+#ifndef OBS_CORRPHIPHIMASS_HPP
+#define OBS_CORRPHIPHIMASS_HPP
+
+#include "latlib/o815/o815.h"
+
+#include "latlib/writeout.h"
+
+#include "latlib/obstat.hpp"
+
+#include <iostream>
+#include <complex>
+
+#include <cmath>
+
+#define U1 0
+#define U2 1
+#define F1 2
+#define F2 3
+
+using namespace std;
+
+class obs_corrphiphimass : public o815::obs {
+
+public:
+ obs_corrphiphimass(o815 *_O815);
+
+private:
+ void _start();
+ void _meas(bool loadedobs, const int& nthmeas);
+ void _finish();
+
+ void corrCompute();
+ static complex<double> effMass(vector < complex<double> > *preCalculated, vector< complex<double> > *excludedMeas, int nmeas, void *para);
+ static void preEffMass(vector< vector < complex<double> > > *allVals, vector < complex<double> > *preCalculated, void *para);
+
+ sim *Sim;
+ obstat< complex<double>, complex<double> > oC;
+
+ int spatialV;
+
+ complex<double> *OM[4];
+};
+
+obs_corrphiphimass::obs_corrphiphimass(o815 *_O815) : o815::obs("corr",
+ _O815->paraQ->getParaNames() +
+ "tsep"
+ ":u1_effmass:u1_effmass_err",
+ _O815, 4*sizeof(complex<double>)*(_O815->comargs.lsize[1]/2+1) ) {
+
+ for (int ivar = 0; ivar<4; ivar++)
+ OM[ivar] = (complex<double>*)( obsMem + ivar*sizeof(complex<double>)*( _O815->comargs.lsize[1]/2 + 1 ) );
+
+ Sim = (sim*)O815->Sim;
+ spatialV = O815->comargs.lsize[0] * O815->comargs.lsize[0] * O815->comargs.lsize[0];
+}
+
+void obs_corrphiphimass::_start() {
+ //*out << "OBS_test: start" << endl;
+};
+
+void obs_corrphiphimass::_meas(bool loadedobs, const int& nthmeas) {
+ if (!loadedobs)
+ corrCompute();
+
+ oC.addMeas( OM[U1], O815->comargs.lsize[1]/2+1 );
+};
+
+void obs_corrphiphimass::_finish() {
+ int compid_corr[O815->comargs.lsize[1]/2][4];
+ int compid_effmass[O815->comargs.lsize[1]/2-1][4];
+
+ for (int itsep = 0; itsep < O815->comargs.lsize[1]/2; itsep++)
+ compid_corr[itsep][U1] = oC.computeEasy(itsep);
+
+ for (int itsep = 0; itsep < O815->comargs.lsize[1]/2-1; itsep++) {
+ pair<int,int> effmasspass( itsep, O815->comargs.lsize[1]/2 );
+ compid_effmass[itsep][U1] = oC.computeJack(obs_corrphiphimass::preEffMass, obs_corrphiphimass::effMass, &effmasspass);
+ }
+
+ for (int itsep = 0; itsep < O815->comargs.lsize[1]/2-1; itsep++) {
+ *out << O815->paraQ->getParaVals();
+ *out << "\t" << itsep;
+
+ *out << "\t" << real( oC.getMean(compid_effmass[itsep][U1]) )
+ << "\t" << real( oC.getErr (compid_effmass[itsep][U1]) );
+
+ *out << endl;
+ }
+
+ oC.reset();
+};
+
+void obs_corrphiphimass::corrCompute()
+{
+ complex<double> phislice[4][O815->comargs.lsize[1]];
+
+ OM[U1][O815->comargs.lsize[1]/2] = 0;
+ OM[U2][O815->comargs.lsize[1]/2] = 0;
+ OM[F1][O815->comargs.lsize[1]/2] = 0;
+ OM[F2][O815->comargs.lsize[1]/2] = 0;
+
+ for (int it = 0; it < O815->comargs.lsize[1]; it++) {
+ phislice[U1][it] = 0;
+ phislice[U2][it] = 0;
+ phislice[F1][it] = 0;
+ phislice[F2][it] = 0;
+
+ for (int ix = 0; ix < spatialV; ix++) {
+ phislice[U1][it] += conj(Sim->phi[ 0*Sim->lsize4 + it*spatialV + ix ]) * Sim->phi[ 0*Sim->lsize4 + it*spatialV + ix ];
+ phislice[U2][it] += conj(Sim->phi[ 1*Sim->lsize4 + it*spatialV + ix ]) * Sim->phi[ 1*Sim->lsize4 + it*spatialV + ix ];
+ phislice[F1][it] += Sim->phi[ 0*Sim->lsize4 + it*spatialV + ix ];
+ phislice[F2][it] += Sim->phi[ 1*Sim->lsize4 + it*spatialV + ix ];
+ }
+ phislice[U1][it] /= spatialV;
+ phislice[U2][it] /= spatialV;
+ phislice[F1][it] /= spatialV;
+ phislice[F2][it] /= spatialV;
+
+ OM[U1][O815->comargs.lsize[1]/2] += phislice[U1][it];
+ OM[U2][O815->comargs.lsize[1]/2] += phislice[U2][it];
+ OM[F1][O815->comargs.lsize[1]/2] += phislice[F1][it];
+ OM[F2][O815->comargs.lsize[1]/2] += phislice[F2][it];
+ }
+
+ for (int icorr = 0; icorr < 4; icorr++) {
+ for (int itsep = 0; itsep < O815->comargs.lsize[1]/2; itsep++) {
+ OM[icorr][itsep] = 0;
+
+ for (int it = 0; it < O815->comargs.lsize[1]; it++)
+ OM[icorr][itsep] += phislice[icorr][ (it+itsep)%O815->comargs.lsize[1] ] * conj( phislice[icorr][it] );
+
+ OM[icorr][itsep] /= O815->comargs.lsize[1];
+ }
+
+ OM[icorr][O815->comargs.lsize[1]/2] /= O815->comargs.lsize[1];
+ }
+}
+
+void obs_corrphiphimass::preEffMass(vector< vector < complex<double> > > *allVals, vector < complex<double> > *preCalculated, void *para) {
+ pair<int,int> *myparas = (pair<int,int>*)para;
+
+ preCalculated->push_back(0);
+ preCalculated->push_back(0);
+ preCalculated->push_back(0);
+
+ for(vector< vector< complex<double> > >::iterator valIt = allVals->begin(); valIt != allVals->end(); ++valIt) {
+ (*preCalculated)[0] += (*valIt)[myparas->first];
+ (*preCalculated)[1] += (*valIt)[myparas->first+1];
+ (*preCalculated)[2] += (*valIt)[myparas->second];
+ }
+}
+
+complex<double> obs_corrphiphimass::effMass(vector < complex<double> > *preCalculated, vector< complex<double> > *excludedMeas, int nmeas, void *para) {
+ pair<int,int> *myparas = (pair<int,int>*)para;
+
+ double disconnected = norm( ( (*preCalculated)[2] - (*excludedMeas)[myparas->second] ) / (complex<double>)(nmeas-1) );
+
+ return std::log( abs(
+ ( ( (*preCalculated)[0] - (*excludedMeas)[myparas->first] ) / (complex<double>)(nmeas-1) - disconnected ) /
+ ( ( (*preCalculated)[1] - (*excludedMeas)[myparas->first+1] ) / (complex<double>)(nmeas-1) - disconnected )
+ ) );
+}
+
+#endif