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source: GTP/trunk/Lib/Vis/OnlineCullingCHC/src/RandomUpdateCullingManager.cpp @ 2538

Revision 2538, 7.3 KB checked in by mattausch, 17 years ago (diff)

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1	#include "RandomUpdateCullingManager.h"
2	#include <time.h>
3	#include "CullingLogManager.h"
4	#include <vector>
5	//#include <iostream>
6	#include <sstream>
7
8
9	using namespace std;
10
11
12	namespace GtpVisibility {
13
14	const static int R_CANDIDATES = 1;
15
16	//-----------------------------------------------------------------------
17	RandomUpdateCullingManager::RandomUpdateCullingManager(): mRandomCandidates(R_CANDIDATES)
18	{
19	}
20	//-----------------------------------------------------------------------
21	RandomUpdateCullingManager::RandomUpdateCullingManager(const unsigned int randomCandidates)
22	{
23	mRandomCandidates = std::max(randomCandidates, (unsigned int)1);
24	}
25	//-----------------------------------------------------------------------
26	void RandomUpdateCullingManager::SetRandomCandidates(const unsigned int randomCandidates)
27	{
28	mRandomCandidates = std::max(randomCandidates, (unsigned int)1);
29	}
30	//-----------------------------------------------------------------------
31	void RandomUpdateCullingManager::RenderScene()
32	{
33	if (0) CullingLogManager::GetSingleton()->LogMessage("ruc");
34
35	QueryQueue queryQueue;
36	unsigned int visiblePixels = 0;
37
38	/////////////
39	//-- PART 1: process finished occlusion queries
40
41	while (!mHierarchyInterface->GetQueue()->empty() \|\| !queryQueue.empty())
42	{
43	bool resultAvailable = false;
44
45	//-- only wait for result if there are no nodes to process
46	while (!queryQueue.empty() &&
47	queryQueue.front().second->GetQueryResult(visiblePixels,
48	mHierarchyInterface->GetQueue()->empty()))
49	{
50	HierarchyNode *node = queryQueue.front().first;
51
52	queryQueue.pop();
53
54	if (visiblePixels > mVisibilityThreshold)
55	{
56	// in case geometry is in interior node:
57	// ensure that we only traverse once
58	if (!mHierarchyInterface->IsNodeVisible(node) &&
59	!mHierarchyInterface->IsNodeFullyVisible(node))
60	{
61	mHierarchyInterface->TraverseNode(node);
62	}
63
64	mHierarchyInterface->PullUpVisibility(node);
65	}
66	else
67	{
68	mHierarchyInterface->SetNodeVisible(node, false);
69
70	++ mNumQueryCulledNodes;
71
72	if (mVisualizeCulledNodes)
73	{
74	mHierarchyInterface->VisualizeCulledNode(node, QUERY_CULLED);
75	}
76	}
77	}
78
79	//-- PART 2: hierarchical traversal
80	if (!mHierarchyInterface->GetQueue()->empty())
81	{
82	HierarchyNode *node = mHierarchyInterface->GetQueue()->top();
83	mHierarchyInterface->GetQueue()->pop();
84
85	bool intersects = false;
86
87	if (!mHierarchyInterface->CheckFrustumVisible(node, intersects))
88	{
89	++ mNumFrustumCulledNodes;
90
91	if (mVisualizeCulledNodes)
92	{
93	mHierarchyInterface->VisualizeCulledNode(node, FRUSTUM_CULLED);
94	}
95	}
96	//-- if node intersects near plane, skip query because wrong results possible
97	else if (intersects)
98	{
99	SkipQuery(node);
100	}
101	else
102	{
103	// fully visible subtree => render all in one batch
104	if (mHierarchyInterface->IsNodeFullyVisible(node))
105	{
106	int nodesTested = 0;
107
108	// use different algorithm to find random candidates
109	#if 1
110	HierarchyNodeContainer mynodes;
111	mHierarchyInterface->CollectLeaves(node, mynodes);
112
113	const int p = mRandomCandidates * RAND_MAX / (int)mynodes.size();
114
115	HierarchyNodeContainer::const_iterator nit, nit_end = mynodes.end();
116
117	for (nit = mynodes.begin(); nit != nit_end; ++ nit)
118	{
119	HierarchyNode leaf = nit;
120
121	if (rand() > p)
122	continue;
123
124	bool intersects = false;
125	const bool frustumCulled = !mHierarchyInterface->CheckFrustumVisible(leaf, intersects);
126
127	// don't test in these cases ...
128	if (frustumCulled \|\| intersects)
129	continue;
130
131	++ nodesTested;
132
133	mHierarchyInterface->SetNodeVisible(leaf, false);
134
135	// update node's visited flag: this is important as we are not testing
136	// all nodes in the hierarchy in this mode
137	mHierarchyInterface->PullUpLastVisited(leaf, mHierarchyInterface->GetFrameId());
138	// issue the query
139	mHierarchyInterface->IssueNodeOcclusionQuery(node, mTestGeometryForVisibleLeaves);
140	}
141
142	//std::stringstream d; d << "rc: " << mRandomCandidates << " tested: " << nodesTested << " of " << (int)mynodes.size();
143	//CullingLogManager::GetSingleton()->LogMessage(d.str());
144
145	#else
146
147	HierarchyNode *leaf = mHierarchyInterface->GetRandomLeaf(node);
148
149	bool intersects = false;
150	const bool frustumCulled = !mHierarchyInterface->CheckFrustumVisible(leaf, intersects);
151
152	if (frustumCulled \|\| intersects) // don't test in these cases ...
153	continue;
154
155	++ nodesTested;
156
157	mHierarchyInterface->SetNodeVisible(leaf, false);
158
159	// update node's visited flag: this is important as we are not testing
160	// all nodes in the hierarchy in this mode
161	mHierarchyInterface->PullUpLastVisited(leaf, mHierarchyInterface->GetFrameId());
162	// issue the query
163	mHierarchyInterface->IssueNodeOcclusionQuery(leaf, mTestGeometryForVisibleLeaves);
164
165	#endif
166
167	mHierarchyInterface->RenderNodeRecursive(node);
168
169	// bail out here, recursion has finished
170	continue;
171	}
172
173	// identify previously visible nodes
174	const bool wasVisible = mHierarchyInterface->IsNodeVisible(node) &&
175	(mHierarchyInterface->LastVisited(node) == mHierarchyInterface->GetFrameId() - 1);
176
177	// if we assume node to be visible in this frame => skip query
178	const bool skipQuery = false;
179	//wasVisible && mHierarchyInterface->HasGeometry(node);
180
181	if (skipQuery)
182	{
183	SkipQuery(node);
184	continue;
185	}
186
187	// identify nodes that we cannot skip queries for
188	// geometry not only in leaves => test for renderable geometry
189	const bool issueQuery = !wasVisible \|\| mHierarchyInterface->HasGeometry(node);
190
191	// reset node's visibility classification
192	// set visible if geometry in node => we only traverse the node once
193	mHierarchyInterface->SetNodeVisible(node, wasVisible && issueQuery);
194
195	// update node's visited flag
196	mHierarchyInterface->SetLastVisited(node, mHierarchyInterface->GetFrameId());
197
198
199	// skip testing previously visible nodes without geometry
200	if (issueQuery)
201	{
202	++ mNumQueriesIssued;
203
204	const bool testGeometry = wasVisible && mHierarchyInterface->IsLeaf(node) && mTestGeometryForVisibleLeaves;
205
206	queryQueue.push(QueryPair(node, mHierarchyInterface->
207	IssueNodeOcclusionQuery(node, testGeometry)));
208	}
209
210	// always traverse a node if it was visible
211	if (wasVisible)
212	{
213	mHierarchyInterface->TraverseNode(node);
214	}
215	}
216	}
217	}
218
219	// update the fully visible classifications
220	mHierarchyInterface->DetermineFullVisibility(mHierarchyInterface->GetHierarchyRoot());
221	}
222	//-----------------------------------------------------------------------
223	inline void RandomUpdateCullingManager::SkipQuery(HierarchyNode *node) const
224	{
225	// -- set node to be visible in this frame, then traverse it
226	mHierarchyInterface->SetLastVisited(node, mHierarchyInterface->GetFrameId());
227
228	mHierarchyInterface->PullUpVisibility(node);
229	mHierarchyInterface->TraverseNode(node);
230	}
231	//-----------------------------------------------------------------------
232	void RandomUpdateCullingManager::SetTestGeometryForVisibleLeaves(const bool testGeometry)
233	{
234	mTestGeometryForVisibleLeaves = testGeometry;
235	}
236	//-----------------------------------------------------------------------
237	bool RandomUpdateCullingManager::GetTestGeometryForVisibleLeaves()
238	{
239	return mTestGeometryForVisibleLeaves;
240	}
241
242	} // namespace GtpVisibility

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