source: branches/MarsMoreSimulationTruth/mjoptim/MJOptimizeCuts.cc@ 19688

Last change on this file since 19688 was 18247, checked in by Daniela Dorner, 9 years ago
changed geometry to FACT camera
File size: 9.6 KB
Line 
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): Thomas Bretz, 9/2004 <mailto:tbretz@astro.uni-wuerzburg.de>
19!
20! Copyright: MAGIC Software Development, 2000-2004
21!
22!
23\* ======================================================================== */
24
25/////////////////////////////////////////////////////////////////////////////
26//
27// MJOptimizeCuts
28//
29// Class for otimizing the parameters of the supercuts
30//
31// Minimization Control
32// ====================
33//
34// To choose the minimization algorithm use:
35// void SetOptimizer(Optimizer_t o);
36//
37// Allowed options are:
38// enum Optimizer_t
39// {
40// kMigrad, // Minimize by the method of Migrad
41// kSimplex, // Minimize by the method of Simplex
42// kMinimize, // Migrad + Simplex (if Migrad fails)
43// kMinos, // Minos error determination
44// kImprove, // Local minimum search
45// kSeek, // Minimize by the method of Monte Carlo
46// kNone // Skip optimization
47// };
48//
49// For more details on the methods see TMinuit.
50//
51//
52// You can change the behaviour of the minimization using
53//
54// void SetNumMaxCalls(UInt_t num=0);
55// void SetTolerance(Float_t tol=0);
56//
57// While NumMaxCalls is the first, Tolerance the second arguement.
58// For more details start root and type
59//
60// gMinuit->mnhelp("command")
61//
62// while command can be
63// * MIGRAD
64// * SIMPLEX
65// * MINIMIZE
66// * MINOS
67// * IMPROVE
68// * SEEK
69//
70// The default (num==0 and tol==0) should always give you the
71// corresponding defaults used in Minuit.
72//
73//
74// FIXME: Implement changing cut in hadronness...
75// FIXME: Show MHSignificance on MStatusDisplay during filling...
76// FIXME: Choose step-size percentage as static data membewr
77// FIXME: Choose minimization method
78//
79/////////////////////////////////////////////////////////////////////////////
80#include "MJOptimizeCuts.h"
81
82#include <TClass.h>
83
84#include "MHMatrix.h"
85
86// Environment
87#include "MLog.h"
88#include "MLogManip.h"
89#include "MStatusDisplay.h"
90
91// Eventloop
92#include "MReadTree.h"
93#include "MParList.h"
94#include "MTaskList.h"
95
96// Parameter container
97#include "MGeomCamFACT.h"
98#include "MParameters.h"
99#include "MFilterList.h"
100
101// histograms
102#include "../mhflux/MHAlpha.h"
103
104// Tasks
105#include "MF.h"
106#include "MFillH.h"
107#include "MContinue.h"
108#include "MMatrixLoop.h"
109
110#include "MFMagicCuts.h"
111
112ClassImp(MJOptimizeCuts);
113
114using namespace std;
115
116//------------------------------------------------------------------------
117//
118MHAlpha *MJOptimizeCuts::CreateNewHist(const char *name) const
119{
120 TClass *cls = gROOT->GetClass(fNameHist);
121 if (!cls)
122 {
123 *fLog << err << "Class " << fNameHist << " not found in dictionary... abort." << endl;
124 return NULL;
125 }
126 if (!cls->InheritsFrom(MHAlpha::Class()))
127 {
128 *fLog << err << "Class " << fNameHist << " doesn't inherit from MHAlpha... abort." << endl;
129 return NULL;
130 }
131
132 MHAlpha *h = (MHAlpha*)cls->New();
133 if (h && name)
134 h->SetName(name);
135
136 return h;
137}
138
139//------------------------------------------------------------------------
140//
141Bool_t MJOptimizeCuts::RunOnOffCore(MHAlpha &histon, MHAlpha &histof, const char *fname, MFilter *filter, MAlphaFitter *fit, const char *tree)
142{
143 SetTitle(Form("OptimizeCuts: %s", fname));
144
145 if (fDisplay)
146 fDisplay->SetTitle(fTitle);
147
148 fLog->Separator("Preparing On/Off-optimization");
149
150 MParList parlist;
151
152 MGeomCamFACT geom; // For GetConvMm2Deg
153 parlist.AddToList(&geom);
154
155 MHMatrix m("M");
156 AddRulesToMatrix(m);
157 parlist.AddToList(&m);
158
159 const Int_t idxdatatype = m.AddColumn("DataType.fVal");
160
161 histon.SkipHistTime();
162 histon.SkipHistTheta();
163 //histon.SkipHistEnergy();
164 histof.SkipHistTime();
165 histof.SkipHistTheta();
166 //histof.SkipHistEnergy();
167 histon.ForceUsingSize();
168 histof.ForceUsingSize();
169 histon.InitMapping(&m, 1);
170 histof.InitMapping(&m, 1);
171
172 if (filter)
173 {
174 if (filter->InheritsFrom(MFMagicCuts::Class()))
175 ((MFMagicCuts*)filter)->InitMapping(&m);
176 else
177 {
178 *fLog << err << "ERROR - Currently only MFMagicCuts is supported." << endl;
179 return kFALSE;
180 }
181 }
182
183 parlist.AddToList(&histon);
184 parlist.AddToList(&histof);
185
186 if (fname)
187 {
188 MReadTree read(tree);
189 read.DisableAutoScheme(); // AutoScheme doesn't seem to be faster!
190 read.AddFile(fname);
191 if (!FillMatrix(read, parlist))
192 return kFALSE;
193 }
194 else
195 {
196 MParameterI par("DataType");
197 parlist.AddToList(&par);
198
199 gLog.Separator("Reading On-Data");
200 par.SetVal(1);
201 MReadTree readon(tree);
202 readon.DisableAutoScheme(); // AutoScheme doesn't seem to be faster!
203 AddSequences(readon, fNamesOn);
204 if (!FillMatrix(readon, parlist))
205 return kFALSE;
206
207 gLog.Separator("Reading Off-Data");
208 par.SetVal(0);
209 MReadTree readoff(tree);
210 readoff.DisableAutoScheme(); // AutoScheme doesn't seem to be faster!
211 AddSequences(readoff, fNamesOff);
212 if (!FillMatrix(readoff, parlist))
213 return kFALSE;
214 }
215
216 MTaskList tasklist;
217 parlist.Replace(&tasklist);
218 if (fit)
219 parlist.AddToList(fit);
220
221 MFilterList list;
222 SetupFilters(list, filter);
223
224 MContinue contin(&list);
225 parlist.AddToList(&list);
226
227 MFillH fillof(&histof, "", "FillHistOff");
228 MFillH fillon(&histon, "", "FillHistOn");
229
230 MF f0(Form("M[%d]<0.5", idxdatatype), "FilterOffData");
231 MF f1(Form("M[%d]>0.5", idxdatatype), "FilterOnData");
232
233 fillof.SetFilter(&f0);
234 fillon.SetFilter(&f1);
235
236 MMatrixLoop loop(&m);
237
238 tasklist.AddToList(&loop);
239 tasklist.AddToList(&list);
240 tasklist.AddToList(&contin);
241 tasklist.AddToList(&f0);
242 tasklist.AddToList(&f1);
243 tasklist.AddToList(&fillof);
244 tasklist.AddToList(&fillon);
245
246 // Optimize with the tasklist in this parameterlist
247 if (!Optimize(parlist))
248 return kFALSE;
249
250 *fLog << inf << "Finished processing of " << fname << endl;
251
252 // Copy the result back to be accessible by the user
253 if (fit)
254 histon.GetAlphaFitter().Copy(*fit);
255
256 // Print the result
257 histon.GetAlphaFitter().Print("result");
258
259 // Store result if requested
260 TObjArray cont;
261 cont.Add(&contin);
262 return WriteContainer(cont, fNameOut);
263}
264
265Bool_t MJOptimizeCuts::RunOnCore(MHAlpha &hist, const char *fname, MFilter *filter, MAlphaFitter *fit)
266{
267 SetTitle(Form("OptimizeCuts: %s", fname));
268
269 if (fDisplay)
270 fDisplay->SetTitle(fTitle);
271
272 fLog->Separator("Preparing On-only-optimization");
273
274 MParList parlist;
275
276 MGeomCamFACT geom; // For GetConvMm2Deg
277 parlist.AddToList(&geom);
278
279 MHMatrix m("M");
280 AddRulesToMatrix(m);
281 parlist.AddToList(&m);
282
283 hist.SkipHistTime();
284 hist.SkipHistTheta();
285 hist.SkipHistEnergy();
286 hist.InitMapping(&m);
287
288 if (filter && filter->InheritsFrom(MFMagicCuts::Class()))
289 ((MFMagicCuts*)filter)->InitMapping(&m);
290
291 MReadTree read("Events");
292 read.DisableAutoScheme(); // AutoScheme doesn't seem to be faster!
293 if (fname)
294 read.AddFile(fname);
295 else
296 AddSequences(read, fNamesOn);
297 if (!FillMatrix(read, parlist))
298 return kFALSE;
299
300 MTaskList tasklist;
301 parlist.Replace(&tasklist);
302 if (fit)
303 parlist.AddToList(fit);
304
305 MFilterList list;
306 SetupFilters(list, filter);
307
308 MContinue contin(&list);
309 parlist.AddToList(&list);
310
311 MFillH fill(&hist);
312
313 MMatrixLoop loop(&m);
314
315 tasklist.AddToList(&loop);
316 tasklist.AddToList(&list);
317 tasklist.AddToList(&contin);
318 tasklist.AddToList(&fill);
319
320 // Optimize with the tasklist in this parameterlist
321 if (!Optimize(parlist))
322 return kFALSE;
323
324 *fLog << inf << "Finished processing of " << fname << endl;
325
326 // Copy the result back to be accessible by the user
327 if (fit)
328 hist.GetAlphaFitter().Copy(*fit);
329 // Print the result
330 hist.GetAlphaFitter().Print("result");
331
332 // Store result if requested
333 TObjArray cont;
334 cont.Add(&contin);
335 if (fDisplay)
336 cont.Add(fDisplay);
337 return WriteContainer(cont, fNameOut);
338}
339
340//------------------------------------------------------------------------
341//
342Bool_t MJOptimizeCuts::RunOnOff(const char *fname, MFilter *filter, MAlphaFitter *fit, const char *tree)
343{
344 MHAlpha *histon = CreateNewHist("Hist");
345 MHAlpha *histof = CreateNewHist("HistOff");
346
347 if (!histon || !histof)
348 return kFALSE;
349
350 const Bool_t rc = RunOnOffCore(*histon, *histof, fname, filter, fit, tree);
351
352 delete histon;
353 delete histof;
354
355 return rc;
356}
357
358//------------------------------------------------------------------------
359//
360Bool_t MJOptimizeCuts::RunOn(const char *fname, MFilter *filter, MAlphaFitter *fit)
361{
362 MHAlpha *histon = CreateNewHist();
363
364 if (!histon)
365 return kFALSE;
366
367 const Bool_t rc = RunOnCore(*histon, fname, filter, fit);
368
369 delete histon;
370 return rc;
371}
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