// This may look like C code, but it is really -*- C++ -*- // Classe MuTyV : Variable multi-type numerique // Reza Ansari - 96-2000 #ifndef MUTYV_H_SEEN #define MUTYV_H_SEEN #include "machdefs.h" #include #include #include "timestamp.h" #include namespace SOPHYA { // Classe utilitaire pour manipuler des variables typees //! A simple class for holding string, integer, float and complex type values. class MuTyV { public: enum MTVType { MTVInteger, MTVFloat, MTVComplex, MTVString, MTVTimeStamp }; inline MuTyV() { typ = MTVInteger; iv = 0; dv = dv_im = 0.; strv = NULL; } MuTyV(MuTyV const & a); inline MuTyV(uint_1 i) { typ = MTVInteger; iv = (int_8)i; dv = (r_8)i; dv_im = 0.; strv = NULL; } inline MuTyV(uint_2 i) { typ = MTVInteger; iv = (int_8)i; dv = (r_8)i; dv_im = 0.; strv = NULL; } inline MuTyV(uint_4 i) { typ = MTVInteger; iv = (int_8)i; dv = (r_8)i; dv_im = 0.; strv = NULL; } inline MuTyV(uint_8 i) { typ = MTVInteger; iv = (int_8)i; dv = (r_8)i; dv_im = 0.; strv = NULL; } inline MuTyV(int_1 i) { typ = MTVInteger; iv = (int_8)i; dv = (r_8)i; dv_im = 0.; strv = NULL; } inline MuTyV(int_2 i) { typ = MTVInteger; iv = (int_8)i; dv = (r_8)i; dv_im = 0.; strv = NULL; } inline MuTyV(int_4 i) { typ = MTVInteger; iv = (int_8)i; dv = (r_8)i; dv_im = 0.; strv = NULL; } inline MuTyV(int_8 i) { typ = MTVInteger; iv = i; dv = (r_8)i; dv_im = 0.; strv = NULL; } inline MuTyV(r_4 f) { typ = MTVFloat; dv = (r_8)f; iv = (int_8)f; dv_im = 0.; strv = NULL; } inline MuTyV(r_8 d) { typ = MTVFloat; dv = d; iv = (int_8)d; dv_im = 0.; strv = NULL; } inline MuTyV(complex const& z) { typ = MTVComplex; dv = (r_8)z.real(); dv_im = z.imag(); iv = (int_8)dv; strv = NULL; } inline MuTyV(complex const& z) { typ = MTVComplex; dv = z.real(); dv_im = z.imag(); iv = (int_8)dv; strv = NULL; } MuTyV(char const* s); MuTyV(string const& s); MuTyV(TimeStamp const& ts); ~MuTyV(); MuTyV & operator= (MuTyV const & a); inline MuTyV & operator= (uint_1 v) { typ = MTVInteger; iv = (int_8)v; dv = (r_8)v; dv_im = 0.; return(*this); } inline MuTyV & operator= (uint_2 v) { typ = MTVInteger; iv = (int_8)v; dv = (r_8)v; dv_im = 0.; return(*this); } inline MuTyV & operator= (uint_4 v) { typ = MTVInteger; iv = (int_8)v; dv = (r_8)v; dv_im = 0.; return(*this); } inline MuTyV & operator= (uint_8 v) { typ = MTVInteger; iv = (int_8)v; dv = (r_8)v; dv_im = 0.; return(*this); } inline MuTyV & operator= (int_1 v) { typ = MTVInteger; iv = (int_8)v; dv = (r_8)v; dv_im = 0.; return(*this); } inline MuTyV & operator= (int_2 v) { typ = MTVInteger; iv = (int_8)v; dv = (r_8)v; dv_im = 0.; return(*this); } inline MuTyV & operator= (int_4 v) { typ = MTVInteger; iv = (int_8)v; dv = (r_8)v; dv_im = 0.; return(*this); } inline MuTyV & operator= (int_8 v) { typ = MTVInteger; iv = v; dv = (r_8)v; dv_im = 0.; return(*this); } inline MuTyV & operator= (r_4 v) { typ = MTVFloat; dv = (r_8)v; iv = (int_8)v; dv_im = 0.; return(*this); } inline MuTyV & operator= (r_8 v) { typ = MTVFloat; dv = v; iv = (int_8)v; dv_im = 0.; return(*this); } inline MuTyV & operator= (complex const& v) { typ = MTVComplex; dv = (r_8)v.real(); dv_im = v.imag(); iv = (int_8)dv; return(*this); } inline MuTyV & operator= (complex const& v) { typ = MTVComplex; dv = (r_8)v.real(); dv_im = v.imag(); iv = (int_8)dv; return(*this); } const char* operator= (const char* s); string const& operator= (string const & s); TimeStamp const& operator= (TimeStamp const & s); inline operator uint_1() const { return((uint_1)iv); } inline operator uint_2() const { return((uint_2)iv); } inline operator uint_4() const { return((uint_4)iv); } inline operator uint_8() const { return((uint_8)iv); } inline operator int_1() const { return((int_1)iv); } inline operator int_2() const { return((int_2)iv); } inline operator int_4() const { return((int_4)iv); } inline operator int_8() const { return(iv); } inline operator r_4() const { return((r_4)dv); } inline operator r_8() const { return(dv); } inline operator complex() const { return(complex((r_4)dv, (r_4)dv_im)); } inline operator complex() const { return(complex(dv, dv_im)); } operator string() const ; operator TimeStamp() const ; inline uint_1 Convert(uint_1& x) const { x = (uint_1)iv; return x; } inline uint_2 Convert(uint_2& x) const { x = (uint_2)iv; return x; } inline uint_4 Convert(uint_4& x) const { x = (uint_4)iv; return x; } inline uint_8 Convert(uint_8& x) const { x = (uint_8)iv; return x; } inline int_1 Convert(int_1& x) const { x = (int_1)iv; return x; } inline int_2 Convert(int_2& x) const { x = (int_2)iv; return x; } inline int_4 Convert(int_4& x) const { x = (int_4)iv; return x; } inline int_8 Convert(int_8& x) const { x = iv; return x; } inline r_4 Convert(r_4& x) const { x = (r_4)dv; return x; } inline r_8 Convert(r_8& x) const { x = dv; return x; } inline complex Convert(complex & x) const { x = complex< r_4 > ((r_4)dv, (r_4)dv_im); return x; } inline complex Convert(complex & x) const { x = complex< r_8 > (dv, dv_im); return x; } string& Convert(string& x) const ; TimeStamp& Convert(TimeStamp& x) const ; inline MTVType Type() const { return typ; } inline int_8 GetIntPart() const { return iv; } inline r_8 GetRealPart() const { return dv; } inline r_8 GetImagPart() const { return dv_im; } inline string* GetStringPointer() const { return (strv); } protected: int_8 iv; r_8 dv; r_8 dv_im; /* for holding imaginary part of a complex */ string * strv; MTVType typ; }; inline ostream& operator << (ostream& s, MuTyV const & mtv) { s << (string)mtv; return(s); } } // namespace SOPHYA #endif /* MUTYV_H_SEEN */