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/* See LICENSE file for copyright and license details. */
#include "../zahl.h"
#include <string.h>
#include <stdlib.h>
#include <errno.h>
/* clang pretends to be GCC... */
#if defined(__GNUC__) && defined(__clang__)
# undef __GNUC__
#endif
#define BITS_PER_CHAR ZAHL_BITS_PER_CHAR
#define LB_BITS_PER_CHAR ZAHL_LB_BITS_PER_CHAR
#define FLOOR_BITS_TO_CHARS(bits) ZAHL_FLOOR_BITS_TO_CHARS(bits)
#define CEILING_BITS_TO_CHARS(bits) ZAHL_CEILING_BITS_TO_CHARS(bits)
#define BITS_IN_LAST_CHAR(bits) ZAHL_BITS_IN_LAST_CHAR(bits)
#if defined(__GNUC__)
# define O0 __attribute__((optimize("O0")))
# define O1 __attribute__((optimize("O1")))
# define O2 __attribute__((optimize("O2")))
# define O3 __attribute__((optimize("O3")))
# define Ofast __attribute__((optimize("Ofast")))
# define Os __attribute__((optimize("Os")))
# define Oz __attribute__((optimize("Os")))
#elif defined(__clang__)
# define O0 __attribute__((optnone))
# define O1 /* Don't know how. */
# define O2 /* Don't know how. */
# define O3 /* Don't know how. */
# define Ofast /* Don't know how. */
# define Os /* Don't know how. */
# define Oz /* Don't know how. */
#else
# define O0 /* Don't know how. */
# define O1 /* Don't know how. */
# define O2 /* Don't know how. */
# define O3 /* Don't know how. */
# define Ofast /* Don't know how. */
# define Os /* Don't know how. */
# define Oz /* Don't know how. */
#endif
#define LIST_TEMPS\
X(libzahl_tmp_cmp, 1)\
X(libzahl_tmp_str_num, 0)\
X(libzahl_tmp_str_mag, 0)\
X(libzahl_tmp_str_div, 0)\
X(libzahl_tmp_str_rem, 0)\
X(libzahl_tmp_gcd_u, 0)\
X(libzahl_tmp_gcd_v, 0)\
X(libzahl_tmp_sub, 0)\
X(libzahl_tmp_modmul, 0)\
X(libzahl_tmp_div, 0)\
X(libzahl_tmp_mod, 0)\
X(libzahl_tmp_pow_b, 0)\
X(libzahl_tmp_pow_c, 0)\
X(libzahl_tmp_pow_d, 0)\
X(libzahl_tmp_modsqr, 0)\
X(libzahl_tmp_divmod_a, 0)\
X(libzahl_tmp_divmod_b, 0)\
X(libzahl_tmp_divmod_d, 0)\
X(libzahl_tmp_ptest_x, 0)\
X(libzahl_tmp_ptest_a, 0)\
X(libzahl_tmp_ptest_d, 0)\
X(libzahl_tmp_ptest_n1, 0)\
X(libzahl_tmp_ptest_n4, 0)
#define LIST_CONSTS\
X(libzahl_const_1e19, zsetu, 10000000000000000000ULL) /* The largest power of 10 < 2⁶⁴. */\
X(libzahl_const_1, zsetu, 1)\
X(libzahl_const_2, zsetu, 2)\
X(libzahl_const_4, zsetu, 4)
#define X(x, s) extern z_t x;
LIST_TEMPS
#undef X
#define X(x, f, v) extern z_t x;
LIST_CONSTS
#undef X
extern z_t libzahl_tmp_divmod_ds[BITS_PER_CHAR];
extern jmp_buf libzahl_jmp_buf;
extern int libzahl_set_up;
extern int libzahl_error;
extern zahl_char_t **libzahl_pool[sizeof(size_t) * 8];
extern size_t libzahl_pool_n[sizeof(size_t) * 8];
extern size_t libzahl_pool_alloc[sizeof(size_t) * 8];
#define likely(expr) ZAHL_LIKELY(expr)
#define unlikely(expr) ZAHL_UNLIKELY(expr)
#define libzahl_failure(error) (libzahl_error = (error), longjmp(libzahl_jmp_buf, 1))
#define SET_SIGNUM(a, signum) ZAHL_SET_SIGNUM(a, signum)
#define SET(a, b) ZAHL_SET(a, b)
#define ENSURE_SIZE(a, n) do { if ((a)->alloced < (n)) libzahl_realloc(a, (n)); } while (0)
#define TRIM(a) ZAHL_TRIM(a)
#define TRIM_NONZERO(a) ZAHL_TRIM_NONZERO(a)
#define TRIM_AND_ZERO(a) ZAHL_TRIM_AND_ZERO(a)
#define TRIM_AND_SIGN(a, s) ZAHL_TRIM_AND_SIGN(a, s)
#define MIN(a, b) ((a) < (b) ? (a) : (b))
#define MAX(a, b) ((a) > (b) ? (a) : (b))
#define znegative(a) (zsignum(a) < 0)
#define znegative1(a, b) ((zsignum(a) | zsignum(b)) < 0)
#define znegative2(a, b) ((zsignum(a) & zsignum(b)) < 0)
#define zpositive(a) (zsignum(a) > 0)
#define zpositive1(a, b) (zpositive(a) + zpositive(b) > 0)
#define zpositive2(a, b) (zsignum(a) + zsignum(b) == 2)
#define zzero1(a, b) (zzero(a) || zzero(b))
#define zzero2(a, b) (!(zsignum(a) | zsignum(b)))
#define zmemmove(d, s, n) memmove((d), (s), (n) * sizeof(zahl_char_t))
void libzahl_realloc(z_t a, size_t need);
static inline void
zmemcpy(zahl_char_t *restrict d, const zahl_char_t *restrict s, register size_t n)
{
while (n--)
d[n] = s[n];
}
static inline void
zmemset(zahl_char_t *a, register zahl_char_t v, register size_t n)
{
while (n--)
a[n] = v;
}
/*
* libzahl_msb_nz_zu
* ^^^ ^^ ^^
* | | |
* | | \- size_t parameter
* | \- non-zero input
* \- most significant bit
*/
#if SIZE_MAX == ULONG_MAX
# define libzahl_msb_nz_zu(x) libzahl_msb_nz_lu(x)
#else
# define libzahl_msb_nz_zu(x) libzahl_msb_nz_llu(x)
#endif
#if defined(__GNUC__) || defined(__clang__)
# define libzahl_msb_nz_lu(x) (8 * sizeof(unsigned long int) - 1 - (size_t)__builtin_clzl(x))
# define libzahl_msb_nz_llu(x) (8 * sizeof(unsigned long long int) - 1 - (size_t)__builtin_clzll(x))
#else
static inline size_t
libzahl_msb_nz_lu(unsigned long int x)
{
size_t r = 0;
for (; x; x >>= 1, r++);
return r - 1;
}
static inline size_t
libzahl_msb_nz_llu(unsigned long long int x)
{
size_t r = 0;
for (; x; x >>= 1, r++);
return r - 1;
}
#endif
#if defined(__GNUC__) || defined(__clang__)
# if INT64_MAX == LONG_MAX
# define libzahl_add_overflow(rp, a, b) __builtin_uaddl_overflow(a, b, rp)
# else
# define libzahl_add_overflow(rp, a, b) __builtin_uaddll_overflow(a, b, rp)
# endif
#else
static inline int
libzahl_add_overflow(zahl_char_t *rp, zahl_char_t a, zahl_char_t b)
{
int carry = ZAHL_CHAR_MAX - a < b;
*rp = a + b;
return carry;
}
#endif
static inline void
zrsh_taint(z_t a, size_t bits)
{
size_t i, chars, cbits;
if (unlikely(!bits))
return;
if (unlikely(zzero(a)))
return;
chars = FLOOR_BITS_TO_CHARS(bits);
if (unlikely(chars >= a->used || zbits(a) <= bits)) {
SET_SIGNUM(a, 0);
return;
}
bits = BITS_IN_LAST_CHAR(bits);
cbits = BITS_PER_CHAR - bits;
if (likely(chars)) {
a->used -= chars;
a->chars += chars;
}
if (unlikely(bits)) { /* This if statement is very important in C. */
a->chars[0] >>= bits;
for (i = 1; i < a->used; i++) {
a->chars[i - 1] |= a->chars[i] << cbits;
a->chars[i] >>= bits;
}
TRIM_NONZERO(a);
}
}
static inline void
zswap_tainted_unsigned(z_t a, z_t b)
{
z_t t;
t->used = b->used;
b->used = a->used;
a->used = t->used;
t->chars = b->chars;
b->chars = a->chars;
a->chars = t->chars;
}
static inline void
zsplit_unsigned_fast_large_taint(z_t high, z_t low, z_t a, size_t n)
{
n >>= LB_BITS_PER_CHAR;
high->sign = 1;
high->used = a->used - n;
high->chars = a->chars + n;
#if 0
TRIM_AND_ZERO(high);
#endif
low->sign = 1;
low->used = n;
low->chars = a->chars;
TRIM_AND_ZERO(low);
}
static inline void
zsplit_unsigned_fast_small_auto(z_t high, z_t low, z_t a, size_t n)
{
zahl_char_t mask = 1;
mask = (mask << n) - 1;
high->sign = 1;
high->used = 1;
high->chars[0] = a->chars[0] >> n;
if (a->used == 2) {
high->chars[1] = a->chars[1] >> n;
high->used += !!high->chars[1];
n = BITS_PER_CHAR - n;
high->chars[0] |= (a->chars[1] & mask) << n;
}
#if 0
if (unlikely(!high->chars[high->used - 1]))
high->sign = 0;
#endif
low->sign = 1;
low->used = 1;
low->chars[0] = a->chars[0] & mask;
if (unlikely(!low->chars[0]))
low->sign = 0;
}
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