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 **************************************************************************/
18 ///////////////////////////////////////////////////////////////////////////////
20 // Class providing the calibration parameters by accessing the CDB //
22 // Request an instance with AliTRDcalibDB::Instance() //
23 // If a new event is processed set the event number with SetRun //
24 // Then request the calibration data //
27 // Jan Fiete Grosse-Oetringhaus (Jan.Fiete.Grosse-Oetringhaus@cern.ch) //
29 ///////////////////////////////////////////////////////////////////////////////
34 #include "AliCDBManager.h"
35 #include "AliCDBStorage.h"
36 #include "AliCDBEntry.h"
39 #include "AliTRDcalibDB.h"
40 #include "AliTRDgeometry.h"
41 #include "AliTRDpadPlane.h"
42 #include "AliTRDCommonParam.h"
44 #include "Cal/AliTRDCalROC.h"
45 #include "Cal/AliTRDCalPad.h"
46 #include "Cal/AliTRDCalDet.h"
47 #include "Cal/AliTRDCalFEE.h"
48 #include "Cal/AliTRDCalPID.h"
49 #include "Cal/AliTRDCalMonitoring.h"
50 #include "Cal/AliTRDCalChamberStatus.h"
51 #include "Cal/AliTRDCalPadStatus.h"
52 #include "Cal/AliTRDCalSingleChamberStatus.h"
54 ClassImp(AliTRDcalibDB)
56 AliTRDcalibDB *AliTRDcalibDB::fgInstance = 0;
57 Bool_t AliTRDcalibDB::fgTerminated = kFALSE;
59 //_ singleton implementation __________________________________________________
60 AliTRDcalibDB* AliTRDcalibDB::Instance()
63 // Singleton implementation
64 // Returns an instance of this class, it is created if neccessary
67 if (fgTerminated != kFALSE) {
71 if (fgInstance == 0) {
72 fgInstance = new AliTRDcalibDB();
79 //_____________________________________________________________________________
80 void AliTRDcalibDB::Terminate()
83 // Singleton implementation
84 // Deletes the instance of this class and sets the terminated flag,
85 // instances cannot be requested anymore
86 // This function can be called several times.
91 if (fgInstance != 0) {
98 //_____________________________________________________________________________
99 AliTRDcalibDB::AliTRDcalibDB()
110 // Default constructor
112 // TODO Default runnumber is set to 0, this should be changed later
113 // to an invalid value (e.g. -1) to prevent
114 // TODO invalid calibration data to be used.
117 for (Int_t i = 0; i < kCDBCacheSize; ++i) {
122 // Create the sampled PRF
127 //_____________________________________________________________________________
128 AliTRDcalibDB::AliTRDcalibDB(const AliTRDcalibDB &c)
139 // Copy constructor (not that it make any sense for a singleton...)
142 for (Int_t i = 0; i < kCDBCacheSize; ++i) {
147 // Create the sampled PRF
152 //_____________________________________________________________________________
153 AliTRDcalibDB &AliTRDcalibDB::operator=(const AliTRDcalibDB &c)
156 // Assignment operator (same as above ...)
160 AliFatal("No assignment operator defined");
167 //_____________________________________________________________________________
168 AliTRDcalibDB::~AliTRDcalibDB()
183 //_caching functions____________________________________________________________
184 const TObject *AliTRDcalibDB::GetCachedCDBObject(Int_t id)
187 // Retrieves a cdb object with the given id. The objects are cached as
188 // long as the run number is not changed.
190 // Put together the available objects here by using the lines
191 // a) For usual calibration objects:
193 // return CacheCDBEntry(kID<Name>,"TRD/Calib/<Path>");
195 // See function CacheCDBEntry for details.
197 // b) For calibration data which depends on two objects: One containing
198 // a value per detector and one the local fluctuations per pad:
200 // return CacheMergeCDBEntry(kID<Name>,"TRD/Calib/<padPath>","TRD/Calib/<chamberPath>");
202 // See function CacheMergeCDBEntry for details.
207 // Parameters defined per pad and chamber
209 return CacheCDBEntry(kIDVdriftPad ,"TRD/Calib/LocalVdrift");
211 case kIDVdriftChamber :
212 return CacheCDBEntry(kIDVdriftChamber ,"TRD/Calib/ChamberVdrift");
215 return CacheCDBEntry(kIDT0Pad ,"TRD/Calib/LocalT0");
218 return CacheCDBEntry(kIDT0Chamber ,"TRD/Calib/ChamberT0");
220 case kIDGainFactorPad :
221 return CacheCDBEntry(kIDGainFactorPad ,"TRD/Calib/LocalGainFactor");
223 case kIDGainFactorChamber :
224 return CacheCDBEntry(kIDGainFactorChamber ,"TRD/Calib/ChamberGainFactor");
227 // Parameters defined per pad
229 return CacheCDBEntry(kIDPRFWidth ,"TRD/Calib/PRFWidth");
233 case kIDChamberStatus :
234 return CacheCDBEntry(kIDChamberStatus ,"TRD/Calib/ChamberStatus");
237 return CacheCDBEntry(kIDPadStatus ,"TRD/Calib/PadStatus");
241 case kIDMonitoringData :
242 return CacheCDBEntry(kIDMonitoringData ,"TRD/Calib/MonitoringData");
245 return CacheCDBEntry(kIDFEE ,"TRD/Calib/FEE");
248 return CacheCDBEntry(kIDPIDNN ,"TRD/Calib/PIDNN");
250 return CacheCDBEntry(kIDPIDLQ ,"TRD/Calib/PIDLQ");
259 //_____________________________________________________________________________
260 AliCDBEntry *AliTRDcalibDB::GetCDBEntry(const char *cdbPath)
263 // Retrieves an entry with path <cdbPath> from the CDB.
266 AliCDBEntry *entry = AliCDBManager::Instance()->Get(cdbPath,fRun);
268 AliFatal(Form("Failed to get entry: %s",cdbPath));
276 //_____________________________________________________________________________
277 const TObject *AliTRDcalibDB::CacheCDBEntry(Int_t id, const char *cdbPath)
280 // Caches the entry <id> with cdb path <cdbPath>
283 if (!fCDBCache[id]) {
284 fCDBEntries[id] = GetCDBEntry(cdbPath);
285 if (fCDBEntries[id]) {
286 fCDBCache[id] = fCDBEntries[id]->GetObject();
290 return fCDBCache[id];
294 //_____________________________________________________________________________
295 void AliTRDcalibDB::SetRun(Long64_t run)
298 // Sets current run number. Calibration data is read from the corresponding file.
299 // When the run number changes the caching is invalidated.
312 //_____________________________________________________________________________
313 void AliTRDcalibDB::Invalidate()
316 // Invalidates cache (when run number is changed).
319 for (Int_t i = 0; i < kCDBCacheSize; ++i) {
320 if (fCDBEntries[i]) {
321 if (AliCDBManager::Instance()->GetCacheFlag() == kFALSE) {
322 if ((fCDBEntries[i]->IsOwner() == kFALSE) &&
326 delete fCDBEntries[i];
335 //_____________________________________________________________________________
336 Float_t AliTRDcalibDB::GetVdrift(Int_t det, Int_t col, Int_t row)
339 // Returns the drift velocity for the given pad.
342 const AliTRDCalPad *calPad = dynamic_cast<const AliTRDCalPad *>
343 (GetCachedCDBObject(kIDVdriftPad));
348 AliTRDCalROC *roc = calPad->GetCalROC(det);
353 const AliTRDCalDet *calChamber = dynamic_cast<const AliTRDCalDet *>
354 (GetCachedCDBObject(kIDVdriftChamber));
359 return calChamber->GetValue(det) * roc->GetValue(col,row);
363 //_____________________________________________________________________________
364 AliTRDCalROC *AliTRDcalibDB::GetVdriftROC(Int_t det)
367 // Returns the Vdrift calibration object for a given ROC
368 // containing one number per pad
371 const AliTRDCalPad *calPad = dynamic_cast<const AliTRDCalPad *>
372 (GetCachedCDBObject(kIDVdriftPad));
377 AliTRDCalROC *roc = calPad->GetCalROC(det);
387 //_____________________________________________________________________________
388 const AliTRDCalDet *AliTRDcalibDB::GetVdriftDet()
391 // Returns the Vdrift calibration object
392 // containing one number per detector
395 const AliTRDCalDet *calChamber = dynamic_cast<const AliTRDCalDet *>
396 (GetCachedCDBObject(kIDVdriftChamber));
406 //_____________________________________________________________________________
407 Float_t AliTRDcalibDB::GetVdriftAverage(Int_t det)
410 // Returns the average drift velocity for the given detector
413 const AliTRDCalDet *calDet = dynamic_cast<const AliTRDCalDet *>
414 (GetCachedCDBObject(kIDVdriftChamber));
419 return calDet->GetValue(det);
423 //_____________________________________________________________________________
424 Float_t AliTRDcalibDB::GetT0(Int_t det, Int_t col, Int_t row)
427 // Returns t0 for the given pad.
430 const AliTRDCalPad *calPad = dynamic_cast<const AliTRDCalPad *>
431 (GetCachedCDBObject(kIDT0Pad));
436 AliTRDCalROC *roc = calPad->GetCalROC(det);
441 const AliTRDCalDet *calChamber = dynamic_cast<const AliTRDCalDet *>
442 (GetCachedCDBObject(kIDT0Chamber));
447 return calChamber->GetValue(det) + roc->GetValue(col,row);
451 //_____________________________________________________________________________
452 AliTRDCalROC *AliTRDcalibDB::GetT0ROC(Int_t det)
455 // Returns the t0 calibration object for a given ROC
456 // containing one number per pad
459 const AliTRDCalPad *calPad = dynamic_cast<const AliTRDCalPad *>
460 (GetCachedCDBObject(kIDT0Pad));
465 AliTRDCalROC *roc = calPad->GetCalROC(det);
475 //_____________________________________________________________________________
476 const AliTRDCalDet *AliTRDcalibDB::GetT0Det()
479 // Returns the t0 calibration object
480 // containing one number per detector
483 const AliTRDCalDet *calChamber = dynamic_cast<const AliTRDCalDet *>
484 (GetCachedCDBObject(kIDT0Chamber));
494 //_____________________________________________________________________________
495 Float_t AliTRDcalibDB::GetT0Average(Int_t det)
498 // Returns the average t0 for the given detector
501 const AliTRDCalPad *calPad = dynamic_cast<const AliTRDCalPad *>
502 (GetCachedCDBObject(kIDT0Pad));
507 AliTRDCalROC *roc = calPad->GetCalROC(det);
512 const AliTRDCalDet *calDet = dynamic_cast<const AliTRDCalDet *>
513 (GetCachedCDBObject(kIDT0Chamber));
519 for (Int_t channel = 0; channel < roc->GetNchannels(); ++channel) {
520 mean += (calDet->GetValue(det) + roc->GetValue(channel)) / roc->GetNchannels();
527 //_____________________________________________________________________________
528 Float_t AliTRDcalibDB::GetGainFactor(Int_t det, Int_t col, Int_t row)
531 // Returns the gain factor for the given pad.
534 const AliTRDCalPad *calPad = dynamic_cast<const AliTRDCalPad *>
535 (GetCachedCDBObject(kIDGainFactorPad));
540 AliTRDCalROC *roc = calPad->GetCalROC(det);
545 const AliTRDCalDet *calChamber = dynamic_cast<const AliTRDCalDet *>
546 (GetCachedCDBObject(kIDGainFactorChamber));
551 return calChamber->GetValue(det) * roc->GetValue(col,row);
555 //_____________________________________________________________________________
556 AliTRDCalROC *AliTRDcalibDB::GetGainFactorROC(Int_t det)
559 // Returns the gain factor calibration object for a given ROC
562 const AliTRDCalPad *calPad = dynamic_cast<const AliTRDCalPad *>
563 (GetCachedCDBObject(kIDGainFactorPad));
568 AliTRDCalROC *roc = calPad->GetCalROC(det);
578 //_____________________________________________________________________________
579 const AliTRDCalDet *AliTRDcalibDB::GetGainFactorDet()
582 // Returns the gain factor calibration object
583 // containing one number per detector
586 const AliTRDCalDet *calChamber = dynamic_cast<const AliTRDCalDet *>
587 (GetCachedCDBObject(kIDGainFactorChamber));
597 //_____________________________________________________________________________
598 Float_t AliTRDcalibDB::GetGainFactorAverage(Int_t det)
601 // Returns the average gain factor for the given detector
604 const AliTRDCalDet *calDet = dynamic_cast<const AliTRDCalDet *>
605 (GetCachedCDBObject(kIDGainFactorChamber));
610 return calDet->GetValue(det);
614 //_____________________________________________________________________________
615 AliTRDCalROC *AliTRDcalibDB::GetPRFROC(Int_t det)
618 // Returns the PRF calibration object for a given ROC
619 // containing one number per pad
622 const AliTRDCalPad *calPad = dynamic_cast<const AliTRDCalPad *>
623 (GetCachedCDBObject(kIDPRFWidth));
628 AliTRDCalROC *roc = calPad->GetCalROC(det);
638 //_____________________________________________________________________________
639 Float_t AliTRDcalibDB::GetPRFWidth(Int_t det, Int_t col, Int_t row)
642 // Returns the PRF width for the given pad.
645 const AliTRDCalPad *calPad = dynamic_cast<const AliTRDCalPad *>
646 (GetCachedCDBObject(kIDPRFWidth));
651 AliTRDCalROC *roc = calPad->GetCalROC(det);
656 return roc->GetValue(col,row);
660 //_____________________________________________________________________________
661 Int_t AliTRDcalibDB::GetNumberOfTimeBins()
664 // Returns the number of time bins which are read-out.
667 const AliTRDCalFEE *calFEE = dynamic_cast<const AliTRDCalFEE *>
668 (GetCachedCDBObject(kIDFEE));
673 return calFEE->GetNumberOfTimeBins();
677 //_____________________________________________________________________________
678 Char_t AliTRDcalibDB::GetPadStatus(Int_t det, Int_t col, Int_t row)
681 // Returns the status of the given pad
684 const AliTRDCalPadStatus *cal = dynamic_cast<const AliTRDCalPadStatus *>
685 (GetCachedCDBObject(kIDPadStatus));
690 const AliTRDCalSingleChamberStatus *roc = cal->GetCalROC(det);
695 return roc->GetStatus(col,row);
699 //_____________________________________________________________________________
700 AliTRDCalSingleChamberStatus* AliTRDcalibDB::GetPadStatusROC(Int_t det)
703 // Returns the pad status calibration object for a given ROC
706 const AliTRDCalPadStatus *cal = dynamic_cast<const AliTRDCalPadStatus *>
707 (GetCachedCDBObject(kIDPadStatus));
712 AliTRDCalSingleChamberStatus *roc = cal->GetCalROC(det);
722 //_____________________________________________________________________________
723 Char_t AliTRDcalibDB::GetChamberStatus(Int_t det)
726 // Returns the status of the given chamber
729 const AliTRDCalChamberStatus *cal = dynamic_cast<const AliTRDCalChamberStatus *>
730 (GetCachedCDBObject(kIDChamberStatus));
735 return cal->GetStatus(det);
739 //_____________________________________________________________________________
740 Bool_t AliTRDcalibDB::IsPadMasked(Int_t det, Int_t col, Int_t row)
743 // Returns status, see name of functions for details ;-)
746 const AliTRDCalPadStatus *cal = dynamic_cast<const AliTRDCalPadStatus *>
747 (GetCachedCDBObject(kIDPadStatus));
752 return cal->IsMasked(det,col,row);
756 //_____________________________________________________________________________
757 Bool_t AliTRDcalibDB::IsPadBridgedLeft(Int_t det, Int_t col, Int_t row)
760 // Returns status, see name of functions for details ;-)
763 const AliTRDCalPadStatus *cal = dynamic_cast<const AliTRDCalPadStatus *>
764 (GetCachedCDBObject(kIDPadStatus));
769 return cal->IsBridgedLeft(det,col,row);
773 //_____________________________________________________________________________
774 Bool_t AliTRDcalibDB::IsPadBridgedRight(Int_t det, Int_t col, Int_t row)
777 // Returns status, see name of functions for details ;-)
780 const AliTRDCalPadStatus * cal = dynamic_cast<const AliTRDCalPadStatus *>
781 (GetCachedCDBObject(kIDPadStatus));
786 return cal->IsBridgedRight(det,col,row);
790 //_____________________________________________________________________________
791 Bool_t AliTRDcalibDB::IsPadNotConnected(Int_t det, Int_t col, Int_t row)
794 // Returns status, see name of functions for details ;-)
796 const AliTRDCalPadStatus * cal = dynamic_cast<const AliTRDCalPadStatus *>
797 (GetCachedCDBObject(kIDPadStatus));
802 return cal->IsNotConnected(det,col,row);
806 //_____________________________________________________________________________
807 Bool_t AliTRDcalibDB::IsChamberInstalled(Int_t det)
810 // Returns status, see name of functions for details ;-)
813 const AliTRDCalChamberStatus * cal = dynamic_cast<const AliTRDCalChamberStatus *>
814 (GetCachedCDBObject(kIDChamberStatus));
819 return cal->IsInstalled(det);
823 //_____________________________________________________________________________
824 Bool_t AliTRDcalibDB::IsChamberMasked(Int_t det)
827 // Returns status, see name of functions for details ;-)
830 const AliTRDCalChamberStatus * cal = dynamic_cast<const AliTRDCalChamberStatus *>
831 (GetCachedCDBObject(kIDChamberStatus));
836 return cal->IsMasked(det);
840 //_____________________________________________________________________________
841 const AliTRDCalPID *AliTRDcalibDB::GetPIDObject(const Int_t method)
844 // Returns the object storing the distributions for PID with likelihood
848 case 0: return dynamic_cast<const AliTRDCalPID *>
849 (GetCachedCDBObject(kIDPIDNN));
850 case 1: return dynamic_cast<const AliTRDCalPID *>
851 (GetCachedCDBObject(kIDPIDLQ));
858 //_____________________________________________________________________________
859 const AliTRDCalMonitoring *AliTRDcalibDB::GetMonitoringObject()
862 // Returns the object storing the monitoring data
865 return dynamic_cast<const AliTRDCalMonitoring *>
866 (GetCachedCDBObject(kIDMonitoringData));
870 //_____________________________________________________________________________
871 Float_t AliTRDcalibDB::GetOmegaTau(Float_t vdrift, Float_t bz)
874 // Returns omega*tau (tan(Lorentz-angle)) for a given drift velocity <vdrift>
875 // and a B-field <bz> for Xe/CO2 (15%).
876 // The values are according to a GARFIELD simulation.
878 // This function basically does not belong to the calibration class.
879 // It should be moved somewhere else.
880 // However, currently it is in use by simulation and reconstruction.
883 Float_t fieldAbs = TMath::Abs(bz);
884 Float_t fieldSgn = (bz > 0.0) ? 1.0 : -1.0;
887 Float_t p0[kNb] = { 0.004810, 0.007412, 0.010252, 0.013409, 0.016888 };
888 Float_t p1[kNb] = { 0.054875, 0.081534, 0.107333, 0.131983, 0.155455 };
889 Float_t p2[kNb] = { -0.008682, -0.012896, -0.016987, -0.020880, -0.024623 };
890 Float_t p3[kNb] = { 0.000155, 0.000238, 0.000330, 0.000428, 0.000541 };
892 // No ExB if field is too small (or zero)
893 if (fieldAbs < 0.01) {
898 // Calculate ExB from parametrization
901 Int_t ib = ((Int_t) (10 * (fieldAbs - 0.15)));
902 ib = TMath::Max( 0,ib);
903 ib = TMath::Min(kNb,ib);
905 Float_t alphaL = p0[ib]
907 + p2[ib] * vdrift*vdrift
908 + p3[ib] * vdrift*vdrift*vdrift;
910 return TMath::Tan(fieldSgn * alphaL);
916 //_____________________________________________________________________________
917 void AliTRDcalibDB::SamplePRF()
920 // Samples the pad response function (should maybe go somewhere else ...)
923 const Int_t kPRFbin = 61;
925 Float_t prf[kNplan][kPRFbin] = {
926 {2.9037e-02, 3.3608e-02, 3.9020e-02, 4.5292e-02,
927 5.2694e-02, 6.1362e-02, 7.1461e-02, 8.3362e-02,
928 9.7063e-02, 1.1307e-01, 1.3140e-01, 1.5235e-01,
929 1.7623e-01, 2.0290e-01, 2.3294e-01, 2.6586e-01,
930 3.0177e-01, 3.4028e-01, 3.8077e-01, 4.2267e-01,
931 4.6493e-01, 5.0657e-01, 5.4655e-01, 5.8397e-01,
932 6.1767e-01, 6.4744e-01, 6.7212e-01, 6.9188e-01,
933 7.0627e-01, 7.1499e-01, 7.1851e-01, 7.1499e-01,
934 7.0627e-01, 6.9188e-01, 6.7212e-01, 6.4744e-01,
935 6.1767e-01, 5.8397e-01, 5.4655e-01, 5.0657e-01,
936 4.6493e-01, 4.2267e-01, 3.8077e-01, 3.4028e-01,
937 3.0177e-01, 2.6586e-01, 2.3294e-01, 2.0290e-01,
938 1.7623e-01, 1.5235e-01, 1.3140e-01, 1.1307e-01,
939 9.7063e-02, 8.3362e-02, 7.1461e-02, 6.1362e-02,
940 5.2694e-02, 4.5292e-02, 3.9020e-02, 3.3608e-02,
942 {2.5478e-02, 2.9695e-02, 3.4655e-02, 4.0454e-02,
943 4.7342e-02, 5.5487e-02, 6.5038e-02, 7.6378e-02,
944 8.9696e-02, 1.0516e-01, 1.2327e-01, 1.4415e-01,
945 1.6794e-01, 1.9516e-01, 2.2573e-01, 2.5959e-01,
946 2.9694e-01, 3.3719e-01, 3.7978e-01, 4.2407e-01,
947 4.6889e-01, 5.1322e-01, 5.5569e-01, 5.9535e-01,
948 6.3141e-01, 6.6259e-01, 6.8882e-01, 7.0983e-01,
949 7.2471e-01, 7.3398e-01, 7.3761e-01, 7.3398e-01,
950 7.2471e-01, 7.0983e-01, 6.8882e-01, 6.6259e-01,
951 6.3141e-01, 5.9535e-01, 5.5569e-01, 5.1322e-01,
952 4.6889e-01, 4.2407e-01, 3.7978e-01, 3.3719e-01,
953 2.9694e-01, 2.5959e-01, 2.2573e-01, 1.9516e-01,
954 1.6794e-01, 1.4415e-01, 1.2327e-01, 1.0516e-01,
955 8.9696e-02, 7.6378e-02, 6.5038e-02, 5.5487e-02,
956 4.7342e-02, 4.0454e-02, 3.4655e-02, 2.9695e-02,
958 {2.2363e-02, 2.6233e-02, 3.0782e-02, 3.6140e-02,
959 4.2535e-02, 5.0157e-02, 5.9197e-02, 6.9900e-02,
960 8.2707e-02, 9.7811e-02, 1.1548e-01, 1.3601e-01,
961 1.5998e-01, 1.8739e-01, 2.1840e-01, 2.5318e-01,
962 2.9182e-01, 3.3373e-01, 3.7837e-01, 4.2498e-01,
963 4.7235e-01, 5.1918e-01, 5.6426e-01, 6.0621e-01,
964 6.4399e-01, 6.7700e-01, 7.0472e-01, 7.2637e-01,
965 7.4206e-01, 7.5179e-01, 7.5551e-01, 7.5179e-01,
966 7.4206e-01, 7.2637e-01, 7.0472e-01, 6.7700e-01,
967 6.4399e-01, 6.0621e-01, 5.6426e-01, 5.1918e-01,
968 4.7235e-01, 4.2498e-01, 3.7837e-01, 3.3373e-01,
969 2.9182e-01, 2.5318e-01, 2.1840e-01, 1.8739e-01,
970 1.5998e-01, 1.3601e-01, 1.1548e-01, 9.7811e-02,
971 8.2707e-02, 6.9900e-02, 5.9197e-02, 5.0157e-02,
972 4.2535e-02, 3.6140e-02, 3.0782e-02, 2.6233e-02,
974 {1.9635e-02, 2.3167e-02, 2.7343e-02, 3.2293e-02,
975 3.8224e-02, 4.5335e-02, 5.3849e-02, 6.4039e-02,
976 7.6210e-02, 9.0739e-02, 1.0805e-01, 1.2841e-01,
977 1.5216e-01, 1.7960e-01, 2.1099e-01, 2.4671e-01,
978 2.8647e-01, 3.2996e-01, 3.7660e-01, 4.2547e-01,
979 4.7536e-01, 5.2473e-01, 5.7215e-01, 6.1632e-01,
980 6.5616e-01, 6.9075e-01, 7.1939e-01, 7.4199e-01,
981 7.5838e-01, 7.6848e-01, 7.7227e-01, 7.6848e-01,
982 7.5838e-01, 7.4199e-01, 7.1939e-01, 6.9075e-01,
983 6.5616e-01, 6.1632e-01, 5.7215e-01, 5.2473e-01,
984 4.7536e-01, 4.2547e-01, 3.7660e-01, 3.2996e-01,
985 2.8647e-01, 2.4671e-01, 2.1099e-01, 1.7960e-01,
986 1.5216e-01, 1.2841e-01, 1.0805e-01, 9.0739e-02,
987 7.6210e-02, 6.4039e-02, 5.3849e-02, 4.5335e-02,
988 3.8224e-02, 3.2293e-02, 2.7343e-02, 2.3167e-02,
990 {1.7224e-02, 2.0450e-02, 2.4286e-02, 2.8860e-02,
991 3.4357e-02, 4.0979e-02, 4.8966e-02, 5.8612e-02,
992 7.0253e-02, 8.4257e-02, 1.0102e-01, 1.2094e-01,
993 1.4442e-01, 1.7196e-01, 2.0381e-01, 2.4013e-01,
994 2.8093e-01, 3.2594e-01, 3.7450e-01, 4.2563e-01,
995 4.7796e-01, 5.2991e-01, 5.7974e-01, 6.2599e-01,
996 6.6750e-01, 7.0344e-01, 7.3329e-01, 7.5676e-01,
997 7.7371e-01, 7.8410e-01, 7.8793e-01, 7.8410e-01,
998 7.7371e-01, 7.5676e-01, 7.3329e-01, 7.0344e-01,
999 6.6750e-01, 6.2599e-01, 5.7974e-01, 5.2991e-01,
1000 4.7796e-01, 4.2563e-01, 3.7450e-01, 3.2594e-01,
1001 2.8093e-01, 2.4013e-01, 2.0381e-01, 1.7196e-01,
1002 1.4442e-01, 1.2094e-01, 1.0102e-01, 8.4257e-02,
1003 7.0253e-02, 5.8612e-02, 4.8966e-02, 4.0979e-02,
1004 3.4357e-02, 2.8860e-02, 2.4286e-02, 2.0450e-02,
1006 {1.5096e-02, 1.8041e-02, 2.1566e-02, 2.5793e-02,
1007 3.0886e-02, 3.7044e-02, 4.4515e-02, 5.3604e-02,
1008 6.4668e-02, 7.8109e-02, 9.4364e-02, 1.1389e-01,
1009 1.3716e-01, 1.6461e-01, 1.9663e-01, 2.3350e-01,
1010 2.7527e-01, 3.2170e-01, 3.7214e-01, 4.2549e-01,
1011 4.8024e-01, 5.3460e-01, 5.8677e-01, 6.3512e-01,
1012 6.7838e-01, 7.1569e-01, 7.4655e-01, 7.7071e-01,
1013 7.8810e-01, 7.9871e-01, 8.0255e-01, 7.9871e-01,
1014 7.8810e-01, 7.7071e-01, 7.4655e-01, 7.1569e-01,
1015 6.7838e-01, 6.3512e-01, 5.8677e-01, 5.3460e-01,
1016 4.8024e-01, 4.2549e-01, 3.7214e-01, 3.2170e-01,
1017 2.7527e-01, 2.3350e-01, 1.9663e-01, 1.6461e-01,
1018 1.3716e-01, 1.1389e-01, 9.4364e-02, 7.8109e-02,
1019 6.4668e-02, 5.3604e-02, 4.4515e-02, 3.7044e-02,
1020 3.0886e-02, 2.5793e-02, 2.1566e-02, 1.8041e-02,
1023 // More sampling precision with linear interpolation
1026 Float_t pad[kPRFbin];
1027 Int_t sPRFbin = kPRFbin;
1028 Float_t sPRFwid = (fPRFhi - fPRFlo) / ((Float_t) sPRFbin);
1029 for (Int_t iPad = 0; iPad < sPRFbin; iPad++) {
1030 pad[iPad] = ((Float_t) iPad + 0.5) * sPRFwid + fPRFlo;
1033 fPRFwid = (fPRFhi - fPRFlo) / ((Float_t) fPRFbin);
1034 fPRFpad = ((Int_t) (1.0 / fPRFwid));
1036 if (fPRFsmp) delete [] fPRFsmp;
1037 fPRFsmp = new Float_t[kNplan*fPRFbin];
1043 for (Int_t iPla = 0; iPla < kNplan; iPla++) {
1045 for (Int_t iBin = 0; iBin < fPRFbin; iBin++) {
1047 Float_t bin = (((Float_t) iBin) + 0.5) * fPRFwid + fPRFlo;
1051 diff = bin - pad[ipos2++];
1052 } while ((diff > 0) && (ipos2 < kPRFbin));
1053 if (ipos2 == kPRFbin) {
1054 fPRFsmp[iPla*fPRFbin+iBin] = prf[iPla][ipos2-1];
1056 else if (ipos2 == 1) {
1057 fPRFsmp[iPla*fPRFbin+iBin] = prf[iPla][ipos2-1];
1061 if (ipos2 >= kPRFbin) ipos2 = kPRFbin - 1;
1063 fPRFsmp[iPla*fPRFbin+iBin] = prf[iPla][ipos2]
1064 + diff * (prf[iPla][ipos2] - prf[iPla][ipos1])
1073 //_____________________________________________________________________________
1074 Int_t AliTRDcalibDB::PadResponse(Double_t signal, Double_t dist
1075 , Int_t plane, Double_t *pad) const
1078 // Applies the pad response
1079 // So far this is the fixed parametrization and should be replaced by
1080 // something dependent on calibration values
1083 Int_t iBin = ((Int_t) (( - dist - fPRFlo) / fPRFwid));
1084 Int_t iOff = plane * fPRFbin;
1086 Int_t iBin0 = iBin - fPRFpad + iOff;
1087 Int_t iBin1 = iBin + iOff;
1088 Int_t iBin2 = iBin + fPRFpad + iOff;
1093 if ((iBin1 >= 0) && (iBin1 < (fPRFbin*kNplan))) {
1096 pad[0] = signal * fPRFsmp[iBin0];
1098 pad[1] = signal * fPRFsmp[iBin1];
1099 if (iBin2 < (fPRFbin*kNplan)) {
1100 pad[2] = signal * fPRFsmp[iBin2];