[u/mrichter/AliRoot.git] / HLT / CALO / AliHLTCaloClusterAnalyser.cxx

// $Id: AliHLTCaloClusterAnalyser.cxx 35107 2009-09-30 01:45:06Z phille $

/**************************************************************************
 * This file is property of and copyright by the ALICE HLT Project        * 
 * All rights reserved.                                                   *
 *                                                                        *
 * Primary Authors: Oystein Djuvsland                                     *
 *                                                                        *
 * 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.                  *
 **************************************************************************/

/** 
 * @file   AliHLTCaloClusterAnalyser.cxx
 * @author Oystein Djuvsland
 * @date 
 * @brief  Cluster analyser for Calo HLT 
 */

// see header file for class documentation
// or
// refer to README to build package
// or
// visit http://web.ift.uib.no/~kjeks/doc/alice-hlt

#include "AliHLTCaloClusterAnalyser.h"
#include "AliHLTCaloRecPointHeaderStruct.h"
#include "AliHLTCaloRecPointDataStruct.h"
#include "AliHLTCaloClusterDataStruct.h"
//#include "AliHLTCaloPhysicsAnalyzer.h"
#include "AliHLTCaloGeometry.h"
#include "AliESDCaloCluster.h"
#include "TMath.h"
#include "TVector3.h"
#include "TH1F.h"
#include "TFile.h"
#include "AliHLTCaloClusterizer.h"

ClassImp(AliHLTCaloClusterAnalyser);

AliHLTCaloClusterAnalyser::AliHLTCaloClusterAnalyser() : 
  //  AliHLTCaloBase(),
  fLogWeight(4.5),
  fRecPointArray(0),
  fDigitDataArray(0),
  fNRecPoints(0),
  fCaloClusterDataPtr(0),
  fCaloClusterHeaderPtr(0),
  //fAnalyzerPtr(0),
  fDoClusterFit(false),
  fHaveCPVInfo(false),
  fDoPID(false),
  fHaveDistanceToBadChannel(false),
  fGeometry(0),
  fClusterType(AliESDCaloCluster::kPHOSCluster)
{
  //See header file for documentation
}

AliHLTCaloClusterAnalyser::~AliHLTCaloClusterAnalyser() 
{
  // See header file for class documentation
}

void 
AliHLTCaloClusterAnalyser::SetCaloClusterData(AliHLTCaloClusterDataStruct *caloClusterDataPtr)
{ 
  //see header file for documentation
  fCaloClusterDataPtr = caloClusterDataPtr; 
}

void
AliHLTCaloClusterAnalyser::SetRecPointArray(AliHLTCaloRecPointDataStruct **recPointDataPtr, Int_t nRecPoints)
{ 
  fRecPointArray = recPointDataPtr; 
  fNRecPoints = nRecPoints;
}

void 
AliHLTCaloClusterAnalyser::SetDigitDataArray(AliHLTCaloDigitDataStruct *digits) 
{ 
//   AliHLTCaloClusterizer cl("PHOS");
  // cl.CheckDigits(fRecPointArray, digits, fNRecPoints);
   fDigitDataArray = digits; 
   //cl.CheckDigits(fRecPointArray, fDigitDataArray, fNRecPoints);
}

Int_t
AliHLTCaloClusterAnalyser::CalculateCenterOfGravity()
{
  //see header file for documentation
  Float_t wtot = 0.;
  Float_t x = 0.;
  Float_t z = 0.;
  Float_t xi = 0.;
  Float_t zi = 0.;

  AliHLTCaloDigitDataStruct *digit = 0;

  UInt_t iDigit = 0;

  for(Int_t iRecPoint=0; iRecPoint < fNRecPoints; iRecPoint++) 
    {
      AliHLTCaloRecPointDataStruct *recPoint = fRecPointArray[iRecPoint];
      //      digit = &(recPoint->fDigits);

      Int_t *digitIndexPtr = &(recPoint->fDigits);

      for(iDigit = 0; iDigit < recPoint->fMultiplicity; iDigit++)
	{

	  digit = &(fDigitDataArray[*digitIndexPtr]);

	  xi = digit->fX;
	  zi = digit->fZ;

	  if (recPoint->fAmp > 0 && digit->fEnergy > 0) 
	    {
	      Float_t w = TMath::Max( 0., fLogWeight + TMath::Log( digit->fEnergy / recPoint->fAmp ) ) ;
	      x    += xi * w ;
	      z    += zi * w ;
	      wtot += w ;
	    }
	  digitIndexPtr++;
	}

      if (wtot>0) 
	{
	  recPoint->fX = x/wtot ;
	  recPoint->fZ = z/wtot ;
	}
      else
	{
	  recPoint->fAmp = 0;
	}
    }
  return 0;
}


Int_t 
AliHLTCaloClusterAnalyser::CalculateRecPointMoments()
{
  //See header file for documentation
  return 0;
}

Int_t 
AliHLTCaloClusterAnalyser::CalculateClusterMoments(AliHLTCaloRecPointDataStruct */*recPointPtr*/, AliHLTCaloClusterDataStruct* /*clusterPtr*/)
{
  //See header file for documentation
  return 0;
}


Int_t 
AliHLTCaloClusterAnalyser::DeconvoluteClusters()
{
  //See header file for documentation
  return 0;
}

Int_t 
AliHLTCaloClusterAnalyser::CreateClusters(Int_t nRecPoints, UInt_t availableSize, UInt_t& totSize)
{
  //See header file for documentation

   
  totSize += sizeof(AliHLTCaloClusterDataStruct);
  fNRecPoints = nRecPoints;

  if(fGeometry == 0)
  {
     HLTError("No geometry object is initialised, creation of clusters stopped");
  }

  CalculateCenterOfGravity();

  //  AliHLTCaloDigitDataStruct* digitPtr = &(recPointPtr->fDigits);  
  AliHLTCaloDigitDataStruct* digitPtr = 0;

  AliHLTCaloClusterDataStruct* caloClusterPtr = 0;
  UShort_t* cellIDPtr = 0;
  Float_t* cellAmpFracPtr = 0;;
  
//  Int_t id = -1;
  TVector3 globalPos;

  for(Int_t i = 0; i < fNRecPoints; i++) //TODO needs fix when we start unfolding (number of clusters not necessarily same as number of recpoints gotten from the clusterizer
    {
      if((availableSize - totSize)  < sizeof(AliHLTCaloClusterDataStruct))
      {
	 HLTError("Out of buffer");
	 return -ENOBUFS;
      }
      
      caloClusterPtr = fCaloClusterDataPtr;
     
      cellIDPtr = &(caloClusterPtr->fCellsAbsId);
      cellAmpFracPtr = &(caloClusterPtr->fCellsAmpFraction);
     
      AliHLTCaloRecPointDataStruct *recPointPtr = fRecPointArray[i];
      
      AliHLTCaloGlobalCoordinate globalCoord;
      fGeometry->GetGlobalCoordinates(*recPointPtr, globalCoord);

      caloClusterPtr->fGlobalPos[0] = globalCoord.fX;
      caloClusterPtr->fGlobalPos[1] = globalCoord.fY;
      caloClusterPtr->fGlobalPos[2] = globalCoord.fZ;

      caloClusterPtr->fNCells = 0;//recPointPtr->fMultiplicity;
      
      Int_t tmpSize = totSize + (caloClusterPtr->fNCells-1)*(sizeof(Short_t) + sizeof(Float_t));
      
      if((availableSize - totSize)  < tmpSize)
      {
	 HLTError("Out of buffer");
	 return -ENOBUFS;
      }
      
      for(UInt_t j = 0; j < caloClusterPtr->fNCells; j++)
	{
/*	  fGeometry->GetCellAbsId(recPointPtr->fModule, digitPtr->fX, digitPtr->fZ, id);
	  *cellIDPtr = id;
	  *cellAmpFracPtr = digitPtr->fEnergy/recPointPtr->fAmp;
	  digitPtr++;
	  cellIDPtr = reinterpret_cast<UShort_t*>(reinterpret_cast<char*>(cellAmpFracPtr) + sizeof(Float_t)); 
	  cellAmpFracPtr = reinterpret_cast<Float_t*>(reinterpret_cast<char*>(cellIDPtr) + sizeof(Short_t)); */
	}

      totSize += tmpSize;

      caloClusterPtr->fEnergy = recPointPtr->fAmp;

      if(fDoClusterFit)
	{
	  FitCluster(recPointPtr);
	}
      else
	{
	  caloClusterPtr->fDispersion = 0;
	  caloClusterPtr->fFitQuality = 0;
	  caloClusterPtr->fM20 = 0;
	  caloClusterPtr->fM02 = 0;

	}
      if(fHaveCPVInfo)
	{
	  caloClusterPtr->fEmcCpvDistance = GetCPVDistance(recPointPtr);
	}
      else
	{
	  caloClusterPtr->fEmcCpvDistance = -1;
	}
      if(fDoPID)
	{
	  DoParticleIdentification(caloClusterPtr);
	}
      else
	{
	  for(Int_t k = 0; k < AliPID::kSPECIESN; k++)
	    {
	      caloClusterPtr->fPID[k] = 0;
	    }
	}
      if(fHaveDistanceToBadChannel)
	{
	  caloClusterPtr->fDistanceToBadChannel = GetDistanceToBadChannel(caloClusterPtr);
	}
      else
	{
	  caloClusterPtr->fDistanceToBadChannel = -1;
	}

      caloClusterPtr->fClusterType = fClusterType;
      //      totSize += sizeof(AliHLTCaloClusterDataStruct) + (caloClusterPtr->fNCells)*(sizeof(Short_t) +sizeof(Float_t)-1);   
      //totSize += sizeof(AliHLTCaloClusterDataStruct) + (caloClusterPtr->fNCells-1)*(sizeof(Short_t) + sizeof(Float_t));   

      //      caloClusterPtr = reinterpret_cast<AliHLTCaloClusterDataStruct*>(cellAmpFracPtr);
      caloClusterPtr = reinterpret_cast<AliHLTCaloClusterDataStruct*>(cellIDPtr);

      recPointPtr = reinterpret_cast<AliHLTCaloRecPointDataStruct*>(digitPtr);
      //digitPtr = &(recPointPtr->fDigits);  
    }

return fNRecPoints;

}
Commit	Line	Data
ea367f6a	1	// $Id: AliHLTCaloClusterAnalyser.cxx 35107 2009-09-30 01:45:06Z phille $
	2
	3	/**************************************************************************
	4	* This file is property of and copyright by the ALICE HLT Project *
	5	* All rights reserved. *
	6	* *
	7	* Primary Authors: Oystein Djuvsland *
	8	* *
	9	* Permission to use, copy, modify and distribute this software and its *
	10	* documentation strictly for non-commercial purposes is hereby granted *
	11	* without fee, provided that the above copyright notice appears in all *
	12	* copies and that both the copyright notice and this permission notice *
	13	* appear in the supporting documentation. The authors make no claims *
	14	* about the suitability of this software for any purpose. It is *
	15	* provided "as is" without express or implied warranty. *
	16	**************************************************************************/
	17
	18	/**
	19	* @file AliHLTCaloClusterAnalyser.cxx
	20	* @author Oystein Djuvsland
	21	* @date
	22	* @brief Cluster analyser for Calo HLT
	23	*/
	24
	25	// see header file for class documentation
	26	// or
	27	// refer to README to build package
	28	// or
	29	// visit http://web.ift.uib.no/~kjeks/doc/alice-hlt
	30
	31	#include "AliHLTCaloClusterAnalyser.h"
	32	#include "AliHLTCaloRecPointHeaderStruct.h"
	33	#include "AliHLTCaloRecPointDataStruct.h"
	34	#include "AliHLTCaloClusterDataStruct.h"
	35	//#include "AliHLTCaloPhysicsAnalyzer.h"
7c80a370	36	#include "AliHLTCaloGeometry.h"
ea367f6a	37	#include "AliESDCaloCluster.h"
	38	#include "TMath.h"
	39	#include "TVector3.h"
73d6f579	40	#include "TH1F.h"
73d6f579	41	#include "TFile.h"
7c80a370	42	#include "AliHLTCaloClusterizer.h"
ea367f6a	43
	44	ClassImp(AliHLTCaloClusterAnalyser);
	45
7c80a370	46	AliHLTCaloClusterAnalyser::AliHLTCaloClusterAnalyser() :
ea367f6a	47	// AliHLTCaloBase(),
7c80a370	48	fLogWeight(4.5),
	49	fRecPointArray(0),
	50	fDigitDataArray(0),
ea367f6a	51	fNRecPoints(0),
	52	fCaloClusterDataPtr(0),
	53	fCaloClusterHeaderPtr(0),
ea367f6a	54	//fAnalyzerPtr(0),
	55	fDoClusterFit(false),
	56	fHaveCPVInfo(false),
	57	fDoPID(false),
7c80a370	58	fHaveDistanceToBadChannel(false),
73d6f579	59	fGeometry(0),
73d6f579	60	fClusterType(AliESDCaloCluster::kPHOSCluster)
ea367f6a	61	{
ea367f6a	62	//See header file for documentation
ea367f6a	63	}
	64
	65	AliHLTCaloClusterAnalyser::~AliHLTCaloClusterAnalyser()
	66	{
98baf84d	67	// See header file for class documentation
ea367f6a	68	}
	69
	70	void
7c80a370	71	AliHLTCaloClusterAnalyser::SetCaloClusterData(AliHLTCaloClusterDataStruct *caloClusterDataPtr)
ea367f6a	72	{
	73	//see header file for documentation
	74	fCaloClusterDataPtr = caloClusterDataPtr;
	75	}
7c80a370	76
ea367f6a	77	void
7c80a370	78	AliHLTCaloClusterAnalyser::SetRecPointArray(AliHLTCaloRecPointDataStruct **recPointDataPtr, Int_t nRecPoints)
ea367f6a	79	{
7c80a370	80	fRecPointArray = recPointDataPtr;
	81	fNRecPoints = nRecPoints;
	82	}
	83
	84	void
	85	AliHLTCaloClusterAnalyser::SetDigitDataArray(AliHLTCaloDigitDataStruct *digits)
	86	{
	87	// AliHLTCaloClusterizer cl("PHOS");
	88	// cl.CheckDigits(fRecPointArray, digits, fNRecPoints);
	89	fDigitDataArray = digits;
	90	//cl.CheckDigits(fRecPointArray, fDigitDataArray, fNRecPoints);
ea367f6a	91	}
	92
	93	Int_t
	94	AliHLTCaloClusterAnalyser::CalculateCenterOfGravity()
	95	{
	96	//see header file for documentation
	97	Float_t wtot = 0.;
	98	Float_t x = 0.;
	99	Float_t z = 0.;
	100	Float_t xi = 0.;
	101	Float_t zi = 0.;
	102
	103	AliHLTCaloDigitDataStruct *digit = 0;
ea367f6a	104
	105	UInt_t iDigit = 0;
	106
	107	for(Int_t iRecPoint=0; iRecPoint < fNRecPoints; iRecPoint++)
	108	{
7c80a370	109	AliHLTCaloRecPointDataStruct *recPoint = fRecPointArray[iRecPoint];
ad44d760	110	// digit = &(recPoint->fDigits);
98baf84d	111
7c80a370	112	Int_t *digitIndexPtr = &(recPoint->fDigits);
7c80a370	113
ea367f6a	114	for(iDigit = 0; iDigit < recPoint->fMultiplicity; iDigit++)
ea367f6a	115	{
7c80a370	116
7c80a370	117	digit = &(fDigitDataArray[*digitIndexPtr]);
98baf84d	118
ea367f6a	119	xi = digit->fX;
ea367f6a	120	zi = digit->fZ;
98baf84d	121
ea367f6a	122	if (recPoint->fAmp > 0 && digit->fEnergy > 0)
	123	{
	124	Float_t w = TMath::Max( 0., fLogWeight + TMath::Log( digit->fEnergy / recPoint->fAmp ) ) ;
	125	x += xi * w ;
	126	z += zi * w ;
	127	wtot += w ;
	128	}
7c80a370	129	digitIndexPtr++;
ea367f6a	130	}
98baf84d	131
ea367f6a	132	if (wtot>0)
	133	{
	134	recPoint->fX = x/wtot ;
	135	recPoint->fZ = z/wtot ;
	136	}
	137	else
	138	{
	139	recPoint->fAmp = 0;
	140	}
ea367f6a	141	}
	142	return 0;
	143	}
	144
	145
	146	Int_t
	147	AliHLTCaloClusterAnalyser::CalculateRecPointMoments()
	148	{
	149	//See header file for documentation
	150	return 0;
	151	}
	152
	153	Int_t
	154	AliHLTCaloClusterAnalyser::CalculateClusterMoments(AliHLTCaloRecPointDataStruct /recPointPtr/, AliHLTCaloClusterDataStruct /clusterPtr/)
	155	{
	156	//See header file for documentation
	157	return 0;
	158	}
	159
	160
	161	Int_t
	162	AliHLTCaloClusterAnalyser::DeconvoluteClusters()
	163	{
	164	//See header file for documentation
	165	return 0;
	166	}
	167
	168	Int_t
7c80a370	169	AliHLTCaloClusterAnalyser::CreateClusters(Int_t nRecPoints, UInt_t availableSize, UInt_t& totSize)
ea367f6a	170	{
	171	//See header file for documentation
	172
73d6f579	173
b4479a87	174	totSize += sizeof(AliHLTCaloClusterDataStruct);
7c80a370	175	fNRecPoints = nRecPoints;
	176
	177	if(fGeometry == 0)
	178	{
	179	HLTError("No geometry object is initialised, creation of clusters stopped");
	180	}
	181
	182	CalculateCenterOfGravity();
	183
ad44d760	184	// AliHLTCaloDigitDataStruct* digitPtr = &(recPointPtr->fDigits);
	185	AliHLTCaloDigitDataStruct* digitPtr = 0;
	186
73d6f579	187	AliHLTCaloClusterDataStruct* caloClusterPtr = 0;
	188	UShort_t* cellIDPtr = 0;
	189	Float_t* cellAmpFracPtr = 0;;
ea367f6a	190
98baf84d	191	// Int_t id = -1;
ea367f6a	192	TVector3 globalPos;
	193
	194	for(Int_t i = 0; i < fNRecPoints; i++) //TODO needs fix when we start unfolding (number of clusters not necessarily same as number of recpoints gotten from the clusterizer
	195	{
73d6f579	196	if((availableSize - totSize) < sizeof(AliHLTCaloClusterDataStruct))
	197	{
	198	HLTError("Out of buffer");
	199	return -ENOBUFS;
	200	}
	201
	202	caloClusterPtr = fCaloClusterDataPtr;
	203
	204	cellIDPtr = &(caloClusterPtr->fCellsAbsId);
	205	cellAmpFracPtr = &(caloClusterPtr->fCellsAmpFraction);
	206
7c80a370	207	AliHLTCaloRecPointDataStruct *recPointPtr = fRecPointArray[i];
7c80a370	208
	209	AliHLTCaloGlobalCoordinate globalCoord;
	210	fGeometry->GetGlobalCoordinates(*recPointPtr, globalCoord);
ea367f6a	211
7c80a370	212	caloClusterPtr->fGlobalPos[0] = globalCoord.fX;
	213	caloClusterPtr->fGlobalPos[1] = globalCoord.fY;
	214	caloClusterPtr->fGlobalPos[2] = globalCoord.fZ;
ea367f6a	215
73d6f579	216	caloClusterPtr->fNCells = 0;//recPointPtr->fMultiplicity;
	217
	218	Int_t tmpSize = totSize + (caloClusterPtr->fNCells-1)*(sizeof(Short_t) + sizeof(Float_t));
	219
	220	if((availableSize - totSize) < tmpSize)
	221	{
	222	HLTError("Out of buffer");
	223	return -ENOBUFS;
	224	}
	225
ea367f6a	226	for(UInt_t j = 0; j < caloClusterPtr->fNCells; j++)
ea367f6a	227	{
73d6f579	228	/* fGeometry->GetCellAbsId(recPointPtr->fModule, digitPtr->fX, digitPtr->fZ, id);
73d6f579	229	*cellIDPtr = id;
ea367f6a	230	*cellAmpFracPtr = digitPtr->fEnergy/recPointPtr->fAmp;
	231	digitPtr++;
	232	cellIDPtr = reinterpret_cast<UShort_t>(reinterpret_cast<char>(cellAmpFracPtr) + sizeof(Float_t));
7c80a370	233	cellAmpFracPtr = reinterpret_cast<Float_t>(reinterpret_cast<char>(cellIDPtr) + sizeof(Short_t)); */
ea367f6a	234	}
ea367f6a	235
73d6f579	236	totSize += tmpSize;
73d6f579	237
ea367f6a	238	caloClusterPtr->fEnergy = recPointPtr->fAmp;
73d6f579	239
ea367f6a	240	if(fDoClusterFit)
	241	{
	242	FitCluster(recPointPtr);
	243	}
	244	else
	245	{
	246	caloClusterPtr->fDispersion = 0;
	247	caloClusterPtr->fFitQuality = 0;
	248	caloClusterPtr->fM20 = 0;
	249	caloClusterPtr->fM02 = 0;
	250
	251	}
	252	if(fHaveCPVInfo)
	253	{
	254	caloClusterPtr->fEmcCpvDistance = GetCPVDistance(recPointPtr);
	255	}
	256	else
	257	{
	258	caloClusterPtr->fEmcCpvDistance = -1;
	259	}
	260	if(fDoPID)
	261	{
	262	DoParticleIdentification(caloClusterPtr);
	263	}
	264	else
	265	{
	266	for(Int_t k = 0; k < AliPID::kSPECIESN; k++)
	267	{
	268	caloClusterPtr->fPID[k] = 0;
	269	}
	270	}
	271	if(fHaveDistanceToBadChannel)
	272	{
	273	caloClusterPtr->fDistanceToBadChannel = GetDistanceToBadChannel(caloClusterPtr);
	274	}
	275	else
	276	{
	277	caloClusterPtr->fDistanceToBadChannel = -1;
	278	}
	279
73d6f579	280	caloClusterPtr->fClusterType = fClusterType;
ea367f6a	281	// totSize += sizeof(AliHLTCaloClusterDataStruct) + (caloClusterPtr->fNCells)*(sizeof(Short_t) +sizeof(Float_t)-1);
73d6f579	282	//totSize += sizeof(AliHLTCaloClusterDataStruct) + (caloClusterPtr->fNCells-1)*(sizeof(Short_t) + sizeof(Float_t));
ea367f6a	283
	284	// caloClusterPtr = reinterpret_cast<AliHLTCaloClusterDataStruct*>(cellAmpFracPtr);
	285	caloClusterPtr = reinterpret_cast<AliHLTCaloClusterDataStruct*>(cellIDPtr);
7c80a370	286
ea367f6a	287	recPointPtr = reinterpret_cast<AliHLTCaloRecPointDataStruct*>(digitPtr);
73d6f579	288	//digitPtr = &(recPointPtr->fDigits);
ea367f6a	289	}
98baf84d	290
98baf84d	291	return fNRecPoints;
ea367f6a	292
	293	}
	294