1 /**************************************************************************
2 * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
4 * Author: The ALICE Off-line Project. *
5 * Contributors are mentioned in the code where appropriate. *
7 * Permission to use, copy, modify and distribute this software and its *
8 * documentation strictly for non-commercial purposes is hereby granted *
9 * without fee, provided that the above copyright notice appears in all *
10 * copies and that both the copyright notice and this permission notice *
11 * appear in the supporting documentation. The authors make no claims *
12 * about the suitability of this software for any purpose. It is *
13 * provided "as is" without express or implied warranty. *
14 **************************************************************************/
17 $Log: AliTOFDataDCS.cxx,v $
18 Revision 1.9 2007/05/04 14:02:45 decaro
19 AliTOFDataDCS::Draw(Option_t *) method declared const: compiling warning suppression
21 Revision 1.8 2007/05/03 09:45:09 decaro
22 Coding convention: RN11 violation -> suppression
24 Revision 1.7 2007/05/02 14:09:39 arcelli
25 Retrieval of Env. Temperature removed (will get it from the GRP)
27 Revision 1.6 2007/04/04 17:19:19 arcelli
28 Moved some printout to debug level
30 Revision 1.5 2007/02/20 15:57:00 decaro
31 Raw data update: to read the TOF raw data defined in UNPACKED mode
33 Revision 1.4 2007/02/19 15:41:55 decaro
34 Coding convention: few corrections
36 Revision 1.3 2007/01/24 11:19:58 arcelli
37 Modify ProcessData to return a logical (CZ)
39 Revision 1.2 2006/12/18 18:17:38 arcelli
40 Updated Aliases for DCS TOF datapoints (C.Zampolli)
42 Revision 1.1 2006/10/26 09:10:52 arcelli
43 Class for handling the TOF DCS data in the Shuttle (C.Zampolli)
50 #include "TTimeStamp.h"
54 #include "AliDCSValue.h"
57 #include "AliTOFDataDCS.h"
58 #include "AliTOFFormatDCS.h"
64 // AliTOFDataDCS class
65 // main aim to introduce the aliases for the TOF DCS
66 // data points to be then
67 // stored in the OCDB, and to process them.
68 // Process() method called by TOFPrepr
70 ClassImp(AliTOFDataDCS)
72 //---------------------------------------------------------------
73 AliTOFDataDCS::AliTOFDataDCS():
84 for(int i=0;i<kNHV;i++) {
91 for(int i=0;i<kNLV;i++) {
96 for(int i=0;i<kNLV33;i++) {
101 for(int i=0;i<kNLV50;i++) {
106 for(int i=0;i<kNLV48;i++) {
111 for(int i=0;i<kNFEEthr;i++) {
115 for(int i=0;i<kNFEEtfeac;i++) {
119 for(int i=0;i<kNFEEttrm;i++) {
126 //---------------------------------------------------------------
127 AliTOFDataDCS::AliTOFDataDCS(Int_t nRun, UInt_t startTime, UInt_t endTime):
130 fStartTime(startTime),
132 fIsProcessed(kFALSE),
136 // constructor with arguments
138 AliInfo(Form("\n\tRun %d \n\tStartTime %s \n\tEndTime %s", nRun,
139 TTimeStamp(startTime).AsString(),
140 TTimeStamp(endTime).AsString()));
146 //---------------------------------------------------------------
148 AliTOFDataDCS::AliTOFDataDCS(const AliTOFDataDCS & data):
153 fIsProcessed(kFALSE),
161 fStartTime=data.fStartTime;
162 fEndTime=data.fEndTime;
163 fIsProcessed=data.fIsProcessed;
166 for(int i=0;i<kNAliases;i++) {
167 fAliasNames[i]=data.fAliasNames[i];
170 for(int i=0;i<kNHV;i++) {
171 fHVvp[i]=data.fHVvp[i];
172 fHVvn[i]=data.fHVvn[i];
173 fHVip[i]=data.fHVip[i];
174 fHVin[i]=data.fHVin[i];
177 for(int i=0;i<kNLV;i++) {
178 fLVv[i]=data.fLVv[i];
179 fLVi[i]=data.fLVi[i];
182 for(int i=0;i<kNLV33;i++) {
183 fLVv33[i]=data.fLVv33[i];
184 fLVi33[i]=data.fLVi33[i];
187 for(int i=0;i<kNLV50;i++) {
188 fLVv50[i]=data.fLVv50[i];
189 fLVi50[i]=data.fLVi50[i];
192 for(int i=0;i<kNLV48;i++) {
193 fLVv48[i]=data.fLVv48[i];
194 fLVi48[i]=data.fLVi48[i];
197 for(int i=0;i<kNFEEthr;i++) {
198 fFEEthr[i]=data.fFEEthr[i];
201 for(int i=0;i<kNFEEtfeac;i++) {
202 fFEEtfeac[i]=data.fFEEtfeac[i];
205 for(int i=0;i<kNFEEttrm;i++) {
206 fFEEttrm[i]=data.fFEEttrm[i];
210 //---------------------------------------------------------------
212 AliTOFDataDCS& AliTOFDataDCS:: operator=(const AliTOFDataDCS & data) {
214 // assignment operator
216 this->fRun=data.GetRun();
217 this->fStartTime=data.GetStartTime();
218 this->fEndTime=data.GetEndTime();
220 for(int i=0;i<kNAliases;i++) {
221 this->fAliasNames[i]=data.GetAliasName(i);
224 for(int i=0;i<kNHV;i++) {
225 this->fHVvp[i]=data.GetHVvp(i);
226 this->fHVvn[i]=data.GetHVvn(i);
227 this->fHVip[i]=data.GetHVip(i);
228 this->fHVin[i]=data.GetHVin(i);
231 for(int i=0;i<kNLV;i++) {
232 this->fLVv[i]=data.GetLVv(i);
233 this->fLVi[i]=data.GetLVi(i);
236 for(int i=0;i<kNLV33;i++) {
237 this->fLVv33[i]=data.GetLVv33(i);
238 this->fLVi33[i]=data.GetLVi33(i);
241 for(int i=0;i<kNLV50;i++) {
242 this->fLVv50[i]=data.GetLVv50(i);
243 this->fLVi50[i]=data.GetLVi50(i);
246 for(int i=0;i<kNLV48;i++) {
247 this->fLVv48[i]=data.GetLVv48(i);
248 this->fLVi48[i]=data.GetLVi48(i);
251 for(int i=0;i<kNFEEthr;i++) {
252 this->fFEEthr[i]=data.GetFEEthr(i);
255 for(int i=0;i<kNFEEtfeac;i++) {
256 this->fFEEtfeac[i]=data.GetFEEtfeac(i);
259 for(int i=0;i<kNFEEttrm;i++) {
260 this->fFEEttrm[i]=data.GetFEEttrm(i);
263 this->fIsProcessed=data.fIsProcessed;
264 this->fFDR=data.fFDR;
268 //---------------------------------------------------------------
269 AliTOFDataDCS::~AliTOFDataDCS() {
273 for(int i=0;i<kNHV;i++) {
284 for(int i=0;i<kNLV;i++) {
291 for(int i=0;i<kNLV33;i++) {
298 for(int i=0;i<kNLV50;i++) {
305 for(int i=0;i<kNLV48;i++) {
312 for(int i=0;i<kNFEEthr;i++) {
317 for(int i=0;i<kNFEEtfeac;i++) {
322 for(int i=0;i<kNFEEttrm;i++) {
328 //---------------------------------------------------------------
329 Bool_t AliTOFDataDCS::ProcessData(TMap& aliasMap){
331 // method to process the data
333 if(!(fAliasNames[0])) Init();
339 Float_t timedelta[2];
341 AliInfo(Form(" Start Time = %i",fStartTime));
342 AliInfo(Form(" End Time = %i",fEndTime));
344 if (fEndTime==fStartTime){
345 AliError(Form(" Run with null time length: start time = %i = end time = %i",fStartTime,fEndTime));
351 AliDCSValue* aValue1;
353 // starting loop on aliases
354 for(int j=0; j<kNAliases; j++){
355 for (Int_t k=0;k<2;k++) {
359 //AliInfo(Form("j = %i, with alias = %s",j,fAliasNames[j].Data()));
360 aliasArr = (TObjArray*) aliasMap.GetValue(fAliasNames[j].Data());
362 AliError(Form("Alias %s not found!", fAliasNames[j].Data()));
364 return kFALSE; // returning only in case we are not in a FDR run
371 Introduce(j, aliasArr);
373 if(aliasArr->GetEntries()<3){
374 AliError(Form("Alias %s has just %d entries!",
375 fAliasNames[j].Data(),aliasArr->GetEntries()));
379 TIter iterarray(aliasArr);
381 Int_t nentries = aliasArr->GetEntries();
382 Int_t deltaTimeStamp = (Int_t) nentries/3;
383 Int_t deltaTimeStamp1 = (Int_t) nentries/2;
385 // filling aliases with 10 floats+1 Usign
387 for (Int_t k=0;k<3;k++){
388 index = deltaTimeStamp*k;
393 index=deltaTimeStamp1;
398 aValue = (AliDCSValue*) aliasArr->At(index);
399 val = aValue->GetFloat();
400 time = (Float_t) (aValue->GetTimeStamp());
402 fHVvp[j]->SetFloat(k,val);
403 fHVvp[j]->SetTimeStampFloat(k,time);
406 fHVvn[j-kNHV]->SetFloat(k,val);
407 fHVvn[j-kNHV]->SetTimeStampFloat(k,time);
410 fHVip[j-2*kNHV]->SetFloat(k,val);
411 fHVip[j-2*kNHV]->SetTimeStampFloat(k,time);
414 fHVin[j-3*kNHV]->SetFloat(k,val);
415 fHVin[j-3*kNHV]->SetTimeStampFloat(k,time);
417 else if (j<kNHV*4+kNLV){
418 fLVv[j-4*kNHV]->SetFloat(k,val);
419 fLVv[j-4*kNHV]->SetTimeStampFloat(k,time);
421 else if (j<kNHV*4+kNLV*2){
422 fLVi[j-4*kNHV-kNLV]->SetFloat(k,val);
423 fLVi[j-4*kNHV-kNLV]->SetTimeStampFloat(k,time);
425 else if (j<kNHV*4+kNLV*2+kNLV33){
426 fLVv33[j-4*kNHV-2*kNLV]->SetFloat(k,val);
427 fLVv33[j-4*kNHV-2*kNLV]->SetTimeStampFloat(k,time);
429 else if (j<kNHV*4+kNLV*2+kNLV33*2){
430 fLVi33[j-4*kNHV-2*kNLV-kNLV33]->SetFloat(k,val);
431 fLVi33[j-4*kNHV-2*kNLV-kNLV33]->SetTimeStampFloat(k,time);
433 else if (j<kNHV*4+kNLV*2+kNLV33*2+kNLV50){
434 fLVv50[j-4*kNHV-2*kNLV-2*kNLV33]->SetFloat(k,val);
435 fLVv50[j-4*kNHV-2*kNLV-2*kNLV33]->SetTimeStampFloat(k,time);
437 else if (j<kNHV*4+kNLV*2+kNLV33*2+kNLV50*2){
438 fLVi50[j-4*kNHV-2*kNLV-2*kNLV33-kNLV50]->SetFloat(k,val);
439 fLVi50[j-4*kNHV-2*kNLV-2*kNLV33-kNLV50]->SetTimeStampFloat(k,time);
441 else if (j<kNHV*4+kNLV*2+kNLV33*2+kNLV50*2+kNLV48){
442 fLVv48[j-4*kNHV-2*kNLV-2*kNLV33-2*kNLV50]->SetFloat(k,val);
443 fLVv48[j-4*kNHV-2*kNLV-2*kNLV33-2*kNLV50]->SetTimeStampFloat(k,time);
445 else if (j<kNHV*4+kNLV*2+kNLV33*2+kNLV50*2+kNLV48*2){
446 fLVi48[j-4*kNHV-2*kNLV-2*kNLV33-2*kNLV50-kNLV48]->SetFloat(k,val);
447 fLVi48[j-4*kNHV-2*kNLV-2*kNLV33-2*kNLV50-kNLV48]->SetTimeStampFloat(k,time);
449 else if (j<kNHV*4+kNLV*2+kNLV33*2+kNLV50*2+kNLV48*2+kNFEEthr){
450 fFEEthr[j-4*kNHV-2*kNLV-2*kNLV33-2*kNLV50-2*kNLV48]->SetFloat(k,val);
451 fFEEthr[j-4*kNHV-2*kNLV-2*kNLV33-2*kNLV50-2*kNLV48]->SetTimeStampFloat(k,time);
453 else if (j<kNHV*4+kNLV*2+kNLV33*2+kNLV50*2+kNLV48*2+kNFEEthr+kNFEEtfeac){
454 fFEEtfeac[j-4*kNHV-2*kNLV-2*kNLV33-2*kNLV50-2*kNLV48-kNFEEthr]->SetFloat(k,val);
455 fFEEtfeac[j-4*kNHV-2*kNLV-2*kNLV33-2*kNLV50-2*kNLV48-kNFEEthr]->SetTimeStampFloat(k,time);
458 fFEEttrm[j-4*kNHV-2*kNLV-2*kNLV33-2*kNLV50-2*kNLV48-kNFEEthr-kNFEEtfeac]->SetFloat(k,val);
459 fFEEttrm[j-4*kNHV-2*kNLV-2*kNLV33-2*kNLV50-2*kNLV48-kNFEEthr-kNFEEtfeac]->SetTimeStampFloat(k,time);
463 //computing the most significant variations
465 Float_t timeDiff = (Float_t)(fEndTime-fStartTime);
466 Int_t deltamin = (Int_t)(60/timeDiff*nentries); //sampling every minute
467 Int_t klast = nentries-deltamin;
469 for (Int_t k=0;k<klast;k++){
470 aValue = (AliDCSValue*) aliasArr->At(k);
471 aValue1 = (AliDCSValue*) aliasArr->At(k+deltamin);
472 val = aValue->GetFloat();
473 val1 = aValue1->GetFloat();
474 if (delta[0]<=TMath::Abs(val1-val)) {
475 delta[0]=TMath::Abs(val1-val);
476 timedelta[0] = (Float_t)k;
478 if (delta[1]<=delta[0]) {
479 Float_t temp = delta[1];
480 Float_t timetemp = timedelta[1];
483 timedelta[1]=timedelta[0];
484 timedelta[0]=timetemp;
488 for (Int_t kk=0;kk<2;kk++){
490 fHVvp[j]->SetDelta(kk,delta[kk]);
491 fHVvp[j]->SetTimeStampDelta(kk,(Float_t)timedelta[kk]);
494 fHVvn[j-kNHV]->SetDelta(kk,delta[kk]);
495 fHVvn[j-kNHV]->SetTimeStampDelta(kk,(Float_t)timedelta[kk]);
498 fHVip[j-2*kNHV]->SetDelta(kk,delta[kk]);
499 fHVip[j-2*kNHV]->SetTimeStampDelta(kk,(Float_t)timedelta[kk]);
502 fHVin[j-3*kNHV]->SetDelta(kk,delta[kk]);
503 fHVin[j-3*kNHV]->SetTimeStampDelta(kk,(Float_t)timedelta[kk]);
505 else if (j<kNHV*4+kNLV){
506 fLVv[j-4*kNHV]->SetDelta(kk,delta[kk]);
507 fLVv[j-4*kNHV]->SetTimeStampDelta(kk,(Float_t)timedelta[kk]);
509 else if (j<kNHV*4+kNLV*2){
510 fLVi[j-4*kNHV-kNLV]->SetDelta(kk,delta[kk]);
511 fLVi[j-4*kNHV-kNLV]->SetTimeStampDelta(kk,(Float_t)timedelta[kk]);
513 else if (j<kNHV*4+kNLV*2+kNLV33){
514 fLVv33[j-4*kNHV-2*kNLV]->SetDelta(kk,delta[kk]);
515 fLVv33[j-4*kNHV-2*kNLV]->SetTimeStampDelta(kk,(Float_t)timedelta[kk]);
517 else if (j<kNHV*4+kNLV*2+kNLV33*2){
518 fLVi33[j-4*kNHV-2*kNLV-kNLV33]->SetDelta(kk,delta[kk]);
519 fLVi33[j-4*kNHV-2*kNLV-kNLV33]->SetTimeStampDelta(kk,(Float_t)timedelta[kk]);
521 else if (j<kNHV*4+kNLV*2+kNLV33*2+kNLV50){
522 fLVv50[j-4*kNHV-2*kNLV-2*kNLV33]->SetDelta(kk,delta[kk]);
523 fLVv50[j-4*kNHV-2*kNLV-2*kNLV33]->SetTimeStampDelta(kk,(Float_t)timedelta[kk]);
525 else if (j<kNHV*4+kNLV*2+kNLV33*2+kNLV50*2){
526 fLVi50[j-4*kNHV-2*kNLV-2*kNLV33-kNLV50]->SetDelta(kk,delta[kk]);
527 fLVi50[j-4*kNHV-2*kNLV-2*kNLV33-kNLV50]->SetTimeStampDelta(kk,(Float_t)timedelta[kk]);
529 else if (j<kNHV*4+kNLV*2+kNLV33*2+kNLV50*2+kNLV48){
530 fLVv48[j-4*kNHV-2*kNLV-2*kNLV33-2*kNLV50]->SetDelta(kk,delta[kk]);
531 fLVv48[j-4*kNHV-2*kNLV-2*kNLV33-2*kNLV50]->SetTimeStampDelta(kk,(Float_t)timedelta[kk]);
533 else if (j<kNHV*4+kNLV*2+kNLV33*2+kNLV50*2+kNLV48*2){
534 fLVi48[j-4*kNHV-2*kNLV-2*kNLV33-2*kNLV50-kNLV48]->SetDelta(kk,delta[kk]);
535 fLVi48[j-4*kNHV-2*kNLV-2*kNLV33-2*kNLV50-kNLV48]->SetTimeStampDelta(kk,(Float_t)timedelta[kk]);
537 else if (j<kNHV*4+kNLV*2+kNLV33*2+kNLV50*2+kNLV48*2+kNFEEthr){
538 fFEEthr[j-4*kNHV-2*kNLV-2*kNLV33-2*kNLV50-2*kNLV48]->SetDelta(kk,delta[kk]);
539 fFEEthr[j-4*kNHV-2*kNLV-2*kNLV33-2*kNLV50-2*kNLV48]->SetTimeStampDelta(kk,(Float_t)timedelta[kk]);
541 else if (j<kNHV*4+kNLV*2+kNLV33*2+kNLV50*2+kNLV48*2+kNFEEthr+kNFEEtfeac){
542 fFEEtfeac[j-4*kNHV-2*kNLV-2*kNLV33-2*kNLV50-2*kNLV48-kNFEEthr]->SetDelta(kk,delta[kk]);
543 fFEEtfeac[j-4*kNHV-2*kNLV-2*kNLV33-2*kNLV50-2*kNLV48-kNFEEthr]->SetTimeStampDelta(kk,(Float_t)timedelta[kk]);
545 else if (j<kNHV*4+kNLV*2+kNLV33*2+kNLV50*2+kNLV48*2+kNFEEthr+kNFEEtfeac+kNFEEttrm){
546 fFEEttrm[j-4*kNHV-2*kNLV-2*kNLV33-2*kNLV50-2*kNLV48-kNFEEthr-kNFEEtfeac]->SetDelta(kk,delta[kk]);
547 fFEEttrm[j-4*kNHV-2*kNLV-2*kNLV33-2*kNLV50-2*kNLV48-kNFEEthr-kNFEEtfeac]->SetTimeStampDelta(kk,(Float_t)timedelta[kk]);
557 //---------------------------------------------------------------
558 void AliTOFDataDCS::Init(){
560 // initialization of aliases and DCS data
563 for(int i=0;i<kNAliases;i++){
566 fAliasNames[i] = "tof_hv_vp_";
567 sindex.Form("%02i",i);
568 fAliasNames[i] += sindex;
569 fHVvp[i] = new AliTOFFormatDCS();
572 fAliasNames[i] = "tof_hv_vn_";
573 sindex.Form("%02i",i-kNHV);
574 fAliasNames[i] += sindex;
575 fHVvn[i-kNHV] = new AliTOFFormatDCS();
579 fAliasNames[i] = "tof_hv_ip_";
580 sindex.Form("%02i",i-2*kNHV);
581 fAliasNames[i] += sindex;
582 fHVip[i-2*kNHV] = new AliTOFFormatDCS();
585 fAliasNames[i] = "tof_hv_in_";
586 sindex.Form("%02i",i-3*kNHV);
587 fAliasNames[i] += sindex;
588 fHVin[i-3*kNHV] = new AliTOFFormatDCS();
591 else if (i<(kNHV*4+kNLV)){
592 fAliasNames[i] = "tof_lv_vfea_";
593 sindex.Form("%03i",i-4*kNHV);
594 fAliasNames[i] += sindex;
595 fLVv[i-4*kNHV] = new AliTOFFormatDCS();
598 else if (i<(kNHV*4+kNLV*2)){
599 fAliasNames[i] = "tof_lv_ifea_";
600 sindex.Form("%03i",i-4*kNHV-kNLV);
601 fAliasNames[i] += sindex;
602 fLVi[i-4*kNHV-kNLV] = new AliTOFFormatDCS();
605 else if (i<(kNHV*4+kNLV*2+kNLV33)){
606 fAliasNames[i] = "tof_lv_v33_";
607 sindex.Form("%02i",i-4*kNHV-2*kNLV);
608 fAliasNames[i] += sindex;
609 fLVv33[i-4*kNHV-2*kNLV] = new AliTOFFormatDCS();
612 else if (i<(kNHV*4+kNLV*2+kNLV33*2)){
613 fAliasNames[i] = "tof_lv_i33_";
614 sindex.Form("%02i",i-4*kNHV-2*kNLV-kNLV33);
615 fAliasNames[i] += sindex;
616 fLVi33[i-4*kNHV-2*kNLV-kNLV33] = new AliTOFFormatDCS();
619 else if (i<(kNHV*4+kNLV*2+kNLV33*2+kNLV50)){
620 fAliasNames[i] = "tof_lv_v50_";
621 sindex.Form("%02i",i-4*kNHV-2*kNLV-2*kNLV33);
622 fAliasNames[i] += sindex;
623 fLVv50[i-4*kNHV-2*kNLV-2*kNLV33] = new AliTOFFormatDCS();
626 else if (i<(kNHV*4+kNLV*2+kNLV33*2+kNLV50*2)){
627 fAliasNames[i] = "tof_lv_i50_";
628 sindex.Form("%02i",i-4*kNHV-2*kNLV-2*kNLV33-kNLV50);
629 fAliasNames[i] += sindex;
630 fLVi50[i-4*kNHV-2*kNLV-2*kNLV33-kNLV50] = new AliTOFFormatDCS();
633 else if (i<(kNHV*4+kNLV*2+kNLV33*2+kNLV50*2+kNLV48)){
634 fAliasNames[i] = "tof_lv_v48_";
635 sindex.Form("%02i",i-4*kNHV-2*kNLV-2*kNLV33-2*kNLV50);
636 fAliasNames[i] += sindex;
637 fLVv48[i-4*kNHV-2*kNLV-2*kNLV33-2*kNLV50] = new AliTOFFormatDCS();
640 else if (i<(kNHV*4+kNLV*2+kNLV33*2+kNLV50*2+kNLV48*2)){
641 fAliasNames[i] = "tof_lv_i48_";
642 sindex.Form("%02i",i-4*kNHV-2*kNLV-2*kNLV33-2*kNLV50-kNLV48);
643 fAliasNames[i] += sindex;
644 fLVi48[i-4*kNHV-2*kNLV-2*kNLV33-2*kNLV50-kNLV48] = new AliTOFFormatDCS();
647 else if (i<(kNHV*4+kNLV*2+kNLV33*2+kNLV50*2+kNLV48*2+kNFEEthr)){
648 fAliasNames[i] = "tof_fee_th_";
649 sindex.Form("%04i",i-4*kNHV-2*kNLV-2*kNLV33-2*kNLV50-2*kNLV48);
650 fAliasNames[i] += sindex;
651 fFEEthr[i-4*kNHV-2*kNLV-2*kNLV33-2*kNLV50-2*kNLV48] = new AliTOFFormatDCS();
653 //FEE FEAC temperatures
654 else if (i<(kNHV*4+kNLV*2+kNLV33*2+kNLV50*2+kNLV48*2+kNFEEthr+kNFEEtfeac)){
655 fAliasNames[i] = "tof_fee_tfeac_";
656 sindex.Form("%03i",i-4*kNHV-2*kNLV-2*kNLV33-2*kNLV50-2*kNLV48-kNFEEthr);
657 fAliasNames[i] += sindex;
658 fFEEtfeac[i-4*kNHV-2*kNLV-2*kNLV33-2*kNLV50-2*kNLV48-kNFEEthr] = new AliTOFFormatDCS();
660 //FEE trms temperatures
661 else if (i<(kNHV*4+kNLV*2+kNLV33*2+kNLV50*2+kNLV48*2+kNFEEthr+kNFEEtfeac+kNFEEttrm)){
662 fAliasNames[i] = "tof_fee_ttrm_";
663 sindex.Form("%04i",i-4*kNHV-2*kNLV-2*kNLV33-2*kNLV50-2*kNLV48-kNFEEthr-kNFEEtfeac);
664 fAliasNames[i] += sindex;
665 fFEEttrm[i-4*kNHV-2*kNLV-2*kNLV33-2*kNLV50-2*kNLV48-kNFEEthr-kNFEEtfeac] = new AliTOFFormatDCS();
671 //---------------------------------------------------------------
672 void AliTOFDataDCS::Introduce(UInt_t numAlias, const TObjArray* aliasArr)const
675 // method to introduce new aliases
678 entries = aliasArr->GetEntries();
681 AliDebug(2,Form("************ Alias: %s **********",fAliasNames[numAlias].Data()));
682 AliDebug(2,Form(" %d DP values collected",entries));
686 //---------------------------------------------------------------
687 void AliTOFDataDCS::Draw(const Option_t* /*option*/)
689 // Draw all histos and graphs
691 if(!fIsProcessed) return;
694 TString canvasHistoName="Histos";
695 ch=new TCanvas(canvasHistoName,canvasHistoName,20,20,600,600);