#ifndef DOUBCONV_HH #define DOUBCONV_HH #include #include #include namespace CLHEP { class DoubConvException : public std::exception { public: DoubConvException(const std::string & w) throw() : msg(w) {} ~DoubConvException() throw() {} const char* what() const throw() { return msg.c_str(); } private: std::string msg; }; class DoubConv { public: // dto2longs(d) returns (in a vector) two unsigned longs string containing the // representation of its double input. This is byte-ordering // independant, and depends for complete portability ONLY on adherance // to the IEEE 754 standard for 64-bit floating point representation. // The first unsigned long contains the high-order bits in IEEE; thus // 1.0 will always be 0x3FF00000, 00000000 static std::vector dto2longs(double d); // longs2double (v) returns a double containing the value represented by its // input, which must be a vector containing 2 unsigned longs. // The input is taken to be the representation according to // the IEEE 754 standard for a 64-bit floating point number, whose value // is returned as a double. The byte-ordering of the double result is, // of course, tailored to the proper byte-ordering for the system. static double longs2double (const std::vector & v); // dtox(d) returns a 16-character string containing the (zero-filled) hex // representation of its double input. This is byte-ordering // independant, and depends for complete portability ONLY on adherance // to the IEEE 754 standard for 64-bit floating point representation. static std::string d2x(double d); private: union DB8 { unsigned char b[8]; double d; }; static void fill_byte_order (); static bool byte_order_known; static int byte_order[8]; // Meaning of byte_order: The first (high-order in IEEE 754) byte to // output (or the high-order byte of the first unsigned long) // is of db.b[byte_order[0]]. Thus the index INTO byte_order // is a position in the IEEE representation of the double, and the value // of byte_order[k] is an offset in the memory representation of the // double. }; } #endif // DOUBCONV_HH