/* * ***** 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) 2007 Blender Foundation. * All rights reserved. * * * Contributor(s): Joseph Eagar, Joshua Leung * * ***** END GPL LICENSE BLOCK ***** */ /** \file blender/editors/mesh/editmesh_loopcut.c * \ingroup edmesh */ #include "DNA_object_types.h" #include "MEM_guardedalloc.h" #include "BLI_array.h" #include "BLI_string.h" #include "BLI_math.h" #include "BLF_translation.h" #include "BKE_context.h" #include "BKE_modifier.h" #include "BKE_report.h" #include "BKE_editmesh.h" #include "BKE_DerivedMesh.h" #include "BKE_unit.h" #include "BIF_gl.h" #include "ED_screen.h" #include "ED_space_api.h" #include "ED_view3d.h" #include "ED_mesh.h" #include "ED_numinput.h" #include "RNA_access.h" #include "RNA_define.h" #include "RNA_enum_types.h" #include "WM_api.h" #include "WM_types.h" #include "mesh_intern.h" /* own include */ #define SUBD_SMOOTH_MAX 4.0f #define SUBD_CUTS_MAX 500 /* ringsel operator */ /* struct for properties used while drawing */ typedef struct RingSelOpData { ARegion *ar; /* region that ringsel was activated in */ void *draw_handle; /* for drawing preview loop */ float (*edges)[2][3]; int totedge; float (*points)[3]; int totpoint; ViewContext vc; Object *ob; BMEditMesh *em; BMEdge *eed; NumInput num; bool extend; bool do_cut; } RingSelOpData; /* modal loop selection drawing callback */ static void ringsel_draw(const bContext *C, ARegion *UNUSED(ar), void *arg) { View3D *v3d = CTX_wm_view3d(C); RingSelOpData *lcd = arg; if ((lcd->totedge > 0) || (lcd->totpoint > 0)) { if (v3d && v3d->zbuf) glDisable(GL_DEPTH_TEST); glPushMatrix(); glMultMatrixf(lcd->ob->obmat); glColor3ub(255, 0, 255); if (lcd->totedge > 0) { glEnableClientState(GL_VERTEX_ARRAY); glVertexPointer(3, GL_FLOAT, 0, lcd->edges); glDrawArrays(GL_LINES, 0, lcd->totedge * 2); glDisableClientState(GL_VERTEX_ARRAY); } if (lcd->totpoint > 0) { glPointSize(3.0f); glEnableClientState(GL_VERTEX_ARRAY); glVertexPointer(3, GL_FLOAT, 0, lcd->points); glDrawArrays(GL_POINTS, 0, lcd->totpoint); glDisableClientState(GL_VERTEX_ARRAY); glPointSize(1.0f); } glPopMatrix(); if (v3d && v3d->zbuf) glEnable(GL_DEPTH_TEST); } } /* given two opposite edges in a face, finds the ordering of their vertices so * that cut preview lines won't cross each other */ static void edgering_find_order(BMEdge *lasteed, BMEdge *eed, BMVert *lastv1, BMVert *v[2][2]) { BMIter liter; BMLoop *l, *l2; int rev; l = eed->l; /* find correct order for v[1] */ if (!(BM_edge_in_face(eed, l->f) && BM_edge_in_face(lasteed, l->f))) { BM_ITER_ELEM (l, &liter, l, BM_LOOPS_OF_LOOP) { if (BM_edge_in_face(eed, l->f) && BM_edge_in_face(lasteed, l->f)) break; } } /* this should never happen */ if (!l) { v[0][0] = eed->v1; v[0][1] = eed->v2; v[1][0] = lasteed->v1; v[1][1] = lasteed->v2; return; } l2 = BM_loop_other_edge_loop(l, eed->v1); rev = (l2 == l->prev); while (l2->v != lasteed->v1 && l2->v != lasteed->v2) { l2 = rev ? l2->prev : l2->next; } if (l2->v == lastv1) { v[0][0] = eed->v1; v[0][1] = eed->v2; } else { v[0][0] = eed->v2; v[0][1] = eed->v1; } } static void edgering_vcos_get(DerivedMesh *dm, BMVert *v[2][2], float r_cos[2][2][3]) { if (dm) { int j, k; for (j = 0; j < 2; j++) { for (k = 0; k < 2; k++) { dm->getVertCo(dm, BM_elem_index_get(v[j][k]), r_cos[j][k]); } } } else { int j, k; for (j = 0; j < 2; j++) { for (k = 0; k < 2; k++) { copy_v3_v3(r_cos[j][k], v[j][k]->co); } } } } static void edgering_vcos_get_pair(DerivedMesh *dm, BMVert *v[2], float r_cos[2][3]) { if (dm) { int j; for (j = 0; j < 2; j++) { dm->getVertCo(dm, BM_elem_index_get(v[j]), r_cos[j]); } } else { int j; for (j = 0; j < 2; j++) { copy_v3_v3(r_cos[j], v[j]->co); } } } static void edgering_preview_free(RingSelOpData *lcd) { MEM_SAFE_FREE(lcd->edges); lcd->totedge = 0; MEM_SAFE_FREE(lcd->points); lcd->totpoint = 0; } static void edgering_preview_calc_edges(RingSelOpData *lcd, DerivedMesh *dm, const int previewlines) { BMesh *bm = lcd->em->bm; BMWalker walker; BMEdge *eed_start = lcd->eed; BMEdge *eed, *eed_last; BMVert *v[2][2] = {{NULL}}, *v_last; float (*edges)[2][3] = NULL; BLI_array_declare(edges); int i, tot = 0; BMW_init(&walker, bm, BMW_EDGERING, BMW_MASK_NOP, BMW_MASK_NOP, BMW_MASK_NOP, BMW_FLAG_TEST_HIDDEN, BMW_NIL_LAY); v_last = NULL; eed_last = NULL; for (eed = eed_start = BMW_begin(&walker, eed_start); eed; eed = BMW_step(&walker)) { if (eed_last) { if (v_last) { v[1][0] = v[0][0]; v[1][1] = v[0][1]; } else { v[1][0] = eed_last->v1; v[1][1] = eed_last->v2; v_last = eed_last->v1; } edgering_find_order(eed_last, eed, v_last, v); v_last = v[0][0]; BLI_array_grow_items(edges, previewlines); for (i = 1; i <= previewlines; i++) { const float fac = (i / ((float)previewlines + 1)); float v_cos[2][2][3]; edgering_vcos_get(dm, v, v_cos); interp_v3_v3v3(edges[tot][0], v_cos[0][0], v_cos[0][1], fac); interp_v3_v3v3(edges[tot][1], v_cos[1][0], v_cos[1][1], fac); tot++; } } eed_last = eed; } if ((eed_last != eed_start) && #ifdef BMW_EDGERING_NGON BM_edge_share_face_check(eed_last, eed_start) #else BM_edge_share_quad_check(eed_last, eed_start) #endif ) { v[1][0] = v[0][0]; v[1][1] = v[0][1]; edgering_find_order(eed_last, eed_start, v_last, v); BLI_array_grow_items(edges, previewlines); for (i = 1; i <= previewlines; i++) { const float fac = (i / ((float)previewlines + 1)); float v_cos[2][2][3]; if (!v[0][0] || !v[0][1] || !v[1][0] || !v[1][1]) { continue; } edgering_vcos_get(dm, v, v_cos); interp_v3_v3v3(edges[tot][0], v_cos[0][0], v_cos[0][1], fac); interp_v3_v3v3(edges[tot][1], v_cos[1][0], v_cos[1][1], fac); tot++; } } BMW_end(&walker); lcd->edges = edges; lcd->totedge = tot; } static void edgering_preview_calc_points(RingSelOpData *lcd, DerivedMesh *dm, const int previewlines) { float v_cos[2][3]; float (*points)[3]; int i, tot = 0; if (dm) { BM_mesh_elem_table_ensure(lcd->em->bm, BM_VERT); } points = MEM_mallocN(sizeof(*lcd->points) * previewlines, __func__); edgering_vcos_get_pair(dm, &lcd->eed->v1, v_cos); for (i = 1; i <= previewlines; i++) { const float fac = (i / ((float)previewlines + 1)); interp_v3_v3v3(points[tot], v_cos[0], v_cos[1], fac); tot++; } lcd->points = points; lcd->totpoint = previewlines; } static void edgering_preview_calc(RingSelOpData *lcd, const int previewlines) { DerivedMesh *dm; BLI_assert(lcd->eed != NULL); edgering_preview_free(lcd); dm = EDBM_mesh_deform_dm_get(lcd->em); if (dm) { BM_mesh_elem_table_ensure(lcd->em->bm, BM_VERT); } if (BM_edge_is_wire(lcd->eed)) { edgering_preview_calc_points(lcd, dm, previewlines); } else { edgering_preview_calc_edges(lcd, dm, previewlines); } } static void edgering_select(RingSelOpData *lcd) { BMEditMesh *em = lcd->em; BMEdge *eed_start = lcd->eed; BMWalker walker; BMEdge *eed; if (!eed_start) return; if (!lcd->extend) { EDBM_flag_disable_all(lcd->em, BM_ELEM_SELECT); } BMW_init(&walker, em->bm, BMW_EDGERING, BMW_MASK_NOP, BMW_MASK_NOP, BMW_MASK_NOP, BMW_FLAG_TEST_HIDDEN, BMW_NIL_LAY); for (eed = BMW_begin(&walker, eed_start); eed; eed = BMW_step(&walker)) { BM_edge_select_set(em->bm, eed, true); } BMW_end(&walker); } static void ringsel_find_edge(RingSelOpData *lcd, const int previewlines) { if (lcd->eed) { edgering_preview_calc(lcd, previewlines); } else { edgering_preview_free(lcd); } } static void ringsel_finish(bContext *C, wmOperator *op) { RingSelOpData *lcd = op->customdata; const int cuts = RNA_int_get(op->ptr, "number_cuts"); const float smoothness = 0.292f * RNA_float_get(op->ptr, "smoothness"); const int smooth_falloff = RNA_enum_get(op->ptr, "falloff"); #ifdef BMW_EDGERING_NGON const bool use_only_quads = false; #else const bool use_only_quads = false; #endif if (lcd->eed) { BMEditMesh *em = lcd->em; BMVert *v_eed_orig[2] = {lcd->eed->v1, lcd->eed->v2}; edgering_select(lcd); if (lcd->do_cut) { const bool is_macro = (op->opm != NULL); /* a single edge (rare, but better support) */ const bool is_single = (BM_edge_is_wire(lcd->eed)); const int seltype = is_single ? SUBDIV_SELECT_INNER : SUBDIV_SELECT_LOOPCUT; /* Enable gridfill, so that intersecting loopcut works as one would expect. * Note though that it will break edgeslide in this specific case. * See [#31939]. */ BM_mesh_esubdivide(em->bm, BM_ELEM_SELECT, smoothness, smooth_falloff, true, 0.0f, 0.0f, cuts, seltype, SUBD_CORNER_PATH, 0, true, use_only_quads, 0); /* when used in a macro tessface is already re-recalculated */ EDBM_update_generic(em, (is_macro == false), true); if (is_single) { /* de-select endpoints */ BM_vert_select_set(em->bm, v_eed_orig[0], false); BM_vert_select_set(em->bm, v_eed_orig[1], false); EDBM_selectmode_flush_ex(lcd->em, SCE_SELECT_VERTEX); } /* we cant slide multiple edges in vertex select mode */ else if (is_macro && (cuts > 1) && (em->selectmode & SCE_SELECT_VERTEX)) { EDBM_selectmode_disable(lcd->vc.scene, em, SCE_SELECT_VERTEX, SCE_SELECT_EDGE); } /* force edge slide to edge select mode in in face select mode */ else if (EDBM_selectmode_disable(lcd->vc.scene, em, SCE_SELECT_FACE, SCE_SELECT_EDGE)) { /* pass, the change will flush selection */ } else { /* else flush explicitly */ EDBM_selectmode_flush(lcd->em); } } else { /* XXX Is this piece of code ever used now? Simple loop select is now * in editmesh_select.c (around line 1000)... */ /* sets as active, useful for other tools */ if (em->selectmode & SCE_SELECT_VERTEX) BM_select_history_store(em->bm, lcd->eed->v1); /* low priority TODO, get vertrex close to mouse */ if (em->selectmode & SCE_SELECT_EDGE) BM_select_history_store(em->bm, lcd->eed); EDBM_selectmode_flush(lcd->em); WM_event_add_notifier(C, NC_GEOM | ND_SELECT, lcd->ob->data); } } } /* called when modal loop selection is done... */ static void ringsel_exit(bContext *UNUSED(C), wmOperator *op) { RingSelOpData *lcd = op->customdata; /* deactivate the extra drawing stuff in 3D-View */ ED_region_draw_cb_exit(lcd->ar->type, lcd->draw_handle); edgering_preview_free(lcd); ED_region_tag_redraw(lcd->ar); /* free the custom data */ MEM_freeN(lcd); op->customdata = NULL; } /* called when modal loop selection gets set up... */ static int ringsel_init(bContext *C, wmOperator *op, bool do_cut) { RingSelOpData *lcd; Scene *scene = CTX_data_scene(C); /* alloc new customdata */ lcd = op->customdata = MEM_callocN(sizeof(RingSelOpData), "ringsel Modal Op Data"); /* assign the drawing handle for drawing preview line... */ lcd->ar = CTX_wm_region(C); lcd->draw_handle = ED_region_draw_cb_activate(lcd->ar->type, ringsel_draw, lcd, REGION_DRAW_POST_VIEW); lcd->ob = CTX_data_edit_object(C); lcd->em = BKE_editmesh_from_object(lcd->ob); lcd->extend = do_cut ? false : RNA_boolean_get(op->ptr, "extend"); lcd->do_cut = do_cut; initNumInput(&lcd->num); lcd->num.idx_max = 1; lcd->num.val_flag[0] |= NUM_NO_NEGATIVE | NUM_NO_FRACTION; /* No specific flags for smoothness. */ lcd->num.unit_sys = scene->unit.system; lcd->num.unit_type[0] = B_UNIT_NONE; lcd->num.unit_type[1] = B_UNIT_NONE; /* XXX, temp, workaround for [# ] */ EDBM_mesh_ensure_valid_dm_hack(scene, lcd->em); em_setup_viewcontext(C, &lcd->vc); ED_region_tag_redraw(lcd->ar); return 1; } static void ringcut_cancel(bContext *C, wmOperator *op) { /* this is just a wrapper around exit() */ ringsel_exit(C, op); } static void loopcut_update_edge(RingSelOpData *lcd, BMEdge *e, const int previewlines) { if (e != lcd->eed) { lcd->eed = e; ringsel_find_edge(lcd, previewlines); } } static void loopcut_mouse_move(RingSelOpData *lcd, const int previewlines) { float dist = ED_view3d_select_dist_px(); BMEdge *e = EDBM_edge_find_nearest(&lcd->vc, &dist); loopcut_update_edge(lcd, e, previewlines); } /* called by both init() and exec() */ static int loopcut_init(bContext *C, wmOperator *op, const wmEvent *event) { const bool is_interactive = (event != NULL); Object *obedit = CTX_data_edit_object(C); RingSelOpData *lcd; if (modifiers_isDeformedByLattice(obedit) || modifiers_isDeformedByArmature(obedit)) BKE_report(op->reports, RPT_WARNING, "Loop cut does not work well on deformed edit mesh display"); view3d_operator_needs_opengl(C); /* for re-execution, check edge index is in range before we setup ringsel */ if (is_interactive == false) { const int e_index = RNA_int_get(op->ptr, "edge_index"); BMEditMesh *em = BKE_editmesh_from_object(obedit); if (UNLIKELY((e_index == -1) || (e_index >= em->bm->totedge))) { return OPERATOR_CANCELLED; } } if (!ringsel_init(C, op, true)) return OPERATOR_CANCELLED; /* add a modal handler for this operator - handles loop selection */ if (is_interactive) { op->flag |= OP_IS_MODAL_CURSOR_REGION; WM_event_add_modal_handler(C, op); } lcd = op->customdata; if (is_interactive) { copy_v2_v2_int(lcd->vc.mval, event->mval); loopcut_mouse_move(lcd, is_interactive ? 1 : 0); } else { const int e_index = RNA_int_get(op->ptr, "edge_index"); BMEdge *e; BM_mesh_elem_table_ensure(lcd->em->bm, BM_EDGE); e = BM_edge_at_index(lcd->em->bm, e_index); loopcut_update_edge(lcd, e, 0); } #ifdef USE_LOOPSLIDE_HACK /* for use in macro so we can restore, HACK */ { Scene *scene = CTX_data_scene(C); ToolSettings *settings = scene->toolsettings; const int mesh_select_mode[3] = { (settings->selectmode & SCE_SELECT_VERTEX) != 0, (settings->selectmode & SCE_SELECT_EDGE) != 0, (settings->selectmode & SCE_SELECT_FACE) != 0, }; RNA_boolean_set_array(op->ptr, "mesh_select_mode_init", mesh_select_mode); } #endif if (is_interactive) { ScrArea *sa = CTX_wm_area(C); ED_area_headerprint(sa, IFACE_("Select a ring to be cut, use mouse-wheel or page-up/down for number of cuts, " "hold Alt for smooth")); return OPERATOR_RUNNING_MODAL; } else { ringsel_finish(C, op); ringsel_exit(C, op); return OPERATOR_FINISHED; } } static int ringcut_invoke(bContext *C, wmOperator *op, const wmEvent *event) { return loopcut_init(C, op, event); } static int loopcut_exec(bContext *C, wmOperator *op) { return loopcut_init(C, op, NULL); } static int loopcut_finish(RingSelOpData *lcd, bContext *C, wmOperator *op) { /* finish */ ED_region_tag_redraw(lcd->ar); ED_area_headerprint(CTX_wm_area(C), NULL); if (lcd->eed) { /* set for redo */ BM_mesh_elem_index_ensure(lcd->em->bm, BM_EDGE); RNA_int_set(op->ptr, "edge_index", BM_elem_index_get(lcd->eed)); /* execute */ ringsel_finish(C, op); ringsel_exit(C, op); } else { ringcut_cancel(C, op); return OPERATOR_CANCELLED; } return OPERATOR_FINISHED; } static int loopcut_modal(bContext *C, wmOperator *op, const wmEvent *event) { float smoothness = RNA_float_get(op->ptr, "smoothness"); int cuts = RNA_int_get(op->ptr, "number_cuts"); RingSelOpData *lcd = op->customdata; bool show_cuts = false; const bool has_numinput = hasNumInput(&lcd->num); em_setup_viewcontext(C, &lcd->vc); lcd->ar = lcd->vc.ar; view3d_operator_needs_opengl(C); /* using the keyboard to input the number of cuts */ /* Modal numinput active, try to handle numeric inputs first... */ if (event->val == KM_PRESS && has_numinput && handleNumInput(C, &lcd->num, event)) { float values[2] = {(float)cuts, smoothness}; applyNumInput(&lcd->num, values); /* allow zero so you can backspace and type in a value * otherwise 1 as minimum would make more sense */ cuts = CLAMPIS(values[0], 0, SUBD_CUTS_MAX); smoothness = CLAMPIS(values[1], -SUBD_SMOOTH_MAX, SUBD_SMOOTH_MAX); RNA_int_set(op->ptr, "number_cuts", cuts); ringsel_find_edge(lcd, cuts); show_cuts = true; RNA_float_set(op->ptr, "smoothness", smoothness); ED_region_tag_redraw(lcd->ar); } else { bool handled = false; switch (event->type) { case RETKEY: case PADENTER: case LEFTMOUSE: /* confirm */ // XXX hardcoded if (event->val == KM_PRESS) return loopcut_finish(lcd, C, op); ED_region_tag_redraw(lcd->ar); handled = true; break; case RIGHTMOUSE: /* abort */ // XXX hardcoded ED_region_tag_redraw(lcd->ar); ringsel_exit(C, op); ED_area_headerprint(CTX_wm_area(C), NULL); return OPERATOR_CANCELLED; case ESCKEY: if (event->val == KM_RELEASE) { /* cancel */ ED_region_tag_redraw(lcd->ar); ED_area_headerprint(CTX_wm_area(C), NULL); ringcut_cancel(C, op); return OPERATOR_CANCELLED; } ED_region_tag_redraw(lcd->ar); handled = true; break; case PADPLUSKEY: case PAGEUPKEY: case WHEELUPMOUSE: /* change number of cuts */ if (event->val == KM_RELEASE) break; if (event->alt == 0) { cuts++; cuts = CLAMPIS(cuts, 0, SUBD_CUTS_MAX); RNA_int_set(op->ptr, "number_cuts", cuts); ringsel_find_edge(lcd, cuts); show_cuts = true; } else { smoothness = min_ff(smoothness + 0.05f, SUBD_SMOOTH_MAX); RNA_float_set(op->ptr, "smoothness", smoothness); show_cuts = true; } ED_region_tag_redraw(lcd->ar); handled = true; break; case PADMINUS: case PAGEDOWNKEY: case WHEELDOWNMOUSE: /* change number of cuts */ if (event->val == KM_RELEASE) break; if (event->alt == 0) { cuts = max_ii(cuts - 1, 1); RNA_int_set(op->ptr, "number_cuts", cuts); ringsel_find_edge(lcd, cuts); show_cuts = true; } else { smoothness = max_ff(smoothness - 0.05f, -SUBD_SMOOTH_MAX); RNA_float_set(op->ptr, "smoothness", smoothness); show_cuts = true; } ED_region_tag_redraw(lcd->ar); handled = true; break; case MOUSEMOVE: /* mouse moved somewhere to select another loop */ if (!has_numinput) { lcd->vc.mval[0] = event->mval[0]; lcd->vc.mval[1] = event->mval[1]; loopcut_mouse_move(lcd, cuts); ED_region_tag_redraw(lcd->ar); handled = true; } break; } /* Modal numinput inactive, try to handle numeric inputs last... */ if (!handled && event->val == KM_PRESS && handleNumInput(C, &lcd->num, event)) { float values[2] = {(float)cuts, smoothness}; applyNumInput(&lcd->num, values); /* allow zero so you can backspace and type in a value * otherwise 1 as minimum would make more sense */ cuts = CLAMPIS(values[0], 0, SUBD_CUTS_MAX); smoothness = CLAMPIS(values[1], -SUBD_SMOOTH_MAX, SUBD_SMOOTH_MAX); RNA_int_set(op->ptr, "number_cuts", cuts); ringsel_find_edge(lcd, cuts); show_cuts = true; RNA_float_set(op->ptr, "smoothness", smoothness); ED_region_tag_redraw(lcd->ar); } } if (show_cuts) { Scene *sce = CTX_data_scene(C); char buf[64 + NUM_STR_REP_LEN * 2]; char str_rep[NUM_STR_REP_LEN * 2]; if (hasNumInput(&lcd->num)) { outputNumInput(&lcd->num, str_rep, &sce->unit); } else { BLI_snprintf(str_rep, NUM_STR_REP_LEN, "%d", cuts); BLI_snprintf(str_rep + NUM_STR_REP_LEN, NUM_STR_REP_LEN, "%.2f", smoothness); } BLI_snprintf(buf, sizeof(buf), IFACE_("Number of Cuts: %s, Smooth: %s (Alt)"), str_rep, str_rep + NUM_STR_REP_LEN); ED_area_headerprint(CTX_wm_area(C), buf); } /* keep going until the user confirms */ return OPERATOR_RUNNING_MODAL; } /* for bmesh this tool is in bmesh_select.c */ #if 0 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 = ringsel_invoke; ot->poll = ED_operator_editmesh_region_view3d; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; RNA_def_boolean(ot->srna, "extend", 0, "Extend", "Extend the selection"); } #endif void MESH_OT_loopcut(wmOperatorType *ot) { PropertyRNA *prop; /* description */ ot->name = "Loop Cut"; ot->idname = "MESH_OT_loopcut"; ot->description = "Add a new loop between existing loops"; /* callbacks */ ot->invoke = ringcut_invoke; ot->exec = loopcut_exec; ot->modal = loopcut_modal; ot->cancel = ringcut_cancel; ot->poll = ED_operator_editmesh_region_view3d; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO | OPTYPE_BLOCKING; /* properties */ prop = RNA_def_int(ot->srna, "number_cuts", 1, 1, INT_MAX, "Number of Cuts", "", 1, 100); /* avoid re-using last var because it can cause _very_ high poly meshes and annoy users (or worse crash) */ RNA_def_property_flag(prop, PROP_SKIP_SAVE); prop = RNA_def_float(ot->srna, "smoothness", 0.0f, -FLT_MAX, FLT_MAX, "Smoothness", "Smoothness factor", -SUBD_SMOOTH_MAX, SUBD_SMOOTH_MAX); RNA_def_property_flag(prop, PROP_SKIP_SAVE); prop = RNA_def_property(ot->srna, "falloff", PROP_ENUM, PROP_NONE); RNA_def_property_enum_items(prop, proportional_falloff_curve_only_items); RNA_def_property_enum_default(prop, PROP_INVSQUARE); RNA_def_property_ui_text(prop, "Falloff", "Falloff type the feather"); RNA_def_property_translation_context(prop, BLF_I18NCONTEXT_ID_CURVE); /* Abusing id_curve :/ */ prop = RNA_def_int(ot->srna, "edge_index", -1, -1, INT_MAX, "Number of Cuts", "", 0, INT_MAX); RNA_def_property_flag(prop, PROP_HIDDEN); #ifdef USE_LOOPSLIDE_HACK prop = RNA_def_boolean_array(ot->srna, "mesh_select_mode_init", 3, NULL, "", ""); RNA_def_property_flag(prop, PROP_HIDDEN); #endif }