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368 lines
11 KiB
368 lines
11 KiB
// complex standard header
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#ifndef _COMPLEX_
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#define _COMPLEX_
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#include <ymath.h>
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#include <cmath>
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#include <sstream>
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#include <xutility>
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#ifdef _MSC_VER
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#pragma pack(push,8)
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#endif /* _MSC_VER */
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_STD_BEGIN
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#define __STD_COMPLEX
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// TEMPLATE CLASS _Ctr
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template<class _Ty> class _Ctr {
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public:
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static _Ty _Cosh(_Ty _X, _Ty _Y)
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{return (::_Cosh((double)_X, (double)_Y)); }
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static short _Exp(_Ty *_P, _Ty _Y, short _E)
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{double _W = (double)*_P;
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short _Ans = ::_Exp(&_W, (double)_Y, _E);
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*_P = (_Ty)_W;
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return (_Ans); }
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static _Ty _Infv(_Ty)
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{return (_Inf._D); }
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static bool _Isinf(_Ty _X)
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{double _W = (double)_X;
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return (_Dtest(&_W) == _INFCODE); }
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static bool _Isnan(_Ty _X)
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{double _W = (double)_X;
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return (_Dtest(&_W) == _NANCODE); }
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static _Ty _Nanv(_Ty)
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{return (_Nan._D); }
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static _Ty _Sinh(_Ty _X, _Ty _Y)
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{return (::_Sinh((double)_X, (double)_Y)); }
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static _Ty atan2(_Ty _Y, _Ty _X)
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{return (::atan2((double)_Y, (double)_X)); }
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static _Ty cos(_Ty _X)
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{return (::cos((double)_X)); }
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static _Ty exp(_Ty _X)
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{return (::exp((double)_X)); }
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static _Ty ldexp(_Ty _R, int _E)
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{return (::ldexp((double)_R, _E)); }
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static _Ty log(_Ty _X)
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{return (::log((double)_X)); }
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static _Ty pow(_Ty _X, _Ty _Y)
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{return (::pow((double)_X, (double)_Y)); }
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static _Ty sin(_Ty _X)
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{return (::sin((double)_X)); }
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static _Ty sqrt(_Ty _X)
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{return (::sqrt((double)_X)); }
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};
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// CLASS _Ctr<long double>
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class _CRTIMP2 _Ctr<long double> {
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public:
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typedef long double _Ty;
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static _Ty _Cosh(_Ty _X, _Ty _Y)
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{return (_LCosh(_X, _Y)); }
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static short _Exp(_Ty *_P, _Ty _Y, short _E)
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{return (_LExp(_P, _Y, _E)); }
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static _Ty _Infv(_Ty)
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{return (_LInf._L); }
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static bool _Isinf(_Ty _X)
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{return (_LDtest(&_X) == _INFCODE); }
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static bool _Isnan(_Ty _X)
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{return (_LDtest(&_X) == _NANCODE); }
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static _Ty _Nanv(_Ty)
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{return (_LNan._L); }
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static _Ty _Sinh(_Ty _X, _Ty _Y)
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{return (_LSinh(_X, _Y)); }
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static _Ty atan2(_Ty _Y, _Ty _X)
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{return (atan2l(_Y, _X)); }
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static _Ty cos(_Ty _X)
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{return (cosl(_X)); }
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static _Ty exp(_Ty _X)
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{return (expl(_X)); }
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static _Ty ldexp(_Ty _R, int _E)
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{return (ldexpl(_R, _E)); }
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static _Ty log(_Ty _X)
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{return (logl(_X)); }
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static _Ty pow(_Ty _X, _Ty _Y)
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{return (powl(_X, _Y)); }
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static _Ty sin(_Ty _X)
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{return (sinl(_X)); }
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static _Ty sqrt(_Ty _X)
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{return (sqrtl(_X)); }
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};
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// CLASS _Ctr<double>
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class _CRTIMP2 _Ctr<double> {
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public:
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typedef double _Ty;
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static _Ty _Cosh(_Ty _X, _Ty _Y)
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{return (::_Cosh(_X, _Y)); }
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static short _Exp(_Ty *_P, _Ty _Y, short _E)
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{return (::_Exp(_P, _Y, _E)); }
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static _Ty _Infv(_Ty)
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{return (_Inf._D); }
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static bool _Isinf(_Ty _X)
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{return (_Dtest(&_X) == _INFCODE); }
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static bool _Isnan(_Ty _X)
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{return (_Dtest(&_X) == _NANCODE); }
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static _Ty _Nanv(_Ty)
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{return (_Nan._D); }
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static _Ty _Sinh(_Ty _X, _Ty _Y)
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{return (::_Sinh(_X, _Y)); }
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static _Ty atan2(_Ty _Y, _Ty _X)
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{return (::atan2(_Y, _X)); }
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static _Ty cos(_Ty _X)
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{return (::cos(_X)); }
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static _Ty exp(_Ty _X)
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{return (::exp(_X)); }
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static _Ty ldexp(_Ty _R, int _E)
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{return (::ldexp(_R, _E)); }
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static _Ty log(_Ty _X)
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{return (::log(_X)); }
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static _Ty pow(_Ty _X, _Ty _Y)
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{return (::pow(_X, _Y)); }
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static _Ty sin(_Ty _X)
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{return (::sin(_X)); }
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static _Ty sqrt(_Ty _X)
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{return (::sqrt(_X)); }
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};
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class _CRTIMP2 _Ctr<float> {
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public:
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typedef float _Ty;
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static _Ty _Cosh(_Ty _X, _Ty _Y)
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{return (_FCosh(_X, _Y)); }
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static short _Exp(_Ty *_P, _Ty _Y, short _E)
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{return (_FExp(_P, _Y, _E)); }
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static _Ty _Infv(_Ty)
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{return (_FInf._F); }
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static bool _Isinf(_Ty _X)
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{return (_FDtest(&_X) == _INFCODE); }
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static bool _Isnan(_Ty _X)
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{return (_FDtest(&_X) == _NANCODE); }
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static _Ty _Nanv(_Ty)
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{return (_FNan._F); }
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static _Ty _Sinh(_Ty _X, _Ty _Y)
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{return (_FSinh(_X, _Y)); }
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static _Ty atan2(_Ty _Y, _Ty _X)
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{return (atan2f(_Y, _X)); }
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static _Ty cos(_Ty _X)
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{return (cosf(_X)); }
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static _Ty exp(_Ty _X)
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{return (expf(_X)); }
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static _Ty ldexp(_Ty _R, int _E)
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{return (ldexpf(_R, _E)); }
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static _Ty log(_Ty _X)
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{return (logf(_X)); }
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static _Ty pow(_Ty _X, _Ty _Y)
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{return (powf(_X, _Y)); }
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static _Ty sin(_Ty _X)
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{return (sinf(_X)); }
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static _Ty sqrt(_Ty _X)
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{return (sqrtf(_X)); }
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};
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// TEMPLATE CLASS _Complex_base
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template<class _Ty> class complex;
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class _CRTIMP2 complex<float>;
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class _CRTIMP2 complex<double>;
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class _CRTIMP2 complex<long double>;
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template<class _Ty>
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class _Complex_base {
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public:
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typedef _Complex_base<_Ty> _Myt;
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typedef _Ctr<_Ty> _Myctr;
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typedef _Ty value_type;
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_Complex_base(const _Ty& _R, const _Ty& _I)
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: _Re(_R), _Im(_I) {}
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_Myt& operator+=(const _Ty& _X)
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{_Re = _Re + _X;
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return (*this); }
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_Myt& operator-=(const _Ty& _X)
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{_Re = _Re - _X;
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return (*this); }
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_Myt& operator*=(const _Ty& _X)
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{_Re = _Re * _X;
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_Im = _Im * _X;
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return (*this); }
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_Myt& operator/=(const _Ty& _X)
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{_Re = _Re / _X;
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_Im = _Im / _X;
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return (*this); }
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_Ty real(const _Ty& _X)
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{return (_Re = _X); }
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_Ty imag(const _Ty& _X)
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{return (_Im = _X); }
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_Ty real() const
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{return (_Re); }
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_Ty imag() const
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{return (_Im); }
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protected:
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_Ty _Re, _Im;
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};
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#ifdef __FORCE_INSTANCE
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template class _CRTIMP2 _Complex_base<float>;
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template class _CRTIMP2 _Complex_base<double>;
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template class _CRTIMP2 _Complex_base<long double>;
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#endif // __FORCE_INSTANCE
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// CLASS complex<float>
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class _CRTIMP2 complex<float> : public _Complex_base<float> {
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public:
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typedef float _Ty;
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explicit complex(const complex<double>&);
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explicit complex(const complex<long double>&);
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complex(const _Ty& _R = 0, const _Ty& _I = 0)
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: _Complex_base<_Ty>(_R, _I) {}
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complex<_Ty>& operator=(const _Ty& _X)
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{_Re = _X;
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_Im = 0;
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return (*this); }
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};
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// CLASS complex<double>
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class _CRTIMP2 complex<double> : public _Complex_base<double> {
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public:
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typedef double _Ty;
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complex(const complex<float>&);
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explicit complex(const complex<long double>&);
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complex(const _Ty& _R = 0, const _Ty& _I = 0)
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: _Complex_base<_Ty>(_R, _I) {}
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complex<_Ty>& operator=(const _Ty& _X)
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{_Re = _X;
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_Im = 0;
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return (*this); }
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};
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// CLASS complex<long double>
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class _CRTIMP2 complex<long double> : public _Complex_base<long double> {
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public:
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typedef long double _Ty;
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complex(const complex<float>&);
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complex(const complex<double>&);
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complex(const _Ty& _R = 0, const _Ty& _I = 0)
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: _Complex_base<_Ty>(_R, _I) {}
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complex<_Ty>& operator=(const _Ty& _X)
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{_Re = _X;
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_Im = 0;
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return (*this); }
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};
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// CONSTRUCTORS FOR complex SPECIALIZATIONS
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inline complex<float>::complex(const complex<double>& _X)
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: _Complex_base<float>((_Ty)_X.real(), (_Ty)_X.imag()) {}
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inline complex<float>::complex(const complex<long double>& _X)
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: _Complex_base<float>((_Ty)_X.real(), (_Ty)_X.imag()) {}
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inline complex<double>::complex(const complex<float>& _X)
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: _Complex_base<double>((_Ty)_X.real(), (_Ty)_X.imag()) {}
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inline complex<double>::complex(const complex<long double>& _X)
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: _Complex_base<double>((_Ty)_X.real(), (_Ty)_X.imag()) {}
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inline complex<long double>::complex(const complex<float>& _X)
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: _Complex_base<long double>((_Ty)_X.real(), (_Ty)_X.imag()) {}
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inline complex<long double>::complex(const complex<double>& _X)
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: _Complex_base<long double>((_Ty)_X.real(), (_Ty)_X.imag()) {}
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// TEMPLATE CLASS complex
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template<class _Ty>
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class complex : public _Complex_base<_Ty> {
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public:
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complex(const _Ty& _R = 0, const _Ty& _I = 0)
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: _Complex_base<_Ty>(_R, _I) {}
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typedef _Ty _U;
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complex(const complex<_U>& _X)
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: _Complex_base<_Ty>((_Ty)_X.real(), (_Ty)_X.imag()) {}
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complex<_Ty>& operator=(const complex<_U>& _X)
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{_Re = (_Ty)_X.real();
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_Im = (_Ty)_X.imag();
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return (*this); }
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};
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// TEMPLATE complex OPERATORS
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template<class _Ty, class _U> inline
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complex<_Ty>& __cdecl operator+=(
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complex<_Ty>& _X,
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const complex<_U>& _Y)
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{_X.real(_X.real() + (_Ty)_Y.real());
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_X.imag(_X.imag() + (_Ty)_Y.imag());
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return (_X); }
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template<class _Ty, class _U> inline
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complex<_Ty>& __cdecl operator-=(
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complex<_Ty>& _X,
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const complex<_U>& _Y)
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{_X.real(_X.real() - (_Ty)_Y.real());
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_X.imag(_X.imag() - (_Ty)_Y.imag());
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return (_X); }
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template<class _Ty, class _U> inline
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complex<_Ty>& __cdecl operator*=(
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complex<_Ty>& _X,
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const complex<_U>& _Y)
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{_Ty _Yre = (_Ty)_Y.real();
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_Ty _Yim = (_Ty)_Y.imag();
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_Ty _W = _X.real() * _Yre - _X.imag() * _Yim;
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_X.imag(_X.real() * _Yim + _X.imag() * _Yre);
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_X.real(_W);
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return (_X); }
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template<class _Ty, class _U> inline
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complex<_Ty>& __cdecl operator/=(
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complex<_Ty>& _X,
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const complex<_U>& _Y)
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{typedef _Ctr<_Ty> _Myctr;
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_Ty _Yre = (_Ty)_Y.real();
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_Ty _Yim = (_Ty)_Y.imag();
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if (_Myctr::_Isnan(_Yre) || _Myctr::_Isnan(_Yim))
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_X.real(_Myctr::_Nanv(_Yre)), _X.imag(_X.real());
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else if ((_Yim < 0 ? -_Yim : +_Yim)
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< (_Yre < 0 ? -_Yre : +_Yre))
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{_Ty _Wr = _Yim / _Yre;
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_Ty _Wd = _Yre + _Wr * _Yim;
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if (_Myctr::_Isnan(_Wd) || _Wd == 0)
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_X.real(_Myctr::_Nanv(_Yre)), _X.imag(_X.real());
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else
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{_Ty _W = (_X.real() + _X.imag() * _Wr) / _Wd;
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_X.imag((_X.imag() - _X.real() * _Wr) / _Wd);
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_X.real(_W); }}
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else if (_Yim == 0)
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_X.real(_Myctr::_Nanv(_Yre)), _X.imag(_X.real());
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else
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{_Ty _Wr = _Yre / _Yim;
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_Ty _Wd = _Yim + _Wr * _Yre;
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if (_Myctr::_Isnan(_Wd) || _Wd == 0)
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_X.real(_Myctr::_Nanv(_Yre)), _X.imag(_X.real());
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else
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{_Ty _W = (_X.real() * _Wr + _X.imag()) / _Wd;
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_X.imag((_X.imag() * _Wr - _X.real()) / _Wd);
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_X.real(_W); }}
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return (_X); }
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// TEMPLATE FUNCTION operator>>
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template<class _E, class _Tr, class _U> inline
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basic_istream<_E, _Tr>& __cdecl operator>>(
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basic_istream<_E, _Tr>& _I, complex<_U>& _X)
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{typedef complex<_U> _Myt;
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_E _Ch;
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long double _Re, _Im;
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if (_I >> _Ch && _Ch != _WIDEN(_E, '('))
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_I.putback(_Ch), _I >> _Re, _Im = 0;
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else if (_I >> _Re >> _Ch && _Ch != _WIDEN(_E, ','))
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if (_Ch == _WIDEN(_E, ')'))
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_Im = 0;
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else
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_I.putback(_Ch), _I.setstate(ios_base::failbit);
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else if (_I >> _Im >> _Ch && _Ch != _WIDEN(_E, ')'))
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_I.putback(_Ch), _I.setstate(ios_base::failbit);
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if (!_I.fail())
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_X = _Myt((_U)_Re, (_U)_Im);
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return (_I); }
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// TEMPLATE FUNCTION operator<<
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template<class _E, class _Tr, class _U> inline
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basic_ostream<_E, _Tr>& __cdecl operator<<(
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basic_ostream<_E, _Tr>& _O, const complex<_U>& _X)
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{basic_ostringstream<_E, _Tr, allocator<_E> > _S;
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_S.flags(_O.flags());
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_S.imbue(_O.getloc());
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_S.precision(_O.precision());
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_S << _WIDEN(_E, '(') << real(_X) << _WIDEN(_E, ',')
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<< imag(_X) << _WIDEN(_E, ')');
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return (_O << _S.str().c_str()); }
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#define _CMPLX(T) complex<T >
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#define _CTR(T) _Ctr<T >
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#define _TMPLT(T) template<class T >
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#include <xcomplex>
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_STD_END
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#ifdef _MSC_VER
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#pragma pack(pop)
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#endif /* _MSC_VER */
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#endif /* _COMPLEX_ */
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/*
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* Copyright (c) 1994 by P.J. Plauger. ALL RIGHTS RESERVED.
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* Consult your license regarding permissions and restrictions.
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*/
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