the edge */ Object *obedit = CTX_data_edit_object(C); BMEditMesh *em = BKE_editmesh_from_object(obedit); BMIter iter; BMEdge *e; BMLoop *l1, *l2; const float sharp = RNA_float_get(op->ptr, "sharpness"); BM_ITER_MESH (e, &iter, em->bm, BM_EDGES_OF_MESH) { if (BM_elem_flag_test(e, BM_ELEM_HIDDEN) == false && BM_edge_loop_pair(e, &l1, &l2)) { /* edge has exactly two neighboring faces, check angle */ const float angle = angle_normalized_v3v3(l1->f->no, l2->f->no); if (fabsf(angle) > sharp) { BM_edge_select_set(em->bm, e, true); } } } WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit->data); return OPERATOR_FINISHED; } void MESH_OT_edges_select_sharp(wmOperatorType *ot) { PropertyRNA *prop; /* identifiers */ ot->name = "Select Sharp Edges"; ot->description = "Select all sharp-enough edges"; ot->idname = "MESH_OT_edges_select_sharp"; /* api callbacks */ ot->exec = edbm_select_sharp_edges_exec; ot->poll = ED_operator_editmesh; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* props */ prop = RNA_def_float_rotation(ot->srna, "sharpness", 0, NULL, DEG2RADF(0.01f), DEG2RADF(180.0f), "Sharpness", "", DEG2RADF(1.0f), DEG2RADF(180.0f)); RNA_def_property_float_default(prop, DEG2RADF(30.0f)); } static int edbm_select_linked_flat_faces_exec(bContext *C, wmOperator *op) { Object *obedit = CTX_data_edit_object(C); BMEditMesh *em = BKE_editmesh_from_object(obedit); BMesh *bm = em->bm; BMFace **stack = MEM_mallocN(sizeof(BMFace *) * bm->totface, __func__); STACK_DECLARE(stack); BMIter iter, liter, liter2; BMFace *f; BMLoop *l, *l2; const float angle_limit = RNA_float_get(op->ptr, "sharpness"); BM_mesh_elem_hflag_disable_all(bm, BM_VERT, BM_ELEM_TAG, false); BM_ITER_MESH (f, &iter, bm, BM_FACES_OF_MESH) { if ((BM_elem_flag_test(f, BM_ELEM_HIDDEN) != 0) || (BM_elem_flag_test(f, BM_ELEM_TAG) != 0) || (BM_elem_flag_test(f, BM_ELEM_SELECT) == 0)) { continue; } STACK_INIT(stack); do { BM_face_select_set(bm, f, true); BM_elem_flag_enable(f, BM_ELEM_TAG); BM_ITER_ELEM (l, &liter, f, BM_LOOPS_OF_FACE) { BM_ITER_ELEM (l2, &liter2, l, BM_LOOPS_OF_LOOP) { float angle; if (BM_elem_flag_test(l2->f, BM_ELEM_TAG) || BM_elem_flag_test(l2->f, BM_ELEM_HIDDEN)) { continue; } angle = angle_normalized_v3v3(f->no, l2->f->no); if (angle < angle_limit) { STACK_PUSH(stack, l2->f); } } } } while ((f = STACK_POP(stack))); } STACK_FREE(stack); MEM_freeN(stack); WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit->data); return OPERATOR_FINISHED; } void MESH_OT_faces_select_linked_flat(wmOperatorType *ot) { PropertyRNA *prop; /* identifiers */ ot->name = "Select Linked Flat Faces"; ot->description = "Select linked faces by angle"; ot->idname = "MESH_OT_faces_select_linked_flat"; /* api callbacks */ ot->exec = edbm_select_linked_flat_faces_exec; ot->poll = ED_operator_editmesh; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* props */ prop = RNA_def_float_rotation(ot->srna, "sharpness", 0, NULL, DEG2RADF(0.01f), DEG2RADF(180.0f), "Sharpness", "", DEG2RADF(1.0f), DEG2RADF(180.0f)); RNA_def_property_float_default(prop, DEG2RADF(1.0f)); } static int edbm_select_non_manifold_exec(bContext *C, wmOperator *op) { Object *obedit = CTX_data_edit_object(C); BMEditMesh *em = BKE_editmesh_from_object(obedit); BMVert *v; BMEdge *e; BMIter iter; if (!RNA_boolean_get(op->ptr, "extend")) EDBM_flag_disable_all(em, BM_ELEM_SELECT); /* Selects isolated verts, and edges that do not have 2 neighboring * faces */ if (em->selectmode == SCE_SELECT_FACE) { BKE_report(op->reports, RPT_ERROR, "Does not work in face selection mode"); return OPERATOR_CANCELLED; } BM_ITER_MESH (v, &iter, em->bm, BM_VERTS_OF_MESH) { if (!BM_elem_flag_test(v, BM_ELEM_HIDDEN) && !BM_vert_is_manifold(v)) { BM_vert_select_set(em->bm, v, true); } } BM_ITER_MESH (e, &iter, em->bm, BM_EDGES_OF_MESH) { if (!BM_elem_flag_test(e, BM_ELEM_HIDDEN) && !BM_edge_is_manifold(e)) { BM_edge_select_set(em->bm, e, true); } } WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit->data); EDBM_selectmode_flush(em); return OPERATOR_FINISHED; } void MESH_OT_select_non_manifold(wmOperatorType *ot) { /* identifiers */ ot->name = "Select Non Manifold"; ot->description = "Select all non-manifold vertices or edges"; ot->idname = "MESH_OT_select_non_manifold"; /* api callbacks */ ot->exec = edbm_select_non_manifold_exec; ot->poll = ED_operator_editmesh; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* props */ RNA_def_boolean(ot->srna, "extend", true, "Extend", "Extend the selection"); } static int edbm_select_random_exec(bContext *C, wmOperator *op) { Object *obedit = CTX_data_edit_object(C); BMEditMesh *em = BKE_editmesh_from_object(obedit); BMVert *eve; BMEdge *eed; BMFace *efa; BMIter iter; const float randfac = RNA_float_get(op->ptr, "percent") / 100.0f; if (!RNA_boolean_get(op->ptr, "extend")) EDBM_flag_disable_all(em, BM_ELEM_SELECT); if (em->selectmode & SCE_SELECT_VERTEX) { BM_ITER_MESH (eve, &iter, em->bm, BM_VERTS_OF_MESH) { if (!BM_elem_flag_test(eve, BM_ELEM_HIDDEN) && BLI_frand() < randfac) { BM_vert_select_set(em->bm, eve, true); } } EDBM_selectmode_flush(em); } else if (em->selectmode & SCE_SELECT_EDGE) { BM_ITER_MESH (eed, &iter, em->bm, BM_EDGES_OF_MESH) { if (!BM_elem_flag_test(eed, BM_ELEM_HIDDEN) && BLI_frand() < randfac) { BM_edge_select_set(em->bm, eed, true); } } EDBM_selectmode_flush(em); } else { BM_ITER_MESH (efa, &iter, em->bm, BM_FACES_OF_MESH) { if (!BM_elem_flag_test(efa, BM_ELEM_HIDDEN) && BLI_frand() < randfac) { BM_face_select_set(em->bm, efa, true); } } EDBM_selectmode_flush(em); } WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit->data); return OPERATOR_FINISHED; } void MESH_OT_select_random(wmOperatorType *ot) { /* identifiers */ ot->name = "Select Random"; ot->description = "Randomly select vertices"; ot->idname = "MESH_OT_select_random"; /* api callbacks */ ot->exec = edbm_select_random_exec; ot->poll = ED_operator_editmesh; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* props */ RNA_def_float_percentage(ot->srna, "percent", 50.f, 0.0f, 100.0f, "Percent", "Percentage of elements to select randomly", 0.f, 100.0f); RNA_def_boolean(ot->srna, "extend", false, "Extend", "Extend the selection"); } static int edbm_select_ungrouped_poll(bContext *C) { if (ED_operator_editmesh(C)) { Object *obedit = CTX_data_edit_object(C); BMEditMesh *em = BKE_editmesh_from_object(obedit); const int cd_dvert_offset = CustomData_get_offset(&em->bm->vdata, CD_MDEFORMVERT); if ((em->selectmode & SCE_SELECT_VERTEX) == 0) { CTX_wm_operator_poll_msg_set(C, "Must be in vertex selection mode"); } else if (obedit->defbase.first == NULL || cd_dvert_offset == -1) { CTX_wm_operator_poll_msg_set(C, "No weights/vertex groups on object"); } else { return true; } } return false; } static int edbm_select_ungrouped_exec(bContext *C, wmOperator *op) { Object *obedit = CTX_data_edit_object(C); BMEditMesh *em = BKE_editmesh_from_object(obedit); const int cd_dvert_offset = CustomData_get_offset(&em->bm->vdata, CD_MDEFORMVERT); BMVert *eve; BMIter iter; if (!RNA_boolean_get(op->ptr, "extend")) { EDBM_flag_disable_all(em, BM_ELEM_SELECT); } BM_ITER_MESH (eve, &iter, em->bm, BM_VERTS_OF_MESH) { if (!BM_elem_flag_test(eve, BM_ELEM_HIDDEN)) { MDeformVert *dv = BM_ELEM_CD_GET_VOID_P(eve, cd_dvert_offset); /* no dv or dv set with no weight */ if (ELEM(NULL, dv, dv->dw)) { BM_vert_select_set(em->bm, eve, true); } } } EDBM_selectmode_flush(em); WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit->data); return OPERATOR_FINISHED; } void MESH_OT_select_ungrouped(wmOperatorType *ot) { /* identifiers */ ot->name = "Select Ungrouped"; ot->idname = "MESH_OT_select_ungrouped"; ot->description = "Select vertices without a group"; /* api callbacks */ ot->exec = edbm_select_ungrouped_exec; ot->poll = edbm_select_ungrouped_poll; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; RNA_def_boolean(ot->srna, "extend", false, "Extend", "Extend the selection"); } /* BMESH_TODO - some way to select on an arbitrary axis */ static int edbm_select_axis_exec(bContext *C, wmOperator *op) { Object *obedit = CTX_data_edit_object(C); BMEditMesh *em = BKE_editmesh_from_object(obedit); BMesh *bm = em->bm; BMVert *v_act = BM_mesh_active_vert_get(bm); const int axis = RNA_enum_get(op->ptr, "axis"); const int mode = RNA_enum_get(op->ptr, "mode"); /* -1 == aligned, 0 == neg, 1 == pos */ if (v_act == NULL) { BKE_report(op->reports, RPT_WARNING, "This operator requires an active vertex (last selected)"); return OPERATOR_CANCELLED; } else { BMVert *v; BMIter iter; const float limit = CTX_data_tool_settings(C)->doublimit; // XXX float value = v_act->co[axis]; if (mode == 0) value -= limit; else if (mode == 1) value += limit; BM_ITER_MESH (v, &iter, bm, BM_VERTS_OF_MESH) { if (!BM_elem_flag_test(v, BM_ELEM_HIDDEN)) { switch (mode) { case -1: /* aligned */ if (fabsf(v->co[axis] - value) < limit) BM_vert_select_set(bm, v, true); break; case 0: /* neg */ if (v->co[axis] > value) BM_vert_select_set(bm, v, true); break; case 1: /* pos */ if (v->co[axis] < value) BM_vert_select_set(bm, v, true); break; } } } } EDBM_selectmode_flush(em); WM_event_add_notifier(C, NC_GEOM | ND_DATA, obedit->data); return OPERATOR_FINISHED; } void MESH_OT_select_axis(wmOperatorType *ot) { static EnumPropertyItem axis_mode_items[] = { {0, "POSITIVE", 0, "Positive Axis", ""}, {1, "NEGATIVE", 0, "Negative Axis", ""}, {-1, "ALIGNED", 0, "Aligned Axis", ""}, {0, NULL, 0, NULL, NULL} }; static EnumPropertyItem axis_items_xyz[] = { {0, "X_AXIS", 0, "X Axis", ""}, {1, "Y_AXIS", 0, "Y Axis", ""}, {2, "Z_AXIS", 0, "Z Axis", ""}, {0, NULL, 0, NULL, NULL} }; /* identifiers */ ot->name = "Select Axis"; ot->description = "Select all data in the mesh on a single axis"; ot->idname = "MESH_OT_select_axis"; /* api callbacks */ ot->exec = edbm_select_axis_exec; ot->poll = ED_operator_editmesh; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* properties */ RNA_def_enum(ot->srna, "mode", axis_mode_items, 0, "Axis Mode", "Axis side to use when selecting"); RNA_def_enum(ot->srna, "axis", axis_items_xyz, 0, "Axis", "Select the axis to compare each vertex on"); } static int edbm_select_next_loop_exec(bContext *C, wmOperator *UNUSED(op)) { Object *obedit = CTX_data_edit_object(C); BMEditMesh *em = BKE_editmesh_from_object(obedit); BMFace *f; BMVert *v; BMIter iter; BM_ITER_MESH (v, &iter, em->bm, BM_VERTS_OF_MESH) { BM_elem_flag_disable(v, BM_ELEM_TAG); } BM_ITER_MESH (f, &iter, em->bm, BM_FACES_OF_MESH) { BMLoop *l; BMIter liter; BM_ITER_ELEM (l, &liter, f, BM_LOOPS_OF_FACE) { if (BM_elem_flag_test(l->v, BM_ELEM_SELECT)) { BM_elem_flag_enable(l->next->v, BM_ELEM_TAG); BM_vert_select_set(em->bm, l->v, false); } } } BM_ITER_MESH (v, &iter, em->bm, BM_VERTS_OF_MESH) { if (BM_elem_flag_test(v, BM_ELEM_TAG)) { BM_vert_select_set(em->bm, v, true); } } WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit); return OPERATOR_FINISHED; } void MESH_OT_select_next_loop(wmOperatorType *ot) { /* identifiers */ ot->name = "Select Next Loop"; ot->idname = "MESH_OT_select_next_loop"; ot->description = "Select next edge loop adjacent to a selected loop"; /* api callbacks */ ot->exec = edbm_select_next_loop_exec; ot->poll = ED_operator_editmesh; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } static int edbm_region_to_loop_exec(bContext *C, wmOperator *UNUSED(op)) { Object *obedit = CTX_data_edit_object(C); BMEditMesh *em = BKE_editmesh_from_object(obedit); BMFace *f; BMEdge *e; BMIter iter; BM_mesh_elem_hflag_disable_all(em->bm, BM_EDGE, BM_ELEM_TAG, false); BM_ITER_MESH (f, &iter, em->bm, BM_FACES_OF_MESH) { BMLoop *l1, *l2; BMIter liter1, liter2; BM_ITER_ELEM (l1, &liter1, f, BM_LOOPS_OF_FACE) { int tot = 0, totsel = 0; BM_ITER_ELEM (l2, &liter2, l1->e, BM_LOOPS_OF_EDGE) { tot++; totsel += BM_elem_flag_test(l2->f, BM_ELEM_SELECT) != 0; } if ((tot != totsel && totsel > 0) || (totsel == 1 && tot == 1)) BM_elem_flag_enable(l1->e, BM_ELEM_TAG); } } EDBM_flag_disable_all(em, BM_ELEM_SELECT); BM_ITER_MESH (e, &iter, em->bm, BM_EDGES_OF_MESH) { if (BM_elem_flag_test(e, BM_ELEM_TAG)) { BM_edge_select_set(em->bm, e, true); } } /* If in face-only select mode, switch to edge select mode so that * an edge-only selection is not inconsistent state */ if (em->selectmode == SCE_SELECT_FACE) { em->selectmode = SCE_SELECT_EDGE; EDBM_selectmode_set(em); EDBM_selectmode_to_scene(C); } WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit->data); return OPERATOR_FINISHED; } void MESH_OT_region_to_loop(wmOperatorType *ot) { /* identifiers */ ot->name = "Select Boundary Loop"; ot->idname = "MESH_OT_region_to_loop"; ot->description = "Select boundary edges around the selected faces"; /* api callbacks */ ot->exec = edbm_region_to_loop_exec; ot->poll = ED_operator_editmesh; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } static int loop_find_region(BMLoop *l, int flag, SmallHash *fhash, BMFace ***region_out) { BLI_array_declare(region); BLI_array_declare(stack); BMFace **region = NULL; BMFace **stack = NULL; BMFace *f; BLI_array_append(stack, l->f); BLI_smallhash_insert(fhash, (uintptr_t)l->f, NULL); while (BLI_array_count(stack) > 0) { BMIter liter1, liter2; BMLoop *l1, *l2; f = BLI_array_pop(stack); BLI_array_append(region, f); BM_ITER_ELEM (l1, &liter1, f, BM_LOOPS_OF_FACE) { if (BM_elem_flag_test(l1->e, flag)) continue; BM_ITER_ELEM (l2, &liter2, l1->e, BM_LOOPS_OF_EDGE) { if (BLI_smallhash_haskey(fhash, (uintptr_t)l2->f)) continue; BLI_array_append(stack, l2->f); BLI_smallhash_insert(fhash, (uintptr_t)l2->f, NULL); } } } BLI_array_free(stack); *region_out = region; return BLI_array_count(region); } static int verg_radial(const void *va, const void *vb) { BMEdge *e1 = *((void **)va); BMEdge *e2 = *((void **)vb); int a, b; a = BM_edge_face_count(e1); b = BM_edge_face_count(e2); if (a > b) return -1; if (a == b) return 0; if (a < b) return 1; return -1; } static int loop_find_regions(BMEditMesh *em, int selbigger) { SmallHash visithash; BMIter iter; BMEdge *e, **edges = NULL; BLI_array_declare(edges); BMFace *f; int count = 0, i; BLI_smallhash_init(&visithash); BM_ITER_MESH (f, &iter, em->bm, BM_FACES_OF_MESH) { BM_elem_flag_disable(f, BM_ELEM_TAG); } BM_ITER_MESH (e, &iter, em->bm, BM_EDGES_OF_MESH) { if (BM_elem_flag_test(e, BM_ELEM_SELECT)) { BLI_array_append(edges, e); BM_elem_flag_enable(e, BM_ELEM_TAG); } else { BM_elem_flag_disable(e, BM_ELEM_TAG); } } /* sort edges by radial cycle length */ qsort(edges, BLI_array_count(edges), sizeof(void *), verg_radial); for (i = 0; i < BLI_array_count(edges); i++) { BMIter liter; BMLoop *l; BMFace **region = NULL, **region_out; int c, tot = 0; e = edges[i]; if (!BM_elem_flag_test(e, BM_ELEM_TAG)) continue; BM_ITER_ELEM (l, &liter, e, BM_LOOPS_OF_EDGE) { if (BLI_smallhash_haskey(&visithash, (uintptr_t)l->f)) continue; c = loop_find_region(l, BM_ELEM_SELECT, &visithash, ®ion_out); if (!region || (selbigger ? c >= tot : c < tot)) { /* this region is the best seen so far */ tot = c; if (region) { /* free the previous best */ MEM_freeN(region); } /* track the current region as the new best */ region = region_out; } else { /* this region is not as good as best so far, just free it */ MEM_freeN(region_out); } } if (region) { int j; for (j = 0; j < tot; j++) { BM_elem_flag_enable(region[j], BM_ELEM_TAG); BM_ITER_ELEM (l, &liter, region[j], BM_LOOPS_OF_FACE) { BM_elem_flag_disable(l->e, BM_ELEM_TAG); } } count += tot; MEM_freeN(region); } } BLI_array_free(edges); BLI_smallhash_release(&visithash); return count; } static int edbm_loop_to_region_exec(bContext *C, wmOperator *op) { Object *obedit = CTX_data_edit_object(C); BMEditMesh *em = BKE_editmesh_from_object(obedit); BMIter iter; BMFace *f; const bool select_bigger = RNA_boolean_get(op->ptr, "select_bigger"); int a, b; /* find the set of regions with smallest number of total faces */ a = loop_find_regions(em, select_bigger); b = loop_find_regions(em, !select_bigger); if ((a <= b) ^ select_bigger) { loop_find_regions(em, select_bigger); } EDBM_flag_disable_all(em, BM_ELEM_SELECT); BM_ITER_MESH (f, &iter, em->bm, BM_FACES_OF_MESH) { if (BM_elem_flag_test(f, BM_ELEM_TAG) && !BM_elem_flag_test(f, BM_ELEM_HIDDEN)) { BM_face_select_set(em->bm, f, true); } } EDBM_selectmode_flush(em); WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit->data); return OPERATOR_FINISHED; } void MESH_OT_loop_to_region(wmOperatorType *ot) { /* identifiers */ ot->name = "Select Loop Inner-Region"; ot->idname = "MESH_OT_loop_to_region"; ot->description = "Select region of faces inside of a selected loop of edges"; /* api callbacks */ ot->exec = edbm_loop_to_region_exec; ot->poll = ED_operator_editmesh; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; RNA_def_boolean(ot->srna, "select_bigger", 0, "Select Bigger", "Select bigger regions instead of smaller ones"); } /************************ Select Path Operator *************************/