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a0ed51b3 LW |
1 | /* utf8.h |
2 | * | |
f3cb6f94 KW |
3 | * This file contains definitions for use with the UTF-8 encoding. It |
4 | * actually also works with the variant UTF-8 encoding called UTF-EBCDIC, and | |
5 | * hides almost all of the differences between these from the caller. In other | |
6 | * words, someone should #include this file, and if the code is being compiled | |
7 | * on an EBCDIC platform, things should mostly just work. | |
8 | * | |
2eee27d7 SS |
9 | * Copyright (C) 2000, 2001, 2002, 2005, 2006, 2007, 2009, |
10 | * 2010, 2011 by Larry Wall and others | |
a0ed51b3 LW |
11 | * |
12 | * You may distribute under the terms of either the GNU General Public | |
13 | * License or the Artistic License, as specified in the README file. | |
14 | * | |
15 | */ | |
16 | ||
57f0e7e2 KW |
17 | #ifndef H_UTF8 /* Guard against recursive inclusion */ |
18 | #define H_UTF8 1 | |
19 | ||
39e02b42 | 20 | /* Use UTF-8 as the default script encoding? |
1e54db1a | 21 | * Turning this on will break scripts having non-UTF-8 binary |
39e02b42 JH |
22 | * data (such as Latin-1) in string literals. */ |
23 | #ifdef USE_UTF8_SCRIPTS | |
24 | # define USE_UTF8_IN_NAMES (!IN_BYTES) | |
25 | #else | |
26 | # define USE_UTF8_IN_NAMES (PL_hints & HINT_UTF8) | |
27 | #endif | |
28 | ||
3cd96634 KW |
29 | #include "regcharclass.h" |
30 | #include "unicode_constants.h" | |
31 | ||
051a06d4 | 32 | /* For to_utf8_fold_flags, q.v. */ |
e4f4ef45 KW |
33 | #define FOLD_FLAGS_LOCALE 0x1 |
34 | #define FOLD_FLAGS_FULL 0x2 | |
35 | #define FOLD_FLAGS_NOMIX_ASCII 0x4 | |
051a06d4 | 36 | |
83199d38 KW |
37 | /* For _core_swash_init(), internal core use only */ |
38 | #define _CORE_SWASH_INIT_USER_DEFINED_PROPERTY 0x1 | |
5d3d13d1 | 39 | #define _CORE_SWASH_INIT_RETURN_IF_UNDEF 0x2 |
87367d5f | 40 | #define _CORE_SWASH_INIT_ACCEPT_INVLIST 0x4 |
83199d38 | 41 | |
7bbfa158 KW |
42 | /* |
43 | =head1 Unicode Support | |
8cca77bc KW |
44 | L<perlguts/Unicode Support> has an introduction to this API. |
45 | ||
46 | See also L</Character classification>, | |
47 | and L</Character case changing>. | |
48 | Various functions outside this section also work specially with Unicode. | |
49 | Search for the string "utf8" in this document. | |
7bbfa158 KW |
50 | |
51 | =for apidoc is_ascii_string | |
52 | ||
53 | This is a misleadingly-named synonym for L</is_invariant_string>. | |
54 | On ASCII-ish platforms, the name isn't misleading: the ASCII-range characters | |
55 | are exactly the UTF-8 invariants. But EBCDIC machines have more invariants | |
56 | than just the ASCII characters, so C<is_invariant_string> is preferred. | |
57 | ||
58 | =cut | |
59 | */ | |
60 | #define is_ascii_string(s, len) is_invariant_string(s, len) | |
61 | ||
de69f3af KW |
62 | #define uvchr_to_utf8(a,b) uvchr_to_utf8_flags(a,b,0) |
63 | #define uvchr_to_utf8_flags(d,uv,flags) \ | |
64 | uvoffuni_to_utf8_flags(d,NATIVE_TO_UNI(uv),flags) | |
65 | #define utf8_to_uvchr_buf(s, e, lenp) \ | |
842991ae | 66 | utf8n_to_uvchr(s, (U8*)(e) - (U8*)(s), lenp, \ |
de69f3af KW |
67 | ckWARN_d(WARN_UTF8) ? 0 : UTF8_ALLOW_ANY) |
68 | ||
a0270393 | 69 | #define to_uni_fold(c, p, lenp) _to_uni_fold_flags(c, p, lenp, FOLD_FLAGS_FULL) |
445bf929 KW |
70 | #define to_utf8_fold(c, p, lenp) _to_utf8_fold_flags(c, p, lenp, FOLD_FLAGS_FULL) |
71 | #define to_utf8_lower(a,b,c) _to_utf8_lower_flags(a,b,c,0) | |
72 | #define to_utf8_upper(a,b,c) _to_utf8_upper_flags(a,b,c,0) | |
73 | #define to_utf8_title(a,b,c) _to_utf8_title_flags(a,b,c,0) | |
36bb2ab6 | 74 | |
fd7cb289 | 75 | /* Source backward compatibility. */ |
fd7cb289 RGS |
76 | #define is_utf8_string_loc(s, len, ep) is_utf8_string_loclen(s, len, ep, 0) |
77 | ||
eda9cac1 KW |
78 | #define foldEQ_utf8(s1, pe1, l1, u1, s2, pe2, l2, u2) \ |
79 | foldEQ_utf8_flags(s1, pe1, l1, u1, s2, pe2, l2, u2, 0) | |
baa60164 | 80 | #define FOLDEQ_UTF8_NOMIX_ASCII (1 << 0) |
cea315b6 | 81 | #define FOLDEQ_LOCALE (1 << 1) |
18f762c3 KW |
82 | #define FOLDEQ_S1_ALREADY_FOLDED (1 << 2) |
83 | #define FOLDEQ_S2_ALREADY_FOLDED (1 << 3) | |
d635b710 KW |
84 | #define FOLDEQ_S1_FOLDS_SANE (1 << 4) |
85 | #define FOLDEQ_S2_FOLDS_SANE (1 << 5) | |
a33c29bc | 86 | |
e6226b18 KW |
87 | #define ibcmp_utf8(s1, pe1, l1, u1, s2, pe2, l2, u2) \ |
88 | cBOOL(! foldEQ_utf8(s1, pe1, l1, u1, s2, pe2, l2, u2)) | |
89 | ||
1d72bdf6 NIS |
90 | #ifdef EBCDIC |
91 | /* The equivalent of these macros but implementing UTF-EBCDIC | |
92 | are in the following header file: | |
93 | */ | |
94 | ||
95 | #include "utfebcdic.h" | |
fd7cb289 | 96 | |
d06134e5 | 97 | #else /* ! EBCDIC */ |
73c4f7a1 GS |
98 | START_EXTERN_C |
99 | ||
111e8ed9 KW |
100 | /* How wide can a single UTF-8 encoded character become in bytes. */ |
101 | /* NOTE: Strictly speaking Perl's UTF-8 should not be called UTF-8 since UTF-8 | |
102 | * is an encoding of Unicode, and Unicode's upper limit, 0x10FFFF, can be | |
103 | * expressed with 4 bytes. However, Perl thinks of UTF-8 as a way to encode | |
104 | * non-negative integers in a binary format, even those above Unicode */ | |
105 | #define UTF8_MAXBYTES 13 | |
106 | ||
a0ed51b3 | 107 | #ifdef DOINIT |
6f06b55f | 108 | EXTCONST unsigned char PL_utf8skip[] = { |
b2635aa8 KW |
109 | /* 0x00 */ 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, /* ascii */ |
110 | /* 0x10 */ 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, /* ascii */ | |
111 | /* 0x20 */ 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, /* ascii */ | |
112 | /* 0x30 */ 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, /* ascii */ | |
113 | /* 0x40 */ 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, /* ascii */ | |
114 | /* 0x50 */ 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, /* ascii */ | |
115 | /* 0x60 */ 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, /* ascii */ | |
116 | /* 0x70 */ 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, /* ascii */ | |
117 | /* 0x80 */ 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, /* bogus: continuation byte */ | |
118 | /* 0x90 */ 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, /* bogus: continuation byte */ | |
119 | /* 0xA0 */ 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, /* bogus: continuation byte */ | |
120 | /* 0xB0 */ 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, /* bogus: continuation byte */ | |
121 | /* 0xC0 */ 2,2, /* overlong */ | |
1ff3baa2 | 122 | /* 0xC2 */ 2,2,2,2,2,2,2,2,2,2,2,2,2,2, /* U+0080 to U+03FF */ |
b2635aa8 KW |
123 | /* 0xD0 */ 2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2, /* U+0400 to U+07FF */ |
124 | /* 0xE0 */ 3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3, /* U+0800 to U+FFFF */ | |
125 | /* 0xF0 */ 4,4,4,4,4,4,4,4,5,5,5,5,6,6, /* above BMP to 2**31 - 1 */ | |
6937f885 KW |
126 | /* Perl extended (never was official UTF-8). Up to 36 bit */ |
127 | /* 0xFE */ 7, | |
128 | /* More extended, Up to 72 bits (64-bit + reserved) */ | |
111e8ed9 | 129 | /* 0xFF */ UTF8_MAXBYTES |
a0ed51b3 LW |
130 | }; |
131 | #else | |
6f06b55f | 132 | EXTCONST unsigned char PL_utf8skip[]; |
a0ed51b3 LW |
133 | #endif |
134 | ||
73c4f7a1 | 135 | END_EXTERN_C |
7e2040f0 | 136 | |
1a3756de | 137 | #if defined(_MSC_VER) && _MSC_VER < 1400 |
6f6d1bab TC |
138 | /* older MSVC versions have a smallish macro buffer */ |
139 | #define PERL_SMALL_MACRO_BUFFER | |
140 | #endif | |
141 | ||
59a449d5 KW |
142 | /* Native character to/from iso-8859-1. Are the identity functions on ASCII |
143 | * platforms */ | |
6f6d1bab | 144 | #ifdef PERL_SMALL_MACRO_BUFFER |
1a3756de TC |
145 | #define NATIVE_TO_LATIN1(ch) ((U8)(ch)) |
146 | #define LATIN1_TO_NATIVE(ch) ((U8)(ch)) | |
6f6d1bab | 147 | #else |
4c8cd605 KW |
148 | #define NATIVE_TO_LATIN1(ch) (__ASSERT_(FITS_IN_8_BITS(ch)) ((U8) (ch))) |
149 | #define LATIN1_TO_NATIVE(ch) (__ASSERT_(FITS_IN_8_BITS(ch)) ((U8) (ch))) | |
6f6d1bab | 150 | #endif |
59a449d5 KW |
151 | |
152 | /* I8 is an intermediate version of UTF-8 used only in UTF-EBCDIC. We thus | |
153 | * consider it to be identical to UTF-8 on ASCII platforms. Strictly speaking | |
154 | * UTF-8 and UTF-EBCDIC are two different things, but we often conflate them | |
155 | * because they are 8-bit encodings that serve the same purpose in Perl, and | |
156 | * rarely do we need to distinguish them. The term "NATIVE_UTF8" applies to | |
157 | * whichever one is applicable on the current platform */ | |
6f6d1bab TC |
158 | #ifdef PERL_SMALL_MACRO_BUFFER |
159 | #define NATIVE_UTF8_TO_I8(ch) (ch) | |
160 | #define I8_TO_NATIVE_UTF8(ch) (ch) | |
161 | #else | |
4c8cd605 KW |
162 | #define NATIVE_UTF8_TO_I8(ch) (__ASSERT_(FITS_IN_8_BITS(ch)) ((U8) (ch))) |
163 | #define I8_TO_NATIVE_UTF8(ch) (__ASSERT_(FITS_IN_8_BITS(ch)) ((U8) (ch))) | |
6f6d1bab | 164 | #endif |
59a449d5 | 165 | |
1d72bdf6 | 166 | /* Transforms in wide UV chars */ |
4c8cd605 KW |
167 | #define UNI_TO_NATIVE(ch) ((UV) (ch)) |
168 | #define NATIVE_TO_UNI(ch) ((UV) (ch)) | |
d7578b48 | 169 | |
877d9f0d | 170 | /* |
9041c2e3 | 171 | |
8c007b5a | 172 | The following table is from Unicode 3.2. |
877d9f0d JH |
173 | |
174 | Code Points 1st Byte 2nd Byte 3rd Byte 4th Byte | |
175 | ||
375122d7 | 176 | U+0000..U+007F 00..7F |
e1b711da | 177 | U+0080..U+07FF * C2..DF 80..BF |
37e2e78e | 178 | U+0800..U+0FFF E0 * A0..BF 80..BF |
375122d7 | 179 | U+1000..U+CFFF E1..EC 80..BF 80..BF |
e1b711da | 180 | U+D000..U+D7FF ED 80..9F 80..BF |
537124e4 | 181 | U+D800..U+DFFF ED A0..BF 80..BF (surrogates) |
375122d7 | 182 | U+E000..U+FFFF EE..EF 80..BF 80..BF |
37e2e78e | 183 | U+10000..U+3FFFF F0 * 90..BF 80..BF 80..BF |
877d9f0d JH |
184 | U+40000..U+FFFFF F1..F3 80..BF 80..BF 80..BF |
185 | U+100000..U+10FFFF F4 80..8F 80..BF 80..BF | |
b2635aa8 KW |
186 | Below are non-Unicode code points |
187 | U+110000..U+13FFFF F4 90..BF 80..BF 80..BF | |
188 | U+110000..U+1FFFFF F5..F7 80..BF 80..BF 80..BF | |
537124e4 | 189 | U+200000..: F8.. * 88..BF 80..BF 80..BF 80..BF |
877d9f0d | 190 | |
e1b711da | 191 | Note the gaps before several of the byte entries above marked by '*'. These are |
37e2e78e KW |
192 | caused by legal UTF-8 avoiding non-shortest encodings: it is technically |
193 | possible to UTF-8-encode a single code point in different ways, but that is | |
194 | explicitly forbidden, and the shortest possible encoding should always be used | |
15824458 | 195 | (and that is what Perl does). The non-shortest ones are called 'overlongs'. |
8c007b5a | 196 | |
877d9f0d JH |
197 | */ |
198 | ||
8c007b5a JH |
199 | /* |
200 | Another way to look at it, as bits: | |
201 | ||
b2635aa8 | 202 | Code Points 1st Byte 2nd Byte 3rd Byte 4th Byte |
8c007b5a | 203 | |
b2635aa8 KW |
204 | 0aaa aaaa 0aaa aaaa |
205 | 0000 0bbb bbaa aaaa 110b bbbb 10aa aaaa | |
206 | cccc bbbb bbaa aaaa 1110 cccc 10bb bbbb 10aa aaaa | |
207 | 00 000d ddcc cccc bbbb bbaa aaaa 1111 0ddd 10cc cccc 10bb bbbb 10aa aaaa | |
8c007b5a JH |
208 | |
209 | As you can see, the continuation bytes all begin with C<10>, and the | |
e1b711da | 210 | leading bits of the start byte tell how many bytes there are in the |
8c007b5a JH |
211 | encoded character. |
212 | ||
65ab9279 TC |
213 | Perl's extended UTF-8 means we can have start bytes up to FF. |
214 | ||
8c007b5a JH |
215 | */ |
216 | ||
6c88483e | 217 | /* Is the representation of the Unicode code point 'cp' the same regardless of |
15824458 | 218 | * being encoded in UTF-8 or not? */ |
2d1545e5 | 219 | #define OFFUNI_IS_INVARIANT(cp) isASCII(cp) |
15824458 | 220 | |
38953e5a KW |
221 | /* Is the representation of the code point 'cp' the same regardless of |
222 | * being encoded in UTF-8 or not? 'cp' is native if < 256; Unicode otherwise | |
223 | * */ | |
cf1be84e | 224 | #define UVCHR_IS_INVARIANT(cp) OFFUNI_IS_INVARIANT(cp) |
38953e5a | 225 | |
c9264833 KW |
226 | /* This defines the bits that are to be in the continuation bytes of a multi-byte |
227 | * UTF-8 encoded character that mark it is a continuation byte. */ | |
228 | #define UTF_CONTINUATION_MARK 0x80 | |
229 | ||
a95ec4fb | 230 | /* Misleadingly named: is the UTF8-encoded byte 'c' part of a variant sequence |
5c06326b KW |
231 | * in UTF-8? This is the inverse of UTF8_IS_INVARIANT. The |0 makes sure this |
232 | * isn't mistakenly called with a ptr argument */ | |
233 | #define UTF8_IS_CONTINUED(c) (((U8)((c) | 0)) & UTF_CONTINUATION_MARK) | |
15824458 KW |
234 | |
235 | /* Is the byte 'c' the first byte of a multi-byte UTF8-8 encoded sequence? | |
236 | * This doesn't catch invariants (they are single-byte). It also excludes the | |
5c06326b KW |
237 | * illegal overlong sequences that begin with C0 and C1. The |0 makes sure |
238 | * this isn't mistakenly called with a ptr argument */ | |
239 | #define UTF8_IS_START(c) (((U8)((c) | 0)) >= 0xc2) | |
15824458 | 240 | |
858cd8ab KW |
241 | /* For use in UTF8_IS_CONTINUATION() below */ |
242 | #define UTF_IS_CONTINUATION_MASK 0xC0 | |
243 | ||
15824458 | 244 | /* Is the byte 'c' part of a multi-byte UTF8-8 encoded sequence, and not the |
5c06326b KW |
245 | * first byte thereof? The |0 makes sure this isn't mistakenly called with a |
246 | * ptr argument */ | |
858cd8ab | 247 | #define UTF8_IS_CONTINUATION(c) \ |
5c06326b | 248 | ((((U8)((c) | 0)) & UTF_IS_CONTINUATION_MASK) == UTF_CONTINUATION_MARK) |
0ae1fa71 | 249 | |
15824458 KW |
250 | /* Is the UTF8-encoded byte 'c' the first byte of a two byte sequence? Use |
251 | * UTF8_IS_NEXT_CHAR_DOWNGRADEABLE() instead if the input isn't known to | |
252 | * be well-formed. Masking with 0xfe allows the low bit to be 0 or 1; thus | |
5c06326b KW |
253 | * this matches 0xc[23]. The |0 makes sure this isn't mistakenly called with a |
254 | * ptr argument */ | |
255 | #define UTF8_IS_DOWNGRADEABLE_START(c) ((((U8)((c) | 0)) & 0xfe) == 0xc2) | |
4ab10950 | 256 | |
15824458 | 257 | /* Is the UTF8-encoded byte 'c' the first byte of a sequence of bytes that |
5c06326b KW |
258 | * represent a code point > 255? The |0 makes sure this isn't mistakenly |
259 | * called with a ptr argument */ | |
260 | #define UTF8_IS_ABOVE_LATIN1(c) (((U8)((c) | 0)) >= 0xc4) | |
8850bf83 | 261 | |
15824458 KW |
262 | /* This is the number of low-order bits a continuation byte in a UTF-8 encoded |
263 | * sequence contributes to the specification of the code point. In the bit | |
264 | * maps above, you see that the first 2 bits are a constant '10', leaving 6 of | |
265 | * real information */ | |
1d72bdf6 | 266 | #define UTF_ACCUMULATION_SHIFT 6 |
b2635aa8 | 267 | |
fed423a5 KW |
268 | /* ^? is defined to be DEL on ASCII systems. See the definition of toCTRL() |
269 | * for more */ | |
270 | #define QUESTION_MARK_CTRL DEL_NATIVE | |
271 | ||
272 | /* Surrogates, non-character code points and above-Unicode code points are | |
273 | * problematic in some contexts. This allows code that needs to check for | |
274 | * those to to quickly exclude the vast majority of code points it will | |
275 | * encounter */ | |
276 | #define isUTF8_POSSIBLY_PROBLEMATIC(c) ((U8) c >= 0xED) | |
277 | ||
278 | #endif /* EBCDIC vs ASCII */ | |
279 | ||
280 | /* 2**UTF_ACCUMULATION_SHIFT - 1 */ | |
281 | #define UTF_CONTINUATION_MASK ((U8) ((1U << UTF_ACCUMULATION_SHIFT) - 1)) | |
282 | ||
7028aeba KW |
283 | /* Internal macro to be used only in this file to aid in constructing other |
284 | * publicly accessible macros. | |
285 | * The number of bytes required to express this uv in UTF-8, for just those | |
286 | * uv's requiring 2 through 6 bytes, as these are common to all platforms and | |
287 | * word sizes. The number of bytes needed is given by the number of leading 1 | |
288 | * bits in the start byte. There are 32 start bytes that have 2 initial 1 bits | |
289 | * (C0-DF); there are 16 that have 3 initial 1 bits (E0-EF); 8 that have 4 | |
290 | * initial 1 bits (F0-F8); 4 that have 5 initial 1 bits (F9-FB), and 2 that | |
291 | * have 6 initial 1 bits (FC-FD). The largest number a string of n bytes can | |
292 | * represent is (the number of possible start bytes for 'n') | |
293 | * * (the number of possiblities for each start byte | |
294 | * The latter in turn is | |
295 | * 2 ** ( (how many continuation bytes there are) | |
296 | * * (the number of bits of information each | |
297 | * continuation byte holds)) | |
298 | * | |
299 | * If we were on a platform where we could use a fast find first set bit | |
300 | * instruction (or count leading zeros instruction) this could be replaced by | |
301 | * using that to find the log2 of the uv, and divide that by the number of bits | |
302 | * of information in each continuation byte, adjusting for large cases and how | |
303 | * much information is in a start byte for that length */ | |
72164d3a | 304 | #define __COMMON_UNI_SKIP(uv) \ |
7028aeba KW |
305 | (UV) (uv) < (32 * (1U << ( UTF_ACCUMULATION_SHIFT))) ? 2 : \ |
306 | (UV) (uv) < (16 * (1U << (2 * UTF_ACCUMULATION_SHIFT))) ? 3 : \ | |
307 | (UV) (uv) < ( 8 * (1U << (3 * UTF_ACCUMULATION_SHIFT))) ? 4 : \ | |
308 | (UV) (uv) < ( 4 * (1U << (4 * UTF_ACCUMULATION_SHIFT))) ? 5 : \ | |
309 | (UV) (uv) < ( 2 * (1U << (5 * UTF_ACCUMULATION_SHIFT))) ? 6 : | |
72164d3a KW |
310 | |
311 | /* Internal macro to be used only in this file. | |
312 | * This adds to __COMMON_UNI_SKIP the details at this platform's upper range. | |
fed423a5 | 313 | * For any-sized EBCDIC platforms, or 64-bit ASCII ones, we need one more test |
72164d3a KW |
314 | * to see if just 7 bytes is needed, or if the maximum is needed. For 32-bit |
315 | * ASCII platforms, everything is representable by 7 bytes */ | |
fed423a5 | 316 | #if defined(UV_IS_QUAD) || defined(EBCDIC) |
72164d3a | 317 | # define __BASE_UNI_SKIP(uv) (__COMMON_UNI_SKIP(uv) \ |
7028aeba | 318 | (UV) (uv) < ((UV) 1U << (6 * UTF_ACCUMULATION_SHIFT)) ? 7 : UTF8_MAXBYTES) |
1d68d6cd | 319 | #else |
72164d3a | 320 | # define __BASE_UNI_SKIP(uv) (__COMMON_UNI_SKIP(uv) 7) |
1d68d6cd SC |
321 | #endif |
322 | ||
fed423a5 KW |
323 | /* The next two macros use the base macro defined above, and add in the tests |
324 | * at the low-end of the range, for just 1 byte, yielding complete macros, | |
325 | * publicly accessible. */ | |
326 | ||
327 | /* Input is a true Unicode (not-native) code point */ | |
328 | #define OFFUNISKIP(uv) (OFFUNI_IS_INVARIANT(uv) ? 1 : __BASE_UNI_SKIP(uv)) | |
2084b489 | 329 | |
5352a763 KW |
330 | /* |
331 | ||
332 | =for apidoc Am|STRLEN|UVCHR_SKIP|UV cp | |
333 | returns the number of bytes required to represent the code point C<cp> when | |
334 | encoded as UTF-8. C<cp> is a native (ASCII or EBCDIC) code point if less than | |
335 | 255; a Unicode code point otherwise. | |
336 | ||
337 | =cut | |
338 | */ | |
fdb6583d | 339 | #define UVCHR_SKIP(uv) ( UVCHR_IS_INVARIANT(uv) ? 1 : __BASE_UNI_SKIP(uv)) |
5352a763 | 340 | |
fed423a5 KW |
341 | /* As explained in the comments for __COMMON_UNI_SKIP, 32 start bytes with |
342 | * UTF_ACCUMULATION_SHIFT bits of information each */ | |
aa206fb7 KW |
343 | #define MAX_UTF8_TWO_BYTE (32 * (1U << UTF_ACCUMULATION_SHIFT) - 1) |
344 | ||
345 | /* constrained by EBCDIC which has 5 bits per continuation byte */ | |
346 | #define MAX_PORTABLE_UTF8_TWO_BYTE (32 * (1U << 5) - 1) | |
347 | ||
c03c0950 KW |
348 | /* The maximum number of UTF-8 bytes a single Unicode character can |
349 | * uppercase/lowercase/fold into. Unicode guarantees that the maximum | |
350 | * expansion is UTF8_MAX_FOLD_CHAR_EXPAND characters, but any above-Unicode | |
351 | * code point will fold to itself, so we only have to look at the expansion of | |
352 | * the maximum Unicode code point. But this number may be less than the space | |
353 | * occupied by a very large code point under Perl's extended UTF-8. We have to | |
354 | * make it large enough to fit any single character. (It turns out that ASCII | |
355 | * and EBCDIC differ in which is larger) */ | |
356 | #define UTF8_MAXBYTES_CASE \ | |
357 | (UTF8_MAXBYTES >= (UTF8_MAX_FOLD_CHAR_EXPAND * OFFUNISKIP(0x10FFFF)) \ | |
358 | ? UTF8_MAXBYTES \ | |
359 | : (UTF8_MAX_FOLD_CHAR_EXPAND * OFFUNISKIP(0x10FFFF))) | |
360 | ||
d06134e5 KW |
361 | /* Rest of these are attributes of Unicode and perl's internals rather than the |
362 | * encoding, or happen to be the same in both ASCII and EBCDIC (at least at | |
363 | * this level; the macros that some of these call may have different | |
364 | * definitions in the two encodings */ | |
365 | ||
59a449d5 KW |
366 | /* In domain restricted to ASCII, these may make more sense to the reader than |
367 | * the ones with Latin1 in the name */ | |
368 | #define NATIVE_TO_ASCII(ch) NATIVE_TO_LATIN1(ch) | |
369 | #define ASCII_TO_NATIVE(ch) LATIN1_TO_NATIVE(ch) | |
370 | ||
371 | /* More or less misleadingly-named defines, retained for back compat */ | |
372 | #define NATIVE_TO_UTF(ch) NATIVE_UTF8_TO_I8(ch) | |
373 | #define NATIVE_TO_I8(ch) NATIVE_UTF8_TO_I8(ch) | |
374 | #define UTF_TO_NATIVE(ch) I8_TO_NATIVE_UTF8(ch) | |
375 | #define I8_TO_NATIVE(ch) I8_TO_NATIVE_UTF8(ch) | |
376 | #define NATIVE8_TO_UNI(ch) NATIVE_TO_LATIN1(ch) | |
d06134e5 | 377 | |
c0236afe | 378 | /* This defines the 1-bits that are to be in the first byte of a multi-byte |
97d0ceda KW |
379 | * UTF-8 encoded character that mark it as a start byte and give the number of |
380 | * bytes that comprise the character. 'len' is the number of bytes in the | |
381 | * multi-byte sequence. */ | |
c0236afe KW |
382 | #define UTF_START_MARK(len) (((len) > 7) ? 0xFF : (0xFF & (0xFE << (7-(len))))) |
383 | ||
384 | /* Masks out the initial one bits in a start byte, leaving the real data ones. | |
385 | * Doesn't work on an invariant byte. 'len' is the number of bytes in the | |
386 | * multi-byte sequence that comprises the character. */ | |
387 | #define UTF_START_MASK(len) (((len) >= 7) ? 0x00 : (0x1F >> ((len)-2))) | |
388 | ||
537124e4 KW |
389 | /* Adds a UTF8 continuation byte 'new' of information to a running total code |
390 | * point 'old' of all the continuation bytes so far. This is designed to be | |
155d2738 KW |
391 | * used in a loop to convert from UTF-8 to the code point represented. Note |
392 | * that this is asymmetric on EBCDIC platforms, in that the 'new' parameter is | |
393 | * the UTF-EBCDIC byte, whereas the 'old' parameter is a Unicode (not EBCDIC) | |
394 | * code point in process of being generated */ | |
395 | #define UTF8_ACCUMULATE(old, new) (((old) << UTF_ACCUMULATION_SHIFT) \ | |
396 | | ((NATIVE_UTF8_TO_I8((U8)new)) \ | |
397 | & UTF_CONTINUATION_MASK)) | |
d06134e5 | 398 | |
7c560c3b KW |
399 | /* If a value is anded with this, and the result is non-zero, then using the |
400 | * original value in UTF8_ACCUMULATE will overflow, shifting bits off the left | |
401 | * */ | |
402 | #define UTF_ACCUMULATION_OVERFLOW_MASK \ | |
403 | (((UV) UTF_CONTINUATION_MASK) << ((sizeof(UV) * CHARBITS) \ | |
404 | - UTF_ACCUMULATION_SHIFT)) | |
405 | ||
4ab10950 KW |
406 | /* This works in the face of malformed UTF-8. */ |
407 | #define UTF8_IS_NEXT_CHAR_DOWNGRADEABLE(s, e) (UTF8_IS_DOWNGRADEABLE_START(*s) \ | |
408 | && ( (e) - (s) > 1) \ | |
409 | && UTF8_IS_CONTINUATION(*((s)+1))) | |
410 | ||
5aaebcb3 | 411 | /* Number of bytes a code point occupies in UTF-8. */ |
5352a763 | 412 | #define NATIVE_SKIP(uv) UVCHR_SKIP(uv) |
bd18bd40 | 413 | |
5aaebcb3 KW |
414 | /* Most code which says UNISKIP is really thinking in terms of native code |
415 | * points (0-255) plus all those beyond. This is an imprecise term, but having | |
2accb712 | 416 | * it means existing code continues to work. For precision, use UVCHR_SKIP, |
5352a763 KW |
417 | * NATIVE_SKIP, or OFFUNISKIP */ |
418 | #define UNISKIP(uv) UVCHR_SKIP(uv) | |
5aaebcb3 | 419 | |
3c0792e4 KW |
420 | /* Longer, but more accurate name */ |
421 | #define UTF8_IS_ABOVE_LATIN1_START(c) UTF8_IS_ABOVE_LATIN1(c) | |
422 | ||
a62b247b KW |
423 | /* Convert a UTF-8 variant Latin1 character to a native code point value. |
424 | * Needs just one iteration of accumulate. Should be used only if it is known | |
425 | * that the code point is < 256, and is not UTF-8 invariant. Use the slower | |
426 | * but more general TWO_BYTE_UTF8_TO_NATIVE() which handles any code point | |
427 | * representable by two bytes (which turns out to be up through | |
428 | * MAX_PORTABLE_UTF8_TWO_BYTE). The two parameters are: | |
429 | * HI: a downgradable start byte; | |
430 | * LO: continuation. | |
431 | * */ | |
432 | #define EIGHT_BIT_UTF8_TO_NATIVE(HI, LO) \ | |
433 | ( __ASSERT_(UTF8_IS_DOWNGRADEABLE_START(HI)) \ | |
434 | __ASSERT_(UTF8_IS_CONTINUATION(LO)) \ | |
435 | LATIN1_TO_NATIVE(UTF8_ACCUMULATE(( \ | |
436 | NATIVE_UTF8_TO_I8(HI) & UTF_START_MASK(2)), (LO)))) | |
437 | ||
94bb8c36 | 438 | /* Convert a two (not one) byte utf8 character to a native code point value. |
2950f2a7 KW |
439 | * Needs just one iteration of accumulate. Should not be used unless it is |
440 | * known that the two bytes are legal: 1) two-byte start, and 2) continuation. | |
441 | * Note that the result can be larger than 255 if the input character is not | |
442 | * downgradable */ | |
94bb8c36 | 443 | #define TWO_BYTE_UTF8_TO_NATIVE(HI, LO) \ |
b18b15ad | 444 | ( __ASSERT_(PL_utf8skip[HI] == 2) \ |
635e76f5 | 445 | __ASSERT_(UTF8_IS_CONTINUATION(LO)) \ |
94bb8c36 | 446 | UNI_TO_NATIVE(UTF8_ACCUMULATE((NATIVE_UTF8_TO_I8(HI) & UTF_START_MASK(2)), \ |
635e76f5 | 447 | (LO)))) |
94bb8c36 KW |
448 | |
449 | /* Should never be used, and be deprecated */ | |
450 | #define TWO_BYTE_UTF8_TO_UNI(HI, LO) NATIVE_TO_UNI(TWO_BYTE_UTF8_TO_NATIVE(HI, LO)) | |
2950f2a7 | 451 | |
bd18bd40 KW |
452 | /* |
453 | ||
454 | =for apidoc Am|STRLEN|UTF8SKIP|char* s | |
455 | returns the number of bytes in the UTF-8 encoded character whose first (perhaps | |
456 | only) byte is pointed to by C<s>. | |
457 | ||
458 | =cut | |
459 | */ | |
2a70536e KW |
460 | #define UTF8SKIP(s) PL_utf8skip[*(const U8*)(s)] |
461 | #define UTF8_SKIP(s) UTF8SKIP(s) | |
d06134e5 | 462 | |
2d1545e5 KW |
463 | /* Most code that says 'UNI_' really means the native value for code points up |
464 | * through 255 */ | |
465 | #define UNI_IS_INVARIANT(cp) UVCHR_IS_INVARIANT(cp) | |
466 | ||
15824458 KW |
467 | /* Is the byte 'c' the same character when encoded in UTF-8 as when not. This |
468 | * works on both UTF-8 encoded strings and non-encoded, as it returns TRUE in | |
5fc230f1 KW |
469 | * each for the exact same set of bit patterns. It is valid on a subset of |
470 | * what UVCHR_IS_INVARIANT is valid on, so can just use that; and the compiler | |
471 | * should optimize out anything extraneous given the implementation of the | |
5c06326b KW |
472 | * latter. The |0 makes sure this isn't mistakenly called with a ptr argument. |
473 | * */ | |
474 | #define UTF8_IS_INVARIANT(c) UVCHR_IS_INVARIANT((c) | 0) | |
5fc230f1 KW |
475 | |
476 | /* Like the above, but its name implies a non-UTF8 input, which as the comments | |
477 | * above show, doesn't matter as to its implementation */ | |
38953e5a | 478 | #define NATIVE_BYTE_IS_INVARIANT(c) UVCHR_IS_INVARIANT(c) |
d06134e5 | 479 | |
48ccf5e1 KW |
480 | /* The macros in the next 4 sets are used to generate the two utf8 or utfebcdic |
481 | * bytes from an ordinal that is known to fit into exactly two (not one) bytes; | |
482 | * it must be less than 0x3FF to work across both encodings. */ | |
483 | ||
484 | /* These two are helper macros for the other three sets, and should not be used | |
485 | * directly anywhere else. 'translate_function' is either NATIVE_TO_LATIN1 | |
1ff3baa2 KW |
486 | * (which works for code points up through 0xFF) or NATIVE_TO_UNI which works |
487 | * for any code point */ | |
48ccf5e1 | 488 | #define __BASE_TWO_BYTE_HI(c, translate_function) \ |
2863dafa | 489 | (__ASSERT_(! UVCHR_IS_INVARIANT(c)) \ |
48ccf5e1 | 490 | I8_TO_NATIVE_UTF8((translate_function(c) >> UTF_ACCUMULATION_SHIFT) \ |
2863dafa | 491 | | UTF_START_MARK(2))) |
48ccf5e1 | 492 | #define __BASE_TWO_BYTE_LO(c, translate_function) \ |
2863dafa | 493 | (__ASSERT_(! UVCHR_IS_INVARIANT(c)) \ |
48ccf5e1 | 494 | I8_TO_NATIVE_UTF8((translate_function(c) & UTF_CONTINUATION_MASK) \ |
2863dafa | 495 | | UTF_CONTINUATION_MARK)) |
48ccf5e1 | 496 | |
48ccf5e1 KW |
497 | /* The next two macros should not be used. They were designed to be usable as |
498 | * the case label of a switch statement, but this doesn't work for EBCDIC. Use | |
9d0d3a03 | 499 | * regen/unicode_constants.pl instead */ |
48ccf5e1 KW |
500 | #define UTF8_TWO_BYTE_HI_nocast(c) __BASE_TWO_BYTE_HI(c, NATIVE_TO_UNI) |
501 | #define UTF8_TWO_BYTE_LO_nocast(c) __BASE_TWO_BYTE_LO(c, NATIVE_TO_UNI) | |
502 | ||
503 | /* The next two macros are used when the source should be a single byte | |
504 | * character; checked for under DEBUGGING */ | |
505 | #define UTF8_EIGHT_BIT_HI(c) (__ASSERT_(FITS_IN_8_BITS(c)) \ | |
4c8cd605 | 506 | ( __BASE_TWO_BYTE_HI(c, NATIVE_TO_LATIN1))) |
48ccf5e1 | 507 | #define UTF8_EIGHT_BIT_LO(c) (__ASSERT_(FITS_IN_8_BITS(c)) \ |
4c8cd605 | 508 | (__BASE_TWO_BYTE_LO(c, NATIVE_TO_LATIN1))) |
48ccf5e1 KW |
509 | |
510 | /* These final two macros in the series are used when the source can be any | |
511 | * code point whose UTF-8 is known to occupy 2 bytes; they are less efficient | |
512 | * than the EIGHT_BIT versions on EBCDIC platforms. We use the logical '~' | |
513 | * operator instead of "<=" to avoid getting compiler warnings. | |
d52b8576 | 514 | * MAX_UTF8_TWO_BYTE should be exactly all one bits in the lower few |
48ccf5e1 KW |
515 | * places, so the ~ works */ |
516 | #define UTF8_TWO_BYTE_HI(c) \ | |
517 | (__ASSERT_((sizeof(c) == 1) \ | |
d52b8576 | 518 | || !(((WIDEST_UTYPE)(c)) & ~MAX_UTF8_TWO_BYTE)) \ |
4c8cd605 | 519 | (__BASE_TWO_BYTE_HI(c, NATIVE_TO_UNI))) |
48ccf5e1 KW |
520 | #define UTF8_TWO_BYTE_LO(c) \ |
521 | (__ASSERT_((sizeof(c) == 1) \ | |
d52b8576 | 522 | || !(((WIDEST_UTYPE)(c)) & ~MAX_UTF8_TWO_BYTE)) \ |
4c8cd605 | 523 | (__BASE_TWO_BYTE_LO(c, NATIVE_TO_UNI))) |
d06134e5 | 524 | |
e7214ce8 KW |
525 | /* This is illegal in any well-formed UTF-8 in both EBCDIC and ASCII |
526 | * as it is only in overlongs. */ | |
527 | #define ILLEGAL_UTF8_BYTE I8_TO_NATIVE_UTF8(0xC1) | |
528 | ||
7e2040f0 | 529 | /* |
e3036cf4 | 530 | * 'UTF' is whether or not p is encoded in UTF8. The names 'foo_lazy_if' stem |
20df05f4 KW |
531 | * from an earlier version of these macros in which they didn't call the |
532 | * foo_utf8() macros (i.e. were 'lazy') unless they decided that *p is the | |
533 | * beginning of a utf8 character. Now that foo_utf8() determines that itself, | |
534 | * no need to do it again here | |
7e2040f0 | 535 | */ |
97d0ceda KW |
536 | #define isIDFIRST_lazy_if(p,UTF) ((IN_BYTES || !UTF) \ |
537 | ? isIDFIRST(*(p)) \ | |
e3036cf4 | 538 | : isIDFIRST_utf8((const U8*)p)) |
97d0ceda KW |
539 | #define isWORDCHAR_lazy_if(p,UTF) ((IN_BYTES || (!UTF)) \ |
540 | ? isWORDCHAR(*(p)) \ | |
32636478 KW |
541 | : isWORDCHAR_utf8((const U8*)p)) |
542 | #define isALNUM_lazy_if(p,UTF) isWORDCHAR_lazy_if(p,UTF) | |
1d72bdf6 | 543 | |
89ebb4a3 JH |
544 | #define UTF8_MAXLEN UTF8_MAXBYTES |
545 | ||
8cb75cc8 KW |
546 | /* A Unicode character can fold to up to 3 characters */ |
547 | #define UTF8_MAX_FOLD_CHAR_EXPAND 3 | |
548 | ||
a98fe34d | 549 | #define IN_BYTES (CopHINTS_get(PL_curcop) & HINT_BYTES) |
bd18bd40 KW |
550 | |
551 | /* | |
552 | ||
553 | =for apidoc Am|bool|DO_UTF8|SV* sv | |
554 | Returns a bool giving whether or not the PV in C<sv> is to be treated as being | |
555 | encoded in UTF-8. | |
556 | ||
557 | You should use this I<after> a call to C<SvPV()> or one of its variants, in | |
558 | case any call to string overloading updates the internal UTF-8 encoding flag. | |
559 | ||
560 | =cut | |
561 | */ | |
0064a8a9 | 562 | #define DO_UTF8(sv) (SvUTF8(sv) && !IN_BYTES) |
1ff3baa2 KW |
563 | |
564 | /* Should all strings be treated as Unicode, and not just UTF-8 encoded ones? | |
565 | * Is so within 'feature unicode_strings' or 'locale :not_characters', and not | |
566 | * within 'use bytes'. UTF-8 locales are not tested for here, but perhaps | |
567 | * could be */ | |
568 | #define IN_UNI_8_BIT \ | |
d6ded950 KW |
569 | (((CopHINTS_get(PL_curcop) & (HINT_UNI_8_BIT)) \ |
570 | || (CopHINTS_get(PL_curcop) & HINT_LOCALE_PARTIAL \ | |
571 | /* -1 below is for :not_characters */ \ | |
572 | && _is_in_locale_category(FALSE, -1))) \ | |
573 | && ! IN_BYTES) | |
b36bf33f | 574 | |
1d72bdf6 | 575 | |
c76687c5 KW |
576 | #define UTF8_ALLOW_EMPTY 0x0001 /* Allow a zero length string */ |
577 | ||
578 | /* Allow first byte to be a continuation byte */ | |
1d72bdf6 | 579 | #define UTF8_ALLOW_CONTINUATION 0x0002 |
c76687c5 KW |
580 | |
581 | /* Allow second... bytes to be non-continuation bytes */ | |
1d72bdf6 | 582 | #define UTF8_ALLOW_NON_CONTINUATION 0x0004 |
949cf498 KW |
583 | |
584 | /* expecting more bytes than were available in the string */ | |
585 | #define UTF8_ALLOW_SHORT 0x0008 | |
586 | ||
587 | /* Overlong sequence; i.e., the code point can be specified in fewer bytes. */ | |
588 | #define UTF8_ALLOW_LONG 0x0010 | |
589 | ||
590 | #define UTF8_DISALLOW_SURROGATE 0x0020 /* Unicode surrogates */ | |
591 | #define UTF8_WARN_SURROGATE 0x0040 | |
592 | ||
593 | #define UTF8_DISALLOW_NONCHAR 0x0080 /* Unicode non-character */ | |
594 | #define UTF8_WARN_NONCHAR 0x0100 /* code points */ | |
595 | ||
596 | #define UTF8_DISALLOW_SUPER 0x0200 /* Super-set of Unicode: code */ | |
597 | #define UTF8_WARN_SUPER 0x0400 /* points above the legal max */ | |
598 | ||
d35f2ca5 KW |
599 | /* Code points which never were part of the original UTF-8 standard, which only |
600 | * went up to 2 ** 31 - 1. Note that these all overflow a signed 32-bit word, | |
601 | * The first byte of these code points is FE or FF on ASCII platforms. If the | |
602 | * first byte is FF, it will overflow a 32-bit word. */ | |
603 | #define UTF8_DISALLOW_ABOVE_31_BIT 0x0800 | |
604 | #define UTF8_WARN_ABOVE_31_BIT 0x1000 | |
605 | ||
606 | /* For back compat, these old names are misleading for UTF_EBCDIC */ | |
607 | #define UTF8_DISALLOW_FE_FF UTF8_DISALLOW_ABOVE_31_BIT | |
608 | #define UTF8_WARN_FE_FF UTF8_WARN_ABOVE_31_BIT | |
949cf498 KW |
609 | |
610 | #define UTF8_CHECK_ONLY 0x2000 | |
611 | ||
612 | /* For backwards source compatibility. They do nothing, as the default now | |
613 | * includes what they used to mean. The first one's meaning was to allow the | |
614 | * just the single non-character 0xFFFF */ | |
615 | #define UTF8_ALLOW_FFFF 0 | |
616 | #define UTF8_ALLOW_SURROGATE 0 | |
617 | ||
d35f2ca5 | 618 | #define UTF8_DISALLOW_ILLEGAL_INTERCHANGE \ |
93e6dbd6 KW |
619 | ( UTF8_DISALLOW_SUPER|UTF8_DISALLOW_NONCHAR \ |
620 | |UTF8_DISALLOW_SURROGATE) | |
949cf498 | 621 | #define UTF8_WARN_ILLEGAL_INTERCHANGE \ |
93e6dbd6 KW |
622 | (UTF8_WARN_SUPER|UTF8_WARN_NONCHAR|UTF8_WARN_SURROGATE) |
623 | #define UTF8_ALLOW_ANY \ | |
624 | (~( UTF8_DISALLOW_ILLEGAL_INTERCHANGE|UTF8_DISALLOW_ABOVE_31_BIT \ | |
625 | |UTF8_WARN_ILLEGAL_INTERCHANGE|UTF8_WARN_ABOVE_31_BIT)) | |
949cf498 KW |
626 | #define UTF8_ALLOW_ANYUV \ |
627 | (UTF8_ALLOW_EMPTY \ | |
628 | & ~(UTF8_DISALLOW_ILLEGAL_INTERCHANGE|UTF8_WARN_ILLEGAL_INTERCHANGE)) | |
9f7f3913 TS |
629 | #define UTF8_ALLOW_DEFAULT (ckWARN(WARN_UTF8) ? 0 : \ |
630 | UTF8_ALLOW_ANYUV) | |
1d72bdf6 | 631 | |
0c58a72b KW |
632 | /* Several of the macros below have a second parameter that is currently |
633 | * unused; but could be used in the future to make sure that the input is | |
634 | * well-formed. */ | |
635 | ||
636 | #define UTF8_IS_SURROGATE(s, e) cBOOL(is_SURROGATE_utf8(s)) | |
b96a92fb | 637 | #define UTF8_IS_REPLACEMENT(s, send) cBOOL(is_REPLACEMENT_utf8_safe(s,send)) |
7131f24d KW |
638 | |
639 | /* ASCII EBCDIC I8 | |
640 | * U+10FFFF: \xF4\x8F\xBF\xBF \xF9\xA1\xBF\xBF\xBF max legal Unicode | |
641 | * U+110000: \xF4\x90\x80\x80 \xF9\xA2\xA0\xA0\xA0 | |
642 | * U+110001: \xF4\x90\x80\x81 \xF9\xA2\xA0\xA0\xA1 | |
a1776718 KW |
643 | * |
644 | * BE AWARE that this test doesn't rule out malformed code points, in | |
645 | * particular overlongs */ | |
7131f24d | 646 | #ifdef EBCDIC /* Both versions assume well-formed UTF8 */ |
0c58a72b | 647 | # define UTF8_IS_SUPER(s, e) (NATIVE_UTF8_TO_I8(* (U8*) (s)) >= 0xF9 \ |
bc3632a8 | 648 | && (NATIVE_UTF8_TO_I8(* (U8*) (s)) > 0xF9 \ |
a3481822 | 649 | || (NATIVE_UTF8_TO_I8(* ((U8*) (s) + 1)) >= 0xA2))) |
7131f24d | 650 | #else |
0c58a72b KW |
651 | # define UTF8_IS_SUPER(s, e) (*(U8*) (s) >= 0xF4 \ |
652 | && (*(U8*) (s) > 0xF4 || (*((U8*) (s) + 1) >= 0x90))) | |
7131f24d KW |
653 | #endif |
654 | ||
b96a92fb KW |
655 | /* These are now machine generated, and the 'given' clause is no longer |
656 | * applicable */ | |
0c58a72b | 657 | #define UTF8_IS_NONCHAR_GIVEN_THAT_NON_SUPER_AND_GE_PROBLEMATIC(s, e) \ |
b96a92fb | 658 | cBOOL(is_NONCHAR_utf8(s)) |
0c58a72b KW |
659 | #define UTF8_IS_NONCHAR(s, e) \ |
660 | UTF8_IS_NONCHAR_GIVEN_THAT_NON_SUPER_AND_GE_PROBLEMATIC(s, e) | |
7131f24d | 661 | |
c867b360 JH |
662 | #define UNICODE_SURROGATE_FIRST 0xD800 |
663 | #define UNICODE_SURROGATE_LAST 0xDFFF | |
664 | #define UNICODE_REPLACEMENT 0xFFFD | |
665 | #define UNICODE_BYTE_ORDER_MARK 0xFEFF | |
1d72bdf6 | 666 | |
b851fbc1 | 667 | /* Though our UTF-8 encoding can go beyond this, |
c76687c5 | 668 | * let's be conservative and do as Unicode says. */ |
b851fbc1 JH |
669 | #define PERL_UNICODE_MAX 0x10FFFF |
670 | ||
d35f2ca5 KW |
671 | #define UNICODE_WARN_SURROGATE 0x0001 /* UTF-16 surrogates */ |
672 | #define UNICODE_WARN_NONCHAR 0x0002 /* Non-char code points */ | |
673 | #define UNICODE_WARN_SUPER 0x0004 /* Above 0x10FFFF */ | |
674 | #define UNICODE_WARN_ABOVE_31_BIT 0x0008 /* Above 0x7FFF_FFFF */ | |
675 | #define UNICODE_DISALLOW_SURROGATE 0x0010 | |
676 | #define UNICODE_DISALLOW_NONCHAR 0x0020 | |
677 | #define UNICODE_DISALLOW_SUPER 0x0040 | |
678 | #define UNICODE_DISALLOW_ABOVE_31_BIT 0x0080 | |
bb88be5f KW |
679 | #define UNICODE_WARN_ILLEGAL_INTERCHANGE \ |
680 | (UNICODE_WARN_SURROGATE|UNICODE_WARN_NONCHAR|UNICODE_WARN_SUPER) | |
681 | #define UNICODE_DISALLOW_ILLEGAL_INTERCHANGE \ | |
682 | (UNICODE_DISALLOW_SURROGATE|UNICODE_DISALLOW_NONCHAR|UNICODE_DISALLOW_SUPER) | |
949cf498 KW |
683 | |
684 | /* For backward source compatibility, as are now the default */ | |
685 | #define UNICODE_ALLOW_SURROGATE 0 | |
686 | #define UNICODE_ALLOW_SUPER 0 | |
687 | #define UNICODE_ALLOW_ANY 0 | |
b851fbc1 | 688 | |
2d6b3d38 KW |
689 | /* This matches the 2048 code points between UNICODE_SURROGATE_FIRST (0xD800) and |
690 | * UNICODE_SURROGATE_LAST (0xDFFF) */ | |
691 | #define UNICODE_IS_SURROGATE(uv) (((UV) (uv) & (~0xFFFF | 0xF800)) \ | |
692 | == 0xD800) | |
693 | ||
646d1759 KW |
694 | #define UNICODE_IS_REPLACEMENT(uv) ((UV) (uv) == UNICODE_REPLACEMENT) |
695 | #define UNICODE_IS_BYTE_ORDER_MARK(uv) ((UV) (uv) == UNICODE_BYTE_ORDER_MARK) | |
c149ab20 KW |
696 | |
697 | /* Is 'uv' one of the 32 contiguous-range noncharacters? */ | |
698 | #define UNICODE_IS_32_CONTIGUOUS_NONCHARS(uv) ((UV) (uv) >= 0xFDD0 \ | |
699 | && (UV) (uv) <= 0xFDEF) | |
700 | ||
701 | /* Is 'uv' one of the 34 plane-ending noncharacters 0xFFFE, 0xFFFF, 0x1FFFE, | |
702 | * 0x1FFFF, ... 0x10FFFE, 0x10FFFF, given that we know that 'uv' is not above | |
703 | * the Unicode legal max */ | |
704 | #define UNICODE_IS_END_PLANE_NONCHAR_GIVEN_NOT_SUPER(uv) \ | |
705 | (((UV) (uv) & 0xFFFE) == 0xFFFE) | |
706 | ||
707 | #define UNICODE_IS_NONCHAR(uv) \ | |
708 | ( UNICODE_IS_32_CONTIGUOUS_NONCHARS(uv) \ | |
709 | || ( LIKELY( ! UNICODE_IS_SUPER(uv)) \ | |
710 | && UNICODE_IS_END_PLANE_NONCHAR_GIVEN_NOT_SUPER(uv))) | |
711 | ||
712 | #define UNICODE_IS_SUPER(uv) ((UV) (uv) > PERL_UNICODE_MAX) | |
d35f2ca5 | 713 | #define UNICODE_IS_ABOVE_31_BIT(uv) ((UV) (uv) > 0x7FFFFFFF) |
1d72bdf6 | 714 | |
ec34087a KW |
715 | #define LATIN_SMALL_LETTER_SHARP_S LATIN_SMALL_LETTER_SHARP_S_NATIVE |
716 | #define LATIN_SMALL_LETTER_Y_WITH_DIAERESIS \ | |
717 | LATIN_SMALL_LETTER_Y_WITH_DIAERESIS_NATIVE | |
718 | #define MICRO_SIGN MICRO_SIGN_NATIVE | |
719 | #define LATIN_CAPITAL_LETTER_A_WITH_RING_ABOVE \ | |
720 | LATIN_CAPITAL_LETTER_A_WITH_RING_ABOVE_NATIVE | |
721 | #define LATIN_SMALL_LETTER_A_WITH_RING_ABOVE \ | |
722 | LATIN_SMALL_LETTER_A_WITH_RING_ABOVE_NATIVE | |
09091399 JH |
723 | #define UNICODE_GREEK_CAPITAL_LETTER_SIGMA 0x03A3 |
724 | #define UNICODE_GREEK_SMALL_LETTER_FINAL_SIGMA 0x03C2 | |
725 | #define UNICODE_GREEK_SMALL_LETTER_SIGMA 0x03C3 | |
9dcbe121 | 726 | #define GREEK_SMALL_LETTER_MU 0x03BC |
9e682c18 KW |
727 | #define GREEK_CAPITAL_LETTER_MU 0x039C /* Upper and title case |
728 | of MICRON */ | |
729 | #define LATIN_CAPITAL_LETTER_Y_WITH_DIAERESIS 0x0178 /* Also is title case */ | |
0766489e KW |
730 | #ifdef LATIN_CAPITAL_LETTER_SHARP_S_UTF8 |
731 | # define LATIN_CAPITAL_LETTER_SHARP_S 0x1E9E | |
732 | #endif | |
74894415 KW |
733 | #define LATIN_CAPITAL_LETTER_I_WITH_DOT_ABOVE 0x130 |
734 | #define LATIN_SMALL_LETTER_DOTLESS_I 0x131 | |
9e682c18 | 735 | #define LATIN_SMALL_LETTER_LONG_S 0x017F |
a9f50d33 KW |
736 | #define LATIN_SMALL_LIGATURE_LONG_S_T 0xFB05 |
737 | #define LATIN_SMALL_LIGATURE_ST 0xFB06 | |
9e682c18 KW |
738 | #define KELVIN_SIGN 0x212A |
739 | #define ANGSTROM_SIGN 0x212B | |
09091399 | 740 | |
9e55ce06 | 741 | #define UNI_DISPLAY_ISPRINT 0x0001 |
c728cb41 JH |
742 | #define UNI_DISPLAY_BACKSLASH 0x0002 |
743 | #define UNI_DISPLAY_QQ (UNI_DISPLAY_ISPRINT|UNI_DISPLAY_BACKSLASH) | |
744 | #define UNI_DISPLAY_REGEX (UNI_DISPLAY_ISPRINT|UNI_DISPLAY_BACKSLASH) | |
9e55ce06 | 745 | |
5cd46e1f KW |
746 | #define ANYOF_FOLD_SHARP_S(node, input, end) \ |
747 | (ANYOF_BITMAP_TEST(node, LATIN_SMALL_LETTER_SHARP_S) && \ | |
137165a6 | 748 | (ANYOF_NONBITMAP(node)) && \ |
39065660 | 749 | (ANYOF_FLAGS(node) & ANYOF_LOC_NONBITMAP_FOLD) && \ |
07b6858f | 750 | ((end) > (input) + 1) && \ |
305b8651 | 751 | isALPHA_FOLD_EQ((input)[0], 's')) |
6302f837 | 752 | |
ebc501f0 | 753 | #define SHARP_S_SKIP 2 |
3b0fc154 | 754 | |
a4f7a67c KW |
755 | /* If you want to exclude surrogates, and beyond legal Unicode, see the blame |
756 | * log for earlier versions which gave details for these */ | |
4d646140 | 757 | |
6302f837 KW |
758 | /* A helper macro for isUTF8_CHAR, so use that one, and not this one. This is |
759 | * retained solely for backwards compatibility and may be deprecated and | |
760 | * removed in a future Perl version. | |
761 | * | |
762 | * regen/regcharclass.pl generates is_UTF8_CHAR_utf8() macros for up to these | |
d9f92374 KW |
763 | * number of bytes. So this has to be coordinated with that file */ |
764 | #ifdef EBCDIC | |
765 | # define IS_UTF8_CHAR_FAST(n) ((n) <= 3) | |
766 | #else | |
767 | # define IS_UTF8_CHAR_FAST(n) ((n) <= 4) | |
768 | #endif | |
769 | ||
4d646140 | 770 | #ifndef EBCDIC |
6302f837 KW |
771 | /* A helper macro for isUTF8_CHAR, so use that one instead of this. This was |
772 | * generated by regen/regcharclass.pl, and then moved here. The lines that | |
773 | * generated it were then commented out. This was done solely because it takes | |
774 | * on the order of 10 minutes to generate, and is never going to change, unless | |
775 | * the generated code is improved. | |
776 | * | |
1ff3baa2 KW |
777 | * The EBCDIC versions have been cut to not cover all of legal Unicode, |
778 | * otherwise they take too long to generate; besides there is a separate one | |
779 | * for each code page, so they are in regcharclass.h instead of here */ | |
39a0f513 | 780 | /* |
5dca9278 | 781 | UTF8_CHAR: Matches legal UTF-8 encoded characters from 2 through 4 bytes |
39a0f513 | 782 | |
5dca9278 | 783 | 0x80 - 0x1FFFFF |
39a0f513 | 784 | */ |
4d646140 | 785 | /*** GENERATED CODE ***/ |
5dca9278 KW |
786 | #define is_UTF8_CHAR_utf8_no_length_checks(s) \ |
787 | ( ( 0xC2 <= ((U8*)s)[0] && ((U8*)s)[0] <= 0xDF ) ? \ | |
788 | ( ( ( ((U8*)s)[1] & 0xC0 ) == 0x80 ) ? 2 : 0 ) \ | |
789 | : ( 0xE0 == ((U8*)s)[0] ) ? \ | |
790 | ( ( ( ( ((U8*)s)[1] & 0xE0 ) == 0xA0 ) && ( ( ((U8*)s)[2] & 0xC0 ) == 0x80 ) ) ? 3 : 0 )\ | |
791 | : ( 0xE1 <= ((U8*)s)[0] && ((U8*)s)[0] <= 0xEF ) ? \ | |
792 | ( ( ( ( ((U8*)s)[1] & 0xC0 ) == 0x80 ) && ( ( ((U8*)s)[2] & 0xC0 ) == 0x80 ) ) ? 3 : 0 )\ | |
793 | : ( 0xF0 == ((U8*)s)[0] ) ? \ | |
794 | ( ( ( ( 0x90 <= ((U8*)s)[1] && ((U8*)s)[1] <= 0xBF ) && ( ( ((U8*)s)[2] & 0xC0 ) == 0x80 ) ) && ( ( ((U8*)s)[3] & 0xC0 ) == 0x80 ) ) ? 4 : 0 )\ | |
795 | : ( ( ( ( 0xF1 <= ((U8*)s)[0] && ((U8*)s)[0] <= 0xF7 ) && ( ( ((U8*)s)[1] & 0xC0 ) == 0x80 ) ) && ( ( ((U8*)s)[2] & 0xC0 ) == 0x80 ) ) && ( ( ((U8*)s)[3] & 0xC0 ) == 0x80 ) ) ? 4 : 0 ) | |
4d646140 | 796 | #endif |
3b0fc154 | 797 | |
6302f837 | 798 | /* |
5dca9278 KW |
799 | |
800 | =for apidoc Am|STRLEN|isUTF8_CHAR|const U8 *s|const U8 *e | |
801 | ||
802 | Returns the number of bytes beginning at C<s> which form a legal UTF-8 (or | |
61b16eb9 KW |
803 | UTF-EBCDIC) encoded character, looking no further than S<C<e - s>> bytes into |
804 | C<s>. Returns 0 if the sequence starting at C<s> through S<C<e - 1>> is not | |
805 | well-formed UTF-8. | |
6302f837 KW |
806 | |
807 | Note that an INVARIANT character (i.e. ASCII on non-EBCDIC | |
5dca9278 KW |
808 | machines) is a valid UTF-8 character. |
809 | ||
810 | =cut | |
811 | */ | |
6302f837 | 812 | |
dd9bc2b0 | 813 | #define isUTF8_CHAR(s, e) (UNLIKELY((e) <= (s)) \ |
6302f837 KW |
814 | ? 0 \ |
815 | : (UTF8_IS_INVARIANT(*s)) \ | |
816 | ? 1 \ | |
dd9bc2b0 | 817 | : UNLIKELY(((e) - (s)) < UTF8SKIP(s)) \ |
6302f837 | 818 | ? 0 \ |
dd9bc2b0 | 819 | : LIKELY(IS_UTF8_CHAR_FAST(UTF8SKIP(s))) \ |
5dca9278 | 820 | ? is_UTF8_CHAR_utf8_no_length_checks(s) \ |
6302f837 KW |
821 | : _is_utf8_char_slow(s, e)) |
822 | ||
3cedd9d9 KW |
823 | #define is_utf8_char_buf(buf, buf_end) isUTF8_CHAR(buf, buf_end) |
824 | ||
6302f837 KW |
825 | /* Do not use; should be deprecated. Use isUTF8_CHAR() instead; this is |
826 | * retained solely for backwards compatibility */ | |
827 | #define IS_UTF8_CHAR(p, n) (isUTF8_CHAR(p, (p) + (n)) == n) | |
e9a8c099 | 828 | |
57f0e7e2 KW |
829 | #endif /* H_UTF8 */ |
830 | ||
e9a8c099 | 831 | /* |
14d04a33 | 832 | * ex: set ts=8 sts=4 sw=4 et: |
e9a8c099 | 833 | */ |