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/* classes: h_files */
#ifndef SCM_NUMBERS_H
#define SCM_NUMBERS_H
/* Copyright (C) 1995, 1996, 1998, 2000-2006, 2008-2011, 2013, 2014,
* 2016 Free Software Foundation, Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public License
* as published by the Free Software Foundation; either version 3 of
* the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
* 02110-1301 USA
*/
#include <gmp.h>
#include "libguile/__scm.h"
#include "libguile/print.h"
#ifndef SCM_T_WCHAR_DEFINED
typedef scm_t_int32 scm_t_wchar;
#define SCM_T_WCHAR_DEFINED
#endif /* SCM_T_WCHAR_DEFINED */
/* Immediate Numbers, also known as fixnums
*
* Inums are exact integers that fit within an SCM word
* (along with two tagging bits).
*
* In the current implementation, Inums must also fit within a long
* because that's what GMP's mpz_*_si functions accept. */
typedef long scm_t_inum;
#define SCM_I_FIXNUM_BIT (SCM_LONG_BIT - 2)
#define SCM_MOST_NEGATIVE_FIXNUM (-1L << (SCM_I_FIXNUM_BIT - 1))
#define SCM_MOST_POSITIVE_FIXNUM (- (SCM_MOST_NEGATIVE_FIXNUM + 1))
/* SCM_SRS (X, Y) is signed right shift, defined as floor (X / 2^Y),
where Y must be non-negative and less than the width in bits of X.
It's common for >> to do this, but the C standards do not specify
what happens when X is negative.
NOTE: X must not perform side effects. */
#if (-1 >> 2 == -1) && (-4 >> 2 == -1) && (-5 >> 2 == -2) && (-8 >> 2 == -2)
# define SCM_SRS(x, y) ((x) >> (y))
#else
# define SCM_SRS(x, y) \
((x) < 0 \
? -1 - (scm_t_signed_bits) (~(scm_t_bits)(x) >> (y)) \
: ((x) >> (y)))
#endif
/* The first implementation of SCM_I_INUM below depends on behavior that
is specified by GNU C but not by C standards, namely that when
casting to a signed integer of width N, the value is reduced modulo
2^N to be within range of the type. The second implementation below
should be portable to all conforming C implementations, but may be
less efficient if the compiler is not sufficiently clever.
NOTE: X must not perform side effects. */
#ifdef __GNUC__
# define SCM_I_INUM(x) (SCM_SRS ((scm_t_inum) SCM_UNPACK (x), 2))
#else
# define SCM_I_INUM(x) \
(SCM_UNPACK (x) > SCM_T_SIGNED_BITS_MAX \
? -1 - (scm_t_inum) (~SCM_UNPACK (x) >> 2) \
: (scm_t_inum) (SCM_UNPACK (x) >> 2))
#endif
#define SCM_I_INUMP(x) (2 & SCM_UNPACK (x))
#define SCM_I_NINUMP(x) (!SCM_I_INUMP (x))
#define SCM_I_MAKINUM(x) \
(SCM_PACK ((((scm_t_bits) (x)) << 2) + scm_tc2_int))
/* SCM_FIXABLE is true if its long argument can be encoded in an SCM_INUM. */
#define SCM_POSFIXABLE(n) ((n) <= SCM_MOST_POSITIVE_FIXNUM)
#define SCM_NEGFIXABLE(n) ((n) >= SCM_MOST_NEGATIVE_FIXNUM)
#define SCM_FIXABLE(n) (SCM_POSFIXABLE (n) && SCM_NEGFIXABLE (n))
#define SCM_INUM0 (SCM_I_MAKINUM (0)) /* A name for 0 */
#define SCM_INUM1 (SCM_I_MAKINUM (1)) /* A name for 1 */
/* SCM_MAXEXP is the maximum double precision exponent
* SCM_FLTMAX is less than or scm_equal the largest single precision float
*/
#if SCM_HAVE_STDC_HEADERS
# ifndef GO32
# include <float.h>
# ifdef __MINGW32__
# define copysign _copysign
# define finite _finite
# endif /* __MINGW32__ */
# endif /* ndef GO32 */
#endif /* def STDC_HEADERS */
#ifdef DBL_MAX_10_EXP
# define SCM_MAXEXP DBL_MAX_10_EXP
#else
# define SCM_MAXEXP 308 /* IEEE doubles */
#endif /* def DBL_MAX_10_EXP */
#ifdef FLT_MAX
# define SCM_FLTMAX FLT_MAX
#else
# define SCM_FLTMAX 1e+23
#endif /* def FLT_MAX */
/* SCM_INTBUFLEN is the maximum number of characters neccessary for
* the printed or scm_string representation of an scm_t_intmax in
* radix 2. The buffer passed to scm_iint2str and scm_iuint2str must
* be of this size, for example.
*/
#define SCM_INTBUFLEN (5 + SCM_CHAR_BIT*sizeof(scm_t_intmax))
/* Numbers
*/
/* Note that scm_tc16_real and scm_tc16_complex are given tc16-codes that only
* differ in one bit: This way, checking if an object is an inexact number can
* be done quickly (using the TYP16S macro). */
/* Number subtype 1 to 3 (note the dependency on the predicates SCM_INEXACTP
* and SCM_NUMP) */
#define scm_tc16_big (scm_tc7_number + 1 * 256L)
#define scm_tc16_real (scm_tc7_number + 2 * 256L)
#define scm_tc16_complex (scm_tc7_number + 3 * 256L)
#define scm_tc16_fraction (scm_tc7_number + 4 * 256L)
#define SCM_INEXACTP(x) \
(!SCM_IMP (x) && (0xfeff & SCM_CELL_TYPE (x)) == scm_tc16_real)
#define SCM_REALP(x) (SCM_HAS_TYP16 (x, scm_tc16_real))
#define SCM_COMPLEXP(x) (SCM_HAS_TYP16 (x, scm_tc16_complex))
#define SCM_REAL_VALUE(x) (((scm_t_double *) SCM2PTR (x))->real)
#define SCM_COMPLEX_REAL(x) (((scm_t_complex *) SCM2PTR (x))->real)
#define SCM_COMPLEX_IMAG(x) (((scm_t_complex *) SCM2PTR (x))->imag)
/* Each bignum is just an mpz_t stored in a double cell starting at word 1. */
#define SCM_I_BIG_MPZ(x) (*((mpz_t *) (SCM_CELL_OBJECT_LOC((x),1))))
#define SCM_BIGP(x) (SCM_HAS_TYP16 (x, scm_tc16_big))
#define SCM_NUMBERP(x) (SCM_I_INUMP(x) || SCM_NUMP(x))
#define SCM_NUMP(x) (SCM_HAS_TYP7 (x, scm_tc7_number))
#define SCM_FRACTIONP(x) (SCM_HAS_TYP16 (x, scm_tc16_fraction))
#define SCM_FRACTION_NUMERATOR(x) (SCM_CELL_OBJECT_1 (x))
#define SCM_FRACTION_DENOMINATOR(x) (SCM_CELL_OBJECT_2 (x))
typedef struct scm_t_double
{
SCM type;
SCM pad;
double real;
} scm_t_double;
typedef struct scm_t_complex
{
SCM type;
SCM pad;
double real;
double imag;
} scm_t_complex;
SCM_API SCM scm_exact_p (SCM x);
SCM_API int scm_is_exact (SCM x);
SCM_API SCM scm_odd_p (SCM n);
SCM_API SCM scm_even_p (SCM n);
SCM_API SCM scm_finite_p (SCM x);
SCM_API SCM scm_inf_p (SCM x);
SCM_API SCM scm_nan_p (SCM x);
SCM_API SCM scm_inf (void);
SCM_API SCM scm_nan (void);
SCM_API SCM scm_abs (SCM x);
SCM_API SCM scm_quotient (SCM x, SCM y);
SCM_API SCM scm_remainder (SCM x, SCM y);
SCM_API SCM scm_modulo (SCM x, SCM y);
SCM_API void scm_euclidean_divide (SCM x, SCM y, SCM *q, SCM *r);
SCM_API SCM scm_euclidean_quotient (SCM x, SCM y);
SCM_API SCM scm_euclidean_remainder (SCM x, SCM y);
SCM_API void scm_floor_divide (SCM x, SCM y, SCM *q, SCM *r);
SCM_API SCM scm_floor_quotient (SCM x, SCM y);
SCM_API SCM scm_floor_remainder (SCM x, SCM y);
SCM_API void scm_ceiling_divide (SCM x, SCM y, SCM *q, SCM *r);
SCM_API SCM scm_ceiling_quotient (SCM x, SCM y);
SCM_API SCM scm_ceiling_remainder (SCM x, SCM y);
SCM_API void scm_truncate_divide (SCM x, SCM y, SCM *q, SCM *r);
SCM_API SCM scm_truncate_quotient (SCM x, SCM y);
SCM_API SCM scm_truncate_remainder (SCM x, SCM y);
SCM_API void scm_centered_divide (SCM x, SCM y, SCM *q, SCM *r);
SCM_API SCM scm_centered_quotient (SCM x, SCM y);
SCM_API SCM scm_centered_remainder (SCM x, SCM y);
SCM_API void scm_round_divide (SCM x, SCM y, SCM *q, SCM *r);
SCM_API SCM scm_round_quotient (SCM x, SCM y);
SCM_API SCM scm_round_remainder (SCM x, SCM y);
SCM_API SCM scm_gcd (SCM x, SCM y);
SCM_API SCM scm_lcm (SCM n1, SCM n2);
SCM_API SCM scm_logand (SCM n1, SCM n2);
SCM_API SCM scm_logior (SCM n1, SCM n2);
SCM_API SCM scm_logxor (SCM n1, SCM n2);
SCM_API SCM scm_logtest (SCM n1, SCM n2);
SCM_API SCM scm_logbit_p (SCM n1, SCM n2);
SCM_API SCM scm_lognot (SCM n);
SCM_API SCM scm_modulo_expt (SCM n, SCM k, SCM m);
SCM_API SCM scm_integer_expt (SCM z1, SCM z2);
SCM_API SCM scm_ash (SCM n, SCM count);
SCM_API SCM scm_round_ash (SCM n, SCM count);
SCM_API SCM scm_bit_extract (SCM n, SCM start, SCM end);
SCM_API SCM scm_logcount (SCM n);
SCM_API SCM scm_integer_length (SCM n);
SCM_INTERNAL SCM scm_i_euclidean_divide (SCM x, SCM y);
SCM_INTERNAL SCM scm_i_floor_divide (SCM x, SCM y);
SCM_INTERNAL SCM scm_i_ceiling_divide (SCM x, SCM y);
SCM_INTERNAL SCM scm_i_truncate_divide (SCM x, SCM y);
SCM_INTERNAL SCM scm_i_centered_divide (SCM x, SCM y);
SCM_INTERNAL SCM scm_i_round_divide (SCM x, SCM y);
SCM_INTERNAL SCM scm_i_gcd (SCM x, SCM y, SCM rest);
SCM_INTERNAL SCM scm_i_lcm (SCM x, SCM y, SCM rest);
SCM_INTERNAL SCM scm_i_logand (SCM x, SCM y, SCM rest);
SCM_INTERNAL SCM scm_i_logior (SCM x, SCM y, SCM rest);
SCM_INTERNAL SCM scm_i_logxor (SCM x, SCM y, SCM rest);
SCM_API size_t scm_iint2str (scm_t_intmax num, int rad, char *p);
SCM_API size_t scm_iuint2str (scm_t_uintmax num, int rad, char *p);
SCM_API SCM scm_number_to_string (SCM x, SCM radix);
SCM_API int scm_print_real (SCM sexp, SCM port, scm_print_state *pstate);
SCM_API int scm_print_complex (SCM sexp, SCM port, scm_print_state *pstate);
SCM_API int scm_bigprint (SCM exp, SCM port, scm_print_state *pstate);
SCM_API SCM scm_c_locale_stringn_to_number (const char *mem, size_t len,
unsigned int radix);
SCM_INTERNAL SCM scm_i_string_to_number (SCM str, unsigned int radix);
SCM_API SCM scm_string_to_number (SCM str, SCM radix);
SCM_API SCM scm_bigequal (SCM x, SCM y);
SCM_API SCM scm_real_equalp (SCM x, SCM y);
SCM_API SCM scm_complex_equalp (SCM x, SCM y);
SCM_API SCM scm_number_p (SCM x);
SCM_API SCM scm_complex_p (SCM x);
SCM_API SCM scm_real_p (SCM x);
SCM_API SCM scm_rational_p (SCM z);
SCM_API SCM scm_integer_p (SCM x);
SCM_API SCM scm_exact_integer_p (SCM x);
SCM_API SCM scm_inexact_p (SCM x);
SCM_API int scm_is_inexact (SCM x);
SCM_API SCM scm_num_eq_p (SCM x, SCM y);
SCM_API SCM scm_less_p (SCM x, SCM y);
SCM_API SCM scm_gr_p (SCM x, SCM y);
SCM_API SCM scm_leq_p (SCM x, SCM y);
SCM_API SCM scm_geq_p (SCM x, SCM y);
SCM_API SCM scm_zero_p (SCM z);
SCM_API SCM scm_positive_p (SCM x);
SCM_API SCM scm_negative_p (SCM x);
SCM_API SCM scm_max (SCM x, SCM y);
SCM_API SCM scm_min (SCM x, SCM y);
SCM_API SCM scm_sum (SCM x, SCM y);
SCM_API SCM scm_oneplus (SCM x);
SCM_API SCM scm_difference (SCM x, SCM y);
SCM_API SCM scm_oneminus (SCM x);
SCM_API SCM scm_product (SCM x, SCM y);
SCM_API SCM scm_divide (SCM x, SCM y);
SCM_API SCM scm_floor (SCM x);
SCM_API SCM scm_ceiling (SCM x);
SCM_API double scm_c_truncate (double x);
SCM_API double scm_c_round (double x);
SCM_API SCM scm_truncate_number (SCM x);
SCM_API SCM scm_round_number (SCM x);
SCM_API SCM scm_expt (SCM z1, SCM z2);
SCM_API SCM scm_sin (SCM z);
SCM_API SCM scm_cos (SCM z);
SCM_API SCM scm_tan (SCM z);
SCM_API SCM scm_sinh (SCM z);
SCM_API SCM scm_cosh (SCM z);
SCM_API SCM scm_tanh (SCM z);
SCM_API SCM scm_asin (SCM z);
SCM_API SCM scm_acos (SCM z);
SCM_API SCM scm_atan (SCM x, SCM y);
SCM_API SCM scm_sys_asinh (SCM z);
SCM_API SCM scm_sys_acosh (SCM z);
SCM_API SCM scm_sys_atanh (SCM z);
SCM_API SCM scm_make_rectangular (SCM z1, SCM z2);
SCM_API SCM scm_make_polar (SCM z1, SCM z2);
SCM_API SCM scm_real_part (SCM z);
SCM_API SCM scm_imag_part (SCM z);
SCM_API SCM scm_magnitude (SCM z);
SCM_API SCM scm_angle (SCM z);
SCM_API SCM scm_exact_to_inexact (SCM z);
SCM_API SCM scm_inexact_to_exact (SCM z);
SCM_API SCM scm_trunc (SCM x);
SCM_API SCM scm_log (SCM z);
SCM_API SCM scm_log10 (SCM z);
SCM_API SCM scm_exp (SCM z);
SCM_API SCM scm_sqrt (SCM z);
SCM_API void scm_exact_integer_sqrt (SCM k, SCM *s, SCM *r);
SCM_INTERNAL SCM scm_i_min (SCM x, SCM y, SCM rest);
SCM_INTERNAL SCM scm_i_max (SCM x, SCM y, SCM rest);
SCM_INTERNAL SCM scm_i_sum (SCM x, SCM y, SCM rest);
SCM_INTERNAL SCM scm_i_difference (SCM x, SCM y, SCM rest);
SCM_INTERNAL SCM scm_i_product (SCM x, SCM y, SCM rest);
SCM_INTERNAL SCM scm_i_divide (SCM x, SCM y, SCM rest);
SCM_INTERNAL SCM scm_i_exact_integer_sqrt (SCM k);
/* bignum internal functions */
SCM_INTERNAL SCM scm_i_mkbig (void);
SCM_API /* FIXME: not internal */ SCM scm_i_normbig (SCM x);
SCM_INTERNAL int scm_i_bigcmp (SCM a, SCM b);
SCM_INTERNAL SCM scm_i_dbl2big (double d);
SCM_INTERNAL SCM scm_i_dbl2num (double d);
SCM_API /* FIXME: not internal */ double scm_i_big2dbl (SCM b);
SCM_API /* FIXME: not internal */ SCM scm_i_long2big (long n);
SCM_API /* FIXME: not internal */ SCM scm_i_ulong2big (unsigned long n);
SCM_API /* FIXME: not internal */ SCM scm_i_clonebig (SCM src_big, int same_sign_p);
/* ratio functions */
SCM_API SCM scm_rationalize (SCM x, SCM err);
SCM_API SCM scm_numerator (SCM z);
SCM_API SCM scm_denominator (SCM z);
/* fraction internal functions */
SCM_INTERNAL double scm_i_fraction2double (SCM z);
SCM_INTERNAL SCM scm_i_fraction_equalp (SCM x, SCM y);
SCM_INTERNAL int scm_i_print_fraction (SCM sexp, SCM port, scm_print_state *pstate);
/* general internal functions */
SCM_INTERNAL void scm_i_print_double (double val, SCM port);
SCM_INTERNAL void scm_i_print_complex (double real, double imag, SCM port);
/* conversion functions for integers */
SCM_API int scm_is_integer (SCM val);
SCM_API int scm_is_exact_integer (SCM val);
SCM_API int scm_is_signed_integer (SCM val,
scm_t_intmax min, scm_t_intmax max);
SCM_API int scm_is_unsigned_integer (SCM val,
scm_t_uintmax min, scm_t_uintmax max);
SCM_API SCM scm_from_signed_integer (scm_t_intmax val);
SCM_API SCM scm_from_unsigned_integer (scm_t_uintmax val);
SCM_API scm_t_intmax scm_to_signed_integer (SCM val,
scm_t_intmax min,
scm_t_intmax max);
SCM_API scm_t_uintmax scm_to_unsigned_integer (SCM val,
scm_t_uintmax min,
scm_t_uintmax max);
SCM_API scm_t_int8 scm_to_int8 (SCM x);
SCM_API SCM scm_from_int8 (scm_t_int8 x);
SCM_API scm_t_uint8 scm_to_uint8 (SCM x);
SCM_API SCM scm_from_uint8 (scm_t_uint8 x);
SCM_API scm_t_int16 scm_to_int16 (SCM x);
SCM_API SCM scm_from_int16 (scm_t_int16 x);
SCM_API scm_t_uint16 scm_to_uint16 (SCM x);
SCM_API SCM scm_from_uint16 (scm_t_uint16 x);
SCM_API scm_t_int32 scm_to_int32 (SCM x);
SCM_API SCM scm_from_int32 (scm_t_int32 x);
SCM_API scm_t_uint32 scm_to_uint32 (SCM x);
SCM_API SCM scm_from_uint32 (scm_t_uint32 x);
SCM_API scm_t_wchar scm_to_wchar (SCM x);
SCM_API SCM scm_from_wchar (scm_t_wchar x);
SCM_API scm_t_int64 scm_to_int64 (SCM x);
SCM_API SCM scm_from_int64 (scm_t_int64 x);
SCM_API scm_t_uint64 scm_to_uint64 (SCM x);
SCM_API SCM scm_from_uint64 (scm_t_uint64 x);
SCM_API void scm_to_mpz (SCM x, mpz_t rop);
SCM_API SCM scm_from_mpz (mpz_t rop);
/* The conversion functions for other types are aliased to the
appropriate ones from above. We pick the right one based on the
size of the type.
Not each and every possibility is covered by the code below, and
while it is trivial to complete the tests, it might be better to
just test for the 'sane' possibilities. When one of the tests
below fails, chances are good that some silent assumption somewhere
else will also fail.
*/
#if SCM_SIZEOF_CHAR == 1
#define scm_to_schar scm_to_int8
#define scm_from_schar scm_from_int8
#define scm_to_uchar scm_to_uint8
#define scm_from_uchar scm_from_uint8
#if CHAR_MIN == 0
#define scm_to_char scm_to_uint8
#define scm_from_char scm_from_uint8
#else
#define scm_to_char scm_to_int8
#define scm_from_char scm_from_int8
#endif
#else
#error sizeof(char) is not 1.
#endif
#if SCM_SIZEOF_SHORT == 1
#define scm_to_short scm_to_int8
#define scm_from_short scm_from_int8
#define scm_to_ushort scm_to_uint8
#define scm_from_ushort scm_from_uint8
#else
#if SCM_SIZEOF_SHORT == 2
#define scm_to_short scm_to_int16
#define scm_from_short scm_from_int16
#define scm_to_ushort scm_to_uint16
#define scm_from_ushort scm_from_uint16
#else
#if SCM_SIZEOF_SHORT == 4
#define scm_to_short scm_to_int32
#define scm_from_short scm_from_int32
#define scm_to_ushort scm_to_uint32
#define scm_from_ushort scm_from_uint32
#else
#error sizeof(short) is not 1, 2, or 4.
#endif
#endif
#endif
#if SCM_SIZEOF_INT == 4
#define scm_to_int scm_to_int32
#define scm_from_int scm_from_int32
#define scm_to_uint scm_to_uint32
#define scm_from_uint scm_from_uint32
#else
#if SCM_SIZEOF_INT == 8
#define scm_to_int scm_to_int64
#define scm_from_int scm_from_int64
#define scm_to_uint scm_to_uint64
#define scm_from_uint scm_from_uint64
#else
#error sizeof(int) is not 4 or 8.
#endif
#endif
#if SCM_SIZEOF_LONG == 4
#define scm_to_long scm_to_int32
#define scm_from_long scm_from_int32
#define scm_to_ulong scm_to_uint32
#define scm_from_ulong scm_from_uint32
#else
#if SCM_SIZEOF_LONG == 8
#define scm_to_long scm_to_int64
#define scm_from_long scm_from_int64
#define scm_to_ulong scm_to_uint64
#define scm_from_ulong scm_from_uint64
#else
#error sizeof(long) is not 4 or 8.
#endif
#endif
#if SCM_SIZEOF_INTMAX == 4
#define scm_to_intmax scm_to_int32
#define scm_from_intmax scm_from_int32
#define scm_to_uintmax scm_to_uint32
#define scm_from_uintmax scm_from_uint32
#else
#if SCM_SIZEOF_INTMAX == 8
#define scm_to_intmax scm_to_int64
#define scm_from_intmax scm_from_int64
#define scm_to_uintmax scm_to_uint64
#define scm_from_uintmax scm_from_uint64
#else
#error sizeof(scm_t_intmax) is not 4 or 8.
#endif
#endif
#if SCM_SIZEOF_LONG_LONG == 0
#else
#if SCM_SIZEOF_LONG_LONG == 8
#define scm_to_long_long scm_to_int64
#define scm_from_long_long scm_from_int64
#define scm_to_ulong_long scm_to_uint64
#define scm_from_ulong_long scm_from_uint64
#else
#error sizeof(long long) is not 8.
#endif
#endif
#if SCM_SIZEOF_SIZE_T == 4
#define scm_to_ssize_t scm_to_int32
#define scm_from_ssize_t scm_from_int32
#define scm_to_size_t scm_to_uint32
#define scm_from_size_t scm_from_uint32
#else
#if SCM_SIZEOF_SIZE_T == 8
#define scm_to_ssize_t scm_to_int64
#define scm_from_ssize_t scm_from_int64
#define scm_to_size_t scm_to_uint64
#define scm_from_size_t scm_from_uint64
#else
#error sizeof(size_t) is not 4 or 8.
#endif
#endif
#if SCM_SIZEOF_SCM_T_PTRDIFF == 4
#define scm_to_ptrdiff_t scm_to_int32
#define scm_from_ptrdiff_t scm_from_int32
#else
#if SCM_SIZEOF_SCM_T_PTRDIFF == 8
#define scm_to_ptrdiff_t scm_to_int64
#define scm_from_ptrdiff_t scm_from_int64
#else
#error sizeof(scm_t_ptrdiff) is not 4 or 8.
#endif
#endif
#if SCM_SIZEOF_INTPTR_T == 0
/* No intptr_t; use size_t functions. */
#define scm_to_intptr_t scm_to_ssize_t
#define scm_from_intptr_t scm_from_ssize_t
#elif SCM_SIZEOF_INTPTR_T == 4
#define scm_to_intptr_t scm_to_int32
#define scm_from_intptr_t scm_from_int32
#elif SCM_SIZEOF_INTPTR_T == 8
#define scm_to_intptr_t scm_to_int64
#define scm_from_intptr_t scm_from_int64
#else
#error sizeof(intptr_t) is not 4 or 8.
#endif
#if SCM_SIZEOF_UINTPTR_T == 0
/* No uintptr_t; use size_t functions. */
#define scm_to_uintptr_t scm_to_size_t
#define scm_from_uintptr_t scm_from_size_t
#elif SCM_SIZEOF_UINTPTR_T == 4
#define scm_to_uintptr_t scm_to_uint32
#define scm_from_uintptr_t scm_from_uint32
#elif SCM_SIZEOF_UINTPTR_T == 8
#define scm_to_uintptr_t scm_to_uint64
#define scm_from_uintptr_t scm_from_uint64
#else
#error sizeof(uintptr_t) is not 4 or 8.
#endif
/* conversion functions for double */
SCM_API int scm_is_real (SCM val);
SCM_API int scm_is_rational (SCM val);
SCM_API double scm_to_double (SCM val);
SCM_API SCM scm_from_double (double val);
/* conversion functions for complex */
SCM_API int scm_is_complex (SCM val);
SCM_API SCM scm_c_make_rectangular (double re, double im);
SCM_API SCM scm_c_make_polar (double mag, double ang);
SCM_API double scm_c_real_part (SCM z);
SCM_API double scm_c_imag_part (SCM z);
SCM_API double scm_c_magnitude (SCM z);
SCM_API double scm_c_angle (SCM z);
SCM_API int scm_is_number (SCM val);
/* If nonzero, tell gmp to use GC_malloc for its allocations. */
SCM_API int scm_install_gmp_memory_functions;
SCM_INTERNAL void scm_init_numbers (void);
#endif /* SCM_NUMBERS_H */
/*
Local Variables:
c-file-style: "gnu"
End:
*/
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