static ulong
do_charpluscond(ulong q1, ulong q2)
{
ulong n, q, k;
for (n = 0, q = q1; q <= q2; q++)
{
dirichlet_group_t G;
dirichlet_char_t x;
dirichlet_group_init(G, q);
dirichlet_char_init(x, G);
dirichlet_char_one(x, G);
n++;
for (; dirichlet_char_next(x, G) >= 0; n++)
dirichlet_conductor_char(G, x);
dirichlet_char_clear(x);
dirichlet_group_clear(G);
}
return n;
}
int main()
{
slong iter;
flint_rand_t state;
flint_printf("hardy_z....");
fflush(stdout);
flint_randinit(state);
/* test self-consistency */
for (iter = 0; iter < 1000 * arb_test_multiplier(); iter++)
{
acb_t s, s2;
dirichlet_group_t G;
dirichlet_char_t chi;
acb_ptr vec1, vec2;
slong len1, len2;
slong prec1, prec2;
ulong q, k;
slong i;
len1 = n_randint(state, 6);
len2 = n_randint(state, 6);
prec1 = 2 + n_randint(state, 100);
prec2 = 2 + n_randint(state, 100);
do {
q = 1 + n_randint(state, 30);
} while (q % 4 == 2);
dirichlet_group_init(G, q);
dirichlet_char_init(chi, G);
do {
k = n_randint(state, n_euler_phi(q));
dirichlet_char_index(chi, G, k);
} while (dirichlet_conductor_char(G, chi) != q);
acb_init(s);
acb_init(s2);
vec1 = _acb_vec_init(len1);
vec2 = _acb_vec_init(len2);
acb_randtest(s, state, 2 + n_randint(state, 200), 2);
acb_randtest(s2, state, 2 + n_randint(state, 200), 2);
acb_sub(s2, s2, s2, 200);
acb_add(s2, s, s2, 200);
acb_dirichlet_hardy_z(vec1, s, G, chi, len1, prec1);
acb_dirichlet_hardy_z(vec2, s2, G, chi, len2, prec2);
for (i = 0; i < FLINT_MIN(len1, len2); i++)
{
if (!acb_overlaps(vec1 + i, vec2 + i))
{
flint_printf("FAIL: overlap\n\n");
flint_printf("iter = %wd q = %wu k = %wu i = %wd\n\n", iter, q, k, i);
flint_printf("s = "); acb_printn(s, 50, 0); flint_printf("\n\n");
flint_printf("r1 = "); acb_printn(vec1 + i, 50, 0); flint_printf("\n\n");
flint_printf("r2 = "); acb_printn(vec2 + i, 50, 0); flint_printf("\n\n");
flint_abort();
}
}
if (arb_contains_zero(acb_imagref(s)))
{
for (i = 0; i < len1; i++)
{
if (!arb_contains_zero(acb_imagref(vec1 + i)))
{
flint_printf("FAIL: real 1\n\n");
flint_printf("iter = %wd q = %wu k = %wu i = %wd\n\n", iter, q, k, i);
flint_printf("s = "); acb_printn(s, 50, 0); flint_printf("\n\n");
flint_printf("r1 = "); acb_printn(vec1 + i, 50, 0); flint_printf("\n\n");
flint_abort();
}
}
}
if (arb_contains_zero(acb_imagref(s2)))
{
for (i = 0; i < len2; i++)
{
if (!arb_contains_zero(acb_imagref(vec2 + i)))
{
flint_printf("FAIL: real 1\n\n");
flint_printf("iter = %wd q = %wu k = %wu i = %wd\n\n", iter, q, k, i);
flint_printf("s = "); acb_printn(s, 50, 0); flint_printf("\n\n");
flint_printf("r1 = "); acb_printn(vec2 + i, 50, 0); flint_printf("\n\n");
flint_abort();
}
}
}
dirichlet_char_clear(chi);
dirichlet_group_clear(G);
acb_clear(s);
acb_clear(s2);
_acb_vec_clear(vec1, len1);
_acb_vec_clear(vec2, len2);
}
flint_randclear(state);
flint_cleanup();
flint_printf("PASS\n");
return EXIT_SUCCESS;
}
int main()
{
slong iter, bits;
flint_rand_t state;
flint_printf("properties....");
fflush(stdout);
flint_randinit(state);
for (bits = 5; bits <= 30; bits += 5)
{
for (iter = 0; iter < 50; iter++)
{
dirichlet_group_t G;
dirichlet_char_t chi, psi;
ulong q, iter2;
q = 2 + n_randint(state, 1 << bits);
dirichlet_group_init(G, q);
dirichlet_char_init(chi, G);
dirichlet_char_init(psi, G);
/* check number char properties */
for (iter2 = 0; iter2 < 100; iter2++)
{
ulong m, n;
ulong p1, p2, pairing, cm, cn, q2, q3;
dirichlet_group_t G2, G3;
dirichlet_char_t chi2, chi3;
if (iter2 == 50)
dirichlet_group_dlog_precompute(G, 5);
/* one random character */
do
m = n_randint(state, q);
while (n_gcd(q, m) > 1);
dirichlet_char_log(chi, G, m);
p1 = dirichlet_order_ui(G, m);
p2 = dirichlet_order_char(G, chi);
check_eq(p1, p2, q, m, "order m", "order chi");
p1 = dirichlet_conductor_ui(G, m);
p2 = dirichlet_conductor_char(G, chi);
check_eq(p1, p2, q, m, "conductor m", "conductor chi");
p1 = dirichlet_parity_ui(G, m);
p2 = dirichlet_parity_char(G, chi);
check_eq(p1, p2, q, m, "parity m", "parity chi");
p1 = dirichlet_char_is_real(G, chi);
p2 = (dirichlet_order_char(G, chi) <= 2);
check_eq(p1, p2, q, m, "is_real", "(order <= 2)");
/* check index */
p1 = dirichlet_index_char(G, chi);
dirichlet_char_index(psi, G, p1);
if (!dirichlet_char_eq_deep(G, chi, psi))
{
flint_printf("FAIL: index\n\n");
flint_printf("q = %wu\n\n", q);
flint_printf("m = %wu\n\n", m);
flint_printf("chi = "); dirichlet_char_print(G, chi);
flint_printf("\n\nindex(chi) = %wu\n\n", p1);
flint_printf("psi(index) = %wu\n\n", psi->n);
flint_printf("psi = "); dirichlet_char_print(G, psi);
flint_printf("\n\n");
abort();
}
/* lift to higher modulus */
q2 = q * (1 + n_randint(state, 100));
dirichlet_group_init(G2, q2);
dirichlet_char_init(chi2, G2);
dirichlet_char_lift(chi2, G2, chi, G);
p1 = dirichlet_conductor_char(G, chi);
p2 = dirichlet_conductor_char(G2, chi2);
check_eq(p1, p2, q, m, "conductor chi", "conductor lift");
p1 = dirichlet_order_char(G, chi);
p2 = dirichlet_order_char(G2, chi2);
check_eq(p1, p2, q, m, "order chi", "order lift");
/* and lower */
dirichlet_char_lower(psi, G, chi2, G2);
if (!dirichlet_char_eq_deep(G, chi, psi))
{
flint_printf("FAIL: lift and lower back\n\n");
flint_printf("q = %wu\n\nchi = ", q);
dirichlet_char_print(G, chi);
flint_printf("\n\nq2 = %wu\n\nchi2 = ", q2);
dirichlet_char_print(G2, chi2);
flint_printf("\n\nq = %wu\n\npsi = ", q);
dirichlet_char_print(G, psi);
flint_printf("\n\n");
abort();
}
q3 = dirichlet_conductor_char(G, chi) * random_divisor(state, G);
q3 = n_gcd(q, q3);
dirichlet_group_init(G3, q3);
dirichlet_char_init(chi3, G3);
dirichlet_char_lower(chi3, G3, chi2, G2);
p1 = dirichlet_conductor_char(G, chi);
p2 = dirichlet_conductor_char(G3, chi3);
check_eq(p1, p2, q, m, "conductor chi", "conductor lower");
p1 = dirichlet_order_char(G, chi);
p2 = dirichlet_order_char(G3, chi3);
check_eq(p1, p2, q, m, "order chi", "order lower");
dirichlet_char_clear(chi3);
dirichlet_group_clear(G3);
dirichlet_char_clear(chi2);
dirichlet_group_clear(G2);
/* another random character */
do
n = n_randint(state, q);
while (n_gcd(q, n) > 1);
dirichlet_char_log(psi, G, n);
pairing = dirichlet_pairing(G, m, n);
cn = dirichlet_chi(G, chi, n);
cm = dirichlet_chi(G, psi, m);
if (pairing != cn || pairing != cm)
{
flint_printf("FAIL: pairing\n\n");
flint_printf("q = %wu\n\n", q);
flint_printf("m = %wu\n\n", m);
flint_printf("n = %wu\n\n", n);
flint_printf("chi(m,n) = %wu\n\n", pairing);
flint_printf("chi(m)(n) = %wu\n\n", cn);
flint_printf("chi(n)(m) = %wu\n\n", cm);
abort();
}
}
dirichlet_group_dlog_clear(G);
dirichlet_char_clear(chi);
dirichlet_char_clear(psi);
dirichlet_group_clear(G);
}
}
flint_randclear(state);
flint_cleanup();
flint_printf("PASS\n");
return EXIT_SUCCESS;
}
