/[PAMELA software]/calo/flight/CaloFranzini/src/Calib.cpp
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Annotation of /calo/flight/CaloFranzini/src/Calib.cpp

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Revision 1.4 - (hide annotations) (download)
Fri Jan 11 15:27:13 2008 UTC (16 years, 10 months ago) by mocchiut
Branch: MAIN
Changes since 1.3: +269 -72 lines 
changes
1 mocchiut 1.1 #include <stdlib.h>
2     #include <iostream>
3     #include <iomanip>
4     //
5     #include <TString.h>
6     #include <TH1F.h>
7     #include <TH2F.h>
8     #include <TMatrixD.h>
9 mocchiut 1.3 #include <TMatrixF.h>
10 mocchiut 1.1 #include <TArrayF.h>
11     #include <TArrayI.h>
12     //
13     #include <PamLevel2.h>
14     #include <CaloFranzini.h>
15     //
16     using namespace std;
17     //
18 mocchiut 1.2 extern Bool_t MATRIX;
19 mocchiut 1.3 extern Bool_t FULL;
20     extern Bool_t SIMU;
21     extern Bool_t CRIG;
22     extern Bool_t SRIG;
23 mocchiut 1.1 CaloFranzini *cf;
24     Int_t nbin;
25     Float_t rig[18];
26 mocchiut 1.2 Float_t rmean[17];
27 mocchiut 1.3 Int_t ntot[17];
28 mocchiut 1.4 Int_t MDIM = 8213;
29     //Int_t MDIM = 4128;
30 mocchiut 1.2 //Float_t qqplane[17][43];
31     //Int_t nnqplane[17][43];
32    
33     TArrayF *qplane[17];
34     TArrayI *nqplane[17];
35     TMatrixD *matrix[17];
36     TMatrixD *nmat[17];
37 mocchiut 1.1
38 mocchiut 1.4 TMatrixD *fqplane;
39     TMatrixD *fnqplane;
40     //TMatrixD *fqplane[17];
41     //TMatrixD *fnqplane[17];
42     //TMatrixF *fmatrix[17];
43     //TMatrixF *fnmat[17];
44     //TMatrixD *fmatrix;
45     //TMatrixD *fnmat;
46     TMatrixF *fmatrix;
47     //TMatrixF *fnmat;
48 mocchiut 1.3 TMatrixF *fnmat[17];
49 mocchiut 1.4 //Int_t finmat[43][191];
50 mocchiut 1.3
51 mocchiut 1.1 //===============================================================================
52     bool Select( PamLevel2* event ){
53    
54     //---------------------------------------------------------
55     // single track
56     //---------------------------------------------------------
57     if( event->GetTrkLevel2()->GetNTracks()!=1 ) return false;
58     PamTrack *track = event->GetTrack(0);
59     if(!track)return false;
60    
61     //------------------------------------------------------------------
62     // tracker pre-selection
63     //------------------------------------------------------------------
64     TrkTrack *trk = track->GetTrkTrack();
65 mocchiut 1.3 float rigidity = trk->GetRigidity();
66     if ( CRIG ) rigidity = event->GetCaloLevel2()->qtot/260.;
67     if ( SRIG ) rigidity = event->GetGPamela()->P0;
68 mocchiut 1.1 bool TRACK__OK = false;
69     if(
70     trk->chi2 >0 &&
71     trk->GetNX()>=4 &&
72     trk->GetNY()>=3 &&
73     trk->GetLeverArmX()>=5 &&
74     true ) TRACK__OK = true;
75    
76     if( !TRACK__OK )return false;
77    
78     //------------------------------------------------------------------
79     // TOF pre-selection
80     //------------------------------------------------------------------
81     bool TOF__OK = false;
82     if(
83     event->GetToFLevel2()->GetNHitPaddles(0) == 1 &&
84     event->GetToFLevel2()->GetNHitPaddles(1) == 1 &&
85     event->GetToFLevel2()->GetNHitPaddles(2) == 1 &&
86     event->GetToFLevel2()->GetNHitPaddles(3) == 1 &&
87     event->GetToFLevel2()->GetNHitPaddles(4) >= 1 &&
88     event->GetToFLevel2()->GetNHitPaddles(5) >= 1 &&
89     event->GetToFLevel2()->npmt() <= 18 &&
90     !event->GetAcLevel2()->CARDhit() &&
91     !event->GetAcLevel2()->CAThit() &&
92     true ) TOF__OK = true;
93 mocchiut 1.3 if( !TOF__OK && !SIMU)return false;
94 mocchiut 1.1 //------------------------------------------------------
95     // no albedo
96     //------------------------------------------------------
97 mocchiut 1.3 if( !SIMU && (track->GetToFTrack()->beta[12]<=0.2 ||
98     track->GetToFTrack()->beta[12] >= 1.5) ) return false;
99 mocchiut 1.1
100     //------------------------------------------------------
101     bool CUT1 = false;
102     if(
103     trk->nstep<100 &&
104 mocchiut 1.3 rigidity<400. &&
105     rigidity>0.1 &&
106 mocchiut 1.1 trk->resx[0]<0.001 &&
107     trk->resx[5]<0.001 &&
108     track->IsSolved() &&
109     trk->IsInsideCavity() &&
110     true ) CUT1 = true;
111     //------------------------------------------------------
112     if( !CUT1 )return false;
113 mocchiut 1.3 if ( trk->GetDeflection()>0. && !SIMU ) return false;
114    
115     //
116     // ELENA'S CUT
117     //
118     //
119     // lever-arm 6
120     //====================================================
121     bool LX6=false;
122     if(
123     track->GetTrkTrack()->GetLeverArmX()==6 &&
124     !track->GetTrkTrack()->IsBad(0,0) &&
125     !track->GetTrkTrack()->IsBad(5,0) &&
126     track->GetTrkTrack()->resx[0]<0.001 &&
127     track->GetTrkTrack()->resx[5]<0.001 &&
128     track->GetTrkTrack()->IsInsideCavity() &&
129     true ) LX6 = true;
130    
131     //====================================================
132     // lever-arm 5
133     //====================================================
134     bool LX5=false;
135     if(
136     track->GetTrkTrack()->GetLeverArmX()==5 &&
137     true ){
138     if(
139     track->GetTrkTrack()->XGood(0) && track->GetTrkTrack()->XGood(4)
140     ){
141    
142     if(
143     !track->GetTrkTrack()->IsBad(0,0) &&
144     !track->GetTrkTrack()->IsBad(4,0) &&
145     track->GetTrkTrack()->resx[0]<0.001 &&
146     track->GetTrkTrack()->resx[4]<0.001 &&
147     track->GetTrkTrack()->IsInsideCavity() &&
148     true) LX5 = true;
149     }else if (
150     track->GetTrkTrack()->XGood(1) && track->GetTrkTrack()->XGood(5)
151     ){
152    
153     if(
154     !track->GetTrkTrack()->IsBad(1,0) &&
155     !track->GetTrkTrack()->IsBad(5,0) &&
156     track->GetTrkTrack()->resx[1]<0.001 &&
157     track->GetTrkTrack()->resx[5]<0.001 &&
158     track->GetTrkTrack()->IsInsideCavity() &&
159     true) LX5 = true;
160     }
161     }
162     if ( !LX5 && !LX6 ) return false;
163 mocchiut 1.1 Float_t defl = trk->GetDeflection();
164     float p0 = 1.111588e+00;
165     float p1 = 1.707656e+00;
166     float p2 = 1.489693e-01;
167     float chi2m025 = p0 + fabs(defl)*p1 + defl*defl*p2;
168    
169     float def_0 = 0.07;
170     float chi2m025_0 = p0 + fabs(def_0)*p1 + def_0*def_0*p2;
171    
172     // int nchi2cut=5;
173     float chi2cut=3.;
174     float chi2m = pow( chi2m025-chi2m025_0+pow(chi2cut,0.25), 4.);
175     bool CUT2 = false;
176     if(
177     track->GetTrkTrack()->chi2 < chi2m &&
178     true ) CUT2 = true;
179     if ( !CUT2 ) return false;
180 mocchiut 1.3 float dedxtrk = trk->GetDEDX();
181     // float zcutn = 9. + 20./(rigidity*rigidity);
182     float zcut2 = 3. + 4.3/(rigidity*rigidity);
183     float zcut1 = 0.52 + 0.455/(rigidity*rigidity);
184     Bool_t Z1 = false;
185     if(dedxtrk > zcut1 && dedxtrk < zcut2){
186     Z1=true;
187     }
188     if ( !Z1 && !SIMU ) return false;
189 mocchiut 1.1 //------------------------------------------------------
190     //
191     // energy momentum match
192     //
193     Float_t qtotimp = event->GetCaloLevel2()->qtot / trk->GetRigidity();
194     Float_t qcut2 = (-0.5 * trk->GetRigidity() + 150.) * 1.1;
195     if ( qcut2 < 55. ) qcut2 = 55.;
196     if ( qtotimp <= qcut2 ) return false;
197     //
198     for (Int_t i=0; i < 22; i++){
199     if ( track->GetCaloTrack()->tibar[i][1] < 0 || track->GetCaloTrack()->tibar[i][0] < 0 ){
200 mocchiut 1.3 return false;
201     };
202     };
203     //
204     if ( event->GetCaloLevel2()->qtot == 0. ) return false;
205     if ( rigidity>5. && track->GetCaloTrack()->qtrack/event->GetCaloLevel2()->qtot < 0.4 ) return false;
206     if ( rigidity<1. && track->GetToFTrack()->beta[12] < 0.8 ) return false;
207     if ( rigidity>50. ){
208     if ( trk->GetNX()<5 &&
209     trk->GetNY()<4 ) return false;
210     //
211     Bool_t sphit = false;
212     for ( Int_t plane = 0; plane < 6; plane++){
213     if ( !trk->XGood(plane) ){
214     for (Int_t sing = 0; sing < event->GetTrkLevel2()->nclsx(); sing++){
215     TClonesArray &t = *(event->GetTrkLevel2()->SingletX);
216     TrkSinglet *singlet = (TrkSinglet*)t[sing];
217     if ( (singlet->plane-1) == plane ){
218     Float_t x = (singlet->coord[0]+singlet->coord[1])/2.;
219     if ( fabs(track->GetTrkTrack()->xv[plane] - x) < 1. ) sphit = true;
220     };
221     };
222     };
223     if ( !trk->YGood(plane) ){
224     for (Int_t sing = 0; sing < event->GetTrkLevel2()->nclsy(); sing++){
225     TClonesArray &t = *(event->GetTrkLevel2()->SingletY);
226     TrkSinglet *singlet = (TrkSinglet*)t[sing];
227     if ( (singlet->plane-1) == plane ){
228     Float_t x1 = (singlet->coord[0]);
229     Float_t x2 = (singlet->coord[1]);
230     if ( fabs(track->GetTrkTrack()->yv[plane] - x1) < 1. ) sphit = true;
231     if ( fabs(track->GetTrkTrack()->yv[plane] - x2) < 1. ) sphit = true;
232     };
233     };
234     };
235 mocchiut 1.1 };
236 mocchiut 1.3 if ( sphit ) return false; // spurious hit along the track
237 mocchiut 1.1 };
238     //
239 mocchiut 1.3 Int_t ti0 = track->GetCaloTrack()->tibar[0][1]-1;
240    
241     Int_t view = 0;
242     Int_t plane = 0;
243     Int_t strip = 0;
244     Float_t mip = 0.;
245     //
246     for ( Int_t i=0; i<event->GetCaloLevel1()->istrip; i++ ){
247     //
248     mip = event->GetCaloLevel1()->DecodeEstrip(i,view,plane,strip);
249     if ( view == 1 && plane == 0 && strip == ti0 && mip > 4.) return false;
250     if ( view == 1 && (plane >0 || strip > ti0) ) break;
251     };
252     // if ( event->GetCaloLevel1()->qtotpl(0) > 7. ) return false;
253 mocchiut 1.4
254     // if ( rigidity > 2.2 || rigidity < 1.5 ) return false;
255     // printf(" rig %f CRIG %i SRIG %i \n",rigidity,CRIG,SRIG);
256 mocchiut 1.1 //
257     return true;
258     }
259     //===============================================================
260     // Create histograms
261     //
262     //
263     //
264     //
265     //
266     //===============================================================
267     void CreateHistos( PamLevel2* event , TString file){
268    
269     cf = new CaloFranzini(event);
270 mocchiut 1.2 //
271     if ( MATRIX ){
272     cf->UpdateMatrixFile(file.Data());
273     cf->LoadBin();
274 mocchiut 1.3 if ( !FULL ){
275     cf->LoadLong();
276     } else {
277     cf->LoadFull();
278     };
279 mocchiut 1.2 } else {
280     cf->CreateMatrixFile(file.Data());
281     };
282     //
283 mocchiut 1.1 //
284     nbin = 18;
285     rig[0] = 0.1;
286     rig[1] = 0.5;
287     rig[2] = 1.;
288     rig[3] = 1.5;
289     rig[4] = 2.2;
290     rig[5] = 3.;
291     rig[6] = 4.;
292     rig[7] = 5.;
293     rig[8] = 6.;
294     rig[9] = 8.;
295     rig[10] = 10.;
296     rig[11] = 15.;
297     rig[12] = 25.;
298     rig[13] = 35.;
299     rig[14] = 50.;
300     rig[15] = 100.;
301     rig[16] = 200.;
302     rig[17] = 400.;
303     //
304 mocchiut 1.2 memset(rmean, 0, 17*sizeof(Float_t));
305 mocchiut 1.3 memset(ntot, 0, 17*sizeof(Int_t));
306 mocchiut 1.4 // memset(finmat, 0, 43*191*sizeof(Int_t));
307 mocchiut 1.1 //
308 mocchiut 1.2 for (Int_t i=0; i < 17 ; i++){
309 mocchiut 1.4 //for (Int_t i=3; i < 4 ; i++){
310 mocchiut 1.3 if ( !FULL ){
311     matrix[i] = new TMatrixD(43,43);
312     qplane[i] = new TArrayF(43);
313     nqplane[i] = new TArrayI(43);
314     nmat[i] = new TMatrixD(43,43);
315     } else {
316     if ( MATRIX ){
317 mocchiut 1.4 // fmatrix = new TMatrixF(4128,4128);
318     // fnmat = new TMatrixF(4128,4128);
319     // fmatrix = new TMatrixF(8213,8213);
320     // fnmat = new TMatrixF(8213,8213);
321     fmatrix = new TMatrixF(MDIM,MDIM);
322     // fnmat = new TMatrixF(MDIM,MDIM);
323     fnmat[i] = new TMatrixF(43,191);
324     // cf->WriteFullMatrix(fmatrix, i);
325     // cf->WriteFullNMatrix(fnmat, i);
326     // delete fmatrix;
327     // delete fnmat;
328 mocchiut 1.3 //fnmat[i] = new TMatrixI(8213,8213);
329     } else {
330 mocchiut 1.4 fqplane = new TMatrixD(43,191); // 43 planes x 191 strip (= 1 + 95 x 2, one strip is the one transversed by the track that could be on the extreme right or left)
331     fnqplane = new TMatrixD(43,191);//
332     //
333     cf->WriteFullMean(fqplane, i);
334     cf->WriteFullNMean(fnqplane, i);
335     delete fqplane;
336     delete fnqplane;
337     //
338 mocchiut 1.3 };
339     };
340 mocchiut 1.1 };
341     //
342     }
343    
344     //===============================================================
345     void FindAverage( PamLevel2* L2, int iev ){
346     //
347     Float_t erig = L2->GetTrack(0)->GetTrkTrack()->GetRigidity();
348 mocchiut 1.3 if ( SRIG ) erig = L2->GetGPamela()->P0;
349     if ( CRIG ) erig = L2->GetCaloLevel2()->qtot/260.;
350 mocchiut 1.1 //
351     Int_t rbi = 0;
352 mocchiut 1.2 for (Int_t i = 0; i<nbin-1; i++){
353 mocchiut 1.1 if ( erig>=rig[i] && erig < rig[i+1] ){
354     rbi = i;
355     break;
356     };
357     };
358     //
359     if ( erig < rig[0] ) return;
360     if ( erig >= rig[nbin-1] ) return;
361     //
362     rmean[rbi] += erig;
363 mocchiut 1.3 ntot[rbi]++;
364 mocchiut 1.1 //
365 mocchiut 1.3 if (!FULL ){
366     Int_t dgf = 43;
367     //
368     for (Int_t i=0; i<dgf; i++){
369     (*nqplane[rbi])[i]++;
370     };
371     //
372     // Fill the estrip matrix
373     //
374     Int_t nplane = 0;
375     Int_t view = 0;
376     Int_t plane = 0;
377     Int_t strip = 0;
378     Float_t mip = 0.;
379     //
380     for ( Int_t i=0; i<L2->GetCaloLevel1()->istrip; i++ ){
381     //
382     mip = L2->GetCaloLevel1()->DecodeEstrip(i,view,plane,strip);
383     //
384     nplane = 1 - view + 2 * plane;
385     if ( erig > 4. && nplane == 0 && mip > 15. ) printf(" IEV %i erig %f OBT %u pkt %u file %s \n",iev,erig,L2->GetOrbitalInfo()->OBT,L2->GetOrbitalInfo()->pkt_num,L2->GetPamTree()->GetFile()->GetName());
386     //printf(" IEV %i OBT %u pkt %u file %s \n",iev,L2->GetOrbitalInfo()->OBT,L2->GetOrbitalInfo()->pkt_num,L2->GetPamTree()->GetFile()->GetName());
387     if ( nplane > 37 ) nplane--;
388     if ( nplane < dgf ){
389     (*qplane[rbi])[nplane] += mip;
390     };
391     //
392     };
393     } else {
394     //
395     // FULL CALORIMETER
396     //
397 mocchiut 1.4 fqplane = cf->LoadFullAverage(rbi);
398     fnqplane = cf->LoadFullNAverage(rbi);
399 mocchiut 1.3 CaloTrkVar *ct = L2->GetTrack(0)->GetCaloTrack();
400     //
401     Int_t nplane = 0;
402     Int_t view = 0;
403     Int_t plane = 0;
404     Int_t strip = 0;
405     Float_t mip = 0.;
406     //
407     Int_t cs = 0;
408     Int_t cd = 0;
409     Int_t mstrip = 0;
410     //
411     for (Int_t j=0; j<2; j++){
412     for (Int_t i=0; i<21; i++){
413     nplane = 1 - j + 2*i;
414     if ( nplane > 37 ) nplane--;
415     //
416     cs = ct->tibar[i][j] - 1;
417     //
418     cd = 95 - cs;
419     //
420     for (Int_t k=0; k<191; k++){
421     mstrip = cd + k;
422 mocchiut 1.4 // if ( mstrip < (191-cs) ) (*fnqplane[rbi])[nplane][mstrip] += 1.;
423     if ( mstrip < (191-cs) ) (*fnqplane)[nplane][mstrip] += 1.;
424 mocchiut 1.3 };
425     };
426     };
427 mocchiut 1.1 //
428     //
429 mocchiut 1.3 for ( Int_t i=0; i<L2->GetCaloLevel1()->istrip; i++ ){
430     //
431     mip = L2->GetCaloLevel1()->DecodeEstrip(i,view,plane,strip);
432     //
433     nplane = 1 - view + 2 * plane;
434     if ( nplane > 37 ) nplane--;
435     //
436     cs = ct->tibar[plane][view] - 1;
437     //
438     cd = 95 - cs;
439     //
440     mstrip = cd + strip;
441     //
442 mocchiut 1.4 // (*fqplane[rbi])[nplane][mstrip] += mip;
443     (*fqplane)[nplane][mstrip] += mip;
444 mocchiut 1.3 //
445 mocchiut 1.1 };
446 mocchiut 1.4 //
447     cf->WriteFullMean(fqplane, rbi);
448     cf->WriteFullNMean(fnqplane, rbi);
449     cf->UnLoadFullAverage(rbi);
450     cf->UnLoadFullNAverage(rbi);
451     delete fqplane;
452     delete fnqplane;
453 mocchiut 1.1 //
454     };
455     }
456    
457 mocchiut 1.2 void CalculateAverage(){
458 mocchiut 1.3 //
459     if ( !FULL ){
460     for (Int_t i=0; i<nbin-1; i++){
461     if ( (*nqplane[i])[0] > 0 ) rmean[i] /= (Float_t)(*nqplane[i])[0];
462     for (Int_t j=0; j<43 ; j++){
463     if ( (*nqplane[i])[j] > 0 ){
464     (*qplane[i])[j] /= (Float_t)(*nqplane[i])[j];
465     } else {
466     (*qplane[i])[j] = 0.;
467     };
468     printf(" BIN %i plane %i average energy %f qplane %f nqplane %i \n",i,j,rmean[i],(*qplane[i])[j],(*nqplane[i])[j]);
469     };
470     };
471     for (Int_t i=0; i<nbin-1; i++){
472     //
473     cf->WriteLongMean(qplane[i], i);
474     //
475     };
476     } else {
477 mocchiut 1.4 //
478 mocchiut 1.3 for (Int_t i=0; i<nbin-1; i++){
479 mocchiut 1.4 fqplane = cf->LoadFullAverage(i);
480     fnqplane = cf->LoadFullNAverage(i);
481 mocchiut 1.3 if ( ntot[i] > 0 ) rmean[i] /= (Float_t)(ntot[i]);
482     //
483     for (Int_t j=0; j<43 ; j++){
484     for (Int_t k=0; k<191; k++){
485 mocchiut 1.4 // if ( (*fnqplane[i])[j][k] > 0 ){
486     // (*fqplane[i])[j][k] /= (Float_t)(*fnqplane[i])[j][k];
487     // } else {
488     // (*fqplane[i])[j][k] = 0.;
489     // };
490     // printf(" BIN %i plane %i strip %i average energy %f qplane %f nqplane %f \n",i,j,k,rmean[i],(*fqplane[i])[j][k],(*fnqplane[i])[j][k]);
491     if ( (*fnqplane)[j][k] > 0 ){
492     if ( (*fqplane)[j][k] == 0. ) (*fqplane)[j][k] = 0.7;
493     (*fqplane)[j][k] /= (Float_t)(*fnqplane)[j][k];
494 mocchiut 1.3 } else {
495 mocchiut 1.4 (*fqplane)[j][k] = 0.;
496 mocchiut 1.3 };
497 mocchiut 1.4 printf(" BIN %i plane %i strip %i average energy %f qplane %f nqplane %f \n",i,j,k,rmean[i],(*fqplane)[j][k],(*fnqplane)[j][k]);
498 mocchiut 1.3 };
499 mocchiut 1.2 };
500 mocchiut 1.4 cf->WriteFullMean(fqplane, i);
501     cf->WriteFullNMean(fnqplane, i);
502     cf->UnLoadFullAverage(i);
503     cf->UnLoadFullNAverage(i);
504     delete fqplane;
505     delete fnqplane;
506 mocchiut 1.3 };
507 mocchiut 1.4 //
508     // for (Int_t i=0; i<nbin-1; i++){
509     // //
510     // cf->WriteFullMean(fqplane[i], i);
511     // //
512     // };
513 mocchiut 1.2 };
514 mocchiut 1.3 //
515 mocchiut 1.2 cf->WriteNumBin(nbin);
516 mocchiut 1.3 //
517 mocchiut 1.2 TArrayF *rigbin = new TArrayF(18, rig);
518     cf->WriteRigBin(rigbin);
519 mocchiut 1.3 //
520 mocchiut 1.2 TArrayF *rmeanbin = new TArrayF(17, rmean);
521     TFile *file = cf->GetFile();
522     file->cd();
523     file->WriteObject(&(*rmeanbin), "binrigmean");
524     //
525     //
526     }
527    
528 mocchiut 1.1 //===============================================================
529     void FindMatrix( PamLevel2* L2, int iev ){
530     //
531     Float_t erig = L2->GetTrack(0)->GetTrkTrack()->GetRigidity();
532 mocchiut 1.3 if ( SRIG ) erig = L2->GetGPamela()->P0;
533     if ( CRIG ) erig = L2->GetCaloLevel2()->qtot/260.;
534 mocchiut 1.1 //
535     Int_t rbi = 0;
536     for (Int_t i = 0; i<nbin-1; i++){
537     if ( erig>=rig[i] && erig < rig[i+1] ){
538     rbi = i;
539     break;
540     };
541     };
542     //
543 mocchiut 1.4 if ( rbi != 3 ) return;
544 mocchiut 1.1 if ( erig < rig[0] ) return;
545     if ( erig >= rig[nbin-1] ) return;
546     //
547 mocchiut 1.3 if ( !FULL ){
548     Int_t dgf = 43;
549     //
550     for (Int_t i=0; i<dgf; i++){
551     for (Int_t j=0; j<dgf; j++){
552     (*nmat[rbi])[i][j] += 1.;
553     };
554     };
555     //
556     // Fill the estrip matrix
557     //
558     Int_t nplane = 0;
559     Int_t view = 0;
560     Int_t plane = 0;
561     Int_t strip = 0;
562     Float_t mip = 0.;
563     Float_t hpl[43];
564     memset(hpl,0,43*sizeof(Float_t));
565     for ( Int_t i=0; i<L2->GetCaloLevel1()->istrip; i++ ){
566     //
567     mip = L2->GetCaloLevel1()->DecodeEstrip(i,view,plane,strip);
568     //
569     nplane = 1 - view + 2 * plane;
570     if ( nplane > 37 ) nplane--;
571     if ( nplane < dgf ){
572     hpl[nplane] += mip;
573     };
574     //
575     };
576     //
577     for (Int_t i=0; i<dgf; i++){
578     for (Int_t j=0; j<dgf; j++){
579     (*matrix[rbi])[i][j] += (hpl[i] - cf->GetAverageAt(i,erig)) * (hpl[j] - cf->GetAverageAt(j,erig));
580     };
581 mocchiut 1.1 };
582 mocchiut 1.3 } else {
583     //
584     // FULL CALORIMETER
585     //
586 mocchiut 1.4 printf(" Retrieve matrix %i IEV %i \n",rbi,iev);
587     // fmatrix = cf->LoadFullMatrix(rbi);
588     // cf->LoadFullMatrix(rbi,fmatrix);
589     // fnmat = cf->LoadFullNMatrix(rbi);
590     printf(" done \n");
591     printf(" start loop \n");
592     //
593 mocchiut 1.3 CaloTrkVar *ct = L2->GetTrack(0)->GetCaloTrack();
594     //
595     Int_t nplane = 0;
596     Int_t view = 0;
597     Int_t plane = 0;
598     Int_t strip = 0;
599     Float_t mip = 0.;
600     //
601 mocchiut 1.4 // Int_t mindgf = 48;
602     // Int_t dgf = 143;
603     Int_t mindgf = 0;
604     Int_t dgf = 191;
605     // Int_t mindgf = 85;
606     // Int_t dgf = 115;
607 mocchiut 1.3 Int_t cs = 0;
608     Int_t cd = 0;
609     Int_t mstrip = 0;
610 mocchiut 1.1 //
611 mocchiut 1.3 Float_t mipv[43][191];
612     memset(mipv,0,43*191*sizeof(Float_t));
613 mocchiut 1.1 //
614 mocchiut 1.3 for ( Int_t i=0; i<L2->GetCaloLevel1()->istrip; i++ ){
615     //
616     mip = L2->GetCaloLevel1()->DecodeEstrip(i,view,plane,strip);
617     //
618     nplane = 1 - view + 2 * plane;
619     if ( nplane > 37 ) nplane--;
620     //
621     cs = ct->tibar[plane][view] - 1;
622     //
623     cd = 95 - cs;
624     //
625     mstrip = cd + strip;
626     //
627     mipv[nplane][mstrip] = mip;
628     //
629 mocchiut 1.1 };
630     //
631 mocchiut 1.4 Float_t mip1 = 1.;
632 mocchiut 1.3 Int_t cs1;
633     Int_t cd1;
634 mocchiut 1.4 Float_t mip2 = 1.;
635 mocchiut 1.3 Int_t cs2;
636     Int_t cd2;
637     Int_t mi = -1;
638     Int_t mj = -1;
639     Int_t nn1 = 0;
640     Int_t pl1 = 0;
641     Int_t vi1 = 0;
642     Int_t nn2 = 0;
643     Int_t pl2 = 0;
644     Int_t vi2 = 0;
645     Int_t mstrip1min = 0;
646     Int_t mstrip1max = 0;
647     Int_t mstrip2min = 0;
648     Int_t mstrip2max = 0;
649     //
650 mocchiut 1.4 Int_t toto = 0;
651     //
652 mocchiut 1.3 for (Int_t nplane1=0; nplane1<43; nplane1++){
653 mocchiut 1.4 if ( nplane1 >= 37 ) nn1 = nplane1 + 1;
654     vi1 = 1;
655     if ( nn1%2 ) vi1 = 0;
656     pl1 = (nn1 - 1 + vi1)/2;
657     //
658     cs1 = ct->tibar[pl1][vi1] - 1; // convertire nplane in pl1 e vi1
659     //
660     cd1 = 95 - cs1;
661     //
662     mstrip1min = TMath::Max(mindgf,(cd1+0));
663     mstrip1max = TMath::Min(dgf,(cd1+95)) + 1;
664     //
665     if ( nplane1 == 0 || nplane1 == 42 ) printf(" pl %i mstrip1min %i mstrip1max %i \n",nplane1,mstrip1min,mstrip1max);
666     //
667     for (Int_t mstrip1=mstrip1min; mstrip1<mstrip1max; mstrip1++){
668     // printf(".\n");
669     //
670 mocchiut 1.3 mj = -1;
671     //
672 mocchiut 1.4 mip1 = mipv[nplane1][mstrip1] - cf->GetFullAverageAt(nplane1,mstrip1,erig,rbi);
673     //
674     mi = (nplane1 * 191) + mstrip1;
675     //
676     // if ( mstrip1 > mstrip1min ) break;
677     // if ( mstrip1 > dgf ) break;
678     // if ( mstrip1 >= mindgf && mstrip1 <= dgf && mstrip1 >= mstrip1min && mstrip1 <= mstrip1max ){
679     //
680     // finmat[nplane1][mstrip1]++;
681     (*fnmat[rbi])[nplane1][mstrip1] += 1.;
682     //
683     if ( mip1 != 0. ){
684     //
685 mocchiut 1.3 for (Int_t nplane2=0; nplane2<43; nplane2++){
686 mocchiut 1.4 //
687     if ( nplane2 >= 37 ) nn2 = nplane2 + 1;
688     vi2 = 1;
689     if ( nn2%2 ) vi2 = 0;
690     pl1 = (nn2 - 1 + vi2)/2;
691     //
692     cs2 = ct->tibar[pl2][vi2] - 1;
693     //
694     cd2 = 95 - cs2;
695     //
696     // mstrip2min = cd2 + 0;
697     // mstrip2max = cd2 + 95;
698     mstrip2min = TMath::Max(mindgf,(cd2+0));
699     mstrip2max = TMath::Min(dgf,(cd2+95)) + 1;
700     //
701     if ( nplane1 == 0 && nplane2 == 0 && mstrip1==mstrip1min ) printf(" mstrip2min %i mstrip2max %i \n",mstrip2min,mstrip2max);
702     //
703     for (Int_t mstrip2=mstrip2min; mstrip2<mstrip2max; mstrip2++){
704 mocchiut 1.3 //
705 mocchiut 1.4 mip2 = mipv[nplane2][mstrip2] - cf->GetFullAverageAt(nplane2,mstrip2,erig,rbi);
706 mocchiut 1.3 //
707 mocchiut 1.4 if ( mip2 != 0. ){
708     //
709     mj = (nplane2 * 191) + mstrip2;
710     // mj++;
711     //
712     // if ( mstrip2 > mstrip2min ) break;
713     // if ( mstrip2 > dgf ) break;
714     // if ( mstrip2 >= mindgf && mstrip2 <= dgf && mstrip2 >= mstrip2min && mstrip2 <= mstrip2max ){
715     // if ( mstrip1 >= mstrip1min && mstrip1 <= mstrip1max && mstrip2 >= mstrip2min && mstrip2 <= mstrip2max){
716     // (*fmatrix[rbi])[mi][mj] += (mipv[nplane1][mstrip1] - cf->GetFullAverageAt(nplane1,mstrip1,erig)) * (mipv[nplane2][mstrip2] - cf->GetFullAverageAt(nplane2,mstrip2,erig));
717     // (*fnmat[rbi])[mi][mj] += 1.;
718     (*fmatrix)[mi][mj] += (mip1 * mip2); // giusto
719     toto++;
720     // (*fmatrix)[mi][mj] += 1.;
721     // cf->GetFullAverageAt(nplane1,mstrip1,erig,rbi);
722     // cf->GetFullAverageAt(nplane2,mstrip2,erig,rbi);
723     // (*fnmat)[mi][mj] += 1.;
724     // };
725 mocchiut 1.3 };
726     };
727     };
728     };
729     };
730 mocchiut 1.1 };
731 mocchiut 1.3 //
732 mocchiut 1.4 printf(" toto = %i \n",toto);
733     printf("\n done \n");
734     printf(" write matrix \n");
735     // cf->WriteFullMatrix(fmatrix, rbi);
736     // cf->WriteFullNMatrix(fnmat, rbi);
737     printf(" done \n");
738     printf(" unload matrix \n");
739     // cf->UnLoadFullMatrix(rbi);
740     // cf->UnLoadFullNMatrix(rbi);
741     printf(" done \n");
742     printf(" delete matrix \n");
743     // delete fmatrix;
744     // delete fnmat;
745     printf(" done \n");
746 mocchiut 1.1 };
747     }
748    
749     //===============================================================
750     // Save histograms
751     //
752     //
753     //
754     //
755     //
756     //===============================================================
757     void SaveHistos(){
758 mocchiut 1.2 //
759     if ( MATRIX ){
760     //
761     printf("Finished, calculating average and inverting matrices\n");
762 mocchiut 1.1 //
763 mocchiut 1.3 if ( !FULL ){
764     for (Int_t i=0; i<nbin-1; i++){
765     //
766     // determine the average matrix
767     //
768     for (Int_t ii=0; ii<43; ii++){
769     for (Int_t j=0; j<43; j++){
770     if ( (*nmat[i])[ii][j] > 0. ){
771     (*matrix[i])[ii][j] /= (*nmat[i])[ii][j];
772     } else {
773     (*matrix[i])[ii][j] = 0.;
774     };
775     };
776     };
777     //
778     cf->WriteLongMatrix(matrix[i],i);
779     //
780     if ( matrix[i]->Determinant() == 0. ){
781     printf("\n");
782     for (Int_t ii=0; ii<43; ii++){
783     for (Int_t j=0; j<43; j++){
784     printf(" %.f",(*matrix[i])[ii][j]);
785     };
786     printf("\n");
787 mocchiut 1.2 };
788 mocchiut 1.3 printf("\n");
789     printf(" ERROR: the matrix at bin %i is singular, determinant = 0., it cannot be inverted! \n",i);
790     } else {
791     Double_t det = 0.;
792     TMatrixD invmatrix = (TMatrixD)(matrix[i]->Invert(&det));
793     printf(" Bin %i determinant is %f \n",i,det);
794     cf->WriteInvertedLongMatrix((TMatrixD)invmatrix,i);
795 mocchiut 1.1 };
796     };
797 mocchiut 1.3 } else {
798 mocchiut 1.2 //
799 mocchiut 1.3 // FULL
800 mocchiut 1.2 //
801 mocchiut 1.4 // for (Int_t i=0; i<nbin-1; i++){
802     // for (Int_t i=3; i<5; i++){
803     for (Int_t i=3; i<4; i++){
804 mocchiut 1.3 //
805     // determine the average matrix
806     //
807 mocchiut 1.4 // fmatrix = cf->LoadFullMatrix(i);
808     // fnmat = cf->LoadFullNMatrix(i);
809     //
810     // for (Int_t ii=0; ii<MDIM; ii++){
811     // for (Int_t j=0; j<MDIM; j++){
812     // // if ( (*fnmat[i])[ii][j] > 0. ){
813     // // (*fmatrix[i])[ii][j] /= (*fnmat[i])[ii][j];
814     // // } else {
815     // // (*fmatrix[i])[ii][j] = 0.;
816     // // };
817     // if ( (*fnmat)[ii][j] > 0. ){
818     // (*fmatrix)[ii][j] /= (*fnmat)[ii][j];
819     // } else {
820     // (*fmatrix)[ii][j] = 0.;
821     // };
822     // };
823     // };
824     //
825     Int_t i1 = -1;
826     Int_t j1 = -1;
827     Int_t nonzero = 0;
828     Int_t nonzero1 = 0;
829     for (Int_t ii=0; ii<43; ii++){
830     for (Int_t j=0; j<191; j++){
831     // if ( (*fnmat[i])[ii][j] > 0. ){
832     // (*fmatrix[i])[ii][j] /= (*fnmat[i])[ii][j];
833     // } else {
834     // (*fmatrix[i])[ii][j] = 0.;
835     // };
836     i1 = (ii * 191) + j;
837     // j1 = -1;
838     for (Int_t iij=0; iij<43; iij++){
839     for (Int_t jj=0; jj<191; jj++){
840     //
841     j1 = (iij * 191) + jj;
842     // j1++;
843     // if ( finmat[ii][j] > 0 ){
844     // (*fmatrix)[i1][j1] /= finmat[ii][j];
845     if ( (*fnmat[i])[ii][j] == 0. || (*fmatrix)[i1][j1] == 0. || !((*fmatrix)[i1][j1] == (*fmatrix)[i1][j1]) ){
846     (*fmatrix)[i1][j1] = 0.;
847     } else {
848     (*fmatrix)[i1][j1] /= (*fnmat[i])[ii][j];
849     nonzero++;
850     if ( i1 == 0 ) nonzero1++;
851     };
852     };
853 mocchiut 1.3 };
854 mocchiut 1.2 };
855     };
856 mocchiut 1.3 //
857 mocchiut 1.4 printf(" Matrix has %i non-zero elements \n",nonzero);
858     printf(" Matrix has %i non-zero elements on the first row\n",nonzero1);
859     //
860     // Bool_t BAD = false;
861     // for (Int_t ii=0; ii<43; ii++){
862     // for (Int_t j=0; j<191; j++){
863     // //
864     // i1 = (ii * 191) + j;
865     // //
866     // for (Int_t iij=0; iij<43; iij++){
867     // for (Int_t jj=0; jj<191; jj++){
868     // //
869     // j1 = (iij * 191) + jj;
870     // //
871     // // printf(" ROW %i COLUMN %i VALUE %f \n",i1,j1,(*fmatrix)[i1][j1]);
872     // if ( (*fmatrix)[i1][j1] == 0. || !((*fmatrix)[i1][j1]==(*fmatrix)[i1][j1]) ){
873     // printf(" ROW %i COLUMN %i VALUE %f \n",i1,j1,(*fmatrix)[i1][j1]);
874     // printf(" che schifo! \n");
875     // BAD = true;
876     // };
877     // //
878     // };
879     // };
880     // };
881     // };
882     // //
883     // if ( BAD ) printf(" questa matrice fa cagare \n");
884     //
885     //
886     // cf->WriteFullMatrix(fmatrix[i],i);
887     cf->WriteFullMatrix(fmatrix, i);
888     // cf->WriteFullNMatrix(fnmat, i);
889     cf->WriteFullNMatrix(fnmat[i], i);
890 mocchiut 1.3 //
891 mocchiut 1.4 // if ( fmatrix[i]->Determinant() == 0. ){
892     if ( fmatrix->Determinant() == 0. ){
893 mocchiut 1.3 printf(" ERROR: the matrix at bin %i is singular, determinant = 0., it cannot be inverted! \n",i);
894     } else {
895     Double_t det = 0.;
896 mocchiut 1.4 // TMatrixF invmatrix = (TMatrixF)(fmatrix[i]->Invert(&det));
897     // printf(" Bin %i determinant is %f \n",i,det);
898     // cf->WriteInvertedFullMatrix((TMatrixF)invmatrix,i);
899     TMatrixF invmatrix = (TMatrixF)(fmatrix->Invert(&det));
900 mocchiut 1.3 printf(" Bin %i determinant is %f \n",i,det);
901     cf->WriteInvertedFullMatrix((TMatrixF)invmatrix,i);
902     };
903 mocchiut 1.4 //
904     cf->UnLoadFullMatrix(i);
905     // cf->UnLoadFullNMatrix(i);
906     delete fmatrix;
907     // delete fnmat;
908     //
909 mocchiut 1.1 };
910     };
911 mocchiut 1.2 //
912     printf(" done, closing file and exiting\n");
913     //
914 mocchiut 1.1 };
915 mocchiut 1.2 //
916 mocchiut 1.1 cf->CloseMatrixFile();
917 mocchiut 1.2 //
918 mocchiut 1.1 cf->Delete();
919 mocchiut 1.2 //
920 mocchiut 1.1 }
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