[u/mrichter/AliRoot.git] / STEER / AliESDV0Params.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.                  *
 **************************************************************************/


//-------------------------------------------------------------------------
//            Helper -DATA  class ESD V0 vertex class
//            contains effective errror parameterization 
//            Effective parameterization of resolution in DCA and PA  as function of radii and momenta
//            Mini-max coeficient    fPMinFraction... fPMaxFraction...
//                                   as limits for Error parameterization using Covariance matrix             
//            For detailes : see  AliESDv0 class   
//             
//    Origin: Marian Ivanov marian.ivanov@cern.ch
//-------------------------------------------------------------------------


#include "AliESDV0Params.h"


ClassImp(AliESDV0Params)


AliESDV0Params::AliESDV0Params() :
  TObject(),
  // These constants are used in the error parameterization using covariance matrix
  // minimal sigma in AP and DCA 
  fPSigmaOffsetD0(0.03),      // minimal sigma of error estimate
  fPSigmaOffsetAP0(0.005),
  //
  // Effective parameterization of DCA resolution as function of pt and decay radii
  //
  fPSigmaMaxDE(0.5),
  fPSigmaOffsetDE(0.06),
  fPSigmaCoefDE(0.02),
  fPSigmaRminDE(2.7),
  //
  //
  // Effective parameterization of PA resolution as function of pt and decay radii
  //
  fPSigmaBase0APE(0.005),
  fPSigmaMaxAPE(0.06),
  fPSigmaR0APE(0.02),
  fPSigmaR1APE(0.1), 
  fPSigmaP0APE(0.7*0.4),
  fPSigmaP1APE(0.3*0.4),
  //
  //
  // Minimax parameters
  //
  fPMinFractionAP0(0.5),
  fPMaxFractionAP0(1.5),
  fPMinAP0(0.003),
  fPMinFractionD0(0.5),
  fPMaxFractionD0(1.5),
  fPMinD0(0.05),
  fkMaxDist0(0.1),
  fkMaxDist1(0.1),
  fkMaxDist(1.),
  fkMinPointAngle(0.85),
  fkMinPointAngle2(0.99),
  fkMinR(0.5),
  fkMaxR(220.),
  fkMinPABestConst(0.9999),
  fkMaxRBestConst(10.),
  fkCausality0Cut(0.19),
  fkLikelihood01Cut(0.45),
  fkLikelihood1Cut(0.5),
  fkCombinedCut(0.55),
  fkMinClFullTrk(5.0),
  fkMinTgl0(1.05),
  
  fkMinClForb0(4.5),
  fkMinRTgl0(40.), 
  fkMinNormDistForbTgl0(3.0),
  fkMinNormDistForb1(3.0),
  fkMinNormDistForb2(2.0),
  fkMinNormDistForb3(1.0),
  fkMinNormDistForb4(4.0),
  fkMinNormDistForb5(5.0),
  fkMinNormDistForbProt(2.0),
  fkMaxPidProbPionForb(0.5),
  fkMinRTPCdensity(40.),
  fkMaxRTPCdensity0(110.),
  fkMaxRTPCdensity10(120.),
  fkMaxRTPCdensity20(130.),
  fkMaxRTPCdensity30(140.),
  
  fkMinTPCdensity(0.6),
  fkMinTgl1(1.1),
  fkMinTgl2(1.),
  fkMinchi2before0(16.),
  fkMinchi2before1(16.),
  fkMinchi2after0(16.),
  fkMinchi2after1(16.),
  fkAddchi2SharedCl(18.),
  fkAddchi2NegCl0(25.),
  fkAddchi2NegCl1(30.),
  
  fkSigp0Par0(0.0001),
  fkSigp0Par1(0.001),
  fkSigp0Par2(0.1),
  fkSigpPar0(0.5),
  fkSigpPar1(0.6),
  fkSigpPar2(0.4),
  fkMaxDcaLh0(0.5),
  
  fkChi2KF(100.),
  fkRobustChi2KF(100.),
  fgStreamLevel(0)

  //

{
  //
  // Default constructor
  // Consult AliESDv0 to see actual error parameterization 
  //
}
Commit	Line	Data
	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
	17	//-------------------------------------------------------------------------
	18	// Helper -DATA class ESD V0 vertex class
	19	// contains effective errror parameterization
	20	// Effective parameterization of resolution in DCA and PA as function of radii and momenta
	21	// Mini-max coeficient fPMinFraction... fPMaxFraction...
	22	// as limits for Error parameterization using Covariance matrix
	23	// For detailes : see AliESDv0 class
	24	//
	25	// Origin: Marian Ivanov marian.ivanov@cern.ch
	26	//-------------------------------------------------------------------------
	27
	28
	29	#include "AliESDV0Params.h"
	30
	31
	32	ClassImp(AliESDV0Params)
	33
	34
	35
	36
	37	AliESDV0Params::AliESDV0Params() :
	38	TObject(),
	39	// These constants are used in the error parameterization using covariance matrix
	40	// minimal sigma in AP and DCA
	41	fPSigmaOffsetD0(0.03), // minimal sigma of error estimate
	42	fPSigmaOffsetAP0(0.005),
	43	//
	44	// Effective parameterization of DCA resolution as function of pt and decay radii
	45	//
	46	fPSigmaMaxDE(0.5),
	47	fPSigmaOffsetDE(0.06),
	48	fPSigmaCoefDE(0.02),
	49	fPSigmaRminDE(2.7),
	50	//
	51	//
	52	// Effective parameterization of PA resolution as function of pt and decay radii
	53	//
	54	fPSigmaBase0APE(0.005),
	55	fPSigmaMaxAPE(0.06),
	56	fPSigmaR0APE(0.02),
	57	fPSigmaR1APE(0.1),
	58	fPSigmaP0APE(0.7*0.4),
	59	fPSigmaP1APE(0.3*0.4),
	60	//
	61	//
	62	// Minimax parameters
	63	//
	64	fPMinFractionAP0(0.5),
	65	fPMaxFractionAP0(1.5),
	66	fPMinAP0(0.003),
	67	fPMinFractionD0(0.5),
	68	fPMaxFractionD0(1.5),
	69	fPMinD0(0.05),
	70	fkMaxDist0(0.1),
	71	fkMaxDist1(0.1),
	72	fkMaxDist(1.),
	73	fkMinPointAngle(0.85),
	74	fkMinPointAngle2(0.99),
	75	fkMinR(0.5),
	76	fkMaxR(220.),
	77	fkMinPABestConst(0.9999),
	78	fkMaxRBestConst(10.),
	79	fkCausality0Cut(0.19),
	80	fkLikelihood01Cut(0.45),
	81	fkLikelihood1Cut(0.5),
	82	fkCombinedCut(0.55),
	83	fkMinClFullTrk(5.0),
	84	fkMinTgl0(1.05),
	85
	86	fkMinClForb0(4.5),
	87	fkMinRTgl0(40.),
	88	fkMinNormDistForbTgl0(3.0),
	89	fkMinNormDistForb1(3.0),
	90	fkMinNormDistForb2(2.0),
	91	fkMinNormDistForb3(1.0),
	92	fkMinNormDistForb4(4.0),
	93	fkMinNormDistForb5(5.0),
	94	fkMinNormDistForbProt(2.0),
	95	fkMaxPidProbPionForb(0.5),
	96	fkMinRTPCdensity(40.),
	97	fkMaxRTPCdensity0(110.),
	98	fkMaxRTPCdensity10(120.),
	99	fkMaxRTPCdensity20(130.),
	100	fkMaxRTPCdensity30(140.),
	101
	102	fkMinTPCdensity(0.6),
	103	fkMinTgl1(1.1),
	104	fkMinTgl2(1.),
	105	fkMinchi2before0(16.),
	106	fkMinchi2before1(16.),
	107	fkMinchi2after0(16.),
	108	fkMinchi2after1(16.),
	109	fkAddchi2SharedCl(18.),
	110	fkAddchi2NegCl0(25.),
	111	fkAddchi2NegCl1(30.),
	112
	113	fkSigp0Par0(0.0001),
	114	fkSigp0Par1(0.001),
	115	fkSigp0Par2(0.1),
	116	fkSigpPar0(0.5),
	117	fkSigpPar1(0.6),
	118	fkSigpPar2(0.4),
	119	fkMaxDcaLh0(0.5),
	120
	121	fkChi2KF(100.),
	122	fkRobustChi2KF(100.),
	123	fgStreamLevel(0)
	124
	125	//
	126
	127	{
	128	//
	129	// Default constructor
	130	// Consult AliESDv0 to see actual error parameterization
	131	//
	132	}
	133
	134
	135