/* bcd.h BCD Number Library - Include File class bcd: declarations for decimal numbers. */ /* * C/C++ Run Time Library - Version 10.0 * * Copyright (c) 1987, 2000 by Inprise Corporation * All Rights Reserved. * */ /* $Revision: 9.5 $ */ #ifndef __BCD_H #define __BCD_H #ifndef __cplusplus #error Must use C++ for the type bcd. #endif #ifndef ___STDDEF_H #include <_stddef.h> #endif #if !defined(__MATH_H) #include #endif #include #if !defined(RC_INVOKED) #pragma pack(push, 1) #if defined(__STDC__) #pragma warn -nak #endif #endif /* !RC_INVOKED */ #define _BcdMaxDecimals 5000 class _EXPCLASS bcd { public: // constructors _RTLENTRY bcd(); _RTLENTRY bcd(int x); _RTLENTRY bcd(unsigned int x); _RTLENTRY bcd(long x); _RTLENTRY bcd(unsigned long x); _RTLENTRY bcd(double x, int decimals = _BcdMaxDecimals); _RTLENTRY bcd(long double x, int decimals = _BcdMaxDecimals); // bcd manipulations friend inline long double _RTLENTRY real(const bcd &); // Return the real part // Overloaded ANSI C math functions friend inline bcd _RTLENTRY _EXPFUNC abs(const bcd &); friend inline bcd _RTLENTRY _EXPFUNC acos(const bcd &); friend inline bcd _RTLENTRY _EXPFUNC asin(const bcd &); friend inline bcd _RTLENTRY _EXPFUNC atan(const bcd &); friend inline bcd _RTLENTRY _EXPFUNC cos(const bcd &); friend inline bcd _RTLENTRY _EXPFUNC cosh(const bcd &); friend inline bcd _RTLENTRY _EXPFUNC exp(const bcd &); friend inline bcd _RTLENTRY _EXPFUNC log(const bcd &); friend inline bcd _RTLENTRY _EXPFUNC log10(const bcd &); friend inline bcd _RTLENTRY _EXPFUNC pow(const bcd & base, const bcd & expon); friend inline bcd _RTLENTRY _EXPFUNC sin(const bcd &); friend inline bcd _RTLENTRY _EXPFUNC sinh(const bcd &); friend inline bcd _RTLENTRY _EXPFUNC sqrt(const bcd &); friend inline bcd _RTLENTRY _EXPFUNC tan(const bcd &); friend inline bcd _RTLENTRY _EXPFUNC tanh(const bcd &); // Binary Operator Functions friend inline bcd _RTLENTRY _EXPFUNC operator+(const bcd &, const bcd &); friend inline bcd _RTLENTRY _EXPFUNC operator+(long double, const bcd &); friend inline bcd _RTLENTRY _EXPFUNC operator+(const bcd &, long double); friend inline bcd _RTLENTRY _EXPFUNC operator-(const bcd &, const bcd &); friend inline bcd _RTLENTRY _EXPFUNC operator-(long double, const bcd &); friend inline bcd _RTLENTRY _EXPFUNC operator-(const bcd &, long double); friend inline bcd _RTLENTRY _EXPFUNC operator*(const bcd &, const bcd &); friend inline bcd _RTLENTRY _EXPFUNC operator*(const bcd &, long double); friend inline bcd _RTLENTRY _EXPFUNC operator*(long double, const bcd &); friend inline bcd _RTLENTRY _EXPFUNC operator/(const bcd &, const bcd &); friend inline bcd _RTLENTRY _EXPFUNC operator/(const bcd &, long double); friend inline bcd _RTLENTRY _EXPFUNC operator/(long double, const bcd &); friend inline int _RTLENTRY _EXPFUNC operator==(const bcd &, const bcd &); friend inline int _RTLENTRY _EXPFUNC operator!=(const bcd &, const bcd &); friend inline int _RTLENTRY _EXPFUNC operator>=(const bcd &, const bcd &); friend inline int _RTLENTRY _EXPFUNC operator<=(const bcd &, const bcd &); friend inline int _RTLENTRY _EXPFUNC operator>(const bcd &, const bcd &); friend inline int _RTLENTRY _EXPFUNC operator<(const bcd &, const bcd &); bcd & _RTLENTRY operator+=(const bcd &); bcd & _RTLENTRY operator+=(long double); bcd & _RTLENTRY operator-=(const bcd &); bcd & _RTLENTRY operator-=(long double); bcd & _RTLENTRY operator*=(const bcd &); bcd & _RTLENTRY operator*=(long double); bcd & _RTLENTRY operator/=(const bcd &); bcd & _RTLENTRY operator/=(long double); bcd _RTLENTRY operator+(); bcd _RTLENTRY operator-(); // Implementation private: long mantissa[2]; int expo; }; // const bcd _bcd_zero(0); enum _bcdexpo { _ExpoZero, _ExpoInf, _ExpoNan }; extern "C" { long double _RTLENTRY _EXPFUNC __bcd_tobinary (const bcd *p); void _RTLENTRY _EXPFUNC __bcd_todecimal(long double x, int decimals, bcd *p); long double _RTLENTRY _EXPFUNC __bcd_log10 (const bcd *p); void _RTLENTRY _EXPFUNC __bcd_pow10 (int n, bcd *p); } inline _RTLENTRY bcd::bcd() { /* if you want zero ... mantissa[0] = 0; mantissa[1] = 0; expo = ExpoZero; */ } inline _RTLENTRY bcd::bcd(long double x, int decimals) { __bcd_todecimal(x,decimals,this); } inline _RTLENTRY bcd::bcd(double x, int decimals) { __bcd_todecimal(x,decimals,this); } inline _RTLENTRY bcd::bcd(int x) { mantissa[0] = x; mantissa[1] = x >= 0 ? 0 : -1; expo = 0; } inline _RTLENTRY bcd::bcd(unsigned int x) { mantissa[0] = x; mantissa[1] = 0; expo = 0; } inline _RTLENTRY bcd::bcd(long x) { mantissa[0] = x; mantissa[1] = x >= 0 ? 0 : -1; expo = 0; } inline _RTLENTRY bcd::bcd(unsigned long x) { mantissa[0] = x; mantissa[1] = 0; expo = 0; } inline long double _RTLENTRY real(const bcd &z) { return __bcd_tobinary(&z); } // Definitions of compound-assignment operator member functions inline bcd& _RTLENTRY bcd::operator+=(const bcd &b) { __bcd_todecimal(real(*this)+real(b),_BcdMaxDecimals,this); return *this; } inline bcd& _RTLENTRY bcd::operator+=(long double b) { __bcd_todecimal(real(*this)+b,_BcdMaxDecimals,this); return *this; } inline bcd& _RTLENTRY bcd::operator-=(const bcd &b) { __bcd_todecimal(real(*this)-real(b),_BcdMaxDecimals,this); return *this; } inline bcd& _RTLENTRY bcd::operator-=(long double b) { __bcd_todecimal(real(*this)-b,_BcdMaxDecimals,this); return *this; } inline bcd& _RTLENTRY bcd::operator*=(const bcd &b) { __bcd_todecimal(real(*this)*real(b),_BcdMaxDecimals,this); return *this; } inline bcd& _RTLENTRY bcd::operator*=(long double b) { __bcd_todecimal(real(*this)*b,_BcdMaxDecimals,this); return *this; } inline bcd& _RTLENTRY bcd::operator/=(const bcd &b) { __bcd_todecimal(real(*this)/real(b),_BcdMaxDecimals,this); return *this; } inline bcd& _RTLENTRY bcd::operator/=(long double b) { __bcd_todecimal(real(*this)/b,_BcdMaxDecimals,this); return *this; } // Definitions of non-member binary operator functions inline bcd _RTLENTRY operator+(const bcd &a, const bcd &b) { return bcd(real(a) + real(b)); } inline bcd _RTLENTRY operator+(long double a, const bcd &b) { return bcd(a + real(b)); } inline bcd _RTLENTRY operator+(const bcd &a, long double b) { return bcd(real(a) + b); } inline bcd _RTLENTRY operator-(const bcd &a, const bcd &b) { return bcd(real(a) - real(b)); } inline bcd _RTLENTRY operator-(long double a, const bcd &b) { return bcd(a - real(b)); } inline bcd _RTLENTRY operator-(const bcd &a, long double b) { return bcd(real(a) - b); } inline bcd _RTLENTRY operator*(const bcd &a, const bcd &b) { return bcd(real(a) * real(b)); } inline bcd _RTLENTRY operator*(const bcd &a, long double b) { return bcd(real(a) * b); } inline bcd _RTLENTRY operator*(long double a, const bcd &b) { return bcd(a * real(b)); } inline bcd _RTLENTRY operator/(const bcd &a, const bcd &b) { return bcd(real(a) / real(b)); } inline bcd _RTLENTRY operator/(long double a, const bcd &b) { return bcd(a / real(b)); } inline bcd _RTLENTRY operator/(const bcd &a, long double b) { return bcd(real(a) / b); } inline int _RTLENTRY operator==(const bcd &a, const bcd &b) { return real(a) == real(b); } inline int _RTLENTRY operator!=(const bcd &a, const bcd &b) { return real(a) != real(b); } inline int _RTLENTRY operator>=(const bcd &a, const bcd &b) { return real(a) >= real(b); } inline int _RTLENTRY operator<=(const bcd &a, const bcd &b) { return real(a) <= real(b); } inline int _RTLENTRY operator>(const bcd &a, const bcd &b) { return real(a) > real(b); } inline int _RTLENTRY operator<(const bcd &a, const bcd &b) { return real(a) < real(b); } inline bcd _RTLENTRY bcd::operator+() { return *this; } inline bcd _RTLENTRY bcd::operator-() { return bcd(-real(*this)); } inline bcd _RTLENTRY abs(const bcd& a) { return bcd(fabs(real(a)));} inline bcd _RTLENTRY acos(const bcd& a) { return bcd(acos(real(a)));} inline bcd _RTLENTRY asin(const bcd& a) { return bcd(asin(real(a)));} inline bcd _RTLENTRY atan(const bcd& a) { return bcd(atan(real(a)));} inline bcd _RTLENTRY cos(const bcd& a) { return bcd(cos(real(a)));} inline bcd _RTLENTRY cosh(const bcd& a) { return bcd(cosh(real(a)));} inline bcd _RTLENTRY exp(const bcd& a) { return bcd(exp(real(a)));} inline bcd _RTLENTRY log(const bcd& a) { return bcd(log(real(a)));} inline bcd _RTLENTRY log10(const bcd& a) { return bcd(__bcd_log10(&a));} inline bcd _RTLENTRY sin(const bcd& a) { return bcd(sin(real(a)));} inline bcd _RTLENTRY sinh(const bcd& a) { return bcd(sinh(real(a)));} inline bcd _RTLENTRY sqrt(const bcd& a) { return bcd(sqrt(real(a)));} inline bcd _RTLENTRY tan(const bcd& a) { return bcd(tan(real(a)));} inline bcd _RTLENTRY tanh(const bcd& a) { return bcd(tanh(real(a)));} inline bcd _RTLENTRY pow(const bcd& a, const bcd& b) { return bcd(pow(real(a),real(b)));} inline void _RTLENTRY pow10(int n, bcd& a) { __bcd_pow10(n,&a);} // bcd stream I/O std::ostream & _RTLENTRY _EXPFUNC operator<<(std::ostream &, const bcd &); std::istream & _RTLENTRY _EXPFUNC operator>>(std::istream &, bcd &); #if !defined(RC_INVOKED) #if defined(__STDC__) #pragma warn .nak #endif /* restore default packing */ #pragma pack(pop) #endif /* !RC_INVOKED */ #endif // __BCD_H