#include <cmath>
#include <gsl/gsl_complex.h>
+#include <gsl/gsl_complex_math.h>
#include <gsl/gsl_math.h>
#include <gsl/gsl_eigen.h>
+#include <gsl/gsl_linalg.h>
+#include <gsl/gsl_cblas.h>
+#include <gsl/gsl_blas.h>
using namespace std;
static void preEffMass(vector< vector < complex<double> > > *allVals, vector < complex<double> > *preCalculated, void *para);
sim *Sim;
- obstat< complex<double>, complex<double> > oC[16];
int spatialV;
- complex<double> *OM[16];
+ complex<double> *OM[16+1];
+
+ gsl_matrix_complex ***measurements;
+
+ gsl_vector_complex **measurements_disco;
+
+ static void cdiag (gsl_vector *v, gsl_matrix_complex *m);
};
obs_diagcorr::obs_diagcorr(o815 *_O815) : o815::obs("diagcorr",
- _O815->paraQ->getParaNames() +
- "tsep"
- "...",
- _O815, 16*sizeof(complex<double>)*(_O815->comargs.lsize[1]/2) ) {
- for (int ivar = 0; ivar<16; ivar++)
+ _O815->paraQ->getParaNames() +
+ "tsep"
+ "...",
+ _O815, sizeof(complex<double>) * ( 16*_O815->comargs.lsize[1]/2 + 1*4 ) ) {
+ for (int ivar = 0; ivar<16+1; ivar++)
OM[ivar] = (complex<double>*)( obsMem + ivar*sizeof(complex<double>)*( _O815->comargs.lsize[1]/2 ) );
Sim = (sim*)O815->Sim;
spatialV = O815->comargs.lsize[0] * O815->comargs.lsize[0] * O815->comargs.lsize[0];
+
+ measurements = new gsl_matrix_complex**[O815->comargs.nmeas];
+ for (int imeas = 0; imeas<O815->comargs.nmeas; imeas++) {
+ measurements[imeas] = new gsl_matrix_complex*[_O815->comargs.lsize[1]/2];
+ for (int itsep=0; itsep<_O815->comargs.lsize[1]/2; itsep++)
+ measurements[imeas][itsep] = gsl_matrix_complex_alloc(4,4);
+ }
+
+ measurements_disco = new gsl_vector_complex*[O815->comargs.nmeas];
+ for (int imeas = 0; imeas<O815->comargs.nmeas; imeas++)
+ measurements_disco[imeas] = gsl_vector_complex_alloc(4);
}
void obs_diagcorr::_start() {
+ // *out << O815->comargs.nmeas << endl;
+
//*out << "OBS_test: start" << endl;
};
if (!loadedobs)
corrCompute();
- for (int icorr=0; icorr<16; icorr++)
- oC[icorr].addMeas( OM[icorr], O815->comargs.lsize[1]/2 );
+ for (int icorr=0; icorr<4; icorr++)
+ for (int jcorr=0; jcorr<4; jcorr++)
+ for (int itsep=0; itsep<O815->comargs.lsize[1]/2; itsep++) {
+ gsl_matrix_complex_set(measurements[nthmeas][itsep], icorr, jcorr,
+ gsl_complex_rect( OM[icorr*4+jcorr][itsep].real(), OM[icorr*4+jcorr][itsep].imag() ));
+ }
+
+ for (int icorr=0; icorr<4; icorr++) {
+ gsl_vector_complex_set(measurements_disco[nthmeas], icorr,
+ gsl_complex_rect( OM[16][icorr].real(), OM[16][icorr].imag() ) );
+ }
};
+void obs_diagcorr::cdiag (gsl_vector *v, gsl_matrix_complex *m)
+{
+ gsl_matrix_complex *evec = gsl_matrix_complex_alloc(4,4);
+ gsl_eigen_hermv_workspace *wspace = gsl_eigen_hermv_alloc(100);
+
+ gsl_eigen_hermv(m, v, evec, wspace);
+ gsl_eigen_hermv_sort(v, evec, GSL_EIGEN_SORT_VAL_ASC);
+
+ gsl_eigen_hermv_free(wspace);
+ gsl_matrix_complex_free(evec);
+}
+
void obs_diagcorr::_finish() {
+ gsl_matrix_complex *totalval = gsl_matrix_complex_alloc(4,4);
+ gsl_matrix_complex *tmpmatrix = gsl_matrix_complex_alloc(4,4);
+ gsl_vector *tmpvec = gsl_vector_alloc(4);
+ gsl_vector_complex *tmpvecc = gsl_vector_complex_alloc(4);
+ gsl_vector *tmpvec2 = gsl_vector_alloc(4);
+ gsl_vector *jackres = gsl_vector_alloc(4);
+ gsl_vector *jackerrornorm = gsl_vector_alloc(4);
+ gsl_vector_complex *totaldisco = gsl_vector_complex_alloc(4);
+
+ gsl_vector_complex_set_zero(totaldisco);
+ for (int imeas=0; imeas<O815->comargs.nmeas; imeas++)
+ gsl_vector_complex_add( totaldisco, measurements_disco[imeas] );
+
for (int itsep = 0; itsep < O815->comargs.lsize[1]/2; itsep++) {
- gsl_complex matdata[16];
+ gsl_matrix_complex_set_zero(totalval);
+ gsl_vector_set_zero(jackerrornorm);
- gsl_matrix_complex *m = gsl_matrix_complex_alloc(4,4);
+ for (int imeas=0; imeas<O815->comargs.nmeas; imeas++)
+ gsl_matrix_complex_add( totalval, measurements[imeas][itsep] );
- for (int icorr = 0; icorr < 4; icorr++)
- for (int jcorr = 0; jcorr < 4; jcorr++) {
- int compid_corr = oC[icorr*4+jcorr].computeEasy(itsep);
- gsl_complex tmpc;
-
- tmpc.dat[0] = oC[icorr*4+jcorr].getMean(compid_corr).real();
- tmpc.dat[1] = oC[icorr*4+jcorr].getMean(compid_corr).imag();
-
- gsl_matrix_complex_set( m, icorr, jcorr, tmpc);
+ gsl_matrix_complex_memcpy (tmpmatrix, totalval);
+ gsl_matrix_complex_scale (tmpmatrix, gsl_complex_rect(1.0/O815->comargs.nmeas, 0.0) );
+ for (int icorr=0; icorr<4; icorr++)
+ for (int jcorr=0; jcorr<4; jcorr++) {
+ gsl_complex discopart = gsl_complex_mul( gsl_vector_complex_get(totaldisco, icorr),
+ gsl_complex_conjugate( gsl_vector_complex_get(totaldisco, jcorr) )
+ );
+ discopart = gsl_complex_mul_real(discopart, pow(1.0/O815->comargs.nmeas,2));
+ gsl_matrix_complex_set( tmpmatrix, icorr, jcorr,
+ gsl_complex_sub( gsl_matrix_complex_get( tmpmatrix, icorr, jcorr ),
+ discopart
+ )
+ );
}
+ cdiag(jackres, tmpmatrix);
+
+ for (int imeas=0; imeas<O815->comargs.nmeas; imeas++) {
+ gsl_matrix_complex_memcpy (tmpmatrix, totalval);
+ gsl_matrix_complex_sub (tmpmatrix, measurements[imeas][itsep]);
+ gsl_matrix_complex_scale ( tmpmatrix, gsl_complex_rect(1.0/(O815->comargs.nmeas-1), 0.0) );
+ gsl_vector_complex_memcpy( tmpvecc, totaldisco );
+ gsl_vector_complex_sub( tmpvecc, measurements_disco[imeas] );
+ for (int icorr=0; icorr<4; icorr++)
+ for (int jcorr=0; jcorr<4; jcorr++) {
+ gsl_complex discopart = gsl_complex_mul( gsl_vector_complex_get(tmpvecc, icorr),
+ gsl_complex_conjugate( gsl_vector_complex_get(tmpvecc, jcorr) )
+ );
+ discopart = gsl_complex_mul_real(discopart, pow(1.0/(O815->comargs.nmeas-1),2));
+ gsl_matrix_complex_set( tmpmatrix, icorr, jcorr,
+ gsl_complex_sub( gsl_matrix_complex_get( tmpmatrix, icorr, jcorr ),
+ discopart
+ )
+ );
+ }
+ cdiag(tmpvec, tmpmatrix);
+ gsl_vector_sub(tmpvec, jackres);
+ gsl_vector_memcpy(tmpvec2, tmpvec);
+ gsl_vector_mul(tmpvec, tmpvec2);
+ gsl_vector_add(jackerrornorm, tmpvec);
+ }
+ gsl_vector_scale( jackerrornorm,
+ (double)(O815->comargs.nmeas-1)/O815->comargs.nmeas );
- gsl_vector *evvec = gsl_vector_alloc(4);
-
- gsl_eigen_herm_workspace *wspace = gsl_eigen_herm_alloc(100);
-
- gsl_eigen_herm(m, evvec, wspace);
-
- gsl_eigen_herm_free(wspace);
- gsl_matrix_complex_free(m);
-
*out << O815->paraQ->getParaVals();
*out << "\t" << itsep;
for (int iev = 0; iev < 4; iev++) {
- *out << "\t" << gsl_vector_get(evvec,iev);
+ *out << "\t" << gsl_vector_get(jackres,iev)
+ << "\t" << sqrt(gsl_vector_get(jackerrornorm,iev));
}
*out << endl;
-
- gsl_vector_free(evvec);
}
-
-
- // for (int itsep = 0; itsep < O815->comargs.lsize[1]/2; itsep++) {
- // complex
- // }
- /*
- for (int itsep = 0; itsep < O815->comargs.lsize[1]/2; itsep++) {
- *out << O815->paraQ->getParaVals();
- *out << "\t" << itsep;
- for (int icorr = 0; icorr < 16; icorr++) {
- *out << "\t" << real( oC[icorr].getMean(compid_corr[itsep][icorr]) );
- }
- *out << endl;
- }
- */
-
- for (int icorr = 0; icorr < 16; icorr++) {
- oC[icorr].reset();
- }
+ gsl_matrix_complex_free(totalval);
+ gsl_matrix_complex_free(tmpmatrix);
+ gsl_vector_free(tmpvec);
+ gsl_vector_complex_free(tmpvecc);
+ gsl_vector_free(tmpvec2);
+ gsl_vector_free(jackres);
+ gsl_vector_free(jackerrornorm);
+ gsl_vector_complex_free(totaldisco);
};
void obs_diagcorr::corrCompute()
{
complex<double> phislice[4][O815->comargs.lsize[1]];
+ for (int icorr=0; icorr<4; icorr++)
+ OM[16][icorr] = 0;
+
for (int it = 0; it < O815->comargs.lsize[1]; it++) {
- phislice[0][it] = 0;
- phislice[1][it] = 0;
- phislice[2][it] = 0;
- phislice[3][it] = 0;
+ for (int icorr=0; icorr<4; icorr++)
+ phislice[icorr][it] = 0;
for (int ix = 0; ix < spatialV; ix++) {
phislice[0][it] += conj(Sim->phi[ 0*Sim->lsize4 + it*spatialV + ix ]) * Sim->phi[ 0*Sim->lsize4 + it*spatialV + ix ];
phislice[2][it] += conj(Sim->phi[ 0*Sim->lsize4 + it*spatialV + ix ]) * conj(Sim->phi[ 1*Sim->lsize4 + it*spatialV + ix ]);
phislice[3][it] += conj(Sim->phi[ 1*Sim->lsize4 + it*spatialV + ix ]) * Sim->phi[ 1*Sim->lsize4 + it*spatialV + ix ];
}
- phislice[0][it] /= spatialV;
- phislice[1][it] /= spatialV;
- phislice[2][it] /= spatialV;
- phislice[3][it] /= spatialV;
+
+ for (int icorr=0; icorr<4; icorr++) {
+ phislice[icorr][it] /= spatialV;
+ OM[16][icorr] += phislice[icorr][it];
+ }
}
- for (int icorr = 0; icorr < 4; icorr++)
+ for (int icorr = 0; icorr < 4; icorr++) {
for (int jcorr = 0; jcorr < 4; jcorr++) {
for (int itsep = 0; itsep < O815->comargs.lsize[1]/2; itsep++) {
OM[icorr*4+jcorr][itsep] = 0;
OM[icorr*4+jcorr][itsep] /= O815->comargs.lsize[1];
}
}
+
+ OM[16][icorr] /= O815->comargs.lsize[1];
+ }
}
#endif