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247 lines
7.2 KiB
C
247 lines
7.2 KiB
C
#ifndef INTERNAL_BIGNUM_H /*-*-C-*-vi:se ft=c:*/
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#define INTERNAL_BIGNUM_H
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/**
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* @file
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* @author Ruby developers <ruby-core@ruby-lang.org>
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* @copyright This file is a part of the programming language Ruby.
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* Permission is hereby granted, to either redistribute and/or
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* modify this file, provided that the conditions mentioned in the
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* file COPYING are met. Consult the file for details.
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* @brief Internal header for Bignums.
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*/
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#include "ruby/internal/config.h" /* for HAVE_LIBGMP */
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#include <stddef.h> /* for size_t */
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#ifdef HAVE_SYS_TYPES_H
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# include <sys/types.h> /* for ssize_t (note: on Windows ssize_t is */
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#endif /* `#define`d in ruby/config.h) */
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#include "ruby/internal/stdbool.h" /* for bool */
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#include "ruby/ruby.h" /* for struct RBasic */
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#ifndef BDIGIT
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# if SIZEOF_INT*2 <= SIZEOF_LONG_LONG
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# define BDIGIT unsigned int
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# define SIZEOF_BDIGIT SIZEOF_INT
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# define BDIGIT_DBL unsigned LONG_LONG
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# define BDIGIT_DBL_SIGNED LONG_LONG
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# define PRI_BDIGIT_PREFIX ""
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# define PRI_BDIGIT_DBL_PREFIX PRI_LL_PREFIX
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# elif SIZEOF_INT*2 <= SIZEOF_LONG
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# define BDIGIT unsigned int
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# define SIZEOF_BDIGIT SIZEOF_INT
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# define BDIGIT_DBL unsigned long
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# define BDIGIT_DBL_SIGNED long
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# define PRI_BDIGIT_PREFIX ""
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# define PRI_BDIGIT_DBL_PREFIX "l"
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# elif SIZEOF_SHORT*2 <= SIZEOF_LONG
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# define BDIGIT unsigned short
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# define SIZEOF_BDIGIT SIZEOF_SHORT
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# define BDIGIT_DBL unsigned long
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# define BDIGIT_DBL_SIGNED long
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# define PRI_BDIGIT_PREFIX "h"
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# define PRI_BDIGIT_DBL_PREFIX "l"
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# else
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# define BDIGIT unsigned short
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# define SIZEOF_BDIGIT (SIZEOF_LONG/2)
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# define SIZEOF_ACTUAL_BDIGIT SIZEOF_LONG
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# define BDIGIT_DBL unsigned long
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# define BDIGIT_DBL_SIGNED long
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# define PRI_BDIGIT_PREFIX "h"
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# define PRI_BDIGIT_DBL_PREFIX "l"
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# endif
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#endif
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#ifndef SIZEOF_ACTUAL_BDIGIT
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# define SIZEOF_ACTUAL_BDIGIT SIZEOF_BDIGIT
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#endif
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#ifdef PRI_BDIGIT_PREFIX
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# define PRIdBDIGIT PRI_BDIGIT_PREFIX"d"
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# define PRIiBDIGIT PRI_BDIGIT_PREFIX"i"
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# define PRIoBDIGIT PRI_BDIGIT_PREFIX"o"
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# define PRIuBDIGIT PRI_BDIGIT_PREFIX"u"
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# define PRIxBDIGIT PRI_BDIGIT_PREFIX"x"
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# define PRIXBDIGIT PRI_BDIGIT_PREFIX"X"
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#endif
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#ifdef PRI_BDIGIT_DBL_PREFIX
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# define PRIdBDIGIT_DBL PRI_BDIGIT_DBL_PREFIX"d"
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# define PRIiBDIGIT_DBL PRI_BDIGIT_DBL_PREFIX"i"
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# define PRIoBDIGIT_DBL PRI_BDIGIT_DBL_PREFIX"o"
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# define PRIuBDIGIT_DBL PRI_BDIGIT_DBL_PREFIX"u"
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# define PRIxBDIGIT_DBL PRI_BDIGIT_DBL_PREFIX"x"
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# define PRIXBDIGIT_DBL PRI_BDIGIT_DBL_PREFIX"X"
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#endif
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#define RBIGNUM(obj) ((struct RBignum *)(obj))
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#define BIGNUM_SIGN_BIT FL_USER1
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#define BIGNUM_EMBED_FLAG ((VALUE)FL_USER2)
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#define BIGNUM_EMBED_LEN_NUMBITS 3
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#define BIGNUM_EMBED_LEN_MASK \
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(~(~(VALUE)0U << BIGNUM_EMBED_LEN_NUMBITS) << BIGNUM_EMBED_LEN_SHIFT)
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#define BIGNUM_EMBED_LEN_SHIFT \
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(FL_USHIFT+3) /* bit offset of BIGNUM_EMBED_LEN_MASK */
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#ifndef BIGNUM_EMBED_LEN_MAX
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# if (SIZEOF_VALUE*RVALUE_EMBED_LEN_MAX/SIZEOF_ACTUAL_BDIGIT) < (1 << BIGNUM_EMBED_LEN_NUMBITS)-1
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# define BIGNUM_EMBED_LEN_MAX (SIZEOF_VALUE*RVALUE_EMBED_LEN_MAX/SIZEOF_ACTUAL_BDIGIT)
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# else
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# define BIGNUM_EMBED_LEN_MAX ((1 << BIGNUM_EMBED_LEN_NUMBITS)-1)
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# endif
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#endif
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enum rb_int_parse_flags {
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RB_INT_PARSE_SIGN = 0x01,
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RB_INT_PARSE_UNDERSCORE = 0x02,
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RB_INT_PARSE_PREFIX = 0x04,
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RB_INT_PARSE_ALL = 0x07,
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RB_INT_PARSE_DEFAULT = 0x07,
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};
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struct RBignum {
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struct RBasic basic;
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union {
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struct {
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size_t len;
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BDIGIT *digits;
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} heap;
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BDIGIT ary[BIGNUM_EMBED_LEN_MAX];
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} as;
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};
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/* bignum.c */
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extern const char ruby_digitmap[];
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double rb_big_fdiv_double(VALUE x, VALUE y);
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VALUE rb_big_uminus(VALUE x);
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VALUE rb_big_hash(VALUE);
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VALUE rb_big_odd_p(VALUE);
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VALUE rb_big_even_p(VALUE);
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size_t rb_big_size(VALUE);
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VALUE rb_integer_float_cmp(VALUE x, VALUE y);
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VALUE rb_integer_float_eq(VALUE x, VALUE y);
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VALUE rb_str_convert_to_inum(VALUE str, int base, int badcheck, int raise_exception);
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VALUE rb_big_comp(VALUE x);
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VALUE rb_big_aref(VALUE x, VALUE y);
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VALUE rb_big_abs(VALUE x);
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VALUE rb_big_size_m(VALUE big);
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VALUE rb_big_bit_length(VALUE big);
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VALUE rb_big_remainder(VALUE x, VALUE y);
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VALUE rb_big_gt(VALUE x, VALUE y);
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VALUE rb_big_ge(VALUE x, VALUE y);
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VALUE rb_big_lt(VALUE x, VALUE y);
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VALUE rb_big_le(VALUE x, VALUE y);
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VALUE rb_int_powm(int const argc, VALUE * const argv, VALUE const num);
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VALUE rb_big_isqrt(VALUE n);
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static inline bool BIGNUM_SIGN(VALUE b);
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static inline bool BIGNUM_POSITIVE_P(VALUE b);
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static inline bool BIGNUM_NEGATIVE_P(VALUE b);
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static inline void BIGNUM_SET_SIGN(VALUE b, bool sign);
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static inline void BIGNUM_NEGATE(VALUE b);
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static inline size_t BIGNUM_LEN(VALUE b);
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static inline BDIGIT *BIGNUM_DIGITS(VALUE b);
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static inline int BIGNUM_LENINT(VALUE b);
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static inline bool BIGNUM_EMBED_P(VALUE b);
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RUBY_SYMBOL_EXPORT_BEGIN
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/* bignum.c (export) */
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VALUE rb_big_mul_normal(VALUE x, VALUE y);
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VALUE rb_big_mul_balance(VALUE x, VALUE y);
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VALUE rb_big_mul_karatsuba(VALUE x, VALUE y);
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VALUE rb_big_mul_toom3(VALUE x, VALUE y);
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VALUE rb_big_sq_fast(VALUE x);
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VALUE rb_big_divrem_normal(VALUE x, VALUE y);
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VALUE rb_big2str_poweroftwo(VALUE x, int base);
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VALUE rb_big2str_generic(VALUE x, int base);
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VALUE rb_str2big_poweroftwo(VALUE arg, int base, int badcheck);
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VALUE rb_str2big_normal(VALUE arg, int base, int badcheck);
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VALUE rb_str2big_karatsuba(VALUE arg, int base, int badcheck);
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#if defined(HAVE_LIBGMP) && defined(HAVE_GMP_H)
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VALUE rb_big_mul_gmp(VALUE x, VALUE y);
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VALUE rb_big_divrem_gmp(VALUE x, VALUE y);
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VALUE rb_big2str_gmp(VALUE x, int base);
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VALUE rb_str2big_gmp(VALUE arg, int base, int badcheck);
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#endif
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VALUE rb_int_parse_cstr(const char *str, ssize_t len, char **endp, size_t *ndigits, int base, int flags);
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RUBY_SYMBOL_EXPORT_END
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MJIT_SYMBOL_EXPORT_BEGIN
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#if defined(HAVE_INT128_T)
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VALUE rb_int128t2big(int128_t n);
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#endif
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MJIT_SYMBOL_EXPORT_END
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/* sign: positive:1, negative:0 */
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static inline bool
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BIGNUM_SIGN(VALUE b)
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{
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return FL_TEST_RAW(b, BIGNUM_SIGN_BIT);
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}
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static inline bool
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BIGNUM_POSITIVE_P(VALUE b)
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{
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return BIGNUM_SIGN(b);
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}
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static inline bool
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BIGNUM_NEGATIVE_P(VALUE b)
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{
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return ! BIGNUM_POSITIVE_P(b);
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}
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static inline void
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BIGNUM_SET_SIGN(VALUE b, bool sign)
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{
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if (sign) {
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FL_SET_RAW(b, BIGNUM_SIGN_BIT);
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}
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else {
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FL_UNSET_RAW(b, BIGNUM_SIGN_BIT);
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}
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}
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static inline void
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BIGNUM_NEGATE(VALUE b)
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{
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FL_REVERSE_RAW(b, BIGNUM_SIGN_BIT);
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}
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static inline size_t
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BIGNUM_LEN(VALUE b)
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{
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if (! BIGNUM_EMBED_P(b)) {
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return RBIGNUM(b)->as.heap.len;
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}
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else {
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size_t ret = RBASIC(b)->flags;
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ret &= BIGNUM_EMBED_LEN_MASK;
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ret >>= BIGNUM_EMBED_LEN_SHIFT;
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return ret;
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}
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}
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static inline int
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BIGNUM_LENINT(VALUE b)
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{
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return rb_long2int(BIGNUM_LEN(b));
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}
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/* LSB:BIGNUM_DIGITS(b)[0], MSB:BIGNUM_DIGITS(b)[BIGNUM_LEN(b)-1] */
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static inline BDIGIT *
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BIGNUM_DIGITS(VALUE b)
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{
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if (BIGNUM_EMBED_P(b)) {
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return RBIGNUM(b)->as.ary;
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}
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else {
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return RBIGNUM(b)->as.heap.digits;
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}
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}
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static inline bool
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BIGNUM_EMBED_P(VALUE b)
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{
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return FL_TEST_RAW(b, BIGNUM_EMBED_FLAG);
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}
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#endif /* INTERNAL_BIGNUM_H */
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