contrib/gdtoa/gdtoaimp.h

cc36ccd1SDavid Schultz/****************************************************************
cc36ccd1SDavid Schultz
cc36ccd1SDavid SchultzThe author of this software is David M. Gay.
cc36ccd1SDavid Schultz
cc36ccd1SDavid SchultzCopyright (C) 1998-2000 by Lucent Technologies
cc36ccd1SDavid SchultzAll Rights Reserved
cc36ccd1SDavid Schultz
cc36ccd1SDavid SchultzPermission to use, copy, modify, and distribute this software and
cc36ccd1SDavid Schultzits documentation for any purpose and without fee is hereby
cc36ccd1SDavid Schultzgranted, provided that the above copyright notice appear in all
cc36ccd1SDavid Schultzcopies and that both that the copyright notice and this
cc36ccd1SDavid Schultzpermission notice and warranty disclaimer appear in supporting
cc36ccd1SDavid Schultzdocumentation, and that the name of Lucent or any of its entities
cc36ccd1SDavid Schultznot be used in advertising or publicity pertaining to
cc36ccd1SDavid Schultzdistribution of the software without specific, written prior
cc36ccd1SDavid Schultzpermission.
cc36ccd1SDavid Schultz
cc36ccd1SDavid SchultzLUCENT DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE,
cc36ccd1SDavid SchultzINCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS.
cc36ccd1SDavid SchultzIN NO EVENT SHALL LUCENT OR ANY OF ITS ENTITIES BE LIABLE FOR ANY
cc36ccd1SDavid SchultzSPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
cc36ccd1SDavid SchultzWHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER
cc36ccd1SDavid SchultzIN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION,
cc36ccd1SDavid SchultzARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF
cc36ccd1SDavid SchultzTHIS SOFTWARE.
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz****************************************************************/
cc36ccd1SDavid Schultz
de9840c6SDavid Schultz/* $FreeBSD$ */
de9840c6SDavid Schultz
cc36ccd1SDavid Schultz/* This is a variation on dtoa.c that converts arbitary binary
cc36ccd1SDavid Schultz   floating-point formats to and from decimal notation.  It uses
cc36ccd1SDavid Schultz   double-precision arithmetic internally, so there are still
cc36ccd1SDavid Schultz   various #ifdefs that adapt the calculations to the native
cc36ccd1SDavid Schultz   double-precision arithmetic (any of IEEE, VAX D_floating,
cc36ccd1SDavid Schultz   or IBM mainframe arithmetic).
cc36ccd1SDavid Schultz
27314703SDavid Schultz   Please send bug reports to David M. Gay (dmg at acm dot org,
27314703SDavid Schultz   with " at " changed at "@" and " dot " changed to ".").
cc36ccd1SDavid Schultz */
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz/* On a machine with IEEE extended-precision registers, it is
cc36ccd1SDavid Schultz * necessary to specify double-precision (53-bit) rounding precision
cc36ccd1SDavid Schultz * before invoking strtod or dtoa.  If the machine uses (the equivalent
cc36ccd1SDavid Schultz * of) Intel 80x87 arithmetic, the call
cc36ccd1SDavid Schultz *	_control87(PC_53, MCW_PC);
cc36ccd1SDavid Schultz * does this with many compilers.  Whether this or another call is
cc36ccd1SDavid Schultz * appropriate depends on the compiler; for this to work, it may be
cc36ccd1SDavid Schultz * necessary to #include "float.h" or another system-dependent header
cc36ccd1SDavid Schultz * file.
cc36ccd1SDavid Schultz */
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz/* strtod for IEEE-, VAX-, and IBM-arithmetic machines.
cc36ccd1SDavid Schultz *
cc36ccd1SDavid Schultz * This strtod returns a nearest machine number to the input decimal
cc36ccd1SDavid Schultz * string (or sets errno to ERANGE).  With IEEE arithmetic, ties are
cc36ccd1SDavid Schultz * broken by the IEEE round-even rule.  Otherwise ties are broken by
cc36ccd1SDavid Schultz * biased rounding (add half and chop).
cc36ccd1SDavid Schultz *
cc36ccd1SDavid Schultz * Inspired loosely by William D. Clinger's paper "How to Read Floating
27314703SDavid Schultz * Point Numbers Accurately" [Proc. ACM SIGPLAN '90, pp. 112-126].
cc36ccd1SDavid Schultz *
cc36ccd1SDavid Schultz * Modifications:
cc36ccd1SDavid Schultz *
cc36ccd1SDavid Schultz *	1. We only require IEEE, IBM, or VAX double-precision
cc36ccd1SDavid Schultz *		arithmetic (not IEEE double-extended).
cc36ccd1SDavid Schultz *	2. We get by with floating-point arithmetic in a case that
cc36ccd1SDavid Schultz *		Clinger missed -- when we're computing d * 10^n
cc36ccd1SDavid Schultz *		for a small integer d and the integer n is not too
cc36ccd1SDavid Schultz *		much larger than 22 (the maximum integer k for which
cc36ccd1SDavid Schultz *		we can represent 10^k exactly), we may be able to
cc36ccd1SDavid Schultz *		compute (d*10^k) * 10^(e-k) with just one roundoff.
cc36ccd1SDavid Schultz *	3. Rather than a bit-at-a-time adjustment of the binary
cc36ccd1SDavid Schultz *		result in the hard case, we use floating-point
cc36ccd1SDavid Schultz *		arithmetic to determine the adjustment to within
cc36ccd1SDavid Schultz *		one bit; only in really hard cases do we need to
cc36ccd1SDavid Schultz *		compute a second residual.
cc36ccd1SDavid Schultz *	4. Because of 3., we don't need a large table of powers of 10
cc36ccd1SDavid Schultz *		for ten-to-e (just some small tables, e.g. of 10^k
cc36ccd1SDavid Schultz *		for 0 <= k <= 22).
cc36ccd1SDavid Schultz */
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz/*
cc36ccd1SDavid Schultz * #define IEEE_8087 for IEEE-arithmetic machines where the least
cc36ccd1SDavid Schultz *	significant byte has the lowest address.
cc36ccd1SDavid Schultz * #define IEEE_MC68k for IEEE-arithmetic machines where the most
cc36ccd1SDavid Schultz *	significant byte has the lowest address.
cc36ccd1SDavid Schultz * #define Long int on machines with 32-bit ints and 64-bit longs.
cc36ccd1SDavid Schultz * #define Sudden_Underflow for IEEE-format machines without gradual
cc36ccd1SDavid Schultz *	underflow (i.e., that flush to zero on underflow).
cc36ccd1SDavid Schultz * #define IBM for IBM mainframe-style floating-point arithmetic.
cc36ccd1SDavid Schultz * #define VAX for VAX-style floating-point arithmetic (D_floating).
cc36ccd1SDavid Schultz * #define No_leftright to omit left-right logic in fast floating-point
cc36ccd1SDavid Schultz *	computation of dtoa.
cc36ccd1SDavid Schultz * #define Check_FLT_ROUNDS if FLT_ROUNDS can assume the values 2 or 3.
cc36ccd1SDavid Schultz * #define RND_PRODQUOT to use rnd_prod and rnd_quot (assembly routines
cc36ccd1SDavid Schultz *	that use extended-precision instructions to compute rounded
cc36ccd1SDavid Schultz *	products and quotients) with IBM.
cc36ccd1SDavid Schultz * #define ROUND_BIASED for IEEE-format with biased rounding.
cc36ccd1SDavid Schultz * #define Inaccurate_Divide for IEEE-format with correctly rounded
cc36ccd1SDavid Schultz *	products but inaccurate quotients, e.g., for Intel i860.
cc36ccd1SDavid Schultz * #define NO_LONG_LONG on machines that do not have a "long long"
cc36ccd1SDavid Schultz *	integer type (of >= 64 bits).  On such machines, you can
cc36ccd1SDavid Schultz *	#define Just_16 to store 16 bits per 32-bit Long when doing
cc36ccd1SDavid Schultz *	high-precision integer arithmetic.  Whether this speeds things
cc36ccd1SDavid Schultz *	up or slows things down depends on the machine and the number
cc36ccd1SDavid Schultz *	being converted.  If long long is available and the name is
cc36ccd1SDavid Schultz *	something other than "long long", #define Llong to be the name,
cc36ccd1SDavid Schultz *	and if "unsigned Llong" does not work as an unsigned version of
cc36ccd1SDavid Schultz *	Llong, #define #ULLong to be the corresponding unsigned type.
cc36ccd1SDavid Schultz * #define KR_headers for old-style C function headers.
cc36ccd1SDavid Schultz * #define Bad_float_h if your system lacks a float.h or if it does not
cc36ccd1SDavid Schultz *	define some or all of DBL_DIG, DBL_MAX_10_EXP, DBL_MAX_EXP,
cc36ccd1SDavid Schultz *	FLT_RADIX, FLT_ROUNDS, and DBL_MAX.
cc36ccd1SDavid Schultz * #define MALLOC your_malloc, where your_malloc(n) acts like malloc(n)
cc36ccd1SDavid Schultz *	if memory is available and otherwise does something you deem
cc36ccd1SDavid Schultz *	appropriate.  If MALLOC is undefined, malloc will be invoked
cc36ccd1SDavid Schultz *	directly -- and assumed always to succeed.
cc36ccd1SDavid Schultz * #define Omit_Private_Memory to omit logic (added Jan. 1998) for making
cc36ccd1SDavid Schultz *	memory allocations from a private pool of memory when possible.
cc36ccd1SDavid Schultz *	When used, the private pool is PRIVATE_MEM bytes long:  2304 bytes,
cc36ccd1SDavid Schultz *	unless #defined to be a different length.  This default length
cc36ccd1SDavid Schultz *	suffices to get rid of MALLOC calls except for unusual cases,
cc36ccd1SDavid Schultz *	such as decimal-to-binary conversion of a very long string of
cc36ccd1SDavid Schultz *	digits.  When converting IEEE double precision values, the
cc36ccd1SDavid Schultz *	longest string gdtoa can return is about 751 bytes long.  For
cc36ccd1SDavid Schultz *	conversions by strtod of strings of 800 digits and all gdtoa
cc36ccd1SDavid Schultz *	conversions of IEEE doubles in single-threaded executions with
cc36ccd1SDavid Schultz *	8-byte pointers, PRIVATE_MEM >= 7400 appears to suffice; with
cc36ccd1SDavid Schultz *	4-byte pointers, PRIVATE_MEM >= 7112 appears adequate.
cc36ccd1SDavid Schultz * #define INFNAN_CHECK on IEEE systems to cause strtod to check for
27314703SDavid Schultz *	Infinity and NaN (case insensitively).
cc36ccd1SDavid Schultz *	When INFNAN_CHECK is #defined and No_Hex_NaN is not #defined,
cc36ccd1SDavid Schultz *	strtodg also accepts (case insensitively) strings of the form
ae2cbf4cSDavid Schultz *	NaN(x), where x is a string of hexadecimal digits (optionally
ae2cbf4cSDavid Schultz *	preceded by 0x or 0X) and spaces; if there is only one string
ae2cbf4cSDavid Schultz *	of hexadecimal digits, it is taken for the fraction bits of the
ae2cbf4cSDavid Schultz *	resulting NaN; if there are two or more strings of hexadecimal
ae2cbf4cSDavid Schultz *	digits, each string is assigned to the next available sequence
ae2cbf4cSDavid Schultz *	of 32-bit words of fractions bits (starting with the most
ae2cbf4cSDavid Schultz *	significant), right-aligned in each sequence.
ae2cbf4cSDavid Schultz *	Unless GDTOA_NON_PEDANTIC_NANCHECK is #defined, input "NaN(...)"
ae2cbf4cSDavid Schultz *	is consumed even when ... has the wrong form (in which case the
ae2cbf4cSDavid Schultz *	"(...)" is consumed but ignored).
cc36ccd1SDavid Schultz * #define MULTIPLE_THREADS if the system offers preemptively scheduled
cc36ccd1SDavid Schultz *	multiple threads.  In this case, you must provide (or suitably
cc36ccd1SDavid Schultz *	#define) two locks, acquired by ACQUIRE_DTOA_LOCK(n) and freed
cc36ccd1SDavid Schultz *	by FREE_DTOA_LOCK(n) for n = 0 or 1.  (The second lock, accessed
cc36ccd1SDavid Schultz *	in pow5mult, ensures lazy evaluation of only one copy of high
cc36ccd1SDavid Schultz *	powers of 5; omitting this lock would introduce a small
cc36ccd1SDavid Schultz *	probability of wasting memory, but would otherwise be harmless.)
cc36ccd1SDavid Schultz *	You must also invoke freedtoa(s) to free the value s returned by
cc36ccd1SDavid Schultz *	dtoa.  You may do so whether or not MULTIPLE_THREADS is #defined.
cc36ccd1SDavid Schultz * #define IMPRECISE_INEXACT if you do not care about the setting of
cc36ccd1SDavid Schultz *	the STRTOG_Inexact bits in the special case of doing IEEE double
ae2cbf4cSDavid Schultz *	precision conversions (which could also be done by the strtod in
cc36ccd1SDavid Schultz *	dtoa.c).
cc36ccd1SDavid Schultz * #define NO_HEX_FP to disable recognition of C9x's hexadecimal
cc36ccd1SDavid Schultz *	floating-point constants.
cc36ccd1SDavid Schultz * #define -DNO_ERRNO to suppress setting errno (in strtod.c and
cc36ccd1SDavid Schultz *	strtodg.c).
cc36ccd1SDavid Schultz * #define NO_STRING_H to use private versions of memcpy.
cc36ccd1SDavid Schultz *	On some K&R systems, it may also be necessary to
cc36ccd1SDavid Schultz *	#define DECLARE_SIZE_T in this case.
cc36ccd1SDavid Schultz * #define YES_ALIAS to permit aliasing certain double values with
cc36ccd1SDavid Schultz *	arrays of ULongs.  This leads to slightly better code with
cc36ccd1SDavid Schultz *	some compilers and was always used prior to 19990916, but it
cc36ccd1SDavid Schultz *	is not strictly legal and can cause trouble with aggressively
cc36ccd1SDavid Schultz *	optimizing compilers (e.g., gcc 2.95.1 under -O2).
cc36ccd1SDavid Schultz * #define USE_LOCALE to use the current locale's decimal_point value.
cc36ccd1SDavid Schultz */
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz#ifndef GDTOAIMP_H_INCLUDED
cc36ccd1SDavid Schultz#define GDTOAIMP_H_INCLUDED
9cb41668SDavid Schultz
9cb41668SDavid Schultz#define	Long	int
9cb41668SDavid Schultz
cc36ccd1SDavid Schultz#include "gdtoa.h"
27314703SDavid Schultz#include "gd_qnan.h"
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz#ifdef DEBUG
cc36ccd1SDavid Schultz#include "stdio.h"
cc36ccd1SDavid Schultz#define Bug(x) {fprintf(stderr, "%s\n", x); exit(1);}
cc36ccd1SDavid Schultz#endif
cc36ccd1SDavid Schultz
de9840c6SDavid Schultz#include "limits.h"
cc36ccd1SDavid Schultz#include "stdlib.h"
cc36ccd1SDavid Schultz#include "string.h"
de9840c6SDavid Schultz#include "libc_private.h"
d086ded3SDavid Schultz
d086ded3SDavid Schultz#include "namespace.h"
d086ded3SDavid Schultz#include <pthread.h>
d086ded3SDavid Schultz#include "un-namespace.h"
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz#ifdef KR_headers
cc36ccd1SDavid Schultz#define Char char
cc36ccd1SDavid Schultz#else
cc36ccd1SDavid Schultz#define Char void
cc36ccd1SDavid Schultz#endif
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz#ifdef MALLOC
cc36ccd1SDavid Schultzextern Char *MALLOC ANSI((size_t));
cc36ccd1SDavid Schultz#else
cc36ccd1SDavid Schultz#define MALLOC malloc
cc36ccd1SDavid Schultz#endif
cc36ccd1SDavid Schultz
de9840c6SDavid Schultz#define INFNAN_CHECK
1dd3a3dbSDavid Schultz#define USE_LOCALE
ba54cdcdSDavid Schultz#define Honor_FLT_ROUNDS
ae2cbf4cSDavid Schultz#define Trust_FLT_ROUNDS
de9840c6SDavid Schultz
cc36ccd1SDavid Schultz#undef IEEE_Arith
cc36ccd1SDavid Schultz#undef Avoid_Underflow
cc36ccd1SDavid Schultz#ifdef IEEE_MC68k
cc36ccd1SDavid Schultz#define IEEE_Arith
cc36ccd1SDavid Schultz#endif
cc36ccd1SDavid Schultz#ifdef IEEE_8087
cc36ccd1SDavid Schultz#define IEEE_Arith
cc36ccd1SDavid Schultz#endif
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz#include "errno.h"
cc36ccd1SDavid Schultz#ifdef Bad_float_h
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz#ifdef IEEE_Arith
cc36ccd1SDavid Schultz#define DBL_DIG 15
cc36ccd1SDavid Schultz#define DBL_MAX_10_EXP 308
cc36ccd1SDavid Schultz#define DBL_MAX_EXP 1024
cc36ccd1SDavid Schultz#define FLT_RADIX 2
cc36ccd1SDavid Schultz#define DBL_MAX 1.7976931348623157e+308
cc36ccd1SDavid Schultz#endif
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz#ifdef IBM
cc36ccd1SDavid Schultz#define DBL_DIG 16
cc36ccd1SDavid Schultz#define DBL_MAX_10_EXP 75
cc36ccd1SDavid Schultz#define DBL_MAX_EXP 63
cc36ccd1SDavid Schultz#define FLT_RADIX 16
cc36ccd1SDavid Schultz#define DBL_MAX 7.2370055773322621e+75
cc36ccd1SDavid Schultz#endif
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz#ifdef VAX
cc36ccd1SDavid Schultz#define DBL_DIG 16
cc36ccd1SDavid Schultz#define DBL_MAX_10_EXP 38
cc36ccd1SDavid Schultz#define DBL_MAX_EXP 127
cc36ccd1SDavid Schultz#define FLT_RADIX 2
cc36ccd1SDavid Schultz#define DBL_MAX 1.7014118346046923e+38
cc36ccd1SDavid Schultz#define n_bigtens 2
cc36ccd1SDavid Schultz#endif
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz#ifndef LONG_MAX
cc36ccd1SDavid Schultz#define LONG_MAX 2147483647
cc36ccd1SDavid Schultz#endif
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz#else /* ifndef Bad_float_h */
cc36ccd1SDavid Schultz#include "float.h"
cc36ccd1SDavid Schultz#endif /* Bad_float_h */
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz#ifdef IEEE_Arith
cc36ccd1SDavid Schultz#define Scale_Bit 0x10
cc36ccd1SDavid Schultz#define n_bigtens 5
cc36ccd1SDavid Schultz#endif
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz#ifdef IBM
cc36ccd1SDavid Schultz#define n_bigtens 3
cc36ccd1SDavid Schultz#endif
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz#ifdef VAX
cc36ccd1SDavid Schultz#define n_bigtens 2
cc36ccd1SDavid Schultz#endif
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz#ifndef __MATH_H__
cc36ccd1SDavid Schultz#include "math.h"
cc36ccd1SDavid Schultz#endif
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz#ifdef __cplusplus
cc36ccd1SDavid Schultzextern "C" {
cc36ccd1SDavid Schultz#endif
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz#if defined(IEEE_8087) + defined(IEEE_MC68k) + defined(VAX) + defined(IBM) != 1
cc36ccd1SDavid SchultzExactly one of IEEE_8087, IEEE_MC68k, VAX, or IBM should be defined.
cc36ccd1SDavid Schultz#endif
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultztypedef union { double d; ULong L[2]; } U;
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz#ifdef YES_ALIAS
cc36ccd1SDavid Schultz#define dval(x) x
cc36ccd1SDavid Schultz#ifdef IEEE_8087
cc36ccd1SDavid Schultz#define word0(x) ((ULong *)&x)[1]
cc36ccd1SDavid Schultz#define word1(x) ((ULong *)&x)[0]
cc36ccd1SDavid Schultz#else
cc36ccd1SDavid Schultz#define word0(x) ((ULong *)&x)[0]
cc36ccd1SDavid Schultz#define word1(x) ((ULong *)&x)[1]
cc36ccd1SDavid Schultz#endif
cc36ccd1SDavid Schultz#else /* !YES_ALIAS */
cc36ccd1SDavid Schultz#ifdef IEEE_8087
cc36ccd1SDavid Schultz#define word0(x) ((U*)&x)->L[1]
cc36ccd1SDavid Schultz#define word1(x) ((U*)&x)->L[0]
cc36ccd1SDavid Schultz#else
cc36ccd1SDavid Schultz#define word0(x) ((U*)&x)->L[0]
cc36ccd1SDavid Schultz#define word1(x) ((U*)&x)->L[1]
cc36ccd1SDavid Schultz#endif
cc36ccd1SDavid Schultz#define dval(x) ((U*)&x)->d
cc36ccd1SDavid Schultz#endif /* YES_ALIAS */
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz/* The following definition of Storeinc is appropriate for MIPS processors.
cc36ccd1SDavid Schultz * An alternative that might be better on some machines is
cc36ccd1SDavid Schultz * #define Storeinc(a,b,c) (*a++ = b << 16 | c & 0xffff)
cc36ccd1SDavid Schultz */
cc36ccd1SDavid Schultz#if defined(IEEE_8087) + defined(VAX)
cc36ccd1SDavid Schultz#define Storeinc(a,b,c) (((unsigned short *)a)[1] = (unsigned short)b, \
cc36ccd1SDavid Schultz((unsigned short *)a)[0] = (unsigned short)c, a++)
cc36ccd1SDavid Schultz#else
cc36ccd1SDavid Schultz#define Storeinc(a,b,c) (((unsigned short *)a)[0] = (unsigned short)b, \
cc36ccd1SDavid Schultz((unsigned short *)a)[1] = (unsigned short)c, a++)
cc36ccd1SDavid Schultz#endif
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz/* #define P DBL_MANT_DIG */
cc36ccd1SDavid Schultz/* Ten_pmax = floor(P*log(2)/log(5)) */
cc36ccd1SDavid Schultz/* Bletch = (highest power of 2 < DBL_MAX_10_EXP) / 16 */
cc36ccd1SDavid Schultz/* Quick_max = floor((P-1)*log(FLT_RADIX)/log(10) - 1) */
cc36ccd1SDavid Schultz/* Int_max = floor(P*log(FLT_RADIX)/log(10) - 1) */
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz#ifdef IEEE_Arith
cc36ccd1SDavid Schultz#define Exp_shift  20
cc36ccd1SDavid Schultz#define Exp_shift1 20
cc36ccd1SDavid Schultz#define Exp_msk1    0x100000
cc36ccd1SDavid Schultz#define Exp_msk11   0x100000
cc36ccd1SDavid Schultz#define Exp_mask  0x7ff00000
cc36ccd1SDavid Schultz#define P 53
cc36ccd1SDavid Schultz#define Bias 1023
cc36ccd1SDavid Schultz#define Emin (-1022)
cc36ccd1SDavid Schultz#define Exp_1  0x3ff00000
cc36ccd1SDavid Schultz#define Exp_11 0x3ff00000
cc36ccd1SDavid Schultz#define Ebits 11
cc36ccd1SDavid Schultz#define Frac_mask  0xfffff
cc36ccd1SDavid Schultz#define Frac_mask1 0xfffff
cc36ccd1SDavid Schultz#define Ten_pmax 22
cc36ccd1SDavid Schultz#define Bletch 0x10
cc36ccd1SDavid Schultz#define Bndry_mask  0xfffff
cc36ccd1SDavid Schultz#define Bndry_mask1 0xfffff
cc36ccd1SDavid Schultz#define LSB 1
cc36ccd1SDavid Schultz#define Sign_bit 0x80000000
cc36ccd1SDavid Schultz#define Log2P 1
cc36ccd1SDavid Schultz#define Tiny0 0
cc36ccd1SDavid Schultz#define Tiny1 1
cc36ccd1SDavid Schultz#define Quick_max 14
cc36ccd1SDavid Schultz#define Int_max 14
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz#ifndef Flt_Rounds
cc36ccd1SDavid Schultz#ifdef FLT_ROUNDS
cc36ccd1SDavid Schultz#define Flt_Rounds FLT_ROUNDS
cc36ccd1SDavid Schultz#else
cc36ccd1SDavid Schultz#define Flt_Rounds 1
cc36ccd1SDavid Schultz#endif
cc36ccd1SDavid Schultz#endif /*Flt_Rounds*/
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz#else /* ifndef IEEE_Arith */
cc36ccd1SDavid Schultz#undef  Sudden_Underflow
cc36ccd1SDavid Schultz#define Sudden_Underflow
cc36ccd1SDavid Schultz#ifdef IBM
cc36ccd1SDavid Schultz#undef Flt_Rounds
cc36ccd1SDavid Schultz#define Flt_Rounds 0
cc36ccd1SDavid Schultz#define Exp_shift  24
cc36ccd1SDavid Schultz#define Exp_shift1 24
cc36ccd1SDavid Schultz#define Exp_msk1   0x1000000
cc36ccd1SDavid Schultz#define Exp_msk11  0x1000000
cc36ccd1SDavid Schultz#define Exp_mask  0x7f000000
cc36ccd1SDavid Schultz#define P 14
cc36ccd1SDavid Schultz#define Bias 65
cc36ccd1SDavid Schultz#define Exp_1  0x41000000
cc36ccd1SDavid Schultz#define Exp_11 0x41000000
cc36ccd1SDavid Schultz#define Ebits 8	/* exponent has 7 bits, but 8 is the right value in b2d */
cc36ccd1SDavid Schultz#define Frac_mask  0xffffff
cc36ccd1SDavid Schultz#define Frac_mask1 0xffffff
cc36ccd1SDavid Schultz#define Bletch 4
cc36ccd1SDavid Schultz#define Ten_pmax 22
cc36ccd1SDavid Schultz#define Bndry_mask  0xefffff
cc36ccd1SDavid Schultz#define Bndry_mask1 0xffffff
cc36ccd1SDavid Schultz#define LSB 1
cc36ccd1SDavid Schultz#define Sign_bit 0x80000000
cc36ccd1SDavid Schultz#define Log2P 4
cc36ccd1SDavid Schultz#define Tiny0 0x100000
cc36ccd1SDavid Schultz#define Tiny1 0
cc36ccd1SDavid Schultz#define Quick_max 14
cc36ccd1SDavid Schultz#define Int_max 15
cc36ccd1SDavid Schultz#else /* VAX */
cc36ccd1SDavid Schultz#undef Flt_Rounds
cc36ccd1SDavid Schultz#define Flt_Rounds 1
cc36ccd1SDavid Schultz#define Exp_shift  23
cc36ccd1SDavid Schultz#define Exp_shift1 7
cc36ccd1SDavid Schultz#define Exp_msk1    0x80
cc36ccd1SDavid Schultz#define Exp_msk11   0x800000
cc36ccd1SDavid Schultz#define Exp_mask  0x7f80
cc36ccd1SDavid Schultz#define P 56
cc36ccd1SDavid Schultz#define Bias 129
cc36ccd1SDavid Schultz#define Exp_1  0x40800000
cc36ccd1SDavid Schultz#define Exp_11 0x4080
cc36ccd1SDavid Schultz#define Ebits 8
cc36ccd1SDavid Schultz#define Frac_mask  0x7fffff
cc36ccd1SDavid Schultz#define Frac_mask1 0xffff007f
cc36ccd1SDavid Schultz#define Ten_pmax 24
cc36ccd1SDavid Schultz#define Bletch 2
cc36ccd1SDavid Schultz#define Bndry_mask  0xffff007f
cc36ccd1SDavid Schultz#define Bndry_mask1 0xffff007f
cc36ccd1SDavid Schultz#define LSB 0x10000
cc36ccd1SDavid Schultz#define Sign_bit 0x8000
cc36ccd1SDavid Schultz#define Log2P 1
cc36ccd1SDavid Schultz#define Tiny0 0x80
cc36ccd1SDavid Schultz#define Tiny1 0
cc36ccd1SDavid Schultz#define Quick_max 15
cc36ccd1SDavid Schultz#define Int_max 15
cc36ccd1SDavid Schultz#endif /* IBM, VAX */
cc36ccd1SDavid Schultz#endif /* IEEE_Arith */
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz#ifndef IEEE_Arith
cc36ccd1SDavid Schultz#define ROUND_BIASED
cc36ccd1SDavid Schultz#endif
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz#ifdef RND_PRODQUOT
cc36ccd1SDavid Schultz#define rounded_product(a,b) a = rnd_prod(a, b)
cc36ccd1SDavid Schultz#define rounded_quotient(a,b) a = rnd_quot(a, b)
cc36ccd1SDavid Schultz#ifdef KR_headers
cc36ccd1SDavid Schultzextern double rnd_prod(), rnd_quot();
cc36ccd1SDavid Schultz#else
cc36ccd1SDavid Schultzextern double rnd_prod(double, double), rnd_quot(double, double);
cc36ccd1SDavid Schultz#endif
cc36ccd1SDavid Schultz#else
cc36ccd1SDavid Schultz#define rounded_product(a,b) a *= b
cc36ccd1SDavid Schultz#define rounded_quotient(a,b) a /= b
cc36ccd1SDavid Schultz#endif
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz#define Big0 (Frac_mask1 | Exp_msk1*(DBL_MAX_EXP+Bias-1))
cc36ccd1SDavid Schultz#define Big1 0xffffffff
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz#undef  Pack_16
cc36ccd1SDavid Schultz#ifndef Pack_32
cc36ccd1SDavid Schultz#define Pack_32
cc36ccd1SDavid Schultz#endif
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz#ifdef NO_LONG_LONG
cc36ccd1SDavid Schultz#undef ULLong
cc36ccd1SDavid Schultz#ifdef Just_16
cc36ccd1SDavid Schultz#undef Pack_32
cc36ccd1SDavid Schultz#define Pack_16
cc36ccd1SDavid Schultz/* When Pack_32 is not defined, we store 16 bits per 32-bit Long.
cc36ccd1SDavid Schultz * This makes some inner loops simpler and sometimes saves work
cc36ccd1SDavid Schultz * during multiplications, but it often seems to make things slightly
cc36ccd1SDavid Schultz * slower.  Hence the default is now to store 32 bits per Long.
cc36ccd1SDavid Schultz */
cc36ccd1SDavid Schultz#endif
cc36ccd1SDavid Schultz#else	/* long long available */
cc36ccd1SDavid Schultz#ifndef Llong
cc36ccd1SDavid Schultz#define Llong long long
cc36ccd1SDavid Schultz#endif
cc36ccd1SDavid Schultz#ifndef ULLong
cc36ccd1SDavid Schultz#define ULLong unsigned Llong
cc36ccd1SDavid Schultz#endif
cc36ccd1SDavid Schultz#endif /* NO_LONG_LONG */
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz#ifdef Pack_32
cc36ccd1SDavid Schultz#define ULbits 32
cc36ccd1SDavid Schultz#define kshift 5
cc36ccd1SDavid Schultz#define kmask 31
cc36ccd1SDavid Schultz#define ALL_ON 0xffffffff
cc36ccd1SDavid Schultz#else
cc36ccd1SDavid Schultz#define ULbits 16
cc36ccd1SDavid Schultz#define kshift 4
cc36ccd1SDavid Schultz#define kmask 15
cc36ccd1SDavid Schultz#define ALL_ON 0xffff
cc36ccd1SDavid Schultz#endif
cc36ccd1SDavid Schultz
de9840c6SDavid Schultz#define MULTIPLE_THREADS
d086ded3SDavid Schultzextern pthread_mutex_t __gdtoa_locks[2];
de9840c6SDavid Schultz#define ACQUIRE_DTOA_LOCK(n)	do {				\
de9840c6SDavid Schultz	if (__isthreaded)					\
d086ded3SDavid Schultz		_pthread_mutex_lock(&__gdtoa_locks[n]);		\
de9840c6SDavid Schultz} while(0)
de9840c6SDavid Schultz#define FREE_DTOA_LOCK(n)	do {				\
de9840c6SDavid Schultz	if (__isthreaded)					\
d086ded3SDavid Schultz		_pthread_mutex_unlock(&__gdtoa_locks[n]);	\
de9840c6SDavid Schultz} while(0)
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz#define Kmax 15
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz struct
cc36ccd1SDavid SchultzBigint {
cc36ccd1SDavid Schultz	struct Bigint *next;
cc36ccd1SDavid Schultz	int k, maxwds, sign, wds;
cc36ccd1SDavid Schultz	ULong x[1];
cc36ccd1SDavid Schultz	};
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz typedef struct Bigint Bigint;
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz#ifdef NO_STRING_H
cc36ccd1SDavid Schultz#ifdef DECLARE_SIZE_T
cc36ccd1SDavid Schultztypedef unsigned int size_t;
cc36ccd1SDavid Schultz#endif
cc36ccd1SDavid Schultzextern void memcpy_D2A ANSI((void*, const void*, size_t));
cc36ccd1SDavid Schultz#define Bcopy(x,y) memcpy_D2A(&x->sign,&y->sign,y->wds*sizeof(ULong) + 2*sizeof(int))
cc36ccd1SDavid Schultz#else /* !NO_STRING_H */
cc36ccd1SDavid Schultz#define Bcopy(x,y) memcpy(&x->sign,&y->sign,y->wds*sizeof(ULong) + 2*sizeof(int))
cc36ccd1SDavid Schultz#endif /* NO_STRING_H */
cc36ccd1SDavid Schultz
de9840c6SDavid Schultz/*
de9840c6SDavid Schultz * Paranoia: Protect exported symbols, including ones in files we don't
de9840c6SDavid Schultz * compile right now.  The standard strtof and strtod survive.
de9840c6SDavid Schultz */
de9840c6SDavid Schultz#define	dtoa		__dtoa
de9840c6SDavid Schultz#define	gdtoa		__gdtoa
de9840c6SDavid Schultz#define	freedtoa	__freedtoa
de9840c6SDavid Schultz#define	strtodg		__strtodg
de9840c6SDavid Schultz#define	g_ddfmt		__g_ddfmt
de9840c6SDavid Schultz#define	g_dfmt		__g_dfmt
de9840c6SDavid Schultz#define	g_ffmt		__g_ffmt
de9840c6SDavid Schultz#define	g_Qfmt		__g_Qfmt
de9840c6SDavid Schultz#define	g_xfmt		__g_xfmt
de9840c6SDavid Schultz#define	g_xLfmt		__g_xLfmt
de9840c6SDavid Schultz#define	strtoId		__strtoId
de9840c6SDavid Schultz#define	strtoIdd	__strtoIdd
de9840c6SDavid Schultz#define	strtoIf		__strtoIf
de9840c6SDavid Schultz#define	strtoIQ		__strtoIQ
de9840c6SDavid Schultz#define	strtoIx		__strtoIx
de9840c6SDavid Schultz#define	strtoIxL	__strtoIxL
de9840c6SDavid Schultz#define	strtord		__strtord
de9840c6SDavid Schultz#define	strtordd	__strtordd
de9840c6SDavid Schultz#define	strtorf		__strtorf
de9840c6SDavid Schultz#define	strtorQ		__strtorQ
de9840c6SDavid Schultz#define	strtorx		__strtorx
de9840c6SDavid Schultz#define	strtorxL	__strtorxL
de9840c6SDavid Schultz#define	strtodI		__strtodI
de9840c6SDavid Schultz#define	strtopd		__strtopd
de9840c6SDavid Schultz#define	strtopdd	__strtopdd
de9840c6SDavid Schultz#define	strtopf		__strtopf
de9840c6SDavid Schultz#define	strtopQ		__strtopQ
de9840c6SDavid Schultz#define	strtopx		__strtopx
de9840c6SDavid Schultz#define	strtopxL	__strtopxL
de9840c6SDavid Schultz
de9840c6SDavid Schultz/* Protect gdtoa-internal symbols */
de9840c6SDavid Schultz#define	Balloc		__Balloc_D2A
de9840c6SDavid Schultz#define	Bfree		__Bfree_D2A
de9840c6SDavid Schultz#define	ULtoQ		__ULtoQ_D2A
de9840c6SDavid Schultz#define	ULtof		__ULtof_D2A
de9840c6SDavid Schultz#define	ULtod		__ULtod_D2A
de9840c6SDavid Schultz#define	ULtodd		__ULtodd_D2A
de9840c6SDavid Schultz#define	ULtox		__ULtox_D2A
de9840c6SDavid Schultz#define	ULtoxL		__ULtoxL_D2A
de9840c6SDavid Schultz#define	any_on		__any_on_D2A
de9840c6SDavid Schultz#define	b2d		__b2d_D2A
de9840c6SDavid Schultz#define	bigtens		__bigtens_D2A
de9840c6SDavid Schultz#define	cmp		__cmp_D2A
de9840c6SDavid Schultz#define	copybits	__copybits_D2A
de9840c6SDavid Schultz#define	d2b		__d2b_D2A
de9840c6SDavid Schultz#define	decrement	__decrement_D2A
de9840c6SDavid Schultz#define	diff		__diff_D2A
de9840c6SDavid Schultz#define	dtoa_result	__dtoa_result_D2A
de9840c6SDavid Schultz#define	g__fmt		__g__fmt_D2A
de9840c6SDavid Schultz#define	gethex		__gethex_D2A
de9840c6SDavid Schultz#define	hexdig		__hexdig_D2A
de9840c6SDavid Schultz#define	hexdig_init_D2A	__hexdig_init_D2A
de9840c6SDavid Schultz#define	hexnan		__hexnan_D2A
de9840c6SDavid Schultz#define	hi0bits		__hi0bits_D2A
27314703SDavid Schultz#define	hi0bits_D2A	__hi0bits_D2A
de9840c6SDavid Schultz#define	i2b		__i2b_D2A
de9840c6SDavid Schultz#define	increment	__increment_D2A
de9840c6SDavid Schultz#define	lo0bits		__lo0bits_D2A
de9840c6SDavid Schultz#define	lshift		__lshift_D2A
de9840c6SDavid Schultz#define	match		__match_D2A
de9840c6SDavid Schultz#define	mult		__mult_D2A
de9840c6SDavid Schultz#define	multadd		__multadd_D2A
de9840c6SDavid Schultz#define	nrv_alloc	__nrv_alloc_D2A
de9840c6SDavid Schultz#define	pow5mult	__pow5mult_D2A
de9840c6SDavid Schultz#define	quorem		__quorem_D2A
de9840c6SDavid Schultz#define	ratio		__ratio_D2A
de9840c6SDavid Schultz#define	rshift		__rshift_D2A
de9840c6SDavid Schultz#define	rv_alloc	__rv_alloc_D2A
de9840c6SDavid Schultz#define	s2b		__s2b_D2A
de9840c6SDavid Schultz#define	set_ones	__set_ones_D2A
de9840c6SDavid Schultz#define	strcp		__strcp_D2A
de9840c6SDavid Schultz#define	strcp_D2A      	__strcp_D2A
de9840c6SDavid Schultz#define	strtoIg		__strtoIg_D2A
de9840c6SDavid Schultz#define	sum		__sum_D2A
de9840c6SDavid Schultz#define	tens		__tens_D2A
de9840c6SDavid Schultz#define	tinytens	__tinytens_D2A
de9840c6SDavid Schultz#define	tinytens	__tinytens_D2A
de9840c6SDavid Schultz#define	trailz		__trailz_D2A
de9840c6SDavid Schultz#define	ulp		__ulp_D2A
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz extern char *dtoa_result;
cc36ccd1SDavid Schultz extern CONST double bigtens[], tens[], tinytens[];
cc36ccd1SDavid Schultz extern unsigned char hexdig[];
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz extern Bigint *Balloc ANSI((int));
cc36ccd1SDavid Schultz extern void Bfree ANSI((Bigint*));
cc36ccd1SDavid Schultz extern void ULtof ANSI((ULong*, ULong*, Long, int));
cc36ccd1SDavid Schultz extern void ULtod ANSI((ULong*, ULong*, Long, int));
cc36ccd1SDavid Schultz extern void ULtodd ANSI((ULong*, ULong*, Long, int));
cc36ccd1SDavid Schultz extern void ULtoQ ANSI((ULong*, ULong*, Long, int));
cc36ccd1SDavid Schultz extern void ULtox ANSI((UShort*, ULong*, Long, int));
cc36ccd1SDavid Schultz extern void ULtoxL ANSI((ULong*, ULong*, Long, int));
cc36ccd1SDavid Schultz extern ULong any_on ANSI((Bigint*, int));
cc36ccd1SDavid Schultz extern double b2d ANSI((Bigint*, int*));
cc36ccd1SDavid Schultz extern int cmp ANSI((Bigint*, Bigint*));
cc36ccd1SDavid Schultz extern void copybits ANSI((ULong*, int, Bigint*));
cc36ccd1SDavid Schultz extern Bigint *d2b ANSI((double, int*, int*));
ae2cbf4cSDavid Schultz extern void decrement ANSI((Bigint*));
cc36ccd1SDavid Schultz extern Bigint *diff ANSI((Bigint*, Bigint*));
cc36ccd1SDavid Schultz extern char *dtoa ANSI((double d, int mode, int ndigits,
cc36ccd1SDavid Schultz			int *decpt, int *sign, char **rve));
68369762SDavid Schultz extern void freedtoa ANSI((char*));
628f583cSDavid Schultz extern char *gdtoa ANSI((FPI *fpi, int be, ULong *bits, int *kindp,
628f583cSDavid Schultz			  int mode, int ndigits, int *decpt, char **rve));
cc36ccd1SDavid Schultz extern char *g__fmt ANSI((char*, char*, char*, int, ULong));
cc36ccd1SDavid Schultz extern int gethex ANSI((CONST char**, FPI*, Long*, Bigint**, int));
cc36ccd1SDavid Schultz extern void hexdig_init_D2A(Void);
cc36ccd1SDavid Schultz extern int hexnan ANSI((CONST char**, FPI*, ULong*));
cc36ccd1SDavid Schultz extern int hi0bits ANSI((ULong));
cc36ccd1SDavid Schultz extern Bigint *i2b ANSI((int));
cc36ccd1SDavid Schultz extern Bigint *increment ANSI((Bigint*));
cc36ccd1SDavid Schultz extern int lo0bits ANSI((ULong*));
cc36ccd1SDavid Schultz extern Bigint *lshift ANSI((Bigint*, int));
cc36ccd1SDavid Schultz extern int match ANSI((CONST char**, char*));
cc36ccd1SDavid Schultz extern Bigint *mult ANSI((Bigint*, Bigint*));
cc36ccd1SDavid Schultz extern Bigint *multadd ANSI((Bigint*, int, int));
cc36ccd1SDavid Schultz extern char *nrv_alloc ANSI((char*, char **, int));
cc36ccd1SDavid Schultz extern Bigint *pow5mult ANSI((Bigint*, int));
cc36ccd1SDavid Schultz extern int quorem ANSI((Bigint*, Bigint*));
cc36ccd1SDavid Schultz extern double ratio ANSI((Bigint*, Bigint*));
cc36ccd1SDavid Schultz extern void rshift ANSI((Bigint*, int));
cc36ccd1SDavid Schultz extern char *rv_alloc ANSI((int));
cc36ccd1SDavid Schultz extern Bigint *s2b ANSI((CONST char*, int, int, ULong));
cc36ccd1SDavid Schultz extern Bigint *set_ones ANSI((Bigint*, int));
cc36ccd1SDavid Schultz extern char *strcp ANSI((char*, const char*));
68369762SDavid Schultz extern int strtodg ANSI((CONST char*, char**, FPI*, Long*, ULong*));
68369762SDavid Schultz
68369762SDavid Schultz extern int strtoId ANSI((CONST char *, char **, double *, double *));
68369762SDavid Schultz extern int strtoIdd ANSI((CONST char *, char **, double *, double *));
68369762SDavid Schultz extern int strtoIf ANSI((CONST char *, char **, float *, float *));
cc36ccd1SDavid Schultz extern int strtoIg ANSI((CONST char*, char**, FPI*, Long*, Bigint**, int*));
68369762SDavid Schultz extern int strtoIQ ANSI((CONST char *, char **, void *, void *));
68369762SDavid Schultz extern int strtoIx ANSI((CONST char *, char **, void *, void *));
68369762SDavid Schultz extern int strtoIxL ANSI((CONST char *, char **, void *, void *));
cc36ccd1SDavid Schultz extern double strtod ANSI((const char *s00, char **se));
68369762SDavid Schultz extern int strtopQ ANSI((CONST char *, char **, Void *));
68369762SDavid Schultz extern int strtopf ANSI((CONST char *, char **, float *));
68369762SDavid Schultz extern int strtopd ANSI((CONST char *, char **, double *));
68369762SDavid Schultz extern int strtopdd ANSI((CONST char *, char **, double *));
68369762SDavid Schultz extern int strtopx ANSI((CONST char *, char **, Void *));
68369762SDavid Schultz extern int strtopxL ANSI((CONST char *, char **, Void *));
68369762SDavid Schultz extern int strtord ANSI((CONST char *, char **, int, double *));
68369762SDavid Schultz extern int strtordd ANSI((CONST char *, char **, int, double *));
68369762SDavid Schultz extern int strtorf ANSI((CONST char *, char **, int, float *));
68369762SDavid Schultz extern int strtorQ ANSI((CONST char *, char **, int, void *));
68369762SDavid Schultz extern int strtorx ANSI((CONST char *, char **, int, void *));
68369762SDavid Schultz extern int strtorxL ANSI((CONST char *, char **, int, void *));
cc36ccd1SDavid Schultz extern Bigint *sum ANSI((Bigint*, Bigint*));
cc36ccd1SDavid Schultz extern int trailz ANSI((Bigint*));
cc36ccd1SDavid Schultz extern double ulp ANSI((double));
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz#ifdef __cplusplus
cc36ccd1SDavid Schultz}
cc36ccd1SDavid Schultz#endif
27314703SDavid Schultz/*
27314703SDavid Schultz * NAN_WORD0 and NAN_WORD1 are only referenced in strtod.c.  Prior to
27314703SDavid Schultz * 20050115, they used to be hard-wired here (to 0x7ff80000 and 0,
27314703SDavid Schultz * respectively), but now are determined by compiling and running
27314703SDavid Schultz * qnan.c to generate gd_qnan.h, which specifies d_QNAN0 and d_QNAN1.
27314703SDavid Schultz * Formerly gdtoaimp.h recommended supplying suitable -DNAN_WORD0=...
27314703SDavid Schultz * and -DNAN_WORD1=...  values if necessary.  This should still work.
27314703SDavid Schultz * (On HP Series 700/800 machines, -DNAN_WORD0=0x7ff40000 works.)
27314703SDavid Schultz */
cc36ccd1SDavid Schultz#ifdef IEEE_Arith
cc36ccd1SDavid Schultz#ifdef IEEE_MC68k
cc36ccd1SDavid Schultz#define _0 0
cc36ccd1SDavid Schultz#define _1 1
27314703SDavid Schultz#ifndef NAN_WORD0
27314703SDavid Schultz#define NAN_WORD0 d_QNAN0
27314703SDavid Schultz#endif
27314703SDavid Schultz#ifndef NAN_WORD1
27314703SDavid Schultz#define NAN_WORD1 d_QNAN1
27314703SDavid Schultz#endif
cc36ccd1SDavid Schultz#else
cc36ccd1SDavid Schultz#define _0 1
cc36ccd1SDavid Schultz#define _1 0
27314703SDavid Schultz#ifndef NAN_WORD0
27314703SDavid Schultz#define NAN_WORD0 d_QNAN1
27314703SDavid Schultz#endif
27314703SDavid Schultz#ifndef NAN_WORD1
27314703SDavid Schultz#define NAN_WORD1 d_QNAN0
27314703SDavid Schultz#endif
cc36ccd1SDavid Schultz#endif
cc36ccd1SDavid Schultz#else
cc36ccd1SDavid Schultz#undef INFNAN_CHECK
cc36ccd1SDavid Schultz#endif
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz#undef SI
cc36ccd1SDavid Schultz#ifdef Sudden_Underflow
cc36ccd1SDavid Schultz#define SI 1
cc36ccd1SDavid Schultz#else
cc36ccd1SDavid Schultz#define SI 0
cc36ccd1SDavid Schultz#endif
cc36ccd1SDavid Schultz
cc36ccd1SDavid Schultz#endif /* GDTOAIMP_H_INCLUDED */