// Copyright (c) the JPEG XL Project Authors. All rights reserved. // // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. #ifndef LIB_JXL_BASE_BYTE_ORDER_H_ #define LIB_JXL_BASE_BYTE_ORDER_H_ #include #include // memcpy #include "lib/jxl/base/compiler_specific.h" #if JXL_COMPILER_MSVC #include // _byteswap_* #endif #if (defined(__BYTE_ORDER__) && (__BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__)) #define JXL_BYTE_ORDER_LITTLE 1 #else // This means that we don't know that the byte order is little endian, in // this case we use endian-neutral code that works for both little- and // big-endian. #define JXL_BYTE_ORDER_LITTLE 0 #endif // Returns whether the system is little-endian (least-significant byte first). #if JXL_BYTE_ORDER_LITTLE static constexpr bool IsLittleEndian() { return true; } #else static inline bool IsLittleEndian() { const uint32_t multibyte = 1; uint8_t byte; memcpy(&byte, &multibyte, 1); return byte == 1; } #endif #if JXL_COMPILER_MSVC #define JXL_BSWAP32(x) _byteswap_ulong(x) #define JXL_BSWAP64(x) _byteswap_uint64(x) #else #define JXL_BSWAP32(x) __builtin_bswap32(x) #define JXL_BSWAP64(x) __builtin_bswap64(x) #endif static JXL_INLINE uint32_t LoadBE16(const uint8_t* p) { const uint32_t byte1 = p[0]; const uint32_t byte0 = p[1]; return (byte1 << 8) | byte0; } static JXL_INLINE uint32_t LoadLE16(const uint8_t* p) { const uint32_t byte0 = p[0]; const uint32_t byte1 = p[1]; return (byte1 << 8) | byte0; } static JXL_INLINE uint32_t LoadBE32(const uint8_t* p) { #if JXL_BYTE_ORDER_LITTLE uint32_t big; memcpy(&big, p, 4); return JXL_BSWAP32(big); #else // Byte-order-independent - can't assume this machine is big endian. const uint32_t byte3 = p[0]; const uint32_t byte2 = p[1]; const uint32_t byte1 = p[2]; const uint32_t byte0 = p[3]; return (byte3 << 24) | (byte2 << 16) | (byte1 << 8) | byte0; #endif } static JXL_INLINE uint64_t LoadBE64(const uint8_t* p) { #if JXL_BYTE_ORDER_LITTLE uint64_t big; memcpy(&big, p, 8); return JXL_BSWAP64(big); #else // Byte-order-independent - can't assume this machine is big endian. const uint64_t byte7 = p[0]; const uint64_t byte6 = p[1]; const uint64_t byte5 = p[2]; const uint64_t byte4 = p[3]; const uint64_t byte3 = p[4]; const uint64_t byte2 = p[5]; const uint64_t byte1 = p[6]; const uint64_t byte0 = p[7]; return (byte7 << 56ull) | (byte6 << 48ull) | (byte5 << 40ull) | (byte4 << 32ull) | (byte3 << 24ull) | (byte2 << 16ull) | (byte1 << 8ull) | byte0; #endif } static JXL_INLINE uint32_t LoadLE32(const uint8_t* p) { #if JXL_BYTE_ORDER_LITTLE uint32_t little; memcpy(&little, p, 4); return little; #else // Byte-order-independent - can't assume this machine is big endian. const uint32_t byte0 = p[0]; const uint32_t byte1 = p[1]; const uint32_t byte2 = p[2]; const uint32_t byte3 = p[3]; return (byte3 << 24) | (byte2 << 16) | (byte1 << 8) | byte0; #endif } static JXL_INLINE uint64_t LoadLE64(const uint8_t* p) { #if JXL_BYTE_ORDER_LITTLE uint64_t little; memcpy(&little, p, 8); return little; #else // Byte-order-independent - can't assume this machine is big endian. const uint64_t byte0 = p[0]; const uint64_t byte1 = p[1]; const uint64_t byte2 = p[2]; const uint64_t byte3 = p[3]; const uint64_t byte4 = p[4]; const uint64_t byte5 = p[5]; const uint64_t byte6 = p[6]; const uint64_t byte7 = p[7]; return (byte7 << 56) | (byte6 << 48) | (byte5 << 40) | (byte4 << 32) | (byte3 << 24) | (byte2 << 16) | (byte1 << 8) | byte0; #endif } static JXL_INLINE void StoreBE16(const uint32_t native, uint8_t* p) { p[0] = (native >> 8) & 0xFF; p[1] = native & 0xFF; } static JXL_INLINE void StoreLE16(const uint32_t native, uint8_t* p) { p[1] = (native >> 8) & 0xFF; p[0] = native & 0xFF; } static JXL_INLINE void StoreBE32(const uint32_t native, uint8_t* p) { #if JXL_BYTE_ORDER_LITTLE const uint32_t big = JXL_BSWAP32(native); memcpy(p, &big, 4); #else // Byte-order-independent - can't assume this machine is big endian. p[0] = native >> 24; p[1] = (native >> 16) & 0xFF; p[2] = (native >> 8) & 0xFF; p[3] = native & 0xFF; #endif } static JXL_INLINE void StoreBE64(const uint64_t native, uint8_t* p) { #if JXL_BYTE_ORDER_LITTLE const uint64_t big = JXL_BSWAP64(native); memcpy(p, &big, 8); #else // Byte-order-independent - can't assume this machine is big endian. p[0] = native >> 56ull; p[1] = (native >> 48ull) & 0xFF; p[2] = (native >> 40ull) & 0xFF; p[3] = (native >> 32ull) & 0xFF; p[4] = (native >> 24ull) & 0xFF; p[5] = (native >> 16ull) & 0xFF; p[6] = (native >> 8ull) & 0xFF; p[7] = native & 0xFF; #endif } static JXL_INLINE void StoreLE32(const uint32_t native, uint8_t* p) { #if JXL_BYTE_ORDER_LITTLE const uint32_t little = native; memcpy(p, &little, 4); #else // Byte-order-independent - can't assume this machine is big endian. p[3] = native >> 24; p[2] = (native >> 16) & 0xFF; p[1] = (native >> 8) & 0xFF; p[0] = native & 0xFF; #endif } static JXL_INLINE void StoreLE64(const uint64_t native, uint8_t* p) { #if JXL_BYTE_ORDER_LITTLE const uint64_t little = native; memcpy(p, &little, 8); #else // Byte-order-independent - can't assume this machine is big endian. p[7] = native >> 56; p[6] = (native >> 48) & 0xFF; p[5] = (native >> 40) & 0xFF; p[4] = (native >> 32) & 0xFF; p[3] = (native >> 24) & 0xFF; p[2] = (native >> 16) & 0xFF; p[1] = (native >> 8) & 0xFF; p[0] = native & 0xFF; #endif } // Big/Little Endian order. struct OrderBE {}; struct OrderLE {}; // Wrappers for calling from generic code. static JXL_INLINE void Store16(OrderBE /*tag*/, const uint32_t native, uint8_t* p) { return StoreBE16(native, p); } static JXL_INLINE void Store16(OrderLE /*tag*/, const uint32_t native, uint8_t* p) { return StoreLE16(native, p); } static JXL_INLINE void Store32(OrderBE /*tag*/, const uint32_t native, uint8_t* p) { return StoreBE32(native, p); } static JXL_INLINE void Store32(OrderLE /*tag*/, const uint32_t native, uint8_t* p) { return StoreLE32(native, p); } static JXL_INLINE uint32_t Load16(OrderBE /*tag*/, const uint8_t* p) { return LoadBE16(p); } static JXL_INLINE uint32_t Load16(OrderLE /*tag*/, const uint8_t* p) { return LoadLE16(p); } static JXL_INLINE uint32_t Load32(OrderBE /*tag*/, const uint8_t* p) { return LoadBE32(p); } static JXL_INLINE uint32_t Load32(OrderLE /*tag*/, const uint8_t* p) { return LoadLE32(p); } #endif // LIB_JXL_BASE_BYTE_ORDER_H_