void
arb_rising2_ui(arb_t u, arb_t v, const arb_t x, ulong n, slong prec)
{
if (prec < 512 || n < 8 || arb_bits(x) < prec / 8)
arb_rising2_ui_bs(u, v, x, n, prec);
else
arb_rising2_ui_rs(u, v, x, n, 0, prec);
}
void
arb_rising_ui_rec(arb_t y, const arb_t x, ulong n, long prec)
{
if (prec < 512 || n < 8 || arb_bits(x) < prec / 8)
arb_rising_ui_bs(y, x, n, prec);
else
arb_rising_ui_rs(y, x, n, 0, prec);
}
int main()
{
slong iter;
flint_rand_t state;
flint_printf("approx_dot....");
fflush(stdout);
flint_randinit(state);
for (iter = 0; iter < 100000 * arb_test_multiplier(); iter++)
{
arb_ptr x, y;
arb_t s1, s2, z;
slong i, len, prec, xbits, ybits, ebits;
int initial, subtract, revx, revy;
if (n_randint(state, 100) == 0)
len = n_randint(state, 100);
else if (n_randint(state, 10) == 0)
len = n_randint(state, 10);
else
len = n_randint(state, 3);
if (n_randint(state, 10) != 0 || len > 10)
{
prec = 2 + n_randint(state, 500);
xbits = 2 + n_randint(state, 500);
ybits = 2 + n_randint(state, 500);
}
else
{
prec = 2 + n_randint(state, 4000);
xbits = 2 + n_randint(state, 4000);
ybits = 2 + n_randint(state, 4000);
}
if (n_randint(state, 100) == 0)
ebits = 2 + n_randint(state, 100);
else
ebits = 2 + n_randint(state, 10);
initial = n_randint(state, 2);
subtract = n_randint(state, 2);
revx = n_randint(state, 2);
revy = n_randint(state, 2);
x = _arb_vec_init(len);
y = _arb_vec_init(len);
arb_init(s1);
arb_init(s2);
arb_init(z);
switch (n_randint(state, 3))
{
case 0:
for (i = 0; i < len; i++)
{
arb_randtest(x + i, state, xbits, ebits);
arb_randtest(y + i, state, ybits, ebits);
}
break;
/* Test with cancellation */
case 1:
for (i = 0; i < len; i++)
{
if (i <= len / 2)
{
arb_randtest(x + i, state, xbits, ebits);
arb_randtest(y + i, state, ybits, ebits);
}
else
{
arb_neg(x + i, x + len - i - 1);
arb_set(y + i, y + len - i - 1);
}
}
break;
default:
for (i = 0; i < len; i++)
{
if (i <= len / 2)
{
arb_randtest(x + i, state, xbits, ebits);
arb_randtest(y + i, state, ybits, ebits);
}
else
{
arb_neg_round(x + i, x + len - i - 1, 2 + n_randint(state, 500));
arb_set_round(y + i, y + len - i - 1, 2 + n_randint(state, 500));
}
}
break;
}
arb_randtest(s1, state, 200, 100);
arb_randtest(s2, state, 200, 100);
arb_randtest(z, state, xbits, ebits);
arb_approx_dot(s1, initial ? z : NULL, subtract,
revx ? (x + len - 1) : x, revx ? -1 : 1,
revy ? (y + len - 1) : y, revy ? -1 : 1,
len, prec);
mag_zero(arb_radref(s1));
/* With the fast algorithm, we expect identical results when
reversing the vectors. */
if (ebits <= 12)
{
arb_approx_dot(s2, initial ? z : NULL, subtract,
!revx ? (x + len - 1) : x, !revx ? -1 : 1,
!revy ? (y + len - 1) : y, !revy ? -1 : 1,
len, prec);
mag_zero(arb_radref(s2));
if (!arb_equal(s1, s2))
{
flint_printf("FAIL (reversal)\n\n");
flint_printf("iter = %wd, len = %wd, prec = %wd, ebits = %wd\n\n", iter, len, prec, ebits);
if (initial)
{
flint_printf("z = ", i); arb_printn(z, 100, ARB_STR_MORE); flint_printf(" (%wd)\n\n", arb_bits(z));
}
for (i = 0; i < len; i++)
{
flint_printf("x[%wd] = ", i); arb_printn(x + i, 100, ARB_STR_MORE); flint_printf(" (%wd)\n", arb_bits(x + i));
flint_printf("y[%wd] = ", i); arb_printn(y + i, 100, ARB_STR_MORE); flint_printf(" (%wd)\n", arb_bits(y + i));
}
flint_printf("\n\n");
flint_printf("s1 = "); arb_printn(s1, 100, ARB_STR_MORE); flint_printf("\n\n");
flint_printf("s2 = "); arb_printn(s2, 100, ARB_STR_MORE); flint_printf("\n\n");
flint_abort();
}
}
/* Verify that radii are ignored */
for (i = 0; i < len; i++)
{
arb_get_mid_arb(x + i, x + i);
arb_get_mid_arb(y + i, y + i);
}
arb_get_mid_arb(z, z);
arb_approx_dot(s2, initial ? z : NULL, subtract,
revx ? (x + len - 1) : x, revx ? -1 : 1,
revy ? (y + len - 1) : y, revy ? -1 : 1,
len, prec);
mag_zero(arb_radref(s2));
if (!arb_equal(s1, s2))
{
flint_printf("FAIL (radii)\n\n");
flint_printf("iter = %wd, len = %wd, prec = %wd, ebits = %wd\n\n", iter, len, prec, ebits);
if (initial)
{
flint_printf("z = ", i); arb_printn(z, 100, ARB_STR_MORE); flint_printf(" (%wd)\n\n", arb_bits(z));
}
for (i = 0; i < len; i++)
{
flint_printf("x[%wd] = ", i); arb_printn(x + i, 100, ARB_STR_MORE); flint_printf(" (%wd)\n", arb_bits(x + i));
flint_printf("y[%wd] = ", i); arb_printn(y + i, 100, ARB_STR_MORE); flint_printf(" (%wd)\n", arb_bits(y + i));
}
flint_printf("\n\n");
flint_printf("s1 = "); arb_printn(s1, 100, ARB_STR_MORE); flint_printf("\n\n");
flint_printf("s2 = "); arb_printn(s2, 100, ARB_STR_MORE); flint_printf("\n\n");
flint_abort();
}
/* Compare with arb_dot */
arb_approx_dot(s2, initial ? z : NULL, subtract,
revx ? (x + len - 1) : x, revx ? -1 : 1,
revy ? (y + len - 1) : y, revy ? -1 : 1,
len, prec);
{
mag_t err, xx, yy;
mag_init(err);
mag_init(xx);
mag_init(yy);
if (initial)
arb_get_mag(err, z);
for (i = 0; i < len; i++)
{
arb_get_mag(xx, revx ? x + len - 1 - i : x + i);
arb_get_mag(yy, revx ? y + len - 1 - i : y + i);
mag_addmul(err, xx, yy);
}
mag_mul_2exp_si(err, err, -prec + 2);
arb_add_error_mag(s2, err);
if (!arb_contains(s2, s1))
{
flint_printf("FAIL (inclusion)\n\n");
flint_printf("iter = %wd, len = %wd, prec = %wd, ebits = %wd\n\n", iter, len, prec, ebits);
if (initial)
{
flint_printf("z = ", i); arb_printn(z, 100, ARB_STR_MORE); flint_printf(" (%wd)\n\n", arb_bits(z));
}
for (i = 0; i < len; i++)
{
flint_printf("x[%wd] = ", i); arb_printn(x + i, 100, ARB_STR_MORE); flint_printf(" (%wd)\n", arb_bits(x + i));
flint_printf("y[%wd] = ", i); arb_printn(y + i, 100, ARB_STR_MORE); flint_printf(" (%wd)\n", arb_bits(y + i));
}
flint_printf("\n\n");
flint_printf("s1 = "); arb_printn(s1, 100, ARB_STR_MORE); flint_printf("\n\n");
flint_printf("s2 = "); arb_printn(s2, 100, ARB_STR_MORE); flint_printf("\n\n");
flint_abort();
}
mag_clear(err);
mag_clear(xx);
mag_clear(yy);
}
arb_clear(s1);
arb_clear(s2);
arb_clear(z);
_arb_vec_clear(x, len);
_arb_vec_clear(y, len);
}
flint_randclear(state);
flint_cleanup();
flint_printf("PASS\n");
return EXIT_SUCCESS;
}