/[PAMELA software]/DarthVader/CalorimeterLevel2/src/CaloLevel0.cpp
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Annotation of /DarthVader/CalorimeterLevel2/src/CaloLevel0.cpp

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Revision 1.3 - (hide annotations) (download)
Thu May 10 10:12:52 2007 UTC (17 years, 7 months ago) by mocchiut
Branch: MAIN
CVS Tags: v3r05
Changes since 1.2: +13 -4 lines
Bug in crosstalk correction fixed

1 mocchiut 1.1 /**
2     * \file src/CaloLevel0.cpp
3     * \author Emiliano Mocchiutti
4     **/
5     //
6     // C/C++ headers
7     //
8     #include <sstream>
9     #include <fstream>
10     //
11     // ROOT headers
12     //
13     #include <TTree.h>
14     #include <TBranch.h>
15     #include <TFile.h>
16     #include <TObject.h>
17     //
18     // YODA headers
19     //
20     #include <PamelaRun.h>
21     #include <physics/calorimeter/CalorimeterEvent.h>
22     #include <CalibCalPedEvent.h>
23     //
24     //
25     //
26     #include <GLTables.h>
27     //
28     // this package headers
29     //
30     #include <delay.h>
31     #include <CaloLevel0.h>
32     //
33     //
34     // Declaration of the core fortran routines
35     //
36     #define calol2cm calol2cm_
37     extern "C" int calol2cm();
38     #define calol2tr calol2tr_
39     extern "C" int calol2tr();
40     //
41     using namespace std;
42     //
43     //
44     // Public methods
45     //
46    
47     CaloLevel0::~CaloLevel0(){
48     if ( de ) delete de;
49     delete this;
50     }
51    
52     CaloLevel0::CaloLevel0(){
53     //
54     extern struct FlCaLevel1 clevel1_;
55     extern struct FlCaLevel2 clevel2_;
56     clevel1 = &clevel1_;
57     clevel2 = &clevel2_;
58     //
59     trkseqno = 0;
60     ClearStructs();
61     //
62     memset(dexy, 0, 2*22*96*sizeof(Float_t));
63     memset(dexyc, 0, 2*22*96*sizeof(Float_t));
64     memset(mip, 0, 2*22*96*sizeof(Float_t));
65     memset(base, 0, 2*22*6*sizeof(Float_t));
66     memset(sbase, 0, 2*22*6*sizeof(Float_t));
67     calopar1 = true;
68     calopar2 = true;
69     calopar3 = true;
70     crosst = true;
71     ftcalopar1 = 0;
72     ttcalopar1 = 0;
73     ftcalopar2 = 0;
74     ttcalopar2 = 0;
75     ftcalopar3 = 0;
76     ttcalopar3 = 0;
77     }
78    
79     void CaloLevel0::SetCrossTalk(Bool_t ct){
80     crosst = ct;
81     };
82    
83     void CaloLevel0::SetVerbose(Bool_t ct){
84     verbose = ct;
85     };
86    
87     /**
88     * Initialize CaloLevel0 object
89     **/
90     void CaloLevel0::ProcessingInit(TSQLServer *dbc, UInt_t hs, Int_t &sgnl, TTree *l0tree, Bool_t isdeb, Bool_t isverb){
91     //
92     debug = isdeb;
93     verbose = isverb;
94     //
95     l0tr=(TTree*)l0tree;
96     de = new pamela::calorimeter::CalorimeterEvent();
97     l0calo = (TBranch*)l0tr->GetBranch("Calorimeter");
98     l0tr->SetBranchAddress("Calorimeter", &de);
99     //
100     trkseqno = 0;
101     ClearStructs();
102     //
103     GL_CALO_CALIB *glcalo = new GL_CALO_CALIB();
104     //
105     sgnl = 0;
106     UInt_t uptime = 0;
107     //
108     for (Int_t s = 0; s < 4; s++){
109     idcalib[s] = 0;
110     fromtime[s] = 0;
111     totime[s] = 0;
112     calibno[s] = 0;
113     ClearCalibVals(s);
114     //
115     sgnl = glcalo->Query_GL_CALO_CALIB(hs,uptime,s,dbc);
116     if ( sgnl < 0 ){
117     if ( verbose ) printf(" CALORIMETER - ERROR: error from GLTables\n");
118     return;
119     };
120     //
121     idcalib[s] = glcalo->ID_ROOT_L0;
122     fromtime[s] = glcalo->FROM_TIME;
123     if ( glcalo->TO_TIME < hs ){ // calibration is corrupted and we are using the one that preceed the good one
124     totime[s] = uptime;
125     } else {
126     totime[s] = glcalo->TO_TIME;
127     };
128     calibno[s] = glcalo->EV_ROOT;
129     //
130     if ( totime[s] == 0 ){
131     if ( verbose ) printf(" CALORIMETER - WARNING: data with no associated calibration\n");
132     ClearCalibVals(s);
133     sgnl = 100;
134     };
135     };
136     //
137     // determine path and name and entry of the calibration file
138     //
139     GL_ROOT *glroot = new GL_ROOT();
140     if ( verbose ) printf("\n");
141     for (Int_t s = 0; s < 4; s++){
142     if ( verbose ) printf(" ** SECTION %i **\n",s);
143     if ( totime[s] > 0 ){
144     //
145     sgnl = glroot->Query_GL_ROOT(idcalib[s],dbc);
146     if ( sgnl < 0 ){
147     if ( verbose ) printf(" CALORIMETER - ERROR: error from GLTables\n");
148     return;
149     };
150     //
151     stringstream name;
152     name.str("");
153     name << glroot->PATH.Data() << "/";
154     name << glroot->NAME.Data();
155     //
156     fcalname[s] = (TString)name.str().c_str();
157     if ( verbose ) printf(" - runheader at time %u. From time %u to time %u \n use file %s \n calibration at entry %i \n\n",hs,fromtime[s],totime[s],fcalname[s].Data(),calibno[s]);
158     } else {
159     if ( verbose ) printf(" - runheader at time %u. NO CALIBRATION INCLUDE THE RUNHEADER! ",hs);
160     };
161     sgnl = LoadCalib(s);
162     if ( sgnl ) break;
163     };
164     //
165     delete glcalo;
166     delete glroot;
167     //
168     return;
169     //
170     }
171    
172     Int_t CaloLevel0::ChkCalib(TSQLServer *dbc, UInt_t atime){
173     Int_t sgnl = 0;
174     for ( Int_t s = 0; s < 4; s++){
175     if ( atime > totime[s] ){
176     if ( !dbc->IsConnected() ) throw -116;
177     sgnl = Update(dbc,atime,s);
178     if ( sgnl < 0 ) return(sgnl);
179     };
180     };
181     return(sgnl);
182     }
183    
184 mocchiut 1.2 Int_t CaloLevel0::ChkParam(TSQLServer *dbc, UInt_t runheader, Bool_t mechal){
185 mocchiut 1.1 stringstream calfile;
186     stringstream bmfile;
187     stringstream aligfile;
188     Int_t error = 0;
189     FILE *f = 0;
190     ifstream badfile;
191     GL_PARAM *glparam = new GL_PARAM();
192     //
193     if ( calopar1 || ( ttcalopar1 != 0 && ttcalopar1 < runheader ) ){
194 mocchiut 1.2 //
195     //
196     //
197     if ( debug ) printf(" calopar1 %i ftcalopar1 %u ttcalopar1 %u runheader %u \n",calopar1,ftcalopar1,ttcalopar1,runheader);
198     //
199 mocchiut 1.1 calopar1 = false;
200     //
201     // determine where I can find calorimeter ADC to MIP conversion file
202     //
203     if ( verbose ) printf(" Querying DB for calorimeter parameters files...\n");
204     //
205     error = 0;
206     error = glparam->Query_GL_PARAM(runheader,101,dbc);
207     if ( error < 0 ) return(error);
208     //
209     calfile.str("");
210     calfile << glparam->PATH.Data() << "/";
211     calfile << glparam->NAME.Data();
212     ftcalopar1 = glparam->FROM_TIME;
213     ttcalopar1 = glparam->TO_TIME;
214     //
215     if ( verbose ) printf("\n Using ADC to MIP conversion file: \n %s \n",calfile.str().c_str());
216     f = fopen(calfile.str().c_str(),"rb");
217     if ( !f ){
218     if ( verbose ) printf(" CALORIMETER - ERROR: no ADC to MIP file!\n");
219     return(-105);
220     };
221     //
222     for (Int_t m = 0; m < 2 ; m++ ){
223     for (Int_t k = 0; k < 22; k++ ){
224     for (Int_t l = 0; l < 96; l++ ){
225     fread(&mip[m][k][l],sizeof(mip[m][k][l]),1,f);
226     };
227     };
228     };
229     fclose(f);
230     };
231     //
232     if ( calopar2 || ( ttcalopar2 != 0 && ttcalopar2 < runheader ) ){
233 mocchiut 1.2 if ( debug ) printf(" calopar2 %i ftcalopar2 %u ttcalopar2 %u runheader %u \n",calopar2,ftcalopar2,ttcalopar2,runheader);
234 mocchiut 1.1 calopar2 = false;
235     //
236     // determine where I can find calorimeter alignment file
237     //
238     //
239     error = 0;
240     error = glparam->Query_GL_PARAM(runheader,102,dbc);
241     if ( error < 0 ) return(error);
242     //
243     aligfile.str("");
244     aligfile << glparam->PATH.Data() << "/";
245     aligfile << glparam->NAME.Data();
246     ftcalopar2 = glparam->FROM_TIME;
247     ttcalopar2 = glparam->TO_TIME;
248     //
249 mocchiut 1.2 if ( verbose ) printf("\n Using parameter file: \n %s \n",aligfile.str().c_str());
250 mocchiut 1.1 f = fopen(aligfile.str().c_str(),"rb");
251     if ( !f ){
252 mocchiut 1.2 if ( verbose ) printf(" CALORIMETER - ERROR: no parameter file!\n");
253 mocchiut 1.1 return(-106);
254     };
255     //
256 mocchiut 1.2 if ( !mechal ){
257     //
258     fread(&clevel1->xalig,sizeof(clevel1->xalig),1,f);
259     if ( debug ) printf(" xalig = %f \n",clevel1->xalig);
260     fread(&clevel1->yalig,sizeof(clevel1->yalig),1,f);
261     if ( debug ) printf(" yalig = %f \n",clevel1->yalig);
262     fread(&clevel1->zalig,sizeof(clevel1->zalig),1,f);
263     if ( debug ) printf(" zalig = %f \n",clevel1->zalig);
264     } else {
265     if ( verbose ) printf("\n Using MECHANICAL alignement parameters \n");
266     //
267     CaloStrip cs = CaloStrip();
268     cs.UseMechanicalAlig();
269     clevel1->xalig = cs.GetXalig();
270     if ( debug ) printf(" xalig = %f \n",clevel1->xalig);
271     clevel1->yalig = cs.GetYalig();
272     if ( debug ) printf(" yalig = %f \n",clevel1->yalig);
273     clevel1->zalig = cs.GetZalig();
274     if ( debug ) printf(" zalig = %f \n",clevel1->zalig);
275     //
276     Float_t tmp = 0;
277     fread(&tmp,sizeof(clevel1->xalig),1,f);
278     fread(&tmp,sizeof(clevel1->yalig),1,f);
279     fread(&tmp,sizeof(clevel1->zalig),1,f);
280     //
281     };
282 mocchiut 1.1 fread(&clevel1->emin,sizeof(clevel1->emin),1,f);
283     if ( debug ) printf(" signal threshold = %f \n",clevel1->emin);
284     //
285     fclose(f);
286     };
287     //
288     // Load offline bad strip mask
289     //
290     if ( calopar3 || ( ttcalopar3 != 0 && ttcalopar3 < runheader ) ){
291 mocchiut 1.2 if ( debug ) printf(" calopar3 %i ftcalopar3 %u ttcalopar3 %u runheader %u \n",calopar3,ftcalopar3,ttcalopar3,runheader);
292 mocchiut 1.1 calopar3 = false;
293     //
294     // determine where I can find calorimeter alignment file
295     //
296     //
297     error = 0;
298     error = glparam->Query_GL_PARAM(runheader,103,dbc);
299     if ( error < 0 ) return(error);
300     //
301     bmfile.str("");
302     bmfile << glparam->PATH.Data() << "/";
303     bmfile << glparam->NAME.Data();
304     ftcalopar3 = glparam->FROM_TIME;
305     ttcalopar3 = glparam->TO_TIME;
306     //
307     if ( verbose ) printf("\n Using bad strip offline mask file: \n %s \n\n",bmfile.str().c_str());
308     badfile.open(bmfile.str().c_str());
309     if ( !badfile ){
310     if ( verbose ) printf(" CALORIMETER - ERROR: no bad strip offline mask file!\n");
311     return(-115);
312     };
313     //
314     Bool_t isdone = false;
315     Int_t bad = 0;
316     Int_t view = 1;
317     Int_t strip = 0;
318     Int_t plane = 21;
319     while ( !isdone ) {
320     badfile >> bad;
321     obadmask[view][plane][strip] = bad;
322     if ( debug && bad ) printf(" SETTING view %i plane %i strip %i BAD = %i \n",view,plane,strip,bad);
323     strip++;
324     if ( strip > 95 ){
325     strip = 0;
326     plane--;
327     if ( plane < 0 ){
328     plane = 21;
329     view--;
330     };
331     if ( view < 0 ) isdone = true;
332     };
333     };
334     //
335     badfile.close();
336     };
337     //
338     delete glparam;
339     //
340     return(0);
341     }
342    
343    
344    
345     void CaloLevel0::FindBaseRaw(Int_t l, Int_t m, Int_t pre){
346     Float_t minstrip = 100000.;
347     Float_t rms = 0.;
348     base[l][m][pre] = 0.;
349     for (Int_t e = pre*16; e < (pre+1)*16 ; e++){
350     if ( calgood[l][m][e] == 0. && obadmask[l][m][e] == 0 && dexy[l][m][e]-calped[l][m][e] < minstrip && dexy[l][m][e] > 0.) {
351     minstrip = dexy[l][m][e]-calped[l][m][e];
352     rms = calthr[l][m][pre];
353     };
354     };
355     if ( minstrip != 100000. ) {
356     Float_t strip6s = 0.;
357     for (Int_t e = pre*16; e < (pre+1)*16 ; e++){
358     if ( (dexy[l][m][e]-calped[l][m][e]) >= minstrip && (dexy[l][m][e]-calped[l][m][e]) <= (minstrip+rms) ) {
359     strip6s += 1.;
360     base[l][m][pre] += (dexy[l][m][e] - calped[l][m][e]);
361     };
362     //
363     // compression
364     //
365     if ( abs((int)(dexy[l][m][e]-calped[l][m][e])) <= (minstrip+rms) ) {
366     dexyc[l][m][e] = 0.;
367     } else {
368     dexyc[l][m][e] = dexy[l][m][e];
369     };
370     };
371     if ( strip6s >= 9. ){
372     Double_t arro = base[l][m][pre]/strip6s;
373     Float_t deci = 1000.*((float)arro - float(int(arro)));
374     if ( deci < 500. ) {
375     arro = double(int(arro));
376     } else {
377     arro = 1. + double(int(arro));
378     };
379     base[l][m][pre] = arro;
380     } else {
381     base[l][m][pre] = 31000.;
382     for (Int_t e = pre*16; e < (pre+1)*16 ; e++){
383     dexyc[l][m][e] = dexy[l][m][e];
384     };
385     };
386     } else {
387     base[l][m][pre] = 31000.;
388     };
389     }
390    
391     Int_t CaloLevel0::Calibrate(Int_t ei){
392     //
393     // get entry ei
394     //
395     l0calo->GetEntry(ei);
396     //
397     // if it was not a selftrigger event, could it ever been a selftrigger event? if so trigty = 3.
398     //
399     Int_t val = 0;
400     Int_t del = 1100;
401     if ( clevel2->trigty != 2. ){
402     Bool_t ck = false;
403     for (Int_t sec = 0; sec < 4; sec++){
404     val = (Int_t)de->calselftrig[sec][6];
405     del = delay(val);
406     if ( del < 1100 ){
407     clevel2->wartrig = 0.;
408     clevel2->trigty = 3.;
409     ck = true;
410     break;
411     };
412     };
413     if ( !ck ) clevel2->wartrig = 100.;
414     } else {
415     Bool_t ck = false;
416     for (Int_t sec = 0; sec < 4; sec++){
417     val = (Int_t)de->calselftrig[sec][6];
418     del = delay(val);
419     if ( del < 1100 ){
420     clevel2->wartrig = 0.;
421     ck = true;
422     };
423     };
424     if ( !ck ) clevel2->wartrig = 100.;
425     };
426     //
427     Int_t se = 5;
428     Int_t done = 0;
429     Int_t pre = -1;
430     Bool_t isCOMP = false;
431     Bool_t isFULL = false;
432     Bool_t isRAW = false;
433     Float_t ener;
434     Int_t doneb = 0;
435     Int_t donec = 0;
436     Int_t ck = 0;
437     Int_t ipre = 0;
438     Int_t ip[3] = {0};
439     Float_t base0, base1, base2;
440     base0 = 0.;
441     base1 = 0.;
442     base2 = 0.;
443     Float_t qpre[6] = {0.,0.,0.,0.,0.,0.};
444     Float_t ene[96];
445     Int_t chdone[4] = {0,0,0,0};
446     Int_t pe = 0;
447     //
448     Float_t ener0 = 0.;
449     Float_t cbase0 = 0.;
450     Bool_t pproblem = false;
451     //
452     Float_t tim = 0.;
453     Int_t plo = 0;
454     Int_t fbi = 0;
455     Int_t cle = 0;
456     //
457     // run over views and planes
458     //
459     for (Int_t l = 0; l < 2; l++){
460     for (Int_t m = 0; m < 22; m++){
461     //
462 mocchiut 1.2 // determine the section number
463 mocchiut 1.1 //
464     se = 5;
465 mocchiut 1.2 if (l == 0 && m%2 == 0) se = 3;
466 mocchiut 1.1 if (l == 0 && m%2 != 0) se = 2;
467 mocchiut 1.2 if (l == 1 && m%2 != 0) se = 1;
468     if (l == 1 && m%2 == 0) se = 0;
469 mocchiut 1.1 //
470     // determine what kind of event we are going to analyze
471     //
472     isCOMP = false;
473     isFULL = false;
474     isRAW = false;
475     if ( de->stwerr[se] & (1 << 16) ) isCOMP = true;
476     if ( de->stwerr[se] & (1 << 17) ) isFULL = true;
477     if ( de->stwerr[se] & (1 << 3) ) isRAW = true;
478     if ( !chdone[se] ){
479     //
480     // check for any error in the event
481     //
482     clevel2->crc[se] = 0;
483     if ( de->perror[se] == 132 ){
484     clevel2->crc[se] = 1;
485     pe++;
486     };
487     clevel2->perr[se] = 0;
488     if ( de->perror[se] != 0 ){
489     clevel2->perr[se] = 1;
490     pe++;
491     };
492     clevel2->swerr[se] = 0;
493     for (Int_t j = 0; j < 7 ; j++){
494     if ( (j != 3) && (de->stwerr[se] & (1 << j)) ){
495     clevel2->swerr[se] = 1;
496     pe++;
497     };
498     };
499     chdone[se] = 1;
500     };
501     if ( clevel2->crc[se] == 0 && (clevel1->good2 == 1 || clevel2->trigty >= 2) ){
502     pre = -1;
503     //
504     for (Int_t nn = 0; nn < 96; nn++){
505     ene[nn] = 0.;
506     dexy[l][m][nn] = de->dexy[l][m][nn] ;
507     dexyc[l][m][nn] = de->dexyc[l][m][nn] ;
508     };
509     //
510     // run over preamplifiers
511     //
512     pre = -1;
513     cbase0 = 0.;
514     for (Int_t i = 0; i < 3; i++){
515     for (Int_t j = 0; j < 2; j++){
516     pre = j + i*2;
517     //
518     // baseline check and calculation
519     //
520     if ( !isRAW ) {
521     base[l][m][pre] = de->base[l][m][pre] ;
522     cbase0 += base[l][m][pre];
523     } else {
524     //
525     // if it is a raw event and we haven't checked
526     // yet, calculate the baseline.
527     //
528     FindBaseRaw(l,m,pre);
529     cbase0 += base[l][m][pre];
530     };
531     };
532     };
533     //
534     // run over strips
535     //
536     pre = -1;
537     ener0 = 0.;
538     for (Int_t i = 0 ; i < 3 ; i++){
539     ip[i] = 0;
540     for (Int_t n = i*32 ; n < (i+1)*32 ; n++){
541     if (n%16 == 0) {
542     ck = 0;
543     done = 0;
544     doneb = 0;
545     donec = 0;
546     pre++;
547     qpre[pre] = 0.;
548     };
549     //
550     // baseline check and calculation
551     //
552     // no suitable new baseline, use old ones!
553     //
554     if ( !done ){
555     if ( (base[l][m][pre] == 31000. || base[l][m][pre] == 0.) ){
556     ck = 1;
557     if (pre%2 == 0) {
558     ip[i] = pre + 1;
559     } else {
560     ip[i] = pre - 1;
561     };
562 mocchiut 1.3 if ( (base[l][m][ip[i]] == 31000. || base[l][m][ip[i]] == 0. || !crosst ) ){
563 mocchiut 1.1 //
564     ck = 2;
565     if ( sbase[l][m][pre] == 31000. || sbase[l][m][pre] == 0. ) {
566     ck = 3;
567     };
568     };
569     done = 1;
570     };
571     };
572     //
573     // CALIBRATION ALGORITHM
574     //
575     if ( !doneb ){
576 mocchiut 1.3 if ( debug ) printf(" ck is %i \n",ck);
577 mocchiut 1.1 switch (ck) {
578     case 0:
579     base0 = base[l][m][pre];
580     base2 = calbase[l][m][pre];
581 mocchiut 1.3 if ( debug ) printf(" base0 = base l m pre = %f base2 = calbase l m pre = %f \n",base[l][m][pre],calbase[l][m][pre]);
582 mocchiut 1.1 break;
583     case 1:
584     base0 = base[l][m][ip[i]];
585     base2 = calbase[l][m][ip[i]];
586 mocchiut 1.3 if ( debug ) printf(" base0 = base l m ip(i) = %f base2 = calbase l m ip(i) = %f \n",base[l][m][ip[i]],calbase[l][m][ip[i]]);
587 mocchiut 1.1 break;
588     case 2:
589     base0 = sbase[l][m][pre];
590 mocchiut 1.3 base2 = calbase[l][m][pre];
591     if ( debug ) printf(" base0 = sbase l m pre = %f base2 = calbase l m pre = %f \n",sbase[l][m][pre],calbase[l][m][pre]);
592 mocchiut 1.1 break;
593     case 3:
594     base0 = calbase[l][m][pre];
595     base2 = calbase[l][m][pre];
596 mocchiut 1.3 if ( debug ) printf(" base0 = calbase l m pre = %f base2 = calbase l m pre = %f \n",calbase[l][m][pre],calbase[l][m][pre]);
597 mocchiut 1.1 break;
598     };
599     base1 = calbase[l][m][pre];
600     doneb = 1;
601     };
602     ener = dexyc[l][m][n];
603     ener0 += ener;
604     clevel1->estrip[n][m][l] = 0.;
605     if ( base0>0 && base0 < 30000. ){
606 mocchiut 1.3 // if ( !donec && (base0 - base1 + base2) != 0. ){
607     // sbase[l][m][pre] = base0 - base1 + base2;
608     if ( !donec && (base0 + base1 - base2) != 0. ){
609     sbase[l][m][pre] = base0 + base1 - base2;
610 mocchiut 1.1 donec = 1;
611     };
612     if ( ener > 0. ){
613     clevel1->estrip[n][m][l] = (ener - calped[l][m][n] - base0 - base1 + base2)/mip[l][m][n] ;
614     //
615     // OK, now in estrip we have the energy deposit in MIP of all the strips for this event (at the end of loops of course)
616     //
617     qpre[pre] += clevel1->estrip[n][m][l];
618 mocchiut 1.3 //
619     //
620 mocchiut 1.1 };
621     };
622     };
623     if ( crosst ){
624     if (ck == 1){
625     if (ip[i]%2 == 0) {
626     ipre = ip[i] + 1;
627     } else {
628     ipre = ip[i] - 1;
629     };
630     for (Int_t j = ipre*16 ; j < (ipre+1)*16 ; j++){
631     clevel1->estrip[j][m][l] += (qpre[ipre] - qpre[ip[i]]) * 0.00478;
632     };
633     };
634     if (ck == 2){
635     for (Int_t j = i*32 ; j < (i+1)*32 ; j++){
636     ipre = j/16 + 1;
637     clevel1->estrip[j][m][l] += qpre[ipre] * 0.00478;
638     };
639     };
640     };
641     };
642     //
643     if ( ener0 == 0. && cbase0 == 0. && !pproblem && clevel2->perr[se] == 0){
644     if ( verbose ) printf(" L0 entry %i : calorimeter power problems! event marked as bad perr %f swerr %X view %i plane %i \n",ei,de->perror[se],de->stwerr[se],l,m);
645     pproblem = true;
646     pe++;
647     };
648     //
649     Int_t j4 = -4;
650     Int_t jjj = -3;
651     Int_t jj = -2;
652     for (Int_t j = 0 ; j < 100 ; j++){
653     jj++;
654     jjj++;
655     j4++;
656     if ( j < 96 ) ene[j] = clevel1->estrip[j][m][l];
657     if ( crosst ){
658     if ( jj >= 0 && jj < 96 ){
659     if ( jj != 0 && jj != 32 && jj != 64 ) ene[jj-1] += -clevel1->estrip[jj][m][l] * 0.01581;
660     if ( jj != 31 && jj != 63 && jj != 95 ) ene[jj+1] += -clevel1->estrip[jj][m][l] * 0.01581;
661     };
662     if ( jjj >= 0 && jjj < 96 ){
663     if ( jjj != 0 && jjj != 32 && jjj != 64 ) clevel1->estrip[jjj-1][m][l] += -ene[jjj] * 0.01581;
664     if ( jjj != 31 && jjj != 63 && jjj != 95 ) clevel1->estrip[jjj+1][m][l] += -ene[jjj] * 0.01581;
665     };
666     };
667     if ( j4 >= 0 && j4 < 96 ){
668     //
669     // NOTICE: THE FOLLOWING LINE EXCLUDE ALL STRIPS FOR WHICH THE RMS*4 IS GREATER THAN 26 !!! <=============== IMPORTANT! =================>
670     //
671     if ( obadmask[l][m][j4] == 1 || clevel1->estrip[j4][m][l] <= clevel1->emin || calrms[l][m][j4] > 26 ){
672     clevel1->estrip[j4][m][l] = 0.;
673     };
674     //
675     // code and save the energy for each strip in svstrip
676     //
677     if ( clevel1->estrip[j4][m][l] > clevel1->emin ){
678     //
679     tim = 100000.;
680     plo = m;
681     fbi = 0;
682     if ( clevel1->estrip[j4][m][l] > 0.99995 ){
683     tim = 10000.;
684     plo = m;
685     fbi = 1;
686     };
687     if ( clevel1->estrip[j4][m][l] > 9.9995 ){
688     tim = 1000.;
689     plo = 22 + m;
690     fbi = 1;
691     };
692     if ( clevel1->estrip[j4][m][l] > 99.995 ){
693     tim = 100.;
694     plo = 22 + m;
695     fbi = 0;
696     };
697     if ( clevel1->estrip[j4][m][l] > 999.95 ){
698     tim = 10.;
699     plo = 44 + m;
700     fbi = 0;
701     };
702     if ( clevel1->estrip[j4][m][l] > 9999.5 ){
703     tim = 1.;
704     plo = 66 + m;
705     fbi = 0;
706     };
707     //
708     cle = (Int_t)lroundf(tim*clevel1->estrip[j4][m][l]);
709     //
710     if ( l == 0 ){
711     //
712     // +-PPSSmmmm.mmmm
713     //
714     svstrip[istrip] = fbi*1000000000 + plo*10000000 + j4*100000 + cle;
715     } else {
716     svstrip[istrip] = -(fbi*1000000000 + plo*10000000 + j4*100000 + cle);
717     };
718     //
719     // if ( ei >= -770 ) printf(" j %i l %i m %i estrip %f \n",j4,l,m,clevel1->estrip[j4][m][l]);
720     // if ( ei >= -770 ) printf(" num lim %i fbi %i tim %f plo %i cle %i \n",numeric_limits<Int_t>::max(),fbi,tim,plo,cle);
721     // if ( ei >= -770 ) printf(" svstrip %i \n",svstrip[istrip]);
722     //
723     istrip++;
724     };
725     };
726     };
727     //
728     } else {
729     for (Int_t nn = 0; nn < 96; nn++){
730     clevel1->estrip[nn][m][l] = 0.;
731     };
732     };
733     };
734     };
735     if ( !pe ){
736     clevel2->good = 1;
737     } else {
738     clevel2->good = 0;
739     };
740     return(0);
741     }
742    
743     void CaloLevel0::GetTrkVar(){
744     calol2tr();
745     }
746    
747     void CaloLevel0::FillTrkVar(CaloLevel2 *ca, Int_t nutrk){
748     //
749     CaloTrkVar *t_ca = new CaloTrkVar();
750     //
751     t_ca->trkseqno = trkseqno;
752     t_ca->ncore = (Int_t)clevel2->ncore;
753     t_ca->qcore = clevel2->qcore;
754     t_ca->noint = (Int_t)clevel2->noint;
755     t_ca->ncyl = (Int_t)clevel2->ncyl;
756     t_ca->qcyl = clevel2->qcyl;
757     t_ca->qtrack = clevel2->qtrack;
758     t_ca->qtrackx = clevel2->qtrackx;
759     t_ca->qtracky = clevel2->qtracky;
760     t_ca->dxtrack = clevel2->dxtrack;
761     t_ca->dytrack = clevel2->dytrack;
762     t_ca->qlast = clevel2->qlast;
763     t_ca->nlast = (Int_t)clevel2->nlast;
764     t_ca->qpre = clevel2->qpre;
765     t_ca->npre = (Int_t)clevel2->npre;
766     t_ca->qpresh = clevel2->qpresh;
767     t_ca->npresh = (Int_t)clevel2->npresh;
768     t_ca->qtr = clevel2->qtr;
769     t_ca->ntr = (Int_t)clevel2->ntr;
770     t_ca->planetot = (Int_t)clevel2->planetot;
771     t_ca->qmean = clevel2->qmean;
772     t_ca->dX0l = clevel2->dX0l;
773     t_ca->qlow = clevel2->qlow;
774     t_ca->nlow = (Int_t)clevel2->nlow;
775     //
776     if ( trkseqno == -1 ){
777     // ca->impx = clevel2->impx;
778     // ca->impy = clevel2->impy;
779     ca->tanx[1] = clevel2->tanx;
780     ca->tany[1] = clevel2->tany;
781     ca->elen = clevel2->elen;
782     ca->selen = clevel2->selen;
783     // memcpy(ca->cibar,clevel2->cibar,sizeof(clevel2->cibar));
784     // memcpy(ca->cbar,clevel2->cbar,sizeof(clevel2->cbar));
785     memcpy(t_ca->tibar,clevel2->cibar,sizeof(clevel2->cibar));
786     memcpy(t_ca->tbar,clevel2->cbar,sizeof(clevel2->cbar));
787     memcpy(ca->planemax,clevel2->planemax,sizeof(clevel2->planemax));
788     ca->varcfit[2] = clevel2->varcfit[0];
789     ca->varcfit[3] = clevel2->varcfit[1];
790     ca->npcfit[2] = clevel2->npcfit[0];
791     ca->npcfit[3] = clevel2->npcfit[1];
792     // memcpy(ca->varcfit,clevel2->varcfit,sizeof(clevel2->varcfit));
793     // memcpy(ca->npcfit,clevel2->npcfit,sizeof(clevel2->npcfit));
794     } else {
795     memcpy(t_ca->tibar,clevel2->tibar,sizeof(clevel2->tibar));
796     memcpy(t_ca->tbar,clevel2->tbar,sizeof(clevel2->tbar));
797     };
798     //
799     //
800     if ( !(ca->CaloTrk) ) ca->CaloTrk = new TClonesArray("CaloTrkVar",1); //ELENA
801     TClonesArray &t = *ca->CaloTrk;
802     new(t[nutrk]) CaloTrkVar(*t_ca);
803     //
804     delete t_ca;
805     //
806     ClearTrkVar();
807     }
808    
809     void CaloLevel0::GetCommonVar(){
810     calol2cm();
811     }
812    
813     void CaloLevel0::FillCommonVar(CaloLevel1 *c1, CaloLevel2 *ca){
814     //
815     ca->good = clevel2->good;
816     if ( clevel2->trigty == 2. ){
817     ca->selftrigger = 1;
818     } else {
819     ca->selftrigger = 0;
820     };
821     //
822     ca->selftrigger += (Int_t)clevel2->wartrig;
823     //
824     memcpy(ca->perr,clevel2->perr,sizeof(clevel2->perr));
825     memcpy(ca->swerr,clevel2->swerr,sizeof(clevel2->swerr));
826     memcpy(ca->crc,clevel2->crc,sizeof(clevel2->crc));
827     ca->nstrip = (Int_t)clevel2->nstrip;
828     ca->qtot = clevel2->qtot;
829     // ca->impx = clevel2->impx;
830     // ca->impy = clevel2->impy;
831     ca->tanx[0] = clevel2->tanx;
832     ca->tany[0] = clevel2->tany;
833     ca->nx22 = (Int_t)clevel2->nx22;
834     ca->qx22 = clevel2->qx22;
835     ca->qmax = clevel2->qmax;
836     ca->elen = clevel2->elen;
837     ca->selen = clevel2->selen;
838     memcpy(ca->qq,clevel2->qq,sizeof(clevel2->qq));
839     memcpy(ca->planemax,clevel2->planemax,sizeof(clevel2->planemax));
840     ca->varcfit[0] = clevel2->varcfit[0];
841     ca->varcfit[1] = clevel2->varcfit[1];
842     ca->npcfit[0] = clevel2->npcfit[0];
843     ca->npcfit[1] = clevel2->npcfit[1];
844     ca->fitmode[0] = clevel2->fmode[0];
845     ca->fitmode[1] = clevel2->fmode[1];
846     // memcpy(ca->varcfit,clevel2->varcfit,sizeof(clevel2->varcfit));
847     // memcpy(ca->npcfit,clevel2->npcfit,sizeof(clevel2->npcfit));
848     memcpy(ca->cibar,clevel2->cibar,sizeof(clevel2->cibar));
849     memcpy(ca->cbar,clevel2->cbar,sizeof(clevel2->cbar));
850     //
851     if ( c1 ){
852     c1->istrip = istrip;
853     c1->estrip = TArrayI(istrip,svstrip);
854     };
855     //
856     }
857    
858     void CaloLevel0::ClearStructs(){
859     ClearTrkVar();
860     ClearCommonVar();
861     }
862    
863     void CaloLevel0::RunClose(){
864     l0tr->Delete();
865     ClearStructs();
866     //
867     memset(dexy, 0, 2*22*96*sizeof(Float_t));
868     memset(dexyc, 0, 2*22*96*sizeof(Float_t));
869     memset(base, 0, 2*22*6*sizeof(Float_t));
870     memset(sbase, 0, 2*22*6*sizeof(Float_t));
871     //
872     }
873    
874     //
875     // Private methods
876     //
877    
878     void CaloLevel0::ClearTrkVar(){
879     clevel2->ncore = 0;
880     clevel2->qcore = 0.;
881     clevel2->noint = 0.;
882     clevel2->ncyl = 0.;
883     clevel2->qcyl = 0.;
884     clevel2->qtrack = 0.;
885     clevel2->qtrackx = 0.;
886     clevel2->qtracky = 0.;
887     clevel2->dxtrack = 0.;
888     clevel2->dytrack = 0.;
889     clevel2->qlast = 0.;
890     clevel2->nlast = 0.;
891     clevel2->qpre = 0.;
892     clevel2->npre = 0.;
893     clevel2->qpresh = 0.;
894     clevel2->npresh = 0.;
895     clevel2->qlow = 0.;
896     clevel2->nlow = 0.;
897     clevel2->qtr = 0.;
898     clevel2->ntr = 0.;
899     clevel2->planetot = 0.;
900     clevel2->qmean = 0.;
901     clevel2->dX0l = 0.;
902     clevel2->elen = 0.;
903     clevel2->selen = 0.;
904     memset(clevel1->al_p, 0, 5*2*sizeof(Double_t));
905     memset(clevel2->tibar, 0, 2*22*sizeof(Int_t));
906     memset(clevel2->tbar, 0, 2*22*sizeof(Float_t));
907     }
908    
909     void CaloLevel0::ClearCommonVar(){
910     istrip = 0;
911     clevel2->trigty = -1.;
912     clevel2->wartrig = 0.;
913     clevel2->good = 0;
914     clevel2->nstrip = 0.;
915     clevel2->qtot = 0.;
916     // clevel2->impx = 0.;
917     // clevel2->impy = 0.;
918     clevel2->tanx = 0.; // this is correct since it refers to the fortran structure
919     clevel2->tany = 0.; // this is correct since it refers to the fortran structure
920     clevel2->qmax = 0.;
921     clevel2->nx22 = 0.;
922     clevel2->qx22 = 0.;
923     memset(clevel2->perr, 0, 4*sizeof(Int_t));
924     memset(clevel2->swerr, 0, 4*sizeof(Int_t));
925     memset(clevel2->crc, 0, 4*sizeof(Int_t));
926     memset(clevel2->qq, 0, 4*sizeof(Int_t));
927     memset(clevel2->varcfit, 0, 4*sizeof(Float_t));
928     memset(clevel2->npcfit, 0, 4*sizeof(Int_t));
929     memset(clevel2->planemax, 0, 2*sizeof(Int_t));
930     memset(clevel2->fmode, 0, 2*sizeof(Int_t));
931     memset(clevel2->cibar, 0, 2*22*sizeof(Int_t));
932     memset(clevel2->cbar, 0, 2*22*sizeof(Float_t));
933     }
934    
935     void CaloLevel0::ClearCalibVals(Int_t s){
936     //
937     for ( Int_t d=0 ; d<11 ;d++ ){
938     Int_t pre = -1;
939     for ( Int_t j=0; j<96 ;j++){
940     if ( j%16 == 0 ) pre++;
941     if ( s == 2 ){
942     calped[0][2*d+1][j] = 0.;
943     cstwerr[3] = 0.;
944     cperror[3] = 0.;
945     calgood[0][2*d+1][j] = 0.;
946     calthr[0][2*d+1][pre] = 0.;
947     calrms[0][2*d+1][j] = 0.;
948     calbase[0][2*d+1][pre] = 0.;
949     calvar[0][2*d+1][pre] = 0.;
950     };
951     if ( s == 3 ){
952     calped[0][2*d][j] = 0.;
953     cstwerr[1] = 0.;
954     cperror[1] = 0.;
955     calgood[0][2*d][j] = 0.;
956     calthr[0][2*d][pre] = 0.;
957     calrms[0][2*d][j] = 0.;
958     calbase[0][2*d][pre] = 0.;
959     calvar[0][2*d][pre] = 0.;
960     };
961     if ( s == 0 ){
962     calped[1][2*d][j] = 0.;
963     cstwerr[0] = 0.;
964     cperror[0] = 0.;
965     calgood[1][2*d][j] = 0.;
966     calthr[1][2*d][pre] = 0.;
967     calrms[1][2*d][j] = 0.;
968     calbase[1][2*d][pre] = 0.;
969     calvar[1][2*d][pre] = 0.;
970     };
971     if ( s == 1 ){
972     calped[1][2*d+1][j] = 0.;
973     cstwerr[2] = 0.;
974     cperror[2] = 0.;
975     calgood[1][2*d+1][j] = 0.;
976     calthr[1][2*d+1][pre] = 0.;
977     calrms[1][2*d+1][j] = 0.;
978     calbase[1][2*d+1][pre] = 0.;
979     calvar[1][2*d+1][pre] = 0.;
980     };
981     };
982     };
983     return;
984     }
985    
986     Int_t CaloLevel0::Update(TSQLServer *dbc, UInt_t atime, Int_t s){
987     //
988     Int_t sgnl = 0;
989     //
990     GL_CALO_CALIB *glcalo = new GL_CALO_CALIB();
991     //
992     sgnl = 0;
993     //
994     idcalib[s] = 0;
995     fromtime[s] = 0;
996     totime[s] = 0;
997     calibno[s] = 0;
998     ClearCalibVals(s);
999     //
1000     UInt_t uptime = 0;
1001     //
1002     sgnl = glcalo->Query_GL_CALO_CALIB(atime,uptime,s,dbc);
1003     if ( sgnl < 0 ){
1004     if ( verbose ) printf(" CALORIMETER - ERROR: error from GLTables\n");
1005     return(sgnl);
1006     };
1007     //
1008     idcalib[s] = glcalo->ID_ROOT_L0;
1009     fromtime[s] = glcalo->FROM_TIME;
1010     if ( glcalo->TO_TIME < atime ){ // calibration is corrupted and we are using the one that preceed the good one
1011     totime[s] = uptime;
1012     } else {
1013     totime[s] = glcalo->TO_TIME;
1014     };
1015     // totime[s] = glcalo->TO_TIME;
1016     calibno[s] = glcalo->EV_ROOT;
1017     //
1018     if ( totime[s] == 0 ){
1019     if ( verbose ) printf(" CALORIMETER - WARNING: data with no associated calibration\n");
1020     ClearCalibVals(s);
1021     sgnl = 100;
1022     };
1023     //
1024     // determine path and name and entry of the calibration file
1025     //
1026     GL_ROOT *glroot = new GL_ROOT();
1027     if ( verbose ) printf("\n");
1028     if ( verbose ) printf(" ** SECTION %i **\n",s);
1029     //
1030     sgnl = glroot->Query_GL_ROOT(idcalib[s],dbc);
1031     if ( sgnl < 0 ){
1032     if ( verbose ) printf(" CALORIMETER - ERROR: error from GLTables\n");
1033     return(sgnl);
1034     };
1035     //
1036     stringstream name;
1037     name.str("");
1038     name << glroot->PATH.Data() << "/";
1039     name << glroot->NAME.Data();
1040     //
1041     fcalname[s] = (TString)name.str().c_str();
1042     if ( verbose ) printf(" - event at time %u. From time %u to time %u \n use file %s \n calibration at entry %i \n\n",atime,fromtime[s],totime[s],fcalname[s].Data(),calibno[s]);
1043     //
1044     sgnl = LoadCalib(s);
1045     //
1046     if ( sgnl != 0 ) return(sgnl);
1047     delete glcalo;
1048     delete glroot;
1049     //
1050     return(0);
1051     //
1052     }
1053    
1054     Int_t CaloLevel0::LoadCalib(Int_t s){
1055     //
1056     ifstream myfile;
1057     myfile.open(fcalname[s].Data());
1058     if ( !myfile ){
1059     return(-107);
1060     };
1061     myfile.close();
1062     //
1063     TFile *File = new TFile(fcalname[s].Data());
1064     if ( !File ) return(-108);
1065     TTree *tr = (TTree*)File->Get("CalibCalPed");
1066     if ( !tr ) return(-109);
1067     //
1068     TBranch *calo = tr->GetBranch("CalibCalPed");
1069     //
1070     pamela::CalibCalPedEvent *ce = 0;
1071     tr->SetBranchAddress("CalibCalPed", &ce);
1072     //
1073     Long64_t ncalibs = calo->GetEntries();
1074     //
1075     if ( !ncalibs ) return(-110);
1076     //
1077     calo->GetEntry(calibno[s]);
1078     //
1079     if (ce->cstwerr[s] != 0 && ce->cperror[s] == 0 ) {
1080     for ( Int_t d=0 ; d<11 ;d++ ){
1081     Int_t pre = -1;
1082     for ( Int_t j=0; j<96 ;j++){
1083     if ( j%16 == 0 ) pre++;
1084     if ( s == 2 ){
1085     calped[0][2*d+1][j] = ce->calped[3][d][j];
1086     cstwerr[3] = ce->cstwerr[3];
1087     cperror[3] = ce->cperror[3];
1088     calgood[0][2*d+1][j] = ce->calgood[3][d][j];
1089     calthr[0][2*d+1][pre] = ce->calthr[3][d][pre];
1090     calrms[0][2*d+1][j] = ce->calrms[3][d][j];
1091     calbase[0][2*d+1][pre] = ce->calbase[3][d][pre];
1092     calvar[0][2*d+1][pre] = ce->calvar[3][d][pre];
1093     };
1094     if ( s == 3 ){
1095     calped[0][2*d][j] = ce->calped[1][d][j];
1096     cstwerr[1] = ce->cstwerr[1];
1097     cperror[1] = ce->cperror[1];
1098     calgood[0][2*d][j] = ce->calgood[1][d][j];
1099     calthr[0][2*d][pre] = ce->calthr[1][d][pre];
1100     calrms[0][2*d][j] = ce->calrms[1][d][j];
1101     calbase[0][2*d][pre] = ce->calbase[1][d][pre];
1102     calvar[0][2*d][pre] = ce->calvar[1][d][pre];
1103     };
1104     if ( s == 0 ){
1105     calped[1][2*d][j] = ce->calped[0][d][j];
1106     cstwerr[0] = ce->cstwerr[0];
1107     cperror[0] = ce->cperror[0];
1108     calgood[1][2*d][j] = ce->calgood[0][d][j];
1109     calthr[1][2*d][pre] = ce->calthr[0][d][pre];
1110     calrms[1][2*d][j] = ce->calrms[0][d][j];
1111     calbase[1][2*d][pre] = ce->calbase[0][d][pre];
1112     calvar[1][2*d][pre] = ce->calvar[0][d][pre];
1113     };
1114     if ( s == 1 ){
1115     calped[1][2*d+1][j] = ce->calped[2][d][j];
1116     cstwerr[2] = ce->cstwerr[2];
1117     cperror[2] = ce->cperror[2];
1118     calgood[1][2*d+1][j] = ce->calgood[2][d][j];
1119     calthr[1][2*d+1][pre] = ce->calthr[2][d][pre];
1120     calrms[1][2*d+1][j] = ce->calrms[2][d][j];
1121     calbase[1][2*d+1][pre] = ce->calbase[2][d][pre];
1122     calvar[1][2*d+1][pre] = ce->calvar[2][d][pre];
1123     };
1124     };
1125     };
1126     } else {
1127     if ( verbose ) printf(" CALORIMETER - ERROR: problems finding a good calibration in this file! \n\n ");
1128     return(-111);
1129     };
1130     File->Close();
1131     return(0);
1132     }

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