source: branches/MarsMoreSimulationTruth/mtemp/mifae/library/MDispCalc.cc

Last change on this file was 6717, checked in by domingo, 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): Eva Domingo , 12/2004 <mailto:domingo@ifae.es>
19! Wolfgang Wittek, 12/2004 <mailto:wittek@mppmu.mpg.de>
20!
21! Copyright: MAGIC Software Development, 2000-2005
22!
23!
24\* ======================================================================== */
25
26/////////////////////////////////////////////////////////////////////////////
27// //
28// MDispCalc //
29// //
30// This task calculates Disp with a given parameterization //
31// (parameters are stored in the MDispParameters container) //
32// Also the matrix of variables to be used in the Disp //
33// parameterization is defined //
34// //
35// //
36/////////////////////////////////////////////////////////////////////////////
37#include "MDispCalc.h"
38
39#include <math.h>
40#include <TArray.h>
41
42#include "MGeomCam.h"
43#include "MSrcPosCam.h"
44#include "MHillas.h"
45#include "MHillasExt.h"
46#include "MNewImagePar.h"
47#include "MMcEvt.hxx"
48#include "MPointingPos.h"
49#include "MImageParDisp.h"
50#include "MDispParameters.h"
51
52#include "MHMatrix.h"
53
54#include "MParList.h"
55
56#include "MLog.h"
57#include "MLogManip.h"
58
59
60ClassImp(MDispCalc);
61
62using namespace std;
63
64static const Int_t nPars=5; // number of parameters used in the Disp expression
65
66enum dispVar_t {kSize,kWidth,kLength,kConc,kLeakage1,kLeakage2,kTotVar}; // enum variables for the
67 // matrix columns mapping
68
69// --------------------------------------------------------------------------
70//
71// constructor
72//
73MDispCalc::MDispCalc(const char *imagepardispname,
74 const char *dispparametersname,
75 const char *name, const char *title)
76 : fImageParDispName(imagepardispname),
77 fDispParametersName(dispparametersname),
78 fLogSize0(3.), fLength0(0.1), fWidth0(0.05),
79 fConc0(0.35), fLeakage10(0.05), fLeakage20(0.1)
80{
81 fName = name ? name : "MDispCalc";
82 fTitle = title ? title : "Class to calculate Disp";
83
84 // object of MDispParamteres that will hold the Disp parameters
85 fDispParameters = new MDispParameters(fDispParametersName);
86 // initialize the size of the Disp parameters and parameters stepsizes arrays
87 fDispParameters->GetParameters().Set(nPars);
88 fDispParameters->GetStepsizes().Set(nPars);
89 // set Disp parameters to their default values
90 fDispParameters->InitParameters();
91
92 fMatrix = NULL;
93
94 // initialize mapping array dimension to the number of columns of fMatrix
95 fMap.Set(kTotVar);
96}
97
98
99// --------------------------------------------------------------------------
100//
101// Default destructor.
102//
103MDispCalc::~MDispCalc()
104{
105 delete fDispParameters;
106}
107
108
109// --------------------------------------------------------------------------
110//
111Int_t MDispCalc::PreProcess(MParList *pList)
112{
113 // look for the defined camera geometry to get mm to deg conversion factor
114 MGeomCam *cam = (MGeomCam*)pList->FindObject("MGeomCam");
115 if (!cam)
116 {
117 *fLog << err << "MGeomCam (Camera Geometry) not found... aborting."
118 << endl;
119 return kFALSE;
120 }
121
122 fMm2Deg = cam->GetConvMm2Deg();
123
124
125 // look for Disp related containers
126 fImageParDisp = (MImageParDisp*)pList->FindCreateObj("MImageParDisp",
127 fImageParDispName);
128 if (!fImageParDisp)
129 {
130 *fLog << err << fImageParDispName
131 << " [MImageParDisp] not found... aborting." << endl;
132 return kFALSE;
133 }
134
135
136 //-----------------------------------------------------------
137 // if fMatrix exists, skip preprocessing and just read events from matrix;
138 // if doesn't exist, read variables values from containers, so look for them
139 if (fMatrix)
140 return kTRUE;
141
142 fSrcPos = (MSrcPosCam*)pList->FindObject("MSrcPosCam");
143 if (!fSrcPos)
144 {
145 *fLog << err << "MSrcPosCam not found... aborting." << endl;
146 return kFALSE;
147 }
148
149 fHil = (MHillas*)pList->FindObject("MHillas");
150 if (!fHil)
151 {
152 *fLog << err << "MHillas not found... aborting." << endl;
153 return kFALSE;
154 }
155
156 fHilExt = (MHillasExt*)pList->FindObject("MHillasExt");
157 if (!fHilExt)
158 {
159 *fLog << err << "MHillasExt not found... aborting." << endl;
160 return kFALSE;
161 }
162
163 fNewPar = (MNewImagePar*)pList->FindObject("MNewImagePar");
164 if (!fNewPar)
165 {
166 *fLog << err << "MNewImagePar not found... aborting." << endl;
167 return kFALSE;
168 }
169
170 fMcEvt = (MMcEvt*)pList->FindObject("MMcEvt");
171 if (!fMcEvt)
172 {
173 *fLog << err << "MMcEvt not found... This is not a MC file,"
174 << " you are not trying to optimize Disp, just calculating it."
175 << endl;
176 // return kFALSE;
177 }
178
179 fPointing = (MPointingPos*)pList->FindObject("MPointingPos");
180 if (!fPointing)
181 {
182 *fLog << err << "MPointingPos not found... aborting." << endl;
183 return kFALSE;
184 }
185
186 //------------------------------------------
187
188 return kTRUE;
189}
190
191
192// --------------------------------------------------------------------------
193//
194// You can use this function if you want to use a MHMatrix instead of the
195// given containers for the Disp parameterization. This function adds all
196// necessary columns to the given matrix. Afterwards, you should fill
197// the matrix with the corresponding data (eg from a file by using
198// MHMatrix::Fill). Then, if you loop through the matrix (eg using
199// MMatrixLoop), MDispCalc::Calc will take the values from the matrix
200// instead of the containers.
201//
202void MDispCalc::InitMapping(MHMatrix *mat)
203{
204 if (fMatrix)
205 return;
206
207 fMatrix = mat;
208
209 fMap[kSize] = fMatrix->AddColumn("MHillas.fSize");
210 fMap[kWidth] = fMatrix->AddColumn("MHillas.fWidth");
211 fMap[kLength] = fMatrix->AddColumn("MHillas.fLength");
212
213 fMap[kConc] = fMatrix->AddColumn("MNewImagePar.fConc");
214 fMap[kLeakage1] = fMatrix->AddColumn("MNewImagePar.fLeakage1");
215 fMap[kLeakage2] = fMatrix->AddColumn("MNewImagePar.fLeakage2");
216}
217
218
219// --------------------------------------------------------------------------
220//
221// Returns a mapped value from the Matrix
222//
223Double_t MDispCalc::GetVal(Int_t i) const
224{
225 Double_t val = (*fMatrix)[fMap[i]];
226
227 // *fLog << "MDispCalc::GetVal; i, fMatrix, fMap, val = "
228 // << i << ", " << fMatrix << ", " << fMap[i] << ", " << val << endl;
229
230 return val;
231}
232
233
234// ---------------------------------------------------------------------------
235//
236// Calculate Disp
237//
238//
239Int_t MDispCalc::Process()
240{
241 // get variables needed to compute disp from the matrix or the containers
242 const Double_t size = fMatrix ? GetVal(kSize) : fHil->GetSize();
243 const Double_t width0 = fMatrix ? GetVal(kWidth) : fHil->GetWidth();
244 const Double_t length0 = fMatrix ? GetVal(kLength) : fHil->GetLength();
245 const Double_t conc = fMatrix ? GetVal(kConc) : fNewPar->GetConc();
246 const Double_t leakage1 = fMatrix ? GetVal(kLeakage1) : fNewPar->GetLeakage1();
247 const Double_t leakage2 = fMatrix ? GetVal(kLeakage2) : fNewPar->GetLeakage2();
248
249 // convert to deg
250 const Double_t width = width0 * fMm2Deg;
251 const Double_t length = length0 * fMm2Deg;
252
253 // create an array to pass the variables to MDispCalc::Calc
254 TArrayD imagevars(kTotVar);
255 imagevars[kSize] = log10(size);
256 imagevars[kWidth] = width;
257 imagevars[kLength] = length;
258 imagevars[kConc] = conc;
259 imagevars[kLeakage1] = leakage1;
260 imagevars[kLeakage2] = leakage2;
261
262 // compute Disp
263 Double_t disp = Calc(imagevars);
264
265 // save value into MImageParDisp container
266 fImageParDisp->SetDisp(disp);
267 fImageParDisp->SetReadyToSave();
268
269 return kTRUE;
270}
271
272
273// --------------------------------------------------------------------------
274//
275// Set the Disp parameterization and Calculate Disp
276//
277//
278Double_t MDispCalc::Calc(TArrayD &imagevar)
279{
280 // get parameters
281 const TArrayD& p = fDispParameters->GetParameters();
282
283 // get image variables to be used in the Disp parameterization
284 Double_t logsize = imagevar[0];
285 Double_t width = imagevar[1];
286 Double_t length = imagevar[2];
287 // Double_t conc = imagevar[3];
288 // Double_t leakage1 = imagevar[4];
289 // Double_t leakage2 = imagevar[5];
290
291 // Disp parameterization to be optimized
292 // Note: fLogSize0, fLength0... variables are introduced to uncorrelate as much
293 // as possible the parameters in the Disp expression, with the purpose of
294 // helping the minimization algorithm to converge. They are set approx.
295 // to their distribution mean value in the MDisp constructor, but can be
296 // changed using the corresponding set function.
297 //
298
299 // Double_t disp = p[0] + p[1]*(logsize-fLogSize0)
300 // + (p[2] + p[3]*(logsize-fLogSize0))*width/length;
301
302// Double_t disp = p[0] + p[1]*(logsize-fLogSize0) + p[4]*(length-fLength0)
303// + (p[2] + p[3]*(logsize-fLogSize0))*width/length;
304
305 // Double_t disp = p[0] + p[1]*(logsize-fLogSize0) + p[4]*(length-fLength0)
306 // + (p[2] + p[3]*(logsize-fLogSize0))*length/width;
307
308 // Double_t disp = p[0] + p[1]*(logsize-fLogSize0) + p[4]*(length-fLength0)
309 // + (p[2] + p[3]*(logsize-fLogSize0) + p[5]*(length-fLength0))*width/length;
310
311 // Double_t disp = p[0] + p[1]*(logsize-fLogSize0) + p[4]*(width-fWidth0)
312 // + (p[2] + p[3]*(logsize-fLogSize0))*width/length; // + p[5]*(width-fWidth0))*width/length;
313
314 // Double_t disp = p[0] + p[1]*(logsize-fLogSize0) + p[4]*(conc-fConc0)
315 // + (p[2] + p[3]*(logsize-fLogSize0))*width/length; // + p[5]*(conc-fConc0))*width/length;
316
317 // Double_t disp = ( p[0] + p[1]*(logsize-fLogSize0)
318 // + p[2]*pow(logsize-fLogSize0,2)
319 // + p[3]*pow(logsize-fLogSize0,3)
320 // + p[4]*pow(logsize-fLogSize0,4) )
321 // *(1-width/length);
322
323
324 Double_t disp = ( p[0] + p[1]*(logsize-fLogSize0)
325 + p[2]*pow(logsize-fLogSize0,2)
326 + p[3]*pow(logsize-fLogSize0,3)
327 + p[4]*pow(logsize-fLogSize0,4) )
328 *( 1./(1.+width/length) );
329
330 /*
331 Double_t disp = ( p[0] + p[1]*(logsize)
332 + p[2]*pow(logsize,2)
333 + p[3]*pow(logsize,3)
334 + p[4]*pow(logsize,4) )
335 *( 1./(1.+width/length) );
336 */
337
338 return disp;
339}
340
341//===========================================================================
342
343
344
345
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