synched with trunk at revision 36569
[blender-staging.git] / source / blender / blenkernel / intern / scene.c
1 /*  scene.c
2  *  
3  * 
4  * $Id$
5  *
6  * ***** BEGIN GPL LICENSE BLOCK *****
7  *
8  * This program is free software; you can redistribute it and/or
9  * modify it under the terms of the GNU General Public License
10  * as published by the Free Software Foundation; either version 2
11  * of the License, or (at your option) any later version.
12  *
13  * This program is distributed in the hope that it will be useful,
14  * but WITHOUT ANY WARRANTY; without even the implied warranty of
15  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
16  * GNU General Public License for more details.
17  *
18  * You should have received a copy of the GNU General Public License
19  * along with this program; if not, write to the Free Software Foundation,
20  * Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
21  *
22  * The Original Code is Copyright (C) 2001-2002 by NaN Holding BV.
23  * All rights reserved.
24  *
25  * The Original Code is: all of this file.
26  *
27  * Contributor(s): none yet.
28  *
29  * ***** END GPL LICENSE BLOCK *****
30  */
31
32 /** \file blender/blenkernel/intern/scene.c
33  *  \ingroup bke
34  */
35
36
37 #include <stddef.h>
38 #include <stdio.h>
39 #include <string.h>
40
41 #ifndef WIN32 
42 #include <unistd.h>
43 #else
44 #include <io.h>
45 #endif
46
47 #include "MEM_guardedalloc.h"
48
49 #include "DNA_anim_types.h"
50 #include "DNA_group_types.h"
51 #include "DNA_object_types.h"
52 #include "DNA_scene_types.h"
53 #include "DNA_screen_types.h"
54 #include "DNA_sequence_types.h"
55
56 #include "BLI_math.h"
57 #include "BLI_blenlib.h"
58 #include "BLI_utildefines.h"
59
60 #include "BKE_anim.h"
61 #include "BKE_animsys.h"
62 #include "BKE_depsgraph.h"
63 #include "BKE_global.h"
64 #include "BKE_group.h"
65 #include "BKE_idprop.h"
66 #include "BKE_library.h"
67 #include "BKE_main.h"
68 #include "BKE_node.h"
69 #include "BKE_object.h"
70 #include "BKE_paint.h"
71 #include "BKE_pointcache.h"
72 #include "BKE_scene.h"
73 #include "BKE_sequencer.h"
74 #include "BKE_world.h"
75
76 #include "BKE_sound.h"
77
78 //XXX #include "BIF_previewrender.h"
79 //XXX #include "BIF_editseq.h"
80
81 //XXX #include "nla.h"
82
83 #ifdef WIN32
84 #else
85 #include <sys/time.h>
86 #endif
87
88 void free_avicodecdata(AviCodecData *acd)
89 {
90         if (acd) {
91                 if (acd->lpFormat){
92                         MEM_freeN(acd->lpFormat);
93                         acd->lpFormat = NULL;
94                         acd->cbFormat = 0;
95                 }
96                 if (acd->lpParms){
97                         MEM_freeN(acd->lpParms);
98                         acd->lpParms = NULL;
99                         acd->cbParms = 0;
100                 }
101         }
102 }
103
104 void free_qtcodecdata(QuicktimeCodecData *qcd)
105 {
106         if (qcd) {
107                 if (qcd->cdParms){
108                         MEM_freeN(qcd->cdParms);
109                         qcd->cdParms = NULL;
110                         qcd->cdSize = 0;
111                 }
112         }
113 }
114
115 Scene *copy_scene(Scene *sce, int type)
116 {
117         Scene *scen;
118         ToolSettings *ts;
119         Base *base, *obase;
120         
121         if(type == SCE_COPY_EMPTY) {
122                 ListBase lb;
123                 scen= add_scene(sce->id.name+2);
124                 
125                 lb= scen->r.layers;
126                 scen->r= sce->r;
127                 scen->r.layers= lb;
128         }
129         else {
130                 scen= copy_libblock(sce);
131                 BLI_duplicatelist(&(scen->base), &(sce->base));
132                 
133                 clear_id_newpoins();
134                 
135                 id_us_plus((ID *)scen->world);
136                 id_us_plus((ID *)scen->set);
137                 id_us_plus((ID *)scen->gm.dome.warptext);
138
139                 scen->ed= NULL;
140                 scen->theDag= NULL;
141                 scen->obedit= NULL;
142                 scen->toolsettings= MEM_dupallocN(sce->toolsettings);
143                 scen->stats= NULL;
144                 scen->fps_info= NULL;
145
146                 ts= scen->toolsettings;
147                 if(ts) {
148                         if(ts->vpaint) {
149                                 ts->vpaint= MEM_dupallocN(ts->vpaint);
150                                 ts->vpaint->paintcursor= NULL;
151                                 ts->vpaint->vpaint_prev= NULL;
152                                 ts->vpaint->wpaint_prev= NULL;
153                                 copy_paint(&ts->vpaint->paint, &ts->vpaint->paint);
154                         }
155                         if(ts->wpaint) {
156                                 ts->wpaint= MEM_dupallocN(ts->wpaint);
157                                 ts->wpaint->paintcursor= NULL;
158                                 ts->wpaint->vpaint_prev= NULL;
159                                 ts->wpaint->wpaint_prev= NULL;
160                                 copy_paint(&ts->wpaint->paint, &ts->wpaint->paint);
161                         }
162                         if(ts->sculpt) {
163                                 ts->sculpt= MEM_dupallocN(ts->sculpt);
164                                 copy_paint(&ts->sculpt->paint, &ts->sculpt->paint);
165                         }
166
167                         copy_paint(&ts->imapaint.paint, &ts->imapaint.paint);
168                         ts->imapaint.paintcursor= NULL;
169
170                         ts->particle.paintcursor= NULL;
171                 }
172                 
173                 BLI_duplicatelist(&(scen->markers), &(sce->markers));
174                 BLI_duplicatelist(&(scen->transform_spaces), &(sce->transform_spaces));
175                 BLI_duplicatelist(&(scen->r.layers), &(sce->r.layers));
176                 BKE_keyingsets_copy(&(scen->keyingsets), &(sce->keyingsets));
177
178                 if(sce->nodetree) {
179                         scen->nodetree= ntreeCopyTree(sce->nodetree); /* copies actions */
180                         ntreeSwitchID(scen->nodetree, &sce->id, &scen->id);
181                 }
182
183                 obase= sce->base.first;
184                 base= scen->base.first;
185                 while(base) {
186                         id_us_plus(&base->object->id);
187                         if(obase==sce->basact) scen->basact= base;
188         
189                         obase= obase->next;
190                         base= base->next;
191                 }
192         }
193         
194         /* make a private copy of the avicodecdata */
195         if(sce->r.avicodecdata) {
196                 scen->r.avicodecdata = MEM_dupallocN(sce->r.avicodecdata);
197                 scen->r.avicodecdata->lpFormat = MEM_dupallocN(scen->r.avicodecdata->lpFormat);
198                 scen->r.avicodecdata->lpParms = MEM_dupallocN(scen->r.avicodecdata->lpParms);
199         }
200         
201         /* make a private copy of the qtcodecdata */
202         if(sce->r.qtcodecdata) {
203                 scen->r.qtcodecdata = MEM_dupallocN(sce->r.qtcodecdata);
204                 scen->r.qtcodecdata->cdParms = MEM_dupallocN(scen->r.qtcodecdata->cdParms);
205         }
206         
207         if(sce->r.ffcodecdata.properties) { /* intentionally check scen not sce. */
208                 scen->r.ffcodecdata.properties= IDP_CopyProperty(sce->r.ffcodecdata.properties);
209         }
210
211         /* NOTE: part of SCE_COPY_LINK_DATA and SCE_COPY_FULL operations
212          * are done outside of blenkernel with ED_objects_single_users! */
213
214         /*  camera */
215         if(type == SCE_COPY_LINK_DATA || type == SCE_COPY_FULL) {
216                 ID_NEW(scen->camera);
217         }
218         
219         /* before scene copy */
220         sound_create_scene(scen);
221
222         /* world */
223         if(type == SCE_COPY_FULL) {
224                 BKE_copy_animdata_id_action((ID *)scen);
225                 if(scen->world) {
226                         id_us_plus((ID *)scen->world);
227                         scen->world= copy_world(scen->world);
228                         BKE_copy_animdata_id_action((ID *)scen->world);
229                 }
230
231                 if(sce->ed) {
232                         scen->ed= MEM_callocN( sizeof(Editing), "addseq");
233                         scen->ed->seqbasep= &scen->ed->seqbase;
234                         seqbase_dupli_recursive(sce, scen, &scen->ed->seqbase, &sce->ed->seqbase, SEQ_DUPE_ALL);
235                 }
236         }
237
238         return scen;
239 }
240
241 /* do not free scene itself */
242 void free_scene(Scene *sce)
243 {
244         Base *base;
245
246         base= sce->base.first;
247         while(base) {
248                 base->object->id.us--;
249                 base= base->next;
250         }
251         /* do not free objects! */
252         
253         if(sce->gpd) {
254 #if 0   // removed since this can be invalid memory when freeing everything
255                 // since the grease pencil data is free'd before the scene.
256                 // since grease pencil data is not (yet?), shared between objects
257                 // its probably safe not to do this, some save and reload will free this.
258                 sce->gpd->id.us--;
259 #endif
260                 sce->gpd= NULL;
261         }
262
263         BLI_freelistN(&sce->base);
264         seq_free_editing(sce);
265
266         BKE_free_animdata((ID *)sce);
267         BKE_keyingsets_free(&sce->keyingsets);
268         
269         if (sce->r.avicodecdata) {
270                 free_avicodecdata(sce->r.avicodecdata);
271                 MEM_freeN(sce->r.avicodecdata);
272                 sce->r.avicodecdata = NULL;
273         }
274         if (sce->r.qtcodecdata) {
275                 free_qtcodecdata(sce->r.qtcodecdata);
276                 MEM_freeN(sce->r.qtcodecdata);
277                 sce->r.qtcodecdata = NULL;
278         }
279         if (sce->r.ffcodecdata.properties) {
280                 IDP_FreeProperty(sce->r.ffcodecdata.properties);
281                 MEM_freeN(sce->r.ffcodecdata.properties);
282                 sce->r.ffcodecdata.properties = NULL;
283         }
284         
285         BLI_freelistN(&sce->markers);
286         BLI_freelistN(&sce->transform_spaces);
287         BLI_freelistN(&sce->r.layers);
288         
289         if(sce->toolsettings) {
290                 if(sce->toolsettings->vpaint) {
291                         free_paint(&sce->toolsettings->vpaint->paint);
292                         MEM_freeN(sce->toolsettings->vpaint);
293                 }
294                 if(sce->toolsettings->wpaint) {
295                         free_paint(&sce->toolsettings->wpaint->paint);
296                         MEM_freeN(sce->toolsettings->wpaint);
297                 }
298                 if(sce->toolsettings->sculpt) {
299                         free_paint(&sce->toolsettings->sculpt->paint);
300                         MEM_freeN(sce->toolsettings->sculpt);
301                 }
302                 free_paint(&sce->toolsettings->imapaint.paint);
303
304                 MEM_freeN(sce->toolsettings);
305                 sce->toolsettings = NULL;       
306         }
307         
308         if (sce->theDag) {
309                 free_forest(sce->theDag);
310                 MEM_freeN(sce->theDag);
311         }
312         
313         if(sce->nodetree) {
314                 ntreeFreeTree(sce->nodetree);
315                 MEM_freeN(sce->nodetree);
316         }
317
318         if(sce->stats)
319                 MEM_freeN(sce->stats);
320         if(sce->fps_info)
321                 MEM_freeN(sce->fps_info);
322
323         sound_destroy_scene(sce);
324 }
325
326 Scene *add_scene(const char *name)
327 {
328         Main *bmain= G.main;
329         Scene *sce;
330         ParticleEditSettings *pset;
331         int a;
332
333         sce= alloc_libblock(&bmain->scene, ID_SCE, name);
334         sce->lay= sce->layact= 1;
335         
336         sce->r.mode= R_GAMMA|R_OSA|R_SHADOW|R_SSS|R_ENVMAP|R_RAYTRACE;
337         sce->r.cfra= 1;
338         sce->r.sfra= 1;
339         sce->r.efra= 250;
340         sce->r.frame_step= 1;
341         sce->r.xsch= 1920;
342         sce->r.ysch= 1080;
343         sce->r.xasp= 1;
344         sce->r.yasp= 1;
345         sce->r.xparts= 8;
346         sce->r.yparts= 8;
347         sce->r.mblur_samples= 1;
348         sce->r.filtertype= R_FILTER_MITCH;
349         sce->r.size= 50;
350         sce->r.planes= 24;
351         sce->r.imtype= R_PNG;
352         sce->r.quality= 90;
353         sce->r.displaymode= R_OUTPUT_AREA;
354         sce->r.framapto= 100;
355         sce->r.images= 100;
356         sce->r.framelen= 1.0;
357         sce->r.blurfac= 0.5;
358         sce->r.frs_sec= 24;
359         sce->r.frs_sec_base= 1;
360         sce->r.edgeint= 10;
361         sce->r.ocres = 128;
362         sce->r.color_mgt_flag |= R_COLOR_MANAGEMENT;
363         sce->r.gauss= 1.0;
364         
365         /* deprecated but keep for upwards compat */
366         sce->r.postgamma= 1.0;
367         sce->r.posthue= 0.0;
368         sce->r.postsat= 1.0;
369         
370         sce->r.bake_mode= 1;    /* prevent to include render stuff here */
371         sce->r.bake_filter= 2;
372         sce->r.bake_osa= 5;
373         sce->r.bake_flag= R_BAKE_CLEAR;
374         sce->r.bake_normal_space= R_BAKE_SPACE_TANGENT;
375         sce->r.scemode= R_DOCOMP|R_DOSEQ|R_EXTENSION;
376         sce->r.stamp= R_STAMP_TIME|R_STAMP_FRAME|R_STAMP_DATE|R_STAMP_CAMERA|R_STAMP_SCENE|R_STAMP_FILENAME|R_STAMP_RENDERTIME;
377         sce->r.stamp_font_id= 12;
378         sce->r.fg_stamp[0]= sce->r.fg_stamp[1]= sce->r.fg_stamp[2]= 0.8f;
379         sce->r.fg_stamp[3]= 1.0f;
380         sce->r.bg_stamp[0]= sce->r.bg_stamp[1]= sce->r.bg_stamp[2]= 0.0f;
381         sce->r.bg_stamp[3]= 0.25f;
382         sce->r.raytrace_options = R_RAYTRACE_USE_INSTANCES;
383
384         sce->r.seq_prev_type= OB_SOLID;
385         sce->r.seq_rend_type= OB_SOLID;
386         sce->r.seq_flag= R_SEQ_GL_PREV;
387
388         sce->r.threads= 1;
389
390         sce->r.simplify_subsurf= 6;
391         sce->r.simplify_particles= 1.0f;
392         sce->r.simplify_shadowsamples= 16;
393         sce->r.simplify_aosss= 1.0f;
394
395         sce->r.cineonblack= 95;
396         sce->r.cineonwhite= 685;
397         sce->r.cineongamma= 1.7f;
398
399         sce->r.border.xmin= 0.0f;
400         sce->r.border.ymin= 0.0f;
401         sce->r.border.xmax= 1.0f;
402         sce->r.border.ymax= 1.0f;
403         
404         sce->toolsettings = MEM_callocN(sizeof(struct ToolSettings),"Tool Settings Struct");
405         sce->toolsettings->cornertype=1;
406         sce->toolsettings->degr = 90; 
407         sce->toolsettings->step = 9;
408         sce->toolsettings->turn = 1;                            
409         sce->toolsettings->extr_offs = 1; 
410         sce->toolsettings->doublimit = 0.001;
411         sce->toolsettings->segments = 32;
412         sce->toolsettings->rings = 32;
413         sce->toolsettings->vertices = 32;
414         sce->toolsettings->editbutflag = 1;
415         sce->toolsettings->uvcalc_radius = 1.0f;
416         sce->toolsettings->uvcalc_cubesize = 1.0f;
417         sce->toolsettings->uvcalc_mapdir = 1;
418         sce->toolsettings->uvcalc_mapalign = 1;
419         sce->toolsettings->unwrapper = 1;
420         sce->toolsettings->select_thresh= 0.01f;
421         sce->toolsettings->jointrilimit = 0.8f;
422
423         sce->toolsettings->selectmode= SCE_SELECT_VERTEX;
424         sce->toolsettings->uv_selectmode= UV_SELECT_VERTEX;
425         sce->toolsettings->normalsize= 0.1;
426         sce->toolsettings->autokey_mode= U.autokey_mode;
427
428         sce->toolsettings->skgen_resolution = 100;
429         sce->toolsettings->skgen_threshold_internal     = 0.01f;
430         sce->toolsettings->skgen_threshold_external     = 0.01f;
431         sce->toolsettings->skgen_angle_limit                    = 45.0f;
432         sce->toolsettings->skgen_length_ratio                   = 1.3f;
433         sce->toolsettings->skgen_length_limit                   = 1.5f;
434         sce->toolsettings->skgen_correlation_limit              = 0.98f;
435         sce->toolsettings->skgen_symmetry_limit                 = 0.1f;
436         sce->toolsettings->skgen_postpro = SKGEN_SMOOTH;
437         sce->toolsettings->skgen_postpro_passes = 1;
438         sce->toolsettings->skgen_options = SKGEN_FILTER_INTERNAL|SKGEN_FILTER_EXTERNAL|SKGEN_FILTER_SMART|SKGEN_HARMONIC|SKGEN_SUB_CORRELATION|SKGEN_STICK_TO_EMBEDDING;
439         sce->toolsettings->skgen_subdivisions[0] = SKGEN_SUB_CORRELATION;
440         sce->toolsettings->skgen_subdivisions[1] = SKGEN_SUB_LENGTH;
441         sce->toolsettings->skgen_subdivisions[2] = SKGEN_SUB_ANGLE;
442
443         sce->toolsettings->proportional_size = 1.0f;
444
445         sce->physics_settings.gravity[0] = 0.0f;
446         sce->physics_settings.gravity[1] = 0.0f;
447         sce->physics_settings.gravity[2] = -9.81f;
448         sce->physics_settings.flag = PHYS_GLOBAL_GRAVITY;
449
450         sce->unit.scale_length = 1.0f;
451
452         pset= &sce->toolsettings->particle;
453         pset->flag= PE_KEEP_LENGTHS|PE_LOCK_FIRST|PE_DEFLECT_EMITTER|PE_AUTO_VELOCITY;
454         pset->emitterdist= 0.25f;
455         pset->totrekey= 5;
456         pset->totaddkey= 5;
457         pset->brushtype= PE_BRUSH_NONE;
458         pset->draw_step= 2;
459         pset->fade_frames= 2;
460         pset->selectmode= SCE_SELECT_PATH;
461         for(a=0; a<PE_TOT_BRUSH; a++) {
462                 pset->brush[a].strength= 0.5;
463                 pset->brush[a].size= 50;
464                 pset->brush[a].step= 10;
465                 pset->brush[a].count= 10;
466         }
467         pset->brush[PE_BRUSH_CUT].strength= 100;
468
469         sce->r.ffcodecdata.audio_mixrate = 44100;
470         sce->r.ffcodecdata.audio_volume = 1.0f;
471
472         BLI_strncpy(sce->r.engine, "BLENDER_RENDER", sizeof(sce->r.engine));
473
474         sce->audio.distance_model = 2.0;
475         sce->audio.doppler_factor = 1.0;
476         sce->audio.speed_of_sound = 343.3;
477
478         strcpy(sce->r.backbuf, "//backbuf");
479         strcpy(sce->r.pic, U.renderdir);
480
481         BLI_init_rctf(&sce->r.safety, 0.1f, 0.9f, 0.1f, 0.9f);
482         sce->r.osa= 8;
483
484         /* note; in header_info.c the scene copy happens..., if you add more to renderdata it has to be checked there */
485         scene_add_render_layer(sce);
486         
487         /* game data */
488         sce->gm.stereoflag = STEREO_NOSTEREO;
489         sce->gm.stereomode = STEREO_ANAGLYPH;
490         sce->gm.eyeseparation = 0.10;
491
492         sce->gm.dome.angle = 180;
493         sce->gm.dome.mode = DOME_FISHEYE;
494         sce->gm.dome.res = 4;
495         sce->gm.dome.resbuf = 1.0f;
496         sce->gm.dome.tilt = 0;
497
498         sce->gm.xplay= 640;
499         sce->gm.yplay= 480;
500         sce->gm.freqplay= 60;
501         sce->gm.depth= 32;
502
503         sce->gm.gravity= 9.8f;
504         sce->gm.physicsEngine= WOPHY_BULLET;
505         sce->gm.mode = 32; //XXX ugly harcoding, still not sure we should drop mode. 32 == 1 << 5 == use_occlusion_culling 
506         sce->gm.occlusionRes = 128;
507         sce->gm.ticrate = 60;
508         sce->gm.maxlogicstep = 5;
509         sce->gm.physubstep = 1;
510         sce->gm.maxphystep = 5;
511
512         sce->gm.flag = GAME_DISPLAY_LISTS;
513         sce->gm.matmode = GAME_MAT_MULTITEX;
514
515         sce->gm.obstacleSimulation= OBSTSIMULATION_NONE;
516         sce->gm.levelHeight = 2.f;
517
518         sce->gm.recastData.cellsize = 0.3f;
519         sce->gm.recastData.cellheight = 0.2f;
520         sce->gm.recastData.agentmaxslope = M_PI/2;
521         sce->gm.recastData.agentmaxclimb = 0.9f;
522         sce->gm.recastData.agentheight = 2.0f;
523         sce->gm.recastData.agentradius = 0.6f;
524         sce->gm.recastData.edgemaxlen = 12.0f;
525         sce->gm.recastData.edgemaxerror = 1.3f;
526         sce->gm.recastData.regionminsize = 50.f;
527         sce->gm.recastData.regionmergesize = 20.f;
528         sce->gm.recastData.vertsperpoly = 6;
529         sce->gm.recastData.detailsampledist = 6.0f;
530         sce->gm.recastData.detailsamplemaxerror = 1.0f;
531
532         sound_create_scene(sce);
533
534         return sce;
535 }
536
537 Base *object_in_scene(Object *ob, Scene *sce)
538 {
539         Base *base;
540         
541         base= sce->base.first;
542         while(base) {
543                 if(base->object == ob) return base;
544                 base= base->next;
545         }
546         return NULL;
547 }
548
549 void set_scene_bg(Main *bmain, Scene *scene)
550 {
551         Scene *sce;
552         Base *base;
553         Object *ob;
554         Group *group;
555         GroupObject *go;
556         int flag;
557         
558         /* check for cyclic sets, for reading old files but also for definite security (py?) */
559         scene_check_setscene(bmain, scene);
560         
561         /* can happen when switching modes in other scenes */
562         if(scene->obedit && !(scene->obedit->mode & OB_MODE_EDIT))
563                 scene->obedit= NULL;
564
565         /* deselect objects (for dataselect) */
566         for(ob= bmain->object.first; ob; ob= ob->id.next)
567                 ob->flag &= ~(SELECT|OB_FROMGROUP);
568
569         /* group flags again */
570         for(group= bmain->group.first; group; group= group->id.next) {
571                 go= group->gobject.first;
572                 while(go) {
573                         if(go->ob) go->ob->flag |= OB_FROMGROUP;
574                         go= go->next;
575                 }
576         }
577
578         /* sort baselist */
579         DAG_scene_sort(bmain, scene);
580         
581         /* ensure dags are built for sets */
582         for(sce= scene->set; sce; sce= sce->set)
583                 if(sce->theDag==NULL)
584                         DAG_scene_sort(bmain, sce);
585
586         /* copy layers and flags from bases to objects */
587         for(base= scene->base.first; base; base= base->next) {
588                 ob= base->object;
589                 ob->lay= base->lay;
590                 
591                 /* group patch... */
592                 base->flag &= ~(OB_FROMGROUP);
593                 flag= ob->flag & (OB_FROMGROUP);
594                 base->flag |= flag;
595                 
596                 /* not too nice... for recovering objects with lost data */
597                 //if(ob->pose==NULL) base->flag &= ~OB_POSEMODE;
598                 ob->flag= base->flag;
599                 
600                 ob->ctime= -1234567.0;  /* force ipo to be calculated later */
601         }
602         /* no full animation update, this to enable render code to work (render code calls own animation updates) */
603 }
604
605 /* called from creator.c */
606 Scene *set_scene_name(Main *bmain, const char *name)
607 {
608         Scene *sce= (Scene *)find_id("SC", name);
609         if(sce) {
610                 set_scene_bg(bmain, sce);
611                 printf("Scene switch: '%s' in file: '%s'\n", name, G.main->name);
612                 return sce;
613         }
614
615         printf("Can't find scene: '%s' in file: '%s'\n", name, G.main->name);
616         return NULL;
617 }
618
619 void unlink_scene(Main *bmain, Scene *sce, Scene *newsce)
620 {
621         Scene *sce1;
622         bScreen *sc;
623
624         /* check all sets */
625         for(sce1= bmain->scene.first; sce1; sce1= sce1->id.next)
626                 if(sce1->set == sce)
627                         sce1->set= NULL;
628         
629         /* check all sequences */
630         clear_scene_in_allseqs(bmain, sce);
631
632         /* check render layer nodes in other scenes */
633         clear_scene_in_nodes(bmain, sce);
634         
635         /* al screens */
636         for(sc= bmain->screen.first; sc; sc= sc->id.next)
637                 if(sc->scene == sce)
638                         sc->scene= newsce;
639
640         free_libblock(&bmain->scene, sce);
641 }
642
643 /* used by metaballs
644  * doesnt return the original duplicated object, only dupli's
645  */
646 int next_object(Scene **scene, int val, Base **base, Object **ob)
647 {
648         static ListBase *duplilist= NULL;
649         static DupliObject *dupob;
650         static int fase= F_START, in_next_object= 0;
651         int run_again=1;
652         
653         /* init */
654         if(val==0) {
655                 fase= F_START;
656                 dupob= NULL;
657                 
658                 /* XXX particle systems with metas+dupligroups call this recursively */
659                 /* see bug #18725 */
660                 if(in_next_object) {
661                         printf("ERROR: MetaBall generation called recursively, not supported\n");
662                         
663                         return F_ERROR;
664                 }
665         }
666         else {
667                 in_next_object= 1;
668                 
669                 /* run_again is set when a duplilist has been ended */
670                 while(run_again) {
671                         run_again= 0;
672
673                         /* the first base */
674                         if(fase==F_START) {
675                                 *base= (*scene)->base.first;
676                                 if(*base) {
677                                         *ob= (*base)->object;
678                                         fase= F_SCENE;
679                                 }
680                                 else {
681                                         /* exception: empty scene */
682                                         while((*scene)->set) {
683                                                 (*scene)= (*scene)->set;
684                                                 if((*scene)->base.first) {
685                                                         *base= (*scene)->base.first;
686                                                         *ob= (*base)->object;
687                                                         fase= F_SCENE;
688                                                         break;
689                                                 }
690                                         }
691                                 }
692                         }
693                         else {
694                                 if(*base && fase!=F_DUPLI) {
695                                         *base= (*base)->next;
696                                         if(*base) *ob= (*base)->object;
697                                         else {
698                                                 if(fase==F_SCENE) {
699                                                         /* (*scene) is finished, now do the set */
700                                                         while((*scene)->set) {
701                                                                 (*scene)= (*scene)->set;
702                                                                 if((*scene)->base.first) {
703                                                                         *base= (*scene)->base.first;
704                                                                         *ob= (*base)->object;
705                                                                         break;
706                                                                 }
707                                                         }
708                                                 }
709                                         }
710                                 }
711                         }
712                         
713                         if(*base == NULL) fase= F_START;
714                         else {
715                                 if(fase!=F_DUPLI) {
716                                         if( (*base)->object->transflag & OB_DUPLI) {
717                                                 /* groups cannot be duplicated for mballs yet, 
718                                                 this enters eternal loop because of 
719                                                 makeDispListMBall getting called inside of group_duplilist */
720                                                 if((*base)->object->dup_group == NULL) {
721                                                         duplilist= object_duplilist((*scene), (*base)->object);
722                                                         
723                                                         dupob= duplilist->first;
724
725                                                         if(!dupob)
726                                                                 free_object_duplilist(duplilist);
727                                                 }
728                                         }
729                                 }
730                                 /* handle dupli's */
731                                 if(dupob) {
732                                         
733                                         copy_m4_m4(dupob->ob->obmat, dupob->mat);
734                                         
735                                         (*base)->flag |= OB_FROMDUPLI;
736                                         *ob= dupob->ob;
737                                         fase= F_DUPLI;
738                                         
739                                         dupob= dupob->next;
740                                 }
741                                 else if(fase==F_DUPLI) {
742                                         fase= F_SCENE;
743                                         (*base)->flag &= ~OB_FROMDUPLI;
744                                         
745                                         for(dupob= duplilist->first; dupob; dupob= dupob->next) {
746                                                 copy_m4_m4(dupob->ob->obmat, dupob->omat);
747                                         }
748                                         
749                                         free_object_duplilist(duplilist);
750                                         duplilist= NULL;
751                                         run_again= 1;
752                                 }
753                         }
754                 }
755         }
756         
757         /* if(ob && *ob) {
758                 printf("Scene: '%s', '%s'\n", (*scene)->id.name+2, (*ob)->id.name+2);
759         } */
760
761         /* reset recursion test */
762         in_next_object= 0;
763         
764         return fase;
765 }
766
767 Object *scene_find_camera(Scene *sc)
768 {
769         Base *base;
770         
771         for (base= sc->base.first; base; base= base->next)
772                 if (base->object->type==OB_CAMERA)
773                         return base->object;
774
775         return NULL;
776 }
777
778 #ifdef DURIAN_CAMERA_SWITCH
779 Object *scene_camera_switch_find(Scene *scene)
780 {
781         TimeMarker *m;
782         int cfra = scene->r.cfra;
783         int frame = -(MAXFRAME + 1);
784         Object *camera= NULL;
785
786         for (m= scene->markers.first; m; m= m->next) {
787                 if(m->camera && (m->camera->restrictflag & OB_RESTRICT_RENDER)==0 && (m->frame <= cfra) && (m->frame > frame)) {
788                         camera= m->camera;
789                         frame= m->frame;
790
791                         if(frame == cfra)
792                                 break;
793
794                 }
795         }
796         return camera;
797 }
798 #endif
799
800 int scene_camera_switch_update(Scene *scene)
801 {
802 #ifdef DURIAN_CAMERA_SWITCH
803         Object *camera= scene_camera_switch_find(scene);
804         if(camera) {
805                 scene->camera= camera;
806                 return 1;
807         }
808 #endif
809         return 0;
810 }
811
812 char *scene_find_marker_name(Scene *scene, int frame)
813 {
814         ListBase *markers= &scene->markers;
815         TimeMarker *m1, *m2;
816
817         /* search through markers for match */
818         for (m1=markers->first, m2=markers->last; m1 && m2; m1=m1->next, m2=m2->prev) {
819                 if (m1->frame==frame)
820                         return m1->name;
821
822                 if (m1 == m2)
823                         break;
824
825                 if (m2->frame==frame)
826                         return m2->name;
827         }
828
829         return NULL;
830 }
831
832 /* return the current marker for this frame,
833 we can have more then 1 marker per frame, this just returns the first :/ */
834 char *scene_find_last_marker_name(Scene *scene, int frame)
835 {
836         TimeMarker *marker, *best_marker = NULL;
837         int best_frame = -MAXFRAME*2;
838         for (marker= scene->markers.first; marker; marker= marker->next) {
839                 if (marker->frame==frame) {
840                         return marker->name;
841                 }
842
843                 if ( marker->frame > best_frame && marker->frame < frame) {
844                         best_marker = marker;
845                         best_frame = marker->frame;
846                 }
847         }
848
849         return best_marker ? best_marker->name : NULL;
850 }
851
852
853 Base *scene_add_base(Scene *sce, Object *ob)
854 {
855         Base *b= MEM_callocN(sizeof(*b), "scene_add_base");
856         BLI_addhead(&sce->base, b);
857
858         b->object= ob;
859         b->flag= ob->flag;
860         b->lay= ob->lay;
861
862         return b;
863 }
864
865 void scene_deselect_all(Scene *sce)
866 {
867         Base *b;
868
869         for (b= sce->base.first; b; b= b->next) {
870                 b->flag&= ~SELECT;
871                 b->object->flag= b->flag;
872         }
873 }
874
875 void scene_select_base(Scene *sce, Base *selbase)
876 {
877         scene_deselect_all(sce);
878
879         selbase->flag |= SELECT;
880         selbase->object->flag= selbase->flag;
881
882         sce->basact= selbase;
883 }
884
885 /* checks for cycle, returns 1 if it's all OK */
886 int scene_check_setscene(Main *bmain, Scene *sce)
887 {
888         Scene *scene;
889         int a, totscene;
890         
891         if(sce->set==NULL) return 1;
892         
893         totscene= 0;
894         for(scene= bmain->scene.first; scene; scene= scene->id.next)
895                 totscene++;
896         
897         for(a=0, scene=sce; scene->set; scene=scene->set, a++) {
898                 /* more iterations than scenes means we have a cycle */
899                 if(a > totscene) {
900                         /* the tested scene gets zero'ed, that's typically current scene */
901                         sce->set= NULL;
902                         return 0;
903                 }
904         }
905
906         return 1;
907 }
908
909 /* This function is needed to cope with fractional frames - including two Blender rendering features
910 * mblur (motion blur that renders 'subframes' and blurs them together), and fields rendering. */
911
912 /* see also bsystem_time in object.c */
913 float BKE_curframe(Scene *scene)
914 {
915         float ctime = scene->r.cfra;
916         ctime+= scene->r.subframe;
917         ctime*= scene->r.framelen;      
918
919         return ctime;
920 }
921
922 /* drivers support/hacks 
923  *      - this method is called from scene_update_tagged_recursive(), so gets included in viewport + render
924  *      - these are always run since the depsgraph can't handle non-object data
925  *      - these happen after objects are all done so that we can read in their final transform values,
926  *        though this means that objects can't refer to scene info for guidance...
927  */
928 static void scene_update_drivers(Main *UNUSED(bmain), Scene *scene)
929 {
930         float ctime = BKE_curframe(scene);
931         
932         /* scene itself */
933         if (scene->adt && scene->adt->drivers.first) {
934                 BKE_animsys_evaluate_animdata(&scene->id, scene->adt, ctime, ADT_RECALC_DRIVERS);
935         }
936         
937         /* world */
938         // TODO: what about world textures? but then those have nodes too...
939         if (scene->world) {
940                 ID *wid = (ID *)scene->world;
941                 AnimData *adt= BKE_animdata_from_id(wid);
942                 
943                 if (adt && adt->drivers.first)
944                         BKE_animsys_evaluate_animdata(wid, adt, ctime, ADT_RECALC_DRIVERS);
945         }
946         
947         /* nodes */
948         if (scene->nodetree) {
949                 ID *nid = (ID *)scene->nodetree;
950                 AnimData *adt= BKE_animdata_from_id(nid);
951                 
952                 if (adt && adt->drivers.first)
953                         BKE_animsys_evaluate_animdata(nid, adt, ctime, ADT_RECALC_DRIVERS);
954         }
955 }
956
957 static void scene_update_tagged_recursive(Main *bmain, Scene *scene, Scene *scene_parent)
958 {
959         Base *base;
960         
961         
962         scene->customdata_mask= scene_parent->customdata_mask;
963
964         /* sets first, we allow per definition current scene to have
965            dependencies on sets, but not the other way around. */
966         if (scene->set)
967                 scene_update_tagged_recursive(bmain, scene->set, scene_parent);
968         
969         /* scene objects */
970         for (base= scene->base.first; base; base= base->next) {
971                 Object *ob= base->object;
972                 
973                 object_handle_update(scene_parent, ob);
974                 
975                 if(ob->dup_group && (ob->transflag & OB_DUPLIGROUP))
976                         group_handle_recalc_and_update(scene_parent, ob, ob->dup_group);
977                         
978                 /* always update layer, so that animating layers works */
979                 base->lay= ob->lay;
980         }
981         
982         /* scene drivers... */
983         scene_update_drivers(bmain, scene);
984 }
985
986 /* this is called in main loop, doing tagged updates before redraw */
987 void scene_update_tagged(Main *bmain, Scene *scene)
988 {
989         DAG_ids_flush_tagged(bmain);
990
991         scene->physics_settings.quick_cache_step= 0;
992
993         /* update all objects: drivers, matrices, displists, etc. flags set
994            by depgraph or manual, no layer check here, gets correct flushed */
995
996         scene_update_tagged_recursive(bmain, scene, scene);
997
998         /* recalc scene animation data here (for sequencer) */
999         {
1000                 AnimData *adt= BKE_animdata_from_id(&scene->id);
1001                 float ctime = BKE_curframe(scene);
1002                 
1003                 if (adt && (adt->recalc & ADT_RECALC_ANIM))
1004                         BKE_animsys_evaluate_animdata(&scene->id, adt, ctime, 0);
1005         }
1006         
1007         if (scene->physics_settings.quick_cache_step)
1008                 BKE_ptcache_quick_cache_all(bmain, scene);
1009
1010         /* in the future this should handle updates for all datablocks, not
1011            only objects and scenes. - brecht */
1012 }
1013
1014 /* applies changes right away, does all sets too */
1015 void scene_update_for_newframe(Main *bmain, Scene *sce, unsigned int lay)
1016 {
1017         float ctime = BKE_curframe(sce);
1018         Scene *sce_iter;
1019         
1020         /* clear animation overrides */
1021         // XXX TODO...
1022
1023         for(sce_iter= sce; sce_iter; sce_iter= sce_iter->set) {
1024                 if(sce_iter->theDag==NULL)
1025                         DAG_scene_sort(bmain, sce_iter);
1026         }
1027
1028
1029         /* Following 2 functions are recursive
1030          * so dont call within 'scene_update_tagged_recursive' */
1031         DAG_scene_update_flags(bmain, sce, lay, TRUE);   // only stuff that moves or needs display still
1032
1033         /* All 'standard' (i.e. without any dependencies) animation is handled here,
1034          * with an 'local' to 'macro' order of evaluation. This should ensure that
1035          * settings stored nestled within a hierarchy (i.e. settings in a Texture block
1036          * can be overridden by settings from Scene, which owns the Texture through a hierarchy
1037          * such as Scene->World->MTex/Texture) can still get correctly overridden.
1038          */
1039         BKE_animsys_evaluate_all_animation(bmain, ctime);
1040         /*...done with recusrive funcs */
1041
1042         /* object_handle_update() on all objects, groups and sets */
1043         scene_update_tagged_recursive(bmain, sce, sce);
1044 }
1045
1046 /* return default layer, also used to patch old files */
1047 void scene_add_render_layer(Scene *sce)
1048 {
1049         SceneRenderLayer *srl;
1050 //      int tot= 1 + BLI_countlist(&sce->r.layers);
1051         
1052         srl= MEM_callocN(sizeof(SceneRenderLayer), "new render layer");
1053         strcpy(srl->name, "RenderLayer");
1054         BLI_uniquename(&sce->r.layers, srl, "RenderLayer", '.', offsetof(SceneRenderLayer, name), sizeof(srl->name));
1055         BLI_addtail(&sce->r.layers, srl);
1056
1057         /* note, this is also in render, pipeline.c, to make layer when scenedata doesnt have it */
1058         srl->lay= (1<<20) -1;
1059         srl->layflag= 0x7FFF;   /* solid ztra halo edge strand */
1060         srl->passflag= SCE_PASS_COMBINED|SCE_PASS_Z;
1061 }
1062
1063 /* render simplification */
1064
1065 int get_render_subsurf_level(RenderData *r, int lvl)
1066 {
1067         if(r->mode & R_SIMPLIFY)
1068                 return MIN2(r->simplify_subsurf, lvl);
1069         else
1070                 return lvl;
1071 }
1072
1073 int get_render_child_particle_number(RenderData *r, int num)
1074 {
1075         if(r->mode & R_SIMPLIFY)
1076                 return (int)(r->simplify_particles*num);
1077         else
1078                 return num;
1079 }
1080
1081 int get_render_shadow_samples(RenderData *r, int samples)
1082 {
1083         if((r->mode & R_SIMPLIFY) && samples > 0)
1084                 return MIN2(r->simplify_shadowsamples, samples);
1085         else
1086                 return samples;
1087 }
1088
1089 float get_render_aosss_error(RenderData *r, float error)
1090 {
1091         if(r->mode & R_SIMPLIFY)
1092                 return ((1.0f-r->simplify_aosss)*10.0f + 1.0f)*error;
1093         else
1094                 return error;
1095 }
1096
1097 /* helper function for the SETLOOPER macro */
1098 Base *_setlooper_base_step(Scene **sce_iter, Base *base)
1099 {
1100         if(base && base->next) {
1101                 /* common case, step to the next */
1102                 return base->next;
1103         }
1104         else if(base==NULL && (*sce_iter)->base.first) {
1105                 /* first time looping, return the scenes first base */
1106                 return (Base *)(*sce_iter)->base.first;
1107         }
1108         else {
1109                 /* reached the end, get the next base in the set */
1110                 while((*sce_iter= (*sce_iter)->set)) {
1111                         base= (Base *)(*sce_iter)->base.first;
1112                         if(base) {
1113                                 return base;
1114                         }
1115                 }
1116         }
1117
1118         return NULL;
1119 }