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Annotation of src/usr.bin/less/charset.c, Revision 1.12

1.1       etheisen    1: /*
1.10      shadchin    2:  * Copyright (C) 1984-2012  Mark Nudelman
1.1       etheisen    3:  *
1.5       millert     4:  * You may distribute under the terms of either the GNU General Public
                      5:  * License or the Less License, as specified in the README file.
1.1       etheisen    6:  *
1.10      shadchin    7:  * For more information, see the README file.
1.1       etheisen    8:  */
1.11      nicm        9: /*
                     10:  * Modified for use with illumos.
                     11:  * Copyright 2014 Garrett D'Amore <garrett@damore.org>
                     12:  */
1.1       etheisen   13:
                     14: /*
                     15:  * Functions to define the character set
                     16:  * and do things specific to the character set.
                     17:  */
                     18:
                     19: #include "less.h"
                     20: #include <locale.h>
                     21: #include <ctype.h>
1.8       shadchin   22: #include <langinfo.h>
1.1       etheisen   23:
1.8       shadchin   24: #include "charset.h"
                     25:
1.11      nicm       26: int utf_mode = 0;
1.5       millert    27:
1.1       etheisen   28: /*
                     29:  * Predefined character sets,
                     30:  * selected by the LESSCHARSET environment variable.
                     31:  */
                     32: struct charset {
                     33:        char *name;
1.5       millert    34:        int *p_flag;
1.1       etheisen   35:        char *desc;
                     36: } charsets[] = {
1.11      nicm       37:        /* BEGIN CSTYLED */
                     38:        { "ascii",              NULL,   "8bcccbcc18b95.b" },
                     39:        { "utf-8",              &utf_mode,       "8bcccbcc18b95.b126.bb" },
                     40:        { "iso8859",            NULL,   "8bcccbcc18b95.33b." },
                     41:        { "latin3",             NULL,   "8bcccbcc18b95.33b5.b8.b15.b4.b12.b18.b12.b." },
                     42:        { "arabic",             NULL,   "8bcccbcc18b95.33b.3b.7b2.13b.3b.b26.5b19.b" },
                     43:        { "greek",              NULL,   "8bcccbcc18b95.33b4.2b4.b3.b35.b44.b" },
                     44:        { "greek2005",          NULL,   "8bcccbcc18b95.33b14.b35.b44.b" },
                     45:        { "hebrew",             NULL,   "8bcccbcc18b95.33b.b29.32b28.2b2.b" },
                     46:        { "koi8-r",             NULL,   "8bcccbcc18b95.b." },
                     47:        { "KOI8-T",             NULL,   "8bcccbcc18b95.b8.b6.b8.b.b.5b7.3b4.b4.b3.b.b.3b." },
                     48:        { "georgianps",         NULL,   "8bcccbcc18b95.3b11.4b12.2b." },
                     49:        { "tcvn",               NULL,   "b..b...bcccbccbbb7.8b95.b48.5b." },
                     50:        { "TIS-620",            NULL,   "8bcccbcc18b95.b.4b.11b7.8b." },
                     51:        { "next",               NULL,   "8bcccbcc18b95.bb125.bb" },
                     52:        { "dos",                NULL,   "8bcccbcc12bc5b95.b." },
                     53:        { "windows-1251",       NULL,   "8bcccbcc12bc5b95.b24.b." },
                     54:        { "windows-1252",       NULL,   "8bcccbcc12bc5b95.b.b11.b.2b12.b." },
                     55:        { "windows-1255",       NULL,   "8bcccbcc12bc5b95.b.b8.b.5b9.b.4b." },
                     56:        { "ebcdic",             NULL,   "5bc6bcc7bcc41b.9b7.9b5.b..8b6.10b6.b9.7b9.8b8.17b3.3b9.7b9.8b8.6b10.b.b.b." },
                     57:        { "IBM-1047",           NULL,   "4cbcbc3b9cbccbccbb4c6bcc5b3cbbc4bc4bccbc191.b" },
1.5       millert    58:        { NULL, NULL, NULL }
1.11      nicm       59:        /* END CSTYLED */
1.5       millert    60: };
                     61:
1.8       shadchin   62: /*
                     63:  * Support "locale charmap"/nl_langinfo(CODESET) values, as well as others.
                     64:  */
1.5       millert    65: struct cs_alias {
                     66:        char *name;
                     67:        char *oname;
                     68: } cs_aliases[] = {
1.8       shadchin   69:        { "UTF-8",              "utf-8" },
                     70:        { "ANSI_X3.4-1968",     "ascii" },
                     71:        { "US-ASCII",           "ascii" },
1.11      nicm       72:        { "646",                "ascii" },
                     73:        { "C",                  "ascii" },
1.8       shadchin   74:        { "latin1",             "iso8859" },
                     75:        { "ISO-8859-1",         "iso8859" },
                     76:        { "latin9",             "iso8859" },
                     77:        { "ISO-8859-15",        "iso8859" },
                     78:        { "latin2",             "iso8859" },
                     79:        { "ISO-8859-2",         "iso8859" },
                     80:        { "ISO-8859-3",         "latin3" },
                     81:        { "latin4",             "iso8859" },
                     82:        { "ISO-8859-4",         "iso8859" },
                     83:        { "cyrillic",           "iso8859" },
                     84:        { "ISO-8859-5",         "iso8859" },
                     85:        { "ISO-8859-6",         "arabic" },
                     86:        { "ISO-8859-7",         "greek" },
                     87:        { "IBM9005",            "greek2005" },
                     88:        { "ISO-8859-8",         "hebrew" },
                     89:        { "latin5",             "iso8859" },
                     90:        { "ISO-8859-9",         "iso8859" },
                     91:        { "latin6",             "iso8859" },
                     92:        { "ISO-8859-10",        "iso8859" },
                     93:        { "latin7",             "iso8859" },
                     94:        { "ISO-8859-13",        "iso8859" },
                     95:        { "latin8",             "iso8859" },
                     96:        { "ISO-8859-14",        "iso8859" },
                     97:        { "latin10",            "iso8859" },
                     98:        { "ISO-8859-16",        "iso8859" },
                     99:        { "IBM437",             "dos" },
                    100:        { "EBCDIC-US",          "ebcdic" },
                    101:        { "IBM1047",            "IBM-1047" },
                    102:        { "KOI8-R",             "koi8-r" },
                    103:        { "KOI8-U",             "koi8-r" },
                    104:        { "GEORGIAN-PS",        "georgianps" },
1.12    ! deraadt   105:        { "TCVN5712-1",         "tcvn" },
1.8       shadchin  106:        { "NEXTSTEP",           "next" },
                    107:        { "windows",            "windows-1252" }, /* backward compatibility */
                    108:        { "CP1251",             "windows-1251" },
                    109:        { "CP1252",             "windows-1252" },
                    110:        { "CP1255",             "windows-1255" },
1.5       millert   111:        { NULL, NULL }
1.1       etheisen  112: };
                    113:
                    114: #define        IS_BINARY_CHAR  01
                    115: #define        IS_CONTROL_CHAR 02
                    116:
                    117: static char chardef[256];
1.11      nicm      118: static const char *binfmt = NULL;
                    119: static const char *utfbinfmt = NULL;
                    120: int binattr = AT_STANDOUT;
1.1       etheisen  121:
                    122:
                    123: /*
                    124:  * Define a charset, given a description string.
                    125:  * The string consists of 256 letters,
                    126:  * one for each character in the charset.
                    127:  * If the string is shorter than 256 letters, missing letters
                    128:  * are taken to be identical to the last one.
1.11      nicm      129:  * A decimal number followed by a letter is taken to be a
1.1       etheisen  130:  * repetition of the letter.
                    131:  *
                    132:  * Each letter is one of:
                    133:  *     . normal character
                    134:  *     b binary character
                    135:  *     c control character
                    136:  */
1.11      nicm      137: static void
                    138: ichardef(char *s)
1.1       etheisen  139: {
1.11      nicm      140:        char *cp;
                    141:        int n;
                    142:        char v;
1.1       etheisen  143:
                    144:        n = 0;
                    145:        v = 0;
                    146:        cp = chardef;
1.11      nicm      147:        while (*s != '\0') {
                    148:                switch (*s++) {
1.1       etheisen  149:                case '.':
                    150:                        v = 0;
                    151:                        break;
                    152:                case 'c':
                    153:                        v = IS_CONTROL_CHAR;
                    154:                        break;
                    155:                case 'b':
                    156:                        v = IS_BINARY_CHAR|IS_CONTROL_CHAR;
                    157:                        break;
                    158:
                    159:                case '0': case '1': case '2': case '3': case '4':
                    160:                case '5': case '6': case '7': case '8': case '9':
                    161:                        n = (10 * n) + (s[-1] - '0');
                    162:                        continue;
                    163:
                    164:                default:
                    165:                        error("invalid chardef", NULL_PARG);
                    166:                        quit(QUIT_ERROR);
                    167:                        /*NOTREACHED*/
                    168:                }
                    169:
1.11      nicm      170:                do {
                    171:                        if (cp >= chardef + sizeof (chardef)) {
1.1       etheisen  172:                                error("chardef longer than 256", NULL_PARG);
                    173:                                quit(QUIT_ERROR);
                    174:                                /*NOTREACHED*/
                    175:                        }
                    176:                        *cp++ = v;
                    177:                } while (--n > 0);
                    178:                n = 0;
                    179:        }
                    180:
1.11      nicm      181:        while (cp < chardef + sizeof (chardef))
1.1       etheisen  182:                *cp++ = v;
                    183: }
                    184:
                    185: /*
                    186:  * Define a charset, given a charset name.
                    187:  * The valid charset names are listed in the "charsets" array.
                    188:  */
1.11      nicm      189: static int
                    190: icharset(char *name, int no_error)
1.1       etheisen  191: {
1.11      nicm      192:        struct charset *p;
                    193:        struct cs_alias *a;
1.1       etheisen  194:
                    195:        if (name == NULL || *name == '\0')
                    196:                return (0);
                    197:
1.5       millert   198:        /* First see if the name is an alias. */
1.11      nicm      199:        for (a = cs_aliases;  a->name != NULL;  a++) {
                    200:                if (strcmp(name, a->name) == 0) {
1.5       millert   201:                        name = a->oname;
                    202:                        break;
                    203:                }
                    204:        }
                    205:
1.11      nicm      206:        for (p = charsets;  p->name != NULL;  p++) {
                    207:                if (strcmp(name, p->name) == 0) {
1.1       etheisen  208:                        ichardef(p->desc);
1.5       millert   209:                        if (p->p_flag != NULL)
                    210:                                *(p->p_flag) = 1;
1.1       etheisen  211:                        return (1);
                    212:                }
                    213:        }
                    214:
1.8       shadchin  215:        if (!no_error) {
                    216:                error("invalid charset name", NULL_PARG);
                    217:                quit(QUIT_ERROR);
                    218:        }
1.5       millert   219:        return (0);
1.1       etheisen  220: }
                    221:
                    222: /*
                    223:  * Define a charset, given a locale name.
                    224:  */
1.11      nicm      225: static void
                    226: ilocale(void)
1.1       etheisen  227: {
1.11      nicm      228:        int c;
1.1       etheisen  229:
1.11      nicm      230:        for (c = 0; c < sizeof (chardef); c++) {
1.1       etheisen  231:                if (isprint(c))
                    232:                        chardef[c] = 0;
                    233:                else if (iscntrl(c))
                    234:                        chardef[c] = IS_CONTROL_CHAR;
                    235:                else
                    236:                        chardef[c] = IS_BINARY_CHAR|IS_CONTROL_CHAR;
                    237:        }
                    238: }
1.11      nicm      239:
                    240: static int
                    241: checkfmt(const char *s)
                    242: {
                    243:        char c;
                    244:        int seen = 0;
                    245:
                    246:        /* %[<flags>][<width>][.<prec>][<type>]<fmt> */
                    247:
                    248:        if (*s == '*') {                /* skip leading attribute if there */
                    249:                s++;
                    250:                if (strchr("dksu", *s) == NULL) {
                    251:                        return (-1);
                    252:                }
                    253:                s++;
                    254:        }
                    255:
                    256:        while ((c = *s++) != 0) {
                    257:                if (!isascii(c) || !isprint(c)) {
                    258:                        return (-1);
                    259:                }
                    260:                if (c != '%') {
                    261:                        continue;
                    262:                }
                    263:                if (*s == '%') {        /* % escaped with second % */
                    264:                        s++;
                    265:                        continue;
                    266:                }
                    267:                if (seen) {
                    268:                        return (-1);    /* 2nd % format item! */
                    269:                }
                    270:                while (strchr(" '+-0#", *s) != NULL) {  /* skip flags */
                    271:                        s++;
                    272:                }
                    273:                while (isdigit(*s)) {                   /* skip width */
                    274:                        s++;
                    275:                }
                    276:                if (*s == '.') {                /* skip precision */
                    277:                        s++;
                    278:                        while (isdigit(*s)) {
                    279:                                s++;
                    280:                        }
                    281:                }
                    282:                /* type width specifications, only "l", "h", and "hh" valid */
                    283:                if (*s == 'l') {
                    284:                        s++;
                    285:                } else if (*s == 'h') {
                    286:                        s++;
                    287:                        if (*s == 'h')
                    288:                                s++;
                    289:                }
                    290:
                    291:                if (strchr("cCdiouxX", *s) == NULL) {
                    292:                        /* bad or evil format character (%s, %n, etc.) */
                    293:                        return (-1);
                    294:                }
                    295:
                    296:                seen = 1;
                    297:        }
                    298:
                    299:        return (0);
                    300: }
1.1       etheisen  301:
                    302: /*
1.8       shadchin  303:  * Define the printing format for control (or binary utf) chars.
1.1       etheisen  304:  */
1.11      nicm      305: static void
                    306: setbinfmt(char *e, const char **fmtvarptr, const char *default_fmt)
1.1       etheisen  307: {
1.11      nicm      308:        const char *s;
                    309:
                    310:        if (((s = lgetenv(e)) == NULL) || (*s == 0)) {
                    311:                s = default_fmt;
                    312:                goto attr;
                    313:        }
                    314:
                    315:        if (s != NULL && *s != 0) {
                    316:                if (checkfmt(s) < 0) {
                    317:                        s = default_fmt;
                    318:                        goto attr;
1.8       shadchin  319:                }
                    320:        }
                    321:
1.1       etheisen  322:        /*
                    323:         * Select the attributes if it starts with "*".
                    324:         */
1.11      nicm      325: attr:
                    326:        if (*s == '*') {
                    327:                switch (s[1]) {
                    328:                case 'd':  binattr = AT_BOLD; break;
                    329:                case 'k':  binattr = AT_BLINK; break;
                    330:                case 's':  binattr = AT_STANDOUT; break;
1.1       etheisen  331:                case 'u':  binattr = AT_UNDERLINE; break;
1.11      nicm      332:                default:   binattr = AT_NORMAL; break;
1.1       etheisen  333:                }
                    334:                s += 2;
                    335:        }
1.8       shadchin  336:        *fmtvarptr = s;
1.1       etheisen  337: }
                    338:
                    339: /*
1.8       shadchin  340:  *
1.1       etheisen  341:  */
1.11      nicm      342: static void
                    343: set_charset(void)
1.1       etheisen  344: {
1.8       shadchin  345:        char *s;
1.1       etheisen  346:
                    347:        /*
                    348:         * See if environment variable LESSCHARSET is defined.
                    349:         */
1.5       millert   350:        s = lgetenv("LESSCHARSET");
1.8       shadchin  351:        if (icharset(s, 0))
1.1       etheisen  352:                return;
1.8       shadchin  353:
1.1       etheisen  354:        /*
                    355:         * LESSCHARSET is not defined: try LESSCHARDEF.
                    356:         */
1.5       millert   357:        s = lgetenv("LESSCHARDEF");
1.11      nicm      358:        if (s != NULL && *s != '\0') {
1.1       etheisen  359:                ichardef(s);
                    360:                return;
                    361:        }
1.5       millert   362:
1.8       shadchin  363:        /*
                    364:         * Try using the codeset name as the charset name.
                    365:         */
                    366:        s = nl_langinfo(CODESET);
                    367:        if (icharset(s, 1))
                    368:                return;
                    369:
1.1       etheisen  370:        /*
1.8       shadchin  371:         * Get character definitions from locale functions,
                    372:         * rather than from predefined charset entry.
1.1       etheisen  373:         */
                    374:        ilocale();
                    375: }
                    376:
                    377: /*
1.8       shadchin  378:  * Initialize charset data structures.
                    379:  */
1.11      nicm      380: void
                    381: init_charset(void)
1.8       shadchin  382: {
                    383:        setlocale(LC_ALL, "");
                    384:
                    385:        set_charset();
                    386:
1.11      nicm      387:        setbinfmt("LESSBINFMT", &binfmt, "*s<%02X>");
                    388:        setbinfmt("LESSUTFBINFMT", &utfbinfmt, "<U+%04lX>");
1.8       shadchin  389: }
                    390:
                    391: /*
1.1       etheisen  392:  * Is a given character a "binary" character?
                    393:  */
1.11      nicm      394: int
                    395: binary_char(LWCHAR c)
1.1       etheisen  396: {
1.8       shadchin  397:        if (utf_mode)
                    398:                return (is_ubin_char(c));
1.1       etheisen  399:        c &= 0377;
                    400:        return (chardef[c] & IS_BINARY_CHAR);
                    401: }
                    402:
                    403: /*
                    404:  * Is a given character a "control" character?
                    405:  */
1.11      nicm      406: int
                    407: control_char(LWCHAR c)
1.1       etheisen  408: {
                    409:        c &= 0377;
                    410:        return (chardef[c] & IS_CONTROL_CHAR);
                    411: }
                    412:
                    413: /*
                    414:  * Return the printable form of a character.
                    415:  * For example, in the "ascii" charset '\3' is printed as "^C".
                    416:  */
1.11      nicm      417: char *
                    418: prchar(LWCHAR c)
1.1       etheisen  419: {
1.8       shadchin  420:        /* {{ This buffer can be overrun if LESSBINFMT is a long string. }} */
                    421:        static char buf[32];
1.1       etheisen  422:
                    423:        c &= 0377;
1.8       shadchin  424:        if ((c < 128 || !utf_mode) && !control_char(c))
1.11      nicm      425:                (void) snprintf(buf, sizeof (buf), "%c", (int)c);
1.1       etheisen  426:        else if (c == ESC)
1.11      nicm      427:                (void) strlcpy(buf, "ESC", sizeof (buf));
                    428:        else if (c < 128 && !control_char(c ^ 0100))
                    429:                (void) snprintf(buf, sizeof (buf), "^%c", (int)(c ^ 0100));
1.1       etheisen  430:        else
1.11      nicm      431:                (void) snprintf(buf, sizeof (buf), binfmt, c);
1.8       shadchin  432:        return (buf);
                    433: }
                    434:
                    435: /*
                    436:  * Return the printable form of a UTF-8 character.
                    437:  */
1.11      nicm      438: char *
                    439: prutfchar(LWCHAR ch)
1.8       shadchin  440: {
                    441:        static char buf[32];
                    442:
1.11      nicm      443:        if (ch == ESC) {
                    444:                (void) strlcpy(buf, "ESC", sizeof (buf));
                    445:        } else if (ch < 128 && control_char(ch)) {
1.8       shadchin  446:                if (!control_char(ch ^ 0100))
1.11      nicm      447:                        (void) snprintf(buf, sizeof (buf), "^%c",
                    448:                            ((char)ch) ^ 0100);
1.8       shadchin  449:                else
1.11      nicm      450:                        (void) snprintf(buf, sizeof (buf), binfmt, (char)ch);
                    451:        } else if (is_ubin_char(ch)) {
                    452:                (void) snprintf(buf, sizeof (buf), utfbinfmt, ch);
                    453:        } else {
1.8       shadchin  454:                int len;
1.11      nicm      455:                if (ch >= 0x80000000) {
1.8       shadchin  456:                        len = 3;
                    457:                        ch = 0xFFFD;
1.11      nicm      458:                } else {
                    459:                        len =   (ch < 0x80) ? 1
                    460:                            : (ch < 0x800) ? 2
                    461:                            : (ch < 0x10000) ? 3
                    462:                            : (ch < 0x200000) ? 4
                    463:                            : (ch < 0x4000000) ? 5
                    464:                            : 6;
1.8       shadchin  465:                }
                    466:                buf[len] = '\0';
1.11      nicm      467:                if (len == 1) {
                    468:                        *buf = (char)ch;
                    469:                } else {
1.8       shadchin  470:                        *buf = ((1 << len) - 1) << (8 - len);
1.11      nicm      471:                        while (--len > 0) {
                    472:                                buf[len] = (char)(0x80 | (ch & 0x3F));
1.8       shadchin  473:                                ch >>= 6;
                    474:                        }
                    475:                        *buf |= ch;
                    476:                }
                    477:        }
1.1       etheisen  478:        return (buf);
                    479: }
1.6       millert   480:
1.8       shadchin  481: /*
                    482:  * Get the length of a UTF-8 character in bytes.
                    483:  */
1.11      nicm      484: int
                    485: utf_len(char ch)
1.8       shadchin  486: {
                    487:        if ((ch & 0x80) == 0)
1.11      nicm      488:                return (1);
1.8       shadchin  489:        if ((ch & 0xE0) == 0xC0)
1.11      nicm      490:                return (2);
1.8       shadchin  491:        if ((ch & 0xF0) == 0xE0)
1.11      nicm      492:                return (3);
1.8       shadchin  493:        if ((ch & 0xF8) == 0xF0)
1.11      nicm      494:                return (4);
1.8       shadchin  495:        if ((ch & 0xFC) == 0xF8)
1.11      nicm      496:                return (5);
1.8       shadchin  497:        if ((ch & 0xFE) == 0xFC)
1.11      nicm      498:                return (6);
1.8       shadchin  499:        /* Invalid UTF-8 encoding. */
1.11      nicm      500:        return (1);
1.8       shadchin  501: }
                    502:
                    503: /*
                    504:  * Is a UTF-8 character well-formed?
                    505:  */
1.11      nicm      506: int
                    507: is_utf8_well_formed(const char *s)
1.8       shadchin  508: {
                    509:        int i;
                    510:        int len;
                    511:
                    512:        if (IS_UTF8_INVALID(s[0]))
                    513:                return (0);
                    514:
1.11      nicm      515:        len = utf_len((char)s[0]);
1.8       shadchin  516:        if (len == 1)
                    517:                return (1);
1.11      nicm      518:        if (len == 2) {
                    519:                if ((unsigned char)(s[0]) < 0xC2)
                    520:                        return (0);
                    521:        } else {
1.8       shadchin  522:                unsigned char mask;
                    523:                mask = (~((1 << (8-len)) - 1)) & 0xFF;
                    524:                if (s[0] == mask && (s[1] & mask) == 0x80)
                    525:                        return (0);
                    526:        }
                    527:
                    528:        for (i = 1;  i < len;  i++)
                    529:                if (!IS_UTF8_TRAIL(s[i]))
                    530:                        return (0);
                    531:        return (1);
                    532: }
                    533:
                    534: /*
                    535:  * Get the value of a UTF-8 character.
                    536:  */
1.11      nicm      537: LWCHAR
                    538: get_wchar(const char *p)
1.8       shadchin  539: {
1.11      nicm      540:        switch (utf_len(p[0])) {
1.8       shadchin  541:        case 1:
                    542:        default:
                    543:                /* 0xxxxxxx */
                    544:                return (LWCHAR)
1.11      nicm      545:                    (p[0] & 0xFF);
1.8       shadchin  546:        case 2:
                    547:                /* 110xxxxx 10xxxxxx */
                    548:                return (LWCHAR) (
1.11      nicm      549:                    ((p[0] & 0x1F) << 6) |
                    550:                    (p[1] & 0x3F));
1.8       shadchin  551:        case 3:
                    552:                /* 1110xxxx 10xxxxxx 10xxxxxx */
                    553:                return (LWCHAR) (
1.11      nicm      554:                    ((p[0] & 0x0F) << 12) |
                    555:                    ((p[1] & 0x3F) << 6) |
                    556:                    (p[2] & 0x3F));
1.8       shadchin  557:        case 4:
                    558:                /* 11110xxx 10xxxxxx 10xxxxxx 10xxxxxx */
                    559:                return (LWCHAR) (
1.11      nicm      560:                    ((p[0] & 0x07) << 18) |
                    561:                    ((p[1] & 0x3F) << 12) |
                    562:                    ((p[2] & 0x3F) << 6) |
                    563:                    (p[3] & 0x3F));
1.8       shadchin  564:        case 5:
                    565:                /* 111110xx 10xxxxxx 10xxxxxx 10xxxxxx 10xxxxxx */
                    566:                return (LWCHAR) (
1.11      nicm      567:                    ((p[0] & 0x03) << 24) |
                    568:                    ((p[1] & 0x3F) << 18) |
                    569:                    ((p[2] & 0x3F) << 12) |
                    570:                    ((p[3] & 0x3F) << 6) |
                    571:                    (p[4] & 0x3F));
1.8       shadchin  572:        case 6:
                    573:                /* 1111110x 10xxxxxx 10xxxxxx 10xxxxxx 10xxxxxx 10xxxxxx */
                    574:                return (LWCHAR) (
1.11      nicm      575:                    ((p[0] & 0x01) << 30) |
                    576:                    ((p[1] & 0x3F) << 24) |
                    577:                    ((p[2] & 0x3F) << 18) |
                    578:                    ((p[3] & 0x3F) << 12) |
                    579:                    ((p[4] & 0x3F) << 6) |
                    580:                    (p[5] & 0x3F));
1.8       shadchin  581:        }
                    582: }
                    583:
                    584: /*
                    585:  * Store a character into a UTF-8 string.
                    586:  */
1.11      nicm      587: void
                    588: put_wchar(char **pp, LWCHAR ch)
1.8       shadchin  589: {
1.11      nicm      590:        if (!utf_mode || ch < 0x80) {
1.8       shadchin  591:                /* 0xxxxxxx */
1.11      nicm      592:                *(*pp)++ = (char)ch;
                    593:        } else if (ch < 0x800) {
1.8       shadchin  594:                /* 110xxxxx 10xxxxxx */
1.11      nicm      595:                *(*pp)++ = (char)(0xC0 | ((ch >> 6) & 0x1F));
                    596:                *(*pp)++ = (char)(0x80 | (ch & 0x3F));
                    597:        } else if (ch < 0x10000) {
1.8       shadchin  598:                /* 1110xxxx 10xxxxxx 10xxxxxx */
1.11      nicm      599:                *(*pp)++ = (char)(0xE0 | ((ch >> 12) & 0x0F));
                    600:                *(*pp)++ = (char)(0x80 | ((ch >> 6) & 0x3F));
                    601:                *(*pp)++ = (char)(0x80 | (ch & 0x3F));
                    602:        } else if (ch < 0x200000) {
1.8       shadchin  603:                /* 11110xxx 10xxxxxx 10xxxxxx 10xxxxxx */
1.11      nicm      604:                *(*pp)++ = (char)(0xF0 | ((ch >> 18) & 0x07));
                    605:                *(*pp)++ = (char)(0x80 | ((ch >> 12) & 0x3F));
                    606:                *(*pp)++ = (char)(0x80 | ((ch >> 6) & 0x3F));
                    607:                *(*pp)++ = (char)(0x80 | (ch & 0x3F));
                    608:        } else if (ch < 0x4000000) {
1.8       shadchin  609:                /* 111110xx 10xxxxxx 10xxxxxx 10xxxxxx 10xxxxxx */
1.11      nicm      610:                *(*pp)++ = (char)(0xF0 | ((ch >> 24) & 0x03));
                    611:                *(*pp)++ = (char)(0x80 | ((ch >> 18) & 0x3F));
                    612:                *(*pp)++ = (char)(0x80 | ((ch >> 12) & 0x3F));
                    613:                *(*pp)++ = (char)(0x80 | ((ch >> 6) & 0x3F));
                    614:                *(*pp)++ = (char)(0x80 | (ch & 0x3F));
                    615:        } else {
1.8       shadchin  616:                /* 1111110x 10xxxxxx 10xxxxxx 10xxxxxx 10xxxxxx 10xxxxxx */
1.11      nicm      617:                *(*pp)++ = (char)(0xF0 | ((ch >> 30) & 0x01));
                    618:                *(*pp)++ = (char)(0x80 | ((ch >> 24) & 0x3F));
                    619:                *(*pp)++ = (char)(0x80 | ((ch >> 18) & 0x3F));
                    620:                *(*pp)++ = (char)(0x80 | ((ch >> 12) & 0x3F));
                    621:                *(*pp)++ = (char)(0x80 | ((ch >> 6) & 0x3F));
                    622:                *(*pp)++ = (char)(0x80 | (ch & 0x3F));
1.8       shadchin  623:        }
                    624: }
                    625:
                    626: /*
                    627:  * Step forward or backward one character in a string.
                    628:  */
1.11      nicm      629: LWCHAR
                    630: step_char(char **pp, int dir, char *limit)
1.8       shadchin  631: {
                    632:        LWCHAR ch;
                    633:        int len;
                    634:        char *p = *pp;
                    635:
1.11      nicm      636:        if (!utf_mode) {
1.8       shadchin  637:                /* It's easy if chars are one byte. */
                    638:                if (dir > 0)
                    639:                        ch = (LWCHAR) ((p < limit) ? *p++ : 0);
                    640:                else
                    641:                        ch = (LWCHAR) ((p > limit) ? *--p : 0);
1.11      nicm      642:        } else if (dir > 0) {
1.8       shadchin  643:                len = utf_len(*p);
1.11      nicm      644:                if (p + len > limit) {
1.8       shadchin  645:                        ch = 0;
                    646:                        p = limit;
1.11      nicm      647:                } else {
1.8       shadchin  648:                        ch = get_wchar(p);
                    649:                        p += len;
                    650:                }
1.11      nicm      651:        } else {
1.8       shadchin  652:                while (p > limit && IS_UTF8_TRAIL(p[-1]))
                    653:                        p--;
                    654:                if (p > limit)
                    655:                        ch = get_wchar(--p);
                    656:                else
                    657:                        ch = 0;
                    658:        }
                    659:        *pp = p;
1.11      nicm      660:        return (ch);
1.8       shadchin  661: }
                    662:
                    663: /*
                    664:  * Unicode characters data
                    665:  */
                    666: struct wchar_range { LWCHAR first, last; };
                    667:
                    668: /*
                    669:  * Characters with general category values
                    670:  *     Mn: Mark, Nonspacing
                    671:  *     Me: Mark, Enclosing
                    672:  * Last synched with
                    673:  *     <http://www.unicode.org/Public/5.0.0/ucd/UnicodeData-5.0.0d7.txt>
                    674:  *     dated 2005-11-30T00:58:48Z
                    675:  */
                    676: static struct wchar_range comp_table[] = {
                    677:        {  0x0300,  0x036F} /* Mn */, {  0x0483,  0x0486} /* Mn */,
                    678:        {  0x0488,  0x0489} /* Me */,
                    679:        {  0x0591,  0x05BD} /* Mn */, {  0x05BF,  0x05BF} /* Mn */,
                    680:        {  0x05C1,  0x05C2} /* Mn */, {  0x05C4,  0x05C5} /* Mn */,
                    681:        {  0x05C7,  0x05C7} /* Mn */, {  0x0610,  0x0615} /* Mn */,
                    682:        {  0x064B,  0x065E} /* Mn */, {  0x0670,  0x0670} /* Mn */,
                    683:        {  0x06D6,  0x06DC} /* Mn */,
                    684:        {  0x06DE,  0x06DE} /* Me */,
                    685:        {  0x06DF,  0x06E4} /* Mn */, {  0x06E7,  0x06E8} /* Mn */,
                    686:        {  0x06EA,  0x06ED} /* Mn */, {  0x0711,  0x0711} /* Mn */,
                    687:        {  0x0730,  0x074A} /* Mn */, {  0x07A6,  0x07B0} /* Mn */,
                    688:        {  0x07EB,  0x07F3} /* Mn */, {  0x0901,  0x0902} /* Mn */,
                    689:        {  0x093C,  0x093C} /* Mn */, {  0x0941,  0x0948} /* Mn */,
                    690:        {  0x094D,  0x094D} /* Mn */, {  0x0951,  0x0954} /* Mn */,
                    691:        {  0x0962,  0x0963} /* Mn */, {  0x0981,  0x0981} /* Mn */,
                    692:        {  0x09BC,  0x09BC} /* Mn */, {  0x09C1,  0x09C4} /* Mn */,
                    693:        {  0x09CD,  0x09CD} /* Mn */, {  0x09E2,  0x09E3} /* Mn */,
                    694:        {  0x0A01,  0x0A02} /* Mn */, {  0x0A3C,  0x0A3C} /* Mn */,
                    695:        {  0x0A41,  0x0A42} /* Mn */, {  0x0A47,  0x0A48} /* Mn */,
                    696:        {  0x0A4B,  0x0A4D} /* Mn */, {  0x0A70,  0x0A71} /* Mn */,
                    697:        {  0x0A81,  0x0A82} /* Mn */, {  0x0ABC,  0x0ABC} /* Mn */,
                    698:        {  0x0AC1,  0x0AC5} /* Mn */, {  0x0AC7,  0x0AC8} /* Mn */,
                    699:        {  0x0ACD,  0x0ACD} /* Mn */, {  0x0AE2,  0x0AE3} /* Mn */,
                    700:        {  0x0B01,  0x0B01} /* Mn */, {  0x0B3C,  0x0B3C} /* Mn */,
                    701:        {  0x0B3F,  0x0B3F} /* Mn */, {  0x0B41,  0x0B43} /* Mn */,
                    702:        {  0x0B4D,  0x0B4D} /* Mn */, {  0x0B56,  0x0B56} /* Mn */,
                    703:        {  0x0B82,  0x0B82} /* Mn */, {  0x0BC0,  0x0BC0} /* Mn */,
                    704:        {  0x0BCD,  0x0BCD} /* Mn */, {  0x0C3E,  0x0C40} /* Mn */,
                    705:        {  0x0C46,  0x0C48} /* Mn */, {  0x0C4A,  0x0C4D} /* Mn */,
                    706:        {  0x0C55,  0x0C56} /* Mn */, {  0x0CBC,  0x0CBC} /* Mn */,
                    707:        {  0x0CBF,  0x0CBF} /* Mn */, {  0x0CC6,  0x0CC6} /* Mn */,
                    708:        {  0x0CCC,  0x0CCD} /* Mn */, {  0x0CE2,  0x0CE3} /* Mn */,
                    709:        {  0x0D41,  0x0D43} /* Mn */, {  0x0D4D,  0x0D4D} /* Mn */,
                    710:        {  0x0DCA,  0x0DCA} /* Mn */, {  0x0DD2,  0x0DD4} /* Mn */,
                    711:        {  0x0DD6,  0x0DD6} /* Mn */, {  0x0E31,  0x0E31} /* Mn */,
                    712:        {  0x0E34,  0x0E3A} /* Mn */, {  0x0E47,  0x0E4E} /* Mn */,
                    713:        {  0x0EB1,  0x0EB1} /* Mn */, {  0x0EB4,  0x0EB9} /* Mn */,
                    714:        {  0x0EBB,  0x0EBC} /* Mn */, {  0x0EC8,  0x0ECD} /* Mn */,
                    715:        {  0x0F18,  0x0F19} /* Mn */, {  0x0F35,  0x0F35} /* Mn */,
                    716:        {  0x0F37,  0x0F37} /* Mn */, {  0x0F39,  0x0F39} /* Mn */,
                    717:        {  0x0F71,  0x0F7E} /* Mn */, {  0x0F80,  0x0F84} /* Mn */,
                    718:        {  0x0F86,  0x0F87} /* Mn */, {  0x0F90,  0x0F97} /* Mn */,
                    719:        {  0x0F99,  0x0FBC} /* Mn */, {  0x0FC6,  0x0FC6} /* Mn */,
                    720:        {  0x102D,  0x1030} /* Mn */, {  0x1032,  0x1032} /* Mn */,
                    721:        {  0x1036,  0x1037} /* Mn */, {  0x1039,  0x1039} /* Mn */,
                    722:        {  0x1058,  0x1059} /* Mn */, {  0x135F,  0x135F} /* Mn */,
                    723:        {  0x1712,  0x1714} /* Mn */, {  0x1732,  0x1734} /* Mn */,
                    724:        {  0x1752,  0x1753} /* Mn */, {  0x1772,  0x1773} /* Mn */,
                    725:        {  0x17B7,  0x17BD} /* Mn */, {  0x17C6,  0x17C6} /* Mn */,
                    726:        {  0x17C9,  0x17D3} /* Mn */, {  0x17DD,  0x17DD} /* Mn */,
                    727:        {  0x180B,  0x180D} /* Mn */, {  0x18A9,  0x18A9} /* Mn */,
                    728:        {  0x1920,  0x1922} /* Mn */, {  0x1927,  0x1928} /* Mn */,
                    729:        {  0x1932,  0x1932} /* Mn */, {  0x1939,  0x193B} /* Mn */,
                    730:        {  0x1A17,  0x1A18} /* Mn */, {  0x1B00,  0x1B03} /* Mn */,
                    731:        {  0x1B34,  0x1B34} /* Mn */, {  0x1B36,  0x1B3A} /* Mn */,
                    732:        {  0x1B3C,  0x1B3C} /* Mn */, {  0x1B42,  0x1B42} /* Mn */,
                    733:        {  0x1B6B,  0x1B73} /* Mn */, {  0x1DC0,  0x1DCA} /* Mn */,
                    734:        {  0x1DFE,  0x1DFF} /* Mn */, {  0x20D0,  0x20DC} /* Mn */,
                    735:        {  0x20DD,  0x20E0} /* Me */,
                    736:        {  0x20E1,  0x20E1} /* Mn */,
                    737:        {  0x20E2,  0x20E4} /* Me */,
                    738:        {  0x20E5,  0x20EF} /* Mn */, {  0x302A,  0x302F} /* Mn */,
                    739:        {  0x3099,  0x309A} /* Mn */, {  0xA806,  0xA806} /* Mn */,
                    740:        {  0xA80B,  0xA80B} /* Mn */, {  0xA825,  0xA826} /* Mn */,
                    741:        {  0xFB1E,  0xFB1E} /* Mn */, {  0xFE00,  0xFE0F} /* Mn */,
                    742:        {  0xFE20,  0xFE23} /* Mn */, { 0x10A01, 0x10A03} /* Mn */,
                    743:        { 0x10A05, 0x10A06} /* Mn */, { 0x10A0C, 0x10A0F} /* Mn */,
                    744:        { 0x10A38, 0x10A3A} /* Mn */, { 0x10A3F, 0x10A3F} /* Mn */,
                    745:        { 0x1D167, 0x1D169} /* Mn */, { 0x1D17B, 0x1D182} /* Mn */,
                    746:        { 0x1D185, 0x1D18B} /* Mn */, { 0x1D1AA, 0x1D1AD} /* Mn */,
                    747:        { 0x1D242, 0x1D244} /* Mn */, { 0xE0100, 0xE01EF} /* Mn */,
                    748: };
                    749:
                    750: /*
                    751:  * Special pairs, not ranges.
                    752:  */
                    753: static struct wchar_range comb_table[] = {
1.11      nicm      754:        {0x0644, 0x0622}, {0x0644, 0x0623}, {0x0644, 0x0625}, {0x0644, 0x0627},
1.8       shadchin  755: };
                    756:
                    757: /*
                    758:  * Characters with general category values
                    759:  *     Cc: Other, Control
                    760:  *     Cf: Other, Format
                    761:  *     Cs: Other, Surrogate
                    762:  *     Co: Other, Private Use
                    763:  *     Cn: Other, Not Assigned
                    764:  *     Zl: Separator, Line
                    765:  *     Zp: Separator, Paragraph
                    766:  * Last synched with
                    767:  *     <http://www.unicode.org/Public/5.0.0/ucd/UnicodeData-5.0.0d7.txt>
                    768:  *     dated 2005-11-30T00:58:48Z
                    769:  */
                    770: static struct wchar_range ubin_table[] = {
1.11      nicm      771:        {  0x0000,  0x0007} /* Cc */,
                    772:        {  0x000B,  0x000C} /* Cc */,
                    773:        {  0x000E,  0x001A} /* Cc */,
                    774:        {  0x001C,  0x001F} /* Cc */,
1.8       shadchin  775:        {  0x007F,  0x009F} /* Cc */,
                    776: #if 0
                    777:        {  0x00AD,  0x00AD} /* Cf */,
                    778: #endif
                    779:        {  0x0370,  0x0373} /* Cn */, {  0x0376,  0x0379} /* Cn */,
                    780:        {  0x037F,  0x0383} /* Cn */, {  0x038B,  0x038B} /* Cn */,
                    781:        {  0x038D,  0x038D} /* Cn */, {  0x03A2,  0x03A2} /* Cn */,
                    782:        {  0x03CF,  0x03CF} /* Cn */, {  0x0487,  0x0487} /* Cn */,
                    783:        {  0x0514,  0x0530} /* Cn */, {  0x0557,  0x0558} /* Cn */,
                    784:        {  0x0560,  0x0560} /* Cn */, {  0x0588,  0x0588} /* Cn */,
                    785:        {  0x058B,  0x0590} /* Cn */, {  0x05C8,  0x05CF} /* Cn */,
                    786:        {  0x05EB,  0x05EF} /* Cn */, {  0x05F5,  0x05FF} /* Cn */,
                    787: #if 0
                    788:        {  0x0600,  0x0603} /* Cf */,
                    789: #endif
                    790:        {  0x0604,  0x060A} /* Cn */, {  0x0616,  0x061A} /* Cn */,
                    791:        {  0x061C,  0x061D} /* Cn */, {  0x0620,  0x0620} /* Cn */,
                    792:        {  0x063B,  0x063F} /* Cn */, {  0x065F,  0x065F} /* Cn */,
                    793: #if 0
                    794:        {  0x06DD,  0x06DD} /* Cf */,
                    795: #endif
                    796:        {  0x070E,  0x070E} /* Cn */,
                    797: #if 0
                    798:        {  0x070F,  0x070F} /* Cf */,
                    799: #endif
                    800:        {  0x074B,  0x074C} /* Cn */, {  0x076E,  0x077F} /* Cn */,
                    801:        {  0x07B2,  0x07BF} /* Cn */, {  0x07FB,  0x0900} /* Cn */,
                    802:        {  0x093A,  0x093B} /* Cn */, {  0x094E,  0x094F} /* Cn */,
                    803:        {  0x0955,  0x0957} /* Cn */, {  0x0971,  0x097A} /* Cn */,
                    804:        {  0x0980,  0x0980} /* Cn */, {  0x0984,  0x0984} /* Cn */,
                    805:        {  0x098D,  0x098E} /* Cn */, {  0x0991,  0x0992} /* Cn */,
                    806:        {  0x09A9,  0x09A9} /* Cn */, {  0x09B1,  0x09B1} /* Cn */,
                    807:        {  0x09B3,  0x09B5} /* Cn */, {  0x09BA,  0x09BB} /* Cn */,
                    808:        {  0x09C5,  0x09C6} /* Cn */, {  0x09C9,  0x09CA} /* Cn */,
                    809:        {  0x09CF,  0x09D6} /* Cn */, {  0x09D8,  0x09DB} /* Cn */,
                    810:        {  0x09DE,  0x09DE} /* Cn */, {  0x09E4,  0x09E5} /* Cn */,
                    811:        {  0x09FB,  0x0A00} /* Cn */, {  0x0A04,  0x0A04} /* Cn */,
                    812:        {  0x0A0B,  0x0A0E} /* Cn */, {  0x0A11,  0x0A12} /* Cn */,
                    813:        {  0x0A29,  0x0A29} /* Cn */, {  0x0A31,  0x0A31} /* Cn */,
                    814:        {  0x0A34,  0x0A34} /* Cn */, {  0x0A37,  0x0A37} /* Cn */,
                    815:        {  0x0A3A,  0x0A3B} /* Cn */, {  0x0A3D,  0x0A3D} /* Cn */,
                    816:        {  0x0A43,  0x0A46} /* Cn */, {  0x0A49,  0x0A4A} /* Cn */,
                    817:        {  0x0A4E,  0x0A58} /* Cn */, {  0x0A5D,  0x0A5D} /* Cn */,
                    818:        {  0x0A5F,  0x0A65} /* Cn */, {  0x0A75,  0x0A80} /* Cn */,
                    819:        {  0x0A84,  0x0A84} /* Cn */, {  0x0A8E,  0x0A8E} /* Cn */,
                    820:        {  0x0A92,  0x0A92} /* Cn */, {  0x0AA9,  0x0AA9} /* Cn */,
                    821:        {  0x0AB1,  0x0AB1} /* Cn */, {  0x0AB4,  0x0AB4} /* Cn */,
                    822:        {  0x0ABA,  0x0ABB} /* Cn */, {  0x0AC6,  0x0AC6} /* Cn */,
                    823:        {  0x0ACA,  0x0ACA} /* Cn */, {  0x0ACE,  0x0ACF} /* Cn */,
                    824:        {  0x0AD1,  0x0ADF} /* Cn */, {  0x0AE4,  0x0AE5} /* Cn */,
                    825:        {  0x0AF0,  0x0AF0} /* Cn */, {  0x0AF2,  0x0B00} /* Cn */,
                    826:        {  0x0B04,  0x0B04} /* Cn */, {  0x0B0D,  0x0B0E} /* Cn */,
                    827:        {  0x0B11,  0x0B12} /* Cn */, {  0x0B29,  0x0B29} /* Cn */,
                    828:        {  0x0B31,  0x0B31} /* Cn */, {  0x0B34,  0x0B34} /* Cn */,
                    829:        {  0x0B3A,  0x0B3B} /* Cn */, {  0x0B44,  0x0B46} /* Cn */,
                    830:        {  0x0B49,  0x0B4A} /* Cn */, {  0x0B4E,  0x0B55} /* Cn */,
                    831:        {  0x0B58,  0x0B5B} /* Cn */, {  0x0B5E,  0x0B5E} /* Cn */,
                    832:        {  0x0B62,  0x0B65} /* Cn */, {  0x0B72,  0x0B81} /* Cn */,
                    833:        {  0x0B84,  0x0B84} /* Cn */, {  0x0B8B,  0x0B8D} /* Cn */,
                    834:        {  0x0B91,  0x0B91} /* Cn */, {  0x0B96,  0x0B98} /* Cn */,
                    835:        {  0x0B9B,  0x0B9B} /* Cn */, {  0x0B9D,  0x0B9D} /* Cn */,
                    836:        {  0x0BA0,  0x0BA2} /* Cn */, {  0x0BA5,  0x0BA7} /* Cn */,
                    837:        {  0x0BAB,  0x0BAD} /* Cn */, {  0x0BBA,  0x0BBD} /* Cn */,
                    838:        {  0x0BC3,  0x0BC5} /* Cn */, {  0x0BC9,  0x0BC9} /* Cn */,
                    839:        {  0x0BCE,  0x0BD6} /* Cn */, {  0x0BD8,  0x0BE5} /* Cn */,
                    840:        {  0x0BFB,  0x0C00} /* Cn */, {  0x0C04,  0x0C04} /* Cn */,
                    841:        {  0x0C0D,  0x0C0D} /* Cn */, {  0x0C11,  0x0C11} /* Cn */,
                    842:        {  0x0C29,  0x0C29} /* Cn */, {  0x0C34,  0x0C34} /* Cn */,
                    843:        {  0x0C3A,  0x0C3D} /* Cn */, {  0x0C45,  0x0C45} /* Cn */,
                    844:        {  0x0C49,  0x0C49} /* Cn */, {  0x0C4E,  0x0C54} /* Cn */,
                    845:        {  0x0C57,  0x0C5F} /* Cn */, {  0x0C62,  0x0C65} /* Cn */,
                    846:        {  0x0C70,  0x0C81} /* Cn */, {  0x0C84,  0x0C84} /* Cn */,
                    847:        {  0x0C8D,  0x0C8D} /* Cn */, {  0x0C91,  0x0C91} /* Cn */,
                    848:        {  0x0CA9,  0x0CA9} /* Cn */, {  0x0CB4,  0x0CB4} /* Cn */,
                    849:        {  0x0CBA,  0x0CBB} /* Cn */, {  0x0CC5,  0x0CC5} /* Cn */,
                    850:        {  0x0CC9,  0x0CC9} /* Cn */, {  0x0CCE,  0x0CD4} /* Cn */,
                    851:        {  0x0CD7,  0x0CDD} /* Cn */, {  0x0CDF,  0x0CDF} /* Cn */,
                    852:        {  0x0CE4,  0x0CE5} /* Cn */, {  0x0CF0,  0x0CF0} /* Cn */,
                    853:        {  0x0CF3,  0x0D01} /* Cn */, {  0x0D04,  0x0D04} /* Cn */,
                    854:        {  0x0D0D,  0x0D0D} /* Cn */, {  0x0D11,  0x0D11} /* Cn */,
                    855:        {  0x0D29,  0x0D29} /* Cn */, {  0x0D3A,  0x0D3D} /* Cn */,
                    856:        {  0x0D44,  0x0D45} /* Cn */, {  0x0D49,  0x0D49} /* Cn */,
                    857:        {  0x0D4E,  0x0D56} /* Cn */, {  0x0D58,  0x0D5F} /* Cn */,
                    858:        {  0x0D62,  0x0D65} /* Cn */, {  0x0D70,  0x0D81} /* Cn */,
                    859:        {  0x0D84,  0x0D84} /* Cn */, {  0x0D97,  0x0D99} /* Cn */,
                    860:        {  0x0DB2,  0x0DB2} /* Cn */, {  0x0DBC,  0x0DBC} /* Cn */,
                    861:        {  0x0DBE,  0x0DBF} /* Cn */, {  0x0DC7,  0x0DC9} /* Cn */,
                    862:        {  0x0DCB,  0x0DCE} /* Cn */, {  0x0DD5,  0x0DD5} /* Cn */,
                    863:        {  0x0DD7,  0x0DD7} /* Cn */, {  0x0DE0,  0x0DF1} /* Cn */,
                    864:        {  0x0DF5,  0x0E00} /* Cn */, {  0x0E3B,  0x0E3E} /* Cn */,
                    865:        {  0x0E5C,  0x0E80} /* Cn */, {  0x0E83,  0x0E83} /* Cn */,
                    866:        {  0x0E85,  0x0E86} /* Cn */, {  0x0E89,  0x0E89} /* Cn */,
                    867:        {  0x0E8B,  0x0E8C} /* Cn */, {  0x0E8E,  0x0E93} /* Cn */,
                    868:        {  0x0E98,  0x0E98} /* Cn */, {  0x0EA0,  0x0EA0} /* Cn */,
                    869:        {  0x0EA4,  0x0EA4} /* Cn */, {  0x0EA6,  0x0EA6} /* Cn */,
                    870:        {  0x0EA8,  0x0EA9} /* Cn */, {  0x0EAC,  0x0EAC} /* Cn */,
                    871:        {  0x0EBA,  0x0EBA} /* Cn */, {  0x0EBE,  0x0EBF} /* Cn */,
                    872:        {  0x0EC5,  0x0EC5} /* Cn */, {  0x0EC7,  0x0EC7} /* Cn */,
                    873:        {  0x0ECE,  0x0ECF} /* Cn */, {  0x0EDA,  0x0EDB} /* Cn */,
                    874:        {  0x0EDE,  0x0EFF} /* Cn */, {  0x0F48,  0x0F48} /* Cn */,
                    875:        {  0x0F6B,  0x0F70} /* Cn */, {  0x0F8C,  0x0F8F} /* Cn */,
                    876:        {  0x0F98,  0x0F98} /* Cn */, {  0x0FBD,  0x0FBD} /* Cn */,
                    877:        {  0x0FCD,  0x0FCE} /* Cn */, {  0x0FD2,  0x0FFF} /* Cn */,
                    878:        {  0x1022,  0x1022} /* Cn */, {  0x1028,  0x1028} /* Cn */,
                    879:        {  0x102B,  0x102B} /* Cn */, {  0x1033,  0x1035} /* Cn */,
                    880:        {  0x103A,  0x103F} /* Cn */, {  0x105A,  0x109F} /* Cn */,
                    881:        {  0x10C6,  0x10CF} /* Cn */, {  0x10FD,  0x10FF} /* Cn */,
                    882:        {  0x115A,  0x115E} /* Cn */, {  0x11A3,  0x11A7} /* Cn */,
                    883:        {  0x11FA,  0x11FF} /* Cn */, {  0x1249,  0x1249} /* Cn */,
                    884:        {  0x124E,  0x124F} /* Cn */, {  0x1257,  0x1257} /* Cn */,
                    885:        {  0x1259,  0x1259} /* Cn */, {  0x125E,  0x125F} /* Cn */,
                    886:        {  0x1289,  0x1289} /* Cn */, {  0x128E,  0x128F} /* Cn */,
                    887:        {  0x12B1,  0x12B1} /* Cn */, {  0x12B6,  0x12B7} /* Cn */,
                    888:        {  0x12BF,  0x12BF} /* Cn */, {  0x12C1,  0x12C1} /* Cn */,
                    889:        {  0x12C6,  0x12C7} /* Cn */, {  0x12D7,  0x12D7} /* Cn */,
                    890:        {  0x1311,  0x1311} /* Cn */, {  0x1316,  0x1317} /* Cn */,
                    891:        {  0x135B,  0x135E} /* Cn */, {  0x137D,  0x137F} /* Cn */,
                    892:        {  0x139A,  0x139F} /* Cn */, {  0x13F5,  0x1400} /* Cn */,
                    893:        {  0x1677,  0x167F} /* Cn */, {  0x169D,  0x169F} /* Cn */,
                    894:        {  0x16F1,  0x16FF} /* Cn */, {  0x170D,  0x170D} /* Cn */,
                    895:        {  0x1715,  0x171F} /* Cn */, {  0x1737,  0x173F} /* Cn */,
                    896:        {  0x1754,  0x175F} /* Cn */, {  0x176D,  0x176D} /* Cn */,
                    897:        {  0x1771,  0x1771} /* Cn */, {  0x1774,  0x177F} /* Cn */,
                    898: #if 0
                    899:        {  0x17B4,  0x17B5} /* Cf */,
                    900: #endif
                    901:        {  0x17DE,  0x17DF} /* Cn */, {  0x17EA,  0x17EF} /* Cn */,
                    902:        {  0x17FA,  0x17FF} /* Cn */, {  0x180F,  0x180F} /* Cn */,
                    903:        {  0x181A,  0x181F} /* Cn */, {  0x1878,  0x187F} /* Cn */,
                    904:        {  0x18AA,  0x18FF} /* Cn */, {  0x191D,  0x191F} /* Cn */,
                    905:        {  0x192C,  0x192F} /* Cn */, {  0x193C,  0x193F} /* Cn */,
                    906:        {  0x1941,  0x1943} /* Cn */, {  0x196E,  0x196F} /* Cn */,
                    907:        {  0x1975,  0x197F} /* Cn */, {  0x19AA,  0x19AF} /* Cn */,
                    908:        {  0x19CA,  0x19CF} /* Cn */, {  0x19DA,  0x19DD} /* Cn */,
                    909:        {  0x1A1C,  0x1A1D} /* Cn */, {  0x1A20,  0x1AFF} /* Cn */,
                    910:        {  0x1B4C,  0x1B4F} /* Cn */, {  0x1B7D,  0x1CFF} /* Cn */,
                    911:        {  0x1DCB,  0x1DFD} /* Cn */, {  0x1E9C,  0x1E9F} /* Cn */,
                    912:        {  0x1EFA,  0x1EFF} /* Cn */, {  0x1F16,  0x1F17} /* Cn */,
                    913:        {  0x1F1E,  0x1F1F} /* Cn */, {  0x1F46,  0x1F47} /* Cn */,
                    914:        {  0x1F4E,  0x1F4F} /* Cn */, {  0x1F58,  0x1F58} /* Cn */,
                    915:        {  0x1F5A,  0x1F5A} /* Cn */, {  0x1F5C,  0x1F5C} /* Cn */,
                    916:        {  0x1F5E,  0x1F5E} /* Cn */, {  0x1F7E,  0x1F7F} /* Cn */,
                    917:        {  0x1FB5,  0x1FB5} /* Cn */, {  0x1FC5,  0x1FC5} /* Cn */,
                    918:        {  0x1FD4,  0x1FD5} /* Cn */, {  0x1FDC,  0x1FDC} /* Cn */,
                    919:        {  0x1FF0,  0x1FF1} /* Cn */, {  0x1FF5,  0x1FF5} /* Cn */,
                    920:        {  0x1FFF,  0x1FFF} /* Cn */,
                    921:        {  0x200B,  0x200F} /* Cf */,
                    922:        {  0x2028,  0x2028} /* Zl */,
                    923:        {  0x2029,  0x2029} /* Zp */,
                    924:        {  0x202A,  0x202E} /* Cf */,
                    925:        {  0x2060,  0x2063} /* Cf */,
                    926:        {  0x2064,  0x2069} /* Cn */,
                    927:        {  0x206A,  0x206F} /* Cf */,
                    928:        {  0x2072,  0x2073} /* Cn */, {  0x208F,  0x208F} /* Cn */,
                    929:        {  0x2095,  0x209F} /* Cn */, {  0x20B6,  0x20CF} /* Cn */,
                    930:        {  0x20F0,  0x20FF} /* Cn */, {  0x214F,  0x2152} /* Cn */,
                    931:        {  0x2185,  0x218F} /* Cn */, {  0x23E8,  0x23FF} /* Cn */,
                    932:        {  0x2427,  0x243F} /* Cn */, {  0x244B,  0x245F} /* Cn */,
                    933:        {  0x269D,  0x269F} /* Cn */, {  0x26B3,  0x2700} /* Cn */,
                    934:        {  0x2705,  0x2705} /* Cn */, {  0x270A,  0x270B} /* Cn */,
                    935:        {  0x2728,  0x2728} /* Cn */, {  0x274C,  0x274C} /* Cn */,
                    936:        {  0x274E,  0x274E} /* Cn */, {  0x2753,  0x2755} /* Cn */,
                    937:        {  0x2757,  0x2757} /* Cn */, {  0x275F,  0x2760} /* Cn */,
                    938:        {  0x2795,  0x2797} /* Cn */, {  0x27B0,  0x27B0} /* Cn */,
                    939:        {  0x27BF,  0x27BF} /* Cn */, {  0x27CB,  0x27CF} /* Cn */,
                    940:        {  0x27EC,  0x27EF} /* Cn */, {  0x2B1B,  0x2B1F} /* Cn */,
                    941:        {  0x2B24,  0x2BFF} /* Cn */, {  0x2C2F,  0x2C2F} /* Cn */,
                    942:        {  0x2C5F,  0x2C5F} /* Cn */, {  0x2C6D,  0x2C73} /* Cn */,
                    943:        {  0x2C78,  0x2C7F} /* Cn */, {  0x2CEB,  0x2CF8} /* Cn */,
                    944:        {  0x2D26,  0x2D2F} /* Cn */, {  0x2D66,  0x2D6E} /* Cn */,
                    945:        {  0x2D70,  0x2D7F} /* Cn */, {  0x2D97,  0x2D9F} /* Cn */,
                    946:        {  0x2DA7,  0x2DA7} /* Cn */, {  0x2DAF,  0x2DAF} /* Cn */,
                    947:        {  0x2DB7,  0x2DB7} /* Cn */, {  0x2DBF,  0x2DBF} /* Cn */,
                    948:        {  0x2DC7,  0x2DC7} /* Cn */, {  0x2DCF,  0x2DCF} /* Cn */,
                    949:        {  0x2DD7,  0x2DD7} /* Cn */, {  0x2DDF,  0x2DFF} /* Cn */,
                    950:        {  0x2E18,  0x2E1B} /* Cn */, {  0x2E1E,  0x2E7F} /* Cn */,
                    951:        {  0x2E9A,  0x2E9A} /* Cn */, {  0x2EF4,  0x2EFF} /* Cn */,
                    952:        {  0x2FD6,  0x2FEF} /* Cn */, {  0x2FFC,  0x2FFF} /* Cn */,
                    953:        {  0x3040,  0x3040} /* Cn */, {  0x3097,  0x3098} /* Cn */,
                    954:        {  0x3100,  0x3104} /* Cn */, {  0x312D,  0x3130} /* Cn */,
                    955:        {  0x318F,  0x318F} /* Cn */, {  0x31B8,  0x31BF} /* Cn */,
                    956:        {  0x31D0,  0x31EF} /* Cn */, {  0x321F,  0x321F} /* Cn */,
                    957:        {  0x3244,  0x324F} /* Cn */, {  0x32FF,  0x32FF} /* Cn */,
                    958:        {  0x4DB6,  0x4DBF} /* Cn */, {  0x9FBC,  0x9FFF} /* Cn */,
                    959:        {  0xA48D,  0xA48F} /* Cn */, {  0xA4C7,  0xA6FF} /* Cn */,
                    960:        {  0xA71B,  0xA71F} /* Cn */, {  0xA722,  0xA7FF} /* Cn */,
                    961:        {  0xA82C,  0xA83F} /* Cn */, {  0xA878,  0xABFF} /* Cn */,
                    962:        {  0xD7A4,  0xD7FF} /* Cn */,
                    963:        {  0xD800,  0xDFFF} /* Cs */,
                    964:        {  0xE000,  0xF8FF} /* Co */,
                    965:        {  0xFA2E,  0xFA2F} /* Cn */, {  0xFA6B,  0xFA6F} /* Cn */,
                    966:        {  0xFADA,  0xFAFF} /* Cn */, {  0xFB07,  0xFB12} /* Cn */,
                    967:        {  0xFB18,  0xFB1C} /* Cn */, {  0xFB37,  0xFB37} /* Cn */,
                    968:        {  0xFB3D,  0xFB3D} /* Cn */, {  0xFB3F,  0xFB3F} /* Cn */,
                    969:        {  0xFB42,  0xFB42} /* Cn */, {  0xFB45,  0xFB45} /* Cn */,
                    970:        {  0xFBB2,  0xFBD2} /* Cn */, {  0xFD40,  0xFD4F} /* Cn */,
                    971:        {  0xFD90,  0xFD91} /* Cn */, {  0xFDC8,  0xFDEF} /* Cn */,
                    972:        {  0xFDFE,  0xFDFF} /* Cn */, {  0xFE1A,  0xFE1F} /* Cn */,
                    973:        {  0xFE24,  0xFE2F} /* Cn */, {  0xFE53,  0xFE53} /* Cn */,
                    974:        {  0xFE67,  0xFE67} /* Cn */, {  0xFE6C,  0xFE6F} /* Cn */,
                    975:        {  0xFE75,  0xFE75} /* Cn */, {  0xFEFD,  0xFEFE} /* Cn */,
                    976:        {  0xFEFF,  0xFEFF} /* Cf */,
                    977:        {  0xFF00,  0xFF00} /* Cn */, {  0xFFBF,  0xFFC1} /* Cn */,
                    978:        {  0xFFC8,  0xFFC9} /* Cn */, {  0xFFD0,  0xFFD1} /* Cn */,
                    979:        {  0xFFD8,  0xFFD9} /* Cn */, {  0xFFDD,  0xFFDF} /* Cn */,
                    980:        {  0xFFE7,  0xFFE7} /* Cn */, {  0xFFEF,  0xFFF8} /* Cn */,
                    981:        {  0xFFF9,  0xFFFB} /* Cf */,
                    982:        {  0xFFFE,  0xFFFF} /* Cn */, { 0x1000C, 0x1000C} /* Cn */,
                    983:        { 0x10027, 0x10027} /* Cn */, { 0x1003B, 0x1003B} /* Cn */,
                    984:        { 0x1003E, 0x1003E} /* Cn */, { 0x1004E, 0x1004F} /* Cn */,
                    985:        { 0x1005E, 0x1007F} /* Cn */, { 0x100FB, 0x100FF} /* Cn */,
                    986:        { 0x10103, 0x10106} /* Cn */, { 0x10134, 0x10136} /* Cn */,
                    987:        { 0x1018B, 0x102FF} /* Cn */, { 0x1031F, 0x1031F} /* Cn */,
                    988:        { 0x10324, 0x1032F} /* Cn */, { 0x1034B, 0x1037F} /* Cn */,
                    989:        { 0x1039E, 0x1039E} /* Cn */, { 0x103C4, 0x103C7} /* Cn */,
                    990:        { 0x103D6, 0x103FF} /* Cn */,
                    991:        { 0x1049E, 0x1049F} /* Cn */, { 0x104AA, 0x107FF} /* Cn */,
                    992:        { 0x10806, 0x10807} /* Cn */, { 0x10809, 0x10809} /* Cn */,
                    993:        { 0x10836, 0x10836} /* Cn */, { 0x10839, 0x1083B} /* Cn */,
                    994:        { 0x1083D, 0x1083E} /* Cn */, { 0x10840, 0x108FF} /* Cn */,
                    995:        { 0x1091A, 0x1091E} /* Cn */, { 0x10920, 0x109FF} /* Cn */,
                    996:        { 0x10A04, 0x10A04} /* Cn */, { 0x10A07, 0x10A0B} /* Cn */,
                    997:        { 0x10A14, 0x10A14} /* Cn */, { 0x10A18, 0x10A18} /* Cn */,
                    998:        { 0x10A34, 0x10A37} /* Cn */, { 0x10A3B, 0x10A3E} /* Cn */,
                    999:        { 0x10A48, 0x10A4F} /* Cn */, { 0x10A59, 0x11FFF} /* Cn */,
                   1000:        { 0x1236F, 0x123FF} /* Cn */, { 0x12463, 0x1246F} /* Cn */,
                   1001:        { 0x12474, 0x1CFFF} /* Cn */, { 0x1D0F6, 0x1D0FF} /* Cn */,
                   1002:        { 0x1D127, 0x1D129} /* Cn */,
                   1003:        { 0x1D173, 0x1D17A} /* Cf */,
                   1004:        { 0x1D1DE, 0x1D1FF} /* Cn */, { 0x1D246, 0x1D2FF} /* Cn */,
                   1005:        { 0x1D357, 0x1D35F} /* Cn */, { 0x1D372, 0x1D3FF} /* Cn */,
                   1006:        { 0x1D455, 0x1D455} /* Cn */, { 0x1D49D, 0x1D49D} /* Cn */,
                   1007:        { 0x1D4A0, 0x1D4A1} /* Cn */, { 0x1D4A3, 0x1D4A4} /* Cn */,
                   1008:        { 0x1D4A7, 0x1D4A8} /* Cn */, { 0x1D4AD, 0x1D4AD} /* Cn */,
                   1009:        { 0x1D4BA, 0x1D4BA} /* Cn */, { 0x1D4BC, 0x1D4BC} /* Cn */,
                   1010:        { 0x1D4C4, 0x1D4C4} /* Cn */, { 0x1D506, 0x1D506} /* Cn */,
                   1011:        { 0x1D50B, 0x1D50C} /* Cn */, { 0x1D515, 0x1D515} /* Cn */,
                   1012:        { 0x1D51D, 0x1D51D} /* Cn */, { 0x1D53A, 0x1D53A} /* Cn */,
                   1013:        { 0x1D53F, 0x1D53F} /* Cn */, { 0x1D545, 0x1D545} /* Cn */,
                   1014:        { 0x1D547, 0x1D549} /* Cn */, { 0x1D551, 0x1D551} /* Cn */,
                   1015:        { 0x1D6A6, 0x1D6A7} /* Cn */, { 0x1D7CC, 0x1D7CD} /* Cn */,
                   1016:        { 0x1D800, 0x1FFFF} /* Cn */, { 0x2A6D7, 0x2F7FF} /* Cn */,
                   1017:        { 0x2FA1E, 0xE0000} /* Cn */,
                   1018:        { 0xE0001, 0xE0001} /* Cf */,
                   1019:        { 0xE0002, 0xE001F} /* Cn */,
                   1020:        { 0xE0020, 0xE007F} /* Cf */,
                   1021:        { 0xE0080, 0xE00FF} /* Cn */, { 0xE01F0, 0xEFFFF} /* Cn */,
                   1022:        { 0xF0000, 0xFFFFD} /* Co */,
                   1023:        { 0xFFFFE, 0xFFFFF} /* Cn */,
1.11      nicm     1024:        { 0x100000, 0x10FFFD} /* Co */,
                   1025:        { 0x10FFFE, 0x10FFFF} /* Cn */,
                   1026:        { 0x110000, 0x7FFFFFFF} /* ISO 10646?? */
1.8       shadchin 1027: };
                   1028:
                   1029: /*
                   1030:  * Double width characters
                   1031:  *     W: East Asian Wide
                   1032:  *     F: East Asian Full-width
                   1033:  * Unassigned code points may be included when they allow ranges to be merged.
                   1034:  * Last synched with
                   1035:  *     <http://www.unicode.org/Public/5.0.0/ucd/EastAsianWidth-5.0.0d2.txt>
                   1036:  *     dated 2005-11-08T01:32:56Z
                   1037:  */
                   1038: static struct wchar_range wide_table[] = {
                   1039:        {  0x1100,  0x115F} /* W */, {  0x2329,  0x232A} /* W */,
                   1040:        {  0x2E80,  0x2FFB} /* W */,
                   1041:        {  0x3000,  0x3000} /* F */,
                   1042:        {  0x3001,  0x303E} /* W */, {  0x3041,  0x4DB5} /* W */,
                   1043:        {  0x4E00,  0x9FBB} /* W */, {  0xA000,  0xA4C6} /* W */,
                   1044:        {  0xAC00,  0xD7A3} /* W */, {  0xF900,  0xFAD9} /* W */,
                   1045:        {  0xFE10,  0xFE19} /* W */, {  0xFE30,  0xFE6B} /* W */,
                   1046:        {  0xFF01,  0xFF60} /* F */, {  0xFFE0,  0xFFE6} /* F */,
                   1047:        { 0x20000, 0x2FFFD} /* W */, { 0x30000, 0x3FFFD} /* W */,
                   1048: };
                   1049:
1.11      nicm     1050: static int
                   1051: is_in_table(LWCHAR ch, struct wchar_range table[], int tsize)
1.8       shadchin 1052: {
                   1053:        int hi;
                   1054:        int lo;
                   1055:
                   1056:        /* Binary search in the table. */
                   1057:        if (ch < table[0].first)
1.11      nicm     1058:                return (0);
1.8       shadchin 1059:        lo = 0;
                   1060:        hi = tsize - 1;
1.11      nicm     1061:        while (lo <= hi) {
1.8       shadchin 1062:                int mid = (lo + hi) / 2;
                   1063:                if (ch > table[mid].last)
                   1064:                        lo = mid + 1;
                   1065:                else if (ch < table[mid].first)
                   1066:                        hi = mid - 1;
                   1067:                else
1.11      nicm     1068:                        return (1);
1.8       shadchin 1069:        }
1.11      nicm     1070:        return (0);
1.8       shadchin 1071: }
                   1072:
                   1073: /*
                   1074:  * Is a character a UTF-8 composing character?
                   1075:  * If a composing character follows any char, the two combine into one glyph.
                   1076:  */
1.11      nicm     1077: int
                   1078: is_composing_char(LWCHAR ch)
1.8       shadchin 1079: {
1.11      nicm     1080:        return (is_in_table(ch, comp_table,
                   1081:            (sizeof (comp_table) / sizeof (*comp_table))));
1.8       shadchin 1082: }
                   1083:
                   1084: /*
                   1085:  * Should this UTF-8 character be treated as binary?
                   1086:  */
1.11      nicm     1087: int
                   1088: is_ubin_char(LWCHAR ch)
1.8       shadchin 1089: {
1.11      nicm     1090:        return (is_in_table(ch, ubin_table,
                   1091:            (sizeof (ubin_table) / sizeof (*ubin_table))));
1.8       shadchin 1092: }
                   1093:
                   1094: /*
                   1095:  * Is this a double width UTF-8 character?
                   1096:  */
1.11      nicm     1097: int
                   1098: is_wide_char(LWCHAR ch)
1.8       shadchin 1099: {
1.11      nicm     1100:        return (is_in_table(ch, wide_table,
                   1101:            (sizeof (wide_table) / sizeof (*wide_table))));
1.8       shadchin 1102: }
                   1103:
                   1104: /*
                   1105:  * Is a character a UTF-8 combining character?
                   1106:  * A combining char acts like an ordinary char, but if it follows
                   1107:  * a specific char (not any char), the two combine into one glyph.
                   1108:  */
1.11      nicm     1109: int
                   1110: is_combining_char(LWCHAR ch1, LWCHAR ch2)
1.8       shadchin 1111: {
                   1112:        /* The table is small; use linear search. */
                   1113:        int i;
1.11      nicm     1114:        for (i = 0;  i < sizeof (comb_table) / sizeof (*comb_table);  i++) {
1.8       shadchin 1115:                if (ch1 == comb_table[i].first &&
                   1116:                    ch2 == comb_table[i].last)
1.11      nicm     1117:                        return (1);
1.8       shadchin 1118:        }
1.11      nicm     1119:        return (0);
1.8       shadchin 1120: }