[u/mrichter/AliRoot.git] / T0 / AliT0Parameters.cxx

/**************************************************************************
 * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
 *                                                                        *
 * Author: The ALICE Off-line Project.                                    *
 * Contributors are mentioned in the code where appropriate.              *
 *                                                                        *
 * Permission to use, copy, modify and distribute this software and its   *
 * documentation strictly for non-commercial purposes is hereby granted   *
 * without fee, provided that the above copyright notice appears in all   *
 * copies and that both the copyright notice and this permission notice   *
 * appear in the supporting documentation. The authors make no claims     *
 * about the suitability of this software for any purpose. It is          *
 * provided "as is" without express or implied warranty.                  *
 **************************************************************************/

/* $Id:  */

//____________________________________________________________________
//                                                                          
// T0 - T0. 
//
// This class is a singleton that handles various parameters of
// the T0 detectors.  
// Eventually, this class will use the Conditions DB to get the
// various parameters, which code can then request from here.
//                                                       
#include "AliT0.h"
#include "AliLog.h"		  
#include "AliT0Parameters.h"	  
#include "AliT0CalibData.h"   
#include "AliT0CalibWalk.h"   
#include "AliT0CalibTimeEq.h"   
#include "AliT0LookUpKey.h"
#include "AliT0LookUpValue.h"
#include <AliCDBManager.h>        
#include <AliCDBEntry.h>          
#include <AliCDBStorage.h>  
#include <TMath.h>
#include <TSystem.h>
//#include <Riostream.h>
#include <TGeoManager.h>
#include <TGeoPhysicalNode.h>
#include <TGeoMatrix.h>
#include <AliGeomManager.h>

AliT0CalibTimeEq* AliT0Parameters::fgCalibData = 0;
AliT0CalibData* AliT0Parameters::fgLookUp = 0;
AliT0CalibWalk* AliT0Parameters::fgSlewCorr =0;
//====================================================================
ClassImp(AliT0Parameters)
#if 0
  ; // This is here to keep Emacs for indenting the next line
#endif

//____________________________________________________________________
AliT0Parameters* AliT0Parameters::fgInstance = 0;
//____________________________________________________________________
AliT0Parameters* AliT0Parameters::Instance() 
{
  // Get static instance 
  if (!fgInstance) {
    fgInstance = new AliT0Parameters;
  }
  return fgInstance;
}

//____________________________________________________________________
AliT0Parameters::AliT0Parameters()
  :fIsInit(kFALSE),
   fPh2Mip(0),fmV2Mip(0),
   fChannelWidth(0),fmV2Channel(0),
   fQTmin(0),fQTmax(0),
   fAmpLEDRec(0), 
   fPMTeff(),
   fWalk(0),
   fQTC(0),
   fAmpLED(0),
   fTimeDelayCFD(0), 
 //  fTimeV0(0), 
   fTimeDelayTVD(0),
   fMeanT0(512),
   fMeanVertex(0),
   fLookUp(0),
   fNumberOfTRMs(2),
   fCalibentry(), fLookUpentry(),fSlewCorr()

  
{
  // Default constructor 
  for (Int_t ipmt=0; ipmt<24; ipmt++)
    {
      SetPh2Mip();      
      SetmV2Mip();      
      SetChannelWidth();
      SetmV2channel();
      SetQTmin();
      SetQTmax();
      SetPMTeff(ipmt);
    }
  SetTimeDelayTVD();
  SetZposition();
    
}

//__________________________________________________________________
void
AliT0Parameters::Init()
{
  // Initialize the parameters manager.  We need to get stuff from the
  // CDB here. 
   if (fIsInit) return;

   AliCDBManager *stor =AliCDBManager::Instance();
   //time equalizing
   fCalibentry  = stor->Get("T0/Calib/TimeDelay");
   if (fCalibentry)
     fgCalibData  = (AliT0CalibTimeEq*)fCalibentry->GetObject();
   else {
         AliFatal(" ALARM !!!! No time delays in CDB "); 
     fIsInit = kFALSE;
     return;
   }
 //slewing correction
  fSlewCorr  = stor->Get("T0/Calib/Slewing_Walk");
  if (fSlewCorr){
    fgSlewCorr  = (AliT0CalibWalk*)fSlewCorr->GetObject();
  }
  else {
      AliFatal(" ALARM !!!! No slewing correction in CDB "); 
    fIsInit = kFALSE;
    return;
  }
  //lookup table
  fLookUpentry  = stor->Get("T0/Calib/LookUp_Table");
  if (fLookUpentry){
    fgLookUp  = (AliT0CalibData*)fLookUpentry->GetObject();
  }
  else {
     AliFatal(" ALARM !!!! No Lookup table  in CDB "); 
    fIsInit = kFALSE;
    return;
  }
  fIsInit = kTRUE;
}


//__________________________________________________________________

void AliT0Parameters::InitIfOnline()
{
// should be used in online
// for switching to this one should write
  // AliT0RawReader myrawreader(rawReader);
//	myrawreader.SetOnlineMode(kTRUE);

  if (fIsInit) return;
   //standart configuration (used for simulation)
   //Int_t trm=0; Int_t tdc=0; Int_t chain=0; Int_t channel=0;
  // configuration for test Jun07.
   fgLookUp = new AliT0CalibData("T0");

  fNumberOfTRMs = 1;
 fgLookUp-> SetNumberOfTRMs(fNumberOfTRMs);
  Int_t trm=7; Int_t tdc=0; Int_t chain=0; Int_t channel=0;
  for (Int_t ik=0; ik<105; ik++)
        {
         AliT0LookUpKey * lookkey= new AliT0LookUpKey();
         AliT0LookUpValue * lookvalue= new AliT0LookUpValue();


          lookvalue->SetTRM(trm);
          lookvalue->SetTDC(tdc);
          lookvalue->SetChain(chain);
          lookvalue->SetChannel(channel);
          lookkey->SetKey(ik);
	  fgLookUp->GetMapLookup()->Add((TObject*)lookvalue,(TObject*)lookkey);	
	  if (channel<6) channel +=2;
	  else {channel = 0; tdc++;}
	  if(ik==56) { tdc=0; channel=0; chain = 1;}

       }
  
  fIsInit=kTRUE;
}
//__________________________________________________________________
Float_t
AliT0Parameters::GetTimeDelayCFD(Int_t ipmt) 
  {
  // return time delay for CFD channel
   // 
  if (!fCalibentry) 
    {
      fTimeDelayCFD = 1000+ipmt*100;
      return fTimeDelayCFD;
    }
   
  return fgCalibData->GetTimeEq(ipmt);
}
//__________________________________________________________________

Float_t
AliT0Parameters:: GetMeanVertex()
{ 
  if (!fCalibentry) 
    {
      fMeanVertex=0;
      return fMeanVertex;
    }
   
  return fgCalibData->GetMeanVertex();
}
//__________________________________________________________________

TGraph *AliT0Parameters::GetAmpLEDRec(Int_t ipmt) const
{
   if (!fSlewCorr) {
     AliError("No slewing correction is available!");
     return  (TGraph*)fAmpLEDRec.At(ipmt); 
  } 
  return fgSlewCorr -> GetAmpLEDRec(ipmt) ;
}

//__________________________________________________________________

TGraph *AliT0Parameters::GetWalk(Int_t ipmt) const
{
  if (!fSlewCorr) {
    AliError("No walk correction is available!");
    return  (TGraph*)fWalk.At(ipmt); 
  } 
  return fgSlewCorr -> GetWalk(ipmt) ;
}

//__________________________________________________________________

TGraph *AliT0Parameters::GetQTC(Int_t ipmt) const
{
  if (!fSlewCorr) {
    AliError("No walk correction is available!");
    //    return  (TGraph*)fQTC.At(ipmt); 
   return  0; 
  } 
  return fgSlewCorr -> GetQTC(ipmt) ;
}

//__________________________________________________________________
TGraph *AliT0Parameters::GetAmpLED(Int_t ipmt) const
{
  if (!fSlewCorr) {
    AliError("No walk correction is available!");
    //    return  (TGraph*)fQTC.At(ipmt); 
   return  0; 
  } 
  return fgSlewCorr -> GetAmpLED(ipmt) ;
}

//__________________________________________________________________
void 
AliT0Parameters::SetPMTeff(Int_t ipmt)
{
  Float_t lambda[50];
  Float_t eff[50 ] = {0,        0,       0.23619,  0.202909, 0.177913, 
		    0.175667, 0.17856, 0.190769, 0.206667, 0.230286,
		    0.252276, 0.256267,0.26,     0.27125,  0.281818,
		    0.288118, 0.294057,0.296222, 0.301622, 0.290421, 
		    0.276615, 0.2666,  0.248,    0.23619,  0.227814, 
		    0.219818, 0.206667,0.194087, 0.184681, 0.167917, 
		    0.154367, 0.1364,  0.109412, 0.0834615,0.0725283, 
		    0.0642963,0.05861, 0.0465,   0.0413333,0.032069, 
		    0.0252203,0.02066, 0.016262, 0.012,    0.00590476,
		    0.003875, 0.00190, 0,        0,        0          } ;
  for (Int_t i=0; i<50; i++) lambda[i]=200+10*i; 

  TGraph* gr = new TGraph(50,lambda,eff);
  fPMTeff.AddAtAndExpand(gr,ipmt);
}
//________________________________________________________________

Int_t 
AliT0Parameters::GetChannel(Int_t trm,  Int_t tdc, Int_t chain, Int_t channel)
{

  if (fgLookUp) {
    AliT0LookUpValue key(trm,tdc,chain,channel);
      AliT0LookUpKey *val = (AliT0LookUpKey*) fgLookUp->GetMapLookup()->GetValue((TObject*)&key);
      // AliT0LookUpKey *val = (AliT0LookUpKey*) fLookUp.GetValue((TObject*)&key);
    if (val )
      return val->GetKey();
    else {
      AliWarning(Form("No such address (%d %d %d %d)!",trm,tdc,chain,channel));
      return -1;
    }
  }
  else {
    AliError("No look up table has been loader!");
    return -1;
  }

}
//__________________________________________________________________
TMap *AliT0Parameters::GetMapLookup()
{
  if (!fgLookUp){
    cout<<" No look up table in OCDB";
    return 0;
  }
  return   fgLookUp->GetMapLookup();
}
//__________________________________________________________________

Int_t
AliT0Parameters::GetNumberOfTRMs() 
{
  // return number of trms
  // 
  if (!fgLookUp) {
    //  fNumberOfTRMs = 2;
    return  fNumberOfTRMs;
  } 
  return  fgLookUp ->GetNumberOfTRMs();
}
/*
//________________________________________________________________________________
Double_t AliT0Parameters::GetZPosition(const char* symname){
// Get the global z coordinate of the given T0 alignable volume
//
  Double_t *tr = AliGeomManager::GetMatrix(symname)->GetTranslation();

  return tr[2];
}
*/
//________________________________________________________________________________
Double_t AliT0Parameters::GetZPosition(const char* symname){
// Get the global z coordinate of the given T0 alignable volume
//
  Double_t *tr;
  TGeoPNEntry *pne = gGeoManager->GetAlignableEntry(symname);
  if (!pne) return 0;
  

  TGeoPhysicalNode *pnode = pne->GetPhysicalNode();
  if(pnode){
          TGeoHMatrix* hm = pnode->GetMatrix();
           tr = hm->GetTranslation();
  }else{
          const char* path = pne->GetTitle();
          if(!gGeoManager->cd(path)){
                  AliErrorClass(Form("Volume path %s not valid!",path));
                  return 0;
          }
         tr = gGeoManager->GetCurrentMatrix()->GetTranslation();
  }
  return tr[2];

}
//________________________________________________________________________________

Double_t AliT0Parameters::GetZPositionShift(const char* symname)
{
// Get the global z coordinate of the given T0 alignable volume
//
  Double_t *tr = AliGeomManager::GetMatrix(symname)->GetTranslation();

  TGeoHMatrix origmat;
  AliGeomManager::GetOrigGlobalMatrix(symname,origmat);
  Double_t *otr = origmat.GetTranslation();

  return (tr[2]-otr[2]);
}
Commit	Line	Data
dc7ca31d	1	/**************************************************************************
	2	* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	3	* *
	4	* Author: The ALICE Off-line Project. *
	5	* Contributors are mentioned in the code where appropriate. *
	6	* *
	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	**************************************************************************/
	15
	16	/* $Id: */
	17
	18	//____________________________________________________________________
	19	//
	20	// T0 - T0.
	21	//
	22	// This class is a singleton that handles various parameters of
	23	// the T0 detectors.
	24	// Eventually, this class will use the Conditions DB to get the
	25	// various parameters, which code can then request from here.
	26	//
6b7d32f7	27	#include "AliT0.h"
dc7ca31d	28	#include "AliLog.h"
	29	#include "AliT0Parameters.h"
	30	#include "AliT0CalibData.h"
82ee3b37	31	#include "AliT0CalibWalk.h"
82ee3b37	32	#include "AliT0CalibTimeEq.h"
2d3bfdf7	33	#include "AliT0LookUpKey.h"
e0bba6cc	34	#include "AliT0LookUpValue.h"
dc7ca31d	35	#include <AliCDBManager.h>
dc7ca31d	36	#include <AliCDBEntry.h>
0d82bd92	37	#include <AliCDBStorage.h>
aae44346	38	#include <TMath.h>
0d82bd92	39	#include <TSystem.h>
700e6b36	40	//#include <Riostream.h>
5325480c	41	#include <TGeoManager.h>
5325480c	42	#include <TGeoPhysicalNode.h>
212239a1	43	#include <TGeoMatrix.h>
0d82bd92	44	#include <AliGeomManager.h>
dc7ca31d	45
82ee3b37	46	AliT0CalibTimeEq* AliT0Parameters::fgCalibData = 0;
e0bba6cc	47	AliT0CalibData* AliT0Parameters::fgLookUp = 0;
82ee3b37	48	AliT0CalibWalk* AliT0Parameters::fgSlewCorr =0;
dc7ca31d	49	//====================================================================
	50	ClassImp(AliT0Parameters)
	51	#if 0
	52	; // This is here to keep Emacs for indenting the next line
	53	#endif
	54
	55	//____________________________________________________________________
	56	AliT0Parameters* AliT0Parameters::fgInstance = 0;
	57	//____________________________________________________________________
3b7f37fd	58	AliT0Parameters* AliT0Parameters::Instance()
dc7ca31d	59	{
dc7ca31d	60	// Get static instance
76f3b07a	61	if (!fgInstance) {
76f3b07a	62	fgInstance = new AliT0Parameters;
76f3b07a	63	}
dc7ca31d	64	return fgInstance;
	65	}
	66
	67	//____________________________________________________________________
	68	AliT0Parameters::AliT0Parameters()
5325480c	69	:fIsInit(kFALSE),
	70	fPh2Mip(0),fmV2Mip(0),
	71	fChannelWidth(0),fmV2Channel(0),
	72	fQTmin(0),fQTmax(0),
29d3e0eb	73	fAmpLEDRec(0),
5325480c	74	fPMTeff(),
29d3e0eb	75	fWalk(0),
c2337900	76	fQTC(0),
c2337900	77	fAmpLED(0),
29d3e0eb	78	fTimeDelayCFD(0),
82ee3b37	79	// fTimeV0(0),
29d3e0eb	80	fTimeDelayTVD(0),
494f5042	81	fMeanT0(512),
4c809cd8	82	fMeanVertex(0),
29d3e0eb	83	fLookUp(0),
	84	fNumberOfTRMs(2),
	85	fCalibentry(), fLookUpentry(),fSlewCorr()
	86
74adb36a	87
dc7ca31d	88	{
dc7ca31d	89	// Default constructor
dc7ca31d	90	for (Int_t ipmt=0; ipmt<24; ipmt++)
dc7ca31d	91	{
dc7ca31d	92	SetPh2Mip();
	93	SetmV2Mip();
	94	SetChannelWidth();
	95	SetmV2channel();
dc7ca31d	96	SetQTmin();
	97	SetQTmax();
	98	SetPMTeff(ipmt);
74adb36a	99	}
dc7ca31d	100	SetTimeDelayTVD();
dc7ca31d	101	SetZposition();
74adb36a	102
dc7ca31d	103	}
	104
	105	//__________________________________________________________________
	106	void
	107	AliT0Parameters::Init()
	108	{
	109	// Initialize the parameters manager. We need to get stuff from the
	110	// CDB here.
94c27e4f	111	if (fIsInit) return;
6ba20b30	112
74adb36a	113	AliCDBManager *stor =AliCDBManager::Instance();
74adb36a	114	//time equalizing
256d4943	115	fCalibentry = stor->Get("T0/Calib/TimeDelay");
256d4943	116	if (fCalibentry)
82ee3b37	117	fgCalibData = (AliT0CalibTimeEq*)fCalibentry->GetObject();
256d4943	118	else {
	119	AliFatal(" ALARM !!!! No time delays in CDB ");
	120	fIsInit = kFALSE;
	121	return;
	122	}
c41ceaac	123	//slewing correction
74adb36a	124	fSlewCorr = stor->Get("T0/Calib/Slewing_Walk");
5325480c	125	if (fSlewCorr){
82ee3b37	126	fgSlewCorr = (AliT0CalibWalk*)fSlewCorr->GetObject();
c41ceaac	127	}
3b7f37fd	128	else {
256d4943	129	AliFatal(" ALARM !!!! No slewing correction in CDB ");
3b7f37fd	130	fIsInit = kFALSE;
	131	return;
	132	}
74adb36a	133	//lookup table
6eac39a1	134	fLookUpentry = stor->Get("T0/Calib/LookUp_Table");
e0bba6cc	135	if (fLookUpentry){
e0bba6cc	136	fgLookUp = (AliT0CalibData*)fLookUpentry->GetObject();
e0bba6cc	137	}
3b7f37fd	138	else {
256d4943	139	AliFatal(" ALARM !!!! No Lookup table in CDB ");
3b7f37fd	140	fIsInit = kFALSE;
	141	return;
	142	}
dc7ca31d	143	fIsInit = kTRUE;
	144	}
	145
	146
dc7ca31d	147	//__________________________________________________________________
f8bea420	148
	149	void AliT0Parameters::InitIfOnline()
	150	{
	151	// should be used in online
	152	// for switching to this one should write
	153	// AliT0RawReader myrawreader(rawReader);
	154	// myrawreader.SetOnlineMode(kTRUE);
700e6b36	155
0d82bd92	156	if (fIsInit) return;
29d3e0eb	157	//standart configuration (used for simulation)
	158	//Int_t trm=0; Int_t tdc=0; Int_t chain=0; Int_t channel=0;
	159	// configuration for test Jun07.
d9cae8af	160	fgLookUp = new AliT0CalibData("T0");
dd9fd8d6	161
0d72dc5b	162	fNumberOfTRMs = 1;
d9cae8af	163	fgLookUp-> SetNumberOfTRMs(fNumberOfTRMs);
0d72dc5b	164	Int_t trm=7; Int_t tdc=0; Int_t chain=0; Int_t channel=0;
79e04c5f	165	for (Int_t ik=0; ik<105; ik++)
f8bea420	166	{
	167	AliT0LookUpKey * lookkey= new AliT0LookUpKey();
	168	AliT0LookUpValue * lookvalue= new AliT0LookUpValue();
	169
	170
	171	lookvalue->SetTRM(trm);
	172	lookvalue->SetTDC(tdc);
	173	lookvalue->SetChain(chain);
	174	lookvalue->SetChannel(channel);
	175	lookkey->SetKey(ik);
0d82bd92	176	fgLookUp->GetMapLookup()->Add((TObject)lookvalue,(TObject)lookkey);
663b10cd	177	if (channel<6) channel +=2;
663b10cd	178	else {channel = 0; tdc++;}
0d82bd92	179	if(ik==56) { tdc=0; channel=0; chain = 1;}
dd9fd8d6	180
f8bea420	181	}
74adb36a	182
74adb36a	183	fIsInit=kTRUE;
f8bea420	184	}
f8bea420	185	//__________________________________________________________________
dc7ca31d	186	Float_t
dc7ca31d	187	AliT0Parameters::GetTimeDelayCFD(Int_t ipmt)
82ee3b37	188	{
dc7ca31d	189	// return time delay for CFD channel
	190	//
	191	if (!fCalibentry)
	192	{
c41ceaac	193	fTimeDelayCFD = 1000+ipmt*100;
c41ceaac	194	return fTimeDelayCFD;
dc7ca31d	195	}
dc7ca31d	196
82ee3b37	197	return fgCalibData->GetTimeEq(ipmt);
dc7ca31d	198	}
dc7ca31d	199	//__________________________________________________________________
dc7ca31d	200
b95e8d87	201	Float_t
	202	AliT0Parameters:: GetMeanVertex()
	203	{
	204	if (!fCalibentry)
	205	{
	206	fMeanVertex=0;
	207	return fMeanVertex;
	208	}
	209
	210	return fgCalibData->GetMeanVertex();
	211	}
	212	//__________________________________________________________________
	213
74adb36a	214	TGraph *AliT0Parameters::GetAmpLEDRec(Int_t ipmt) const
dc7ca31d	215	{
74adb36a	216	if (!fSlewCorr) {
29d3e0eb	217	AliError("No slewing correction is available!");
29d3e0eb	218	return (TGraph*)fAmpLEDRec.At(ipmt);
dc7ca31d	219	}
74adb36a	220	return fgSlewCorr -> GetAmpLEDRec(ipmt) ;
dc7ca31d	221	}
	222
	223	//__________________________________________________________________
	224
c41ceaac	225	TGraph *AliT0Parameters::GetWalk(Int_t ipmt) const
c41ceaac	226	{
74adb36a	227	if (!fSlewCorr) {
29d3e0eb	228	AliError("No walk correction is available!");
c41ceaac	229	return (TGraph*)fWalk.At(ipmt);
c41ceaac	230	}
74adb36a	231	return fgSlewCorr -> GetWalk(ipmt) ;
c41ceaac	232	}
	233
	234	//__________________________________________________________________
	235
c883fdf2	236	TGraph *AliT0Parameters::GetQTC(Int_t ipmt) const
c41ceaac	237	{
0d82bd92	238	if (!fSlewCorr) {
c883fdf2	239	AliError("No walk correction is available!");
	240	// return (TGraph*)fQTC.At(ipmt);
	241	return 0;
c41ceaac	242	}
c883fdf2	243	return fgSlewCorr -> GetQTC(ipmt) ;
c41ceaac	244	}
c41ceaac	245
c883fdf2	246	//__________________________________________________________________
	247	TGraph *AliT0Parameters::GetAmpLED(Int_t ipmt) const
	248	{
	249	if (!fSlewCorr) {
	250	AliError("No walk correction is available!");
	251	// return (TGraph*)fQTC.At(ipmt);
	252	return 0;
	253	}
	254	return fgSlewCorr -> GetAmpLED(ipmt) ;
	255	}
c41ceaac	256
dc7ca31d	257	//__________________________________________________________________
	258	void
	259	AliT0Parameters::SetPMTeff(Int_t ipmt)
	260	{
	261	Float_t lambda[50];
	262	Float_t eff[50 ] = {0, 0, 0.23619, 0.202909, 0.177913,
	263	0.175667, 0.17856, 0.190769, 0.206667, 0.230286,
	264	0.252276, 0.256267,0.26, 0.27125, 0.281818,
	265	0.288118, 0.294057,0.296222, 0.301622, 0.290421,
	266	0.276615, 0.2666, 0.248, 0.23619, 0.227814,
	267	0.219818, 0.206667,0.194087, 0.184681, 0.167917,
	268	0.154367, 0.1364, 0.109412, 0.0834615,0.0725283,
	269	0.0642963,0.05861, 0.0465, 0.0413333,0.032069,
	270	0.0252203,0.02066, 0.016262, 0.012, 0.00590476,
	271	0.003875, 0.00190, 0, 0, 0 } ;
	272	for (Int_t i=0; i<50; i++) lambda[i]=200+10*i;
	273
	274	TGraph* gr = new TGraph(50,lambda,eff);
	275	fPMTeff.AddAtAndExpand(gr,ipmt);
	276	}
e0bba6cc	277	//________________________________________________________________
	278
	279	Int_t
	280	AliT0Parameters::GetChannel(Int_t trm, Int_t tdc, Int_t chain, Int_t channel)
	281	{
	282
e30bc492	283	if (fgLookUp) {
e30bc492	284	AliT0LookUpValue key(trm,tdc,chain,channel);
3a06b1d2	285	AliT0LookUpKey val = (AliT0LookUpKey) fgLookUp->GetMapLookup()->GetValue((TObject*)&key);
3a06b1d2	286	// AliT0LookUpKey val = (AliT0LookUpKey) fLookUp.GetValue((TObject*)&key);
e30bc492	287	if (val )
	288	return val->GetKey();
	289	else {
	290	AliWarning(Form("No such address (%d %d %d %d)!",trm,tdc,chain,channel));
	291	return -1;
	292	}
	293	}
	294	else {
	295	AliError("No look up table has been loader!");
29d3e0eb	296	return -1;
e0bba6cc	297	}
e0bba6cc	298
e0bba6cc	299	}
5325480c	300	//__________________________________________________________________
29d3e0eb	301	TMap *AliT0Parameters::GetMapLookup()
	302	{
	303	if (!fgLookUp){
	304	cout<<" No look up table in OCDB";
	305	return 0;
	306	}
	307	return fgLookUp->GetMapLookup();
	308	}
	309	//__________________________________________________________________
	310
5325480c	311	Int_t
	312	AliT0Parameters::GetNumberOfTRMs()
	313	{
	314	// return number of trms
	315	//
	316	if (!fgLookUp) {
29d3e0eb	317	// fNumberOfTRMs = 2;
5325480c	318	return fNumberOfTRMs;
	319	}
	320	return fgLookUp ->GetNumberOfTRMs();
	321	}
256d4943	322	/*
5325480c	323	//________________________________________________________________________________
	324	Double_t AliT0Parameters::GetZPosition(const char* symname){
	325	// Get the global z coordinate of the given T0 alignable volume
	326	//
29d3e0eb	327	Double_t *tr = AliGeomManager::GetMatrix(symname)->GetTranslation();
5325480c	328
5325480c	329	return tr[2];
29d3e0eb	330	}
256d4943	331	*/
	332	//________________________________________________________________________________
	333	Double_t AliT0Parameters::GetZPosition(const char* symname){
	334	// Get the global z coordinate of the given T0 alignable volume
	335	//
	336	Double_t *tr;
256d4943	337	TGeoPNEntry *pne = gGeoManager->GetAlignableEntry(symname);
	338	if (!pne) return 0;
	339
	340
	341	TGeoPhysicalNode *pnode = pne->GetPhysicalNode();
	342	if(pnode){
	343	TGeoHMatrix* hm = pnode->GetMatrix();
	344	tr = hm->GetTranslation();
	345	}else{
	346	const char* path = pne->GetTitle();
	347	if(!gGeoManager->cd(path)){
	348	AliErrorClass(Form("Volume path %s not valid!",path));
	349	return 0;
	350	}
	351	tr = gGeoManager->GetCurrentMatrix()->GetTranslation();
	352	}
	353	return tr[2];
	354
	355	}
29d3e0eb	356	//________________________________________________________________________________
	357
	358	Double_t AliT0Parameters::GetZPositionShift(const char* symname)
	359	{
	360	// Get the global z coordinate of the given T0 alignable volume
	361	//
	362	Double_t *tr = AliGeomManager::GetMatrix(symname)->GetTranslation();
	363
	364	TGeoHMatrix origmat;
	365	AliGeomManager::GetOrigGlobalMatrix(symname,origmat);
	366	Double_t *otr = origmat.GetTranslation();
5325480c	367
29d3e0eb	368	return (tr[2]-otr[2]);
5325480c	369	}
5325480c	370