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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-05-06 01:12:14 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-05-06 01:12:14 +0000 |
commit | 982972c2aada53f83389987317fb6cbee9ce5a91 (patch) | |
tree | 25420c3b905b2e00f02a895d877fd0669025ee35 /src/UCAux.c | |
parent | Initial commit. (diff) | |
download | lynx-upstream.tar.xz lynx-upstream.zip |
Adding upstream version 2.8.9rel.1.upstream/2.8.9rel.1upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'src/UCAux.c')
-rw-r--r-- | src/UCAux.c | 770 |
1 files changed, 770 insertions, 0 deletions
diff --git a/src/UCAux.c b/src/UCAux.c new file mode 100644 index 0000000..fd3de5f --- /dev/null +++ b/src/UCAux.c @@ -0,0 +1,770 @@ +/* + * $LynxId: UCAux.c,v 1.51 2016/04/17 22:18:15 tom Exp $ + */ +#include <HTUtils.h> + +#include <HTCJK.h> +#include <UCMap.h> +#include <UCDefs.h> +#include <HTStream.h> +#include <UCAux.h> +#include <LYCharSets.h> +#include <LYCurses.h> +#include <LYStrings.h> + +BOOL UCCanUniTranslateFrom(int from) +{ + if (from < 0) + return NO; +#ifndef EXP_JAPANESEUTF8_SUPPORT + if (LYCharSet_UC[from].enc == UCT_ENC_CJK) + return NO; +#endif + if (!strcmp(LYCharSet_UC[from].MIMEname, "x-transparent")) + return NO; + + /* others YES */ + return YES; +} + +BOOL UCCanTranslateUniTo(int to) +{ + if (to < 0) + return NO; + + return YES; /* well at least some characters... */ +} + +BOOL UCCanTranslateFromTo(int from, + int to) +{ + if (from == to) + return YES; + if (from < 0 || to < 0) + return NO; + if (from == LATIN1) + return UCCanTranslateUniTo(to); + if (to == LATIN1 || LYCharSet_UC[to].enc == UCT_ENC_UTF8) + return UCCanUniTranslateFrom(from); + { + const char *fromname = LYCharSet_UC[from].MIMEname; + const char *toname = LYCharSet_UC[to].MIMEname; + + if (!strcmp(fromname, "x-transparent") || + !strcmp(toname, "x-transparent")) { + return YES; /* ??? */ + } else if (!strcmp(fromname, "us-ascii")) { + return YES; + } + if (LYCharSet_UC[from].enc == UCT_ENC_CJK) { + /* + * CJK mode may be off (i.e., !IS_CJK_TTY) because the current + * document is not CJK, but the check may be for capability in + * relation to another document, for which CJK mode might be turned + * on when retrieved. Thus, when the from charset is CJK, check if + * the to charset is CJK, and return NO or YES in relation to that. + * - FM + */ + if (LYCharSet_UC[to].enc != UCT_ENC_CJK) + return NO; + if ((!strcmp(toname, "euc-jp") || + !strcmp(toname, "shift_jis")) && + (!strcmp(fromname, "euc-jp") || + !strcmp(fromname, "shift_jis"))) + return YES; + /* + * The euc-cn and euc-kr charsets were handled by the (from == to) + * above, so we need not check those. - FM + */ + return NO; + } + } + return YES; /* others YES */ +} + +/* + * Returns YES if no translation necessary (because + * charsets are equal, are equivalent, etc.). + */ +BOOL UCNeedNotTranslate(int from, + int to) +{ + const char *fromname; + const char *toname; + + if (from == to) + return YES; + if (from < 0) + return NO; /* ??? */ + if (LYCharSet_UC[from].enc == UCT_ENC_7BIT) { + return YES; /* Only 7bit chars. */ + } + fromname = LYCharSet_UC[from].MIMEname; + if (!strcmp(fromname, "x-transparent") || + !strcmp(fromname, "us-ascii")) { + return YES; + } + if (to < 0) + return NO; /* ??? */ + if (to == LATIN1) { + if (LYCharSet_UC[from].codepoints & (UCT_CP_SUBSETOF_LAT1)) + return YES; + } + toname = LYCharSet_UC[to].MIMEname; + if (!strcmp(toname, "x-transparent")) { + return YES; + } + if (LYCharSet_UC[to].enc == UCT_ENC_UTF8) { + return NO; + } + if (from == LATIN1) { + if (LYCharSet_UC[from].codepoints & (UCT_CP_SUPERSETOF_LAT1)) + return YES; + } + if (LYCharSet_UC[from].enc == UCT_ENC_CJK) { + if (!IS_CJK_TTY) /* Use that global flag, for now. */ + return NO; + if (HTCJK == JAPANESE && + (!strcmp(fromname, "euc-jp") || + !strcmp(fromname, "shift_jis"))) + return YES; /* translate internally by lynx, no unicode */ + return NO; /* If not handled by (from == to) above. */ + } + return NO; +} + +/* + * The idea here is that any stage of the stream pipe which is interested + * in some charset dependent processing will call this function. + * Given input and output charsets, this function will set various flags + * in a UCTransParams structure that _suggest_ to the caller what to do. + * + * Should be called once when a stage starts processing text (and the + * input and output charsets are known), or whenever one of input or + * output charsets has changed (e.g., by SGML.c stage after HTML.c stage + * has processed a META tag). + * The global flags (LYRawMode, HTPassEightBitRaw etc.) are currently + * not taken into account here (except for HTCJK, somewhat), it's still + * up to the caller to do something about them. - KW + */ +void UCSetTransParams(UCTransParams * pT, int cs_in, + const LYUCcharset *p_in, + int cs_out, + const LYUCcharset *p_out) +{ + CTRACE((tfp, "UCSetTransParams: from %s(%d) to %s(%d)\n", + p_in->MIMEname, UCGetLYhndl_byMIME(p_in->MIMEname), + p_out->MIMEname, UCGetLYhndl_byMIME(p_out->MIMEname))); + + /* + * Initialize this element to FALSE, and set it TRUE below if we're dealing + * with VISCII. - FM + */ + pT->trans_C0_to_uni = FALSE; + + /* + * The "transparent" display character set is a "super raw mode". - FM + */ + pT->transp = (BOOL) (!strcmp(p_in->MIMEname, "x-transparent") || + !strcmp(p_out->MIMEname, "x-transparent")); + + /* + * UCS-2 is handled as a special case in SGML_write(). + */ + pT->ucs_mode = 0; + + if (pT->transp) { + /* + * Set up the structure for "transparent". - FM + */ + pT->do_cjk = FALSE; + pT->decode_utf8 = FALSE; + pT->output_utf8 = FALSE; /* We may, but won't know about it. - KW */ + pT->do_8bitraw = TRUE; + pT->use_raw_char_in = TRUE; + pT->strip_raw_char_in = FALSE; + pT->pass_160_173_raw = TRUE; + pT->repl_translated_C0 = (BOOL) (p_out->enc == UCT_ENC_8BIT_C0); + pT->trans_C0_to_uni = (BOOL) (p_in->enc == UCT_ENC_8BIT_C0 || + p_out->enc == UCT_ENC_8BIT_C0); + } else { + /* + * Initialize local flags. - FM + */ + BOOL intm_ucs = FALSE; + BOOL use_ucs = FALSE; + + /* + * Set this element if we want to treat the input as CJK. - FM + */ + pT->do_cjk = (BOOL) ((p_in->enc == UCT_ENC_CJK) && IS_CJK_TTY); + /* + * Set these elements based on whether we are dealing with UTF-8. - FM + */ + pT->decode_utf8 = (BOOL) (p_in->enc == UCT_ENC_UTF8); + pT->output_utf8 = (BOOL) (p_out->enc == UCT_ENC_UTF8); + if (pT->do_cjk) { + /* + * Set up the structure for a CJK input with + * a CJK output (IS_CJK_TTY). - FM + */ + pT->trans_to_uni = FALSE; + pT->do_8bitraw = FALSE; + pT->pass_160_173_raw = TRUE; + pT->use_raw_char_in = FALSE; /* Not used for CJK. - KW */ + pT->repl_translated_C0 = FALSE; + pT->trans_from_uni = FALSE; /* Not used for CJK. - KW */ + } else { + /* + * Set up for all other charset combinations. The intm_ucs flag is + * set TRUE if the input charset is iso-8859-1 or UTF-8, or largely + * equivalent to them, i.e., if we have UCS without having to do a + * table translation. + */ + intm_ucs = (BOOL) (cs_in == LATIN1 || pT->decode_utf8 || + (p_in->codepoints & + (UCT_CP_SUBSETOF_LAT1 | UCT_CP_SUBSETOF_UCS2))); + /* + * pT->trans_to_uni is set TRUE if we do not have that as input + * already, and we can translate to Unicode. Note that UTF-8 + * always is converted to Unicode in functions that use the + * transformation structure, so it is treated as already Unicode + * here. + */ + pT->trans_to_uni = (BOOL) (!intm_ucs && + UCCanUniTranslateFrom(cs_in)); + /* + * We set this if we are translating to Unicode and what normally + * are low value control characters in fact are encoding octets for + * the input charset (presently, this applies to VISCII). - FM + */ + pT->trans_C0_to_uni = (BOOL) (pT->trans_to_uni && + p_in->enc == UCT_ENC_8BIT_C0); + /* + * We set this, presently, for VISCII. - FM + */ + pT->repl_translated_C0 = (BOOL) (p_out->enc == UCT_ENC_8BIT_C0); + /* + * Currently unused for any charset combination. + * Should always be FALSE + */ + pT->strip_raw_char_in = FALSE; + /* + * use_ucs should be set TRUE if we have or will create Unicode + * values for input octets or UTF multibytes. - FM + */ + use_ucs = (BOOL) (intm_ucs || pT->trans_to_uni); + /* + * This is set TRUE if use_ucs was set FALSE. It is complementary + * to the HTPassEightBitRaw flag, which is set TRUE or FALSE + * elsewhere based on the raw mode setting in relation to the + * current Display Character Set. - FM + */ + pT->do_8bitraw = (BOOL) (!use_ucs); + /* + * This is set TRUE when 160 and 173 should not be treated as nbsp + * and shy, respectively. - FM + */ + pT->pass_160_173_raw = (BOOL) (!use_ucs && + !(p_in->like8859 & UCT_R_8859SPECL)); + /* + * This is set when the input and output charsets match, and they + * are not ones which should go through a Unicode translation + * process anyway. - FM + */ + pT->use_raw_char_in = (BOOL) (!pT->output_utf8 && + cs_in == cs_out && + !pT->trans_C0_to_uni); + /* + * This should be set TRUE when we expect to have done translation + * to Unicode or had the equivalent as input, can translate it to + * our output charset, and normally want to do so. The latter + * depends on the pT->do_8bitraw and pT->use_raw_char_in values set + * above, but also on HTPassEightBitRaw in any functions which use + * the transformation structure.. - FM + */ + pT->trans_from_uni = (BOOL) (use_ucs && !pT->do_8bitraw && + !pT->use_raw_char_in && + UCCanTranslateUniTo(cs_out)); + } + } +} + +/* + * This function initializes the transformation + * structure by setting all its elements to + * FALSE. - KW + */ +void UCTransParams_clear(UCTransParams * pT) +{ + pT->transp = FALSE; + pT->do_cjk = FALSE; + pT->decode_utf8 = FALSE; + pT->output_utf8 = FALSE; + pT->do_8bitraw = FALSE; + pT->use_raw_char_in = FALSE; + pT->strip_raw_char_in = FALSE; + pT->pass_160_173_raw = FALSE; + pT->trans_to_uni = FALSE; + pT->trans_C0_to_uni = FALSE; + pT->repl_translated_C0 = FALSE; + pT->trans_from_uni = FALSE; +} + +/* + * If terminal is in UTF-8 mode, it probably cannot understand box drawing + * chars as the 8-bit (n)curses handles them. (This may also be true for other + * display character sets, but isn't currently checked.) In that case set the + * chars for horizontal and vertical drawing chars to displayable ASCII chars + * if '0' was requested. They'll stay as they are otherwise. -KW, TD + * + * If we're able to obtain a character set based on the locale settings, + * assume that the user has setup $TERM and the fonts already so line-drawing + * works. + */ +void UCSetBoxChars(int cset, + int *pvert_out, + int *phori_out, + int vert_in, + int hori_in) +{ + BOOL fix_lines = FALSE; + + if (cset >= 0) { +#ifndef WIDEC_CURSES + if (LYCharSet_UC[cset].enc == UCT_ENC_UTF8) { + fix_lines = TRUE; + } +#endif + /* + * If we've identified a charset that works, require it. + * This is important if we have loaded a font, which would + * confuse curses. + */ + /* US-ASCII vs Latin-1 is safe (usually) */ + if ((cset == US_ASCII + || cset == LATIN1) + && (linedrawing_char_set == US_ASCII + || linedrawing_char_set == LATIN1)) { +#if (defined(FANCY_CURSES) && defined(A_ALTCHARSET)) || defined(USE_SLANG) + vert_in = 0; + hori_in = 0; +#else + ; +#endif + } +#ifdef EXP_CHARTRANS_AUTOSWITCH +#if defined(NCURSES_VERSION) || defined(HAVE_TIGETSTR) + else { + static BOOL first = TRUE; + static int last_cset = -99; + static BOOL last_result = TRUE; + /* *INDENT-OFF* */ + static struct { + int mapping; + UCode_t internal; + int external; + } table[] = { + { 'j', 0x2518, 0 }, /* BOX DRAWINGS LIGHT UP AND LEFT */ + { 'k', 0x2510, 0 }, /* BOX DRAWINGS LIGHT DOWN AND LEFT */ + { 'l', 0x250c, 0 }, /* BOX DRAWINGS LIGHT DOWN AND RIGHT */ + { 'm', 0x2514, 0 }, /* BOX DRAWINGS LIGHT UP AND RIGHT */ + { 'n', 0x253c, 0 }, /* BOX DRAWINGS LIGHT VERTICAL AND HORIZONTAL */ + { 'q', 0x2500, 0 }, /* BOX DRAWINGS LIGHT HORIZONTAL */ + { 't', 0x251c, 0 }, /* BOX DRAWINGS LIGHT VERTICAL AND RIGHT */ + { 'u', 0x2524, 0 }, /* BOX DRAWINGS LIGHT VERTICAL AND LEFT */ + { 'v', 0x2534, 0 }, /* BOX DRAWINGS LIGHT UP AND HORIZONTAL */ + { 'w', 0x252c, 0 }, /* BOX DRAWINGS LIGHT DOWN AND HORIZONTAL */ + { 'x', 0x2502, 0 }, /* BOX DRAWINGS LIGHT VERTICAL */ + }; + /* *INDENT-ON* */ + + unsigned n; + + if (first) { + static char acsc_name[] = "acsc"; + char *map = tigetstr(acsc_name); + + if (map != 0) { + CTRACE((tfp, "build terminal line-drawing map\n")); + while (map[0] != 0 && map[1] != 0) { + for (n = 0; n < TABLESIZE(table); ++n) { + if (table[n].mapping == map[0]) { + table[n].external = UCH(map[1]); + CTRACE((tfp, + " map[%c] %#" PRI_UCode_t " -> %#x\n", + table[n].mapping, + table[n].internal, + table[n].external)); + break; + } + } + map += 2; + } + } + first = FALSE; + } + + if (cset == last_cset) { + fix_lines = last_result; + } else if (cset == UTF8_handle) { + last_result = FALSE; + last_cset = cset; + } else { + CTRACE((tfp, "check terminal line-drawing map\n")); + for (n = 0; n < TABLESIZE(table); ++n) { + int test = UCTransUniChar(table[n].internal, cset); + + if (test != table[n].external) { + CTRACE((tfp, + "line-drawing map %c mismatch (have %#x, want %#x)\n", + table[n].mapping, + test, table[n].external)); + fix_lines = TRUE; + break; + } + } + last_result = fix_lines; + last_cset = cset; + } + } +#else + else if (cset != linedrawing_char_set && linedrawing_char_set >= 0) { + fix_lines = TRUE; + } +#endif +#endif + } + if (fix_lines) { + if (!vert_in) + vert_in = '|'; + if (!hori_in) + hori_in = '-'; + } + *pvert_out = vert_in; + *phori_out = hori_in; +} + +/* + * Given an output target HTStream* (can also be a HTStructured* via + * typecast), the target stream's put_character method, and a Unicode + * character, CPutUtf8_charstring() will either output the UTF8 + * encoding of the Unicode and return YES, or do nothing and return + * NO (if conversion would be unnecessary or the Unicode character is + * considered invalid). + * + * [Could be used more generally, but is currently only used for &#nnnnn + * stuff - generation of UTF8 from 8-bit encoded charsets not yet done + * by SGML.c etc.] + */ +#define PUTC(ch) ((*myPutc)(target, (char)(ch))) +#define PUTC2(ch) ((*myPutc)(target,(char)(0x80|(0x3f &(ch))))) + +BOOL UCPutUtf8_charstring(HTStream *target, putc_func_t *myPutc, UCode_t code) +{ + if (code < 128) + return NO; /* indicate to caller we didn't handle it */ + else if (code < 0x800L) { + PUTC(0xc0 | (code >> 6)); + PUTC2(code); + } else if (code < 0x10000L) { + PUTC(0xe0 | (code >> 12)); + PUTC2(code >> 6); + PUTC2(code); + } else if (code < 0x200000L) { + PUTC(0xf0 | (code >> 18)); + PUTC2(code >> 12); + PUTC2(code >> 6); + PUTC2(code); + } else if (code < 0x4000000L) { + PUTC(0xf8 | (code >> 24)); + PUTC2(code >> 18); + PUTC2(code >> 12); + PUTC2(code >> 6); + PUTC2(code); + } else if (code <= 0x7fffffffL) { + PUTC(0xfc | (code >> 30)); + PUTC2(code >> 24); + PUTC2(code >> 18); + PUTC2(code >> 12); + PUTC2(code >> 6); + PUTC2(code); + } else + return NO; + return YES; +} + +/* + * This function converts a Unicode (UCode_t) value + * to a multibyte UTF-8 character, which is loaded + * into the buffer received as an argument. The + * buffer should be large enough to hold at least + * seven characters (but should be declared as 8 + * to minimize byte alignment problems with some + * compilers). - FM + */ +BOOL UCConvertUniToUtf8(UCode_t code, char *buffer) +{ + char *ch = buffer; + + if (!ch) + return NO; + + if (code <= 0 || code > 0x7fffffffL) { + *ch = '\0'; + return NO; + } + + if (code < 0x800L) { + *ch++ = (char) (0xc0 | (code >> 6)); + *ch++ = (char) (0x80 | (0x3f & (code))); + *ch = '\0'; + } else if (code < 0x10000L) { + *ch++ = (char) (0xe0 | (code >> 12)); + *ch++ = (char) (0x80 | (0x3f & (code >> 6))); + *ch++ = (char) (0x80 | (0x3f & (code))); + *ch = '\0'; + } else if (code < 0x200000L) { + *ch++ = (char) (0xf0 | (code >> 18)); + *ch++ = (char) (0x80 | (0x3f & (code >> 12))); + *ch++ = (char) (0x80 | (0x3f & (code >> 6))); + *ch++ = (char) (0x80 | (0x3f & (code))); + *ch = '\0'; + } else if (code < 0x4000000L) { + *ch++ = (char) (0xf8 | (code >> 24)); + *ch++ = (char) (0x80 | (0x3f & (code >> 18))); + *ch++ = (char) (0x80 | (0x3f & (code >> 12))); + *ch++ = (char) (0x80 | (0x3f & (code >> 6))); + *ch++ = (char) (0x80 | (0x3f & (code))); + *ch = '\0'; + } else { + *ch++ = (char) (0xfc | (code >> 30)); + *ch++ = (char) (0x80 | (0x3f & (code >> 24))); + *ch++ = (char) (0x80 | (0x3f & (code >> 18))); + *ch++ = (char) (0x80 | (0x3f & (code >> 12))); + *ch++ = (char) (0x80 | (0x3f & (code >> 6))); + *ch++ = (char) (0x80 | (0x3f & (code))); + *ch = '\0'; + } + return YES; +} + +/* + * Get UCS character code for one character from UTF-8 encoded string. + * + * On entry: + * *ppuni should point to beginning of UTF-8 encoding character + * On exit: + * *ppuni is advanced to point to the last byte of UTF-8 sequence, + * if there was a valid one; otherwise unchanged. + * returns the UCS value + * returns negative value on error (invalid UTF-8 sequence) + */ +UCode_t UCGetUniFromUtf8String(const char **ppuni) +{ + UCode_t uc_out = 0; + const char *p = *ppuni; + int utf_count, i; + + if (!(**ppuni & 0x80)) + return (UCode_t) **ppuni; /* ASCII range character */ + else if (!(**ppuni & 0x40)) + return (-1); /* not a valid UTF-8 start */ + if ((*p & 0xe0) == 0xc0) { + utf_count = 1; + } else if ((*p & 0xf0) == 0xe0) { + utf_count = 2; + } else if ((*p & 0xf8) == 0xf0) { + utf_count = 3; + } else if ((*p & 0xfc) == 0xf8) { + utf_count = 4; + } else if ((*p & 0xfe) == 0xfc) { + utf_count = 5; + } else { /* garbage */ + return (-1); + } + for (p = *ppuni, i = 0; i < utf_count; i++) { + if ((*(++p) & 0xc0) != 0x80) + return (-1); + } + p = *ppuni; + switch (utf_count) { + case 1: + uc_out = (((*p & 0x1f) << 6) | + (*(p + 1) & 0x3f)); + break; + case 2: + uc_out = (((((*p & 0x0f) << 6) | + (*(p + 1) & 0x3f)) << 6) | + (*(p + 2) & 0x3f)); + break; + case 3: + uc_out = (((((((*p & 0x07) << 6) | + (*(p + 1) & 0x3f)) << 6) | + (*(p + 2) & 0x3f)) << 6) | + (*(p + 3) & 0x3f)); + break; + case 4: + uc_out = (((((((((*p & 0x03) << 6) | + (*(p + 1) & 0x3f)) << 6) | + (*(p + 2) & 0x3f)) << 6) | + (*(p + 3) & 0x3f)) << 6) | + (*(p + 4) & 0x3f)); + break; + case 5: + uc_out = (((((((((((*p & 0x01) << 6) | + (*(p + 1) & 0x3f)) << 6) | + (*(p + 2) & 0x3f)) << 6) | + (*(p + 3) & 0x3f)) << 6) | + (*(p + 4) & 0x3f)) << 6) | + (*(p + 5) & 0x3f)); + break; + } + *ppuni = p + utf_count; + return uc_out; +} + +/* + * Combine UTF-8 into Unicode. Incomplete characters are either ignored, or + * returned as the UCS replacement character. + */ +dUTF8 HTDecodeUTF8(UTFDecodeState * me, int *c_in_out, UCode_t *result) +{ + dUTF8 rc = dUTF8_ok; + int c = *c_in_out; + unsigned uc = UCH(c); + + if (TOASCII(uc) > 127) { + /* + * continue a multibyte character... + */ + if (me->utf_count > 0 && (TOASCII(c) & 0xc0) == 0x80) { + if (me->utf_count <= 0) { + me->utf_char = UCS_REPL; + } else if (me->utf_count == 1) { + int limit = (int) (me->utf_buf_p - me->utf_buf) + 1; + int maybe = 0; + + /* + * Check for overlong sequences (from comment in xterm): + * 1100000x 10xxxxxx + * 11100000 100xxxxx 10xxxxxx + * 11110000 1000xxxx 10xxxxxx 10xxxxxx + * 11111000 10000xxx 10xxxxxx 10xxxxxx 10xxxxxx + * 11111100 100000xx 10xxxxxx 10xxxxxx 10xxxxxx 10xxxxxx + */ + switch (limit) { + case 2: + maybe = (UCH(me->utf_buf[0]) & 0xfe) == 0xc0; + break; + case 3: + maybe = ((UCH(me->utf_buf[0]) == 0xe0) && + (UCH(me->utf_buf[1]) & 0xf0) == 0x80); + break; + case 4: + maybe = ((UCH(me->utf_buf[0]) == 0xf0) && + (UCH(me->utf_buf[1]) & 0xf8) == 0x80); + break; + case 5: + maybe = ((UCH(me->utf_buf[0]) == 0xf8) && + (UCH(me->utf_buf[1]) & 0xfd) == 0x80); + break; + } + if (maybe) { + while (limit-- > 2) { + if ((UCH(me->utf_buf[limit]) & 0xc0) != 0x80) { + maybe = 0; + break; + } + } + if (maybe) { + me->utf_char = UCS_REPL; + } + } + } + if (me->utf_char == UCS_REPL) { + rc = dUTF8_err; + } else if (me->utf_char || ((uc & 0x7f) >> (7 - me->utf_count))) { + me->utf_char = (me->utf_char << 6) | (TOASCII(c) & 0x3f); + if ((me->utf_char >= 0xd800 && + me->utf_char <= 0xdfff) || + (me->utf_char == 0xfffe) || + (me->utf_char == UCS_HIDE)) { + me->utf_char = UCS_REPL; + rc = dUTF8_err; + } + } else { + me->utf_char = UCS_REPL; + rc = dUTF8_err; + } + me->utf_count--; + *(me->utf_buf_p) = (char) c; + (me->utf_buf_p)++; + + if (me->utf_count == 0) { + *(me->utf_buf_p) = '\0'; + *result = me->utf_char; + if (*result < 256) { + *c_in_out = UCH(*result & 0xff); + } + switch (*result) { + case 0x200e: /* left-to-right mark */ + case 0x200f: /* right-to-left mark */ + /* lynx does not use these */ + *result = '\0'; + break; + } + } else { + rc = dUTF8_more; + } + } else { + /* + * begin a multibyte character + */ + rc = dUTF8_more; + me->utf_buf_p = me->utf_buf; + *(me->utf_buf_p) = (char) c; + (me->utf_buf_p)++; + if ((uc & 0xe0) == 0xc0) { + me->utf_count = 1; + me->utf_char = (uc & 0x1f); + } else if ((uc & 0xf0) == 0xe0) { + me->utf_count = 2; + me->utf_char = (uc & 0x0f); + } else if ((uc & 0xf8) == 0xf0) { + me->utf_count = 3; + me->utf_char = (uc & 0x07); + } else if ((uc & 0xfc) == 0xf8) { + me->utf_count = 4; + me->utf_char = (uc & 0x03); + } else if ((uc & 0xfe) == 0xfc) { + me->utf_count = 5; + me->utf_char = (uc & 0x01); + } else { + me->utf_count = 0; + me->utf_buf_p = me->utf_buf; + *(me->utf_buf_p) = '\0'; + rc = dUTF8_err; + } + } + } else { + me->utf_count = 0; + me->utf_buf_p = me->utf_buf; + *(me->utf_buf_p) = '\0'; + } + +#if 0 + if (rc != dUTF8_ok) { + CTRACE((tfp, "UTF8 %#x ->%#x %s\n", + uc, UCH(*c_in_out), + (rc == dUTF8_err) ? "err" : "more")); + } else { + if (*result > 127) { + CTRACE((tfp, "UTF8 %#x == %#x\n", uc, (int) *result)); + } else if (c != UCS_REPL && !isspace(c)) { + CTRACE((tfp, "CHAR %#x == %c (%#x)\n", uc, uc, (int) *result)); + } + } +#endif + return rc; +} |