source: trunk/MagicSoft/Mars/mtemp/mpadova/macros/RanForestDISP.C@ 6068

Last change on this file since 6068 was 6028, checked in by moralejo, 20 years ago
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1/* ======================================================================== *\
2 !
3 ! *
4 ! * This file is part of MARS, the MAGIC Analysis and Reconstruction
5 ! * Software. It is distributed to you in the hope that it can be a useful
6 ! * and timesaving tool in analysing Data of imaging Cerenkov telescopes.
7 ! * It is distributed WITHOUT ANY WARRANTY.
8 ! *
9 ! * Permission to use, copy, modify and distribute this software and its
10 ! * documentation for any purpose is hereby granted without fee,
11 ! * provided that the above copyright notice appear in all copies and
12 ! * that both that copyright notice and this permission notice appear
13 ! * in supporting documentation. It is provided "as is" without express
14 ! * or implied warranty.
15 ! *
16 !
17 !
18 ! Author(s): Abelardo Moralejo 1/2005 <mailto:moralejo@pd.infn.it>!
19 !
20 ! Copyright: MAGIC Software Development, 2000-2003
21 !
22 !
23 \* ======================================================================== */
24
25//////////////////////////////////////////////////////////////////////////////////
26//
27// macro RanForestDISP.C
28//
29// Version of Random Forest macro, intended to run on real data without assuming
30// any particular source position in the camera FOV. So we do not use the DIST
31// parameter, but rather (one version of) DISP method. We do not use either the
32// sign of the third longitudinal moment with respect to the center of the camera
33// (since the source can be somewhere else like in the case of wobble mode).
34//
35//////////////////////////////////////////////////////////////////////////////////
36
37
38#include "MMcEvt.hxx"
39
40void RanForestDISP(Int_t minsize=1000)
41{
42 Int_t mincorepixels = 6; // minimum number of core pixels.
43// Int_t mincorepixels = 0;
44
45 TString skipevents;
46 // skipevents = "(MMcEvt.fImpact>15000.)";
47 // skipevents = "(MNewImagePar.fLeakage1>0.001)";
48 // skipevents = "(MHillas.fSize>1000)";
49
50 // Skip calibration events, leaking events and flash events:
51 skipevents = "(MNewImagePar.fLeakage1>0.1) || ({1.5+log10(MNewImagePar.fConc)*2.33333}-{6.5-log10(MHillas.fSize)}>0.)";
52
53 //
54 // Create a empty Parameter List and an empty Task List
55 // The tasklist is identified in the eventloop by its name
56 //
57 MParList plist;
58
59 MTaskList tlist;
60 plist.AddToList(&tlist);
61
62
63 MReadMarsFile read("Events", "/data1/magic/mc_data/root/Period021_0.73_mirror/FixedWindowPeakSearch/WOBBLE_Calib_6slices/tc_3.84_2.56/star_gamma_train_new.root");
64 Float_t numgammas = read.GetEntries();
65
66 read.AddFile("star_train_20050110_CrabNebulaW1.root");
67 Float_t numhadrons = read.GetEntries() - numgammas;
68
69 // Fraction of gammas to be used in training:
70 // Float_t gamma_frac = 1.5*(numhadrons / numgammas);
71 Float_t gamma_frac = 1.;
72
73 // Total hadron number to be processed in training:
74 // If you run RF over different data runs, using always the same # of training gammas,
75 // you should also use always a fixed number of hadrons for training (although the data
76 // runs may be of different duration). Otherwise the meaning of the output hadronness
77 // would be different for the different subsamples, since its absolute values depend on
78 // the statistics of the training sample. The number set here is the number BEFORE the
79 // "a priori cuts" set above through "skipevents".
80
81 Float_t select_n_hadrons = 37000.;
82 Float_t hadron_frac = select_n_hadrons / numhadrons;
83
84 read.DisableAutoScheme();
85
86 tlist.AddToList(&read);
87
88 MFParticleId fgamma("MMcEvt", '=', MMcEvt::kGAMMA);
89 tlist.AddToList(&fgamma);
90
91 MFParticleId fhadrons("MMcEvt", '!', MMcEvt::kGAMMA);
92 tlist.AddToList(&fhadrons);
93
94
95 MHMatrix matrixg("MatrixGammas");
96
97 // TEST TEST TEST
98// matrixg.AddColumn("MMcEvt.fImpact");
99// matrixg.AddColumn("MMcEvt.fMuonCphFraction");
100
101 // matrixg.AddColumn("MNewImagePar.fLeakage1");
102 // matrixg.AddColumn("floor(0.5+(cos(MMcEvt.fTelescopeTheta)/0.01))");
103
104 // matrixg.AddColumn("MMcEvt.fTelescopePhi");
105 // matrixg.AddColumn("MSigmabar.fSigmabar");
106
107
108 matrixg.AddColumn("MHillas.fSize");
109
110 // We do not use DIST, since it depends on knowing the source position on camera.
111 // In wobble mode the position changes with time. Besides, we intend to do a 2-d map
112 // with the DISP method, and so we cannot use DIST in the cuts (since it would amde the
113 // camera center a "provoleged" position).
114
115 matrixg.AddColumn("(1.-(MHillas.fWidth/MHillas.fLength))*(0.9776+(0.101062*log10(MHillas.fSize)))");
116
117// matrixg.AddColumn("MHillas.fWidth");
118// matrixg.AddColumn("MHillas.fLength");
119
120
121 // Scaling from real data?
122 // matrixg.AddColumn("MHillas.fWidth/(-8.37847+(9.58826*log10(MHillas.fSize)))");
123 // matrixg.AddColumn("MHillas.fLength/(-40.1409+(29.3044*log10(MHillas.fSize)))");
124
125 // Scaling from MC:
126 matrixg.AddColumn("(MHillas.fWidth*3.37e-3)/(-0.028235+(0.03231*log10(MHillas.fSize)))");
127 matrixg.AddColumn("(MHillas.fLength*3.37e-3)/(-0.13527+(0.09876*log10(MHillas.fSize)))");
128
129 matrixg.AddColumn("MNewImagePar.fConc");
130
131 // TEST TEST TEST TEST
132 // matrixg.AddColumn("MConcentration.Conc7");
133
134 // matrixg.AddColumn("MNewImagePar.fConc1");
135 // matrixg.AddColumn("MNewImagePar.fAsym");
136 // matrixg.AddColumn("MHillasExt.fM3Trans");
137 // matrixg.AddColumn("abs(MHillasSrc.fHeadTail)");
138
139
140 // We cannot use the 3rd moment with a sign referred to the nominal source position, if we
141 // assume we do not know it a priori. We cannot use either the sign as referred to the
142 // reconstructed source position through the DISP method, since that method uses precisely
143 // fM3Long to solve the "head-tail" asimetry and hence all showers would be "gamma-like" from
144 // that point of view. We add however the 3rd moment with no sign to the separation parameters.
145
146 matrixg.AddColumn("abs(MHillasExt.fM3Long)");
147
148 // matrixg.AddColumn("MHillasSrc.fAlpha");
149
150 TString dummy("(MHillas.fSize<");
151 dummy += minsize;
152
153 // AM TEST
154 dummy += ") || (MNewImagePar.fNumCorePixels<";
155 dummy += mincorepixels;
156
157 // AM, useful FOR High Energy only:
158 // dummy += ") || (MImagePar.fNumSatPixelsLG>0";
159 dummy += ")";
160
161 MContinue SizeCut(dummy);
162 tlist.AddToList(&SizeCut);
163
164
165 if (skipevents != "")
166 {
167 MContinue SCut(skipevents);
168 tlist.AddToList(&SCut);
169 }
170
171 plist.AddToList(&matrixg);
172
173 MHMatrix matrixh("MatrixHadrons");
174 matrixh.AddColumns(matrixg.GetColumns());
175 plist.AddToList(&matrixh);
176
177 MFEventSelector reduce_training_hadrons;
178 reduce_training_hadrons.SetSelectionRatio(hadron_frac);
179 MFilterList hadfilter;
180 hadfilter.AddToList(&reduce_training_hadrons);
181 hadfilter.AddToList(&fhadrons);
182 tlist.AddToList(&hadfilter);
183
184 MFillH fillmath("MatrixHadrons");
185 fillmath.SetFilter(&hadfilter);
186 tlist.AddToList(&fillmath);
187
188 MContinue skiphad(&fhadrons);
189 tlist.AddToList(&skiphad);
190
191 MFEventSelector reduce_training_gammas;
192 reduce_training_gammas.SetSelectionRatio(gamma_frac);
193 tlist.AddToList(&reduce_training_gammas);
194
195 MFillH fillmatg("MatrixGammas");
196 fillmatg.SetFilter(&reduce_training_gammas);
197 tlist.AddToList(&fillmatg);
198
199 //
200 // Create and setup the eventloop
201 //
202 MEvtLoop evtloop;
203 evtloop.SetParList(&plist);
204
205 MProgressBar *bar = new MProgressBar;
206 evtloop.SetProgressBar(bar);
207 //
208 // Execute your analysis
209 //
210 if (!evtloop.Eventloop())
211 return;
212
213 tlist.PrintStatistics();
214
215
216 // ---------------------------------------------------------------
217 // ---------------------------------------------------------------
218 // second event loop: the trees of the random forest are grown,
219 // the event loop is now actually a tree loop (loop of training
220 // process)
221 // ---------------------------------------------------------------
222 // ---------------------------------------------------------------
223
224 MTaskList tlist2;
225 plist.Replace(&tlist2);
226
227 //
228 // matrixh.ShuffleRows(9999);
229 // matrixg.ShuffleRows(1111);
230 //
231
232 MRanForestGrow rfgrow2;
233 rfgrow2.SetNumTrees(100);
234 rfgrow2.SetNumTry(3);
235 rfgrow2.SetNdSize(10);
236
237 MWriteRootFile rfwrite2("RF.root");
238 rfwrite2.AddContainer("MRanTree","Tree"); //save all trees
239 MFillH fillh2("MHRanForestGini");
240
241 tlist2.AddToList(&rfgrow2);
242 tlist2.AddToList(&rfwrite2);
243 tlist2.AddToList(&fillh2);
244
245 // gRandom is accessed from MRanForest (-> bootstrap aggregating)
246 // and MRanTree (-> random split selection) and should be initialized
247 // here if you want to set a certain random number generator
248 if(gRandom)
249 delete gRandom;
250 // gRandom = new TRandom3(0); // Takes seed from the computer clock
251 gRandom = new TRandom3(); // Uses always same seed
252 //
253 // Execute tree growing (now the eventloop is actually a treeloop)
254 //
255
256 evtloop.SetProgressBar(bar);
257 if (!evtloop.Eventloop())
258 return;
259
260 tlist2.PrintStatistics();
261
262 plist.FindObject("MHRanForestGini")->DrawClone();
263
264 // ---------------------------------------------------------------
265 // ---------------------------------------------------------------
266 // third event loop: the control sample (star2.root) is processed
267 // through the previously grown random forest,
268 //
269 // the histograms MHHadronness (quality of g/h-separation) and
270 // MHRanForest are created and displayed.
271 // MHRanForest shows the convergence of the classification error
272 // as function of the number of grown (and combined) trees
273 // and tells the user how many trees are actually needed in later
274 // classification tasks.
275 // ---------------------------------------------------------------
276 // ---------------------------------------------------------------
277
278 MTaskList tlist3;
279
280 plist.Replace(&tlist3);
281
282
283 MReadMarsFile read3("Events", "star_20050110_CrabNebulaW1.root");
284 // MReadMarsFile read3("Events", "/data1/magic/mc_data/root/Period021_0.73_mirror/FixedWindowPeakSearch/WOBBLE_Calib_6slices/tc_3.84_2.56/star_gamma_test.root");
285
286 read3.DisableAutoScheme();
287 tlist3.AddToList(&read3);
288 tlist3.AddToList(&SizeCut);
289
290 if (skipevents != "")
291 tlist3.AddToList(&SCut);
292
293 MRanForestCalc calc;
294 tlist3.AddToList(&calc);
295
296
297 TString outfname = "star_S";
298 outfname += minsize;
299 outfname += "_20050110_CrabNebulaW1.root";
300
301 // outfname += "_mcgammas.root";
302
303 // parameter containers you want to save
304 //
305
306 MWriteRootFile write(outfname, "recreate");
307
308 // write.AddContainer("MSigmabar", "Events");
309
310 write.AddContainer("MRawEvtHeader", "Events");
311 write.AddContainer("MMcEvt", "Events", kFALSE);
312 write.AddContainer("MHillas", "Events");
313 write.AddContainer("MHillasExt", "Events");
314 write.AddContainer("MImagePar", "Events");
315 write.AddContainer("MNewImagePar", "Events");
316 write.AddContainer("MHillasSrc", "Events");
317 write.AddContainer("MHadronness", "Events");
318 write.AddContainer("MPointingPos", "Events");
319 write.AddContainer("MTime", "Events", kFALSE);
320 write.AddContainer("MConcentration", "Events", kFALSE);
321
322 tlist3.AddToList(&write);
323
324 evtloop.SetProgressBar(bar);
325
326 //
327 // Execute your analysis
328 //
329 if (!evtloop.Eventloop())
330 return;
331
332 tlist3.PrintStatistics();
333
334 // bar->DestroyWindow();
335
336 return;
337}
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