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/* mini-gmp, a minimalistic implementation of a GNU GMP subset.
Contributed to the GNU project by Niels Möller
Copyright 1991-1997, 1999-2015 Free Software Foundation, Inc.
This file is part of the GNU MP Library.
The GNU MP Library is free software; you can redistribute it and/or modify
it under the terms of either:
* the GNU Lesser General Public License as published by the Free
Software Foundation; either version 3 of the License, or (at your
option) any later version.
or
* 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.
or both in parallel, as here.
The GNU MP Library 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 copies of the GNU General Public License and the
GNU Lesser General Public License along with the GNU MP Library. If not,
see https://www.gnu.org/licenses/. */
/* NOTE: All functions in this file which are not declared in
mini-gmp.h are internal, and are not intended to be compatible
neither with GMP nor with future versions of mini-gmp. */
/* Much of the material copied from GMP files, including: gmp-impl.h,
longlong.h, mpn/generic/add_n.c, mpn/generic/addmul_1.c,
mpn/generic/lshift.c, mpn/generic/mul_1.c,
mpn/generic/mul_basecase.c, mpn/generic/rshift.c,
mpn/generic/sbpi1_div_qr.c, mpn/generic/sub_n.c,
mpn/generic/submul_1.c. */
#include <assert.h>
#include <ctype.h>
#include <limits.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "mini-gmp.h"
/* Macros */
#define GMP_LIMB_BITS (sizeof(mp_limb_t) * CHAR_BIT)
#define GMP_LIMB_MAX (~ (mp_limb_t) 0)
#define GMP_LIMB_HIGHBIT ((mp_limb_t) 1 << (GMP_LIMB_BITS - 1))
#define GMP_HLIMB_BIT ((mp_limb_t) 1 << (GMP_LIMB_BITS / 2))
#define GMP_LLIMB_MASK (GMP_HLIMB_BIT - 1)
9 years ago
#define GMP_ULONG_BITS (sizeof(uint64_t) * CHAR_BIT)
#define GMP_ULONG_HIGHBIT ((uint64_t) 1 << (GMP_ULONG_BITS - 1))
#define GMP_ABS(x) ((x) >= 0 ? (x) : -(x))
8 years ago
#define GMP_NEG_CAST(T,x) (-(int64_t)((T)((x) + 1) - 1))
#define GMP_MIN(a, b) ((a) < (b) ? (a) : (b))
#define GMP_MAX(a, b) ((a) > (b) ? (a) : (b))
#define gmp_assert_nocarry(x) do { \
9 years ago
mp_limb_t __cy = x; if ( __cy != 0 ) \
; \
assert (__cy == 0); \
} while (0)
#define gmp_clz(count, x) do { \
mp_limb_t __clz_x = (x); \
9 years ago
uint32_t __clz_c; \
for (__clz_c = 0; \
(__clz_x & ((mp_limb_t) 0xff << (GMP_LIMB_BITS - 8))) == 0; \
__clz_c += 8) \
__clz_x <<= 8; \
for (; (__clz_x & GMP_LIMB_HIGHBIT) == 0; __clz_c++) \
__clz_x <<= 1; \
(count) = __clz_c; \
} while (0)
#define gmp_ctz(count, x) do { \
mp_limb_t __ctz_x = (x); \
9 years ago
uint32_t __ctz_c = 0; \
8 years ago
gmp_clz (__ctz_c, __ctz_x & - (int64_t)__ctz_x); \
(count) = GMP_LIMB_BITS - 1 - (int64_t)__ctz_c; \
} while (0)
#define gmp_add_ssaaaa(sh, sl, ah, al, bh, bl) \
do { \
mp_limb_t __x; \
__x = (al) + (bl); \
(sh) = (ah) + (bh) + (__x < (al)); \
(sl) = __x; \
} while (0)
#define gmp_sub_ddmmss(sh, sl, ah, al, bh, bl) \
do { \
mp_limb_t __x; \
__x = (al) - (bl); \
(sh) = (ah) - (bh) - ((al) < (bl)); \
(sl) = __x; \
} while (0)
#define gmp_umul_ppmm(w1, w0, u, v) \
do { \
mp_limb_t __x0, __x1, __x2, __x3; \
9 years ago
uint32_t __ul, __vl, __uh, __vh; \
mp_limb_t __u = (u), __v = (v); \
\
__ul = __u & GMP_LLIMB_MASK; \
__uh = __u >> (GMP_LIMB_BITS / 2); \
__vl = __v & GMP_LLIMB_MASK; \
__vh = __v >> (GMP_LIMB_BITS / 2); \
\
__x0 = (mp_limb_t) __ul * __vl; \
__x1 = (mp_limb_t) __ul * __vh; \
__x2 = (mp_limb_t) __uh * __vl; \
__x3 = (mp_limb_t) __uh * __vh; \
\
__x1 += __x0 >> (GMP_LIMB_BITS / 2);/* this can't give carry */ \
__x1 += __x2; /* but this indeed can */ \
if (__x1 < __x2) /* did we get it? */ \
__x3 += GMP_HLIMB_BIT; /* yes, add it in the proper pos. */ \
\
(w1) = __x3 + (__x1 >> (GMP_LIMB_BITS / 2)); \
(w0) = (__x1 << (GMP_LIMB_BITS / 2)) + (__x0 & GMP_LLIMB_MASK); \
} while (0)
#define gmp_udiv_qrnnd_preinv(q, r, nh, nl, d, di) \
do { \
mp_limb_t _qh, _ql, _r, _mask; \
gmp_umul_ppmm (_qh, _ql, (nh), (di)); \
gmp_add_ssaaaa (_qh, _ql, _qh, _ql, (nh) + 1, (nl)); \
_r = (nl) - _qh * (d); \
8 years ago
_mask = -(_r > _ql); /* both > and >= are OK */ \
_qh += _mask; \
_r += _mask & (d); \
if (_r >= (d)) \
{ \
_r -= (d); \
_qh++; \
} \
\
(r) = _r; \
(q) = _qh; \
} while (0)
#define gmp_udiv_qr_3by2(q, r1, r0, n2, n1, n0, d1, d0, dinv) \
do { \
mp_limb_t _q0, _t1, _t0, _mask; \
gmp_umul_ppmm ((q), _q0, (n2), (dinv)); \
gmp_add_ssaaaa ((q), _q0, (q), _q0, (n2), (n1)); \
\
/* Compute the two most significant limbs of n - q'd */ \
(r1) = (n1) - (d1) * (q); \
gmp_sub_ddmmss ((r1), (r0), (r1), (n0), (d1), (d0)); \
gmp_umul_ppmm (_t1, _t0, (d0), (q)); \
gmp_sub_ddmmss ((r1), (r0), (r1), (r0), _t1, _t0); \
(q)++; \
\
/* Conditionally adjust q and the remainders */ \
8 years ago
_mask = -((r1) >= _q0); \
(q) += _mask; \
gmp_add_ssaaaa ((r1), (r0), (r1), (r0), _mask & (d1), _mask & (d0)); \
if ((r1) >= (d1)) \
{ \
if ((r1) > (d1) || (r0) >= (d0)) \
{ \
(q)++; \
gmp_sub_ddmmss ((r1), (r0), (r1), (r0), (d1), (d0)); \
} \
} \
} while (0)
/* Swap macros. */
#define MP_LIMB_T_SWAP(x, y) \
do { \
mp_limb_t __mp_limb_t_swap__tmp = (x); \
(x) = (y); \
(y) = __mp_limb_t_swap__tmp; \
} while (0)
#define MP_SIZE_T_SWAP(x, y) \
do { \
mp_size_t __mp_size_t_swap__tmp = (x); \
(x) = (y); \
(y) = __mp_size_t_swap__tmp; \
} while (0)
#define MP_SIZE_sT_SWAP(x, y) \
do { \
uint32_t __mp_size_t_swap__tmp = (x); \
(x) = (y); \
(y) = __mp_size_t_swap__tmp; \
} while (0)
#define MP_BITCNT_T_SWAP(x,y) \
do { \
mp_bitcnt_t __mp_bitcnt_t_swap__tmp = (x); \
(x) = (y); \
(y) = __mp_bitcnt_t_swap__tmp; \
} while (0)
#define MP_PTR_SWAP(x, y) \
do { \
mp_ptr __mp_ptr_swap__tmp = (x); \
(x) = (y); \
(y) = __mp_ptr_swap__tmp; \
} while (0)
#define MP_SRCPTR_SWAP(x, y) \
do { \
mp_srcptr __mp_srcptr_swap__tmp = (x); \
(x) = (y); \
(y) = __mp_srcptr_swap__tmp; \
} while (0)
#define MPN_PTR_SWAP(xp,xs, yp,ys) \
do { \
MP_PTR_SWAP (xp, yp); \
MP_SIZE_T_SWAP (xs, ys); \
} while(0)
#define MPN_SRCPTR_SWAP(xp,xs, yp,ys) \
do { \
MP_SRCPTR_SWAP (xp, yp); \
MP_SIZE_T_SWAP (xs, ys); \
} while(0)
#define MPZ_PTR_SWAP(x, y) \
do { \
mpz_ptr __mpz_ptr_swap__tmp = (x); \
(x) = (y); \
(y) = __mpz_ptr_swap__tmp; \
} while (0)
#define MPZ_SRCPTR_SWAP(x, y) \
do { \
mpz_srcptr __mpz_srcptr_swap__tmp = (x); \
(x) = (y); \
(y) = __mpz_srcptr_swap__tmp; \
} while (0)
/* Realloc for an mpz_t WHAT if it has less than NEEDED limbs. */
#define MPZ_REALLOC(z,n) ((n) > (z)->_mp_alloc \
? mpz_realloc(z,n) \
: (z)->_mp_d)
struct gmp_div_inverse
{
/* Normalization shift count. */
9 years ago
uint32_t shift;
/* Normalized divisor (d0 unused for mpn_div_qr_1) */
mp_limb_t d1, d0;
/* Inverse, for 2/1 or 3/2. */
mp_limb_t di;
};
/* MPZ division */
enum mpz_div_round_mode { GMP_DIV_FLOOR, GMP_DIV_CEIL, GMP_DIV_TRUNC };
const int mp_bits_per_limb = GMP_LIMB_BITS;
struct mpn_base_info
{
/* bb is the largest power of the base which fits in one limb, and
exp is the corresponding exponent. */
9 years ago
uint32_t exp;
mp_limb_t bb;
};
#ifdef nonessential
/* Memory allocation and other helper functions. */
static void *
gmp_default_alloc (size_t size)
{
void *p;
assert (size > 0);
p = malloc (size);
if (!p)
gmp_die("gmp_default_alloc: Virtual memory exhausted.");
return p;
}
static void *
gmp_default_realloc (void *old, size_t old_size, size_t new_size)
{
void * p;
p = realloc (old, new_size);
if (!p)
gmp_die("gmp_default_realloc: Virtual memory exhausted.");
return p;
}
static void
gmp_default_free (void *p, size_t size)
{
free (p);
}
static void * (*gmp_allocate_func) (size_t) = gmp_default_alloc;
static void * (*gmp_reallocate_func) (void *, size_t, size_t) = gmp_default_realloc;
static void (*gmp_free_func) (void *, size_t) = gmp_default_free;
void
mp_get_memory_functions (void *(**alloc_func) (size_t),
void *(**realloc_func) (void *, size_t, size_t),
void (**free_func) (void *, size_t))
{
if (alloc_func)
*alloc_func = gmp_allocate_func;
if (realloc_func)
*realloc_func = gmp_reallocate_func;
if (free_func)
*free_func = gmp_free_func;
}
void
mp_set_memory_functions (void *(*alloc_func) (size_t),
void *(*realloc_func) (void *, size_t, size_t),
void (*free_func) (void *, size_t))
{
if (!alloc_func)
alloc_func = gmp_default_alloc;
if (!realloc_func)
realloc_func = gmp_default_realloc;
if (!free_func)
free_func = gmp_default_free;
gmp_allocate_func = alloc_func;
gmp_reallocate_func = realloc_func;
gmp_free_func = free_func;
}
#define gmp_xalloc(size) ((*gmp_allocate_func)((size)))
#define gmp_free(p) ((*gmp_free_func) ((p), 0))
/* MPN interface */
9 years ago
int mpn_zero_p(mp_srcptr rp, mp_size_t n)
{
return mpn_normalized_size (rp, n) == 0;
}
void
mpn_mul_n (mp_ptr rp, mp_srcptr ap, mp_srcptr bp, mp_size_t n)
{
mpn_mul (rp, ap, n, bp, n);
}
void
mpn_sqr (mp_ptr rp, mp_srcptr ap, mp_size_t n)
{
mpn_mul (rp, ap, n, ap, n);
}
static mp_bitcnt_t
mpn_common_scan (mp_limb_t limb, mp_size_t i, mp_srcptr up, mp_size_t un,
mp_limb_t ux)
{
9 years ago
uint32_t cnt;
assert (ux == 0 || ux == GMP_LIMB_MAX);
assert (0 <= i && i <= un );
while (limb == 0)
{
i++;
if (i == un)
return (ux == 0 ? ~(mp_bitcnt_t) 0 : un * GMP_LIMB_BITS);
limb = ux ^ up[i];
}
gmp_ctz (cnt, limb);
return (mp_bitcnt_t) i * GMP_LIMB_BITS + cnt;
}
mp_bitcnt_t
mpn_scan1 (mp_srcptr ptr, mp_bitcnt_t bit)
{
mp_size_t i;
i = bit / GMP_LIMB_BITS;
return mpn_common_scan ( ptr[i] & (GMP_LIMB_MAX << (bit % GMP_LIMB_BITS)),
i, ptr, i, 0);
}
mp_bitcnt_t
mpn_scan0 (mp_srcptr ptr, mp_bitcnt_t bit)
{
mp_size_t i;
i = bit / GMP_LIMB_BITS;
return mpn_common_scan (~ptr[i] & (GMP_LIMB_MAX << (bit % GMP_LIMB_BITS)),
i, ptr, i, GMP_LIMB_MAX);
}
#if 0
static void
mpn_div_qr_2 (mp_ptr qp, mp_ptr rp, mp_srcptr np, mp_size_t nn,
mp_limb_t d1, mp_limb_t d0)
{
struct gmp_div_inverse inv;
assert (nn >= 2);
mpn_div_qr_2_invert (&inv, d1, d0);
mpn_div_qr_2_preinv (qp, rp, np, nn, &inv);
}
#endif
/* MPN base conversion. */
static mp_bitcnt_t
mpn_limb_size_in_base_2 (mp_limb_t u)
{
9 years ago
uint32_t shift;
assert (u > 0);
gmp_clz (shift, u);
return GMP_LIMB_BITS - shift;
}
static size_t
9 years ago
mpn_get_str_bits (uint8_t *sp, uint32_t bits, mp_srcptr up, mp_size_t un)
{
9 years ago
uint8_t mask;
size_t sn, j;
mp_size_t i;
int shift;
sn = ((un - 1) * GMP_LIMB_BITS + mpn_limb_size_in_base_2 (up[un-1])
+ bits - 1) / bits;
mask = (1U << bits) - 1;
for (i = 0, j = sn, shift = 0; j-- > 0;)
{
9 years ago
uint8_t digit = up[i] >> shift;
shift += bits;
if (shift >= GMP_LIMB_BITS && ++i < un)
{
shift -= GMP_LIMB_BITS;
digit |= up[i] << (bits - shift);
}
sp[j] = digit & mask;
}
return sn;
}
/* We generate digits from the least significant end, and reverse at
the end. */
static size_t
9 years ago
mpn_limb_get_str (uint8_t *sp, mp_limb_t w,
const struct gmp_div_inverse *binv)
{
mp_size_t i;
for (i = 0; w > 0; i++)
{
mp_limb_t h, l, r;
h = w >> (GMP_LIMB_BITS - binv->shift);
l = w << binv->shift;
gmp_udiv_qrnnd_preinv (w, r, h, l, binv->d1, binv->di);
assert ( (r << (GMP_LIMB_BITS - binv->shift)) == 0);
r >>= binv->shift;
sp[i] = r;
}
return i;
}
static size_t
9 years ago
mpn_get_str_other (uint8_t *sp,
int base, const struct mpn_base_info *info,
mp_ptr up, mp_size_t un)
{
struct gmp_div_inverse binv;
size_t sn;
size_t i;
mpn_div_qr_1_invert (&binv, base);
sn = 0;
if (un > 1)
{
struct gmp_div_inverse bbinv;
mpn_div_qr_1_invert (&bbinv, info->bb);
do
{
mp_limb_t w;
size_t done;
w = mpn_div_qr_1_preinv (up, up, un, &bbinv);
un -= (up[un-1] == 0);
done = mpn_limb_get_str (sp + sn, w, &binv);
for (sn += done; done < info->exp; done++)
sp[sn++] = 0;
}
while (un > 1);
}
sn += mpn_limb_get_str (sp + sn, up[0], &binv);
/* Reverse order */
for (i = 0; 2*i + 1 < sn; i++)
{
9 years ago
uint8_t t = sp[i];
sp[i] = sp[sn - i - 1];
sp[sn - i - 1] = t;
}
return sn;
}
size_t
9 years ago
mpn_get_str (uint8_t *sp, int base, mp_ptr up, mp_size_t un)
{
9 years ago
uint32_t bits;
assert (un > 0);
assert (up[un-1] > 0);
bits = mpn_base_power_of_two_p (base);
if (bits)
return mpn_get_str_bits (sp, bits, up, un);
else
{
struct mpn_base_info info;
mpn_get_base_info (&info, base);
return mpn_get_str_other (sp, base, &info, up, un);
}
}
mp_size_t
9 years ago
mpn_set_str (mp_ptr rp, const uint8_t *sp, size_t sn, int base)
{
9 years ago
uint32_t bits;
if (sn == 0)
return 0;
bits = mpn_base_power_of_two_p (base);
if (bits)
return mpn_set_str_bits (rp, sp, sn, bits);
else
{
struct mpn_base_info info;
mpn_get_base_info (&info, base);
return mpn_set_str_other (rp, sp, sn, base, &info);
}
}
/* MPZ interface */
/* MPZ assignment and basic conversions. */
void
9 years ago
mpz_init_set_si (mpz_t r, int64_t x)
{
mpz_init (r);
mpz_set_si (r, x);
}
int
mpz_fits_slong_p (const mpz_t u)
{
mp_size_t us = u->_mp_size;
if (us == 1)
return u->_mp_d[0] < GMP_LIMB_HIGHBIT;
else if (us == -1)
return u->_mp_d[0] <= GMP_LIMB_HIGHBIT;
else
return (us == 0);
}
int
mpz_fits_ulong_p (const mpz_t u)
{
mp_size_t us = u->_mp_size;
return (us == (us > 0));
}
long int
mpz_get_si (const mpz_t u)
{
mp_size_t us = u->_mp_size;
if (us > 0)
return (long) (u->_mp_d[0] & ~GMP_LIMB_HIGHBIT);
else if (us < 0)
return (long) (- u->_mp_d[0] | GMP_LIMB_HIGHBIT);
else
return 0;
}
size_t
mpz_size (const mpz_t u)
{
return GMP_ABS (u->_mp_size);
}
mp_limb_t
mpz_getlimbn (const mpz_t u, mp_size_t n)
{
if (n >= 0 && n < GMP_ABS (u->_mp_size))
return u->_mp_d[n];
else
return 0;
}
void
mpz_realloc2 (mpz_t x, mp_bitcnt_t n)
{
mpz_realloc (x, 1 + (n - (n != 0)) / GMP_LIMB_BITS);
}
mp_srcptr
mpz_limbs_read (mpz_srcptr x)
{
return x->_mp_d;;
}
mp_ptr
mpz_limbs_modify (mpz_t x, mp_size_t n)
{
assert (n > 0);
return MPZ_REALLOC (x, n);
}
mp_ptr
mpz_limbs_write (mpz_t x, mp_size_t n)
{
return mpz_limbs_modify (x, n);
}
void
mpz_limbs_finish (mpz_t x, mp_size_t xs)
{
mp_size_t xn;
xn = mpn_normalized_size (x->_mp_d, GMP_ABS (xs));
x->_mp_size = xs < 0 ? -xn : xn;
}
mpz_srcptr
mpz_roinit_n (mpz_t x, mp_srcptr xp, mp_size_t xs)
{
x->_mp_alloc = 0;
x->_mp_d = (mp_ptr) xp;
mpz_limbs_finish (x, xs);
return x;
}
/* Conversions and comparison to double. */
void
mpz_set_d (mpz_t r, double x)
{
int sign;
mp_ptr rp;
mp_size_t rn, i;
double B;
double Bi;
mp_limb_t f;
/* x != x is true when x is a NaN, and x == x * 0.5 is true when x is
zero or infinity. */
if (x != x || x == x * 0.5)
{
r->_mp_size = 0;
return;
}
sign = x < 0.0 ;
if (sign)
x = - x;
if (x < 1.0)
{
r->_mp_size = 0;
return;
}
B = 2.0 * (double) GMP_LIMB_HIGHBIT;
Bi = 1.0 / B;
for (rn = 1; x >= B; rn++)
x *= Bi;
rp = MPZ_REALLOC (r, rn);
f = (mp_limb_t) x;
x -= f;
assert (x < 1.0);
i = rn-1;
rp[i] = f;
while (--i >= 0)
{
x = B * x;
f = (mp_limb_t) x;
x -= f;
assert (x < 1.0);
rp[i] = f;
}
r->_mp_size = sign ? - rn : rn;
}
void
mpz_init_set_d (mpz_t r, double x)
{
mpz_init (r);
mpz_set_d (r, x);
}
double
mpz_get_d (const mpz_t u)
{
mp_size_t un;
double x;
double B = 2.0 * (double) GMP_LIMB_HIGHBIT;
un = GMP_ABS (u->_mp_size);
if (un == 0)
return 0.0;
x = u->_mp_d[--un];
while (un > 0)
x = B*x + u->_mp_d[--un];
if (u->_mp_size < 0)
x = -x;
return x;
}
int
mpz_cmpabs_d (const mpz_t x, double d)
{
mp_size_t xn;
double B, Bi;
mp_size_t i;
xn = x->_mp_size;
d = GMP_ABS (d);
if (xn != 0)
{
xn = GMP_ABS (xn);
B = 2.0 * (double) GMP_LIMB_HIGHBIT;
Bi = 1.0 / B;
/* Scale d so it can be compared with the top limb. */
for (i = 1; i < xn; i++)
d *= Bi;
if (d >= B)
return -1;
/* Compare floor(d) to top limb, subtract and cancel when equal. */
for (i = xn; i-- > 0;)
{
mp_limb_t f, xl;
f = (mp_limb_t) d;
xl = x->_mp_d[i];
if (xl > f)
return 1;
else if (xl < f)
return -1;
d = B * (d - f);
}
}
return - (d > 0.0);
}
int
mpz_cmp_d (const mpz_t x, double d)
{
if (x->_mp_size < 0)
{
if (d >= 0.0)
return -1;
else
return -mpz_cmpabs_d (x, d);
}
else
{
if (d < 0.0)
return 1;
else
return mpz_cmpabs_d (x, d);
}
}
/* MPZ comparisons and the like. */
int
mpz_sgn (const mpz_t u)
{
mp_size_t usize = u->_mp_size;
return (usize > 0) - (usize < 0);
}
int
mpz_cmp_si (const mpz_t u, long v)
{
mp_size_t usize = u->_mp_size;
if (usize < -1)
return -1;
else if (v >= 0)
return mpz_cmp_ui (u, v);
else if (usize >= 0)
return 1;
else /* usize == -1 */
{
mp_limb_t ul = u->_mp_d[0];
9 years ago
if ((mp_limb_t)GMP_NEG_CAST (uint64_t, v) < ul)
return -1;
else
9 years ago
return (mp_limb_t)GMP_NEG_CAST (uint64_t, v) > ul;
}
}
int
9 years ago
mpz_cmp_ui (const mpz_t u, uint64_t v)
{
mp_size_t usize = u->_mp_size;
if (usize > 1)
return 1;
else if (usize < 0)
return -1;
else
{
mp_limb_t ul = (usize > 0) ? u->_mp_d[0] : 0;
return (ul > v) - (ul < v);
}
}
int
9 years ago
mpz_cmpabs_ui (const mpz_t u, uint64_t v)
{
mp_size_t un = GMP_ABS (u->_mp_size);
mp_limb_t ul;
if (un > 1)
return 1;
ul = (un == 1) ? u->_mp_d[0] : 0;
return (ul > v) - (ul < v);
}
int
mpz_cmpabs (const mpz_t u, const mpz_t v)
{
return mpn_cmp4 (u->_mp_d, GMP_ABS (u->_mp_size),
v->_mp_d, GMP_ABS (v->_mp_size));
}
void
mpz_abs (mpz_t r, const mpz_t u)
{
mpz_set (r, u);
r->_mp_size = GMP_ABS (r->_mp_size);
}
void
mpz_neg (mpz_t r, const mpz_t u)
{
mpz_set (r, u);
r->_mp_size = -r->_mp_size;
}
/* MPZ addition and subtraction */
void
9 years ago
mpz_ui_sub (mpz_t r, uint64_t a, const mpz_t b)
{
if (b->_mp_size < 0)
r->_mp_size = mpz_abs_add_ui (r, b, a);
else
r->_mp_size = -mpz_abs_sub_ui (r, b, a);
}
/* MPZ multiplication */
void
mpz_mul_si (mpz_t r, const mpz_t u, long int v)
{
if (v < 0)
{
9 years ago
mpz_mul_ui (r, u, GMP_NEG_CAST (uint64_t, v));
mpz_neg (r, r);
}
else
9 years ago
mpz_mul_ui (r, u, (uint64_t) v);
}
void
9 years ago
mpz_addmul_ui (mpz_t r, const mpz_t u, uint64_t v)
{
mpz_t t;
mpz_init (t);
mpz_mul_ui (t, u, v);
mpz_add (r, r, t);
mpz_clear (t);
}
void
9 years ago
mpz_submul_ui (mpz_t r, const mpz_t u, uint64_t v)
{
mpz_t t;
mpz_init (t);
mpz_mul_ui (t, u, v);
mpz_sub (r, r, t);
mpz_clear (t);
}
void
mpz_addmul (mpz_t r, const mpz_t u, const mpz_t v)
{
mpz_t t;
mpz_init (t);
mpz_mul (t, u, v);
mpz_add (r, r, t);
mpz_clear (t);
}
void
mpz_submul (mpz_t r, const mpz_t u, const mpz_t v)
{
mpz_t t;
mpz_init (t);
mpz_mul (t, u, v);
mpz_sub (r, r, t);
mpz_clear (t);
}
void
mpz_fdiv_qr (mpz_t q, mpz_t r, const mpz_t n, const mpz_t d)
{
mpz_div_qr (q, r, n, d, GMP_DIV_FLOOR);
}
void
mpz_cdiv_q (mpz_t q, const mpz_t n, const mpz_t d)
{
mpz_div_qr (q, NULL, n, d, GMP_DIV_CEIL);
}
void
mpz_fdiv_q (mpz_t q, const mpz_t n, const mpz_t d)
{
mpz_div_qr (q, NULL, n, d, GMP_DIV_FLOOR);
}
void
mpz_tdiv_q (mpz_t q, const mpz_t n, const mpz_t d)
{
mpz_div_qr (q, NULL, n, d, GMP_DIV_TRUNC);
}
void
mpz_cdiv_r (mpz_t r, const mpz_t n, const mpz_t d)
{
mpz_div_qr (NULL, r, n, d, GMP_DIV_CEIL);
}
void
mpz_fdiv_r (mpz_t r, const mpz_t n, const mpz_t d)
{
mpz_div_qr (NULL, r, n, d, GMP_DIV_FLOOR);
}
void
mpz_tdiv_r (mpz_t r, const mpz_t n, const mpz_t d)
{
mpz_div_qr (NULL, r, n, d, GMP_DIV_TRUNC);
}
void
mpz_mod (mpz_t r, const mpz_t n, const mpz_t d)
{
mpz_div_qr (NULL, r, n, d, d->_mp_size >= 0 ? GMP_DIV_FLOOR : GMP_DIV_CEIL);
}
static void
mpz_div_q_2exp (mpz_t q, const mpz_t u, mp_bitcnt_t bit_index,
enum mpz_div_round_mode mode)
{
mp_size_t un, qn;
mp_size_t limb_cnt;
mp_ptr qp;
int adjust;
un = u->_mp_size;
if (un == 0)
{
q->_mp_size = 0;
return;
}
limb_cnt = bit_index / GMP_LIMB_BITS;
qn = GMP_ABS (un) - limb_cnt;
bit_index %= GMP_LIMB_BITS;
if (mode == ((un > 0) ? GMP_DIV_CEIL : GMP_DIV_FLOOR)) /* un != 0 here. */
/* Note: Below, the final indexing at limb_cnt is valid because at
that point we have qn > 0. */
adjust = (qn <= 0
|| !mpn_zero_p (u->_mp_d, limb_cnt)
|| (u->_mp_d[limb_cnt]
& (((mp_limb_t) 1 << bit_index) - 1)));
else
adjust = 0;
if (qn <= 0)
qn = 0;
else
{
qp = MPZ_REALLOC (q, qn);
if (bit_index != 0)
{
mpn_rshift (qp, u->_mp_d + limb_cnt, qn, bit_index);
qn -= qp[qn - 1] == 0;
}
else
{
mpn_copyi (qp, u->_mp_d + limb_cnt, qn);
}
}
q->_mp_size = qn;
if (adjust)
mpz_add_ui (q, q, 1);
if (un < 0)
mpz_neg (q, q);
}
static void
mpz_div_r_2exp (mpz_t r, const mpz_t u, mp_bitcnt_t bit_index,
enum mpz_div_round_mode mode)
{
mp_size_t us, un, rn;
mp_ptr rp;
mp_limb_t mask;
us = u->_mp_size;
if (us == 0 || bit_index == 0)
{
r->_mp_size = 0;
return;
}
rn = (bit_index + GMP_LIMB_BITS - 1) / GMP_LIMB_BITS;
assert (rn > 0);
rp = MPZ_REALLOC (r, rn);
un = GMP_ABS (us);
mask = GMP_LIMB_MAX >> (rn * GMP_LIMB_BITS - bit_index);
if (rn > un)
{
/* Quotient (with truncation) is zero, and remainder is
non-zero */
if (mode == ((us > 0) ? GMP_DIV_CEIL : GMP_DIV_FLOOR)) /* us != 0 here. */
{
/* Have to negate and sign extend. */
mp_size_t i;
mp_limb_t cy;
for (cy = 1, i = 0; i < un; i++)
{
mp_limb_t s = ~u->_mp_d[i] + cy;
cy = s < cy;
rp[i] = s;
}
assert (cy == 0);
for (; i < rn - 1; i++)
rp[i] = GMP_LIMB_MAX;
rp[rn-1] = mask;
us = -us;
}
else
{
/* Just copy */
if (r != u)
mpn_copyi (rp, u->_mp_d, un);
rn = un;
}
}
else
{
if (r != u)
mpn_copyi (rp, u->_mp_d, rn - 1);
rp[rn-1] = u->_mp_d[rn-1] & mask;
if (mode == ((us > 0) ? GMP_DIV_CEIL : GMP_DIV_FLOOR)) /* us != 0 here. */
{
/* If r != 0, compute 2^{bit_count} - r. */
mp_size_t i;
for (i = 0; i < rn && rp[i] == 0; i++)
;
if (i < rn)
{
/* r > 0, need to flip sign. */
rp[i] = ~rp[i] + 1;
while (++i < rn)
rp[i] = ~rp[i];
rp[rn-1] &= mask;
/* us is not used for anything else, so we can modify it
here to indicate flipped sign. */
us = -us;
}
}
}
rn = mpn_normalized_size (rp, rn);
r->_mp_size = us < 0 ? -rn : rn;
}
void
mpz_cdiv_q_2exp (mpz_t r, const mpz_t u, mp_bitcnt_t cnt)
{
mpz_div_q_2exp (r, u, cnt, GMP_DIV_CEIL);
}
void
mpz_fdiv_q_2exp (mpz_t r, const mpz_t u, mp_bitcnt_t cnt)
{
mpz_div_q_2exp (r, u, cnt, GMP_DIV_FLOOR);
}
void
mpz_tdiv_q_2exp (mpz_t r, const mpz_t u, mp_bitcnt_t cnt)
{
mpz_div_q_2exp (r, u, cnt, GMP_DIV_TRUNC);
}
void
mpz_cdiv_r_2exp (mpz_t r, const mpz_t u, mp_bitcnt_t cnt)
{
mpz_div_r_2exp (r, u, cnt, GMP_DIV_CEIL);
}
void
mpz_fdiv_r_2exp (mpz_t r, const mpz_t u, mp_bitcnt_t cnt)
{
mpz_div_r_2exp (r, u, cnt, GMP_DIV_FLOOR);
}
void
mpz_tdiv_r_2exp (mpz_t r, const mpz_t u, mp_bitcnt_t cnt)
{
mpz_div_r_2exp (r, u, cnt, GMP_DIV_TRUNC);
}
void
mpz_divexact (mpz_t q, const mpz_t n, const mpz_t d)
{
gmp_assert_nocarry (mpz_div_qr (q, NULL, n, d, GMP_DIV_TRUNC));
}
int
mpz_divisible_p (const mpz_t n, const mpz_t d)
{
return mpz_div_qr (NULL, NULL, n, d, GMP_DIV_TRUNC) == 0;
}
int
mpz_congruent_p (const mpz_t a, const mpz_t b, const mpz_t m)
{
mpz_t t;
int res;
/* a == b (mod 0) iff a == b */
if (mpz_sgn (m) == 0)
return (mpz_cmp (a, b) == 0);
mpz_init (t);
mpz_sub (t, a, b);
res = mpz_divisible_p (t, m);
mpz_clear (t);
return res;
}
9 years ago
uint64_t
mpz_cdiv_qr_ui (mpz_t q, mpz_t r, const mpz_t n, uint64_t d)
{
return mpz_div_qr_ui (q, r, n, d, GMP_DIV_CEIL);
}
9 years ago
uint64_t
mpz_fdiv_qr_ui (mpz_t q, mpz_t r, const mpz_t n, uint64_t d)
{
return mpz_div_qr_ui (q, r, n, d, GMP_DIV_FLOOR);
}
9 years ago
uint64_t
mpz_tdiv_qr_ui (mpz_t q, mpz_t r, const mpz_t n, uint64_t d)
{
return mpz_div_qr_ui (q, r, n, d, GMP_DIV_TRUNC);
}
9 years ago
uint64_t
mpz_cdiv_q_ui (mpz_t q, const mpz_t n, uint64_t d)
{
return mpz_div_qr_ui (q, NULL, n, d, GMP_DIV_CEIL);
}
9 years ago
uint64_t
mpz_fdiv_q_ui (mpz_t q, const mpz_t n, uint64_t d)
{
return mpz_div_qr_ui (q, NULL, n, d, GMP_DIV_FLOOR);
}
9 years ago
uint64_t
mpz_tdiv_q_ui (mpz_t q, const mpz_t n, uint64_t d)
{
return mpz_div_qr_ui (q, NULL, n, d, GMP_DIV_TRUNC);
}
9 years ago
uint64_t
mpz_cdiv_r_ui (mpz_t r, const mpz_t n, uint64_t d)
{
return mpz_div_qr_ui (NULL, r, n, d, GMP_DIV_CEIL);
}
9 years ago
uint64_t
mpz_fdiv_r_ui (mpz_t r, const mpz_t n, uint64_t d)
{
return mpz_div_qr_ui (NULL, r, n, d, GMP_DIV_FLOOR);
}
9 years ago
uint64_t
mpz_tdiv_r_ui (mpz_t r, const mpz_t n, uint64_t d)
{
return mpz_div_qr_ui (NULL, r, n, d, GMP_DIV_TRUNC);
}
9 years ago
uint64_t
mpz_cdiv_ui (const mpz_t n, uint64_t d)
{
return mpz_div_qr_ui (NULL, NULL, n, d, GMP_DIV_CEIL);
}
9 years ago
uint64_t
mpz_fdiv_ui (const mpz_t n, uint64_t d)
{
return mpz_div_qr_ui (NULL, NULL, n, d, GMP_DIV_FLOOR);
}
9 years ago
uint64_t
mpz_tdiv_ui (const mpz_t n, uint64_t d)
{
return mpz_div_qr_ui (NULL, NULL, n, d, GMP_DIV_TRUNC);
}
9 years ago
uint64_t
mpz_mod_ui (mpz_t r, const mpz_t n, uint64_t d)
{
return mpz_div_qr_ui (NULL, r, n, d, GMP_DIV_FLOOR);
}
void
9 years ago
mpz_divexact_ui (mpz_t q, const mpz_t n, uint64_t d)
{
gmp_assert_nocarry (mpz_div_qr_ui (q, NULL, n, d, GMP_DIV_TRUNC));
}
int
9 years ago
mpz_divisible_ui_p (const mpz_t n, uint64_t d)
{
return mpz_div_qr_ui (NULL, NULL, n, d, GMP_DIV_TRUNC) == 0;
}
/* GCD */
static mp_limb_t
mpn_gcd_11 (mp_limb_t u, mp_limb_t v)
{
9 years ago
uint32_t shift;
assert ( (u | v) > 0);
if (u == 0)
return v;
else if (v == 0)
return u;
gmp_ctz (shift, u | v);
u >>= shift;
v >>= shift;
if ( (u & 1) == 0)
MP_LIMB_T_SWAP (u, v);
while ( (v & 1) == 0)
v >>= 1;
while (u != v)
{
if (u > v)
{
u -= v;
do
u >>= 1;
while ( (u & 1) == 0);
}
else
{
v -= u;
do
v >>= 1;
while ( (v & 1) == 0);
}
}
return u << shift;
}
9 years ago
uint64_t
mpz_gcd_ui (mpz_t g, const mpz_t u, uint64_t v)
{
mp_size_t un;
if (v == 0)
{
if (g)
mpz_abs (g, u);
}
else
{
un = GMP_ABS (u->_mp_size);
if (un != 0)
v = mpn_gcd_11 (mpn_div_qr_1 (NULL, u->_mp_d, un, v), v);
if (g)
mpz_set_ui (g, v);
}
return v;
}
static mp_bitcnt_t
mpz_make_odd (mpz_t r)
{
mp_bitcnt_t shift;
assert (r->_mp_size > 0);
/* Count trailing zeros, equivalent to mpn_scan1, because we know that there is a 1 */
shift = mpn_common_scan (r->_mp_d[0], 0, r->_mp_d, 0, 0);
mpz_tdiv_q_2exp (r, r, shift);
return shift;
}
void
mpz_gcd (mpz_t g, const mpz_t u, const mpz_t v)
{
mpz_t tu, tv;
mp_bitcnt_t uz, vz, gz;
if (u->_mp_size == 0)
{
mpz_abs (g, v);
return;
}
if (v->_mp_size == 0)
{
mpz_abs (g, u);
return;
}
mpz_init (tu);
mpz_init (tv);
mpz_abs (tu, u);
uz = mpz_make_odd (tu);
mpz_abs (tv, v);
vz = mpz_make_odd (tv);
gz = GMP_MIN (uz, vz);
if (tu->_mp_size < tv->_mp_size)
mpz_swap (tu, tv);
mpz_tdiv_r (tu, tu, tv);
if (tu->_mp_size == 0)
{
mpz_swap (g, tv);
}
else
for (;;)
{
int c;
mpz_make_odd (tu);
c = mpz_cmp (tu, tv);
if (c == 0)
{
mpz_swap (g, tu);
break;
}
if (c < 0)
mpz_swap (tu, tv);
if (tv->_mp_size == 1)
{
mp_limb_t vl = tv->_mp_d[0];
mp_limb_t ul = mpz_tdiv_ui (tu, vl);
mpz_set_ui (g, mpn_gcd_11 (ul, vl));
break;
}
mpz_sub (tu, tu, tv);
}
mpz_clear (tu);
mpz_clear (tv);
mpz_mul_2exp (g, g, gz);
}
void
mpz_gcdext (mpz_t g, mpz_t s, mpz_t t, const mpz_t u, const mpz_t v)
{
mpz_t tu, tv, s0, s1, t0, t1;
mp_bitcnt_t uz, vz, gz;
mp_bitcnt_t power;
if (u->_mp_size == 0)
{
/* g = 0 u + sgn(v) v */
9 years ago
int64_t sign = mpz_sgn (v);
mpz_abs (g, v);
if (s)
mpz_set_ui (s, 0);
if (t)
mpz_set_si (t, sign);
return;
}
if (v->_mp_size == 0)
{
/* g = sgn(u) u + 0 v */
9 years ago
int64_t sign = mpz_sgn (u);
mpz_abs (g, u);
if (s)
mpz_set_si (s, sign);
if (t)
mpz_set_ui (t, 0);
return;
}
mpz_init (tu);
mpz_init (tv);
mpz_init (s0);
mpz_init (s1);
mpz_init (t0);
mpz_init (t1);
mpz_abs (tu, u);
uz = mpz_make_odd (tu);
mpz_abs (tv, v);
vz = mpz_make_odd (tv);
gz = GMP_MIN (uz, vz);
uz -= gz;
vz -= gz;
/* Cofactors corresponding to odd gcd. gz handled later. */
if (tu->_mp_size < tv->_mp_size)
{
mpz_swap (tu, tv);
MPZ_SRCPTR_SWAP (u, v);
MPZ_PTR_SWAP (s, t);
MP_BITCNT_T_SWAP (uz, vz);
}
/* Maintain
*
* u = t0 tu + t1 tv
* v = s0 tu + s1 tv
*
* where u and v denote the inputs with common factors of two
* eliminated, and det (s0, t0; s1, t1) = 2^p. Then
*
* 2^p tu = s1 u - t1 v
* 2^p tv = -s0 u + t0 v
*/
/* After initial division, tu = q tv + tu', we have
*
* u = 2^uz (tu' + q tv)
* v = 2^vz tv
*
* or
*
* t0 = 2^uz, t1 = 2^uz q
* s0 = 0, s1 = 2^vz
*/
mpz_setbit (t0, uz);
mpz_tdiv_qr (t1, tu, tu, tv);
mpz_mul_2exp (t1, t1, uz);
mpz_setbit (s1, vz);
power = uz + vz;
if (tu->_mp_size > 0)
{
mp_bitcnt_t shift;
shift = mpz_make_odd (tu);
mpz_mul_2exp (t0, t0, shift);
mpz_mul_2exp (s0, s0, shift);
power += shift;
for (;;)
{
int c;
c = mpz_cmp (tu, tv);
if (c == 0)
break;
if (c < 0)
{
/* tv = tv' + tu
*
* u = t0 tu + t1 (tv' + tu) = (t0 + t1) tu + t1 tv'
* v = s0 tu + s1 (tv' + tu) = (s0 + s1) tu + s1 tv' */
mpz_sub (tv, tv, tu);
mpz_add (t0, t0, t1);
mpz_add (s0, s0, s1);
shift = mpz_make_odd (tv);
mpz_mul_2exp (t1, t1, shift);
mpz_mul_2exp (s1, s1, shift);
}
else
{
mpz_sub (tu, tu, tv);
mpz_add (t1, t0, t1);
mpz_add (s1, s0, s1);
shift = mpz_make_odd (tu);
mpz_mul_2exp (t0, t0, shift);
mpz_mul_2exp (s0, s0, shift);
}
power += shift;
}
}
/* Now tv = odd part of gcd, and -s0 and t0 are corresponding
cofactors. */
mpz_mul_2exp (tv, tv, gz);
mpz_neg (s0, s0);
/* 2^p g = s0 u + t0 v. Eliminate one factor of two at a time. To
adjust cofactors, we need u / g and v / g */
mpz_divexact (s1, v, tv);
mpz_abs (s1, s1);
mpz_divexact (t1, u, tv);
mpz_abs (t1, t1);
while (power-- > 0)
{
/* s0 u + t0 v = (s0 - v/g) u - (t0 + u/g) v */
if (mpz_odd_p (s0) || mpz_odd_p (t0))
{
mpz_sub (s0, s0, s1);
mpz_add (t0, t0, t1);
}
mpz_divexact_ui (s0, s0, 2);
mpz_divexact_ui (t0, t0, 2);
}
/* Arrange so that |s| < |u| / 2g */
mpz_add (s1, s0, s1);
if (mpz_cmpabs (s0, s1) > 0)
{
mpz_swap (s0, s1);
mpz_sub (t0, t0, t1);
}
if (u->_mp_size < 0)
mpz_neg (s0, s0);
if (v->_mp_size < 0)
mpz_neg (t0, t0);
mpz_swap (g, tv);
if (s)
mpz_swap (s, s0);
if (t)
mpz_swap (t, t0);
mpz_clear (tu);
mpz_clear (tv);
mpz_clear (s0);
mpz_clear (s1);
mpz_clear (t0);
mpz_clear (t1);
}
void
mpz_lcm (mpz_t r, const mpz_t u, const mpz_t v)
{
mpz_t g;
if (u->_mp_size == 0 || v->_mp_size == 0)
{
r->_mp_size = 0;
return;
}
mpz_init (g);
mpz_gcd (g, u, v);
mpz_divexact (g, u, g);
mpz_mul (r, g, v);
mpz_clear (g);
mpz_abs (r, r);
}
void
9 years ago
mpz_lcm_ui (mpz_t r, const mpz_t u, uint64_t v)
{
if (v == 0 || u->_mp_size == 0)
{
r->_mp_size = 0;
return;
}
v /= mpz_gcd_ui (NULL, u, v);
mpz_mul_ui (r, u, v);
mpz_abs (r, r);
}
int
mpz_invert (mpz_t r, const mpz_t u, const mpz_t m)
{
mpz_t g, tr;
int invertible;
if (u->_mp_size == 0 || mpz_cmpabs_ui (m, 1) <= 0)
return 0;
mpz_init (g);
mpz_init (tr);
mpz_gcdext (g, tr, NULL, u, m);
invertible = (mpz_cmp_ui (g, 1) == 0);
if (invertible)
{
if (tr->_mp_size < 0)
{
if (m->_mp_size >= 0)
mpz_add (tr, tr, m);
else
mpz_sub (tr, tr, m);
}
mpz_swap (r, tr);
}
mpz_clear (g);
mpz_clear (tr);
return invertible;
}
/* Higher level operations (sqrt, pow and root) */
void
9 years ago
mpz_pow_ui (mpz_t r, const mpz_t b, uint64_t e)
{
9 years ago
uint64_t bit;
mpz_t tr;
mpz_init_set_ui (tr, 1);
bit = GMP_ULONG_HIGHBIT;
do
{
mpz_mul (tr, tr, tr);
if (e & bit)
mpz_mul (tr, tr, b);
bit >>= 1;
}
while (bit > 0);
mpz_swap (r, tr);
mpz_clear (tr);
}
void
9 years ago
mpz_ui_pow_ui (mpz_t r, uint64_t blimb, uint64_t e)
{
mpz_t b;
mpz_pow_ui (r, mpz_roinit_n (b, &blimb, 1), e);
}
void
mpz_powm (mpz_t r, const mpz_t b, const mpz_t e, const mpz_t m)
{
mpz_t tr;
mpz_t base;
mp_size_t en, mn;
mp_srcptr mp;
struct gmp_div_inverse minv;
9 years ago
uint32_t shift;
mp_ptr tp = NULL;
en = GMP_ABS (e->_mp_size);
mn = GMP_ABS (m->_mp_size);
if (mn == 0)
gmp_die ("mpz_powm: Zero modulo.");
if (en == 0)
{
mpz_set_ui (r, 1);
return;
}
mp = m->_mp_d;
mpn_div_qr_invert (&minv, mp, mn);
shift = minv.shift;
if (shift > 0)
{
/* To avoid shifts, we do all our reductions, except the final
one, using a *normalized* m. */
minv.shift = 0;
tp = gmp_xalloc_limbs (mn);
gmp_assert_nocarry (mpn_lshift (tp, mp, mn, shift));
mp = tp;
}
mpz_init (base);
if (e->_mp_size < 0)
{
if (!mpz_invert (base, b, m))
gmp_die ("mpz_powm: Negative exponent and non-invertible base.");
}
else
{
mp_size_t bn;
mpz_abs (base, b);
bn = base->_mp_size;
if (bn >= mn)
{
mpn_div_qr_preinv (NULL, base->_mp_d, base->_mp_size, mp, mn, &minv);
bn = mn;
}
/* We have reduced the absolute value. Now take care of the
sign. Note that we get zero represented non-canonically as
m. */
if (b->_mp_size < 0)
{
mp_ptr bp = MPZ_REALLOC (base, mn);
gmp_assert_nocarry (mpn_sub (bp, mp, mn, bp, bn));
bn = mn;
}
base->_mp_size = mpn_normalized_size (base->_mp_d, bn);
}
mpz_init_set_ui (tr, 1);
while (--en >= 0)
{
mp_limb_t w = e->_mp_d[en];
mp_limb_t bit;
bit = GMP_LIMB_HIGHBIT;
do
{
mpz_mul (tr, tr, tr);
if (w & bit)
mpz_mul (tr, tr, base);
if (tr->_mp_size > mn)
{
mpn_div_qr_preinv (NULL, tr->_mp_d, tr->_mp_size, mp, mn, &minv);
tr->_mp_size = mpn_normalized_size (tr->_mp_d, mn);
}
bit >>= 1;
}
while (bit > 0);
}
/* Final reduction */
if (tr->_mp_size >= mn)
{
minv.shift = shift;
mpn_div_qr_preinv (NULL, tr->_mp_d, tr->_mp_size, mp, mn, &minv);
tr->_mp_size = mpn_normalized_size (tr->_mp_d, mn);
}
if (tp)
gmp_free (tp);
mpz_swap (r, tr);
mpz_clear (tr);
mpz_clear (base);
}
void
9 years ago
mpz_powm_ui (mpz_t r, const mpz_t b, uint64_t elimb, const mpz_t m)
{
mpz_t e;
mpz_powm (r, b, mpz_roinit_n (e, &elimb, 1), m);
}
/* x=trunc(y^(1/z)), r=y-x^z */
void
9 years ago
mpz_rootrem (mpz_t x, mpz_t r, const mpz_t y, uint64_t z)
{
int sgn;
mpz_t t, u;
sgn = y->_mp_size < 0;
if ((~z & sgn) != 0)
gmp_die ("mpz_rootrem: Negative argument, with even root.");
if (z == 0)
gmp_die ("mpz_rootrem: Zeroth root.");
if (mpz_cmpabs_ui (y, 1) <= 0) {
if (x)
mpz_set (x, y);
if (r)
r->_mp_size = 0;
return;
}
mpz_init (u);
{
mp_bitcnt_t tb;
tb = mpz_sizeinbase (y, 2) / z + 1;
mpz_init2 (t, tb + 1);
mpz_setbit (t, tb);
}
if (z == 2) /* simplify sqrt loop: z-1 == 1 */
do {
mpz_swap (u, t); /* u = x */
mpz_tdiv_q (t, y, u); /* t = y/x */
mpz_add (t, t, u); /* t = y/x + x */
mpz_tdiv_q_2exp (t, t, 1); /* x'= (y/x + x)/2 */
} while (mpz_cmpabs (t, u) < 0); /* |x'| < |x| */
else /* z != 2 */ {
mpz_t v;
mpz_init (v);
if (sgn)
mpz_neg (t, t);
do {
mpz_swap (u, t); /* u = x */
mpz_pow_ui (t, u, z - 1); /* t = x^(z-1) */
mpz_tdiv_q (t, y, t); /* t = y/x^(z-1) */
mpz_mul_ui (v, u, z - 1); /* v = x*(z-1) */
mpz_add (t, t, v); /* t = y/x^(z-1) + x*(z-1) */
mpz_tdiv_q_ui (t, t, z); /* x'=(y/x^(z-1) + x*(z-1))/z */
} while (mpz_cmpabs (t, u) < 0); /* |x'| < |x| */
mpz_clear (v);
}
if (r) {
mpz_pow_ui (t, u, z);
mpz_sub (r, y, t);
}
if (x)
mpz_swap (x, u);
mpz_clear (u);
mpz_clear (t);
}
int
9 years ago
mpz_root (mpz_t x, const mpz_t y, uint64_t z)
{
int res;
mpz_t r;
mpz_init (r);
mpz_rootrem (x, r, y, z);
res = r->_mp_size == 0;
mpz_clear (r);
return res;
}
/* Compute s = floor(sqrt(u)) and r = u - s^2. Allows r == NULL */
void
mpz_sqrtrem (mpz_t s, mpz_t r, const mpz_t u)
{
mpz_rootrem (s, r, u, 2);
}
void
mpz_sqrt (mpz_t s, const mpz_t u)
{
mpz_rootrem (s, NULL, u, 2);
}
int
mpz_perfect_square_p (const mpz_t u)
{
if (u->_mp_size <= 0)
return (u->_mp_size == 0);
else
return mpz_root (NULL, u, 2);
}
int
mpn_perfect_square_p (mp_srcptr p, mp_size_t n)
{
mpz_t t;
assert (n > 0);
assert (p [n-1] != 0);
return mpz_root (NULL, mpz_roinit_n (t, p, n), 2);
}
mp_size_t
mpn_sqrtrem (mp_ptr sp, mp_ptr rp, mp_srcptr p, mp_size_t n)
{
mpz_t s, r, u;
mp_size_t res;
assert (n > 0);
assert (p [n-1] != 0);
mpz_init (r);
mpz_init (s);
mpz_rootrem (s, r, mpz_roinit_n (u, p, n), 2);
assert (s->_mp_size == (n+1)/2);
mpn_copyd (sp, s->_mp_d, s->_mp_size);
mpz_clear (s);
res = r->_mp_size;
if (rp)
mpn_copyd (rp, r->_mp_d, res);
mpz_clear (r);
return res;
}
/* Combinatorics */
void
9 years ago
mpz_fac_ui (mpz_t x, uint64_t n)
{
mpz_set_ui (x, n + (n == 0));
while (n > 2)
mpz_mul_ui (x, x, --n);
}
void
9 years ago
mpz_bin_uiui (mpz_t r, uint64_t n, uint64_t k)
{
mpz_t t;
mpz_set_ui (r, k <= n);
if (k > (n >> 1))
k = (k <= n) ? n - k : 0;
mpz_init (t);
mpz_fac_ui (t, k);
for (; k > 0; k--)
mpz_mul_ui (r, r, n--);
mpz_divexact (r, r, t);
mpz_clear (t);
}
/* Primality testing */
static int
gmp_millerrabin (const mpz_t n, const mpz_t nm1, mpz_t y,
const mpz_t q, mp_bitcnt_t k)
{
assert (k > 0);
/* Caller must initialize y to the base. */
mpz_powm (y, y, q, n);
if (mpz_cmp_ui (y, 1) == 0 || mpz_cmp (y, nm1) == 0)
return 1;
while (--k > 0)
{
mpz_powm_ui (y, y, 2, n);
if (mpz_cmp (y, nm1) == 0)
return 1;
/* y == 1 means that the previous y was a non-trivial square root
of 1 (mod n). y == 0 means that n is a power of the base.
In either case, n is not prime. */
if (mpz_cmp_ui (y, 1) <= 0)
return 0;
}
return 0;
}
/* This product is 0xc0cfd797, and fits in 32 bits. */
#define GMP_PRIME_PRODUCT \
(3UL*5UL*7UL*11UL*13UL*17UL*19UL*23UL*29UL)
/* Bit (p+1)/2 is set, for each odd prime <= 61 */
#define GMP_PRIME_MASK 0xc96996dcUL
int
mpz_probab_prime_p (const mpz_t n, int reps)
{
mpz_t nm1;
mpz_t q;
mpz_t y;
mp_bitcnt_t k;
int is_prime;
int j;
/* Note that we use the absolute value of n only, for compatibility
with the real GMP. */
if (mpz_even_p (n))
return (mpz_cmpabs_ui (n, 2) == 0) ? 2 : 0;
/* Above test excludes n == 0 */
assert (n->_mp_size != 0);
if (mpz_cmpabs_ui (n, 64) < 0)
return (GMP_PRIME_MASK >> (n->_mp_d[0] >> 1)) & 2;
if (mpz_gcd_ui (NULL, n, GMP_PRIME_PRODUCT) != 1)
return 0;
/* All prime factors are >= 31. */
if (mpz_cmpabs_ui (n, 31*31) < 0)
return 2;
/* Use Miller-Rabin, with a deterministic sequence of bases, a[j] =
j^2 + j + 41 using Euler's polynomial. We potentially stop early,
if a[j] >= n - 1. Since n >= 31*31, this can happen only if reps >
30 (a[30] == 971 > 31*31 == 961). */
mpz_init (nm1);
mpz_init (q);
mpz_init (y);
/* Find q and k, where q is odd and n = 1 + 2**k * q. */
nm1->_mp_size = mpz_abs_sub_ui (nm1, n, 1);
k = mpz_scan1 (nm1, 0);
mpz_tdiv_q_2exp (q, nm1, k);
for (j = 0, is_prime = 1; is_prime & (j < reps); j++)
{
9 years ago
mpz_set_ui (y, (uint64_t) j*j+j+41);
if (mpz_cmp (y, nm1) >= 0)
{
/* Don't try any further bases. This "early" break does not affect
the result for any reasonable reps value (<=5000 was tested) */
assert (j >= 30);
break;
}
is_prime = gmp_millerrabin (n, nm1, y, q, k);
}
mpz_clear (nm1);
mpz_clear (q);
mpz_clear (y);
return is_prime;
}
/* Logical operations and bit manipulation. */
/* Numbers are treated as if represented in two's complement (and
infinitely sign extended). For a negative values we get the two's
complement from -x = ~x + 1, where ~ is bitwise complement.
Negation transforms
xxxx10...0
into
yyyy10...0
where yyyy is the bitwise complement of xxxx. So least significant
bits, up to and including the first one bit, are unchanged, and
the more significant bits are all complemented.
To change a bit from zero to one in a negative number, subtract the
corresponding power of two from the absolute value. This can never
underflow. To change a bit from one to zero, add the corresponding
power of two, and this might overflow. E.g., if x = -001111, the
two's complement is 110001. Clearing the least significant bit, we
get two's complement 110000, and -010000. */
int
mpz_tstbit (const mpz_t d, mp_bitcnt_t bit_index)
{
mp_size_t limb_index;
9 years ago
uint32_t shift;
mp_size_t ds;
mp_size_t dn;
mp_limb_t w;
int bit;
ds = d->_mp_size;
dn = GMP_ABS (ds);
limb_index = bit_index / GMP_LIMB_BITS;
if (limb_index >= dn)
return ds < 0;
shift = bit_index % GMP_LIMB_BITS;
w = d->_mp_d[limb_index];
bit = (w >> shift) & 1;
if (ds < 0)
{
/* d < 0. Check if any of the bits below is set: If so, our bit
must be complemented. */
if (shift > 0 && (w << (GMP_LIMB_BITS - shift)) > 0)
return bit ^ 1;
while (--limb_index >= 0)
if (d->_mp_d[limb_index] > 0)
return bit ^ 1;
}
return bit;
}
static void
mpz_abs_add_bit (mpz_t d, mp_bitcnt_t bit_index)
{
mp_size_t dn, limb_index;
mp_limb_t bit;
mp_ptr dp;
dn = GMP_ABS (d->_mp_size);
limb_index = bit_index / GMP_LIMB_BITS;
bit = (mp_limb_t) 1 << (bit_index % GMP_LIMB_BITS);
if (limb_index >= dn)
{
mp_size_t i;
/* The bit should be set outside of the end of the number.
We have to increase the size of the number. */
dp = MPZ_REALLOC (d, limb_index + 1);
dp[limb_index] = bit;
for (i = dn; i < limb_index; i++)
dp[i] = 0;
dn = limb_index + 1;
}
else
{
mp_limb_t cy;
dp = d->_mp_d;
cy = mpn_add_1 (dp + limb_index, dp + limb_index, dn - limb_index, bit);
if (cy > 0)
{
dp = MPZ_REALLOC (d, dn + 1);
dp[dn++] = cy;
}
}
d->_mp_size = (d->_mp_size < 0) ? - dn : dn;
}
static void
mpz_abs_sub_bit (mpz_t d, mp_bitcnt_t bit_index)
{
mp_size_t dn, limb_index;
mp_ptr dp;
mp_limb_t bit;
dn = GMP_ABS (d->_mp_size);
dp = d->_mp_d;
limb_index = bit_index / GMP_LIMB_BITS;
bit = (mp_limb_t) 1 << (bit_index % GMP_LIMB_BITS);
assert (limb_index < dn);
gmp_assert_nocarry (mpn_sub_1 (dp + limb_index, dp + limb_index,
dn - limb_index, bit));
dn = mpn_normalized_size (dp, dn);
d->_mp_size = (d->_mp_size < 0) ? - dn : dn;
}
void
mpz_setbit (mpz_t d, mp_bitcnt_t bit_index)
{
if (!mpz_tstbit (d, bit_index))
{
if (d->_mp_size >= 0)
mpz_abs_add_bit (d, bit_index);
else
mpz_abs_sub_bit (d, bit_index);
}
}
void
mpz_clrbit (mpz_t d, mp_bitcnt_t bit_index)
{
if (mpz_tstbit (d, bit_index))
{
if (d->_mp_size >= 0)
mpz_abs_sub_bit (d, bit_index);
else
mpz_abs_add_bit (d, bit_index);
}
}
void
mpz_combit (mpz_t d, mp_bitcnt_t bit_index)
{
if (mpz_tstbit (d, bit_index) ^ (d->_mp_size < 0))
mpz_abs_sub_bit (d, bit_index);
else
mpz_abs_add_bit (d, bit_index);
}
void
mpz_com (mpz_t r, const mpz_t u)
{
mpz_neg (r, u);
mpz_sub_ui (r, r, 1);
}
void
mpz_and (mpz_t r, const mpz_t u, const mpz_t v)
{
mp_size_t un, vn, rn, i;
mp_ptr up, vp, rp;
mp_limb_t ux, vx, rx;
mp_limb_t uc, vc, rc;
mp_limb_t ul, vl, rl;
un = GMP_ABS (u->_mp_size);
vn = GMP_ABS (v->_mp_size);
if (un < vn)
{
MPZ_SRCPTR_SWAP (u, v);
MP_SIZE_T_SWAP (un, vn);
}
if (vn == 0)
{
r->_mp_size = 0;
return;
}
uc = u->_mp_size < 0;
vc = v->_mp_size < 0;
rc = uc & vc;
ux = -uc;
vx = -vc;
rx = -rc;
/* If the smaller input is positive, higher limbs don't matter. */
rn = vx ? un : vn;
rp = MPZ_REALLOC (r, rn + rc);
up = u->_mp_d;
vp = v->_mp_d;
i = 0;
do
{
ul = (up[i] ^ ux) + uc;
uc = ul < uc;
vl = (vp[i] ^ vx) + vc;
vc = vl < vc;
rl = ( (ul & vl) ^ rx) + rc;
rc = rl < rc;
rp[i] = rl;
}
while (++i < vn);
assert (vc == 0);
for (; i < rn; i++)
{
ul = (up[i] ^ ux) + uc;
uc = ul < uc;
rl = ( (ul & vx) ^ rx) + rc;
rc = rl < rc;
rp[i] = rl;
}
if (rc)
rp[rn++] = rc;
else
rn = mpn_normalized_size (rp, rn);
r->_mp_size = rx ? -rn : rn;
}
void
mpz_ior (mpz_t r, const mpz_t u, const mpz_t v)
{
mp_size_t un, vn, rn, i;
mp_ptr up, vp, rp;
mp_limb_t ux, vx, rx;
mp_limb_t uc, vc, rc;
mp_limb_t ul, vl, rl;
un = GMP_ABS (u->_mp_size);
vn = GMP_ABS (v->_mp_size);
if (un < vn)
{
MPZ_SRCPTR_SWAP (u, v);
MP_SIZE_T_SWAP (un, vn);
}
if (vn == 0)
{
mpz_set (r, u);
return;
}
uc = u->_mp_size < 0;
vc = v->_mp_size < 0;
rc = uc | vc;
ux = -uc;
vx = -vc;
rx = -rc;
/* If the smaller input is negative, by sign extension higher limbs
don't matter. */
rn = vx ? vn : un;
rp = MPZ_REALLOC (r, rn + rc);
up = u->_mp_d;
vp = v->_mp_d;
i = 0;
do
{
ul = (up[i] ^ ux) + uc;
uc = ul < uc;
vl = (vp[i] ^ vx) + vc;
vc = vl < vc;
rl = ( (ul | vl) ^ rx) + rc;
rc = rl < rc;
rp[i] = rl;
}
while (++i < vn);
assert (vc == 0);
for (; i < rn; i++)
{
ul = (up[i] ^ ux) + uc;
uc = ul < uc;
rl = ( (ul | vx) ^ rx) + rc;
rc = rl < rc;
rp[i] = rl;
}
if (rc)
rp[rn++] = rc;
else
rn = mpn_normalized_size (rp, rn);
r->_mp_size = rx ? -rn : rn;
}
void
mpz_xor (mpz_t r, const mpz_t u, const mpz_t v)
{
mp_size_t un, vn, i;
mp_ptr up, vp, rp;
mp_limb_t ux, vx, rx;
mp_limb_t uc, vc, rc;
mp_limb_t ul, vl, rl;
un = GMP_ABS (u->_mp_size);
vn = GMP_ABS (v->_mp_size);
if (un < vn)
{
MPZ_SRCPTR_SWAP (u, v);
MP_SIZE_T_SWAP (un, vn);
}
if (vn == 0)
{
mpz_set (r, u);
return;
}
uc = u->_mp_size < 0;
vc = v->_mp_size < 0;
rc = uc ^ vc;
ux = -uc;
vx = -vc;
rx = -rc;
rp = MPZ_REALLOC (r, un + rc);
up = u->_mp_d;
vp = v->_mp_d;
i = 0;
do
{
ul = (up[i] ^ ux) + uc;
uc = ul < uc;
vl = (vp[i] ^ vx) + vc;
vc = vl < vc;
rl = (ul ^ vl ^ rx) + rc;
rc = rl < rc;
rp[i] = rl;
}
while (++i < vn);
assert (vc == 0);
for (; i < un; i++)
{
ul = (up[i] ^ ux) + uc;
uc = ul < uc;
rl = (ul ^ ux) + rc;
rc = rl < rc;
rp[i] = rl;
}
if (rc)
rp[un++] = rc;
else
un = mpn_normalized_size (rp, un);
r->_mp_size = rx ? -un : un;
}
9 years ago
static uint32_t
gmp_popcount_limb (mp_limb_t x)
{
9 years ago
uint32_t c;
/* Do 16 bits at a time, to avoid limb-sized constants. */
for (c = 0; x > 0; x >>= 16)
{
9 years ago
uint32_t w = ((x >> 1) & 0x5555) + (x & 0x5555);
w = ((w >> 2) & 0x3333) + (w & 0x3333);
w = ((w >> 4) & 0x0f0f) + (w & 0x0f0f);
w = (w >> 8) + (w & 0x00ff);
c += w;
}
return c;
}
mp_bitcnt_t
mpn_popcount (mp_srcptr p, mp_size_t n)
{
mp_size_t i;
mp_bitcnt_t c;
for (c = 0, i = 0; i < n; i++)
c += gmp_popcount_limb (p[i]);
return c;
}
mp_bitcnt_t
mpz_popcount (const mpz_t u)
{
mp_size_t un;
un = u->_mp_size;
if (un < 0)
return ~(mp_bitcnt_t) 0;
return mpn_popcount (u->_mp_d, un);
}
mp_bitcnt_t
mpz_hamdist (const mpz_t u, const mpz_t v)
{
mp_size_t un, vn, i;
mp_limb_t uc, vc, ul, vl, comp;
mp_srcptr up, vp;
mp_bitcnt_t c;
un = u->_mp_size;
vn = v->_mp_size;
if ( (un ^ vn) < 0)
return ~(mp_bitcnt_t) 0;
comp = - (uc = vc = (un < 0));
if (uc)
{
assert (vn < 0);
un = -un;
vn = -vn;
}
up = u->_mp_d;
vp = v->_mp_d;
if (un < vn)
MPN_SRCPTR_SWAP (up, un, vp, vn);
for (i = 0, c = 0; i < vn; i++)
{
ul = (up[i] ^ comp) + uc;
uc = ul < uc;
vl = (vp[i] ^ comp) + vc;
vc = vl < vc;
c += gmp_popcount_limb (ul ^ vl);
}
assert (vc == 0);
for (; i < un; i++)
{
ul = (up[i] ^ comp) + uc;
uc = ul < uc;
c += gmp_popcount_limb (ul ^ comp);
}
return c;
}
mp_bitcnt_t
mpz_scan1 (const mpz_t u, mp_bitcnt_t starting_bit)
{
mp_ptr up;
mp_size_t us, un, i;
mp_limb_t limb, ux;
us = u->_mp_size;
un = GMP_ABS (us);
i = starting_bit / GMP_LIMB_BITS;
/* Past the end there's no 1 bits for u>=0, or an immediate 1 bit
for u<0. Notice this test picks up any u==0 too. */
if (i >= un)
return (us >= 0 ? ~(mp_bitcnt_t) 0 : starting_bit);
up = u->_mp_d;
ux = 0;
limb = up[i];
if (starting_bit != 0)
{
if (us < 0)
{
ux = mpn_zero_p (up, i);
limb = ~ limb + ux;
ux = - (mp_limb_t) (limb >= ux);
}
/* Mask to 0 all bits before starting_bit, thus ignoring them. */
limb &= (GMP_LIMB_MAX << (starting_bit % GMP_LIMB_BITS));
}
return mpn_common_scan (limb, i, up, un, ux);
}
mp_bitcnt_t
mpz_scan0 (const mpz_t u, mp_bitcnt_t starting_bit)
{
mp_ptr up;
mp_size_t us, un, i;
mp_limb_t limb, ux;
us = u->_mp_size;
ux = - (mp_limb_t) (us >= 0);
un = GMP_ABS (us);
i = starting_bit / GMP_LIMB_BITS;
/* When past end, there's an immediate 0 bit for u>=0, or no 0 bits for
u<0. Notice this test picks up all cases of u==0 too. */
if (i >= un)
return (ux ? starting_bit : ~(mp_bitcnt_t) 0);
up = u->_mp_d;
limb = up[i] ^ ux;
if (ux == 0)
limb -= mpn_zero_p (up, i); /* limb = ~(~limb + zero_p) */
/* Mask all bits before starting_bit, thus ignoring them. */
limb &= (GMP_LIMB_MAX << (starting_bit % GMP_LIMB_BITS));
return mpn_common_scan (limb, i, up, un, ux);
}
/* MPZ base conversion. */
size_t
mpz_sizeinbase (const mpz_t u, int base)
{
mp_size_t un;
mp_srcptr up;
mp_ptr tp;
mp_bitcnt_t bits;
struct gmp_div_inverse bi;
size_t ndigits;
assert (base >= 2);
assert (base <= 36);
un = GMP_ABS (u->_mp_size);
if (un == 0)
return 1;
up = u->_mp_d;
bits = (un - 1) * GMP_LIMB_BITS + mpn_limb_size_in_base_2 (up[un-1]);
switch (base)
{
case 2:
return bits;
case 4:
return (bits + 1) / 2;
case 8:
return (bits + 2) / 3;
case 16:
return (bits + 3) / 4;
case 32:
return (bits + 4) / 5;
/* FIXME: Do something more clever for the common case of base
10. */
}
tp = gmp_xalloc_limbs (un);
mpn_copyi (tp, up, un);
mpn_div_qr_1_invert (&bi, base);
ndigits = 0;
do
{
ndigits++;
mpn_div_qr_1_preinv (tp, tp, un, &bi);
un -= (tp[un-1] == 0);
}
while (un > 0);
gmp_free (tp);
return ndigits;
}
char *
mpz_get_str (char *sp, int base, const mpz_t u)
{
9 years ago
uint32_t bits;
const char *digits;
mp_size_t un;
size_t i, sn;
if (base >= 0)
{
digits = "0123456789abcdefghijklmnopqrstuvwxyz";
}
else
{
base = -base;
digits = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ";
}
if (base <= 1)
base = 10;
if (base > 36)
return NULL;
sn = 1 + mpz_sizeinbase (u, base);
if (!sp)
sp = (char *) gmp_xalloc (1 + sn);
un = GMP_ABS (u->_mp_size);
if (un == 0)
{
sp[0] = '0';
sp[1] = '\0';
return sp;
}
i = 0;
if (u->_mp_size < 0)
sp[i++] = '-';
bits = mpn_base_power_of_two_p (base);
if (bits)
/* Not modified in this case. */
9 years ago
sn = i + mpn_get_str_bits ((uint8_t *) sp + i, bits, u->_mp_d, un);
else
{
struct mpn_base_info info;
mp_ptr tp;
mpn_get_base_info (&info, base);
tp = gmp_xalloc_limbs (un);
mpn_copyi (tp, u->_mp_d, un);
9 years ago
sn = i + mpn_get_str_other ((uint8_t *) sp + i, base, &info, tp, un);
gmp_free (tp);
}
for (; i < sn; i++)
9 years ago
sp[i] = digits[(uint8_t) sp[i]];
sp[sn] = '\0';
return sp;
}
size_t
mpz_out_str (FILE *stream, int base, const mpz_t x)
{
char *str;
size_t len;
str = mpz_get_str (NULL, base, x);
len = strlen (str);
len = fwrite (str, 1, len, stream);
gmp_free (str);
return len;
}
#endif
static void gmp_die (const char *msg)
{
fprintf (stderr, "%s\n", msg);
abort();
}
static mp_ptr gmp_xalloc_limbs (mp_size_t size)
{
return (mp_ptr) malloc(size * sizeof(mp_limb_t));
}
static int gmp_detect_endian (void)
{
static const int i = 2;
9 years ago
const uint8_t *p = (const uint8_t *) &i;
return 1 - *p;
}
void *mpz_export (void *r, size_t *countp, int order, size_t size, int endian,size_t nails, const mpz_t u)
{
7 years ago
size_t count;
mp_size_t un;
if (nails != 0)
gmp_die ("mpz_import: Nails not supported.");
assert (order == 1 || order == -1);
assert (endian >= -1 && endian <= 1);
assert (size > 0 || u->_mp_size == 0);
un = u->_mp_size;
count = 0;
if (un != 0)
{
size_t k;
uint8_t *p;
ptrdiff_t word_step;
/* The current (partial) limb. */
mp_limb_t limb;
/* The number of bytes left to to in this limb. */
size_t bytes;
/* The index where the limb was read. */
mp_size_t i;
un = GMP_ABS (un);
/* Count bytes in top limb. */
limb = u->_mp_d[un-1];
assert (limb != 0);
k = 0;
do {
k++; limb >>= CHAR_BIT;
} while (limb != 0);
count = (k + (un-1) * sizeof (mp_limb_t) + size - 1) / size;
if (!r)
r = malloc (count * size);
if (endian == 0)
endian = gmp_detect_endian ();
p = (uint8_t *) r;
word_step = (order != endian) ? 2 * size : 0;
/* Process bytes from the least significant end, so point p at the
least significant word. */
if (order == 1)
{
p += size * (count - 1);
word_step = - word_step;
}
/* And at least significant byte of that word. */
if (endian == 1)
p += (size - 1);
for (bytes = 0, i = 0, k = 0; k < count; k++, p += word_step)
{
size_t j;
for (j = 0; j < size; j++, p -= (ptrdiff_t) endian)
{
if (bytes == 0)
{
if (i < un)
limb = u->_mp_d[i++];
bytes = sizeof (mp_limb_t);
}
*p = limb;
7 years ago
//printf("{%02x} ",*p);
7 years ago
limb >>= CHAR_BIT;
bytes--;
}
}
assert (i == un);
assert (k == count);
}
7 years ago
if (countp)
*countp = count;
7 years ago
//printf("mpz_export.%d\n",(int32_t)count);
7 years ago
return r;
}
/////////////////////////////////
static mp_size_t mpn_normalized_size (mp_srcptr xp, mp_size_t n)
{
while (n > 0 && xp[n-1] == 0)
--n;
return n;
}
static mp_ptr gmp_xrealloc_limbs (mp_ptr old, mp_size_t size)
{
assert (size > 0);
return (mp_ptr) realloc(old, size * sizeof (mp_limb_t));
}
static mp_ptr
mpz_realloc (mpz_t r, mp_size_t size)
{
size = GMP_MAX (size, 1);
r->_mp_d = gmp_xrealloc_limbs (r->_mp_d, size);
r->_mp_alloc = (int32_t)size;
if (GMP_ABS (r->_mp_size) > size)
r->_mp_size = 0;
return r->_mp_d;
}
/* Import and export. Does not support nails. */
void
mpz_import (mpz_t r, size_t count, int order, size_t size, int endian,size_t nails, const void *src)
{
9 years ago
const uint8_t *p;
ptrdiff_t word_step;
mp_ptr rp;
mp_size_t rn;
// The current (partial) limb.
mp_limb_t limb;
// The number of bytes already copied to this limb (starting from the low end).
size_t bytes;
// The index where the limb should be stored, when completed.
mp_size_t i;
if (nails != 0)
gmp_die ("mpz_import: Nails not supported.");
assert (order == 1 || order == -1);
assert (endian >= -1 && endian <= 1);
if (endian == 0)
endian = gmp_detect_endian ();
9 years ago
p = (uint8_t *) src;
word_step = (order != endian) ? 2 * size : 0;
9 years ago
// Process bytes from the least significant end, so point p at the least significant word
if (order == 1)
{
p += size * (count - 1);
word_step = - word_step;
}
9 years ago
// And at least significant byte of that word
if (endian == 1)
p += (size - 1);
rn = (size * count + sizeof(mp_limb_t) - 1) / sizeof(mp_limb_t);
rp = MPZ_REALLOC (r, rn);
for (limb = 0, bytes = 0, i = 0; count > 0; count--, p += word_step)
{
size_t j;
for (j = 0; j < size; j++, p -= (ptrdiff_t) endian)
{
limb |= (mp_limb_t) *p << (bytes++ * CHAR_BIT);
if (bytes == sizeof(mp_limb_t))
{
rp[i++] = limb;
bytes = 0;
limb = 0;
}
}
}
assert (i + (bytes > 0) == rn);
if (limb != 0)
rp[i++] = limb;
9 years ago
else i = mpn_normalized_size (rp, i);
r->_mp_size = (int32_t)i;
}
void mpz_init (mpz_t r)
{
r->_mp_alloc = 1;
r->_mp_size = 0;
r->_mp_d = gmp_xalloc_limbs (1);
}
void
mpz_clear (mpz_t r)
{
free (r->_mp_d);
}
static void
mpn_get_base_info (struct mpn_base_info *info, mp_limb_t b)
{
mp_limb_t m;
mp_limb_t p;
9 years ago
uint32_t exp;
m = GMP_LIMB_MAX / b;
for (exp = 1, p = b; p <= m; exp++)
p *= b;
info->exp = exp;
info->bb = p;
}
9 years ago
static uint32_t mpn_base_power_of_two_p (uint32_t b)
{
switch (b)
{
case 2: return 1;
case 4: return 2;
case 8: return 3;
case 16: return 4;
case 32: return 5;
case 64: return 6;
case 128: return 7;
case 256: return 8;
default: return 0;
}
}
9 years ago
static mp_size_t mpn_set_str_bits (mp_ptr rp, const uint8_t *sp, size_t sn, uint32_t bits)
{
mp_size_t rn;
size_t j;
9 years ago
uint32_t shift;
for (j = sn, rn = 0, shift = 0; j-- > 0; )
{
if (shift == 0)
{
rp[rn++] = sp[j];
shift += bits;
}
else
{
rp[rn-1] |= (mp_limb_t) sp[j] << shift;
shift += bits;
if (shift >= GMP_LIMB_BITS)
{
shift -= GMP_LIMB_BITS;
if (shift > 0)
rp[rn++] = (mp_limb_t) sp[j] >> (bits - shift);
}
}
}
rn = mpn_normalized_size (rp, rn);
return rn;
}
mp_limb_t
mpn_add_1 (mp_ptr rp, mp_srcptr ap, mp_size_t n, mp_limb_t b)
{
mp_size_t i;
assert (n > 0);
i = 0;
do
{
mp_limb_t r = ap[i] + b;
/* Carry out */
b = (r < b);
rp[i] = r;
}
while (++i < n);
return b;
}
mp_limb_t
mpn_mul_1 (mp_ptr rp, mp_srcptr up, mp_size_t n, mp_limb_t vl)
{
mp_limb_t ul, cl, hpl, lpl;
assert (n >= 1);
cl = 0;
do
{
ul = *up++;
gmp_umul_ppmm (hpl, lpl, ul, vl);
lpl += cl;
cl = (lpl < cl) + hpl;
*rp++ = lpl;
}
while (--n != 0);
return cl;
}
static mp_size_t
9 years ago
mpn_set_str_other (mp_ptr rp, const uint8_t *sp, size_t sn,
mp_limb_t b, const struct mpn_base_info *info)
{
mp_size_t rn;
mp_limb_t w;
9 years ago
uint32_t k;
size_t j;
k = 1 + (sn - 1) % info->exp;
j = 0;
w = sp[j++];
while (--k != 0)
w = w * b + sp[j++];
rp[0] = w;
for (rn = (w > 0); j < sn;)
{
mp_limb_t cy;
w = sp[j++];
for (k = 1; k < info->exp; k++)
w = w * b + sp[j++];
cy = mpn_mul_1 (rp, rp, rn, info->bb);
cy += mpn_add_1 (rp, rp, rn, w);
if (cy > 0)
rp[rn++] = cy;
}
assert (j == sn);
return rn;
}
void mpn_copyi (mp_ptr d, mp_srcptr s, mp_size_t n)
{
mp_size_t i;
for (i = 0; i < n; i++)
d[i] = s[i];
}
void mpz_set (mpz_t r, const mpz_t x)
{
/* Allow the NOP r == x */
if (r != x)
{
mp_size_t n;
mp_ptr rp;
n = GMP_ABS (x->_mp_size);
rp = MPZ_REALLOC (r, n);
mpn_copyi (rp, x->_mp_d, n);
r->_mp_size = x->_mp_size;
}
}
int mpz_set_str (mpz_t r, const char *sp, int base)
{
9 years ago
uint32_t bits;
mp_size_t rn, alloc;
mp_ptr rp;
size_t sn;
int sign;
9 years ago
uint8_t *dp;
assert (base == 0 || (base >= 2 && base <= 36));
9 years ago
while (isspace( (uint8_t) *sp))
sp++;
sign = (*sp == '-');
sp += sign;
if (base == 0)
{
if (*sp == '0')
{
sp++;
if (*sp == 'x' || *sp == 'X')
{
base = 16;
sp++;
}
else if (*sp == 'b' || *sp == 'B')
{
base = 2;
sp++;
}
else
base = 8;
}
else
base = 10;
}
sn = strlen (sp);
9 years ago
dp = (uint8_t *) malloc (sn + (sn == 0));
for (sn = 0; *sp; sp++)
{
9 years ago
uint32_t digit;
9 years ago
if (isspace ((uint8_t) *sp))
continue;
if (*sp >= '0' && *sp <= '9')
digit = *sp - '0';
else if (*sp >= 'a' && *sp <= 'z')
digit = *sp - 'a' + 10;
else if (*sp >= 'A' && *sp <= 'Z')
digit = *sp - 'A' + 10;
else
digit = base; /* fail */
if (digit >= base)
{
free (dp);
r->_mp_size = 0;
return -1;
}
dp[sn++] = digit;
}
bits = mpn_base_power_of_two_p (base);
if (bits > 0)
{
alloc = (sn * bits + GMP_LIMB_BITS - 1) / GMP_LIMB_BITS;
rp = MPZ_REALLOC (r, alloc);
rn = mpn_set_str_bits (rp, dp, sn, bits);
}
else
{
struct mpn_base_info info;
mpn_get_base_info (&info, base);
alloc = (sn + info.exp - 1) / info.exp;
rp = MPZ_REALLOC (r, alloc);
rn = mpn_set_str_other (rp, dp, sn, base, &info);
}
assert (rn <= alloc);
free (dp);
r->_mp_size = (int32_t)(sign ? - rn : rn);
return 0;
}
void mpz_init_set (mpz_t r, const mpz_t x)
{
mpz_init (r);
mpz_set (r, x);
}
int mpz_init_set_str (mpz_t r, const char *sp, int base)
{
mpz_init (r);
return mpz_set_str (r, sp, base);
}
int mpn_cmp (mp_srcptr ap, mp_srcptr bp, mp_size_t n)
{
while (--n >= 0)
{
if (ap[n] != bp[n])
return ap[n] > bp[n] ? 1 : -1;
}
return 0;
}
int mpz_cmp (const mpz_t a, const mpz_t b)
{
mp_size_t asize = a->_mp_size;
mp_size_t bsize = b->_mp_size;
if (asize != bsize)
return (asize < bsize) ? -1 : 1;
else if (asize >= 0)
return mpn_cmp (a->_mp_d, b->_mp_d, asize);
else
return mpn_cmp (b->_mp_d, a->_mp_d, -asize);
}
static void mpn_div_qr_1_invert (struct gmp_div_inverse *inv, mp_limb_t d)
{
9 years ago
uint32_t shift;
assert (d > 0);
gmp_clz (shift, d);
inv->shift = shift;
inv->d1 = d << shift;
inv->di = mpn_invert_limb (inv->d1);
}
/* MPN division interface. */
mp_limb_t
mpn_invert_3by2 (mp_limb_t u1, mp_limb_t u0)
{
mp_limb_t r, p, m;
9 years ago
uint32_t ul, uh;
uint32_t ql, qh;
/* First, do a 2/1 inverse. */
/* The inverse m is defined as floor( (B^2 - 1 - u1)/u1 ), so that 0 <
* B^2 - (B + m) u1 <= u1 */
assert (u1 >= GMP_LIMB_HIGHBIT);
ul = u1 & GMP_LLIMB_MASK;
uh = u1 >> (GMP_LIMB_BITS / 2);
9 years ago
qh = (uint32_t)(~u1 / uh);
r = ((~u1 - (mp_limb_t) qh * uh) << (GMP_LIMB_BITS / 2)) | GMP_LLIMB_MASK;
p = (mp_limb_t) qh * ul;
/* Adjustment steps taken from udiv_qrnnd_c */
if (r < p)
{
qh--;
r += u1;
if (r >= u1) /* i.e. we didn't get carry when adding to r */
if (r < p)
{
qh--;
r += u1;
}
}
r -= p;
/* Do a 3/2 division (with half limb size) */
p = (r >> (GMP_LIMB_BITS / 2)) * qh + r;
ql = (p >> (GMP_LIMB_BITS / 2)) + 1;
/* By the 3/2 method, we don't need the high half limb. */
r = (r << (GMP_LIMB_BITS / 2)) + GMP_LLIMB_MASK - ql * u1;
if (r >= (p << (GMP_LIMB_BITS / 2)))
{
ql--;
r += u1;
}
m = ((mp_limb_t) qh << (GMP_LIMB_BITS / 2)) + ql;
if (r >= u1)
{
m++;
r -= u1;
}
if (u0 > 0)
{
mp_limb_t th, tl;
r = ~r;
r += u0;
if (r < u0)
{
m--;
if (r >= u1)
{
m--;
r -= u1;
}
r -= u1;
}
gmp_umul_ppmm (th, tl, u0, m);
r += th;
if (r < th)
{
m--;
m -= ((r > u1) | ((r == u1) & (tl > u0)));
}
}
return m;
}
static void mpn_div_qr_2_invert (struct gmp_div_inverse *inv,mp_limb_t d1, mp_limb_t d0)
{
9 years ago
uint32_t shift;
assert (d1 > 0);
gmp_clz (shift, d1);
inv->shift = shift;
if (shift > 0)
{
d1 = (d1 << shift) | (d0 >> (GMP_LIMB_BITS - shift));
d0 <<= shift;
}
inv->d1 = d1;
inv->d0 = d0;
inv->di = mpn_invert_3by2 (d1, d0);
}
static void mpn_div_qr_invert (struct gmp_div_inverse *inv, mp_srcptr dp, mp_size_t dn)
{
assert (dn > 0);
if (dn == 1)
mpn_div_qr_1_invert (inv, dp[0]);
else if (dn == 2)
mpn_div_qr_2_invert (inv, dp[1], dp[0]);
else
{
9 years ago
uint32_t shift;
mp_limb_t d1, d0;
d1 = dp[dn-1];
d0 = dp[dn-2];
assert (d1 > 0);
gmp_clz (shift, d1);
inv->shift = shift;
if (shift > 0)
{
d1 = (d1 << shift) | (d0 >> (GMP_LIMB_BITS - shift));
d0 = (d0 << shift) | (dp[dn-3] >> (GMP_LIMB_BITS - shift));
}
inv->d1 = d1;
inv->d0 = d0;
inv->di = mpn_invert_3by2 (d1, d0);
}
}
9 years ago
mp_limb_t mpn_lshift(mp_ptr rp, mp_srcptr up, mp_size_t n, uint32_t cnt)
{
mp_limb_t high_limb, low_limb;
9 years ago
uint32_t tnc;
mp_limb_t retval;
assert (n >= 1);
assert (cnt >= 1);
assert (cnt < GMP_LIMB_BITS);
up += n;
rp += n;
tnc = GMP_LIMB_BITS - cnt;
low_limb = *--up;
retval = low_limb >> tnc;
high_limb = (low_limb << cnt);
while (--n != 0)
{
low_limb = *--up;
*--rp = high_limb | (low_limb >> tnc);
high_limb = (low_limb << cnt);
}
*--rp = high_limb;
return retval;
}
// Not matching current public gmp interface, rather corresponding to the sbpi1_div_* functions.
static mp_limb_t mpn_div_qr_1_preinv (mp_ptr qp, mp_srcptr np, mp_size_t nn,const struct gmp_div_inverse *inv)
{
mp_limb_t d, di;
mp_limb_t r;
mp_ptr tp = NULL;
if (inv->shift > 0)
{
tp = gmp_xalloc_limbs (nn);
r = mpn_lshift (tp, np, nn, inv->shift);
np = tp;
}
else
r = 0;
d = inv->d1;
di = inv->di;
while (--nn >= 0)
{
mp_limb_t q;
gmp_udiv_qrnnd_preinv (q, r, r, np[nn], d, di);
if (qp)
qp[nn] = q;
}
if (inv->shift > 0)
free (tp);
return r >> inv->shift;
}
static void mpn_div_qr_2_preinv (mp_ptr qp, mp_ptr rp, mp_srcptr np, mp_size_t nn, const struct gmp_div_inverse *inv)
{
9 years ago
uint32_t shift;
mp_size_t i;
mp_limb_t d1, d0, di, r1, r0;
8 years ago
mp_ptr tp=0;
assert (nn >= 2);
shift = inv->shift;
d1 = inv->d1;
d0 = inv->d0;
di = inv->di;
if (shift > 0)
{
tp = gmp_xalloc_limbs (nn);
r1 = mpn_lshift (tp, np, nn, shift);
np = tp;
}
else
r1 = 0;
r0 = np[nn - 1];
i = nn - 2;
do
{
mp_limb_t n0, q;
n0 = np[i];
gmp_udiv_qr_3by2 (q, r1, r0, r1, r0, n0, d1, d0, di);
if (qp)
qp[i] = q;
}
while (--i >= 0);
if (shift > 0)
{
assert ((r0 << (GMP_LIMB_BITS - shift)) == 0);
r0 = (r0 >> shift) | (r1 << (GMP_LIMB_BITS - shift));
r1 >>= shift;
8 years ago
if ( tp != 0 )
free (tp);
}
rp[1] = r1;
rp[0] = r0;
}
mp_limb_t mpn_sub_n (mp_ptr rp, mp_srcptr ap, mp_srcptr bp, mp_size_t n)
{
mp_size_t i;
mp_limb_t cy;
for (i = 0, cy = 0; i < n; i++)
{
mp_limb_t a, b;
a = ap[i]; b = bp[i];
b += cy;
cy = (b < cy);
cy += (a < b);
rp[i] = a - b;
}
return cy;
}
mp_limb_t mpn_sub (mp_ptr rp, mp_srcptr ap, mp_size_t an, mp_srcptr bp, mp_size_t bn)
{
mp_limb_t cy;
assert (an >= bn);
cy = mpn_sub_n (rp, ap, bp, bn);
if (an > bn)
cy = mpn_sub_1 (rp + bn, ap + bn, an - bn, cy);
return cy;
}
mp_limb_t mpn_submul_1 (mp_ptr rp, mp_srcptr up, mp_size_t n, mp_limb_t vl)
{
mp_limb_t ul, cl, hpl, lpl, rl;
assert (n >= 1);
cl = 0;
do
{
ul = *up++;
gmp_umul_ppmm (hpl, lpl, ul, vl);
lpl += cl;
cl = (lpl < cl) + hpl;
rl = *rp;
lpl = rl - lpl;
cl += lpl > rl;
*rp++ = lpl;
}
while (--n != 0);
return cl;
}
static void mpn_div_qr_pi1 (mp_ptr qp,mp_ptr np, mp_size_t nn, mp_limb_t n1,mp_srcptr dp, mp_size_t dn,mp_limb_t dinv)
{
mp_size_t i;
mp_limb_t d1, d0;
mp_limb_t cy, cy1;
mp_limb_t q;
assert (dn > 2);
assert (nn >= dn);
d1 = dp[dn - 1];
d0 = dp[dn - 2];
assert ((d1 & GMP_LIMB_HIGHBIT) != 0);
/* Iteration variable is the index of the q limb.
*
* We divide <n1, np[dn-1+i], np[dn-2+i], np[dn-3+i],..., np[i]>
* by <d1, d0, dp[dn-3], ..., dp[0] >
*/
i = nn - dn;
do
{
mp_limb_t n0 = np[dn-1+i];
if (n1 == d1 && n0 == d0)
{
q = GMP_LIMB_MAX;
mpn_submul_1 (np+i, dp, dn, q);
n1 = np[dn-1+i]; /* update n1, last loop's value will now be invalid */
}
else
{
gmp_udiv_qr_3by2 (q, n1, n0, n1, n0, np[dn-2+i], d1, d0, dinv);
cy = mpn_submul_1 (np + i, dp, dn-2, q);
cy1 = n0 < cy;
n0 = n0 - cy;
cy = n1 < cy1;
n1 = n1 - cy1;
np[dn-2+i] = n0;
if (cy != 0)
{
n1 += d1 + mpn_add_n (np + i, np + i, dp, dn - 1);
q--;
}
}
if (qp)
qp[i] = q;
}
while (--i >= 0);
np[dn - 1] = n1;
}
9 years ago
mp_limb_t mpn_rshift (mp_ptr rp, mp_srcptr up, mp_size_t n, uint32_t cnt)
{
mp_limb_t high_limb, low_limb;
9 years ago
uint32_t tnc;
mp_limb_t retval;
assert (n >= 1);
assert (cnt >= 1);
assert (cnt < GMP_LIMB_BITS);
tnc = GMP_LIMB_BITS - cnt;
high_limb = *up++;
retval = (high_limb << tnc);
low_limb = high_limb >> cnt;
while (--n != 0)
{
high_limb = *up++;
*rp++ = low_limb | (high_limb << tnc);
low_limb = high_limb >> cnt;
}
*rp = low_limb;
return retval;
}
static void mpn_div_qr_preinv (mp_ptr qp, mp_ptr np, mp_size_t nn,mp_srcptr dp, mp_size_t dn,const struct gmp_div_inverse *inv)
{
assert (dn > 0);
assert (nn >= dn);
if (dn == 1)
np[0] = mpn_div_qr_1_preinv (qp, np, nn, inv);
else if (dn == 2)
mpn_div_qr_2_preinv (qp, np, np, nn, inv);
else
{
mp_limb_t nh;
9 years ago
uint32_t shift;
assert (inv->d1 == dp[dn-1]);
assert (inv->d0 == dp[dn-2]);
assert ((inv->d1 & GMP_LIMB_HIGHBIT) != 0);
shift = inv->shift;
if (shift > 0)
nh = mpn_lshift (np, np, nn, shift);
else
nh = 0;
mpn_div_qr_pi1 (qp, np, nn, nh, dp, dn, inv->di);
if (shift > 0)
gmp_assert_nocarry (mpn_rshift (np, np, dn, shift));
}
}
static void mpn_div_qr (mp_ptr qp, mp_ptr np, mp_size_t nn, mp_srcptr dp, mp_size_t dn)
{
struct gmp_div_inverse inv;
mp_ptr tp = NULL;
assert (dn > 0);
assert (nn >= dn);
mpn_div_qr_invert (&inv, dp, dn);
if (dn > 2 && inv.shift > 0)
{
tp = gmp_xalloc_limbs (dn);
gmp_assert_nocarry (mpn_lshift (tp, dp, dn, inv.shift));
dp = tp;
}
mpn_div_qr_preinv (qp, np, nn, dp, dn, &inv);
if (tp)
free (tp);
}
static int
mpn_cmp4 (mp_srcptr ap, mp_size_t an, mp_srcptr bp, mp_size_t bn)
{
if (an != bn)
return an < bn ? -1 : 1;
else
return mpn_cmp (ap, bp, an);
}
static mp_size_t mpz_abs_sub (mpz_t r, const mpz_t a, const mpz_t b)
{
mp_size_t an = GMP_ABS (a->_mp_size);
mp_size_t bn = GMP_ABS (b->_mp_size);
int cmp;
mp_ptr rp;
cmp = mpn_cmp4 (a->_mp_d, an, b->_mp_d, bn);
if (cmp > 0)
{
rp = MPZ_REALLOC (r, an);
gmp_assert_nocarry (mpn_sub (rp, a->_mp_d, an, b->_mp_d, bn));
return mpn_normalized_size (rp, an);
}
else if (cmp < 0)
{
rp = MPZ_REALLOC (r, bn);
gmp_assert_nocarry (mpn_sub (rp, b->_mp_d, bn, a->_mp_d, an));
return -mpn_normalized_size (rp, bn);
}
else
return 0;
}
mp_limb_t mpn_add_n (mp_ptr rp, mp_srcptr ap, mp_srcptr bp, mp_size_t n)
{
mp_size_t i;
mp_limb_t cy;
for (i = 0, cy = 0; i < n; i++)
{
mp_limb_t a, b, r;
a = ap[i]; b = bp[i];
r = a + cy;
cy = (r < cy);
r += b;
cy += (r < b);
rp[i] = r;
}
return cy;
}
mp_limb_t
mpn_add (mp_ptr rp, mp_srcptr ap, mp_size_t an, mp_srcptr bp, mp_size_t bn)
{
mp_limb_t cy;
assert (an >= bn);
cy = mpn_add_n (rp, ap, bp, bn);
if (an > bn)
cy = mpn_add_1 (rp + bn, ap + bn, an - bn, cy);
return cy;
}
static mp_size_t mpz_abs_add (mpz_t r, const mpz_t a, const mpz_t b)
{
mp_size_t an = GMP_ABS (a->_mp_size);
mp_size_t bn = GMP_ABS (b->_mp_size);
mp_ptr rp;
mp_limb_t cy;
if (an < bn)
{
MPZ_SRCPTR_SWAP (a, b);
MP_SIZE_T_SWAP (an, bn);
}
rp = MPZ_REALLOC (r, an + 1);
cy = mpn_add (rp, a->_mp_d, an, b->_mp_d, bn);
rp[an] = cy;
return an + cy;
}
void mpz_sub (mpz_t r, const mpz_t a, const mpz_t b)
{
mp_size_t rn;
if ( (a->_mp_size ^ b->_mp_size) >= 0)
rn = mpz_abs_sub (r, a, b);
else
rn = mpz_abs_add (r, a, b);
r->_mp_size = (int)(a->_mp_size >= 0 ? rn : - rn);
}
/* Adds to the absolute value. Returns new size, but doesn't store it. */
9 years ago
static mp_size_t mpz_abs_add_ui (mpz_t r, const mpz_t a, uint64_t b)
{
mp_size_t an;
mp_ptr rp;
mp_limb_t cy;
an = GMP_ABS (a->_mp_size);
if (an == 0)
{
r->_mp_d[0] = b;
return b > 0;
}
rp = MPZ_REALLOC (r, an + 1);
cy = mpn_add_1 (rp, a->_mp_d, an, b);
rp[an] = cy;
an += cy;
return an;
}
mp_limb_t mpn_sub_1 (mp_ptr rp, mp_srcptr ap, mp_size_t n, mp_limb_t b)
{
mp_size_t i;
assert (n > 0);
i = 0;
do
{
mp_limb_t a = ap[i];
/* Carry out */
mp_limb_t cy = a < b;;
rp[i] = a - b;
b = cy;
}
while (++i < n);
return b;
}
// Subtract from the absolute value. Returns new size, (or -1 on underflow), but doesn't store it.
9 years ago
static mp_size_t mpz_abs_sub_ui (mpz_t r, const mpz_t a, uint64_t b)
{
mp_size_t an = GMP_ABS (a->_mp_size);
mp_ptr rp = MPZ_REALLOC (r, an);
if (an == 0)
{
rp[0] = b;
return -(b > 0);
}
else if (an == 1 && a->_mp_d[0] < b)
{
rp[0] = b - a->_mp_d[0];
return -1;
}
else
{
gmp_assert_nocarry (mpn_sub_1 (rp, a->_mp_d, an, b));
return mpn_normalized_size (rp, an);
}
}
9 years ago
void mpz_sub_ui (mpz_t r, const mpz_t a, uint64_t b)
{
if (a->_mp_size < 0)
r->_mp_size = (int)-mpz_abs_add_ui (r, a, b);
else
r->_mp_size = (int)mpz_abs_sub_ui (r, a, b);
}
void mpz_add (mpz_t r, const mpz_t a, const mpz_t b)
{
mp_size_t rn;
if ( (a->_mp_size ^ b->_mp_size) >= 0)
rn = mpz_abs_add (r, a, b);
else
rn = mpz_abs_sub (r, a, b);
r->_mp_size = (int32_t)(a->_mp_size >= 0 ? rn : - rn);
}
9 years ago
void mpz_add_ui (mpz_t r, const mpz_t a, uint64_t b)
{
if (a->_mp_size >= 0)
r->_mp_size = (int32_t)mpz_abs_add_ui (r, a, b);
else
r->_mp_size = (int32_t)-mpz_abs_sub_ui (r, a, b);
}
/* The utility of this function is a bit limited, since many functions
assigns the result variable using mpz_swap. */
void mpz_init2 (mpz_t r, mp_bitcnt_t bits)
{
mp_size_t rn;
bits -= (bits != 0); /* Round down, except if 0 */
rn = 1 + bits / GMP_LIMB_BITS;
r->_mp_alloc = (int32_t)rn;
r->_mp_size = 0;
r->_mp_d = gmp_xalloc_limbs (rn);
}
9 years ago
void mpz_set_ui (mpz_t r, uint64_t x)
{
if (x > 0)
{
r->_mp_size = 1;
r->_mp_d[0] = x;
}
else
r->_mp_size = 0;
}
9 years ago
void mpz_set_si (mpz_t r, int64_t x)
{
if (x >= 0)
mpz_set_ui (r, x);
else /* (x < 0) */
{
r->_mp_size = -1;
9 years ago
r->_mp_d[0] = GMP_NEG_CAST (uint64_t, x);
}
}
void mpz_swap (mpz_t u, mpz_t v)
{
MP_SIZE_sT_SWAP (u->_mp_size, v->_mp_size);
MP_SIZE_sT_SWAP (u->_mp_alloc, v->_mp_alloc);
MP_PTR_SWAP (u->_mp_d, v->_mp_d);
}
// Allows q or r to be zero. Returns 1 iff remainder is non-zero.
static int mpz_div_qr (mpz_t q, mpz_t r,const mpz_t n, const mpz_t d, enum mpz_div_round_mode mode)
{
mp_size_t ns, ds, nn, dn, qs;
ns = n->_mp_size;
ds = d->_mp_size;
if (ds == 0)
gmp_die("mpz_div_qr: Divide by zero.");
if (ns == 0)
{
if (q)
q->_mp_size = 0;
if (r)
r->_mp_size = 0;
return 0;
}
nn = GMP_ABS (ns);
dn = GMP_ABS (ds);
qs = ds ^ ns;
if (nn < dn)
{
if (mode == GMP_DIV_CEIL && qs >= 0)
{
/* q = 1, r = n - d */
if (r)
mpz_sub (r, n, d);
if (q)
mpz_set_ui (q, 1);
}
else if (mode == GMP_DIV_FLOOR && qs < 0)
{
/* q = -1, r = n + d */
if (r)
mpz_add (r, n, d);
if (q)
mpz_set_si (q, -1);
}
else
{
/* q = 0, r = d */
if (r)
mpz_set (r, n);
if (q)
q->_mp_size = 0;
}
return 1;
}
else
{
mp_ptr np, qp;
mp_size_t qn, rn;
mpz_t tq, tr;
mpz_init_set (tr, n);
np = tr->_mp_d;
qn = nn - dn + 1;
if (q)
{
mpz_init2 (tq, qn * GMP_LIMB_BITS);
qp = tq->_mp_d;
}
else
qp = NULL;
mpn_div_qr (qp, np, nn, d->_mp_d, dn);
if (qp)
{
qn -= (qp[qn-1] == 0);
9 years ago
tq->_mp_size = (uint32_t)(qs < 0 ? -qn : qn);
}
rn = mpn_normalized_size (np, dn);
9 years ago
tr->_mp_size = (uint32_t)(ns < 0 ? - rn : rn);
if (mode == GMP_DIV_FLOOR && qs < 0 && rn != 0)
{
if (q)
mpz_sub_ui (tq, tq, 1);
if (r)
mpz_add (tr, tr, d);
}
else if (mode == GMP_DIV_CEIL && qs >= 0 && rn != 0)
{
if (q)
mpz_add_ui (tq, tq, 1);
if (r)
mpz_sub (tr, tr, d);
}
if (q)
{
mpz_swap (tq, q);
mpz_clear (tq);
}
if (r)
mpz_swap (tr, r);
mpz_clear (tr);
return rn != 0;
}
}
void mpz_cdiv_qr (mpz_t q, mpz_t r, const mpz_t n, const mpz_t d)
{
mpz_div_qr (q, r, n, d, GMP_DIV_CEIL);
}
9 years ago
uint64_t mpz_get_ui (const mpz_t u)
{
return u->_mp_size == 0 ? 0 : u->_mp_d[0];
}
void mpz_tdiv_qr (mpz_t q, mpz_t r, const mpz_t n, const mpz_t d)
{
mpz_div_qr (q, r, n, d, GMP_DIV_TRUNC);
}
9 years ago
void mpz_init_set_ui (mpz_t r, uint64_t x)
{
mpz_init (r);
mpz_set_ui (r, x);
}
mp_limb_t mpn_addmul_1 (mp_ptr rp, mp_srcptr up, mp_size_t n, mp_limb_t vl)
{
mp_limb_t ul, cl, hpl, lpl, rl;
assert (n >= 1);
cl = 0;
do
{
ul = *up++;
gmp_umul_ppmm (hpl, lpl, ul, vl);
lpl += cl;
cl = (lpl < cl) + hpl;
rl = *rp;
lpl = rl + lpl;
cl += lpl < rl;
*rp++ = lpl;
}
while (--n != 0);
return cl;
}
mp_limb_t mpn_mul (mp_ptr rp, mp_srcptr up, mp_size_t un, mp_srcptr vp, mp_size_t vn)
{
assert (un >= vn);
assert (vn >= 1);
/* We first multiply by the low order limb. This result can be
stored, not added, to rp. We also avoid a loop for zeroing this
way. */
rp[un] = mpn_mul_1 (rp, up, un, vp[0]);
/* Now accumulate the product of up[] and the next higher limb from
vp[]. */
while (--vn >= 1)
{
rp += 1, vp += 1;
rp[un] = mpn_addmul_1 (rp, up, un, vp[0]);
}
return rp[un];
}
void mpz_mul (mpz_t r, const mpz_t u, const mpz_t v)
{
int sign;
mp_size_t un, vn, rn;
mpz_t t;
mp_ptr tp;
un = u->_mp_size;
vn = v->_mp_size;
if (un == 0 || vn == 0)
{
r->_mp_size = 0;
return;
}
sign = (un ^ vn) < 0;
un = GMP_ABS (un);
vn = GMP_ABS (vn);
mpz_init2 (t, (un + vn) * GMP_LIMB_BITS);
tp = t->_mp_d;
if (un >= vn)
mpn_mul (tp, u->_mp_d, un, v->_mp_d, vn);
else
mpn_mul (tp, v->_mp_d, vn, u->_mp_d, un);
rn = un + vn;
rn -= tp[rn-1] == 0;
t->_mp_size = (int32_t)(sign ? - rn : rn);
mpz_swap (r, t);
mpz_clear (t);
}
9 years ago
void mpz_mul_ui (mpz_t r, const mpz_t u, uint64_t v)
{
mp_size_t un, us; mp_ptr tp; mp_limb_t cy;
us = u->_mp_size;
if (us == 0 || v == 0)
{
r->_mp_size = 0;
return;
}
un = GMP_ABS (us);
tp = MPZ_REALLOC (r, un + 1);
cy = mpn_mul_1 (tp, u->_mp_d, un, v);
tp[un] = cy;
un += (cy > 0);
r->_mp_size = (int32_t)((us < 0) ? -un : un);
}
static mp_limb_t mpn_div_qr_1 (mp_ptr qp, mp_srcptr np, mp_size_t nn, mp_limb_t d)
{
assert (d > 0);
// Special case for powers of two.
if ((d & (d-1)) == 0)
{
mp_limb_t r = np[0] & (d-1);
if (qp)
{
if (d <= 1)
mpn_copyi (qp, np, nn);
else
{
8 years ago
uint64_t shift;
9 years ago
gmp_ctz (shift, d);
8 years ago
mpn_rshift (qp, np, nn, (uint32_t)shift);
9 years ago
}
}
return r;
}
else
{
struct gmp_div_inverse inv;
mpn_div_qr_1_invert (&inv, d);
return mpn_div_qr_1_preinv (qp, np, nn, &inv);
}
}
static uint64_t mpz_div_qr_ui (mpz_t q, mpz_t r,const mpz_t n, uint64_t d, enum mpz_div_round_mode mode)
{
mp_size_t ns,qn; mp_ptr qp; mp_limb_t rl; mp_size_t rs;
ns = n->_mp_size;
if (ns == 0)
{
if (q)
q->_mp_size = 0;
if (r)
r->_mp_size = 0;
return 0;
}
qn = GMP_ABS (ns);
if (q)
qp = MPZ_REALLOC (q, qn);
else qp = NULL;
rl = mpn_div_qr_1 (qp, n->_mp_d, qn, d);
assert (rl < d);
rs = rl > 0;
rs = (ns < 0) ? -rs : rs;
if (rl > 0 && ( (mode == GMP_DIV_FLOOR && ns < 0) || (mode == GMP_DIV_CEIL && ns >= 0)))
{
if (q)
gmp_assert_nocarry (mpn_add_1 (qp, qp, qn, 1));
rl = d - rl;
rs = -rs;
}
if (r)
{
r->_mp_d[0] = rl;
r->_mp_size = (int32_t)rs;
}
if (q)
{
qn -= (qp[qn-1] == 0);
assert (qn == 0 || qp[qn-1] > 0);
q->_mp_size = (int32_t)((ns < 0) ? -qn : qn);
}
return rl;
}
uint64_t mpz_tdiv_qr_ui (mpz_t q, mpz_t r, const mpz_t n, uint64_t d)
{
return mpz_div_qr_ui (q, r, n, d, GMP_DIV_TRUNC);
}
void mpn_copyd (mp_ptr d, mp_srcptr s, mp_size_t n)
{
while (--n >= 0)
d[n] = s[n];
}
void mpn_zero(mp_ptr rp, mp_size_t n)
{
while (--n >= 0)
rp[n] = 0;
}
void mpz_mul_2exp (mpz_t r, const mpz_t u, mp_bitcnt_t bits)
{
mp_size_t un,rn,limbs; uint32_t shift; mp_ptr rp;
un = GMP_ABS (u->_mp_size);
if (un == 0)
{
r->_mp_size = 0;
return;
}
limbs = bits / GMP_LIMB_BITS;
shift = bits % GMP_LIMB_BITS;
rn = un + limbs + (shift > 0);
rp = MPZ_REALLOC (r, rn);
if (shift > 0)
{
mp_limb_t cy = mpn_lshift (rp + limbs, u->_mp_d, un, shift);
rp[rn-1] = cy;
rn -= (cy == 0);
}
else mpn_copyd (rp + limbs, u->_mp_d, un);
mpn_zero (rp, limbs);
r->_mp_size = (int32_t)((u->_mp_size < 0) ? - rn : rn);
}
9 years ago
#include <stdint.h>
static const char base58_chars[] = "123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz";
char *bitcoin_base58encode(char *coinaddr,uint8_t *data,int32_t datalen)
{
mpz_t bn0,bn58,dv,rem,bn; char rs[128]; int32_t i,n=0;
//mpz_init_set_str(bn58,"58",10);
//mpz_init_set_str(bn0,"0",10);
mpz_init_set_ui(bn58,58);
mpz_init_set_ui(bn0,0);
mpz_init(dv), mpz_init(rem), mpz_init(bn);
mpz_import(bn,datalen,1,sizeof(data[0]),0,0,data);
while ( mpz_cmp(bn,bn0) > 0 )
{
mpz_tdiv_qr(bn,rem,bn,bn58);
rs[n++] = base58_chars[mpz_get_ui(rem)];
}
for (i=0; i<datalen; i++)
{
if ( data[i] == 0 )
rs[n++] = base58_chars[0];
else break;
}
for (i=0; i<n; i++)
coinaddr[n - i - 1] = rs[i];
coinaddr[n] = 0;
mpz_clear(bn0), mpz_clear(bn58), mpz_clear(dv), mpz_clear(rem), mpz_clear(bn);
return(coinaddr);
}
9 years ago
#include "../includes/curve25519.h"
void mpz_from_bits256(mpz_t bn,bits256 x)
{
int32_t i;
mpz_init_set_ui(bn,x.ulongs[3]);
for (i=2; i>=0; i--)
{
mpz_mul_2exp(bn,bn,64);
if ( x.ulongs[i] != 0 )
mpz_add_ui(bn,bn,x.ulongs[i]);
}
}
bits256 mpz_to_bits256(mpz_t bn)
{
bits256 x,rev; size_t count; int32_t i;
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memset(x.bytes,0,sizeof(x));
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mpz_export(rev.bytes,&count,1,sizeof(uint64_t),1,0,bn);
for (i=0; i<32; i++)
x.bytes[i] = rev.bytes[31-i];
return(x);
}
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int32_t bitcoin_base58decode(uint8_t *data,char *coinaddr)
{
uint32_t zeroes,be_sz=0; size_t count; const char *p,*p1; mpz_t bn58,bn; int32_t nonz=0;
mpz_init_set_ui(bn58,58);
mpz_init_set_ui(bn,0);
while ( isspace((uint32_t)(*coinaddr & 0xff)) )
coinaddr++;
for (p=coinaddr; *p; p++)
{
p1 = strchr(base58_chars,*p);
if ( p1 == 0 )
{
while (isspace((uint32_t)*p))
p++;
if ( *p != '\0' )
{
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int32_t zeroval();
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printf("bitcoin_base58decode error: p %02x != 0x00\n",*p);
mpz_clear(bn), mpz_clear(bn58);
return(-1);
}
break;
}
mpz_mul(bn,bn,bn58);
mpz_add_ui(bn,bn,(int32_t)(p1 - base58_chars));
//printf("%d ",(int32_t)(p1 - base58_chars));
nonz++;
}
//printf("nonz.%d\n",nonz);
zeroes = 0;
for (p=coinaddr; *p==base58_chars[0]; p++)
data[zeroes++] = 0;
mpz_export(data+zeroes,&count,1,sizeof(data[0]),-1,0,bn);
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/*if ( 0 )
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{
bits256 privkey; char *bits256_str(char *str,bits256 privkey);
privkey = mpz_to_bits256(bn);
char str[65]; printf("bn -> %s\n",bits256_str(str,privkey));
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}*/
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if ( count >= 2 && data[count - 1] == 0 && data[count - 2] >= 0x80 )
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count--;
be_sz = (uint32_t)count + (uint32_t)zeroes;
//memset(data,0,be_sz);
//for (i=0; i<count; i++)
// data[i+zeroes] = revdata[count - 1 - i];
//printf(" count.%d len.%d be_sz.%d zeroes.%d data[0] %02x %02x\n",(int32_t)count,be_sz+zeroes,be_sz,zeroes,data[0],data[1]);
mpz_clear(bn), mpz_clear(bn58);
return(be_sz);
}
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bits256 mpz_muldivcmp(bits256 oldval,int32_t mulval,int32_t divval,bits256 targetval)
{
mpz_t bn,target; bits256 newval;
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//printf("mulval.%d divval.%d]\n",mulval,divval);
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mpz_init(bn), mpz_init(target);
mpz_from_bits256(bn,oldval);
mpz_mul_ui(bn,bn,mulval);
mpz_tdiv_qr_ui(bn,NULL,bn,divval);
if ( bn->_mp_size <= 0 || mpz_cmp(bn,target) > 0 )
newval = targetval;
newval = mpz_to_bits256(bn);
//char *bits256_str(char *,bits256);
//char str[65],str2[65]; printf("%s mul.%d div.%d -> %s size.%d\n",bits256_str(str,oldval),mulval,divval,bits256_str(str2,newval),bn->_mp_size);
mpz_clear(bn), mpz_clear(target);
return(newval);
}
9 years ago
bits256 mpz_div64(bits256 hash,uint64_t divval)
{
mpz_t bn; bits256 newval;
mpz_init(bn);
mpz_from_bits256(bn,hash);
mpz_tdiv_qr_ui(bn,NULL,bn,divval);
newval = mpz_to_bits256(bn);
//char *bits256_str(char *,bits256);
//char str[65],str2[65]; printf("%s div.%lld -> %s size.%d\n",bits256_str(str,hash),(long long)divval,bits256_str(str2,newval),bn->_mp_size);
mpz_clear(bn);
return(newval);
}