/*************************************************************************** * FILE: math.h/cmath (Math functions) * * ========================================================================= * * Open Watcom Project * * Copyright (c) 2002-2010 Open Watcom Contributors. All Rights Reserved. * Portions Copyright (c) 1983-2002 Sybase, Inc. All Rights Reserved. * * This file is automatically generated. Do not edit directly. * * ========================================================================= * * Description: This header is part of the C/C++ standard library. It * describes the math functions provided by those standards. ***************************************************************************/ #ifndef _CMATH_INCLUDED #define _CMATH_INCLUDED #ifndef _ENABLE_AUTODEPEND #pragma read_only_file; #endif #ifndef __cplusplus #error This header file requires C++ #endif #ifndef _COMDEF_H_INCLUDED #include <_comdef.h> #endif extern "C" { #ifdef _M_IX86 #pragma pack( __push, 1 ) #else #pragma pack( __push, 8 ) #endif _WCRTLINK extern const double *__get_HugeValue_ptr( void ); #if defined(__FUNCTION_DATA_ACCESS) #define _HugeValue (*__get_HugeValue_ptr()) #elif defined(__SW_BR) || defined(_RTDLL) #define _HugeValue _HugeValue_br #endif _WCRTDATA extern const double _WCDATA _HugeValue; #define HUGE_VAL _HugeValue /* Internal library helper routines */ _WMRTLINK extern int _FSClass( float __x ); _WMRTLINK extern int _FDClass( double __x ); _WMRTLINK extern int _FLClass( long double __x ); _WMRTLINK extern int _FSSign( float __x ); _WMRTLINK extern int _FDSign( double __x ); _WMRTLINK extern int _FLSign( long double __x ); /* Floating-point classification macros */ #define FP_ZERO 0 #define FP_SUBNORMAL 1 #define FP_NORMAL 2 #define FP_NAN 3 #define FP_INFINITE 4 #define fpclassify(x) \ ((sizeof(x) == sizeof(float)) ? _FSClass(x) : \ (sizeof(x) == sizeof(double)) ? _FDClass(x) : \ _FLClass(x)) #define isfinite(x) (fpclassify(x) <= FP_NORMAL) #define isinf(x) (fpclassify(x) == FP_INFINITE) #define isnan(x) (fpclassify(x) == FP_NAN) #define isnormal(x) (fpclassify(x) == FP_NORMAL) #define signbit(x) \ ((sizeof(x) == sizeof(float)) ? _FSSign(x) : \ (sizeof(x) == sizeof(double)) ? _FDSign(x) : \ _FLSign(x)) /* Floating-point Infinity and NaN constants */ _WMRTDATA extern const float __f_infinity; _WMRTDATA extern const float __f_posqnan; #define INFINITY __f_infinity #define NAN __f_posqnan namespace std { _WMRTLINK extern double ceil( double __x ); _WMRTLINK extern double floor( double __x ); #if defined(_M_IX86) && 0 #pragma aux ceil parm nomemory modify nomemory; #pragma aux floor parm nomemory modify nomemory; #endif _WMRTLINK extern double frexp( double __value, int *__exp ); _WMRTLINK extern double ldexp( double __x, int __exp ); _WMRTLINK extern double modf( double __value, double *__iptr ); _WMIRTLINK extern double acos( double __x ); _WMIRTLINK extern double asin( double __x ); _WMIRTLINK extern double atan( double __x ); _WMIRTLINK extern double atan2( double __y, double __x ); _WMIRTLINK extern double cos( double __x ); _WMIRTLINK extern double cosh( double __x ); _WMIRTLINK extern double exp( double __x ); _WMIRTLINK extern double fabs( double __x ); _WMIRTLINK extern double fmod( double __x, double __y ); _WMIRTLINK extern double log( double __x ); _WMIRTLINK extern double log10( double __x ); _WMIRTLINK extern double pow( double __x, double __y ); _WMIRTLINK extern double sin( double __x ); _WMIRTLINK extern double sinh( double __x ); _WMIRTLINK extern double sqrt( double __x ); _WMIRTLINK extern double tan( double __x ); _WMIRTLINK extern double tanh( double __x ); } // namespace std #if !defined(NO_EXT_KEYS) /* extensions enabled */ /* non-ANSI */ struct _complex { double x; double y; }; namespace std { _WMRTLINK extern double acosh( double __x ); _WMRTLINK extern double asinh( double __x ); _WMRTLINK extern double atanh( double __x ); _WMRTLINK extern double hypot( double __x, double __y ); _WMRTLINK extern double log2( double __x ); } _WMRTLINK extern double cabs( struct _complex ); _WMRTLINK extern double j0( double __x ); _WMRTLINK extern double j1( double __x ); _WMRTLINK extern double jn( int __n, double __x ); _WMRTLINK extern double y0( double __x ); _WMRTLINK extern double y1( double __x ); _WMRTLINK extern double yn( int __n, double __x ); /* The following struct is used to record errors detected in the math library. * matherr is called with a pointer to this struct for possible error recovery. */ struct _exception { int type; /* type of error, see below */ char *name; /* name of math function */ double arg1; /* value of first argument to function */ double arg2; /* second argument (if indicated) */ double retval; /* default return value */ }; #define DOMAIN 1 /* argument domain error */ #define SING 2 /* argument singularity */ #define OVERFLOW 3 /* overflow range error */ #define UNDERFLOW 4 /* underflow range error */ #define TLOSS 5 /* total loss of significance */ #define PLOSS 6 /* partial loss of significance */ _WMRTLINK extern int matherr( struct _exception * ); _WMRTLINK extern double _matherr( struct _exception * ); _WMRTLINK extern void _set_matherr( int (*rtn)( struct _exception * ) ); _WCRTLINK extern int _dieeetomsbin( double *__x, double *__y ); _WCRTLINK extern int _dmsbintoieee( double *__x, double *__y ); _WCRTLINK extern int _fieeetomsbin( float *__x, float *__y ); _WCRTLINK extern int _fmsbintoieee( float *__x, float *__y ); #endif /* extensions enabled */ #if !defined(__NO_MATH_OPS) && defined(_M_IX86) /* Defining the __NO_MATH_OPS macro will stop the compiler from recognizing the following functions as intrinsic operators. */ namespace std { #pragma intrinsic(log,cos,sin,tan,sqrt,fabs,pow,atan2,fmod) #pragma intrinsic(acos,asin,atan,cosh,exp,log10,sinh,tanh) } #endif #pragma pack( __pop ) } /* extern "C" */ #endif #ifndef _INCLUDED_FROM_MATH_H #ifndef _CMATH_AUX_INCLUDED #define _CMATH_AUX_INCLUDED namespace std { // double inline double abs( double __x ) { return( fabs( __x ) ); } inline double pow( double __x, int __y ) { return( pow( __x, (double)__y ) ); } // float inline float abs ( float __x ) { return( abs ( (double)__x ) ); } inline float acos ( float __x ) { return( acos ( (double)__x ) ); } inline float asin ( float __x ) { return( asin ( (double)__x ) ); } inline float atan ( float __x ) { return( atan ( (double)__x ) ); } inline float atan2( float __x, float __y ) { return( atan2( (double)__x, (double)__y ) ); } inline float ceil ( float __x ) { return( ceil ( (double)__x ) ); } inline float cos ( float __x ) { return( cos ( (double)__x ) ); } inline float cosh ( float __x ) { return( cosh ( (double)__x ) ); } inline float exp ( float __x ) { return( exp ( (double)__x ) ); } inline float fabs ( float __x ) { return( fabs ( (double)__x ) ); } inline float floor( float __x ) { return( floor( (double)__x ) ); } inline float fmod ( float __x, float __y ) { return( fmod( (double)__x, (double)__y ) ); } inline float frexp( float __value, int *__exp ) { return( frexp( (double)__value, __exp ) ); } inline float ldexp( float __x, int __exp ) { return( ldexp( (double)__x, __exp ) ); } inline float log ( float __x ) { return( log ( (double)__x ) ); } inline float log10( float __x ) { return( log10( (double)__x ) ); } inline float modf ( float __value, float *__iptr ) { float __result; double __i; __result = modf( (double)__value, &__i ); *__iptr = __i; return( __result ); } inline float pow ( float __x, float __y ) { return( pow ( (double)__x, (double)__y ) ); } inline float pow ( float __x, int __y ) { return( pow ( (double)__x, __y ) ); } inline float sin ( float __x ) { return( sin ( (double)__x ) ); } inline float sinh ( float __x ) { return( sinh ( (double)__x ) ); } inline float sqrt ( float __x ) { return( sqrt ( (double)__x ) ); } inline float tan ( float __x ) { return( tan ( (double)__x ) ); } inline float tanh ( float __x ) { return( tanh ( (double)__x ) ); } // long double inline long double abs ( long double __x ) { return( abs ( (double)__x ) ); } inline long double acos ( long double __x ) { return( acos ( (double)__x ) ); } inline long double asin ( long double __x ) { return( asin ( (double)__x ) ); } inline long double atan ( long double __x ) { return( atan ( (double)__x ) ); } inline long double atan2( long double __x, long double __y ) { return( atan2( (double)__x, (double)__y ) ); } inline long double ceil ( long double __x ) { return( ceil ( (double)__x ) ); } inline long double cos ( long double __x ) { return( cos ( (double)__x ) ); } inline long double cosh ( long double __x ) { return( cosh ( (double)__x ) ); } inline long double exp ( long double __x ) { return( exp ( (double)__x ) ); } inline long double fabs ( long double __x ) { return( fabs ( (double)__x ) ); } inline long double floor( long double __x ) { return( floor( (double)__x ) ); } inline long double fmod ( long double __x, long double __y ) { return( fmod( (double)__x, (double)__y ) ); } inline long double frexp( long double __value, int *__exp ) { return( frexp( (double)__value, __exp ) ); } inline long double ldexp( long double __x, int __exp ) { return( ldexp( (double)__x, __exp ) ); } inline long double log ( long double __x ) { return( log ( (double)__x ) ); } inline long double log10( long double __x ) { return( log10( (double)__x ) ); } inline long double modf ( long double __value, long double *__iptr ) { long double __result; double __i; __result = modf( (double)__value, &__i ); *__iptr = __i; return( __result ); } inline long double pow ( long double __x, long double __y ) { return( pow ( (double)__x, (double)__y ) ); } inline long double pow ( long double __x, int __y ) { return( pow ( (double)__x, __y ) ); } inline long double sin ( long double __x ) { return( sin ( (double)__x ) ); } inline long double sinh ( long double __x ) { return( sinh ( (double)__x ) ); } inline long double sqrt ( long double __x ) { return( sqrt ( (double)__x ) ); } inline long double tan ( long double __x ) { return( tan ( (double)__x ) ); } inline long double tanh ( long double __x ) { return( tanh ( (double)__x ) ); } } // namespace std #endif #endif