[u/mrichter/AliRoot.git] / FMD / AliFMDReconstructor.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.                  *
 **************************************************************************/
/* $Id$ */
/** @file    AliFMDReconstructor.cxx
    @author  Christian Holm Christensen <cholm@nbi.dk>
    @date    Mon Mar 27 12:47:09 2006
    @brief   FMD reconstruction 
*/
//____________________________________________________________________
//
// This is a class that constructs AliFMDRecPoint objects from of Digits
// This class reads either digits from a TClonesArray or raw data from 
// a DDL file (or similar), and stores the read ADC counts in an
// internal cache (fAdcs).   The rec-points are made via the naiive
// method. 
//
//-- Authors: Evgeny Karpechev(INR) and Alla Maevsksia
//  Latest changes by Christian Holm Christensen <cholm@nbi.dk>
//
//
//____________________________________________________________________

// #include <AliLog.h>                        // ALILOG_H
// #include <AliRun.h>                        // ALIRUN_H
#include "AliFMDDebug.h"
#include "AliFMDGeometry.h"                // ALIFMDGEOMETRY_H
#include "AliFMDParameters.h"              // ALIFMDPARAMETERS_H
#include "AliFMDDigit.h"                   // ALIFMDDIGIT_H
#include "AliFMDReconstructor.h"           // ALIFMDRECONSTRUCTOR_H
#include "AliFMDRawReader.h"               // ALIFMDRAWREADER_H
#include "AliFMDRecPoint.h"	   	   // ALIFMDMULTNAIIVE_H
#include "AliESDEvent.h"		   // ALIESDEVENT_H
#include "AliESDVertex.h"		   // ALIESDVERTEX_H
#include <AliESDFMD.h>			   // ALIESDFMD_H
#include <TMath.h>
#include <TH1.h>
#include <TH2.h>
#include <TFile.h>
class AliRawReader;

//____________________________________________________________________
ClassImp(AliFMDReconstructor)
#if 0
  ; // This is here to keep Emacs for indenting the next line
#endif

//____________________________________________________________________
AliFMDReconstructor::AliFMDReconstructor() 
  : AliReconstructor(),
    fMult(0x0), 
    fNMult(0),
    fTreeR(0x0),
    fCurrentVertex(0),
    fESDObj(0x0),
    fNoiseFactor(0),
    fAngleCorrect(kTRUE),
    fVertexType(kNoVertex),
    fESD(0x0),
    fDiagnostics(kFALSE),
    fDiagStep1(0), 
    fDiagStep2(0),
    fDiagStep3(0),
    fDiagStep4(0),
    fDiagAll(0)
{
  // Make a new FMD reconstructor object - default CTOR.  
  SetNoiseFactor();
  SetAngleCorrect();
}
  

//____________________________________________________________________
AliFMDReconstructor::AliFMDReconstructor(const AliFMDReconstructor& other) 
  : AliReconstructor(), 
    fMult(other.fMult),
    fNMult(other.fNMult),
    fTreeR(other.fTreeR),
    fCurrentVertex(other.fCurrentVertex),
    fESDObj(other.fESDObj),
    fNoiseFactor(other.fNoiseFactor),
    fAngleCorrect(other.fAngleCorrect),
    fVertexType(other.fVertexType),
    fESD(other.fESD),
    fDiagnostics(other.fDiagnostics),
    fDiagStep1(other.fDiagStep1), 
    fDiagStep2(other.fDiagStep2),
    fDiagStep3(other.fDiagStep3),
    fDiagStep4(other.fDiagStep4),
    fDiagAll(other.fDiagAll) 
{
  // Copy constructor 
}
  

//____________________________________________________________________
AliFMDReconstructor&
AliFMDReconstructor::operator=(const AliFMDReconstructor& other) 
{
  // Assignment operator
  fMult          = other.fMult;
  fNMult         = other.fNMult;
  fTreeR         = other.fTreeR;
  fCurrentVertex = other.fCurrentVertex;
  fESDObj        = other.fESDObj;
  fNoiseFactor   = other.fNoiseFactor;
  fAngleCorrect  = other.fAngleCorrect;
  fVertexType    = other.fVertexType;
  fESD           = other.fESD;
  fDiagnostics   = other.fDiagnostics;
  fDiagStep1     = other.fDiagStep1;
  fDiagStep2     = other.fDiagStep2;
  fDiagStep3     = other.fDiagStep3;
  fDiagStep4     = other.fDiagStep4;
  fDiagAll       = other.fDiagAll;
  return *this;
}

//____________________________________________________________________
AliFMDReconstructor::~AliFMDReconstructor() 
{
  // Destructor 
  if (fMult)   fMult->Delete();
  if (fMult)   delete fMult;
  if (fESDObj) delete fESDObj;
}

//____________________________________________________________________
void 
AliFMDReconstructor::Init() 
{
  // Initialize the reconstructor 

  // Initialize the geometry 
  AliFMDGeometry* geom = AliFMDGeometry::Instance();
  geom->Init();
  geom->InitTransformations();

  // Initialize the parameters
  AliFMDParameters* param = AliFMDParameters::Instance();
  param->Init();
  
  // Current vertex position
  fCurrentVertex = 0;
  // Create array of reconstructed strip multiplicities 
  fMult = new TClonesArray("AliFMDRecPoint", 51200);
  // Create ESD output object 
  fESDObj = new AliESDFMD;
  
  // Check if we need diagnostics histograms 
  if (!fDiagnostics) return;
  fDiagStep1   = new TH2I("diagStep1", "Read ADC vs. Noise surpressed ADC",
			1024, -.5, 1023.5, 1024, -.5, 1023.5);
  fDiagStep1->SetDirectory(0);
  fDiagStep1->GetXaxis()->SetTitle("ADC (read)");
  fDiagStep1->GetYaxis()->SetTitle(Form("ADC (noise surpressed %4.f)", 
					fNoiseFactor));
  fDiagStep2  = new TH2F("diagStep2",  "ADC vs Edep deduced",
			1024, -.5, 1023.5, 100, 0, 2);
  fDiagStep2->SetDirectory(0);
  fDiagStep2->GetXaxis()->SetTitle("ADC (noise surpressed)");
  fDiagStep2->GetYaxis()->SetTitle("#Delta E [GeV]");
  fDiagStep3  = new TH2F("diagStep3",  "Edep vs Edep path corrected",
			100, 0., 2., 100, 0., 2.);
  fDiagStep3->SetDirectory(0);
  fDiagStep3->GetXaxis()->SetTitle("#Delta E [GeV]");
  fDiagStep3->GetYaxis()->SetTitle("#Delta E/#Delta x #times #delta x [GeV]");
  fDiagStep4  = new TH2F("diagStep4",  "Edep vs Multiplicity deduced", 
			100, 0., 2., 100, -.1, 19.9);
  fDiagStep4->SetDirectory(0);
  fDiagStep4->GetXaxis()->SetTitle("#Delta E/#Delta x #times #delta x [GeV]");
  fDiagStep4->GetYaxis()->SetTitle("Multiplicity");
  fDiagAll    = new TH2F("diagAll",    "Read ADC vs Multiplicity deduced", 
			 1024, -.5, 1023.5, 100, -.1, 19.9);
  fDiagAll->SetDirectory(0);
  fDiagAll->GetXaxis()->SetTitle("ADC (read)");
  fDiagAll->GetYaxis()->SetTitle("Multiplicity");
}

//____________________________________________________________________
void 
AliFMDReconstructor::ConvertDigits(AliRawReader* reader, 
				   TTree* digitsTree) const
{
  // Convert Raw digits to AliFMDDigit's in a tree 
  AliFMDDebug(2, ("Reading raw data into digits tree"));
  AliFMDRawReader rawRead(reader, digitsTree);
  // rawRead.SetSampleRate(fFMD->GetSampleRate());
  rawRead.Exec();
}

//____________________________________________________________________
void 
AliFMDReconstructor::GetVertex() const
{
  // Return the vertex to use. 
  // This is obtained from the ESD object. 
  // If not found, a warning is issued.
  fVertexType    = kNoVertex;
  fCurrentVertex = 0;
  if (fESD) {
    const AliESDVertex* vertex = fESD->GetVertex();
    if (vertex) {
      AliFMDDebug(2, ("Got vertex from ESD: %f", vertex->GetZv()));
      fCurrentVertex = vertex->GetZv();
      fVertexType    = kESDVertex;
      return;
    }
  }
  AliWarning("Didn't get any vertex from ESD or generator");
}
  

//____________________________________________________________________
void 
AliFMDReconstructor::Reconstruct(TTree* digitsTree, 
				 TTree* clusterTree) const 
{
  // Reconstruct event from digits in tree 
  // Get the FMD branch holding the digits. 
  // FIXME: The vertex may not be known yet, so we may have to move
  // some of this to FillESD. 
  AliFMDDebug(2, ("Reconstructing from digits in a tree"));
  GetVertex();

  TBranch *digitBranch = digitsTree->GetBranch("FMD");
  if (!digitBranch) {
    Error("Exec", "No digit branch for the FMD found");
    return;
  }
  TClonesArray* digits = new TClonesArray("AliFMDDigit");
  digitBranch->SetAddress(&digits);

  if (fMult)   fMult->Clear();
  if (fESDObj) fESDObj->Clear();
  
  fNMult = 0;
  fTreeR = clusterTree;
  fTreeR->Branch("FMD", &fMult);
  
  AliFMDDebug(5, ("Getting entry 0 from digit branch"));
  digitBranch->GetEntry(0);
  
  AliFMDDebug(5, ("Processing digits"));
  ProcessDigits(digits);

  Int_t written = clusterTree->Fill();
  AliFMDDebug(10, ("Filled %d bytes into cluster tree", written));
  digits->Delete();
  delete digits;
}
 

//____________________________________________________________________
void
AliFMDReconstructor::ProcessDigits(TClonesArray* digits) const
{
  // For each digit, find the pseudo rapdity, azimuthal angle, and
  // number of corrected ADC counts, and pass it on to the algorithms
  // used. 
  Int_t nDigits = digits->GetEntries();
  AliFMDDebug(1, ("Got %d digits", nDigits));
  fESDObj->SetNoiseFactor(fNoiseFactor);
  fESDObj->SetAngleCorrected(fAngleCorrect);
  for (Int_t i = 0; i < nDigits; i++) {
    AliFMDDigit* digit = static_cast<AliFMDDigit*>(digits->At(i));
    AliFMDParameters* param  = AliFMDParameters::Instance();
    // Check that the strip is not marked as dead 
    if (param->IsDead(digit->Detector(), digit->Ring(), 
		      digit->Sector(), digit->Strip())) {
      AliFMDDebug(10, ("FMD%d%c[%2d,%3d] is dead", digit->Detector(), 
			digit->Ring(), digit->Sector(), digit->Strip()));
      continue;
    }

    // digit->Print();
    // Get eta and phi 
    Float_t eta, phi;
    PhysicalCoordinates(digit, eta, phi);
    
    // Substract pedestal. 
    UShort_t counts   = SubtractPedestal(digit);
    
    // Gain match digits. 
    Double_t edep     = Adc2Energy(digit, eta, counts);
    
    // Make rough multiplicity 
    Double_t mult     = Energy2Multiplicity(digit, edep);
    
    AliFMDDebug(10, ("FMD%d%c[%2d,%3d]: "
		      "ADC: %d, Counts: %d, Energy: %f, Mult: %f", 
		      digit->Detector(), digit->Ring(), digit->Sector(),
		      digit->Strip(), digit->Counts(), counts, edep, mult));
    
    // Create a `RecPoint' on the output branch. 
    if (fMult) {
      AliFMDRecPoint* m = 
	new ((*fMult)[fNMult]) AliFMDRecPoint(digit->Detector(), 
					      digit->Ring(), 
					      digit->Sector(),
					      digit->Strip(),
					      eta, phi, 
					      edep, mult);
      (void)m; // Suppress warnings about unused variables. 
      fNMult++;
    }
    
    fESDObj->SetMultiplicity(digit->Detector(), digit->Ring(), 
			     digit->Sector(),  digit->Strip(), mult);
    fESDObj->SetEta(digit->Detector(), digit->Ring(), 
		    digit->Sector(),  digit->Strip(), eta);

    if (fDiagAll) fDiagAll->Fill(digit->Counts(), mult);  
  }
}

//____________________________________________________________________
UShort_t
AliFMDReconstructor::SubtractPedestal(AliFMDDigit* digit) const
{
  // Member function to subtract the pedestal from a digit
  // This implementation does nothing, but a derived class could over
  // load this to subtract a pedestal that was given in a database or
  // something like that. 

  Int_t             counts = 0;
  Int_t             adc    = 0;
  AliFMDParameters* param  = AliFMDParameters::Instance();
  Float_t           ped    = param->GetPedestal(digit->Detector(), 
						digit->Ring(), 
						digit->Sector(), 
						digit->Strip());
  Float_t           noise  = param->GetPedestalWidth(digit->Detector(), 
						     digit->Ring(), 
						     digit->Sector(), 
						     digit->Strip());
  AliFMDDebug(15, ("Subtracting pedestal %f from signal %d", 
		   ped, digit->Counts()));
  if (digit->Count3() > 0)      adc = digit->Count3();
  else if (digit->Count2() > 0) adc = digit->Count2();
  else                          adc = digit->Count1();
  counts = TMath::Max(Int_t(adc - ped), 0);
  if (counts < noise * fNoiseFactor) counts = 0;
  if (counts > 0) AliFMDDebug(15, ("Got a hit strip"));
  if (fDiagStep1) fDiagStep1->Fill(adc, counts);
  
  return  UShort_t(counts);
}

//____________________________________________________________________
Float_t
AliFMDReconstructor::Adc2Energy(AliFMDDigit* digit, 
				Float_t      eta, 
				UShort_t     count) const
{
  // Converts number of ADC counts to energy deposited. 
  // Note, that this member function can be overloaded by derived
  // classes to do strip-specific look-ups in databases or the like,
  // to find the proper gain for a strip. 
  // 
  // In this simple version, we calculate the energy deposited as 
  // 
  //    EnergyDeposited = cos(theta) * gain * count
  // 
  // where 
  // 
  //           Pre_amp_MIP_Range
  //    gain = ----------------- * Energy_deposited_per_MIP
  //           ADC_channel_size    
  // 
  // is constant and the same for all strips.
  if (count <= 0) return 0;
  AliFMDParameters* param = AliFMDParameters::Instance();
  Float_t           gain  = param->GetPulseGain(digit->Detector(), 
						digit->Ring(), 
						digit->Sector(), 
						digit->Strip());
  AliFMDDebug(15, ("Converting counts %d to energy via factor %f", 
		    count, gain));

  Double_t edep  = count * gain;
  if (fDiagStep2) fDiagStep2->Fill(count, edep);  
  if (fAngleCorrect) {
    Double_t theta = 2 * TMath::ATan(TMath::Exp(-eta));
    Double_t corr  = TMath::Abs(TMath::Cos(theta));
    Double_t cedep = corr * edep;
    AliFMDDebug(10, ("correcting for path %f * %f = %f (eta=%f, theta=%f)",
		      edep, corr, cedep, eta, theta));
    if (fDiagStep3) fDiagStep3->Fill(edep, cedep);  
    edep = cedep;
  }
  return edep;
}

//____________________________________________________________________
Float_t
AliFMDReconstructor::Energy2Multiplicity(AliFMDDigit* /* digit */, 
					 Float_t      edep) const
{
  // Converts an energy signal to number of particles. 
  // Note, that this member function can be overloaded by derived
  // classes to do strip-specific look-ups in databases or the like,
  // to find the proper gain for a strip. 
  // 
  // In this simple version, we calculate the multiplicity as 
  // 
  //   multiplicity = Energy_deposited / Energy_deposited_per_MIP
  // 
  // where 
  //
  //   Energy_deposited_per_MIP = 1.664 * SI_density * SI_thickness 
  // 
  // is constant and the same for all strips 
  AliFMDParameters* param   = AliFMDParameters::Instance();
  Double_t          edepMIP = param->GetEdepMip();
  Float_t           mult    = edep / edepMIP;
  if (edep > 0) 
    AliFMDDebug(15, ("Translating energy %f to multiplicity via "
		     "divider %f->%f", edep, edepMIP, mult));
  if (fDiagStep4) fDiagStep4->Fill(edep, mult);  
  return mult;
}

//____________________________________________________________________
void
AliFMDReconstructor::PhysicalCoordinates(AliFMDDigit* digit, 
					 Float_t& eta, 
					 Float_t& phi) const
{
  // Get the eta and phi of a digit 
  // 
  // Get geometry. 
  AliFMDGeometry* geom = AliFMDGeometry::Instance();
  Double_t x, y, z, r, theta;
  geom->Detector2XYZ(digit->Detector(), digit->Ring(), digit->Sector(), 
		    digit->Strip(), x, y, z);
  // Correct for vertex offset. 
  z     += fCurrentVertex;
  phi   =  TMath::ATan2(y, x);
  r     =  TMath::Sqrt(y * y + x * x);
  theta =  TMath::ATan2(r, z);
  eta   = -TMath::Log(TMath::Tan(theta / 2));
}

      

//____________________________________________________________________
void 
AliFMDReconstructor::FillESD(TTree*  /* digitsTree */, 
			     TTree*  /* clusterTree */,
			     AliESDEvent* esd) const
{
  // nothing to be done
  // FIXME: The vertex may not be known when Reconstruct is executed,
  // so we may have to move some of that member function here. 
  AliFMDDebug(2, ("Calling FillESD with two trees and one ESD"));
  // fESDObj->Print();

  if (esd) { 
    AliFMDDebug(2, ("Writing FMD data to ESD tree"));
    esd->SetFMDData(fESDObj);
  }

  if (!fDiagnostics || !esd) return;
  static bool first = true;
  // This is most likely NOT the event number you'd like to use. It
  // has nothing to do with the 'real' event number. 
  // - That's OK.  We just use it for the name of the directory -
  // nothing else.  Christian
  Int_t evno = esd->GetEventNumberInFile(); 
  AliFMDDebug(1, ("Writing diagnostics histograms to FMD.Diag.root/%03d",evno));
  TFile f("FMD.Diag.root", (first ? "RECREATE" : "UPDATE"));
  first = false;
  f.cd(); 
  TDirectory* d = f.mkdir(Form("%03d", evno), 
			  Form("Diagnostics histograms for event # %d", evno));
  d->cd();
  if (fDiagStep1) fDiagStep1->Write();
  if (fDiagStep2) fDiagStep2->Write();
  if (fDiagStep3) fDiagStep3->Write();
  if (fDiagStep4) fDiagStep4->Write();
  if (fDiagAll)   fDiagAll->Write();
  d->Write();
  f.Write();
  f.Close();

  if (fDiagStep1) fDiagStep1->Reset();
  if (fDiagStep2) fDiagStep2->Reset();
  if (fDiagStep3) fDiagStep3->Reset();
  if (fDiagStep4) fDiagStep4->Reset();
  if (fDiagAll)   fDiagAll->Reset();
}

//____________________________________________________________________
//
// EOF
//
Commit	Line	Data
37c55dc0	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	**************************************************************************/
0d0e6995	15	/* $Id$ */
c2fc1258	16	/** @file AliFMDReconstructor.cxx
	17	@author Christian Holm Christensen <cholm@nbi.dk>
	18	@date Mon Mar 27 12:47:09 2006
	19	@brief FMD reconstruction
	20	*/
4347b38f	21	//____________________________________________________________________
42403906	22	//
02a27b50	23	// This is a class that constructs AliFMDRecPoint objects from of Digits
6169f936	24	// This class reads either digits from a TClonesArray or raw data from
4347b38f	25	// a DDL file (or similar), and stores the read ADC counts in an
6169f936	26	// internal cache (fAdcs). The rec-points are made via the naiive
6169f936	27	// method.
4347b38f	28	//
37c55dc0	29	//-- Authors: Evgeny Karpechev(INR) and Alla Maevsksia
4347b38f	30	// Latest changes by Christian Holm Christensen <cholm@nbi.dk>
	31	//
	32	//
	33	//____________________________________________________________________
37c55dc0	34
f95a63c4	35	// #include <AliLog.h> // ALILOG_H
6169f936	36	// #include <AliRun.h> // ALIRUN_H
f95a63c4	37	#include "AliFMDDebug.h"
1a1fdef7	38	#include "AliFMDGeometry.h" // ALIFMDGEOMETRY_H
1a1fdef7	39	#include "AliFMDParameters.h" // ALIFMDPARAMETERS_H
56b1929b	40	#include "AliFMDDigit.h" // ALIFMDDIGIT_H
56b1929b	41	#include "AliFMDReconstructor.h" // ALIFMDRECONSTRUCTOR_H
56b1929b	42	#include "AliFMDRawReader.h" // ALIFMDRAWREADER_H
bf000c32	43	#include "AliFMDRecPoint.h" // ALIFMDMULTNAIIVE_H
af885e0f	44	#include "AliESDEvent.h" // ALIESDEVENT_H
aad72f45	45	#include "AliESDVertex.h" // ALIESDVERTEX_H
8f6ee336	46	#include <AliESDFMD.h> // ALIESDFMD_H
aad72f45	47	#include <TMath.h>
9684be2f	48	#include <TH1.h>
	49	#include <TH2.h>
	50	#include <TFile.h>
02a27b50	51	class AliRawReader;
4347b38f	52
4347b38f	53	//____________________________________________________________________
925e6570	54	ClassImp(AliFMDReconstructor)
1a1fdef7	55	#if 0
	56	; // This is here to keep Emacs for indenting the next line
	57	#endif
37c55dc0	58
4347b38f	59	//____________________________________________________________________
	60	AliFMDReconstructor::AliFMDReconstructor()
	61	: AliReconstructor(),
e9fd1e20	62	fMult(0x0),
	63	fNMult(0),
	64	fTreeR(0x0),
	65	fCurrentVertex(0),
	66	fESDObj(0x0),
9684be2f	67	fNoiseFactor(0),
	68	fAngleCorrect(kTRUE),
	69	fVertexType(kNoVertex),
9684be2f	70	fESD(0x0),
	71	fDiagnostics(kFALSE),
	72	fDiagStep1(0),
	73	fDiagStep2(0),
	74	fDiagStep3(0),
	75	fDiagStep4(0),
	76	fDiagAll(0)
4347b38f	77	{
8f6ee336	78	// Make a new FMD reconstructor object - default CTOR.
a9579262	79	SetNoiseFactor();
a9579262	80	SetAngleCorrect();
4347b38f	81	}
4347b38f	82
42403906	83
	84	//____________________________________________________________________
	85	AliFMDReconstructor::AliFMDReconstructor(const AliFMDReconstructor& other)
8f6ee336	86	: AliReconstructor(),
8f6ee336	87	fMult(other.fMult),
e9fd1e20	88	fNMult(other.fNMult),
	89	fTreeR(other.fTreeR),
	90	fCurrentVertex(other.fCurrentVertex),
	91	fESDObj(other.fESDObj),
a9579262	92	fNoiseFactor(other.fNoiseFactor),
9684be2f	93	fAngleCorrect(other.fAngleCorrect),
9684be2f	94	fVertexType(other.fVertexType),
9684be2f	95	fESD(other.fESD),
	96	fDiagnostics(other.fDiagnostics),
	97	fDiagStep1(other.fDiagStep1),
	98	fDiagStep2(other.fDiagStep2),
	99	fDiagStep3(other.fDiagStep3),
	100	fDiagStep4(other.fDiagStep4),
	101	fDiagAll(other.fDiagAll)
42403906	102	{
56b1929b	103	// Copy constructor
42403906	104	}
	105
	106
	107	//____________________________________________________________________
	108	AliFMDReconstructor&
	109	AliFMDReconstructor::operator=(const AliFMDReconstructor& other)
	110	{
56b1929b	111	// Assignment operator
a9579262	112	fMult = other.fMult;
	113	fNMult = other.fNMult;
	114	fTreeR = other.fTreeR;
e9fd1e20	115	fCurrentVertex = other.fCurrentVertex;
a9579262	116	fESDObj = other.fESDObj;
a9579262	117	fNoiseFactor = other.fNoiseFactor;
a9579262	118	fAngleCorrect = other.fAngleCorrect;
9684be2f	119	fVertexType = other.fVertexType;
9684be2f	120	fESD = other.fESD;
	121	fDiagnostics = other.fDiagnostics;
	122	fDiagStep1 = other.fDiagStep1;
	123	fDiagStep2 = other.fDiagStep2;
	124	fDiagStep3 = other.fDiagStep3;
	125	fDiagStep4 = other.fDiagStep4;
	126	fDiagAll = other.fDiagAll;
42403906	127	return *this;
42403906	128	}
56b1929b	129
	130	//____________________________________________________________________
	131	AliFMDReconstructor::~AliFMDReconstructor()
	132	{
	133	// Destructor
8f6ee336	134	if (fMult) fMult->Delete();
	135	if (fMult) delete fMult;
	136	if (fESDObj) delete fESDObj;
56b1929b	137	}
4347b38f	138
	139	//____________________________________________________________________
	140	void
d76c31f4	141	AliFMDReconstructor::Init()
1a1fdef7	142	{
1a1fdef7	143	// Initialize the reconstructor
f011bd38	144
bf000c32	145	// Initialize the geometry
9b48326f	146	AliFMDGeometry* geom = AliFMDGeometry::Instance();
	147	geom->Init();
	148	geom->InitTransformations();
	149
	150	// Initialize the parameters
	151	AliFMDParameters* param = AliFMDParameters::Instance();
	152	param->Init();
bf000c32	153
8f6ee336	154	// Current vertex position
1a1fdef7	155	fCurrentVertex = 0;
8f6ee336	156	// Create array of reconstructed strip multiplicities
bf000c32	157	fMult = new TClonesArray("AliFMDRecPoint", 51200);
8f6ee336	158	// Create ESD output object
	159	fESDObj = new AliESDFMD;
	160
9684be2f	161	// Check if we need diagnostics histograms
	162	if (!fDiagnostics) return;
	163	fDiagStep1 = new TH2I("diagStep1", "Read ADC vs. Noise surpressed ADC",
	164	1024, -.5, 1023.5, 1024, -.5, 1023.5);
	165	fDiagStep1->SetDirectory(0);
	166	fDiagStep1->GetXaxis()->SetTitle("ADC (read)");
	167	fDiagStep1->GetYaxis()->SetTitle(Form("ADC (noise surpressed %4.f)",
	168	fNoiseFactor));
	169	fDiagStep2 = new TH2F("diagStep2", "ADC vs Edep deduced",
	170	1024, -.5, 1023.5, 100, 0, 2);
	171	fDiagStep2->SetDirectory(0);
	172	fDiagStep2->GetXaxis()->SetTitle("ADC (noise surpressed)");
	173	fDiagStep2->GetYaxis()->SetTitle("#Delta E [GeV]");
	174	fDiagStep3 = new TH2F("diagStep3", "Edep vs Edep path corrected",
	175	100, 0., 2., 100, 0., 2.);
	176	fDiagStep3->SetDirectory(0);
	177	fDiagStep3->GetXaxis()->SetTitle("#Delta E [GeV]");
	178	fDiagStep3->GetYaxis()->SetTitle("#Delta E/#Delta x #times #delta x [GeV]");
	179	fDiagStep4 = new TH2F("diagStep4", "Edep vs Multiplicity deduced",
	180	100, 0., 2., 100, -.1, 19.9);
	181	fDiagStep4->SetDirectory(0);
	182	fDiagStep4->GetXaxis()->SetTitle("#Delta E/#Delta x #times #delta x [GeV]");
	183	fDiagStep4->GetYaxis()->SetTitle("Multiplicity");
	184	fDiagAll = new TH2F("diagAll", "Read ADC vs Multiplicity deduced",
	185	1024, -.5, 1023.5, 100, -.1, 19.9);
	186	fDiagAll->SetDirectory(0);
	187	fDiagAll->GetXaxis()->SetTitle("ADC (read)");
	188	fDiagAll->GetYaxis()->SetTitle("Multiplicity");
4347b38f	189	}
dc8af42e	190
4347b38f	191	//____________________________________________________________________
4347b38f	192	void
1a1fdef7	193	AliFMDReconstructor::ConvertDigits(AliRawReader* reader,
	194	TTree* digitsTree) const
	195	{
	196	// Convert Raw digits to AliFMDDigit's in a tree
f95a63c4	197	AliFMDDebug(2, ("Reading raw data into digits tree"));
1a1fdef7	198	AliFMDRawReader rawRead(reader, digitsTree);
	199	// rawRead.SetSampleRate(fFMD->GetSampleRate());
	200	rawRead.Exec();
4347b38f	201	}
4347b38f	202
4347b38f	203	//____________________________________________________________________
4347b38f	204	void
9684be2f	205	AliFMDReconstructor::GetVertex() const
4347b38f	206	{
97e94238	207	// Return the vertex to use.
	208	// This is obtained from the ESD object.
	209	// If not found, a warning is issued.
9684be2f	210	fVertexType = kNoVertex;
9684be2f	211	fCurrentVertex = 0;
a3537838	212	if (fESD) {
8f6ee336	213	const AliESDVertex* vertex = fESD->GetVertex();
8f6ee336	214	if (vertex) {
f95a63c4	215	AliFMDDebug(2, ("Got vertex from ESD: %f", vertex->GetZv()));
8f6ee336	216	fCurrentVertex = vertex->GetZv();
9684be2f	217	fVertexType = kESDVertex;
9684be2f	218	return;
8f6ee336	219	}
a3537838	220	}
9684be2f	221	AliWarning("Didn't get any vertex from ESD or generator");
	222	}
	223
	224
	225	//____________________________________________________________________
	226	void
	227	AliFMDReconstructor::Reconstruct(TTree* digitsTree,
	228	TTree* clusterTree) const
	229	{
	230	// Reconstruct event from digits in tree
	231	// Get the FMD branch holding the digits.
	232	// FIXME: The vertex may not be known yet, so we may have to move
	233	// some of this to FillESD.
f95a63c4	234	AliFMDDebug(2, ("Reconstructing from digits in a tree"));
9684be2f	235	GetVertex();
9684be2f	236
1a1fdef7	237	TBranch *digitBranch = digitsTree->GetBranch("FMD");
4347b38f	238	if (!digitBranch) {
1a1fdef7	239	Error("Exec", "No digit branch for the FMD found");
1a1fdef7	240	return;
4347b38f	241	}
0abe7182	242	TClonesArray* digits = new TClonesArray("AliFMDDigit");
1a1fdef7	243	digitBranch->SetAddress(&digits);
4347b38f	244
8f6ee336	245	if (fMult) fMult->Clear();
	246	if (fESDObj) fESDObj->Clear();
	247
	248	fNMult = 0;
	249	fTreeR = clusterTree;
	250	fTreeR->Branch("FMD", &fMult);
	251
f95a63c4	252	AliFMDDebug(5, ("Getting entry 0 from digit branch"));
1a1fdef7	253	digitBranch->GetEntry(0);
1a1fdef7	254
f95a63c4	255	AliFMDDebug(5, ("Processing digits"));
e802be3e	256	ProcessDigits(digits);
e802be3e	257
8f6ee336	258	Int_t written = clusterTree->Fill();
f95a63c4	259	AliFMDDebug(10, ("Filled %d bytes into cluster tree", written));
0abe7182	260	digits->Delete();
0abe7182	261	delete digits;
4347b38f	262	}
1a1fdef7	263
8f6ee336	264
4347b38f	265	//____________________________________________________________________
e802be3e	266	void
e802be3e	267	AliFMDReconstructor::ProcessDigits(TClonesArray* digits) const
4347b38f	268	{
69b696b9	269	// For each digit, find the pseudo rapdity, azimuthal angle, and
	270	// number of corrected ADC counts, and pass it on to the algorithms
	271	// used.
e802be3e	272	Int_t nDigits = digits->GetEntries();
f95a63c4	273	AliFMDDebug(1, ("Got %d digits", nDigits));
a9579262	274	fESDObj->SetNoiseFactor(fNoiseFactor);
a9579262	275	fESDObj->SetAngleCorrected(fAngleCorrect);
e802be3e	276	for (Int_t i = 0; i < nDigits; i++) {
e802be3e	277	AliFMDDigit* digit = static_cast<AliFMDDigit*>(digits->At(i));
8f6ee336	278	AliFMDParameters* param = AliFMDParameters::Instance();
	279	// Check that the strip is not marked as dead
	280	if (param->IsDead(digit->Detector(), digit->Ring(),
15b17c89	281	digit->Sector(), digit->Strip())) {
f95a63c4	282	AliFMDDebug(10, ("FMD%d%c[%2d,%3d] is dead", digit->Detector(),
15b17c89	283	digit->Ring(), digit->Sector(), digit->Strip()));
	284	continue;
	285	}
8f6ee336	286
	287	// digit->Print();
	288	// Get eta and phi
	289	Float_t eta, phi;
	290	PhysicalCoordinates(digit, eta, phi);
4347b38f	291
8f6ee336	292	// Substract pedestal.
e802be3e	293	UShort_t counts = SubtractPedestal(digit);
4347b38f	294
8f6ee336	295	// Gain match digits.
	296	Double_t edep = Adc2Energy(digit, eta, counts);
	297
	298	// Make rough multiplicity
	299	Double_t mult = Energy2Multiplicity(digit, edep);
	300
f95a63c4	301	AliFMDDebug(10, ("FMD%d%c[%2d,%3d]: "
8f6ee336	302	"ADC: %d, Counts: %d, Energy: %f, Mult: %f",
	303	digit->Detector(), digit->Ring(), digit->Sector(),
	304	digit->Strip(), digit->Counts(), counts, edep, mult));
	305
	306	// Create a `RecPoint' on the output branch.
69893a66	307	if (fMult) {
	308	AliFMDRecPoint* m =
	309	new ((*fMult)[fNMult]) AliFMDRecPoint(digit->Detector(),
	310	digit->Ring(),
	311	digit->Sector(),
	312	digit->Strip(),
	313	eta, phi,
	314	edep, mult);
	315	(void)m; // Suppress warnings about unused variables.
	316	fNMult++;
	317	}
	318
8f6ee336	319	fESDObj->SetMultiplicity(digit->Detector(), digit->Ring(),
	320	digit->Sector(), digit->Strip(), mult);
	321	fESDObj->SetEta(digit->Detector(), digit->Ring(),
	322	digit->Sector(), digit->Strip(), eta);
9684be2f	323
9684be2f	324	if (fDiagAll) fDiagAll->Fill(digit->Counts(), mult);
4347b38f	325	}
4347b38f	326	}
8f6ee336	327
1a1fdef7	328	//____________________________________________________________________
	329	UShort_t
	330	AliFMDReconstructor::SubtractPedestal(AliFMDDigit* digit) const
	331	{
	332	// Member function to subtract the pedestal from a digit
	333	// This implementation does nothing, but a derived class could over
	334	// load this to subtract a pedestal that was given in a database or
	335	// something like that.
	336
8f6ee336	337	Int_t counts = 0;
9684be2f	338	Int_t adc = 0;
8f6ee336	339	AliFMDParameters* param = AliFMDParameters::Instance();
a9579262	340	Float_t ped = param->GetPedestal(digit->Detector(),
8f6ee336	341	digit->Ring(),
	342	digit->Sector(),
	343	digit->Strip());
a9579262	344	Float_t noise = param->GetPedestalWidth(digit->Detector(),
	345	digit->Ring(),
	346	digit->Sector(),
	347	digit->Strip());
f95a63c4	348	AliFMDDebug(15, ("Subtracting pedestal %f from signal %d",
a9579262	349	ped, digit->Counts()));
9684be2f	350	if (digit->Count3() > 0) adc = digit->Count3();
	351	else if (digit->Count2() > 0) adc = digit->Count2();
	352	else adc = digit->Count1();
	353	counts = TMath::Max(Int_t(adc - ped), 0);
a9579262	354	if (counts < noise * fNoiseFactor) counts = 0;
f95a63c4	355	if (counts > 0) AliFMDDebug(15, ("Got a hit strip"));
9684be2f	356	if (fDiagStep1) fDiagStep1->Fill(adc, counts);
8f6ee336	357
1a1fdef7	358	return UShort_t(counts);
	359	}
	360
8f6ee336	361	//____________________________________________________________________
	362	Float_t
	363	AliFMDReconstructor::Adc2Energy(AliFMDDigit* digit,
a9579262	364	Float_t eta,
8f6ee336	365	UShort_t count) const
	366	{
	367	// Converts number of ADC counts to energy deposited.
	368	// Note, that this member function can be overloaded by derived
	369	// classes to do strip-specific look-ups in databases or the like,
	370	// to find the proper gain for a strip.
	371	//
	372	// In this simple version, we calculate the energy deposited as
	373	//
	374	// EnergyDeposited = cos(theta) * gain * count
	375	//
	376	// where
	377	//
	378	// Pre_amp_MIP_Range
	379	// gain = ----------------- * Energy_deposited_per_MIP
	380	// ADC_channel_size
	381	//
	382	// is constant and the same for all strips.
a9579262	383	if (count <= 0) return 0;
8f6ee336	384	AliFMDParameters* param = AliFMDParameters::Instance();
	385	Float_t gain = param->GetPulseGain(digit->Detector(),
	386	digit->Ring(),
	387	digit->Sector(),
	388	digit->Strip());
f95a63c4	389	AliFMDDebug(15, ("Converting counts %d to energy via factor %f",
8f6ee336	390	count, gain));
a9579262	391
a9579262	392	Double_t edep = count * gain;
9684be2f	393	if (fDiagStep2) fDiagStep2->Fill(count, edep);
a9579262	394	if (fAngleCorrect) {
9684be2f	395	Double_t theta = 2 * TMath::ATan(TMath::Exp(-eta));
	396	Double_t corr = TMath::Abs(TMath::Cos(theta));
	397	Double_t cedep = corr * edep;
f95a63c4	398	AliFMDDebug(10, ("correcting for path %f * %f = %f (eta=%f, theta=%f)",
9684be2f	399	edep, corr, cedep, eta, theta));
	400	if (fDiagStep3) fDiagStep3->Fill(edep, cedep);
	401	edep = cedep;
a9579262	402	}
8f6ee336	403	return edep;
	404	}
	405
	406	//____________________________________________________________________
	407	Float_t
	408	AliFMDReconstructor::Energy2Multiplicity(AliFMDDigit* /* digit */,
	409	Float_t edep) const
	410	{
	411	// Converts an energy signal to number of particles.
	412	// Note, that this member function can be overloaded by derived
	413	// classes to do strip-specific look-ups in databases or the like,
	414	// to find the proper gain for a strip.
	415	//
	416	// In this simple version, we calculate the multiplicity as
	417	//
	418	// multiplicity = Energy_deposited / Energy_deposited_per_MIP
	419	//
	420	// where
	421	//
	422	// Energy_deposited_per_MIP = 1.664 * SI_density * SI_thickness
	423	//
	424	// is constant and the same for all strips
	425	AliFMDParameters* param = AliFMDParameters::Instance();
	426	Double_t edepMIP = param->GetEdepMip();
	427	Float_t mult = edep / edepMIP;
	428	if (edep > 0)
f95a63c4	429	AliFMDDebug(15, ("Translating energy %f to multiplicity via "
8f6ee336	430	"divider %f->%f", edep, edepMIP, mult));
9684be2f	431	if (fDiagStep4) fDiagStep4->Fill(edep, mult);
8f6ee336	432	return mult;
	433	}
	434
	435	//____________________________________________________________________
	436	void
	437	AliFMDReconstructor::PhysicalCoordinates(AliFMDDigit* digit,
	438	Float_t& eta,
	439	Float_t& phi) const
	440	{
	441	// Get the eta and phi of a digit
	442	//
	443	// Get geometry.
9b48326f	444	AliFMDGeometry* geom = AliFMDGeometry::Instance();
bf000c32	445	Double_t x, y, z, r, theta;
9b48326f	446	geom->Detector2XYZ(digit->Detector(), digit->Ring(), digit->Sector(),
bf000c32	447	digit->Strip(), x, y, z);
	448	// Correct for vertex offset.
	449	z += fCurrentVertex;
	450	phi = TMath::ATan2(y, x);
	451	r = TMath::Sqrt(y * y + x * x);
	452	theta = TMath::ATan2(r, z);
	453	eta = -TMath::Log(TMath::Tan(theta / 2));
8f6ee336	454	}
	455
	456
	457
4347b38f	458	//____________________________________________________________________
4347b38f	459	void
1a1fdef7	460	AliFMDReconstructor::FillESD(TTree* /* digitsTree */,
1a1fdef7	461	TTree* /* clusterTree */,
af885e0f	462	AliESDEvent* esd) const
121a60bd	463	{
42403906	464	// nothing to be done
69b696b9	465	// FIXME: The vertex may not be known when Reconstruct is executed,
69b696b9	466	// so we may have to move some of that member function here.
f95a63c4	467	AliFMDDebug(2, ("Calling FillESD with two trees and one ESD"));
8f6ee336	468	// fESDObj->Print();
	469
	470	if (esd) {
f95a63c4	471	AliFMDDebug(2, ("Writing FMD data to ESD tree"));
8f6ee336	472	esd->SetFMDData(fESDObj);
a3537838	473	}
9684be2f	474
	475	if (!fDiagnostics \|\| !esd) return;
	476	static bool first = true;
69893a66	477	// This is most likely NOT the event number you'd like to use. It
	478	// has nothing to do with the 'real' event number.
	479	// - That's OK. We just use it for the name of the directory -
	480	// nothing else. Christian
	481	Int_t evno = esd->GetEventNumberInFile();
	482	AliFMDDebug(1, ("Writing diagnostics histograms to FMD.Diag.root/%03d",evno));
9684be2f	483	TFile f("FMD.Diag.root", (first ? "RECREATE" : "UPDATE"));
	484	first = false;
	485	f.cd();
	486	TDirectory* d = f.mkdir(Form("%03d", evno),
	487	Form("Diagnostics histograms for event # %d", evno));
	488	d->cd();
	489	if (fDiagStep1) fDiagStep1->Write();
	490	if (fDiagStep2) fDiagStep2->Write();
	491	if (fDiagStep3) fDiagStep3->Write();
	492	if (fDiagStep4) fDiagStep4->Write();
	493	if (fDiagAll) fDiagAll->Write();
	494	d->Write();
	495	f.Write();
	496	f.Close();
	497
	498	if (fDiagStep1) fDiagStep1->Reset();
	499	if (fDiagStep2) fDiagStep2->Reset();
	500	if (fDiagStep3) fDiagStep3->Reset();
	501	if (fDiagStep4) fDiagStep4->Reset();
	502	if (fDiagAll) fDiagAll->Reset();
121a60bd	503	}
121a60bd	504
42403906	505	//____________________________________________________________________
	506	//
	507	// EOF
	508	//