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source: GTP/trunk/Lib/Illum/IllumModule/OgreIllumModule/src/OgreIlluminationManager.cpp @ 1425

Revision 1425, 16.5 KB checked in by szirmay, 18 years ago (diff)

Line
1	#include "OgreIlluminationManager.h"
2	#include "OgreParticleSystemRenderer.h"
3	#include "OgreBillboardParticleRenderer.h"
4	#include "SpriteParticleRenderer.h"
5
6
7	OgreIlluminationManager* OgreIlluminationManager::instance = NULL;
8
9	Vector3 sortfrom;
10	RenderingRunType sortType;
11
12	class sortFromVector
13	{
14	public:
15	bool operator()(OgreSharedRuns* a, OgreSharedRuns* b)
16	{
17	float dist1 = (a->getRootPosition() - sortfrom).length();
18	float dist2 = (b->getRootPosition() - sortfrom).length();
19
20	return dist1 > dist2;
21	}
22	};
23
24	class sortFromVectorWithRunType
25	{
26	public:
27	bool operator()(OgreSharedRuns* a, OgreSharedRuns* b)
28	{
29	float dist1 = (a->getRootPosition(sortType) - sortfrom).length();
30	float dist2 = (b->getRootPosition(sortType) - sortfrom).length();
31
32	return dist1 > dist2;
33	}
34	};
35
36
37	class VisibleFinderVisitor : public QueuedRenderableVisitor
38	{
39	private:
40	std::vector<const Renderable> visibleObjects;
41	public:
42
43	VisibleFinderVisitor(std::vector<const Renderable> visibleObjectsVector)
44	{
45	this->visibleObjects = visibleObjectsVector;
46	}
47
48	void visit(const Renderable* r)
49	{
50	OgreTechniqueGroup* tg = (OgreTechniqueGroup*) r->getRenderTechniqueGroup();
51
52	if(tg != 0)
53	{
54	tg->validateSharedRuns();
55	visibleObjects->push_back(r);
56	}
57	}
58	bool visit(const Pass* p)
59	{
60	return true;
61	}
62	void visit(const RenderablePass* rp)
63	{
64	Renderable* r = rp->renderable;
65
66	OgreTechniqueGroup* tg = (OgreTechniqueGroup*) r->getRenderTechniqueGroup();
67
68	if(tg != 0)
69	{
70	tg->validateSharedRuns();
71	visibleObjects->push_back(r);
72	}
73	}
74
75	};
76
77	OgreIlluminationManager::OgreIlluminationManager()
78	{
79	visitor = new VisibleFinderVisitor(&visibleObjects);
80	maxRad = 400;
81	focusingMapSize = 32;
82	shadowMapSize = 512;
83	phaseTextureSize = 256;
84
85	for(int i = 0; i < RUN_TYPE_COUNT; i++)
86	{
87	maxRads[(RenderingRunType)i] = (float) maxRad;
88	}
89
90	//register rendertechnique factories
91	OgreColorCubeMapRenderTechniqueFactory* colorcube = new OgreColorCubeMapRenderTechniqueFactory();
92	addRenderTechniqueFactory(colorcube);
93	OgreDistanceCubeMapRenderTechniqueFactory* distcube = new OgreDistanceCubeMapRenderTechniqueFactory();
94	addRenderTechniqueFactory(distcube);
95	OgreConvoledCubeMapRenderTechniqueFactory* convcube = new OgreConvoledCubeMapRenderTechniqueFactory();
96	addRenderTechniqueFactory(convcube);
97	OgreCausticCasterRenderTechniqueFactory* caucast = new OgreCausticCasterRenderTechniqueFactory();
98	addRenderTechniqueFactory(caucast);
99	OgreCausticRecieverRenderTechniqueFactory* caurec = new OgreCausticRecieverRenderTechniqueFactory();
100	addRenderTechniqueFactory(caurec);
101	OgreDepthShadowRecieverRenderTechniqueFactory* dsrec = new OgreDepthShadowRecieverRenderTechniqueFactory();
102	addRenderTechniqueFactory(dsrec);
103	OgreSBBRenderTechniqueFactory* sbb = new OgreSBBRenderTechniqueFactory();
104	addRenderTechniqueFactory(sbb);
105	OgreFireRenderTechniqueFactory* fire = new OgreFireRenderTechniqueFactory();
106	addRenderTechniqueFactory(fire);
107	OgreHierarchicalParticleSystemTechniqueFactory* HPSF = new OgreHierarchicalParticleSystemTechniqueFactory();
108	addRenderTechniqueFactory(HPSF);
109	OgreIllumVolumeRenderTechniqueFactory* illumVolume = new OgreIllumVolumeRenderTechniqueFactory();
110	addRenderTechniqueFactory(illumVolume);
111	}
112
113	OgreIlluminationManager::~OgreIlluminationManager()
114	{
115
116	}
117
118	OgreIlluminationManager& OgreIlluminationManager::getSingleton()
119	{
120	if(instance == NULL)
121	instance= new OgreIlluminationManager();
122
123	return *instance;
124	}
125
126	void OgreIlluminationManager::fillVisibleList( RenderQueue * rq )
127	{
128	visibleObjects.clear();
129
130	RenderQueue::QueueGroupIterator queueIt = rq->_getQueueGroupIterator();
131
132	while (queueIt.hasMoreElements())
133	{
134	RenderQueueGroup* pGroup = queueIt.getNext();
135
136	RenderQueueGroup::PriorityMapIterator groupIt = pGroup->getIterator();
137
138	while (groupIt.hasMoreElements())
139	{
140	RenderPriorityGroup* pPriorityGrp = groupIt.getNext();
141	const QueuedRenderableCollection& solids = pPriorityGrp->getSolidsBasic();
142	const QueuedRenderableCollection& transparents = pPriorityGrp->getTransparents();
143
144	solids.acceptVisitor(visitor, QueuedRenderableCollection::OM_PASS_GROUP);
145	transparents.acceptVisitor(visitor, QueuedRenderableCollection::OM_SORT_ASCENDING);
146	}
147	}
148
149	rq->clear();
150	}
151
152	BillboardSet* OgreIlluminationManager::findRenderableInParticleSystem(ParticleSystem* system)
153	{
154	ParticleSystemRenderer* renderer = system->getRenderer();
155
156	const String rendererType = renderer->getType();
157	if(rendererType == "billboard")
158	{
159	BillboardSet* bbSet = ((BillboardParticleRenderer*) renderer)->getBillboardSet();
160	return bbSet;
161	}
162
163	if(rendererType == "sprite")
164	{
165	BillboardSet* bbSet = ((SpriteParticleRenderer*) renderer)->getSpriteSet();
166	return bbSet;
167	}
168
169	OGRE_EXCEPT(0, "Unsupported particle renderable type", "OgreIlluminationManager::findRenderableInParticleSystem");
170
171	return NULL;
172	}
173
174	void OgreIlluminationManager::initTechniques(Entity* e)
175	{
176	if( e->getParentSceneNode() == 0 )//Entity not attached
177	return;
178
179	OgreSharedRuns* sharedruns = 0;
180
181	for(unsigned int s = 0; s < e->getNumSubEntities(); s++)
182	{
183	SubEntity* sube = e->getSubEntity(s);
184
185	Material* mat = sube->getMaterial().getPointer();
186
187	OgreRenderable* rend = 0;
188	OgreTechniqueGroup* group = 0;
189
190	for(unsigned int t = 0 ; t < mat->getNumTechniques() ; t++)
191	{
192	Technique* tech = mat->getTechnique(t);
193
194	for(unsigned int p = 0; p< tech->getNumPasses(); p++)
195	{
196	Pass* pass = tech->getPass(p);
197
198	std::vector<IllumTechniqueParams*>& techniques = pass->getIllumTechniques();
199	std::vector<IllumTechniqueParams*>::iterator i = techniques.begin();
200	std::vector<IllumTechniqueParams*>::iterator iend = techniques.end();
201
202	while( i != iend)
203	{
204	IllumTechniqueParams* params = *i;
205
206	if(rend == 0)
207	{
208	rend = new OgreRenderable(e, s);
209	group = new OgreTechniqueGroup();
210	sube->setRenderTechniqueGroup(group);
211
212	if( sharedruns == 0)
213	{
214	sharedruns = new OgreSharedRuns();
215	addSharedRuns(sharedruns);
216	}
217
218	group->addSharedRun(sharedruns);
219	sharedruns->addRenderable(rend);
220	sharedruns->updateBounds();
221	}
222
223	createTechnique(params, pass, rend, sharedruns);
224
225	i++;
226	}
227	}
228	}
229	}
230
231
232	}
233
234
235	void OgreIlluminationManager::initTechniques(BillboardSet* bbs, ParticleSystem* sys)
236	{
237	if( bbs->getParentSceneNode() == 0 )//billboardset not attached
238	return;
239
240	OgreSharedRuns* sharedruns = 0;
241
242	Material* mat = bbs->getMaterial().getPointer();
243
244	OgreRenderable* rend = 0;
245	OgreTechniqueGroup* group = 0;
246
247	for(unsigned int t = 0 ; t < mat->getNumTechniques() ; t++)
248	{
249	Technique* tech = mat->getTechnique(t);
250
251	for(unsigned int p = 0; p< tech->getNumPasses(); p++)
252	{
253	Pass* pass = tech->getPass(p);
254
255	std::vector<IllumTechniqueParams*>& techniques = pass->getIllumTechniques();
256	std::vector<IllumTechniqueParams*>::iterator i = techniques.begin();
257	std::vector<IllumTechniqueParams*>::iterator iend = techniques.end();
258
259	while( i != iend)
260	{
261	IllumTechniqueParams* params = *i;
262
263	if(rend == 0)
264	{
265	rend = new OgreRenderable(bbs, sys);
266	group = new OgreTechniqueGroup();
267	bbs->setRenderTechniqueGroup(group);
268
269	if( sharedruns == 0)
270	{
271	sharedruns = new OgreSharedRuns();
272	addSharedRuns(sharedruns);
273	}
274
275	group->addSharedRun(sharedruns);
276	sharedruns->addRenderable(rend);
277	sharedruns->updateBounds();
278	}
279
280	createTechnique(params, pass, rend, sharedruns);
281
282	i++;
283	}
284	}
285	}
286
287	}
288
289	void OgreIlluminationManager::initTechniques()
290	{
291	{
292	//Entities
293	SceneManager::MovableObjectIterator it = Root::getSingleton()._getCurrentSceneManager()
294	->getMovableObjectIterator("Entity");
295	while(it.hasMoreElements())
296	{
297	MovableObject* o = it.getNext();
298	Entity* e = (Entity*) o;
299
300	initTechniques(e);
301	}
302	}
303	{
304	//ParticleSystems
305	SceneManager::MovableObjectIterator it = Root::getSingleton()._getCurrentSceneManager()
306	->getMovableObjectIterator("ParticleSystem");
307	while(it.hasMoreElements())
308	{
309	MovableObject* o = it.getNext();
310	ParticleSystem* psys = (ParticleSystem*) o;
311
312	try
313	{
314	BillboardSet* bbset = findRenderableInParticleSystem(psys);
315	bbset->setMaterialName(psys->getMaterialName());
316	initTechniques(bbset, psys);
317	}
318	catch( ... )
319	{
320	//unsupported particle renderer, skip init
321	}
322	}
323	}
324	}
325
326	void OgreIlluminationManager::createTechnique(IllumTechniqueParams* params, Pass* pass, OgreRenderable* rend, OgreSharedRuns* sRuns)
327	{
328	std::list<RenderTechniqueFactory*>::iterator it = techniqueFactories.begin();
329	std::list<RenderTechniqueFactory*>::iterator itend = techniqueFactories.end();
330
331	OgreTechniqueGroup* group = (OgreTechniqueGroup*) rend->getRenderable()->getRenderTechniqueGroup();
332
333
334	while(it != itend)
335	{
336	RenderTechniqueFactory* factory = *it;
337
338
339	if(factory->isType(params->getTypeName()))
340	{
341
342	RenderTechnique* newTechnique = factory->createInstance(params,
343	pass,
344	rend,
345	group );
346
347	group->addRenderTechnique(newTechnique);
348
349	}
350
351	it++;
352	}
353	}
354	void OgreIlluminationManager::preAllUpdates()
355	{
356	std::vector<UpdateListener*>::iterator it = updateListeners.begin();
357	std::vector<UpdateListener*>::iterator itend = updateListeners.end();
358
359	while(it != itend)
360	{
361	UpdateListener* l = *it;
362	l->preAllUpdates();
363	it++;
364	}
365	}
366
367	void OgreIlluminationManager::postAllUpdates()
368	{
369	std::vector<UpdateListener*>::iterator it = updateListeners.begin();
370	std::vector<UpdateListener*>::iterator itend = updateListeners.end();
371
372	while(it != itend)
373	{
374	UpdateListener* l = *it;
375	l->postAllUpdates();
376	it++;
377	}
378	}
379
380	void OgreIlluminationManager::update(unsigned long frameNumber, RenderTarget* rt)
381	{
382
383	RenderSystem* renderSystem = Root::getSingleton().getRenderSystem();
384	SceneManager* sceneManager = Root::getSingleton()._getCurrentSceneManager();
385
386	for(unsigned short i = 0; i<rt->getNumViewports();i++)
387	{
388	//find visible objects from the camera
389	RenderQueue* rq = sceneManager->getRenderQueue();
390	rq->clear();
391	RenderQueue::QueueGroupIterator groupIter = rq->_getQueueGroupIterator();
392	while (groupIter.hasMoreElements())
393	{
394	RenderQueueGroup* g = groupIter.getNext();
395	//g->addOrganisationMode(QueuedRenderableCollection::OM_SORT_ASCENDING);
396	g->defaultOrganisationMode();
397	}
398
399	sceneManager->_findVisibleObjects(rt->getViewport(i)->getCamera(),false);
400	fillVisibleList(rq);
401
402	// int l = visibleObjects.size(); //debug
403
404	joinSharedRuns();
405
406	// int ll = sharedRunRoots.size(); //debug
407
408	//update precomputings
409	std::vector<const Renderable*>::iterator iter = visibleObjects.begin();
410	const std::vector<const Renderable*>::iterator iend = visibleObjects.end();
411
412	preAllUpdates();
413
414	while(iter != iend)
415	{
416	const Renderable* rend = *iter;
417	OgreTechniqueGroup* techniqueGroup = (OgreTechniqueGroup*) rend->getRenderTechniqueGroup();
418	if(techniqueGroup != 0)
419	{
420	techniqueGroup->update(frameNumber);
421	}
422	iter++;
423	}
424
425	postAllUpdates();
426
427	}
428	}
429
430	void OgreIlluminationManager::sharedRunSplit(SharedRuns* old, SharedRuns* new1, SharedRuns* new2)
431	{
432	sharedRunRoots.remove(old);
433	sharedRunRoots.push_back(new1);
434	sharedRunRoots.push_back(new2);
435	}
436
437	void OgreIlluminationManager::sharedRunJoin(SharedRuns* old1, SharedRuns* old2, SharedRuns* newsr)
438	{
439	sharedRunRoots.remove(old1);
440	sharedRunRoots.remove(old2);
441	sharedRunRoots.push_back(newsr);
442	}
443
444	void OgreIlluminationManager::joinSharedRuns()
445	{
446	std::list<SharedRuns*>::iterator it1 = sharedRunRoots.begin();
447	std::list<SharedRuns*>::iterator itend = sharedRunRoots.end();
448
449	bool again = false;
450
451	while(it1 != itend)
452	{
453	std::list<SharedRuns*>::iterator it2 = sharedRunRoots.begin();
454
455	while(it2 != itend)
456	{
457	if( it1 != it2 && OgreSharedRuns::canJoin(it1, it2))
458	{
459	SharedRuns* newruns = (it1)->joinRuns(it2);
460	sharedRunJoin(it1, it2, newruns);
461	again = true;
462	break;
463	}
464	it2++;
465	}
466
467	if(again)
468	break;
469
470	it1++;
471	}
472	if(again)
473	joinSharedRuns();
474
475	}
476
477	void OgreIlluminationManager::addSharedRuns(SharedRuns* runs)
478	{
479	sharedRunRoots.push_back(runs);
480	}
481
482	void OgreIlluminationManager::getNearestCausticCasters(Vector3 position, std::vector<OgreSharedRuns> nearestcasters, unsigned int maxCount)
483	{
484	sortfrom = position;
485	std::vector<OgreSharedRuns*> allcasters;
486	//fill casters
487	std::list<SharedRuns*>::iterator it = sharedRunRoots.begin();
488	std::list<SharedRuns*>::iterator itend = sharedRunRoots.end();
489	while(it != itend)
490	{
491	OgreSharedRuns* sr = (OgreSharedRuns) (it);
492
493	sr->findSharedRootsForType(ILLUMRUN_CAUSTIC_CUBEMAP, allcasters);
494
495	it++;
496	}
497
498	//sort
499	std::stable_sort(allcasters.begin(), allcasters.end(), sortFromVector());
500
501	for(unsigned int i = 0; i < maxCount && i < allcasters.size(); i++)
502	{
503	nearestcasters->push_back(allcasters.at(i));
504	}
505	}
506
507	void OgreIlluminationManager::createGlobalRun(RenderingRunType runType)
508	{
509	switch(runType)
510	{
511	case ILLUMRUN_SCENE_CAMERA_DEPTH:
512	if(globalSharedRuns.getRun(ILLUMRUN_SCENE_CAMERA_DEPTH) == 0)
513	{
514	OgreSceneCameraDepthRenderingRun* run = new OgreSceneCameraDepthRenderingRun
515	(&globalSharedRuns, "ILLUMMODULE_SCENE_CAMERA_DEPTH", mainViewport);
516	globalSharedRuns.addRun(ILLUMRUN_SCENE_CAMERA_DEPTH, run);
517	}
518	case ILLUMRUN_FOCUSING_MAP:
519	if(globalSharedRuns.getRun(ILLUMRUN_FOCUSING_MAP) == 0)
520	{
521	OgreFocusingMapRenderingRun* run = new OgreFocusingMapRenderingRun(
522	"LIGHT_FOCUSING_MAP",
523	Matrix4::IDENTITY,
524	focusingMapSize
525	);
526	globalSharedRuns.addRun(ILLUMRUN_FOCUSING_MAP, run);
527
528	}
529	case ILLUMRUN_PHASE_TEXTURE:
530	if(globalSharedRuns.getRun(ILLUMRUN_PHASE_TEXTURE) == 0)
531	{
532	OgrePhaseTextureRenderingRun* run = new OgrePhaseTextureRenderingRun(
533	"PHASE_TEXTURE",
534	phaseTextureSize,
535	phaseTextureSize,
536	"Phase_HenyeyGreenStein");
537	globalSharedRuns.addRun(ILLUMRUN_PHASE_TEXTURE, run);
538	}
539	break;
540	}
541	}
542
543	void OgreIlluminationManager::savePhaseTextureToFile(String filename)
544	{
545	OgrePhaseTextureRenderingRun* r = (OgrePhaseTextureRenderingRun*)
546	globalSharedRuns.getRun(ILLUMRUN_PHASE_TEXTURE)->asOgreRenderingRun();
547	Texture* t = (Texture*) TextureManager::getSingleton().getByName(r->getPhaseTextureName()).getPointer();
548
549	t->getBuffer()->getRenderTarget()->writeContentsToFile(filename);
550	}
551
552	RenderingRun* OgreIlluminationManager::getGlobalRun(RenderingRunType runType)
553	{
554	if(globalSharedRuns.getRun(runType) == 0)
555	createGlobalRun(runType);
556	return globalSharedRuns.getRun(runType);
557	}
558
559	GlobalUseRenderTarget* OgreIlluminationManager::getGlobalTarget(GlobalTargetType type)
560	{
561	std::map<GlobalTargetType, GlobalUseRenderTarget*>::iterator it = globalTargets.find(type);
562
563	if( it != globalTargets.end())
564	return (*it).second;
565
566	return 0;
567	}
568
569	void OgreIlluminationManager::addGlobalTarget(GlobalTargetType type, GlobalUseRenderTarget* target)
570	{
571	globalTargets[type] = target;
572	}
573
574	void OgreIlluminationManager::updateGlobalRun(RenderingRunType runType, unsigned long frameNum)
575	{
576	globalSharedRuns.updateRun(runType, frameNum);
577	}
578
579	void OgreIlluminationManager::createPerLightRun(String lightName, RenderingRunType runType)
580	{
581	OgreSharedRuns* runs = 0;
582
583	if(perLightRuns.find(lightName) == perLightRuns.end())
584	{///create sharedruns
585	OgreSharedRuns* newruns = new OgreSharedRuns();
586	perLightRuns[lightName] = newruns;
587	}
588
589	runs = perLightRuns[lightName];
590
591	switch(runType)
592	{
593	case ILLUMRUN_DEPTH_SHADOWMAP:
594	if(runs->getRun(ILLUMRUN_DEPTH_SHADOWMAP) == 0)
595	{
596	SceneManager* sm = Root::getSingleton()._getCurrentSceneManager();
597	OgreDepthShadowMapRenderingRun* run = new OgreDepthShadowMapRenderingRun(
598	runs,
599	lightName + "DEPTH_SHADOW_MAP",
600	sm->getLight(lightName),
601	shadowMapSize,
602	shadowMapSize,
603	"GameTools/ShadowMapDepth" //TODO
604	);
605	runs->addRun(ILLUMRUN_DEPTH_SHADOWMAP, run);
606
607	}
608	break;
609	}
610	}
611
612	RenderingRun* OgreIlluminationManager::getPerLightRun(String lightName, RenderingRunType runType)
613	{
614	return perLightRuns[lightName]->getRun(runType);
615	}
616
617	void OgreIlluminationManager::updatePerLightRun(String lightName, RenderingRunType runType, unsigned long frameNum)
618	{
619	perLightRuns[lightName]->updateRun(runType, frameNum);
620	}
621

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