Build modeproblem matrix full w cached Bessels
Former-commit-id: 4cfd631317511ee8765f4a98a179f6295e4142c9
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@ -15,7 +15,7 @@ add_library (qpms SHARED translations.c tmatrices.c vecprint.c vswf.c wigner.c e
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ewaldsf.c pointgroups.c latticegens.c
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lattices2d.c gaunt.c error.c legendre.c symmetries.c vecprint.c
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bessel.c own_zgemm.c parsing.c scatsystem.c materials.c drudeparam_data.c
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lll.c beyn.c
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lll.c beyn.c scatsys_translation_booster.c
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)
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use_c99()
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@ -31,7 +31,7 @@ target_include_directories (qpms PUBLIC ${CMAKE_CURRENT_SOURCE_DIR})
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target_compile_options(qpms PRIVATE -Wall -Wno-return-type -Wno-unused-variable -Wno-unused-function -Wno-unused-but-set-variable -Wno-unused-label)
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target_compile_definitions(qpms PRIVATE LATTICESUMS32 QPMS_VECTORS_NICE_TRANSFORMATIONS
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EWALD_AUTO_CUTOFF
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EWALD_AUTO_CUTOFF QPMS_EVALUATE_PARANOID_ASSERTS
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)
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install(TARGETS qpms
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@ -1,9 +1,15 @@
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// Functionality to speedup translation matrix computations in large finite arrays
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// by caching Bessel function values etc.
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#include <cblas.h>
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#include "scatsystem.h"
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#include "translations_inlines.h"
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#include <assert.h>
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#include <stdlib.h>
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#include <math.h>
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#include <string.h>
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#include "vectors.h"
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#include "qpms_error.h"
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#include "qpms_specfunc.h"
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#define SQ(x) ((x)*(x))
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#define MAX(x, y) (((x) > (y)) ? (x) : (y))
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@ -54,11 +60,6 @@ typedef struct qpms_scatsys_translation_booster {
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size_t *bessel_offsets_r;
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} booster_t;
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struct uoppid_r_pair {
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double r;
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uoppid_t id;
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}
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/// Sorts an array and throws away duplicit elements.
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/**
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* The unique elements (according to the compare function)
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@ -68,7 +69,7 @@ struct uoppid_r_pair {
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*/
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static size_t sort_and_eliminate(void *base, size_t nmemb, size_t size,
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int (*compar)(const void *, const void *)) {
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if (nmemb = 0) return 0; // corner case
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if (nmemb == 0) return 0; // corner case
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qsort(base, nmemb, size, compar);
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size_t left = 0;
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for (size_t src = 1; src < nmemb; ++src) {
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@ -92,31 +93,31 @@ static int cmp_double(const void *aa, const void *bb) {
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}
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booster_t *qpms_scatsys_translation_booster_create(
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const qpms_scatsys_ss *ss) {
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const qpms_scatsys_t *ss) {
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const qpms_ss_pi_t np = ss->p_count;
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booster_t *b;
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QPMS_CRASHING_MALLOC(b, sizeof(*b));
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QPMS_CRASHING_MALLOC(b->r, sizeof(double) * uopairarr_len(np));
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for(qpms_ss_pi_t i = 0; i < np; ++i)
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for(qpms_ss_pi_t j = 0; j < i; ++j)
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b->r[uopairid(pn, i, j)] = cart3_dist(ss->p[i].pos, ss->p[j].pos);
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b->r_count = sort_and_eliminate(b->r, uopairrarr_len(np), sizeof(*b->r), cmp_double);
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b->r[uopairid(np, i, j)] = cart3_dist(ss->p[i].pos, ss->p[j].pos);
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b->r_count = sort_and_eliminate(b->r, uopairarr_len(np), sizeof(*b->r), cmp_double);
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QPMS_CRASHING_REALLOC(b->r, b->r_count * sizeof(*b->r));
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QPMS_CRASHING_CALLOC(b->lMax_r, b->r_count, sizeof(*b->lMax_r));
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for(qpms_ss_pi_t i = 0; i < np; ++i)
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for(qpms_ss_pi_t j = 0; j < i; ++j) {
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const uoppid_t pid = uopairid(pn, i, j);
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const uoppid_t pid = uopairid(np, i, j);
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const double r = cart3_dist(ss->p[i].pos, ss->p[j].pos);
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double *rhit = bsearch(&r, b->r, b->r_count, sizeof(*b->r), cmp_double);
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QPMS_ASSERT(rhit != NULL);
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QPMS_ASSERT(rhit >= b->r);
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const size_t ri = b->r_map[pid] = r_hit - b->r;
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const size_t ri = b->r_map[pid] = rhit - b->r;
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b->lMax_r[ri] = MAX(b->lMax_r[ri],
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MAX(qpms_ss_bspec_pi(ss, i)->lMax, qpms_ss_bspec_pi(ss, j)->lMax));
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}
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QPMS_CRASHING_MALLOC(b->bessel_offset_r, (b->r_count + 1) * sizeof(*b->bessel_offset_r));
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QPMS_CRASHING_MALLOC(b->bessel_offsets_r, (b->r_count + 1) * sizeof(*b->bessel_offsets_r));
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size_t bessel_offset = 0;
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for(size_t ri = 0; ri < b->r_count; ++ri) {
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b->bessel_offsets_r[ri] = bessel_offset;
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@ -134,6 +135,7 @@ static qpms_errno_t qpms_scatsys_translation_booster_eval_bessels(
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QPMS_ENSURE_SUCCESS(qpms_sph_bessel_fill(QPMS_HANKEL_PLUS, // Is there a case for different J?
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2*b->lMax_r[ri]+1, k * b->r[ri],
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target + b->bessel_offsets_r[ri]));
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}
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return QPMS_SUCCESS;
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}
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@ -143,4 +145,106 @@ typedef struct qpms_scatsysw_translation_booster {
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complex double *bessels;
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} boosterw_t;
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boosterw_t *qpms_scatsysw_translation_booster_create(
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const qpms_scatsys_at_omega_t *ssw) {
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QPMS_PARANOID_ASSERT(ssw->ss);
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const booster_t *const b = ssw->ss->tbooster;
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QPMS_ASSERT(b);
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boosterw_t *bw;
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QPMS_CRASHING_MALLOC(bw, sizeof(*bw));
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// Evaluate bessel functions
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QPMS_CRASHING_MALLOC(bw->bessels, b->bessel_offsets_r[b->r_count] * sizeof(*bw->bessels));
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for(size_t ri = 0; ri < b->r_count; ++ri) {
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QPMS_ENSURE_SUCCESS(qpms_sph_bessel_fill(QPMS_HANKEL_PLUS, // is there a case for other J?
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b->bessel_offsets_r[ri+1]-b->bessel_offsets_r[ri]-1,
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b->r[ri] * ssw->wavenumber,
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bw->bessels + b->bessel_offsets_r[ri]));
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}
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bw->b = b;
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return bw;
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}
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void qpms_scatsysw_translation_booster_free(boosterw_t *bw) {
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if (bw) {
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free (bw->bessels);
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}
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free (bw);
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}
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complex double *qpms_scatsysw_build_modeproblem_matrix_full_boosted(
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/// Target memory with capacity for ss->fecv_size**2 elements. If NULL, new will be allocated.
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complex double *target,
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const qpms_scatsys_at_omega_t *ssw)
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{
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QPMS_ASSERT(ssw->translation_cache && ssw->ss->tbooster);
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const qpms_scatsys_t *const ss = ssw->ss;
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const booster_t *const b = ss->tbooster;
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const boosterw_t *const bw = ssw->translation_cache;
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const qpms_trans_calculator *const c = ss->c;
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const complex double k = ssw->wavenumber;
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const size_t full_len = ss->fecv_size;
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if(!target)
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QPMS_CRASHING_MALLOC(target, SQ(full_len) * sizeof(complex double));
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complex double *tmp;
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QPMS_CRASHING_MALLOC(tmp, SQ(ss->max_bspecn) * sizeof(complex double));
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memset(target, 0, SQ(full_len) * sizeof(complex double)); //unnecessary?
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double legendre_buf[gsl_sf_legendre_array_n(2*c->lMax + 1)]; //VLA, workspace for legendre arrays
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const complex double zero = 0, minusone = -1;
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{ // Non-diagonal part; M[piR, piC] = -T[piR] S(piR<-piC)
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size_t fullvec_offsetR = 0;
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for(qpms_ss_pi_t piR = 0; piR < ss->p_count; ++piR) {
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const qpms_vswf_set_spec_t *bspecR = ssw->tm[ss->p[piR].tmatrix_id]->spec;
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const cart3_t posR = ss->p[piR].pos;
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size_t fullvec_offsetC = 0;
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// dest particle T-matrix
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const complex double *tmmR = ssw->tm[ss->p[piR].tmatrix_id]->m;
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for(qpms_ss_pi_t piC = 0; piC < ss->p_count; ++piC) {
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const qpms_vswf_set_spec_t *bspecC = ssw->tm[ss->p[piC].tmatrix_id]->spec;
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if(piC != piR) { // The diagonal will be dealt with later.
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uoppid_t pid = uopairid(ss->p_count, piC, piR);
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const cart3_t posC = ss->p[piC].pos;
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const sph_t dlj = cart2sph(cart3_substract(posR, posC));
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const size_t ri = b->r_map[pid];
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QPMS_PARANOID_ASSERT(dlj.r == b->r[ri]);
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const qpms_l_t pair_lMax = b->lMax_r[pid];
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const qpms_y_t pair_nelem = qpms_lMax2nelem(pair_lMax);
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{ // this replaces qpms_trans_calculator_get_trans_array():
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// R is dest, C is src
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QPMS_PARANOID_ASSERT(c->normalisation == bspecC->norm && c->normalisation == bspecR->norm);
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QPMS_PARANOID_ASSERT(c->lMax >= bspecC->lMax && c->lMax >= bspecR->lMax);
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QPMS_PARANOID_ASSERT(bspecC->lMax_L < 0 && bspecR->lMax_L < 0);
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complex double A[pair_nelem][pair_nelem]; // VLA, TODO flatten
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complex double B[pair_nelem][pair_nelem]; // VLA, TODO flatten
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{ // this replaces qpms_trans_calculator_get_AB_arrays() and ..._buf()
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const double costheta = cos(dlj.theta);
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QPMS_ENSURE_SUCCESS(gsl_sf_legendre_array_e(GSL_SF_LEGENDRE_NONE,
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2*c->lMax+1, costheta, -1, legendre_buf));
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const double * const legendres = legendre_buf;
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const complex double * const bessels = bw->bessels + b->bessel_offsets_r[ri];
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qpms_trans_calculator_get_AB_arrays_precalcbuf(c, pair_lMax, A[0], B[0],
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/*deststride*/ pair_nelem, /*srcstride*/ 1, dlj.phi, bessels, legendres);
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qpms_trans_array_from_AB(tmp,// tmp is S(piR<-piC)
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bspecR, bspecC->n, bspecC, 1, A[0], B[0], pair_lMax);
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}
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}
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cblas_zgemm(CblasRowMajor, CblasNoTrans, CblasNoTrans,
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bspecR->n /*m*/, bspecC->n /*n*/, bspecR->n /*k*/,
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&minusone/*alpha*/, tmmR/*a*/, bspecR->n/*lda*/,
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tmp/*b*/, bspecC->n/*ldb*/, &zero/*beta*/,
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target + fullvec_offsetR*full_len + fullvec_offsetC /*c*/,
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full_len /*ldc*/);
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}
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fullvec_offsetC += bspecC->n;
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}
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fullvec_offsetR += bspecR->n;
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}
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}
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// diagonal part M[pi,pi] = +1
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for (size_t i = 0; i < full_len; ++i) target[full_len * i + i] = +1;
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free(tmp);
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return target;
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}
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@ -1110,6 +1110,8 @@ complex double *qpms_scatsysw_build_modeproblem_matrix_full(
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const qpms_scatsys_at_omega_t *ssw
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)
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{
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if (ssw->translation_cache)
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return qpms_scatsysw_build_modeproblem_matrix_full_boosted(target, ssw);
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const complex double k = ssw->wavenumber;
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const qpms_scatsys_t *ss = ssw->ss;
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const size_t full_len = ss->fecv_size;
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@ -134,9 +134,6 @@ typedef struct qpms_ss_derived_tmatrix_t {
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struct qpms_trans_calculator;
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struct qpms_scatsys_translation_booster;
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void qpms_scatsys_translation_booster_free(struct qpms_scatsys_translation_booster *);
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struct qpms_scatsys_translation_booster *qpms_scatsys_translation_booster_create(
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const qpms_scatsys_ss *ss);
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typedef struct qpms_scatsys_t {
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struct qpms_epsmu_generator_t medium; ///< Optical properties of the background medium.
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@ -551,6 +548,10 @@ struct beyn_result_t *qpms_scatsys_finite_find_eigenmodes(
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double res_tol ///< (default: `0.0`) TODO DOC.
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);
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void qpms_scatsys_translation_booster_free(struct qpms_scatsys_translation_booster *);
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struct qpms_scatsys_translation_booster *qpms_scatsys_translation_booster_create(
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const qpms_scatsys_t *ss);
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#if 0
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/// Searches for scattering system's eigenmodes using Beyn's algorithm.
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/**
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