/* CFByteOrder.h Copyright (c) 1995-2012, Apple Inc. All rights reserved. */ #if !defined(__COREFOUNDATION_CFBYTEORDER__) #define __COREFOUNDATION_CFBYTEORDER__ 1 #include #if ((TARGET_OS_MAC && !(TARGET_OS_EMBEDDED || TARGET_OS_IPHONE)) || (TARGET_OS_EMBEDDED || TARGET_OS_IPHONE)) && !defined(CF_USE_OSBYTEORDER_H) #include #define CF_USE_OSBYTEORDER_H 1 #endif CF_EXTERN_C_BEGIN enum __CFByteOrder { CFByteOrderUnknown, CFByteOrderLittleEndian, CFByteOrderBigEndian }; typedef CFIndex CFByteOrder; CF_INLINE CFByteOrder CFByteOrderGetCurrent(void) { #if CF_USE_OSBYTEORDER_H int32_t byteOrder = OSHostByteOrder(); switch (byteOrder) { case OSLittleEndian: return CFByteOrderLittleEndian; case OSBigEndian: return CFByteOrderBigEndian; default: break; } return CFByteOrderUnknown; #else #if __LITTLE_ENDIAN__ return CFByteOrderLittleEndian; #elif __BIG_ENDIAN__ return CFByteOrderBigEndian; #else return CFByteOrderUnknown; #endif #endif } CF_INLINE uint16_t CFSwapInt16(uint16_t arg) { #if CF_USE_OSBYTEORDER_H return OSSwapInt16(arg); #else uint16_t result; result = (uint16_t)(((arg << 8) & 0xFF00) | ((arg >> 8) & 0xFF)); return result; #endif } CF_INLINE uint32_t CFSwapInt32(uint32_t arg) { #if CF_USE_OSBYTEORDER_H return OSSwapInt32(arg); #else uint32_t result; result = ((arg & 0xFF) << 24) | ((arg & 0xFF00) << 8) | ((arg >> 8) & 0xFF00) | ((arg >> 24) & 0xFF); return result; #endif } CF_INLINE uint64_t CFSwapInt64(uint64_t arg) { #if CF_USE_OSBYTEORDER_H return OSSwapInt64(arg); #else union CFSwap { uint64_t sv; uint32_t ul[2]; } tmp, result; tmp.sv = arg; result.ul[0] = CFSwapInt32(tmp.ul[1]); result.ul[1] = CFSwapInt32(tmp.ul[0]); return result.sv; #endif } CF_INLINE uint16_t CFSwapInt16BigToHost(uint16_t arg) { #if CF_USE_OSBYTEORDER_H return OSSwapBigToHostInt16(arg); #elif __BIG_ENDIAN__ return arg; #else return CFSwapInt16(arg); #endif } CF_INLINE uint32_t CFSwapInt32BigToHost(uint32_t arg) { #if CF_USE_OSBYTEORDER_H return OSSwapBigToHostInt32(arg); #elif __BIG_ENDIAN__ return arg; #else return CFSwapInt32(arg); #endif } CF_INLINE uint64_t CFSwapInt64BigToHost(uint64_t arg) { #if CF_USE_OSBYTEORDER_H return OSSwapBigToHostInt64(arg); #elif __BIG_ENDIAN__ return arg; #else return CFSwapInt64(arg); #endif } CF_INLINE uint16_t CFSwapInt16HostToBig(uint16_t arg) { #if CF_USE_OSBYTEORDER_H return OSSwapHostToBigInt16(arg); #elif __BIG_ENDIAN__ return arg; #else return CFSwapInt16(arg); #endif } CF_INLINE uint32_t CFSwapInt32HostToBig(uint32_t arg) { #if CF_USE_OSBYTEORDER_H return OSSwapHostToBigInt32(arg); #elif __BIG_ENDIAN__ return arg; #else return CFSwapInt32(arg); #endif } CF_INLINE uint64_t CFSwapInt64HostToBig(uint64_t arg) { #if CF_USE_OSBYTEORDER_H return OSSwapHostToBigInt64(arg); #elif __BIG_ENDIAN__ return arg; #else return CFSwapInt64(arg); #endif } CF_INLINE uint16_t CFSwapInt16LittleToHost(uint16_t arg) { #if CF_USE_OSBYTEORDER_H return OSSwapLittleToHostInt16(arg); #elif __LITTLE_ENDIAN__ return arg; #else return CFSwapInt16(arg); #endif } CF_INLINE uint32_t CFSwapInt32LittleToHost(uint32_t arg) { #if CF_USE_OSBYTEORDER_H return OSSwapLittleToHostInt32(arg); #elif __LITTLE_ENDIAN__ return arg; #else return CFSwapInt32(arg); #endif } CF_INLINE uint64_t CFSwapInt64LittleToHost(uint64_t arg) { #if CF_USE_OSBYTEORDER_H return OSSwapLittleToHostInt64(arg); #elif __LITTLE_ENDIAN__ return arg; #else return CFSwapInt64(arg); #endif } CF_INLINE uint16_t CFSwapInt16HostToLittle(uint16_t arg) { #if CF_USE_OSBYTEORDER_H return OSSwapHostToLittleInt16(arg); #elif __LITTLE_ENDIAN__ return arg; #else return CFSwapInt16(arg); #endif } CF_INLINE uint32_t CFSwapInt32HostToLittle(uint32_t arg) { #if CF_USE_OSBYTEORDER_H return OSSwapHostToLittleInt32(arg); #elif __LITTLE_ENDIAN__ return arg; #else return CFSwapInt32(arg); #endif } CF_INLINE uint64_t CFSwapInt64HostToLittle(uint64_t arg) { #if CF_USE_OSBYTEORDER_H return OSSwapHostToLittleInt64(arg); #elif __LITTLE_ENDIAN__ return arg; #else return CFSwapInt64(arg); #endif } typedef struct {uint32_t v;} CFSwappedFloat32; typedef struct {uint64_t v;} CFSwappedFloat64; CF_INLINE CFSwappedFloat32 CFConvertFloat32HostToSwapped(Float32 arg) { union CFSwap { Float32 v; CFSwappedFloat32 sv; } result; result.v = arg; #if __LITTLE_ENDIAN__ result.sv.v = CFSwapInt32(result.sv.v); #endif return result.sv; } CF_INLINE Float32 CFConvertFloat32SwappedToHost(CFSwappedFloat32 arg) { union CFSwap { Float32 v; CFSwappedFloat32 sv; } result; result.sv = arg; #if __LITTLE_ENDIAN__ result.sv.v = CFSwapInt32(result.sv.v); #endif return result.v; } CF_INLINE CFSwappedFloat64 CFConvertFloat64HostToSwapped(Float64 arg) { union CFSwap { Float64 v; CFSwappedFloat64 sv; } result; result.v = arg; #if __LITTLE_ENDIAN__ result.sv.v = CFSwapInt64(result.sv.v); #endif return result.sv; } CF_INLINE Float64 CFConvertFloat64SwappedToHost(CFSwappedFloat64 arg) { union CFSwap { Float64 v; CFSwappedFloat64 sv; } result; result.sv = arg; #if __LITTLE_ENDIAN__ result.sv.v = CFSwapInt64(result.sv.v); #endif return result.v; } CF_INLINE CFSwappedFloat32 CFConvertFloatHostToSwapped(float arg) { union CFSwap { float v; CFSwappedFloat32 sv; } result; result.v = arg; #if __LITTLE_ENDIAN__ result.sv.v = CFSwapInt32(result.sv.v); #endif return result.sv; } CF_INLINE float CFConvertFloatSwappedToHost(CFSwappedFloat32 arg) { union CFSwap { float v; CFSwappedFloat32 sv; } result; result.sv = arg; #if __LITTLE_ENDIAN__ result.sv.v = CFSwapInt32(result.sv.v); #endif return result.v; } CF_INLINE CFSwappedFloat64 CFConvertDoubleHostToSwapped(double arg) { union CFSwap { double v; CFSwappedFloat64 sv; } result; result.v = arg; #if __LITTLE_ENDIAN__ result.sv.v = CFSwapInt64(result.sv.v); #endif return result.sv; } CF_INLINE double CFConvertDoubleSwappedToHost(CFSwappedFloat64 arg) { union CFSwap { double v; CFSwappedFloat64 sv; } result; result.sv = arg; #if __LITTLE_ENDIAN__ result.sv.v = CFSwapInt64(result.sv.v); #endif return result.v; } CF_EXTERN_C_END #endif /* ! __COREFOUNDATION_CFBYTEORDER__ */