Disable "hard" examples in CI
[qpms.git] / oldtests / sss4.c
blob5a50ac82e9337c62bb581fb1884c797e431b5a1e
1 // c99 -g -DNLINE -DDAGRUP=C4v -DDUMP_PARTICLE_POSITIONS -DDUMP_ORBIT_ACTION -DDUMP_PROJECTORMATRIX -DDUMP_ACTIONMATRIX -I.. sss3.c staticgroups.c ../qpms/scatsystem.c ../qpms/vswf.c ../qpms/error.c ../qpms/translations.c ../qpms/symmetries.c ../qpms/legendre.c ../qpms/gaunt.c ../qpms/wigner.c -lm -lgsl -llapacke ~/repo/CBLAS/lib/cblas_LINUX.a ~/repo/BLAS-3.8.0/blas_LINUX.a
2 typedef int qpms_gmi_t;// There is something wrong in the includes, apparently.
3 #include <qpms/qpms_types.h>
4 #include <qpms/scatsystem.h>
5 #include <stdlib.h>
6 #include <qpms/vswf.h>
7 #include <qpms/indexing.h>
8 #include <stdio.h>
9 #include "staticgroups.h"
11 const qpms_finite_group_t *D3h = &QPMS_FINITE_GROUP_D3h;
12 const qpms_finite_group_t *C4v = &QPMS_FINITE_GROUP_C4v;
13 const qpms_finite_group_t *TRIVG = &QPMS_FINITE_GROUP_trivial_g;
14 const qpms_finite_group_t *C2v = &QPMS_FINITE_GROUP_C2v;
15 const qpms_finite_group_t *C2 = &QPMS_FINITE_GROUP_C2;
16 const qpms_finite_group_t *C4 = &QPMS_FINITE_GROUP_C4;
17 const qpms_finite_group_t *D2h = &QPMS_FINITE_GROUP_D2h;
18 const qpms_finite_group_t *D4h = &QPMS_FINITE_GROUP_D4h;
19 const qpms_finite_group_t *x_and_z_flip = &QPMS_FINITE_GROUP_x_and_z_flip;
20 const qpms_finite_group_t *y_and_z_flip = &QPMS_FINITE_GROUP_y_and_z_flip;
22 #ifndef DAGRUP
23 #define DAGRUP D4h
24 #endif
26 double uniform_random(double min, double max) {
27 double random_value = min + (max-min)*(double)rand()/RAND_MAX;
28 return random_value;
31 int main()
33 srand(666);
34 #if 1
35 qpms_vswf_set_spec_t
36 *b1 = qpms_vswf_set_spec_from_lMax(1,QPMS_NORMALISATION_POWER_CS),
37 *b2 = qpms_vswf_set_spec_from_lMax(2,QPMS_NORMALISATION_POWER_CS);
38 #else
39 // Only electric waves
40 qpms_vswf_set_spec_t *b1 = qpms_vswf_set_spec_init(),
41 *b2 = qpms_vswf_set_spec_init();
42 b1->norm = b2-> norm = QPMS_NORMALISATION_POWER_CS;
43 for(qpms_l_t l = 1; l <= 1; ++l)
44 for (qpms_m_t m = -l; m <= l; m += 1)
45 qpms_vswf_set_spec_append(b1, qpms_tmn2uvswfi(QPMS_VSWF_ELECTRIC, m, l));
46 for(qpms_l_t l = 1; l <= 1; ++l)
47 for (qpms_m_t m = -l; m <= l; m += 1)
48 qpms_vswf_set_spec_append(b2, qpms_tmn2uvswfi(QPMS_VSWF_ELECTRIC, m, l));
49 #endif
50 qpms_tmatrix_t *t1 = qpms_tmatrix_init(b1);
51 qpms_tmatrix_t *t2 = qpms_tmatrix_init(b2);
53 #if 0
54 // Random diagonal T-matrices
55 for(size_t i = 0; i < b1->n; ++i)
56 t1->m[i + i*b1->n] = uniform_random(-1,1) + I*uniform_random(-1,1);
57 for(size_t i = 0; i < b2->n; ++i)
58 t2->m[i + i*b2->n] = uniform_random(-1,1) + I*uniform_random(-1,1);
59 #else
60 for(size_t i = 0; i < b1->n; ++i)
61 t1->m[i + i*b1->n] = 1;
62 for(size_t i = 0; i < b2->n; ++i)
63 t2->m[i + i*b2->n] = 1;
64 #endif
66 #ifdef YLINE
67 const cart3_t pp1 = {0, 1.1, 0};
68 const cart3_t pp2 = {0, 1.4, 0};
69 #elif defined XLINE
70 const cart3_t pp1 = {1.1, 0, 0};
71 const cart3_t pp2 = {1.4, 0, 0};
72 #elif defined ZLINE
73 const cart3_t pp1 = {0, 0, 1.1};
74 const cart3_t pp2 = {0, 0, 1.4};
75 #else
76 const cart3_t pp1 = {1.1, 1, 0};
77 const cart3_t pp2 = {0, 1.4, 0};
78 const cart3_t pp4 = {2, 1.4, 0};
79 #endif
80 const cart3_t pp3 = {0, 0, 0};
81 qpms_tmatrix_t * tmlist[] = {t1, t2};
82 qpms_particle_tid_t plist[] = {{pp1,1}, {pp2, 0}, {pp3, 1}, {pp4,1}
85 qpms_scatsys_t protoss;
86 protoss.tm = tmlist;
87 protoss.tm_count=sizeof(tmlist)/sizeof(qpms_tmatrix_t *);
88 protoss.p = plist;
89 protoss.p_count=sizeof(plist)/sizeof(qpms_particle_tid_t);
91 qpms_scatsys_t *ss = qpms_scatsys_apply_symmetry(&protoss, DAGRUP);
93 printf("p_count: %d, tm_count: %d, nirreps: %d, orbit_type_count: %d\n",
94 (int)ss->p_count, (int)ss->tm_count, (int)ss->sym->nirreps,
95 (int)ss->orbit_type_count);
97 fputs("Orbit projection matrices:\n", stderr);
98 for (qpms_ss_oti_t oti = 0; oti < ss->orbit_type_count; ++oti) {
99 fprintf(stderr, "Orbit type %d:\n", (int)oti);
100 const qpms_ss_orbit_type_t *ot = &(ss->orbit_types[oti]);
101 size_t row = 0;
102 for (qpms_iri_t iri = 0; iri < ss->sym->nirreps; ++iri) {
103 assert(row*ot->size*ot->bspecn == ot->irbase_offsets[iri]);
104 fprintf(stderr, "---------- IR %d (%s) -------------\n", (int)iri, ss->sym->irreps[iri].name);
105 for (size_t irbi = 0; irbi < ot->irbase_sizes[iri]; ++irbi) {
106 for(qpms_ss_orbit_pi_t opi = 0; opi < ot->size; ++opi){
107 fputs("| ", stderr);
108 for(size_t i = 0; i < ot->bspecn; ++i) {
109 const complex double elem = ot->irbases[row * ot->size * ot->bspecn
110 + opi * ot->bspecn + i];
111 fprintf(stderr, "%+.3f%+.3fj ", creal(elem), cimag(elem));
114 fputs("|\n", stderr);
115 ++row;
118 fputs("------------------------\n\n",stderr);
121 const double k = 1.7;
123 complex double *S_full = qpms_scatsys_build_translation_matrix_full(
124 NULL, ss, k);
126 const size_t full_len = ss->fecv_size;
127 size_t fullvec_offset_dest = 0;
128 for (qpms_ss_pi_t pdest = 0; pdest < ss->p_count; pdest++) {
129 size_t fullvec_offset_src = 0;
130 const size_t bspecn_dest = ss->tm[ss->p[pdest].tmatrix_id]->spec->n;
131 for (qpms_ss_pi_t psrc = 0; psrc < ss->p_count; psrc++) {
132 const size_t bspecn_src = ss->tm[ss->p[psrc].tmatrix_id]->spec->n;
133 fprintf(stderr, "Translation matrix element %d<-%d; (%g %g %g)<-(%g %g %g):\n",
134 (int)pdest, (int)psrc, ss->p[pdest].pos.x, ss->p[pdest].pos.y, ss->p[pdest].pos.z,
135 ss->p[psrc].pos.x, ss->p[psrc].pos.y, ss->p[psrc].pos.z);
137 for(size_t row = 0; row < bspecn_dest; ++row) {
138 for(size_t col = 0; col < bspecn_src; ++col)
139 fprintf(stderr, "%+2.3f%+2.3fj ", creal(S_full[full_len * (fullvec_offset_dest+row) + fullvec_offset_src+col]),
140 cimag(S_full[full_len * (fullvec_offset_dest+row) + fullvec_offset_src+col]));
141 fputc('\n', stderr);
143 fullvec_offset_src += bspecn_src;
145 fullvec_offset_dest += bspecn_dest;
149 fputs("\n\n", stderr);
150 const size_t full_len = ss->fecv_size;
151 for (size_t row = 0 ; row < full_len; ++row) {
152 for (size_t col = 0 ; col < full_len; ++col)
153 fprintf(stderr, "%+2.3f%+2.3fj ", creal(S_full[full_len * row + col]), cimag(S_full[full_len * row + col]));
154 fputc('\n', stderr);
158 complex double *S_packed[ss->sym->nirreps];
159 for (qpms_iri_t iri = 0; iri < ss->sym->nirreps; ++iri) {
160 S_packed[iri] = qpms_scatsys_irrep_pack_matrix_stupid(NULL,
161 S_full, ss, iri);
162 fprintf(stderr, "--- Packed matrix for irrep %d (%s):\n", (int) iri, ss->sym->irreps[iri].name);
163 for (size_t row = 0; row < ss->saecv_sizes[iri]; ++row) {
164 for (size_t col = 0; col < ss->saecv_sizes[iri]; ++col) {
165 complex double elem = S_packed[iri][row * ss->saecv_sizes[iri] + col];
166 fprintf(stderr, "%+.3f+%.3fj ", creal(elem), cimag(elem));
168 fputc('\n', stderr);
172 complex double *S_partrecfull = qpms_scatsys_irrep_unpack_matrix_stupid(NULL,
173 S_packed[0], ss, 0, false);
174 for (qpms_iri_t iri = 0; iri < ss->sym->nirreps; ++iri) {
175 qpms_scatsys_irrep_unpack_matrix_stupid(S_partrecfull, S_packed[iri],
176 ss, iri, false);
177 fprintf(stderr, "\nPartial reconstruction %d (%s):\n", (int)iri, ss->sym->irreps[iri].name);
178 const size_t full_len = ss->fecv_size;
179 for (size_t row = 0 ; row < full_len; ++row) {
180 for (size_t col = 0 ; col < full_len; ++col)
181 fprintf(stderr, "%+2.3f%+2.3fj ", creal(S_partrecfull[full_len * row + col]), cimag(S_partrecfull[full_len * row + col]));
182 fputc('\n', stderr);
186 double maxerr = 0;
187 for (size_t i = 0; i < ss->fecv_size; ++i) {
188 double err = cabs(S_full[i] - S_partrecfull[i]);
189 maxerr = (err > maxerr) ? err : maxerr;
191 free(S_partrecfull);
195 complex double *S_recfull = qpms_scatsys_irrep_unpack_matrix_stupid(NULL,
196 S_packed[0], ss, 0, false);
197 for (qpms_iri_t iri = 1; iri < ss->sym->nirreps; ++iri)
198 qpms_scatsys_irrep_unpack_matrix_stupid(S_recfull, S_packed[iri],
199 ss, iri, true);
201 fputs("\n\n", stderr);
202 const size_t full_len = ss->fecv_size;
203 for (size_t row = 0 ; row < full_len; ++row) {
204 for (size_t col = 0 ; col < full_len; ++col)
205 fprintf(stderr, "%+2.3f%+2.3fj ", creal(S_recfull[full_len * row + col]), cimag(S_recfull[full_len * row + col]));
206 fputc('\n', stderr);
210 double maxerr = 0;
211 for (size_t i = 0; i < ss->fecv_size; ++i) {
212 double err = cabs(S_full[i] - S_recfull[i]);
213 maxerr = (err > maxerr) ? err : maxerr;
217 printf("maxerr: %lg\n", maxerr);
219 fprintf(stderr, "pi\tpos\toti\tosn\tp\n");
220 for(qpms_ss_pi_t pi = 0; pi < ss->p_count; ++pi) {
221 cart3_t pos = ss->p[pi].pos;
222 qpms_ss_oti_t oti = ss->p_orbitinfo[pi].t;
223 qpms_ss_osn_t osn = ss->p_orbitinfo[pi].osn;
224 qpms_ss_orbit_pi_t p = ss->p_orbitinfo[pi].p;
225 fprintf(stderr, "%d\t(%.3g,%.3g,%.3g)\t%d\t%d\t%d\n",
226 (int)pi, pos.x, pos.y, pos.z, (int)oti, (int)osn, (int)p);
229 for (qpms_iri_t iri = 0; iri < ss->sym->nirreps; ++iri) free(S_packed[iri]);
230 free(S_full);
231 qpms_scatsys_free(ss);
232 qpms_tmatrix_free(t1);
233 qpms_tmatrix_free(t2);
234 qpms_vswf_set_spec_free(b1);
235 qpms_vswf_set_spec_free(b2);
236 return 0;