[u/mrichter/AliRoot.git] / HBTAN / AliHBTParticleCut.h

//Piotr Skowronski@cern.ch
//Classes for single particle cuts
//User should use only AliHBTParticleCut, eventually EmptyCut which passes all particles
//There is all interface for setting cuts on all particle properties
//The main method is Pass - which returns 
//        True in order to reject particle
//        False in case it meets all the criteria of the given cut
//
//User should create (and also destroy) cuts himself 
//and then pass them to the Analysis or Function by a proper method
//
//more info: http://alisoft.cern.ch/people/skowron/analyzer/index.html


#ifndef ALIHBTPARTICLECUT_H
#define ALIHBTPARTICLECUT_H

#include <TObject.h>
#include "AliHBTParticle.h"


class AliHBTEmptyParticleCut;
class AliHBTParticleCut;
class AliHBTPairCut;
class AliHBTPair;
class AliHbtBaseCut;


/******************************************************************/
/******************************************************************/
/******************************************************************/

enum AliHBTCutProperty
 {
//codes particle property
  kHbtP,  //Momentum
  kHbtPt, //Transverse momentum
  kHbtE,  //Energy
  kHbtRapidity, //
  kHbtPseudoRapidity,
  kHbtPx, //X coordinate of the momentum
  kHbtPy, //Y coordinate of the momentum
  kHbtPz, //Z coordinate of the momentum
  kHbtPhi,//angle
  kHbtTheta,//angle
  kHbtVx,  // vertex X coordinate
  kHbtVy,  // vertex Y coordinate
  kHbtVz,  // vertex Z coordinate
//_____________________________
  kHbtNone 
 };

/******************************************************************/
/******************************************************************/
/******************************************************************/

class AliHBTParticleCut: public TObject
{
//Class describing cut on pairs of particles
  public:
    AliHBTParticleCut();
    AliHBTParticleCut(const AliHBTParticleCut&);
    virtual ~AliHBTParticleCut();

    virtual Bool_t Pass(AliHBTParticle*);
    Bool_t IsEmpty() {return kFALSE;}
    
    void AddBasePartCut(AliHbtBaseCut*);
    
    Int_t GetPID() const { return fPID;}
    void SetPID(Int_t pid){fPID=pid;}
    void SetMomentumRange(Double_t min, Double_t max);
    void SetPRange(Double_t min, Double_t max){SetMomentumRange(min,max);}
    void SetPtRange(Double_t min, Double_t max);
    void SetEnergyRange(Double_t min, Double_t max);
    void SetRapidityRange(Double_t min, Double_t max);
    void SetYRange(Double_t min, Double_t max){SetRapidityRange(min,max);}
    void SetPseudoRapidityRange(Double_t min, Double_t max);
    void SetPxRange(Double_t min, Double_t max);
    void SetPyRange(Double_t min, Double_t max);
    void SetPzRange(Double_t min, Double_t max);
    void SetPhiRange(Double_t min, Double_t max);
    void SetThetaRange(Double_t min, Double_t max);
    void SetVxRange(Double_t min, Double_t max);
    void SetVyRange(Double_t min, Double_t max);
    void SetVzRange(Double_t min, Double_t max);
    
    void Print(void);
  protected:
     
     AliHbtBaseCut* FindCut(AliHBTCutProperty);
     
     AliHbtBaseCut ** fCuts;//! Array with cuts
     Int_t fNCuts;

     Int_t fPID; //particle PID  - if=0 (rootino) all pids are accepted
          
  private:
     static const Int_t fkgMaxCuts;
  public:
    ClassDef(AliHBTParticleCut,1)
 
};
/******************************************************************/
/******************************************************************/
/******************************************************************/

class AliHBTEmptyParticleCut:  public AliHBTParticleCut
{
//Empty - it passes possitively all particles - it means returns always False
//Class describing cut on pairs of particles
  public:
    AliHBTEmptyParticleCut(){};
    virtual ~AliHBTEmptyParticleCut(){};
    
    Bool_t Pass(AliHBTParticle*){return kFALSE;} //accpept everything
    Bool_t IsEmpty() {return kTRUE;}

    ClassDef(AliHBTEmptyParticleCut,1)
 
};

/******************************************************************/
/******************************************************************/
/******************************************************************/

class AliHbtBaseCut: public TObject
 {
   //This class defines the range of some property - pure virtual
   //Property is coded by AliHBTCutTypes type
   
   public:
     
     AliHbtBaseCut(Double_t min = 0.0, Double_t max = 0.0,AliHBTCutProperty prop = kHbtNone):
                   fProperty(prop),fMin(min),fMax(max){}

     virtual   ~AliHbtBaseCut(){}
     
     Bool_t    Pass(AliHBTParticle *);
     
     void      SetRange(Double_t min, Double_t max){fMin = min; fMax = max;}

     void      SetMinimum(Double_t min){fMin = min;}
     void      SetMaximum(Double_t max){fMax = max;}
     
     Double_t  GetMinimum() const {return fMin;}
     Double_t  GetMaximum() const {return fMax;}
     
     AliHBTCutProperty GetProperty() const {return fProperty;}
     void Print(void);     
   protected:
     virtual Double_t  GetValue(AliHBTParticle *) = 0;

     AliHBTCutProperty fProperty;
     Double_t fMin;
     Double_t fMax;
   private:
     void PrintProperty(void);
   public:
     ClassDef(AliHbtBaseCut,1)
   
 };

inline Bool_t
AliHbtBaseCut::Pass(AliHBTParticle *p)
 {
   if ( (GetValue(p) > fMin) && (GetValue(p) <fMax ) ) return kFALSE; //accepted
   else return kTRUE; //rejected
 }
/******************************************************************/
/******************************************************************/
/******************************************************************/

 
class AliHBTMomentumCut: public AliHbtBaseCut
 {
  public: 
    AliHBTMomentumCut(Double_t min = 0.0, Double_t max = 0.0):AliHbtBaseCut(min,max,kHbtP){}
    virtual ~AliHBTMomentumCut(){}
  protected:
    Double_t  GetValue(AliHBTParticle * p){return p->P();}
  public:  
    ClassDef(AliHBTMomentumCut,1)
  
 };


class AliHBTPtCut: public AliHbtBaseCut
 {
  public: 
    AliHBTPtCut(Double_t min = 0.0, Double_t max = 0.0):AliHbtBaseCut(min,max,kHbtPt){}
    virtual ~AliHBTPtCut(){}
  protected:
    Double_t  GetValue(AliHBTParticle * p){return p->Pt();}
  public: 
    ClassDef(AliHBTPtCut,1)
  
 };


class AliHBTEnergyCut: public AliHbtBaseCut
 {
  public: 
    AliHBTEnergyCut(Double_t min = 0.0, Double_t max = 0.0):AliHbtBaseCut(min,max,kHbtE){}
    virtual ~AliHBTEnergyCut(){}
  protected:
    Double_t  GetValue(AliHBTParticle * p){return p->Energy();}
  public: 
    ClassDef(AliHBTEnergyCut,1)
  
 };

class AliHBTRapidityCut: public AliHbtBaseCut
 {
  public: 
    AliHBTRapidityCut(Double_t min = 0.0, Double_t max = 0.0):AliHbtBaseCut(min,max,kHbtRapidity){}
    virtual ~AliHBTRapidityCut(){}
  protected:
    Double_t  GetValue(AliHBTParticle * p){return p->Y();}
  public:   
    ClassDef(AliHBTRapidityCut,1)
  
 };

class AliHBTPseudoRapidityCut: public AliHbtBaseCut
 {
  public: 
    AliHBTPseudoRapidityCut(Double_t min = 0.0, Double_t max = 0.0):AliHbtBaseCut(min,max,kHbtPseudoRapidity){}
    virtual ~AliHBTPseudoRapidityCut(){}
  protected:
    Double_t  GetValue(AliHBTParticle * p){return p->Eta();}
  public:   
    ClassDef(AliHBTPseudoRapidityCut,1)
  
 };

class AliHBTPxCut: public AliHbtBaseCut
 {
  public: 
    AliHBTPxCut(Double_t min = 0.0, Double_t max = 0.0):AliHbtBaseCut(min,max,kHbtPx){}
    virtual ~AliHBTPxCut(){}
  protected:
    Double_t  GetValue(AliHBTParticle * p){return p->Px();}
  public:   
    ClassDef(AliHBTPxCut,1)
  
 };

class AliHBTPyCut: public AliHbtBaseCut
 {
  public: 
    AliHBTPyCut(Double_t min = 0.0, Double_t max = 0.0):AliHbtBaseCut(min,max,kHbtPy){}
    virtual ~AliHBTPyCut(){}
  protected:
    Double_t  GetValue(AliHBTParticle * p){return p->Py();}
  public:   
    ClassDef(AliHBTPyCut,1)
  
 };


class AliHBTPzCut: public AliHbtBaseCut
 {
  public: 
    AliHBTPzCut(Double_t min = 0.0, Double_t max = 0.0):AliHbtBaseCut(min,max,kHbtPz){}
    virtual ~AliHBTPzCut(){}
  protected:
    Double_t  GetValue(AliHBTParticle * p){return p->Pz();}
  public:   
    ClassDef(AliHBTPzCut,1)
  
 };

class AliHBTPhiCut: public AliHbtBaseCut
 {
  public: 
    AliHBTPhiCut(Double_t min = 0.0, Double_t max = 0.0):AliHbtBaseCut(min,max,kHbtPhi){}
    virtual ~AliHBTPhiCut(){}
  protected:
    Double_t  GetValue(AliHBTParticle * p){return p->Phi();}
  public:    
    ClassDef(AliHBTPhiCut,1)
  
 };

class AliHBTThetaCut: public AliHbtBaseCut
 {
  public: 
    AliHBTThetaCut(Double_t min = 0.0, Double_t max = 0.0):AliHbtBaseCut(min,max,kHbtTheta){}
    virtual ~AliHBTThetaCut(){}
  protected:
    Double_t  GetValue(AliHBTParticle * p){return p->Theta();}
  public:  
    ClassDef(AliHBTThetaCut,1)
  
 };

class AliHBTVxCut: public AliHbtBaseCut
 {
 //Cut of the X coordinate of the vertex position
  public: 
    AliHBTVxCut(Double_t min = 0.0, Double_t max = 0.0):AliHbtBaseCut(min,max,kHbtVx){}
    virtual ~AliHBTVxCut(){}
  protected:
    Double_t  GetValue(AliHBTParticle * p){return p->Vx();} //retruns value of the vertex
  public:   
    ClassDef(AliHBTVxCut,1)
  
 };


class AliHBTVyCut: public AliHbtBaseCut
 {
 //Cut of the X coordinate of the vertex position
  public: 
    AliHBTVyCut(Double_t min = 0.0, Double_t max = 0.0):AliHbtBaseCut(min,max,kHbtVy){}
    virtual ~AliHBTVyCut(){}
  protected:
    Double_t  GetValue(AliHBTParticle * p){return p->Vy();} //retruns value of the vertex
  public:   
    ClassDef(AliHBTVyCut,1)
  
 };

class AliHBTVzCut: public AliHbtBaseCut
 {
 //Cut of the X coordinate of the vertex position
  public: 
    AliHBTVzCut(Double_t min = 0.0, Double_t max = 0.0):AliHbtBaseCut(min,max,kHbtVz){}
    virtual ~AliHBTVzCut(){}
  protected:
    Double_t  GetValue(AliHBTParticle * p){return p->Vz();} //retruns value of the vertex
  public:   
    ClassDef(AliHBTVzCut,1)
  
 };


#endif
Commit	Line	Data
1b446896	1	//Piotr Skowronski@cern.ch
	2	//Classes for single particle cuts
	3	//User should use only AliHBTParticleCut, eventually EmptyCut which passes all particles
	4	//There is all interface for setting cuts on all particle properties
	5	//The main method is Pass - which returns
	6	// True in order to reject particle
	7	// False in case it meets all the criteria of the given cut
	8	//
	9	//User should create (and also destroy) cuts himself
	10	//and then pass them to the Analysis or Function by a proper method
	11	//
	12	//more info: http://alisoft.cern.ch/people/skowron/analyzer/index.html
	13
	14
	15	#ifndef ALIHBTPARTICLECUT_H
	16	#define ALIHBTPARTICLECUT_H
	17
	18	#include <TObject.h>
	19	#include "AliHBTParticle.h"
	20
	21
	22	class AliHBTEmptyParticleCut;
	23	class AliHBTParticleCut;
	24	class AliHBTPairCut;
	25	class AliHBTPair;
	26	class AliHbtBaseCut;
	27
	28
	29	/******************************************************************/
	30	/******************************************************************/
	31	/******************************************************************/
	32
	33	enum AliHBTCutProperty
	34	{
	35	//codes particle property
	36	kHbtP, //Momentum
	37	kHbtPt, //Transverse momentum
	38	kHbtE, //Energy
	39	kHbtRapidity, //
	40	kHbtPseudoRapidity,
	41	kHbtPx, //X coordinate of the momentum
	42	kHbtPy, //Y coordinate of the momentum
	43	kHbtPz, //Z coordinate of the momentum
	44	kHbtPhi,//angle
	45	kHbtTheta,//angle
	46	kHbtVx, // vertex X coordinate
	47	kHbtVy, // vertex Y coordinate
	48	kHbtVz, // vertex Z coordinate
	49	//_____________________________
	50	kHbtNone
	51	};
	52
	53	/******************************************************************/
	54	/******************************************************************/
	55	/******************************************************************/
	56
	57	class AliHBTParticleCut: public TObject
	58	{
	59	//Class describing cut on pairs of particles
	60	public:
	61	AliHBTParticleCut();
	62	AliHBTParticleCut(const AliHBTParticleCut&);
	63	virtual ~AliHBTParticleCut();
	64
65	virtual Bool_t Pass(AliHBTParticle*);
a925ebdf	66	Bool_t IsEmpty() {return kFALSE;}
1b446896	67
	68	void AddBasePartCut(AliHbtBaseCut*);
	69
	70	Int_t GetPID() const { return fPID;}
	71	void SetPID(Int_t pid){fPID=pid;}
	72	void SetMomentumRange(Double_t min, Double_t max);
	73	void SetPRange(Double_t min, Double_t max){SetMomentumRange(min,max);}
	74	void SetPtRange(Double_t min, Double_t max);
	75	void SetEnergyRange(Double_t min, Double_t max);
	76	void SetRapidityRange(Double_t min, Double_t max);
	77	void SetYRange(Double_t min, Double_t max){SetRapidityRange(min,max);}
	78	void SetPseudoRapidityRange(Double_t min, Double_t max);
	79	void SetPxRange(Double_t min, Double_t max);
	80	void SetPyRange(Double_t min, Double_t max);
	81	void SetPzRange(Double_t min, Double_t max);
	82	void SetPhiRange(Double_t min, Double_t max);
	83	void SetThetaRange(Double_t min, Double_t max);
	84	void SetVxRange(Double_t min, Double_t max);
	85	void SetVyRange(Double_t min, Double_t max);
	86	void SetVzRange(Double_t min, Double_t max);
	87
	88	void Print(void);
	89	protected:
	90
	91	AliHbtBaseCut* FindCut(AliHBTCutProperty);
	92
	93	AliHbtBaseCut ** fCuts;//! Array with cuts
	94	Int_t fNCuts;
	95
	96	Int_t fPID; //particle PID - if=0 (rootino) all pids are accepted
	97
	98	private:
	99	static const Int_t fkgMaxCuts;
	100	public:
	101	ClassDef(AliHBTParticleCut,1)
	102
	103	};
	104	/******************************************************************/
	105	/******************************************************************/
	106	/******************************************************************/
	107
	108	class AliHBTEmptyParticleCut: public AliHBTParticleCut
	109	{
	110	//Empty - it passes possitively all particles - it means returns always False
	111	//Class describing cut on pairs of particles
	112	public:
	113	AliHBTEmptyParticleCut(){};
	114	virtual ~AliHBTEmptyParticleCut(){};
	115
a925ebdf	116	Bool_t Pass(AliHBTParticle*){return kFALSE;} //accpept everything
a925ebdf	117	Bool_t IsEmpty() {return kTRUE;}
1b446896	118
	119	ClassDef(AliHBTEmptyParticleCut,1)
	120
	121	};
	122
	123	/******************************************************************/
	124	/******************************************************************/
	125	/******************************************************************/
	126
	127	class AliHbtBaseCut: public TObject
	128	{
	129	//This class defines the range of some property - pure virtual
	130	//Property is coded by AliHBTCutTypes type
	131
	132	public:
	133
	134	AliHbtBaseCut(Double_t min = 0.0, Double_t max = 0.0,AliHBTCutProperty prop = kHbtNone):
	135	fProperty(prop),fMin(min),fMax(max){}
	136
	137	virtual ~AliHbtBaseCut(){}
	138
	139	Bool_t Pass(AliHBTParticle *);
	140
	141	void SetRange(Double_t min, Double_t max){fMin = min; fMax = max;}
	142
	143	void SetMinimum(Double_t min){fMin = min;}
	144	void SetMaximum(Double_t max){fMax = max;}
	145
	146	Double_t GetMinimum() const {return fMin;}
	147	Double_t GetMaximum() const {return fMax;}
	148
	149	AliHBTCutProperty GetProperty() const {return fProperty;}
	150	void Print(void);
	151	protected:
	152	virtual Double_t GetValue(AliHBTParticle *) = 0;
	153
	154	AliHBTCutProperty fProperty;
	155	Double_t fMin;
	156	Double_t fMax;
	157	private:
	158	void PrintProperty(void);
	159	public:
	160	ClassDef(AliHbtBaseCut,1)
	161
	162	};
	163
	164	inline Bool_t
	165	AliHbtBaseCut::Pass(AliHBTParticle *p)
	166	{
	167	if ( (GetValue(p) > fMin) && (GetValue(p) <fMax ) ) return kFALSE; //accepted
	168	else return kTRUE; //rejected
	169	}
	170	/******************************************************************/
	171	/******************************************************************/
	172	/******************************************************************/
	173
	174
	175	class AliHBTMomentumCut: public AliHbtBaseCut
	176	{
	177	public:
	178	AliHBTMomentumCut(Double_t min = 0.0, Double_t max = 0.0):AliHbtBaseCut(min,max,kHbtP){}
	179	virtual ~AliHBTMomentumCut(){}
	180	protected:
	181	Double_t GetValue(AliHBTParticle * p){return p->P();}
182	public:
183	ClassDef(AliHBTMomentumCut,1)
184
185	};
186
187
188	class AliHBTPtCut: public AliHbtBaseCut
189	{
190	public:
191	AliHBTPtCut(Double_t min = 0.0, Double_t max = 0.0):AliHbtBaseCut(min,max,kHbtPt){}
192	virtual ~AliHBTPtCut(){}
193	protected:
194	Double_t GetValue(AliHBTParticle * p){return p->Pt();}
195	public:
196	ClassDef(AliHBTPtCut,1)
197
198	};
199
200
201	class AliHBTEnergyCut: public AliHbtBaseCut
202	{
203	public:
204	AliHBTEnergyCut(Double_t min = 0.0, Double_t max = 0.0):AliHbtBaseCut(min,max,kHbtE){}
205	virtual ~AliHBTEnergyCut(){}
206	protected:
207	Double_t GetValue(AliHBTParticle * p){return p->Energy();}
208	public:
209	ClassDef(AliHBTEnergyCut,1)
210
211	};
212
213	class AliHBTRapidityCut: public AliHbtBaseCut
214	{
215	public:
216	AliHBTRapidityCut(Double_t min = 0.0, Double_t max = 0.0):AliHbtBaseCut(min,max,kHbtRapidity){}
217	virtual ~AliHBTRapidityCut(){}
218	protected:
219	Double_t GetValue(AliHBTParticle * p){return p->Y();}
220	public:
221	ClassDef(AliHBTRapidityCut,1)
222
223	};
224
225	class AliHBTPseudoRapidityCut: public AliHbtBaseCut
226	{
227	public:
228	AliHBTPseudoRapidityCut(Double_t min = 0.0, Double_t max = 0.0):AliHbtBaseCut(min,max,kHbtPseudoRapidity){}
229	virtual ~AliHBTPseudoRapidityCut(){}
230	protected:
231	Double_t GetValue(AliHBTParticle * p){return p->Eta();}
232	public:
233	ClassDef(AliHBTPseudoRapidityCut,1)
234
235	};
236
237	class AliHBTPxCut: public AliHbtBaseCut
238	{
239	public:
240	AliHBTPxCut(Double_t min = 0.0, Double_t max = 0.0):AliHbtBaseCut(min,max,kHbtPx){}
241	virtual ~AliHBTPxCut(){}
242	protected:
243	Double_t GetValue(AliHBTParticle * p){return p->Px();}
244	public:
245	ClassDef(AliHBTPxCut,1)
246
247	};
248
249	class AliHBTPyCut: public AliHbtBaseCut
250	{
251	public:
252	AliHBTPyCut(Double_t min = 0.0, Double_t max = 0.0):AliHbtBaseCut(min,max,kHbtPy){}
253	virtual ~AliHBTPyCut(){}
254	protected:
255	Double_t GetValue(AliHBTParticle * p){return p->Py();}
256	public:
257	ClassDef(AliHBTPyCut,1)
258
259	};
260
261
262	class AliHBTPzCut: public AliHbtBaseCut
263	{
264	public:
265	AliHBTPzCut(Double_t min = 0.0, Double_t max = 0.0):AliHbtBaseCut(min,max,kHbtPz){}
266	virtual ~AliHBTPzCut(){}
267	protected:
268	Double_t GetValue(AliHBTParticle * p){return p->Pz();}
269	public:
270	ClassDef(AliHBTPzCut,1)
271
272	};
273
274	class AliHBTPhiCut: public AliHbtBaseCut
275	{
276	public:
277	AliHBTPhiCut(Double_t min = 0.0, Double_t max = 0.0):AliHbtBaseCut(min,max,kHbtPhi){}
278	virtual ~AliHBTPhiCut(){}
279	protected:
280	Double_t GetValue(AliHBTParticle * p){return p->Phi();}
281	public:
282	ClassDef(AliHBTPhiCut,1)
283
284	};
285
286	class AliHBTThetaCut: public AliHbtBaseCut
287	{
288	public:
289	AliHBTThetaCut(Double_t min = 0.0, Double_t max = 0.0):AliHbtBaseCut(min,max,kHbtTheta){}
290	virtual ~AliHBTThetaCut(){}
291	protected:
292	Double_t GetValue(AliHBTParticle * p){return p->Theta();}
293	public:
294	ClassDef(AliHBTThetaCut,1)
295
296	};
297
298	class AliHBTVxCut: public AliHbtBaseCut
299	{
300	//Cut of the X coordinate of the vertex position
301	public:
302	AliHBTVxCut(Double_t min = 0.0, Double_t max = 0.0):AliHbtBaseCut(min,max,kHbtVx){}
303	virtual ~AliHBTVxCut(){}
304	protected:
305	Double_t GetValue(AliHBTParticle * p){return p->Vx();} //retruns value of the vertex
306	public:
307	ClassDef(AliHBTVxCut,1)
308
309	};
310
311
312	class AliHBTVyCut: public AliHbtBaseCut
313	{
314	//Cut of the X coordinate of the vertex position
315	public:
316	AliHBTVyCut(Double_t min = 0.0, Double_t max = 0.0):AliHbtBaseCut(min,max,kHbtVy){}
317	virtual ~AliHBTVyCut(){}
318	protected:
319	Double_t GetValue(AliHBTParticle * p){return p->Vy();} //retruns value of the vertex
320	public:
321	ClassDef(AliHBTVyCut,1)
322
323	};
324
325	class AliHBTVzCut: public AliHbtBaseCut
326	{
327	//Cut of the X coordinate of the vertex position
328	public:
329	AliHBTVzCut(Double_t min = 0.0, Double_t max = 0.0):AliHbtBaseCut(min,max,kHbtVz){}
330	virtual ~AliHBTVzCut(){}
331	protected:
332	Double_t GetValue(AliHBTParticle * p){return p->Vz();} //retruns value of the vertex
333	public:
334	ClassDef(AliHBTVzCut,1)
335
336	};
337
338
339
340
341
342	#endif