Test translations. Gives terrible numerical results.
Former-commit-id: d0315028193ba3e951c2f569d21c62035417327a
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#include "translations.h"
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#include "vswf.h"
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#include <stdio.h>
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#include <gsl/gsl_rng.h>
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#include <gsl/gsl_math.h>
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#include <gsl/gsl_randist.h>
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#include <assert.h>
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#include "vectors.h"
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#include "string.h"
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#include "indexing.h"
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char *normstr(qpms_normalisation_t norm) {
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//int csphase = qpms_normalisation_t_csphase(norm);
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norm = qpms_normalisation_t_normonly(norm);
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switch (norm) {
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case QPMS_NORMALISATION_NONE:
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return "none";
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case QPMS_NORMALISATION_SPHARM:
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return "spharm";
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case QPMS_NORMALISATION_POWER:
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return "power";
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default:
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return "!!!undef!!!";
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}
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}
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int test_sphwave_translation(const qpms_trans_calculator *c, qpms_bessel_t wavetype,
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cart3_t o2minuso1, int npoints, cart3_t *o1points);
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//int test_planewave_decomposition(cart3_t k, ccart3_t E, qpms_l_t lMax, qpms_normalisation_t norm, int npoints, cart3_t *points);
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//int test_planewave_decomposition_silent(cart3_t k, ccart3_t E, qpms_l_t lMax, qpms_normalisation_t norm, int npoints, cart3_t *points, double relerrthreshold, double *relerrs);
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int main() {
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gsl_rng *rng = gsl_rng_alloc(gsl_rng_ranlxs0);
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gsl_rng_set(rng, 666);
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qpms_l_t lMax = 8;
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//qpms_l_t viewlMax = 2;
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int npoints = 10;
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double sigma = 1.3;
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cart3_t o2minuso1;
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o2minuso1.x = gsl_ran_gaussian(rng, sigma);
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o2minuso1.y = gsl_ran_gaussian(rng, sigma);
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o2minuso1.z = gsl_ran_gaussian(rng, sigma);
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cart3_t points[npoints];
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double relerrs[npoints];
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memset(points, 0, npoints * sizeof(cart3_t));
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points[0].x = points[1].y = points[2].z = 1.;
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double relerrthreshold = 1e-11;
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for (unsigned i = 3; i < npoints; ++i) {
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cart3_t *w = points+i;
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w->x = gsl_ran_gaussian(rng, sigma);
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w->y = gsl_ran_gaussian(rng, sigma);
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w->z = gsl_ran_gaussian(rng, sigma);
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}
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for(int use_csbit = 0; use_csbit <= 1; ++use_csbit) {
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for(int i = 1; i <= 3; ++i){
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qpms_normalisation_t norm = i | (use_csbit ? QPMS_NORMALISATION_T_CSBIT : 0);
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qpms_trans_calculator *c = qpms_trans_calculator_init(lMax, norm);
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for(int J = 1; J <= 4; ++J)
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test_sphwave_translation(c, J, o2minuso1, npoints, points);
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qpms_trans_calculator_free(c);
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}
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}
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gsl_rng_free(rng);
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}
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int test_sphwave_translation(const qpms_trans_calculator *c, qpms_bessel_t wavetype,
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cart3_t sc, int npoints, cart3_t *points) {
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puts("==============================================================");
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printf("Test translation o2-o1 = %fx̂ + %fŷ + %fẑ", sc.x, sc.y, sc.z);
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sph_t ss = cart2sph(sc);
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printf(" = %fr̂ @ o1, θ = %f, φ = %f\n", ss.r, ss.theta, ss.phi);
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printf("lMax = %d, norm: %s, csphase = %d\n",
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(int)c->lMax, normstr(c->normalisation), qpms_normalisation_t_csphase(c->normalisation));
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printf("wave type J = %d\n", wavetype);
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qpms_l_t lMax = c->lMax;
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qpms_y_t nelem = c->nelem;
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csphvec_t N1[nelem], /* N2[nelem], */ M1[nelem] /*, M2[nelem]*/;
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for (int i = 0; i < npoints; i++) {
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printf("-------- Point %d --------\n", i);
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cart3_t w1c = points[i];
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cart3_t w2c = cart3_add(w1c, cart3_scale(-1, sc));
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sph_t w1s = cart2sph(w1c);
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sph_t w2s = cart2sph(w2c);
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printf(" = %fx̂ + %fŷ + %fẑ @o1\n", w1c.x, w1c.y, w1c.z);
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printf(" = %fx̂ + %fŷ + %fẑ @o2\n", w2c.x, w2c.y, w2c.z);
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printf(" = %fr̂ @ o1, θ = %f, φ = %f\n", w1s.r, w1s.theta, w1s.phi);
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printf(" = %fr̂ @ o2, θ = %f, φ = %f\n", w2s.r, w2s.theta, w2s.phi);
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printf("Outside the sphere centered in o1 intersecting o2: %s; by %f\n", (w1s.r > ss.r) ? "true" : "false",
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w1s.r - ss.r);
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if(QPMS_SUCCESS != qpms_vswf_fill(NULL, M1, N1, lMax, w1s, wavetype, c->normalisation))
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abort(); // original wave set
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for(qpms_y_t y1 = 0; y1 < nelem; ++y1) { //index of the wave originating in o1 that will be reconstructed in o2
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qpms_m_t m1;
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qpms_l_t l1;
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qpms_y2mn_p(y1, &m1, &l1);
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printf("*** wave l = %d, m = %d ***\n", l1, m1);
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complex double A[nelem], B[nelem];
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for(qpms_y_t y2 = 0; y2 < nelem; ++y2){
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qpms_m_t m2; qpms_l_t l2;
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qpms_y2mn_p(y2, &m2, &l2);
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if(qpms_trans_calculator_get_AB_p(c, A+y2, B+y2, m2, l2, m1, l1, ss, (w1s.r > ss.r), wavetype))
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abort();
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}
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printf("M = ");
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print_csphvec(M1[y1]);
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printf(" @ o1\n = ");
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ccart3_t M1c = csphvec2ccart(M1[y1], w1s);
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print_ccart3(M1c);
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printf("\n = ");
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csphvec_t M1s2 = ccart2csphvec(M1c, w2s);
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print_csphvec(M1s2);
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printf(" @ o2\n");
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csphvec_t M2s2 = qpms_eval_vswf(w2s, NULL, A, B, lMax, wavetype, c->normalisation);
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printf("Mr= ");
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print_csphvec(M2s2);
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printf(" @ o2\n");
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printf("N = ");
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print_csphvec(N1[y1]);
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printf(" @ o1\n = ");
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ccart3_t N1c = csphvec2ccart(N1[y1], w1s);
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print_ccart3(N1c);
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printf("\n = ");
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csphvec_t N1s2 = ccart2csphvec(N1c, w2s);
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print_csphvec(N1s2);
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printf(" @o2\nNr= ");
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csphvec_t N2s2 = qpms_eval_vswf(w2s, NULL, B, A, lMax, wavetype, c->normalisation);
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print_csphvec(N2s2);
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printf(" @o2\n");
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}
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}
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return 0; // FIXME something more meaningful here...
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}
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#if 0
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int test_planewave_decomposition(cart3_t k, ccart3_t E, qpms_l_t lMax, qpms_normalisation_t norm, int npoints, cart3_t *points){
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qpms_y_t nelem = qpms_lMax2nelem(lMax);
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complex double lc[nelem], mc[nelem], ec[nelem];
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if (QPMS_SUCCESS !=
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qpms_planewave2vswf_fill_cart(k, E, lc, mc, ec, lMax, norm)) {
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printf("Error\n");
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return -1;
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}
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printf("==============================================================\n");
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printf("Test wave k = %fx̂ + %fŷ + %fẑ", k.x, k.y, k.z);
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sph_t k_sph = cart2sph(k);
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printf(" = %fr̂ @ θ = %f, φ = %f\n", k_sph.r, k_sph.theta, k_sph.phi);
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printf(" E_0 = (%f+%fj)x̂ + (%f+%fj)ŷ + (%f+%fj)ẑ",
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creal(E.x),cimag(E.x),
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creal(E.y),cimag(E.y),
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creal(E.z),cimag(E.z));
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csphvec_t E_s = ccart2csphvec(E, k_sph);
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printf(" = (%f+%fj)r̂ + (%f+%fj)θ̂ + (%f+%fj)φ̂ @ k\n",
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creal(E_s.rc), cimag(E_s.rc), creal(E_s.thetac), cimag(E_s.thetac),
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creal(E_s.phic), cimag(E_s.phic));
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printf(" lMax = %d, norm: %s, csphase = %d\n",
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(int)lMax, normstr(norm), qpms_normalisation_t_csphase(norm));
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printf("a_L: ");
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for(qpms_y_t y = 0; y < nelem; ++y) printf("%g+%gj ", creal(lc[y]), cimag(lc[y]));
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printf("\na_M: ");
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for(qpms_y_t y = 0; y < nelem; ++y) printf("%g+%gj ", creal(mc[y]), cimag(mc[y]));
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printf("\na_N: ");
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for(qpms_y_t y = 0; y < nelem; ++y) printf("%g+%gj ", creal(ec[y]), cimag(ec[y]));
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printf("\n");
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for (int i = 0; i < npoints; i++) {
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cart3_t w = points[i];
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sph_t w_sph = cart2sph(w);
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printf("Point %d: x = %f, y = %f, z = %f,\n", i, w.x, w.y, w.z);
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printf(" |r| = %f, θ = %f, φ = %f:\n", w_sph.r, w_sph.theta, w_sph.phi);
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double phase = cart3_dot(k,w);
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printf(" k.r = %f\n", phase);
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complex double phfac = cexp(phase * I);
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ccart3_t Ew = ccart3_scale(phfac, E);
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printf(" pw E(r) = (%f+%fj)x̂ + (%f+%fj)ŷ + (%f+%fj)ẑ",
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creal(Ew.x),cimag(Ew.x),
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creal(Ew.y),cimag(Ew.y),
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creal(Ew.z),cimag(Ew.z));
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csphvec_t Ew_s = ccart2csphvec(Ew, w_sph);
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printf(" = (%f+%fj)r̂ + (%f+%fj)θ̂ + (%f+%fj)φ̂ @ r\n",
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creal(Ew_s.rc), cimag(Ew_s.rc),
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creal(Ew_s.thetac), cimag(Ew_s.thetac),
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creal(Ew_s.phic), cimag(Ew_s.phic));
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w_sph.r *= k_sph.r; /// NEVER FORGET THIS!!!
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csphvec_t Ew_s_recomp = qpms_eval_vswf(w_sph,
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lc, mc, ec, lMax, QPMS_BESSEL_REGULAR, norm);
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ccart3_t Ew_recomp = csphvec2ccart(Ew_s_recomp, w_sph);
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printf(" rec E(r) = (%f+%fj)x̂ + (%f+%fj)ŷ + (%f+%fj)ẑ",
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creal(Ew_recomp.x),cimag(Ew_recomp.x),
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creal(Ew_recomp.y),cimag(Ew_recomp.y),
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creal(Ew_recomp.z),cimag(Ew_recomp.z));
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printf(" = (%f+%fj)r̂ + (%f+%fj)θ̂ + (%f+%fj)φ̂ @ r\n",
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creal(Ew_s_recomp.rc), cimag(Ew_s_recomp.rc),
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creal(Ew_s_recomp.thetac), cimag(Ew_s_recomp.thetac),
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creal(Ew_s_recomp.phic), cimag(Ew_s_recomp.phic));
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double relerrfac = 2/(cabs(Ew_s_recomp.rc) + cabs(Ew_s.rc)
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+cabs(Ew_s_recomp.thetac) + cabs(Ew_s.thetac)
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+cabs(Ew_s_recomp.phic) + cabs(Ew_s.phic));
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printf(" rel. err. magnitude: %g @ r̂, %g @ θ̂, %g @ φ̂\n",
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cabs(Ew_s_recomp.rc - Ew_s.rc) * relerrfac,
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cabs(Ew_s_recomp.thetac - Ew_s.thetac) * relerrfac,
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cabs(Ew_s_recomp.phic - Ew_s.phic) * relerrfac
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);
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}
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return 0;
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}
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int test_planewave_decomposition_silent(cart3_t k, ccart3_t E, qpms_l_t lMax, qpms_normalisation_t norm, int npoints, cart3_t *points, double relerrthreshold, double *relerrs) {
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qpms_y_t nelem = qpms_lMax2nelem(lMax);
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int failcount = 0;
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complex double lc[nelem], mc[nelem], ec[nelem];
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if (QPMS_SUCCESS !=
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qpms_planewave2vswf_fill_cart(k, E, lc, mc, ec, lMax, norm)) {
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printf("Error\n");
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return -1;
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}
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sph_t k_sph = cart2sph(k);
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csphvec_t E_s = ccart2csphvec(E, k_sph);
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for (int i = 0; i < npoints; i++) {
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cart3_t w = points[i];
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sph_t w_sph = cart2sph(w);
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w_sph.r *= k_sph.r;
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double phase = cart3_dot(k,w);
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complex double phfac = cexp(phase * I);
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ccart3_t Ew = ccart3_scale(phfac, E);
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csphvec_t Ew_s = ccart2csphvec(Ew, w_sph);
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csphvec_t Ew_s_recomp = qpms_eval_vswf(w_sph,
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lc, mc, ec, lMax, QPMS_BESSEL_REGULAR, norm);
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ccart3_t Ew_recomp = csphvec2ccart(Ew_s_recomp, w_sph);
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double relerrfac = 2/(cabs(Ew_s_recomp.rc) + cabs(Ew_s.rc)
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+cabs(Ew_s_recomp.thetac) + cabs(Ew_s.thetac)
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+cabs(Ew_s_recomp.phic) + cabs(Ew_s.phic));
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double relerr = (cabs(Ew_s_recomp.rc - Ew_s.rc)
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+ cabs(Ew_s_recomp.thetac - Ew_s.thetac)
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+ cabs(Ew_s_recomp.phic - Ew_s.phic)
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) * relerrfac;
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if(relerrs) relerrs[i] = relerr;
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if(relerr > relerrthreshold) ++failcount;
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}
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return failcount;
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}
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#endif
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@ -627,7 +627,7 @@ static void qpms_trans_calculator_multipliers_B_Taylor(
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}
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int qpms_trans_calculator_multipliers_A(qpms_normalisation_t norm, complex double *dest, int m, int n, int mu, int nu, int qmax) {
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switch (norm) {
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switch (qpms_normalisation_t_normonly(norm)) {
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case QPMS_NORMALISATION_TAYLOR:
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#ifdef USE_SEPARATE_TAYLOR
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qpms_trans_calculator_multipliers_A_Taylor(dest,m,n,mu,nu,qmax);
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}
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int qpms_trans_calculator_multipliers_B(qpms_normalisation_t norm, complex double *dest, int m, int n, int mu, int nu, int qmax) {
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switch (norm) {
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switch (qpms_normalisation_t_normonly(norm)) {
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case QPMS_NORMALISATION_TAYLOR:
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#ifdef USE_SEPARATE_TAYLOR
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qpms_trans_calculator_multipliers_B_Taylor(dest,m,n,mu,nu,qmax);
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// TODO warn? different return value?
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return 0;
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}
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switch(c->normalisation) {
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switch(qpms_normalisation_t_normonly(c->normalisation)) {
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case QPMS_NORMALISATION_TAYLOR:
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case QPMS_NORMALISATION_KRISTENSSON:
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case QPMS_NORMALISATION_XU:
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@ -5,7 +5,7 @@
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void print_csphvec(csphvec_t v)
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{
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printf("(%f+%fj)r̂ + (%f+%fj)θ̂ + (%f+%fj)φ̂",
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printf("(%g+%gj)r̂ + (%g+%gj)θ̂ + (%g+%gj)φ̂",
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creal(v.rc), cimag(v.rc),
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creal(v.thetac), cimag(v.thetac),
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creal(v.phic), cimag(v.phic)
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void print_cart3(cart3_t v)
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{
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printf("%fx̂ + %fŷ + %fẑ", v.x, v.y, v.z);
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printf("%gx̂ + %gŷ + %gẑ", v.x, v.y, v.z);
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}
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void print_ccart3(ccart3_t v)
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{
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printf("(%f+%fj)x̂ + (%f+%fj)ŷ + (%f+%fj)ẑ",
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printf("(%g+%gj)x̂ + (%g+%gj)ŷ + (%g+%gj)ẑ",
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creal(v.x), cimag(v.x),
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creal(v.y), cimag(v.y),
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creal(v.z), cimag(v.z)
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