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<!doctype html><html><head>
<meta http-equiv="content-type" content="text/html;charset=utf-8"><title>Compare vim73/src/regexp.c vs vim74/src/regexp.c</title>
<style type="text/css">
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.inf {color:#C08000; font-size:85%;}
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</style></head><body>
<p>Compare <strong>vim73/src/regexp.c</strong> vs <strong>vim74/src/regexp.c</strong></p>
<table class="tab"><tr><td class="tth"><span class="hdr">vim73/src/regexp.c</span><br><span class="inf">176566 Tue, 13 Jul 2010 06:41:48 EST</span></td><td class="tth"><span class="hdr">vim74/src/regexp.c</span><br><span class="inf">198032 Fri, 02 Aug 2013 02:31:30 EST</span></td></tr><tr><td class="ttd"><span class="lin">Line 38 to 46</span><span class="nop"><span class="lno">38 </span> * Named character class support added by Walter Briscoe (1998 Jul 01)
<span class="lno">39 </span> */
<span class="lno">40 </span>
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">41 </span>#include "vim.h"
<span class="lno">42 </span>
</span><span class="upd"><span class="lno">43 </span>#<span class="chg">un</span>def DEBUG
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">44 </span>
<span class="lno">45 </span>/*
<span class="lno">46 </span> * The "internal use only" fields in regexp.h are present to pass info from
</span></td><td class="ttd"><span class="lin">Line 38 to 59</span><span class="nop"><span class="lno">38 </span> * Named character class support added by Walter Briscoe (1998 Jul 01)
<span class="lno">39 </span> */
<span class="lno">40 </span>
</span><span class="add"><span class="lno">41 </span>/* Uncomment the first if you do not want to see debugging logs or files
<span class="lno">42 </span> * related to regular expressions, even when compiling with -DDEBUG.
<span class="lno">43 </span> * Uncomment the second to get the regexp debugging. */
<span class="lno">44 </span>/* #undef DEBUG */
<span class="lno">45 </span>/* #define DEBUG */
<span class="lno">46 </span>
</span><span class="nop"><span class="lno">47 </span>#include "vim.h"
<span class="lno">48 </span>
</span><span class="upd"><span class="lno">49 </span>#<span class="chg">if</span>def DEBUG
</span><span class="add"><span class="lno">50 </span>/* show/save debugging data when BT engine is used */
<span class="lno">51 </span># define BT_REGEXP_DUMP
<span class="lno">52 </span>/* save the debugging data to a file instead of displaying it */
<span class="lno">53 </span># define BT_REGEXP_LOG
<span class="lno">54 </span># define BT_REGEXP_DEBUG_LOG
<span class="lno">55 </span># define BT_REGEXP_DEBUG_LOG_NAME "bt_regexp_debug.log"
<span class="lno">56 </span>#endif
</span><span class="nop"><span class="lno">57 </span>
<span class="lno">58 </span>/*
<span class="lno">59 </span> * The "internal use only" fields in regexp.h are present to pass info from
</span></td></tr>
<tr><td class="ttd"><span class="lin">Line 326 to 334</span><span class="nop"><span class="lno">326 </span>/* Used for an error (down from) vim_regcomp(): give the error message, set
<span class="lno">327 </span> * rc_did_emsg and return NULL */
<span class="lno">328 </span>#define EMSG_RET_NULL(m) return (EMSG(m), rc_did_emsg = TRUE, (void *)NULL)
</span><span class="del"><span class="lno">329 </span>#define EMSG_M_RET_NULL(m, c) return (EMSG2((m), (c) ? "" : "\\"), rc_did_emsg = TRUE, (void *)NULL)
</span><span class="nop"><span class="lno">330 </span>#define EMSG_RET_FAIL(m) return (EMSG(m), rc_did_emsg = TRUE, FAIL)
</span><span class="upd"><span class="lno">331 </span>#define EMSG_<span class="chg">ONE_</span>RET_NULL EMSG<span class="chg">_M_RET_NULL</span>(<span class="chg">_</span>(<span class="chg">"E369:</span> <span class="chg">invalid</span> <span class="chg">item</span> <span class="chg">in</span> <span class="chg">%s%%[]</span>"), re<span class="chg">g_</span>m<span class="chg">a</span>g<span class="chg">ic</span> =<span class="chg">=</span> <span class="chg">MAGIC_A</span>LL)
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">332 </span>
<span class="lno">333 </span>#define MAX_LIMIT (32767L << 16L)
<span class="lno">334 </span>
</span></td><td class="ttd"><span class="lin">Line 339 to 348</span><span class="nop"><span class="lno">339 </span>/* Used for an error (down from) vim_regcomp(): give the error message, set
<span class="lno">340 </span> * rc_did_emsg and return NULL */
<span class="lno">341 </span>#define EMSG_RET_NULL(m) return (EMSG(m), rc_did_emsg = TRUE, (void *)NULL)
</span><span class="nop"><span class="lno"> </span>
</span><span class="nop"><span class="lno">342 </span>#define EMSG_RET_FAIL(m) return (EMSG(m), rc_did_emsg = TRUE, FAIL)
</span><span class="upd"><span class="lno">343 </span>#define EMSG<span class="chg">2</span>_RET_NULL<span class="chg">(m,</span> <span class="chg">c) return (</span>EMSG<span class="chg">2(</span>(<span class="chg">m), </span>(<span class="chg">c)</span> <span class="chg">?</span> <span class="chg">""</span> <span class="chg">:</span> <span class="chg">"\\</span>"), r<span class="chg">c_did_</span>em<span class="chg">s</span>g = <span class="chg">TRUE, (void *)NU</span>LL)
</span><span class="add"><span class="lno">344 </span>#define EMSG2_RET_FAIL(m, c) return (EMSG2((m), (c) ? "" : "\\"), rc_did_emsg = TRUE, FAIL)
<span class="lno">345 </span>#define EMSG_ONE_RET_NULL EMSG2_RET_NULL(_("E369: invalid item in %s%%[]"), reg_magic == MAGIC_ALL)
</span><span class="nop"><span class="lno">346 </span>
<span class="lno">347 </span>#define MAX_LIMIT (32767L << 16L)
<span class="lno">348 </span>
</span></td></tr>
<tr><td class="ttd"><span class="lin">Line 336 to 346</span><span class="nop"><span class="lno">336 </span>static int cstrncmp __ARGS((char_u *s1, char_u *s2, int *n));
<span class="lno">337 </span>static char_u *cstrchr __ARGS((char_u *, int));
<span class="lno">338 </span>
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">339 </span>#ifdef DEBUG
</span><span class="del"><span class="lno">340 </span>static void regdump __ARGS((char_u *, regprog_T *));
</span><span class="nop"><span class="lno">341 </span>static char_u *regprop __ARGS((char_u *));
<span class="lno">342 </span>#endif
<span class="lno">343 </span>
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">344 </span>#define NOT_MULTI 0
<span class="lno">345 </span>#define MULTI_ONE 1
<span class="lno">346 </span>#define MULTI_MULT 2
</span></td><td class="ttd"><span class="lin">Line 350 to 372</span><span class="nop"><span class="lno">350 </span>static int cstrncmp __ARGS((char_u *s1, char_u *s2, int *n));
<span class="lno">351 </span>static char_u *cstrchr __ARGS((char_u *, int));
<span class="lno">352 </span>
</span><span class="add"><span class="lno">353 </span>#ifdef BT_REGEXP_DUMP
<span class="lno">354 </span>static void regdump __ARGS((char_u *, bt_regprog_T *));
<span class="lno">355 </span>#endif
</span><span class="nop"><span class="lno">356 </span>#ifdef DEBUG
</span><span class="nop"><span class="lno"> </span>
</span><span class="nop"><span class="lno">357 </span>static char_u *regprop __ARGS((char_u *));
<span class="lno">358 </span>#endif
<span class="lno">359 </span>
</span><span class="add"><span class="lno">360 </span>static char_u e_missingbracket[] = N_("E769: Missing ] after %s[");
<span class="lno">361 </span>static char_u e_unmatchedpp[] = N_("E53: Unmatched %s%%(");
<span class="lno">362 </span>static char_u e_unmatchedp[] = N_("E54: Unmatched %s(");
<span class="lno">363 </span>static char_u e_unmatchedpar[] = N_("E55: Unmatched %s)");
<span class="lno">364 </span>#ifdef FEAT_SYN_HL
<span class="lno">365 </span>static char_u e_z_not_allowed[] = N_("E66: \\z( not allowed here");
<span class="lno">366 </span>static char_u e_z1_not_allowed[] = N_("E67: \\z1 et al. not allowed here");
<span class="lno">367 </span>#endif
<span class="lno">368 </span>static char_u e_missing_sb[] = N_("E69: Missing ] after %s%%[");
<span class="lno">369 </span>static char_u e_empty_sb[] = N_("E70: Empty %s%%[]");
</span><span class="nop"><span class="lno">370 </span>#define NOT_MULTI 0
<span class="lno">371 </span>#define MULTI_ONE 1
<span class="lno">372 </span>#define MULTI_MULT 2
</span></td></tr>
<tr><td class="ttd"><span class="lin">Line 630 to 636</span><span class="nop"><span class="lno">630 </span>};
<span class="lno">631 </span>#endif
<span class="lno">632 </span>
</span><span class="upd"><span class="lno">633 </span>static int curchr;
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">634 </span>
<span class="lno">635 </span>/* arguments for reg() */
<span class="lno">636 </span>#define REG_NOPAREN 0 /* toplevel reg() */
</span></td><td class="ttd"><span class="lin">Line 656 to 668</span><span class="nop"><span class="lno">656 </span>};
<span class="lno">657 </span>#endif
<span class="lno">658 </span>
</span><span class="upd"><span class="lno">659 </span>static int curchr;<span class="chg"> /* currently parsed character */</span>
</span><span class="add"><span class="lno">660 </span>/* Previous character. Note: prevchr is sometimes -1 when we are not at the
<span class="lno">661 </span> * start, eg in /[ ^I]^ the pattern was never found even if it existed,
<span class="lno">662 </span> * because ^ was taken to be magic -- webb */
<span class="lno">663 </span>static int prevchr;
<span class="lno">664 </span>static int prevprevchr; /* previous-previous character */
<span class="lno">665 </span>static int nextchr; /* used for ungetchr() */
</span><span class="nop"><span class="lno">666 </span>
<span class="lno">667 </span>/* arguments for reg() */
<span class="lno">668 </span>#define REG_NOPAREN 0 /* toplevel reg() */
</span></td></tr>
<tr><td class="ttd"><span class="lin">Line 638 to 647</span><span class="nop"><span class="lno">638 </span>#define REG_ZPAREN 2 /* \z(\) */
<span class="lno">639 </span>#define REG_NPAREN 3 /* \%(\) */
<span class="lno">640 </span>
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">641 </span>/*
<span class="lno">642 </span> * Forward declarations for vim_regcomp()'s friends.
<span class="lno">643 </span> */
</span><span class="nop"><span class="lno">644 </span>static void initchr __ARGS((char_u *));
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">645 </span>static int getchr __ARGS((void));
<span class="lno">646 </span>static void skipchr_keepstart __ARGS((void));
<span class="lno">647 </span>static int peekchr __ARGS((void));
</span></td><td class="ttd"><span class="lin">Line 670 to 694</span><span class="nop"><span class="lno">670 </span>#define REG_ZPAREN 2 /* \z(\) */
<span class="lno">671 </span>#define REG_NPAREN 3 /* \%(\) */
<span class="lno">672 </span>
</span><span class="add"><span class="lno">673 </span>typedef struct
<span class="lno">674 </span>{
<span class="lno">675 </span> char_u *regparse;
<span class="lno">676 </span> int prevchr_len;
<span class="lno">677 </span> int curchr;
<span class="lno">678 </span> int prevchr;
<span class="lno">679 </span> int prevprevchr;
<span class="lno">680 </span> int nextchr;
<span class="lno">681 </span> int at_start;
<span class="lno">682 </span> int prev_at_start;
<span class="lno">683 </span> int regnpar;
<span class="lno">684 </span>} parse_state_T;
<span class="lno">685 </span>
</span><span class="nop"><span class="lno">686 </span>/*
<span class="lno">687 </span> * Forward declarations for vim_regcomp()'s friends.
<span class="lno">688 </span> */
</span><span class="nop"><span class="lno">689 </span>static void initchr __ARGS((char_u *));
</span><span class="add"><span class="lno">690 </span>static void save_parse_state __ARGS((parse_state_T *ps));
<span class="lno">691 </span>static void restore_parse_state __ARGS((parse_state_T *ps));
</span><span class="nop"><span class="lno">692 </span>static int getchr __ARGS((void));
<span class="lno">693 </span>static void skipchr_keepstart __ARGS((void));
<span class="lno">694 </span>static int peekchr __ARGS((void));
</span></td></tr>
<tr><td class="ttd"><span class="lin">Line 666 to 680</span><span class="nop"><span class="lno">666 </span>static void regc __ARGS((int b));
<span class="lno">667 </span>#ifdef FEAT_MBYTE
<span class="lno">668 </span>static void regmbc __ARGS((int c));
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">669 </span>#else
<span class="lno">670 </span># define regmbc(c) regc(c)
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">671 </span>#endif
<span class="lno">672 </span>static void reginsert __ARGS((int, char_u *));
</span><span class="nop"><span class="lno"> </span>
</span><span class="nop"><span class="lno">673 </span>static void reginsert_limits __ARGS((int, long, long, char_u *));
<span class="lno">674 </span>static char_u *re_put_long __ARGS((char_u *pr, long_u val));
<span class="lno">675 </span>static int read_limits __ARGS((long *, long *));
</span><span class="nop"><span class="lno">676 </span>static void regtail __ARGS((char_u *, char_u *));
<span class="lno">677 </span>static void regoptail __ARGS((char_u *, char_u *));
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">678 </span>
<span class="lno">679 </span>/*
<span class="lno">680 </span> * Return TRUE if compiled regular expression "prog" can match a line break.
</span></td><td class="ttd"><span class="lin">Line 713 to 735</span><span class="nop"><span class="lno">713 </span>static void regc __ARGS((int b));
<span class="lno">714 </span>#ifdef FEAT_MBYTE
<span class="lno">715 </span>static void regmbc __ARGS((int c));
</span><span class="add"><span class="lno">716 </span># define REGMBC(x) regmbc(x);
<span class="lno">717 </span># define CASEMBC(x) case x:
</span><span class="nop"><span class="lno">718 </span>#else
<span class="lno">719 </span># define regmbc(c) regc(c)
</span><span class="add"><span class="lno">720 </span># define REGMBC(x)
<span class="lno">721 </span># define CASEMBC(x)
</span><span class="nop"><span class="lno">722 </span>#endif
<span class="lno">723 </span>static void reginsert __ARGS((int, char_u *));
</span><span class="add"><span class="lno">724 </span>static void reginsert_nr __ARGS((int op, long val, char_u *opnd));
</span><span class="nop"><span class="lno">725 </span>static void reginsert_limits __ARGS((int, long, long, char_u *));
<span class="lno">726 </span>static char_u *re_put_long __ARGS((char_u *pr, long_u val));
<span class="lno">727 </span>static int read_limits __ARGS((long *, long *));
</span><span class="nop"><span class="lno">728 </span>static void regtail __ARGS((char_u *, char_u *));
<span class="lno">729 </span>static void regoptail __ARGS((char_u *, char_u *));
</span><span class="add"><span class="lno">730 </span>
<span class="lno">731 </span>static regengine_T bt_regengine;
<span class="lno">732 </span>static regengine_T nfa_regengine;
</span><span class="nop"><span class="lno">733 </span>
<span class="lno">734 </span>/*
<span class="lno">735 </span> * Return TRUE if compiled regular expression "prog" can match a line break.
</span></td></tr>
<tr><td class="ttd"><span class="lin">Line 758 to 763</span><span class="nop"><span class="lno">758 </span>/*
<span class="lno">759 </span> * Produce the bytes for equivalence class "c".
<span class="lno">760 </span> * Currently only handles latin1, latin9 and utf-8.
</span><span class="nop"><span class="lno"> </span>
</span><span class="nop"><span class="lno">761 </span> */
<span class="lno">762 </span> static void
<span class="lno">763 </span>reg_equi_class(c)
</span></td><td class="ttd"><span class="lin">Line 813 to 819</span><span class="nop"><span class="lno">813 </span>/*
<span class="lno">814 </span> * Produce the bytes for equivalence class "c".
<span class="lno">815 </span> * Currently only handles latin1, latin9 and utf-8.
</span><span class="add"><span class="lno">816 </span> * NOTE: When changing this function, also change nfa_emit_equi_class()
</span><span class="nop"><span class="lno">817 </span> */
<span class="lno">818 </span> static void
<span class="lno">819 </span>reg_equi_class(c)
</span></td></tr>
<tr><td class="ttd"><span class="lin">Line 787 to 854</span><span class="nop"><span class="lno">787 </span> switch (c)
<span class="lno">788 </span> {
<span class="lno">789 </span> case 'A': case '\300': case '\301': case '\302':
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">790 </span> case '\303': case '\304': case '\305':
<span class="lno">791 </span> regmbc('A'); regmbc('\300'); regmbc('\301');
<span class="lno">792 </span> regmbc('\302'); regmbc('\303'); regmbc('\304');
</span><span class="nop"><span class="lno">793 </span> regmbc('\305');
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">794 </span> return;
<span class="lno">795 </span> case 'C': case '\307':
</span><span class="nop"><span class="lno"> </span>
</span><span class="nop"><span class="lno">796 </span> regmbc('C'); regmbc('\307');
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">797 </span> return;
<span class="lno">798 </span> case 'E': case '\310': case '\311': case '\312': case '\313':
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">799 </span> regmbc('E'); regmbc('\310'); regmbc('\311');
<span class="lno">800 </span> regmbc('\312'); regmbc('\313');
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">801 </span> return;
<span class="lno">802 </span> case 'I': case '\314': case '\315': case '\316': case '\317':
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">803 </span> regmbc('I'); regmbc('\314'); regmbc('\315');
<span class="lno">804 </span> regmbc('\316'); regmbc('\317');
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">805 </span> return;
<span class="lno">806 </span> case 'N': case '\321':
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">807 </span> regmbc('N'); regmbc('\321');
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">808 </span> return;
<span class="lno">809 </span> case 'O': case '\322': case '\323': case '\324': case '\325':
</span><span class="upd"><span class="lno">810 </span> case '\326':
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">811 </span> regmbc('O'); regmbc('\322'); regmbc('\323');
<span class="lno">812 </span> regmbc('\324'); regmbc('\325'); regmbc('\326');
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">813 </span> return;
<span class="lno">814 </span> case 'U': case '\331': case '\332': case '\333': case '\334':
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">815 </span> regmbc('U'); regmbc('\331'); regmbc('\332');
<span class="lno">816 </span> regmbc('\333'); regmbc('\334');
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">817 </span> return;
<span class="lno">818 </span> case 'Y': case '\335':
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">819 </span> regmbc('Y'); regmbc('\335');
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">820 </span> return;
<span class="lno">821 </span> case 'a': case '\340': case '\341': case '\342':
<span class="lno">822 </span> case '\343': case '\344': case '\345':
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">823 </span> regmbc('a'); regmbc('\340'); regmbc('\341');
<span class="lno">824 </span> regmbc('\342'); regmbc('\343'); regmbc('\344');
<span class="lno">825 </span> regmbc('\345');
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">826 </span> return;
<span class="lno">827 </span> case 'c': case '\347':
</span><span class="nop"><span class="lno"> </span>
</span><span class="nop"><span class="lno">828 </span> regmbc('c'); regmbc('\347');
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">829 </span> return;
<span class="lno">830 </span> case 'e': case '\350': case '\351': case '\352': case '\353':
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">831 </span> regmbc('e'); regmbc('\350'); regmbc('\351');
<span class="lno">832 </span> regmbc('\352'); regmbc('\353');
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">833 </span> return;
<span class="lno">834 </span> case 'i': case '\354': case '\355': case '\356': case '\357':
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">835 </span> regmbc('i'); regmbc('\354'); regmbc('\355');
<span class="lno">836 </span> regmbc('\356'); regmbc('\357');
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">837 </span> return;
<span class="lno">838 </span> case 'n': case '\361':
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">839 </span> regmbc('n'); regmbc('\361');
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">840 </span> return;
<span class="lno">841 </span> case 'o': case '\362': case '\363': case '\364': case '\365':
</span><span class="upd"><span class="lno">842 </span> case '\366':
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">843 </span> regmbc('o'); regmbc('\362'); regmbc('\363');
<span class="lno">844 </span> regmbc('\364'); regmbc('\365'); regmbc('\366');
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">845 </span> return;
<span class="lno">846 </span> case 'u': case '\371': case '\372': case '\373': case '\374':
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">847 </span> regmbc('u'); regmbc('\371'); regmbc('\372');
<span class="lno">848 </span> regmbc('\373'); regmbc('\374');
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">849 </span> return;
<span class="lno">850 </span> case 'y': case '\375': case '\377':
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">851 </span> regmbc('y'); regmbc('\375'); regmbc('\377');
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">852 </span> return;
<span class="lno">853 </span> }
<span class="lno">854 </span>#endif
</span></td><td class="ttd"><span class="lin">Line 843 to 1137</span><span class="nop"><span class="lno">843 </span> switch (c)
<span class="lno">844 </span> {
<span class="lno">845 </span> case 'A': case '\300': case '\301': case '\302':
</span><span class="add"><span class="lno">846 </span> CASEMBC(0x100) CASEMBC(0x102) CASEMBC(0x104) CASEMBC(0x1cd)
<span class="lno">847 </span> CASEMBC(0x1de) CASEMBC(0x1e0) CASEMBC(0x1ea2)
</span><span class="nop"><span class="lno">848 </span> case '\303': case '\304': case '\305':
<span class="lno">849 </span> regmbc('A'); regmbc('\300'); regmbc('\301');
<span class="lno">850 </span> regmbc('\302'); regmbc('\303'); regmbc('\304');
</span><span class="nop"><span class="lno">851 </span> regmbc('\305');
</span><span class="add"><span class="lno">852 </span> REGMBC(0x100) REGMBC(0x102) REGMBC(0x104)
<span class="lno">853 </span> REGMBC(0x1cd) REGMBC(0x1de) REGMBC(0x1e0)
<span class="lno">854 </span> REGMBC(0x1ea2)
<span class="lno">855 </span> return;
<span class="lno">856 </span> case 'B': CASEMBC(0x1e02) CASEMBC(0x1e06)
<span class="lno">857 </span> regmbc('B'); REGMBC(0x1e02) REGMBC(0x1e06)
</span><span class="nop"><span class="lno">858 </span> return;
<span class="lno">859 </span> case 'C': case '\307':
</span><span class="add"><span class="lno">860 </span> CASEMBC(0x106) CASEMBC(0x108) CASEMBC(0x10a) CASEMBC(0x10c)
</span><span class="nop"><span class="lno">861 </span> regmbc('C'); regmbc('\307');
</span><span class="add"><span class="lno">862 </span> REGMBC(0x106) REGMBC(0x108) REGMBC(0x10a)
<span class="lno">863 </span> REGMBC(0x10c)
<span class="lno">864 </span> return;
<span class="lno">865 </span> case 'D': CASEMBC(0x10e) CASEMBC(0x110) CASEMBC(0x1e0a)
<span class="lno">866 </span> CASEMBC(0x1e0e) CASEMBC(0x1e10)
<span class="lno">867 </span> regmbc('D'); REGMBC(0x10e) REGMBC(0x110)
<span class="lno">868 </span> REGMBC(0x1e0a) REGMBC(0x1e0e) REGMBC(0x1e10)
</span><span class="nop"><span class="lno">869 </span> return;
<span class="lno">870 </span> case 'E': case '\310': case '\311': case '\312': case '\313':
</span><span class="add"><span class="lno">871 </span> CASEMBC(0x112) CASEMBC(0x114) CASEMBC(0x116) CASEMBC(0x118)
<span class="lno">872 </span> CASEMBC(0x11a) CASEMBC(0x1eba) CASEMBC(0x1ebc)
</span><span class="nop"><span class="lno">873 </span> regmbc('E'); regmbc('\310'); regmbc('\311');
<span class="lno">874 </span> regmbc('\312'); regmbc('\313');
</span><span class="add"><span class="lno">875 </span> REGMBC(0x112) REGMBC(0x114) REGMBC(0x116)
<span class="lno">876 </span> REGMBC(0x118) REGMBC(0x11a) REGMBC(0x1eba)
<span class="lno">877 </span> REGMBC(0x1ebc)
<span class="lno">878 </span> return;
<span class="lno">879 </span> case 'F': CASEMBC(0x1e1e)
<span class="lno">880 </span> regmbc('F'); REGMBC(0x1e1e)
<span class="lno">881 </span> return;
<span class="lno">882 </span> case 'G': CASEMBC(0x11c) CASEMBC(0x11e) CASEMBC(0x120)
<span class="lno">883 </span> CASEMBC(0x122) CASEMBC(0x1e4) CASEMBC(0x1e6) CASEMBC(0x1f4)
<span class="lno">884 </span> CASEMBC(0x1e20)
<span class="lno">885 </span> regmbc('G'); REGMBC(0x11c) REGMBC(0x11e)
<span class="lno">886 </span> REGMBC(0x120) REGMBC(0x122) REGMBC(0x1e4)
<span class="lno">887 </span> REGMBC(0x1e6) REGMBC(0x1f4) REGMBC(0x1e20)
<span class="lno">888 </span> return;
<span class="lno">889 </span> case 'H': CASEMBC(0x124) CASEMBC(0x126) CASEMBC(0x1e22)
<span class="lno">890 </span> CASEMBC(0x1e26) CASEMBC(0x1e28)
<span class="lno">891 </span> regmbc('H'); REGMBC(0x124) REGMBC(0x126)
<span class="lno">892 </span> REGMBC(0x1e22) REGMBC(0x1e26) REGMBC(0x1e28)
</span><span class="nop"><span class="lno">893 </span> return;
<span class="lno">894 </span> case 'I': case '\314': case '\315': case '\316': case '\317':
</span><span class="add"><span class="lno">895 </span> CASEMBC(0x128) CASEMBC(0x12a) CASEMBC(0x12c) CASEMBC(0x12e)
<span class="lno">896 </span> CASEMBC(0x130) CASEMBC(0x1cf) CASEMBC(0x1ec8)
</span><span class="nop"><span class="lno">897 </span> regmbc('I'); regmbc('\314'); regmbc('\315');
<span class="lno">898 </span> regmbc('\316'); regmbc('\317');
</span><span class="add"><span class="lno">899 </span> REGMBC(0x128) REGMBC(0x12a) REGMBC(0x12c)
<span class="lno">900 </span> REGMBC(0x12e) REGMBC(0x130) REGMBC(0x1cf)
<span class="lno">901 </span> REGMBC(0x1ec8)
<span class="lno">902 </span> return;
<span class="lno">903 </span> case 'J': CASEMBC(0x134)
<span class="lno">904 </span> regmbc('J'); REGMBC(0x134)
<span class="lno">905 </span> return;
<span class="lno">906 </span> case 'K': CASEMBC(0x136) CASEMBC(0x1e8) CASEMBC(0x1e30)
<span class="lno">907 </span> CASEMBC(0x1e34)
<span class="lno">908 </span> regmbc('K'); REGMBC(0x136) REGMBC(0x1e8)
<span class="lno">909 </span> REGMBC(0x1e30) REGMBC(0x1e34)
<span class="lno">910 </span> return;
<span class="lno">911 </span> case 'L': CASEMBC(0x139) CASEMBC(0x13b) CASEMBC(0x13d)
<span class="lno">912 </span> CASEMBC(0x13f) CASEMBC(0x141) CASEMBC(0x1e3a)
<span class="lno">913 </span> regmbc('L'); REGMBC(0x139) REGMBC(0x13b)
<span class="lno">914 </span> REGMBC(0x13d) REGMBC(0x13f) REGMBC(0x141)
<span class="lno">915 </span> REGMBC(0x1e3a)
<span class="lno">916 </span> return;
<span class="lno">917 </span> case 'M': CASEMBC(0x1e3e) CASEMBC(0x1e40)
<span class="lno">918 </span> regmbc('M'); REGMBC(0x1e3e) REGMBC(0x1e40)
</span><span class="nop"><span class="lno">919 </span> return;
<span class="lno">920 </span> case 'N': case '\321':
</span><span class="add"><span class="lno">921 </span> CASEMBC(0x143) CASEMBC(0x145) CASEMBC(0x147) CASEMBC(0x1e44)
<span class="lno">922 </span> CASEMBC(0x1e48)
</span><span class="nop"><span class="lno">923 </span> regmbc('N'); regmbc('\321');
</span><span class="add"><span class="lno">924 </span> REGMBC(0x143) REGMBC(0x145) REGMBC(0x147)
<span class="lno">925 </span> REGMBC(0x1e44) REGMBC(0x1e48)
</span><span class="nop"><span class="lno">926 </span> return;
<span class="lno">927 </span> case 'O': case '\322': case '\323': case '\324': case '\325':
</span><span class="upd"><span class="lno">928 </span> case '\326':<span class="chg"> case '\330':</span>
</span><span class="add"><span class="lno">929 </span> CASEMBC(0x14c) CASEMBC(0x14e) CASEMBC(0x150) CASEMBC(0x1a0)
<span class="lno">930 </span> CASEMBC(0x1d1) CASEMBC(0x1ea) CASEMBC(0x1ec) CASEMBC(0x1ece)
</span><span class="nop"><span class="lno">931 </span> regmbc('O'); regmbc('\322'); regmbc('\323');
<span class="lno">932 </span> regmbc('\324'); regmbc('\325'); regmbc('\326');
</span><span class="add"><span class="lno">933 </span> regmbc('\330');
<span class="lno">934 </span> REGMBC(0x14c) REGMBC(0x14e) REGMBC(0x150)
<span class="lno">935 </span> REGMBC(0x1a0) REGMBC(0x1d1) REGMBC(0x1ea)
<span class="lno">936 </span> REGMBC(0x1ec) REGMBC(0x1ece)
<span class="lno">937 </span> return;
<span class="lno">938 </span> case 'P': case 0x1e54: case 0x1e56:
<span class="lno">939 </span> regmbc('P'); REGMBC(0x1e54) REGMBC(0x1e56)
<span class="lno">940 </span> return;
<span class="lno">941 </span> case 'R': CASEMBC(0x154) CASEMBC(0x156) CASEMBC(0x158)
<span class="lno">942 </span> CASEMBC(0x1e58) CASEMBC(0x1e5e)
<span class="lno">943 </span> regmbc('R'); REGMBC(0x154) REGMBC(0x156) REGMBC(0x158)
<span class="lno">944 </span> REGMBC(0x1e58) REGMBC(0x1e5e)
<span class="lno">945 </span> return;
<span class="lno">946 </span> case 'S': CASEMBC(0x15a) CASEMBC(0x15c) CASEMBC(0x15e)
<span class="lno">947 </span> CASEMBC(0x160) CASEMBC(0x1e60)
<span class="lno">948 </span> regmbc('S'); REGMBC(0x15a) REGMBC(0x15c)
<span class="lno">949 </span> REGMBC(0x15e) REGMBC(0x160) REGMBC(0x1e60)
<span class="lno">950 </span> return;
<span class="lno">951 </span> case 'T': CASEMBC(0x162) CASEMBC(0x164) CASEMBC(0x166)
<span class="lno">952 </span> CASEMBC(0x1e6a) CASEMBC(0x1e6e)
<span class="lno">953 </span> regmbc('T'); REGMBC(0x162) REGMBC(0x164)
<span class="lno">954 </span> REGMBC(0x166) REGMBC(0x1e6a) REGMBC(0x1e6e)
</span><span class="nop"><span class="lno">955 </span> return;
<span class="lno">956 </span> case 'U': case '\331': case '\332': case '\333': case '\334':
</span><span class="add"><span class="lno">957 </span> CASEMBC(0x168) CASEMBC(0x16a) CASEMBC(0x16c) CASEMBC(0x16e)
<span class="lno">958 </span> CASEMBC(0x170) CASEMBC(0x172) CASEMBC(0x1af) CASEMBC(0x1d3)
<span class="lno">959 </span> CASEMBC(0x1ee6)
</span><span class="nop"><span class="lno">960 </span> regmbc('U'); regmbc('\331'); regmbc('\332');
<span class="lno">961 </span> regmbc('\333'); regmbc('\334');
</span><span class="add"><span class="lno">962 </span> REGMBC(0x168) REGMBC(0x16a) REGMBC(0x16c)
<span class="lno">963 </span> REGMBC(0x16e) REGMBC(0x170) REGMBC(0x172)
<span class="lno">964 </span> REGMBC(0x1af) REGMBC(0x1d3) REGMBC(0x1ee6)
<span class="lno">965 </span> return;
<span class="lno">966 </span> case 'V': CASEMBC(0x1e7c)
<span class="lno">967 </span> regmbc('V'); REGMBC(0x1e7c)
<span class="lno">968 </span> return;
<span class="lno">969 </span> case 'W': CASEMBC(0x174) CASEMBC(0x1e80) CASEMBC(0x1e82)
<span class="lno">970 </span> CASEMBC(0x1e84) CASEMBC(0x1e86)
<span class="lno">971 </span> regmbc('W'); REGMBC(0x174) REGMBC(0x1e80)
<span class="lno">972 </span> REGMBC(0x1e82) REGMBC(0x1e84) REGMBC(0x1e86)
<span class="lno">973 </span> return;
<span class="lno">974 </span> case 'X': CASEMBC(0x1e8a) CASEMBC(0x1e8c)
<span class="lno">975 </span> regmbc('X'); REGMBC(0x1e8a) REGMBC(0x1e8c)
</span><span class="nop"><span class="lno">976 </span> return;
<span class="lno">977 </span> case 'Y': case '\335':
</span><span class="add"><span class="lno">978 </span> CASEMBC(0x176) CASEMBC(0x178) CASEMBC(0x1e8e) CASEMBC(0x1ef2)
<span class="lno">979 </span> CASEMBC(0x1ef6) CASEMBC(0x1ef8)
</span><span class="nop"><span class="lno">980 </span> regmbc('Y'); regmbc('\335');
</span><span class="add"><span class="lno">981 </span> REGMBC(0x176) REGMBC(0x178) REGMBC(0x1e8e)
<span class="lno">982 </span> REGMBC(0x1ef2) REGMBC(0x1ef6) REGMBC(0x1ef8)
<span class="lno">983 </span> return;
<span class="lno">984 </span> case 'Z': CASEMBC(0x179) CASEMBC(0x17b) CASEMBC(0x17d)
<span class="lno">985 </span> CASEMBC(0x1b5) CASEMBC(0x1e90) CASEMBC(0x1e94)
<span class="lno">986 </span> regmbc('Z'); REGMBC(0x179) REGMBC(0x17b)
<span class="lno">987 </span> REGMBC(0x17d) REGMBC(0x1b5) REGMBC(0x1e90)
<span class="lno">988 </span> REGMBC(0x1e94)
</span><span class="nop"><span class="lno">989 </span> return;
<span class="lno">990 </span> case 'a': case '\340': case '\341': case '\342':
<span class="lno">991 </span> case '\343': case '\344': case '\345':
</span><span class="add"><span class="lno">992 </span> CASEMBC(0x101) CASEMBC(0x103) CASEMBC(0x105) CASEMBC(0x1ce)
<span class="lno">993 </span> CASEMBC(0x1df) CASEMBC(0x1e1) CASEMBC(0x1ea3)
</span><span class="nop"><span class="lno">994 </span> regmbc('a'); regmbc('\340'); regmbc('\341');
<span class="lno">995 </span> regmbc('\342'); regmbc('\343'); regmbc('\344');
<span class="lno">996 </span> regmbc('\345');
</span><span class="add"><span class="lno">997 </span> REGMBC(0x101) REGMBC(0x103) REGMBC(0x105)
<span class="lno">998 </span> REGMBC(0x1ce) REGMBC(0x1df) REGMBC(0x1e1)
<span class="lno">999 </span> REGMBC(0x1ea3)
<span class="lno">1000 </span> return;
<span class="lno">1001 </span> case 'b': CASEMBC(0x1e03) CASEMBC(0x1e07)
<span class="lno">1002 </span> regmbc('b'); REGMBC(0x1e03) REGMBC(0x1e07)
</span><span class="nop"><span class="lno">1003 </span> return;
<span class="lno">1004 </span> case 'c': case '\347':
</span><span class="add"><span class="lno">1005 </span> CASEMBC(0x107) CASEMBC(0x109) CASEMBC(0x10b) CASEMBC(0x10d)
</span><span class="nop"><span class="lno">1006 </span> regmbc('c'); regmbc('\347');
</span><span class="add"><span class="lno">1007 </span> REGMBC(0x107) REGMBC(0x109) REGMBC(0x10b)
<span class="lno">1008 </span> REGMBC(0x10d)
<span class="lno">1009 </span> return;
<span class="lno">1010 </span> case 'd': CASEMBC(0x10f) CASEMBC(0x111) CASEMBC(0x1d0b)
<span class="lno">1011 </span> CASEMBC(0x1e11)
<span class="lno">1012 </span> regmbc('d'); REGMBC(0x10f) REGMBC(0x111)
<span class="lno">1013 </span> REGMBC(0x1e0b) REGMBC(0x01e0f) REGMBC(0x1e11)
</span><span class="nop"><span class="lno">1014 </span> return;
<span class="lno">1015 </span> case 'e': case '\350': case '\351': case '\352': case '\353':
</span><span class="add"><span class="lno">1016 </span> CASEMBC(0x113) CASEMBC(0x115) CASEMBC(0x117) CASEMBC(0x119)
<span class="lno">1017 </span> CASEMBC(0x11b) CASEMBC(0x1ebb) CASEMBC(0x1ebd)
</span><span class="nop"><span class="lno">1018 </span> regmbc('e'); regmbc('\350'); regmbc('\351');
<span class="lno">1019 </span> regmbc('\352'); regmbc('\353');
</span><span class="add"><span class="lno">1020 </span> REGMBC(0x113) REGMBC(0x115) REGMBC(0x117)
<span class="lno">1021 </span> REGMBC(0x119) REGMBC(0x11b) REGMBC(0x1ebb)
<span class="lno">1022 </span> REGMBC(0x1ebd)
<span class="lno">1023 </span> return;
<span class="lno">1024 </span> case 'f': CASEMBC(0x1e1f)
<span class="lno">1025 </span> regmbc('f'); REGMBC(0x1e1f)
<span class="lno">1026 </span> return;
<span class="lno">1027 </span> case 'g': CASEMBC(0x11d) CASEMBC(0x11f) CASEMBC(0x121)
<span class="lno">1028 </span> CASEMBC(0x123) CASEMBC(0x1e5) CASEMBC(0x1e7) CASEMBC(0x1f5)
<span class="lno">1029 </span> CASEMBC(0x1e21)
<span class="lno">1030 </span> regmbc('g'); REGMBC(0x11d) REGMBC(0x11f)
<span class="lno">1031 </span> REGMBC(0x121) REGMBC(0x123) REGMBC(0x1e5)
<span class="lno">1032 </span> REGMBC(0x1e7) REGMBC(0x1f5) REGMBC(0x1e21)
<span class="lno">1033 </span> return;
<span class="lno">1034 </span> case 'h': CASEMBC(0x125) CASEMBC(0x127) CASEMBC(0x1e23)
<span class="lno">1035 </span> CASEMBC(0x1e27) CASEMBC(0x1e29) CASEMBC(0x1e96)
<span class="lno">1036 </span> regmbc('h'); REGMBC(0x125) REGMBC(0x127)
<span class="lno">1037 </span> REGMBC(0x1e23) REGMBC(0x1e27) REGMBC(0x1e29)
<span class="lno">1038 </span> REGMBC(0x1e96)
</span><span class="nop"><span class="lno">1039 </span> return;
<span class="lno">1040 </span> case 'i': case '\354': case '\355': case '\356': case '\357':
</span><span class="add"><span class="lno">1041 </span> CASEMBC(0x129) CASEMBC(0x12b) CASEMBC(0x12d) CASEMBC(0x12f)
<span class="lno">1042 </span> CASEMBC(0x1d0) CASEMBC(0x1ec9)
</span><span class="nop"><span class="lno">1043 </span> regmbc('i'); regmbc('\354'); regmbc('\355');
<span class="lno">1044 </span> regmbc('\356'); regmbc('\357');
</span><span class="add"><span class="lno">1045 </span> REGMBC(0x129) REGMBC(0x12b) REGMBC(0x12d)
<span class="lno">1046 </span> REGMBC(0x12f) REGMBC(0x1d0) REGMBC(0x1ec9)
<span class="lno">1047 </span> return;
<span class="lno">1048 </span> case 'j': CASEMBC(0x135) CASEMBC(0x1f0)
<span class="lno">1049 </span> regmbc('j'); REGMBC(0x135) REGMBC(0x1f0)
<span class="lno">1050 </span> return;
<span class="lno">1051 </span> case 'k': CASEMBC(0x137) CASEMBC(0x1e9) CASEMBC(0x1e31)
<span class="lno">1052 </span> CASEMBC(0x1e35)
<span class="lno">1053 </span> regmbc('k'); REGMBC(0x137) REGMBC(0x1e9)
<span class="lno">1054 </span> REGMBC(0x1e31) REGMBC(0x1e35)
<span class="lno">1055 </span> return;
<span class="lno">1056 </span> case 'l': CASEMBC(0x13a) CASEMBC(0x13c) CASEMBC(0x13e)
<span class="lno">1057 </span> CASEMBC(0x140) CASEMBC(0x142) CASEMBC(0x1e3b)
<span class="lno">1058 </span> regmbc('l'); REGMBC(0x13a) REGMBC(0x13c)
<span class="lno">1059 </span> REGMBC(0x13e) REGMBC(0x140) REGMBC(0x142)
<span class="lno">1060 </span> REGMBC(0x1e3b)
<span class="lno">1061 </span> return;
<span class="lno">1062 </span> case 'm': CASEMBC(0x1e3f) CASEMBC(0x1e41)
<span class="lno">1063 </span> regmbc('m'); REGMBC(0x1e3f) REGMBC(0x1e41)
</span><span class="nop"><span class="lno">1064 </span> return;
<span class="lno">1065 </span> case 'n': case '\361':
</span><span class="add"><span class="lno">1066 </span> CASEMBC(0x144) CASEMBC(0x146) CASEMBC(0x148) CASEMBC(0x149)
<span class="lno">1067 </span> CASEMBC(0x1e45) CASEMBC(0x1e49)
</span><span class="nop"><span class="lno">1068 </span> regmbc('n'); regmbc('\361');
</span><span class="add"><span class="lno">1069 </span> REGMBC(0x144) REGMBC(0x146) REGMBC(0x148)
<span class="lno">1070 </span> REGMBC(0x149) REGMBC(0x1e45) REGMBC(0x1e49)
</span><span class="nop"><span class="lno">1071 </span> return;
<span class="lno">1072 </span> case 'o': case '\362': case '\363': case '\364': case '\365':
</span><span class="upd"><span class="lno">1073 </span> case '\366':<span class="chg"> case '\370':</span>
</span><span class="add"><span class="lno">1074 </span> CASEMBC(0x14d) CASEMBC(0x14f) CASEMBC(0x151) CASEMBC(0x1a1)
<span class="lno">1075 </span> CASEMBC(0x1d2) CASEMBC(0x1eb) CASEMBC(0x1ed) CASEMBC(0x1ecf)
</span><span class="nop"><span class="lno">1076 </span> regmbc('o'); regmbc('\362'); regmbc('\363');
<span class="lno">1077 </span> regmbc('\364'); regmbc('\365'); regmbc('\366');
</span><span class="add"><span class="lno">1078 </span> regmbc('\370');
<span class="lno">1079 </span> REGMBC(0x14d) REGMBC(0x14f) REGMBC(0x151)
<span class="lno">1080 </span> REGMBC(0x1a1) REGMBC(0x1d2) REGMBC(0x1eb)
<span class="lno">1081 </span> REGMBC(0x1ed) REGMBC(0x1ecf)
<span class="lno">1082 </span> return;
<span class="lno">1083 </span> case 'p': CASEMBC(0x1e55) CASEMBC(0x1e57)
<span class="lno">1084 </span> regmbc('p'); REGMBC(0x1e55) REGMBC(0x1e57)
<span class="lno">1085 </span> return;
<span class="lno">1086 </span> case 'r': CASEMBC(0x155) CASEMBC(0x157) CASEMBC(0x159)
<span class="lno">1087 </span> CASEMBC(0x1e59) CASEMBC(0x1e5f)
<span class="lno">1088 </span> regmbc('r'); REGMBC(0x155) REGMBC(0x157) REGMBC(0x159)
<span class="lno">1089 </span> REGMBC(0x1e59) REGMBC(0x1e5f)
<span class="lno">1090 </span> return;
<span class="lno">1091 </span> case 's': CASEMBC(0x15b) CASEMBC(0x15d) CASEMBC(0x15f)
<span class="lno">1092 </span> CASEMBC(0x161) CASEMBC(0x1e61)
<span class="lno">1093 </span> regmbc('s'); REGMBC(0x15b) REGMBC(0x15d)
<span class="lno">1094 </span> REGMBC(0x15f) REGMBC(0x161) REGMBC(0x1e61)
<span class="lno">1095 </span> return;
<span class="lno">1096 </span> case 't': CASEMBC(0x163) CASEMBC(0x165) CASEMBC(0x167)
<span class="lno">1097 </span> CASEMBC(0x1e6b) CASEMBC(0x1e6f) CASEMBC(0x1e97)
<span class="lno">1098 </span> regmbc('t'); REGMBC(0x163) REGMBC(0x165) REGMBC(0x167)
<span class="lno">1099 </span> REGMBC(0x1e6b) REGMBC(0x1e6f) REGMBC(0x1e97)
</span><span class="nop"><span class="lno">1100 </span> return;
<span class="lno">1101 </span> case 'u': case '\371': case '\372': case '\373': case '\374':
</span><span class="add"><span class="lno">1102 </span> CASEMBC(0x169) CASEMBC(0x16b) CASEMBC(0x16d) CASEMBC(0x16f)
<span class="lno">1103 </span> CASEMBC(0x171) CASEMBC(0x173) CASEMBC(0x1b0) CASEMBC(0x1d4)
<span class="lno">1104 </span> CASEMBC(0x1ee7)
</span><span class="nop"><span class="lno">1105 </span> regmbc('u'); regmbc('\371'); regmbc('\372');
<span class="lno">1106 </span> regmbc('\373'); regmbc('\374');
</span><span class="add"><span class="lno">1107 </span> REGMBC(0x169) REGMBC(0x16b) REGMBC(0x16d)
<span class="lno">1108 </span> REGMBC(0x16f) REGMBC(0x171) REGMBC(0x173)
<span class="lno">1109 </span> REGMBC(0x1b0) REGMBC(0x1d4) REGMBC(0x1ee7)
<span class="lno">1110 </span> return;
<span class="lno">1111 </span> case 'v': CASEMBC(0x1e7d)
<span class="lno">1112 </span> regmbc('v'); REGMBC(0x1e7d)
<span class="lno">1113 </span> return;
<span class="lno">1114 </span> case 'w': CASEMBC(0x175) CASEMBC(0x1e81) CASEMBC(0x1e83)
<span class="lno">1115 </span> CASEMBC(0x1e85) CASEMBC(0x1e87) CASEMBC(0x1e98)
<span class="lno">1116 </span> regmbc('w'); REGMBC(0x175) REGMBC(0x1e81)
<span class="lno">1117 </span> REGMBC(0x1e83) REGMBC(0x1e85) REGMBC(0x1e87)
<span class="lno">1118 </span> REGMBC(0x1e98)
<span class="lno">1119 </span> return;
<span class="lno">1120 </span> case 'x': CASEMBC(0x1e8b) CASEMBC(0x1e8d)
<span class="lno">1121 </span> regmbc('x'); REGMBC(0x1e8b) REGMBC(0x1e8d)
</span><span class="nop"><span class="lno">1122 </span> return;
<span class="lno">1123 </span> case 'y': case '\375': case '\377':
</span><span class="add"><span class="lno">1124 </span> CASEMBC(0x177) CASEMBC(0x1e8f) CASEMBC(0x1e99)
<span class="lno">1125 </span> CASEMBC(0x1ef3) CASEMBC(0x1ef7) CASEMBC(0x1ef9)
</span><span class="nop"><span class="lno">1126 </span> regmbc('y'); regmbc('\375'); regmbc('\377');
</span><span class="add"><span class="lno">1127 </span> REGMBC(0x177) REGMBC(0x1e8f) REGMBC(0x1e99)
<span class="lno">1128 </span> REGMBC(0x1ef3) REGMBC(0x1ef7) REGMBC(0x1ef9)
<span class="lno">1129 </span> return;
<span class="lno">1130 </span> case 'z': CASEMBC(0x17a) CASEMBC(0x17c) CASEMBC(0x17e)
<span class="lno">1131 </span> CASEMBC(0x1b6) CASEMBC(0x1e91) CASEMBC(0x1e95)
<span class="lno">1132 </span> regmbc('z'); REGMBC(0x17a) REGMBC(0x17c)
<span class="lno">1133 </span> REGMBC(0x17e) REGMBC(0x1b6) REGMBC(0x1e91)
<span class="lno">1134 </span> REGMBC(0x1e95)
</span><span class="nop"><span class="lno">1135 </span> return;
<span class="lno">1136 </span> }
<span class="lno">1137 </span>#endif
</span></td></tr>
<tr><td class="ttd"><span class="lin">Line 891 to 896</span><span class="nop"><span class="lno">891 </span> return 0;
<span class="lno">892 </span>}
<span class="lno">893 </span>
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">894 </span>
<span class="lno">895 </span>/*
<span class="lno">896 </span> * Skip over a "[]" range.
</span></td><td class="ttd"><span class="lin">Line 1174 to 1189</span><span class="nop"><span class="lno">1174 </span> return 0;
<span class="lno">1175 </span>}
<span class="lno">1176 </span>
</span><span class="add"><span class="lno">1177 </span>static void get_cpo_flags __ARGS((void));
<span class="lno">1178 </span>static int reg_cpo_lit; /* 'cpoptions' contains 'l' flag */
<span class="lno">1179 </span>static int reg_cpo_bsl; /* 'cpoptions' contains '\' flag */
<span class="lno">1180 </span>
<span class="lno">1181 </span> static void
<span class="lno">1182 </span>get_cpo_flags()
<span class="lno">1183 </span>{
<span class="lno">1184 </span> reg_cpo_lit = vim_strchr(p_cpo, CPO_LITERAL) != NULL;
<span class="lno">1185 </span> reg_cpo_bsl = vim_strchr(p_cpo, CPO_BACKSL) != NULL;
<span class="lno">1186 </span>}
</span><span class="nop"><span class="lno">1187 </span>
<span class="lno">1188 </span>/*
<span class="lno">1189 </span> * Skip over a "[]" range.
</span></td></tr>
<tr><td class="ttd"><span class="lin">Line 901 to 915</span><span class="nop"><span class="lno">901 </span>skip_anyof(p)
<span class="lno">902 </span> char_u *p;
<span class="lno">903 </span>{
</span><span class="del"><span class="lno">904 </span> int cpo_lit; /* 'cpoptions' contains 'l' flag */
<span class="lno">905 </span> int cpo_bsl; /* 'cpoptions' contains '\' flag */
</span><span class="nop"><span class="lno">906 </span>#ifdef FEAT_MBYTE
<span class="lno">907 </span> int l;
<span class="lno">908 </span>#endif
</span><span class="nop"><span class="lno">909 </span>
</span><span class="del"><span class="lno">910 </span> cpo_lit = vim_strchr(p_cpo, CPO_LITERAL) != NULL;
<span class="lno">911 </span> cpo_bsl = vim_strchr(p_cpo, CPO_BACKSL) != NULL;
<span class="lno">912 </span>
</span><span class="nop"><span class="lno">913 </span> if (*p == '^') /* Complement of range. */
<span class="lno">914 </span> ++p;
<span class="lno">915 </span> if (*p == ']' || *p == '-')
</span></td><td class="ttd"><span class="lin">Line 1194 to 1203</span><span class="nop"><span class="lno">1194 </span>skip_anyof(p)
<span class="lno">1195 </span> char_u *p;
<span class="lno">1196 </span>{
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">1197 </span>#ifdef FEAT_MBYTE
<span class="lno">1198 </span> int l;
<span class="lno">1199 </span>#endif
</span><span class="nop"><span class="lno">1200 </span>
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">1201 </span> if (*p == '^') /* Complement of range. */
<span class="lno">1202 </span> ++p;
<span class="lno">1203 </span> if (*p == ']' || *p == '-')
</span></td></tr>
<tr><td class="ttd"><span class="lin">Line 928 to 936</span><span class="nop"><span class="lno">928 </span> mb_ptr_adv(p);
<span class="lno">929 </span> }
<span class="lno">930 </span> else if (*p == '\\'
</span><span class="upd"><span class="lno">931 </span> && !cpo_bsl
</span><span class="nop"><span class="lno">932 </span> && (vim_strchr(REGEXP_INRANGE, p[1]) != NULL
</span><span class="upd"><span class="lno">933 </span> || (!cpo_lit && vim_strchr(REGEXP_ABBR, p[1]) != NULL)))
</span><span class="nop"><span class="lno">934 </span> p += 2;
<span class="lno">935 </span> else if (*p == '[')
<span class="lno">936 </span> {
</span></td><td class="ttd"><span class="lin">Line 1216 to 1224</span><span class="nop"><span class="lno">1216 </span> mb_ptr_adv(p);
<span class="lno">1217 </span> }
<span class="lno">1218 </span> else if (*p == '\\'
</span><span class="upd"><span class="lno">1219 </span> && !<span class="chg">reg_</span>cpo_bsl
</span><span class="nop"><span class="lno">1220 </span> && (vim_strchr(REGEXP_INRANGE, p[1]) != NULL
</span><span class="upd"><span class="lno">1221 </span> || (!<span class="chg">reg_</span>cpo_lit && vim_strchr(REGEXP_ABBR, p[1]) != NULL)))
</span><span class="nop"><span class="lno">1222 </span> p += 2;
<span class="lno">1223 </span> else if (*p == '[')
<span class="lno">1224 </span> {
</span></td></tr>
<tr><td class="ttd"><span class="lin">Line 969 to 974</span><span class="nop"><span class="lno">969 </span> mymagic = MAGIC_ON;
<span class="lno">970 </span> else
<span class="lno">971 </span> mymagic = MAGIC_OFF;
</span><span class="nop"><span class="lno"> </span>
</span><span class="nop"><span class="lno">972 </span>
<span class="lno">973 </span> for (; p[0] != NUL; mb_ptr_adv(p))
<span class="lno">974 </span> {
</span></td><td class="ttd"><span class="lin">Line 1257 to 1263</span><span class="nop"><span class="lno">1257 </span> mymagic = MAGIC_ON;
<span class="lno">1258 </span> else
<span class="lno">1259 </span> mymagic = MAGIC_OFF;
</span><span class="add"><span class="lno">1260 </span> get_cpo_flags();
</span><span class="nop"><span class="lno">1261 </span>
<span class="lno">1262 </span> for (; p[0] != NUL; mb_ptr_adv(p))
<span class="lno">1263 </span> {
</span></td></tr>
<tr><td class="ttd"><span class="lin">Line 1008 to 1015</span><span class="nop"><span class="lno">1008 </span> return p;
<span class="lno">1009 </span>}
<span class="lno">1010 </span>
</span><span class="nop"><span class="lno"> </span>
<span class="lno"> </span>
<span class="lno"> </span>
</span><span class="nop"><span class="lno">1011 </span>/*
</span><span class="upd"><span class="lno">1012 </span> * <span class="chg">vim</span>_regcomp() - compile a regular expression into internal code
</span><span class="nop"><span class="lno"> </span>
</span><span class="nop"><span class="lno">1013 </span> * Returns the program in allocated space. Returns NULL for an error.
<span class="lno">1014 </span> *
<span class="lno">1015 </span> * We can't allocate space until we know how big the compiled form will be,
</span></td><td class="ttd"><span class="lin">Line 1297 to 1308</span><span class="nop"><span class="lno">1297 </span> return p;
<span class="lno">1298 </span>}
<span class="lno">1299 </span>
</span><span class="add"><span class="lno">1300 </span>static regprog_T *bt_regcomp __ARGS((char_u *expr, int re_flags));
<span class="lno">1301 </span>static void bt_regfree __ARGS((regprog_T *prog));
<span class="lno">1302 </span>
</span><span class="nop"><span class="lno">1303 </span>/*
</span><span class="upd"><span class="lno">1304 </span> * <span class="chg">bt</span>_regcomp() - compile a regular expression into internal code<span class="chg"> for the</span>
</span><span class="add"><span class="lno">1305 </span> * traditional back track matcher.
</span><span class="nop"><span class="lno">1306 </span> * Returns the program in allocated space. Returns NULL for an error.
<span class="lno">1307 </span> *
<span class="lno">1308 </span> * We can't allocate space until we know how big the compiled form will be,
</span></td></tr>
<tr><td class="ttd"><span class="lin">Line 1028 to 1039</span><span class="nop"><span class="lno">1028 </span> * of the structure of the compiled regexp.
<span class="lno">1029 </span> * "re_flags": RE_MAGIC and/or RE_STRING.
<span class="lno">1030 </span> */
</span><span class="upd"><span class="lno">1031 </span> regprog_T *
<span class="lno">1032 </span><span class="chg">vim</span>_regcomp(expr, re_flags)
</span><span class="nop"><span class="lno">1033 </span> char_u *expr;
<span class="lno">1034 </span> int re_flags;
<span class="lno">1035 </span>{
</span><span class="upd"><span class="lno">1036 </span> regprog_T<span class="chg"> </span>*r;
</span><span class="nop"><span class="lno">1037 </span> char_u *scan;