diff options
Diffstat (limited to 'tests/src/test_gensvm_optimize.c')
| -rw-r--r-- | tests/src/test_gensvm_optimize.c | 754 |
1 files changed, 0 insertions, 754 deletions
diff --git a/tests/src/test_gensvm_optimize.c b/tests/src/test_gensvm_optimize.c index d7326f7..c233ec3 100644 --- a/tests/src/test_gensvm_optimize.c +++ b/tests/src/test_gensvm_optimize.c @@ -324,453 +324,6 @@ char *test_gensvm_get_loss_2() return NULL; } -char *test_gensvm_calculate_omega() -{ - struct GenModel *model = gensvm_init_model(); - struct GenData *data = gensvm_init_data(); - - int n = 5, - m = 3, - K = 3; - - data->n = n; - data->m = m; - data->K = K; - - data->y = Calloc(long, n); - data->y[0] = 2; - data->y[1] = 1; - data->y[2] = 3; - data->y[3] = 2; - data->y[4] = 3; - - model->n = n; - model->m = m; - model->K = K; - model->p = 1.213; - gensvm_allocate_model(model); - - matrix_set(model->H, model->K, 0, 0, 0.8465725800087526); - matrix_set(model->H, model->K, 0, 1, 1.2876921677680249); - matrix_set(model->H, model->K, 0, 2, 1.0338561593991831); - matrix_set(model->H, model->K, 1, 0, 1.1891038526621391); - matrix_set(model->H, model->K, 1, 1, 0.4034192031226095); - matrix_set(model->H, model->K, 1, 2, 1.5298894170910078); - matrix_set(model->H, model->K, 2, 0, 1.3505111116922732); - matrix_set(model->H, model->K, 2, 1, 1.4336863304586636); - matrix_set(model->H, model->K, 2, 2, 1.7847533480330757); - matrix_set(model->H, model->K, 3, 0, 1.7712504341475415); - matrix_set(model->H, model->K, 3, 1, 1.6905146737773038); - matrix_set(model->H, model->K, 3, 2, 0.8189336598535132); - matrix_set(model->H, model->K, 4, 0, 0.6164203008844277); - matrix_set(model->H, model->K, 4, 1, 0.2456444285093894); - matrix_set(model->H, model->K, 4, 2, 0.8184193969741095); - - // start test code // - mu_assert(fabs(gensvm_calculate_omega(model, data, 0) - - 0.7394076262220608) < 1e-14, - "Incorrect omega at 0"); - mu_assert(fabs(gensvm_calculate_omega(model, data, 1) - - 0.7294526264247443) < 1e-14, - "Incorrect omega at 1"); - mu_assert(fabs(gensvm_calculate_omega(model, data, 2) - - 0.6802499471888741) < 1e-14, - "Incorrect omega at 2"); - mu_assert(fabs(gensvm_calculate_omega(model, data, 3) - - 0.6886792032441273) < 1e-14, - "Incorrect omega at 3"); - mu_assert(fabs(gensvm_calculate_omega(model, data, 4) - - 0.8695329737474283) < 1e-14, - "Incorrect omega at 4"); - - // end test code // - - gensvm_free_model(model); - gensvm_free_data(data); - - return NULL; -} - -char *test_gensvm_majorize_is_simple() -{ - struct GenModel *model = gensvm_init_model(); - struct GenData *data = gensvm_init_data(); - - int n = 5, - m = 3, - K = 3; - - data->n = n; - data->m = m; - data->K = K; - - data->y = Calloc(long, n); - data->y[0] = 2; - data->y[1] = 1; - data->y[2] = 3; - data->y[3] = 2; - data->y[4] = 3; - - model->n = n; - model->m = m; - model->K = K; - model->p = 1.213; - gensvm_allocate_model(model); - - matrix_set(model->H, model->K, 0, 0, 0.8465725800087526); - matrix_set(model->H, model->K, 0, 1, 1.2876921677680249); - matrix_set(model->H, model->K, 0, 2, 1.0338561593991831); - matrix_set(model->H, model->K, 1, 0, 1.1891038526621391); - matrix_set(model->H, model->K, 1, 1, 0.4034192031226095); - matrix_set(model->H, model->K, 1, 2, 0.0); - matrix_set(model->H, model->K, 2, 0, 0.5); - matrix_set(model->H, model->K, 2, 1, 0.0); - matrix_set(model->H, model->K, 2, 2, 1.1); - matrix_set(model->H, model->K, 3, 0, 0.0); - matrix_set(model->H, model->K, 3, 1, 0.0); - matrix_set(model->H, model->K, 3, 2, 0.8189336598535132); - matrix_set(model->H, model->K, 4, 0, 0.6164203008844277); - matrix_set(model->H, model->K, 4, 1, 0.2456444285093894); - matrix_set(model->H, model->K, 4, 2, 0.8184193969741095); - - // start test code // - mu_assert(gensvm_majorize_is_simple(model, data, 0) == false, - "Incorrect simple at 0"); - mu_assert(gensvm_majorize_is_simple(model, data, 1) == true, - "Incorrect simple at 1"); - mu_assert(gensvm_majorize_is_simple(model, data, 2) == true, - "Incorrect simple at 2"); - mu_assert(gensvm_majorize_is_simple(model, data, 3) == true, - "Incorrect simple at 3"); - mu_assert(gensvm_majorize_is_simple(model, data, 4) == false, - "Incorrect simple at 4"); - - // end test code // - - gensvm_free_model(model); - gensvm_free_data(data); - return NULL; -} - -char *test_gensvm_calculate_ab_non_simple() -{ - struct GenModel *model = gensvm_init_model(); - int n = 1, - m = 1, - K = 1; - - model->n = n; - model->m = m; - model->K = K; - model->kappa = 0.5; - - gensvm_allocate_model(model); - - // start test code // - double a, b_aq; - - // tests with p = 2 - model->p = 2.0; - matrix_set(model->Q, K, 0, 0, -1.0); - gensvm_calculate_ab_non_simple(model, 0, 0, &a, &b_aq); - mu_assert(fabs(a - 1.5) < 1e-14, "Incorrect value for a (1)"); - mu_assert(fabs(b_aq - 1.25) < 1e-14, "Incorrect value for b (1)"); - - matrix_set(model->Q, K, 0, 0, 0.5); - gensvm_calculate_ab_non_simple(model, 0, 0, &a, &b_aq); - mu_assert(fabs(a - 1.5) < 1e-14, "Incorrect value for a (2)"); - mu_assert(fabs(b_aq - 0.0277777777777778) < 1e-14, - "Incorrect value for b (2)"); - - matrix_set(model->Q, K, 0, 0, 2.0); - gensvm_calculate_ab_non_simple(model, 0, 0, &a, &b_aq); - mu_assert(fabs(a - 1.5) < 1e-14, "Incorrect value for a (3)"); - mu_assert(fabs(b_aq - 0.0) < 1e-14, "Incorrect value for b (3)"); - - // tests with p != 2 (namely, 1.5) - // Note that here (p + kappa - 1)/(p - 2) = -2 - // - // We distinguish: q <= (p + kappa - 1)/(p - 2) - // q in (p + kappa - 1)/(p - 2), -kappa] - // q in (-kappa, 1] - // q > 1 - model->p = 1.5; - matrix_set(model->Q, K, 0, 0, -3.0); - gensvm_calculate_ab_non_simple(model, 0, 0, &a, &b_aq); - mu_assert(fabs(a - 0.312018860376691) < 1e-14, - "Incorrect value for a (4)"); - mu_assert(fabs(b_aq - 1.35208172829900) < 1e-14, - "Incorrect value for b (4)"); - - matrix_set(model->Q, K, 0, 0, -1.0); - gensvm_calculate_ab_non_simple(model, 0, 0, &a, &b_aq); - mu_assert(fabs(a - 0.866025403784439) < 1e-14, - "Incorrect value for a (5)"); - mu_assert(fabs(b_aq - 0.838525491562421) < 1e-14, - "Incorrect value for b (5)"); - - matrix_set(model->Q, K, 0, 0, 0.5); - gensvm_calculate_ab_non_simple(model, 0, 0, &a, &b_aq); - mu_assert(fabs(a - 0.866025403784439) < 1e-14, - "Incorrect value for a (6)"); - mu_assert(fabs(b_aq - 0.0721687836487032) < 1e-14, - "Incorrect value for b (6)"); - - matrix_set(model->Q, K, 0, 0, 2.0); - gensvm_calculate_ab_non_simple(model, 0, 0, &a, &b_aq); - mu_assert(fabs(a - 0.245495126515491) < 1e-14, - "Incorrect value for a (7)"); - mu_assert(fabs(b_aq - 0.0) < 1e-14, - "Incorrect value for b (7)"); - // end test code // - - gensvm_free_model(model); - - return NULL; -} - -char *test_gensvm_calculate_ab_simple() -{ - struct GenModel *model = gensvm_init_model(); - int n = 1, - m = 1, - K = 1; - - model->n = n; - model->m = m; - model->K = K; - model->kappa = 0.5; - - gensvm_allocate_model(model); - - // start test code // - double a, b_aq; - - matrix_set(model->Q, K, 0, 0, -1.5); - gensvm_calculate_ab_simple(model, 0, 0, &a, &b_aq); - mu_assert(fabs(a - 0.142857142857143) < 1e-14, - "Incorrect value for a (1)"); - mu_assert(fabs(b_aq - 0.5) < 1e-14, - "Incorrect value for b (1)"); - - matrix_set(model->Q, K, 0, 0, 0.75); - gensvm_calculate_ab_simple(model, 0, 0, &a, &b_aq); - mu_assert(fabs(a - 0.333333333333333) < 1e-14, - "Incorrect value for a (2)"); - mu_assert(fabs(b_aq - 0.0833333333333333) < 1e-14, - "Incorrect value for b (2)"); - - matrix_set(model->Q, K, 0, 0, 2.0); - gensvm_calculate_ab_simple(model, 0, 0, &a, &b_aq); - mu_assert(fabs(a - 0.142857142857143) < 1e-14, - "Incorrect value for a (3)"); - mu_assert(fabs(b_aq - 0.0) < 1e-14, - "Incorrect value for b (3)"); - - // end test code // - gensvm_free_model(model); - - return NULL; -} - -/* -char *test_gensvm_update_B() -{ - struct GenData *data = gensvm_init_data(); - struct GenModel *model = gensvm_init_model(); - int n = 3, - m = 2, - K = 3; - - data->n = n; - data->m = m; - data->K = K; - data->y = Calloc(long, K); - data->y[0] = 1; - data->y[1] = 2; - data->y[2] = 3; - - model->n = n; - model->m = m; - model->K = K; - model->kappa = 0.5; - - gensvm_allocate_model(model); - gensvm_simplex(model); - gensvm_simplex_diff(model); - gensvm_initialize_weights(data, model); - - // start test code // - double *B = Calloc(double, n*(K-1)); - double omega = 1.0; - - gensvm_update_B(model, 0, 0, 0.75, omega, B); - gensvm_update_B(model, 0, 1, 0.1, omega, B); - gensvm_update_B(model, 0, 2, 0.25, omega, B); - mu_assert(fabs(matrix_get(B, K-1, 0, 0) - -0.0750000000000000) < 1e-14, - "Incorrect value of B at 0, 0 (1)"); - mu_assert(fabs(matrix_get(B, K-1, 0, 1) - -0.0721687836487032) < 1e-14, - "Incorrect value of B at 0, 1 (1)"); - - omega = 0.213; - gensvm_update_B(model, 1, 0, 0.75, omega, B); - gensvm_update_B(model, 1, 1, 0.1, omega, B); - gensvm_update_B(model, 1, 2, 0.25, omega, B); - mu_assert(fabs(matrix_get(B, K-1, 1, 0) - 0.0621250000000000) < 1e-14, - "Incorrect value of B at 0, 0 (2)"); - mu_assert(fabs(matrix_get(B, K-1, 1, 1) - -0.0153719509171738) < 1e-14, - "Incorrect value of B at 0, 1 (2)"); - - model->rho[2] = 1.213; - gensvm_update_B(model, 2, 0, 0.75, omega, B); - gensvm_update_B(model, 2, 1, 0.1, omega, B); - gensvm_update_B(model, 2, 2, 0.25, omega, B); - mu_assert(fabs(matrix_get(B, K-1, 2, 0) - 0.0279899750000000) < 1e-14, - "Incorrect value of B at 0, 0 (3)"); - mu_assert(fabs(matrix_get(B, K-1, 2, 1) - 0.0633969999726082) < 1e-14, - "Incorrect value of B at 0, 1 (3)"); - // end test code // - - gensvm_free_data(data); - gensvm_free_model(model); - - return NULL; -} - -char *test_gensvm_get_Avalue_update_B() -{ - mu_test_missing(); - return NULL; -} -*/ - -char *test_gensvm_get_update() -{ - struct GenModel *model = gensvm_init_model(); - struct GenData *data = gensvm_init_data(); - int n = 8, - m = 3, - K = 3; - - model->n = n; - model->m = m; - model->K = K; - struct GenWork *work = gensvm_init_work(model); - - // initialize data - data->n = n; - data->m = m; - data->K = K; - - data->y = Calloc(long, n); - data->y[0] = 2; - data->y[1] = 1; - data->y[2] = 3; - data->y[3] = 2; - data->y[4] = 3; - data->y[5] = 3; - data->y[6] = 1; - data->y[7] = 2; - - data->Z = Calloc(double, n*(m+1)); - matrix_set(data->Z, data->m+1, 0, 0, 1.0000000000000000); - matrix_set(data->Z, data->m+1, 0, 1, 0.6437306339619082); - matrix_set(data->Z, data->m+1, 0, 2, -0.3276778319121999); - matrix_set(data->Z, data->m+1, 0, 3, 0.1564053473463392); - matrix_set(data->Z, data->m+1, 1, 0, 1.0000000000000000); - matrix_set(data->Z, data->m+1, 1, 1, -0.8683091763200105); - matrix_set(data->Z, data->m+1, 1, 2, -0.6910830836015162); - matrix_set(data->Z, data->m+1, 1, 3, -0.9675430665130734); - matrix_set(data->Z, data->m+1, 2, 0, 1.0000000000000000); - matrix_set(data->Z, data->m+1, 2, 1, -0.5024888699077029); - matrix_set(data->Z, data->m+1, 2, 2, -0.9649738292750712); - matrix_set(data->Z, data->m+1, 2, 3, 0.0776560791351473); - matrix_set(data->Z, data->m+1, 3, 0, 1.0000000000000000); - matrix_set(data->Z, data->m+1, 3, 1, 0.8206429991392579); - matrix_set(data->Z, data->m+1, 3, 2, -0.7255681388968501); - matrix_set(data->Z, data->m+1, 3, 3, -0.9475952272877165); - matrix_set(data->Z, data->m+1, 4, 0, 1.0000000000000000); - matrix_set(data->Z, data->m+1, 4, 1, 0.3426050950418613); - matrix_set(data->Z, data->m+1, 4, 2, -0.5340602451864306); - matrix_set(data->Z, data->m+1, 4, 3, -0.7159704241662815); - matrix_set(data->Z, data->m+1, 5, 0, 1.0000000000000000); - matrix_set(data->Z, data->m+1, 5, 1, -0.3077314049206620); - matrix_set(data->Z, data->m+1, 5, 2, 0.1141288036288195); - matrix_set(data->Z, data->m+1, 5, 3, -0.7060114827535847); - matrix_set(data->Z, data->m+1, 6, 0, 1.0000000000000000); - matrix_set(data->Z, data->m+1, 6, 1, 0.6301294373610109); - matrix_set(data->Z, data->m+1, 6, 2, -0.9983027363627769); - matrix_set(data->Z, data->m+1, 6, 3, -0.9365684178444004); - matrix_set(data->Z, data->m+1, 7, 0, 1.0000000000000000); - matrix_set(data->Z, data->m+1, 7, 1, -0.0665379368401439); - matrix_set(data->Z, data->m+1, 7, 2, -0.1781385556871763); - matrix_set(data->Z, data->m+1, 7, 3, -0.7292593770500276); - - // initialize model - model->p = 1.1; - model->lambda = 0.123; - model->weight_idx = 1; - model->kappa = 0.5; - - // initialize matrices - gensvm_allocate_model(model); - gensvm_initialize_weights(data, model); - gensvm_simplex(model); - gensvm_simplex_diff(model); - - // initialize V - matrix_set(model->V, model->K-1, 0, 0, -0.7593642121025029); - matrix_set(model->V, model->K-1, 0, 1, -0.5497320698504756); - matrix_set(model->V, model->K-1, 1, 0, 0.2982680646268177); - matrix_set(model->V, model->K-1, 1, 1, -0.2491408622891925); - matrix_set(model->V, model->K-1, 2, 0, -0.3118572761092807); - matrix_set(model->V, model->K-1, 2, 1, 0.5461219445756100); - matrix_set(model->V, model->K-1, 3, 0, -0.3198994238626641); - matrix_set(model->V, model->K-1, 3, 1, 0.7134997072555367); - - // start test code // - - // these need to be prepared for the update call - gensvm_calculate_errors(model, data, work->ZV); - gensvm_calculate_huber(model); - - // run the actual update call - gensvm_get_update(model, data, work); - - // test values - mu_assert(fabs(matrix_get(model->V, model->K-1, 0, 0) - - -0.1323791019594062) < 1e-14, - "Incorrect value of model->V at 0, 0"); - mu_assert(fabs(matrix_get(model->V, model->K-1, 0, 1) - - -0.3598407983154332) < 1e-14, - "Incorrect value of model->V at 0, 1"); - mu_assert(fabs(matrix_get(model->V, model->K-1, 1, 0) - - 0.3532993103400935) < 1e-14, - "Incorrect value of model->V at 1, 0"); - mu_assert(fabs(matrix_get(model->V, model->K-1, 1, 1) - - -0.4094572388475382) < 1e-14, - "Incorrect value of model->V at 1, 1"); - mu_assert(fabs(matrix_get(model->V, model->K-1, 2, 0) - - 0.1313169839871234) < 1e-14, - "Incorrect value of model->V at 2, 0"); - mu_assert(fabs(matrix_get(model->V, model->K-1, 2, 1) - - 0.2423439972728328) < 1e-14, - "Incorrect value of model->V at 2, 1"); - mu_assert(fabs(matrix_get(model->V, model->K-1, 3, 0) - - 0.0458431025455224) < 1e-14, - "Incorrect value of model->V at 3, 0"); - mu_assert(fabs(matrix_get(model->V, model->K-1, 3, 1) - - 0.4390030236354089) < 1e-14, - "Incorrect value of model->V at 3, 1"); - // end test code // - - gensvm_free_model(model); - gensvm_free_data(data); - gensvm_free_work(work); - - return NULL; -} - char *test_gensvm_calculate_errors() { struct GenModel *model = gensvm_init_model(); @@ -1128,323 +681,16 @@ char *test_gensvm_step_doubling() return NULL; } -char *test_dposv() -{ - int n = 6, - m = 5; - - // start test code // - double *A = Calloc(double, n*n); - double *B = Calloc(double, n*m); - - // We're only storing the upper triangular part of the symmetric - // matrix A. - matrix_set(A, n, 0, 0, 6.2522023496540386); - matrix_set(A, n, 0, 1, 1.2760969977888754); - matrix_set(A, n, 0, 2, 1.1267774552193974); - matrix_set(A, n, 0, 3, 0.8384267227932789); - matrix_set(A, n, 0, 4, 0.9588857509656767); - matrix_set(A, n, 0, 5, 0.7965747978871199); - matrix_set(A, n, 1, 1, 6.7539376310748924); - matrix_set(A, n, 1, 2, 0.5908599276261999); - matrix_set(A, n, 1, 3, 0.9987368128192129); - matrix_set(A, n, 1, 4, 1.1142949385131484); - matrix_set(A, n, 1, 5, 1.4150107613377123); - matrix_set(A, n, 2, 2, 7.3361678639533139); - matrix_set(A, n, 2, 3, 1.5596679563906113); - matrix_set(A, n, 2, 4, 0.8162441257417704); - matrix_set(A, n, 2, 5, 0.8701893160678078); - matrix_set(A, n, 3, 3, 6.8330423955320834); - matrix_set(A, n, 3, 4, 1.6081779105091201); - matrix_set(A, n, 3, 5, 1.0498769837396527); - matrix_set(A, n, 4, 4, 7.6810607313742949); - matrix_set(A, n, 4, 5, 1.1352511350739003); - matrix_set(A, n, 5, 5, 7.0573435553104567); - - // this is the matrix B (n x m), stored in COLUMN-MAJOR ORDER - B[0] = 0.5759809004700531; - B[1] = 0.4643751885289473; - B[2] = 0.1914807543974765; - B[3] = 0.2875503245961965; - B[4] = 0.0493123646253395; - B[5] = 0.4333053066976881; - B[6] = 0.4738306027724854; - B[7] = 0.2460182087225041; - B[8] = 0.1620492662433550; - B[9] = 0.9596380576403235; - B[10] = 0.7244837218691289; - B[11] = 0.9437116578537014; - B[12] = 0.3320986772155025; - B[13] = 0.4717424581951766; - B[14] = 0.9206089360217588; - B[15] = 0.7059004575000609; - B[16] = 0.1696670763906902; - B[17] = 0.4896586269167711; - B[18] = 0.9539497766794410; - B[19] = 0.2269749103273779; - B[20] = 0.8832156948007016; - B[21] = 0.4682217970327739; - B[22] = 0.5293439096127632; - B[23] = 0.8699136677253214; - B[24] = 0.1622687366790325; - B[25] = 0.4511598310105013; - B[26] = 0.5587302139109592; - B[27] = 0.7456952498557438; - B[28] = 0.5923112589693547; - B[29] = 0.2243481938151050; - - // note the 'L' here denotes the lower triangular part of A. Above we - // stored the upper triangular part of A in row-major order, so that's - // the lower triangular part in column-major order, which Lapack uses. - int status = dposv('L', n, m, A, n, B, n); - mu_assert(status == 0, "dposv didn't return status success"); - - // Since B now contains the solution in Column-Major order, we have to - // check it in that order. - - mu_assert(fabs(B[0] - 0.0770250502756885) < 1e-14, - "Incorrect value of B at 0"); - mu_assert(fabs(B[1] - 0.0449013611583528) < 1e-14, - "Incorrect value of B at 1"); - mu_assert(fabs(B[2] - 0.0028421256926631) < 1e-14, - "Incorrect value of B at 2"); - mu_assert(fabs(B[3] - 0.0238082780914757) < 1e-14, - "Incorrect value of B at 3"); - mu_assert(fabs(B[4] - -0.0213884392480803) < 1e-14, - "Incorrect value of B at 4"); - mu_assert(fabs(B[5] - 0.0432493445363141) < 1e-14, - "Incorrect value of B at 5"); - mu_assert(fabs(B[6] - 0.0469188408250497) < 1e-14, - "Incorrect value of B at 6"); - mu_assert(fabs(B[7] - -0.0188676544565197) < 1e-14, - "Incorrect value of B at 7"); - mu_assert(fabs(B[8] - -0.0268693544126544) < 1e-14, - "Incorrect value of B at 8"); - mu_assert(fabs(B[9] - 0.1139942447258460) < 1e-14, - "Incorrect value of B at 9"); - mu_assert(fabs(B[10] - 0.0539483576192093) < 1e-14, - "Incorrect value of B at 10"); - mu_assert(fabs(B[11] - 0.1098843745987866) < 1e-14, - "Incorrect value of B at 11"); - mu_assert(fabs(B[12] - 0.0142822905211067) < 1e-14, - "Incorrect value of B at 12"); - mu_assert(fabs(B[13] - 0.0425078586146396) < 1e-14, - "Incorrect value of B at 13"); - mu_assert(fabs(B[14] - 0.1022650353097420) < 1e-14, - "Incorrect value of B at 14"); - mu_assert(fabs(B[15] - 0.0700476338859921) < 1e-14, - "Incorrect value of B at 15"); - mu_assert(fabs(B[16] - -0.0171546096353451) < 1e-14, - "Incorrect value of B at 16"); - mu_assert(fabs(B[17] - 0.0389772844468578) < 1e-14, - "Incorrect value of B at 17"); - mu_assert(fabs(B[18] - 0.1231757430810565) < 1e-14, - "Incorrect value of B at 18"); - mu_assert(fabs(B[19] - -0.0246954324681607) < 1e-14, - "Incorrect value of B at 19"); - mu_assert(fabs(B[20] - 0.0853098528328778) < 1e-14, - "Incorrect value of B at 20"); - mu_assert(fabs(B[21] - 0.0155226252622933) < 1e-14, - "Incorrect value of B at 21"); - mu_assert(fabs(B[22] - 0.0305321945431931) < 1e-14, - "Incorrect value of B at 22"); - mu_assert(fabs(B[23] - 0.0965724559730953) < 1e-14, - "Incorrect value of B at 23"); - mu_assert(fabs(B[24] - -0.0106596940426243) < 1e-14, - "Incorrect value of B at 24"); - mu_assert(fabs(B[25] - 0.0446093337039209) < 1e-14, - "Incorrect value of B at 25"); - mu_assert(fabs(B[26] - 0.0517721408799503) < 1e-14, - "Incorrect value of B at 26"); - mu_assert(fabs(B[27] - 0.0807167333268751) < 1e-14, - "Incorrect value of B at 27"); - mu_assert(fabs(B[28] - 0.0499219869343351) < 1e-14, - "Incorrect value of B at 28"); - mu_assert(fabs(B[29] - -0.0023736192508975) < 1e-14, - "Incorrect value of B at 29"); - - // end test code // - - free(A); - free(B); - - return NULL; -} - -char *test_dsysv() -{ - int n = 6, - m = 5; - - // start test code // - double *A = Calloc(double, n*n); - double *B = Calloc(double, n*m); - - // only store the upper triangular part of A - matrix_set(A, n, 0, 0, 0.4543421836368821); - matrix_set(A, n, 0, 1, 0.8708338836669620); - matrix_set(A, n, 0, 2, 1.3638340495356920); - matrix_set(A, n, 0, 3, 0.8361050302144852); - matrix_set(A, n, 0, 4, 1.3203463886997013); - matrix_set(A, n, 0, 5, 0.3915472119381547); - matrix_set(A, n, 1, 1, 1.4781728513484600); - matrix_set(A, n, 1, 2, 1.7275151336935415); - matrix_set(A, n, 1, 3, 1.1817139356024176); - matrix_set(A, n, 1, 4, 0.7436086782250922); - matrix_set(A, n, 1, 5, 0.1101758222549450); - matrix_set(A, n, 2, 2, 1.9363682709237851); - matrix_set(A, n, 2, 3, 1.1255164391384127); - matrix_set(A, n, 2, 4, 1.0935575148560115); - matrix_set(A, n, 2, 5, 1.4678279983625921); - matrix_set(A, n, 3, 3, 1.7500757162326757); - matrix_set(A, n, 3, 4, 1.5490921663229316); - matrix_set(A, n, 3, 5, 1.0305675837706338); - matrix_set(A, n, 4, 4, 0.4015851628106807); - matrix_set(A, n, 4, 5, 1.2487496402900566); - matrix_set(A, n, 5, 5, 0.7245473723012897); - - // Store B in column-major order! - B[0] = 0.6037912122210694; - B[1] = 0.5464186020522516; - B[2] = 0.1810847918541411; - B[3] = 0.1418268895582175; - B[4] = 0.5459836535934901; - B[5] = 0.5890609930309275; - B[6] = 0.1128454279279324; - B[7] = 0.8930541056550655; - B[8] = 0.6946437745982983; - B[9] = 0.0955380494302154; - B[10] = 0.5750037200376288; - B[11] = 0.0326245221201559; - B[12] = 0.3336701777312929; - B[13] = 0.7648765739095678; - B[14] = 0.2662986413718805; - B[15] = 0.7850810368985298; - B[16] = 0.5432388739552745; - B[17] = 0.4387739258059151; - B[18] = 0.4257906469646436; - B[19] = 0.1272470768775465; - B[20] = 0.4276616397814972; - B[21] = 0.8137579718316245; - B[22] = 0.6849003723960281; - B[23] = 0.1768571691078990; - B[24] = 0.4183278358395650; - B[25] = 0.6517633972400351; - B[26] = 0.1154775550239331; - B[27] = 0.4217248849174023; - B[28] = 0.9179697263236190; - B[29] = 0.6532254399609347; - - // run dsysv, note that Lapack expects matrices to be in column-major - // order, so we can use the 'L' notation for the triangle of A, since - // we've stored the upper triangle in Row-Major order. - - int *IPIV = Calloc(int, n); - double *WORK = Calloc(double, 1); - int status; - - // first we determine the necessary size of the WORK array - status = dsysv('L', n, m, A, n, IPIV, B, n, WORK, -1); - mu_assert(status == 0, "dsysv workspace query failed"); - - int LWORK = WORK[0]; - WORK = Realloc(WORK, double, LWORK); - status = dsysv('L', n, m, A, n, IPIV, B, n, WORK, LWORK); - mu_assert(status == 0, "dsysv didn't return status success"); - - // Since B now contains the solution in Column-Major order, we have to - // check it in that order - - mu_assert(fabs(B[0] - 3.0915448286548806) < 1e-14, - "Incorrect value of B at 0"); - mu_assert(fabs(B[1] - -1.2114333666218096) < 1e-14, - "Incorrect value of B at 1"); - mu_assert(fabs(B[2] - -0.1734297056577389) < 1e-14, - "Incorrect value of B at 2"); - mu_assert(fabs(B[3] - -0.6989941801726605) < 1e-14, - "Incorrect value of B at 3"); - mu_assert(fabs(B[4] - 1.2577948324106381) < 1e-14, - "Incorrect value of B at 4"); - mu_assert(fabs(B[5] - -1.4956913279293909) < 1e-14, - "Incorrect value of B at 5"); - mu_assert(fabs(B[6] - -0.2923881304345451) < 1e-14, - "Incorrect value of B at 6"); - mu_assert(fabs(B[7] - 0.3467010144627596) < 1e-14, - "Incorrect value of B at 7"); - mu_assert(fabs(B[8] - 0.4892730831569431) < 1e-14, - "Incorrect value of B at 8"); - mu_assert(fabs(B[9] - 0.2811039364176572) < 1e-14, - "Incorrect value of B at 9"); - mu_assert(fabs(B[10] - -0.7323586733947237) < 1e-14, - "Incorrect value of B at 10"); - mu_assert(fabs(B[11] - 0.0214996365534143) < 1e-14, - "Incorrect value of B at 11"); - mu_assert(fabs(B[12] - -0.9355264353773129) < 1e-14, - "Incorrect value of B at 12"); - mu_assert(fabs(B[13] - 0.2709743256273919) < 1e-14, - "Incorrect value of B at 13"); - mu_assert(fabs(B[14] - 0.2328234557913496) < 1e-14, - "Incorrect value of B at 14"); - mu_assert(fabs(B[15] - 0.9367092697976086) < 1e-14, - "Incorrect value of B at 15"); - mu_assert(fabs(B[16] - -0.4501075692310449) < 1e-14, - "Incorrect value of B at 16"); - mu_assert(fabs(B[17] - 0.0416902255163366) < 1e-14, - "Incorrect value of B at 17"); - mu_assert(fabs(B[18] - 2.2216982312706905) < 1e-14, - "Incorrect value of B at 18"); - mu_assert(fabs(B[19] - -0.4820931673893176) < 1e-14, - "Incorrect value of B at 19"); - mu_assert(fabs(B[20] - -0.8456462251088332) < 1e-14, - "Incorrect value of B at 20"); - mu_assert(fabs(B[21] - -0.3761761825939751) < 1e-14, - "Incorrect value of B at 21"); - mu_assert(fabs(B[22] - 1.1921920764994696) < 1e-14, - "Incorrect value of B at 22"); - mu_assert(fabs(B[23] - -0.6897255145640184) < 1e-14, - "Incorrect value of B at 23"); - mu_assert(fabs(B[24] - 2.0325624816957180) < 1e-14, - "Incorrect value of B at 24"); - mu_assert(fabs(B[25] - -0.9900930297944344) < 1e-14, - "Incorrect value of B at 25"); - mu_assert(fabs(B[26] - -0.0462533459389938) < 1e-14, - "Incorrect value of B at 26"); - mu_assert(fabs(B[27] - 0.0960916931433909) < 1e-14, - "Incorrect value of B at 27"); - mu_assert(fabs(B[28] - 0.5805302287627144) < 1e-14, - "Incorrect value of B at 28"); - mu_assert(fabs(B[29] - -1.0897953557455400) < 1e-14, - "Incorrect value of B at 29"); - - free(WORK); - free(IPIV); - - // end test code // - - free(A); - free(B); - - return NULL; -} - char *all_tests() { mu_suite_start(); mu_run_test(test_gensvm_calculate_errors); - mu_run_test(test_gensvm_calculate_omega); - mu_run_test(test_gensvm_majorize_is_simple); - mu_run_test(test_gensvm_calculate_ab_non_simple); - mu_run_test(test_gensvm_calculate_ab_simple); mu_run_test(test_gensvm_get_loss_1); mu_run_test(test_gensvm_get_loss_2); mu_run_test(test_gensvm_calculate_huber); mu_run_test(test_gensvm_step_doubling); - mu_run_test(test_dposv); - mu_run_test(test_dsysv); - - mu_run_test(test_gensvm_get_update); mu_run_test(test_gensvm_optimize); return NULL; |