[u/mrichter/AliRoot.git] / FMD / AliFMDMultRegion.cxx

/**************************************************************************
 * Copyright(c) 2004, 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.                  *
 **************************************************************************/

/* $Id$ */

//____________________________________________________________________
//
// FMD reconstructed multiplicity in a region of a ring.  The region
// is identified by (strip_min,sector_min)x(strip_max,sector_max) or
// by (eta_max,phi_min),(eta_min,phi_max).   It's also possible to
// get the peudorapidity of the center-of-mass of the region, as well
// as the mean azimuthal angle.
//
// [Note, that minStrip corresponds to maxEta, and maxStrip
// corresponds to minEta]
// 
// These objects are usually created by the Poisson reconstruction
// method. 
//
#include "AliFMDMultRegion.h"	// ALIFMDPARTICLES_H
#include <TString.h>            // ROOT_TString
#include <Riostream.h>		// ROOT_Riostream

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


//____________________________________________________________________
AliFMDMultRegion::AliFMDMultRegion()
  : fDetector(0),
    fRing('\0'),
    fMinSector(0),
    fMaxSector(0),
    fMinStrip(0),
    fMaxStrip(0),
    fMinEta(0),
    fMaxEta(0),
    fMinPhi(0),
    fMaxPhi(0)
{}

//____________________________________________________________________
AliFMDMultRegion::AliFMDMultRegion(UShort_t detector,  Char_t ring, 
				   UShort_t minSector, UShort_t maxSector, 
				   UShort_t minStrip,  UShort_t maxStrip, 
				   Float_t  minEta,    Float_t  maxEta, 
				   Float_t  meanEta, 
				   Float_t  minPhi,    Float_t  maxPhi,
				   Float_t  particles, UShort_t method)
  : AliFMDMult(particles, method),
    fDetector(detector),
    fRing(ring),
    fMinSector(minSector),
    fMaxSector(maxSector),
    fMinStrip(minStrip),
    fMaxStrip(maxStrip),
    fMinEta(minEta),
    fMaxEta(maxEta),
    fMeanEta(meanEta),
    fMinPhi(minPhi),
    fMaxPhi(maxPhi)
{}

#if 0
//____________________________________________________________________
Float_t
AliFMDMultRegion::Eta() const 
{
  // Return the center-of-mass eta of the region.   This is calculated
  // as the weighted mean of min and max eta, where the weights are
  // the length of the arcs of the upper and lower edge of the region: 
  // 
  //            (maxPhi - minPhi)
  //  f       = -----------------
  //                   360 	
  //
  //  w_max   = ds*minStrip*2*pi*f
  //                                   
  //  w_min   = ds*maxStrip*2*pi*f
  // 
  //  1/w^2   = 1/w_max^2 + 1/w_min^2 
  //
  //                      1                        1  	      
  //          = ---------------------- + ----------------------
  //            (ds*minStrip*2*pi*f)^2	 (ds*maxStrip*2*pi*f)^2
  // 
  //            (ds*maxStrip*2*pi*f)^2 + (ds*minStrip*2*pi*f)^2
  //          = -----------------------------------------------
  //            (ds*maxStrip*2*pi*f)^2 * (ds*minStrip*2*pi*f)^2
  //
  //          
  //             4 * pi^2 * ds^2 * f^2 (maxStrip^2  + minStrip^2)
  //          = -------------------------------------------------
  //             16 * pi^4 * ds^4 * f^4 minStrip^2 * maxStrip^2 
  //
  //                     (maxStrip^2  + minStrip^2)
  //          = -------------------------------------------------
  //             4 * pi^2 * ds^2 * f^2 minStrip^2 * maxStrip^2 
  //
  //  <eta> = (maxEta/w_max^2 + minEta /w_min^2) / (1/w^2)
  //      
  //           w_min^2 * maxEta + w_max^2 * minEta
  //        = ------------------------------------ / (1/w^2)
  //                  w_max^2 * w_min^2
  // 
  //           4*pi^2*ds^2*(maxStrip*maxEta + minStrip*minEta)
  //        =  ----------------------------------------------- / (1/w^2)
  //               16*pi^4*ds^4*f^4*minStrip^2*maxStrip^2 
  //
  //           maxStrip * maxEta + minStrip * minEta   
  //        =  ------------------------------------- 
  //           4*pi^2*ds^2*f^2*minStrip^2*maxStrip^2 
  //
  //               4*pi^2*ds^2*f^2*minStrip^2*maxStrip^2
  //             * ------------------------------------- 		  
  //		         maxStrip^2+minStrip^2		  
  // 
  //           maxStrip * maxEta + minStrip * minEta   
  //        =  ------------------------------------- 
  //                  maxStrip^2 + minStrip^2
  //                                                     _
  //                                                    |_|
  //
  Float_t eta = (fMaxStrip * fMaxEta + fMinStrip * fMinEta) 
    / (fMaxStrip * fMaxStrip + fMinStrip * fMinStrip);
  return eta;
}
#endif
  
//____________________________________________________________________
void
AliFMDMultRegion::Print(Option_t* option) const
{
  // Print information 
  // 
  // Options:
  //    D:           Detector (default)
  //    S:           Sector range 
  //    T:           Strip range 
  //    E:           Eta range (default)
  //    P:           Phi range (default)
  //
  TString opt(option);
  cout << "FMD Multiplicity in a region: " << fParticles << endl;
  if (opt.Contains("D", TString::kIgnoreCase))
    cout << "  Detector:      FMD" << fDetector << fRing 
	 << "[" << fMinSector << "-" << fMaxSector 
	 << "," <<  fMinStrip << "-" << fMaxStrip << "]" << endl;
  if (opt.Contains("E", TString::kIgnoreCase))
    cout << "  Eta range:     [" << fMinEta << "," << fMaxEta << endl;
  if (opt.Contains("P", TString::kIgnoreCase))
    cout << "  Phi range:     [" << fMinPhi << "," << fMaxPhi << endl;
  AliFMDMult::Print(option);
}

    
//____________________________________________________________________
//
// EOF
//
Commit	Line	Data
	1	/**************************************************************************
	2	* Copyright(c) 2004, 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	// FMD reconstructed multiplicity in a region of a ring. The region
	21	// is identified by (strip_min,sector_min)x(strip_max,sector_max) or
	22	// by (eta_max,phi_min),(eta_min,phi_max). It's also possible to
	23	// get the peudorapidity of the center-of-mass of the region, as well
	24	// as the mean azimuthal angle.
	25	//
	26	// [Note, that minStrip corresponds to maxEta, and maxStrip
	27	// corresponds to minEta]
	28	//
	29	// These objects are usually created by the Poisson reconstruction
	30	// method.
	31	//
	32	#include "AliFMDMultRegion.h" // ALIFMDPARTICLES_H
	33	#include <TString.h> // ROOT_TString
	34	#include <Riostream.h> // ROOT_Riostream
	35
	36	//____________________________________________________________________
	37	ClassImp(AliFMDMultRegion)
	38	#if 0
	39	; // This is here to keep Emacs for indenting the next line
	40	#endif
	41
	42
	43	//____________________________________________________________________
	44	AliFMDMultRegion::AliFMDMultRegion()
	45	: fDetector(0),
	46	fRing('\0'),
	47	fMinSector(0),
	48	fMaxSector(0),
	49	fMinStrip(0),
	50	fMaxStrip(0),
	51	fMinEta(0),
	52	fMaxEta(0),
	53	fMinPhi(0),
	54	fMaxPhi(0)
	55	{}
	56
	57	//____________________________________________________________________
	58	AliFMDMultRegion::AliFMDMultRegion(UShort_t detector, Char_t ring,
	59	UShort_t minSector, UShort_t maxSector,
	60	UShort_t minStrip, UShort_t maxStrip,
	61	Float_t minEta, Float_t maxEta,
	62	Float_t meanEta,
	63	Float_t minPhi, Float_t maxPhi,
	64	Float_t particles, UShort_t method)
	65	: AliFMDMult(particles, method),
	66	fDetector(detector),
	67	fRing(ring),
	68	fMinSector(minSector),
	69	fMaxSector(maxSector),
	70	fMinStrip(minStrip),
	71	fMaxStrip(maxStrip),
	72	fMinEta(minEta),
	73	fMaxEta(maxEta),
	74	fMeanEta(meanEta),
	75	fMinPhi(minPhi),
	76	fMaxPhi(maxPhi)
	77	{}
	78
	79	#if 0
	80	//____________________________________________________________________
	81	Float_t
	82	AliFMDMultRegion::Eta() const
	83	{
	84	// Return the center-of-mass eta of the region. This is calculated
	85	// as the weighted mean of min and max eta, where the weights are
	86	// the length of the arcs of the upper and lower edge of the region:
	87	//
	88	// (maxPhi - minPhi)
	89	// f = -----------------
	90	// 360
	91	//
	92	// w_max = dsminStrip2pif
	93	//
	94	// w_min = dsmaxStrip2pif
	95	//
	96	// 1/w^2 = 1/w_max^2 + 1/w_min^2
	97	//
	98	// 1 1
	99	// = ---------------------- + ----------------------
	100	// (dsminStrip2pif)^2 (dsmaxStrip2pif)^2
	101	//
	102	// (dsmaxStrip2pif)^2 + (dsminStrip2pif)^2
	103	// = -----------------------------------------------
	104	// (dsmaxStrip2pif)^2 * (dsminStrip2pif)^2
	105	//
	106	//
	107	// 4 * pi^2 * ds^2 * f^2 (maxStrip^2 + minStrip^2)
	108	// = -------------------------------------------------
	109	// 16 * pi^4 * ds^4 * f^4 minStrip^2 * maxStrip^2
	110	//
	111	// (maxStrip^2 + minStrip^2)
	112	// = -------------------------------------------------
	113	// 4 * pi^2 * ds^2 * f^2 minStrip^2 * maxStrip^2
	114	//
	115	// <eta> = (maxEta/w_max^2 + minEta /w_min^2) / (1/w^2)
	116	//
	117	// w_min^2 * maxEta + w_max^2 * minEta
	118	// = ------------------------------------ / (1/w^2)
	119	// w_max^2 * w_min^2
	120	//
	121	// 4pi^2ds^2(maxStripmaxEta + minStrip*minEta)
	122	// = ----------------------------------------------- / (1/w^2)
	123	// 16pi^4ds^4f^4minStrip^2*maxStrip^2
	124	//
	125	// maxStrip * maxEta + minStrip * minEta
	126	// = -------------------------------------
	127	// 4pi^2ds^2f^2minStrip^2*maxStrip^2
	128	//
	129	// 4pi^2ds^2f^2minStrip^2*maxStrip^2
	130	// * -------------------------------------
	131	// maxStrip^2+minStrip^2
	132	//
	133	// maxStrip * maxEta + minStrip * minEta
	134	// = -------------------------------------
	135	// maxStrip^2 + minStrip^2
	136	// _
	137	// \|_\|
	138	//
	139	Float_t eta = (fMaxStrip * fMaxEta + fMinStrip * fMinEta)
	140	/ (fMaxStrip * fMaxStrip + fMinStrip * fMinStrip);
	141	return eta;
	142	}
	143	#endif
	144
	145	//____________________________________________________________________
	146	void
	147	AliFMDMultRegion::Print(Option_t* option) const
	148	{
	149	// Print information
	150	//
	151	// Options:
	152	// D: Detector (default)
	153	// S: Sector range
	154	// T: Strip range
	155	// E: Eta range (default)
	156	// P: Phi range (default)
	157	//
	158	TString opt(option);
	159	cout << "FMD Multiplicity in a region: " << fParticles << endl;
	160	if (opt.Contains("D", TString::kIgnoreCase))
	161	cout << " Detector: FMD" << fDetector << fRing
	162	<< "[" << fMinSector << "-" << fMaxSector
	163	<< "," << fMinStrip << "-" << fMaxStrip << "]" << endl;
	164	if (opt.Contains("E", TString::kIgnoreCase))
	165	cout << " Eta range: [" << fMinEta << "," << fMaxEta << endl;
	166	if (opt.Contains("P", TString::kIgnoreCase))
	167	cout << " Phi range: [" << fMinPhi << "," << fMaxPhi << endl;
	168	AliFMDMult::Print(option);
	169	}
	170
	171
	172	//____________________________________________________________________
	173	//
	174	// EOF
	175	//