[u/mrichter/AliRoot.git] / TOF / AliTOFRunParams.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.                  *
 **************************************************************************/

// *
// *
// *
// * this class defines the TOF object to be stored
// * in OCDB on a run-by-run basis in order to have the measurement
// * of the time evolution of T0 and of TOF resolution including
// * average T0 uncertainty
// *
// *
// *

#include "AliTOFRunParams.h"

ClassImp(AliTOFRunParams)

//_________________________________________________________

AliTOFRunParams::AliTOFRunParams() :
  TObject(),
  fNPoints(0),
  fTimestamp(NULL),
  fT0(NULL),
  fTOFResolution(NULL),
  fT0Spread(NULL)
{
  /*
   * default constructor
   */
}

//_________________________________________________________

AliTOFRunParams::AliTOFRunParams(Int_t nPoints) :
  TObject(),
  fNPoints(nPoints),
  fTimestamp(new UInt_t[nPoints]),
  fT0(new Float_t[nPoints]),
  fTOFResolution(new Float_t[nPoints]),
  fT0Spread(new Float_t[nPoints])
{
  /*
   * standard constructor
   */
}

//_________________________________________________________

AliTOFRunParams::~AliTOFRunParams()
{
  /*
   * default destructor
   */

  if (fTimestamp) delete [] fTimestamp;
  if (fT0) delete [] fT0;
  if (fTOFResolution) delete [] fTOFResolution;
  if (fT0Spread) delete [] fT0Spread;
}

//_________________________________________________________

AliTOFRunParams::AliTOFRunParams(const AliTOFRunParams &source) :
  TObject(source),
  fNPoints(source.fNPoints),
  fTimestamp(new UInt_t[source.fNPoints]),
  fT0(new Float_t[source.fNPoints]),
  fTOFResolution(new Float_t[source.fNPoints]),
  fT0Spread(new Float_t[source.fNPoints])
{
  /*
   * copy constructor
   */

  for (Int_t i = 0; i < fNPoints; i++) {
    fTimestamp[i] = source.fTimestamp[i];
    fT0[i] = source.fT0[i];
    fTOFResolution[i] = source.fTOFResolution[i];
    fT0Spread[i] = source.fT0Spread[i];
  }
  
}

//_________________________________________________________

AliTOFRunParams &
AliTOFRunParams::operator=(const AliTOFRunParams &source)
{
  /*
   * operator=
   */

  if (this == &source) return *this;
  TObject::operator=(source);
  
  if (fNPoints != source.fNPoints) {
    if (fTimestamp) delete [] fTimestamp;
    if (fT0) delete [] fT0;
    if (fTOFResolution) delete [] fTOFResolution;
    if (fT0Spread) delete [] fT0Spread;
    fNPoints = source.fNPoints;
    fTimestamp = new UInt_t[source.fNPoints];
    fT0 = new Float_t[source.fNPoints];
    fTOFResolution = new Float_t[source.fNPoints];
    fT0Spread = new Float_t[source.fNPoints];
  }

  for (Int_t i = 0; i < fNPoints; i++) {
    fTimestamp[i] = source.fTimestamp[i];
    fT0[i] = source.fT0[i];
    fTOFResolution[i] = source.fTOFResolution[i];
    fT0Spread[i] = source.fT0Spread[i];
  }

  return *this;
}

//_________________________________________________________

Float_t
AliTOFRunParams::EvalT0(UInt_t timestamp)
{
  /*
   * eval T0
   */

  /* critical cases:
     1. no measurement -> 0.
     2. single measurement -> single value
     3. timestamp before first measurement -> first value
     4. timestamp after last measurement -> last value
  */
  if (fNPoints <= 0 || !fT0 || !fTimestamp) return 0.;
  if (fNPoints == 1) return fT0[0];
  if (timestamp <= fTimestamp[0]) return fT0[0];
  if (timestamp >= fTimestamp[fNPoints - 1]) return fT0[fNPoints - 1];

  /* interpolate value */
  Int_t ipoint;
  for (ipoint = 0; ipoint < fNPoints - 1; ipoint++)
    if (timestamp >= fTimestamp[ipoint] && timestamp < fTimestamp[ipoint + 1])
      break;
  Float_t coeff = (fT0[ipoint + 1] - fT0[ipoint]) / (Float_t)(fTimestamp[ipoint + 1] - fTimestamp[ipoint]);
  Float_t t0 = fT0[ipoint] + coeff * (timestamp - fTimestamp[ipoint]);
  
  return t0;
}

//_________________________________________________________

Float_t
AliTOFRunParams::EvalTOFResolution(UInt_t timestamp)
{
  /*
   * eval TOF resolution
   */

  /* critical cases:
     1. no measurement -> 0.
     2. single measurement -> single value
     3. timestamp before first measurement -> first value
     4. timestamp after last measurement -> last value
  */
  if (fNPoints <= 0 || !fTOFResolution || !fTimestamp) return 0.;
  if (fNPoints == 1) return fTOFResolution[0];
  if (timestamp <= fTimestamp[0]) return fTOFResolution[0];
  if (timestamp >= fTimestamp[fNPoints - 1]) return fTOFResolution[fNPoints - 1];

  /* interpolate value */
  Int_t ipoint;
  for (ipoint = 0; ipoint < fNPoints - 1; ipoint++)
    if (timestamp >= fTimestamp[ipoint] && timestamp < fTimestamp[ipoint + 1])
      break;
  Float_t coeff = (fTOFResolution[ipoint + 1] - fTOFResolution[ipoint]) / (Float_t)(fTimestamp[ipoint + 1] - fTimestamp[ipoint]);
  Float_t reso = fTOFResolution[ipoint] + coeff * (timestamp - fTimestamp[ipoint]);
  
  return reso;
}

//_________________________________________________________

Float_t
AliTOFRunParams::EvalT0Spread(UInt_t timestamp)
{
  /*
   * eval T0 spread
   */

  /* critical cases:
     1. no measurement -> 0.
     2. single measurement -> single value
     3. timestamp before first measurement -> first value
     4. timestamp after last measurement -> last value
  */
  if (fNPoints <= 0 || !fT0Spread || !fTimestamp) return 0.;
  if (fNPoints == 1) return fT0Spread[0];
  if (timestamp <= fTimestamp[0]) return fT0Spread[0];
  if (timestamp >= fTimestamp[fNPoints - 1]) return fT0Spread[fNPoints - 1];

  /* interpolate value */
  Int_t ipoint;
  for (ipoint = 0; ipoint < fNPoints - 1; ipoint++)
    if (timestamp >= fTimestamp[ipoint] && timestamp < fTimestamp[ipoint + 1])
      break;
  Float_t coeff = (fT0Spread[ipoint + 1] - fT0Spread[ipoint]) / (Float_t)(fTimestamp[ipoint + 1] - fTimestamp[ipoint]);
  Float_t spread = fT0Spread[ipoint] + coeff * (timestamp - fTimestamp[ipoint]);
  
  return spread;
}
Commit	Line	Data
f04b3a69	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	// *
	19	// * this class defines the TOF object to be stored
	20	// * in OCDB on a run-by-run basis in order to have the measurement
	21	// * of the time evolution of T0 and of TOF resolution including
	22	// * average T0 uncertainty
	23	// *
	24	// *
	25	// *
	26
	27	#include "AliTOFRunParams.h"
	28
	29	ClassImp(AliTOFRunParams)
	30
	31	//_________________________________________________________
	32
	33	AliTOFRunParams::AliTOFRunParams() :
	34	TObject(),
	35	fNPoints(0),
	36	fTimestamp(NULL),
	37	fT0(NULL),
	38	fTOFResolution(NULL),
	39	fT0Spread(NULL)
	40	{
	41	/*
	42	* default constructor
	43	*/
	44	}
	45
	46	//_________________________________________________________
	47
	48	AliTOFRunParams::AliTOFRunParams(Int_t nPoints) :
	49	TObject(),
	50	fNPoints(nPoints),
	51	fTimestamp(new UInt_t[nPoints]),
	52	fT0(new Float_t[nPoints]),
	53	fTOFResolution(new Float_t[nPoints]),
	54	fT0Spread(new Float_t[nPoints])
	55	{
	56	/*
	57	* standard constructor
	58	*/
	59	}
	60
	61	//_________________________________________________________
	62
	63	AliTOFRunParams::~AliTOFRunParams()
	64	{
65	/*
66	* default destructor
67	*/
68
69	if (fTimestamp) delete [] fTimestamp;
70	if (fT0) delete [] fT0;
71	if (fTOFResolution) delete [] fTOFResolution;
72	if (fT0Spread) delete [] fT0Spread;
73	}
74
75	//_________________________________________________________
76
77	AliTOFRunParams::AliTOFRunParams(const AliTOFRunParams &source) :
78	TObject(source),
79	fNPoints(source.fNPoints),
80	fTimestamp(new UInt_t[source.fNPoints]),
81	fT0(new Float_t[source.fNPoints]),
82	fTOFResolution(new Float_t[source.fNPoints]),
83	fT0Spread(new Float_t[source.fNPoints])
84	{
85	/*
86	* copy constructor
87	*/
88
89	for (Int_t i = 0; i < fNPoints; i++) {
90	fTimestamp[i] = source.fTimestamp[i];
91	fT0[i] = source.fT0[i];
92	fTOFResolution[i] = source.fTOFResolution[i];
93	fT0Spread[i] = source.fT0Spread[i];
94	}
95
96	}
97
98	//_________________________________________________________
99
100	AliTOFRunParams &
101	AliTOFRunParams::operator=(const AliTOFRunParams &source)
102	{
103	/*
104	* operator=
105	*/
106
107	if (this == &source) return *this;
108	TObject::operator=(source);
109
110	if (fNPoints != source.fNPoints) {
111	if (fTimestamp) delete [] fTimestamp;
112	if (fT0) delete [] fT0;
113	if (fTOFResolution) delete [] fTOFResolution;
114	if (fT0Spread) delete [] fT0Spread;
115	fNPoints = source.fNPoints;
116	fTimestamp = new UInt_t[source.fNPoints];
117	fT0 = new Float_t[source.fNPoints];
118	fTOFResolution = new Float_t[source.fNPoints];
119	fT0Spread = new Float_t[source.fNPoints];
120	}
121
122	for (Int_t i = 0; i < fNPoints; i++) {
123	fTimestamp[i] = source.fTimestamp[i];
124	fT0[i] = source.fT0[i];
125	fTOFResolution[i] = source.fTOFResolution[i];
126	fT0Spread[i] = source.fT0Spread[i];
127	}
128
129	return *this;
130	}
131
132	//_________________________________________________________
133
134	Float_t
135	AliTOFRunParams::EvalT0(UInt_t timestamp)
136	{
137	/*
138	* eval T0
139	*/
140
141	/* critical cases:
142	1. no measurement -> 0.
143	2. single measurement -> single value
144	3. timestamp before first measurement -> first value
145	4. timestamp after last measurement -> last value
146	*/
147	if (fNPoints <= 0 \|\| !fT0 \|\| !fTimestamp) return 0.;
148	if (fNPoints == 1) return fT0[0];
149	if (timestamp <= fTimestamp[0]) return fT0[0];
150	if (timestamp >= fTimestamp[fNPoints - 1]) return fT0[fNPoints - 1];
151
152	/* interpolate value */
153	Int_t ipoint;
154	for (ipoint = 0; ipoint < fNPoints - 1; ipoint++)
155	if (timestamp >= fTimestamp[ipoint] && timestamp < fTimestamp[ipoint + 1])
156	break;
157	Float_t coeff = (fT0[ipoint + 1] - fT0[ipoint]) / (Float_t)(fTimestamp[ipoint + 1] - fTimestamp[ipoint]);
158	Float_t t0 = fT0[ipoint] + coeff * (timestamp - fTimestamp[ipoint]);
159
160	return t0;
161	}
162
163	//_________________________________________________________
164
165	Float_t
166	AliTOFRunParams::EvalTOFResolution(UInt_t timestamp)
167	{
168	/*
169	* eval TOF resolution
170	*/
171
172	/* critical cases:
173	1. no measurement -> 0.
174	2. single measurement -> single value
175	3. timestamp before first measurement -> first value
176	4. timestamp after last measurement -> last value
177	*/
178	if (fNPoints <= 0 \|\| !fTOFResolution \|\| !fTimestamp) return 0.;
179	if (fNPoints == 1) return fTOFResolution[0];
180	if (timestamp <= fTimestamp[0]) return fTOFResolution[0];
181	if (timestamp >= fTimestamp[fNPoints - 1]) return fTOFResolution[fNPoints - 1];
182
183	/* interpolate value */
184	Int_t ipoint;
185	for (ipoint = 0; ipoint < fNPoints - 1; ipoint++)
186	if (timestamp >= fTimestamp[ipoint] && timestamp < fTimestamp[ipoint + 1])
187	break;
188	Float_t coeff = (fTOFResolution[ipoint + 1] - fTOFResolution[ipoint]) / (Float_t)(fTimestamp[ipoint + 1] - fTimestamp[ipoint]);
189	Float_t reso = fTOFResolution[ipoint] + coeff * (timestamp - fTimestamp[ipoint]);
190
191	return reso;
192	}
193
194	//_________________________________________________________
195
196	Float_t
197	AliTOFRunParams::EvalT0Spread(UInt_t timestamp)
198	{
199	/*
200	* eval T0 spread
201	*/
202
203	/* critical cases:
204	1. no measurement -> 0.
205	2. single measurement -> single value
206	3. timestamp before first measurement -> first value
207	4. timestamp after last measurement -> last value
208	*/
209	if (fNPoints <= 0 \|\| !fT0Spread \|\| !fTimestamp) return 0.;
210	if (fNPoints == 1) return fT0Spread[0];
211	if (timestamp <= fTimestamp[0]) return fT0Spread[0];
212	if (timestamp >= fTimestamp[fNPoints - 1]) return fT0Spread[fNPoints - 1];
213
214	/* interpolate value */
215	Int_t ipoint;
216	for (ipoint = 0; ipoint < fNPoints - 1; ipoint++)
217	if (timestamp >= fTimestamp[ipoint] && timestamp < fTimestamp[ipoint + 1])
218	break;
219	Float_t coeff = (fT0Spread[ipoint + 1] - fT0Spread[ipoint]) / (Float_t)(fTimestamp[ipoint + 1] - fTimestamp[ipoint]);
220	Float_t spread = fT0Spread[ipoint] + coeff * (timestamp - fTimestamp[ipoint]);
221
222	return spread;
223	}
224