// Copyright Ferdinand Majerech 2014. // Distributed under the Boost Software License, Version 1.0. // (See accompanying file LICENSE_1_0.txt or copy at // http://www.boost.org/LICENSE_1_0.txt) /// A minimal library providing functionality for changing the endianness of data. module tinyendian; import core.stdc.string; import std.algorithm; import std.system; import std.utf; /// Unicode UTF encodings. enum UTFEncoding : ubyte { UTF_8, UTF_16, UTF_32 } unittest { const ints = [314, -101]; int[2] intsSwapBuffer = ints; swapByteOrder(intsSwapBuffer[]); swapByteOrder(intsSwapBuffer[]); assert(ints == intsSwapBuffer, "Lost information when swapping byte order"); const floats = [3.14f, 10.1f]; float[2] floatsSwapBuffer = floats; swapByteOrder(floatsSwapBuffer[]); swapByteOrder(floatsSwapBuffer[]); assert(floats == floatsSwapBuffer, "Lost information when swapping byte order"); } @system pure nothrow @nogc: /** Swap byte order of items in an array in place. * * Params: * * T = Item type. Must be either 2 or 4 bytes long. * array = Buffer with values to fix byte order of. */ void swapByteOrder(T)(T[] array) if([2, 4].canFind(T.sizeof)) { import core.bitop; // Swap the byte order of all read characters. foreach(ref item; array) { static if(T.sizeof == 2) { swap(*cast(ubyte*)&item, *(cast(ubyte*)&item + 1)); } else static if(T.sizeof == 4) { const swapped = bswap(*cast(uint*)&item); item = *cast(const(T)*)&swapped; } else static assert(false, "Unsupported T: " ~ T.stringof); } } /** Convert byte order of an array encoded in UTF(8/16/32) to system endianness in place. * * Uses the UTF byte-order-mark (BOM) to determine UTF encoding. If there is no BOM * at the beginning of array, UTF-8 is assumed (this is compatible with ASCII). The * BOM, if any, will be removed from the buffer. * * If the encoding is determined to be UTF-16 or UTF-32 and there aren't enough bytes * for the last code unit (i.e. if array.length is odd for UTF-16 or not divisible by * 4 for UTF-32), the extra bytes (1 for UTF-16, 1-3 for UTF-32) are stripped. * * Note that this function does $(B not) check if the array is a valid UTF string. It * only works with the BOM and 1,2 or 4-byte items. * * Params: * * array = The array with UTF-data. * * Returns: * * A struct with the following members: * * $(D ubyte[] array) A slice of the input array containing data in correct * byte order, without BOM and in case of UTF-16/UTF-32, * without stripped bytes, if any. * $(D UTFEncoding encoding) Encoding of the result (UTF-8, UTF-16 or UTF-32) * $(D std.system.Endian endian) Endianness of the original array. * $(D uint bytesStripped) Number of bytes stripped from a UTF-16/UTF-32 array, if * any. This is non-zero only if array.length was not * divisible by 2 or 4 for UTF-16 and UTF-32, respectively. * * Complexity: (BIGOH array.length) */ auto fixUTFByteOrder(ubyte[] array) { // Enumerates UTF BOMs, matching indices to byteOrderMarks/bomEndian. enum BOM: ubyte { UTF_8 = 0, UTF_16_LE = 1, UTF_16_BE = 2, UTF_32_LE = 3, UTF_32_BE = 4, None = ubyte.max } // These 2 are from std.stream static immutable ubyte[][5] byteOrderMarks = [ [0xEF, 0xBB, 0xBF], [0xFF, 0xFE], [0xFE, 0xFF], [0xFF, 0xFE, 0x00, 0x00], [0x00, 0x00, 0xFE, 0xFF] ]; static immutable Endian[5] bomEndian = [ std.system.endian, Endian.littleEndian, Endian.bigEndian, Endian.littleEndian, Endian.bigEndian ]; // Documented in function ddoc. struct Result { ubyte[] array; UTFEncoding encoding; Endian endian; uint bytesStripped = 0; } Result result; // Detect BOM, if any, in the bytes we've read. -1 means no BOM. // Need the last match: First 2 bytes of UTF-32LE BOM match the UTF-16LE BOM. If we // used the first match, UTF-16LE would be detected when we have a UTF-32LE BOM. BOM bomId = BOM.None; foreach(i, bom; byteOrderMarks) if(array.startsWith(bom)) { bomId = cast(BOM)i; } result.endian = (bomId != BOM.None) ? bomEndian[bomId] : Endian.init; // Start of UTF data (after BOM, if any) size_t start = 0; // If we've read more than just the BOM, put the rest into the array. with(BOM) final switch(bomId) { case None: result.encoding = UTFEncoding.UTF_8; break; case UTF_8: start = 3; result.encoding = UTFEncoding.UTF_8; break; case UTF_16_LE, UTF_16_BE: result.bytesStripped = array.length % 2; start = 2; result.encoding = UTFEncoding.UTF_16; break; case UTF_32_LE, UTF_32_BE: result.bytesStripped = array.length % 4; start = 4; result.encoding = UTFEncoding.UTF_32; break; } array = array[0 .. $ - result.bytesStripped]; // If there's a BOM, we need to move data back to ensure it starts at array[0] if(start != 0) { core.stdc.string.memmove(array.ptr, array.ptr + start, array.length - start); array = array[0 .. $ - start]; } // We enforce above that array.length is divisible by 2/4 for UTF-16/32 if(std.system.endian != result.endian) { if(result.encoding == UTFEncoding.UTF_16) { swapByteOrder(cast(wchar[])array); } else if(result.encoding == UTFEncoding.UTF_32) { swapByteOrder(cast(dchar[])array); } } result.array = array; return result; }