535 lines
17 KiB
C
535 lines
17 KiB
C
/*
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* Tiny arbitrary precision floating point library
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*
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* Copyright (c) 2017-2020 Fabrice Bellard
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*
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* Permission is hereby granted, free of charge, to any person obtaining a copy
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* of this software and associated documentation files (the "Software"), to deal
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* in the Software without restriction, including without limitation the rights
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* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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* copies of the Software, and to permit persons to whom the Software is
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* furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be included in
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* all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
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* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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* THE SOFTWARE.
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*/
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#ifndef LIBBF_H
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#define LIBBF_H
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#include <stddef.h>
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#include <stdint.h>
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#if defined(__x86_64__)
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#define LIMB_LOG2_BITS 6
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#else
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#define LIMB_LOG2_BITS 5
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#endif
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#define LIMB_BITS (1 << LIMB_LOG2_BITS)
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#if LIMB_BITS == 64
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typedef __int128 int128_t;
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typedef unsigned __int128 uint128_t;
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typedef int64_t slimb_t;
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typedef uint64_t limb_t;
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typedef uint128_t dlimb_t;
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#define BF_RAW_EXP_MIN INT64_MIN
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#define BF_RAW_EXP_MAX INT64_MAX
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#define LIMB_DIGITS 19
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#define BF_DEC_BASE UINT64_C(10000000000000000000)
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#else
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typedef int32_t slimb_t;
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typedef uint32_t limb_t;
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typedef uint64_t dlimb_t;
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#define BF_RAW_EXP_MIN INT32_MIN
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#define BF_RAW_EXP_MAX INT32_MAX
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#define LIMB_DIGITS 9
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#define BF_DEC_BASE 1000000000U
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#endif
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/* in bits */
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/* minimum number of bits for the exponent */
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#define BF_EXP_BITS_MIN 3
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/* maximum number of bits for the exponent */
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#define BF_EXP_BITS_MAX (LIMB_BITS - 3)
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/* extended range for exponent, used internally */
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#define BF_EXT_EXP_BITS_MAX (BF_EXP_BITS_MAX + 1)
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/* minimum possible precision */
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#define BF_PREC_MIN 2
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/* minimum possible precision */
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#define BF_PREC_MAX (((limb_t)1 << (LIMB_BITS - 2)) - 2)
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/* some operations support infinite precision */
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#define BF_PREC_INF (BF_PREC_MAX + 1) /* infinite precision */
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#if LIMB_BITS == 64
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#define BF_CHKSUM_MOD (UINT64_C(975620677) * UINT64_C(9795002197))
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#else
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#define BF_CHKSUM_MOD 975620677U
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#endif
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#define BF_EXP_ZERO BF_RAW_EXP_MIN
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#define BF_EXP_INF (BF_RAW_EXP_MAX - 1)
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#define BF_EXP_NAN BF_RAW_EXP_MAX
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/* +/-zero is represented with expn = BF_EXP_ZERO and len = 0,
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+/-infinity is represented with expn = BF_EXP_INF and len = 0,
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NaN is represented with expn = BF_EXP_NAN and len = 0 (sign is ignored)
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*/
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typedef struct {
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struct bf_context_t *ctx;
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int sign;
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slimb_t expn;
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limb_t len;
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limb_t *tab;
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} bf_t;
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typedef struct {
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/* must be kept identical to bf_t */
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struct bf_context_t *ctx;
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int sign;
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slimb_t expn;
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limb_t len;
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limb_t *tab;
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} bfdec_t;
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typedef enum {
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BF_RNDN, /* round to nearest, ties to even */
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BF_RNDZ, /* round to zero */
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BF_RNDD, /* round to -inf (the code relies on (BF_RNDD xor BF_RNDU) = 1) */
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BF_RNDU, /* round to +inf */
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BF_RNDNA, /* round to nearest, ties away from zero */
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BF_RNDA, /* round away from zero */
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BF_RNDF, /* faithful rounding (nondeterministic, either RNDD or RNDU,
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inexact flag is always set) */
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} bf_rnd_t;
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/* allow subnormal numbers. Only available if the number of exponent
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bits is <= BF_EXP_BITS_USER_MAX and prec != BF_PREC_INF. */
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#define BF_FLAG_SUBNORMAL (1 << 3)
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/* 'prec' is the precision after the radix point instead of the whole
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mantissa. Can only be used with bf_round() and
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bfdec_[add|sub|mul|div|sqrt|round](). */
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#define BF_FLAG_RADPNT_PREC (1 << 4)
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#define BF_RND_MASK 0x7
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#define BF_EXP_BITS_SHIFT 5
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#define BF_EXP_BITS_MASK 0x3f
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/* shortcut for bf_set_exp_bits(BF_EXT_EXP_BITS_MAX) */
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#define BF_FLAG_EXT_EXP (BF_EXP_BITS_MASK << BF_EXP_BITS_SHIFT)
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/* contains the rounding mode and number of exponents bits */
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typedef uint32_t bf_flags_t;
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typedef void *bf_realloc_func_t(void *opaque, void *ptr, size_t size);
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typedef struct {
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bf_t val;
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limb_t prec;
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} BFConstCache;
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typedef struct bf_context_t {
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void *realloc_opaque;
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bf_realloc_func_t *realloc_func;
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BFConstCache log2_cache;
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BFConstCache pi_cache;
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struct BFNTTState *ntt_state;
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} bf_context_t;
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static inline int bf_get_exp_bits(bf_flags_t flags)
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{
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int e;
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e = (flags >> BF_EXP_BITS_SHIFT) & BF_EXP_BITS_MASK;
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if (e == BF_EXP_BITS_MASK)
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return BF_EXP_BITS_MAX + 1;
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else
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return BF_EXP_BITS_MAX - e;
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}
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static inline bf_flags_t bf_set_exp_bits(int n)
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{
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return ((BF_EXP_BITS_MAX - n) & BF_EXP_BITS_MASK) << BF_EXP_BITS_SHIFT;
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}
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/* returned status */
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#define BF_ST_INVALID_OP (1 << 0)
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#define BF_ST_DIVIDE_ZERO (1 << 1)
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#define BF_ST_OVERFLOW (1 << 2)
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#define BF_ST_UNDERFLOW (1 << 3)
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#define BF_ST_INEXACT (1 << 4)
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/* indicate that a memory allocation error occured. NaN is returned */
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#define BF_ST_MEM_ERROR (1 << 5)
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#define BF_RADIX_MAX 36 /* maximum radix for bf_atof() and bf_ftoa() */
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static inline slimb_t bf_max(slimb_t a, slimb_t b)
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{
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if (a > b)
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return a;
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else
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return b;
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}
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static inline slimb_t bf_min(slimb_t a, slimb_t b)
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{
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if (a < b)
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return a;
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else
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return b;
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}
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void bf_context_init(bf_context_t *s, bf_realloc_func_t *realloc_func,
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void *realloc_opaque);
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void bf_context_end(bf_context_t *s);
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/* free memory allocated for the bf cache data */
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void bf_clear_cache(bf_context_t *s);
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static inline void *bf_realloc(bf_context_t *s, void *ptr, size_t size)
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{
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return s->realloc_func(s->realloc_opaque, ptr, size);
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}
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/* 'size' must be != 0 */
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static inline void *bf_malloc(bf_context_t *s, size_t size)
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{
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return bf_realloc(s, NULL, size);
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}
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static inline void bf_free(bf_context_t *s, void *ptr)
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{
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/* must test ptr otherwise equivalent to malloc(0) */
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if (ptr)
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bf_realloc(s, ptr, 0);
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}
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void bf_init(bf_context_t *s, bf_t *r);
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static inline void bf_delete(bf_t *r)
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{
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bf_context_t *s = r->ctx;
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/* we accept to delete a zeroed bf_t structure */
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if (s && r->tab) {
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bf_realloc(s, r->tab, 0);
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}
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}
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static inline void bf_neg(bf_t *r)
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{
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r->sign ^= 1;
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}
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static inline int bf_is_finite(const bf_t *a)
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{
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return (a->expn < BF_EXP_INF);
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}
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static inline int bf_is_nan(const bf_t *a)
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{
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return (a->expn == BF_EXP_NAN);
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}
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static inline int bf_is_zero(const bf_t *a)
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{
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return (a->expn == BF_EXP_ZERO);
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}
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static inline void bf_memcpy(bf_t *r, const bf_t *a)
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{
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*r = *a;
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}
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int bf_set_ui(bf_t *r, uint64_t a);
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int bf_set_si(bf_t *r, int64_t a);
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void bf_set_nan(bf_t *r);
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void bf_set_zero(bf_t *r, int is_neg);
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void bf_set_inf(bf_t *r, int is_neg);
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int bf_set(bf_t *r, const bf_t *a);
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void bf_move(bf_t *r, bf_t *a);
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int bf_get_float64(const bf_t *a, double *pres, bf_rnd_t rnd_mode);
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int bf_set_float64(bf_t *a, double d);
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int bf_cmpu(const bf_t *a, const bf_t *b);
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int bf_cmp_full(const bf_t *a, const bf_t *b);
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int bf_cmp(const bf_t *a, const bf_t *b);
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static inline int bf_cmp_eq(const bf_t *a, const bf_t *b)
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{
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return bf_cmp(a, b) == 0;
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}
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static inline int bf_cmp_le(const bf_t *a, const bf_t *b)
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{
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return bf_cmp(a, b) <= 0;
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}
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static inline int bf_cmp_lt(const bf_t *a, const bf_t *b)
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{
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return bf_cmp(a, b) < 0;
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}
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int bf_add(bf_t *r, const bf_t *a, const bf_t *b, limb_t prec, bf_flags_t flags);
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int bf_sub(bf_t *r, const bf_t *a, const bf_t *b, limb_t prec, bf_flags_t flags);
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int bf_add_si(bf_t *r, const bf_t *a, int64_t b1, limb_t prec, bf_flags_t flags);
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int bf_mul(bf_t *r, const bf_t *a, const bf_t *b, limb_t prec, bf_flags_t flags);
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int bf_mul_ui(bf_t *r, const bf_t *a, uint64_t b1, limb_t prec, bf_flags_t flags);
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int bf_mul_si(bf_t *r, const bf_t *a, int64_t b1, limb_t prec,
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bf_flags_t flags);
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int bf_mul_2exp(bf_t *r, slimb_t e, limb_t prec, bf_flags_t flags);
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int bf_div(bf_t *r, const bf_t *a, const bf_t *b, limb_t prec, bf_flags_t flags);
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#define BF_DIVREM_EUCLIDIAN BF_RNDF
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int bf_divrem(bf_t *q, bf_t *r, const bf_t *a, const bf_t *b,
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limb_t prec, bf_flags_t flags, int rnd_mode);
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int bf_rem(bf_t *r, const bf_t *a, const bf_t *b, limb_t prec,
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bf_flags_t flags, int rnd_mode);
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int bf_remquo(slimb_t *pq, bf_t *r, const bf_t *a, const bf_t *b, limb_t prec,
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bf_flags_t flags, int rnd_mode);
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/* round to integer with infinite precision */
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int bf_rint(bf_t *r, int rnd_mode);
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int bf_round(bf_t *r, limb_t prec, bf_flags_t flags);
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int bf_sqrtrem(bf_t *r, bf_t *rem1, const bf_t *a);
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int bf_sqrt(bf_t *r, const bf_t *a, limb_t prec, bf_flags_t flags);
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slimb_t bf_get_exp_min(const bf_t *a);
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int bf_logic_or(bf_t *r, const bf_t *a, const bf_t *b);
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int bf_logic_xor(bf_t *r, const bf_t *a, const bf_t *b);
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int bf_logic_and(bf_t *r, const bf_t *a, const bf_t *b);
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/* additional flags for bf_atof */
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/* do not accept hex radix prefix (0x or 0X) if radix = 0 or radix = 16 */
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#define BF_ATOF_NO_HEX (1 << 16)
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/* accept binary (0b or 0B) or octal (0o or 0O) radix prefix if radix = 0 */
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#define BF_ATOF_BIN_OCT (1 << 17)
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/* Do not parse NaN or Inf */
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#define BF_ATOF_NO_NAN_INF (1 << 18)
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/* return the exponent separately */
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#define BF_ATOF_EXPONENT (1 << 19)
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int bf_atof(bf_t *a, const char *str, const char **pnext, int radix,
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limb_t prec, bf_flags_t flags);
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/* this version accepts prec = BF_PREC_INF and returns the radix
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exponent */
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int bf_atof2(bf_t *r, slimb_t *pexponent,
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const char *str, const char **pnext, int radix,
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limb_t prec, bf_flags_t flags);
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int bf_mul_pow_radix(bf_t *r, const bf_t *T, limb_t radix,
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slimb_t expn, limb_t prec, bf_flags_t flags);
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/* Conversion of floating point number to string. Return a null
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terminated string or NULL if memory error. *plen contains its
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length if plen != NULL. The exponent letter is "e" for base 10,
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"p" for bases 2, 8, 16 with a binary exponent and "@" for the other
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bases. */
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#define BF_FTOA_FORMAT_MASK (3 << 16)
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/* fixed format: prec significant digits rounded with (flags &
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BF_RND_MASK). Exponential notation is used if too many zeros are
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needed.*/
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#define BF_FTOA_FORMAT_FIXED (0 << 16)
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/* fractional format: prec digits after the decimal point rounded with
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(flags & BF_RND_MASK) */
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#define BF_FTOA_FORMAT_FRAC (1 << 16)
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/* free format:
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For binary radices with bf_ftoa() and for bfdec_ftoa(): use the minimum
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number of digits to represent 'a'. The precision and the rounding
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mode are ignored.
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For the non binary radices with bf_ftoa(): use as many digits as
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necessary so that bf_atof() return the same number when using
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precision 'prec', rounding to nearest and the subnormal
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configuration of 'flags'. The result is meaningful only if 'a' is
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already rounded to 'prec' bits. If the subnormal flag is set, the
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exponent in 'flags' must also be set to the desired exponent range.
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*/
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#define BF_FTOA_FORMAT_FREE (2 << 16)
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/* same as BF_FTOA_FORMAT_FREE but uses the minimum number of digits
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(takes more computation time). Identical to BF_FTOA_FORMAT_FREE for
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binary radices with bf_ftoa() and for bfdec_ftoa(). */
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#define BF_FTOA_FORMAT_FREE_MIN (3 << 16)
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/* force exponential notation for fixed or free format */
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#define BF_FTOA_FORCE_EXP (1 << 20)
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/* add 0x prefix for base 16, 0o prefix for base 8 or 0b prefix for
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base 2 if non zero value */
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#define BF_FTOA_ADD_PREFIX (1 << 21)
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/* return "Infinity" instead of "Inf" and add a "+" for positive
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exponents */
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#define BF_FTOA_JS_QUIRKS (1 << 22)
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char *bf_ftoa(size_t *plen, const bf_t *a, int radix, limb_t prec,
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bf_flags_t flags);
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/* modulo 2^n instead of saturation. NaN and infinity return 0 */
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#define BF_GET_INT_MOD (1 << 0)
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int bf_get_int32(int *pres, const bf_t *a, int flags);
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int bf_get_int64(int64_t *pres, const bf_t *a, int flags);
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int bf_get_uint64(uint64_t *pres, const bf_t *a);
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/* the following functions are exported for testing only. */
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void mp_print_str(const char *str, const limb_t *tab, limb_t n);
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void bf_print_str(const char *str, const bf_t *a);
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int bf_resize(bf_t *r, limb_t len);
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int bf_get_fft_size(int *pdpl, int *pnb_mods, limb_t len);
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int bf_normalize_and_round(bf_t *r, limb_t prec1, bf_flags_t flags);
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int bf_can_round(const bf_t *a, slimb_t prec, bf_rnd_t rnd_mode, slimb_t k);
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slimb_t bf_mul_log2_radix(slimb_t a1, unsigned int radix, int is_inv,
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int is_ceil1);
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int mp_mul(bf_context_t *s, limb_t *result,
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const limb_t *op1, limb_t op1_size,
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const limb_t *op2, limb_t op2_size);
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limb_t mp_add(limb_t *res, const limb_t *op1, const limb_t *op2,
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limb_t n, limb_t carry);
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limb_t mp_add_ui(limb_t *tab, limb_t b, size_t n);
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int mp_sqrtrem(bf_context_t *s, limb_t *tabs, limb_t *taba, limb_t n);
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int mp_recip(bf_context_t *s, limb_t *tabr, const limb_t *taba, limb_t n);
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limb_t bf_isqrt(limb_t a);
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/* transcendental functions */
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int bf_const_log2(bf_t *T, limb_t prec, bf_flags_t flags);
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int bf_const_pi(bf_t *T, limb_t prec, bf_flags_t flags);
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int bf_exp(bf_t *r, const bf_t *a, limb_t prec, bf_flags_t flags);
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int bf_log(bf_t *r, const bf_t *a, limb_t prec, bf_flags_t flags);
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#define BF_POW_JS_QUIRKS (1 << 16) /* (+/-1)^(+/-Inf) = NaN, 1^NaN = NaN */
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int bf_pow(bf_t *r, const bf_t *x, const bf_t *y, limb_t prec, bf_flags_t flags);
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int bf_cos(bf_t *r, const bf_t *a, limb_t prec, bf_flags_t flags);
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int bf_sin(bf_t *r, const bf_t *a, limb_t prec, bf_flags_t flags);
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int bf_tan(bf_t *r, const bf_t *a, limb_t prec, bf_flags_t flags);
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int bf_atan(bf_t *r, const bf_t *a, limb_t prec, bf_flags_t flags);
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int bf_atan2(bf_t *r, const bf_t *y, const bf_t *x,
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limb_t prec, bf_flags_t flags);
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int bf_asin(bf_t *r, const bf_t *a, limb_t prec, bf_flags_t flags);
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int bf_acos(bf_t *r, const bf_t *a, limb_t prec, bf_flags_t flags);
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/* decimal floating point */
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static inline void bfdec_init(bf_context_t *s, bfdec_t *r)
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{
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bf_init(s, (bf_t *)r);
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}
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static inline void bfdec_delete(bfdec_t *r)
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{
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bf_delete((bf_t *)r);
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}
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static inline void bfdec_neg(bfdec_t *r)
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{
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r->sign ^= 1;
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}
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static inline int bfdec_is_finite(const bfdec_t *a)
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{
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return (a->expn < BF_EXP_INF);
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}
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|
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static inline int bfdec_is_nan(const bfdec_t *a)
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|
{
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return (a->expn == BF_EXP_NAN);
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}
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|
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static inline int bfdec_is_zero(const bfdec_t *a)
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{
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return (a->expn == BF_EXP_ZERO);
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}
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|
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static inline void bfdec_memcpy(bfdec_t *r, const bfdec_t *a)
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{
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bf_memcpy((bf_t *)r, (const bf_t *)a);
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}
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|
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int bfdec_set_ui(bfdec_t *r, uint64_t a);
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int bfdec_set_si(bfdec_t *r, int64_t a);
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|
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static inline void bfdec_set_nan(bfdec_t *r)
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|
{
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bf_set_nan((bf_t *)r);
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|
}
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static inline void bfdec_set_zero(bfdec_t *r, int is_neg)
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|
{
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bf_set_zero((bf_t *)r, is_neg);
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}
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static inline void bfdec_set_inf(bfdec_t *r, int is_neg)
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|
{
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|
bf_set_inf((bf_t *)r, is_neg);
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|
}
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static inline int bfdec_set(bfdec_t *r, const bfdec_t *a)
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|
{
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|
return bf_set((bf_t *)r, (bf_t *)a);
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|
}
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|
static inline void bfdec_move(bfdec_t *r, bfdec_t *a)
|
|
{
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|
bf_move((bf_t *)r, (bf_t *)a);
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|
}
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|
static inline int bfdec_cmpu(const bfdec_t *a, const bfdec_t *b)
|
|
{
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|
return bf_cmpu((const bf_t *)a, (const bf_t *)b);
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|
}
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|
static inline int bfdec_cmp_full(const bfdec_t *a, const bfdec_t *b)
|
|
{
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|
return bf_cmp_full((const bf_t *)a, (const bf_t *)b);
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|
}
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|
static inline int bfdec_cmp(const bfdec_t *a, const bfdec_t *b)
|
|
{
|
|
return bf_cmp((const bf_t *)a, (const bf_t *)b);
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|
}
|
|
static inline int bfdec_cmp_eq(const bfdec_t *a, const bfdec_t *b)
|
|
{
|
|
return bfdec_cmp(a, b) == 0;
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|
}
|
|
static inline int bfdec_cmp_le(const bfdec_t *a, const bfdec_t *b)
|
|
{
|
|
return bfdec_cmp(a, b) <= 0;
|
|
}
|
|
static inline int bfdec_cmp_lt(const bfdec_t *a, const bfdec_t *b)
|
|
{
|
|
return bfdec_cmp(a, b) < 0;
|
|
}
|
|
|
|
int bfdec_add(bfdec_t *r, const bfdec_t *a, const bfdec_t *b, limb_t prec,
|
|
bf_flags_t flags);
|
|
int bfdec_sub(bfdec_t *r, const bfdec_t *a, const bfdec_t *b, limb_t prec,
|
|
bf_flags_t flags);
|
|
int bfdec_add_si(bfdec_t *r, const bfdec_t *a, int64_t b1, limb_t prec,
|
|
bf_flags_t flags);
|
|
int bfdec_mul(bfdec_t *r, const bfdec_t *a, const bfdec_t *b, limb_t prec,
|
|
bf_flags_t flags);
|
|
int bfdec_mul_si(bfdec_t *r, const bfdec_t *a, int64_t b1, limb_t prec,
|
|
bf_flags_t flags);
|
|
int bfdec_div(bfdec_t *r, const bfdec_t *a, const bfdec_t *b, limb_t prec,
|
|
bf_flags_t flags);
|
|
int bfdec_divrem(bfdec_t *q, bfdec_t *r, const bfdec_t *a, const bfdec_t *b,
|
|
limb_t prec, bf_flags_t flags, int rnd_mode);
|
|
int bfdec_rem(bfdec_t *r, const bfdec_t *a, const bfdec_t *b, limb_t prec,
|
|
bf_flags_t flags, int rnd_mode);
|
|
int bfdec_rint(bfdec_t *r, int rnd_mode);
|
|
int bfdec_sqrt(bfdec_t *r, const bfdec_t *a, limb_t prec, bf_flags_t flags);
|
|
int bfdec_round(bfdec_t *r, limb_t prec, bf_flags_t flags);
|
|
int bfdec_get_int32(int *pres, const bfdec_t *a);
|
|
int bfdec_pow_ui(bfdec_t *r, const bfdec_t *a, limb_t b);
|
|
|
|
char *bfdec_ftoa(size_t *plen, const bfdec_t *a, limb_t prec, bf_flags_t flags);
|
|
int bfdec_atof(bfdec_t *r, const char *str, const char **pnext,
|
|
limb_t prec, bf_flags_t flags);
|
|
|
|
/* the following functions are exported for testing only. */
|
|
extern const limb_t mp_pow_dec[LIMB_DIGITS + 1];
|
|
void bfdec_print_str(const char *str, const bfdec_t *a);
|
|
static inline int bfdec_resize(bfdec_t *r, limb_t len)
|
|
{
|
|
return bf_resize((bf_t *)r, len);
|
|
}
|
|
int bfdec_normalize_and_round(bfdec_t *r, limb_t prec1, bf_flags_t flags);
|
|
|
|
#endif /* LIBBF_H */
|