some changes in slsCalibration for moench

slsDetectorCalibration/interpolations/etaInterpolationBase.h

@@ -14,10 +14,16 @@
 class etaInterpolationBase : public slsInterpolation {
   
  public:
- etaInterpolationBase(int nx=400, int ny=400, int ns=25, int nb=-1, double emin=1, double emax=0) : slsInterpolation(nx,ny,ns), hhx(NULL), hhy(NULL), heta(NULL),nbeta(nb),etamin(emin), etamax(emax) {
-    if (nb<=0) 
-      nbeta=nSubPixels*10;   
+ 
+ etaInterpolationBase(int nx=400, int ny=400, int ns=25, int nb=-1, double emin=1, double emax=0) : slsInterpolation(nx,ny,ns), hhx(NULL), hhy(NULL), heta(NULL), nbeta(nb), etamin(emin), etamax(emax) {
+    // cout << "eb " << nb << " " << emin << " " << emax << endl;  
+    // cout << nb << " " << etamin << " " << etamax << endl;
+    if (nbeta<=0) {
+      cout << "aaa:" <<endl;
+      nbeta=nSubPixels*10;
+    }
     if (etamin>=etamax) {
+      cout << "aaa:" <<endl;
       etamin=-1;
       etamax=2;
     }
@@ -34,6 +40,7 @@ class etaInterpolationBase : public slsInterpolation {
     
 #endif
     
+    //cout << nbeta << " " << etamin << " " << etamax << endl;
   };
   
  etaInterpolationBase(etaInterpolationBase *orig): slsInterpolation(orig){
@@ -60,11 +67,11 @@ class etaInterpolationBase : public slsInterpolation {
     
 
  };
-  virtual etaInterpolationBase* Clone() {
 
+  virtual etaInterpolationBase* Clone()=0;/*{
     return new etaInterpolationBase(this);
-
   };
+					  */
 
 
 
@@ -179,8 +186,6 @@ class etaInterpolationBase : public slsInterpolation {
 #endif
   
 
-  
-  virtual void prepareInterpolation(int &ok){};
  
   /* ////////////////////////////////////////////////////////////////////////////// */
 
@@ -214,277 +219,35 @@ float *gethhx()
     
   //////////////////////////////////////////////////////////////////////////////
   //////////// /*It return position hit for the event in input */ //////////////
-  virtual void getInterpolatedPosition(int x, int y, double *data, double &int_x, double &int_y)
-  {
-    double sDum[2][2];
-    double tot, totquad;
-    double etax,etay;
-    
-    int corner;
-    corner=calcQuad(data, tot, totquad, sDum); 
-    if (nSubPixels>2) 
-      calcEta(totquad, sDum, etax, etay); 
-    getInterpolatedPosition(x,y,etax,etay,corner,int_x,int_y);
+  /* virtual void getInterpolatedPosition(int x, int y, int *data, double &int_x, double &int_y)=0; */
+  /* virtual void getInterpolatedPosition(int x, int y, double *data, double &int_x, double &int_y)=0; */
+  /* virtual void getInterpolatedPosition(int x, int y, double totquad,int quad,double *cl,double &int_x, double &int_y)=0; */
+  /* virtual void getInterpolatedPosition(int x, int y, double totquad,int quad,int *cl,double &int_x, double &int_y)=0;  */
+  /* virtual void getInterpolatedPosition(int x, int y, double etax, double etay, int corner, double &int_x, double &int_y)=0; */
 
-    return;
-  };
+
+  /* virtual int addToFlatField(double totquad,int quad,int *cl,double &etax, double &etay)=0; */
+  /* virtual int addToFlatField(double totquad,int quad,double *cl,double &etax, double &etay)=0; */
+  /* virtual int addToFlatField(double *cluster, double &etax, double &etay)=0; */
+  /* virtual int addToFlatField(int *cluster, double &etax, double &etay)=0; */
   
-  virtual void getInterpolatedPosition(int x, int y, double totquad,int quad,double *cl,double &int_x, double &int_y) {
-    
-     double cc[2][2];
-     double *cluster[3];
-     int xoff, yoff;
-     cluster[0]=cl;
-     cluster[1]=cl+3;
-     cluster[2]=cl+6;
-     
-     switch (quad) {
-     case BOTTOM_LEFT:
-       xoff=0;
-       yoff=0;
-       break;
-     case BOTTOM_RIGHT:
-       xoff=1;
-       yoff=0;
-       break;
-     case TOP_LEFT:
-       xoff=0;
-       yoff=1;
-       break;
-     case TOP_RIGHT:
-       xoff=1;
-       yoff=1;
-       break;
-     default:
-       ;
-     } 
-     double etax, etay;
-     if (nSubPixels>2) { 
-       cc[0][0]=cluster[yoff][xoff];
-       cc[1][0]=cluster[yoff+1][xoff];
-       cc[0][1]=cluster[yoff][xoff+1];
-       cc[1][1]=cluster[yoff+1][xoff+1];
-       calcEta(totquad,cc,etax,etay);
-     }
-     return getInterpolatedPosition(x,y,etax, etay,quad,int_x,int_y);
-
-  }
-
-
-
-
-
-
-  virtual void getInterpolatedPosition(int x, int y, double etax, double etay, int corner, double &int_x, double &int_y)
-  {
-
-
-    double xpos_eta=0,ypos_eta=0;
-    double dX,dY;
-    int ex,ey;
-    switch (corner)
-      {
-      case TOP_LEFT:
-	dX=-1.;
-	dY=0;
-	break;
-      case TOP_RIGHT:
-	;
-	dX=0;
-	dY=0;
-	break;
-      case BOTTOM_LEFT:
-	dX=-1.;
-	dY=-1.;
-	break;
-      case BOTTOM_RIGHT:
-	dX=0;
-	dY=-1.;
-	break;
-      default:
-	cout << "bad quadrant" << endl;
-	dX=0.; 
-	dY=0.;
-      }
-    
-
-     if (nSubPixels>2) { 
-
-#ifdef MYROOT1
-    xpos_eta=(hhx->GetBinContent(hhx->GetXaxis()->FindBin(etax),hhy->GetYaxis()->FindBin(etay)))/((double)nSubPixels);
-    ypos_eta=(hhy->GetBinContent(hhx->GetXaxis()->FindBin(etax),hhy->GetYaxis()->FindBin(etay)))/((double)nSubPixels);
-#endif
-#ifndef MYROOT1
-    ex=(etax-etamin)/etastep;
-    ey=(etay-etamin)/etastep;
-    if (ex<0) {
-      ex=0;
-      cout << "x*"<< ex << endl;
-	} 
-    if (ex>=nbeta) {
-      ex=nbeta-1;
-      cout << "x?"<< ex << endl;
-      
-    }
-    if (ey<0) {
-      ey=0;
-      cout << "y*"<< ey << endl;
-	} 
-    if (ey>=nbeta) {
-      ey=nbeta-1;
-      cout << "y?"<< ey << endl;
-      
-    }
-    
-    
-   
-    xpos_eta=(((double)hhx[(ey*nbeta+ex)]))+dX ;///((double)nSubPixels);
-    ypos_eta=(((double)hhy[(ey*nbeta+ex)]))+dY ;///((double)nSubPixels);
-    //else
-    //return 0;
-    
-#endif
-     } else {
-       xpos_eta=0.5*dX+0.25;
-       ypos_eta=0.5*dY+0.25;
-     }
-       
-       int_x=((double)x) + xpos_eta+0.5;
-       int_y=((double)y) +  ypos_eta+0.5;
-    
-
-  }
-
-
-
-
-
-
-  /////////////////////////////////////////////////////////////////////////////////////////////////
-   virtual void getPositionETA3(int x, int y, double *data, double &int_x, double &int_y)
-   {
-    double sDum[2][2];
-    double tot, totquad;
-    double eta3x,eta3y;
-    double ex,ey;
-    
-    calcQuad(data, tot, totquad, sDum); 
-    calcEta3(data,eta3x, eta3y,tot); 
-    
-    double xpos_eta,ypos_eta;
-    
-#ifdef MYROOT1
-    xpos_eta=((hhx->GetBinContent(hhx->GetXaxis()->FindBin(eta3x),hhy->GetYaxis()->FindBin(eta3y))))/((double)nSubPixels);
-    ypos_eta=((hhy->GetBinContent(hhx->GetXaxis()->FindBin(eta3x),hhy->GetYaxis()->FindBin(eta3y))))/((double)nSubPixels);
-    
-#endif
-#ifndef MYROOT1
-    ex=(eta3x-etamin)/etastep;
-    ey=(eta3y-etamin)/etastep;
-    
-    if (ex<0) ex=0;
-    if (ex>=nbeta) ex=nbeta-1;
-    if (ey<0) ey=0;
-    if (ey>=nbeta) ey=nbeta-1;
-
-    xpos_eta=(((double)hhx[(int)(ey*nbeta+ex)]))/((double)nSubPixels);
-    ypos_eta=(((double)hhy[(int)(ey*nbeta+ex)]))/((double)nSubPixels);
-#endif
-    
-    int_x=((double)x) + xpos_eta;
-    int_y=((double)y) + ypos_eta;
-    
-    return;
-  };
-  
-   virtual int addToFlatField(double totquad,int quad,double *cl,double &etax, double &etay) {
-     double cc[2][2];
-     double *cluster[3];
-     int xoff, yoff;
-     cluster[0]=cl;
-     cluster[1]=cl+3;
-     cluster[2]=cl+6;
-     
-     switch (quad) {
-     case BOTTOM_LEFT:
-       xoff=0;
-       yoff=0;
-       break;
-     case BOTTOM_RIGHT:
-       xoff=1;
-       yoff=0;
-       break;
-     case TOP_LEFT:
-       xoff=0;
-       yoff=1;
-       break;
-     case TOP_RIGHT:
-       xoff=1;
-       yoff=1;
-       break;
-     default:
-       ;
-     } 
-     cc[0][0]=cluster[yoff][xoff];
-     cc[1][0]=cluster[yoff+1][xoff];
-     cc[0][1]=cluster[yoff][xoff+1];
-     cc[1][1]=cluster[yoff+1][xoff+1];
-     
-      /* cout << cl[0] << " " << cl[1] << " " << cl[2] << endl;   */
-      /* cout << cl[3] << " " << cl[4] << " " << cl[5] << endl;   */
-      /* cout << cl[6] << " " << cl[7] << " " << cl[8] << endl;   */
-      /* cout <<"******"<<totquad << " " << quad << endl;  */
-      /* cout << cc[0][0]<< " " << cc[0][1] << endl;  */
-      /* cout << cc[1][0]<< " " << cc[1][1] << endl;  */
-     //calcMyEta(totquad,quad,cl,etax, etay);
-     calcEta(totquad, cc,etax, etay);
-
-     //     cout <<"******"<< etax << " " << etay << endl;
-
-
-     return addToFlatField(etax,etay);
-   }
-
-
-
-  //////////////////////////////////////////////////////////////////////////////////////
-  virtual int addToFlatField(double *cluster, double &etax, double &etay){
-    double sDum[2][2];
-    double tot, totquad;
-    int corner;
-    corner=calcQuad(cluster, tot, totquad, sDum); 
-    
-    double xpos_eta,ypos_eta;
-    double dX,dY;
-  
-    
-    calcEta(totquad, sDum, etax, etay); 
-   
-    return addToFlatField(etax,etay);
-
-    };
-
-
   virtual int addToFlatField(double etax, double etay){
-
-    int ex,ey; 
-
 #ifdef MYROOT1
     heta->Fill(etax,etay);
 #endif
 #ifndef MYROOT1
+    int ex,ey; 
     ex=(etax-etamin)/etastep;
     ey=(etay-etamin)/etastep;
-    // cout << etax << " " << ex << " " << etay << " " << ey << " " << ey*nbeta+ex << endl;
     if (ey<nbeta && ex<nbeta && ex>=0 && ey>=0)
       heta[ey*nbeta+ex]++; 
-    // cout << "*"<< etax << " " << etay << endl;
-    /* cout << etax << " " << etay << " " << ex << " " << ey << " " << ey*nbeta+ex << endl; */
-    /* cout <<"********"<< endl << endl ; */
 #endif
     return 0;    
-};
+  };
   
+  
+  // virtual void prepareInterpolation(int &ok)=0;
+
  protected:
   
 #ifdef MYROOT1