source: trunk/MagicSoft/Mars/mtemp/mberlin/macros/ScaleHillas.C@ 5138

Last change on this file since 5138 was 4137, checked in by hengsteb, 21 years ago
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1#include "TH1F.h"
2#include "TH2F.h"
3#include "TH3F.h"
4#include "TLine.h"
5#include "TTree.h"
6
7#include "TCanvas.h"
8#include "TStyle.h"
9#include "TString.h"
10#include "TFile.h"
11#include "TMath.h"
12
13#include "MReadTree.h"
14#include "MSrcPosCam.h"
15#include "MWriteRootFile.h"
16#include "MParList.h"
17#include "MTaskList.h"
18#include "MEvtLoop.h"
19
20#include "MHillas.h"
21#include "MHillasExt.h"
22#include "MHillasExt.h"
23#include "MHillasSrc.h"
24#include "MNewImagePar.h"
25
26#include "MTaskInteractive.h"
27
28#include "iostream.h"
29#include "stdlib.h"
30#include "stdio.h"
31#include "string.h"
32
33//--------------------------------------------------------------------------------------
34// MAIN INPUT/OUTPUT
35
36#include "IOMkn421.h"
37//--------------------------------------------------------------------------------------
38
39Double_t estposx = 0.;
40Double_t estposy = 0.;
41
42//--------------------------------------------------------------------------------------
43// setting for hists
44const Int_t nBinSize=200;
45const Int_t nBinDist=1;
46const Int_t nBinLW=1000;
47
48// limits for size and dist for histograms
49Double_t hSizeLo=2.;
50Double_t hSizeUp=6.;
51Double_t hDistLo=0.5;
52Double_t hDistUp=1.15;
53
54// limits for length, width for histograms
55Double_t hLengthLo=0.;
56Double_t hLengthUp=0.8;
57Double_t hWidthLo =0.;
58Double_t hWidthUp =0.6;
59
60// limits for scaled Hillas for histograms
61Double_t hSLenLo =0.;
62Double_t hSLenUp =15.;
63Double_t hSWidLo =0.;
64Double_t hSWidUp =7.;
65
66// special limits for hLength, hWidth (see ReadHillas())
67const Int_t nBinLWFine=1000;
68Double_t hLenFineLo=0.;
69Double_t hLenFineUp=1.;
70Double_t hWidFineLo=0.;
71Double_t hWidFineUp=1.;
72
73// hists for mean of unscaled Hillas
74TH2F hLenMean("hLenMean","",nBinSize,hSizeLo,hSizeUp, nBinDist,hDistLo,hDistUp);
75TH2F hWidMean("hWidMean","",nBinSize,hSizeLo,hSizeUp, nBinDist,hDistLo,hDistUp);
76
77TH1F hLenMeanSize("hLenMeanSize","",nBinSize,hSizeLo,hSizeUp);
78TH1F hLenMeanDist("hLenMeanDist","",nBinDist,hDistLo,hDistUp);
79TH1F hWidMeanSize("hWidMeanSize","",nBinSize,hSizeLo,hSizeUp);
80TH1F hWidMeanDist("hWidMeanDist","",nBinDist,hDistLo,hDistUp);
81
82// hists for unscaled Hillas
83TH2F hLenSize("hLenSize","",nBinSize,hSizeLo,hSizeUp, nBinLW,hLengthLo,hLengthUp);
84TH2F hLenDist("hLenDist","",nBinDist,hDistLo,hDistUp, nBinLW,hLengthLo,hLengthUp);
85
86TH2F hWidSize("hWidSize","",nBinSize,hSizeLo,hSizeUp, nBinLW,hWidthLo,hWidthUp);
87TH2F hWidDist("hWidDist","",nBinDist,hDistLo,hDistUp, nBinLW,hWidthLo,hWidthUp);
88
89// hists for mean-scaled Hillas
90TH2F hSLenSize("hSLenSize","",nBinSize,hSizeLo,hSizeUp,nBinLW,hSLenLo,hSLenUp);
91TH2F hSLenDist("hSLenDist","",nBinDist,hDistLo,hDistUp,nBinLW,hSLenLo,hSLenUp);
92
93TH2F hSWidSize("hSWidSize","",nBinSize,hSizeLo,hSizeUp,nBinLW,hSWidLo,hSWidUp);
94TH2F hSWidDist("hSWidDist","",nBinDist,hDistLo,hDistUp,nBinLW,hSWidLo,hSWidUp);
95
96
97//****************************************************************************************
98// first part: prepare for scaling, read Hillas to calc mean
99//****************************************************************************************
100
101void ReadHillas()
102{
103 // fill hillas into histograms to calc mean
104 TFile *file=new TFile(fileHillas.Data());
105 TTree *fEvents=(TTree*)file->Get("Events");
106
107 // hists for Hillas
108 // in following 2 hists the binning in length/width should be
109 // very fine (like unbinned) and the limits should be generous
110 TH3F hLength("hLength","",nBinSize,hSizeLo,hSizeUp, nBinDist,hDistLo,hDistUp, nBinLWFine,hLenFineLo,hLenFineUp);
111 TH3F hWidth("hWidth", "",nBinSize,hSizeLo,hSizeUp, nBinDist,hDistLo,hDistUp, nBinLWFine,hWidFineLo,hWidFineUp);
112
113 TString strlen = Form("MHillas.fLength*%f:MHillasSrc.fDist*%f:log10(MHillas.fSize)",mm2deg,mm2deg);
114 TString strwid = Form("MHillas.fWidth*%f :MHillasSrc.fDist*%f:log10(MHillas.fSize)",mm2deg,mm2deg);
115
116 TString strcut="MHillas.fSize>0";
117 fEvents->Project("hLength",strlen.Data(),strcut.Data());
118 fEvents->Project("hWidth", strwid.Data(),strcut.Data());
119
120 file->Close();
121
122 // fill hists hLenMean, hWidMean (2-dim (size,dist)-hists)
123 for(Int_t i=1;i<=nBinSize;i++)
124 for(Int_t j=1;j<=nBinDist;j++)
125 {
126 Double_t lsum=0.; Double_t lsum2=0.; Double_t lcnt=0.;
127 Double_t wsum=0.; Double_t wsum2=0.; Double_t wcnt=0.;
128
129 for(Int_t k=1;k<=nBinLWFine;k++)
130 {
131 Double_t nl = hLength.GetBinContent(i,j,k);
132 Double_t xl = hLength.GetZaxis()->GetBinCenter(k);
133
134 lsum +=nl*xl;
135 lsum2+=nl*xl*xl;
136 lcnt +=nl;
137
138 Double_t nw = hWidth.GetBinContent(i,j,k);
139 Double_t xw = hWidth.GetZaxis()->GetBinCenter(k);
140
141 wsum +=nw*xw;
142 wsum2+=nw*xw*xw;
143 wcnt +=nw;
144 }
145
146 Double_t lmean=0.;
147 Double_t lmeanerr=0.;
148 if(lcnt>1)lmean=lsum/lcnt;
149 if(lcnt>2)lmeanerr=(lsum2/lcnt-lmean*lmean)/(lcnt-1.);
150 lmeanerr=TMath::Sqrt(lmeanerr);
151
152 hLenMean.SetBinContent(i,j,lmean);
153 hLenMean.SetBinError(i,j,lmeanerr);
154
155 Double_t wmean=0.;
156 Double_t wmeanerr=0.;
157 if(wcnt>1)wmean=wsum/wcnt;
158 if(wcnt>2)wmeanerr=(wsum2/wcnt-wmean*wmean)/(wcnt-1.);
159 wmeanerr=TMath::Sqrt(wmeanerr);
160
161 hWidMean.SetBinContent(i,j,wmean);
162 hWidMean.SetBinError(i,j,wmeanerr);
163 }
164
165 // fill hists hLenMeanSize, hWidMeanSize (1-dim hists, x-axis = size)
166 for(Int_t i=1;i<=nBinSize;i++)
167 {
168 Double_t lsum=0.; Double_t lsum2=0.; Double_t lcnt=0.;
169 Double_t wsum=0.; Double_t wsum2=0.; Double_t wcnt=0.;
170
171 for(Int_t j=1;j<=nBinDist;j++)
172 for(Int_t k=1;k<=nBinLWFine;k++)
173 {
174 Double_t nl = hLength.GetBinContent(i,j,k);
175 Double_t xl = hLength.GetZaxis()->GetBinCenter(k);
176
177 lsum +=nl*xl;
178 lsum2+=nl*xl*xl;
179 lcnt +=nl;
180
181 Double_t nw = hWidth.GetBinContent(i,j,k);
182 Double_t xw = hWidth.GetZaxis()->GetBinCenter(k);
183
184 wsum +=nw*xw;
185 wsum2+=nw*xw*xw;
186 wcnt +=nw;
187 }
188
189 Double_t lmean=0.;
190 Double_t lmeanerr=0.;
191 if(lcnt>1)lmean=lsum/lcnt;
192 if(lcnt>2)lmeanerr=(lsum2/lcnt-lmean*lmean)/(lcnt-1.);
193 lmeanerr=TMath::Sqrt(lmeanerr);
194
195 hLenMeanSize.SetBinContent(i,lmean);
196 hLenMeanSize.SetBinError(i,lmeanerr);
197
198 Double_t wmean=0.;
199 Double_t wmeanerr=0.;
200 if(wcnt>1)wmean=wsum/wcnt;
201 if(wcnt>2)wmeanerr=(wsum2/wcnt-wmean*wmean)/(wcnt-1.);
202 wmeanerr=TMath::Sqrt(wmeanerr);
203
204 hWidMeanSize.SetBinContent(i,wmean);
205 hWidMeanSize.SetBinError(i,wmeanerr);
206 }
207
208 // fill hists hLenMeanDist, hWidMeanDist (1-dim hists, x-axis = dist)
209 for(Int_t j=1;j<=nBinDist;j++)
210 {
211 Double_t lsum=0.; Double_t lsum2=0.; Double_t lcnt=0.;
212 Double_t wsum=0.; Double_t wsum2=0.; Double_t wcnt=0.;
213
214 for(Int_t i=1;i<=nBinSize;i++)
215 for(Int_t k=1;k<=nBinLWFine;k++)
216 {
217 Double_t nl = hLength.GetBinContent(i,j,k);
218 Double_t xl = hLength.GetZaxis()->GetBinCenter(k);
219
220 lsum +=nl*xl;
221 lsum2+=nl*xl*xl;
222 lcnt +=nl;
223
224 Double_t nw = hWidth.GetBinContent(i,j,k);
225 Double_t xw = hWidth.GetZaxis()->GetBinCenter(k);
226
227 wsum +=nw*xw;
228 wsum2+=nw*xw*xw;
229 wcnt +=nw;
230 }
231
232 Double_t lmean=0.;
233 Double_t lmeanerr=0.;
234 if(lcnt>1)lmean=lsum/lcnt;
235 if(lcnt>2)lmeanerr=(lsum2/lcnt-lmean*lmean)/(lcnt-1.);
236 lmeanerr=TMath::Sqrt(lmeanerr);
237
238 hLenMeanDist.SetBinContent(j,lmean);
239 hLenMeanDist.SetBinError(j,lmeanerr);
240
241 Double_t wmean=0.;
242 Double_t wmeanerr=0.;
243 if(wcnt>1)wmean=wsum/wcnt;
244 if(wcnt>2)wmeanerr=(wsum2/wcnt-wmean*wmean)/(wcnt-1.);
245 wmeanerr=TMath::Sqrt(wmeanerr);
246
247 hWidMeanDist.SetBinContent(j,wmean);
248 hWidMeanDist.SetBinError(j,wmeanerr);
249 }
250
251 return;
252}
253
254
255//****************************************************************************************
256// second part: do scaling
257//****************************************************************************************
258
259// pointer to Hillas ParContainer
260MHillas *fHillas=NULL;
261MHillasSrc *fHillasSrc=NULL;
262
263
264Int_t PreProcess(MParList *plist)
265{
266 fHillas = (MHillas*) plist->FindObject("MHillas");
267 fHillasSrc = (MHillasSrc*) plist->FindObject("MHillasSrc");
268
269 return (fHillas && fHillasSrc) ? kTRUE : kFALSE;
270}
271
272Int_t Process()
273{
274 // estimated source pos.
275 MSrcPosCam srcpos;
276 srcpos.SetXY(estposx*deg2mm,estposy*deg2mm);
277 fHillasSrc->SetSrcPos(&srcpos);
278 fHillasSrc->Calc(fHillas);
279
280 Float_t width = fHillas->GetWidth();
281 Float_t length = fHillas->GetLength();
282 Float_t size = fHillas->GetSize();
283 Float_t meanx = fHillas->GetMeanX();
284 Float_t meany = fHillas->GetMeanY();
285 Float_t logsize = TMath::Log10(fHillas->GetSize());
286 Float_t delta = fHillas->GetDelta();
287 Float_t dist = fHillasSrc->GetDist();
288
289 width *=mm2deg;
290 length*=mm2deg;
291 dist *=mm2deg;
292
293 hLenSize.Fill(logsize,length);
294 hLenDist.Fill(dist,length);
295 hWidSize.Fill(logsize,width);
296 hWidDist.Fill(dist,width);
297
298 // (log(size), dist) - bin
299 Int_t ix=hLenMean.GetXaxis()->FindBin(logsize);
300 Int_t iy=hLenMean.GetYaxis()->FindBin(dist);
301
302 // check for over-/underflow
303 /*if(ix*iy==0 || ix>nBinSize || iy>nBinDist)
304 {
305 cout<<"Warning, over-/underflow: Log(size)-bin="<<ix;
306 cout<<" Dist-bin="<<iy<<endl<<flush;
307 }*/
308 if(ix==0)ix=1;if(ix==nBinSize+1)ix=nBinSize;
309 if(iy==0)iy=1;if(iy==nBinDist+1)iy=nBinDist;
310
311 Float_t lq=hLenMean.GetBinContent(ix,iy);
312 Float_t wq=hWidMean.GetBinContent(ix,iy);
313
314 if(lq>0.)lq=1./lq;
315 if(wq>0.)wq=1./wq;
316
317 width *=wq;
318 length*=lq;
319
320 hSLenSize.Fill(logsize,length);
321 hSLenDist.Fill(dist,length);
322 hSWidSize.Fill(logsize,width);
323 hSWidDist.Fill(dist,width);
324
325 // --------------------------------------------------------------------------
326 //
327 // This function is ment for special usage, please never try to set
328 // values via this function
329 //
330 /* void MHillas::Set(const TArrayF &arr)
331 {
332 if (arr.GetSize() != 6)
333 return;
334
335 fLength = arr.At(0); // [mm] major axis of ellipse
336 fWidth = arr.At(1); // [mm] minor axis of ellipse
337 fDelta = arr.At(2); // [rad] angle of major axis with x-axis
338 fSize = arr.At(3); // [#CerPhot] sum of content of all pixels (number of Cherenkov photons)
339 fMeanX = arr.At(4); // [mm] x-coordinate of center of ellipse
340 fMeanY = arr.At(5); // [mm] y-coordinate of center of ellipse
341 }*/
342
343 TArrayF farr(6);
344 farr[0]=length;
345 farr[1]=width;
346 farr[2]=delta;
347 farr[3]=size;
348 farr[4]=meanx;
349 farr[5]=meany;
350
351 fHillas->Set(farr);
352
353 fHillas->SetReadyToSave();
354 fHillasSrc->SetReadyToSave();
355
356 return kTRUE;
357}
358
359Int_t PostProcess()
360{
361
362 return kTRUE;
363}
364
365void ScaleHillas(Int_t nent)
366{
367 //---------------------------------------------------------------
368 // scale Hillas (length, width) to mean
369
370 MParList plist;
371 MTaskList tlist;
372 plist.AddToList(&tlist);
373
374 MReadTree read("Events", fileHillas);
375 read.DisableAutoScheme();
376
377 MTaskInteractive scale;
378 scale.SetPreProcess(PreProcess);
379 scale.SetProcess(Process);
380 scale.SetPostProcess(PostProcess);
381
382 MWriteRootFile write(fileHScaled.Data());
383 write.AddContainer("MHillas", "Events");
384 write.AddContainer("MHillasExt", "Events");
385 write.AddContainer("MHillasSrc", "Events");
386 write.AddContainer("MNewImagePar", "Events");
387 write.AddContainer("MRawRunHeader","Events");
388
389 tlist.AddToList(&read);
390 tlist.AddToList(&scale);
391 tlist.AddToList(&write);
392
393 MEvtLoop evtloop;
394 evtloop.SetParList(&plist);
395
396 if (!evtloop.Eventloop(nent))
397 return;
398
399 tlist.PrintStatistics();
400
401 return;
402}
403
404
405//****************************************************************************************
406// third part: check scaling
407//****************************************************************************************
408
409void CheckScaling()
410{
411 //---------------------------------------------------------------
412 // check scaling
413 TFile fileHist(fileHScalHist,"recreate");
414
415 gStyle->SetPalette(1);
416
417
418 TCanvas *c1=new TCanvas("c1","",800,400);
419 if(nBinDist>1)
420 c1->Divide(2,2);
421 else
422 c1->Divide(2,1);
423
424 c1->cd(1);
425 gPad->SetGrid();
426 hSLenSize.SetStats(kFALSE);
427 hSLenSize.GetXaxis()->SetTitle("log(size [#phot])");
428 hSLenSize.GetYaxis()->SetTitle("scaled length");
429 hSLenSize.SetLineWidth(2);
430 hSLenSize.DrawCopy("colz");
431 hSLenSize.Write();
432
433 TLine lLen(2.7,1.,hSizeUp,1.);
434 TLine lLenUp(2.7,LengthUp,hSizeUp,LengthUp);
435 TLine lLenLo(2.7,LengthLo,hSizeUp,LengthLo);
436
437 lLen.SetLineColor(2);
438 lLen.SetLineWidth(2);
439 lLenUp.SetLineWidth(2);
440 lLenLo.SetLineWidth(2);
441 lLen.DrawClone();
442 lLenUp.DrawClone();
443 lLenLo.DrawClone();
444
445
446 c1->cd(2);
447 gPad->SetGrid();
448 hLenSize.SetStats(kFALSE);
449 hLenSize.SetTitle("");
450 hLenSize.GetXaxis()->SetTitle("log(size [#phot])");
451 hLenSize.GetYaxis()->SetTitle("length [deg]");
452 hLenSize.SetLineWidth(2);
453 hLenSize.DrawCopy("colz");
454 hLenSize.Write();
455 hLenMeanSize.SetLineColor(2);
456 hLenMeanSize.SetLineWidth(2);
457 hLenMeanSize.DrawCopy("e same");
458 hLenMeanSize.Write();
459
460 TH1F hLenCutLo("hLenCutLo","",nBinSize,hSizeLo,hSizeUp);
461 TH1F hLenCutUp("hLenCutUp","",nBinSize,hSizeLo,hSizeUp);
462 for(Int_t i=1;i<=nBinSize;i++)
463 {
464 Float_t meanval=hLenMeanSize.GetBinContent(i);
465 hLenCutLo.SetBinContent(i,meanval*LengthLo);
466 hLenCutUp.SetBinContent(i,meanval*LengthUp);
467 }
468 hLenCutLo.SetLineWidth(2);
469 hLenCutUp.SetLineWidth(2);
470 hLenCutLo.DrawCopy("][ same");
471 hLenCutUp.DrawCopy("][ same");
472
473
474 if(nBinDist>1)
475 {
476 c1->cd(3);
477 gPad->SetGrid();
478 hSLenDist.SetStats(kFALSE);
479 hSLenDist.GetXaxis()->SetTitle("dist [deg]");
480 hSLenDist.GetYaxis()->SetTitle("scaled length");
481 hSLenDist.SetLineWidth(2);
482 hSLenDist.DrawCopy("colz");
483 hSLenDist.Write();
484
485 c1->cd(4);
486 gPad->SetGrid();
487 hLenDist.SetStats(kFALSE);
488 hLenDist.SetTitle("");
489 hLenDist.GetXaxis()->SetTitle("dist [deg]");
490 hLenDist.GetYaxis()->SetTitle("length");
491 hLenDist.SetLineWidth(2);
492 hLenDist.DrawCopy("colz");
493 hLenDist.Write();
494 hLenMeanDist.SetLineColor(2);
495 hLenMeanDist.SetLineWidth(2);
496 hLenMeanDist.DrawCopy("e same");
497 hLenMeanDist.Write();
498 }
499
500 TCanvas *c2=new TCanvas("c2","",800,400);
501 if(nBinDist>1)
502 c2->Divide(2,2);
503 else
504 c2->Divide(2,1);
505
506 c2->cd(1);
507 gPad->SetGrid();
508 hSWidSize.SetStats(kFALSE);
509 hSWidSize.GetXaxis()->SetTitle("log(size [#phot])");
510 hSWidSize.GetYaxis()->SetTitle("scaled width");
511 hSWidSize.SetLineWidth(2);
512 hSWidSize.DrawCopy("colz");
513 hSWidSize.Write();
514
515 TLine lWid(2.7,1.,hSizeUp,1.);
516 TLine lWidUp(2.7,WidthUp,hSizeUp,WidthUp);
517 TLine lWidLo(2.7,WidthLo,hSizeUp,WidthLo);
518
519 lWid.SetLineColor(2);
520 lWid.SetLineWidth(2);
521 lWidUp.SetLineWidth(2);
522 lWidLo.SetLineWidth(2);
523 lWid.DrawClone();
524 lWidUp.DrawClone();
525 lWidLo.DrawClone();
526
527 c2->cd(2);
528 gPad->SetGrid();
529 hWidSize.SetStats(kFALSE);
530 hWidSize.SetTitle("");
531 hWidSize.GetXaxis()->SetTitle("log(size [#phot])");
532 hWidSize.GetYaxis()->SetTitle("width [deg]");
533 hWidSize.SetLineWidth(2);
534 hWidSize.DrawCopy("colz");
535 hWidSize.Write();
536 hWidMeanSize.SetLineColor(2);
537 hWidMeanSize.SetLineWidth(2);
538 hWidMeanSize.DrawCopy("e same");
539 hWidMeanSize.Write();
540
541 TH1F hWidCutLo("hWidCutLo","",nBinSize,hSizeLo,hSizeUp);
542 TH1F hWidCutUp("hWidCutUp","",nBinSize,hSizeLo,hSizeUp);
543 for(Int_t i=1;i<=nBinSize;i++)
544 {
545 Float_t meanval=hWidMeanSize.GetBinContent(i);
546 hWidCutLo.SetBinContent(i,meanval*WidthLo);
547 hWidCutUp.SetBinContent(i,meanval*WidthUp);
548 }
549 hWidCutLo.SetLineWidth(2);
550 hWidCutUp.SetLineWidth(2);
551 hWidCutLo.DrawCopy("][ same");
552 hWidCutUp.DrawCopy("][ same");
553
554 if(nBinDist>1)
555 {
556 c2->cd(3);
557 gPad->SetGrid();
558 hSWidDist.SetStats(kFALSE);
559 hSWidDist.GetXaxis()->SetTitle("dist [deg]");
560 hSWidDist.GetYaxis()->SetTitle("scaled width");
561 hSWidDist.SetLineWidth(2);
562 hSWidDist.DrawCopy("colz");
563 hSWidDist.Write();
564
565 c2->cd(4);
566 gPad->SetGrid();
567 hWidDist.SetStats(kFALSE);
568 hWidDist.SetTitle("");
569 hWidDist.GetXaxis()->SetTitle("dist [deg]");
570 hWidDist.GetYaxis()->SetTitle("width");
571 hWidDist.SetLineWidth(2);
572 hWidDist.DrawCopy("colz");
573 hWidDist.Write();
574 hWidMeanDist.SetLineColor(2);
575 hWidMeanDist.SetLineWidth(2);
576 hWidMeanDist.DrawCopy("e same");
577 hWidMeanDist.Write();
578 }
579
580 // mean values
581 if(nBinDist>1)
582 {
583 TCanvas *c4=new TCanvas("c4","",800,400);
584 c4->Divide(1,2);
585
586 c4->cd(1);
587 gPad->SetGrid();
588 hLenMean.SetStats(kFALSE);
589 hLenMean.SetTitle("mean_length(log(size),dist)");
590 hLenMean.GetXaxis()->SetTitle("log(size [#phot])");
591 hLenMean.GetYaxis()->SetTitle("dist [deg])");
592 hLenMean.DrawCopy("colz");
593 hLenMean.Write();
594
595 c4->cd(2);
596 gPad->SetGrid();
597 hWidMean.SetStats(kFALSE);
598 hWidMean.SetTitle("mean_width(log(size),dist)");
599 hWidMean.GetXaxis()->SetTitle("log(size [#phot])"); ;
600 hWidMean.GetYaxis()->SetTitle("dist [deg])");
601 hWidMean.DrawCopy("colz");
602 hWidMean.Write("colz");
603 }
604
605 fileHist.Close();
606
607 return;
608}
609
610//****************************************************************************************
611// main
612//****************************************************************************************
613
614void RunScaling(Int_t nent=-1)
615{
616 printf("Prepare for scaling...");
617 ReadHillas();
618 printf("done.\n");
619
620 ScaleHillas(nent);
621
622 CheckScaling();
623
624 return;
625}
626
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