Merging r57546 through r57569 from trunk into soc-2013-depsgraph_mt
[blender.git] / source / blender / blenkernel / intern / displist.c
1 /*
2  * ***** BEGIN GPL LICENSE BLOCK *****
3  *
4  * This program is free software; you can redistribute it and/or
5  * modify it under the terms of the GNU General Public License
6  * as published by the Free Software Foundation; either version 2
7  * of the License, or (at your option) any later version.
8  *
9  * This program is distributed in the hope that it will be useful,
10  * but WITHOUT ANY WARRANTY; without even the implied warranty of
11  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
12  * GNU General Public License for more details.
13  *
14  * You should have received a copy of the GNU General Public License
15  * along with this program; if not, write to the Free Software Foundation,
16  * Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
17  *
18  * The Original Code is Copyright (C) 2001-2002 by NaN Holding BV.
19  * All rights reserved.
20  *
21  * The Original Code is: all of this file.
22  *
23  * Contributor(s): none yet.
24  *
25  * ***** END GPL LICENSE BLOCK *****
26  */
27
28 /** \file blender/blenkernel/intern/displist.c
29  *  \ingroup bke
30  */
31
32
33 #include <math.h>
34 #include <stdio.h>
35 #include <string.h>
36
37 #include "MEM_guardedalloc.h"
38
39 #include "DNA_curve_types.h"
40 #include "DNA_meshdata_types.h"
41 #include "DNA_scene_types.h"
42 #include "DNA_object_types.h"
43 #include "DNA_material_types.h"
44
45 #include "BLI_blenlib.h"
46 #include "BLI_math.h"
47 #include "BLI_scanfill.h"
48 #include "BLI_utildefines.h"
49
50 #include "BKE_global.h"
51 #include "BKE_displist.h"
52 #include "BKE_cdderivedmesh.h"
53 #include "BKE_object.h"
54 #include "BKE_mball.h"
55 #include "BKE_material.h"
56 #include "BKE_curve.h"
57 #include "BKE_key.h"
58 #include "BKE_anim.h"
59 #include "BKE_font.h"
60 #include "BKE_lattice.h"
61 #include "BKE_modifier.h"
62
63 #include "BLI_sys_types.h" // for intptr_t support
64
65 static void boundbox_displist(Object *ob);
66 static void boundbox_dispbase(BoundBox *bb, ListBase *dispbase);
67
68 void BKE_displist_elem_free(DispList *dl)
69 {
70         if (dl) {
71                 if (dl->verts) MEM_freeN(dl->verts);
72                 if (dl->nors) MEM_freeN(dl->nors);
73                 if (dl->index) MEM_freeN(dl->index);
74                 if (dl->col1) MEM_freeN(dl->col1);
75                 if (dl->col2) MEM_freeN(dl->col2);
76                 if (dl->bevelSplitFlag) MEM_freeN(dl->bevelSplitFlag);
77                 MEM_freeN(dl);
78         }
79 }
80
81 void BKE_displist_free(ListBase *lb)
82 {
83         DispList *dl;
84
85         dl = lb->first;
86         while (dl) {
87                 BLI_remlink(lb, dl);
88                 BKE_displist_elem_free(dl);
89                 dl = lb->first;
90         }
91 }
92
93 DispList *BKE_displist_find_or_create(ListBase *lb, int type)
94 {
95         DispList *dl;
96
97         dl = lb->first;
98         while (dl) {
99                 if (dl->type == type)
100                         return dl;
101                 dl = dl->next;
102         }
103
104         dl = MEM_callocN(sizeof(DispList), "find_disp");
105         dl->type = type;
106         BLI_addtail(lb, dl);
107
108         return dl;
109 }
110
111 DispList *BKE_displist_find(ListBase *lb, int type)
112 {
113         DispList *dl;
114
115         dl = lb->first;
116         while (dl) {
117                 if (dl->type == type)
118                         return dl;
119                 dl = dl->next;
120         }
121
122         return NULL;
123 }
124
125 bool BKE_displist_has_faces(ListBase *lb)
126 {
127         DispList *dl;
128
129         for (dl = lb->first; dl; dl = dl->next) {
130                 if (ELEM3(dl->type, DL_INDEX3, DL_INDEX4, DL_SURF)) {
131                         return true;
132                 }
133         }
134
135         return false;
136 }
137
138 void BKE_displist_copy(ListBase *lbn, ListBase *lb)
139 {
140         DispList *dln, *dl;
141
142         BKE_displist_free(lbn);
143
144         dl = lb->first;
145         while (dl) {
146                 dln = MEM_dupallocN(dl);
147                 BLI_addtail(lbn, dln);
148                 dln->verts = MEM_dupallocN(dl->verts);
149                 dln->nors = MEM_dupallocN(dl->nors);
150                 dln->index = MEM_dupallocN(dl->index);
151                 dln->col1 = MEM_dupallocN(dl->col1);
152                 dln->col2 = MEM_dupallocN(dl->col2);
153
154                 if (dl->bevelSplitFlag)
155                         dln->bevelSplitFlag = MEM_dupallocN(dl->bevelSplitFlag);
156
157                 dl = dl->next;
158         }
159 }
160
161 void BKE_displist_normals_add(ListBase *lb)
162 {
163         DispList *dl = NULL;
164         float *vdata, *ndata, nor[3];
165         float *v1, *v2, *v3, *v4;
166         float *n1, *n2, *n3, *n4;
167         int a, b, p1, p2, p3, p4;
168
169         dl = lb->first;
170
171         while (dl) {
172                 if (dl->type == DL_INDEX3) {
173                         if (dl->nors == NULL) {
174                                 dl->nors = MEM_callocN(sizeof(float) * 3, "dlnors");
175
176                                 if (dl->verts[2] < 0.0f)
177                                         dl->nors[2] = -1.0f;
178                                 else
179                                         dl->nors[2] = 1.0f;
180                         }
181                 }
182                 else if (dl->type == DL_SURF) {
183                         if (dl->nors == NULL) {
184                                 dl->nors = MEM_callocN(sizeof(float) * 3 * dl->nr * dl->parts, "dlnors");
185
186                                 vdata = dl->verts;
187                                 ndata = dl->nors;
188
189                                 for (a = 0; a < dl->parts; a++) {
190
191                                         if (BKE_displist_surfindex_get(dl, a, &b, &p1, &p2, &p3, &p4) == 0)
192                                                 break;
193
194                                         v1 = vdata + 3 * p1;
195                                         n1 = ndata + 3 * p1;
196                                         v2 = vdata + 3 * p2;
197                                         n2 = ndata + 3 * p2;
198                                         v3 = vdata + 3 * p3;
199                                         n3 = ndata + 3 * p3;
200                                         v4 = vdata + 3 * p4;
201                                         n4 = ndata + 3 * p4;
202
203                                         for (; b < dl->nr; b++) {
204                                                 normal_quad_v3(nor, v1, v3, v4, v2);
205
206                                                 add_v3_v3(n1, nor);
207                                                 add_v3_v3(n2, nor);
208                                                 add_v3_v3(n3, nor);
209                                                 add_v3_v3(n4, nor);
210
211                                                 v2 = v1; v1 += 3;
212                                                 v4 = v3; v3 += 3;
213                                                 n2 = n1; n1 += 3;
214                                                 n4 = n3; n3 += 3;
215                                         }
216                                 }
217                                 a = dl->parts * dl->nr;
218                                 v1 = ndata;
219                                 while (a--) {
220                                         normalize_v3(v1);
221                                         v1 += 3;
222                                 }
223                         }
224                 }
225                 dl = dl->next;
226         }
227 }
228
229 void BKE_displist_count(ListBase *lb, int *totvert, int *totface, int *tottri)
230 {
231         DispList *dl;
232
233         for (dl = lb->first; dl; dl = dl->next) {
234                 int vert_tot = 0;
235                 int face_tot = 0;
236                 int tri_tot = 0;
237
238                 switch (dl->type) {
239                         case DL_SURF:
240                         {
241                                 vert_tot = dl->nr * dl->parts;
242                                 face_tot = (dl->nr - 1) * (dl->parts - 1);
243                                 tri_tot  = face_tot * 2;
244                                 break;
245                         }
246                         case DL_INDEX3:
247                         {
248                                 vert_tot = dl->nr;
249                                 face_tot = dl->parts;
250                                 tri_tot  = face_tot;
251                                 break;
252                         }
253                         case DL_INDEX4:
254                         {
255                                 vert_tot = dl->nr;
256                                 face_tot = dl->parts;
257                                 tri_tot  = face_tot * 2;
258                                 break;
259                         }
260                         case DL_POLY:
261                         case DL_SEGM:
262                         {
263                                 vert_tot = dl->nr * dl->parts;
264                                 break;
265                         }
266                 }
267
268                 *totvert += vert_tot;
269                 *totface += face_tot;
270                 *tottri  += tri_tot;
271         }
272 }
273
274 bool BKE_displist_surfindex_get(DispList *dl, int a, int *b, int *p1, int *p2, int *p3, int *p4)
275 {
276         if ((dl->flag & DL_CYCL_V) == 0 && a == (dl->parts) - 1) {
277                 return false;
278         }
279
280         if (dl->flag & DL_CYCL_U) {
281                 (*p1) = dl->nr * a;
282                 (*p2) = (*p1) + dl->nr - 1;
283                 (*p3) = (*p1) + dl->nr;
284                 (*p4) = (*p2) + dl->nr;
285                 (*b) = 0;
286         }
287         else {
288                 (*p2) = dl->nr * a;
289                 (*p1) = (*p2) + 1;
290                 (*p4) = (*p2) + dl->nr;
291                 (*p3) = (*p1) + dl->nr;
292                 (*b) = 1;
293         }
294
295         if ((dl->flag & DL_CYCL_V) && a == dl->parts - 1) {
296                 (*p3) -= dl->nr * dl->parts;
297                 (*p4) -= dl->nr * dl->parts;
298         }
299
300         return true;
301 }
302
303 /* ****************** make displists ********************* */
304
305 static void curve_to_displist(Curve *cu, ListBase *nubase, ListBase *dispbase, int forRender, int renderResolution)
306 {
307         Nurb *nu;
308         DispList *dl;
309         BezTriple *bezt, *prevbezt;
310         BPoint *bp;
311         float *data;
312         int a, len, resolu;
313         const int editmode = (!forRender && (cu->editnurb || cu->editfont));
314
315         nu = nubase->first;
316         while (nu) {
317                 if (nu->hide == 0 || editmode == 0) {
318                         if (renderResolution && cu->resolu_ren != 0)
319                                 resolu = cu->resolu_ren;
320                         else
321                                 resolu = nu->resolu;
322
323                         if (!BKE_nurb_check_valid_u(nu)) {
324                                 /* pass */
325                         }
326                         else if (nu->type == CU_BEZIER) {
327                                 /* count */
328                                 len = 0;
329                                 a = nu->pntsu - 1;
330                                 if (nu->flagu & CU_NURB_CYCLIC) a++;
331
332                                 prevbezt = nu->bezt;
333                                 bezt = prevbezt + 1;
334                                 while (a--) {
335                                         if (a == 0 && (nu->flagu & CU_NURB_CYCLIC))
336                                                 bezt = nu->bezt;
337
338                                         if (prevbezt->h2 == HD_VECT && bezt->h1 == HD_VECT)
339                                                 len++;
340                                         else
341                                                 len += resolu;
342
343                                         if (a == 0 && (nu->flagu & CU_NURB_CYCLIC) == 0)
344                                                 len++;
345
346                                         prevbezt = bezt;
347                                         bezt++;
348                                 }
349
350                                 dl = MEM_callocN(sizeof(DispList), "makeDispListbez");
351                                 /* len+1 because of 'forward_diff_bezier' function */
352                                 dl->verts = MEM_callocN((len + 1) * 3 * sizeof(float), "dlverts");
353                                 BLI_addtail(dispbase, dl);
354                                 dl->parts = 1;
355                                 dl->nr = len;
356                                 dl->col = nu->mat_nr;
357                                 dl->charidx = nu->charidx;
358
359                                 data = dl->verts;
360
361                                 if (nu->flagu & CU_NURB_CYCLIC) {
362                                         dl->type = DL_POLY;
363                                         a = nu->pntsu;
364                                 }
365                                 else {
366                                         dl->type = DL_SEGM;
367                                         a = nu->pntsu - 1;
368                                 }
369
370                                 prevbezt = nu->bezt;
371                                 bezt = prevbezt + 1;
372
373                                 while (a--) {
374                                         if (a == 0 && dl->type == DL_POLY)
375                                                 bezt = nu->bezt;
376
377                                         if (prevbezt->h2 == HD_VECT && bezt->h1 == HD_VECT) {
378                                                 copy_v3_v3(data, prevbezt->vec[1]);
379                                                 data += 3;
380                                         }
381                                         else {
382                                                 int j;
383                                                 for (j = 0; j < 3; j++) {
384                                                         BKE_curve_forward_diff_bezier(prevbezt->vec[1][j],
385                                                                                       prevbezt->vec[2][j],
386                                                                                       bezt->vec[0][j],
387                                                                                       bezt->vec[1][j],
388                                                                                       data + j, resolu, 3 * sizeof(float));
389                                                 }
390
391                                                 data += 3 * resolu;
392                                         }
393
394                                         if (a == 0 && dl->type == DL_SEGM) {
395                                                 copy_v3_v3(data, bezt->vec[1]);
396                                         }
397
398                                         prevbezt = bezt;
399                                         bezt++;
400                                 }
401                         }
402                         else if (nu->type == CU_NURBS) {
403                                 len = (resolu * SEGMENTSU(nu));
404
405                                 dl = MEM_callocN(sizeof(DispList), "makeDispListsurf");
406                                 dl->verts = MEM_callocN(len * 3 * sizeof(float), "dlverts");
407                                 BLI_addtail(dispbase, dl);
408                                 dl->parts = 1;
409
410                                 dl->nr = len;
411                                 dl->col = nu->mat_nr;
412                                 dl->charidx = nu->charidx;
413
414                                 data = dl->verts;
415                                 if (nu->flagu & CU_NURB_CYCLIC)
416                                         dl->type = DL_POLY;
417                                 else dl->type = DL_SEGM;
418                                 BKE_nurb_makeCurve(nu, data, NULL, NULL, NULL, resolu, 3 * sizeof(float));
419                         }
420                         else if (nu->type == CU_POLY) {
421                                 len = nu->pntsu;
422                                 dl = MEM_callocN(sizeof(DispList), "makeDispListpoly");
423                                 dl->verts = MEM_callocN(len * 3 * sizeof(float), "dlverts");
424                                 BLI_addtail(dispbase, dl);
425                                 dl->parts = 1;
426                                 dl->nr = len;
427                                 dl->col = nu->mat_nr;
428                                 dl->charidx = nu->charidx;
429
430                                 data = dl->verts;
431                                 if (nu->flagu & CU_NURB_CYCLIC) dl->type = DL_POLY;
432                                 else dl->type = DL_SEGM;
433
434                                 a = len;
435                                 bp = nu->bp;
436                                 while (a--) {
437                                         copy_v3_v3(data, bp->vec);
438                                         bp++;
439                                         data += 3;
440                                 }
441                         }
442                 }
443                 nu = nu->next;
444         }
445 }
446
447 /**
448  * \param normal_proj  Optional normal thats used to project the scanfill verts into 2d coords.
449  * Pass this along if known since it saves time calculating the normal.
450  * \param flipnormal  Flip the normal (same as passing \a normal_proj negated)
451  */
452 void BKE_displist_fill(ListBase *dispbase, ListBase *to, const float normal_proj[3], const bool flipnormal)
453 {
454         ScanFillContext sf_ctx;
455         ScanFillVert *sf_vert, *sf_vert_new, *sf_vert_last;
456         ScanFillFace *sf_tri;
457         DispList *dlnew = NULL, *dl;
458         float *f1;
459         int colnr = 0, charidx = 0, cont = 1, tot, a, *index, nextcol = 0;
460         intptr_t totvert;
461
462         if (dispbase == NULL)
463                 return;
464         if (dispbase->first == NULL)
465                 return;
466
467         while (cont) {
468                 cont = 0;
469                 totvert = 0;
470                 nextcol = 0;
471
472                 BLI_scanfill_begin(&sf_ctx);
473
474                 dl = dispbase->first;
475                 while (dl) {
476                         if (dl->type == DL_POLY) {
477                                 if (charidx < dl->charidx)
478                                         cont = 1;
479                                 else if (charidx == dl->charidx) { /* character with needed index */
480                                         if (colnr == dl->col) {
481                                                 /* make editverts and edges */
482                                                 f1 = dl->verts;
483                                                 a = dl->nr;
484                                                 sf_vert = sf_vert_new = NULL;
485
486                                                 while (a--) {
487                                                         sf_vert_last = sf_vert;
488
489                                                         sf_vert = BLI_scanfill_vert_add(&sf_ctx, f1);
490                                                         totvert++;
491
492                                                         if (sf_vert_last == NULL)
493                                                                 sf_vert_new = sf_vert;
494                                                         else {
495                                                                 BLI_scanfill_edge_add(&sf_ctx, sf_vert_last, sf_vert);
496                                                         }
497                                                         f1 += 3;
498                                                 }
499
500                                                 if (sf_vert != NULL && sf_vert_new != NULL) {
501                                                         BLI_scanfill_edge_add(&sf_ctx, sf_vert, sf_vert_new);
502                                                 }
503                                         }
504                                         else if (colnr < dl->col) {
505                                                 /* got poly with next material at current char */
506                                                 cont = 1;
507                                                 nextcol = 1;
508                                         }
509                                 }
510                         }
511                         dl = dl->next;
512                 }
513
514                 /* XXX (obedit && obedit->actcol) ? (obedit->actcol-1) : 0)) { */
515                 if (totvert && (tot = BLI_scanfill_calc_ex(&sf_ctx,
516                                                            BLI_SCANFILL_CALC_REMOVE_DOUBLES | BLI_SCANFILL_CALC_HOLES,
517                                                            normal_proj)))
518                 {
519                         if (tot) {
520                                 dlnew = MEM_callocN(sizeof(DispList), "filldisplist");
521                                 dlnew->type = DL_INDEX3;
522                                 dlnew->col = colnr;
523                                 dlnew->nr = totvert;
524                                 dlnew->parts = tot;
525
526                                 dlnew->index = MEM_mallocN(tot * 3 * sizeof(int), "dlindex");
527                                 dlnew->verts = MEM_mallocN(totvert * 3 * sizeof(float), "dlverts");
528
529                                 /* vert data */
530                                 f1 = dlnew->verts;
531                                 totvert = 0;
532
533                                 for (sf_vert = sf_ctx.fillvertbase.first; sf_vert; sf_vert = sf_vert->next) {
534                                         copy_v3_v3(f1, sf_vert->co);
535                                         f1 += 3;
536
537                                         /* index number */
538                                         sf_vert->tmp.l = totvert;
539                                         totvert++;
540                                 }
541
542                                 /* index data */
543                                 sf_tri = sf_ctx.fillfacebase.first;
544                                 index = dlnew->index;
545                                 while (sf_tri) {
546                                         index[0] = (intptr_t)sf_tri->v1->tmp.l;
547                                         index[1] = (intptr_t)sf_tri->v2->tmp.l;
548                                         index[2] = (intptr_t)sf_tri->v3->tmp.l;
549
550                                         if (flipnormal)
551                                                 SWAP(int, index[0], index[2]);
552
553                                         index += 3;
554                                         sf_tri = sf_tri->next;
555                                 }
556                         }
557
558                         BLI_addhead(to, dlnew);
559                 }
560                 BLI_scanfill_end(&sf_ctx);
561
562                 if (nextcol) {
563                         /* stay at current char but fill polys with next material */
564                         colnr++;
565                 }
566                 else {
567                         /* switch to next char and start filling from first material */
568                         charidx++;
569                         colnr = 0;
570                 }
571         }
572
573         /* do not free polys, needed for wireframe display */
574 }
575
576 static void bevels_to_filledpoly(Curve *cu, ListBase *dispbase)
577 {
578         const float z_up[3] = {0.0f, 0.0f, 1.0f};
579         ListBase front, back;
580         DispList *dl, *dlnew;
581         float *fp, *fp1;
582         int a, dpoly;
583
584         front.first = front.last = back.first = back.last = NULL;
585
586         dl = dispbase->first;
587         while (dl) {
588                 if (dl->type == DL_SURF) {
589                         if ((dl->flag & DL_CYCL_V) && (dl->flag & DL_CYCL_U) == 0) {
590                                 if ( (cu->flag & CU_BACK) && (dl->flag & DL_BACK_CURVE)) {
591                                         dlnew = MEM_callocN(sizeof(DispList), "filldisp");
592                                         BLI_addtail(&front, dlnew);
593                                         dlnew->verts = fp1 = MEM_mallocN(sizeof(float) * 3 * dl->parts, "filldisp1");
594                                         dlnew->nr = dl->parts;
595                                         dlnew->parts = 1;
596                                         dlnew->type = DL_POLY;
597                                         dlnew->col = dl->col;
598                                         dlnew->charidx = dl->charidx;
599
600                                         fp = dl->verts;
601                                         dpoly = 3 * dl->nr;
602
603                                         a = dl->parts;
604                                         while (a--) {
605                                                 copy_v3_v3(fp1, fp);
606                                                 fp1 += 3;
607                                                 fp += dpoly;
608                                         }
609                                 }
610                                 if ((cu->flag & CU_FRONT) && (dl->flag & DL_FRONT_CURVE)) {
611                                         dlnew = MEM_callocN(sizeof(DispList), "filldisp");
612                                         BLI_addtail(&back, dlnew);
613                                         dlnew->verts = fp1 = MEM_mallocN(sizeof(float) * 3 * dl->parts, "filldisp1");
614                                         dlnew->nr = dl->parts;
615                                         dlnew->parts = 1;
616                                         dlnew->type = DL_POLY;
617                                         dlnew->col = dl->col;
618                                         dlnew->charidx = dl->charidx;
619
620                                         fp = dl->verts + 3 * (dl->nr - 1);
621                                         dpoly = 3 * dl->nr;
622
623                                         a = dl->parts;
624                                         while (a--) {
625                                                 copy_v3_v3(fp1, fp);
626                                                 fp1 += 3;
627                                                 fp += dpoly;
628                                         }
629                                 }
630                         }
631                 }
632                 dl = dl->next;
633         }
634
635         BKE_displist_fill(&front, dispbase, z_up, true);
636         BKE_displist_fill(&back, dispbase, z_up, false);
637
638         BKE_displist_free(&front);
639         BKE_displist_free(&back);
640
641         BKE_displist_fill(dispbase, dispbase, z_up, false);
642 }
643
644 static void curve_to_filledpoly(Curve *cu, ListBase *UNUSED(nurb), ListBase *dispbase)
645 {
646         if (cu->flag & CU_3D)
647                 return;
648
649         if (dispbase->first && ((DispList *) dispbase->first)->type == DL_SURF) {
650                 bevels_to_filledpoly(cu, dispbase);
651         }
652         else {
653                 /* TODO, investigate passing zup instead of NULL */
654                 BKE_displist_fill(dispbase, dispbase, NULL, false);
655         }
656 }
657
658 /* taper rules:
659  * - only 1 curve
660  * - first point left, last point right
661  * - based on subdivided points in original curve, not on points in taper curve (still)
662  */
663 static float displist_calc_taper(Scene *scene, Object *taperobj, float fac)
664 {
665         DispList *dl;
666
667         if (taperobj == NULL || taperobj->type != OB_CURVE)
668                 return 1.0;
669
670         dl = taperobj->disp.first;
671         if (dl == NULL) {
672                 BKE_displist_make_curveTypes(scene, taperobj, 0);
673                 dl = taperobj->disp.first;
674         }
675         if (dl) {
676                 float minx, dx, *fp;
677                 int a;
678
679                 /* horizontal size */
680                 minx = dl->verts[0];
681                 dx = dl->verts[3 * (dl->nr - 1)] - minx;
682                 if (dx > 0.0f) {
683                         fp = dl->verts;
684                         for (a = 0; a < dl->nr; a++, fp += 3) {
685                                 if ((fp[0] - minx) / dx >= fac) {
686                                         /* interpolate with prev */
687                                         if (a > 0) {
688                                                 float fac1 = (fp[-3] - minx) / dx;
689                                                 float fac2 = (fp[0] - minx) / dx;
690                                                 if (fac1 != fac2)
691                                                         return fp[1] * (fac1 - fac) / (fac1 - fac2) + fp[-2] * (fac - fac2) / (fac1 - fac2);
692                                         }
693                                         return fp[1];
694                                 }
695                         }
696                         return fp[-2];  // last y coord
697                 }
698         }
699
700         return 1.0;
701 }
702
703 float BKE_displist_calc_taper(Scene *scene, Object *taperobj, int cur, int tot)
704 {
705         float fac = ((float)cur) / (float)(tot - 1);
706
707         return displist_calc_taper(scene, taperobj, fac);
708 }
709
710 void BKE_displist_make_mball(Scene *scene, Object *ob)
711 {
712         if (!ob || ob->type != OB_MBALL)
713                 return;
714
715         BKE_displist_free(&(ob->disp));
716
717         if (ob->type == OB_MBALL) {
718                 if (ob == BKE_mball_basis_find(scene, ob)) {
719                         BKE_mball_polygonize(scene, ob, &ob->disp, false);
720                         BKE_mball_texspace_calc(ob);
721
722                         object_deform_mball(ob, &ob->disp);
723                 }
724         }
725
726         boundbox_displist(ob);
727 }
728
729 void BKE_displist_make_mball_forRender(Scene *scene, Object *ob, ListBase *dispbase)
730 {
731         BKE_mball_polygonize(scene, ob, dispbase, true);
732         BKE_mball_texspace_calc(ob);
733
734         object_deform_mball(ob, dispbase);
735 }
736
737 static ModifierData *curve_get_tessellate_point(Scene *scene, Object *ob, int renderResolution, int editmode)
738 {
739         ModifierData *md = modifiers_getVirtualModifierList(ob);
740         ModifierData *pretessellatePoint;
741         int required_mode;
742
743         if (renderResolution)
744                 required_mode = eModifierMode_Render;
745         else
746                 required_mode = eModifierMode_Realtime;
747
748         if (editmode)
749                 required_mode |= eModifierMode_Editmode;
750
751         pretessellatePoint = NULL;
752         for (; md; md = md->next) {
753                 ModifierTypeInfo *mti = modifierType_getInfo(md->type);
754
755                 if (!modifier_isEnabled(scene, md, required_mode))
756                         continue;
757                 if (mti->type == eModifierTypeType_Constructive)
758                         return pretessellatePoint;
759
760                 if (ELEM3(md->type, eModifierType_Hook, eModifierType_Softbody, eModifierType_MeshDeform)) {
761                         pretessellatePoint = md;
762
763                         /* this modifiers are moving point of tessellation automatically
764                          * (some of them even can't be applied on tessellated curve), set flag
765                          * for information button in modifier's header
766                          */
767                         md->mode |= eModifierMode_ApplyOnSpline;
768                 }
769                 else if (md->mode & eModifierMode_ApplyOnSpline) {
770                         pretessellatePoint = md;
771                 }
772         }
773
774         return pretessellatePoint;
775 }
776
777 static void curve_calc_modifiers_pre(Scene *scene, Object *ob, int forRender, int renderResolution,
778                                      float (**originalVerts_r)[3],
779                                      float (**deformedVerts_r)[3], int *numVerts_r)
780 {
781         ModifierData *md = modifiers_getVirtualModifierList(ob);
782         ModifierData *pretessellatePoint;
783         Curve *cu = ob->data;
784         ListBase *nurb = BKE_curve_nurbs_get(cu);
785         int numVerts = 0;
786         const int editmode = (!forRender && (cu->editnurb || cu->editfont));
787         ModifierApplyFlag app_flag = 0;
788         float (*originalVerts)[3] = NULL;
789         float (*deformedVerts)[3] = NULL;
790         float *keyVerts = NULL;
791         int required_mode;
792
793         if (editmode)
794                 app_flag |= MOD_APPLY_USECACHE;
795         if (renderResolution) {
796                 app_flag |= MOD_APPLY_RENDER;
797                 required_mode = eModifierMode_Render;
798         }
799         else
800                 required_mode = eModifierMode_Realtime;
801
802         pretessellatePoint = curve_get_tessellate_point(scene, ob, renderResolution, editmode);
803
804         if (editmode)
805                 required_mode |= eModifierMode_Editmode;
806
807         if (cu->editnurb == NULL) {
808                 keyVerts = BKE_key_evaluate_object(scene, ob, &numVerts);
809
810                 if (keyVerts) {
811                         /* split coords from key data, the latter also includes
812                          * tilts, which is passed through in the modifier stack.
813                          * this is also the reason curves do not use a virtual
814                          * shape key modifier yet. */
815                         deformedVerts = BKE_curve_keyVertexCos_get(cu, nurb, keyVerts);
816                         originalVerts = MEM_dupallocN(deformedVerts);
817                         BLI_assert(BKE_nurbList_verts_count(nurb) == numVerts);
818                 }
819         }
820
821         if (pretessellatePoint) {
822                 for (; md; md = md->next) {
823                         ModifierTypeInfo *mti = modifierType_getInfo(md->type);
824
825                         md->scene = scene;
826
827                         if (!modifier_isEnabled(scene, md, required_mode))
828                                 continue;
829                         if (mti->type != eModifierTypeType_OnlyDeform)
830                                 continue;
831
832                         if (!deformedVerts) {
833                                 deformedVerts = BKE_curve_vertexCos_get(cu, nurb, &numVerts);
834                                 originalVerts = MEM_dupallocN(deformedVerts);
835                         }
836
837                         mti->deformVerts(md, ob, NULL, deformedVerts, numVerts, app_flag);
838
839                         if (md == pretessellatePoint)
840                                 break;
841                 }
842         }
843
844         if (deformedVerts)
845                 BK_curve_vertexCos_apply(cu, nurb, deformedVerts);
846         if (keyVerts) /* these are not passed through modifier stack */
847                 BKE_curve_keyVertexTilts_apply(cu, nurb, keyVerts);
848
849         if (keyVerts)
850                 MEM_freeN(keyVerts);
851
852         *originalVerts_r = originalVerts;
853         *deformedVerts_r = deformedVerts;
854         *numVerts_r = numVerts;
855 }
856
857 static float (*displist_get_allverts(ListBase *dispbase, int *totvert))[3]
858 {
859         DispList *dl;
860         float (*allverts)[3], *fp;
861
862         *totvert = 0;
863
864         for (dl = dispbase->first; dl; dl = dl->next)
865                 *totvert += (dl->type == DL_INDEX3) ? dl->nr : dl->parts * dl->nr;
866
867         allverts = MEM_mallocN((*totvert) * sizeof(float) * 3, "displist_get_allverts allverts");
868         fp = (float *)allverts;
869         for (dl = dispbase->first; dl; dl = dl->next) {
870                 int offs = 3 * ((dl->type == DL_INDEX3) ? dl->nr : dl->parts * dl->nr);
871                 memcpy(fp, dl->verts, sizeof(float) * offs);
872                 fp += offs;
873         }
874
875         return allverts;
876 }
877
878 static void displist_apply_allverts(ListBase *dispbase, float (*allverts)[3])
879 {
880         DispList *dl;
881         float *fp;
882
883         fp = (float *)allverts;
884         for (dl = dispbase->first; dl; dl = dl->next) {
885                 int offs = 3 * ((dl->type == DL_INDEX3) ? dl->nr : dl->parts * dl->nr);
886                 memcpy(dl->verts, fp, sizeof(float) * offs);
887                 fp += offs;
888         }
889 }
890
891 static void curve_calc_modifiers_post(Scene *scene, Object *ob, ListBase *dispbase, DerivedMesh **derivedFinal,
892                                       int forRender, int renderResolution,
893                                       float (*originalVerts)[3], float (*deformedVerts)[3])
894 {
895         ModifierData *md = modifiers_getVirtualModifierList(ob);
896         ModifierData *pretessellatePoint;
897         Curve *cu = ob->data;
898         ListBase *nurb = BKE_curve_nurbs_get(cu);
899         int required_mode = 0, totvert = 0;
900         int editmode = (!forRender && (cu->editnurb || cu->editfont));
901         DerivedMesh *dm = NULL, *ndm;
902         float (*vertCos)[3] = NULL;
903         int useCache = !forRender;
904         ModifierApplyFlag app_flag = 0;
905
906         if (renderResolution) {
907                 app_flag |= MOD_APPLY_RENDER;
908                 required_mode = eModifierMode_Render;
909         }
910         else
911                 required_mode = eModifierMode_Realtime;
912
913         pretessellatePoint = curve_get_tessellate_point(scene, ob, renderResolution, editmode);
914
915         if (editmode)
916                 required_mode |= eModifierMode_Editmode;
917
918         if (pretessellatePoint) {
919                 md = pretessellatePoint->next;
920         }
921
922         if (derivedFinal && *derivedFinal) {
923                 (*derivedFinal)->release(*derivedFinal);
924         }
925
926         for (; md; md = md->next) {
927                 ModifierTypeInfo *mti = modifierType_getInfo(md->type);
928                 ModifierApplyFlag appf = app_flag;
929
930                 md->scene = scene;
931
932                 if (!modifier_isEnabled(scene, md, required_mode))
933                         continue;
934
935                 if (mti->type == eModifierTypeType_OnlyDeform ||
936                     (mti->type == eModifierTypeType_DeformOrConstruct && !dm))
937                 {
938                         if (editmode)
939                                 appf |= MOD_APPLY_USECACHE;
940                         if (dm) {
941                                 if (!vertCos) {
942                                         totvert = dm->getNumVerts(dm);
943                                         vertCos = MEM_mallocN(sizeof(*vertCos) * totvert, "dfmv");
944                                         dm->getVertCos(dm, vertCos);
945                                 }
946
947                                 mti->deformVerts(md, ob, dm, vertCos, totvert, appf);
948                         }
949                         else {
950                                 if (!vertCos) {
951                                         vertCos = displist_get_allverts(dispbase, &totvert);
952                                 }
953
954                                 mti->deformVerts(md, ob, NULL, vertCos, totvert, appf);
955                         }
956                 }
957                 else {
958                         if (!derivedFinal) {
959                                 /* makeDisplistCurveTypes could be used for beveling, where derived mesh
960                                  * is totally unnecessary, so we could stop modifiers applying
961                                  * when we found constructive modifier but derived mesh is unwanted result
962                                  */
963                                 break;
964                         }
965
966                         if (dm) {
967                                 if (vertCos) {
968                                         DerivedMesh *tdm = CDDM_copy(dm);
969                                         dm->release(dm);
970                                         dm = tdm;
971
972                                         CDDM_apply_vert_coords(dm, vertCos);
973                                 }
974                         }
975                         else {
976                                 if (vertCos) {
977                                         displist_apply_allverts(dispbase, vertCos);
978                                 }
979
980                                 if (ELEM(ob->type, OB_CURVE, OB_FONT) && (cu->flag & CU_DEFORM_FILL)) {
981                                         curve_to_filledpoly(cu, nurb, dispbase);
982                                 }
983
984                                 dm = CDDM_from_curve_displist(ob, dispbase);
985                         }
986
987                         if (vertCos) {
988                                 /* Vertex coordinates were applied to necessary data, could free it */
989                                 MEM_freeN(vertCos);
990                                 vertCos = NULL;
991                         }
992
993                         if (useCache)
994                                 appf |= MOD_APPLY_USECACHE;
995
996                         ndm = modwrap_applyModifier(md, ob, dm, appf);
997
998                         if (ndm) {
999                                 /* Modifier returned a new derived mesh */
1000
1001                                 if (dm && dm != ndm) /* Modifier  */
1002                                         dm->release(dm);
1003                                 dm = ndm;
1004                         }
1005                 }
1006         }
1007
1008         if (vertCos) {
1009                 if (dm) {
1010                         DerivedMesh *tdm = CDDM_copy(dm);
1011                         dm->release(dm);
1012                         dm = tdm;
1013
1014                         CDDM_apply_vert_coords(dm, vertCos);
1015                         CDDM_calc_normals_mapping(dm);
1016                         MEM_freeN(vertCos);
1017                 }
1018                 else {
1019                         displist_apply_allverts(dispbase, vertCos);
1020                         MEM_freeN(vertCos);
1021                         vertCos = NULL;
1022                 }
1023         }
1024
1025         if (derivedFinal) {
1026                 if (dm) {
1027                         /* see: mesh_calc_modifiers */
1028                         if (dm->getNumTessFaces(dm) == 0) {
1029                                 dm->recalcTessellation(dm);
1030                         }
1031                         /* Even if tessellation is not needed, some modifiers might have modified CD layers
1032                          * (like mloopcol or mloopuv), hence we have to update those. */
1033                         else if (dm->dirty & DM_DIRTY_TESS_CDLAYERS) {
1034                                 DM_update_tessface_data(dm);
1035                         }
1036
1037                         CDDM_calc_normals_mapping_ex(dm, (dm->dirty & DM_DIRTY_NORMALS) ? false : true);
1038                 }
1039                 (*derivedFinal) = dm;
1040         }
1041
1042         if (deformedVerts) {
1043                 BK_curve_vertexCos_apply(ob->data, nurb, originalVerts);
1044                 MEM_freeN(originalVerts);
1045                 MEM_freeN(deformedVerts);
1046         }
1047 }
1048
1049 static void displist_surf_indices(DispList *dl)
1050 {
1051         int a, b, p1, p2, p3, p4;
1052         int *index;
1053
1054         dl->totindex = 0;
1055
1056         index = dl->index = MEM_mallocN(4 * sizeof(int) * (dl->parts + 1) * (dl->nr + 1), "index array nurbs");
1057
1058         for (a = 0; a < dl->parts; a++) {
1059
1060                 if (BKE_displist_surfindex_get(dl, a, &b, &p1, &p2, &p3, &p4) == 0)
1061                         break;
1062
1063                 for (; b < dl->nr; b++, index += 4) {
1064                         index[0] = p1;
1065                         index[1] = p2;
1066                         index[2] = p4;
1067                         index[3] = p3;
1068
1069                         dl->totindex++;
1070
1071                         p2 = p1; p1++;
1072                         p4 = p3; p3++;
1073                 }
1074         }
1075 }
1076
1077 static DerivedMesh *create_orco_dm(Scene *scene, Object *ob)
1078 {
1079         DerivedMesh *dm;
1080         ListBase disp = {NULL, NULL};
1081
1082         /* OrcoDM should be created from underformed disp lists */
1083         BKE_displist_make_curveTypes_forOrco(scene, ob, &disp);
1084         dm = CDDM_from_curve_displist(ob, &disp);
1085
1086         BKE_displist_free(&disp);
1087
1088         return dm;
1089 }
1090
1091 static void add_orco_dm(Scene *scene, Object *ob, DerivedMesh *dm, DerivedMesh *orcodm)
1092 {
1093         float (*orco)[3], (*layerorco)[3];
1094         int totvert, a;
1095         Curve *cu = ob->data;
1096
1097         totvert = dm->getNumVerts(dm);
1098
1099         if (orcodm) {
1100                 orco = MEM_callocN(sizeof(float) * 3 * totvert, "dm orco");
1101
1102                 if (orcodm->getNumVerts(orcodm) == totvert)
1103                         orcodm->getVertCos(orcodm, orco);
1104                 else
1105                         dm->getVertCos(dm, orco);
1106         }
1107         else {
1108                 int totvert_curve;
1109                 orco = (float(*)[3])BKE_curve_make_orco(scene, ob, &totvert_curve);
1110                 if (totvert != totvert_curve) {
1111                         MEM_freeN(orco);
1112                         orco = MEM_callocN(sizeof(float) * 3 * totvert, "dm orco");
1113                         dm->getVertCos(dm, orco);
1114                 }
1115         }
1116
1117         for (a = 0; a < totvert; a++) {
1118                 float *co = orco[a];
1119                 co[0] = (co[0] - cu->loc[0]) / cu->size[0];
1120                 co[1] = (co[1] - cu->loc[1]) / cu->size[1];
1121                 co[2] = (co[2] - cu->loc[2]) / cu->size[2];
1122         }
1123
1124         if ((layerorco = DM_get_vert_data_layer(dm, CD_ORCO))) {
1125                 memcpy(layerorco, orco, sizeof(float) * totvert);
1126                 MEM_freeN(orco);
1127         }
1128         else
1129                 DM_add_vert_layer(dm, CD_ORCO, CD_ASSIGN, orco);
1130 }
1131
1132 static void curve_calc_orcodm(Scene *scene, Object *ob, DerivedMesh *derivedFinal, int forRender, int renderResolution)
1133 {
1134         /* this function represents logic of mesh's orcodm calculation
1135          * for displist-based objects
1136          */
1137
1138         ModifierData *md = modifiers_getVirtualModifierList(ob);
1139         ModifierData *pretessellatePoint;
1140         Curve *cu = ob->data;
1141         int required_mode;
1142         int editmode = (!forRender && (cu->editnurb || cu->editfont));
1143         DerivedMesh *ndm, *orcodm = NULL;
1144         ModifierApplyFlag app_flag = MOD_APPLY_ORCO;
1145
1146         if (renderResolution) {
1147                 app_flag |= MOD_APPLY_RENDER;
1148                 required_mode = eModifierMode_Render;
1149         }
1150         else
1151                 required_mode = eModifierMode_Realtime;
1152
1153         pretessellatePoint = curve_get_tessellate_point(scene, ob, renderResolution, editmode);
1154
1155         if (editmode)
1156                 required_mode |= eModifierMode_Editmode;
1157
1158         if (pretessellatePoint) {
1159                 md = pretessellatePoint->next;
1160         }
1161
1162         for (; md; md = md->next) {
1163                 ModifierTypeInfo *mti = modifierType_getInfo(md->type);
1164
1165                 md->scene = scene;
1166
1167                 if (!modifier_isEnabled(scene, md, required_mode))
1168                         continue;
1169                 if (mti->type != eModifierTypeType_Constructive)
1170                         continue;
1171
1172                 if (!orcodm)
1173                         orcodm = create_orco_dm(scene, ob);
1174
1175                 ndm = mti->applyModifier(md, ob, orcodm, app_flag);
1176
1177                 if (ndm) {
1178                         /* if the modifier returned a new dm, release the old one */
1179                         if (orcodm && orcodm != ndm) {
1180                                 orcodm->release(orcodm);
1181                         }
1182                         orcodm = ndm;
1183                 }
1184         }
1185
1186         /* add an orco layer if needed */
1187         add_orco_dm(scene, ob, derivedFinal, orcodm);
1188
1189         if (orcodm)
1190                 orcodm->release(orcodm);
1191 }
1192
1193 void BKE_displist_make_surf(Scene *scene, Object *ob, ListBase *dispbase,
1194                             DerivedMesh **derivedFinal, int forRender, int forOrco, int renderResolution)
1195 {
1196         ListBase *nubase;
1197         Nurb *nu;
1198         Curve *cu = ob->data;
1199         DispList *dl;
1200         float *data;
1201         int len;
1202         int numVerts;
1203         float (*originalVerts)[3];
1204         float (*deformedVerts)[3];
1205
1206         if (!forRender && cu->editnurb)
1207                 nubase = BKE_curve_editNurbs_get(cu);
1208         else
1209                 nubase = &cu->nurb;
1210
1211         if (!forOrco)
1212                 curve_calc_modifiers_pre(scene, ob, forRender, renderResolution, &originalVerts, &deformedVerts, &numVerts);
1213
1214         for (nu = nubase->first; nu; nu = nu->next) {
1215                 if (forRender || nu->hide == 0) {
1216                         int resolu = nu->resolu, resolv = nu->resolv;
1217
1218                         if (renderResolution) {
1219                                 if (cu->resolu_ren)
1220                                         resolu = cu->resolu_ren;
1221                                 if (cu->resolv_ren)
1222                                         resolv = cu->resolv_ren;
1223                         }
1224
1225                         if (nu->pntsv == 1) {
1226                                 len = SEGMENTSU(nu) * resolu;
1227
1228                                 dl = MEM_callocN(sizeof(DispList), "makeDispListsurf");
1229                                 dl->verts = MEM_callocN(len * 3 * sizeof(float), "dlverts");
1230
1231                                 BLI_addtail(dispbase, dl);
1232                                 dl->parts = 1;
1233                                 dl->nr = len;
1234                                 dl->col = nu->mat_nr;
1235                                 dl->charidx = nu->charidx;
1236
1237                                 /* dl->rt will be used as flag for render face and */
1238                                 /* CU_2D conflicts with R_NOPUNOFLIP */
1239                                 dl->rt = nu->flag & ~CU_2D;
1240
1241                                 data = dl->verts;
1242                                 if (nu->flagu & CU_NURB_CYCLIC) dl->type = DL_POLY;
1243                                 else dl->type = DL_SEGM;
1244
1245                                 BKE_nurb_makeCurve(nu, data, NULL, NULL, NULL, resolu, 3 * sizeof(float));
1246                         }
1247                         else {
1248                                 len = (nu->pntsu * resolu) * (nu->pntsv * resolv);
1249
1250                                 dl = MEM_callocN(sizeof(DispList), "makeDispListsurf");
1251                                 dl->verts = MEM_callocN(len * 3 * sizeof(float), "dlverts");
1252                                 BLI_addtail(dispbase, dl);
1253
1254                                 dl->col = nu->mat_nr;
1255                                 dl->charidx = nu->charidx;
1256
1257                                 /* dl->rt will be used as flag for render face and */
1258                                 /* CU_2D conflicts with R_NOPUNOFLIP */
1259                                 dl->rt = nu->flag & ~CU_2D;
1260
1261                                 data = dl->verts;
1262                                 dl->type = DL_SURF;
1263
1264                                 dl->parts = (nu->pntsu * resolu);  /* in reverse, because makeNurbfaces works that way */
1265                                 dl->nr = (nu->pntsv * resolv);
1266                                 if (nu->flagv & CU_NURB_CYCLIC) dl->flag |= DL_CYCL_U;  /* reverse too! */
1267                                 if (nu->flagu & CU_NURB_CYCLIC) dl->flag |= DL_CYCL_V;
1268
1269                                 BKE_nurb_makeFaces(nu, data, 0, resolu, resolv);
1270
1271                                 /* gl array drawing: using indices */
1272                                 displist_surf_indices(dl);
1273                         }
1274                 }
1275         }
1276
1277         /* make copy of 'undeformed" displist for texture space calculation
1278          * actually, it's not totally undeformed -- pre-tessellation modifiers are
1279          * already applied, thats how it worked for years, so keep for compatibility (sergey) */
1280         BKE_displist_copy(&cu->disp, dispbase);
1281
1282         if (!forRender) {
1283                 BKE_curve_texspace_calc(cu);
1284         }
1285
1286         if (!forOrco) {
1287                 curve_calc_modifiers_post(scene, ob, dispbase, derivedFinal,
1288                                           forRender, renderResolution,
1289                                           originalVerts, deformedVerts);
1290         }
1291 }
1292
1293 static void rotateBevelPiece(Curve *cu, BevPoint *bevp, BevPoint *nbevp, DispList *dlb, float bev_blend, float widfac, float fac, float **data_r)
1294 {
1295         float *fp, *data = *data_r;
1296         int b;
1297
1298         fp = dlb->verts;
1299         for (b = 0; b < dlb->nr; b++, fp += 3, data += 3) {
1300                 if (cu->flag & CU_3D) {
1301                         float vec[3], quat[4];
1302
1303                         vec[0] = fp[1] + widfac;
1304                         vec[1] = fp[2];
1305                         vec[2] = 0.0;
1306
1307                         if (nbevp == NULL) {
1308                                 copy_v3_v3(data, bevp->vec);
1309                                 copy_qt_qt(quat, bevp->quat);
1310                         }
1311                         else {
1312                                 interp_v3_v3v3(data, bevp->vec, nbevp->vec, bev_blend);
1313                                 interp_qt_qtqt(quat, bevp->quat, nbevp->quat, bev_blend);
1314                         }
1315
1316                         mul_qt_v3(quat, vec);
1317
1318                         data[0] += fac * vec[0];
1319                         data[1] += fac * vec[1];
1320                         data[2] += fac * vec[2];
1321                 }
1322                 else {
1323                         float sina, cosa;
1324
1325                         if (nbevp == NULL) {
1326                                 copy_v3_v3(data, bevp->vec);
1327                                 sina = bevp->sina;
1328                                 cosa = bevp->cosa;
1329                         }
1330                         else {
1331                                 interp_v3_v3v3(data, bevp->vec, nbevp->vec, bev_blend);
1332
1333                                 /* perhaps we need to interpolate angles instead. but the thing is
1334                                  * cosa and sina are not actually sine and cosine
1335                                  */
1336                                 sina = nbevp->sina * bev_blend + bevp->sina * (1.0f - bev_blend);
1337                                 cosa = nbevp->cosa * bev_blend + bevp->cosa * (1.0f - bev_blend);
1338                         }
1339
1340                         data[0] += fac * (widfac + fp[1]) * sina;
1341                         data[1] += fac * (widfac + fp[1]) * cosa;
1342                         data[2] += fac * fp[2];
1343                 }
1344         }
1345
1346         *data_r = data;
1347 }
1348
1349 static void fillBevelCap(Nurb *nu, DispList *dlb, float *prev_fp, ListBase *dispbase)
1350 {
1351         DispList *dl;
1352
1353         dl = MEM_callocN(sizeof(DispList), "makeDispListbev2");
1354         dl->verts = MEM_mallocN(3 * sizeof(float) * dlb->nr, "dlverts");
1355         memcpy(dl->verts, prev_fp, 3 * sizeof(float) * dlb->nr);
1356
1357         dl->type = DL_POLY;
1358
1359         dl->parts = 1;
1360         dl->nr = dlb->nr;
1361         dl->col = nu->mat_nr;
1362         dl->charidx = nu->charidx;
1363
1364         /* dl->rt will be used as flag for render face and */
1365         /* CU_2D conflicts with R_NOPUNOFLIP */
1366         dl->rt = nu->flag & ~CU_2D;
1367
1368         BLI_addtail(dispbase, dl);
1369 }
1370
1371 static void do_makeDispListCurveTypes(Scene *scene, Object *ob, ListBase *dispbase,
1372                                       DerivedMesh **derivedFinal, int forRender, int forOrco, int renderResolution)
1373 {
1374         Curve *cu = ob->data;
1375
1376         /* we do allow duplis... this is only displist on curve level */
1377         if (!ELEM3(ob->type, OB_SURF, OB_CURVE, OB_FONT)) return;
1378
1379         if (ob->type == OB_SURF) {
1380                 BKE_displist_make_surf(scene, ob, dispbase, derivedFinal, forRender, forOrco, renderResolution);
1381         }
1382         else if (ELEM(ob->type, OB_CURVE, OB_FONT)) {
1383                 ListBase dlbev;
1384                 ListBase *nubase;
1385                 float (*originalVerts)[3];
1386                 float (*deformedVerts)[3];
1387                 int numVerts;
1388
1389                 nubase = BKE_curve_nurbs_get(cu);
1390
1391                 BLI_freelistN(&(cu->bev));
1392
1393                 if (cu->path) free_path(cu->path);
1394                 cu->path = NULL;
1395
1396                 if (ob->type == OB_FONT)
1397                         BKE_vfont_to_curve(G.main, scene, ob, 0);
1398
1399                 if (!forOrco)
1400                         curve_calc_modifiers_pre(scene, ob, forRender, renderResolution, &originalVerts, &deformedVerts, &numVerts);
1401
1402                 BKE_curve_bevelList_make(ob, forRender != FALSE);
1403
1404                 /* If curve has no bevel will return nothing */
1405                 BKE_curve_bevel_make(scene, ob, &dlbev, forRender, renderResolution);
1406
1407                 /* no bevel or extrude, and no width correction? */
1408                 if (!dlbev.first && cu->width == 1.0f) {
1409                         curve_to_displist(cu, nubase, dispbase, forRender, renderResolution);
1410                 }
1411                 else {
1412                         float widfac = cu->width - 1.0f;
1413                         BevList *bl = cu->bev.first;
1414                         Nurb *nu = nubase->first;
1415
1416                         for (; bl && nu; bl = bl->next, nu = nu->next) {
1417                                 DispList *dl;
1418                                 float *data;
1419                                 BevPoint *bevp;
1420                                 int a;
1421
1422                                 if (bl->nr) { /* blank bevel lists can happen */
1423
1424                                         /* exception handling; curve without bevel or extrude, with width correction */
1425                                         if (dlbev.first == NULL) {
1426                                                 dl = MEM_callocN(sizeof(DispList), "makeDispListbev");
1427                                                 dl->verts = MEM_callocN(3 * sizeof(float) * bl->nr, "dlverts");
1428                                                 BLI_addtail(dispbase, dl);
1429
1430                                                 if (bl->poly != -1) dl->type = DL_POLY;
1431                                                 else dl->type = DL_SEGM;
1432
1433                                                 if (dl->type == DL_SEGM) dl->flag = (DL_FRONT_CURVE | DL_BACK_CURVE);
1434
1435                                                 dl->parts = 1;
1436                                                 dl->nr = bl->nr;
1437                                                 dl->col = nu->mat_nr;
1438                                                 dl->charidx = nu->charidx;
1439
1440                                                 /* dl->rt will be used as flag for render face and */
1441                                                 /* CU_2D conflicts with R_NOPUNOFLIP */
1442                                                 dl->rt = nu->flag & ~CU_2D;
1443
1444                                                 a = dl->nr;
1445                                                 bevp = (BevPoint *)(bl + 1);
1446                                                 data = dl->verts;
1447                                                 while (a--) {
1448                                                         data[0] = bevp->vec[0] + widfac * bevp->sina;
1449                                                         data[1] = bevp->vec[1] + widfac * bevp->cosa;
1450                                                         data[2] = bevp->vec[2];
1451                                                         bevp++;
1452                                                         data += 3;
1453                                                 }
1454                                         }
1455                                         else {
1456                                                 DispList *dlb;
1457                                                 ListBase bottom_capbase = {NULL, NULL};
1458                                                 ListBase top_capbase = {NULL, NULL};
1459                                                 float bottom_no[3] = {0.0f};
1460                                                 float top_no[3] = {0.0f};
1461
1462                                                 for (dlb = dlbev.first; dlb; dlb = dlb->next) {
1463                                                         const float bevfac1 = min_ff(cu->bevfac1, cu->bevfac2);
1464                                                         const float bevfac2 = max_ff(cu->bevfac1, cu->bevfac2);
1465                                                         float firstblend = 0.0f, lastblend = 0.0f;
1466                                                         int i, start, steps;
1467
1468                                                         if (bevfac2 - bevfac1 == 0.0f)
1469                                                                 continue;
1470
1471                                                         start = (int)(bevfac1 * (bl->nr - 1));
1472                                                         steps = 2 + (int)((bevfac2) * (bl->nr - 1)) - start;
1473                                                         firstblend = 1.0f - (bevfac1 * (bl->nr - 1) - (int)(bevfac1 * (bl->nr - 1)));
1474                                                         lastblend  =         bevfac2 * (bl->nr - 1) - (int)(bevfac2 * (bl->nr - 1));
1475
1476                                                         if (start + steps > bl->nr) {
1477                                                                 steps = bl->nr - start;
1478                                                                 lastblend = 1.0f;
1479                                                         }
1480
1481                                                         /* for each part of the bevel use a separate displblock */
1482                                                         dl = MEM_callocN(sizeof(DispList), "makeDispListbev1");
1483                                                         dl->verts = data = MEM_callocN(3 * sizeof(float) * dlb->nr * steps, "dlverts");
1484                                                         BLI_addtail(dispbase, dl);
1485
1486                                                         dl->type = DL_SURF;
1487
1488                                                         dl->flag = dlb->flag & (DL_FRONT_CURVE | DL_BACK_CURVE);
1489                                                         if (dlb->type == DL_POLY) dl->flag |= DL_CYCL_U;
1490                                                         if (bl->poly >= 0) dl->flag |= DL_CYCL_V;
1491
1492                                                         dl->parts = steps;
1493                                                         dl->nr = dlb->nr;
1494                                                         dl->col = nu->mat_nr;
1495                                                         dl->charidx = nu->charidx;
1496
1497                                                         /* dl->rt will be used as flag for render face and */
1498                                                         /* CU_2D conflicts with R_NOPUNOFLIP */
1499                                                         dl->rt = nu->flag & ~CU_2D;
1500
1501                                                         dl->bevelSplitFlag = MEM_callocN(sizeof(*dl->col2) * ((steps + 0x1F) >> 5),
1502                                                                                          "bevelSplitFlag");
1503
1504                                                         /* for each point of poly make a bevel piece */
1505                                                         bevp = (BevPoint *)(bl + 1) + start;
1506                                                         for (i = start, a = 0; a < steps; i++, bevp++, a++) {
1507                                                                 float fac = 1.0;
1508                                                                 float *cur_data = data;
1509
1510                                                                 if (cu->taperobj == NULL) {
1511                                                                         fac = bevp->radius;
1512                                                                 }
1513                                                                 else {
1514                                                                         float len, taper_fac;
1515
1516                                                                         if (cu->flag & CU_MAP_TAPER) {
1517                                                                                 len = (steps - 3) + firstblend + lastblend;
1518
1519                                                                                 if (a == 0)
1520                                                                                         taper_fac = 0.0f;
1521                                                                                 else if (a == steps - 1)
1522                                                                                         taper_fac = 1.0f;
1523                                                                                 else
1524                                                                                         taper_fac = ((float) a - (1.0f - firstblend)) / len;
1525                                                                         }
1526                                                                         else {
1527                                                                                 len = bl->nr - 1;
1528                                                                                 taper_fac = (float) i / len;
1529
1530                                                                                 if (a == 0)
1531                                                                                         taper_fac += (1.0f - firstblend) / len;
1532                                                                                 else if (a == steps - 1)
1533                                                                                         taper_fac -= (1.0f - lastblend) / len;
1534                                                                         }
1535
1536                                                                         fac = displist_calc_taper(scene, cu->taperobj, taper_fac);
1537                                                                 }
1538
1539                                                                 if (bevp->split_tag) {
1540                                                                         dl->bevelSplitFlag[a >> 5] |= 1 << (a & 0x1F);
1541                                                                 }
1542
1543                                                                 /* rotate bevel piece and write in data */
1544                                                                 if (a == 0)
1545                                                                         rotateBevelPiece(cu, bevp, bevp + 1, dlb, 1.0f - firstblend, widfac, fac, &data);
1546                                                                 else if (a == steps - 1)
1547                                                                         rotateBevelPiece(cu, bevp, bevp - 1, dlb, 1.0f - lastblend, widfac, fac, &data);
1548                                                                 else
1549                                                                         rotateBevelPiece(cu, bevp, NULL, dlb, 0.0f, widfac, fac, &data);
1550
1551                                                                 if (cu->bevobj && (cu->flag & CU_FILL_CAPS) && !(nu->flagu & CU_NURB_CYCLIC)) {
1552                                                                         if (a == 1) {
1553                                                                                 fillBevelCap(nu, dlb, cur_data - 3 * dlb->nr, &bottom_capbase);
1554                                                                                 negate_v3_v3(bottom_no, bevp->dir);
1555                                                                         }
1556                                                                         if (a == steps - 1) {
1557                                                                                 fillBevelCap(nu, dlb, cur_data, &top_capbase);
1558                                                                                 copy_v3_v3(top_no, bevp->dir);
1559                                                                         }
1560                                                                 }
1561                                                         }
1562
1563                                                         /* gl array drawing: using indices */
1564                                                         displist_surf_indices(dl);
1565                                                 }
1566
1567                                                 if (bottom_capbase.first) {
1568                                                         BKE_displist_fill(&bottom_capbase, dispbase, bottom_no, false);
1569                                                         BKE_displist_fill(&top_capbase, dispbase, top_no, false);
1570                                                         BKE_displist_free(&bottom_capbase);
1571                                                         BKE_displist_free(&top_capbase);
1572                                                 }
1573                                         }
1574                                 }
1575
1576                         }
1577                         BKE_displist_free(&dlbev);
1578                 }
1579
1580                 if (!(cu->flag & CU_DEFORM_FILL)) {
1581                         curve_to_filledpoly(cu, nubase, dispbase);
1582                 }
1583
1584                 if ((cu->flag & CU_PATH) && !forOrco)
1585                         calc_curvepath(ob);
1586
1587                 /* make copy of 'undeformed" displist for texture space calculation
1588                  * actually, it's not totally undeformed -- pre-tessellation modifiers are
1589                  * already applied, thats how it worked for years, so keep for compatibility (sergey) */
1590                 BKE_displist_copy(&cu->disp, dispbase);
1591
1592                 if (!forRender) {
1593                         BKE_curve_texspace_calc(cu);
1594                 }
1595
1596                 if (!forOrco)
1597                         curve_calc_modifiers_post(scene, ob, dispbase, derivedFinal, forRender, renderResolution, originalVerts, deformedVerts);
1598
1599                 if (cu->flag & CU_DEFORM_FILL && !ob->derivedFinal) {
1600                         curve_to_filledpoly(cu, nubase, dispbase);
1601                 }
1602         }
1603 }
1604
1605 void BKE_displist_make_curveTypes(Scene *scene, Object *ob, int forOrco)
1606 {
1607         Curve *cu = ob->data;
1608         ListBase *dispbase;
1609
1610         /* The same check for duplis as in do_makeDispListCurveTypes.
1611          * Happens when curve used for constraint/bevel was converted to mesh.
1612          * check there is still needed for render displist and orco displists. */
1613         if (!ELEM3(ob->type, OB_SURF, OB_CURVE, OB_FONT))
1614                 return;
1615
1616         BKE_displist_free(&(ob->disp));
1617         dispbase = &(ob->disp);
1618         BKE_displist_free(dispbase);
1619
1620         /* free displist used for textspace */
1621         BKE_displist_free(&cu->disp);
1622
1623         do_makeDispListCurveTypes(scene, ob, dispbase, &ob->derivedFinal, 0, forOrco, 0);
1624
1625         if (ob->derivedFinal) {
1626                 DM_set_object_boundbox(ob, ob->derivedFinal);
1627
1628                 /* always keep curve's  BB in sync with non-deformed displist */
1629                 if (cu->bb == NULL)
1630                         cu->bb = MEM_callocN(sizeof(BoundBox), "boundbox");
1631
1632                 boundbox_dispbase(cu->bb, &cu->disp);
1633         }
1634         else {
1635                 boundbox_displist(ob);
1636         }
1637 }
1638
1639 void BKE_displist_make_curveTypes_forRender(Scene *scene, Object *ob, ListBase *dispbase,
1640                                       DerivedMesh **derivedFinal, int forOrco, int renderResolution)
1641 {
1642         do_makeDispListCurveTypes(scene, ob, dispbase, derivedFinal, 1, forOrco, renderResolution);
1643 }
1644
1645 void BKE_displist_make_curveTypes_forOrco(struct Scene *scene, struct Object *ob, struct ListBase *dispbase)
1646 {
1647         do_makeDispListCurveTypes(scene, ob, dispbase, NULL, 1, 1, 1);
1648 }
1649
1650 /* add Orco layer to the displist object which has got derived mesh and return orco */
1651 float *BKE_displist_make_orco(Scene *scene, Object *ob, DerivedMesh *derivedFinal, int forRender, int renderResolution)
1652 {
1653         float *orco;
1654
1655         if (derivedFinal == NULL)
1656                 derivedFinal = ob->derivedFinal;
1657
1658         if (!derivedFinal->getVertDataArray(derivedFinal, CD_ORCO)) {
1659                 curve_calc_orcodm(scene, ob, derivedFinal, forRender, renderResolution);
1660         }
1661
1662         orco = derivedFinal->getVertDataArray(derivedFinal, CD_ORCO);
1663
1664         if (orco) {
1665                 orco = MEM_dupallocN(orco);
1666         }
1667
1668         return orco;
1669 }
1670
1671 static void boundbox_dispbase(BoundBox *bb, ListBase *dispbase)
1672 {
1673         float min[3], max[3];
1674         DispList *dl;
1675         float *vert;
1676         int a, tot = 0;
1677         int doit = 0;
1678
1679         INIT_MINMAX(min, max);
1680
1681         for (dl = dispbase->first; dl; dl = dl->next) {
1682                 tot = (dl->type == DL_INDEX3) ? dl->nr : dl->nr * dl->parts;
1683                 vert = dl->verts;
1684                 for (a = 0; a < tot; a++, vert += 3) {
1685                         minmax_v3v3_v3(min, max, vert);
1686                 }
1687                 doit |= (tot != 0);
1688         }
1689
1690         if (!doit) {
1691                 /* there's no geometry in displist, use zero-sized boundbox */
1692                 zero_v3(min);
1693                 zero_v3(max);
1694         }
1695
1696         BKE_boundbox_init_from_minmax(bb, min, max);
1697 }
1698
1699 /* this is confusing, there's also min_max_object, appplying the obmat... */
1700 static void boundbox_displist(Object *ob)
1701 {
1702         if (ELEM3(ob->type, OB_CURVE, OB_SURF, OB_FONT)) {
1703                 Curve *cu = ob->data;
1704
1705                 /* calculate curve's BB based on non-deformed displist */
1706                 if (cu->bb == NULL)
1707                         cu->bb = MEM_callocN(sizeof(BoundBox), "boundbox");
1708
1709                 boundbox_dispbase(cu->bb, &cu->disp);
1710
1711                 /* object's BB is calculated from final displist */
1712                 if (ob->bb == NULL)
1713                         ob->bb = MEM_callocN(sizeof(BoundBox), "boundbox");
1714
1715                 boundbox_dispbase(ob->bb, &ob->disp);
1716         }
1717 }