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

#ifndef ALITOFRUNPARAMS_H
#define ALITOFRUNPARAMS_H

/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
 * See cxx source for full Copyright notice                               */
/* $Id$ */

// *
// *
// *
// * 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 "TObject.h"

class TGraph;

class AliTOFRunParams :
public TObject
{

 public:

  AliTOFRunParams(); // default constructor
  AliTOFRunParams(Int_t nPoints, Int_t nRuns = 1); // standard constructor
  virtual ~AliTOFRunParams(); // default destructor
  AliTOFRunParams(const AliTOFRunParams &source); // copy constructor
  AliTOFRunParams &operator=(const AliTOFRunParams &source); // operator=

  Int_t GetNPoints() const {return fNPoints;}; // getter
  UInt_t GetTimestamp(Int_t i) const {return fTimestamp && i < fNPoints ? fTimestamp[i] : 0;}; // getter
  Float_t GetT0(Int_t i) const {return fT0 && i < fNPoints ? fT0[i] : 0.;}; // getter
  Float_t GetTOFResolution(Int_t i) const {return fTOFResolution && i < fNPoints ? fTOFResolution[i] : 0.;}; // getter
  Float_t GetT0Spread(Int_t i) const {return fT0Spread && i < fNPoints ? fT0Spread[i] : 0.;}; // getter
  
  Int_t GetNRuns() const {return fNRuns;}; // getter
  UInt_t GetRunNb(Int_t i) const {return fRunNb && i < fNRuns ? fRunNb[i] : 0;}; // getter
  UInt_t GetRunFirstPoint(Int_t i) const {return fRunFirstPoint && i < fNRuns ? fRunFirstPoint[i] : 0;}; // getter
  UInt_t GetRunLastPoint(Int_t i) const {return fRunLastPoint && i < fNRuns ? fRunLastPoint[i] : 0;}; // getter

  void SetTimestamp(UInt_t *value) {if (fTimestamp) for (Int_t i = 0; i < fNPoints; i++) fTimestamp[i] = value[i];}; // setter
  void SetT0(Float_t *value) {if (fT0) for (Int_t i = 0; i < fNPoints; i++) fT0[i] = value[i];}; // setter
  void SetTOFResolution(Float_t *value) {if (fTOFResolution) for (Int_t i = 0; i < fNPoints; i++) fTOFResolution[i] = value[i];}; // setter
  void SetT0Spread(Float_t *value) {if (fT0Spread) for (Int_t i = 0; i < fNPoints; i++) fT0Spread[i] = value[i];}; // setter

  void SetRunNb(UInt_t *value) {if (fRunNb) for (Int_t i = 0; i < fNRuns; i++) fRunNb[i] = value[i];}; // setter
  void SetRunFirstPoint(UInt_t *value) {if (fRunFirstPoint) for (Int_t i = 0; i < fNRuns; i++) fRunFirstPoint[i] = value[i];}; // setter
  void SetRunLastPoint(UInt_t *value) {if (fRunLastPoint) for (Int_t i = 0; i < fNRuns; i++) fRunLastPoint[i] = value[i];}; // setter

  void SetUseLHCClockPhase(Bool_t value) {fUseLHCClockPhase = value;}; // setter

  Float_t EvalT0(UInt_t timestamp); // eval T0
  Float_t EvalTOFResolution(UInt_t timestamp); // eval TOF resolution
  Float_t EvalT0Spread(UInt_t timestamp); // eval T0 spread
  
  Float_t AverageT0(UInt_t runNb) {return Average(fT0, runNb);}; // average T0
  Float_t AverageTOFResolution(UInt_t runNb) {return Average(fTOFResolution, runNb);}; // average TOF resolution
  Float_t AverageT0Spread(UInt_t runNb) {return Average(fT0Spread, runNb);}; // average T0 spread

  Bool_t GetUseLHCClockPhase() const {return fUseLHCClockPhase;}; // getter

  TGraph *DrawGraphT0(Option_t *option = "") {return DrawGraph(fT0, option);}; // draw graph t0
  TGraph *DrawGraphTOFResolution(Option_t *option = "") {return DrawGraph(fTOFResolution, option);}; // draw graph t0
  TGraph *DrawGraphT0Spread(Option_t *option = "") {return DrawGraph(fT0Spread, option);}; // draw graph t0
  TGraph *DrawCorrelationGraphTOFResolutionT0Spread(Option_t *option = "") {return DrawCorrelationGraph(fT0Spread, fTOFResolution, option);}; // draw correlation graph


 private:
  
  /* private methods */
  
  Float_t Average(Float_t *data, UInt_t runNb); // average
  Float_t Average(Float_t *data, Int_t first, Int_t last); // average
  TGraph *DrawGraph(Float_t *data, Option_t *option = ""); // draw graph
  TGraph *DrawCorrelationGraph(Float_t *datax, Float_t *datay, Option_t *option = ""); // draw graph
  
  /* data members */

  Int_t fNPoints;
  UInt_t *fTimestamp; //[fNPoints] time stamp
  Float_t *fT0; //[fNPoints] average T0 (ps)
  Float_t *fTOFResolution; //[fNPoints] average TOF resolution (T0 uncertainty included) (ps)
  Float_t *fT0Spread; //[fNPoints] estimated T0 spread (from vertex spread z) (ps)

  Int_t fNRuns;
  UInt_t *fRunNb; //[fNRuns] run number
  UInt_t *fRunFirstPoint; //[fNRuns] run start point
  UInt_t *fRunLastPoint; //[fNRuns] run last point

  Bool_t fUseLHCClockPhase; // use LHC clockphase


  ClassDef(AliTOFRunParams, 3);
};

#endif /* ALITOFRUNPARAMS_H */
Commit	Line	Data
f04b3a69	1	#ifndef ALITOFRUNPARAMS_H
	2	#define ALITOFRUNPARAMS_H
	3
	4	/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	5	* See cxx source for full Copyright notice */
	6	/* $Id$ */
	7
	8	// *
	9	// *
	10	// *
	11	// * this class defines the TOF object to be stored
	12	// * in OCDB on a run-by-run basis in order to have the measurement
	13	// * of the time evolution of T0 and of TOF resolution including
	14	// * average T0 uncertainty
	15	// *
	16	// *
	17	// *
	18
	19	#include "TObject.h"
	20
53408dc1	21	class TGraph;
53408dc1	22
f04b3a69	23	class AliTOFRunParams :
	24	public TObject
	25	{
	26
	27	public:
	28
	29	AliTOFRunParams(); // default constructor
53408dc1	30	AliTOFRunParams(Int_t nPoints, Int_t nRuns = 1); // standard constructor
f04b3a69	31	virtual ~AliTOFRunParams(); // default destructor
	32	AliTOFRunParams(const AliTOFRunParams &source); // copy constructor
	33	AliTOFRunParams &operator=(const AliTOFRunParams &source); // operator=
	34
	35	Int_t GetNPoints() const {return fNPoints;}; // getter
b46109cf	36	UInt_t GetTimestamp(Int_t i) const {return fTimestamp && i < fNPoints ? fTimestamp[i] : 0;}; // getter
f04b3a69	37	Float_t GetT0(Int_t i) const {return fT0 && i < fNPoints ? fT0[i] : 0.;}; // getter
	38	Float_t GetTOFResolution(Int_t i) const {return fTOFResolution && i < fNPoints ? fTOFResolution[i] : 0.;}; // getter
	39	Float_t GetT0Spread(Int_t i) const {return fT0Spread && i < fNPoints ? fT0Spread[i] : 0.;}; // getter
	40
584e3067	41	Int_t GetNRuns() const {return fNRuns;}; // getter
53408dc1	42	UInt_t GetRunNb(Int_t i) const {return fRunNb && i < fNRuns ? fRunNb[i] : 0;}; // getter
	43	UInt_t GetRunFirstPoint(Int_t i) const {return fRunFirstPoint && i < fNRuns ? fRunFirstPoint[i] : 0;}; // getter
	44	UInt_t GetRunLastPoint(Int_t i) const {return fRunLastPoint && i < fNRuns ? fRunLastPoint[i] : 0;}; // getter
	45
f04b3a69	46	void SetTimestamp(UInt_t *value) {if (fTimestamp) for (Int_t i = 0; i < fNPoints; i++) fTimestamp[i] = value[i];}; // setter
	47	void SetT0(Float_t *value) {if (fT0) for (Int_t i = 0; i < fNPoints; i++) fT0[i] = value[i];}; // setter
	48	void SetTOFResolution(Float_t *value) {if (fTOFResolution) for (Int_t i = 0; i < fNPoints; i++) fTOFResolution[i] = value[i];}; // setter
	49	void SetT0Spread(Float_t *value) {if (fT0Spread) for (Int_t i = 0; i < fNPoints; i++) fT0Spread[i] = value[i];}; // setter
	50
53408dc1	51	void SetRunNb(UInt_t *value) {if (fRunNb) for (Int_t i = 0; i < fNRuns; i++) fRunNb[i] = value[i];}; // setter
	52	void SetRunFirstPoint(UInt_t *value) {if (fRunFirstPoint) for (Int_t i = 0; i < fNRuns; i++) fRunFirstPoint[i] = value[i];}; // setter
	53	void SetRunLastPoint(UInt_t *value) {if (fRunLastPoint) for (Int_t i = 0; i < fNRuns; i++) fRunLastPoint[i] = value[i];}; // setter
	54
3fd7a5cd	55	void SetUseLHCClockPhase(Bool_t value) {fUseLHCClockPhase = value;}; // setter
3fd7a5cd	56
f04b3a69	57	Float_t EvalT0(UInt_t timestamp); // eval T0
	58	Float_t EvalTOFResolution(UInt_t timestamp); // eval TOF resolution
	59	Float_t EvalT0Spread(UInt_t timestamp); // eval T0 spread
53408dc1	60
	61	Float_t AverageT0(UInt_t runNb) {return Average(fT0, runNb);}; // average T0
	62	Float_t AverageTOFResolution(UInt_t runNb) {return Average(fTOFResolution, runNb);}; // average TOF resolution
	63	Float_t AverageT0Spread(UInt_t runNb) {return Average(fT0Spread, runNb);}; // average T0 spread
	64
3fd7a5cd	65	Bool_t GetUseLHCClockPhase() const {return fUseLHCClockPhase;}; // getter
3fd7a5cd	66
53408dc1	67	TGraph DrawGraphT0(Option_t option = "") {return DrawGraph(fT0, option);}; // draw graph t0
	68	TGraph DrawGraphTOFResolution(Option_t option = "") {return DrawGraph(fTOFResolution, option);}; // draw graph t0
	69	TGraph DrawGraphT0Spread(Option_t option = "") {return DrawGraph(fT0Spread, option);}; // draw graph t0
584e3067	70	TGraph DrawCorrelationGraphTOFResolutionT0Spread(Option_t option = "") {return DrawCorrelationGraph(fT0Spread, fTOFResolution, option);}; // draw correlation graph
53408dc1	71
f04b3a69	72
f04b3a69	73	private:
53408dc1	74
	75	/* private methods */
	76
	77	Float_t Average(Float_t *data, UInt_t runNb); // average
	78	Float_t Average(Float_t *data, Int_t first, Int_t last); // average
	79	TGraph DrawGraph(Float_t data, Option_t *option = ""); // draw graph
584e3067	80	TGraph DrawCorrelationGraph(Float_t datax, Float_t datay, Option_t option = ""); // draw graph
53408dc1	81
53408dc1	82	/* data members */
f04b3a69	83
	84	Int_t fNPoints;
	85	UInt_t *fTimestamp; //[fNPoints] time stamp
	86	Float_t *fT0; //[fNPoints] average T0 (ps)
	87	Float_t *fTOFResolution; //[fNPoints] average TOF resolution (T0 uncertainty included) (ps)
	88	Float_t *fT0Spread; //[fNPoints] estimated T0 spread (from vertex spread z) (ps)
	89
53408dc1	90	Int_t fNRuns;
	91	UInt_t *fRunNb; //[fNRuns] run number
	92	UInt_t *fRunFirstPoint; //[fNRuns] run start point
	93	UInt_t *fRunLastPoint; //[fNRuns] run last point
	94
3fd7a5cd	95	Bool_t fUseLHCClockPhase; // use LHC clockphase
3fd7a5cd	96
53408dc1	97
3fd7a5cd	98	ClassDef(AliTOFRunParams, 3);
f04b3a69	99	};
	100
	101	#endif /* ALITOFRUNPARAMS_H */