[u/mrichter/AliRoot.git] / ITS / AliITSsegmentation.h

#ifndef ALIITSSEGMENTATION_H
#define ALIITSSEGMENTATION_H

#include <TObject.h>
#include "AliLog.h"
#include "AliITSgeom.h"

/* $Id$ */

//----------------------------------------------
//                                             -
// ITS  segmentation virtual base class        -
//                                             -
//----------------------------------------------
class TF1;
class AliITSsegmentation :
public TObject {
 public:
  AliITSsegmentation();
  AliITSsegmentation(const AliITSsegmentation& source);
  virtual ~AliITSsegmentation();
  AliITSsegmentation& operator=(const AliITSsegmentation &source);
    // Set Detector Segmentation Parameters
    //
    // Detector size  
    virtual void    SetDetSize(Float_t p1,Float_t p2,Float_t p3) 
                    {fDx=p1; fDz=p2; fDy=p3;}
    // Cell size   
    virtual void    SetPadSize(Float_t,Float_t) {MayNotUse("SetPadSize");}
    // Maximum number of cells along the two coordinates  
    virtual void    SetNPads(Int_t,Int_t) = 0;
    // Returns the maximum number of cells (digits) posible
    virtual Int_t   GetNPads() const = 0;
    // Set layer
    virtual void SetLayer(Int_t) {MayNotUse("SetLayer");}
    // Number of Chips
    virtual Int_t    GetNumberOfChips() const {MayNotUse("GetNumberOfChips"); return 0;}
    virtual Int_t    GetMaximumChipIndex() const {MayNotUse("GetNumberOfChips"); return 0;}
    // Chip number from local coordinates
    virtual Int_t    GetChipFromLocal(Float_t, Float_t) const {MayNotUse("GetChipFromLocal"); return 0;}
    virtual Int_t    GetChipsInLocalWindow(Int_t* /*array*/, Float_t /*zmin*/, Float_t /*zmax*/, Float_t /*xmin*/, Float_t /*xmax*/) const {MayNotUse("GetChipsInLocalWindow"); return 0;}
    // Chip number from channel number
    virtual Int_t    GetChipFromChannel(Int_t, Int_t) const {MayNotUse("GetChipFromChannel"); return 0;}

    // Transform from real to cell coordinates
    virtual void    GetPadIxz(Float_t,Float_t,Int_t &,Int_t &) const = 0;
    // Transform from cell to real coordinates
    virtual void    GetPadCxz(Int_t,Int_t,Float_t &,Float_t &) const = 0;
    // Local transformation of real local coordinates -
    virtual void    GetPadTxz(Float_t &,Float_t &) const = 0;
    // Transformation from Geant cm detector center local coordinates
    // to detector segmentation/cell coordiantes starting from (0,0).
    virtual Bool_t LocalToDet(Float_t,Float_t,Int_t &,Int_t &) const = 0;
    // Transformation from detector segmentation/cell coordiantes starting
    // from (0,0) to Geant cm detector center local coordinates.
    virtual void    DetToLocal(Int_t,Int_t,Float_t &,Float_t &) const = 0;
    // Initialisation
    virtual void Init() = 0;
    //
    // Get member data
    //
    // Detector length
    virtual Float_t Dx() const {return fDx;}
    // Detector width
    virtual Float_t Dz() const {return fDz;}
    // Detector thickness
    virtual Float_t Dy() const {return fDy;}
    // Cell size in x
    virtual Float_t Dpx(Int_t) const = 0;
    // Cell size in z 
    virtual Float_t Dpz(Int_t) const = 0;
    // Maximum number of Cells in x
    virtual Int_t    Npx() const = 0;
    // Maximum number of Cells in z
    virtual Int_t    Npz() const = 0;
    // Layer
    virtual Int_t GetLayer() const {MayNotUse("GetLayer"); return 0;}
    // Set hit position
    //    virtual void     SetHit(Float_t, Float_t) {}
    // angles
    virtual void Angles(Float_t& /* p */, Float_t& /* n */) const
                                          {MayNotUse("Angles");}

    //
    // Get next neighbours 
    virtual void Neighbours(Int_t,Int_t,Int_t*,Int_t[10],Int_t[10]) const
                     {MayNotUse("Neighbours");}

    // Function for systematic corrections
    // Set the correction function
    virtual void SetCorrFunc(TF1* fc) {fCorr = fc;}
    // Get the correction Function
    virtual TF1* CorrFunc() {return fCorr;}
    // Print Default parameters
    virtual void PrintDefaultParameters() const = 0;

 protected:

    virtual void Copy(TObject &obj) const;

    Float_t fDx;    //SPD: Full width of the detector (x axis)- microns
                    //SDD: Drift distance of the 1/2detector (x axis)-microns
                    //SSD: Full length of the detector (x axis)- microns
    Float_t fDz;    //SPD: Full length of the detector (z axis)- microns
                    //SDD: Full Length of the detector (z axis) - microns
                    //SSD: Full width of the detector (z axis)- microns
    Float_t fDy;    //SPD:  Full thickness of the detector (y axis) -um 
                    //SDD: Full thickness of the detector (y axis) - microns
                    //SSD: Full thickness of the detector (y axis) -um 
    TF1*       fCorr;   // correction function

    ClassDef(AliITSsegmentation,2) //Segmentation virtual base class 
};
#endif
Commit	Line	Data
	1	#ifndef ALIITSSEGMENTATION_H
	2	#define ALIITSSEGMENTATION_H
	3
	4	#include <TObject.h>
	5	#include "AliLog.h"
	6	#include "AliITSgeom.h"
	7
	8	/* $Id$ */
	9
	10	//----------------------------------------------
	11	// -
	12	// ITS segmentation virtual base class -
	13	// -
	14	//----------------------------------------------
	15	class TF1;
	16	class AliITSsegmentation :
	17	public TObject {
	18	public:
	19	AliITSsegmentation();
	20	AliITSsegmentation(const AliITSsegmentation& source);
	21	virtual ~AliITSsegmentation();
	22	AliITSsegmentation& operator=(const AliITSsegmentation &source);
	23	// Set Detector Segmentation Parameters
	24	//
	25	// Detector size
	26	virtual void SetDetSize(Float_t p1,Float_t p2,Float_t p3)
	27	{fDx=p1; fDz=p2; fDy=p3;}
	28	// Cell size
	29	virtual void SetPadSize(Float_t,Float_t) {MayNotUse("SetPadSize");}
	30	// Maximum number of cells along the two coordinates
	31	virtual void SetNPads(Int_t,Int_t) = 0;
	32	// Returns the maximum number of cells (digits) posible
	33	virtual Int_t GetNPads() const = 0;
	34	// Set layer
	35	virtual void SetLayer(Int_t) {MayNotUse("SetLayer");}
	36	// Number of Chips
	37	virtual Int_t GetNumberOfChips() const {MayNotUse("GetNumberOfChips"); return 0;}
	38	virtual Int_t GetMaximumChipIndex() const {MayNotUse("GetNumberOfChips"); return 0;}
	39	// Chip number from local coordinates
	40	virtual Int_t GetChipFromLocal(Float_t, Float_t) const {MayNotUse("GetChipFromLocal"); return 0;}
	41	virtual Int_t GetChipsInLocalWindow(Int_t* /array/, Float_t /zmin/, Float_t /zmax/, Float_t /xmin/, Float_t /xmax/) const {MayNotUse("GetChipsInLocalWindow"); return 0;}
	42	// Chip number from channel number
	43	virtual Int_t GetChipFromChannel(Int_t, Int_t) const {MayNotUse("GetChipFromChannel"); return 0;}
	44
	45	// Transform from real to cell coordinates
	46	virtual void GetPadIxz(Float_t,Float_t,Int_t &,Int_t &) const = 0;
	47	// Transform from cell to real coordinates
	48	virtual void GetPadCxz(Int_t,Int_t,Float_t &,Float_t &) const = 0;
	49	// Local transformation of real local coordinates -
	50	virtual void GetPadTxz(Float_t &,Float_t &) const = 0;
	51	// Transformation from Geant cm detector center local coordinates
	52	// to detector segmentation/cell coordiantes starting from (0,0).
	53	virtual Bool_t LocalToDet(Float_t,Float_t,Int_t &,Int_t &) const = 0;
	54	// Transformation from detector segmentation/cell coordiantes starting
	55	// from (0,0) to Geant cm detector center local coordinates.
	56	virtual void DetToLocal(Int_t,Int_t,Float_t &,Float_t &) const = 0;
	57	// Initialisation
	58	virtual void Init() = 0;
	59	//
	60	// Get member data
	61	//
	62	// Detector length
	63	virtual Float_t Dx() const {return fDx;}
	64	// Detector width
	65	virtual Float_t Dz() const {return fDz;}
	66	// Detector thickness
	67	virtual Float_t Dy() const {return fDy;}
	68	// Cell size in x
	69	virtual Float_t Dpx(Int_t) const = 0;
	70	// Cell size in z
	71	virtual Float_t Dpz(Int_t) const = 0;
	72	// Maximum number of Cells in x
	73	virtual Int_t Npx() const = 0;
	74	// Maximum number of Cells in z
	75	virtual Int_t Npz() const = 0;
	76	// Layer
	77	virtual Int_t GetLayer() const {MayNotUse("GetLayer"); return 0;}
	78	// Set hit position
	79	// virtual void SetHit(Float_t, Float_t) {}
	80	// angles
	81	virtual void Angles(Float_t& /* p /, Float_t& / n */) const
	82	{MayNotUse("Angles");}
	83
	84	//
	85	// Get next neighbours
	86	virtual void Neighbours(Int_t,Int_t,Int_t*,Int_t[10],Int_t[10]) const
	87	{MayNotUse("Neighbours");}
	88
	89	// Function for systematic corrections
	90	// Set the correction function
	91	virtual void SetCorrFunc(TF1* fc) {fCorr = fc;}
	92	// Get the correction Function
	93	virtual TF1* CorrFunc() {return fCorr;}
	94	// Print Default parameters
	95	virtual void PrintDefaultParameters() const = 0;
	96
	97	protected:
	98
	99	virtual void Copy(TObject &obj) const;
	100
	101	Float_t fDx; //SPD: Full width of the detector (x axis)- microns
	102	//SDD: Drift distance of the 1/2detector (x axis)-microns
	103	//SSD: Full length of the detector (x axis)- microns
	104	Float_t fDz; //SPD: Full length of the detector (z axis)- microns
	105	//SDD: Full Length of the detector (z axis) - microns
	106	//SSD: Full width of the detector (z axis)- microns
	107	Float_t fDy; //SPD: Full thickness of the detector (y axis) -um
	108	//SDD: Full thickness of the detector (y axis) - microns
	109	//SSD: Full thickness of the detector (y axis) -um
	110	TF1* fCorr; // correction function
	111
	112	ClassDef(AliITSsegmentation,2) //Segmentation virtual base class
	113	};
	114	#endif