int main(void) { slong i; FLINT_TEST_INIT(state); flint_printf("pow...."); fflush(stdout); for (i = 0; i < 100 * flint_test_multiplier(); i++) { fmpz_mat_t A, B, C; slong i, n; ulong e; n = n_randint(state, 10); e = n_randint(state, 20); fmpz_mat_init(A, n, n); fmpz_mat_init(B, n, n); fmpz_mat_init(C, n, n); fmpz_mat_randtest(A, state, n_randint(state, 200) + 1); fmpz_mat_randtest(B, state, n_randint(state, 200) + 1); /* Make sure noise in the output is ok */ fmpz_mat_randtest(B, state, n_randint(state, 200) + 1); fmpz_mat_pow(B, A, e); fmpz_mat_one(C); for (i = 0; i < e; i++) fmpz_mat_mul(C, C, A); if (!fmpz_mat_equal(C, B)) { flint_printf("FAIL: results not equal\n"); abort(); } fmpz_mat_pow(A, A, e); if (!fmpz_mat_equal(A, B)) { flint_printf("FAIL: aliasing failed\n"); abort(); } fmpz_mat_clear(A); fmpz_mat_clear(B); fmpz_mat_clear(C); } FLINT_TEST_CLEANUP(state); flint_printf("PASS\n"); return 0; }
int main(void) { fmpz_mat_t A, B, C, D; slong i; FLINT_TEST_INIT(state); flint_printf("mul...."); fflush(stdout); for (i = 0; i < 100 * flint_test_multiplier(); i++) { slong m, n, k; m = n_randint(state, 50); n = n_randint(state, 50); k = n_randint(state, 50); fmpz_mat_init(A, m, n); fmpz_mat_init(B, n, k); fmpz_mat_init(C, m, k); fmpz_mat_init(D, m, k); fmpz_mat_randtest(A, state, n_randint(state, 200) + 1); fmpz_mat_randtest(B, state, n_randint(state, 200) + 1); /* Make sure noise in the output is ok */ fmpz_mat_randtest(C, state, n_randint(state, 200) + 1); fmpz_mat_mul(C, A, B); fmpz_mat_mul_classical_inline(D, A, B); if (!fmpz_mat_equal(C, D)) { flint_printf("FAIL: results not equal\n"); abort(); } fmpz_mat_mul(A, A, B); if (!fmpz_mat_equal(A, C)) { flint_printf("FAIL: aliasing failed\n"); abort(); } fmpz_mat_clear(A); fmpz_mat_clear(B); fmpz_mat_clear(C); fmpz_mat_clear(D); } FLINT_TEST_CLEANUP(state); flint_printf("PASS\n"); return 0; }
int main(void) { long m, n, rep; flint_rand_t state; printf("add/sub/neg...."); fflush(stdout); flint_randinit(state); for (rep = 0; rep < 10000; rep++) { fmpz_mat_t A; fmpz_mat_t B; fmpz_mat_t C; m = n_randint(state, 20); n = n_randint(state, 20); fmpz_mat_init(A, m, n); fmpz_mat_init(B, m, n); fmpz_mat_init(C, m, n); fmpz_mat_randtest(A, state, 100); fmpz_mat_randtest(B, state, 100); fmpz_mat_neg(C, A); fmpz_mat_add(A, A, B); fmpz_mat_sub(A, A, B); fmpz_mat_neg(A, A); if (!fmpz_mat_equal(A, C)) { printf("FAIL: matrices not equal!\n"); abort(); } fmpz_mat_clear(A); fmpz_mat_clear(B); fmpz_mat_clear(C); } flint_randclear(state); _fmpz_cleanup(); printf("PASS\n"); return 0; }
int main(void) { slong m, n, rep; FLINT_TEST_INIT(state); flint_printf("add/sub/neg...."); fflush(stdout); for (rep = 0; rep < 1000 * flint_test_multiplier(); rep++) { fmpz_mat_t A; fmpz_mat_t B; fmpz_mat_t C; m = n_randint(state, 20); n = n_randint(state, 20); fmpz_mat_init(A, m, n); fmpz_mat_init(B, m, n); fmpz_mat_init(C, m, n); fmpz_mat_randtest(A, state, 100); fmpz_mat_randtest(B, state, 100); fmpz_mat_neg(C, A); fmpz_mat_add(A, A, B); fmpz_mat_sub(A, A, B); fmpz_mat_neg(A, A); if (!fmpz_mat_equal(A, C)) { flint_printf("FAIL: matrices not equal!\n"); abort(); } fmpz_mat_clear(A); fmpz_mat_clear(B); fmpz_mat_clear(C); } FLINT_TEST_CLEANUP(state); flint_printf("PASS\n"); return 0; }
int main(void) { long m, n, i, j, rep; flint_rand_t state; printf("unit...."); fflush(stdout); flint_randinit(state); for (rep = 0; rep < 1000; rep++) { fmpz_mat_t A; m = n_randint(state, 20); n = n_randint(state, 20); fmpz_mat_init(A, m, n); fmpz_mat_randtest(A, state, 100); fmpz_mat_unit(A); for (i = 0; i < m; i++) { for (j = 0; j < n; j++) { if (fmpz_cmp_ui(fmpz_mat_entry(A,i,j), i == j) != 0) { printf("FAIL: nonzero entry\n"); abort(); } } } fmpz_mat_clear(A); } flint_randclear(state); _fmpz_cleanup(); printf("PASS\n"); return 0; }
int main(void) { slong m, n, rep, res1, res2; FLINT_TEST_INIT(state); flint_printf("max_bits...."); fflush(stdout); for (rep = 0; rep < 100 * flint_test_multiplier(); rep++) { fmpz_mat_t A; m = n_randint(state, 20); n = n_randint(state, 20); fmpz_mat_init(A, m, n); fmpz_mat_randtest(A, state, 1 + n_randint(state, 100)); res1 = fmpz_mat_max_bits(A); res2 = _fmpz_vec_max_bits(A->entries, m*n); if (res1 != res2) { flint_printf("FAIL!\n"); abort(); } fmpz_mat_clear(A); } FLINT_TEST_CLEANUP(state); flint_printf("PASS\n"); return 0; }
int main(void) { int i; FLINT_TEST_INIT(state); flint_printf("multi_CRT_ui...."); fflush(stdout); for (i = 0; i < 1000 * flint_test_multiplier(); i++) { slong bits, prime_bits, rows, cols, num_primes, j; fmpz_t mod; fmpz_mat_t A, B, C; nmod_mat_t Amod[1000]; mp_limb_t primes[1000]; bits = n_randint(state, 500) + 1; rows = n_randint(state, 10); cols = n_randint(state, 10); prime_bits = 1 + n_randint(state, FLINT_BITS - 1); fmpz_mat_init(A, rows, cols); fmpz_mat_init(B, rows, cols); fmpz_mat_init(C, rows, cols); fmpz_mat_randtest(A, state, bits); fmpz_init(mod); num_primes = 0; primes[0] = n_nextprime(UWORD(1) << prime_bits, 0); fmpz_set_ui(mod, primes[0]); /* + 1 for sign */ while (fmpz_bits(mod) <= bits + 1) { primes[num_primes + 1] = n_nextprime(primes[num_primes], 0); fmpz_mul_ui(mod, mod, primes[num_primes + 1]); num_primes++; } num_primes++; for (j = 0; j < num_primes; j++) nmod_mat_init(Amod[j], rows, cols, primes[j]); fmpz_mat_multi_mod_ui(Amod, num_primes, A); fmpz_mat_multi_CRT_ui(B, Amod, num_primes, 1); if (!fmpz_mat_equal(B, A)) { flint_printf("FAIL!\n"); flint_printf("primes: "); for (j = 0; j < num_primes; j++) flint_printf("%wu ", primes[j]); flint_printf("\nA: \n"); fmpz_mat_print_pretty(A); flint_printf("\nB: \n"); fmpz_mat_print_pretty(B); flint_printf("\n"); abort(); } for (j = 0; j < num_primes; j++) nmod_mat_clear(Amod[j]); fmpz_mat_clear(A); fmpz_mat_clear(B); fmpz_mat_clear(C); fmpz_clear(mod); } FLINT_TEST_CLEANUP(state); flint_printf("PASS\n"); return 0; }
int main(void) { fmpz_mat_t A; flint_rand_t state; long i, m; fmpz_t det1, det2; printf("det_multi_mod...."); fflush(stdout); flint_randinit(state); for (i = 0; i < 10000; i++) { int proved = n_randlimb(state) % 2; m = n_randint(state, 10); fmpz_mat_init(A, m, m); fmpz_init(det1); fmpz_init(det2); fmpz_mat_randtest(A, state, 1+n_randint(state,200)); fmpz_mat_det_bareiss(det1, A); fmpz_mat_det_multi_mod(det2, A, proved); if (!fmpz_equal(det1, det2)) { printf("FAIL:\n"); printf("different determinants!\n"); fmpz_mat_print_pretty(A), printf("\n"); printf("det1: "), fmpz_print(det1), printf("\n"); printf("det2: "), fmpz_print(det2), printf("\n"); abort(); } fmpz_clear(det1); fmpz_clear(det2); fmpz_mat_clear(A); } for (i = 0; i < 10000; i++) { m = 2 + n_randint(state, 10); fmpz_mat_init(A, m, m); fmpz_init(det2); fmpz_mat_randrank(A, state, 1+n_randint(state, m - 1), 1+n_randint(state, 10)); fmpz_mat_randops(A, state, n_randint(state, 2*m*m + 1)); fmpz_mat_det_multi_mod(det2, A, 0); if (*det2) { printf("FAIL:\n"); printf("expected zero determinant!\n"); fmpz_mat_print_pretty(A), printf("\n"); abort(); } fmpz_mat_clear(A); fmpz_clear(det2); } flint_randclear(state); _fmpz_cleanup(); printf("PASS\n"); return 0; }
int main(void) { fmpz_mat_t A, X, B, AX; fmpz_t den; slong i, m, n, r; int success; FLINT_TEST_INIT(state); flint_printf("solve_cramer...."); fflush(stdout); for (i = 0; i < 1000 * flint_test_multiplier(); i++) { m = n_randint(state, 4); n = n_randint(state, 10); fmpz_mat_init(A, m, m); fmpz_mat_init(B, m, n); fmpz_mat_init(X, m, n); fmpz_mat_init(AX, m, n); fmpz_init(den); fmpz_mat_randrank(A, state, m, 1+n_randint(state, 2)*n_randint(state, 100)); fmpz_mat_randtest(B, state, 1+n_randint(state, 2)*n_randint(state, 100)); /* Dense */ if (n_randint(state, 2)) fmpz_mat_randops(A, state, 1+n_randint(state, 1 + m*m)); success = fmpz_mat_solve_cramer(X, den, A, B); fmpz_mat_mul(AX, A, X); fmpz_mat_scalar_divexact_fmpz(AX, AX, den); if (!fmpz_mat_equal(AX, B) || !success) { flint_printf("FAIL:\n"); flint_printf("AX != B!\n"); flint_printf("A:\n"), fmpz_mat_print_pretty(A), flint_printf("\n"); flint_printf("B:\n"), fmpz_mat_print_pretty(B), flint_printf("\n"); flint_printf("X:\n"), fmpz_mat_print_pretty(X), flint_printf("\n"); flint_printf("den(X) = "), fmpz_print(den), flint_printf("\n"); flint_printf("AX:\n"), fmpz_mat_print_pretty(AX), flint_printf("\n"); abort(); } fmpz_mat_clear(A); fmpz_mat_clear(B); fmpz_mat_clear(X); fmpz_mat_clear(AX); fmpz_clear(den); } /* Test singular systems */ for (i = 0; i < 1000 * flint_test_multiplier(); i++) { m = 1 + n_randint(state, 3); n = 1 + n_randint(state, 10); r = n_randint(state, m); fmpz_mat_init(A, m, m); fmpz_mat_init(B, m, n); fmpz_mat_init(X, m, n); fmpz_mat_init(AX, m, n); fmpz_init(den); fmpz_mat_randrank(A, state, r, 1+n_randint(state, 2)*n_randint(state, 100)); fmpz_mat_randtest(B, state, 1+n_randint(state, 2)*n_randint(state, 100)); /* Dense */ if (n_randint(state, 2)) fmpz_mat_randops(A, state, 1+n_randint(state, 1 + m*m)); success = fmpz_mat_solve_cramer(X, den, A, B); if (!fmpz_is_zero(den) || success) { flint_printf("FAIL:\n"); flint_printf("singular system gave nonzero determinant\n"); abort(); } fmpz_mat_clear(A); fmpz_mat_clear(B); fmpz_mat_clear(X); fmpz_mat_clear(AX); fmpz_clear(den); } FLINT_TEST_CLEANUP(state); flint_printf("PASS\n"); return 0; }
int main(void) { fmpz_mat_t A, X, B, AX, AXm, Bm; fmpz_t mod; slong i, m, n, r; int success; FLINT_TEST_INIT(state); flint_printf("solve_dixon...."); fflush(stdout); for (i = 0; i < 100 * flint_test_multiplier(); i++) { m = n_randint(state, 20); n = n_randint(state, 20); fmpz_mat_init(A, m, m); fmpz_mat_init(B, m, n); fmpz_mat_init(Bm, m, n); fmpz_mat_init(X, m, n); fmpz_mat_init(AX, m, n); fmpz_mat_init(AXm, m, n); fmpz_init(mod); fmpz_mat_randrank(A, state, m, 1+n_randint(state, 2)*n_randint(state, 100)); fmpz_mat_randtest(B, state, 1+n_randint(state, 2)*n_randint(state, 100)); /* Dense */ if (n_randint(state, 2)) fmpz_mat_randops(A, state, 1+n_randint(state, 1 + m*m)); success = fmpz_mat_solve_dixon(X, mod, A, B); fmpz_mat_set(AXm, X); fmpz_mat_mul(AX, A, AXm); fmpz_mat_scalar_mod_fmpz(AXm, AX, mod); fmpz_mat_scalar_mod_fmpz(Bm, B, mod); if (!fmpz_mat_equal(AXm, Bm) || !success) { flint_printf("FAIL:\n"); flint_printf("AX != B!\n"); flint_printf("A:\n"), fmpz_mat_print_pretty(A), flint_printf("\n"); flint_printf("B:\n"), fmpz_mat_print_pretty(B), flint_printf("\n"); flint_printf("X:\n"), fmpz_mat_print_pretty(X), flint_printf("\n"); flint_printf("mod = "), fmpz_print(mod), flint_printf("\n"); flint_printf("AX:\n"), fmpz_mat_print_pretty(AX), flint_printf("\n"); abort(); } fmpz_mat_clear(A); fmpz_mat_clear(B); fmpz_mat_clear(Bm); fmpz_mat_clear(X); fmpz_mat_clear(AX); fmpz_mat_clear(AXm); fmpz_clear(mod); } /* Test singular systems */ for (i = 0; i < 100 * flint_test_multiplier(); i++) { m = 1 + n_randint(state, 10); n = 1 + n_randint(state, 10); r = n_randint(state, m); fmpz_mat_init(A, m, m); fmpz_mat_init(B, m, n); fmpz_mat_init(X, m, n); fmpz_init(mod); fmpz_mat_randrank(A, state, r, 1+n_randint(state, 2)*n_randint(state, 100)); fmpz_mat_randtest(B, state, 1+n_randint(state, 2)*n_randint(state, 100)); /* Dense */ if (n_randint(state, 2)) fmpz_mat_randops(A, state, 1+n_randint(state, 1 + m*m)); if (fmpz_mat_solve_dixon(X, mod, A, B) != 0) { flint_printf("FAIL:\n"); flint_printf("singular system, returned nonzero\n"); abort(); } fmpz_mat_clear(A); fmpz_mat_clear(B); fmpz_mat_clear(X); fmpz_clear(mod); } FLINT_TEST_CLEANUP(state); flint_printf("PASS\n"); return 0; }