circuitpython/py/mpz.c

1395 lines
35 KiB
C

/*
* This file is part of the Micro Python project, http://micropython.org/
*
* The MIT License (MIT)
*
* Copyright (c) 2013, 2014 Damien P. George
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#include <stdint.h>
#include <stdbool.h>
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include "mpconfig.h"
#include "misc.h"
#include "mpz.h"
#if MICROPY_LONGINT_IMPL == MICROPY_LONGINT_IMPL_MPZ
#define DIG_SIZE (MPZ_DIG_SIZE)
#define DIG_MASK ((1 << DIG_SIZE) - 1)
/*
mpz is an arbitrary precision integer type with a public API.
mpn functions act on non-negative integers represented by an array of generalised
digits (eg a word per digit). You also need to specify separately the length of the
array. There is no public API for mpn. Rather, the functions are used by mpz to
implement its features.
Integer values are stored little endian (first digit is first in memory).
Definition of normalise: ?
*/
/* compares i with j
returns sign(i - j)
assumes i, j are normalised
*/
STATIC int mpn_cmp(const mpz_dig_t *idig, uint ilen, const mpz_dig_t *jdig, uint jlen) {
if (ilen < jlen) { return -1; }
if (ilen > jlen) { return 1; }
for (idig += ilen, jdig += ilen; ilen > 0; --ilen) {
int cmp = *(--idig) - *(--jdig);
if (cmp < 0) { return -1; }
if (cmp > 0) { return 1; }
}
return 0;
}
/* computes i = j << n
returns number of digits in i
assumes enough memory in i; assumes normalised j; assumes n > 0
can have i, j pointing to same memory
*/
STATIC uint mpn_shl(mpz_dig_t *idig, mpz_dig_t *jdig, uint jlen, uint n) {
uint n_whole = (n + DIG_SIZE - 1) / DIG_SIZE;
uint n_part = n % DIG_SIZE;
if (n_part == 0) {
n_part = DIG_SIZE;
}
// start from the high end of the digit arrays
idig += jlen + n_whole - 1;
jdig += jlen - 1;
// shift the digits
mpz_dbl_dig_t d = 0;
for (uint i = jlen; i > 0; i--, idig--, jdig--) {
d |= *jdig;
*idig = d >> (DIG_SIZE - n_part);
d <<= DIG_SIZE;
}
// store remaining bits
*idig = d >> (DIG_SIZE - n_part);
idig -= n_whole - 1;
memset(idig, 0, (n_whole - 1) * sizeof(mpz_dig_t));
// work out length of result
jlen += n_whole;
if (idig[jlen - 1] == 0) {
jlen--;
}
// return length of result
return jlen;
}
/* computes i = j >> n
returns number of digits in i
assumes enough memory in i; assumes normalised j; assumes n > 0
can have i, j pointing to same memory
*/
STATIC uint mpn_shr(mpz_dig_t *idig, mpz_dig_t *jdig, uint jlen, uint n) {
uint n_whole = n / DIG_SIZE;
uint n_part = n % DIG_SIZE;
if (n_whole >= jlen) {
return 0;
}
jdig += n_whole;
jlen -= n_whole;
for (uint i = jlen; i > 0; i--, idig++, jdig++) {
mpz_dbl_dig_t d = *jdig;
if (i > 1) {
d |= jdig[1] << DIG_SIZE;
}
d >>= n_part;
*idig = d & DIG_MASK;
}
if (idig[-1] == 0) {
jlen--;
}
return jlen;
}
/* computes i = j + k
returns number of digits in i
assumes enough memory in i; assumes normalised j, k; assumes jlen >= klen
can have i, j, k pointing to same memory
*/
STATIC uint mpn_add(mpz_dig_t *idig, const mpz_dig_t *jdig, uint jlen, const mpz_dig_t *kdig, uint klen) {
mpz_dig_t *oidig = idig;
mpz_dbl_dig_t carry = 0;
jlen -= klen;
for (; klen > 0; --klen, ++idig, ++jdig, ++kdig) {
carry += *jdig + *kdig;
*idig = carry & DIG_MASK;
carry >>= DIG_SIZE;
}
for (; jlen > 0; --jlen, ++idig, ++jdig) {
carry += *jdig;
*idig = carry & DIG_MASK;
carry >>= DIG_SIZE;
}
if (carry != 0) {
*idig++ = carry;
}
return idig - oidig;
}
/* computes i = j - k
returns number of digits in i
assumes enough memory in i; assumes normalised j, k; assumes j >= k
can have i, j, k pointing to same memory
*/
STATIC uint mpn_sub(mpz_dig_t *idig, const mpz_dig_t *jdig, uint jlen, const mpz_dig_t *kdig, uint klen) {
mpz_dig_t *oidig = idig;
mpz_dbl_dig_signed_t borrow = 0;
jlen -= klen;
for (; klen > 0; --klen, ++idig, ++jdig, ++kdig) {
borrow += *jdig - *kdig;
*idig = borrow & DIG_MASK;
borrow >>= DIG_SIZE;
}
for (; jlen > 0; --jlen, ++idig, ++jdig) {
borrow += *jdig;
*idig = borrow & DIG_MASK;
borrow >>= DIG_SIZE;
}
for (--idig; idig >= oidig && *idig == 0; --idig) {
}
return idig + 1 - oidig;
}
/* computes i = j & k
returns number of digits in i
assumes enough memory in i; assumes normalised j, k; assumes jlen >= klen
can have i, j, k pointing to same memory
*/
STATIC uint mpn_and(mpz_dig_t *idig, const mpz_dig_t *jdig, uint jlen, const mpz_dig_t *kdig, uint klen) {
mpz_dig_t *oidig = idig;
for (; klen > 0; --klen, ++idig, ++jdig, ++kdig) {
*idig = *jdig & *kdig;
}
// remove trailing zeros
for (--idig; idig >= oidig && *idig == 0; --idig) {
}
return idig + 1 - oidig;
}
/* computes i = j & -k = j & (~k + 1)
returns number of digits in i
assumes enough memory in i; assumes normalised j, k
can have i, j, k pointing to same memory
*/
STATIC uint mpn_and_neg(mpz_dig_t *idig, const mpz_dig_t *jdig, uint jlen, const mpz_dig_t *kdig, uint klen) {
mpz_dig_t *oidig = idig;
mpz_dbl_dig_t carry = 1;
for (; jlen > 0 && klen > 0; --jlen, --klen, ++idig, ++jdig, ++kdig) {
carry += *kdig ^ DIG_MASK;
*idig = (*jdig & carry) & DIG_MASK;
carry >>= DIG_SIZE;
}
for (; jlen > 0; --jlen, ++idig, ++jdig) {
carry += DIG_MASK;
*idig = (*jdig & carry) & DIG_MASK;
carry >>= DIG_SIZE;
}
if (carry != 0) {
*idig = carry;
} else {
// remove trailing zeros
for (--idig; idig >= oidig && *idig == 0; --idig) {
}
}
return idig + 1 - oidig;
}
/* computes i = j | k
returns number of digits in i
assumes enough memory in i; assumes normalised j, k; assumes jlen >= klen
can have i, j, k pointing to same memory
*/
STATIC uint mpn_or(mpz_dig_t *idig, const mpz_dig_t *jdig, uint jlen, const mpz_dig_t *kdig, uint klen) {
mpz_dig_t *oidig = idig;
jlen -= klen;
for (; klen > 0; --klen, ++idig, ++jdig, ++kdig) {
*idig = *jdig | *kdig;
}
for (; jlen > 0; --jlen, ++idig, ++jdig) {
*idig = *jdig;
}
return idig - oidig;
}
/* computes i = j ^ k
returns number of digits in i
assumes enough memory in i; assumes normalised j, k; assumes jlen >= klen
can have i, j, k pointing to same memory
*/
STATIC uint mpn_xor(mpz_dig_t *idig, const mpz_dig_t *jdig, uint jlen, const mpz_dig_t *kdig, uint klen) {
mpz_dig_t *oidig = idig;
jlen -= klen;
for (; klen > 0; --klen, ++idig, ++jdig, ++kdig) {
*idig = *jdig ^ *kdig;
}
for (; jlen > 0; --jlen, ++idig, ++jdig) {
*idig = *jdig;
}
return idig - oidig;
}
/* computes i = i * d1 + d2
returns number of digits in i
assumes enough memory in i; assumes normalised i; assumes dmul != 0
*/
STATIC uint mpn_mul_dig_add_dig(mpz_dig_t *idig, uint ilen, mpz_dig_t dmul, mpz_dig_t dadd) {
mpz_dig_t *oidig = idig;
mpz_dbl_dig_t carry = dadd;
for (; ilen > 0; --ilen, ++idig) {
carry += *idig * dmul; // will never overflow so long as DIG_SIZE <= WORD_SIZE / 2
*idig = carry & DIG_MASK;
carry >>= DIG_SIZE;
}
if (carry != 0) {
*idig++ = carry;
}
return idig - oidig;
}
/* computes i = j * k
returns number of digits in i
assumes enough memory in i; assumes i is zeroed; assumes normalised j, k
can have j, k point to same memory
*/
STATIC uint mpn_mul(mpz_dig_t *idig, mpz_dig_t *jdig, uint jlen, mpz_dig_t *kdig, uint klen) {
mpz_dig_t *oidig = idig;
uint ilen = 0;
for (; klen > 0; --klen, ++idig, ++kdig) {
mpz_dig_t *id = idig;
mpz_dbl_dig_t carry = 0;
uint jl = jlen;
for (mpz_dig_t *jd = jdig; jl > 0; --jl, ++jd, ++id) {
carry += *id + *jd * *kdig; // will never overflow so long as DIG_SIZE <= WORD_SIZE / 2
*id = carry & DIG_MASK;
carry >>= DIG_SIZE;
}
if (carry != 0) {
*id++ = carry;
}
ilen = id - oidig;
}
return ilen;
}
/* natural_div - quo * den + new_num = old_num (ie num is replaced with rem)
assumes den != 0
assumes num_dig has enough memory to be extended by 1 digit
assumes quo_dig has enough memory (as many digits as num)
assumes quo_dig is filled with zeros
modifies den_dig memory, but restors it to original state at end
*/
STATIC void mpn_div(mpz_dig_t *num_dig, mp_uint_t *num_len, mpz_dig_t *den_dig, mp_uint_t den_len, mpz_dig_t *quo_dig, mp_uint_t *quo_len) {
mpz_dig_t *orig_num_dig = num_dig;
mpz_dig_t *orig_quo_dig = quo_dig;
mpz_dig_t norm_shift = 0;
mpz_dbl_dig_t lead_den_digit;
// handle simple cases
{
int cmp = mpn_cmp(num_dig, *num_len, den_dig, den_len);
if (cmp == 0) {
*num_len = 0;
quo_dig[0] = 1;
*quo_len = 1;
return;
} else if (cmp < 0) {
// numerator remains the same
*quo_len = 0;
return;
}
}
// count number of leading zeros in leading digit of denominator
{
mpz_dig_t d = den_dig[den_len - 1];
while ((d & (1 << (DIG_SIZE - 1))) == 0) {
d <<= 1;
++norm_shift;
}
}
// normalise denomenator (leading bit of leading digit is 1)
for (mpz_dig_t *den = den_dig, carry = 0; den < den_dig + den_len; ++den) {
mpz_dig_t d = *den;
*den = ((d << norm_shift) | carry) & DIG_MASK;
carry = d >> (DIG_SIZE - norm_shift);
}
// now need to shift numerator by same amount as denominator
// first, increase length of numerator in case we need more room to shift
num_dig[*num_len] = 0;
++(*num_len);
for (mpz_dig_t *num = num_dig, carry = 0; num < num_dig + *num_len; ++num) {
mpz_dig_t n = *num;
*num = ((n << norm_shift) | carry) & DIG_MASK;
carry = n >> (DIG_SIZE - norm_shift);
}
// cache the leading digit of the denominator
lead_den_digit = den_dig[den_len - 1];
// point num_dig to last digit in numerator
num_dig += *num_len - 1;
// calculate number of digits in quotient
*quo_len = *num_len - den_len;
// point to last digit to store for quotient
quo_dig += *quo_len - 1;
// keep going while we have enough digits to divide
while (*num_len > den_len) {
mpz_dbl_dig_t quo = (*num_dig << DIG_SIZE) | num_dig[-1];
// get approximate quotient
quo /= lead_den_digit;
// multiply quo by den and subtract from num get remainder
{
mpz_dbl_dig_signed_t borrow = 0;
for (mpz_dig_t *n = num_dig - den_len, *d = den_dig; n < num_dig; ++n, ++d) {
borrow += *n - quo * *d; // will overflow if DIG_SIZE >= 16
*n = borrow & DIG_MASK;
borrow >>= DIG_SIZE;
}
borrow += *num_dig; // will overflow if DIG_SIZE >= 16
*num_dig = borrow & DIG_MASK;
borrow >>= DIG_SIZE;
// adjust quotient if it is too big
for (; borrow != 0; --quo) {
mpz_dbl_dig_t carry = 0;
for (mpz_dig_t *n = num_dig - den_len, *d = den_dig; n < num_dig; ++n, ++d) {
carry += *n + *d;
*n = carry & DIG_MASK;
carry >>= DIG_SIZE;
}
carry += *num_dig;
*num_dig = carry & DIG_MASK;
carry >>= DIG_SIZE;
borrow += carry;
}
}
// store this digit of the quotient
*quo_dig = quo & DIG_MASK;
--quo_dig;
// move down to next digit of numerator
--num_dig;
--(*num_len);
}
// unnormalise denomenator
for (mpz_dig_t *den = den_dig + den_len - 1, carry = 0; den >= den_dig; --den) {
mpz_dig_t d = *den;
*den = ((d >> norm_shift) | carry) & DIG_MASK;
carry = d << (DIG_SIZE - norm_shift);
}
// unnormalise numerator (remainder now)
for (mpz_dig_t *num = orig_num_dig + *num_len - 1, carry = 0; num >= orig_num_dig; --num) {
mpz_dig_t n = *num;
*num = ((n >> norm_shift) | carry) & DIG_MASK;
carry = n << (DIG_SIZE - norm_shift);
}
// strip trailing zeros
while (*quo_len > 0 && orig_quo_dig[*quo_len - 1] == 0) {
--(*quo_len);
}
while (*num_len > 0 && orig_num_dig[*num_len - 1] == 0) {
--(*num_len);
}
}
#define MIN_ALLOC (2)
static const uint log_base2_floor[] = {
0,
0, 1, 1, 2,
2, 2, 2, 3,
3, 3, 3, 3,
3, 3, 3, 4,
4, 4, 4, 4,
4, 4, 4, 4,
4, 4, 4, 4,
4, 4, 4, 5
};
void mpz_init_zero(mpz_t *z) {
z->neg = 0;
z->fixed_dig = 0;
z->alloc = 0;
z->len = 0;
z->dig = NULL;
}
void mpz_init_from_int(mpz_t *z, mp_int_t val) {
mpz_init_zero(z);
mpz_set_from_int(z, val);
}
void mpz_init_fixed_from_int(mpz_t *z, mpz_dig_t *dig, uint alloc, mp_int_t val) {
z->neg = 0;
z->fixed_dig = 1;
z->alloc = alloc;
z->len = 0;
z->dig = dig;
mpz_set_from_int(z, val);
}
void mpz_deinit(mpz_t *z) {
if (z != NULL && !z->fixed_dig) {
m_del(mpz_dig_t, z->dig, z->alloc);
}
}
mpz_t *mpz_zero(void) {
mpz_t *z = m_new_obj(mpz_t);
mpz_init_zero(z);
return z;
}
mpz_t *mpz_from_int(mp_int_t val) {
mpz_t *z = mpz_zero();
mpz_set_from_int(z, val);
return z;
}
mpz_t *mpz_from_ll(long long val) {
mpz_t *z = mpz_zero();
mpz_set_from_ll(z, val);
return z;
}
mpz_t *mpz_from_str(const char *str, uint len, bool neg, uint base) {
mpz_t *z = mpz_zero();
mpz_set_from_str(z, str, len, neg, base);
return z;
}
void mpz_free(mpz_t *z) {
if (z != NULL) {
m_del(mpz_dig_t, z->dig, z->alloc);
m_del_obj(mpz_t, z);
}
}
STATIC void mpz_need_dig(mpz_t *z, uint need) {
if (need < MIN_ALLOC) {
need = MIN_ALLOC;
}
if (z->dig == NULL || z->alloc < need) {
if (z->fixed_dig) {
// cannot reallocate fixed buffers
assert(0);
return;
}
z->dig = m_renew(mpz_dig_t, z->dig, z->alloc, need);
z->alloc = need;
}
}
mpz_t *mpz_clone(const mpz_t *src) {
mpz_t *z = m_new_obj(mpz_t);
z->neg = src->neg;
z->fixed_dig = 0;
z->alloc = src->alloc;
z->len = src->len;
if (src->dig == NULL) {
z->dig = NULL;
} else {
z->dig = m_new(mpz_dig_t, z->alloc);
memcpy(z->dig, src->dig, src->alloc * sizeof(mpz_dig_t));
}
return z;
}
/* sets dest = src
can have dest, src the same
*/
void mpz_set(mpz_t *dest, const mpz_t *src) {
mpz_need_dig(dest, src->len);
dest->neg = src->neg;
dest->len = src->len;
memcpy(dest->dig, src->dig, src->len * sizeof(mpz_dig_t));
}
void mpz_set_from_int(mpz_t *z, mp_int_t val) {
mpz_need_dig(z, MPZ_NUM_DIG_FOR_INT);
mp_uint_t uval;
if (val < 0) {
z->neg = 1;
uval = -val;
} else {
z->neg = 0;
uval = val;
}
z->len = 0;
while (uval > 0) {
z->dig[z->len++] = uval & DIG_MASK;
uval >>= DIG_SIZE;
}
}
void mpz_set_from_ll(mpz_t *z, long long val) {
mpz_need_dig(z, MPZ_NUM_DIG_FOR_LL);
unsigned long long uval;
if (val < 0) {
z->neg = 1;
uval = -val;
} else {
z->neg = 0;
uval = val;
}
z->len = 0;
while (uval > 0) {
z->dig[z->len++] = uval & DIG_MASK;
uval >>= DIG_SIZE;
}
}
// returns number of bytes from str that were processed
uint mpz_set_from_str(mpz_t *z, const char *str, uint len, bool neg, uint base) {
assert(base < 36);
const char *cur = str;
const char *top = str + len;
mpz_need_dig(z, len * 8 / DIG_SIZE + 1);
if (neg) {
z->neg = 1;
} else {
z->neg = 0;
}
z->len = 0;
for (; cur < top; ++cur) { // XXX UTF8 next char
//uint v = char_to_numeric(cur#); // XXX UTF8 get char
uint v = *cur;
if ('0' <= v && v <= '9') {
v -= '0';
} else if ('A' <= v && v <= 'Z') {
v -= 'A' - 10;
} else if ('a' <= v && v <= 'z') {
v -= 'a' - 10;
} else {
break;
}
if (v >= base) {
break;
}
z->len = mpn_mul_dig_add_dig(z->dig, z->len, base, v);
}
return cur - str;
}
bool mpz_is_zero(const mpz_t *z) {
return z->len == 0;
}
bool mpz_is_pos(const mpz_t *z) {
return z->len > 0 && z->neg == 0;
}
bool mpz_is_neg(const mpz_t *z) {
return z->len > 0 && z->neg != 0;
}
bool mpz_is_odd(const mpz_t *z) {
return z->len > 0 && (z->dig[0] & 1) != 0;
}
bool mpz_is_even(const mpz_t *z) {
return z->len == 0 || (z->dig[0] & 1) == 0;
}
int mpz_cmp(const mpz_t *z1, const mpz_t *z2) {
int cmp = z2->neg - z1->neg;
if (cmp != 0) {
return cmp;
}
cmp = mpn_cmp(z1->dig, z1->len, z2->dig, z2->len);
if (z1->neg != 0) {
cmp = -cmp;
}
return cmp;
}
#if 0
// obsolete
// compares mpz with an integer that fits within DIG_SIZE bits
int mpz_cmp_sml_int(const mpz_t *z, mp_int_t sml_int) {
int cmp;
if (z->neg == 0) {
if (sml_int < 0) return 1;
if (sml_int == 0) {
if (z->len == 0) return 0;
return 1;
}
if (z->len == 0) return -1;
assert(sml_int < (1 << DIG_SIZE));
if (z->len != 1) return 1;
cmp = z->dig[0] - sml_int;
} else {
if (sml_int > 0) return -1;
if (sml_int == 0) {
if (z->len == 0) return 0;
return -1;
}
if (z->len == 0) return 1;
assert(sml_int > -(1 << DIG_SIZE));
if (z->len != 1) return -1;
cmp = -z->dig[0] - sml_int;
}
if (cmp < 0) return -1;
if (cmp > 0) return 1;
return 0;
}
#endif
#if 0
these functions are unused
/* returns abs(z)
*/
mpz_t *mpz_abs(const mpz_t *z) {
mpz_t *z2 = mpz_clone(z);
z2->neg = 0;
return z2;
}
/* returns -z
*/
mpz_t *mpz_neg(const mpz_t *z) {
mpz_t *z2 = mpz_clone(z);
z2->neg = 1 - z2->neg;
return z2;
}
/* returns lhs + rhs
can have lhs, rhs the same
*/
mpz_t *mpz_add(const mpz_t *lhs, const mpz_t *rhs) {
mpz_t *z = mpz_zero();
mpz_add_inpl(z, lhs, rhs);
return z;
}
/* returns lhs - rhs
can have lhs, rhs the same
*/
mpz_t *mpz_sub(const mpz_t *lhs, const mpz_t *rhs) {
mpz_t *z = mpz_zero();
mpz_sub_inpl(z, lhs, rhs);
return z;
}
/* returns lhs * rhs
can have lhs, rhs the same
*/
mpz_t *mpz_mul(const mpz_t *lhs, const mpz_t *rhs) {
mpz_t *z = mpz_zero();
mpz_mul_inpl(z, lhs, rhs);
return z;
}
/* returns lhs ** rhs
can have lhs, rhs the same
*/
mpz_t *mpz_pow(const mpz_t *lhs, const mpz_t *rhs) {
mpz_t *z = mpz_zero();
mpz_pow_inpl(z, lhs, rhs);
return z;
}
#endif
/* computes dest = abs(z)
can have dest, z the same
*/
void mpz_abs_inpl(mpz_t *dest, const mpz_t *z) {
if (dest != z) {
mpz_set(dest, z);
}
dest->neg = 0;
}
/* computes dest = -z
can have dest, z the same
*/
void mpz_neg_inpl(mpz_t *dest, const mpz_t *z) {
if (dest != z) {
mpz_set(dest, z);
}
dest->neg = 1 - dest->neg;
}
/* computes dest = ~z (= -z - 1)
can have dest, z the same
*/
void mpz_not_inpl(mpz_t *dest, const mpz_t *z) {
if (dest != z) {
mpz_set(dest, z);
}
if (dest->neg) {
dest->neg = 0;
mpz_dig_t k = 1;
dest->len = mpn_sub(dest->dig, dest->dig, dest->len, &k, 1);
} else {
mpz_dig_t k = 1;
dest->len = mpn_add(dest->dig, dest->dig, dest->len, &k, 1);
dest->neg = 1;
}
}
/* computes dest = lhs << rhs
can have dest, lhs the same
*/
void mpz_shl_inpl(mpz_t *dest, const mpz_t *lhs, mp_int_t rhs) {
if (lhs->len == 0 || rhs == 0) {
mpz_set(dest, lhs);
} else if (rhs < 0) {
mpz_shr_inpl(dest, lhs, -rhs);
} else {
mpz_need_dig(dest, lhs->len + (rhs + DIG_SIZE - 1) / DIG_SIZE);
dest->len = mpn_shl(dest->dig, lhs->dig, lhs->len, rhs);
dest->neg = lhs->neg;
}
}
/* computes dest = lhs >> rhs
can have dest, lhs the same
*/
void mpz_shr_inpl(mpz_t *dest, const mpz_t *lhs, mp_int_t rhs) {
if (lhs->len == 0 || rhs == 0) {
mpz_set(dest, lhs);
} else if (rhs < 0) {
mpz_shl_inpl(dest, lhs, -rhs);
} else {
mpz_need_dig(dest, lhs->len);
dest->len = mpn_shr(dest->dig, lhs->dig, lhs->len, rhs);
dest->neg = lhs->neg;
if (dest->neg) {
// arithmetic shift right, rounding to negative infinity
uint n_whole = rhs / DIG_SIZE;
uint n_part = rhs % DIG_SIZE;
mpz_dig_t round_up = 0;
for (uint i = 0; i < lhs->len && i < n_whole; i++) {
if (lhs->dig[i] != 0) {
round_up = 1;
break;
}
}
if (n_whole < lhs->len && (lhs->dig[n_whole] & ((1 << n_part) - 1)) != 0) {
round_up = 1;
}
if (round_up) {
dest->len = mpn_add(dest->dig, dest->dig, dest->len, &round_up, 1);
}
}
}
}
/* computes dest = lhs + rhs
can have dest, lhs, rhs the same
*/
void mpz_add_inpl(mpz_t *dest, const mpz_t *lhs, const mpz_t *rhs) {
if (mpn_cmp(lhs->dig, lhs->len, rhs->dig, rhs->len) < 0) {
const mpz_t *temp = lhs;
lhs = rhs;
rhs = temp;
}
if (lhs->neg == rhs->neg) {
mpz_need_dig(dest, lhs->len + 1);
dest->len = mpn_add(dest->dig, lhs->dig, lhs->len, rhs->dig, rhs->len);
} else {
mpz_need_dig(dest, lhs->len);
dest->len = mpn_sub(dest->dig, lhs->dig, lhs->len, rhs->dig, rhs->len);
}
dest->neg = lhs->neg;
}
/* computes dest = lhs - rhs
can have dest, lhs, rhs the same
*/
void mpz_sub_inpl(mpz_t *dest, const mpz_t *lhs, const mpz_t *rhs) {
bool neg = false;
if (mpn_cmp(lhs->dig, lhs->len, rhs->dig, rhs->len) < 0) {
const mpz_t *temp = lhs;
lhs = rhs;
rhs = temp;
neg = true;
}
if (lhs->neg != rhs->neg) {
mpz_need_dig(dest, lhs->len + 1);
dest->len = mpn_add(dest->dig, lhs->dig, lhs->len, rhs->dig, rhs->len);
} else {
mpz_need_dig(dest, lhs->len);
dest->len = mpn_sub(dest->dig, lhs->dig, lhs->len, rhs->dig, rhs->len);
}
if (neg) {
dest->neg = 1 - lhs->neg;
} else {
dest->neg = lhs->neg;
}
}
/* computes dest = lhs & rhs
can have dest, lhs, rhs the same
*/
void mpz_and_inpl(mpz_t *dest, const mpz_t *lhs, const mpz_t *rhs) {
if (lhs->neg == rhs->neg) {
if (lhs->neg == 0) {
// make sure lhs has the most digits
if (lhs->len < rhs->len) {
const mpz_t *temp = lhs;
lhs = rhs;
rhs = temp;
}
// do the and'ing
mpz_need_dig(dest, rhs->len);
dest->len = mpn_and(dest->dig, lhs->dig, lhs->len, rhs->dig, rhs->len);
dest->neg = 0;
} else {
// TODO both args are negative
assert(0);
}
} else {
// args have different sign
// make sure lhs is the positive arg
if (rhs->neg == 0) {
const mpz_t *temp = lhs;
lhs = rhs;
rhs = temp;
}
mpz_need_dig(dest, lhs->len + 1);
dest->len = mpn_and_neg(dest->dig, lhs->dig, lhs->len, rhs->dig, rhs->len);
assert(dest->len <= dest->alloc);
dest->neg = 0;
}
}
/* computes dest = lhs | rhs
can have dest, lhs, rhs the same
*/
void mpz_or_inpl(mpz_t *dest, const mpz_t *lhs, const mpz_t *rhs) {
if (mpn_cmp(lhs->dig, lhs->len, rhs->dig, rhs->len) < 0) {
const mpz_t *temp = lhs;
lhs = rhs;
rhs = temp;
}
if (lhs->neg == rhs->neg) {
mpz_need_dig(dest, lhs->len);
dest->len = mpn_or(dest->dig, lhs->dig, lhs->len, rhs->dig, rhs->len);
} else {
mpz_need_dig(dest, lhs->len);
// TODO
assert(0);
// dest->len = mpn_or_neg(dest->dig, lhs->dig, lhs->len, rhs->dig, rhs->len);
}
dest->neg = lhs->neg;
}
/* computes dest = lhs ^ rhs
can have dest, lhs, rhs the same
*/
void mpz_xor_inpl(mpz_t *dest, const mpz_t *lhs, const mpz_t *rhs) {
if (mpn_cmp(lhs->dig, lhs->len, rhs->dig, rhs->len) < 0) {
const mpz_t *temp = lhs;
lhs = rhs;
rhs = temp;
}
if (lhs->neg == rhs->neg) {
mpz_need_dig(dest, lhs->len);
dest->len = mpn_xor(dest->dig, lhs->dig, lhs->len, rhs->dig, rhs->len);
} else {
mpz_need_dig(dest, lhs->len);
// TODO
assert(0);
// dest->len = mpn_xor_neg(dest->dig, lhs->dig, lhs->len, rhs->dig, rhs->len);
}
dest->neg = 0;
}
/* computes dest = lhs * rhs
can have dest, lhs, rhs the same
*/
void mpz_mul_inpl(mpz_t *dest, const mpz_t *lhs, const mpz_t *rhs)
{
if (lhs->len == 0 || rhs->len == 0) {
mpz_set_from_int(dest, 0);
return;
}
mpz_t *temp = NULL;
if (lhs == dest) {
lhs = temp = mpz_clone(lhs);
if (rhs == dest) {
rhs = lhs;
}
} else if (rhs == dest) {
rhs = temp = mpz_clone(rhs);
}
mpz_need_dig(dest, lhs->len + rhs->len); // min mem l+r-1, max mem l+r
memset(dest->dig, 0, dest->alloc * sizeof(mpz_dig_t));
dest->len = mpn_mul(dest->dig, lhs->dig, lhs->len, rhs->dig, rhs->len);
if (lhs->neg == rhs->neg) {
dest->neg = 0;
} else {
dest->neg = 1;
}
mpz_free(temp);
}
/* computes dest = lhs ** rhs
can have dest, lhs, rhs the same
*/
void mpz_pow_inpl(mpz_t *dest, const mpz_t *lhs, const mpz_t *rhs) {
if (lhs->len == 0 || rhs->neg != 0) {
mpz_set_from_int(dest, 0);
return;
}
if (rhs->len == 0) {
mpz_set_from_int(dest, 1);
return;
}
mpz_t *x = mpz_clone(lhs);
mpz_t *n = mpz_clone(rhs);
mpz_set_from_int(dest, 1);
while (n->len > 0) {
if (mpz_is_odd(n)) {
mpz_mul_inpl(dest, dest, x);
}
n->len = mpn_shr(n->dig, n->dig, n->len, 1);
if (n->len == 0) {
break;
}
mpz_mul_inpl(x, x, x);
}
mpz_free(x);
mpz_free(n);
}
/* computes gcd(z1, z2)
based on Knuth's modified gcd algorithm (I think?)
gcd(z1, z2) >= 0
gcd(0, 0) = 0
gcd(z, 0) = abs(z)
*/
mpz_t *mpz_gcd(const mpz_t *z1, const mpz_t *z2) {
if (z1->len == 0) {
mpz_t *a = mpz_clone(z2);
a->neg = 0;
return a;
} else if (z2->len == 0) {
mpz_t *a = mpz_clone(z1);
a->neg = 0;
return a;
}
mpz_t *a = mpz_clone(z1);
mpz_t *b = mpz_clone(z2);
mpz_t c; mpz_init_zero(&c);
a->neg = 0;
b->neg = 0;
for (;;) {
if (mpz_cmp(a, b) < 0) {
if (a->len == 0) {
mpz_free(a);
mpz_deinit(&c);
return b;
}
mpz_t *t = a; a = b; b = t;
}
if (!(b->len >= 2 || (b->len == 1 && b->dig[0] > 1))) { // compute b > 0; could be mpz_cmp_small_int(b, 1) > 0
break;
}
mpz_set(&c, b);
do {
mpz_add_inpl(&c, &c, &c);
} while (mpz_cmp(&c, a) <= 0);
c.len = mpn_shr(c.dig, c.dig, c.len, 1);
mpz_sub_inpl(a, a, &c);
}
mpz_deinit(&c);
if (b->len == 1 && b->dig[0] == 1) { // compute b == 1; could be mpz_cmp_small_int(b, 1) == 0
mpz_free(a);
return b;
} else {
mpz_free(b);
return a;
}
}
/* computes lcm(z1, z2)
= abs(z1) / gcd(z1, z2) * abs(z2)
lcm(z1, z1) >= 0
lcm(0, 0) = 0
lcm(z, 0) = 0
*/
mpz_t *mpz_lcm(const mpz_t *z1, const mpz_t *z2)
{
// braces below are required for compilation to succeed with CL, see bug report
// https://connect.microsoft.com/VisualStudio/feedback/details/864169/compilation-error-when-braces-are-left-out-of-single-line-if-statement
if (z1->len == 0 || z2->len == 0) {
return mpz_zero();
}
mpz_t *gcd = mpz_gcd(z1, z2);
mpz_t *quo = mpz_zero();
mpz_t *rem = mpz_zero();
mpz_divmod_inpl(quo, rem, z1, gcd);
mpz_mul_inpl(rem, quo, z2);
mpz_free(gcd);
mpz_free(quo);
rem->neg = 0;
return rem;
}
/* computes new integers in quo and rem such that:
quo * rhs + rem = lhs
0 <= rem < rhs
can have lhs, rhs the same
*/
void mpz_divmod(const mpz_t *lhs, const mpz_t *rhs, mpz_t **quo, mpz_t **rem) {
*quo = mpz_zero();
*rem = mpz_zero();
mpz_divmod_inpl(*quo, *rem, lhs, rhs);
}
/* computes new integers in quo and rem such that:
quo * rhs + rem = lhs
0 <= rem < rhs
can have lhs, rhs the same
*/
void mpz_divmod_inpl(mpz_t *dest_quo, mpz_t *dest_rem, const mpz_t *lhs, const mpz_t *rhs) {
if (rhs->len == 0) {
mpz_set_from_int(dest_quo, 0);
mpz_set_from_int(dest_rem, 0);
return;
}
mpz_need_dig(dest_quo, lhs->len + 1); // +1 necessary?
memset(dest_quo->dig, 0, (lhs->len + 1) * sizeof(mpz_dig_t));
dest_quo->len = 0;
mpz_need_dig(dest_rem, lhs->len + 1); // +1 necessary?
mpz_set(dest_rem, lhs);
//rhs->dig[rhs->len] = 0;
mpn_div(dest_rem->dig, &dest_rem->len, rhs->dig, rhs->len, dest_quo->dig, &dest_quo->len);
if (lhs->neg != rhs->neg) {
dest_quo->neg = 1;
}
}
#if 0
these functions are unused
/* computes floor(lhs / rhs)
can have lhs, rhs the same
*/
mpz_t *mpz_div(const mpz_t *lhs, const mpz_t *rhs) {
mpz_t *quo = mpz_zero();
mpz_t rem; mpz_init_zero(&rem);
mpz_divmod_inpl(quo, &rem, lhs, rhs);
mpz_deinit(&rem);
return quo;
}
/* computes lhs % rhs ( >= 0)
can have lhs, rhs the same
*/
mpz_t *mpz_mod(const mpz_t *lhs, const mpz_t *rhs) {
mpz_t quo; mpz_init_zero(&quo);
mpz_t *rem = mpz_zero();
mpz_divmod_inpl(&quo, rem, lhs, rhs);
mpz_deinit(&quo);
return rem;
}
#endif
// TODO check that this correctly handles overflow in all cases
mp_int_t mpz_as_int(const mpz_t *i) {
mp_int_t val = 0;
mpz_dig_t *d = i->dig + i->len;
while (--d >= i->dig) {
mp_int_t oldval = val;
val = (val << DIG_SIZE) | *d;
if (val < oldval) {
// overflow, return +/- "infinity"
if (i->neg == 0) {
// +infinity
return ~WORD_MSBIT_HIGH;
} else {
// -infinity
return WORD_MSBIT_HIGH;
}
}
}
if (i->neg != 0) {
val = -val;
}
return val;
}
// TODO check that this correctly handles overflow in all cases
bool mpz_as_int_checked(const mpz_t *i, mp_int_t *value) {
mp_int_t val = 0;
mpz_dig_t *d = i->dig + i->len;
while (--d >= i->dig) {
mp_int_t oldval = val;
val = (val << DIG_SIZE) | *d;
if (val < oldval) {
// overflow
return false;
}
}
if (i->neg != 0) {
val = -val;
}
*value = val;
return true;
}
#if MICROPY_PY_BUILTINS_FLOAT
mp_float_t mpz_as_float(const mpz_t *i) {
mp_float_t val = 0;
mpz_dig_t *d = i->dig + i->len;
while (--d >= i->dig) {
val = val * (1 << DIG_SIZE) + *d;
}
if (i->neg != 0) {
val = -val;
}
return val;
}
#endif
uint mpz_as_str_size(const mpz_t *i, uint base) {
if (base < 2 || base > 32) {
return 0;
}
return i->len * DIG_SIZE / log_base2_floor[base] + 2 + 1; // +1 for null byte termination
}
uint mpz_as_str_size_formatted(const mpz_t *i, uint base, const char *prefix, char comma) {
if (base < 2 || base > 32) {
return 0;
}
uint num_digits = i->len * DIG_SIZE / log_base2_floor[base] + 1;
uint num_commas = comma ? num_digits / 3: 0;
uint prefix_len = prefix ? strlen(prefix) : 0;
return num_digits + num_commas + prefix_len + 2; // +1 for sign, +1 for null byte
}
char *mpz_as_str(const mpz_t *i, uint base) {
char *s = m_new(char, mpz_as_str_size(i, base));
mpz_as_str_inpl(i, base, "", 'a', 0, s);
return s;
}
// assumes enough space as calculated by mpz_as_str_size
// returns length of string, not including null byte
uint mpz_as_str_inpl(const mpz_t *i, uint base, const char *prefix, char base_char, char comma, char *str) {
if (str == NULL || base < 2 || base > 32) {
str[0] = 0;
return 0;
}
uint ilen = i->len;
char *s = str;
if (ilen == 0) {
if (prefix) {
while (*prefix)
*s++ = *prefix++;
}
*s++ = '0';
*s = '\0';
return s - str;
}
// make a copy of mpz digits, so we can do the div/mod calculation
mpz_dig_t *dig = m_new(mpz_dig_t, ilen);
memcpy(dig, i->dig, ilen * sizeof(mpz_dig_t));
// convert
char *last_comma = str;
bool done;
do {
mpz_dig_t *d = dig + ilen;
mpz_dbl_dig_t a = 0;
// compute next remainder
while (--d >= dig) {
a = (a << DIG_SIZE) | *d;
*d = a / base;
a %= base;
}
// convert to character
a += '0';
if (a > '9') {
a += base_char - '9' - 1;
}
*s++ = a;
// check if number is zero
done = true;
for (d = dig; d < dig + ilen; ++d) {
if (*d != 0) {
done = false;
break;
}
}
if (comma && (s - last_comma) == 3) {
*s++ = comma;
last_comma = s;
}
}
while (!done);
// free the copy of the digits array
m_del(mpz_dig_t, dig, ilen);
if (prefix) {
const char *p = &prefix[strlen(prefix)];
while (p > prefix) {
*s++ = *--p;
}
}
if (i->neg != 0) {
*s++ = '-';
}
// reverse string
for (char *u = str, *v = s - 1; u < v; ++u, --v) {
char temp = *u;
*u = *v;
*v = temp;
}
*s = '\0'; // null termination
return s - str;
}
#endif // MICROPY_LONGINT_IMPL == MICROPY_LONGINT_IMPL_MPZ