Allow to select only either of long/short range Ewald sum parts
(cherry picked from commit 97b7782291380193835c23a4f0ea04ff5f44273e [formerly 41b1a76d5ed571b507abc0515b3cba60e8c0ccca]) Former-commit-id: 4d51186e653babfdc84fc45a4ab70a3ffdc02eee
This commit is contained in:
Marek Nečada
parent
4dd3234b0a
commit
84acb1ada2
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@ -35,6 +35,15 @@
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#include "qpms_types.h"
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#include "lattices.h"
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typedef enum {
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QPMS_EWALD_LONG_RANGE = 1,
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QPMS_EWALD_SHORT_RANGE = 2,
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QPMS_EWALD_0TERM = 4,
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QPMS_EWALD_FULL = QPMS_EWALD_LONG_RANGE | QPMS_EWALD_SHORT_RANGE | QPMS_EWALD_0TERM,
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} qpms_ewald_part;
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/// Use this handler to ignore underflows of incomplete gamma.
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gsl_error_handler_t IgnoreUnderflowsGSLErrorHandler;
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@ -562,6 +562,12 @@ cdef extern from "ewald.h":
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cdouble val
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double err
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ctypedef enum qpms_ewald_part:
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QPMS_EWALD_LONG_RANGE
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QPMS_EWALD_SHORT_RANGE
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QPMS_EWALD_FULL
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QPMS_EWALD_0TERM
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struct qpms_ewald3_constants_t:
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qpms_l_t lMax
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qpms_y_t nelem_sc
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@ -729,7 +729,7 @@ qpms_errno_t qpms_trans_calculator_get_trans_array(const qpms_trans_calculator *
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return retval;
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}
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qpms_errno_t qpms_trans_calculator_get_trans_array_e32(const qpms_trans_calculator *c,
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qpms_errno_t qpms_trans_calculator_get_trans_array_e32_e(const qpms_trans_calculator *c,
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complex double *target, double *err,
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/// Must be destspec->lMax <= c-> lMax && destspec->norm == c->norm.
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const qpms_vswf_set_spec_t *destspec, size_t deststride,
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@ -739,7 +739,8 @@ qpms_errno_t qpms_trans_calculator_get_trans_array_e32(const qpms_trans_calculat
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cart2_t b1, cart2_t b2,
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const cart2_t beta,
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const cart2_t particle_shift,
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double maxR, double maxK
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double maxR, double maxK,
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const qpms_ewald_part parts
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)
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{
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TROPS_ONLY_AB_SYMMETRIC_NORMS_IMPLEMENTED(c->normalisation);
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@ -757,9 +758,9 @@ qpms_errno_t qpms_trans_calculator_get_trans_array_e32(const qpms_trans_calculat
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QPMS_CRASHING_MALLOC(Aerr, c->nelem*c->nelem*sizeof(double));
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QPMS_CRASHING_MALLOC(Berr, c->nelem*c->nelem*sizeof(double));
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}
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qpms_errno_t retval = qpms_trans_calculator_get_AB_arrays_e32(c,
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qpms_errno_t retval = qpms_trans_calculator_get_AB_arrays_e32_e(c,
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A, Aerr, B, Berr, ldAB, 1,
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eta, k, b1, b2, beta, particle_shift, maxR, maxK);
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eta, k, b1, b2, beta, particle_shift, maxR, maxK, parts);
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for (size_t desti = 0; desti < destspec->n; ++desti) {
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qpms_y_t desty; qpms_vswf_type_t destt;
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if(QPMS_SUCCESS != qpms_uvswfi2ty(destspec->ilist[desti], &destt, &desty))
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@ -781,6 +782,22 @@ qpms_errno_t qpms_trans_calculator_get_trans_array_e32(const qpms_trans_calculat
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return retval;
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}
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qpms_errno_t qpms_trans_calculator_get_trans_array_e32(const qpms_trans_calculator *c,
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complex double *target, double *err,
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/// Must be destspec->lMax <= c-> lMax && destspec->norm == c->norm.
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const qpms_vswf_set_spec_t *destspec, size_t deststride,
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/// Must be srcspec->lMax <= c-> lMax && srcspec->norm == c->norm.
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const qpms_vswf_set_spec_t *srcspec, size_t srcstride,
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const double eta, const complex double k,
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cart2_t b1, cart2_t b2,
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const cart2_t beta,
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const cart2_t particle_shift,
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double maxR, double maxK
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)
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{
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return qpms_trans_calculator_get_trans_array_e32_e(c, target, err, destspec, deststride,
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srcspec, srcstride, eta, k, b1, b2, beta, particle_shift, maxR, maxK, QPMS_EWALD_FULL);
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}
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qpms_errno_t qpms_trans_calculator_get_trans_array_lc3p(
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@ -913,7 +930,7 @@ int qpms_trans_calculator_get_AB_arrays_e31z_both_points_and_shift(const qpms_tr
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// and GEN_KSHIFTEDPOINTS.
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// The results should be the same. The performance can slightly differ (especially
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// if some optimizations in the point generators are implemented.)
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int qpms_trans_calculator_get_AB_arrays_e32(const qpms_trans_calculator *c,
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int qpms_trans_calculator_get_AB_arrays_e32_e(const qpms_trans_calculator *c,
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complex double * const Adest, double * const Aerr,
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complex double * const Bdest, double * const Berr,
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const ptrdiff_t deststride, const ptrdiff_t srcstride,
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@ -922,7 +939,8 @@ int qpms_trans_calculator_get_AB_arrays_e32(const qpms_trans_calculator *c,
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const cart2_t b1, const cart2_t b2,
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const cart2_t beta,
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const cart2_t particle_shift,
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double maxR, double maxK
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double maxR, double maxK,
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const qpms_ewald_part parts
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)
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{
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@ -945,13 +963,7 @@ int qpms_trans_calculator_get_AB_arrays_e32(const qpms_trans_calculator *c,
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cart2_t rb1, rb2; // reciprocal basis
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QPMS_ENSURE_SUCCESS(l2d_reciprocalBasis2pi(b1, b2, &rb1, &rb2));
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PGen Rgen = PGen_xyWeb_new(b1, b2, BASIS_RTOL,
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#ifdef GEN_RSHIFTEDPOINTS
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cart2_scale(-1 /*CHECKSIGN*/, particle_shift),
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#else
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CART2_ZERO,
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#endif
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0, !do_sigma0, maxR, false);
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if (parts & QPMS_EWALD_LONG_RANGE) {
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PGen Kgen = PGen_xyWeb_new(rb1, rb2, BASIS_RTOL,
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#ifdef GEN_KSHIFTEDPOINTS
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beta,
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@ -970,6 +982,16 @@ int qpms_trans_calculator_get_AB_arrays_e32(const qpms_trans_calculator *c,
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cart22cart3xy(beta), cart22cart3xy(particle_shift)));
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if(Kgen.stateData) // PGen not consumed entirely (converged earlier)
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PGen_destroy(&Kgen);
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}
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if (parts & QPMS_EWALD_SHORT_RANGE) {
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PGen Rgen = PGen_xyWeb_new(b1, b2, BASIS_RTOL,
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#ifdef GEN_RSHIFTEDPOINTS
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cart2_scale(-1 /*CHECKSIGN*/, particle_shift),
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#else
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CART2_ZERO,
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#endif
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0, !do_sigma0, maxR, false);
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QPMS_ENSURE_SUCCESS(ewald3_sigma_short(sigmas_short, serr_short, c->e3c, eta, k,
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LAT_2D_IN_3D_XYONLY, &Rgen,
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@ -979,16 +1001,20 @@ int qpms_trans_calculator_get_AB_arrays_e32(const qpms_trans_calculator *c,
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false,
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#endif
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cart22cart3xy(beta), cart22cart3xy(particle_shift)));
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if(Rgen.stateData) // PGen not consumed entirely (converged earlier)
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PGen_destroy(&Rgen);
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}
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for(qpms_y_t y = 0; y < nelem2_sc; ++y)
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sigmas_total[y] = sigmas_short[y] + sigmas_long[y];
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sigmas_total[y] = ((parts & QPMS_EWALD_SHORT_RANGE) ? sigmas_short[y] : 0)
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+ ((parts & QPMS_EWALD_LONG_RANGE) ? sigmas_long[y] : 0);
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if (doerr) for(qpms_y_t y = 0; y < nelem2_sc; ++y)
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serr_total[y] = serr_short[y] + serr_long[y];
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serr_total[y] = ((parts & QPMS_EWALD_SHORT_RANGE) ? serr_short[y] : 0)
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+ ((parts & QPMS_EWALD_LONG_RANGE) ? serr_long[y] : 0);
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complex double sigma0 = 0; double sigma0_err = 0;
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if (do_sigma0) {
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if (do_sigma0 && (parts & QPMS_EWALD_0TERM)) {
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QPMS_ENSURE_SUCCESS(ewald3_sigma0(&sigma0, &sigma0_err, c->e3c, eta, k));
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const qpms_l_t y = qpms_mn2y_sc(0,0);
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sigmas_total[y] += sigma0;
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@ -1051,6 +1077,22 @@ int qpms_trans_calculator_get_AB_arrays_e32(const qpms_trans_calculator *c,
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return 0;
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}
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int qpms_trans_calculator_get_AB_arrays_e32(const qpms_trans_calculator *c,
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complex double * const Adest, double * const Aerr,
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complex double * const Bdest, double * const Berr,
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const ptrdiff_t deststride, const ptrdiff_t srcstride,
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/* qpms_bessel_t J*/ // assume QPMS_HANKEL_PLUS
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const double eta, const complex double k,
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const cart2_t b1, const cart2_t b2,
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const cart2_t beta,
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const cart2_t particle_shift,
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double maxR, double maxK)
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{
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return qpms_trans_calculator_get_AB_arrays_e32_e(
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c, Adest, Aerr, Bdest, Berr, deststride, srcstride,
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eta, k, b1, b2, beta, particle_shift, maxR, maxK, QPMS_EWALD_FULL);
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}
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#endif // LATTICESUMS32
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@ -166,6 +166,18 @@ int qpms_trans_calculator_get_AB_arrays_e32(const qpms_trans_calculator *c,
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double maxR, double maxK
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);
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int qpms_trans_calculator_get_AB_arrays_e32_e(const qpms_trans_calculator *c,
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complex double *Adest, double *Aerr,
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complex double *Bdest, double *Berr,
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const ptrdiff_t deststride, const ptrdiff_t srcstride,
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const double eta, const complex double k,
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cart2_t b1, cart2_t b2,
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const cart2_t beta,
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const cart2_t particle_shift,
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double maxR, double maxK,
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qpms_ewald_part parts
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);
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// Convenience functions using VSWF base specs
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qpms_errno_t qpms_trans_calculator_get_trans_array_e32(const qpms_trans_calculator *c,
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complex double *target, double *err,
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@ -180,6 +192,20 @@ qpms_errno_t qpms_trans_calculator_get_trans_array_e32(const qpms_trans_calculat
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double maxR, double maxK
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);
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qpms_errno_t qpms_trans_calculator_get_trans_array_e32_e(const qpms_trans_calculator *c,
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complex double *target, double *err,
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/// Must be destspec->lMax <= c-> lMax && destspec->norm == c->norm.
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const qpms_vswf_set_spec_t *destspec, size_t deststride,
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/// Must be srcspec->lMax <= c-> lMax && srcspec->norm == c->norm.
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const qpms_vswf_set_spec_t *srcspec, size_t srcstride,
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const double eta, const complex double k,
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cart2_t b1, cart2_t b2,
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const cart2_t beta,
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const cart2_t particle_shift,
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double maxR, double maxK,
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qpms_ewald_part parts
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);
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#endif //LATTICESUMS32
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#ifdef LATTICESUMS31
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