/*
Copyright (C) 2006, 2007, 2008, 2009, 2016 William Hart
Copyright (C) 2008, Peter Shrimpton
Copyright (C) 2009, Tom Boothby
Copyright (C) 2010, Fredrik Johansson
This file is part of FLINT.
FLINT is free software: you can redistribute it and/or modify it under
the terms of the GNU Lesser General Public License (LGPL) as published
by the Free Software Foundation; either version 2.1 of the License, or
(at your option) any later version. See .
*/
#ifndef ULONG_EXTRAS_H
#define ULONG_EXTRAS_H
#ifdef ULONG_EXTRAS_INLINES_C
#define ULONG_EXTRAS_INLINE FLINT_DLL
#else
#define ULONG_EXTRAS_INLINE static __inline__
#endif
#include
#include "flint.h"
#ifdef __cplusplus
extern "C" {
#endif
typedef struct pair_s
{
ulong x, y;
} n_pair_t;
#define FLINT_MAX_FACTORS_IN_LIMB 15
typedef struct {
int num;
int exp[FLINT_MAX_FACTORS_IN_LIMB];
ulong p[FLINT_MAX_FACTORS_IN_LIMB];
} n_factor_t;
#define FLINT_ODDPRIME_SMALL_CUTOFF 4096
#define FLINT_NUM_PRIMES_SMALL 172
#define FLINT_PRIMES_SMALL_CUTOFF 1030
#define FLINT_PSEUDOSQUARES_CUTOFF 1000
#define FLINT_FACTOR_TRIAL_PRIMES 3000
/* nth_prime(FLINT_FACTOR_TRIAL_PRIMES) */
#define FLINT_FACTOR_TRIAL_PRIMES_PRIME UWORD(27449)
#define FLINT_FACTOR_TRIAL_CUTOFF (UWORD(27449) * UWORD(27449))
#define FLINT_PRIMES_TAB_DEFAULT_CUTOFF 1000000
#define FLINT_FACTOR_SQUFOF_ITERS 50000
#define FLINT_FACTOR_ONE_LINE_MAX (UWORD(1)<<39)
#define FLINT_FACTOR_ONE_LINE_ITERS 40000
#define FLINT_PRIME_PI_ODD_LOOKUP_CUTOFF 311
#define FLINT_SIEVE_SIZE 65536
#if FLINT64
#define UWORD_MAX_PRIME UWORD(18446744073709551557)
#else
#define UWORD_MAX_PRIME UWORD(4294967291)
#endif
#define UWORD_HALF (UWORD_MAX / 2 + 1)
typedef struct
{
slong small_i;
slong small_num;
unsigned int * small_primes;
ulong sieve_a;
ulong sieve_b;
slong sieve_i;
slong sieve_num;
char * sieve;
}
n_primes_struct;
typedef n_primes_struct n_primes_t[1];
FLINT_DLL void n_primes_init(n_primes_t iter);
FLINT_DLL void n_primes_clear(n_primes_t iter);
FLINT_DLL void n_primes_extend_small(n_primes_t iter, ulong bound);
FLINT_DLL void n_primes_sieve_range(n_primes_t iter, ulong a, ulong b);
FLINT_DLL void n_primes_jump_after(n_primes_t iter, ulong n);
ULONG_EXTRAS_INLINE ulong
n_primes_next(n_primes_t iter)
{
if (iter->small_i < iter->small_num)
return iter->small_primes[(iter->small_i)++];
for (;;)
{
while (iter->sieve_i < iter->sieve_num)
if (iter->sieve[iter->sieve_i++] != 0)
return iter->sieve_a + 2 * (iter->sieve_i - 1);
if (iter->sieve_b == 0)
n_primes_jump_after(iter, iter->small_primes[iter->small_num-1]);
else
n_primes_jump_after(iter, iter->sieve_b);
}
}
FLINT_DLL extern const unsigned int flint_primes_small[];
extern FLINT_TLS_PREFIX ulong * _flint_primes[FLINT_BITS];
extern FLINT_TLS_PREFIX double * _flint_prime_inverses[FLINT_BITS];
extern FLINT_TLS_PREFIX int _flint_primes_used;
FLINT_DLL void n_compute_primes(ulong num_primes);
FLINT_DLL void n_cleanup_primes(void);
FLINT_DLL const ulong * n_primes_arr_readonly(ulong n);
FLINT_DLL const double * n_prime_inverses_arr_readonly(ulong n);
/* Checked arithmetic ********************************************************/
ULONG_EXTRAS_INLINE int n_mul_checked(ulong * a, ulong b, ulong c)
{
ulong ahi, alo;
umul_ppmm(ahi, alo, b, c);
*a = alo;
return 0 != ahi;
}
ULONG_EXTRAS_INLINE int n_add_checked(ulong * a, ulong b, ulong c)
{
int of = b + c < b;
*a = b + c;
return of;
}
ULONG_EXTRAS_INLINE int n_sub_checked(ulong * a, ulong b, ulong c)
{
int of = b < c;
*a = b - c;
return of;
}
/*****************************************************************************/
FLINT_DLL ulong n_randlimb(flint_rand_t state);
FLINT_DLL ulong n_randint(flint_rand_t state, ulong limit);
FLINT_DLL ulong n_urandint(flint_rand_t state, ulong limit);
FLINT_DLL ulong n_randbits(flint_rand_t state, unsigned int bits);
FLINT_DLL ulong n_randtest_bits(flint_rand_t state, int bits);
FLINT_DLL ulong n_randtest(flint_rand_t state);
FLINT_DLL ulong n_randtest_not_zero(flint_rand_t state);
FLINT_DLL ulong n_randprime(flint_rand_t state, ulong bits, int proved);
FLINT_DLL ulong n_randtest_prime(flint_rand_t state, int proved);
FLINT_DLL ulong n_pow(ulong n, ulong exp);
FLINT_DLL ulong n_flog(ulong n, ulong b);
FLINT_DLL ulong n_clog(ulong n, ulong b);
FLINT_DLL ulong n_clog_2exp(ulong n, ulong b);
ULONG_EXTRAS_INLINE
double n_precompute_inverse(ulong n)
{
return (double) 1 / (double) n;
}
ULONG_EXTRAS_INLINE
ulong n_preinvert_limb(ulong n)
{
ulong norm, ninv;
count_leading_zeros(norm, n);
invert_limb(ninv, n << norm);
return ninv;
}
FLINT_DLL ulong n_mod_precomp(ulong a, ulong n, double ninv);
FLINT_DLL ulong n_mod2_precomp(ulong a, ulong n, double ninv);
FLINT_DLL ulong n_divrem2_precomp(ulong * q, ulong a,
ulong n, double npre);
FLINT_DLL ulong n_divrem2_preinv(ulong * q, ulong a, ulong n, ulong ninv);
FLINT_DLL ulong n_div2_preinv(ulong a, ulong n, ulong ninv);
FLINT_DLL ulong n_mod2_preinv(ulong a, ulong n, ulong ninv);
FLINT_DLL ulong n_ll_mod_preinv(ulong a_hi, ulong a_lo,
ulong n, ulong ninv);
FLINT_DLL ulong n_lll_mod_preinv(ulong a_hi, ulong a_mi,
ulong a_lo, ulong n, ulong ninv);
FLINT_DLL ulong n_mulmod_precomp(ulong a, ulong b,
ulong n, double ninv);
ULONG_EXTRAS_INLINE
ulong n_mulmod2_preinv(ulong a, ulong b, ulong n, ulong ninv)
{
ulong p1, p2;
FLINT_ASSERT(n != 0);
umul_ppmm(p1, p2, a, b);
return n_ll_mod_preinv(p1, p2, n, ninv);
}
ULONG_EXTRAS_INLINE
ulong n_mulmod2(ulong a, ulong b, ulong n)
{
ulong p1, p2, ninv;
FLINT_ASSERT(n != 0);
ninv = n_preinvert_limb(n);
umul_ppmm(p1, p2, a, b);
return n_ll_mod_preinv(p1, p2, n, ninv);
}
FLINT_DLL ulong n_mulmod_preinv(ulong a, ulong b,
ulong n, ulong ninv, ulong norm);
FLINT_DLL ulong n_powmod_ui_precomp(ulong a, ulong exp, ulong n, double npre);
FLINT_DLL ulong n_powmod_precomp(ulong a, slong exp, ulong n, double npre);
ULONG_EXTRAS_INLINE
ulong n_powmod(ulong a, slong exp, ulong n)
{
double npre = n_precompute_inverse(n);
return n_powmod_precomp(a, exp, n, npre);
}
/*
This function is in fmpz.h
FLINT_DLL ulong n_powmod2_fmpz_preinv(ulong a, const fmpz_t exp,
ulong n, ulong ninv);
*/
FLINT_DLL ulong n_powmod2_preinv(ulong a, slong exp, ulong n, ulong ninv);
FLINT_DLL ulong n_powmod2_ui_preinv(ulong a, ulong exp, ulong n, ulong ninv);
FLINT_DLL ulong n_powmod_ui_preinv(ulong a, ulong exp, ulong n,
ulong ninv, ulong norm);
ULONG_EXTRAS_INLINE
ulong n_powmod2(ulong a, slong exp, ulong n)
{
ulong ninv;
FLINT_ASSERT(n != 0);
ninv = n_preinvert_limb(n);
return n_powmod2_preinv(a, exp, n, ninv);
}
ULONG_EXTRAS_INLINE
ulong n_addmod(ulong x, ulong y, ulong n)
{
FLINT_ASSERT(x < n);
FLINT_ASSERT(y < n);
FLINT_ASSERT(n != 0);
return (n - y > x ? x + y : x + y - n);
}
ULONG_EXTRAS_INLINE
ulong n_submod(ulong x, ulong y, ulong n)
{
FLINT_ASSERT(x < n);
FLINT_ASSERT(y < n);
FLINT_ASSERT(n != 0);
return (y > x ? x - y + n : x - y);
}
ULONG_EXTRAS_INLINE
ulong n_negmod(ulong x, ulong n)
{
FLINT_ASSERT(x < n);
FLINT_ASSERT(n != 0);
return n_submod(0, x, n);
}
FLINT_DLL ulong n_sqrtmod(ulong a, ulong p);
FLINT_DLL slong n_sqrtmod_2pow(ulong ** sqrt, ulong a, slong exp);
FLINT_DLL slong n_sqrtmod_primepow(ulong ** sqrt, ulong a,
ulong p, slong exp);
FLINT_DLL slong n_sqrtmodn(ulong ** sqrt, ulong a, n_factor_t * fac);
FLINT_DLL ulong n_gcd(ulong x, ulong y);
#define n_gcd_full n_gcd
FLINT_DLL ulong n_xgcd(ulong * a, ulong * b, ulong x, ulong y);
FLINT_DLL ulong n_gcdinv(ulong * a, ulong x, ulong y);
ULONG_EXTRAS_INLINE
ulong n_invmod(ulong x, ulong y)
{
ulong r, g;
g = n_gcdinv(&r, x, y);
if (g != 1)
flint_throw(FLINT_IMPINV, "Cannot invert modulo %wd*%wd\n", g, g/y);
return r;
}
FLINT_DLL ulong n_CRT(ulong r1, ulong m1, ulong r2, ulong m2);
FLINT_DLL ulong n_revbin(ulong in, ulong bits);
FLINT_DLL int n_jacobi(slong x, ulong y);
FLINT_DLL int n_jacobi_unsigned(ulong x, ulong y);
FLINT_DLL int _n_jacobi_unsigned(ulong x, ulong y, unsigned int r);
FLINT_DLL ulong n_sqrt(ulong a);
FLINT_DLL ulong n_sqrtrem(ulong * r, ulong a);
FLINT_DLL int n_is_square(ulong x);
FLINT_DLL double n_cbrt_estimate(double a);
FLINT_DLL ulong n_cbrt(ulong a);
FLINT_DLL ulong n_cbrt_binary_search(ulong x);
FLINT_DLL ulong n_cbrt_newton_iteration(ulong n);
FLINT_DLL ulong n_cbrt_chebyshev_approx(ulong n);
FLINT_DLL ulong n_cbrtrem(ulong* remainder, ulong n);
FLINT_DLL int n_is_perfect_power235(ulong n);
FLINT_DLL int n_is_perfect_power(ulong * root, ulong n);
FLINT_DLL int n_divides(mp_limb_t * q, mp_limb_t n, mp_limb_t p);
FLINT_DLL int n_is_oddprime_small(ulong n);
FLINT_DLL int n_is_oddprime_binary(ulong n);
FLINT_DLL int n_is_probabprime_fermat(ulong n, ulong i);
FLINT_DLL int n_is_probabprime_fibonacci(ulong n);
FLINT_DLL int n_is_probabprime_lucas(ulong n);
FLINT_DLL int n_is_probabprime_BPSW(ulong n);
FLINT_DLL int n_is_strong_probabprime_precomp(ulong n,
double npre, ulong a, ulong d);
FLINT_DLL int n_is_strong_probabprime2_preinv(ulong n,
ulong ninv, ulong a, ulong d);
FLINT_DLL int n_is_probabprime(ulong n);
FLINT_DLL int n_is_prime_pseudosquare(ulong n);
FLINT_DLL int n_is_prime_pocklington(ulong n, ulong iterations);
FLINT_DLL int n_is_prime(ulong n);
FLINT_DLL ulong n_nth_prime(ulong n);
FLINT_DLL void n_nth_prime_bounds(ulong *lo, ulong *hi, ulong n);
FLINT_DLL ulong n_prime_pi(ulong n);
FLINT_DLL void n_prime_pi_bounds(ulong *lo, ulong *hi, ulong n);
FLINT_DLL int n_remove(ulong * n, ulong p);
FLINT_DLL int n_remove2_precomp(ulong * n, ulong p, double ppre);
ULONG_EXTRAS_INLINE
void n_factor_init(n_factor_t * factors)
{
factors->num = UWORD(0);
}
FLINT_DLL void n_factor_insert(n_factor_t * factors, ulong p, ulong exp);
FLINT_DLL ulong n_factor_trial_range(n_factor_t * factors,
ulong n, ulong start, ulong num_primes);
FLINT_DLL ulong n_factor_trial_partial(n_factor_t * factors, ulong n,
ulong * prod, ulong num_primes, ulong limit);
FLINT_DLL ulong n_factor_trial(n_factor_t * factors,
ulong n, ulong num_primes);
FLINT_DLL ulong n_factor_partial(n_factor_t * factors,
ulong n, ulong limit, int proved);
FLINT_DLL ulong n_factor_power235(ulong *exp, ulong n);
FLINT_DLL ulong n_factor_one_line(ulong n, ulong iters);
FLINT_DLL ulong n_factor_lehman(ulong n);
FLINT_DLL ulong n_factor_SQUFOF(ulong n, ulong iters);
FLINT_DLL void n_factor(n_factor_t * factors, ulong n, int proved);
FLINT_DLL ulong n_factor_pp1(ulong n, ulong B1, ulong c);
FLINT_DLL ulong n_factor_pp1_wrapper(ulong n);
FLINT_DLL void n_factor_pp1_table_insert(slong bits, slong B1, slong count);
FLINT_DLL int n_factor_pollard_brent_single(ulong *factor, ulong n,
ulong ninv, ulong ai,
ulong xi, ulong normbits,
ulong max_iters);
FLINT_DLL int n_factor_pollard_brent(ulong *factor, flint_rand_t state,
ulong n_in, ulong max_tries,
ulong max_iters);
FLINT_DLL int n_is_squarefree(ulong n);
FLINT_DLL int n_moebius_mu(ulong n);
FLINT_DLL void n_moebius_mu_vec(int * mu, ulong len);
FLINT_DLL ulong n_euler_phi(ulong n);
FLINT_DLL int n_sizeinbase(ulong n, int base);
FLINT_DLL ulong n_nextprime(ulong n, int proved);
FLINT_DLL ulong n_factorial_mod2_preinv(ulong n, ulong p, ulong pinv);
FLINT_DLL ulong n_factorial_fast_mod2_preinv(ulong n, ulong p, ulong pinv);
FLINT_DLL ulong n_primitive_root_prime_prefactor(ulong p, n_factor_t * factors);
FLINT_DLL ulong n_primitive_root_prime(ulong p);
FLINT_DLL ulong n_discrete_log_bsgs(ulong b, ulong a, ulong n);
FLINT_DLL ulong n_root_estimate(double a, int n);
FLINT_DLL ulong n_rootrem(ulong* remainder, ulong n, ulong root);
FLINT_DLL ulong n_root(ulong n, ulong root);
/***** ECM functions *********************************************************/
typedef struct n_ecm_s {
ulong x, z; /* the coordinates */
ulong a24; /* value (a + 2)/4 */
ulong ninv;
ulong normbits;
ulong one;
unsigned char *GCD_table; /* checks whether baby step int is
coprime to Primorial or not */
unsigned char **prime_table;
} n_ecm_s;
typedef n_ecm_s n_ecm_t[1];
FLINT_DLL void n_factor_ecm_double(ulong *x, ulong *z, ulong x0,
ulong z0, ulong n, n_ecm_t n_ecm_inf);
FLINT_DLL void n_factor_ecm_add(ulong *x, ulong *z, ulong x1,
ulong z1, ulong x2, ulong z2,
ulong x0, ulong z0, ulong n,
n_ecm_t n_ecm_inf);
FLINT_DLL void n_factor_ecm_mul_montgomery_ladder(ulong *x, ulong *z,
ulong x0, ulong z0,
ulong k, ulong n,
n_ecm_t n_ecm_inf);
FLINT_DLL int n_factor_ecm_select_curve(ulong *f, ulong sig, ulong n,
n_ecm_t n_ecm_inf);
FLINT_DLL int n_factor_ecm_stage_I(ulong *f, const ulong *prime_array,
ulong num, ulong B1, ulong n,
n_ecm_t n_ecm_inf);
FLINT_DLL int n_factor_ecm_stage_II(ulong *f, ulong B1, ulong B2,
ulong P, ulong n, n_ecm_t n_ecm_inf);
FLINT_DLL int n_factor_ecm(ulong *f, ulong curves, ulong B1,
ulong B2, flint_rand_t state, ulong n);
FLINT_DLL mp_limb_t n_mulmod_precomp_shoup(mp_limb_t w, mp_limb_t p);
ULONG_EXTRAS_INLINE mp_limb_t
n_mulmod_shoup(mp_limb_t w, mp_limb_t t, mp_limb_t w_precomp, mp_limb_t p)
{
mp_limb_t q, r, p_hi, p_lo;
umul_ppmm(p_hi, p_lo, w_precomp, t);
q = p_hi;
r = w * t;
r -= q * p;
if (r >= p)
{
r -= p;
}
return r;
}
#ifdef __cplusplus
}
#endif
#endif