/usr/include/flint/fmpq_poly.h is in libflint-dev 2.4.4-2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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This file is part of FLINT.
FLINT is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
FLINT is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with FLINT; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
=============================================================================*/
/******************************************************************************
Copyright (C) 2010 Sebastian Pancratz
Copyright (C) 2010 William Hart
Copyright (C) 2011 Fredrik Johansson
******************************************************************************/
#ifndef FMPQ_POLY_H
#define FMPQ_POLY_H
#include <gmp.h>
#include "fmpz.h"
#include "fmpq.h"
#include "fmpz_vec.h"
#include "fmpz_poly.h"
#include "flint.h"
#ifdef __cplusplus
extern "C" {
#endif
/* Type definitions ********************************************************/
typedef struct
{
fmpz * coeffs;
fmpz_t den;
slong alloc;
slong length;
} fmpq_poly_struct;
typedef fmpq_poly_struct fmpq_poly_t[1];
typedef struct
{
fmpq_poly_struct * powers;
slong len;
} fmpq_poly_powers_precomp_struct;
typedef fmpq_poly_powers_precomp_struct fmpq_poly_powers_precomp_t[1];
#define WEAK_CANONICALISE_CUTOFF 25600
/* Memory management *******************************************************/
void fmpq_poly_init(fmpq_poly_t poly);
void fmpq_poly_init2(fmpq_poly_t poly, slong alloc);
void fmpq_poly_realloc(fmpq_poly_t poly, slong alloc);
void fmpq_poly_fit_length(fmpq_poly_t poly, slong len);
void _fmpq_poly_set_length(fmpq_poly_t poly, slong len);
void fmpq_poly_clear(fmpq_poly_t poly);
void _fmpq_poly_normalise(fmpq_poly_t poly);
/* Accessing numerator and denominator *************************************/
#define fmpq_poly_numref(poly) ((poly)->coeffs)
#define fmpq_poly_denref(poly) ((poly)->den)
static __inline__ void
fmpq_poly_get_numerator(fmpz_poly_t res, const fmpq_poly_t poly)
{
fmpz_poly_fit_length(res, poly->length);
_fmpz_vec_set(res->coeffs, poly->coeffs, poly->length);
_fmpz_poly_set_length(res, poly->length);
}
/* Canonicalisation *************************************/
void _fmpq_poly_canonicalise(fmpz * rpoly, fmpz_t den, slong len);
void fmpq_poly_canonicalise(fmpq_poly_t poly);
int _fmpq_poly_is_canonical(const fmpz * poly, const fmpz_t den, slong len);
int fmpq_poly_is_canonical(const fmpq_poly_t poly);
/* Polynomial parameters ***************************************************/
static __inline__
slong fmpq_poly_degree(const fmpq_poly_t poly)
{
return poly->length - 1;
}
static __inline__
slong fmpq_poly_length(const fmpq_poly_t poly)
{
return poly->length;
}
/* Randomisation ***********************************************************/
void fmpq_poly_randtest(fmpq_poly_t f, flint_rand_t state,
slong len, mp_bitcnt_t bits_in);
void fmpq_poly_randtest_unsigned(fmpq_poly_t f, flint_rand_t state,
slong len, mp_bitcnt_t bits_in);
void fmpq_poly_randtest_not_zero(fmpq_poly_t f, flint_rand_t state,
slong len, mp_bitcnt_t bits_in);
/* Assignment and basic manipulation ***************************************/
void fmpq_poly_set(fmpq_poly_t poly1, const fmpq_poly_t poly2);
void fmpq_poly_set_si(fmpq_poly_t poly, slong x);
void fmpq_poly_set_ui(fmpq_poly_t poly, ulong x);
void fmpq_poly_set_fmpz(fmpq_poly_t poly, const fmpz_t x);
void fmpq_poly_set_fmpq(fmpq_poly_t poly, const fmpq_t x);
void fmpq_poly_set_mpz(fmpq_poly_t poly, const mpz_t x);
void fmpq_poly_set_mpq(fmpq_poly_t poly, const mpq_t x);
void fmpq_poly_set_fmpz_poly(fmpq_poly_t rop, const fmpz_poly_t op);
void _fmpq_poly_set_array_mpq(fmpz * poly, fmpz_t den, const mpq_t * a, slong n);
void fmpq_poly_set_array_mpq(fmpq_poly_t poly, const mpq_t * a, slong n);
int _fmpq_poly_set_str(fmpz * poly, fmpz_t den, const char * str);
int fmpq_poly_set_str(fmpq_poly_t poly, const char * str);
char * fmpq_poly_get_str(const fmpq_poly_t poly);
char * fmpq_poly_get_str_pretty(const fmpq_poly_t poly, const char * var);
void fmpq_poly_zero(fmpq_poly_t poly);
static __inline__ void fmpq_poly_one(fmpq_poly_t poly)
{
fmpq_poly_fit_length(poly, 1);
_fmpq_poly_set_length(poly, 1);
fmpz_one(poly->coeffs);
fmpz_one(poly->den);
}
void fmpq_poly_neg(fmpq_poly_t poly1, const fmpq_poly_t poly2);
void fmpq_poly_inv(fmpq_poly_t poly1, const fmpq_poly_t poly2);
void fmpq_poly_swap(fmpq_poly_t poly1, fmpq_poly_t poly2);
static __inline__
void fmpq_poly_truncate(fmpq_poly_t poly, slong n)
{
if (poly->length > n)
{
slong i;
for (i = n; i < poly->length; i++)
_fmpz_demote(poly->coeffs + i);
poly->length = n;
fmpq_poly_canonicalise(poly);
}
}
void fmpq_poly_get_slice(fmpq_poly_t rop,
const fmpq_poly_t op, slong i, slong j);
void fmpq_poly_reverse(fmpq_poly_t res, const fmpq_poly_t poly, slong n);
/* Getting and setting coefficients ****************************************/
void fmpq_poly_get_coeff_fmpq(fmpq_t x, const fmpq_poly_t poly, slong n);
void fmpq_poly_get_coeff_mpq(mpq_t x, const fmpq_poly_t poly, slong n);
void fmpq_poly_set_coeff_si(fmpq_poly_t poly, slong n, slong x);
void fmpq_poly_set_coeff_ui(fmpq_poly_t poly, slong n, ulong x);
void fmpq_poly_set_coeff_fmpz(fmpq_poly_t poly, slong n, const fmpz_t x);
void fmpq_poly_set_coeff_fmpq(fmpq_poly_t poly, slong n, const fmpq_t x);
void fmpq_poly_set_coeff_mpz(fmpq_poly_t poly, slong n, const mpz_t x);
void fmpq_poly_set_coeff_mpq(fmpq_poly_t poly, slong n, const mpq_t x);
/* Comparison **************************************************************/
int fmpq_poly_equal(const fmpq_poly_t poly1, const fmpq_poly_t poly2);
int fmpq_poly_cmp(const fmpq_poly_t left, const fmpq_poly_t right);
static __inline__
int fmpq_poly_is_zero(const fmpq_poly_t poly)
{
return poly->length == WORD(0);
}
static __inline__
int fmpq_poly_is_one(const fmpq_poly_t poly)
{
return (poly->length == WORD(1)) && (fmpz_equal(poly->coeffs, poly->den));
}
/* Addition and subtraction ************************************************/
void _fmpq_poly_add(fmpz * rpoly, fmpz_t rden,
const fmpz * poly1, const fmpz_t den1, slong len1,
const fmpz * poly2, const fmpz_t den2, slong len2);
void fmpq_poly_add(fmpq_poly_t res,
const fmpq_poly_t poly1, const fmpq_poly_t poly2);
void _fmpq_poly_add_can(fmpz * rpoly, fmpz_t rden,
const fmpz * poly1, const fmpz_t den1, slong len1,
const fmpz * poly2, const fmpz_t den2, slong len2, int can);
void fmpq_poly_add_can(fmpq_poly_t res,
const fmpq_poly_t poly1, const fmpq_poly_t poly2, int can);
void _fmpq_poly_sub(fmpz * rpoly, fmpz_t rden,
const fmpz * poly1, const fmpz_t den1, slong len1,
const fmpz * poly2, const fmpz_t den2, slong len2);
void fmpq_poly_sub(fmpq_poly_t res,
const fmpq_poly_t poly1, const fmpq_poly_t poly2);
void _fmpq_poly_sub_can(fmpz * rpoly, fmpz_t rden,
const fmpz * poly1, const fmpz_t den1, slong len1,
const fmpz * poly2, const fmpz_t den2, slong len2, int can);
void fmpq_poly_sub_can(fmpq_poly_t res,
const fmpq_poly_t poly1, const fmpq_poly_t poly2, int can);
/* Scalar multiplication and division **************************************/
void _fmpq_poly_scalar_mul_si(fmpz * rpoly, fmpz_t rden,
const fmpz * poly, const fmpz_t den, slong len, slong c);
void _fmpq_poly_scalar_mul_ui(fmpz * rpoly, fmpz_t rden,
const fmpz * poly, const fmpz_t den, slong len, ulong c);
void _fmpq_poly_scalar_mul_fmpz(fmpz * rpoly, fmpz_t rden,
const fmpz * poly, const fmpz_t den, slong len, const fmpz_t c);
void _fmpq_poly_scalar_mul_fmpq(fmpz * rpoly, fmpz_t rden, const fmpz * poly,
const fmpz_t den, slong len, const fmpz_t r, const fmpz_t s);
void fmpq_poly_scalar_mul_si(fmpq_poly_t rop, const fmpq_poly_t op, slong c);
void fmpq_poly_scalar_mul_ui(fmpq_poly_t rop, const fmpq_poly_t op, ulong c);
void fmpq_poly_scalar_mul_fmpz(fmpq_poly_t rop,
const fmpq_poly_t op, const fmpz_t c);
void fmpq_poly_scalar_mul_fmpq(fmpq_poly_t rop,
const fmpq_poly_t op, const fmpq_t c);
void fmpq_poly_scalar_mul_mpz(fmpq_poly_t rop,
const fmpq_poly_t op, const mpz_t c);
void fmpq_poly_scalar_mul_mpq(fmpq_poly_t rop,
const fmpq_poly_t op, const mpq_t c);
void _fmpq_poly_scalar_div_si(fmpz * rpoly, fmpz_t rden,
const fmpz * poly, const fmpz_t den, slong len, slong c);
void _fmpq_poly_scalar_div_ui(fmpz * rpoly, fmpz_t rden,
const fmpz * poly, const fmpz_t den, slong len, ulong c);
void _fmpq_poly_scalar_div_fmpz(fmpz * rpoly, fmpz_t rden,
const fmpz * poly, const fmpz_t den, slong len, const fmpz_t c);
void _fmpq_poly_scalar_div_fmpq(fmpz * rpoly, fmpz_t rden, const fmpz * poly,
const fmpz_t den, slong len, const fmpz_t r, const fmpz_t s);
void fmpq_poly_scalar_div_si(fmpq_poly_t rop, const fmpq_poly_t op, slong c);
void fmpq_poly_scalar_div_ui(fmpq_poly_t rop, const fmpq_poly_t op, ulong c);
void fmpq_poly_scalar_div_fmpz(fmpq_poly_t rop,
const fmpq_poly_t op, const fmpz_t c);
void fmpq_poly_scalar_div_fmpq(fmpq_poly_t rop,
const fmpq_poly_t op, const fmpq_t c);
void fmpq_poly_scalar_div_mpz(fmpq_poly_t rop,
const fmpq_poly_t op, const mpz_t c);
void fmpq_poly_scalar_div_mpq(fmpq_poly_t rop,
const fmpq_poly_t op, const mpq_t c);
/* Multiplication **********************************************************/
void _fmpq_poly_mul(fmpz * rpoly, fmpz_t rden,
const fmpz * poly1, const fmpz_t den1, slong len1,
const fmpz * poly2, const fmpz_t den2, slong len2);
void fmpq_poly_mul(fmpq_poly_t res,
const fmpq_poly_t poly1, const fmpq_poly_t poly2);
void _fmpq_poly_mullow(fmpz * rpoly, fmpz_t rden,
const fmpz * poly1, const fmpz_t den1, slong len1,
const fmpz * poly2, const fmpz_t den2, slong len2, slong n);
void fmpq_poly_mullow(fmpq_poly_t res,
const fmpq_poly_t poly1, const fmpq_poly_t poly2, slong n);
static __inline__
void fmpq_poly_addmul(fmpq_poly_t rop, const fmpq_poly_t op1, const fmpq_poly_t op2)
{
fmpq_poly_t t;
fmpq_poly_init(t);
fmpq_poly_mul(t, op1, op2);
fmpq_poly_add(rop, rop, t);
fmpq_poly_clear(t);
}
static __inline__
void fmpq_poly_submul(fmpq_poly_t rop, const fmpq_poly_t op1, const fmpq_poly_t op2)
{
fmpq_poly_t t;
fmpq_poly_init(t);
fmpq_poly_mul(t, op1, op2);
fmpq_poly_sub(rop, rop, t);
fmpq_poly_clear(t);
}
/* Powering ****************************************************************/
void _fmpq_poly_pow(fmpz * rpoly, fmpz_t rden, const fmpz * poly,
const fmpz_t den, slong len, ulong e);
void fmpq_poly_pow(fmpq_poly_t rpoly, const fmpq_poly_t poly, ulong e);
/* Shifting ****************************************************************/
void fmpq_poly_shift_left(fmpq_poly_t res, const fmpq_poly_t poly, slong n);
void fmpq_poly_shift_right(fmpq_poly_t res, const fmpq_poly_t poly, slong n);
/* Euclidean division ******************************************************/
void _fmpq_poly_divrem(fmpz * Q, fmpz_t q, fmpz * R, fmpz_t r,
const fmpz * A, const fmpz_t a, slong lenA,
const fmpz * B, const fmpz_t b, slong lenB, const fmpz_preinvn_t inv);
void fmpq_poly_divrem(fmpq_poly_t Q, fmpq_poly_t R,
const fmpq_poly_t poly1, const fmpq_poly_t poly2);
void _fmpq_poly_div(fmpz * Q, fmpz_t q,
const fmpz * A, const fmpz_t a, slong lenA,
const fmpz * B, const fmpz_t b, slong lenB, const fmpz_preinvn_t inv);
void fmpq_poly_div(fmpq_poly_t Q,
const fmpq_poly_t poly1, const fmpq_poly_t poly2);
void _fmpq_poly_rem(fmpz * R, fmpz_t r,
const fmpz * A, const fmpz_t a, slong lenA,
const fmpz * B, const fmpz_t b, slong lenB, const fmpz_preinvn_t inv);
void fmpq_poly_rem(fmpq_poly_t R,
const fmpq_poly_t poly1, const fmpq_poly_t poly2);
/* Precomputed inverse *****************************************************/
fmpq_poly_struct * _fmpq_poly_powers_precompute(const fmpz * B,
const fmpz_t denB, slong len);
void fmpq_poly_powers_precompute(fmpq_poly_powers_precomp_t pinv,
fmpq_poly_t poly);
void _fmpq_poly_powers_clear(fmpq_poly_struct * powers, slong len);
void fmpq_poly_powers_clear(fmpq_poly_powers_precomp_t pinv);
void _fmpq_poly_rem_powers_precomp(fmpz * A, fmpz_t denA, slong m,
const fmpz * B, const fmpz_t denB, slong n,
fmpq_poly_struct * const powers);
void fmpq_poly_rem_powers_precomp(fmpq_poly_t R, const fmpq_poly_t A,
const fmpq_poly_t B, const fmpq_poly_powers_precomp_t B_inv);
/* Power series division ***************************************************/
void _fmpq_poly_inv_series_newton(fmpz * Qinv, fmpz_t Qinvden,
const fmpz * Q, const fmpz_t Qden, slong n);
void fmpq_poly_inv_series_newton(fmpq_poly_t Qinv, const fmpq_poly_t Q, slong n);
static __inline__ void
_fmpq_poly_inv_series(fmpz * Qinv, fmpz_t Qinvden,
const fmpz * Q, const fmpz_t Qden, slong n)
{
_fmpq_poly_inv_series_newton(Qinv, Qinvden, Q, Qden, n);
}
static __inline__ void
fmpq_poly_inv_series(fmpq_poly_t Qinv, const fmpq_poly_t Q, slong n)
{
fmpq_poly_inv_series_newton(Qinv, Q, n);
}
void _fmpq_poly_div_series(fmpz * Q, fmpz_t denQ,
const fmpz * A, const fmpz_t denA,
const fmpz * B, const fmpz_t denB, slong n);
void fmpq_poly_div_series(fmpq_poly_t Q, const fmpq_poly_t A,
const fmpq_poly_t B, slong n);
/* Greatest common divisor **************************************************/
void _fmpq_poly_gcd(fmpz *G, fmpz_t denG,
const fmpz *A, slong lenA, const fmpz *B, slong lenB);
void fmpq_poly_gcd(fmpq_poly_t G, const fmpq_poly_t A, const fmpq_poly_t B);
void _fmpq_poly_xgcd(fmpz *G, fmpz_t denG,
fmpz *S, fmpz_t denS, fmpz *T, fmpz_t denT,
const fmpz *A, const fmpz_t denA, slong lenA,
const fmpz *B, const fmpz_t denB, slong lenB);
void fmpq_poly_xgcd(fmpq_poly_t G, fmpq_poly_t S, fmpq_poly_t T,
const fmpq_poly_t A, const fmpq_poly_t B);
void _fmpq_poly_lcm(fmpz *G, fmpz_t denG,
const fmpz *A, slong lenA, const fmpz *B, slong lenB);
void fmpq_poly_lcm(fmpq_poly_t L, const fmpq_poly_t A, const fmpq_poly_t B);
void _fmpq_poly_resultant(fmpz_t rnum, fmpz_t rden,
const fmpz *poly1, const fmpz_t den1, slong len1,
const fmpz *poly2, const fmpz_t den2, slong len2);
void fmpq_poly_resultant(fmpq_t r, const fmpq_poly_t f, const fmpq_poly_t g);
/* Derivative and integral *************************************************/
void _fmpq_poly_derivative(fmpz * rpoly, fmpz_t rden,
const fmpz * poly, const fmpz_t den, slong len);
void fmpq_poly_derivative(fmpq_poly_t res, const fmpq_poly_t poly);
void _fmpq_poly_integral(fmpz * rpoly, fmpz_t rden,
const fmpz * poly, const fmpz_t den, slong len);
void fmpq_poly_integral(fmpq_poly_t res, const fmpq_poly_t poly);
/* Square roots ************************************************************/
void _fmpq_poly_invsqrt_series(fmpz * rpoly, fmpz_t rden,
const fmpz * poly, const fmpz_t den, slong n);
void fmpq_poly_invsqrt_series(fmpq_poly_t res, const fmpq_poly_t poly, slong n);
void _fmpq_poly_sqrt_series(fmpz * rpoly, fmpz_t rden,
const fmpz * poly, const fmpz_t den, slong n);
void fmpq_poly_sqrt_series(fmpq_poly_t res, const fmpq_poly_t poly, slong n);
/* Transcendental functions ************************************************/
void _fmpq_poly_log_series(fmpz * g, fmpz_t gden,
const fmpz * f, const fmpz_t fden, slong n);
void fmpq_poly_log_series(fmpq_poly_t res, const fmpq_poly_t f, slong n);
void _fmpq_poly_exp_series(fmpz * g, fmpz_t gden,
const fmpz * h, const fmpz_t hden, slong n);
void fmpq_poly_exp_series(fmpq_poly_t res, const fmpq_poly_t poly, slong n);
void _fmpq_poly_atan_series(fmpz * g, fmpz_t gden,
const fmpz * h, const fmpz_t hden, slong n);
void fmpq_poly_atan_series(fmpq_poly_t res, const fmpq_poly_t poly, slong n);
void _fmpq_poly_atanh_series(fmpz * g, fmpz_t gden,
const fmpz * h, const fmpz_t hden, slong n);
void fmpq_poly_atanh_series(fmpq_poly_t res, const fmpq_poly_t poly, slong n);
void _fmpq_poly_asin_series(fmpz * g, fmpz_t gden,
const fmpz * h, const fmpz_t hden, slong n);
void fmpq_poly_asin_series(fmpq_poly_t res, const fmpq_poly_t poly, slong n);
void _fmpq_poly_asinh_series(fmpz * g, fmpz_t gden,
const fmpz * h, const fmpz_t hden, slong n);
void fmpq_poly_asinh_series(fmpq_poly_t res, const fmpq_poly_t poly, slong n);
void _fmpq_poly_tan_series(fmpz * g, fmpz_t gden,
const fmpz * h, const fmpz_t hden, slong n);
void fmpq_poly_tan_series(fmpq_poly_t res, const fmpq_poly_t poly, slong n);
void _fmpq_poly_sin_series(fmpz * g, fmpz_t gden,
const fmpz * h, const fmpz_t hden, slong n);
void fmpq_poly_sin_series(fmpq_poly_t res, const fmpq_poly_t poly, slong n);
void _fmpq_poly_cos_series(fmpz * g, fmpz_t gden,
const fmpz * h, const fmpz_t hden, slong n);
void fmpq_poly_cos_series(fmpq_poly_t res, const fmpq_poly_t poly, slong n);
void _fmpq_poly_sinh_series(fmpz * g, fmpz_t gden,
const fmpz * h, const fmpz_t hden, slong n);
void fmpq_poly_sinh_series(fmpq_poly_t res, const fmpq_poly_t poly, slong n);
void _fmpq_poly_cosh_series(fmpz * g, fmpz_t gden,
const fmpz * h, const fmpz_t hden, slong n);
void fmpq_poly_cosh_series(fmpq_poly_t res, const fmpq_poly_t poly, slong n);
void _fmpq_poly_tanh_series(fmpz * g, fmpz_t gden,
const fmpz * h, const fmpz_t hden, slong n);
void fmpq_poly_tanh_series(fmpq_poly_t res, const fmpq_poly_t poly, slong n);
/* Evaluation **************************************************************/
void _fmpq_poly_evaluate_fmpz(fmpz_t rnum, fmpz_t rden, const fmpz * poly,
const fmpz_t den, slong len, const fmpz_t a);
void fmpq_poly_evaluate_fmpz(fmpq_t res, const fmpq_poly_t poly,
const fmpz_t a);
void
_fmpq_poly_evaluate_fmpq(fmpz_t rnum, fmpz_t rden,
const fmpz * poly, const fmpz_t den, slong len,
const fmpz_t anum, const fmpz_t aden);
void
fmpq_poly_evaluate_fmpq(fmpq_t res, const fmpq_poly_t poly, const fmpq_t a);
void fmpq_poly_evaluate_mpz(mpq_t res, const fmpq_poly_t poly, const mpz_t a);
void fmpq_poly_evaluate_mpq(mpq_t res, const fmpq_poly_t poly, const mpq_t a);
/* Interpolation ************************************************************/
void
_fmpq_poly_interpolate_fmpz_vec(fmpz * poly, fmpz_t den,
const fmpz * xs, const fmpz * ys, slong n);
void
fmpq_poly_interpolate_fmpz_vec(fmpq_poly_t poly,
const fmpz * xs, const fmpz * ys, slong n);
/* Composition *************************************************************/
void _fmpq_poly_compose(fmpz * res, fmpz_t den,
const fmpz * poly1, const fmpz_t den1, slong len1,
const fmpz * poly2, const fmpz_t den2, slong len2);
void fmpq_poly_compose(fmpq_poly_t res,
const fmpq_poly_t poly1, const fmpq_poly_t poly2);
void _fmpq_poly_rescale(fmpz * res, fmpz_t denr, const fmpz * poly,
const fmpz_t den, slong len, const fmpz_t xnum, const fmpz_t xden);
void fmpq_poly_rescale(fmpq_poly_t res,
const fmpq_poly_t poly, const fmpq_t x);
/* Power series composition ************************************************/
void
_fmpq_poly_compose_series_horner(fmpz * res, fmpz_t den, const fmpz * poly1,
const fmpz_t den1, slong len1, const fmpz * poly2,
const fmpz_t den2, slong len2, slong n);
void
fmpq_poly_compose_series_horner(fmpq_poly_t res,
const fmpq_poly_t poly1, const fmpq_poly_t poly2, slong n);
void
_fmpq_poly_compose_series_brent_kung(fmpz * res, fmpz_t den,
const fmpz * poly1, const fmpz_t den1, slong len1,
const fmpz * poly2, const fmpz_t den2, slong len2, slong n);
void
fmpq_poly_compose_series_brent_kung(fmpq_poly_t res,
const fmpq_poly_t poly1, const fmpq_poly_t poly2, slong n);
void
_fmpq_poly_compose_series(fmpz * res, fmpz_t den,
const fmpz * poly1, const fmpz_t den1, slong len1,
const fmpz * poly2, const fmpz_t den2, slong len2, slong n);
void
fmpq_poly_compose_series(fmpq_poly_t res,
const fmpq_poly_t poly1, const fmpq_poly_t poly2, slong n);
/* Power series reversion ************************************************/
void
_fmpq_poly_revert_series_lagrange(fmpz * res, fmpz_t den,
const fmpz * poly1, const fmpz_t den1, slong n);
void
fmpq_poly_revert_series_lagrange(fmpq_poly_t res,
const fmpq_poly_t poly, slong n);
void
_fmpq_poly_revert_series_lagrange_fast(fmpz * res, fmpz_t den,
const fmpz * poly1, const fmpz_t den1, slong n);
void
fmpq_poly_revert_series_lagrange_fast(fmpq_poly_t res,
const fmpq_poly_t poly, slong n);
void
_fmpq_poly_revert_series_newton(fmpz * res, fmpz_t den,
const fmpz * poly1, const fmpz_t den1, slong n);
void
fmpq_poly_revert_series_newton(fmpq_poly_t res,
const fmpq_poly_t poly, slong n);
void
_fmpq_poly_revert_series(fmpz * res, fmpz_t den,
const fmpz * poly1, const fmpz_t den1, slong n);
void
fmpq_poly_revert_series(fmpq_poly_t res,
const fmpq_poly_t poly, slong n);
/* Gaussian content ********************************************************/
void _fmpq_poly_content(fmpq_t res,
const fmpz * poly, const fmpz_t den, slong len);
void fmpq_poly_content(fmpq_t res, const fmpq_poly_t poly);
void _fmpq_poly_primitive_part(fmpz * rpoly, fmpz_t rden,
const fmpz * poly, const fmpz_t den, slong len);
void fmpq_poly_primitive_part(fmpq_poly_t res, const fmpq_poly_t poly);
int _fmpq_poly_is_monic(const fmpz * poly, const fmpz_t den, slong len);
int fmpq_poly_is_monic(const fmpq_poly_t poly);
void _fmpq_poly_make_monic(fmpz * rpoly, fmpz_t rden,
const fmpz * poly, const fmpz_t den, slong len);
void fmpq_poly_make_monic(fmpq_poly_t res, const fmpq_poly_t poly);
/* Square-free *************************************************************/
int fmpq_poly_is_squarefree(const fmpq_poly_t poly);
/* Input and output *********************************************************/
int fmpq_poly_debug(const fmpq_poly_t poly);
int _fmpq_poly_fprint(FILE * file,
const fmpz * poly, const fmpz_t den, slong len);
int fmpq_poly_fprint(FILE * file, const fmpq_poly_t poly);
int _fmpq_poly_fprint_pretty(FILE * file,
const fmpz *poly, const fmpz_t den, slong len,
const char * x);
int fmpq_poly_fprint_pretty(FILE * file,
const fmpq_poly_t poly, const char * var);
static __inline__
int _fmpq_poly_print(const fmpz * poly, const fmpz_t den, slong len)
{
return _fmpq_poly_fprint(stdout, poly, den, len);
}
static __inline__
int fmpq_poly_print(const fmpq_poly_t poly)
{
return fmpq_poly_fprint(stdout, poly);
}
static __inline__
int _fmpq_poly_print_pretty(const fmpz *poly, const fmpz_t den, slong len,
const char * x)
{
return _fmpq_poly_fprint_pretty(stdout, poly, den, len, x);
}
static __inline__
int fmpq_poly_print_pretty(const fmpq_poly_t poly, const char * var)
{
return fmpq_poly_fprint_pretty(stdout, poly, var);
}
int fmpq_poly_fread(FILE * file, fmpq_poly_t poly);
static __inline__
int fmpq_poly_read(fmpq_poly_t poly)
{
return fmpq_poly_fread(stdin, poly);
}
#ifdef __cplusplus
}
#endif
#endif
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