obsmem* OM;
void phi2Compute();
- static double phi2Sus(vector< vector<double> > *vals, void *para);
+
+ static void prePhi2Sus(vector< vector <double> > *allVals, vector <double> *preCalculated, void *para);
+ static double phi2Sus(vector <double> *preCalculated, vector<double> *excludedMeas, int nmeas, void *para);
sim *Sim;
obstat<double,double> oPhi2[2];
for (int iflav=0; iflav<2; iflav++) {
compid_phi2[iflav] = oPhi2[iflav].computeEasy();
- compid_phi2sus[iflav] = oPhi2[iflav].computeJack(obs_phi2::phi2Sus, &(Sim->lsize4));
+ compid_phi2sus[iflav] = oPhi2[iflav].computeJack(obs_phi2::prePhi2Sus, obs_phi2::phi2Sus, &(Sim->lsize4));
*out << "\t" << oPhi2[iflav].getMean(compid_phi2[iflav]) << "\t" << oPhi2[iflav].getErr(compid_phi2[iflav]);
*out << "\t" << oPhi2[iflav].getMean(compid_phi2sus[iflav]) << "\t" << oPhi2[iflav].getErr(compid_phi2sus[iflav]);
}
}
-double obs_phi2::phi2Sus(vector< vector<double> > *vals, void *para) {
- double mean=0, mean2=0;
- for(vector< vector<double> >::iterator valIt = vals->begin(); valIt != vals->end(); ++valIt)
- {
- mean += (*valIt)[0];
- mean2 += pow((*valIt)[0],2);
- }
- mean /= vals->size();
- mean2 /= vals->size();
-
- return ( mean2 - pow(mean,2) ) * *(int*)para;
+void obs_phi2::prePhi2Sus(vector< vector <double> > *allVals, vector <double> *preCalculated, void *para) {
+ preCalculated->push_back(0);
+ preCalculated->push_back(0);
+
+ for(vector< vector<double> >::iterator valIt = allVals->begin(); valIt != allVals->end(); ++valIt) {
+ (*preCalculated)[0] += (*valIt)[0];
+ (*preCalculated)[1] += pow((*valIt)[0],2);
+ }
+}
+
+double obs_phi2::phi2Sus(vector <double> *preCalculated, vector<double> *excludedMeas, int nmeas, void *para) {
+ return (( (*preCalculated)[1] - pow((*excludedMeas)[0], 2) )
+ - pow( (*preCalculated)[0] - (*excludedMeas)[0], 2 ))
+ * *(int*)para
+ / (nmeas-1);
}
#endif