[u/mrichter/AliRoot.git] / STEER / AliMagFDM.h

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

/* $Id$ */

//-------------------------------------------------------------------------
//   Field with Magnetic Field map
//   Used by AliRun class
//   Author:
//-------------------------------------------------------------------------

#include "AliMagFC.h"
//
class AliMagFDM : public AliMagFC
{
//Alice Magnetic Field:Magnetic field map from IP to muon filter for Muon arm

public:
  AliMagFDM();
  AliMagFDM(const char *name, const char *title, Int_t integ,
	    Float_t factor, Float_t fmax);
  virtual ~AliMagFDM(){} 
  virtual void Field(Float_t *x, Float_t *b) const;
  virtual void ReadField(); 
  virtual void SetSolenoidField(Float_t field = 2.) {fSolenoid = field;}
  virtual Float_t SolenoidField() const {return fSolenoid;}
  Int_t FZ(Double_t u, const Float_t *Ar, Float_t du, Int_t ki, Int_t nu) const;
  Double_t Ba(Int_t kai, Double_t za1, Double_t za2, Double_t al1, Double_t al2, Double_t al3, Int_t ka, Int_t ma) const;
  Double_t Bb(Double_t z1, Double_t z2, Double_t y1, Double_t y2, Double_t x1, Double_t x2, Int_t kvr, Int_t k, Int_t l, Int_t m) const; 


protected:

//
  Float_t fSolenoid; // Solenoid Field Strength
  Int_t   fInd;      // Character number of validity Map region

  Float_t fZmin;  // Start of the cartesian  part  of MAP in z
  Float_t fZmax;  // End of Map in z   
  Float_t fYmax;  // Start of the cartesian  part  of MAP in y
  Float_t fYmin;  // End  of the cartesian  part  of MAP in y
  Float_t fZpmx;  // End of the polar  part  of MAP in z
  Float_t fZpmn;  // Start of the polar  part  of MAP in z
  Float_t fRmax;  // Maximal radius of the polar  part  of MAP 
  Float_t fRmin;  // Minimal radius of the polar  part  of MAP  
              

  Float_t    fXdel;  //  step in x - cartesian  part  of MAP
  Float_t    fYdel;  //  step in y - cartesian  part  of MAP
  Float_t    fZdel;  //  step in z - cartesian  part  of MAP
  
  Float_t    fRdel;  //  step in r - polar  part  of MAP
  Float_t    fPhid;  //  step in Phi - polar  part  of MAP
  Float_t    fZpdl;  //  step in z - polar  part  of MAP 
  
  Float_t    fCx1;   // Field constant
  Float_t    fCx2;   // Field constant
  Float_t    fAx1;   // Field constant
  Float_t    fAx2;   // Field constant
   
  Float_t fZc[81];  // z coordinates in cartesian  part
  Float_t fY[81];   // y coordinates in cartesian  part 
  Float_t fBcx[81][81][44]; // Bx array for cartesian  part
  Float_t fBcy[81][81][44]; // By array for cartesian  part
  Float_t fBcz[81][81][44]; // Bz array for cartesian  part

  Float_t  fZp[51];  // z coordinates in polar  part
  Float_t  fR[10];   // r coordinates in polar  part  
  Float_t  fPhi[33]; // Phi coordinates in polar  part

  Float_t  fBpx[51][10][33]; // Bx array for polar  part
  Float_t  fBpy[51][10][33]; // By array for polar  part
  Float_t  fBpz[51][10][33]; // Bx array for polar  part 
  Float_t  fB[2][2][32];     // Limits of field
  
  Int_t      fXl;    // Number steps in x for cartesian  part
  Int_t      fYl;    // Number steps in y  for cartesian  par
  Int_t      fZl;    // Number steps in z  for cartesian  part
    
  Int_t      fRn;    // Number steps in r for polar  part
  Int_t      fPhin;  // Number steps in Phi for polar  part
  Int_t      fZpl;   // Number steps in z for polar  part 
  

  ClassDef(AliMagFDM,1) //Class Magnetic field map from IP till muon filter
};

#endif
Commit	Line	Data
aee8290b	1	#ifndef ALIMAGFDM_H
	2	#define ALIMAGFDM_H
	3	/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	4	* See cxx source for full Copyright notice */
	5
	6	/* $Id$ */
	7
0742d588	8	//-------------------------------------------------------------------------
	9	// Field with Magnetic Field map
	10	// Used by AliRun class
	11	// Author:
	12	//-------------------------------------------------------------------------
	13
57754f18	14	#include "AliMagFC.h"
aee8290b	15	//
57754f18	16	class AliMagFDM : public AliMagFC
aee8290b	17	{
	18	//Alice Magnetic Field:Magnetic field map from IP to muon filter for Muon arm
	19
	20	public:
e2afb3b6	21	AliMagFDM();
d0f1ee3b	22	AliMagFDM(const char name, const char title, Int_t integ,
d0f1ee3b	23	Float_t factor, Float_t fmax);
aee8290b	24	virtual ~AliMagFDM(){}
6f3038e9	25	virtual void Field(Float_t x, Float_t b) const;
aee8290b	26	virtual void ReadField();
4cc8933f	27	virtual void SetSolenoidField(Float_t field = 2.) {fSolenoid = field;}
e2afb3b6	28	virtual Float_t SolenoidField() const {return fSolenoid;}
ecd57058	29	Int_t FZ(Double_t u, const Float_t *Ar, Float_t du, Int_t ki, Int_t nu) const;
6f3038e9	30	Double_t Ba(Int_t kai, Double_t za1, Double_t za2, Double_t al1, Double_t al2, Double_t al3, Int_t ka, Int_t ma) const;
6f3038e9	31	Double_t Bb(Double_t z1, Double_t z2, Double_t y1, Double_t y2, Double_t x1, Double_t x2, Int_t kvr, Int_t k, Int_t l, Int_t m) const;
aee8290b	32
	33
	34	protected:
	35
	36	//
57754f18	37	Float_t fSolenoid; // Solenoid Field Strength
57754f18	38	Int_t fInd; // Character number of validity Map region
aee8290b	39
803c9752	40	Float_t fZmin; // Start of the cartesian part of MAP in z
	41	Float_t fZmax; // End of Map in z
	42	Float_t fYmax; // Start of the cartesian part of MAP in y
	43	Float_t fYmin; // End of the cartesian part of MAP in y
	44	Float_t fZpmx; // End of the polar part of MAP in z
	45	Float_t fZpmn; // Start of the polar part of MAP in z
	46	Float_t fRmax; // Maximal radius of the polar part of MAP
	47	Float_t fRmin; // Minimal radius of the polar part of MAP
aee8290b	48
aee8290b	49
803c9752	50	Float_t fXdel; // step in x - cartesian part of MAP
	51	Float_t fYdel; // step in y - cartesian part of MAP
	52	Float_t fZdel; // step in z - cartesian part of MAP
aee8290b	53
803c9752	54	Float_t fRdel; // step in r - polar part of MAP
	55	Float_t fPhid; // step in Phi - polar part of MAP
	56	Float_t fZpdl; // step in z - polar part of MAP
aee8290b	57
803c9752	58	Float_t fCx1; // Field constant
	59	Float_t fCx2; // Field constant
	60	Float_t fAx1; // Field constant
	61	Float_t fAx2; // Field constant
aee8290b	62
803c9752	63	Float_t fZc[81]; // z coordinates in cartesian part
	64	Float_t fY[81]; // y coordinates in cartesian part
	65	Float_t fBcx[81][81][44]; // Bx array for cartesian part
	66	Float_t fBcy[81][81][44]; // By array for cartesian part
	67	Float_t fBcz[81][81][44]; // Bz array for cartesian part
aee8290b	68
803c9752	69	Float_t fZp[51]; // z coordinates in polar part
	70	Float_t fR[10]; // r coordinates in polar part
	71	Float_t fPhi[33]; // Phi coordinates in polar part
aee8290b	72
803c9752	73	Float_t fBpx[51][10][33]; // Bx array for polar part
	74	Float_t fBpy[51][10][33]; // By array for polar part
	75	Float_t fBpz[51][10][33]; // Bx array for polar part
	76	Float_t fB[2][2][32]; // Limits of field
aee8290b	77
803c9752	78	Int_t fXl; // Number steps in x for cartesian part
	79	Int_t fYl; // Number steps in y for cartesian par
	80	Int_t fZl; // Number steps in z for cartesian part
aee8290b	81
803c9752	82	Int_t fRn; // Number steps in r for polar part
	83	Int_t fPhin; // Number steps in Phi for polar part
	84	Int_t fZpl; // Number steps in z for polar part
aee8290b	85
	86
	87	ClassDef(AliMagFDM,1) //Class Magnetic field map from IP till muon filter
	88	};
	89
	90	#endif