/** * ========================================================================= * File : byte_order.h * Project : 0 A.D. * Description : byte order (endianness) support routines. * * @author Jan.Wassenberg@stud.uni-karlsruhe.de * ========================================================================= */ /* * Copyright (c) 2003 Jan Wassenberg * * Redistribution and/or modification are also permitted under the * terms of the GNU General Public License as published by the * Free Software Foundation (version 2 or later, at your option). * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. */ #include "config.h" // converts 4 character string to u32 for easy comparison // can't pass code as string, and use s[0]..s[3], because // VC6/7 don't realize the macro is constant // (it should be useable as a switch{} expression) // // these casts are ugly but necessary. u32 is required because u8 << 8 == 0; // the additional u8 cast ensures each character is treated as unsigned // (otherwise, they'd be promoted to signed int before the u32 cast, // which would break things). #define FOURCC_BE(a,b,c,d) ( ((u32)(u8)a) << 24 | ((u32)(u8)b) << 16 | \ ((u32)(u8)c) << 8 | ((u32)(u8)d) << 0 ) #define FOURCC_LE(a,b,c,d) ( ((u32)(u8)a) << 0 | ((u32)(u8)b) << 8 | \ ((u32)(u8)c) << 16 | ((u32)(u8)d) << 24 ) #if BYTE_ORDER == BIG_ENDIAN # define FOURCC FOURCC_BE #else # define FOURCC FOURCC_LE #endif extern u16 to_le16(u16 x); extern u32 to_le32(u32 x); extern u64 to_le64(u64 x); extern u16 to_be16(u16 x); extern u32 to_be32(u32 x); extern u64 to_be64(u64 x); extern u16 read_le16(const void* p); extern u32 read_le32(const void* p); extern u64 read_le64(const void* p); extern u16 read_be16(const void* p); extern u32 read_be32(const void* p); extern u64 read_be64(const void* p); extern void write_le16(void* p, u16 x); extern void write_le32(void* p, u32 x); extern void write_le64(void* p, u64 x); extern void write_be16(void* p, u16 x); extern void write_be32(void* p, u32 x); extern void write_be64(void* p, u64 x);