/* this header file comes from libowfat, http://www.fefe.de/libowfat/ */ #ifndef UINT32_H #define UINT32_H #include /* uint32_t, int32_t */ #include /* size_t */ #ifdef __cplusplus extern "C" { #endif typedef uint32_t uint32; typedef int32_t int32; #if (defined(__i386__) || defined(__x86_64__)) && !defined(NO_UINT32_MACROS) /* On x86 and x64 unaligned access are OK and the compiler knows it and * will collapse this long-looking code into a single load or store * instruction, so turn it into inline functions */ static inline void uint32_pack(char* out,uint32 in) { out[0]=in; out[1]=in>>8; out[2]=in>>16; out[3]=in>>24; } static inline void uint32_unpack(const char *in,uint32* out) { const unsigned char* i = (const unsigned char*)in; *out=i[0] | (i[1]<<8) | (i[2]<<16) | (i[3]<<24); } static inline uint32 uint32_read(const char* in) { const unsigned char* i = (const unsigned char*)in; return i[0] | (i[1]<<8) | (i[2]<<16) | (i[3]<<24); } static inline void uint32_pack_big(char *out,uint32 in) { out[0]=in>>24; out[1]=in>>16; out[2]=in>>8; out[3]=in; } static inline void uint32_unpack_big(const char *in,uint32* out) { const unsigned char* i = (const unsigned char*)in; *out=(i[0]<<24) | (i[1]<<16) | (i[2]<<8) | i[3]; } static inline uint32 uint32_read_big(const char *in) { const unsigned char* i = (const unsigned char*)in; return (i[0]<<24) | (i[1]<<16) | (i[2]<<8) | i[3]; } #else void uint32_pack(char *out,uint32 in); void uint32_pack_big(char *out,uint32 in); void uint32_unpack(const char *in,uint32* out); void uint32_unpack_big(const char *in,uint32* out); uint32 uint32_read(const char *in); uint32 uint32_read_big(const char *in); #endif static inline size_t fmt_uint32(char* out, uint32 in) { if (out) uint32_pack(out,in); return 4; } static inline size_t fmt_uint32_big(char* out, uint32 in) { if (out) uint32_pack_big(out,in); return 4; } static inline size_t scan_uint32(const char* in, size_t len, uint32_t* b) { if (len<4) return 0; *b = uint32_read(in); return 4; } static inline size_t scan_uint32_big(const char* in, size_t len, uint32_t* b) { if (len<4) return 0; *b = uint32_read_big(in); return 4; } #ifdef __cplusplus } inline void uint32_pack(unsigned char* out,uint32 in) { uint32_pack(reinterpret_cast(out), in); } inline void uint32_pack_big(unsigned char* out,uint32 in) { uint32_pack_big(reinterpret_cast(out), in); } inline void uint32_unpack(const unsigned char *in,uint32* out) { uint32_unpack(reinterpret_cast(in), out); } inline void uint32_unpack_big(const unsigned char *in,uint32* out) { uint32_unpack_big(reinterpret_cast(in), out); } inline void uint32_pack(uint32* out,uint32 in) { uint32_pack(reinterpret_cast(out), in); } inline void uint32_pack_big(uint32* out,uint32 in) { uint32_pack_big(reinterpret_cast(out), in); } inline void uint32_unpack(uint32* *in,uint32* out) { uint32_unpack(reinterpret_cast(in), out); } inline void uint32_unpack_big(uint32* *in,uint32* out) { uint32_unpack_big(reinterpret_cast(in), out); } inline uint32 uint32_read(const unsigned char *in) { return uint32_read(reinterpret_cast(in)); } inline uint32 uint32_read_big(const unsigned char *in) { return uint32_read_big(reinterpret_cast(in)); } inline uint32 uint32_read(const uint32 *in) { return uint32_read(reinterpret_cast(in)); } inline uint32 uint32_read_big(const uint32 *in) { return uint32_read_big(reinterpret_cast(in)); } inline uint32 uint_read(const uint32* in) { return uint32_read(reinterpret_cast(in)); } inline uint32 uint_read_big(const uint32* in) { return uint32_read_big(reinterpret_cast(in)); } #endif #endif