/* * ***** 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) 2001-2002 by NaN Holding BV. * All rights reserved. * * The Original Code is: all of this file. * * Contributor(s): none yet. * * ***** END GPL LICENSE BLOCK ***** */ /** \file blender/editors/curve/editcurve.c * \ingroup edcurve */ #include "DNA_key_types.h" #include "DNA_object_types.h" #include "DNA_scene_types.h" #include "DNA_anim_types.h" #include "MEM_guardedalloc.h" #include "BLI_blenlib.h" #include "BLI_bitmap.h" #include "BLI_math.h" #include "BLI_rand.h" #include "BLI_ghash.h" #include "BLF_translation.h" #include "BKE_context.h" #include "BKE_curve.h" #include "BKE_depsgraph.h" #include "BKE_fcurve.h" #include "BKE_global.h" #include "BKE_key.h" #include "BKE_main.h" #include "BKE_report.h" #include "BKE_animsys.h" #include "BKE_action.h" #include "WM_api.h" #include "WM_types.h" #include "ED_keyframes_edit.h" #include "ED_object.h" #include "ED_screen.h" #include "ED_transform.h" #include "ED_types.h" #include "ED_util.h" #include "ED_view3d.h" #include "ED_curve.h" #include "curve_intern.h" #include "UI_interface.h" #include "UI_resources.h" #include "RNA_access.h" #include "RNA_define.h" #include "RNA_enum_types.h" /* Undo stuff */ typedef struct { ListBase nubase; void *lastsel; GHash *undoIndex; ListBase fcurves, drivers; int actnu; } UndoCurve; /* Definitions needed for shape keys */ typedef struct { void *orig_cv; int key_index, nu_index, pt_index; int switched; Nurb *orig_nu; } CVKeyIndex; typedef enum eVisible_Types { HIDDEN = true, VISIBLE = false, } eVisible_Types; typedef enum eEndPoint_Types { FIRST = true, LAST = false, } eEndPoint_Types; typedef enum eCurveElem_Types { CURVE_VERTEX = 0, CURVE_SEGMENT, } eCurveElem_Types; void selectend_nurb(Object *obedit, enum eEndPoint_Types selfirst, bool doswap, bool selstatus); static void select_adjacent_cp(ListBase *editnurb, short next, const bool cont, const bool selstatus); static void adduplicateflagNurb(Object *obedit, ListBase *newnurb, const short flag, const bool split); static int curve_delete_segments(Object *obedit, const bool split); ListBase *object_editcurve_get(Object *ob) { if (ob && ELEM(ob->type, OB_CURVE, OB_SURF)) { Curve *cu = ob->data; return &cu->editnurb->nurbs; } return NULL; } /* this replaces the active flag used in uv/face mode */ static void set_actNurb(Object *obedit, Nurb *nu) { Curve *cu = obedit->data; if (nu == NULL) cu->actnu = -1; else { ListBase *nurbs = BKE_curve_editNurbs_get(cu); cu->actnu = BLI_findindex(nurbs, nu); } } static Nurb *get_actNurb(Object *obedit) { Curve *cu = obedit->data; ListBase *nurbs = BKE_curve_editNurbs_get(cu); return BLI_findlink(nurbs, cu->actnu); } /* ******************* SELECTION FUNCTIONS ********************* */ /* returns 1 in case (de)selection was successful */ static bool select_beztriple(BezTriple *bezt, bool selstatus, short flag, eVisible_Types hidden) { if ((bezt->hide == 0) || (hidden == HIDDEN)) { if (selstatus == SELECT) { /* selects */ bezt->f1 |= flag; bezt->f2 |= flag; bezt->f3 |= flag; return true; } else { /* deselects */ bezt->f1 &= ~flag; bezt->f2 &= ~flag; bezt->f3 &= ~flag; return true; } } return false; } /* returns 1 in case (de)selection was successful */ static bool select_bpoint(BPoint *bp, bool selstatus, short flag, bool hidden) { if ((bp->hide == 0) || (hidden == 1)) { if (selstatus == SELECT) { bp->f1 |= flag; return true; } else { bp->f1 &= ~flag; return true; } } return false; } static bool swap_selection_beztriple(BezTriple *bezt) { if (bezt->f2 & SELECT) return select_beztriple(bezt, DESELECT, SELECT, VISIBLE); else return select_beztriple(bezt, SELECT, SELECT, VISIBLE); } static bool swap_selection_bpoint(BPoint *bp) { if (bp->f1 & SELECT) return select_bpoint(bp, DESELECT, SELECT, VISIBLE); else return select_bpoint(bp, SELECT, SELECT, VISIBLE); } int isNurbsel(Nurb *nu) { BezTriple *bezt; BPoint *bp; int a; if (nu->type == CU_BEZIER) { bezt = nu->bezt; a = nu->pntsu; while (a--) { if ( (bezt->f1 & SELECT) || (bezt->f2 & SELECT) || (bezt->f3 & SELECT) ) return 1; bezt++; } } else { bp = nu->bp; a = nu->pntsu * nu->pntsv; while (a--) { if (bp->f1 & SELECT) return 1; bp++; } } return 0; } static int isNurbsel_count(Curve *cu, Nurb *nu) { BezTriple *bezt; BPoint *bp; int a, sel = 0; if (nu->type == CU_BEZIER) { bezt = nu->bezt; a = nu->pntsu; while (a--) { if (BEZSELECTED_HIDDENHANDLES(cu, bezt)) sel++; bezt++; } } else { bp = nu->bp; a = nu->pntsu * nu->pntsv; while (a--) { if ( (bp->f1 & SELECT) ) sel++; bp++; } } return sel; } /* ******************* PRINTS ********************* */ void printknots(Object *obedit) { ListBase *editnurb = object_editcurve_get(obedit); Nurb *nu; int a, num; for (nu = editnurb->first; nu; nu = nu->next) { if (isNurbsel(nu) && nu->type == CU_NURBS) { if (nu->knotsu) { num = KNOTSU(nu); for (a = 0; a < num; a++) printf("knotu %d: %f\n", a, nu->knotsu[a]); } if (nu->knotsv) { num = KNOTSV(nu); for (a = 0; a < num; a++) printf("knotv %d: %f\n", a, nu->knotsv[a]); } } } } /* ********************* Shape keys *************** */ static CVKeyIndex *init_cvKeyIndex(void *cv, int key_index, int nu_index, int pt_index, Nurb *orig_nu) { CVKeyIndex *cvIndex = MEM_callocN(sizeof(CVKeyIndex), "init_cvKeyIndex"); cvIndex->orig_cv = cv; cvIndex->key_index = key_index; cvIndex->nu_index = nu_index; cvIndex->pt_index = pt_index; cvIndex->switched = 0; cvIndex->orig_nu = orig_nu; return cvIndex; } static void init_editNurb_keyIndex(EditNurb *editnurb, ListBase *origBase) { Nurb *nu = editnurb->nurbs.first; Nurb *orignu = origBase->first; GHash *gh; BezTriple *bezt, *origbezt; BPoint *bp, *origbp; CVKeyIndex *keyIndex; int a, key_index = 0, nu_index = 0, pt_index = 0; if (editnurb->keyindex) return; gh = BLI_ghash_ptr_new("editNurb keyIndex"); while (orignu) { if (orignu->bezt) { a = orignu->pntsu; bezt = nu->bezt; origbezt = orignu->bezt; pt_index = 0; while (a--) { keyIndex = init_cvKeyIndex(origbezt, key_index, nu_index, pt_index, orignu); BLI_ghash_insert(gh, bezt, keyIndex); key_index += 12; bezt++; origbezt++; pt_index++; } } else { a = orignu->pntsu * orignu->pntsv; bp = nu->bp; origbp = orignu->bp; pt_index = 0; while (a--) { keyIndex = init_cvKeyIndex(origbp, key_index, nu_index, pt_index, orignu); BLI_ghash_insert(gh, bp, keyIndex); key_index += 4; bp++; origbp++; pt_index++; } } nu = nu->next; orignu = orignu->next; nu_index++; } editnurb->keyindex = gh; } static CVKeyIndex *getCVKeyIndex(EditNurb *editnurb, void *cv) { return BLI_ghash_lookup(editnurb->keyindex, cv); } static CVKeyIndex *popCVKeyIndex(EditNurb *editnurb, void *cv) { return BLI_ghash_popkey(editnurb->keyindex, cv, NULL); } static BezTriple *getKeyIndexOrig_bezt(EditNurb *editnurb, BezTriple *bezt) { CVKeyIndex *index = getCVKeyIndex(editnurb, bezt); if (!index) { return NULL; } return (BezTriple *)index->orig_cv; } static BPoint *getKeyIndexOrig_bp(EditNurb *editnurb, BPoint *bp) { CVKeyIndex *index = getCVKeyIndex(editnurb, bp); if (!index) { return NULL; } return (BPoint *)index->orig_cv; } static int getKeyIndexOrig_keyIndex(EditNurb *editnurb, void *cv) { CVKeyIndex *index = getCVKeyIndex(editnurb, cv); if (!index) { return -1; } return index->key_index; } static void keyIndex_delCV(EditNurb *editnurb, void *cv) { if (!editnurb->keyindex) { return; } BLI_ghash_remove(editnurb->keyindex, cv, NULL, MEM_freeN); } static void keyIndex_delBezt(EditNurb *editnurb, BezTriple *bezt) { keyIndex_delCV(editnurb, bezt); } static void keyIndex_delBP(EditNurb *editnurb, BPoint *bp) { keyIndex_delCV(editnurb, bp); } static void keyIndex_delNurb(EditNurb *editnurb, Nurb *nu) { int a; if (!editnurb->keyindex) { return; } if (nu->bezt) { BezTriple *bezt = nu->bezt; a = nu->pntsu; while (a--) { BLI_ghash_remove(editnurb->keyindex, bezt, NULL, MEM_freeN); bezt++; } } else { BPoint *bp = nu->bp; a = nu->pntsu * nu->pntsv; while (a--) { BLI_ghash_remove(editnurb->keyindex, bp, NULL, MEM_freeN); bp++; } } } static void keyIndex_delNurbList(EditNurb *editnurb, ListBase *nubase) { Nurb *nu = nubase->first; while (nu) { keyIndex_delNurb(editnurb, nu); nu = nu->next; } } static void keyIndex_updateCV(EditNurb *editnurb, char *cv, char *newcv, int count, int size) { int i; CVKeyIndex *index; if (editnurb->keyindex == NULL) { /* No shape keys - updating not needed */ return; } for (i = 0; i < count; i++) { index = popCVKeyIndex(editnurb, cv); if (index) { BLI_ghash_insert(editnurb->keyindex, newcv, index); } newcv += size; cv += size; } } static void keyIndex_updateBezt(EditNurb *editnurb, BezTriple *bezt, BezTriple *newbezt, int count) { keyIndex_updateCV(editnurb, (char *)bezt, (char *)newbezt, count, sizeof(BezTriple)); } static void keyIndex_updateBP(EditNurb *editnurb, BPoint *bp, BPoint *newbp, int count) { keyIndex_updateCV(editnurb, (char *)bp, (char *)newbp, count, sizeof(BPoint)); } static void keyIndex_updateNurb(EditNurb *editnurb, Nurb *nu, Nurb *newnu) { if (nu->bezt) { keyIndex_updateBezt(editnurb, nu->bezt, newnu->bezt, newnu->pntsu); } else { keyIndex_updateBP(editnurb, nu->bp, newnu->bp, newnu->pntsu * newnu->pntsv); } } static void keyIndex_swap(EditNurb *editnurb, void *a, void *b) { CVKeyIndex *index1 = popCVKeyIndex(editnurb, a); CVKeyIndex *index2 = popCVKeyIndex(editnurb, b); if (index2) BLI_ghash_insert(editnurb->keyindex, a, index2); if (index1) BLI_ghash_insert(editnurb->keyindex, b, index1); } static void keyIndex_switchDirection(EditNurb *editnurb, Nurb *nu) { int a; CVKeyIndex *index1, *index2; if (nu->bezt) { BezTriple *bezt1, *bezt2; a = nu->pntsu; bezt1 = nu->bezt; bezt2 = bezt1 + (a - 1); if (a & 1) ++a; a /= 2; while (a--) { index1 = getCVKeyIndex(editnurb, bezt1); index2 = getCVKeyIndex(editnurb, bezt2); if (index1) index1->switched = !index1->switched; if (bezt1 != bezt2) { keyIndex_swap(editnurb, bezt1, bezt2); if (index2) index2->switched = !index2->switched; } bezt1++; bezt2--; } } else { BPoint *bp1, *bp2; if (nu->pntsv == 1) { a = nu->pntsu; bp1 = nu->bp; bp2 = bp1 + (a - 1); a /= 2; while (bp1 != bp2 && a > 0) { index1 = getCVKeyIndex(editnurb, bp1); index2 = getCVKeyIndex(editnurb, bp2); if (index1) index1->switched = !index1->switched; if (bp1 != bp2) { if (index2) index2->switched = !index2->switched; keyIndex_swap(editnurb, bp1, bp2); } a--; bp1++; bp2--; } } else { int b; for (b = 0; b < nu->pntsv; b++) { bp1 = &nu->bp[b * nu->pntsu]; a = nu->pntsu; bp2 = bp1 + (a - 1); a /= 2; while (bp1 != bp2 && a > 0) { index1 = getCVKeyIndex(editnurb, bp1); index2 = getCVKeyIndex(editnurb, bp2); if (index1) index1->switched = !index1->switched; if (bp1 != bp2) { if (index2) index2->switched = !index2->switched; keyIndex_swap(editnurb, bp1, bp2); } a--; bp1++; bp2--; } } } } } static void switch_keys_direction(Curve *cu, Nurb *actnu) { KeyBlock *currkey; EditNurb *editnurb = cu->editnurb; ListBase *nubase = &editnurb->nurbs; Nurb *nu; float *fp; int a; currkey = cu->key->block.first; while (currkey) { fp = currkey->data; nu = nubase->first; while (nu) { if (nu->bezt) { BezTriple *bezt = nu->bezt; a = nu->pntsu; if (nu == actnu) { while (a--) { if (getKeyIndexOrig_bezt(editnurb, bezt)) { swap_v3_v3(fp, fp + 6); *(fp + 9) = -*(fp + 9); fp += 12; } bezt++; } } else { fp += a * 12; } } else { BPoint *bp = nu->bp; a = nu->pntsu * nu->pntsv; if (nu == actnu) { while (a--) { if (getKeyIndexOrig_bp(editnurb, bp)) { *(fp + 3) = -*(fp + 3); fp += 4; } bp++; } } else { fp += a * 4; } } nu = nu->next; } currkey = currkey->next; } } static void keyData_switchDirectionNurb(Curve *cu, Nurb *nu) { EditNurb *editnurb = cu->editnurb; if (!editnurb->keyindex) { /* no shape keys - nothing to do */ return; } keyIndex_switchDirection(editnurb, nu); if (cu->key) switch_keys_direction(cu, nu); } static GHash *dupli_keyIndexHash(GHash *keyindex) { GHash *gh; GHashIterator *hashIter; gh = BLI_ghash_ptr_new_ex("dupli_keyIndex gh", BLI_ghash_size(keyindex)); for (hashIter = BLI_ghashIterator_new(keyindex); BLI_ghashIterator_done(hashIter) == false; BLI_ghashIterator_step(hashIter)) { void *cv = BLI_ghashIterator_getKey(hashIter); CVKeyIndex *index = BLI_ghashIterator_getValue(hashIter); CVKeyIndex *newIndex = MEM_callocN(sizeof(CVKeyIndex), "dupli_keyIndexHash index"); memcpy(newIndex, index, sizeof(CVKeyIndex)); BLI_ghash_insert(gh, cv, newIndex); } BLI_ghashIterator_free(hashIter); return gh; } static void key_to_bezt(float *key, BezTriple *basebezt, BezTriple *bezt) { memcpy(bezt, basebezt, sizeof(BezTriple)); memcpy(bezt->vec, key, sizeof(float) * 9); bezt->alfa = key[9]; } static void bezt_to_key(BezTriple *bezt, float *key) { memcpy(key, bezt->vec, sizeof(float) * 9); key[9] = bezt->alfa; } static void calc_keyHandles(ListBase *nurb, float *key) { Nurb *nu; int a; float *fp = key; BezTriple *bezt; nu = nurb->first; while (nu) { if (nu->bezt) { BezTriple *prevp, *nextp; BezTriple cur, prev, next; float *startfp, *prevfp, *nextfp; bezt = nu->bezt; a = nu->pntsu; startfp = fp; if (nu->flagu & CU_NURB_CYCLIC) { prevp = bezt + (a - 1); prevfp = fp + (12 * (a - 1)); } else { prevp = NULL; prevfp = NULL; } nextp = bezt + 1; nextfp = fp + 12; while (a--) { key_to_bezt(fp, bezt, &cur); if (nextp) key_to_bezt(nextfp, nextp, &next); if (prevp) key_to_bezt(prevfp, prevp, &prev); BKE_nurb_handle_calc(&cur, prevp ? &prev : NULL, nextp ? &next : NULL, 0); bezt_to_key(&cur, fp); prevp = bezt; prevfp = fp; if (a == 1) { if (nu->flagu & CU_NURB_CYCLIC) { nextp = nu->bezt; nextfp = startfp; } else { nextp = NULL; nextfp = NULL; } } else { nextp++; nextfp += 12; } bezt++; fp += 12; } } else { a = nu->pntsu * nu->pntsv; fp += a * 4; } nu = nu->next; } } static void calc_shapeKeys(Object *obedit) { Curve *cu = (Curve *)obedit->data; /* are there keys? */ if (cu->key) { int a, i; EditNurb *editnurb = cu->editnurb; KeyBlock *currkey; KeyBlock *actkey = BLI_findlink(&cu->key->block, editnurb->shapenr - 1); BezTriple *bezt, *oldbezt; BPoint *bp, *oldbp; Nurb *nu; int totvert = BKE_nurbList_verts_count(&editnurb->nurbs); float (*ofs)[3] = NULL; float *oldkey, *newkey, *ofp; /* editing the base key should update others */ if (cu->key->type == KEY_RELATIVE) { int act_is_basis = 0; /* find if this key is a basis for any others */ for (currkey = cu->key->block.first; currkey; currkey = currkey->next) { if (editnurb->shapenr - 1 == currkey->relative) { act_is_basis = 1; break; } } if (act_is_basis) { /* active key is a base */ int totvec = 0; /* Calculate needed memory to store offset */ nu = editnurb->nurbs.first; while (nu) { if (nu->bezt) { /* Three vects to store handles and one for alfa */ totvec += nu->pntsu * 4; } else { totvec += 2 * nu->pntsu * nu->pntsv; } nu = nu->next; } ofs = MEM_callocN(sizeof(float) * 3 * totvec, "currkey->data"); nu = editnurb->nurbs.first; i = 0; while (nu) { if (nu->bezt) { bezt = nu->bezt; a = nu->pntsu; while (a--) { oldbezt = getKeyIndexOrig_bezt(editnurb, bezt); if (oldbezt) { int j; for (j = 0; j < 3; ++j) { sub_v3_v3v3(ofs[i], bezt->vec[j], oldbezt->vec[j]); i++; } ofs[i++][0] = bezt->alfa - oldbezt->alfa; } else { i += 4; } bezt++; } } else { bp = nu->bp; a = nu->pntsu * nu->pntsv; while (a--) { oldbp = getKeyIndexOrig_bp(editnurb, bp); if (oldbp) { sub_v3_v3v3(ofs[i], bp->vec, oldbp->vec); ofs[i + 1][0] = bp->alfa - oldbp->alfa; } i += 2; bp++; } } nu = nu->next; } } } currkey = cu->key->block.first; while (currkey) { int apply_offset = (ofs && (currkey != actkey) && (editnurb->shapenr - 1 == currkey->relative)); float *fp = newkey = MEM_callocN(cu->key->elemsize * totvert, "currkey->data"); ofp = oldkey = currkey->data; nu = editnurb->nurbs.first; i = 0; while (nu) { if (currkey == actkey) { int restore = actkey != cu->key->refkey; if (nu->bezt) { bezt = nu->bezt; a = nu->pntsu; while (a--) { int j; oldbezt = getKeyIndexOrig_bezt(editnurb, bezt); for (j = 0; j < 3; ++j, ++i) { copy_v3_v3(fp, bezt->vec[j]); if (restore && oldbezt) { copy_v3_v3(bezt->vec[j], oldbezt->vec[j]); } fp += 3; } fp[0] = bezt->alfa; if (restore && oldbezt) { bezt->alfa = oldbezt->alfa; } fp += 3; ++i; /* alphas */ bezt++; } } else { bp = nu->bp; a = nu->pntsu * nu->pntsv; while (a--) { oldbp = getKeyIndexOrig_bp(editnurb, bp); copy_v3_v3(fp, bp->vec); fp[3] = bp->alfa; if (restore && oldbp) { copy_v3_v3(bp->vec, oldbp->vec); bp->alfa = oldbp->alfa; } fp += 4; bp++; i += 2; } } } else { int index; float *curofp; if (oldkey) { if (nu->bezt) { bezt = nu->bezt; a = nu->pntsu; while (a--) { index = getKeyIndexOrig_keyIndex(editnurb, bezt); if (index >= 0) { int j; curofp = ofp + index; for (j = 0; j < 3; ++j, ++i) { copy_v3_v3(fp, curofp); if (apply_offset) { add_v3_v3(fp, ofs[i]); } fp += 3; curofp += 3; } fp[0] = curofp[0]; if (apply_offset) { /* apply alfa offsets */ add_v3_v3(fp, ofs[i]); i++; } fp += 3; /* alphas */ } else { int j; for (j = 0; j < 3; ++j, ++i) { copy_v3_v3(fp, bezt->vec[j]); fp += 3; } fp[0] = bezt->alfa; fp += 3; /* alphas */ } bezt++; } } else { bp = nu->bp; a = nu->pntsu * nu->pntsv; while (a--) { index = getKeyIndexOrig_keyIndex(editnurb, bp); if (index >= 0) { curofp = ofp + index; copy_v3_v3(fp, curofp); fp[3] = curofp[3]; if (apply_offset) { add_v3_v3(fp, ofs[i]); fp[3] += ofs[i + 1][0]; } } else { copy_v3_v3(fp, bp->vec); fp[3] = bp->alfa; } fp += 4; bp++; i += 2; } } } } nu = nu->next; } if (apply_offset) { /* handles could become malicious after offsets applying */ calc_keyHandles(&editnurb->nurbs, newkey); } currkey->totelem = totvert; if (currkey->data) MEM_freeN(currkey->data); currkey->data = newkey; currkey = currkey->next; } if (ofs) MEM_freeN(ofs); } } /* ********************* Amimation data *************** */ static int curve_is_animated(Curve *cu) { AnimData *ad = BKE_animdata_from_id(&cu->id); return ad && (ad->action || ad->drivers.first); } static void fcurve_path_rename(AnimData *adt, const char *orig_rna_path, char *rna_path, ListBase *orig_curves, ListBase *curves) { FCurve *fcu, *nfcu, *nextfcu; int len = strlen(orig_rna_path); for (fcu = orig_curves->first; fcu; fcu = nextfcu) { nextfcu = fcu->next; if (!strncmp(fcu->rna_path, orig_rna_path, len)) { char *spath, *suffix = fcu->rna_path + len; nfcu = copy_fcurve(fcu); spath = nfcu->rna_path; nfcu->rna_path = BLI_sprintfN("%s%s", rna_path, suffix); BLI_addtail(curves, nfcu); if (fcu->grp) { action_groups_remove_channel(adt->action, fcu); action_groups_add_channel(adt->action, fcu->grp, nfcu); } else if ((adt->action) && (&adt->action->curves == orig_curves)) BLI_remlink(&adt->action->curves, fcu); else BLI_remlink(&adt->drivers, fcu); free_fcurve(fcu); MEM_freeN(spath); } } } static void fcurve_remove(AnimData *adt, ListBase *orig_curves, FCurve *fcu) { if (orig_curves == &adt->drivers) BLI_remlink(&adt->drivers, fcu); else action_groups_remove_channel(adt->action, fcu); free_fcurve(fcu); } static void curve_rename_fcurves(Curve *cu, ListBase *orig_curves) { int nu_index = 0, a, pt_index; EditNurb *editnurb = cu->editnurb; Nurb *nu = editnurb->nurbs.first; CVKeyIndex *keyIndex; char rna_path[64], orig_rna_path[64]; AnimData *adt = BKE_animdata_from_id(&cu->id); ListBase curves = {NULL, NULL}; FCurve *fcu, *next; for (nu = editnurb->nurbs.first, nu_index = 0; nu != NULL; nu = nu->next, nu_index++) { if (nu->bezt) { BezTriple *bezt = nu->bezt; a = nu->pntsu; pt_index = 0; while (a--) { keyIndex = getCVKeyIndex(editnurb, bezt); if (keyIndex) { BLI_snprintf(rna_path, sizeof(rna_path), "splines[%d].bezier_points[%d]", nu_index, pt_index); BLI_snprintf(orig_rna_path, sizeof(orig_rna_path), "splines[%d].bezier_points[%d]", keyIndex->nu_index, keyIndex->pt_index); if (keyIndex->switched) { char handle_path[64], orig_handle_path[64]; BLI_snprintf(orig_handle_path, sizeof(orig_rna_path), "%s.handle_left", orig_rna_path); BLI_snprintf(handle_path, sizeof(rna_path), "%s.handle_right", rna_path); fcurve_path_rename(adt, orig_handle_path, handle_path, orig_curves, &curves); BLI_snprintf(orig_handle_path, sizeof(orig_rna_path), "%s.handle_right", orig_rna_path); BLI_snprintf(handle_path, sizeof(rna_path), "%s.handle_left", rna_path); fcurve_path_rename(adt, orig_handle_path, handle_path, orig_curves, &curves); } fcurve_path_rename(adt, orig_rna_path, rna_path, orig_curves, &curves); keyIndex->nu_index = nu_index; keyIndex->pt_index = pt_index; } bezt++; pt_index++; } } else { BPoint *bp = nu->bp; a = nu->pntsu * nu->pntsv; pt_index = 0; while (a--) { keyIndex = getCVKeyIndex(editnurb, bp); if (keyIndex) { BLI_snprintf(rna_path, sizeof(rna_path), "splines[%d].points[%d]", nu_index, pt_index); BLI_snprintf(orig_rna_path, sizeof(orig_rna_path), "splines[%d].points[%d]", keyIndex->nu_index, keyIndex->pt_index); fcurve_path_rename(adt, orig_rna_path, rna_path, orig_curves, &curves); keyIndex->nu_index = nu_index; keyIndex->pt_index = pt_index; } bp++; pt_index++; } } } /* remove paths for removed control points * need this to make further step with copying non-cv related curves copying * not touching cv's f-curves */ for (fcu = orig_curves->first; fcu; fcu = next) { next = fcu->next; if (!strncmp(fcu->rna_path, "splines", 7)) { char *ch = strchr(fcu->rna_path, '.'); if (ch && (!strncmp(ch, ".bezier_points", 14) || !strncmp(ch, ".points", 7))) fcurve_remove(adt, orig_curves, fcu); } } for (nu = editnurb->nurbs.first, nu_index = 0; nu != NULL; nu = nu->next, nu_index++) { keyIndex = NULL; if (nu->pntsu) { if (nu->bezt) keyIndex = getCVKeyIndex(editnurb, &nu->bezt[0]); else keyIndex = getCVKeyIndex(editnurb, &nu->bp[0]); } if (keyIndex) { BLI_snprintf(rna_path, sizeof(rna_path), "splines[%d]", nu_index); BLI_snprintf(orig_rna_path, sizeof(orig_rna_path), "splines[%d]", keyIndex->nu_index); fcurve_path_rename(adt, orig_rna_path, rna_path, orig_curves, &curves); } } /* the remainders in orig_curves can be copied back (like follow path) */ /* (if it's not path to spline) */ for (fcu = orig_curves->first; fcu; fcu = next) { next = fcu->next; if (!strncmp(fcu->rna_path, "splines", 7)) fcurve_remove(adt, orig_curves, fcu); else BLI_addtail(&curves, fcu); } *orig_curves = curves; } /* return 0 if animation data wasn't changed, 1 otherwise */ int ED_curve_updateAnimPaths(Curve *cu) { AnimData *adt = BKE_animdata_from_id(&cu->id); EditNurb *editnurb = cu->editnurb; if (!editnurb->keyindex) return 0; if (!curve_is_animated(cu)) return 0; if (adt->action) curve_rename_fcurves(cu, &adt->action->curves); curve_rename_fcurves(cu, &adt->drivers); return 1; } /* ********************* LOAD and MAKE *************** */ /* load editNurb in object */ void load_editNurb(Object *obedit) { ListBase *editnurb = object_editcurve_get(obedit); if (obedit == NULL) return; if (ELEM(obedit->type, OB_CURVE, OB_SURF)) { Curve *cu = obedit->data; Nurb *nu, *newnu; ListBase newnurb = {NULL, NULL}, oldnurb = cu->nurb; for (nu = editnurb->first; nu; nu = nu->next) { newnu = BKE_nurb_duplicate(nu); BLI_addtail(&newnurb, newnu); if (nu->type == CU_NURBS) { BKE_nurb_order_clamp_u(nu); } } cu->nurb = newnurb; calc_shapeKeys(obedit); ED_curve_updateAnimPaths(obedit->data); BKE_nurbList_free(&oldnurb); } } /* make copy in cu->editnurb */ void make_editNurb(Object *obedit) { Curve *cu = (Curve *)obedit->data; EditNurb *editnurb = cu->editnurb; Nurb *nu, *newnu, *nu_act = NULL; KeyBlock *actkey; set_actNurb(obedit, NULL); if (ELEM(obedit->type, OB_CURVE, OB_SURF)) { actkey = BKE_keyblock_from_object(obedit); if (actkey) { // XXX strcpy(G.editModeTitleExtra, "(Key) "); undo_editmode_clear(); BKE_key_convert_to_curve(actkey, cu, &cu->nurb); } if (editnurb) { BKE_nurbList_free(&editnurb->nurbs); BKE_curve_editNurb_keyIndex_free(editnurb); editnurb->keyindex = NULL; } else { editnurb = MEM_callocN(sizeof(EditNurb), "editnurb"); cu->editnurb = editnurb; } nu = cu->nurb.first; cu->lastsel = NULL; /* for select row */ while (nu) { newnu = BKE_nurb_duplicate(nu); BKE_nurb_test2D(newnu); // after join, or any other creation of curve BLI_addtail(&editnurb->nurbs, newnu); if (nu_act == NULL && isNurbsel(nu)) { nu_act = newnu; set_actNurb(obedit, newnu); } nu = nu->next; } if (actkey) editnurb->shapenr = obedit->shapenr; /* animation could be added in editmode even if there was no animdata i * object mode hence we always need CVs index be created */ init_editNurb_keyIndex(editnurb, &cu->nurb); } } void free_editNurb(Object *obedit) { Curve *cu = obedit->data; BKE_curve_editNurb_free(cu); } void CU_deselect_all(Object *obedit) { ListBase *editnurb = object_editcurve_get(obedit); if (editnurb) { Nurb *nu; int a; ((Curve *)obedit->data)->lastsel = NULL; for (nu = editnurb->first; nu; nu = nu->next) { if (nu->bezt) { BezTriple *bezt; for (bezt = nu->bezt, a = 0; a < nu->pntsu; a++, bezt++) { bezt->f1 &= ~SELECT; bezt->f2 &= ~SELECT; bezt->f3 &= ~SELECT; } } else if (nu->bp) { BPoint *bp; for (bp = nu->bp, a = 0; a < nu->pntsu * nu->pntsv; a++, bp++) { bp->f1 &= ~SELECT; } } } } } void CU_select_all(Object *obedit) { ListBase *editnurb = object_editcurve_get(obedit); if (editnurb) { Nurb *nu; int a; for (nu = editnurb->first; nu; nu = nu->next) { if (nu->bezt) { BezTriple *bezt; for (bezt = nu->bezt, a = 0; a < nu->pntsu; a++, bezt++) { if (bezt->hide == 0) { bezt->f1 |= SELECT; bezt->f2 |= SELECT; bezt->f3 |= SELECT; } } } else if (nu->bp) { BPoint *bp; for (bp = nu->bp, a = 0; a < nu->pntsu * nu->pntsv; a++, bp++) { if (bp->hide == 0) bp->f1 |= SELECT; } } } } } void CU_select_swap(Object *obedit) { ListBase *editnurb = object_editcurve_get(obedit); if (editnurb) { Curve *cu = obedit->data; Nurb *nu; BPoint *bp; BezTriple *bezt; int a; cu->lastsel = NULL; for (nu = editnurb->first; nu; nu = nu->next) { if (nu->type == CU_BEZIER) { bezt = nu->bezt; a = nu->pntsu; while (a--) { if (bezt->hide == 0) { bezt->f2 ^= SELECT; /* always do the center point */ if ((cu->drawflag & CU_HIDE_HANDLES) == 0) { bezt->f1 ^= SELECT; bezt->f3 ^= SELECT; } } bezt++; } } else { bp = nu->bp; a = nu->pntsu * nu->pntsv; while (a--) { swap_selection_bpoint(bp); bp++; } } } } } /******************** separate operator ***********************/ static int separate_exec(bContext *C, wmOperator *op) { Main *bmain = CTX_data_main(C); Scene *scene = CTX_data_scene(C); Object *oldob, *newob; Base *oldbase, *newbase; Curve *oldcu, *newcu; EditNurb *newedit; ListBase newnurb = {NULL, NULL}; oldbase = CTX_data_active_base(C); oldob = oldbase->object; oldcu = oldob->data; if (oldcu->key) { BKE_report(op->reports, RPT_ERROR, "Cannot separate a curve with vertex keys"); return OPERATOR_CANCELLED; } WM_cursor_wait(1); /* 1. duplicate geometry and check for valid selection for separate */ adduplicateflagNurb(oldob, &newnurb, SELECT, true); if (newnurb.first == NULL) { WM_cursor_wait(0); BKE_report(op->reports, RPT_ERROR, "Cannot separate current selection"); return OPERATOR_CANCELLED; } /* 2. duplicate the object and data */ newbase = ED_object_add_duplicate(bmain, scene, oldbase, 0); /* 0 = fully linked */ DAG_relations_tag_update(bmain); newob = newbase->object; newcu = newob->data = BKE_curve_copy(oldcu); newcu->editnurb = NULL; oldcu->id.us--; /* because new curve is a copy: reduce user count */ /* 3. put new object in editmode, clear it and set separated nurbs */ make_editNurb(newob); newedit = newcu->editnurb; BKE_nurbList_free(&newedit->nurbs); BKE_curve_editNurb_keyIndex_free(newedit); newedit->keyindex = NULL; BLI_movelisttolist(&newedit->nurbs, &newnurb); /* 4. put old object out of editmode and delete separated geometry */ load_editNurb(newob); free_editNurb(newob); curve_delete_segments(oldob, true); DAG_id_tag_update(&oldob->id, OB_RECALC_DATA); /* this is the original one */ DAG_id_tag_update(&newob->id, OB_RECALC_DATA); /* this is the separated one */ WM_event_add_notifier(C, NC_GEOM | ND_DATA, oldob->data); WM_event_add_notifier(C, NC_OBJECT | ND_DRAW, newob); WM_cursor_wait(0); return OPERATOR_FINISHED; } void CURVE_OT_separate(wmOperatorType *ot) { /* identifiers */ ot->name = "Separate"; ot->idname = "CURVE_OT_separate"; ot->description = "Separate selected points from connected unselected points into a new object"; /* api callbacks */ ot->exec = separate_exec; ot->poll = ED_operator_editsurfcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } /******************** split operator ***********************/ static int curve_split_exec(bContext *C, wmOperator *op) { Object *obedit = CTX_data_edit_object(C); ListBase *editnurb = object_editcurve_get(obedit); ListBase newnurb = {NULL, NULL}; adduplicateflagNurb(obedit, &newnurb, SELECT, true); if (newnurb.first != NULL) { curve_delete_segments(obedit, true); BLI_movelisttolist(editnurb, &newnurb); if (ED_curve_updateAnimPaths(obedit->data)) WM_event_add_notifier(C, NC_OBJECT | ND_KEYS, obedit); WM_event_add_notifier(C, NC_GEOM | ND_DATA, obedit->data); DAG_id_tag_update(obedit->data, 0); } else { BKE_report(op->reports, RPT_ERROR, "Cannot split current selection"); return OPERATOR_CANCELLED; } return OPERATOR_FINISHED; } void CURVE_OT_split(wmOperatorType *ot) { /* identifiers */ ot->name = "Split"; ot->idname = "CURVE_OT_split"; ot->description = "Split off selected points from connected unselected points"; /* api callbacks */ ot->exec = curve_split_exec; ot->poll = ED_operator_editsurfcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } /* ******************* FLAGS ********************* */ static short isNurbselUV(Nurb *nu, int *u, int *v, int flag) { /* return (u != -1): 1 row in u-direction selected. U has value between 0-pntsv * return (v != -1): 1 column in v-direction selected. V has value between 0-pntsu */ BPoint *bp; int a, b, sel; *u = *v = -1; bp = nu->bp; for (b = 0; b < nu->pntsv; b++) { sel = 0; for (a = 0; a < nu->pntsu; a++, bp++) { if (bp->f1 & flag) sel++; } if (sel == nu->pntsu) { if (*u == -1) *u = b; else return 0; } else if (sel > 1) { return 0; /* because sel == 1 is still ok */ } } for (a = 0; a < nu->pntsu; a++) { sel = 0; bp = &nu->bp[a]; for (b = 0; b < nu->pntsv; b++, bp += nu->pntsu) { if (bp->f1 & flag) sel++; } if (sel == nu->pntsv) { if (*v == -1) *v = a; else return 0; } else if (sel > 1) { return 0; } } if (*u == -1 && *v > -1) return 1; if (*v == -1 && *u > -1) return 1; return 0; } /* return true if U direction is selected and number of selected columns v */ static bool isNurbselU(Nurb *nu, int *v, int flag) { BPoint *bp; int a, b, sel; *v = 0; for (b = 0, bp = nu->bp; b < nu->pntsv; b++) { sel = 0; for (a = 0; a < nu->pntsu; a++, bp++) { if (bp->f1 & flag) sel++; } if (sel == nu->pntsu) { (*v)++; } else if (sel >= 1) { *v = 0; return 0; } } return 1; } /* return true if V direction is selected and number of selected rows u */ static bool isNurbselV(Nurb *nu, int *u, int flag) { BPoint *bp; int a, b, sel; *u = 0; for (a = 0; a < nu->pntsu; a++) { bp = &nu->bp[a]; sel = 0; for (b = 0; b < nu->pntsv; b++, bp += nu->pntsu) { if (bp->f1 & flag) sel++; } if (sel == nu->pntsv) { (*u)++; } else if (sel >= 1) { *u = 0; return 0; } } return 1; } static void rotateflagNurb(ListBase *editnurb, short flag, const float cent[3], float rotmat[3][3]) { /* all verts with (flag & 'flag') rotate */ Nurb *nu; BPoint *bp; int a; for (nu = editnurb->first; nu; nu = nu->next) { if (nu->type == CU_NURBS) { bp = nu->bp; a = nu->pntsu * nu->pntsv; while (a--) { if (bp->f1 & flag) { sub_v3_v3(bp->vec, cent); mul_m3_v3(rotmat, bp->vec); add_v3_v3(bp->vec, cent); } bp++; } } } } void ed_editnurb_translate_flag(ListBase *editnurb, short flag, const float vec[3]) { /* all verts with ('flag' & flag) translate */ Nurb *nu; BezTriple *bezt; BPoint *bp; int a; for (nu = editnurb->first; nu; nu = nu->next) { if (nu->type == CU_BEZIER) { a = nu->pntsu; bezt = nu->bezt; while (a--) { if (bezt->f1 & flag) add_v3_v3(bezt->vec[0], vec); if (bezt->f2 & flag) add_v3_v3(bezt->vec[1], vec); if (bezt->f3 & flag) add_v3_v3(bezt->vec[2], vec); bezt++; } } else { a = nu->pntsu * nu->pntsv; bp = nu->bp; while (a--) { if (bp->f1 & flag) add_v3_v3(bp->vec, vec); bp++; } } BKE_nurb_test2D(nu); } } static void weightflagNurb(ListBase *editnurb, short flag, float w) { Nurb *nu; BPoint *bp; int a; for (nu = editnurb->first; nu; nu = nu->next) { if (nu->type == CU_NURBS) { a = nu->pntsu * nu->pntsv; bp = nu->bp; while (a--) { if (bp->f1 & flag) { /* a mode used to exist for replace/multiple but is was unused */ bp->vec[3] *= w; } bp++; } } } } static int deleteflagNurb(Object *obedit, short flag) { Curve *cu = obedit->data; ListBase *editnurb = object_editcurve_get(obedit); Nurb *nu, *next; BPoint *bp, *bpn, *newbp; int a, b, newu, newv; if (obedit->type != OB_SURF) { return OPERATOR_CANCELLED; } cu->lastsel = NULL; nu = editnurb->first; while (nu) { next = nu->next; /* is entire nurb selected */ bp = nu->bp; a = nu->pntsu * nu->pntsv; while (a) { a--; if (bp->f1 & flag) { /* pass */ } else { break; } bp++; } if (a == 0) { BLI_remlink(editnurb, nu); keyIndex_delNurb(cu->editnurb, nu); BKE_nurb_free(nu); nu = NULL; } else { if (isNurbselU(nu, &newv, flag)) { /* U direction selected */ newv = nu->pntsv - newv; if (newv != nu->pntsv) { /* delete */ bp = nu->bp; bpn = newbp = (BPoint *)MEM_mallocN(newv * nu->pntsu * sizeof(BPoint), "deleteNurb"); for (b = 0; b < nu->pntsv; b++) { if ((bp->f1 & flag) == 0) { memcpy(bpn, bp, nu->pntsu * sizeof(BPoint)); keyIndex_updateBP(cu->editnurb, bp, bpn, nu->pntsu); bpn += nu->pntsu; } else { keyIndex_delBP(cu->editnurb, bp); } bp += nu->pntsu; } nu->pntsv = newv; MEM_freeN(nu->bp); nu->bp = newbp; BKE_nurb_order_clamp_v(nu); BKE_nurb_knot_calc_v(nu); } } else if (isNurbselV(nu, &newu, flag)) { /* V direction selected */ newu = nu->pntsu - newu; if (newu != nu->pntsu) { /* delete */ bp = nu->bp; bpn = newbp = (BPoint *)MEM_mallocN(newu * nu->pntsv * sizeof(BPoint), "deleteNurb"); for (b = 0; b < nu->pntsv; b++) { for (a = 0; a < nu->pntsu; a++, bp++) { if ((bp->f1 & flag) == 0) { *bpn = *bp; keyIndex_updateBP(cu->editnurb, bp, bpn, 1); bpn++; } else { keyIndex_delBP(cu->editnurb, bp); } } } MEM_freeN(nu->bp); nu->bp = newbp; if (newu == 1 && nu->pntsv > 1) { /* make a U spline */ nu->pntsu = nu->pntsv; nu->pntsv = 1; SWAP(short, nu->orderu, nu->orderv); BKE_nurb_order_clamp_u(nu); if (nu->knotsv) MEM_freeN(nu->knotsv); nu->knotsv = NULL; } else { nu->pntsu = newu; BKE_nurb_order_clamp_u(nu); } BKE_nurb_knot_calc_u(nu); } } } nu = next; } return OPERATOR_FINISHED; } /* only for OB_SURF */ bool ed_editnurb_extrude_flag(EditNurb *editnurb, short flag) { Nurb *nu; BPoint *bp, *bpn, *newbp; int a, u, v, len; bool ok = false; nu = editnurb->nurbs.first; while (nu) { if (nu->pntsv == 1) { bp = nu->bp; a = nu->pntsu; while (a) { if (bp->f1 & flag) { /* pass */ } else { break; } bp++; a--; } if (a == 0) { ok = true; newbp = (BPoint *)MEM_mallocN(2 * nu->pntsu * sizeof(BPoint), "extrudeNurb1"); ED_curve_bpcpy(editnurb, newbp, nu->bp, nu->pntsu); bp = newbp + nu->pntsu; ED_curve_bpcpy(editnurb, bp, nu->bp, nu->pntsu); MEM_freeN(nu->bp); nu->bp = newbp; a = nu->pntsu; while (a--) { select_bpoint(bp, SELECT, flag, HIDDEN); select_bpoint(newbp, DESELECT, flag, HIDDEN); bp++; newbp++; } nu->pntsv = 2; nu->orderv = 2; BKE_nurb_knot_calc_v(nu); } } else { /* which row or column is selected */ if (isNurbselUV(nu, &u, &v, flag)) { /* deselect all */ bp = nu->bp; a = nu->pntsu * nu->pntsv; while (a--) { select_bpoint(bp, DESELECT, flag, HIDDEN); bp++; } if (u == 0 || u == nu->pntsv - 1) { /* row in u-direction selected */ ok = true; newbp = (BPoint *)MEM_mallocN(nu->pntsu * (nu->pntsv + 1) * sizeof(BPoint), "extrudeNurb1"); if (u == 0) { len = nu->pntsv * nu->pntsu; ED_curve_bpcpy(editnurb, newbp + nu->pntsu, nu->bp, len); ED_curve_bpcpy(editnurb, newbp, nu->bp, nu->pntsu); bp = newbp; } else { len = nu->pntsv * nu->pntsu; ED_curve_bpcpy(editnurb, newbp, nu->bp, len); ED_curve_bpcpy(editnurb, newbp + len, &nu->bp[len - nu->pntsu], nu->pntsu); bp = newbp + len; } a = nu->pntsu; while (a--) { select_bpoint(bp, SELECT, flag, HIDDEN); bp++; } MEM_freeN(nu->bp); nu->bp = newbp; nu->pntsv++; BKE_nurb_knot_calc_v(nu); } else if (v == 0 || v == nu->pntsu - 1) { /* column in v-direction selected */ ok = true; bpn = newbp = (BPoint *)MEM_mallocN((nu->pntsu + 1) * nu->pntsv * sizeof(BPoint), "extrudeNurb1"); bp = nu->bp; for (a = 0; a < nu->pntsv; a++) { if (v == 0) { *bpn = *bp; bpn->f1 |= flag; bpn++; } ED_curve_bpcpy(editnurb, bpn, bp, nu->pntsu); bp += nu->pntsu; bpn += nu->pntsu; if (v == nu->pntsu - 1) { *bpn = *(bp - 1); bpn->f1 |= flag; bpn++; } } MEM_freeN(nu->bp); nu->bp = newbp; nu->pntsu++; BKE_nurb_knot_calc_u(nu); } } } nu = nu->next; } return ok; } static void adduplicateflagNurb(Object *obedit, ListBase *newnurb, const short flag, const bool split) { ListBase *editnurb = object_editcurve_get(obedit); Nurb *nu = editnurb->last, *newnu; BezTriple *bezt, *bezt1; BPoint *bp, *bp1, *bp2, *bp3; Curve *cu = (Curve *)obedit->data; int a, b, c, starta, enda, diffa, cyclicu, cyclicv, newu, newv; char *usel; while (nu) { cyclicu = cyclicv = 0; if (nu->type == CU_BEZIER) { for (a = 0, bezt = nu->bezt; a < nu->pntsu; a++, bezt++) { enda = -1; starta = a; while ((bezt->f1 & flag) || (bezt->f2 & flag) || (bezt->f3 & flag)) { if (!split) select_beztriple(bezt, DESELECT, flag, HIDDEN); enda = a; if (a >= nu->pntsu - 1) break; a++; bezt++; } if (enda >= starta) { newu = diffa = enda - starta + 1; /* set newu and diffa, may use both */ if (starta == 0 && newu != nu->pntsu && (nu->flagu & CU_NURB_CYCLIC)) { cyclicu = newu; } else { if (enda == nu->pntsu - 1) newu += cyclicu; newnu = BKE_nurb_copy(nu, newu, 1); BLI_addtail(newnurb, newnu); memcpy(newnu->bezt, &nu->bezt[starta], diffa * sizeof(BezTriple)); if (newu != diffa) { memcpy(&newnu->bezt[diffa], nu->bezt, cyclicu * sizeof(BezTriple)); cyclicu = 0; } if (newu != nu->pntsu) newnu->flagu &= ~CU_NURB_CYCLIC; for (b = 0, bezt1 = newnu->bezt; b < newnu->pntsu; b++, bezt1++) { select_beztriple(bezt1, SELECT, flag, HIDDEN); } } } } if (cyclicu != 0) { newnu = BKE_nurb_copy(nu, cyclicu, 1); BLI_addtail(newnurb, newnu); memcpy(newnu->bezt, nu->bezt, cyclicu * sizeof(BezTriple)); newnu->flagu &= ~CU_NURB_CYCLIC; for (b = 0, bezt1 = newnu->bezt; b < newnu->pntsu; b++, bezt1++) { select_beztriple(bezt1, SELECT, flag, HIDDEN); } } } else if (nu->pntsv == 1) { /* because UV Nurb has a different method for dupli */ for (a = 0, bp = nu->bp; a < nu->pntsu; a++, bp++) { enda = -1; starta = a; while (bp->f1 & flag) { if (!split) select_bpoint(bp, DESELECT, flag, HIDDEN); enda = a; if (a >= nu->pntsu - 1) break; a++; bp++; } if (enda >= starta) { newu = diffa = enda - starta + 1; /* set newu and diffa, may use both */ if (starta == 0 && newu != nu->pntsu && (nu->flagu & CU_NURB_CYCLIC)) { cyclicu = newu; } else { if (enda == nu->pntsu - 1) newu += cyclicu; newnu = BKE_nurb_copy(nu, newu, 1); BLI_addtail(newnurb, newnu); memcpy(newnu->bp, &nu->bp[starta], diffa * sizeof(BPoint)); if (newu != diffa) { memcpy(&newnu->bp[diffa], nu->bp, cyclicu * sizeof(BPoint)); cyclicu = 0; } if (newu != nu->pntsu) newnu->flagu &= ~CU_NURB_CYCLIC; for (b = 0, bp1 = newnu->bp; b < newnu->pntsu; b++, bp1++) { select_bpoint(bp1, SELECT, flag, HIDDEN); } } } } if (cyclicu != 0) { newnu = BKE_nurb_copy(nu, cyclicu, 1); BLI_addtail(newnurb, newnu); memcpy(newnu->bp, nu->bp, cyclicu * sizeof(BPoint)); newnu->flagu &= ~CU_NURB_CYCLIC; for (b = 0, bp1 = newnu->bp; b < newnu->pntsu; b++, bp1++) { select_bpoint(bp1, SELECT, flag, HIDDEN); } } } else { if (isNurbsel(nu)) { /* a rectangular area in nurb has to be selected and if splitting must be in U or V direction */ usel = MEM_callocN(nu->pntsu, "adduplicateN3"); bp = nu->bp; for (a = 0; a < nu->pntsv; a++) { for (b = 0; b < nu->pntsu; b++, bp++) { if (bp->f1 & flag) usel[b]++; } } newu = 0; newv = 0; for (a = 0; a < nu->pntsu; a++) { if (usel[a]) { if (newv == 0 || usel[a] == newv) { newv = usel[a]; newu++; } else { newv = 0; break; } } } MEM_freeN(usel); if ((newu == 0 || newv == 0) || (split && !isNurbselU(nu, &newv, SELECT) && !isNurbselV(nu, &newu, SELECT))) { if (G.debug & G_DEBUG) printf("Can't duplicate Nurb\n"); } else { for (a = 0, bp1 = nu->bp; a < nu->pntsu * nu->pntsv; a++, bp1++) { newv = newu = 0; if ((bp1->f1 & flag) && !(bp1->f1 & SURF_SEEN)) { /* point selected, now loop over points in U and V directions */ for (b = a % nu->pntsu, bp2 = bp1; b < nu->pntsu; b++, bp2++) { if (bp2->f1 & flag) { newu++; for (c = a / nu->pntsu, bp3 = bp2; c < nu->pntsv; c++, bp3 += nu->pntsu) { if (bp3->f1 & flag) { bp3->f1 |= SURF_SEEN; /* flag as seen so skipped on future iterations */ if (newu == 1) newv++; } else { break; } } } else { break; } } } if ((newu + newv) > 2) { /* ignore single points */ if (a == 0) { /* check if need to save cyclic selection and continue if so */ if (newu == nu->pntsu && (nu->flagv & CU_NURB_CYCLIC)) cyclicv = newv; if (newv == nu->pntsv && (nu->flagu & CU_NURB_CYCLIC)) cyclicu = newu; if (cyclicu != 0 || cyclicv != 0) continue; } if (a + newu == nu->pntsu && cyclicu != 0) { /* cyclic in U direction */ newnu = BKE_nurb_copy(nu, newu + cyclicu, newv); for (b = 0; b < newv; b++) { memcpy(&newnu->bp[b * newnu->pntsu], &nu->bp[b * nu->pntsu + a], newu * sizeof(BPoint)); memcpy(&newnu->bp[b * newnu->pntsu + newu], &nu->bp[b * nu->pntsu], cyclicu * sizeof(BPoint)); } cyclicu = cyclicv = 0; } else if ((a / nu->pntsu) + newv == nu->pntsv && cyclicv != 0) { /* cyclic in V direction */ newnu = BKE_nurb_copy(nu, newu, newv + cyclicv); memcpy(newnu->bp, &nu->bp[a], newu * newv * sizeof(BPoint)); memcpy(&newnu->bp[newu * newv], nu->bp, newu * cyclicv * sizeof(BPoint)); cyclicu = cyclicv = 0; } else { newnu = BKE_nurb_copy(nu, newu, newv); for (b = 0; b < newv; b++) { memcpy(&newnu->bp[b * newu], &nu->bp[b * nu->pntsu + a], newu * sizeof(BPoint)); } } BLI_addtail(newnurb, newnu); if (newu != nu->pntsu) newnu->flagu &= ~CU_NURB_CYCLIC; if (newv != nu->pntsv) newnu->flagv &= ~CU_NURB_CYCLIC; } } if (cyclicu != 0 || cyclicv != 0) { /* copy start of a cyclic surface, or copying all selected points */ newu = cyclicu == 0 ? nu->pntsu : cyclicu; newv = cyclicv == 0 ? nu->pntsv : cyclicv; newnu = BKE_nurb_copy(nu, newu, newv); for (b = 0; b < newv; b++) { memcpy(&newnu->bp[b * newu], &nu->bp[b * nu->pntsu], newu * sizeof(BPoint)); } BLI_addtail(newnurb, newnu); if (newu != nu->pntsu) newnu->flagu &= ~CU_NURB_CYCLIC; if (newv != nu->pntsv) newnu->flagv &= ~CU_NURB_CYCLIC; } for (b = 0, bp1 = nu->bp; b < nu->pntsu * nu->pntsv; b++, bp1++) { bp1->f1 &= ~SURF_SEEN; if (!split) select_bpoint(bp1, DESELECT, flag, HIDDEN); } } } } nu = nu->prev; } if (newnurb->first != NULL) { cu->lastsel = NULL; cu->actnu = -1; for (nu = newnurb->first; nu; nu = nu->next) { if (nu->type == CU_BEZIER) { if (split) { /* recalc first and last */ BKE_nurb_handle_calc_simple(nu, &nu->bezt[0]); BKE_nurb_handle_calc_simple(nu, &nu->bezt[nu->pntsu - 1]); } } else { /* knots done after duplicate as pntsu may change */ nu->knotsu = nu->knotsv = NULL; BKE_nurb_order_clamp_u(nu); BKE_nurb_knot_calc_u(nu); if (obedit->type == OB_SURF) { for (a = 0, bp = nu->bp; a < nu->pntsu * nu->pntsv; a++, bp++) { bp->f1 &= ~SURF_SEEN; } BKE_nurb_order_clamp_v(nu); BKE_nurb_knot_calc_v(nu); } } } } } /**************** switch direction operator ***************/ static int switch_direction_exec(bContext *C, wmOperator *UNUSED(op)) { Object *obedit = CTX_data_edit_object(C); Curve *cu = (Curve *)obedit->data; EditNurb *editnurb = cu->editnurb; Nurb *nu; for (nu = editnurb->nurbs.first; nu; nu = nu->next) { if (isNurbsel(nu)) { BKE_nurb_direction_switch(nu); keyData_switchDirectionNurb(cu, nu); } } if (ED_curve_updateAnimPaths(obedit->data)) WM_event_add_notifier(C, NC_OBJECT | ND_KEYS, obedit); DAG_id_tag_update(obedit->data, 0); WM_event_add_notifier(C, NC_GEOM | ND_DATA, obedit->data); return OPERATOR_FINISHED; } void CURVE_OT_switch_direction(wmOperatorType *ot) { /* identifiers */ ot->name = "Switch Direction"; ot->description = "Switch direction of selected splines"; ot->idname = "CURVE_OT_switch_direction"; /* api callbacks */ ot->exec = switch_direction_exec; ot->poll = ED_operator_editsurfcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } /****************** set weight operator *******************/ static int set_goal_weight_exec(bContext *C, wmOperator *op) { Object *obedit = CTX_data_edit_object(C); ListBase *editnurb = object_editcurve_get(obedit); Nurb *nu; BezTriple *bezt; BPoint *bp; float weight = RNA_float_get(op->ptr, "weight"); int a; for (nu = editnurb->first; nu; nu = nu->next) { if (nu->bezt) { for (bezt = nu->bezt, a = 0; a < nu->pntsu; a++, bezt++) { if (bezt->f2 & SELECT) bezt->weight = weight; } } else if (nu->bp) { for (bp = nu->bp, a = 0; a < nu->pntsu * nu->pntsv; a++, bp++) { if (bp->f1 & SELECT) bp->weight = weight; } } } DAG_id_tag_update(obedit->data, 0); WM_event_add_notifier(C, NC_GEOM | ND_DATA, obedit->data); return OPERATOR_FINISHED; } void CURVE_OT_spline_weight_set(wmOperatorType *ot) { /* identifiers */ ot->name = "Set Goal Weight"; ot->description = "Set softbody goal weight for selected points"; ot->idname = "CURVE_OT_spline_weight_set"; /* api callbacks */ ot->exec = set_goal_weight_exec; ot->invoke = WM_operator_props_popup; ot->poll = ED_operator_editsurfcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* properties */ RNA_def_float_factor(ot->srna, "weight", 1.0f, 0.0f, 1.0f, "Weight", "", 0.0f, 1.0f); } /******************* set radius operator ******************/ static int set_radius_exec(bContext *C, wmOperator *op) { Object *obedit = CTX_data_edit_object(C); ListBase *editnurb = object_editcurve_get(obedit); Nurb *nu; BezTriple *bezt; BPoint *bp; float radius = RNA_float_get(op->ptr, "radius"); int a; for (nu = editnurb->first; nu; nu = nu->next) { if (nu->bezt) { for (bezt = nu->bezt, a = 0; a < nu->pntsu; a++, bezt++) { if (bezt->f2 & SELECT) bezt->radius = radius; } } else if (nu->bp) { for (bp = nu->bp, a = 0; a < nu->pntsu * nu->pntsv; a++, bp++) { if (bp->f1 & SELECT) bp->radius = radius; } } } WM_event_add_notifier(C, NC_GEOM | ND_DATA, obedit->data); DAG_id_tag_update(obedit->data, 0); return OPERATOR_FINISHED; } void CURVE_OT_radius_set(wmOperatorType *ot) { /* identifiers */ ot->name = "Set Curve Radius"; ot->description = "Set per-point radius which is used for bevel tapering"; ot->idname = "CURVE_OT_radius_set"; /* api callbacks */ ot->exec = set_radius_exec; ot->invoke = WM_operator_props_popup; ot->poll = ED_operator_editsurfcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* properties */ RNA_def_float(ot->srna, "radius", 1.0f, 0.0f, FLT_MAX, "Radius", "", 0.0001f, 10.0f); } /********************* smooth operator ********************/ static int smooth_exec(bContext *C, wmOperator *UNUSED(op)) { Object *obedit = CTX_data_edit_object(C); ListBase *editnurb = object_editcurve_get(obedit); Nurb *nu; BezTriple *bezt, *beztOrig; BPoint *bp, *bpOrig; float val, newval, offset; int a, i, change = 0; for (nu = editnurb->first; nu; nu = nu->next) { if (nu->bezt) { change = 0; beztOrig = MEM_dupallocN(nu->bezt); for (bezt = &nu->bezt[1], a = 1; a < nu->pntsu - 1; a++, bezt++) { if (bezt->f2 & SELECT) { for (i = 0; i < 3; i++) { val = bezt->vec[1][i]; newval = ((beztOrig + (a - 1))->vec[1][i] * 0.5f) + ((beztOrig + (a + 1))->vec[1][i] * 0.5f); offset = (val * ((1.0f / 6.0f) * 5.0f)) + (newval * (1.0f / 6.0f)) - val; /* offset handles */ bezt->vec[1][i] += offset; bezt->vec[0][i] += offset; bezt->vec[2][i] += offset; } change = 1; } } MEM_freeN(beztOrig); if (change) BKE_nurb_handles_calc(nu); } else if (nu->bp) { bpOrig = MEM_dupallocN(nu->bp); /* Same as above, keep these the same! */ for (bp = &nu->bp[1], a = 1; a < nu->pntsu - 1; a++, bp++) { if (bp->f1 & SELECT) { for (i = 0; i < 3; i++) { val = bp->vec[i]; newval = ((bpOrig + (a - 1))->vec[i] * 0.5f) + ((bpOrig + (a + 1))->vec[i] * 0.5f); offset = (val * ((1.0f / 6.0f) * 5.0f)) + (newval * (1.0f / 6.0f)) - val; bp->vec[i] += offset; } } } MEM_freeN(bpOrig); } } WM_event_add_notifier(C, NC_GEOM | ND_DATA, obedit->data); DAG_id_tag_update(obedit->data, 0); return OPERATOR_FINISHED; } void CURVE_OT_smooth(wmOperatorType *ot) { /* identifiers */ ot->name = "Smooth"; ot->description = "Flatten angles of selected points"; ot->idname = "CURVE_OT_smooth"; /* api callbacks */ ot->exec = smooth_exec; ot->poll = ED_operator_editsurfcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } /* -------------------------------------------------------------------- */ /* Smooth radius/weight/tilt * * TODO: make smoothing distance based * TODO: support cyclic curves */ static void curve_smooth_value(ListBase *editnurb, const int bezt_offsetof, const int bp_offset) { Nurb *nu; BezTriple *bezt; BPoint *bp; int a; /* use for smoothing */ int last_sel; int start_sel, end_sel; /* selection indices, inclusive */ float start_rad, end_rad, fac, range; for (nu = editnurb->first; nu; nu = nu->next) { if (nu->bezt) { #define BEZT_VALUE(bezt) (*((float *)((char *)bezt + bezt_offsetof))) for (last_sel = 0; last_sel < nu->pntsu; last_sel++) { /* loop over selection segments of a curve, smooth each */ /* Start BezTriple code, this is duplicated below for points, make sure these functions stay in sync */ start_sel = -1; for (bezt = &nu->bezt[last_sel], a = last_sel; a < nu->pntsu; a++, bezt++) { if (bezt->f2 & SELECT) { start_sel = a; break; } } /* in case there are no other selected verts */ end_sel = start_sel; for (bezt = &nu->bezt[start_sel + 1], a = start_sel + 1; a < nu->pntsu; a++, bezt++) { if ((bezt->f2 & SELECT) == 0) { break; } end_sel = a; } if (start_sel == -1) { last_sel = nu->pntsu; /* next... */ } else { last_sel = end_sel; /* before we modify it */ /* now blend between start and end sel */ start_rad = end_rad = FLT_MAX; if (start_sel == end_sel) { /* simple, only 1 point selected */ if (start_sel > 0) start_rad = BEZT_VALUE(&nu->bezt[start_sel - 1]); if (end_sel != -1 && end_sel < nu->pntsu) end_rad = BEZT_VALUE(&nu->bezt[start_sel + 1]); if (start_rad != FLT_MAX && end_rad >= FLT_MAX) BEZT_VALUE(&nu->bezt[start_sel]) = (start_rad + end_rad) / 2.0f; else if (start_rad != FLT_MAX) BEZT_VALUE(&nu->bezt[start_sel]) = start_rad; else if (end_rad != FLT_MAX) BEZT_VALUE(&nu->bezt[start_sel]) = end_rad; } else { /* if endpoints selected, then use them */ if (start_sel == 0) { start_rad = BEZT_VALUE(&nu->bezt[start_sel]); start_sel++; /* we don't want to edit the selected endpoint */ } else { start_rad = BEZT_VALUE(&nu->bezt[start_sel - 1]); } if (end_sel == nu->pntsu - 1) { end_rad = BEZT_VALUE(&nu->bezt[end_sel]); end_sel--; /* we don't want to edit the selected endpoint */ } else { end_rad = BEZT_VALUE(&nu->bezt[end_sel + 1]); } /* Now Blend between the points */ range = (float)(end_sel - start_sel) + 2.0f; for (bezt = &nu->bezt[start_sel], a = start_sel; a <= end_sel; a++, bezt++) { fac = (float)(1 + a - start_sel) / range; BEZT_VALUE(bezt) = start_rad * (1.0f - fac) + end_rad * fac; } } } } #undef BEZT_VALUE } else if (nu->bp) { #define BP_VALUE(bp) (*((float *)((char *)bp + bp_offset))) /* Same as above, keep these the same! */ for (last_sel = 0; last_sel < nu->pntsu; last_sel++) { /* loop over selection segments of a curve, smooth each */ /* Start BezTriple code, this is duplicated below for points, make sure these functions stay in sync */ start_sel = -1; for (bp = &nu->bp[last_sel], a = last_sel; a < nu->pntsu; a++, bp++) { if (bp->f1 & SELECT) { start_sel = a; break; } } /* in case there are no other selected verts */ end_sel = start_sel; for (bp = &nu->bp[start_sel + 1], a = start_sel + 1; a < nu->pntsu; a++, bp++) { if ((bp->f1 & SELECT) == 0) { break; } end_sel = a; } if (start_sel == -1) { last_sel = nu->pntsu; /* next... */ } else { last_sel = end_sel; /* before we modify it */ /* now blend between start and end sel */ start_rad = end_rad = FLT_MAX; if (start_sel == end_sel) { /* simple, only 1 point selected */ if (start_sel > 0) start_rad = BP_VALUE(&nu->bp[start_sel - 1]); if (end_sel != -1 && end_sel < nu->pntsu) end_rad = BP_VALUE(&nu->bp[start_sel + 1]); if (start_rad != FLT_MAX && end_rad != FLT_MAX) BP_VALUE(&nu->bp[start_sel]) = (start_rad + end_rad) / 2; else if (start_rad != FLT_MAX) BP_VALUE(&nu->bp[start_sel]) = start_rad; else if (end_rad != FLT_MAX) BP_VALUE(&nu->bp[start_sel]) = end_rad; } else { /* if endpoints selected, then use them */ if (start_sel == 0) { start_rad = BP_VALUE(&nu->bp[start_sel]); start_sel++; /* we don't want to edit the selected endpoint */ } else { start_rad = BP_VALUE(&nu->bp[start_sel - 1]); } if (end_sel == nu->pntsu - 1) { end_rad = BP_VALUE(&nu->bp[end_sel]); end_sel--; /* we don't want to edit the selected endpoint */ } else { end_rad = BP_VALUE(&nu->bp[end_sel + 1]); } /* Now Blend between the points */ range = (float)(end_sel - start_sel) + 2.0f; for (bp = &nu->bp[start_sel], a = start_sel; a <= end_sel; a++, bp++) { fac = (float)(1 + a - start_sel) / range; BP_VALUE(bp) = start_rad * (1.0f - fac) + end_rad * fac; } } } } #undef BP_VALUE } } } static int curve_smooth_weight_exec(bContext *C, wmOperator *UNUSED(op)) { Object *obedit = CTX_data_edit_object(C); ListBase *editnurb = object_editcurve_get(obedit); curve_smooth_value(editnurb, offsetof(BezTriple, weight), offsetof(BPoint, weight)); WM_event_add_notifier(C, NC_GEOM | ND_DATA, obedit->data); DAG_id_tag_update(obedit->data, 0); return OPERATOR_FINISHED; } void CURVE_OT_smooth_weight(wmOperatorType *ot) { /* identifiers */ ot->name = "Smooth Curve Weight"; ot->description = "Interpolate weight of selected points"; ot->idname = "CURVE_OT_smooth_weight"; /* api clastbacks */ ot->exec = curve_smooth_weight_exec; ot->poll = ED_operator_editsurfcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } static int curve_smooth_radius_exec(bContext *C, wmOperator *UNUSED(op)) { Object *obedit = CTX_data_edit_object(C); ListBase *editnurb = object_editcurve_get(obedit); curve_smooth_value(editnurb, offsetof(BezTriple, radius), offsetof(BPoint, radius)); WM_event_add_notifier(C, NC_GEOM | ND_DATA, obedit->data); DAG_id_tag_update(obedit->data, 0); return OPERATOR_FINISHED; } void CURVE_OT_smooth_radius(wmOperatorType *ot) { /* identifiers */ ot->name = "Smooth Curve Radius"; ot->description = "Interpolate radii of selected points"; ot->idname = "CURVE_OT_smooth_radius"; /* api clastbacks */ ot->exec = curve_smooth_radius_exec; ot->poll = ED_operator_editsurfcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } static int curve_smooth_tilt_exec(bContext *C, wmOperator *UNUSED(op)) { Object *obedit = CTX_data_edit_object(C); ListBase *editnurb = object_editcurve_get(obedit); curve_smooth_value(editnurb, offsetof(BezTriple, alfa), offsetof(BPoint, alfa)); WM_event_add_notifier(C, NC_GEOM | ND_DATA, obedit->data); DAG_id_tag_update(obedit->data, 0); return OPERATOR_FINISHED; } void CURVE_OT_smooth_tilt(wmOperatorType *ot) { /* identifiers */ ot->name = "Smooth Curve Tilt"; ot->description = "Interpolate tilt of selected points"; ot->idname = "CURVE_OT_smooth_tilt"; /* api clastbacks */ ot->exec = curve_smooth_tilt_exec; ot->poll = ED_operator_editsurfcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } /***************** selection utility *************************/ /* next == 1 -> select next */ /* next == -1 -> select previous */ /* cont == 1 -> select continuously */ /* selstatus, inverts behavior */ static void select_adjacent_cp(ListBase *editnurb, short next, const bool cont, const bool selstatus) { Nurb *nu; BezTriple *bezt; BPoint *bp; int a; short lastsel = false; if (next == 0) return; for (nu = editnurb->first; nu; nu = nu->next) { lastsel = false; if (nu->type == CU_BEZIER) { a = nu->pntsu; bezt = nu->bezt; if (next < 0) bezt = &nu->bezt[a - 1]; while (a--) { if (a - abs(next) < 0) break; if ((lastsel == 0) && (bezt->hide == 0) && ((bezt->f2 & SELECT) || (selstatus == DESELECT))) { bezt += next; if (!(bezt->f2 & SELECT) || (selstatus == DESELECT)) { short sel = select_beztriple(bezt, selstatus, SELECT, VISIBLE); if ((sel == 1) && (cont == 0)) lastsel = true; } } else { bezt += next; lastsel = false; } /* move around in zigzag way so that we go through each */ bezt -= (next - next / abs(next)); } } else { a = nu->pntsu * nu->pntsv; bp = nu->bp; if (next < 0) bp = &nu->bp[a - 1]; while (a--) { if (a - abs(next) < 0) break; if ((lastsel == 0) && (bp->hide == 0) && ((bp->f1 & SELECT) || (selstatus == DESELECT))) { bp += next; if (!(bp->f1 & SELECT) || (selstatus == DESELECT)) { short sel = select_bpoint(bp, selstatus, SELECT, VISIBLE); if ((sel == 1) && (cont == 0)) lastsel = true; } } else { bp += next; lastsel = false; } /* move around in zigzag way so that we go through each */ bp -= (next - next / abs(next)); } } } } /**************** select start/end operators **************/ /* (de)selects first or last of visible part of each Nurb depending on selFirst * selFirst: defines the end of which to select * doswap: defines if selection state of each first/last control point is swapped * selstatus: selection status in case doswap is false */ void selectend_nurb(Object *obedit, eEndPoint_Types selfirst, bool doswap, bool selstatus) { ListBase *editnurb = object_editcurve_get(obedit); Nurb *nu; BPoint *bp; BezTriple *bezt; Curve *cu; int a; if (obedit == NULL) return; cu = (Curve *)obedit->data; cu->lastsel = NULL; for (nu = editnurb->first; nu; nu = nu->next) { if (nu->type == CU_BEZIER) { a = nu->pntsu; /* which point? */ if (selfirst == LAST) { /* select last */ bezt = &nu->bezt[a - 1]; } else { /* select first */ bezt = nu->bezt; } while (a--) { bool sel; if (doswap) sel = swap_selection_beztriple(bezt); else sel = select_beztriple(bezt, selstatus, SELECT, VISIBLE); if (sel == true) break; } } else { a = nu->pntsu * nu->pntsv; /* which point? */ if (selfirst == LAST) { /* select last */ bp = &nu->bp[a - 1]; } else { /* select first */ bp = nu->bp; } while (a--) { if (bp->hide == 0) { bool sel; if (doswap) sel = swap_selection_bpoint(bp); else sel = select_bpoint(bp, selstatus, SELECT, VISIBLE); if (sel == true) break; } } } } } static int de_select_first_exec(bContext *C, wmOperator *UNUSED(op)) { Object *obedit = CTX_data_edit_object(C); selectend_nurb(obedit, FIRST, true, DESELECT); WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit->data); return OPERATOR_FINISHED; } void CURVE_OT_de_select_first(wmOperatorType *ot) { /* identifiers */ ot->name = "(De)select First"; ot->idname = "CURVE_OT_de_select_first"; ot->description = "(De)select first of visible part of each NURBS"; /* api cfirstbacks */ ot->exec = de_select_first_exec; ot->poll = ED_operator_editcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } static int de_select_last_exec(bContext *C, wmOperator *UNUSED(op)) { Object *obedit = CTX_data_edit_object(C); selectend_nurb(obedit, LAST, true, DESELECT); WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit->data); return OPERATOR_FINISHED; } void CURVE_OT_de_select_last(wmOperatorType *ot) { /* identifiers */ ot->name = "(De)select Last"; ot->idname = "CURVE_OT_de_select_last"; ot->description = "(De)select last of visible part of each NURBS"; /* api clastbacks */ ot->exec = de_select_last_exec; ot->poll = ED_operator_editcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } /******************* de select all operator ***************/ static short nurb_has_selected_cps(ListBase *editnurb) { Nurb *nu; BezTriple *bezt; BPoint *bp; int a; for (nu = editnurb->first; nu; nu = nu->next) { if (nu->type == CU_BEZIER) { a = nu->pntsu; bezt = nu->bezt; while (a--) { if (bezt->hide == 0) { if ((bezt->f1 & SELECT) || (bezt->f2 & SELECT) || (bezt->f3 & SELECT)) { return 1; } } bezt++; } } else { a = nu->pntsu * nu->pntsv; bp = nu->bp; while (a--) { if ((bp->hide == 0) && (bp->f1 & SELECT)) return 1; bp++; } } } return 0; } static int de_select_all_exec(bContext *C, wmOperator *op) { Object *obedit = CTX_data_edit_object(C); ListBase *editnurb = object_editcurve_get(obedit); int action = RNA_enum_get(op->ptr, "action"); if (action == SEL_TOGGLE) { action = SEL_SELECT; if (nurb_has_selected_cps(editnurb)) action = SEL_DESELECT; } switch (action) { case SEL_SELECT: CU_select_all(obedit); break; case SEL_DESELECT: CU_deselect_all(obedit); break; case SEL_INVERT: CU_select_swap(obedit); break; } WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit->data); return OPERATOR_FINISHED; } void CURVE_OT_select_all(wmOperatorType *ot) { /* identifiers */ ot->name = "(De)select All"; ot->idname = "CURVE_OT_select_all"; ot->description = "(De)select all control points"; /* api callbacks */ ot->exec = de_select_all_exec; ot->poll = ED_operator_editsurfcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* properties */ WM_operator_properties_select_all(ot); } /********************** hide operator *********************/ static int hide_exec(bContext *C, wmOperator *op) { Object *obedit = CTX_data_edit_object(C); Curve *cu = obedit->data; ListBase *editnurb = object_editcurve_get(obedit); Nurb *nu; BPoint *bp; BezTriple *bezt; int a, sel, invert = RNA_boolean_get(op->ptr, "unselected"); for (nu = editnurb->first; nu; nu = nu->next) { if (nu->type == CU_BEZIER) { bezt = nu->bezt; a = nu->pntsu; sel = 0; while (a--) { if (invert == 0 && BEZSELECTED_HIDDENHANDLES(cu, bezt)) { select_beztriple(bezt, DESELECT, SELECT, HIDDEN); bezt->hide = 1; } else if (invert && !BEZSELECTED_HIDDENHANDLES(cu, bezt)) { select_beztriple(bezt, DESELECT, SELECT, HIDDEN); bezt->hide = 1; } if (bezt->hide) sel++; bezt++; } if (sel == nu->pntsu) nu->hide = 1; } else { bp = nu->bp; a = nu->pntsu * nu->pntsv; sel = 0; while (a--) { if (invert == 0 && (bp->f1 & SELECT)) { select_bpoint(bp, DESELECT, SELECT, HIDDEN); bp->hide = 1; } else if (invert && (bp->f1 & SELECT) == 0) { select_bpoint(bp, DESELECT, SELECT, HIDDEN); bp->hide = 1; } if (bp->hide) sel++; bp++; } if (sel == nu->pntsu * nu->pntsv) nu->hide = 1; } } DAG_id_tag_update(obedit->data, 0); WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit->data); return OPERATOR_FINISHED; } void CURVE_OT_hide(wmOperatorType *ot) { /* identifiers */ ot->name = "Hide Selected"; ot->idname = "CURVE_OT_hide"; ot->description = "Hide (un)selected control points"; /* api callbacks */ ot->exec = hide_exec; ot->poll = ED_operator_editsurfcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* props */ RNA_def_boolean(ot->srna, "unselected", 0, "Unselected", "Hide unselected rather than selected"); } /********************** reveal operator *********************/ static int reveal_exec(bContext *C, wmOperator *UNUSED(op)) { Object *obedit = CTX_data_edit_object(C); ListBase *editnurb = object_editcurve_get(obedit); Nurb *nu; BPoint *bp; BezTriple *bezt; int a; for (nu = editnurb->first; nu; nu = nu->next) { nu->hide = 0; if (nu->type == CU_BEZIER) { bezt = nu->bezt; a = nu->pntsu; while (a--) { if (bezt->hide) { select_beztriple(bezt, SELECT, SELECT, HIDDEN); bezt->hide = 0; } bezt++; } } else { bp = nu->bp; a = nu->pntsu * nu->pntsv; while (a--) { if (bp->hide) { select_bpoint(bp, SELECT, SELECT, HIDDEN); bp->hide = 0; } bp++; } } } DAG_id_tag_update(obedit->data, 0); WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit->data); return OPERATOR_FINISHED; } void CURVE_OT_reveal(wmOperatorType *ot) { /* identifiers */ ot->name = "Reveal Hidden"; ot->idname = "CURVE_OT_reveal"; ot->description = "Show again hidden control points"; /* api callbacks */ ot->exec = reveal_exec; ot->poll = ED_operator_editsurfcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } /********************** subdivide operator *********************/ /** Divide the line segments associated with the currently selected * curve nodes (Bezier or NURB). If there are no valid segment * selections within the current selection, nothing happens. */ static void subdividenurb(Object *obedit, int number_cuts) { Curve *cu = obedit->data; EditNurb *editnurb = cu->editnurb; Nurb *nu; BezTriple *bezt, *beztnew, *beztn; BPoint *bp, *prevbp, *bpnew, *bpn; float vec[15]; int a, b, sel, amount, *usel, *vsel, i; float factor; // printf("*** subdivideNurb: entering subdivide\n"); for (nu = editnurb->nurbs.first; nu; nu = nu->next) { amount = 0; if (nu->type == CU_BEZIER) { BezTriple *nextbezt; /* * Insert a point into a 2D Bezier curve. * Endpoints are preserved. Otherwise, all selected and inserted points are * newly created. Old points are discarded. */ /* count */ a = nu->pntsu; bezt = nu->bezt; while (a--) { nextbezt = BKE_nurb_bezt_get_next(nu, bezt); if (nextbezt == NULL) { break; } if (BEZSELECTED_HIDDENHANDLES(cu, bezt) && BEZSELECTED_HIDDENHANDLES(cu, nextbezt)) { amount += number_cuts; } bezt++; } if (amount) { /* insert */ beztnew = (BezTriple *)MEM_mallocN((amount + nu->pntsu) * sizeof(BezTriple), "subdivNurb"); beztn = beztnew; a = nu->pntsu; bezt = nu->bezt; while (a--) { memcpy(beztn, bezt, sizeof(BezTriple)); keyIndex_updateBezt(editnurb, bezt, beztn, 1); beztn++; nextbezt = BKE_nurb_bezt_get_next(nu, bezt); if (nextbezt == NULL) { break; } if (BEZSELECTED_HIDDENHANDLES(cu, bezt) && BEZSELECTED_HIDDENHANDLES(cu, nextbezt)) { float prevvec[3][3]; memcpy(prevvec, bezt->vec, sizeof(float) * 9); for (i = 0; i < number_cuts; i++) { factor = 1.0f / (number_cuts + 1 - i); memcpy(beztn, nextbezt, sizeof(BezTriple)); /* midpoint subdividing */ interp_v3_v3v3(vec, prevvec[1], prevvec[2], factor); interp_v3_v3v3(vec + 3, prevvec[2], nextbezt->vec[0], factor); interp_v3_v3v3(vec + 6, nextbezt->vec[0], nextbezt->vec[1], factor); interp_v3_v3v3(vec + 9, vec, vec + 3, factor); interp_v3_v3v3(vec + 12, vec + 3, vec + 6, factor); /* change handle of prev beztn */ copy_v3_v3((beztn - 1)->vec[2], vec); /* new point */ copy_v3_v3(beztn->vec[0], vec + 9); interp_v3_v3v3(beztn->vec[1], vec + 9, vec + 12, factor); copy_v3_v3(beztn->vec[2], vec + 12); /* handle of next bezt */ if (a == 0 && i == number_cuts - 1 && (nu->flagu & CU_NURB_CYCLIC)) { copy_v3_v3(beztnew->vec[0], vec + 6); } else { copy_v3_v3(nextbezt->vec[0], vec + 6); } beztn->radius = (bezt->radius + nextbezt->radius) / 2; beztn->weight = (bezt->weight + nextbezt->weight) / 2; memcpy(prevvec, beztn->vec, sizeof(float) * 9); beztn++; } } bezt++; } MEM_freeN(nu->bezt); nu->bezt = beztnew; nu->pntsu += amount; BKE_nurb_handles_calc(nu); } } /* End of 'if (nu->type == CU_BEZIER)' */ else if (nu->pntsv == 1) { BPoint *nextbp; /* * All flat lines (ie. co-planar), except flat Nurbs. Flat NURB curves * are handled together with the regular NURB plane division, as it * should be. I split it off just now, let's see if it is * stable... nzc 30-5-'00 */ /* count */ a = nu->pntsu; bp = nu->bp; while (a--) { nextbp = BKE_nurb_bpoint_get_next(nu, bp); if (nextbp == NULL) { break; } if ((bp->f1 & SELECT) && (nextbp->f1 & SELECT)) { amount += number_cuts; } bp++; } if (amount) { /* insert */ bpnew = (BPoint *)MEM_mallocN((amount + nu->pntsu) * sizeof(BPoint), "subdivNurb2"); bpn = bpnew; a = nu->pntsu; bp = nu->bp; while (a--) { /* Copy "old" point. */ memcpy(bpn, bp, sizeof(BPoint)); keyIndex_updateBP(editnurb, bp, bpn, 1); bpn++; nextbp = BKE_nurb_bpoint_get_next(nu, bp); if (nextbp == NULL) { break; } if ((bp->f1 & SELECT) && (nextbp->f1 & SELECT)) { // printf("*** subdivideNurb: insert 'linear' point\n"); for (i = 0; i < number_cuts; i++) { factor = (float)(i + 1) / (number_cuts + 1); memcpy(bpn, nextbp, sizeof(BPoint)); interp_v4_v4v4(bpn->vec, bp->vec, nextbp->vec, factor); bpn++; } } bp++; } MEM_freeN(nu->bp); nu->bp = bpnew; nu->pntsu += amount; if (nu->type & CU_NURBS) { BKE_nurb_knot_calc_u(nu); } } } /* End of 'else if (nu->pntsv == 1)' */ else if (nu->type == CU_NURBS) { /* This is a very strange test ... */ /** * Subdivide NURB surfaces - nzc 30-5-'00 - * * Subdivision of a NURB curve can be effected by adding a * control point (insertion of a knot), or by raising the * degree of the functions used to build the NURB. The * expression * * degree = #knots - #controlpoints + 1 (J Walter piece) * degree = #knots - #controlpoints (Blender * implementation) * ( this is confusing.... what is true? Another concern * is that the JW piece allows the curve to become * explicitly 1st order derivative discontinuous, while * this is not what we want here... ) * * is an invariant for a single NURB curve. Raising the degree * of the NURB is done elsewhere; the degree is assumed * constant during this operation. Degree is a property shared * by all controlpoints in a curve (even though it is stored * per control point - this can be misleading). * Adding a knot is done by searching for the place in the * knot vector where a certain knot value must be inserted, or * by picking an appropriate knot value between two existing * ones. The number of controlpoints that is influenced by the * insertion depends on the order of the curve. A certain * minimum number of knots is needed to form high-order * curves, as can be seen from the equation above. In Blender, * currently NURBs may be up to 6th order, so we modify at * most 6 points. One point is added. For an n-degree curve, * n points are discarded, and n+1 points inserted * (so effectively, n points are modified). (that holds for * the JW piece, but it seems not for our NURBs) * In practice, the knot spacing is copied, but the tail * (the points following the insertion point) need to be * offset to keep the knot series ascending. The knot series * is always a series of monotonically ascending integers in * Blender. When not enough control points are available to * fit the order, duplicates of the endpoints are added as * needed. */ /* selection-arrays */ usel = MEM_callocN(sizeof(int) * nu->pntsu, "subivideNurb3"); vsel = MEM_callocN(sizeof(int) * nu->pntsv, "subivideNurb3"); sel = 0; /* Count the number of selected points. */ bp = nu->bp; for (a = 0; a < nu->pntsv; a++) { for (b = 0; b < nu->pntsu; b++) { if (bp->f1 & SELECT) { usel[b]++; vsel[a]++; sel++; } bp++; } } if (sel == (nu->pntsu * nu->pntsv)) { /* subdivide entire nurb */ /* Global subdivision is a special case of partial * subdivision. Strange it is considered separately... */ /* count of nodes (after subdivision) along U axis */ int countu = nu->pntsu + (nu->pntsu - 1) * number_cuts; /* total count of nodes after subdivision */ int tot = ((number_cuts + 1) * nu->pntsu - number_cuts) * ((number_cuts + 1) * nu->pntsv - number_cuts); bpn = bpnew = MEM_mallocN(tot * sizeof(BPoint), "subdivideNurb4"); bp = nu->bp; /* first subdivide rows */ for (a = 0; a < nu->pntsv; a++) { for (b = 0; b < nu->pntsu; b++) { *bpn = *bp; keyIndex_updateBP(editnurb, bp, bpn, 1); bpn++; bp++; if (b < nu->pntsu - 1) { prevbp = bp - 1; for (i = 0; i < number_cuts; i++) { factor = (float)(i + 1) / (number_cuts + 1); *bpn = *bp; interp_v4_v4v4(bpn->vec, prevbp->vec, bp->vec, factor); bpn++; } } } bpn += number_cuts * countu; } /* now insert new */ bpn = bpnew + ((number_cuts + 1) * nu->pntsu - number_cuts); bp = bpnew + (number_cuts + 1) * ((number_cuts + 1) * nu->pntsu - number_cuts); prevbp = bpnew; for (a = 1; a < nu->pntsv; a++) { for (b = 0; b < (number_cuts + 1) * nu->pntsu - number_cuts; b++) { BPoint *tmp = bpn; for (i = 0; i < number_cuts; i++) { factor = (float)(i + 1) / (number_cuts + 1); *tmp = *bp; interp_v4_v4v4(tmp->vec, prevbp->vec, bp->vec, factor); tmp += countu; } bp++; prevbp++; bpn++; } bp += number_cuts * countu; bpn += number_cuts * countu; prevbp += number_cuts * countu; } MEM_freeN(nu->bp); nu->bp = bpnew; nu->pntsu = (number_cuts + 1) * nu->pntsu - number_cuts; nu->pntsv = (number_cuts + 1) * nu->pntsv - number_cuts; BKE_nurb_knot_calc_u(nu); BKE_nurb_knot_calc_v(nu); } /* End of 'if (sel == nu->pntsu * nu->pntsv)' (subdivide entire NURB) */ else { /* subdivide in v direction? */ sel = 0; for (a = 0; a < nu->pntsv - 1; a++) { if (vsel[a] == nu->pntsu && vsel[a + 1] == nu->pntsu) sel += number_cuts; } if (sel) { /* V ! */ bpn = bpnew = MEM_mallocN((sel + nu->pntsv) * nu->pntsu * sizeof(BPoint), "subdivideNurb4"); bp = nu->bp; for (a = 0; a < nu->pntsv; a++) { for (b = 0; b < nu->pntsu; b++) { *bpn = *bp; keyIndex_updateBP(editnurb, bp, bpn, 1); bpn++; bp++; } if ( (a < nu->pntsv - 1) && vsel[a] == nu->pntsu && vsel[a + 1] == nu->pntsu) { for (i = 0; i < number_cuts; i++) { factor = (float)(i + 1) / (number_cuts + 1); prevbp = bp - nu->pntsu; for (b = 0; b < nu->pntsu; b++) { /* * This simple bisection must be replaces by a * subtle resampling of a number of points. Our * task is made slightly easier because each * point in our curve is a separate data * node. (is it?) */ *bpn = *prevbp; interp_v4_v4v4(bpn->vec, prevbp->vec, bp->vec, factor); bpn++; prevbp++; bp++; } bp -= nu->pntsu; } } } MEM_freeN(nu->bp); nu->bp = bpnew; nu->pntsv += sel; BKE_nurb_knot_calc_v(nu); } else { /* or in u direction? */ sel = 0; for (a = 0; a < nu->pntsu - 1; a++) { if (usel[a] == nu->pntsv && usel[a + 1] == nu->pntsv) sel += number_cuts; } if (sel) { /* U ! */ /* Inserting U points is sort of 'default' Flat curves only get */ /* U points inserted in them. */ bpn = bpnew = MEM_mallocN((sel + nu->pntsu) * nu->pntsv * sizeof(BPoint), "subdivideNurb4"); bp = nu->bp; for (a = 0; a < nu->pntsv; a++) { for (b = 0; b < nu->pntsu; b++) { *bpn = *bp; keyIndex_updateBP(editnurb, bp, bpn, 1); bpn++; bp++; if ( (b < nu->pntsu - 1) && usel[b] == nu->pntsv && usel[b + 1] == nu->pntsv) { /* * One thing that bugs me here is that the * orders of things are not the same as in * the JW piece. Also, this implies that we * handle at most 3rd order curves? I miss * some symmetry here... */ for (i = 0; i < number_cuts; i++) { factor = (float)(i + 1) / (number_cuts + 1); prevbp = bp - 1; *bpn = *prevbp; interp_v4_v4v4(bpn->vec, prevbp->vec, bp->vec, factor); bpn++; } } } } MEM_freeN(nu->bp); nu->bp = bpnew; nu->pntsu += sel; BKE_nurb_knot_calc_u(nu); /* shift knots forward */ } } } MEM_freeN(usel); MEM_freeN(vsel); } /* End of 'if (nu->type == CU_NURBS)' */ } } static int subdivide_exec(bContext *C, wmOperator *op) { Object *obedit = CTX_data_edit_object(C); int number_cuts = RNA_int_get(op->ptr, "number_cuts"); subdividenurb(obedit, number_cuts); if (ED_curve_updateAnimPaths(obedit->data)) WM_event_add_notifier(C, NC_OBJECT | ND_KEYS, obedit); WM_event_add_notifier(C, NC_GEOM | ND_DATA, obedit->data); DAG_id_tag_update(obedit->data, 0); return OPERATOR_FINISHED; } void CURVE_OT_subdivide(wmOperatorType *ot) { PropertyRNA *prop; /* identifiers */ ot->name = "Subdivide"; ot->description = "Subdivide selected segments"; ot->idname = "CURVE_OT_subdivide"; /* api callbacks */ ot->exec = subdivide_exec; ot->poll = ED_operator_editsurfcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; prop = RNA_def_int(ot->srna, "number_cuts", 1, 1, INT_MAX, "Number of cuts", "", 1, 10); /* 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); } /******************** find nearest ************************/ static void findnearestNurbvert__doClosest(void *userData, Nurb *nu, BPoint *bp, BezTriple *bezt, int beztindex, const float screen_co[2]) { struct { BPoint *bp; BezTriple *bezt; Nurb *nurb; float dist; int hpoint, select; float mval_fl[2]; } *data = userData; short flag; float dist_test; if (bp) { flag = bp->f1; } else { if (beztindex == 0) { flag = bezt->f1; } else if (beztindex == 1) { flag = bezt->f2; } else { flag = bezt->f3; } } dist_test = len_manhattan_v2v2(data->mval_fl, screen_co); if ((flag & SELECT) == data->select) dist_test += 5.0f; if (bezt && beztindex == 1) dist_test += 3.0f; /* middle points get a small disadvantage */ if (dist_test < data->dist) { data->dist = dist_test; data->bp = bp; data->bezt = bezt; data->nurb = nu; data->hpoint = bezt ? beztindex : 0; } } static short findnearestNurbvert(ViewContext *vc, short sel, const int mval[2], Nurb **nurb, BezTriple **bezt, BPoint **bp) { /* (sel == 1): selected gets a disadvantage */ /* in nurb and bezt or bp the nearest is written */ /* return 0 1 2: handlepunt */ struct { BPoint *bp; BezTriple *bezt; Nurb *nurb; float dist; int hpoint, select; float mval_fl[2]; } data = {NULL}; data.dist = 100; data.hpoint = 0; data.select = sel; data.mval_fl[0] = mval[0]; data.mval_fl[1] = mval[1]; ED_view3d_init_mats_rv3d(vc->obedit, vc->rv3d); nurbs_foreachScreenVert(vc, findnearestNurbvert__doClosest, &data, V3D_PROJ_TEST_CLIP_DEFAULT); *nurb = data.nurb; *bezt = data.bezt; *bp = data.bp; return data.hpoint; } static void findselectedNurbvert(ListBase *editnurb, Nurb **nu, BezTriple **bezt, BPoint **bp) { /* in nu and (bezt or bp) selected are written if there's 1 sel. */ /* if more points selected in 1 spline: return only nu, bezt and bp are 0 */ Nurb *nu1; BezTriple *bezt1; BPoint *bp1; int a; *nu = NULL; *bezt = NULL; *bp = NULL; for (nu1 = editnurb->first; nu1; nu1 = nu1->next) { if (nu1->type == CU_BEZIER) { bezt1 = nu1->bezt; a = nu1->pntsu; while (a--) { if ((bezt1->f1 & SELECT) || (bezt1->f2 & SELECT) || (bezt1->f3 & SELECT)) { if (*nu != NULL && *nu != nu1) { *nu = NULL; *bp = NULL; *bezt = NULL; return; } else if (*bezt || *bp) { *bp = NULL; *bezt = NULL; } else { *bezt = bezt1; *nu = nu1; } } bezt1++; } } else { bp1 = nu1->bp; a = nu1->pntsu * nu1->pntsv; while (a--) { if (bp1->f1 & SELECT) { if (*nu != NULL && *nu != nu1) { *bp = NULL; *bezt = NULL; *nu = NULL; return; } else if (*bezt || *bp) { *bp = NULL; *bezt = NULL; } else { *bp = bp1; *nu = nu1; } } bp1++; } } } } /***************** set spline type operator *******************/ static int set_spline_type_exec(bContext *C, wmOperator *op) { Object *obedit = CTX_data_edit_object(C); ListBase *editnurb = object_editcurve_get(obedit); Nurb *nu; bool change = false; const bool use_handles = RNA_boolean_get(op->ptr, "use_handles"); const int type = RNA_enum_get(op->ptr, "type"); if (type == CU_CARDINAL || type == CU_BSPLINE) { BKE_report(op->reports, RPT_ERROR, "Not yet implemented"); return OPERATOR_CANCELLED; } for (nu = editnurb->first; nu; nu = nu->next) { if (isNurbsel(nu)) { if (BKE_nurb_type_convert(nu, type, use_handles) == false) BKE_report(op->reports, RPT_ERROR, "No conversion possible"); else change = true; } } if (change) { if (ED_curve_updateAnimPaths(obedit->data)) WM_event_add_notifier(C, NC_OBJECT | ND_KEYS, obedit); DAG_id_tag_update(obedit->data, 0); WM_event_add_notifier(C, NC_GEOM | ND_DATA, obedit->data); return OPERATOR_FINISHED; } else { return OPERATOR_CANCELLED; } } void CURVE_OT_spline_type_set(wmOperatorType *ot) { static EnumPropertyItem type_items[] = { {CU_POLY, "POLY", 0, "Poly", ""}, {CU_BEZIER, "BEZIER", 0, "Bezier", ""}, // {CU_CARDINAL, "CARDINAL", 0, "Cardinal", ""}, // {CU_BSPLINE, "B_SPLINE", 0, "B-Spline", ""}, {CU_NURBS, "NURBS", 0, "NURBS", ""}, {0, NULL, 0, NULL, NULL} }; /* identifiers */ ot->name = "Set Spline Type"; ot->description = "Set type of active spline"; ot->idname = "CURVE_OT_spline_type_set"; /* api callbacks */ ot->exec = set_spline_type_exec; ot->invoke = WM_menu_invoke; ot->poll = ED_operator_editcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* properties */ ot->prop = RNA_def_enum(ot->srna, "type", type_items, CU_POLY, "Type", "Spline type"); RNA_def_boolean(ot->srna, "use_handles", 0, "Handles", "Use handles when converting bezier curves into polygons"); } /***************** set handle type operator *******************/ static int set_handle_type_exec(bContext *C, wmOperator *op) { Object *obedit = CTX_data_edit_object(C); ListBase *editnurb = object_editcurve_get(obedit); BKE_nurbList_handles_set(editnurb, RNA_enum_get(op->ptr, "type")); WM_event_add_notifier(C, NC_GEOM | ND_DATA, obedit->data); DAG_id_tag_update(obedit->data, 0); return OPERATOR_FINISHED; } void CURVE_OT_handle_type_set(wmOperatorType *ot) { /* keep in sync with graphkeys_handle_type_items */ static EnumPropertyItem editcurve_handle_type_items[] = { {HD_AUTO, "AUTOMATIC", 0, "Automatic", ""}, {HD_VECT, "VECTOR", 0, "Vector", ""}, {5, "ALIGNED", 0, "Aligned", ""}, {6, "FREE_ALIGN", 0, "Free", ""}, {3, "TOGGLE_FREE_ALIGN", 0, "Toggle Free/Align", ""}, {0, NULL, 0, NULL, NULL} }; /* identifiers */ ot->name = "Set Handle Type"; ot->description = "Set type of handles for selected control points"; ot->idname = "CURVE_OT_handle_type_set"; /* api callbacks */ ot->invoke = WM_menu_invoke; ot->exec = set_handle_type_exec; ot->poll = ED_operator_editcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* properties */ ot->prop = RNA_def_enum(ot->srna, "type", editcurve_handle_type_items, 1, "Type", "Spline type"); } /***************** make segment operator **********************/ /* ******************** SKINNING LOFTING!!! ******************** */ static void switchdirection_knots(float *base, int tot) { float *fp1, *fp2, *tempf; int a; if (base == NULL || tot == 0) return; /* reverse knots */ a = tot; fp1 = base; fp2 = fp1 + (a - 1); a /= 2; while (fp1 != fp2 && a > 0) { SWAP(float, *fp1, *fp2); a--; fp1++; fp2--; } /* and make in increasing order again */ a = tot; fp1 = base; fp2 = tempf = MEM_mallocN(sizeof(float) * a, "switchdirect"); while (a--) { fp2[0] = fabs(fp1[1] - fp1[0]); fp1++; fp2++; } a = tot - 1; fp1 = base; fp2 = tempf; fp1[0] = 0.0; fp1++; while (a--) { fp1[0] = fp1[-1] + fp2[0]; fp1++; fp2++; } MEM_freeN(tempf); } static void rotate_direction_nurb(Nurb *nu) { BPoint *bp1, *bp2, *temp; int u, v; SWAP(short, nu->pntsu, nu->pntsv); SWAP(short, nu->orderu, nu->orderv); SWAP(short, nu->resolu, nu->resolv); SWAP(short, nu->flagu, nu->flagv); SWAP(float *, nu->knotsu, nu->knotsv); switchdirection_knots(nu->knotsv, KNOTSV(nu)); temp = MEM_dupallocN(nu->bp); bp1 = nu->bp; for (v = 0; v < nu->pntsv; v++) { for (u = 0; u < nu->pntsu; u++, bp1++) { bp2 = temp + (nu->pntsu - u - 1) * (nu->pntsv) + v; *bp1 = *bp2; } } MEM_freeN(temp); } static int is_u_selected(Nurb *nu, int u) { BPoint *bp; int v; /* what about resolu == 2? */ bp = &nu->bp[u]; for (v = 0; v < nu->pntsv - 1; v++, bp += nu->pntsu) { if ((v != 0) && (bp->f1 & SELECT)) { return TRUE; } } return FALSE; } typedef struct NurbSort { struct NurbSort *next, *prev; Nurb *nu; float vec[3]; } NurbSort; static ListBase nsortbase = {NULL, NULL}; /* static NurbSort *nusmain; */ /* this var seems to go unused... at least in this file */ static void make_selection_list_nurb(ListBase *editnurb) { ListBase nbase = {NULL, NULL}; NurbSort *nus, *nustest, *headdo, *taildo; Nurb *nu; BPoint *bp; float dist, headdist, taildist; int a; for (nu = editnurb->first; nu; nu = nu->next) { if (isNurbsel(nu)) { nus = (NurbSort *)MEM_callocN(sizeof(NurbSort), "sort"); BLI_addhead(&nbase, nus); nus->nu = nu; bp = nu->bp; a = nu->pntsu; while (a--) { add_v3_v3(nus->vec, bp->vec); bp++; } mul_v3_fl(nus->vec, 1.0f / (float)nu->pntsu); } } /* just add the first one */ nus = nbase.first; BLI_remlink(&nbase, nus); BLI_addtail(&nsortbase, nus); /* now add, either at head or tail, the closest one */ while (nbase.first) { headdist = taildist = 1.0e30; headdo = taildo = NULL; nustest = nbase.first; while (nustest) { dist = len_v3v3(nustest->vec, ((NurbSort *)nsortbase.first)->vec); if (dist < headdist) { headdist = dist; headdo = nustest; } dist = len_v3v3(nustest->vec, ((NurbSort *)nsortbase.last)->vec); if (dist < taildist) { taildist = dist; taildo = nustest; } nustest = nustest->next; } if (headdist < taildist) { BLI_remlink(&nbase, headdo); BLI_addhead(&nsortbase, headdo); } else { BLI_remlink(&nbase, taildo); BLI_addtail(&nsortbase, taildo); } } } static void merge_2_nurb(wmOperator *op, ListBase *editnurb, Nurb *nu1, Nurb *nu2) { BPoint *bp, *bp1, *bp2, *temp; float len1, len2; int origu, u, v; /* first nurbs will be changed to make u = resolu-1 selected */ /* 2nd nurbs will be changed to make u = 0 selected */ /* first nurbs: u = resolu-1 selected */ if (is_u_selected(nu1, nu1->pntsu - 1)) { /* pass */ } else { /* For 2D curves blender uses (orderv = 0). It doesn't make any sense mathematically. */ /* but after rotating (orderu = 0) will be confusing. */ if (nu1->orderv == 0) nu1->orderv = 1; rotate_direction_nurb(nu1); if (is_u_selected(nu1, nu1->pntsu - 1)) { /* pass */ } else { rotate_direction_nurb(nu1); if (is_u_selected(nu1, nu1->pntsu - 1)) { /* pass */ } else { rotate_direction_nurb(nu1); if (is_u_selected(nu1, nu1->pntsu - 1)) { /* pass */ } else { /* rotate again, now its OK! */ if (nu1->pntsv != 1) rotate_direction_nurb(nu1); return; } } } } /* 2nd nurbs: u = 0 selected */ if (is_u_selected(nu2, 0)) { /* pass */ } else { if (nu2->orderv == 0) nu2->orderv = 1; rotate_direction_nurb(nu2); if (is_u_selected(nu2, 0)) { /* pass */ } else { rotate_direction_nurb(nu2); if (is_u_selected(nu2, 0)) { /* pass */ } else { rotate_direction_nurb(nu2); if (is_u_selected(nu2, 0)) { /* pass */ } else { /* rotate again, now its OK! */ if (nu1->pntsu == 1) rotate_direction_nurb(nu1); if (nu2->pntsv != 1) rotate_direction_nurb(nu2); return; } } } } if (nu1->pntsv != nu2->pntsv) { BKE_report(op->reports, RPT_ERROR, "Resolution does not match"); return; } /* ok, now nu1 has the rightmost column and nu2 the leftmost column selected */ /* maybe we need a 'v' flip of nu2? */ bp1 = &nu1->bp[nu1->pntsu - 1]; bp2 = nu2->bp; len1 = 0.0; for (v = 0; v < nu1->pntsv; v++, bp1 += nu1->pntsu, bp2 += nu2->pntsu) { len1 += len_v3v3(bp1->vec, bp2->vec); } bp1 = &nu1->bp[nu1->pntsu - 1]; bp2 = &nu2->bp[nu2->pntsu * (nu2->pntsv - 1)]; len2 = 0.0; for (v = 0; v < nu1->pntsv; v++, bp1 += nu1->pntsu, bp2 -= nu2->pntsu) { len2 += len_v3v3(bp1->vec, bp2->vec); } /* merge */ origu = nu1->pntsu; nu1->pntsu += nu2->pntsu; if (nu1->orderu < 3 && nu1->orderu < nu1->pntsu) nu1->orderu++; if (nu1->orderv < 3 && nu1->orderv < nu1->pntsv) nu1->orderv++; temp = nu1->bp; nu1->bp = MEM_mallocN(nu1->pntsu * nu1->pntsv * sizeof(BPoint), "mergeBP"); bp = nu1->bp; bp1 = temp; for (v = 0; v < nu1->pntsv; v++) { /* switch direction? */ if (len1 < len2) bp2 = &nu2->bp[v * nu2->pntsu]; else bp2 = &nu2->bp[(nu1->pntsv - v - 1) * nu2->pntsu]; for (u = 0; u < nu1->pntsu; u++, bp++) { if (u < origu) { *bp = *bp1; bp1++; select_bpoint(bp, SELECT, SELECT, HIDDEN); } else { *bp = *bp2; bp2++; } } } if (nu1->type == CU_NURBS) { /* merge knots */ BKE_nurb_knot_calc_u(nu1); /* make knots, for merged curved for example */ BKE_nurb_knot_calc_v(nu1); } MEM_freeN(temp); BLI_remlink(editnurb, nu2); BKE_nurb_free(nu2); } static int merge_nurb(bContext *C, wmOperator *op) { Object *obedit = CTX_data_edit_object(C); ListBase *editnurb = object_editcurve_get(obedit); NurbSort *nus1, *nus2; int ok = 1; make_selection_list_nurb(editnurb); if (nsortbase.first == nsortbase.last) { BLI_freelistN(&nsortbase); BKE_report(op->reports, RPT_ERROR, "Too few selections to merge"); return OPERATOR_CANCELLED; } nus1 = nsortbase.first; nus2 = nus1->next; /* resolution match, to avoid uv rotations */ if (nus1->nu->pntsv == 1) { if (nus1->nu->pntsu == nus2->nu->pntsu || nus1->nu->pntsu == nus2->nu->pntsv) { /* pass */ } else { ok = 0; } } else if (nus2->nu->pntsv == 1) { if (nus2->nu->pntsu == nus1->nu->pntsu || nus2->nu->pntsu == nus1->nu->pntsv) { /* pass */ } else { ok = 0; } } else if (nus1->nu->pntsu == nus2->nu->pntsu || nus1->nu->pntsv == nus2->nu->pntsv) { /* pass */ } else if (nus1->nu->pntsu == nus2->nu->pntsv || nus1->nu->pntsv == nus2->nu->pntsu) { /* pass */ } else { ok = 0; } if (ok == 0) { BKE_report(op->reports, RPT_ERROR, "Resolution does not match"); BLI_freelistN(&nsortbase); return OPERATOR_CANCELLED; } while (nus2) { merge_2_nurb(op, editnurb, nus1->nu, nus2->nu); nus2 = nus2->next; } BLI_freelistN(&nsortbase); set_actNurb(obedit, NULL); WM_event_add_notifier(C, NC_GEOM | ND_DATA, obedit->data); DAG_id_tag_update(obedit->data, 0); return OPERATOR_FINISHED; } static int make_segment_exec(bContext *C, wmOperator *op) { /* joins 2 curves */ Object *obedit = CTX_data_edit_object(C); Curve *cu = obedit->data; ListBase *nubase = object_editcurve_get(obedit); Nurb *nu, *nu1 = NULL, *nu2 = NULL; BPoint *bp; int ok = 0; /* int a; */ /* UNUSED */ /* first decide if this is a surface merge! */ if (obedit->type == OB_SURF) nu = nubase->first; else nu = NULL; while (nu) { if (isNurbsel(nu)) { if (nu->pntsu > 1 && nu->pntsv > 1) break; if (isNurbsel_count(cu, nu) > 1) break; if (isNurbsel_count(cu, nu) == 1) { /* only 1 selected, not first or last, a little complex, but intuitive */ if (nu->pntsv == 1) { if ( (nu->bp->f1 & SELECT) || (nu->bp[nu->pntsu - 1].f1 & SELECT)) { /* pass */ } else { break; } } } } nu = nu->next; } if (nu) return merge_nurb(C, op); /* find both nurbs and points, nu1 will be put behind nu2 */ for (nu = nubase->first; nu; nu = nu->next) { if (nu->pntsu == 1) nu->flagu &= ~CU_NURB_CYCLIC; if ((nu->flagu & CU_NURB_CYCLIC) == 0) { /* not cyclic */ if (nu->type == CU_BEZIER) { if (nu1 == NULL) { if (BEZSELECTED_HIDDENHANDLES(cu, nu->bezt)) { nu1 = nu; } else { if (BEZSELECTED_HIDDENHANDLES(cu, &(nu->bezt[nu->pntsu - 1]))) { nu1 = nu; BKE_nurb_direction_switch(nu); keyData_switchDirectionNurb(cu, nu); } } } else if (nu2 == NULL) { if (BEZSELECTED_HIDDENHANDLES(cu, nu->bezt)) { nu2 = nu; BKE_nurb_direction_switch(nu); keyData_switchDirectionNurb(cu, nu); } else { if (BEZSELECTED_HIDDENHANDLES(cu, &(nu->bezt[nu->pntsu - 1]))) { nu2 = nu; } } } else { break; } } else if (nu->pntsv == 1) { bp = nu->bp; if (nu1 == NULL) { if (bp->f1 & SELECT) { nu1 = nu; } else { bp = bp + (nu->pntsu - 1); if (bp->f1 & SELECT) { nu1 = nu; BKE_nurb_direction_switch(nu); keyData_switchDirectionNurb(cu, nu); } } } else if (nu2 == NULL) { if (bp->f1 & SELECT) { nu2 = nu; BKE_nurb_direction_switch(nu); keyData_switchDirectionNurb(cu, nu); } else { bp = bp + (nu->pntsu - 1); if (bp->f1 & SELECT) { nu2 = nu; } } } else { break; } } } } if ((nu1 && nu2) && (nu1 != nu2)) { if (nu1->type == nu2->type) { if (nu1->type == CU_BEZIER) { BezTriple *bezt = (BezTriple *)MEM_mallocN((nu1->pntsu + nu2->pntsu) * sizeof(BezTriple), "addsegmentN"); ED_curve_beztcpy(cu->editnurb, bezt, nu2->bezt, nu2->pntsu); ED_curve_beztcpy(cu->editnurb, bezt + nu2->pntsu, nu1->bezt, nu1->pntsu); MEM_freeN(nu1->bezt); nu1->bezt = bezt; nu1->pntsu += nu2->pntsu; BLI_remlink(nubase, nu2); BKE_nurb_free(nu2); nu2 = NULL; BKE_nurb_handles_calc(nu1); } else { bp = (BPoint *)MEM_mallocN((nu1->pntsu + nu2->pntsu) * sizeof(BPoint), "addsegmentN2"); ED_curve_bpcpy(cu->editnurb, bp, nu2->bp, nu2->pntsu); ED_curve_bpcpy(cu->editnurb, bp + nu2->pntsu, nu1->bp, nu1->pntsu); MEM_freeN(nu1->bp); nu1->bp = bp; /* a = nu1->pntsu + nu1->orderu; */ /* UNUSED */ nu1->pntsu += nu2->pntsu; BLI_remlink(nubase, nu2); /* now join the knots */ if (nu1->type == CU_NURBS) { if (nu1->knotsu != NULL) { MEM_freeN(nu1->knotsu); nu1->knotsu = NULL; } BKE_nurb_knot_calc_u(nu1); } BKE_nurb_free(nu2); nu2 = NULL; } set_actNurb(obedit, nu1); /* for selected */ ok = 1; } } else if (nu1 && !nu2) { if (!(nu1->flagu & CU_NURB_CYCLIC) && nu1->pntsu > 1) { if (nu1->type == CU_BEZIER && BEZSELECTED_HIDDENHANDLES(cu, nu1->bezt) && BEZSELECTED_HIDDENHANDLES(cu, &nu1->bezt[nu1->pntsu - 1])) { nu1->flagu |= CU_NURB_CYCLIC; BKE_nurb_handles_calc(nu1); ok = 1; } else if (nu1->type == CU_NURBS && nu1->bp->f1 & SELECT && (nu1->bp[nu1->pntsu - 1].f1 & SELECT)) { nu1->flagu |= CU_NURB_CYCLIC; BKE_nurb_knot_calc_u(nu1); ok = 1; } } } if (!ok) { BKE_report(op->reports, RPT_ERROR, "Cannot make segment"); return OPERATOR_CANCELLED; } if (ED_curve_updateAnimPaths(obedit->data)) WM_event_add_notifier(C, NC_OBJECT | ND_KEYS, obedit); WM_event_add_notifier(C, NC_GEOM | ND_DATA, obedit->data); DAG_id_tag_update(obedit->data, 0); return OPERATOR_FINISHED; } void CURVE_OT_make_segment(wmOperatorType *ot) { /* identifiers */ ot->name = "Make Segment"; ot->idname = "CURVE_OT_make_segment"; ot->description = "Join two curves by their selected ends"; /* api callbacks */ ot->exec = make_segment_exec; ot->poll = ED_operator_editsurfcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } /***************** pick select from 3d view **********************/ bool mouse_nurb(bContext *C, const int mval[2], bool extend, bool deselect, bool toggle) { Object *obedit = CTX_data_edit_object(C); Curve *cu = obedit->data; ListBase *editnurb = object_editcurve_get(obedit); ViewContext vc; Nurb *nu; BezTriple *bezt = NULL; BPoint *bp = NULL; int location[2]; short hand; view3d_operator_needs_opengl(C); view3d_set_viewcontext(C, &vc); location[0] = mval[0]; location[1] = mval[1]; hand = findnearestNurbvert(&vc, 1, location, &nu, &bezt, &bp); if (bezt || bp) { if (extend) { if (bezt) { if (hand == 1) { select_beztriple(bezt, SELECT, SELECT, HIDDEN); cu->lastsel = bezt; } else { if (hand == 0) bezt->f1 |= SELECT; else bezt->f3 |= SELECT; cu->lastsel = NULL; } } else { cu->lastsel = bp; select_bpoint(bp, SELECT, SELECT, HIDDEN); } } else if (deselect) { if (bezt) { if (hand == 1) { select_beztriple(bezt, DESELECT, SELECT, HIDDEN); if (bezt == cu->lastsel) cu->lastsel = NULL; } else if (hand == 0) { bezt->f1 &= ~SELECT; } else { bezt->f3 &= ~SELECT; } } else { select_bpoint(bp, DESELECT, SELECT, HIDDEN); if (cu->lastsel == bp) cu->lastsel = NULL; } } else if (toggle) { if (bezt) { if (hand == 1) { if (bezt->f2 & SELECT) { select_beztriple(bezt, DESELECT, SELECT, HIDDEN); if (bezt == cu->lastsel) cu->lastsel = NULL; } else { select_beztriple(bezt, SELECT, SELECT, HIDDEN); cu->lastsel = bezt; } } else if (hand == 0) { bezt->f1 ^= SELECT; } else { bezt->f3 ^= SELECT; } } else { if (bp->f1 & SELECT) { select_bpoint(bp, DESELECT, SELECT, HIDDEN); if (cu->lastsel == bp) cu->lastsel = NULL; } else { select_bpoint(bp, SELECT, SELECT, HIDDEN); cu->lastsel = bp; } } } else { BKE_nurbList_flag_set(editnurb, 0); if (bezt) { if (hand == 1) { select_beztriple(bezt, SELECT, SELECT, HIDDEN); cu->lastsel = bezt; } else { if (hand == 0) bezt->f1 |= SELECT; else bezt->f3 |= SELECT; cu->lastsel = NULL; } } else { cu->lastsel = bp; select_bpoint(bp, SELECT, SELECT, HIDDEN); } } if (nu != get_actNurb(obedit)) set_actNurb(obedit, nu); WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit->data); return true; } return false; } /******************** spin operator ***********************/ /* 'cent' is in object space and 'dvec' in worldspace. */ bool ed_editnurb_spin(float viewmat[4][4], Object *obedit, const float axis[3], const float cent[3]) { Curve *cu = (Curve *)obedit->data; ListBase *editnurb = object_editcurve_get(obedit); Nurb *nu; float si, phi, n[3], q[4], cmat[3][3], tmat[3][3], imat[3][3]; float bmat[3][3], rotmat[3][3], scalemat1[3][3], scalemat2[3][3]; float persmat[3][3], persinv[3][3]; bool ok, changed = false; int a; copy_m3_m4(persmat, viewmat); invert_m3_m3(persinv, persmat); /* imat and center and size */ copy_m3_m4(bmat, obedit->obmat); invert_m3_m3(imat, bmat); normalize_v3_v3(n, axis); /* TODO - use math func */ phi = M_PI / 8.0; q[0] = cos(phi); si = sin(phi); q[1] = n[0] * si; q[2] = n[1] * si; q[3] = n[2] * si; quat_to_mat3(cmat, q); mul_m3_m3m3(tmat, cmat, bmat); mul_m3_m3m3(rotmat, imat, tmat); unit_m3(scalemat1); scalemat1[0][0] = M_SQRT2; scalemat1[1][1] = M_SQRT2; mul_m3_m3m3(tmat, persmat, bmat); mul_m3_m3m3(cmat, scalemat1, tmat); mul_m3_m3m3(tmat, persinv, cmat); mul_m3_m3m3(scalemat1, imat, tmat); unit_m3(scalemat2); scalemat2[0][0] /= (float)M_SQRT2; scalemat2[1][1] /= (float)M_SQRT2; mul_m3_m3m3(tmat, persmat, bmat); mul_m3_m3m3(cmat, scalemat2, tmat); mul_m3_m3m3(tmat, persinv, cmat); mul_m3_m3m3(scalemat2, imat, tmat); ok = true; for (a = 0; a < 7; a++) { ok = ed_editnurb_extrude_flag(cu->editnurb, 1); if (ok == false) return changed; changed = true; rotateflagNurb(editnurb, SELECT, cent, rotmat); if ((a & 1) == 0) { rotateflagNurb(editnurb, SELECT, cent, scalemat1); weightflagNurb(editnurb, SELECT, 0.25 * M_SQRT2); } else { rotateflagNurb(editnurb, SELECT, cent, scalemat2); weightflagNurb(editnurb, SELECT, 4.0 / M_SQRT2); } } if (ok) { for (nu = editnurb->first; nu; nu = nu->next) { if (isNurbsel(nu)) { nu->orderv = 4; nu->flagv |= CU_NURB_CYCLIC; BKE_nurb_knot_calc_v(nu); } } } return changed; } static int spin_exec(bContext *C, wmOperator *op) { Object *obedit = CTX_data_edit_object(C); RegionView3D *rv3d = ED_view3d_context_rv3d(C); float cent[3], axis[3], viewmat[4][4]; RNA_float_get_array(op->ptr, "center", cent); RNA_float_get_array(op->ptr, "axis", axis); invert_m4_m4(obedit->imat, obedit->obmat); mul_m4_v3(obedit->imat, cent); if (rv3d) copy_m4_m4(viewmat, rv3d->viewmat); else unit_m4(viewmat); if (!ed_editnurb_spin(viewmat, obedit, axis, cent)) { BKE_report(op->reports, RPT_ERROR, "Cannot spin"); return OPERATOR_CANCELLED; } if (ED_curve_updateAnimPaths(obedit->data)) WM_event_add_notifier(C, NC_OBJECT | ND_KEYS, obedit); WM_event_add_notifier(C, NC_GEOM | ND_DATA, obedit->data); DAG_id_tag_update(obedit->data, 0); return OPERATOR_FINISHED; } static int spin_invoke(bContext *C, wmOperator *op, const wmEvent *UNUSED(event)) { Scene *scene = CTX_data_scene(C); View3D *v3d = CTX_wm_view3d(C); RegionView3D *rv3d = ED_view3d_context_rv3d(C); float axis[3] = {0.0f, 0.0f, 1.0f}; if (rv3d) copy_v3_v3(axis, rv3d->viewinv[2]); RNA_float_set_array(op->ptr, "center", ED_view3d_cursor3d_get(scene, v3d)); RNA_float_set_array(op->ptr, "axis", axis); return spin_exec(C, op); } void CURVE_OT_spin(wmOperatorType *ot) { /* identifiers */ ot->name = "Spin"; ot->idname = "CURVE_OT_spin"; ot->description = "Extrude selected boundary row around pivot point and current view axis"; /* api callbacks */ ot->exec = spin_exec; ot->invoke = spin_invoke; ot->poll = ED_operator_editsurf; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; RNA_def_float_vector_xyz(ot->srna, "center", 3, NULL, -FLT_MAX, FLT_MAX, "Center", "Center in global view space", -FLT_MAX, FLT_MAX); RNA_def_float_vector(ot->srna, "axis", 3, NULL, -FLT_MAX, FLT_MAX, "Axis", "Axis in global view space", -1.0f, 1.0f); } /***************** add vertex operator **********************/ static int addvert_Nurb(bContext *C, short mode, float location[3]) { Object *obedit = CTX_data_edit_object(C); Curve *cu = (Curve *)obedit->data; EditNurb *editnurb = cu->editnurb; Nurb *nu, *newnu = NULL; BezTriple *bezt, *newbezt = NULL; BPoint *bp, *newbp = NULL; float imat[4][4], temp[3]; int ok = 0; BezTriple *bezt_recalc[3] = {NULL}; invert_m4_m4(imat, obedit->obmat); findselectedNurbvert(&editnurb->nurbs, &nu, &bezt, &bp); if ((nu == NULL) || (nu->type == CU_BEZIER && bezt == NULL) || (nu->type != CU_BEZIER && bp == NULL)) { if (mode != 'e') { if (cu->actnu >= 0) nu = BLI_findlink(&editnurb->nurbs, cu->actnu); if (!nu || nu->type == CU_BEZIER) { newbezt = (BezTriple *)MEM_callocN(sizeof(BezTriple), "addvert_Nurb"); newbezt->radius = 1; newbezt->alfa = 0; BEZ_SEL(newbezt); newbezt->h2 = newbezt->h1 = HD_AUTO; newnu = (Nurb *)MEM_callocN(sizeof(Nurb), "addvert_Nurb newnu"); if (!nu) { /* no selected segment -- create new one which is BEZIER type * type couldn't be determined from Curve bt could be changed * in the future, so shouldn't make much headache */ newnu->type = CU_BEZIER; newnu->resolu = cu->resolu; newnu->flag |= CU_SMOOTH; } else { memcpy(newnu, nu, sizeof(Nurb)); } BLI_addtail(&editnurb->nurbs, newnu); set_actNurb(obedit, newnu); newnu->bezt = newbezt; newnu->pntsu = 1; temp[0] = 1; temp[1] = 0; temp[2] = 0; copy_v3_v3(newbezt->vec[1], location); sub_v3_v3v3(newbezt->vec[0], newbezt->vec[1], temp); add_v3_v3v3(newbezt->vec[2], newbezt->vec[1], temp); mul_m4_v3(imat, newbezt->vec[0]); mul_m4_v3(imat, newbezt->vec[1]); mul_m4_v3(imat, newbezt->vec[2]); ok = 1; nu = newnu; } else if (nu->pntsv == 1) { newbp = (BPoint *)MEM_callocN(sizeof(BPoint), "addvert_Nurb5"); newbp->radius = 1; newbp->alfa = 0; newbp->f1 |= SELECT; cu->lastsel = newbp; newnu = (Nurb *)MEM_mallocN(sizeof(Nurb), "addvert_Nurb newnu"); memcpy(newnu, nu, sizeof(Nurb)); BLI_addtail(&editnurb->nurbs, newnu); set_actNurb(obedit, newnu); newnu->bp = newbp; newnu->orderu = 2; newnu->pntsu = 1; mul_v3_m4v3(newbp->vec, imat, location); newbp->vec[3] = 1.0; newnu->knotsu = newnu->knotsv = NULL; BKE_nurb_knot_calc_u(newnu); ok = 1; nu = newnu; } } if (!ok) return OPERATOR_CANCELLED; } if (!ok && nu->type == CU_BEZIER) { /* which bezpoint? */ if (bezt == &nu->bezt[nu->pntsu - 1]) { /* last */ BEZ_DESEL(bezt); newbezt = (BezTriple *)MEM_callocN((nu->pntsu + 1) * sizeof(BezTriple), "addvert_Nurb"); ED_curve_beztcpy(editnurb, newbezt, nu->bezt, nu->pntsu); newbezt[nu->pntsu] = *bezt; copy_v3_v3(temp, bezt->vec[1]); MEM_freeN(nu->bezt); nu->bezt = newbezt; newbezt += nu->pntsu; BEZ_SEL(newbezt); cu->lastsel = newbezt; newbezt->h1 = newbezt->h2; bezt = &nu->bezt[nu->pntsu - 1]; ok = 1; if (nu->pntsu > 1) { bezt_recalc[1] = newbezt; bezt_recalc[0] = newbezt - 1; } } else if (bezt == nu->bezt) { /* first */ BEZ_DESEL(bezt); newbezt = (BezTriple *)MEM_callocN((nu->pntsu + 1) * sizeof(BezTriple), "addvert_Nurb"); ED_curve_beztcpy(editnurb, newbezt + 1, bezt, nu->pntsu); *newbezt = *bezt; BEZ_SEL(newbezt); cu->lastsel = newbezt; newbezt->h2 = newbezt->h1; copy_v3_v3(temp, bezt->vec[1]); MEM_freeN(nu->bezt); nu->bezt = newbezt; bezt = newbezt + 1; ok = 1; if (nu->pntsu > 1) { bezt_recalc[1] = newbezt; bezt_recalc[2] = newbezt + 1; } } else if (mode != 'e') { BEZ_DESEL(bezt); newbezt = (BezTriple *)MEM_callocN(sizeof(BezTriple), "addvert_Nurb"); *newbezt = *bezt; BEZ_SEL(newbezt); newbezt->h2 = newbezt->h1; copy_v3_v3(temp, bezt->vec[1]); newnu = (Nurb *)MEM_mallocN(sizeof(Nurb), "addvert_Nurb newnu"); memcpy(newnu, nu, sizeof(Nurb)); BLI_addtail(&editnurb->nurbs, newnu); set_actNurb(obedit, newnu); newnu->bezt = newbezt; newnu->pntsu = 1; cu->lastsel = newbezt; bezt = newbezt; ok = 1; } else { bezt = NULL; } if (bezt) { if (!newnu) nu->pntsu++; if (mode == 'e') { copy_v3_v3(newbezt->vec[0], bezt->vec[0]); copy_v3_v3(newbezt->vec[1], bezt->vec[1]); copy_v3_v3(newbezt->vec[2], bezt->vec[2]); } else { mul_v3_m4v3(newbezt->vec[1], imat, location); sub_v3_v3v3(temp, newbezt->vec[1], temp); if (bezt_recalc[1]) { const char h1 = bezt_recalc[1]->h1, h2 = bezt_recalc[1]->h2; bezt_recalc[1]->h1 = bezt_recalc[1]->h2 = HD_AUTO; BKE_nurb_handle_calc(bezt_recalc[1], bezt_recalc[0], bezt_recalc[2], 0); bezt_recalc[1]->h1 = h1; bezt_recalc[1]->h2 = h2; } else { add_v3_v3v3(newbezt->vec[0], bezt->vec[0], temp); add_v3_v3v3(newbezt->vec[2], bezt->vec[2], temp); } if (newnu) BKE_nurb_handles_calc(newnu); else BKE_nurb_handles_calc(nu); } } } else if (!ok && nu->pntsv == 1) { /* which b-point? */ if (bp == &nu->bp[nu->pntsu - 1]) { /* last */ bp->f1 = 0; newbp = (BPoint *)MEM_callocN((nu->pntsu + 1) * sizeof(BPoint), "addvert_Nurb4"); ED_curve_bpcpy(editnurb, newbp, nu->bp, nu->pntsu); newbp[nu->pntsu] = *bp; MEM_freeN(nu->bp); nu->bp = newbp; newbp += nu->pntsu; newbp->f1 |= SELECT; cu->lastsel = newbp; bp = newbp - 1; ok = 1; } else if (bp == nu->bp) { /* first */ bp->f1 = 0; newbp = (BPoint *)MEM_callocN((nu->pntsu + 1) * sizeof(BPoint), "addvert_Nurb3"); ED_curve_bpcpy(editnurb, newbp + 1, bp, nu->pntsu); *newbp = *bp; newbp->f1 |= SELECT; cu->lastsel = newbp; MEM_freeN(nu->bp); nu->bp = newbp; bp = newbp + 1; ok = 1; } else if (mode != 'e') { bp->f1 = 0; newbp = (BPoint *)MEM_callocN(sizeof(BPoint), "addvert_Nurb5"); *newbp = *bp; newbp->f1 |= SELECT; cu->lastsel = newbp; newnu = (Nurb *)MEM_mallocN(sizeof(Nurb), "addvert_Nurb newnu"); memcpy(newnu, nu, sizeof(Nurb)); BLI_addtail(&editnurb->nurbs, newnu); set_actNurb(obedit, newnu); newnu->bp = newbp; newnu->orderu = 2; newnu->pntsu = 1; newnu->knotsu = newnu->knotsv = NULL; bp = newbp; ok = 1; } else { bp = NULL; } if (bp) { if (mode == 'e') { copy_v3_v3(newbp->vec, bp->vec); } else { mul_v3_m4v3(newbp->vec, imat, location); newbp->vec[3] = 1.0; if (!newnu && nu->orderu < 4 && nu->orderu <= nu->pntsu) nu->orderu++; } if (!newnu) { nu->pntsu++; BKE_nurb_knot_calc_u(nu); } else { BKE_nurb_knot_calc_u(newnu); } } } if (ok) { BKE_nurb_test2D(nu); if (ED_curve_updateAnimPaths(obedit->data)) WM_event_add_notifier(C, NC_OBJECT | ND_KEYS, obedit); WM_event_add_notifier(C, NC_GEOM | ND_DATA, obedit->data); DAG_id_tag_update(obedit->data, 0); return OPERATOR_FINISHED; } return OPERATOR_CANCELLED; } static int add_vertex_exec(bContext *C, wmOperator *op) { float location[3]; RNA_float_get_array(op->ptr, "location", location); return addvert_Nurb(C, 0, location); } static int add_vertex_invoke(bContext *C, wmOperator *op, const wmEvent *event) { ViewContext vc; view3d_set_viewcontext(C, &vc); if (vc.rv3d && !RNA_struct_property_is_set(op->ptr, "location")) { Curve *cu; float location[3]; const bool use_proj = ((vc.scene->toolsettings->snap_flag & SCE_SNAP) && (vc.scene->toolsettings->snap_mode == SCE_SNAP_MODE_FACE)); Nurb *nu; BezTriple *bezt; BPoint *bp; cu = vc.obedit->data; findselectedNurbvert(&cu->editnurb->nurbs, &nu, &bezt, &bp); if (bezt) { mul_v3_m4v3(location, vc.obedit->obmat, bezt->vec[1]); } else if (bp) { mul_v3_m4v3(location, vc.obedit->obmat, bp->vec); } else { copy_v3_v3(location, ED_view3d_cursor3d_get(vc.scene, vc.v3d)); } ED_view3d_win_to_3d_int(vc.ar, location, event->mval, location); if (use_proj) { const float mval[2] = {UNPACK2(event->mval)}; float no_dummy[3]; float dist_px_dummy; snapObjectsContext(C, mval, &dist_px_dummy, location, no_dummy, SNAP_NOT_OBEDIT); } RNA_float_set_array(op->ptr, "location", location); } return add_vertex_exec(C, op); } void CURVE_OT_vertex_add(wmOperatorType *ot) { /* identifiers */ ot->name = "Add Vertex"; ot->idname = "CURVE_OT_vertex_add"; ot->description = "Add a new control point (linked to only selected end-curve one, if any)"; /* api callbacks */ ot->exec = add_vertex_exec; ot->invoke = add_vertex_invoke; ot->poll = ED_operator_editcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* properties */ RNA_def_float_vector_xyz(ot->srna, "location", 3, NULL, -FLT_MAX, FLT_MAX, "Location", "Location to add new vertex at", -1e4, 1e4); } /***************** extrude operator **********************/ static int extrude_exec(bContext *C, wmOperator *UNUSED(op)) { Object *obedit = CTX_data_edit_object(C); Curve *cu = obedit->data; EditNurb *editnurb = cu->editnurb; Nurb *nu; /* first test: curve? */ for (nu = editnurb->nurbs.first; nu; nu = nu->next) if (nu->pntsv == 1 && isNurbsel_count(cu, nu) == 1) break; if (obedit->type == OB_CURVE || nu) { addvert_Nurb(C, 'e', NULL); } else { if (ed_editnurb_extrude_flag(editnurb, 1)) { /* '1'= flag */ if (ED_curve_updateAnimPaths(obedit->data)) WM_event_add_notifier(C, NC_OBJECT | ND_KEYS, obedit); WM_event_add_notifier(C, NC_GEOM | ND_DATA, obedit->data); DAG_id_tag_update(obedit->data, 0); } } return OPERATOR_FINISHED; } void CURVE_OT_extrude(wmOperatorType *ot) { /* identifiers */ ot->name = "Extrude"; ot->description = "Extrude selected control point(s)"; ot->idname = "CURVE_OT_extrude"; /* api callbacks */ ot->exec = extrude_exec; ot->poll = ED_operator_editsurfcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* to give to transform */ RNA_def_enum(ot->srna, "mode", transform_mode_types, TFM_TRANSLATION, "Mode", ""); } /***************** make cyclic operator **********************/ static int toggle_cyclic_exec(bContext *C, wmOperator *op) { Object *obedit = CTX_data_edit_object(C); Curve *cu = obedit->data; ListBase *editnurb = object_editcurve_get(obedit); Nurb *nu; BezTriple *bezt; BPoint *bp; int a, direction = RNA_enum_get(op->ptr, "direction"); for (nu = editnurb->first; nu; nu = nu->next) { if (nu->pntsu > 1 || nu->pntsv > 1) { if (nu->type == CU_POLY) { a = nu->pntsu; bp = nu->bp; while (a--) { if (bp->f1 & SELECT) { nu->flagu ^= CU_NURB_CYCLIC; break; } bp++; } } else if (nu->type == CU_BEZIER) { a = nu->pntsu; bezt = nu->bezt; while (a--) { if (BEZSELECTED_HIDDENHANDLES(cu, bezt)) { nu->flagu ^= CU_NURB_CYCLIC; break; } bezt++; } BKE_nurb_handles_calc(nu); } else if (nu->pntsv == 1 && nu->type == CU_NURBS) { if (nu->knotsu) { /* if check_valid_nurb_u fails the knotsu can be NULL */ a = nu->pntsu; bp = nu->bp; while (a--) { if (bp->f1 & SELECT) { nu->flagu ^= CU_NURB_CYCLIC; BKE_nurb_knot_calc_u(nu); /* 1==u type is ignored for cyclic curves */ break; } bp++; } } } else if (nu->type == CU_NURBS) { a = nu->pntsu * nu->pntsv; bp = nu->bp; while (a--) { if (bp->f1 & SELECT) { if (direction == 0 && nu->pntsu > 1) { nu->flagu ^= CU_NURB_CYCLIC; BKE_nurb_knot_calc_u(nu); /* 1==u type is ignored for cyclic curves */ } if (direction == 1 && nu->pntsv > 1) { nu->flagv ^= CU_NURB_CYCLIC; BKE_nurb_knot_calc_v(nu); /* 2==v type is ignored for cyclic curves */ } break; } bp++; } } } } WM_event_add_notifier(C, NC_GEOM | ND_DATA, obedit->data); DAG_id_tag_update(obedit->data, 0); return OPERATOR_FINISHED; } static int toggle_cyclic_invoke(bContext *C, wmOperator *op, const wmEvent *UNUSED(event)) { Object *obedit = CTX_data_edit_object(C); ListBase *editnurb = object_editcurve_get(obedit); uiPopupMenu *pup; uiLayout *layout; Nurb *nu; if (obedit->type == OB_SURF) { for (nu = editnurb->first; nu; nu = nu->next) { if (nu->pntsu > 1 || nu->pntsv > 1) { if (nu->type == CU_NURBS) { pup = uiPupMenuBegin(C, IFACE_("Direction"), ICON_NONE); layout = uiPupMenuLayout(pup); uiItemsEnumO(layout, op->type->idname, "direction"); uiPupMenuEnd(C, pup); return OPERATOR_CANCELLED; } } } } return toggle_cyclic_exec(C, op); } void CURVE_OT_cyclic_toggle(wmOperatorType *ot) { static EnumPropertyItem direction_items[] = { {0, "CYCLIC_U", 0, "Cyclic U", ""}, {1, "CYCLIC_V", 0, "Cyclic V", ""}, {0, NULL, 0, NULL, NULL} }; /* identifiers */ ot->name = "Toggle Cyclic"; ot->description = "Make active spline closed/opened loop"; ot->idname = "CURVE_OT_cyclic_toggle"; /* api callbacks */ ot->exec = toggle_cyclic_exec; ot->invoke = toggle_cyclic_invoke; ot->poll = ED_operator_editsurfcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* properties */ RNA_def_enum(ot->srna, "direction", direction_items, 0, "Direction", "Direction to make surface cyclic in"); } /***************** select linked operator ******************/ static int select_linked_exec(bContext *C, wmOperator *UNUSED(op)) { Object *obedit = CTX_data_edit_object(C); Curve *cu = (Curve *)obedit->data; EditNurb *editnurb = cu->editnurb; ListBase *nurbs = &editnurb->nurbs; Nurb *nu; BezTriple *bezt; BPoint *bp; int a; for (nu = nurbs->first; nu; nu = nu->next) { if (nu->type == CU_BEZIER) { bezt = nu->bezt; a = nu->pntsu; while (a--) { if ((bezt->f1 & SELECT) || (bezt->f2 & SELECT) || (bezt->f3 & SELECT)) { a = nu->pntsu; bezt = nu->bezt; while (a--) { select_beztriple(bezt, SELECT, SELECT, VISIBLE); bezt++; } break; } bezt++; } } else { bp = nu->bp; a = nu->pntsu * nu->pntsv; while (a--) { if (bp->f1 & SELECT) { a = nu->pntsu * nu->pntsv; bp = nu->bp; while (a--) { select_bpoint(bp, SELECT, SELECT, VISIBLE); bp++; } break; } bp++; } } } WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit->data); return OPERATOR_FINISHED; } static int select_linked_invoke(bContext *C, wmOperator *op, const wmEvent *UNUSED(event)) { return select_linked_exec(C, op); } void CURVE_OT_select_linked(wmOperatorType *ot) { /* identifiers */ ot->name = "Select Linked All"; ot->idname = "CURVE_OT_select_linked"; ot->description = "Select all control points linked to active one"; /* api callbacks */ ot->exec = select_linked_exec; ot->invoke = select_linked_invoke; ot->poll = ED_operator_editsurfcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* properties */ } /***************** select linked pick operator ******************/ static int select_linked_pick_invoke(bContext *C, wmOperator *op, const wmEvent *event) { Object *obedit = CTX_data_edit_object(C); ViewContext vc; Nurb *nu; BezTriple *bezt; BPoint *bp; int a, deselect; deselect = RNA_boolean_get(op->ptr, "deselect"); view3d_operator_needs_opengl(C); view3d_set_viewcontext(C, &vc); findnearestNurbvert(&vc, 1, event->mval, &nu, &bezt, &bp); if (bezt) { a = nu->pntsu; bezt = nu->bezt; while (a--) { if (deselect) select_beztriple(bezt, DESELECT, SELECT, VISIBLE); else select_beztriple(bezt, SELECT, SELECT, VISIBLE); bezt++; } } else if (bp) { a = nu->pntsu * nu->pntsv; bp = nu->bp; while (a--) { if (deselect) select_bpoint(bp, DESELECT, SELECT, VISIBLE); else select_bpoint(bp, SELECT, SELECT, VISIBLE); bp++; } } WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit->data); return OPERATOR_FINISHED; } void CURVE_OT_select_linked_pick(wmOperatorType *ot) { /* identifiers */ ot->name = "Select Linked"; ot->idname = "CURVE_OT_select_linked_pick"; ot->description = "Select all control points linked to already selected ones"; /* api callbacks */ ot->invoke = select_linked_pick_invoke; ot->poll = ED_operator_editsurfcurve_region_view3d; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* properties */ RNA_def_boolean(ot->srna, "deselect", 0, "Deselect", "Deselect linked control points rather than selecting them"); } /***************** select row operator **********************/ static int select_row_exec(bContext *C, wmOperator *UNUSED(op)) { Object *obedit = CTX_data_edit_object(C); Curve *cu = obedit->data; ListBase *editnurb = object_editcurve_get(obedit); static BPoint *last = NULL; static int direction = 0; Nurb *nu; BPoint *bp; int u = 0, v = 0, a, b, ok = 0; if (editnurb->first == NULL) return OPERATOR_CANCELLED; if (cu->lastsel == NULL) return OPERATOR_CANCELLED; /* find the correct nurb and toggle with u of v */ for (nu = editnurb->first; nu; nu = nu->next) { bp = nu->bp; for (v = 0; v < nu->pntsv; v++) { for (u = 0; u < nu->pntsu; u++, bp++) { if (bp == cu->lastsel) { if (bp->f1 & SELECT) { ok = 1; break; } } } if (ok) break; } if (ok) { if (last == cu->lastsel) { direction = 1 - direction; BKE_nurbList_flag_set(editnurb, 0); } last = cu->lastsel; bp = nu->bp; for (a = 0; a < nu->pntsv; a++) { for (b = 0; b < nu->pntsu; b++, bp++) { if (direction) { if (a == v) select_bpoint(bp, SELECT, SELECT, VISIBLE); } else { if (b == u) select_bpoint(bp, SELECT, SELECT, VISIBLE); } } } break; } } WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit->data); return OPERATOR_FINISHED; } void CURVE_OT_select_row(wmOperatorType *ot) { /* identifiers */ ot->name = "Select Control Point Row"; ot->idname = "CURVE_OT_select_row"; ot->description = "Select a row of control points including active one"; /* api callbacks */ ot->exec = select_row_exec; ot->poll = ED_operator_editsurf; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } /***************** select next operator **********************/ static int select_next_exec(bContext *C, wmOperator *UNUSED(op)) { Object *obedit = CTX_data_edit_object(C); ListBase *editnurb = object_editcurve_get(obedit); select_adjacent_cp(editnurb, 1, 0, SELECT); WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit->data); return OPERATOR_FINISHED; } void CURVE_OT_select_next(wmOperatorType *ot) { /* identifiers */ ot->name = "Select Next"; ot->idname = "CURVE_OT_select_next"; ot->description = "Select control points following already selected ones along the curves"; /* api callbacks */ ot->exec = select_next_exec; ot->poll = ED_operator_editcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } /***************** select previous operator **********************/ static int select_previous_exec(bContext *C, wmOperator *UNUSED(op)) { Object *obedit = CTX_data_edit_object(C); ListBase *editnurb = object_editcurve_get(obedit); select_adjacent_cp(editnurb, -1, 0, SELECT); WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit->data); return OPERATOR_FINISHED; } void CURVE_OT_select_previous(wmOperatorType *ot) { /* identifiers */ ot->name = "Select Previous"; ot->idname = "CURVE_OT_select_previous"; ot->description = "Select control points preceding already selected ones along the curves"; /* api callbacks */ ot->exec = select_previous_exec; ot->poll = ED_operator_editcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } /***************** select more operator **********************/ static int select_more_exec(bContext *C, wmOperator *UNUSED(op)) { Object *obedit = CTX_data_edit_object(C); ListBase *editnurb = object_editcurve_get(obedit); Nurb *nu; BPoint *bp, *tempbp; int a; short sel = 0; /* note that NURBS surface is a special case because we mimic */ /* the behavior of "select more" of mesh tools. */ /* The algorithm is designed to work in planar cases so it */ /* may not be optimal always (example: end of NURBS sphere) */ if (obedit->type == OB_SURF) { for (nu = editnurb->first; nu; nu = nu->next) { BLI_bitmap *selbpoints; a = nu->pntsu * nu->pntsv; bp = nu->bp; selbpoints = BLI_BITMAP_NEW(a, "selectlist"); while (a > 0) { if ((!BLI_BITMAP_GET(selbpoints, a)) && (bp->hide == 0) && (bp->f1 & SELECT)) { /* upper control point */ if (a % nu->pntsu != 0) { tempbp = bp - 1; if (!(tempbp->f1 & SELECT)) select_bpoint(tempbp, SELECT, SELECT, VISIBLE); } /* left control point. select only if it is not selected already */ if (a - nu->pntsu > 0) { sel = 0; tempbp = bp + nu->pntsu; if (!(tempbp->f1 & SELECT)) sel = select_bpoint(tempbp, SELECT, SELECT, VISIBLE); /* make sure selected bpoint is discarded */ if (sel == 1) BLI_BITMAP_SET(selbpoints, a - nu->pntsu); } /* right control point */ if (a + nu->pntsu < nu->pntsu * nu->pntsv) { tempbp = bp - nu->pntsu; if (!(tempbp->f1 & SELECT)) select_bpoint(tempbp, SELECT, SELECT, VISIBLE); } /* lower control point. skip next bp in case selection was made */ if (a % nu->pntsu != 1) { sel = 0; tempbp = bp + 1; if (!(tempbp->f1 & SELECT)) sel = select_bpoint(tempbp, SELECT, SELECT, VISIBLE); if (sel) { bp++; a--; } } } bp++; a--; } MEM_freeN(selbpoints); } } else { select_adjacent_cp(editnurb, 1, 0, SELECT); select_adjacent_cp(editnurb, -1, 0, SELECT); } WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit->data); return OPERATOR_FINISHED; } void CURVE_OT_select_more(wmOperatorType *ot) { /* identifiers */ ot->name = "Select More"; ot->idname = "CURVE_OT_select_more"; ot->description = "Select control points directly linked to already selected ones"; /* api callbacks */ ot->exec = select_more_exec; ot->poll = ED_operator_editsurfcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } /******************** select less operator *****************/ /* basic method: deselect if control point doesn't have all neighbors selected */ static int select_less_exec(bContext *C, wmOperator *UNUSED(op)) { Object *obedit = CTX_data_edit_object(C); ListBase *editnurb = object_editcurve_get(obedit); Nurb *nu; BPoint *bp; BezTriple *bezt; int a; short sel = 0, lastsel = false; if (obedit->type == OB_SURF) { for (nu = editnurb->first; nu; nu = nu->next) { BLI_bitmap *selbpoints; a = nu->pntsu * nu->pntsv; bp = nu->bp; selbpoints = BLI_BITMAP_NEW(a, "selectlist"); while (a--) { if ((bp->hide == 0) && (bp->f1 & SELECT)) { sel = 0; /* check if neighbors have been selected */ /* edges of surface are an exception */ if ((a + 1) % nu->pntsu == 0) { sel++; } else { bp--; if (BLI_BITMAP_GET(selbpoints, a + 1) || ((bp->hide == 0) && (bp->f1 & SELECT))) sel++; bp++; } if ((a + 1) % nu->pntsu == 1) { sel++; } else { bp++; if ((bp->hide == 0) && (bp->f1 & SELECT)) sel++; bp--; } if (a + 1 > nu->pntsu * nu->pntsv - nu->pntsu) { sel++; } else { bp -= nu->pntsu; if (BLI_BITMAP_GET(selbpoints, a + nu->pntsu) || ((bp->hide == 0) && (bp->f1 & SELECT))) sel++; bp += nu->pntsu; } if (a < nu->pntsu) { sel++; } else { bp += nu->pntsu; if ((bp->hide == 0) && (bp->f1 & SELECT)) sel++; bp -= nu->pntsu; } if (sel != 4) { select_bpoint(bp, DESELECT, SELECT, VISIBLE); BLI_BITMAP_SET(selbpoints, a); } } else { lastsel = false; } bp++; } MEM_freeN(selbpoints); } } else { for (nu = editnurb->first; nu; nu = nu->next) { lastsel = false; /* check what type of curve/nurb it is */ if (nu->type == CU_BEZIER) { a = nu->pntsu; bezt = nu->bezt; while (a--) { if ((bezt->hide == 0) && (bezt->f2 & SELECT)) { sel = (lastsel == 1); /* check if neighbors have been selected */ /* first and last are exceptions */ if (a == nu->pntsu - 1) { sel++; } else { bezt--; if ((bezt->hide == 0) && (bezt->f2 & SELECT)) sel++; bezt++; } if (a == 0) { sel++; } else { bezt++; if ((bezt->hide == 0) && (bezt->f2 & SELECT)) sel++; bezt--; } if (sel != 2) { select_beztriple(bezt, DESELECT, SELECT, VISIBLE); lastsel = true; } else { lastsel = false; } } else { lastsel = false; } bezt++; } } else { a = nu->pntsu * nu->pntsv; bp = nu->bp; while (a--) { if ((lastsel == 0) && (bp->hide == 0) && (bp->f1 & SELECT)) { if (lastsel != 0) sel = 1; else sel = 0; /* first and last are exceptions */ if (a == nu->pntsu * nu->pntsv - 1) { sel++; } else { bp--; if ((bp->hide == 0) && (bp->f1 & SELECT)) sel++; bp++; } if (a == 0) { sel++; } else { bp++; if ((bp->hide == 0) && (bp->f1 & SELECT)) sel++; bp--; } if (sel != 2) { select_bpoint(bp, DESELECT, SELECT, VISIBLE); lastsel = true; } else { lastsel = false; } } else { lastsel = false; } bp++; } } } } WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit->data); return OPERATOR_FINISHED; } void CURVE_OT_select_less(wmOperatorType *ot) { /* identifiers */ ot->name = "Select Less"; ot->idname = "CURVE_OT_select_less"; ot->description = "Reduce current selection by deselecting boundary elements"; /* api callbacks */ ot->exec = select_less_exec; ot->poll = ED_operator_editsurfcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } /********************** select random *********************/ static void selectrandom_curve(ListBase *editnurb, float randfac) { Nurb *nu; BezTriple *bezt; BPoint *bp; int a; for (nu = editnurb->first; nu; nu = nu->next) { if (nu->type == CU_BEZIER) { bezt = nu->bezt; a = nu->pntsu; while (a--) { if (BLI_frand() < randfac) select_beztriple(bezt, SELECT, SELECT, VISIBLE); bezt++; } } else { bp = nu->bp; a = nu->pntsu * nu->pntsv; while (a--) { if (BLI_frand() < randfac) select_bpoint(bp, SELECT, SELECT, VISIBLE); bp++; } } } } static int select_random_exec(bContext *C, wmOperator *op) { Object *obedit = CTX_data_edit_object(C); ListBase *editnurb = object_editcurve_get(obedit); if (!RNA_boolean_get(op->ptr, "extend")) CU_deselect_all(obedit); selectrandom_curve(editnurb, RNA_float_get(op->ptr, "percent") / 100.0f); WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit->data); return OPERATOR_FINISHED; } void CURVE_OT_select_random(wmOperatorType *ot) { /* identifiers */ ot->name = "Select Random"; ot->idname = "CURVE_OT_select_random"; ot->description = "Randomly select some control points"; /* api callbacks */ ot->exec = select_random_exec; ot->poll = ED_operator_editsurfcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* properties */ 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"); } /********************* every nth number of point *******************/ static bool point_in_nurb(Nurb *nu, void *point) { if (nu->bezt) { return ARRAY_HAS_ITEM((BezTriple *)point, nu->bezt, nu->pntsu); } else { return ARRAY_HAS_ITEM((BPoint *)point, nu->bp, nu->pntsu); } } static Nurb *get_lastsel_nurb(Curve *cu) { ListBase *nubase = BKE_curve_editNurbs_get(cu); Nurb *nu = nubase->first; if (!cu->lastsel) return NULL; while (nu) { if (point_in_nurb(nu, cu->lastsel)) return nu; nu = nu->next; } return NULL; } static void select_nth_bezt(Nurb *nu, BezTriple *bezt, int nth) { int a, start; start = bezt - nu->bezt; a = nu->pntsu; bezt = &nu->bezt[a - 1]; while (a--) { if (abs(start - a) % nth) { select_beztriple(bezt, DESELECT, SELECT, HIDDEN); } bezt--; } } static void select_nth_bp(Nurb *nu, BPoint *bp, int nth) { int a, startrow, startpnt; int dist, row, pnt; startrow = (bp - nu->bp) / nu->pntsu; startpnt = (bp - nu->bp) % nu->pntsu; a = nu->pntsu * nu->pntsv; bp = &nu->bp[a - 1]; row = nu->pntsv - 1; pnt = nu->pntsu - 1; while (a--) { dist = abs(pnt - startpnt) + abs(row - startrow); if (dist % nth) { select_bpoint(bp, DESELECT, SELECT, HIDDEN); } pnt--; if (pnt < 0) { pnt = nu->pntsu - 1; row--; } bp--; } } int CU_select_nth(Object *obedit, int nth) { Curve *cu = (Curve *)obedit->data; Nurb *nu; nu = get_lastsel_nurb(cu); if (!nu) return 0; if (nu->bezt) { select_nth_bezt(nu, cu->lastsel, nth); } else { select_nth_bp(nu, cu->lastsel, nth); } return 1; } static int select_nth_exec(bContext *C, wmOperator *op) { Object *obedit = CTX_data_edit_object(C); int nth = RNA_int_get(op->ptr, "nth"); if (!CU_select_nth(obedit, nth)) { if (obedit->type == OB_SURF) { BKE_report(op->reports, RPT_ERROR, "Surface has not got active point"); } else { BKE_report(op->reports, RPT_ERROR, "Curve has not got active point"); } return OPERATOR_CANCELLED; } WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit->data); return OPERATOR_FINISHED; } void CURVE_OT_select_nth(wmOperatorType *ot) { /* identifiers */ ot->name = "Checker Deselect"; ot->description = "Deselect every other vertex"; ot->idname = "CURVE_OT_select_nth"; /* api callbacks */ ot->exec = select_nth_exec; ot->poll = ED_operator_editsurfcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; RNA_def_int(ot->srna, "nth", 2, 2, INT_MAX, "Nth Selection", "", 2, 100); } /********************** add duplicate operator *********************/ static int duplicate_exec(bContext *C, wmOperator *op) { Object *obedit = CTX_data_edit_object(C); ListBase newnurb = {NULL, NULL}; adduplicateflagNurb(obedit, &newnurb, SELECT, false); if (newnurb.first != NULL) { BLI_movelisttolist(object_editcurve_get(obedit), &newnurb); WM_event_add_notifier(C, NC_GEOM | ND_SELECT, obedit->data); } else { BKE_report(op->reports, RPT_ERROR, "Cannot duplicate current selection"); return OPERATOR_CANCELLED; } return OPERATOR_FINISHED; } void CURVE_OT_duplicate(wmOperatorType *ot) { /* identifiers */ ot->name = "Duplicate Curve"; ot->description = "Duplicate selected control points"; ot->idname = "CURVE_OT_duplicate"; /* api callbacks */ ot->exec = duplicate_exec; ot->poll = ED_operator_editsurfcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } /********************** delete operator *********************/ static int curve_delete_vertices(Object *obedit) { Curve *cu = obedit->data; EditNurb *editnurb = cu->editnurb; ListBase *nubase = &editnurb->nurbs; Nurb *nu, *next; BezTriple *bezt, *bezt1; BPoint *bp, *bp1; int a, type, nuindex = 0; if (obedit->type == OB_SURF) { return deleteflagNurb(obedit, SELECT); } /* first loop, can we remove entire pieces? */ nu = nubase->first; while (nu) { next = nu->next; if (nu->type == CU_BEZIER) { bezt = nu->bezt; a = nu->pntsu; if (a) { while (a) { if (BEZSELECTED_HIDDENHANDLES(cu, bezt)) { /* pass */ } else { break; } a--; bezt++; } if (a == 0) { if (cu->actnu == nuindex) cu->actnu = -1; BLI_remlink(nubase, nu); keyIndex_delNurb(editnurb, nu); BKE_nurb_free(nu); nu = NULL; } } } else { bp = nu->bp; a = nu->pntsu * nu->pntsv; if (a) { while (a) { if (bp->f1 & SELECT) { /* pass */ } else { break; } a--; bp++; } if (a == 0) { if (cu->actnu == nuindex) cu->actnu = -1; BLI_remlink(nubase, nu); keyIndex_delNurb(editnurb, nu); BKE_nurb_free(nu); nu = NULL; } } } /* Never allow the order to exceed the number of points * - note, this is ok but changes unselected nurbs, disable for now */ #if 0 if ((nu != NULL) && (nu->type == CU_NURBS)) { clamp_nurb_order_u(nu); } #endif nu = next; nuindex++; } /* 2nd loop, delete small pieces: just for curves */ nu = nubase->first; while (nu) { next = nu->next; type = 0; if (nu->type == CU_BEZIER) { int delta = 0; bezt = nu->bezt; for (a = 0; a < nu->pntsu; a++) { if (BEZSELECTED_HIDDENHANDLES(cu, bezt)) { memmove(bezt, bezt + 1, (nu->pntsu - a - 1) * sizeof(BezTriple)); keyIndex_delBezt(editnurb, bezt + delta); keyIndex_updateBezt(editnurb, bezt + 1, bezt, nu->pntsu - a - 1); nu->pntsu--; a--; type = 1; delta++; } else { bezt++; } } if (type) { bezt1 = (BezTriple *)MEM_mallocN((nu->pntsu) * sizeof(BezTriple), "delNurb"); memcpy(bezt1, nu->bezt, (nu->pntsu) * sizeof(BezTriple)); keyIndex_updateBezt(editnurb, nu->bezt, bezt1, nu->pntsu); MEM_freeN(nu->bezt); nu->bezt = bezt1; BKE_nurb_handles_calc(nu); } } else if (nu->pntsv == 1) { int delta = 0; bp = nu->bp; for (a = 0; a < nu->pntsu; a++) { if (bp->f1 & SELECT) { memmove(bp, bp + 1, (nu->pntsu - a - 1) * sizeof(BPoint)); keyIndex_delBP(editnurb, bp + delta); keyIndex_updateBP(editnurb, bp + 1, bp, nu->pntsu - a - 1); nu->pntsu--; a--; type = 1; delta++; } else { bp++; } } if (type) { bp1 = (BPoint *)MEM_mallocN(nu->pntsu * sizeof(BPoint), "delNurb2"); memcpy(bp1, nu->bp, (nu->pntsu) * sizeof(BPoint)); keyIndex_updateBP(editnurb, nu->bp, bp1, nu->pntsu); MEM_freeN(nu->bp); nu->bp = bp1; /* Never allow the order to exceed the number of points * - note, this is ok but changes unselected nurbs, disable for now */ #if 0 if (nu->type == CU_NURBS) { clamp_nurb_order_u(nu); } #endif } BKE_nurb_order_clamp_u(nu); BKE_nurb_knot_calc_u(nu); } nu = next; } return OPERATOR_FINISHED; } static int curve_delete_segments(Object *obedit, const bool split) { Curve *cu = obedit->data; EditNurb *editnurb = cu->editnurb; ListBase *nubase = &editnurb->nurbs, newnurb = {NULL, NULL}; Nurb *nu, *nu1; BezTriple *bezt, *bezt1, *bezt2; BPoint *bp, *bp1, *bp2; int a, b, starta, enda, cut, cyclicut; for (nu = nubase->first; nu; nu = nu->next) { nu1 = NULL; starta = enda = cut = -1; cyclicut = 0; if (nu->type == CU_BEZIER) { for (a = 0, bezt = nu->bezt; a < nu->pntsu; a++, bezt++) { if (!BEZSELECTED_HIDDENHANDLES(cu, bezt)) { enda = a; if (starta == -1) starta = a; if (a < nu->pntsu - 1) continue; } else if (a < nu->pntsu - 1 && !BEZSELECTED_HIDDENHANDLES(cu, bezt + 1)) { /* if just single selected point then continue */ continue; } if (starta >= 0) { /* got selected segment, now check where and copy */ if (starta <= 1 && a == nu->pntsu - 1) { /* copying all points in spline */ if (starta == 1 && enda != a) nu->flagu &= ~CU_NURB_CYCLIC; starta = 0; enda = a; cut = enda - starta + 1; nu1 = BKE_nurb_copy(nu, cut, 1); } else if (starta == 0) { /* if start of curve copy next end point */ enda++; cut = enda - starta + 1; bezt1 = &nu->bezt[nu->pntsu - 1]; bezt2 = &nu->bezt[nu->pntsu - 2]; if ((nu->flagu & CU_NURB_CYCLIC) && BEZSELECTED_HIDDENHANDLES(cu, bezt1) && BEZSELECTED_HIDDENHANDLES(cu, bezt2)) { /* check if need to join start of spline to end */ nu1 = BKE_nurb_copy(nu, cut + 1, 1); ED_curve_beztcpy(editnurb, &nu1->bezt[1], nu->bezt, cut); starta = nu->pntsu - 1; cut = 1; } else { if (nu->flagu & CU_NURB_CYCLIC) cyclicut = cut; else nu1 = BKE_nurb_copy(nu, cut, 1); } } else if (enda == nu->pntsu - 1) { /* if end of curve copy previous start point */ starta--; cut = enda - starta + 1; bezt1 = nu->bezt; bezt2 = &nu->bezt[1]; if ((nu->flagu & CU_NURB_CYCLIC) && BEZSELECTED_HIDDENHANDLES(cu, bezt1) && BEZSELECTED_HIDDENHANDLES(cu, bezt2)) { /* check if need to join start of spline to end */ nu1 = BKE_nurb_copy(nu, cut + 1, 1); ED_curve_beztcpy(editnurb, &nu1->bezt[cut], nu->bezt, 1); } else if (cyclicut != 0) { /* if cyclicut exists it is a cyclic spline, start and end should be connected */ nu1 = BKE_nurb_copy(nu, cut + cyclicut, 1); ED_curve_beztcpy(editnurb, &nu1->bezt[cut], nu->bezt, cyclicut); cyclicut = 0; } else { nu1 = BKE_nurb_copy(nu, cut, 1); } } else { /* mid spline selection, copy adjacent start and end */ starta--; enda++; cut = enda - starta + 1; nu1 = BKE_nurb_copy(nu, cut, 1); } if (nu1 != NULL) { ED_curve_beztcpy(editnurb, nu1->bezt, &nu->bezt[starta], cut); BLI_addtail(&newnurb, nu1); if (starta != 0 || enda != nu->pntsu - 1) nu1->flagu &= ~CU_NURB_CYCLIC; nu1 = NULL; } starta = enda = -1; } } if (!split && cut != -1 && nu->pntsu > 2 && !(nu->flagu & CU_NURB_CYCLIC)) { /* start and points copied if connecting segment was deleted and not cylic spline */ bezt1 = nu->bezt; bezt2 = &nu->bezt[1]; if (BEZSELECTED_HIDDENHANDLES(cu, bezt1) && BEZSELECTED_HIDDENHANDLES(cu, bezt2)) { nu1 = BKE_nurb_copy(nu, 1, 1); ED_curve_beztcpy(editnurb, nu1->bezt, bezt1, 1); BLI_addtail(&newnurb, nu1); } bezt1 = &nu->bezt[nu->pntsu - 1]; bezt2 = &nu->bezt[nu->pntsu - 2]; if (BEZSELECTED_HIDDENHANDLES(cu, bezt1) && BEZSELECTED_HIDDENHANDLES(cu, bezt2)) { nu1 = BKE_nurb_copy(nu, 1, 1); ED_curve_beztcpy(editnurb, nu1->bezt, bezt1, 1); BLI_addtail(&newnurb, nu1); } } } else if (nu->pntsv >= 1) { int u, v; if (isNurbselV(nu, &u, SELECT)) { for (a = 0, bp = nu->bp; a < nu->pntsu; a++, bp++) { if (!(bp->f1 & SELECT)) { enda = a; if (starta == -1) starta = a; if (a < nu->pntsu - 1) continue; } else if (a < nu->pntsu - 1 && !((bp + 1)->f1 & SELECT)) { /* if just single selected point then continue */ continue; } if (starta >= 0) { /* got selected segment, now check where and copy */ if (starta <= 1 && a == nu->pntsu - 1) { /* copying all points in spline */ if (starta == 1 && enda != a) nu->flagu &= ~CU_NURB_CYCLIC; starta = 0; enda = a; cut = enda - starta + 1; nu1 = BKE_nurb_copy(nu, cut, nu->pntsv); } else if (starta == 0) { /* if start of curve copy next end point */ enda++; cut = enda - starta + 1; bp1 = &nu->bp[nu->pntsu - 1]; bp2 = &nu->bp[nu->pntsu - 2]; if ((nu->flagu & CU_NURB_CYCLIC) && (bp1->f1 & SELECT) && (bp2->f1 & SELECT)) { /* check if need to join start of spline to end */ nu1 = BKE_nurb_copy(nu, cut + 1, nu->pntsv); for (b = 0; b < nu->pntsv; b++) { ED_curve_bpcpy(editnurb, &nu1->bp[b * nu1->pntsu + 1], &nu->bp[b * nu->pntsu], cut); } starta = nu->pntsu - 1; cut = 1; } else { if (nu->flagu & CU_NURB_CYCLIC) cyclicut = cut; else nu1 = BKE_nurb_copy(nu, cut, nu->pntsv); } } else if (enda == nu->pntsu - 1) { /* if end of curve copy previous start point */ starta--; cut = enda - starta + 1; bp1 = nu->bp; bp2 = &nu->bp[1]; if ((nu->flagu & CU_NURB_CYCLIC) && (bp1->f1 & SELECT) && (bp2->f1 & SELECT)) { /* check if need to join start of spline to end */ nu1 = BKE_nurb_copy(nu, cut + 1, nu->pntsv); for (b = 0; b < nu->pntsv; b++) { ED_curve_bpcpy(editnurb, &nu1->bp[b * nu1->pntsu + cut], &nu->bp[b * nu->pntsu], 1); } } else if (cyclicut != 0) { /* if cyclicut exists it is a cyclic spline, start and end should be connected */ nu1 = BKE_nurb_copy(nu, cut + cyclicut, nu->pntsv); for (b = 0; b < nu->pntsv; b++) { ED_curve_bpcpy(editnurb, &nu1->bp[b * nu1->pntsu + cut], &nu->bp[b * nu->pntsu], cyclicut); } } else { nu1 = BKE_nurb_copy(nu, cut, nu->pntsv); } } else { /* mid spline selection, copy adjacent start and end */ starta--; enda++; cut = enda - starta + 1; nu1 = BKE_nurb_copy(nu, cut, nu->pntsv); } if (nu1 != NULL) { for (b = 0; b < nu->pntsv; b++) { ED_curve_bpcpy(editnurb, &nu1->bp[b * nu1->pntsu], &nu->bp[b * nu->pntsu + starta], cut); } BLI_addtail(&newnurb, nu1); if (starta != 0 || enda != nu->pntsu - 1) nu1->flagu &= ~CU_NURB_CYCLIC; nu1 = NULL; } starta = enda = -1; } } if (!split && cut != -1 && nu->pntsu > 2 && !(nu->flagu & CU_NURB_CYCLIC)) { /* start and points copied if connecting segment was deleted and not cylic spline */ bp1 = nu->bp; bp2 = &nu->bp[1]; if ((bp1->f1 & SELECT) && (bp2->f1 & SELECT)) { nu1 = BKE_nurb_copy(nu, 1, nu->pntsv); for (b = 0; b < nu->pntsv; b++) { ED_curve_bpcpy(editnurb, &nu1->bp[b], &nu->bp[b * nu->pntsu], 1); } BLI_addtail(&newnurb, nu1); } bp1 = &nu->bp[nu->pntsu - 1]; bp2 = &nu->bp[nu->pntsu - 2]; if ((bp1->f1 & SELECT) && (bp2->f1 & SELECT)) { nu1 = BKE_nurb_copy(nu, 1, nu->pntsv); for (b = 0; b < nu->pntsv; b++) { ED_curve_bpcpy(editnurb, &nu1->bp[b], &nu->bp[b * nu->pntsu + nu->pntsu - 1], 1); } BLI_addtail(&newnurb, nu1); } } } else if (isNurbselU(nu, &v, SELECT)) { for (a = 0, bp = nu->bp; a < nu->pntsv; a++, bp += nu->pntsu) { if (!(bp->f1 & SELECT)) { enda = a; if (starta == -1) starta = a; if (a < nu->pntsv - 1) continue; } else if (a < nu->pntsv - 1 && !((bp + nu->pntsu)->f1 & SELECT)) { /* if just single selected point then continue */ continue; } if (starta >= 0) { /* got selected segment, now check where and copy */ if (starta <= 1 && a == nu->pntsv - 1) { /* copying all points in spline */ if (starta == 1 && enda != a) nu->flagv &= ~CU_NURB_CYCLIC; starta = 0; enda = a; cut = enda - starta + 1; nu1 = BKE_nurb_copy(nu, nu->pntsu, cut); } else if (starta == 0) { /* if start of curve copy next end point */ enda++; cut = enda - starta + 1; bp1 = &nu->bp[nu->pntsv * nu->pntsu - nu->pntsu]; bp2 = &nu->bp[nu->pntsv * nu->pntsu - (nu->pntsu * 2)]; if ((nu->flagv & CU_NURB_CYCLIC) && (bp1->f1 & SELECT) && (bp2->f1 & SELECT)) { /* check if need to join start of spline to end */ nu1 = BKE_nurb_copy(nu, nu->pntsu, cut + 1); ED_curve_bpcpy(editnurb, &nu1->bp[nu->pntsu], nu->bp, cut * nu->pntsu); starta = nu->pntsv - 1; cut = 1; } else { if (nu->flagv & CU_NURB_CYCLIC) cyclicut = cut; else nu1 = BKE_nurb_copy(nu, nu->pntsu, cut); } } else if (enda == nu->pntsv - 1) { /* if end of curve copy previous start point */ starta--; cut = enda - starta + 1; bp1 = nu->bp; bp2 = &nu->bp[nu->pntsu]; if ((nu->flagv & CU_NURB_CYCLIC) && (bp1->f1 & SELECT) && (bp2->f1 & SELECT)) { /* check if need to join start of spline to end */ nu1 = BKE_nurb_copy(nu, nu->pntsu, cut + 1); ED_curve_bpcpy(editnurb, &nu1->bp[cut * nu->pntsu], nu->bp, nu->pntsu); } else if (cyclicut != 0) { /* if cyclicut exists it is a cyclic spline, start and end should be connected */ nu1 = BKE_nurb_copy(nu, nu->pntsu, cut + cyclicut); ED_curve_bpcpy(editnurb, &nu1->bp[cut * nu->pntsu], nu->bp, nu->pntsu * cyclicut); cyclicut = 0; } else { nu1 = BKE_nurb_copy(nu, nu->pntsu, cut); } } else { /* mid spline selection, copy adjacent start and end */ starta--; enda++; cut = enda - starta + 1; nu1 = BKE_nurb_copy(nu, nu->pntsu, cut); } if (nu1 != NULL) { ED_curve_bpcpy(editnurb, nu1->bp, &nu->bp[starta * nu->pntsu], cut * nu->pntsu); BLI_addtail(&newnurb, nu1); if (starta != 0 || enda != nu->pntsv - 1) nu1->flagv &= ~CU_NURB_CYCLIC; nu1 = NULL; } starta = enda = -1; } } if (!split && cut != -1 && nu->pntsv > 2 && !(nu->flagv & CU_NURB_CYCLIC)) { /* start and points copied if connecting segment was deleted and not cylic spline */ bp1 = nu->bp; bp2 = &nu->bp[nu->pntsu]; if ((bp1->f1 & SELECT) && (bp2->f1 & SELECT)) { nu1 = BKE_nurb_copy(nu, nu->pntsu, 1); ED_curve_bpcpy(editnurb, nu1->bp, nu->bp, nu->pntsu); BLI_addtail(&newnurb, nu1); } bp1 = &nu->bp[nu->pntsu * nu->pntsv - nu->pntsu]; bp2 = &nu->bp[nu->pntsu * nu->pntsv - (nu->pntsu * 2)]; if ((bp1->f1 & SELECT) && (bp2->f1 & SELECT)) { nu1 = BKE_nurb_copy(nu, nu->pntsu, 1); ED_curve_bpcpy(editnurb, nu1->bp, &nu->bp[nu->pntsu * nu->pntsv - nu->pntsu], nu->pntsu); BLI_addtail(&newnurb, nu1); } } } else { /* selection not valid, just copy nurb to new list */ nu1 = BKE_nurb_copy(nu, nu->pntsu, nu->pntsv); ED_curve_bpcpy(editnurb, nu1->bp, nu->bp, nu->pntsu * nu->pntsv); BLI_addtail(&newnurb, nu1); } } } for (nu = newnurb.first; nu; nu = nu->next) { if (nu->type == CU_BEZIER) { if (split) { /* deselect for split operator */ for (b = 0, bezt1 = nu->bezt; b < nu->pntsu; b++, bezt1++) { select_beztriple(bezt1, DESELECT, SELECT, true); } } BKE_nurb_handles_calc(nu); } else { if (split) { /* deselect for split operator */ for (b = 0, bp1 = nu->bp; b < nu->pntsu * nu->pntsv; b++, bp1++) { select_bpoint(bp1, DESELECT, SELECT, HIDDEN); } } nu->knotsu = nu->knotsv = NULL; BKE_nurb_order_clamp_u(nu); BKE_nurb_knot_calc_u(nu); if (nu->pntsv > 1) { BKE_nurb_order_clamp_v(nu); BKE_nurb_knot_calc_v(nu); } } } keyIndex_delNurbList(editnurb, nubase); BKE_nurbList_free(nubase); BLI_movelisttolist(nubase, &newnurb); return OPERATOR_FINISHED; } static int curve_delete_exec(bContext *C, wmOperator *op) { Object *obedit = CTX_data_edit_object(C); Curve *cu = (Curve *)obedit->data; eCurveElem_Types type = RNA_enum_get(op->ptr, "type"); int retval; if (type == CURVE_VERTEX) retval = curve_delete_vertices(obedit); else if (type == CURVE_SEGMENT) retval = curve_delete_segments(obedit, false); else BLI_assert(0); if (retval == OPERATOR_FINISHED) { cu->lastsel = NULL; cu->actnu = -1; if (ED_curve_updateAnimPaths(obedit->data)) WM_event_add_notifier(C, NC_OBJECT | ND_KEYS, obedit); WM_event_add_notifier(C, NC_GEOM | ND_DATA, obedit->data); DAG_id_tag_update(obedit->data, 0); return retval; } return retval; } static EnumPropertyItem curve_delete_type_items[] = { {CURVE_VERTEX, "VERT", 0, "Vertices", ""}, {CURVE_SEGMENT, "SEGMENT", 0, "Segments", ""}, {0, NULL, 0, NULL, NULL} }; static EnumPropertyItem *rna_curve_delete_type_itemf(bContext *C, PointerRNA *UNUSED(ptr), PropertyRNA *UNUSED(prop), int *free) { EnumPropertyItem *item = NULL; int totitem = 0; if (!C) /* needed for docs and i18n tools */ return curve_delete_type_items; RNA_enum_items_add_value(&item, &totitem, curve_delete_type_items, CURVE_VERTEX); RNA_enum_items_add_value(&item, &totitem, curve_delete_type_items, CURVE_SEGMENT); RNA_enum_item_end(&item, &totitem); *free = true; return item; } void CURVE_OT_delete(wmOperatorType *ot) { PropertyRNA *prop; /* identifiers */ ot->name = "Delete"; ot->description = "Delete selected control points or segments"; ot->idname = "CURVE_OT_delete"; /* api callbacks */ ot->exec = curve_delete_exec; ot->invoke = WM_menu_invoke; ot->poll = ED_operator_editsurfcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* properties */ prop = RNA_def_enum(ot->srna, "type", curve_delete_type_items, 0, "Type", "Which elements to delete"); RNA_def_enum_funcs(prop, rna_curve_delete_type_itemf); ot->prop = prop; } /********************** shade smooth/flat operator *********************/ static int shade_smooth_exec(bContext *C, wmOperator *op) { Object *obedit = CTX_data_edit_object(C); ListBase *editnurb = object_editcurve_get(obedit); Nurb *nu; int clear = (strcmp(op->idname, "CURVE_OT_shade_flat") == 0); if (obedit->type != OB_CURVE) return OPERATOR_CANCELLED; for (nu = editnurb->first; nu; nu = nu->next) { if (isNurbsel(nu)) { if (!clear) nu->flag |= CU_SMOOTH; else nu->flag &= ~CU_SMOOTH; } } WM_event_add_notifier(C, NC_GEOM | ND_DATA, obedit->data); DAG_id_tag_update(obedit->data, 0); return OPERATOR_FINISHED; } void CURVE_OT_shade_smooth(wmOperatorType *ot) { /* identifiers */ ot->name = "Shade Smooth"; ot->idname = "CURVE_OT_shade_smooth"; ot->description = "Set shading to smooth"; /* api callbacks */ ot->exec = shade_smooth_exec; ot->poll = ED_operator_editsurfcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } void CURVE_OT_shade_flat(wmOperatorType *ot) { /* identifiers */ ot->name = "Shade Flat"; ot->idname = "CURVE_OT_shade_flat"; ot->description = "Set shading to flat"; /* api callbacks */ ot->exec = shade_smooth_exec; ot->poll = ED_operator_editsurfcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } /************** join operator, to be used externally? ****************/ /* TODO: shape keys - as with meshes */ int join_curve_exec(bContext *C, wmOperator *op) { Main *bmain = CTX_data_main(C); Scene *scene = CTX_data_scene(C); Object *ob = CTX_data_active_object(C); Curve *cu; Nurb *nu, *newnu; BezTriple *bezt; BPoint *bp; ListBase tempbase; float imat[4][4], cmat[4][4]; int a; bool ok = false; CTX_DATA_BEGIN(C, Base *, base, selected_editable_bases) { if (base->object == ob) { ok = true; break; } } CTX_DATA_END; /* that way the active object is always selected */ if (ok == false) { BKE_report(op->reports, RPT_WARNING, "Active object is not a selected curve"); return OPERATOR_CANCELLED; } tempbase.first = tempbase.last = NULL; /* trasnform all selected curves inverse in obact */ invert_m4_m4(imat, ob->obmat); CTX_DATA_BEGIN(C, Base *, base, selected_editable_bases) { if (base->object->type == ob->type) { if (base->object != ob) { cu = base->object->data; if (cu->nurb.first) { /* watch it: switch order here really goes wrong */ mul_m4_m4m4(cmat, imat, base->object->obmat); nu = cu->nurb.first; while (nu) { newnu = BKE_nurb_duplicate(nu); if (ob->totcol) { /* TODO, merge material lists */ CLAMP(newnu->mat_nr, 0, ob->totcol - 1); } else { newnu->mat_nr = 0; } BLI_addtail(&tempbase, newnu); if ((bezt = newnu->bezt)) { a = newnu->pntsu; while (a--) { mul_m4_v3(cmat, bezt->vec[0]); mul_m4_v3(cmat, bezt->vec[1]); mul_m4_v3(cmat, bezt->vec[2]); bezt++; } BKE_nurb_handles_calc(newnu); } if ((bp = newnu->bp)) { a = newnu->pntsu * nu->pntsv; while (a--) { mul_m4_v3(cmat, bp->vec); bp++; } } nu = nu->next; } } ED_base_object_free_and_unlink(bmain, scene, base); } } } CTX_DATA_END; cu = ob->data; BLI_movelisttolist(&cu->nurb, &tempbase); DAG_relations_tag_update(bmain); // because we removed object(s), call before editmode! ED_object_editmode_enter(C, EM_WAITCURSOR); ED_object_editmode_exit(C, EM_FREEDATA | EM_WAITCURSOR | EM_DO_UNDO); WM_event_add_notifier(C, NC_SCENE | ND_OB_ACTIVE, scene); return OPERATOR_FINISHED; } /***************** clear tilt operator ********************/ static int clear_tilt_exec(bContext *C, wmOperator *UNUSED(op)) { Object *obedit = CTX_data_edit_object(C); Curve *cu = obedit->data; ListBase *editnurb = object_editcurve_get(obedit); Nurb *nu; BezTriple *bezt; BPoint *bp; int a; for (nu = editnurb->first; nu; nu = nu->next) { if (nu->bezt) { bezt = nu->bezt; a = nu->pntsu; while (a--) { if (BEZSELECTED_HIDDENHANDLES(cu, bezt)) bezt->alfa = 0.0; bezt++; } } else if (nu->bp) { bp = nu->bp; a = nu->pntsu * nu->pntsv; while (a--) { if (bp->f1 & SELECT) bp->alfa = 0.0f; bp++; } } } WM_event_add_notifier(C, NC_GEOM | ND_DATA, obedit->data); DAG_id_tag_update(obedit->data, 0); return OPERATOR_FINISHED; } void CURVE_OT_tilt_clear(wmOperatorType *ot) { /* identifiers */ ot->name = "Clear Tilt"; ot->idname = "CURVE_OT_tilt_clear"; ot->description = "Clear the tilt of selected control points"; /* api callbacks */ ot->exec = clear_tilt_exec; ot->poll = ED_operator_editcurve; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } /****************** undo for curves ****************/ static void *undo_check_lastsel(void *lastsel, Nurb *nu, Nurb *newnu) { if (nu->bezt) { BezTriple *lastbezt = (BezTriple *)lastsel; if (lastbezt >= nu->bezt && lastbezt < &nu->bezt[nu->pntsu]) { return &newnu->bezt[lastbezt - nu->bezt]; } } else { BPoint *lastbp = (BPoint *)lastsel; if (lastbp >= nu->bp && lastbp < &nu->bp[nu->pntsu * nu->pntsv]) { return &newnu->bp[lastbp - nu->bp]; } } return NULL; } static void undoCurve_to_editCurve(void *ucu, void *UNUSED(edata), void *cu_v) { Curve *cu = cu_v; UndoCurve *undoCurve = ucu; ListBase *undobase = &undoCurve->nubase; ListBase *editbase = BKE_curve_editNurbs_get(cu); Nurb *nu, *newnu; EditNurb *editnurb = cu->editnurb; void *lastsel = NULL; AnimData *ad = BKE_animdata_from_id(&cu->id); BKE_nurbList_free(editbase); if (undoCurve->undoIndex) { BLI_ghash_free(editnurb->keyindex, NULL, MEM_freeN); editnurb->keyindex = dupli_keyIndexHash(undoCurve->undoIndex); } if (ad) { if (ad->action) { free_fcurves(&ad->action->curves); copy_fcurves(&ad->action->curves, &undoCurve->fcurves); } free_fcurves(&ad->drivers); copy_fcurves(&ad->drivers, &undoCurve->drivers); } /* copy */ for (nu = undobase->first; nu; nu = nu->next) { newnu = BKE_nurb_duplicate(nu); if (lastsel == NULL) { lastsel = undo_check_lastsel(undoCurve->lastsel, nu, newnu); } if (editnurb->keyindex) { keyIndex_updateNurb(editnurb, nu, newnu); } BLI_addtail(editbase, newnu); } cu->lastsel = lastsel; cu->actnu = undoCurve->actnu; ED_curve_updateAnimPaths(cu); } static void *editCurve_to_undoCurve(void *UNUSED(edata), void *cu_v) { Curve *cu = cu_v; ListBase *nubase = BKE_curve_editNurbs_get(cu); UndoCurve *undoCurve; EditNurb *editnurb = cu->editnurb, tmpEditnurb; Nurb *nu, *newnu; void *lastsel = NULL; AnimData *ad = BKE_animdata_from_id(&cu->id); undoCurve = MEM_callocN(sizeof(UndoCurve), "undoCurve"); if (editnurb->keyindex) { undoCurve->undoIndex = dupli_keyIndexHash(editnurb->keyindex); tmpEditnurb.keyindex = undoCurve->undoIndex; } if (ad) { if (ad->action) copy_fcurves(&undoCurve->fcurves, &ad->action->curves); copy_fcurves(&undoCurve->drivers, &ad->drivers); } /* copy */ for (nu = nubase->first; nu; nu = nu->next) { newnu = BKE_nurb_duplicate(nu); if (lastsel == NULL) { lastsel = undo_check_lastsel(cu->lastsel, nu, newnu); } if (undoCurve->undoIndex) { keyIndex_updateNurb(&tmpEditnurb, nu, newnu); } BLI_addtail(&undoCurve->nubase, newnu); } undoCurve->lastsel = lastsel; undoCurve->actnu = cu->actnu; return undoCurve; } static void free_undoCurve(void *ucv) { UndoCurve *undoCurve = ucv; BKE_nurbList_free(&undoCurve->nubase); if (undoCurve->undoIndex) BLI_ghash_free(undoCurve->undoIndex, NULL, MEM_freeN); free_fcurves(&undoCurve->fcurves); free_fcurves(&undoCurve->drivers); MEM_freeN(undoCurve); } static void *get_data(bContext *C) { Object *obedit = CTX_data_edit_object(C); return obedit; } /* and this is all the undo system needs to know */ void undo_push_curve(bContext *C, const char *name) { undo_editmode_push(C, name, get_data, free_undoCurve, undoCurve_to_editCurve, editCurve_to_undoCurve, NULL); } void ED_curve_beztcpy(EditNurb *editnurb, BezTriple *dst, BezTriple *src, int count) { memcpy(dst, src, count * sizeof(BezTriple)); keyIndex_updateBezt(editnurb, src, dst, count); } void ED_curve_bpcpy(EditNurb *editnurb, BPoint *dst, BPoint *src, int count) { memcpy(dst, src, count * sizeof(BPoint)); keyIndex_updateBP(editnurb, src, dst, count); } int ED_curve_actSelection(Curve *cu, float center[3]) { Nurb *nu = get_lastsel_nurb(cu); if (!nu) return 0; if (nu->bezt) { BezTriple *bezt = cu->lastsel; copy_v3_v3(center, bezt->vec[1]); } else { BPoint *bp = cu->lastsel; copy_v3_v3(center, bp->vec); } return 1; }