[u/mrichter/AliRoot.git] / RICH / AliRICHChamber.h

#ifndef AliRICHChamber_h
#define AliRICHChamber_h

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

#include <TVector3.h>
#include <TMath.h>
#include <TRotation.h>
#include <TLorentzVector.h>
#include "AliRICHParam.h"
#include "AliSegmentation.h"
class AliRICHGeometry;
class AliRICHResponse;
class TRotMatrix;

typedef enum {kMip, kPhoton} ResponseType;
class AliRICHParam;

class AliRICHChamber : public TNamed
{
public:
           AliRICHChamber();
           AliRICHChamber(Int_t iModuleN,AliRICHParam *pParam);
           AliRICHChamber(const AliRICHChamber &chamber):TNamed(chamber) {;}
  virtual ~AliRICHChamber()                                              {;}
           AliRICHChamber& operator=(const AliRICHChamber&)              {return *this;}
  
  TRotMatrix* RotMatrix()          const{return fpRotMatrix;}
  TString RotMatrixName()          const{return "rot"+fName;}
  TRotation   Rot()                const{return fRot;}
  Double_t    Rho()                const{return fCenterV3.Mag();} 
  Double_t    ThetaD()             const{return fCenterV3.Theta()*TMath::RadToDeg();}    
  Double_t    PhiD()               const{return fCenterV3.Phi()*TMath::RadToDeg();}    
  Double_t    ThetaXd()            const{return fRot.ThetaX()*TMath::RadToDeg();}    
  Double_t    PhiXd()              const{return fRot.PhiX()*TMath::RadToDeg();}    
  Double_t    ThetaYd()            const{return fRot.ThetaY()*TMath::RadToDeg();}    
  Double_t    PhiYd()              const{return fRot.PhiY()*TMath::RadToDeg();}    
  Double_t    ThetaZd()            const{return fRot.ThetaZ()*TMath::RadToDeg();}    
  Double_t    PhiZd()              const{return fRot.PhiZ()*TMath::RadToDeg();}    
  void        RotateX(Double_t a)       {fRot.RotateX(a);fCenterV3.RotateX(a);fPcX3.RotateX(a);}
  void        RotateY(Double_t a)       {fRot.RotateY(a);fCenterV3.RotateY(a);fPcX3.RotateY(a);}
  void        RotateZ(Double_t a)       {fRot.RotateZ(a);fCenterV3.RotateZ(a);fPcX3.RotateZ(a);}
  Double_t    X()                  const{return fCenterV3.X();}  
  Double_t    Y()                  const{return fCenterV3.Y();}   
  Double_t    Z()                  const{return fCenterV3.Z();}
  TVector3    L2G(TVector3 x3)                       const{x3.Transform(fRot);x3+=fCenterV3;return x3;}
  TVector3    G2L(TVector3 x3)                       const{x3-=fCenterV3;x3.Transform(fRot.Inverse()); return x3;}
  inline TVector2  Glob2Loc(TVector3 x3, Bool_t isVector=kFALSE) const;
  TVector2    Glob2Loc(TLorentzVector x4,Bool_t isVector=kFALSE) const{return Glob2Loc(x4.Vect(),isVector);}
  TVector3    L2G(Double_t x,Double_t y,Double_t z)  const{return L2G(TVector3(x,y,z));}
  TVector3    G2L(TLorentzVector x4)                 const{return G2L(x4.Vect());}
  Float_t     G2Ly(TLorentzVector x4)                const{TVector3 x3=G2L(x4.Vect()); return x3.Z();}
  TVector3    G2L(Double_t x,Double_t y,Double_t z)  const{return G2L(TVector3(x,y,z));}
  Float_t     G2Lx(Double_t x,Double_t y,Double_t z) const{TVector3 x3=G2L(x,y,z); return x3.X();}
  Float_t     G2Ly(Double_t x,Double_t y,Double_t z) const{TVector3 x3=G2L(x,y,z); return x3.Z();}
  void        Print(Option_t *sOption)const;//virtual      
   
  void LocaltoGlobal(Float_t pos[3],Float_t localpos[3]) {
    //Transformation from local to global coordinates, chamber-dependant
    TVector3 buf = L2G(localpos[0],localpos[1],localpos[2]);
    pos[0]=buf.X();pos[1]=buf.Y();pos[2]=buf.Z();
  }
  void GlobaltoLocal(Float_t pos[3],Float_t localpos[3]) {
    //Transformation from Global to local coordinates, chamber-dependant 
    TVector3 buf = G2L(pos[0],pos[1],pos[2]);
    localpos[0]=buf.X();localpos[1]=buf.Y();localpos[2]=buf.Z();
  }
  inline void SetToZenith();
  TRotMatrix *GetRotMatrix()       const{return fpRotMatrix;}  
protected:
  TVector3      fCenterV3;        //chamber center position in MRS (cm)
  TVector3      fPcX3;            //PC center position in MRS (cm)
  TRotation     fRot;             //chamber rotation in MRS
  TRotMatrix   *fpRotMatrix;      //rotation matrix of the chamber with respect to MRS 
  AliRICHParam *fpParam;          //main RICH parameters description  
  ClassDef(AliRICHChamber,5)      //single RICH chamber description
};//class AliRICHChamber
//__________________________________________________________________________________________________
void AliRICHChamber::SetToZenith()
{
  fCenterV3.SetXYZ(0,AliRICHParam::Offset()-AliRICHParam::GapThickness()/2,0); 
  fPcX3.SetXYZ(0,AliRICHParam::Offset()-AliRICHParam::GapThickness()/2+5.276+0.25,0);   
}
//__________________________________________________________________________________________________
TVector2 AliRICHChamber::Glob2Loc(TVector3 x3,Bool_t isVector)const
{
  if(!isVector) x3-=fPcX3;
  x3.Transform(fRot.Inverse()); 
  return TVector2(x3.X(),x3.Z());//attention Y and Z are misplaced!
}
//__________________________________________________________________________________________________  
#endif //AliRICHChamber_h
Commit	Line	Data
06b2d19f	1	#ifndef AliRICHChamber_h
06b2d19f	2	#define AliRICHChamber_h
2e5f0f7b	3
	4	/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	5	* See cxx source for full Copyright notice */
	6
06b2d19f	7	#include <TVector3.h>
06b2d19f	8	#include <TMath.h>
853634d3	9	#include <TRotation.h>
c60862bf	10	#include <TLorentzVector.h>
c64f7552	11	#include "AliRICHParam.h"
a2f7eaf6	12	#include "AliSegmentation.h"
53fd478b	13	class AliRICHGeometry;
	14	class AliRICHResponse;
	15	class TRotMatrix;
2e5f0f7b	16
0ffe413c	17	typedef enum {kMip, kPhoton} ResponseType;
853634d3	18	class AliRICHParam;
2e5f0f7b	19
853634d3	20	class AliRICHChamber : public TNamed
2e5f0f7b	21	{
06b2d19f	22	public:
3ea9cb08	23	AliRICHChamber();
853634d3	24	AliRICHChamber(Int_t iModuleN,AliRICHParam *pParam);
3ea9cb08	25	AliRICHChamber(const AliRICHChamber &chamber):TNamed(chamber) {;}
3ea9cb08	26	virtual ~AliRICHChamber() {;}
0ffe413c	27	AliRICHChamber& operator=(const AliRICHChamber&) {return *this;}
0ffe413c	28
853634d3	29	TRotMatrix* RotMatrix() const{return fpRotMatrix;}
b89735dc	30	TString RotMatrixName() const{return "rot"+fName;}
53fd478b	31	TRotation Rot() const{return fRot;}
853634d3	32	Double_t Rho() const{return fCenterV3.Mag();}
c60862bf	33	Double_t ThetaD() const{return fCenterV3.Theta()*TMath::RadToDeg();}
	34	Double_t PhiD() const{return fCenterV3.Phi()*TMath::RadToDeg();}
	35	Double_t ThetaXd() const{return fRot.ThetaX()*TMath::RadToDeg();}
	36	Double_t PhiXd() const{return fRot.PhiX()*TMath::RadToDeg();}
	37	Double_t ThetaYd() const{return fRot.ThetaY()*TMath::RadToDeg();}
	38	Double_t PhiYd() const{return fRot.PhiY()*TMath::RadToDeg();}
	39	Double_t ThetaZd() const{return fRot.ThetaZ()*TMath::RadToDeg();}
53fd478b	40	Double_t PhiZd() const{return fRot.PhiZ()*TMath::RadToDeg();}
c64f7552	41	void RotateX(Double_t a) {fRot.RotateX(a);fCenterV3.RotateX(a);fPcX3.RotateX(a);}
	42	void RotateY(Double_t a) {fRot.RotateY(a);fCenterV3.RotateY(a);fPcX3.RotateY(a);}
	43	void RotateZ(Double_t a) {fRot.RotateZ(a);fCenterV3.RotateZ(a);fPcX3.RotateZ(a);}
853634d3	44	Double_t X() const{return fCenterV3.X();}
	45	Double_t Y() const{return fCenterV3.Y();}
	46	Double_t Z() const{return fCenterV3.Z();}
c60862bf	47	TVector3 L2G(TVector3 x3) const{x3.Transform(fRot);x3+=fCenterV3;return x3;}
c60862bf	48	TVector3 G2L(TVector3 x3) const{x3-=fCenterV3;x3.Transform(fRot.Inverse()); return x3;}
3582c1f9	49	inline TVector2 Glob2Loc(TVector3 x3, Bool_t isVector=kFALSE) const;
3582c1f9	50	TVector2 Glob2Loc(TLorentzVector x4,Bool_t isVector=kFALSE) const{return Glob2Loc(x4.Vect(),isVector);}
c60862bf	51	TVector3 L2G(Double_t x,Double_t y,Double_t z) const{return L2G(TVector3(x,y,z));}
	52	TVector3 G2L(TLorentzVector x4) const{return G2L(x4.Vect());}
	53	Float_t G2Ly(TLorentzVector x4) const{TVector3 x3=G2L(x4.Vect()); return x3.Z();}
	54	TVector3 G2L(Double_t x,Double_t y,Double_t z) const{return G2L(TVector3(x,y,z));}
	55	Float_t G2Lx(Double_t x,Double_t y,Double_t z) const{TVector3 x3=G2L(x,y,z); return x3.X();}
	56	Float_t G2Ly(Double_t x,Double_t y,Double_t z) const{TVector3 x3=G2L(x,y,z); return x3.Z();}
0ffe413c	57	void Print(Option_t *sOption)const;//virtual
0ffe413c	58
b2d211fb	59	void LocaltoGlobal(Float_t pos[3],Float_t localpos[3]) {
	60	//Transformation from local to global coordinates, chamber-dependant
	61	TVector3 buf = L2G(localpos[0],localpos[1],localpos[2]);
	62	pos[0]=buf.X();pos[1]=buf.Y();pos[2]=buf.Z();
	63	}
	64	void GlobaltoLocal(Float_t pos[3],Float_t localpos[3]) {
	65	//Transformation from Global to local coordinates, chamber-dependant
	66	TVector3 buf = G2L(pos[0],pos[1],pos[2]);
	67	localpos[0]=buf.X();localpos[1]=buf.Y();localpos[2]=buf.Z();
	68	}
c64f7552	69	inline void SetToZenith();
c64f7552	70	TRotMatrix *GetRotMatrix() const{return fpRotMatrix;}
853634d3	71	protected:
853634d3	72	TVector3 fCenterV3; //chamber center position in MRS (cm)
c64f7552	73	TVector3 fPcX3; //PC center position in MRS (cm)
853634d3	74	TRotation fRot; //chamber rotation in MRS
	75	TRotMatrix *fpRotMatrix; //rotation matrix of the chamber with respect to MRS
	76	AliRICHParam *fpParam; //main RICH parameters description
84365c70	77	ClassDef(AliRICHChamber,5) //single RICH chamber description
853634d3	78	};//class AliRICHChamber
c64f7552	79	//__________________________________________________________________________________________________
c64f7552	80	void AliRICHChamber::SetToZenith()
06b2d19f	81	{
84365c70	82	fCenterV3.SetXYZ(0,AliRICHParam::Offset()-AliRICHParam::GapThickness()/2,0);
c64f7552	83	fPcX3.SetXYZ(0,AliRICHParam::Offset()-AliRICHParam::GapThickness()/2+5.276+0.25,0);
853634d3	84	}
c64f7552	85	//__________________________________________________________________________________________________
3582c1f9	86	TVector2 AliRICHChamber::Glob2Loc(TVector3 x3,Bool_t isVector)const
9e23b054	87	{
c64f7552	88	if(!isVector) x3-=fPcX3;
9e23b054	89	x3.Transform(fRot.Inverse());
3582c1f9	90	return TVector2(x3.X(),x3.Z());//attention Y and Z are misplaced!
9e23b054	91	}
c64f7552	92	//__________________________________________________________________________________________________
06b2d19f	93	#endif //AliRICHChamber_h