[u/mrichter/AliRoot.git] / STEER / AliFMDFloatMap.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.   *
 **************************************************************/
/* $Id$ */
//__________________________________________________________
// 
// Map of per strip Float_t information
// the floats are indexed by the coordinates 
//     DETECTOR # (1-3)
//     RING ID    ('I' or 'O', any case)
//     SECTOR #   (0-39)
//     STRIP #    (0-511)
//
// 
// Created Mon Nov  8 12:51:51 2004 by Christian Holm Christensen
// 
#include "AliFMDFloatMap.h"	//ALIFMDFLOATMAP_H
//__________________________________________________________
ClassImp(AliFMDFloatMap)
#if 0
  ; // This is here to keep Emacs for indenting the next line
#endif
//__________________________________________________________
AliFMDFloatMap::AliFMDFloatMap(const AliFMDFloatMap& other)
  : AliFMDMap(other.fMaxDetectors,
              other.fMaxRings,
              other.fMaxSectors,
              other.fMaxStrips),
    fTotal(fMaxDetectors * fMaxRings * fMaxSectors * fMaxStrips),
    fData(new Float_t[fTotal])
{
  // Copy constructor
  for (Int_t i = 0; i < fTotal; i++)
    fData[i] = other.fData[i];
}

//__________________________________________________________
AliFMDFloatMap::AliFMDFloatMap(Int_t maxDet,
			       Int_t maxRing,
			       Int_t maxSec,
			       Int_t maxStr)
  : AliFMDMap(maxDet, maxRing, maxSec, maxStr),
    fTotal(fMaxDetectors * fMaxRings * fMaxSectors * fMaxStrips),
    fData(new Float_t[fTotal])
{
  // Constructor.
  // Parameters:
  //	maxDet	Maximum number of detectors
  //	maxRing	Maximum number of rings per detector
  //	maxSec	Maximum number of sectors per ring
  //	maxStr	Maximum number of strips per sector
  Reset();
}

//__________________________________________________________
AliFMDFloatMap&
AliFMDFloatMap::operator=(const AliFMDFloatMap& other)
{
  // Assignment operator 
  fMaxDetectors = other.fMaxDetectors;
  fMaxRings     = other.fMaxRings;
  fMaxSectors   = other.fMaxSectors;
  fMaxStrips    = other.fMaxStrips;
  fTotal        = fMaxDetectors * fMaxRings * fMaxSectors * fMaxStrips;
  if (fData) delete [] fData;
  fData = new Float_t[fTotal];
  for (Int_t i = 0; i < fTotal; i++) fData[i] = other.fData[i];
  return *this;
}

//__________________________________________________________
void
AliFMDFloatMap::Reset(const Float_t& val)
{
  // Reset map to val
  for (Int_t i = 0; i < fTotal; i++) fData[i] = val;
}

//__________________________________________________________
Float_t&
AliFMDFloatMap::operator()(UShort_t det, 
			   Char_t   ring, 
			   UShort_t sec, 
			   UShort_t str)
{
  // Get data
  // Parameters:
  //	det	Detector #
  //	ring	Ring ID
  //	sec	Sector #
  //	str	Strip #
  // Returns appropriate data
  return fData[CalcIndex(det, ring, sec, str)];
}

//__________________________________________________________
const Float_t&
AliFMDFloatMap::operator()(UShort_t det, 
			   Char_t   ring, 
			   UShort_t sec, 
			   UShort_t str) const
{
  // Get data
  // Parameters:
  //	det	Detector #
  //	ring	Ring ID
  //	sec	Sector #
  //	str	Strip #
  // Returns appropriate data
  return fData[CalcIndex(det, ring, sec, str)];
}

//__________________________________________________________
// 
// EOF
//
Commit	Line	Data
9da38871	1	/**************************************************************
	2	* Copyright(c) 1998-1999, ALICE Experiment at CERN. *
	3	* All rights reserved. *
	4	* *
	5	* Author: The ALICE Off-line Project. *
	6	* Contributors are mentioned in the code where appropriate. *
	7	* *
	8	* Permission to use, copy, modify and distribute this *
	9	* software and its documentation strictly for non-commercial *
	10	* purposes is hereby granted without fee, provided that the *
	11	* above copyright notice appears in all copies and that both *
	12	* the copyright notice and this permission notice appear in *
	13	* the supporting documentation. The authors make no claims *
	14	* about the suitability of this software for any purpose. It *
	15	* is provided "as is" without express or implied warranty. *
	16	**************************************************************/
	17	/* $Id$ */
	18	//__________________________________________________________
	19	//
	20	// Map of per strip Float_t information
6169f936	21	// the floats are indexed by the coordinates
	22	// DETECTOR # (1-3)
	23	// RING ID ('I' or 'O', any case)
	24	// SECTOR # (0-39)
	25	// STRIP # (0-511)
	26	//
9da38871	27	//
	28	// Created Mon Nov 8 12:51:51 2004 by Christian Holm Christensen
	29	//
	30	#include "AliFMDFloatMap.h" //ALIFMDFLOATMAP_H
	31	//__________________________________________________________
	32	ClassImp(AliFMDFloatMap)
	33	#if 0
	34	; // This is here to keep Emacs for indenting the next line
	35	#endif
	36	//__________________________________________________________
	37	AliFMDFloatMap::AliFMDFloatMap(const AliFMDFloatMap& other)
	38	: AliFMDMap(other.fMaxDetectors,
	39	other.fMaxRings,
	40	other.fMaxSectors,
	41	other.fMaxStrips),
fe12e09c	42	fTotal(fMaxDetectors * fMaxRings * fMaxSectors * fMaxStrips),
fe12e09c	43	fData(new Float_t[fTotal])
9da38871	44	{
9da38871	45	// Copy constructor
fe12e09c	46	for (Int_t i = 0; i < fTotal; i++)
9da38871	47	fData[i] = other.fData[i];
	48	}
	49
	50	//__________________________________________________________
fe12e09c	51	AliFMDFloatMap::AliFMDFloatMap(Int_t maxDet,
	52	Int_t maxRing,
	53	Int_t maxSec,
	54	Int_t maxStr)
9da38871	55	: AliFMDMap(maxDet, maxRing, maxSec, maxStr),
fe12e09c	56	fTotal(fMaxDetectors * fMaxRings * fMaxSectors * fMaxStrips),
fe12e09c	57	fData(new Float_t[fTotal])
9da38871	58	{
	59	// Constructor.
	60	// Parameters:
	61	// maxDet Maximum number of detectors
	62	// maxRing Maximum number of rings per detector
	63	// maxSec Maximum number of sectors per ring
	64	// maxStr Maximum number of strips per sector
9da38871	65	Reset();
	66	}
	67
	68	//__________________________________________________________
	69	AliFMDFloatMap&
	70	AliFMDFloatMap::operator=(const AliFMDFloatMap& other)
	71	{
	72	// Assignment operator
	73	fMaxDetectors = other.fMaxDetectors;
	74	fMaxRings = other.fMaxRings;
	75	fMaxSectors = other.fMaxSectors;
	76	fMaxStrips = other.fMaxStrips;
ac07a8f5	77	fTotal = fMaxDetectors * fMaxRings * fMaxSectors * fMaxStrips;
9da38871	78	if (fData) delete [] fData;
ac07a8f5	79	fData = new Float_t[fTotal];
fe12e09c	80	for (Int_t i = 0; i < fTotal; i++) fData[i] = other.fData[i];
9da38871	81	return *this;
	82	}
	83
	84	//__________________________________________________________
	85	void
	86	AliFMDFloatMap::Reset(const Float_t& val)
	87	{
	88	// Reset map to val
fe12e09c	89	for (Int_t i = 0; i < fTotal; i++) fData[i] = val;
9da38871	90	}
	91
	92	//__________________________________________________________
	93	Float_t&
	94	AliFMDFloatMap::operator()(UShort_t det,
	95	Char_t ring,
	96	UShort_t sec,
	97	UShort_t str)
	98	{
	99	// Get data
	100	// Parameters:
	101	// det Detector #
	102	// ring Ring ID
	103	// sec Sector #
	104	// str Strip #
	105	// Returns appropriate data
	106	return fData[CalcIndex(det, ring, sec, str)];
	107	}
	108
	109	//__________________________________________________________
	110	const Float_t&
	111	AliFMDFloatMap::operator()(UShort_t det,
	112	Char_t ring,
	113	UShort_t sec,
	114	UShort_t str) const
	115	{
	116	// Get data
	117	// Parameters:
	118	// det Detector #
	119	// ring Ring ID
	120	// sec Sector #
	121	// str Strip #
	122	// Returns appropriate data
	123	return fData[CalcIndex(det, ring, sec, str)];
	124	}
	125
	126	//__________________________________________________________
	127	//
	128	// EOF
	129	//
	130