Context Navigation

CombinedPreprocessor.cpp @ 2726

Revision 2726, 4.9 KB checked in by mattausch, 16 years ago (diff)
worked on gvs efficiency
Property svn:executable set to ``*

Line
1	#include "SceneGraph.h"
2	#include "KdTree.h"
3	#include "X3dExporter.h"
4	#include "Environment.h"
5	#include "Polygon3.h"
6	#include "VssRay.h"
7	#include "RssTree.h"
8	#include "ViewCellsManager.h"
9	#include "RenderSimulator.h"
10	#include "GlRenderer.h"
11	#include "SamplingStrategy.h"
12	#include "PreprocessorThread.h"
13	#include "CombinedPreprocessor.h"
14	#include "RayCaster.h"
15	#include <windows.h>
16
17
18	namespace GtpVisibilityPreprocessor {
19
20
21	const bool pruneInvalidRays = true;
22
23
24	CombinedPreprocessor::CombinedPreprocessor():
25	Preprocessor()
26	{
27	// this should increase coherence of the samples
28	// Environment::GetSingleton()->GetIntValue("RssPreprocessor.vssSamples", mTotalSamples);
29	// Environment::GetSingleton()->GetIntValue("RssPreprocessor.samplesPerPass", mSamplesPerPass);
30	// Environment::GetSingleton()->GetIntValue("RssPreprocessor.vssSamplesPerPass",
31	// mSamplesPerEvaluation);
32
33
34	}
35
36
37
38	bool
39	CombinedPreprocessor::ComputeVisibility()
40	{
41
42	Debug << "Preprocessor type: combined" << endl;
43	cout<<"Combined Preprocessor started\n"<<flush;
44
45	// if not already loaded, construct view cells from file
46	if (!mLoadViewCells) {
47	// construct view cells using it's own set of samples
48	mViewCellsManager->Construct(this);
49
50	//-- several visualizations and statistics
51	Debug << "view cells construction finished: " << endl;
52	mViewCellsManager->PrintStatistics(Debug);
53	}
54
55
56	// now decode distribution string
57	char buff[1024];
58	Environment::GetSingleton()->GetStringValue("RssPreprocessor.distributions",
59	buff);
60
61
62	mMixtureDistribution = new MixtureDistribution(*this);
63	mMixtureDistribution->Construct(buff);
64
65	SimpleRayContainer rays;
66	VssRayContainer vssRays;
67
68	int lastEvaluation = 0;
69
70	mPass = 0;
71
72	vector<VssRayContainer> rayBuffer;
73	rays.reserve(mSamplesPerPass);
74	rayBuffer.reserve(2*mSamplesPerPass);
75
76	long startTime = GetTime();
77
78	mCurrentSamples = 0;
79
80	for (mCurrentSamples =0; mCurrentSamples < mTotalSamples; mCurrentSamples += mSamplesPerPass, mPass++) {
81	while (mSynchronize)
82	{
83	// hack: sleep during walthrough computation
84	Sleep(1000);
85	}
86
87	mRayCaster->InitPass();
88
89	cout<<"Progress :"<<mCurrentSamples/1e6f<<"M rays, "<<(100.0f*mCurrentSamples)/mTotalSamples<<"%"<<endl;
90
91	rays.clear();
92	vssRays.clear();
93
94	int invalidSamples = 0;
95	mMixtureDistribution->GenerateSamples(mSamplesPerPass, rays, invalidSamples);
96
97	cerr<<"Casting rays..."<<endl;
98
99	bool doubleRays = true;
100	CastRays(rays, vssRays, doubleRays, pruneInvalidRays);
101	mTotalRaysCast += (int)vssRays.size();
102
103	cerr<<"Done..."<<endl;
104
105	cerr<<"Computing ray contributions..."<<endl;
106	mMixtureDistribution->ComputeContributions(vssRays);
107	cerr<<"Done..."<<endl;
108
109
110	if (mExportRays) {
111	Debug<<"Exporting rays..."<<endl<<flush;
112	char filename[256];
113
114	VssRayContainer contributingRays;
115	vssRays.GetContributingRays(contributingRays, 0);
116	sprintf(filename, "rss-crays-%04d.x3d", mPass);
117	ExportRays(filename, contributingRays, mExportNumRays);
118
119	sprintf(filename, "rss-rays-i%04d.x3d", mPass);
120	ExportRays(filename, vssRays, mExportNumRays);
121
122
123	if (mExportAnimation) {
124	rayBuffer.push_back(VssRayContainer());
125	vssRays.SelectRays(mExportNumRays, rayBuffer[rayBuffer.size()-1], true);
126	}
127
128	Debug<<"done."<<endl<<flush;
129	}
130
131	mMixtureDistribution->UpdateDistributions(vssRays);
132
133	if (mCurrentSamples - lastEvaluation >= mSamplesPerEvaluation) {
134	Real time = TimeDiff(startTime, GetTime());
135	#if 0 // matt: remove temporarily
136	mViewCellsManager->PrintPvsStatistics(mStats);
137	#endif
138	mStats <<
139	"#Pass\n" <<mPass<<endl<<
140	"#Time\n" << time <<endl<<
141	"#TotalSamples\n" << mCurrentSamples <<endl<<
142	"#RssSamples\n" <<mTotalRaysCast<<endl;
143
144	float last = 0.0f;
145	for (int k=0; k < 6; k++) {
146	float ratio = 0.0f;
147	if (k < mMixtureDistribution->mDistributions.size()) {
148	ratio = mMixtureDistribution->mDistributions[k]->mRatio-last;
149	last = mMixtureDistribution->mDistributions[k]->mRatio;;
150	}
151	mStats <<
152	"#Distribution"<<k<<endl<<
153	ratio<<endl;
154	}
155
156	lastEvaluation = mCurrentSamples;
157
158	if (renderer) {
159	cout<<"Evaluating render error"<<endl;
160	ComputeRenderError();
161	cout<<"finished evaluating error"<<endl;
162	}
163	}
164
165
166	Real time = TimeDiff(startTime, GetTime());
167	if (mTotalTime!= -1 && time/1000 > mTotalTime)
168	break;
169
170	#if 0
171	cerr<<"deleting rays"<<endl;
172	//clear all unreferenced rays
173	for (int j=0; j < vssRays.size(); j++) {
174	if (vssRays[j]->RefCount() == 0)
175	delete vssRays[j];
176	}
177	cerr<<"done."<<endl;
178	#endif
179
180	// if (!mMixtureDistribution->RequiresRays())
181	// CLEAR_CONTAINER(vssRays);
182
183
184	}
185
186	EvalViewCellHistogram();
187
188	if (mExportAnimation && mExportRays) {
189	char filename[64];
190	sprintf(filename, "rss-rays-i.x3d");
191	//rayBuffer.resize(mPass);
192	ExportRayAnimation(filename, rayBuffer);
193	}
194
195	return true;
196	}
197
198	}

Note: See TracBrowser for help on using the repository browser.

Context Navigation

source: GTP/trunk/Lib/Vis/Preprocessing/src/CombinedPreprocessor.cpp @ 2726

Download in other formats: