fGRF = GRF;
fKNorm = kNorm;
//sprintf(fType,"User");
- snprintf(fType,6,"User");
+ snprintf(fType,5,"User");
if (sigmaX ==0) sigmaX=(fWidth*(1+TMath::Abs(fK)))/fgkSQRT12;
if (sigmaY ==0) sigmaY=(fWidth*(1+TMath::Abs(fK)))/fgkSQRT12;
fOrigSigmaX=sigmaX;
fOrigSigmaX=sigmaX;
fOrigSigmaY=sigmaY;
//sprintf(fType,"Gauss");
- snprintf(fType,6,"Gauss");
+ snprintf(fType,5,"Gauss");
if (fGRF !=0 ) fGRF->Delete();
fGRF = new TF2("FunGauss2D",FunGauss2D,-5.,5.,-5.,5.,4);
fOrigSigmaX=sigmaX;
fOrigSigmaY=sigmaY;
// sprintf(fType,"Cosh");
- snprintf(fType,6,"Cosh");
+ snprintf(fType,5,"Cosh");
if (fGRF !=0 ) fGRF->Delete();
fGRF = new TF2("FunCosh2D", FunCosh2D,-5.,5.,-5.,5.,4);
funParam[0]=sigmaX;
fK3Y=K3Y;
fPadDistance=padDistance;
//sprintf(fType,"Gati");
- snprintf(fType,6,"Gati");
+ snprintf(fType,5,"Gati");
if (fGRF !=0 ) fGRF->Delete();
fGRF = new TF2("FunGati2D", FunGati2D,-5.,5.,-5.,5.,5);