int
main(void)
{
int iter;
FLINT_TEST_INIT(state);
flint_printf("is_squarefree....");
fflush(stdout);
for (iter = 0; iter < 200 * flint_test_multiplier(); iter++)
{
nmod_poly_t poly, Q, R, t;
mp_limb_t modulus;
slong i, num_factors, exp, max_exp;
int v, result;
modulus = n_randtest_prime(state, 0);
nmod_poly_init(poly, modulus);
nmod_poly_init(t, modulus);
nmod_poly_init(Q, modulus);
nmod_poly_init(R, modulus);
nmod_poly_set_coeff_ui(poly, 0, n_randint(state, modulus));
num_factors = n_randint(state, 5);
max_exp = 0;
for (i = 0; i < num_factors; i++)
{
do {
nmod_poly_randtest(t, state, n_randint(state, 10));
} while (!nmod_poly_is_irreducible(t) ||
(nmod_poly_length(t) < 2));
exp = n_randint(state, 4) + 1;
if (n_randint(state, 2) == 0)
exp = 1;
nmod_poly_divrem(Q, R, poly, t);
if (!nmod_poly_is_zero(R))
{
nmod_poly_pow(t, t, exp);
nmod_poly_mul(poly, poly, t);
max_exp = FLINT_MAX(exp, max_exp);
}
}
v = nmod_poly_is_squarefree(poly);
if (v == 1)
result = (max_exp <= 1 && !nmod_poly_is_zero(poly));
else
result = (max_exp > 1 || nmod_poly_is_zero(poly));
if (!result)
{
flint_printf("FAIL: %wu, %wd, %d\n", modulus, max_exp, v);
nmod_poly_print(poly); flint_printf("\n");
abort();
}
nmod_poly_clear(poly);
nmod_poly_clear(t);
nmod_poly_clear(Q);
nmod_poly_clear(R);
}
FLINT_TEST_CLEANUP(state);
flint_printf("PASS\n");
return 0;
}
int
main(void)
{
int i, result;
flint_rand_t state;
printf("hensel_start_continue_lift....");
fflush(stdout);
flint_randinit(state);
/* We check that lifting local factors of F yields factors */
for (i = 0; i < 1000; i++)
{
fmpz_poly_t F, G, H, R;
nmod_poly_factor_t f_fac;
fmpz_poly_factor_t F_fac;
long bits, nbits, n, exp, j, part_exp;
long r;
fmpz_poly_t *v, *w;
long *link;
long prev_exp;
bits = n_randint(state, 200) + 1;
nbits = n_randint(state, FLINT_BITS - 6) + 6;
fmpz_poly_init(F);
fmpz_poly_init(G);
fmpz_poly_init(H);
fmpz_poly_init(R);
nmod_poly_factor_init(f_fac);
fmpz_poly_factor_init(F_fac);
n = n_randprime(state, nbits, 0);
exp = bits / (FLINT_BIT_COUNT(n) - 1) + 1;
part_exp = n_randint(state, exp);
/* Produce F as the product of random G and H */
{
nmod_poly_t f;
nmod_poly_init(f, n);
do {
do {
fmpz_poly_randtest(G, state, n_randint(state, 200) + 2, bits);
} while (G->length < 2);
fmpz_randtest_not_zero(G->coeffs, state, bits);
fmpz_one(fmpz_poly_lead(G));
do {
fmpz_poly_randtest(H, state, n_randint(state, 200) + 2, bits);
} while (H->length < 2);
fmpz_randtest_not_zero(H->coeffs, state, bits);
fmpz_one(fmpz_poly_lead(H));
fmpz_poly_mul(F, G, H);
fmpz_poly_get_nmod_poly(f, F);
} while (!nmod_poly_is_squarefree(f));
fmpz_poly_get_nmod_poly(f, G);
nmod_poly_factor_insert(f_fac, f, 1);
fmpz_poly_get_nmod_poly(f, H);
nmod_poly_factor_insert(f_fac, f, 1);
nmod_poly_clear(f);
}
r = f_fac->num;
v = flint_malloc((2*r - 2)*sizeof(fmpz_poly_t));
w = flint_malloc((2*r - 2)*sizeof(fmpz_poly_t));
link = flint_malloc((2*r - 2)*sizeof(long));
for (j = 0; j < 2*r - 2; j++)
{
fmpz_poly_init(v[j]);
fmpz_poly_init(w[j]);
}
if (part_exp < 1)
{
_fmpz_poly_hensel_start_lift(F_fac, link, v, w, F, f_fac, exp);
}
else
{
fmpz_t nn;
fmpz_init_set_ui(nn, n);
prev_exp = _fmpz_poly_hensel_start_lift(F_fac, link, v, w,
F, f_fac, part_exp);
_fmpz_poly_hensel_continue_lift(F_fac, link, v, w,
F, prev_exp, part_exp, exp, nn);
fmpz_clear(nn);
}
result = 1;
for (j = 0; j < F_fac->num; j++)
{
fmpz_poly_rem(R, F, F_fac->p + j);
result &= (R->length == 0);
}
for (j = 0; j < 2*r - 2; j++)
{
fmpz_poly_clear(v[j]);
fmpz_poly_clear(w[j]);
}
flint_free(link);
flint_free(v);
flint_free(w);
if (!result)
{
printf("FAIL:\n");
printf("bits = %ld, n = %ld, exp = %ld\n", bits, n, exp);
fmpz_poly_print(F); printf("\n\n");
fmpz_poly_print(G); printf("\n\n");
fmpz_poly_print(H); printf("\n\n");
fmpz_poly_factor_print(F_fac); printf("\n\n");
abort();
}
nmod_poly_factor_clear(f_fac);
fmpz_poly_factor_clear(F_fac);
fmpz_poly_clear(F);
fmpz_poly_clear(H);
fmpz_poly_clear(G);
fmpz_poly_clear(R);
}
flint_randclear(state);
_fmpz_cleanup();
printf("PASS\n");
return 0;
}
