- cout << " Number of events: " << (fEvent2-fEvent1) << endl;
- cout << " from event " << fEvent1 << " to event " << (fEvent2-1) << endl;
- cout << " Time Resolution (ns) "<< fTimeResolution <<" Pad Efficiency: "<< fpadefficiency << endl;
- cout << " Edge Effect option: "<< fEdgeEffect<< endl;
-
- cout << " Boundary Effect Simulation Parameters " << endl;
- cout << " Hparameter: "<< fHparameter<<" H2parameter:"<< fH2parameter <<" Kparameter:"<< fKparameter<<" K2parameter: "<< fK2parameter << endl;
- cout << " Efficiency in the central region of the pad: "<< fEffCenter << endl;
- cout << " Efficiency at the boundary region of the pad: "<< fEffBoundary << endl;
- cout << " Efficiency value at H2parameter "<< fEff2Boundary << endl;
- cout << " Efficiency value at K2parameter "<< fEff3Boundary << endl;
- cout << " Resolution (ps) in the central region of the pad: "<< fResCenter << endl;
- cout << " Resolution (ps) at the boundary of the pad : "<< fResBoundary << endl;
- cout << " Slope (ps/K) for neighbouring pad : "<< fResSlope <<endl;
- cout << " Time walk (ps) in the central region of the pad : "<< fTimeWalkCenter << endl;
- cout << " Time walk (ps) at the boundary of the pad : "<< fTimeWalkBoundary<< endl;
- cout << " Slope (ps/K) for neighbouring pad : "<< fTimeWalkSlope<<endl;
- cout << " Pulse Heigth Simulation Parameters " << endl;
- cout << " Flag for delay due to the PulseHeightEffect: "<< fTimeDelayFlag <<endl;
- cout << " Pulse Height Slope : "<< fPulseHeightSlope<<endl;
- cout << " Time Delay Slope : "<< fTimeDelaySlope<<endl;
- cout << " Minimum charge amount which could be induced : "<< fMinimumCharge<<endl;
- cout << " Smearing in charge in (q1/q2) vs x plot : "<< fChargeSmearing<<endl;
- cout << " Smearing in log of charge ratio : "<< fLogChargeSmearing<<endl;
- cout << " Smearing in time in time vs log(q1/q2) plot : "<< fTimeSmearing<<endl;
- cout << " Flag for average time : "<< fAverageTimeFlag<<endl;
- cout << " Edge tails option : "<< fEdgeTails << endl;
+ AliInfo(Form(" Number of events: %i ", (fEvent2-fEvent1)));
+ AliInfo(Form(" from event %i to event %i", fEvent1, (fEvent2-1)));
+ AliInfo(Form(" Time Resolution (ns) %d Pad Efficiency: %d ", fTimeResolution, fpadefficiency));
+ AliInfo(Form(" Edge Effect option: %d", fEdgeEffect));
+
+ AliInfo(" Boundary Effect Simulation Parameters ");
+ AliInfo(Form(" Hparameter: %d H2parameter: %d Kparameter: %d K2parameter: %d", fHparameter, fH2parameter, fKparameter, fK2parameter));
+ AliInfo(Form(" Efficiency in the central region of the pad: %d", fEffCenter));
+ AliInfo(Form(" Efficiency at the boundary region of the pad: %d", fEffBoundary));
+ AliInfo(Form(" Efficiency value at H2parameter %d", fEff2Boundary));
+ AliInfo(Form(" Efficiency value at K2parameter %d", fEff3Boundary));
+ AliInfo(Form(" Resolution (ps) in the central region of the pad: %d", fResCenter));
+ AliInfo(Form(" Resolution (ps) at the boundary of the pad : %d", fResBoundary));
+ AliInfo(Form(" Slope (ps/K) for neighbouring pad : %d", fResSlope));
+ AliInfo(Form(" Time walk (ps) in the central region of the pad : %d", fTimeWalkCenter));
+ AliInfo(Form(" Time walk (ps) at the boundary of the pad : %d", fTimeWalkBoundary));
+ AliInfo(Form(" Slope (ps/K) for neighbouring pad : %d", fTimeWalkSlope));
+ AliInfo(" Pulse Heigth Simulation Parameters ");
+ AliInfo(Form(" Flag for delay due to the PulseHeightEffect : %d", fTimeDelayFlag));
+ AliInfo(Form(" Pulse Height Slope : %d", fPulseHeightSlope));
+ AliInfo(Form(" Time Delay Slope : %d", fTimeDelaySlope));
+ AliInfo(Form(" Minimum charge amount which could be induced : %d", fMinimumCharge));
+ AliInfo(Form(" Smearing in charge in (q1/q2) vs x plot : %d", fChargeSmearing));
+ AliInfo(Form(" Smearing in log of charge ratio : %d", fLogChargeSmearing));
+ AliInfo(Form(" Smearing in time in time vs log(q1/q2) plot : %d", fTimeSmearing));
+ AliInfo(Form(" Flag for average time : %d", fAverageTimeFlag));
+ AliInfo(Form(" Edge tails option : %d", fEdgeTails));