/
utf.d
581 lines (557 loc) · 16.1 KB
/
utf.d
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/**
* Functions related to UTF encoding.
*
* Copyright: Copyright (C) 1999-2024 by The D Language Foundation, All Rights Reserved
* Authors: $(LINK2 https://www.digitalmars.com, Walter Bright)
* License: $(LINK2 https://www.boost.org/LICENSE_1_0.txt, Boost License 1.0)
* Source: $(LINK2 https://github.com/dlang/dmd/blob/master/src/dmd/root/utf.d, _utf.d)
* Documentation: https://dlang.org/phobos/dmd_root_utf.html
* Coverage: https://codecov.io/gh/dlang/dmd/src/master/src/dmd/root/utf.d
*/
module dmd.root.utf;
@nogc nothrow pure @safe:
/// The Unicode code space is the range of code points [0x000000,0x10FFFF]
/// except the UTF-16 surrogate pairs in the range [0xD800,0xDFFF]
bool utf_isValidDchar(dchar c)
{
// TODO: Whether non-char code points should be rejected is pending review.
// 0xFFFE and 0xFFFF are valid for internal use, like Phobos std.utf.isValidDChar
// See also https://issues.dlang.org/show_bug.cgi?id=1357
if (c < 0xD800) // Almost all characters in a typical document.
return true;
if (c > 0xDFFF && c <= 0x10FFFF)
return true;
return false;
}
/*******************************
* Return !=0 if unicode alpha.
* Use table from C99 Appendix D.
*/
bool isUniAlpha(dchar c)
{
static immutable wchar[2][] ALPHA_TABLE =
[
[0x00AA, 0x00AA],
[0x00B5, 0x00B5],
[0x00B7, 0x00B7],
[0x00BA, 0x00BA],
[0x00C0, 0x00D6],
[0x00D8, 0x00F6],
[0x00F8, 0x01F5],
[0x01FA, 0x0217],
[0x0250, 0x02A8],
[0x02B0, 0x02B8],
[0x02BB, 0x02BB],
[0x02BD, 0x02C1],
[0x02D0, 0x02D1],
[0x02E0, 0x02E4],
[0x037A, 0x037A],
[0x0386, 0x0386],
[0x0388, 0x038A],
[0x038C, 0x038C],
[0x038E, 0x03A1],
[0x03A3, 0x03CE],
[0x03D0, 0x03D6],
[0x03DA, 0x03DA],
[0x03DC, 0x03DC],
[0x03DE, 0x03DE],
[0x03E0, 0x03E0],
[0x03E2, 0x03F3],
[0x0401, 0x040C],
[0x040E, 0x044F],
[0x0451, 0x045C],
[0x045E, 0x0481],
[0x0490, 0x04C4],
[0x04C7, 0x04C8],
[0x04CB, 0x04CC],
[0x04D0, 0x04EB],
[0x04EE, 0x04F5],
[0x04F8, 0x04F9],
[0x0531, 0x0556],
[0x0559, 0x0559],
[0x0561, 0x0587],
[0x05B0, 0x05B9],
[0x05BB, 0x05BD],
[0x05BF, 0x05BF],
[0x05C1, 0x05C2],
[0x05D0, 0x05EA],
[0x05F0, 0x05F2],
[0x0621, 0x063A],
[0x0640, 0x0652],
[0x0660, 0x0669],
[0x0670, 0x06B7],
[0x06BA, 0x06BE],
[0x06C0, 0x06CE],
[0x06D0, 0x06DC],
[0x06E5, 0x06E8],
[0x06EA, 0x06ED],
[0x06F0, 0x06F9],
[0x0901, 0x0903],
[0x0905, 0x0939],
[0x093D, 0x094D],
[0x0950, 0x0952],
[0x0958, 0x0963],
[0x0966, 0x096F],
[0x0981, 0x0983],
[0x0985, 0x098C],
[0x098F, 0x0990],
[0x0993, 0x09A8],
[0x09AA, 0x09B0],
[0x09B2, 0x09B2],
[0x09B6, 0x09B9],
[0x09BE, 0x09C4],
[0x09C7, 0x09C8],
[0x09CB, 0x09CD],
[0x09DC, 0x09DD],
[0x09DF, 0x09E3],
[0x09E6, 0x09F1],
[0x0A02, 0x0A02],
[0x0A05, 0x0A0A],
[0x0A0F, 0x0A10],
[0x0A13, 0x0A28],
[0x0A2A, 0x0A30],
[0x0A32, 0x0A33],
[0x0A35, 0x0A36],
[0x0A38, 0x0A39],
[0x0A3E, 0x0A42],
[0x0A47, 0x0A48],
[0x0A4B, 0x0A4D],
[0x0A59, 0x0A5C],
[0x0A5E, 0x0A5E],
[0x0A66, 0x0A6F],
[0x0A74, 0x0A74],
[0x0A81, 0x0A83],
[0x0A85, 0x0A8B],
[0x0A8D, 0x0A8D],
[0x0A8F, 0x0A91],
[0x0A93, 0x0AA8],
[0x0AAA, 0x0AB0],
[0x0AB2, 0x0AB3],
[0x0AB5, 0x0AB9],
[0x0ABD, 0x0AC5],
[0x0AC7, 0x0AC9],
[0x0ACB, 0x0ACD],
[0x0AD0, 0x0AD0],
[0x0AE0, 0x0AE0],
[0x0AE6, 0x0AEF],
[0x0B01, 0x0B03],
[0x0B05, 0x0B0C],
[0x0B0F, 0x0B10],
[0x0B13, 0x0B28],
[0x0B2A, 0x0B30],
[0x0B32, 0x0B33],
[0x0B36, 0x0B39],
[0x0B3D, 0x0B43],
[0x0B47, 0x0B48],
[0x0B4B, 0x0B4D],
[0x0B5C, 0x0B5D],
[0x0B5F, 0x0B61],
[0x0B66, 0x0B6F],
[0x0B82, 0x0B83],
[0x0B85, 0x0B8A],
[0x0B8E, 0x0B90],
[0x0B92, 0x0B95],
[0x0B99, 0x0B9A],
[0x0B9C, 0x0B9C],
[0x0B9E, 0x0B9F],
[0x0BA3, 0x0BA4],
[0x0BA8, 0x0BAA],
[0x0BAE, 0x0BB5],
[0x0BB7, 0x0BB9],
[0x0BBE, 0x0BC2],
[0x0BC6, 0x0BC8],
[0x0BCA, 0x0BCD],
[0x0BE7, 0x0BEF],
[0x0C01, 0x0C03],
[0x0C05, 0x0C0C],
[0x0C0E, 0x0C10],
[0x0C12, 0x0C28],
[0x0C2A, 0x0C33],
[0x0C35, 0x0C39],
[0x0C3E, 0x0C44],
[0x0C46, 0x0C48],
[0x0C4A, 0x0C4D],
[0x0C60, 0x0C61],
[0x0C66, 0x0C6F],
[0x0C82, 0x0C83],
[0x0C85, 0x0C8C],
[0x0C8E, 0x0C90],
[0x0C92, 0x0CA8],
[0x0CAA, 0x0CB3],
[0x0CB5, 0x0CB9],
[0x0CBE, 0x0CC4],
[0x0CC6, 0x0CC8],
[0x0CCA, 0x0CCD],
[0x0CDE, 0x0CDE],
[0x0CE0, 0x0CE1],
[0x0CE6, 0x0CEF],
[0x0D02, 0x0D03],
[0x0D05, 0x0D0C],
[0x0D0E, 0x0D10],
[0x0D12, 0x0D28],
[0x0D2A, 0x0D39],
[0x0D3E, 0x0D43],
[0x0D46, 0x0D48],
[0x0D4A, 0x0D4D],
[0x0D60, 0x0D61],
[0x0D66, 0x0D6F],
[0x0E01, 0x0E3A],
[0x0E40, 0x0E5B],
[0x0E81, 0x0E82],
[0x0E84, 0x0E84],
[0x0E87, 0x0E88],
[0x0E8A, 0x0E8A],
[0x0E8D, 0x0E8D],
[0x0E94, 0x0E97],
[0x0E99, 0x0E9F],
[0x0EA1, 0x0EA3],
[0x0EA5, 0x0EA5],
[0x0EA7, 0x0EA7],
[0x0EAA, 0x0EAB],
[0x0EAD, 0x0EAE],
[0x0EB0, 0x0EB9],
[0x0EBB, 0x0EBD],
[0x0EC0, 0x0EC4],
[0x0EC6, 0x0EC6],
[0x0EC8, 0x0ECD],
[0x0ED0, 0x0ED9],
[0x0EDC, 0x0EDD],
[0x0F00, 0x0F00],
[0x0F18, 0x0F19],
[0x0F20, 0x0F33],
[0x0F35, 0x0F35],
[0x0F37, 0x0F37],
[0x0F39, 0x0F39],
[0x0F3E, 0x0F47],
[0x0F49, 0x0F69],
[0x0F71, 0x0F84],
[0x0F86, 0x0F8B],
[0x0F90, 0x0F95],
[0x0F97, 0x0F97],
[0x0F99, 0x0FAD],
[0x0FB1, 0x0FB7],
[0x0FB9, 0x0FB9],
[0x10A0, 0x10C5],
[0x10D0, 0x10F6],
[0x1E00, 0x1E9B],
[0x1EA0, 0x1EF9],
[0x1F00, 0x1F15],
[0x1F18, 0x1F1D],
[0x1F20, 0x1F45],
[0x1F48, 0x1F4D],
[0x1F50, 0x1F57],
[0x1F59, 0x1F59],
[0x1F5B, 0x1F5B],
[0x1F5D, 0x1F5D],
[0x1F5F, 0x1F7D],
[0x1F80, 0x1FB4],
[0x1FB6, 0x1FBC],
[0x1FBE, 0x1FBE],
[0x1FC2, 0x1FC4],
[0x1FC6, 0x1FCC],
[0x1FD0, 0x1FD3],
[0x1FD6, 0x1FDB],
[0x1FE0, 0x1FEC],
[0x1FF2, 0x1FF4],
[0x1FF6, 0x1FFC],
[0x203F, 0x2040],
[0x207F, 0x207F],
[0x2102, 0x2102],
[0x2107, 0x2107],
[0x210A, 0x2113],
[0x2115, 0x2115],
[0x2118, 0x211D],
[0x2124, 0x2124],
[0x2126, 0x2126],
[0x2128, 0x2128],
[0x212A, 0x2131],
[0x2133, 0x2138],
[0x2160, 0x2182],
[0x3005, 0x3007],
[0x3021, 0x3029],
[0x3041, 0x3093],
[0x309B, 0x309C],
[0x30A1, 0x30F6],
[0x30FB, 0x30FC],
[0x3105, 0x312C],
[0x4E00, 0x9FA5],
[0xAC00, 0xD7A3]
];
size_t high = ALPHA_TABLE.length - 1;
// Shortcut search if c is out of range
size_t low = (c < ALPHA_TABLE[0][0] || ALPHA_TABLE[high][1] < c) ? high + 1 : 0;
// Binary search
while (low <= high)
{
const size_t mid = low + ((high - low) >> 1);
if (c < ALPHA_TABLE[mid][0])
high = mid - 1;
else if (ALPHA_TABLE[mid][1] < c)
low = mid + 1;
else
{
assert(ALPHA_TABLE[mid][0] <= c && c <= ALPHA_TABLE[mid][1]);
return true;
}
}
return false;
}
/**
* Returns the code length of c in code units.
*/
int utf_codeLengthChar(dchar c)
{
if (c <= 0x7F)
return 1;
if (c <= 0x7FF)
return 2;
if (c <= 0xFFFF)
return 3;
if (c <= 0x10FFFF)
return 4;
assert(false);
}
int utf_codeLengthWchar(dchar c)
{
return c <= 0xFFFF ? 1 : 2;
}
/**
* Returns the code length of c in code units for the encoding.
* sz is the encoding: 1 = utf8, 2 = utf16, 4 = utf32.
*/
int utf_codeLength(int sz, dchar c)
{
if (sz == 1)
return utf_codeLengthChar(c);
if (sz == 2)
return utf_codeLengthWchar(c);
assert(sz == 4);
return 1;
}
void utf_encodeChar(char* s, dchar c) @system
{
assert(s !is null);
assert(utf_isValidDchar(c));
if (c <= 0x7F)
{
s[0] = cast(char)c;
}
else if (c <= 0x07FF)
{
s[0] = cast(char)(0xC0 | (c >> 6));
s[1] = cast(char)(0x80 | (c & 0x3F));
}
else if (c <= 0xFFFF)
{
s[0] = cast(char)(0xE0 | (c >> 12));
s[1] = cast(char)(0x80 | ((c >> 6) & 0x3F));
s[2] = cast(char)(0x80 | (c & 0x3F));
}
else if (c <= 0x10FFFF)
{
s[0] = cast(char)(0xF0 | (c >> 18));
s[1] = cast(char)(0x80 | ((c >> 12) & 0x3F));
s[2] = cast(char)(0x80 | ((c >> 6) & 0x3F));
s[3] = cast(char)(0x80 | (c & 0x3F));
}
else
assert(0);
}
void utf_encodeWchar(wchar* s, dchar c) @system
{
assert(s !is null);
assert(utf_isValidDchar(c));
if (c <= 0xFFFF)
{
s[0] = cast(wchar)c;
}
else
{
s[0] = cast(wchar)((((c - 0x010000) >> 10) & 0x03FF) + 0xD800);
s[1] = cast(wchar)(((c - 0x010000) & 0x03FF) + 0xDC00);
}
}
void utf_encode(int sz, void* s, dchar c) @system
{
if (sz == 1)
utf_encodeChar(cast(char*)s, c);
else if (sz == 2)
utf_encodeWchar(cast(wchar*)s, c);
else
{
assert(sz == 4);
*(cast(dchar*)s) = c;
}
}
/********************************************
* Checks whether an Unicode code point is a bidirectional
* control character.
*/
bool isBidiControl(dchar c)
{
// Source: https://www.unicode.org/versions/Unicode15.0.0, table 23-3.
switch(c)
{
case '\u061C':
case '\u200E':
case '\u200F':
case '\u202A': .. case '\u202E':
case '\u2066': .. case '\u2069':
return true;
default:
return false;
}
}
/********************************************
* Decode a UTF-8 sequence as a single UTF-32 code point.
* Params:
* s = UTF-8 sequence
* ridx = starting index in s[], updated to reflect number of code units decoded
* rresult = set to character decoded
* Returns:
* null on success, otherwise error message string
*/
string utf_decodeChar(const(char)[] s, ref size_t ridx, out dchar rresult)
{
// UTF-8 decoding errors
static immutable string UTF8_DECODE_OK = null; // no error
static immutable string UTF8_DECODE_OUTSIDE_CODE_SPACE = "Outside Unicode code space";
static immutable string UTF8_DECODE_TRUNCATED_SEQUENCE = "Truncated UTF-8 sequence";
static immutable string UTF8_DECODE_OVERLONG = "Overlong UTF-8 sequence";
static immutable string UTF8_DECODE_INVALID_TRAILER = "Invalid trailing code unit";
static immutable string UTF8_DECODE_INVALID_CODE_POINT = "Invalid code point decoded";
/* The following encodings are valid, except for the 5 and 6 byte
* combinations:
* 0xxxxxxx
* 110xxxxx 10xxxxxx
* 1110xxxx 10xxxxxx 10xxxxxx
* 11110xxx 10xxxxxx 10xxxxxx 10xxxxxx
* 111110xx 10xxxxxx 10xxxxxx 10xxxxxx 10xxxxxx
* 1111110x 10xxxxxx 10xxxxxx 10xxxxxx 10xxxxxx 10xxxxxx
*/
static immutable ubyte[256] UTF8_STRIDE =
[
1,1,1,1, 1,1,1,1,
1,1,1,1, 1,1,1,1,
1,1,1,1, 1,1,1,1,
1,1,1,1, 1,1,1,1,
1,1,1,1, 1,1,1,1,
1,1,1,1, 1,1,1,1,
1,1,1,1, 1,1,1,1,
1,1,1,1, 1,1,1,1,
1,1,1,1, 1,1,1,1,
1,1,1,1, 1,1,1,1,
1,1,1,1, 1,1,1,1,
1,1,1,1, 1,1,1,1,
1,1,1,1, 1,1,1,1,
1,1,1,1, 1,1,1,1,
1,1,1,1, 1,1,1,1,
1,1,1,1, 1,1,1,1,
0xFF,0xFF,0xFF,0xFF, 0xFF,0xFF,0xFF,0xFF,
0xFF,0xFF,0xFF,0xFF, 0xFF,0xFF,0xFF,0xFF,
0xFF,0xFF,0xFF,0xFF, 0xFF,0xFF,0xFF,0xFF,
0xFF,0xFF,0xFF,0xFF, 0xFF,0xFF,0xFF,0xFF,
0xFF,0xFF,0xFF,0xFF, 0xFF,0xFF,0xFF,0xFF,
0xFF,0xFF,0xFF,0xFF, 0xFF,0xFF,0xFF,0xFF,
0xFF,0xFF,0xFF,0xFF, 0xFF,0xFF,0xFF,0xFF,
0xFF,0xFF,0xFF,0xFF, 0xFF,0xFF,0xFF,0xFF,
2,2,2,2, 2,2,2,2,
2,2,2,2, 2,2,2,2,
2,2,2,2, 2,2,2,2,
2,2,2,2, 2,2,2,2,
3,3,3,3, 3,3,3,3,
3,3,3,3, 3,3,3,3,
4,4,4,4, 4,4,4,4,
5,5,5,5, 6,6,0xFF,0xFF
];
assert(s !is null);
size_t i = ridx++;
const char u = s[i];
// Pre-stage results for ASCII and error cases
rresult = u;
//printf("utf_decodeChar(s = %02x, %02x, %02x len = %d)\n", u, s[1], s[2], len);
// Get expected sequence length
const size_t n = UTF8_STRIDE[u];
switch (n)
{
case 1:
// ASCII
return UTF8_DECODE_OK;
case 2:
case 3:
case 4:
// multi-byte UTF-8
break;
default:
// 5- or 6-byte sequence
return UTF8_DECODE_OUTSIDE_CODE_SPACE;
}
if (s.length < i + n) // source too short
return UTF8_DECODE_TRUNCATED_SEQUENCE;
// Pick off 7 - n low bits from first code unit
dchar c = u & ((1 << (7 - n)) - 1);
/* The following combinations are overlong, and illegal:
* 1100000x (10xxxxxx)
* 11100000 100xxxxx (10xxxxxx)
* 11110000 1000xxxx (10xxxxxx 10xxxxxx)
* 11111000 10000xxx (10xxxxxx 10xxxxxx 10xxxxxx)
* 11111100 100000xx (10xxxxxx 10xxxxxx 10xxxxxx 10xxxxxx)
*/
const char u2 = s[++i];
// overlong combination
if ((u & 0xFE) == 0xC0 || (u == 0xE0 && (u2 & 0xE0) == 0x80) || (u == 0xF0 && (u2 & 0xF0) == 0x80) || (u == 0xF8 && (u2 & 0xF8) == 0x80) || (u == 0xFC && (u2 & 0xFC) == 0x80))
return UTF8_DECODE_OVERLONG;
// Decode remaining bits
for (const m = n + i - 1; i != m; ++i)
{
const u3 = s[i];
if ((u3 & 0xC0) != 0x80) // trailing bytes are 10xxxxxx
return UTF8_DECODE_INVALID_TRAILER;
c = (c << 6) | (u3 & 0x3F);
}
if (!utf_isValidDchar(c))
return UTF8_DECODE_INVALID_CODE_POINT;
ridx = i;
rresult = c;
return UTF8_DECODE_OK;
}
/********************************************
* Decode a UTF-16 sequence as a single UTF-32 code point.
* Params:
* s = UTF-16 sequence
* ridx = starting index in s[], updated to reflect number of code units decoded
* rresult = set to character decoded
* Returns:
* null on success, otherwise error message string
*/
string utf_decodeWchar(const(wchar)[] s, ref size_t ridx, out dchar rresult)
{
// UTF-16 decoding errors
static immutable string UTF16_DECODE_OK = null; // no error
static immutable string UTF16_DECODE_TRUNCATED_SEQUENCE = "Truncated UTF-16 sequence";
static immutable string UTF16_DECODE_INVALID_SURROGATE = "Invalid low surrogate";
static immutable string UTF16_DECODE_UNPAIRED_SURROGATE = "Unpaired surrogate";
static immutable string UTF16_DECODE_INVALID_CODE_POINT = "Invalid code point decoded";
assert(s !is null);
size_t i = ridx++;
// Pre-stage results for single wchar and error cases
dchar u = rresult = s[i];
if (u < 0xD800) // Single wchar codepoint
return UTF16_DECODE_OK;
if (0xD800 <= u && u <= 0xDBFF) // Surrogate pair
{
if (s.length <= i + 1)
return UTF16_DECODE_TRUNCATED_SEQUENCE;
wchar u2 = s[i + 1];
if (u2 < 0xDC00 || 0xDFFF < u)
return UTF16_DECODE_INVALID_SURROGATE;
u = ((u - 0xD7C0) << 10) + (u2 - 0xDC00);
++ridx;
}
else if (0xDC00 <= u && u <= 0xDFFF)
return UTF16_DECODE_UNPAIRED_SURROGATE;
if (!utf_isValidDchar(u))
return UTF16_DECODE_INVALID_CODE_POINT;
rresult = u;
return UTF16_DECODE_OK;
}