Code reuse
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@ -2043,6 +2043,38 @@ ccart3_t qpms_scatsysw_scattered_E(const qpms_scatsys_at_omega_t *ssw,
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cvf, where);
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}
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static const int DIPSPECN = 3;
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// Evaluates the regular electric dipole waves in the origin. The returned
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// value is not to be freed as in the usual case.
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static inline const qpms_vswf_set_spec_t qpms_fill_regdipoles_0(
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ccart3_t regdipoles_0[DIPSPECN], qpms_normalisation_t normalisation) {
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static const int dipspecn = DIPSPECN; // We have three basis vectors
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// bspec containing only electric dipoles
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const qpms_vswf_set_spec_t dipspec = {
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.n = dipspecn,
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.ilist = (qpms_uvswfi_t[]){
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qpms_tmn2uvswfi(QPMS_VSWF_ELECTRIC, -1, 1),
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qpms_tmn2uvswfi(QPMS_VSWF_ELECTRIC, 0, 1),
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qpms_tmn2uvswfi(QPMS_VSWF_ELECTRIC, +1, 1),
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},
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.lMax=1, .lMax_M=0, .lMax_N=1, .lMax_L=-1,
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.capacity=0,
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.norm = normalisation,
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};
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const sph_t origin_sph = {.r = 0, .theta = M_PI_2, .phi=0}; // Should work with any theta/phi (TESTWORTHY)
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csphvec_t regdipoles_0_sph[dipspecn];
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QPMS_ENSURE_SUCCESS(qpms_uvswf_fill(regdipoles_0_sph, &dipspec,
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sph2csph(origin_sph), QPMS_BESSEL_REGULAR));
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for(int i = 0; i < dipspecn; ++i)
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regdipoles_0[i] = csphvec2ccart(regdipoles_0_sph[i], origin_sph);
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return dipspec;
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}
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// Alternative implementation, using translation operator and regular dipole waves at zero
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ccart3_t qpms_scatsys_scattered_E__alt(const qpms_scatsys_t *ss,
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qpms_bessel_t btyp,
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@ -2055,28 +2087,8 @@ ccart3_t qpms_scatsys_scattered_E__alt(const qpms_scatsys_t *ss,
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ccart3_t res = {0,0,0};
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ccart3_t res_kc = {0,0,0}; // kahan sum compensation
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static const int dipspecn = 3; // We have three basis vectors
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// bspec containing only electric dipoles
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const qpms_vswf_set_spec_t dipspec = {
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.n = dipspecn,
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.ilist = (qpms_uvswfi_t[]){
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qpms_tmn2uvswfi(QPMS_VSWF_ELECTRIC, -1, 1),
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qpms_tmn2uvswfi(QPMS_VSWF_ELECTRIC, 0, 1),
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qpms_tmn2uvswfi(QPMS_VSWF_ELECTRIC, +1, 1),
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},
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.lMax=1, .lMax_M=0, .lMax_N=1, .lMax_L=-1,
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.capacity=0,
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.norm = ss->c->normalisation,
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};
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ccart3_t regdipoles_0[dipspecn]; {
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const sph_t origin_sph = {.r = 0, .theta = M_PI_2, .phi=0}; // Should work with any theta/phi (TESTWORTHY)
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csphvec_t regdipoles_0_sph[dipspecn];
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QPMS_ENSURE_SUCCESS(qpms_uvswf_fill(regdipoles_0_sph, &dipspec,
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sph2csph(origin_sph), QPMS_BESSEL_REGULAR));
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for(int i = 0; i < dipspecn; ++i)
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regdipoles_0[i] = csphvec2ccart(regdipoles_0_sph[i], origin_sph);
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}
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ccart3_t regdipoles_0[DIPSPECN];
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const qpms_vswf_set_spec_t dipspec = qpms_fill_regdipoles_0(regdipoles_0, ss->c->normalisation);
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complex double *s; // Translation matrix
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QPMS_CRASHING_MALLOC(s, ss->max_bspecn * sizeof(*s) * dipspec.n);
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@ -2089,11 +2101,11 @@ ccart3_t qpms_scatsys_scattered_E__alt(const qpms_scatsys_t *ss,
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const cart3_t origin_cart = {0, 0, 0};
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QPMS_ENSURE_SUCCESS(qpms_trans_calculator_get_trans_array_lc3p(
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ss->c, s, &dipspec, 1, bspec, dipspecn, k, particle_pos, where, btyp));
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ss->c, s, &dipspec, 1, bspec, dipspec.n, k, particle_pos, where, btyp));
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for(size_t i = 0; i < bspec->n; ++i)
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for(size_t j = 0; j < dipspecn; ++j){
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ccart3_t summand = ccart3_scale(particle_cv[i] * s[dipspecn*i+j], regdipoles_0[j]);
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for(size_t j = 0; j < dipspec.n; ++j){
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ccart3_t summand = ccart3_scale(particle_cv[i] * s[dipspec.n*i+j], regdipoles_0[j]);
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ckahanadd(&(res.x), &(res_kc.x), summand.x);
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ckahanadd(&(res.y), &(res_kc.y), summand.y);
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ckahanadd(&(res.z), &(res_kc.z), summand.z);
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@ -2125,28 +2137,8 @@ ccart3_t qpms_scatsyswk_scattered_E(const qpms_scatsys_at_omega_k_t *sswk,
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ccart3_t res = {0,0,0};
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ccart3_t res_kc = {0,0,0}; // kahan sum compensation
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static const int dipspecn = 3; // We have three basis vectors
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// bspec containing only electric dipoles
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const qpms_vswf_set_spec_t dipspec = {
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.n = dipspecn,
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.ilist = (qpms_uvswfi_t[]){
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qpms_tmn2uvswfi(QPMS_VSWF_ELECTRIC, -1, 1),
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qpms_tmn2uvswfi(QPMS_VSWF_ELECTRIC, 0, 1),
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qpms_tmn2uvswfi(QPMS_VSWF_ELECTRIC, +1, 1),
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},
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.lMax=1, .lMax_M=0, .lMax_N=1, .lMax_L=-1,
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.capacity=0,
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.norm = ss->c->normalisation,
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};
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ccart3_t regdipoles_0[dipspecn]; {
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const sph_t origin_sph = {.r = 0, .theta = M_PI_2, .phi=0}; // Should work with any theta/phi (TESTWORTHY)
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csphvec_t regdipoles_0_sph[dipspecn];
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QPMS_ENSURE_SUCCESS(qpms_uvswf_fill(regdipoles_0_sph, &dipspec,
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sph2csph(origin_sph), QPMS_BESSEL_REGULAR));
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for(int i = 0; i < dipspecn; ++i)
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regdipoles_0[i] = csphvec2ccart(regdipoles_0_sph[i], origin_sph);
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}
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ccart3_t regdipoles_0[DIPSPECN];
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const qpms_vswf_set_spec_t dipspec = qpms_fill_regdipoles_0(regdipoles_0, ss->c->normalisation);
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complex double *s; // Translation matrix
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QPMS_CRASHING_MALLOC(s, ss->max_bspecn * sizeof(*s) * dipspec.n);
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@ -2168,15 +2160,15 @@ ccart3_t qpms_scatsyswk_scattered_E(const qpms_scatsys_at_omega_k_t *sswk,
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QPMS_ENSURE_SUCCESS(qpms_trans_calculator_get_trans_array_e32(
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ss->c, s, NULL,
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&dipspec, 1, bspec, dipspecn,
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&dipspec, 1, bspec, dipspec.n,
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sswk->eta, sswk->ssw->wavenumber,
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cart3xy2cart2(ss->per.lattice_basis[0]), cart3xy2cart2(ss->per.lattice_basis[1]),
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cart2_from_double_array(sswk->k), cart3_substract(where, particle_pos) /*CHECKSIGN*/,
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maxR, maxK));
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for(size_t i = 0; i < bspec->n; ++i)
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for(size_t j = 0; j < dipspecn; ++j){
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ccart3_t summand = ccart3_scale(particle_cv[i] * s[dipspecn*i+j], regdipoles_0[j]);
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for(size_t j = 0; j < dipspec.n; ++j){
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ccart3_t summand = ccart3_scale(particle_cv[i] * s[dipspec.n*i+j], regdipoles_0[j]);
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ckahanadd(&(res.x), &(res_kc.x), summand.x);
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ckahanadd(&(res.y), &(res_kc.y), summand.y);
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ckahanadd(&(res.z), &(res_kc.z), summand.z);
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@ -2201,28 +2193,8 @@ qpms_errno_t qpms_scatsyswk_scattered_field_basis(
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//ccart3_t res = {0,0,0};
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//ccart3_t res_kc = {0,0,0}; // kahan sum compensation
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static const int dipspecn = 3; // We have three basis vectors
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// bspec containing only electric dipoles
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const qpms_vswf_set_spec_t dipspec = {
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.n = dipspecn,
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.ilist = (qpms_uvswfi_t[]){
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qpms_tmn2uvswfi(QPMS_VSWF_ELECTRIC, -1, 1),
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qpms_tmn2uvswfi(QPMS_VSWF_ELECTRIC, 0, 1),
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qpms_tmn2uvswfi(QPMS_VSWF_ELECTRIC, +1, 1),
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},
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.lMax=1, .lMax_M=0, .lMax_N=1, .lMax_L=-1,
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.capacity=0,
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.norm = ss->c->normalisation,
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};
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ccart3_t regdipoles_0[dipspecn]; {
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const sph_t origin_sph = {.r = 0, .theta = M_PI_2, .phi=0}; // Should work with any theta/phi (TESTWORTHY)
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csphvec_t regdipoles_0_sph[dipspecn];
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QPMS_ENSURE_SUCCESS(qpms_uvswf_fill(regdipoles_0_sph, &dipspec,
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sph2csph(origin_sph), QPMS_BESSEL_REGULAR));
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for(int i = 0; i < dipspecn; ++i)
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regdipoles_0[i] = csphvec2ccart(regdipoles_0_sph[i], origin_sph);
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}
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ccart3_t regdipoles_0[DIPSPECN];
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const qpms_vswf_set_spec_t dipspec = qpms_fill_regdipoles_0(regdipoles_0, ss->c->normalisation);
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complex double *s; // Translation matrix
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QPMS_CRASHING_MALLOC(s, ss->max_bspecn * sizeof(*s) * dipspec.n);
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@ -2246,17 +2218,17 @@ qpms_errno_t qpms_scatsyswk_scattered_field_basis(
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QPMS_ENSURE_SUCCESS(qpms_trans_calculator_get_trans_array_e32(
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ss->c, s, NULL,
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&dipspec, 1, bspec, dipspecn,
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&dipspec, 1, bspec, dipspec.n,
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sswk->eta, sswk->ssw->wavenumber,
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cart3xy2cart2(ss->per.lattice_basis[0]), cart3xy2cart2(ss->per.lattice_basis[1]),
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cart2_from_double_array(sswk->k), cart3_substract(where, particle_pos) /*CHECKSIGN*/,
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maxR, maxK));
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for(size_t i = 0; i < bspec->n; ++i)
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for(size_t j = 0; j < dipspecn; ++j){
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for(size_t j = 0; j < dipspec.n; ++j){
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target[ss->fecv_pstarts[pi] + i] = ccart3_add(target[ss->fecv_pstarts[pi] + i],
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ccart3_scale(s[dipspecn*i+j], regdipoles_0[j]));
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//ccart3_t summand = ccart3_scale(particle_cv[i] * s[dipspecn*i+j], regdipoles_0[j]);
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ccart3_scale(s[dipspec.n*i+j], regdipoles_0[j]));
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//ccart3_t summand = ccart3_scale(particle_cv[i] * s[dipspec.n*i+j], regdipoles_0[j]);
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//ckahanadd(&(res.x), &(res_kc.x), summand.x);
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//ckahanadd(&(res.y), &(res_kc.y), summand.y);
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//ckahanadd(&(res.z), &(res_kc.z), summand.z);
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