/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* Copyright (c) 1988 AT&T */ /* All Rights Reserved */ /* * Copyright 2004 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #ifndef _VALUES_H #define _VALUES_H #pragma ident "%Z%%M% %I% %E% SMI" /* SVr4.0 1.33 */ #include #ifdef __cplusplus extern "C" { #endif /* * These values work with any binary representation of integers * where the high-order bit contains the sign. */ /* a number used normally for size of a shift */ #define BITSPERBYTE 8 #define BITS(type) (BITSPERBYTE * (long)sizeof (type)) /* short, regular and long ints with only the high-order bit turned on */ #define HIBITS ((short)(1 << (BITS(short) - 1))) #if defined(__STDC__) #define HIBITI (1U << (BITS(int) - 1)) #define HIBITL (1UL << (BITS(long) - 1)) #else #define HIBITI ((unsigned)1 << (BITS(int) - 1)) #define HIBITL (1L << (BITS(long) - 1)) #endif /* largest short, regular and long int */ #define MAXSHORT ((short)~HIBITS) #define MAXINT ((int)(~HIBITI)) #define MAXLONG ((long)(~HIBITL)) /* * various values that describe the binary floating-point representation * _EXPBASE - the exponent base * DMAXEXP - the maximum exponent of a double (as returned by frexp()) * FMAXEXP - the maximum exponent of a float (as returned by frexp()) * DMINEXP - the minimum exponent of a double (as returned by frexp()) * FMINEXP - the minimum exponent of a float (as returned by frexp()) * MAXDOUBLE - the largest double * ((_EXPBASE ** DMAXEXP) * (1 - (_EXPBASE ** -DSIGNIF))) * MAXFLOAT - the largest float * ((_EXPBASE ** FMAXEXP) * (1 - (_EXPBASE ** -FSIGNIF))) * MINDOUBLE - the smallest double (_EXPBASE ** (DMINEXP - 1)) * MINFLOAT - the smallest float (_EXPBASE ** (FMINEXP - 1)) * DSIGNIF - the number of significant bits in a double * FSIGNIF - the number of significant bits in a float * DMAXPOWTWO - the largest power of two exactly representable as a double * FMAXPOWTWO - the largest power of two exactly representable as a float * _IEEE - 1 if IEEE standard representation is used * _DEXPLEN - the number of bits for the exponent of a double * _FEXPLEN - the number of bits for the exponent of a float * _HIDDENBIT - 1 if high-significance bit of mantissa is implicit * LN_MAXDOUBLE - the natural log of the largest double -- log(MAXDOUBLE) * LN_MINDOUBLE - the natural log of the smallest double -- log(MINDOUBLE) * LN_MAXFLOAT - the natural log of the largest float -- log(MAXFLOAT) * LN_MINFLOAT - the natural log of the smallest float -- log(MINFLOAT) */ /* * Currently, only IEEE-754 format is supported. */ #if defined(_IEEE_754) #define MAXDOUBLE 1.79769313486231570e+308 #define MAXFLOAT ((float)3.40282346638528860e+38) #define MINDOUBLE 4.94065645841246544e-324 #define MINFLOAT ((float)1.40129846432481707e-45) #define _IEEE 1 #define _DEXPLEN 11 #define _HIDDENBIT 1 #define _LENBASE 1 #define DMINEXP (-(DMAXEXP + DSIGNIF - _HIDDENBIT - 3)) #define FMINEXP (-(FMAXEXP + FSIGNIF - _HIDDENBIT - 3)) #else /* #error is strictly ansi-C, but works as well as anything for K&R systems. */ #error "ISA not supported" #endif #define _EXPBASE (1 << _LENBASE) #define _FEXPLEN 8 #define DSIGNIF (BITS(double) - _DEXPLEN + _HIDDENBIT - 1) #define FSIGNIF (BITS(float) - _FEXPLEN + _HIDDENBIT - 1) #define DMAXPOWTWO ((double)(1 << (BITS(int) - 2)) * \ (1 << (DSIGNIF - BITS(int) + 1))) #define FMAXPOWTWO ((float)(1 << (FSIGNIF - 1))) #define DMAXEXP ((1 << (_DEXPLEN - 1)) - 1 + _IEEE) #define FMAXEXP ((1 << (_FEXPLEN - 1)) - 1 + _IEEE) #define LN_MAXDOUBLE (M_LN2 * DMAXEXP) #define LN_MAXFLOAT (float)(M_LN2 * FMAXEXP) #define LN_MINDOUBLE (M_LN2 * (DMINEXP - 1)) #define LN_MINFLOAT (float)(M_LN2 * (FMINEXP - 1)) #define H_PREC (DSIGNIF % 2 ? (1 << DSIGNIF/2) * M_SQRT2 : 1 << DSIGNIF/2) #define FH_PREC \ (float)(FSIGNIF % 2 ? (1 << FSIGNIF/2) * M_SQRT2 : 1 << FSIGNIF/2) #define X_EPS (1.0/H_PREC) #define FX_EPS (float)((float)1.0/FH_PREC) #define X_PLOSS ((double)(int)(M_PI * H_PREC)) #define FX_PLOSS ((float)(int)(M_PI * FH_PREC)) #define X_TLOSS (M_PI * DMAXPOWTWO) #define FX_TLOSS (float)(M_PI * FMAXPOWTWO) #define M_LN2 0.69314718055994530942 #define M_PI 3.14159265358979323846 #define M_SQRT2 1.41421356237309504880 #define MAXBEXP DMAXEXP /* for backward compatibility */ #define MINBEXP DMINEXP /* for backward compatibility */ #define MAXPOWTWO DMAXPOWTWO /* for backward compatibility */ #ifdef __cplusplus } #endif #endif /* _VALUES_H */