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source: branches/VUT/chcdemo/RenderTraverser.cpp @ 10

Revision 10, 9.9 KB checked in by gametools, 20 years ago (diff)
vienna university of technology first files

Line
1	#include "RenderTraverser.h"
2	#include "glInterface.h"
3	#include "Timers.h"
4
5	extern "C"
6	{
7	#include "MathStuff.h"
8	}
9
10
11	RenderTraverser::RenderTraverser(): mFrameID(1), mVisibilityThreshold(0),
12	mHierarchyRoot(NULL), mOcclusionQueries(NULL), mCurrentTestIdx(0), mIsQueryMode(false),
13	mNumTraversedNodes(0), mNumQueryCulledNodes(0), mNumFrustumCulledNodes(0),
14	mRenderTime(0), mNumRenderedGeometry(0), mUseOptimization(true)
15	{
16	}
17
18	RenderTraverser::~RenderTraverser()
19	{
20	if(mOcclusionQueries)
21	delete [] mOcclusionQueries;
22	}
23
24	void RenderTraverser::Render(int mode)
25	{
26	mDistanceQueue.push(mHierarchyRoot);
27
28	long startTime = getTime();
29
30	Preprocess();
31
32	switch(mode)
33	{
34	case RENDER_CULL_FRUSTUM:
35	RenderCullFrustum();
36	break;
37	case RENDER_STOP_AND_WAIT:
38	RenderStopAndWait();
39	break;
40	case RENDER_COHERENT:
41	RenderCoherentWithQueue();
42	break;
43	default:
44	RenderCullFrustum();
45	break;
46	}
47
48	mFrameID ++;
49	ResetQueries();
50
51	long endTime = getTime();
52	mRenderTime = endTime - startTime;
53
54	finishTiming();
55	}
56
57	/**
58	This is the standard render traversal algorithm doing only frustum culling
59	*/
60	void RenderTraverser::RenderCullFrustum()
61	{
62	while(!mDistanceQueue.empty())
63	{
64	HierarchyNode *node = mDistanceQueue.top();
65	mDistanceQueue.pop();
66
67	// interesting for the visualization, so rest and set
68	node->SetVisible(false);
69	mNumTraversedNodes ++;
70
71	bool intersects;
72
73	if(InsideViewFrustum(node, intersects))
74	{
75	// update node's visited flag => needed for rendering
76	// so set it also here
77	node->SetLastVisited(mFrameID);
78	node->SetVisible(true);
79	TraverseNode(node);
80	}
81	else
82	{
83	mNumFrustumCulledNodes ++;
84	}
85	}
86	}
87
88	void RenderTraverser::RenderStopAndWait()
89	{
90	while(! mDistanceQueue.empty())
91	{
92	HierarchyNode *node = mDistanceQueue.top();
93	mDistanceQueue.pop();
94	mNumTraversedNodes ++;
95	// interesting for the visualization, so rest and set
96	node->SetVisible(false);
97
98	bool intersects;
99
100	if(InsideViewFrustum(node, intersects))
101	{
102	// update node's visited flag
103	node->SetLastVisited(mFrameID);
104
105	// for near plane intersecting abbs possible
106	// wrong results => skip occlusion query
107	if(intersects)
108	{
109	node->SetVisible(true);
110	TraverseNode(node);
111	}
112	else
113	{
114	IssueOcclusionQuery(node, false);
115
116	// wait if result not available
117	int visiblePixels = GetOcclusionQueryResult(node);
118
119	// node visible
120	if(visiblePixels > mVisibilityThreshold)
121	{
122	node->SetVisible(true);
123	TraverseNode(node);
124	}
125	else
126	{
127	mNumQueryCulledNodes ++;
128	}
129	}
130	}
131	else
132	{
133	mNumFrustumCulledNodes ++;
134	}
135	}
136	}
137
138	void RenderTraverser::RenderCoherentWithQueue()
139	{
140	QueryQueue queryQueue;
141
142	//-- PART 1: process finished occlusion queries
143	while(!mDistanceQueue.empty() \|\| !queryQueue.empty())
144	{
145	while(!queryQueue.empty() &&
146	(ResultAvailable(queryQueue.front()) \|\| mDistanceQueue.empty()))
147	{
148	HierarchyNode *node = queryQueue.front();
149	queryQueue.pop();
150
151	// wait until result available
152	int visiblePixels = GetOcclusionQueryResult(node);
153
154	if(visiblePixels > mVisibilityThreshold)
155	{
156	PullUpVisibility(node);
157	TraverseNode(node);
158	}
159	else
160	{
161	mNumQueryCulledNodes ++;
162	}
163	}
164
165	//-- PART 2: hierarchical traversal
166	if(! mDistanceQueue.empty())
167	{
168	HierarchyNode *node = mDistanceQueue.top();
169
170	mDistanceQueue.pop();
171
172	mNumTraversedNodes ++;
173
174	bool intersects;
175
176	if(InsideViewFrustum(node, intersects))
177	{
178	// for near plane intersecting abbs possible
179	// wrong results => skip occlusion query
180	if(intersects)
181	{
182	// update node's visited flag
183	node->SetLastVisited(mFrameID);
184
185	PullUpVisibility(node);
186	TraverseNode(node);
187	}
188	else
189	{
190	// identify previously visible nodes
191	bool wasVisible = node->Visible() && (node->LastVisited() == mFrameID - 1);
192
193	// identify nodes that we cannot skip queries for
194	bool leafOrWasInvisible = !wasVisible \|\| node->IsLeaf();
195
196	// reset node's visibility classification
197	node->SetVisible(false);
198
199	// update node's visited flag
200	node->SetLastVisited(mFrameID);
201
202	// skip testing previously visible interior nodes
203	if(leafOrWasInvisible)
204	{
205	IssueOcclusionQuery(node, wasVisible);
206	queryQueue.push(node);
207	}
208
209	// always traverse a node if it was visible
210	if(wasVisible)
211	TraverseNode(node);
212	}
213	}
214	else
215	{
216	// for stats
217	mNumFrustumCulledNodes ++;
218	}
219	}
220	}
221	}
222
223	void RenderTraverser::TraverseNode(HierarchyNode *node)
224	{
225	if(node->IsLeaf())
226	mNumRenderedGeometry += node->Render();
227	else
228	{
229	// for non leafs this renders only the bounding volume (if the flag is set)
230	//node->Render();
231	mDistanceQueue.push(node->GetLeftChild());
232	mDistanceQueue.push(node->GetRightChild());
233	}
234	}
235
236	void RenderTraverser::RenderVisualization()
237	{
238	mDistanceQueue.push(mHierarchyRoot);
239
240	while(! mDistanceQueue.empty())
241	{
242	HierarchyNode *node = mDistanceQueue.top();
243	mDistanceQueue.pop();
244
245	// identify previously visible nodes
246	bool wasVisible = node->Visible() && (node->LastVisited() == mFrameID - 1);
247
248	if(wasVisible)
249	TraverseNode(node);
250	else
251	{
252	// also render culled nodes
253	glColor3f(1.0,0.0,0.0);
254	node->RenderBoundingVolumeForVisualization();
255	}
256	}
257	}
258
259
260	void RenderTraverser::PullUpVisibility(HierarchyNode *node)
261	{
262	while(node && !node->Visible())
263	{
264	node->SetVisible(true);
265	node = node->GetParent();
266	}
267	}
268
269	bool RenderTraverser::ResultAvailable(HierarchyNode *node)
270	{
271	int result;
272
273	glGetQueryivARB(node->GetOcclusionQuery(),
274	GL_QUERY_RESULT_AVAILABLE_ARB, &result);
275
276	return (result == GL_TRUE);
277	}
278
279	void RenderTraverser::SetHierarchy(HierarchyNode *sceneRoot)
280	{
281	mHierarchyRoot = sceneRoot;
282
283	// not valid anymore for new hierarchy => delete
284	delete [] mOcclusionQueries;
285	mOcclusionQueries = NULL;
286	}
287
288	HierarchyNode *RenderTraverser::GetHierarchy()
289	{
290	return mHierarchyRoot;
291	}
292
293	int RenderTraverser::GetOcclusionQueryResult(HierarchyNode *node)
294	{
295	unsigned int result;
296
297	glGetQueryObjectuivARB(node->GetOcclusionQuery(), GL_QUERY_RESULT_ARB, &result);
298
299	return (int)result;
300	}
301
302
303	void RenderTraverser::Switch2GLQueryState()
304	{
305	// boolean used to avoid unnecessary state changes
306	if(!mIsQueryMode)
307	{
308	glColorMask(GL_FALSE, GL_FALSE, GL_FALSE, GL_FALSE);
309	glDepthMask(GL_FALSE);
310	glDisable(GL_LIGHTING);
311	mIsQueryMode = true;
312	}
313	}
314
315
316	void RenderTraverser::Switch2GLRenderState()
317	{
318	// boolean used to avoid unnecessary state changes
319	if(mIsQueryMode)
320	{
321	// switch back to rendermode
322	glColorMask(GL_TRUE, GL_TRUE, GL_TRUE, GL_TRUE);
323	glDepthMask(GL_TRUE);
324	glEnable(GL_LIGHTING);
325	mIsQueryMode = false;
326	}
327	}
328
329	void RenderTraverser::IssueOcclusionQuery(HierarchyNode *node, bool wasVisible)
330	{
331	// get next available test id
332	unsigned int occlusionQuery = mOcclusionQueries[mCurrentTestIdx++];
333
334	node->SetOcclusionQuery(occlusionQuery);
335	// do the actual occlusion query for this node
336	glBeginQueryARB(GL_SAMPLES_PASSED_ARB, occlusionQuery);
337
338	// if leaf and was visible => will be rendered anyway, thus we
339	// can also test with the real geometry
340	if(node->IsLeaf() && wasVisible && mUseOptimization)
341	{
342	mNumRenderedGeometry += node->Render();
343	}
344	else
345	{
346	// change state so the bounding box gets not actually rendered on the screen
347	Switch2GLQueryState();
348	node->RenderBoundingVolume();
349	Switch2GLRenderState();
350	}
351
352	glEndQueryARB(GL_SAMPLES_PASSED_ARB);
353	}
354
355	void RenderTraverser::Preprocess()
356	{
357	if(!mOcclusionQueries)
358	{
359	mOcclusionQueries = new unsigned int[mHierarchyRoot->GetNumHierarchyNodes()];
360	}
361
362	// view frustum planes for view frustum culling
363	calcViewFrustumPlanes(&mClipPlanes, mProjViewMatrix);
364	calcAABNPVertexIndices(mNPVertexIndices, mClipPlanes);
365	// generate ids for occlusion test
366	glGenQueriesARB(mHierarchyRoot->GetNumHierarchyNodes(), mOcclusionQueries);
367	mCurrentTestIdx = 0;
368
369	// reset statistics
370	mNumTraversedNodes = 0;
371	mNumQueryCulledNodes = 0;
372	mNumFrustumCulledNodes = 0;
373	mNumRenderedGeometry = 0;
374	}
375
376
377	void RenderTraverser::ResetQueries()
378	{
379	// tell the driver that the occlusion queries won't be needed any more
380	glDeleteQueriesARB(mHierarchyRoot->GetNumHierarchyNodes(), mOcclusionQueries);
381	}
382
383
384	void RenderTraverser::SetViewpoint(Vector3 const &viewpoint)
385	{
386	copyVector3(mViewpoint, viewpoint);
387	}
388
389
390	void RenderTraverser::SetProjViewMatrix(Matrix4x4 const &projViewMatrix)
391	{
392	copyMatrix(mProjViewMatrix, projViewMatrix);
393	}
394
395
396	bool RenderTraverser::InsideViewFrustum(HierarchyNode *node, bool &intersects)
397	{
398	Vector3x8 vertices;
399
400	bool intersect = false;
401
402	calcAABoxPoints(vertices, node->GetBoundingVolume());
403
404	// simply test all 6 vertices
405	for (int i = 0; i < 6; i++)
406	{
407	// test the n-vertex
408	// note: the calcAABNearestVertexId should be preprocessed
409	if(!pointBeforePlane(mClipPlanes.plane[i], vertices[mNPVertexIndices[i * 2]]))
410	{
411	// outside
412	return false;
413	}
414	}
415
416	// test if bounding box is intersected by nearplane (using the p-vertex)
417	intersects = (!pointBeforePlane(mClipPlanes.plane[5], vertices[mNPVertexIndices[11]]));
418
419	// -- get vector from viewpoint to center of bounding volume
420	Vector3 vec;
421	calcAABoxCenter(vec, node->GetBoundingVolume());
422	diffVector3(vec, vec, mViewpoint);
423
424	// compute distance from nearest point to viewpoint
425	diffVector3(vec, vertices[calcAABNearestVertexIdx(vec)], mViewpoint);
426	node->SetDistance(squaredLength(vec));
427
428	return true;
429	}
430
431
432	void RenderTraverser::SetVisibilityThreshold(int threshold)
433	{
434	mVisibilityThreshold = threshold;
435	}
436
437	long RenderTraverser::GetRenderTime()
438	{
439	return mRenderTime;
440	}
441
442	int RenderTraverser::GetNumTraversedNodes()
443	{
444	return mNumTraversedNodes;
445	}
446
447	int RenderTraverser::GetNumQueryCulledNodes()
448	{
449	return mNumQueryCulledNodes;
450	}
451
452	int RenderTraverser::GetNumFrustumCulledNodes()
453	{
454	return mNumFrustumCulledNodes;
455	}
456
457
458	int RenderTraverser::GetNumRenderedGeometry()
459	{
460	return mNumRenderedGeometry;
461	}
462
463
464	int RenderTraverser::GetVisibilityThreshold()
465	{
466	return mVisibilityThreshold;
467	}
468
469	void RenderTraverser::SetUseOptimization(bool useOptimization)
470	{
471	mUseOptimization = useOptimization;
472	printf("using opt %d\n", mUseOptimization);
473	}

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