2acee30cb35a83d30ee9eacb6c833637c0c21c91
[u/mrichter/AliRoot.git] / HMPID / AliHMPIDDigit.h
1 #ifndef AliHMPIDDigit_h
2 #define AliHMPIDDigit_h
3 /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
4  * See cxx source for full Copyright notice                               */
5
6 // Class of HMPID to manage digits ---> pads
7 //.
8 //.
9 //.
10
11 #include <AliDigit.h>      //base class  
12 #include "TMath.h"         //Mathieson()
13 #include <AliBitPacking.h> //Raw()
14
15
16 class TClonesArray;        //Hit2Sdi()
17   
18 class AliHMPIDDigit :public AliDigit //TObject-AliDigit-AliHMPIDDigit
19 {
20 public:
21   enum EChamberData{kMinCh=0,kMaxCh=6,kMinPc=0,kMaxPc=5};      //Segmenation     
22   enum EPadxData{kPadPcX=80,kMinPx=0,kMaxPx=79,kMaxPcx=159};   //Segmentation structure along x
23   enum EPadyData{kPadPcY=48,kMinPy=0,kMaxPy=47,kMaxPcy=143};   //Segmentation structure along y
24 //ctor&dtor    
25   AliHMPIDDigit(                          ):AliDigit( ),fPad(Abs(-1,-1,-1,-1)),fQ(-1)  {}                         //default ctor
26   AliHMPIDDigit(Int_t pad,Int_t q,Int_t *t):AliDigit(t),fPad(pad             ),fQ(q )  {}                         //digit ctor
27   AliHMPIDDigit(const AliHMPIDDigit &d    ):AliDigit(d),fPad(d.fPad),fQ(d.fQ)          {}                         //copy ctor
28   virtual ~AliHMPIDDigit()                                                             {}                         //dtor   
29 //framework part    
30          Bool_t  IsSortable  (                               )const{return kTRUE;}                                                     //provision to use TObject::Sort() 
31   inline Int_t   Compare     (const TObject *pObj            )const;                                                                   //provision to use TObject::Sort()
32          void    Draw        (Option_t *opt=""               );                                                                        //TObject::Draw() overloaded
33          void    Print       (Option_t *opt=""               )const;                                                                   //TObject::Print() overloaded
34 //private part  
35   static Int_t   Abs         (Int_t ch,Int_t pc,Int_t x,Int_t y)   {return ch*100000000+pc*1000000+x*1000+y;                         } //(ch,pc,padx,pady)-> abs pad
36   static Int_t   A2C         (Int_t pad                      )     {return pad/100000000;                                            } //abs pad -> chamber
37   static Int_t   A2P         (Int_t pad                      )     {return pad%100000000/1000000;                                    } //abs pad -> pc
38   static Int_t   A2X         (Int_t pad                      )     {return pad%1000000/1000;                                         } //abs pad -> pad X 
39   static Int_t   A2Y         (Int_t pad                      )     {return pad%1000;                                                 } //abs pad -> pad Y 
40          void    AddTidOffset(Int_t offset                   )     {for (Int_t i=0; i<3; i++) if (fTracks[i]>0) fTracks[i]+=offset;  } //needed for merging
41          Int_t   Ch          (                               )const{return A2C(fPad);                                                } //chamber number
42   static Bool_t  IsOverTh    (Float_t q                      )     {return q >= fgSigmas;                                            } //is digit over threshold?
43   inline static Bool_t IsInDead(Float_t x,Float_t y        );                                                                          //is point in dead area?
44   static Bool_t  IsInside    (Float_t x,Float_t y,Float_t d=0)     {return x>-d&&y>-d&&x<fgkMaxPcX[kMaxPc]+d&&y<fgkMaxPcY[kMaxPc]+d; } //is point inside chamber boundary?
45          Float_t LorsX       (                               )const{return LorsX(A2P(fPad),A2X(fPad));                               } //center of the pad x, [cm]
46   static Float_t LorsX       (Int_t pc,Int_t padx            )     {return (padx    +0.5)*SizePadX()+fgkMinPcX[pc];                  } //center of the pad x, [cm]
47          Float_t LorsY       (                               )const{return LorsY(A2P(fPad),A2Y(fPad));                               } //center of the pad y, [cm]
48   static Float_t LorsY       (Int_t pc,Int_t pady            )     {return (pady    +0.5)*SizePadY()+fgkMinPcY[pc];                  } //center of the pad y, [cm]
49   inline Float_t IntMathieson(Float_t x,Float_t y            )const;                                                                   //Mathieson distribution 
50          Int_t   PadPcX      (                               )const{return A2X(fPad);}                                                 //pad pc x # 0..79
51          Int_t   PadPcY      (                               )const{return A2Y(fPad);}                                                 //pad pc y # 0..47
52          Int_t   PadChX      (                               )const{return (Pc()%2)*kPadPcX+PadPcX();}                                 //pad ch x # 0..159
53          Int_t   PadChY      (                               )const{return (Pc()/2)*kPadPcY+PadPcY();}                                 //pad ch y # 0..143
54          Int_t   Pad         (                               )const{return fPad;}                                                      //absolute id of this pad
55          Int_t   Pc          (                               )const{return A2P(fPad);}                                                 //PC position number
56          Float_t Q           (                               )const{return fQ;}                                                        //charge, [QDC]
57   inline void    Raw         (UInt_t &w32,Int_t &ddl,Int_t &r,Int_t &d,Int_t &a)const;                                                 //digit->(w32,ddl,r,d,a)
58   inline void    Raw         (UInt_t  w32,Int_t  ddl         );                                                                        //(w32,ddl)->digit
59   inline void    Raw         (Int_t ddl,Int_t r,Int_t d,Int_t a);                                                                      //raw->abs pad number
60   inline Bool_t  Set         (Int_t c,Int_t p,Int_t x,Int_t y,Int_t tid=0);                                                            //manual creation 
61          void    SetQ        (Float_t q                      )     {fQ=q;}                                                             //manual creation 
62          void    SetNsig     (Int_t sigmas                   )     {fgSigmas=sigmas;}                                                  //set n sigmas 
63   static void    WriteRaw    (TObjArray *pDigLst             );                                                                        //write as raw stream     
64   
65   static Float_t MaxPcX      (Int_t iPc                      )     {return fgkMaxPcX[iPc];}                                            // PC limits
66   static Float_t MaxPcY      (Int_t iPc                      )     {return fgkMaxPcY[iPc];}                                            // PC limits
67   static Float_t MinPcX      (Int_t iPc                      )     {return fgkMinPcX[iPc];}                                            // PC limits
68   static Float_t MinPcY      (Int_t iPc                      )     {return fgkMinPcY[iPc];}                                            // PC limits
69   static Int_t   Nsig        (                               )     {return fgSigmas;}                                                  //Getter n. sigmas for noise
70   static Float_t SizeAllX    (                               )     {return fgkMaxPcX[5];}                                              //all PCs size x, [cm]        
71   static Float_t SizeAllY    (                               )     {return fgkMaxPcY[5];}                                              //all PCs size y, [cm]    
72   static Float_t SizePadX    (                               )     {return 0.8;}                                                       //pad size x, [cm]  
73   static Float_t SizePadY    (                               )     {return 0.84;}                                                      //pad size y, [cm]  
74   inline static void   Lors2Pad(Float_t x,Float_t y,Int_t &pc,Int_t &px,Int_t &py);                                                    //(x,y)->(pc,px,py) 
75 protected:                                                                   //AliDigit has fTracks[3]
76   static Int_t fgSigmas;                                                                                                               //n. sigma to cut on charge 
77   static const Float_t fgkMinPcX[6];                                                                                                   //limits PC
78   static const Float_t fgkMinPcY[6];                                                                                                   //limits PC
79   static const Float_t fgkMaxPcX[6];                                                                                                   //limits PC
80   static const Float_t fgkMaxPcY[6];                                                                                                   //limits PC
81   Int_t    fPad;                                                                                                                       //absolute pad number
82   Float_t  fQ;                                                               //QDC value, fractions are permitted for summable procedure  
83   ClassDef(AliHMPIDDigit,4)                                                  //HMPID digit class       
84 };//class AliHMPIDDigit
85
86 //++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
87 void AliHMPIDDigit::Lors2Pad(Float_t x,Float_t y,Int_t &pc,Int_t &px,Int_t &py)
88 {
89 // Check the pad of given position
90 // Arguments: x,y- position [cm] in LORS; pc,px,py- pad where to store the result
91 //   Returns: none
92   pc=px=py=-1;
93   if     (x>fgkMinPcX[0] && x<fgkMaxPcX[0]) {pc=0; px=Int_t( x               / SizePadX());}//PC 0 or 2 or 4
94   else if(x>fgkMinPcX[1] && x<fgkMaxPcX[1]) {pc=1; px=Int_t((x-fgkMinPcX[1]) / SizePadX());}//PC 1 or 3 or 5
95   else return;
96   if     (y>fgkMinPcY[0] && y<fgkMaxPcY[0]) {      py=Int_t( y               / SizePadY());}//PC 0 or 1
97   else if(y>fgkMinPcY[2] && y<fgkMaxPcY[2]) {pc+=2;py=Int_t((y-fgkMinPcY[2]) / SizePadY());}//PC 2 or 3
98   else if(y>fgkMinPcY[4] && y<fgkMaxPcY[4]) {pc+=4;py=Int_t((y-fgkMinPcY[4]) / SizePadY());}//PC 4 or 5
99   else return;
100 }
101 //++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
102 Int_t AliHMPIDDigit::Compare(const TObject *pObj) const
103 {
104 // Used in Sort() method to compare to objects. Note that abs pad structure is first x then y, hence will be sorted on column basis.
105 // This feature is used in digitizer to facilitate finding of sdigits for the same pad since they all will come together after sorting.
106 // Arguments: pObj - pointer to object to compare with
107 //   Retunrs: -1 if AbsPad less then in pObj, 1 if more and 0 if they are the same      
108   if     (fPad==((AliHMPIDDigit*)pObj)->Pad()) return  0;
109   else if(fPad >((AliHMPIDDigit*)pObj)->Pad()) return  1;
110   else                                         return -1;
111 }
112 //++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
113 Bool_t AliHMPIDDigit::IsInDead(Float_t x,Float_t y)
114 {
115 // Check is the current point is outside of sensitive area or in dead zones
116 // Arguments: x,y -position
117 //   Returns: 1 if not in sensitive zone           
118   for(Int_t iPc=0;iPc<=6;iPc++)
119     if(x>fgkMinPcX[iPc] && x<fgkMaxPcX[iPc] && y>fgkMinPcY[iPc] && y<fgkMaxPcY [iPc]) return kFALSE; //in current pc
120   
121   return kTRUE;
122 }
123 //++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
124 Float_t AliHMPIDDigit::IntMathieson(Float_t x,Float_t y)const
125 {
126 // Integration of Mathieson.
127 // This is the answer to electrostatic problem of charge distrubution in MWPC described elsewhere. (NIM A370(1988)602-603)
128 // Arguments: x,y- position of the center of Mathieson distribution
129 //  Returns: a charge fraction [0-1] imposed into the pad
130   Float_t  kK2=0.96242952, kSqrtK3 =0.77459667, kK4=0.37932926;
131
132   Float_t ux1=kSqrtK3*TMath::TanH(kK2*(x-LorsX()+0.5*SizePadX())/0.445);
133   Float_t ux2=kSqrtK3*TMath::TanH(kK2*(x-LorsX()-0.5*SizePadX())/0.445);
134   Float_t uy1=kSqrtK3*TMath::TanH(kK2*(y-LorsY()+0.5*SizePadY())/0.445);
135   Float_t uy2=kSqrtK3*TMath::TanH(kK2*(y-LorsY()-0.5*SizePadY())/0.445);
136   return 4*kK4*(TMath::ATan(ux2)-TMath::ATan(ux1))*kK4*(TMath::ATan(uy2)-TMath::ATan(uy1));
137 }
138 //++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
139 void AliHMPIDDigit::Raw(UInt_t &w32,Int_t &ddl,Int_t &r,Int_t &d,Int_t &a)const
140 {
141 // Convert digit structure to raw word format
142 // Arguments: w32,ddl,r,d,a where to write the results
143 //   Returns: none
144   Int_t y2a[6]={5,3,1,0,2,4};
145
146                                   ddl=2*Ch()+Pc()%2;                     //DDL# 0..13
147   Int_t tmp=1+Pc()/2*8+PadPcY()/6;  r=(Pc()%2)? 25-tmp:tmp;              //row r=1..24
148                                     d=1+PadPcX()/8;                      //DILOGIC# 1..10
149                                     a=y2a[PadPcY()%6]+6*(PadPcX()%8);    //ADDRESS 0..47        
150       
151   w32=0;    
152   AliBitPacking::PackWord((UInt_t)fQ,w32, 0,11);  // 0000 0rrr rrdd ddaa aaaa qqqq qqqq qqqq        Qdc               bits (00..11) counts (0..4095)
153   AliBitPacking::PackWord(        a ,w32,12,17);  // 3322 2222 2222 1111 1111 1000 0000 0000        DILOGIC address   bits (12..17) counts (0..47)
154   AliBitPacking::PackWord(        d ,w32,18,21);  // 1098 7654 3210 9876 5432 1098 7654 3210        DILOGIC number    bits (18..21) counts (1..10)
155   AliBitPacking::PackWord(        r ,w32,22,26);  //                                                Row number        bits (22..26) counts (1..24)  
156 }
157 //++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
158 void AliHMPIDDigit::Raw(UInt_t w32,Int_t ddl)
159 {
160 // Converts a given raw data word to a digit
161 // Arguments: w32 - 32 bits raw data word
162 //            ddl - DDL idx  0 1 2 3 4 ... 13
163 //   Returns: none
164   Int_t r = AliBitPacking::UnpackWord(w32,22,26); assert(1<=r&&r<=24);   //                                         Row number      (1..24)    
165   Int_t d = AliBitPacking::UnpackWord(w32,18,21); assert(1<=d&&d<=10);   // 3322 2222 2222 1111 1111 1000 0000 0000 DILOGIC number  (1..10)
166   Int_t a = AliBitPacking::UnpackWord(w32,12,17); assert(0<=a&&a<=47);   // 1098 7654 3210 9876 5432 1098 7654 3210 DILOGIC address (0..47)  
167   Int_t q = AliBitPacking::UnpackWord(w32, 0,11); assert(0<=q&&q<=4095); // 0000 0rrr rrdd ddaa aaaa qqqq qqqq qqqq Qdc             (0..4095) 
168   Raw(ddl,r,d,a);
169   fQ=q;
170 }
171 //++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
172 void AliHMPIDDigit::Raw(Int_t ddl,Int_t r,Int_t d,Int_t a)
173 {
174   assert(0<=ddl&&ddl<=13); assert(1<=r&&r<=24); assert(1<=d&&d<=10);   assert(0<=a&&a<=47);  
175   Int_t a2y[6]={3,2,4,1,5,0};//pady for a given address (for single DILOGIC chip)
176                                   Int_t ch=ddl/2;
177   Int_t tmp=(r-1)/8;              Int_t pc=(ddl%2)? 5-2*tmp:2*tmp; 
178                                   Int_t px=(d-1)*8+a/6;
179         tmp=(ddl%2)?(24-r):r-1;   Int_t py=6*(tmp%8)+a2y[a%6];
180   fPad=Abs(ch,pc,px,py);
181 }
182
183
184 //++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
185 Bool_t AliHMPIDDigit::Set(Int_t ch,Int_t pc,Int_t px,Int_t py,Int_t tid)
186 {
187 // Manual creation of digit
188 // Arguments: ch,pc,px,py,qdc,tid  
189 //   Returns: kTRUE if wrong digit
190   if(px<kMinPx || px>kMaxPx) return kTRUE;
191   if(py<kMinPy || py>kMaxPy) return kTRUE;
192
193   fPad=Abs(ch,pc,px,py);fTracks[0]=tid;
194   fQ=0;
195   return kFALSE;
196 }
197 #endif