/* * @(#)LESwaps.h 1.3 00/03/15 * * (C) Copyright IBM Corp. 1998, 1999, 2000 - All Rights Reserved * */ #ifndef __LESWAPS_H #define __LESWAPS_H #include "LETypes.h" U_NAMESPACE_BEGIN /** * These are convenience macros which invoke the swap functions * from a concise call. */ #define SWAPW(value) (LESwaps::isBigEndian() ? (value) : LESwaps::swapWord(value)) #define SWAPL(value) (LESwaps::isBigEndian() ? (value) : LESwaps::swapLong(value)) /** * This class is used to access data which stored in big endian order * regardless of the conventions of the platform. It has been designed * to automatically detect the endian-ness of the platform, so that a * compilation flag is not needed. * * All methods are static and inline in an attempt to induce the compiler * to do most of the calculations at compile time. */ class LESwaps /* not : public UObject because all methods are static */ { public: /** * This method detects the endian-ness of the platform by * casting a pointer to a word to a pointer to a byte. On * big endian platforms the FF will be in the byte with the * lowest address. On little endian platforms, the FF will * be in the byte with the highest address. * * @return true if the platform is big endian */ static le_bool isBigEndian() { static const le_uint16 word = 0xFF00; return *((le_uint8 *) &word); }; /** * This method the byte swap required on little endian platforms * to correctly access a word. * * @param value - the word to be byte swapped * * @return the byte swapped word */ static le_uint16 swapWord(le_uint16 value) { return (((le_uint8) (value >> 8)) | (value << 8)); }; /** * This method does the byte swapping required on little endian platforms * to correctly access a long. * * @param value - the long to be byte swapped * * @return the byte swapped long */ static le_uint32 swapLong(le_uint32 value) { return swapWord((le_uint16) (value >> 16)) | (swapWord((le_uint16) value) << 16); }; private: LESwaps() {} // private - forbid instantiation }; U_NAMESPACE_END #endif