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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-05-06 02:44:24 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-05-06 02:44:24 +0000 |
commit | 8baab3c8d7a6f22888bd581cd5c6098fd2e4b5a8 (patch) | |
tree | 3537e168b860f2742f6029d70501b5ed7d15d345 /src/regexp_nfa.c | |
parent | Initial commit. (diff) | |
download | vim-8baab3c8d7a6f22888bd581cd5c6098fd2e4b5a8.tar.xz vim-8baab3c8d7a6f22888bd581cd5c6098fd2e4b5a8.zip |
Adding upstream version 2:8.1.0875.upstream/2%8.1.0875upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'src/regexp_nfa.c')
-rw-r--r-- | src/regexp_nfa.c | 7362 |
1 files changed, 7362 insertions, 0 deletions
diff --git a/src/regexp_nfa.c b/src/regexp_nfa.c new file mode 100644 index 0000000..031a6cf --- /dev/null +++ b/src/regexp_nfa.c @@ -0,0 +1,7362 @@ +/* vi:set ts=8 sts=4 sw=4 noet: + * + * NFA regular expression implementation. + * + * This file is included in "regexp.c". + */ + +/* + * Logging of NFA engine. + * + * The NFA engine can write four log files: + * - Error log: Contains NFA engine's fatal errors. + * - Dump log: Contains compiled NFA state machine's information. + * - Run log: Contains information of matching procedure. + * - Debug log: Contains detailed information of matching procedure. Can be + * disabled by undefining NFA_REGEXP_DEBUG_LOG. + * The first one can also be used without debug mode. + * The last three are enabled when compiled as debug mode and individually + * disabled by commenting them out. + * The log files can get quite big! + * Do disable all of this when compiling Vim for debugging, undefine DEBUG in + * regexp.c + */ +#ifdef DEBUG +# define NFA_REGEXP_ERROR_LOG "nfa_regexp_error.log" +# define ENABLE_LOG +# define NFA_REGEXP_DUMP_LOG "nfa_regexp_dump.log" +# define NFA_REGEXP_RUN_LOG "nfa_regexp_run.log" +# define NFA_REGEXP_DEBUG_LOG "nfa_regexp_debug.log" +#endif + +/* Added to NFA_ANY - NFA_NUPPER_IC to include a NL. */ +#define NFA_ADD_NL 31 + +enum +{ + NFA_SPLIT = -1024, + NFA_MATCH, + NFA_EMPTY, /* matches 0-length */ + + NFA_START_COLL, /* [abc] start */ + NFA_END_COLL, /* [abc] end */ + NFA_START_NEG_COLL, /* [^abc] start */ + NFA_END_NEG_COLL, /* [^abc] end (postfix only) */ + NFA_RANGE, /* range of the two previous items + * (postfix only) */ + NFA_RANGE_MIN, /* low end of a range */ + NFA_RANGE_MAX, /* high end of a range */ + + NFA_CONCAT, /* concatenate two previous items (postfix + * only) */ + NFA_OR, /* \| (postfix only) */ + NFA_STAR, /* greedy * (postfix only) */ + NFA_STAR_NONGREEDY, /* non-greedy * (postfix only) */ + NFA_QUEST, /* greedy \? (postfix only) */ + NFA_QUEST_NONGREEDY, /* non-greedy \? (postfix only) */ + + NFA_BOL, /* ^ Begin line */ + NFA_EOL, /* $ End line */ + NFA_BOW, /* \< Begin word */ + NFA_EOW, /* \> End word */ + NFA_BOF, /* \%^ Begin file */ + NFA_EOF, /* \%$ End file */ + NFA_NEWL, + NFA_ZSTART, /* Used for \zs */ + NFA_ZEND, /* Used for \ze */ + NFA_NOPEN, /* Start of subexpression marked with \%( */ + NFA_NCLOSE, /* End of subexpr. marked with \%( ... \) */ + NFA_START_INVISIBLE, + NFA_START_INVISIBLE_FIRST, + NFA_START_INVISIBLE_NEG, + NFA_START_INVISIBLE_NEG_FIRST, + NFA_START_INVISIBLE_BEFORE, + NFA_START_INVISIBLE_BEFORE_FIRST, + NFA_START_INVISIBLE_BEFORE_NEG, + NFA_START_INVISIBLE_BEFORE_NEG_FIRST, + NFA_START_PATTERN, + NFA_END_INVISIBLE, + NFA_END_INVISIBLE_NEG, + NFA_END_PATTERN, + NFA_COMPOSING, /* Next nodes in NFA are part of the + composing multibyte char */ + NFA_END_COMPOSING, /* End of a composing char in the NFA */ + NFA_ANY_COMPOSING, /* \%C: Any composing characters. */ + NFA_OPT_CHARS, /* \%[abc] */ + + /* The following are used only in the postfix form, not in the NFA */ + NFA_PREV_ATOM_NO_WIDTH, /* Used for \@= */ + NFA_PREV_ATOM_NO_WIDTH_NEG, /* Used for \@! */ + NFA_PREV_ATOM_JUST_BEFORE, /* Used for \@<= */ + NFA_PREV_ATOM_JUST_BEFORE_NEG, /* Used for \@<! */ + NFA_PREV_ATOM_LIKE_PATTERN, /* Used for \@> */ + + NFA_BACKREF1, /* \1 */ + NFA_BACKREF2, /* \2 */ + NFA_BACKREF3, /* \3 */ + NFA_BACKREF4, /* \4 */ + NFA_BACKREF5, /* \5 */ + NFA_BACKREF6, /* \6 */ + NFA_BACKREF7, /* \7 */ + NFA_BACKREF8, /* \8 */ + NFA_BACKREF9, /* \9 */ +#ifdef FEAT_SYN_HL + NFA_ZREF1, /* \z1 */ + NFA_ZREF2, /* \z2 */ + NFA_ZREF3, /* \z3 */ + NFA_ZREF4, /* \z4 */ + NFA_ZREF5, /* \z5 */ + NFA_ZREF6, /* \z6 */ + NFA_ZREF7, /* \z7 */ + NFA_ZREF8, /* \z8 */ + NFA_ZREF9, /* \z9 */ +#endif + NFA_SKIP, /* Skip characters */ + + NFA_MOPEN, + NFA_MOPEN1, + NFA_MOPEN2, + NFA_MOPEN3, + NFA_MOPEN4, + NFA_MOPEN5, + NFA_MOPEN6, + NFA_MOPEN7, + NFA_MOPEN8, + NFA_MOPEN9, + + NFA_MCLOSE, + NFA_MCLOSE1, + NFA_MCLOSE2, + NFA_MCLOSE3, + NFA_MCLOSE4, + NFA_MCLOSE5, + NFA_MCLOSE6, + NFA_MCLOSE7, + NFA_MCLOSE8, + NFA_MCLOSE9, + +#ifdef FEAT_SYN_HL + NFA_ZOPEN, + NFA_ZOPEN1, + NFA_ZOPEN2, + NFA_ZOPEN3, + NFA_ZOPEN4, + NFA_ZOPEN5, + NFA_ZOPEN6, + NFA_ZOPEN7, + NFA_ZOPEN8, + NFA_ZOPEN9, + + NFA_ZCLOSE, + NFA_ZCLOSE1, + NFA_ZCLOSE2, + NFA_ZCLOSE3, + NFA_ZCLOSE4, + NFA_ZCLOSE5, + NFA_ZCLOSE6, + NFA_ZCLOSE7, + NFA_ZCLOSE8, + NFA_ZCLOSE9, +#endif + + /* NFA_FIRST_NL */ + NFA_ANY, /* Match any one character. */ + NFA_IDENT, /* Match identifier char */ + NFA_SIDENT, /* Match identifier char but no digit */ + NFA_KWORD, /* Match keyword char */ + NFA_SKWORD, /* Match word char but no digit */ + NFA_FNAME, /* Match file name char */ + NFA_SFNAME, /* Match file name char but no digit */ + NFA_PRINT, /* Match printable char */ + NFA_SPRINT, /* Match printable char but no digit */ + NFA_WHITE, /* Match whitespace char */ + NFA_NWHITE, /* Match non-whitespace char */ + NFA_DIGIT, /* Match digit char */ + NFA_NDIGIT, /* Match non-digit char */ + NFA_HEX, /* Match hex char */ + NFA_NHEX, /* Match non-hex char */ + NFA_OCTAL, /* Match octal char */ + NFA_NOCTAL, /* Match non-octal char */ + NFA_WORD, /* Match word char */ + NFA_NWORD, /* Match non-word char */ + NFA_HEAD, /* Match head char */ + NFA_NHEAD, /* Match non-head char */ + NFA_ALPHA, /* Match alpha char */ + NFA_NALPHA, /* Match non-alpha char */ + NFA_LOWER, /* Match lowercase char */ + NFA_NLOWER, /* Match non-lowercase char */ + NFA_UPPER, /* Match uppercase char */ + NFA_NUPPER, /* Match non-uppercase char */ + NFA_LOWER_IC, /* Match [a-z] */ + NFA_NLOWER_IC, /* Match [^a-z] */ + NFA_UPPER_IC, /* Match [A-Z] */ + NFA_NUPPER_IC, /* Match [^A-Z] */ + + NFA_FIRST_NL = NFA_ANY + NFA_ADD_NL, + NFA_LAST_NL = NFA_NUPPER_IC + NFA_ADD_NL, + + NFA_CURSOR, /* Match cursor pos */ + NFA_LNUM, /* Match line number */ + NFA_LNUM_GT, /* Match > line number */ + NFA_LNUM_LT, /* Match < line number */ + NFA_COL, /* Match cursor column */ + NFA_COL_GT, /* Match > cursor column */ + NFA_COL_LT, /* Match < cursor column */ + NFA_VCOL, /* Match cursor virtual column */ + NFA_VCOL_GT, /* Match > cursor virtual column */ + NFA_VCOL_LT, /* Match < cursor virtual column */ + NFA_MARK, /* Match mark */ + NFA_MARK_GT, /* Match > mark */ + NFA_MARK_LT, /* Match < mark */ + NFA_VISUAL, /* Match Visual area */ + + /* Character classes [:alnum:] etc */ + NFA_CLASS_ALNUM, + NFA_CLASS_ALPHA, + NFA_CLASS_BLANK, + NFA_CLASS_CNTRL, + NFA_CLASS_DIGIT, + NFA_CLASS_GRAPH, + NFA_CLASS_LOWER, + NFA_CLASS_PRINT, + NFA_CLASS_PUNCT, + NFA_CLASS_SPACE, + NFA_CLASS_UPPER, + NFA_CLASS_XDIGIT, + NFA_CLASS_TAB, + NFA_CLASS_RETURN, + NFA_CLASS_BACKSPACE, + NFA_CLASS_ESCAPE, + NFA_CLASS_IDENT, + NFA_CLASS_KEYWORD, + NFA_CLASS_FNAME +}; + +/* Keep in sync with classchars. */ +static int nfa_classcodes[] = { + NFA_ANY, NFA_IDENT, NFA_SIDENT, NFA_KWORD,NFA_SKWORD, + NFA_FNAME, NFA_SFNAME, NFA_PRINT, NFA_SPRINT, + NFA_WHITE, NFA_NWHITE, NFA_DIGIT, NFA_NDIGIT, + NFA_HEX, NFA_NHEX, NFA_OCTAL, NFA_NOCTAL, + NFA_WORD, NFA_NWORD, NFA_HEAD, NFA_NHEAD, + NFA_ALPHA, NFA_NALPHA, NFA_LOWER, NFA_NLOWER, + NFA_UPPER, NFA_NUPPER +}; + +static char_u e_nul_found[] = N_("E865: (NFA) Regexp end encountered prematurely"); +static char_u e_misplaced[] = N_("E866: (NFA regexp) Misplaced %c"); +static char_u e_ill_char_class[] = N_("E877: (NFA regexp) Invalid character class: %ld"); + +// Variables only used in nfa_regcomp() and descendants. +static int nfa_re_flags; // re_flags passed to nfa_regcomp() +static int *post_start; // holds the postfix form of r.e. +static int *post_end; +static int *post_ptr; +static int nstate; // Number of states in the NFA. +static int istate; // Index in the state vector, used in alloc_state() + +/* If not NULL match must end at this position */ +static save_se_T *nfa_endp = NULL; + +/* 0 for first call to nfa_regmatch(), 1 for recursive call. */ +static int nfa_ll_index = 0; + +static int realloc_post_list(void); +static int nfa_reg(int paren); +#ifdef DEBUG +static void nfa_print_state2(FILE *debugf, nfa_state_T *state, garray_T *indent); +#endif +static int match_follows(nfa_state_T *startstate, int depth); +static int failure_chance(nfa_state_T *state, int depth); + +/* helper functions used when doing re2post() ... regatom() parsing */ +#define EMIT(c) do { \ + if (post_ptr >= post_end && realloc_post_list() == FAIL) \ + return FAIL; \ + *post_ptr++ = c; \ + } while (0) + +/* + * Initialize internal variables before NFA compilation. + * Return OK on success, FAIL otherwise. + */ + static int +nfa_regcomp_start( + char_u *expr, + int re_flags) /* see vim_regcomp() */ +{ + size_t postfix_size; + int nstate_max; + + nstate = 0; + istate = 0; + /* A reasonable estimation for maximum size */ + nstate_max = (int)(STRLEN(expr) + 1) * 25; + + /* Some items blow up in size, such as [A-z]. Add more space for that. + * When it is still not enough realloc_post_list() will be used. */ + nstate_max += 1000; + + /* Size for postfix representation of expr. */ + postfix_size = sizeof(int) * nstate_max; + + post_start = (int *)lalloc(postfix_size, TRUE); + if (post_start == NULL) + return FAIL; + post_ptr = post_start; + post_end = post_start + nstate_max; + rex.nfa_has_zend = FALSE; + rex.nfa_has_backref = FALSE; + + /* shared with BT engine */ + regcomp_start(expr, re_flags); + + return OK; +} + +/* + * Figure out if the NFA state list starts with an anchor, must match at start + * of the line. + */ + static int +nfa_get_reganch(nfa_state_T *start, int depth) +{ + nfa_state_T *p = start; + + if (depth > 4) + return 0; + + while (p != NULL) + { + switch (p->c) + { + case NFA_BOL: + case NFA_BOF: + return 1; /* yes! */ + + case NFA_ZSTART: + case NFA_ZEND: + case NFA_CURSOR: + case NFA_VISUAL: + + case NFA_MOPEN: + case NFA_MOPEN1: + case NFA_MOPEN2: + case NFA_MOPEN3: + case NFA_MOPEN4: + case NFA_MOPEN5: + case NFA_MOPEN6: + case NFA_MOPEN7: + case NFA_MOPEN8: + case NFA_MOPEN9: + case NFA_NOPEN: +#ifdef FEAT_SYN_HL + case NFA_ZOPEN: + case NFA_ZOPEN1: + case NFA_ZOPEN2: + case NFA_ZOPEN3: + case NFA_ZOPEN4: + case NFA_ZOPEN5: + case NFA_ZOPEN6: + case NFA_ZOPEN7: + case NFA_ZOPEN8: + case NFA_ZOPEN9: +#endif + p = p->out; + break; + + case NFA_SPLIT: + return nfa_get_reganch(p->out, depth + 1) + && nfa_get_reganch(p->out1, depth + 1); + + default: + return 0; /* noooo */ + } + } + return 0; +} + +/* + * Figure out if the NFA state list starts with a character which must match + * at start of the match. + */ + static int +nfa_get_regstart(nfa_state_T *start, int depth) +{ + nfa_state_T *p = start; + + if (depth > 4) + return 0; + + while (p != NULL) + { + switch (p->c) + { + /* all kinds of zero-width matches */ + case NFA_BOL: + case NFA_BOF: + case NFA_BOW: + case NFA_EOW: + case NFA_ZSTART: + case NFA_ZEND: + case NFA_CURSOR: + case NFA_VISUAL: + case NFA_LNUM: + case NFA_LNUM_GT: + case NFA_LNUM_LT: + case NFA_COL: + case NFA_COL_GT: + case NFA_COL_LT: + case NFA_VCOL: + case NFA_VCOL_GT: + case NFA_VCOL_LT: + case NFA_MARK: + case NFA_MARK_GT: + case NFA_MARK_LT: + + case NFA_MOPEN: + case NFA_MOPEN1: + case NFA_MOPEN2: + case NFA_MOPEN3: + case NFA_MOPEN4: + case NFA_MOPEN5: + case NFA_MOPEN6: + case NFA_MOPEN7: + case NFA_MOPEN8: + case NFA_MOPEN9: + case NFA_NOPEN: +#ifdef FEAT_SYN_HL + case NFA_ZOPEN: + case NFA_ZOPEN1: + case NFA_ZOPEN2: + case NFA_ZOPEN3: + case NFA_ZOPEN4: + case NFA_ZOPEN5: + case NFA_ZOPEN6: + case NFA_ZOPEN7: + case NFA_ZOPEN8: + case NFA_ZOPEN9: +#endif + p = p->out; + break; + + case NFA_SPLIT: + { + int c1 = nfa_get_regstart(p->out, depth + 1); + int c2 = nfa_get_regstart(p->out1, depth + 1); + + if (c1 == c2) + return c1; /* yes! */ + return 0; + } + + default: + if (p->c > 0) + return p->c; /* yes! */ + return 0; + } + } + return 0; +} + +/* + * Figure out if the NFA state list contains just literal text and nothing + * else. If so return a string in allocated memory with what must match after + * regstart. Otherwise return NULL. + */ + static char_u * +nfa_get_match_text(nfa_state_T *start) +{ + nfa_state_T *p = start; + int len = 0; + char_u *ret; + char_u *s; + + if (p->c != NFA_MOPEN) + return NULL; /* just in case */ + p = p->out; + while (p->c > 0) + { + len += MB_CHAR2LEN(p->c); + p = p->out; + } + if (p->c != NFA_MCLOSE || p->out->c != NFA_MATCH) + return NULL; + + ret = alloc(len); + if (ret != NULL) + { + p = start->out->out; /* skip first char, it goes into regstart */ + s = ret; + while (p->c > 0) + { + if (has_mbyte) + s += (*mb_char2bytes)(p->c, s); + else + *s++ = p->c; + p = p->out; + } + *s = NUL; + } + return ret; +} + +/* + * Allocate more space for post_start. Called when + * running above the estimated number of states. + */ + static int +realloc_post_list(void) +{ + int nstate_max = (int)(post_end - post_start); + int new_max = nstate_max + 1000; + int *new_start; + int *old_start; + + new_start = (int *)lalloc(new_max * sizeof(int), TRUE); + if (new_start == NULL) + return FAIL; + mch_memmove(new_start, post_start, nstate_max * sizeof(int)); + old_start = post_start; + post_start = new_start; + post_ptr = new_start + (post_ptr - old_start); + post_end = post_start + new_max; + vim_free(old_start); + return OK; +} + +/* + * Search between "start" and "end" and try to recognize a + * character class in expanded form. For example [0-9]. + * On success, return the id the character class to be emitted. + * On failure, return 0 (=FAIL) + * Start points to the first char of the range, while end should point + * to the closing brace. + * Keep in mind that 'ignorecase' applies at execution time, thus [a-z] may + * need to be interpreted as [a-zA-Z]. + */ + static int +nfa_recognize_char_class(char_u *start, char_u *end, int extra_newl) +{ +# define CLASS_not 0x80 +# define CLASS_af 0x40 +# define CLASS_AF 0x20 +# define CLASS_az 0x10 +# define CLASS_AZ 0x08 +# define CLASS_o7 0x04 +# define CLASS_o9 0x02 +# define CLASS_underscore 0x01 + + int newl = FALSE; + char_u *p; + int config = 0; + + if (extra_newl == TRUE) + newl = TRUE; + + if (*end != ']') + return FAIL; + p = start; + if (*p == '^') + { + config |= CLASS_not; + p++; + } + + while (p < end) + { + if (p + 2 < end && *(p + 1) == '-') + { + switch (*p) + { + case '0': + if (*(p + 2) == '9') + { + config |= CLASS_o9; + break; + } + if (*(p + 2) == '7') + { + config |= CLASS_o7; + break; + } + return FAIL; + + case 'a': + if (*(p + 2) == 'z') + { + config |= CLASS_az; + break; + } + if (*(p + 2) == 'f') + { + config |= CLASS_af; + break; + } + return FAIL; + + case 'A': + if (*(p + 2) == 'Z') + { + config |= CLASS_AZ; + break; + } + if (*(p + 2) == 'F') + { + config |= CLASS_AF; + break; + } + return FAIL; + + default: + return FAIL; + } + p += 3; + } + else if (p + 1 < end && *p == '\\' && *(p + 1) == 'n') + { + newl = TRUE; + p += 2; + } + else if (*p == '_') + { + config |= CLASS_underscore; + p ++; + } + else if (*p == '\n') + { + newl = TRUE; + p ++; + } + else + return FAIL; + } /* while (p < end) */ + + if (p != end) + return FAIL; + + if (newl == TRUE) + extra_newl = NFA_ADD_NL; + + switch (config) + { + case CLASS_o9: + return extra_newl + NFA_DIGIT; + case CLASS_not | CLASS_o9: + return extra_newl + NFA_NDIGIT; + case CLASS_af | CLASS_AF | CLASS_o9: + return extra_newl + NFA_HEX; + case CLASS_not | CLASS_af | CLASS_AF | CLASS_o9: + return extra_newl + NFA_NHEX; + case CLASS_o7: + return extra_newl + NFA_OCTAL; + case CLASS_not | CLASS_o7: + return extra_newl + NFA_NOCTAL; + case CLASS_az | CLASS_AZ | CLASS_o9 | CLASS_underscore: + return extra_newl + NFA_WORD; + case CLASS_not | CLASS_az | CLASS_AZ | CLASS_o9 | CLASS_underscore: + return extra_newl + NFA_NWORD; + case CLASS_az | CLASS_AZ | CLASS_underscore: + return extra_newl + NFA_HEAD; + case CLASS_not | CLASS_az | CLASS_AZ | CLASS_underscore: + return extra_newl + NFA_NHEAD; + case CLASS_az | CLASS_AZ: + return extra_newl + NFA_ALPHA; + case CLASS_not | CLASS_az | CLASS_AZ: + return extra_newl + NFA_NALPHA; + case CLASS_az: + return extra_newl + NFA_LOWER_IC; + case CLASS_not | CLASS_az: + return extra_newl + NFA_NLOWER_IC; + case CLASS_AZ: + return extra_newl + NFA_UPPER_IC; + case CLASS_not | CLASS_AZ: + return extra_newl + NFA_NUPPER_IC; + } + return FAIL; +} + +/* + * Produce the bytes for equivalence class "c". + * Currently only handles latin1, latin9 and utf-8. + * Emits bytes in postfix notation: 'a,b,NFA_OR,c,NFA_OR' is + * equivalent to 'a OR b OR c' + * + * NOTE! When changing this function, also update reg_equi_class() + */ + static int +nfa_emit_equi_class(int c) +{ +#define EMIT2(c) EMIT(c); EMIT(NFA_CONCAT); +#define EMITMBC(c) EMIT(c); EMIT(NFA_CONCAT); + + if (enc_utf8 || STRCMP(p_enc, "latin1") == 0 + || STRCMP(p_enc, "iso-8859-15") == 0) + { +#ifdef EBCDIC +# define A_circumflex 0x62 +# define A_diaeresis 0x63 +# define A_grave 0x64 +# define A_acute 0x65 +# define A_virguilla 0x66 +# define A_ring 0x67 +# define C_cedilla 0x68 +# define E_acute 0x71 +# define E_circumflex 0x72 +# define E_diaeresis 0x73 +# define E_grave 0x74 +# define I_acute 0x75 +# define I_circumflex 0x76 +# define I_diaeresis 0x77 +# define I_grave 0x78 +# define N_virguilla 0x69 +# define O_circumflex 0xeb +# define O_diaeresis 0xec +# define O_grave 0xed +# define O_acute 0xee +# define O_virguilla 0xef +# define O_slash 0x80 +# define U_circumflex 0xfb +# define U_diaeresis 0xfc +# define U_grave 0xfd +# define U_acute 0xfe +# define Y_acute 0xba +# define a_grave 0x42 +# define a_acute 0x43 +# define a_circumflex 0x44 +# define a_virguilla 0x45 +# define a_diaeresis 0x46 +# define a_ring 0x47 +# define c_cedilla 0x48 +# define e_grave 0x51 +# define e_acute 0x52 +# define e_circumflex 0x53 +# define e_diaeresis 0x54 +# define i_grave 0x55 +# define i_acute 0x56 +# define i_circumflex 0x57 +# define i_diaeresis 0x58 +# define n_virguilla 0x49 +# define o_grave 0xcb +# define o_acute 0xcc +# define o_circumflex 0xcd +# define o_virguilla 0xce +# define o_diaeresis 0xcf +# define o_slash 0x70 +# define u_grave 0xdb +# define u_acute 0xdc +# define u_circumflex 0xdd +# define u_diaeresis 0xde +# define y_acute 0x8d +# define y_diaeresis 0xdf +#else +# define A_grave 0xc0 +# define A_acute 0xc1 +# define A_circumflex 0xc2 +# define A_virguilla 0xc3 +# define A_diaeresis 0xc4 +# define A_ring 0xc5 +# define C_cedilla 0xc7 +# define E_grave 0xc8 +# define E_acute 0xc9 +# define E_circumflex 0xca +# define E_diaeresis 0xcb +# define I_grave 0xcc +# define I_acute 0xcd +# define I_circumflex 0xce +# define I_diaeresis 0xcf +# define N_virguilla 0xd1 +# define O_grave 0xd2 +# define O_acute 0xd3 +# define O_circumflex 0xd4 +# define O_virguilla 0xd5 +# define O_diaeresis 0xd6 +# define O_slash 0xd8 +# define U_grave 0xd9 +# define U_acute 0xda +# define U_circumflex 0xdb +# define U_diaeresis 0xdc +# define Y_acute 0xdd +# define a_grave 0xe0 +# define a_acute 0xe1 +# define a_circumflex 0xe2 +# define a_virguilla 0xe3 +# define a_diaeresis 0xe4 +# define a_ring 0xe5 +# define c_cedilla 0xe7 +# define e_grave 0xe8 +# define e_acute 0xe9 +# define e_circumflex 0xea +# define e_diaeresis 0xeb +# define i_grave 0xec +# define i_acute 0xed +# define i_circumflex 0xee +# define i_diaeresis 0xef +# define n_virguilla 0xf1 +# define o_grave 0xf2 +# define o_acute 0xf3 +# define o_circumflex 0xf4 +# define o_virguilla 0xf5 +# define o_diaeresis 0xf6 +# define o_slash 0xf8 +# define u_grave 0xf9 +# define u_acute 0xfa +# define u_circumflex 0xfb +# define u_diaeresis 0xfc +# define y_acute 0xfd +# define y_diaeresis 0xff +#endif + switch (c) + { + case 'A': case A_grave: case A_acute: case A_circumflex: + case A_virguilla: case A_diaeresis: case A_ring: + CASEMBC(0x100) CASEMBC(0x102) CASEMBC(0x104) + CASEMBC(0x1cd) CASEMBC(0x1de) CASEMBC(0x1e0) + CASEMBC(0x1ea2) + EMIT2('A'); EMIT2(A_grave); EMIT2(A_acute); + EMIT2(A_circumflex); EMIT2(A_virguilla); + EMIT2(A_diaeresis); EMIT2(A_ring); + EMITMBC(0x100) EMITMBC(0x102) EMITMBC(0x104) + EMITMBC(0x1cd) EMITMBC(0x1de) EMITMBC(0x1e0) + EMITMBC(0x1ea2) + return OK; + + case 'B': CASEMBC(0x1e02) CASEMBC(0x1e06) + EMIT2('B'); EMITMBC(0x1e02) EMITMBC(0x1e06) + return OK; + + case 'C': case C_cedilla: CASEMBC(0x106) CASEMBC(0x108) + CASEMBC(0x10a) CASEMBC(0x10c) + EMIT2('C'); EMIT2(C_cedilla); + EMITMBC(0x106) EMITMBC(0x108) + EMITMBC(0x10a) EMITMBC(0x10c) + return OK; + + case 'D': CASEMBC(0x10e) CASEMBC(0x110) CASEMBC(0x1e0a) + CASEMBC(0x1e0e) CASEMBC(0x1e10) + EMIT2('D'); EMITMBC(0x10e) EMITMBC(0x110) EMITMBC(0x1e0a) + EMITMBC(0x1e0e) EMITMBC(0x1e10) + return OK; + + case 'E': case E_grave: case E_acute: case E_circumflex: + case E_diaeresis: CASEMBC(0x112) CASEMBC(0x114) + CASEMBC(0x116) CASEMBC(0x118) CASEMBC(0x11a) + CASEMBC(0x1eba) CASEMBC(0x1ebc) + EMIT2('E'); EMIT2(E_grave); EMIT2(E_acute); + EMIT2(E_circumflex); EMIT2(E_diaeresis); + EMITMBC(0x112) EMITMBC(0x114) EMITMBC(0x116) + EMITMBC(0x118) EMITMBC(0x11a) EMITMBC(0x1eba) + EMITMBC(0x1ebc) + return OK; + + case 'F': CASEMBC(0x1e1e) + EMIT2('F'); EMITMBC(0x1e1e) + return OK; + + case 'G': CASEMBC(0x11c) CASEMBC(0x11e) CASEMBC(0x120) + CASEMBC(0x122) CASEMBC(0x1e4) CASEMBC(0x1e6) + CASEMBC(0x1f4) CASEMBC(0x1e20) + EMIT2('G'); EMITMBC(0x11c) EMITMBC(0x11e) EMITMBC(0x120) + EMITMBC(0x122) EMITMBC(0x1e4) EMITMBC(0x1e6) + EMITMBC(0x1f4) EMITMBC(0x1e20) + return OK; + + case 'H': CASEMBC(0x124) CASEMBC(0x126) CASEMBC(0x1e22) + CASEMBC(0x1e26) CASEMBC(0x1e28) + EMIT2('H'); EMITMBC(0x124) EMITMBC(0x126) EMITMBC(0x1e22) + EMITMBC(0x1e26) EMITMBC(0x1e28) + return OK; + + case 'I': case I_grave: case I_acute: case I_circumflex: + case I_diaeresis: CASEMBC(0x128) CASEMBC(0x12a) + CASEMBC(0x12c) CASEMBC(0x12e) CASEMBC(0x130) + CASEMBC(0x1cf) CASEMBC(0x1ec8) + EMIT2('I'); EMIT2(I_grave); EMIT2(I_acute); + EMIT2(I_circumflex); EMIT2(I_diaeresis); + EMITMBC(0x128) EMITMBC(0x12a) + EMITMBC(0x12c) EMITMBC(0x12e) EMITMBC(0x130) + EMITMBC(0x1cf) EMITMBC(0x1ec8) + return OK; + + case 'J': CASEMBC(0x134) + EMIT2('J'); EMITMBC(0x134) + return OK; + + case 'K': CASEMBC(0x136) CASEMBC(0x1e8) CASEMBC(0x1e30) + CASEMBC(0x1e34) + EMIT2('K'); EMITMBC(0x136) EMITMBC(0x1e8) EMITMBC(0x1e30) + EMITMBC(0x1e34) + return OK; + + case 'L': CASEMBC(0x139) CASEMBC(0x13b) CASEMBC(0x13d) + CASEMBC(0x13f) CASEMBC(0x141) CASEMBC(0x1e3a) + EMIT2('L'); EMITMBC(0x139) EMITMBC(0x13b) EMITMBC(0x13d) + EMITMBC(0x13f) EMITMBC(0x141) EMITMBC(0x1e3a) + return OK; + + case 'M': CASEMBC(0x1e3e) CASEMBC(0x1e40) + EMIT2('M'); EMITMBC(0x1e3e) EMITMBC(0x1e40) + return OK; + + case 'N': case N_virguilla: CASEMBC(0x143) CASEMBC(0x145) + CASEMBC(0x147) CASEMBC(0x1e44) CASEMBC(0x1e48) + EMIT2('N'); EMIT2(N_virguilla); + EMITMBC(0x143) EMITMBC(0x145) + EMITMBC(0x147) EMITMBC(0x1e44) EMITMBC(0x1e48) + return OK; + + case 'O': case O_grave: case O_acute: case O_circumflex: + case O_virguilla: case O_diaeresis: case O_slash: + CASEMBC(0x14c) CASEMBC(0x14e) CASEMBC(0x150) + CASEMBC(0x1a0) CASEMBC(0x1d1) CASEMBC(0x1ea) + CASEMBC(0x1ec) CASEMBC(0x1ece) + EMIT2('O'); EMIT2(O_grave); EMIT2(O_acute); + EMIT2(O_circumflex); EMIT2(O_virguilla); + EMIT2(O_diaeresis); EMIT2(O_slash); + EMITMBC(0x14c) EMITMBC(0x14e) EMITMBC(0x150) + EMITMBC(0x1a0) EMITMBC(0x1d1) EMITMBC(0x1ea) + EMITMBC(0x1ec) EMITMBC(0x1ece) + return OK; + + case 'P': case 0x1e54: case 0x1e56: + EMIT2('P'); EMITMBC(0x1e54) EMITMBC(0x1e56) + return OK; + + case 'R': CASEMBC(0x154) CASEMBC(0x156) CASEMBC(0x158) + CASEMBC(0x1e58) CASEMBC(0x1e5e) + EMIT2('R'); EMITMBC(0x154) EMITMBC(0x156) EMITMBC(0x158) + EMITMBC(0x1e58) EMITMBC(0x1e5e) + return OK; + + case 'S': CASEMBC(0x15a) CASEMBC(0x15c) CASEMBC(0x15e) + CASEMBC(0x160) CASEMBC(0x1e60) + EMIT2('S'); EMITMBC(0x15a) EMITMBC(0x15c) EMITMBC(0x15e) + EMITMBC(0x160) EMITMBC(0x1e60) + return OK; + + case 'T': CASEMBC(0x162) CASEMBC(0x164) CASEMBC(0x166) + CASEMBC(0x1e6a) CASEMBC(0x1e6e) + EMIT2('T'); EMITMBC(0x162) EMITMBC(0x164) EMITMBC(0x166) + EMITMBC(0x1e6a) EMITMBC(0x1e6e) + return OK; + + case 'U': case U_grave: case U_acute: case U_diaeresis: + case U_circumflex: CASEMBC(0x168) CASEMBC(0x16a) + CASEMBC(0x16c) CASEMBC(0x16e) CASEMBC(0x170) + CASEMBC(0x172) CASEMBC(0x1af) CASEMBC(0x1d3) + CASEMBC(0x1ee6) + EMIT2('U'); EMIT2(U_grave); EMIT2(U_acute); + EMIT2(U_diaeresis); EMIT2(U_circumflex); + EMITMBC(0x168) EMITMBC(0x16a) + EMITMBC(0x16c) EMITMBC(0x16e) EMITMBC(0x170) + EMITMBC(0x172) EMITMBC(0x1af) EMITMBC(0x1d3) + EMITMBC(0x1ee6) + return OK; + + case 'V': CASEMBC(0x1e7c) + EMIT2('V'); EMITMBC(0x1e7c) + return OK; + + case 'W': CASEMBC(0x174) CASEMBC(0x1e80) CASEMBC(0x1e82) + CASEMBC(0x1e84) CASEMBC(0x1e86) + EMIT2('W'); EMITMBC(0x174) EMITMBC(0x1e80) EMITMBC(0x1e82) + EMITMBC(0x1e84) EMITMBC(0x1e86) + return OK; + + case 'X': CASEMBC(0x1e8a) CASEMBC(0x1e8c) + EMIT2('X'); EMITMBC(0x1e8a) EMITMBC(0x1e8c) + return OK; + + case 'Y': case Y_acute: CASEMBC(0x176) CASEMBC(0x178) + CASEMBC(0x1e8e) CASEMBC(0x1ef2) CASEMBC(0x1ef6) + CASEMBC(0x1ef8) + EMIT2('Y'); EMIT2(Y_acute); + EMITMBC(0x176) EMITMBC(0x178) + EMITMBC(0x1e8e) EMITMBC(0x1ef2) EMITMBC(0x1ef6) + EMITMBC(0x1ef8) + return OK; + + case 'Z': CASEMBC(0x179) CASEMBC(0x17b) CASEMBC(0x17d) + CASEMBC(0x1b5) CASEMBC(0x1e90) CASEMBC(0x1e94) + EMIT2('Z'); EMITMBC(0x179) EMITMBC(0x17b) EMITMBC(0x17d) + EMITMBC(0x1b5) EMITMBC(0x1e90) EMITMBC(0x1e94) + return OK; + + case 'a': case a_grave: case a_acute: case a_circumflex: + case a_virguilla: case a_diaeresis: case a_ring: + CASEMBC(0x101) CASEMBC(0x103) CASEMBC(0x105) + CASEMBC(0x1ce) CASEMBC(0x1df) CASEMBC(0x1e1) + CASEMBC(0x1ea3) + EMIT2('a'); EMIT2(a_grave); EMIT2(a_acute); + EMIT2(a_circumflex); EMIT2(a_virguilla); + EMIT2(a_diaeresis); EMIT2(a_ring); + EMITMBC(0x101) EMITMBC(0x103) EMITMBC(0x105) + EMITMBC(0x1ce) EMITMBC(0x1df) EMITMBC(0x1e1) + EMITMBC(0x1ea3) + return OK; + + case 'b': CASEMBC(0x1e03) CASEMBC(0x1e07) + EMIT2('b'); EMITMBC(0x1e03) EMITMBC(0x1e07) + return OK; + + case 'c': case c_cedilla: CASEMBC(0x107) CASEMBC(0x109) + CASEMBC(0x10b) CASEMBC(0x10d) + EMIT2('c'); EMIT2(c_cedilla); + EMITMBC(0x107) EMITMBC(0x109) + EMITMBC(0x10b) EMITMBC(0x10d) + return OK; + + case 'd': CASEMBC(0x10f) CASEMBC(0x111) CASEMBC(0x1e0b) + CASEMBC(0x1e0f) CASEMBC(0x1e11) + EMIT2('d'); EMITMBC(0x10f) EMITMBC(0x111) + EMITMBC(0x1e0b) EMITMBC(0x1e0f) EMITMBC(0x1e11) + return OK; + + case 'e': case e_grave: case e_acute: case e_circumflex: + case e_diaeresis: CASEMBC(0x113) CASEMBC(0x115) + CASEMBC(0x117) CASEMBC(0x119) CASEMBC(0x11b) + CASEMBC(0x1ebb) CASEMBC(0x1ebd) + EMIT2('e'); EMIT2(e_grave); EMIT2(e_acute); + EMIT2(e_circumflex); EMIT2(e_diaeresis); + EMITMBC(0x113) EMITMBC(0x115) + EMITMBC(0x117) EMITMBC(0x119) EMITMBC(0x11b) + EMITMBC(0x1ebb) EMITMBC(0x1ebd) + return OK; + + case 'f': CASEMBC(0x1e1f) + EMIT2('f'); EMITMBC(0x1e1f) + return OK; + + case 'g': CASEMBC(0x11d) CASEMBC(0x11f) CASEMBC(0x121) + CASEMBC(0x123) CASEMBC(0x1e5) CASEMBC(0x1e7) + CASEMBC(0x1f5) CASEMBC(0x1e21) + EMIT2('g'); EMITMBC(0x11d) EMITMBC(0x11f) EMITMBC(0x121) + EMITMBC(0x123) EMITMBC(0x1e5) EMITMBC(0x1e7) + EMITMBC(0x1f5) EMITMBC(0x1e21) + return OK; + + case 'h': CASEMBC(0x125) CASEMBC(0x127) CASEMBC(0x1e23) + CASEMBC(0x1e27) CASEMBC(0x1e29) CASEMBC(0x1e96) + EMIT2('h'); EMITMBC(0x125) EMITMBC(0x127) EMITMBC(0x1e23) + EMITMBC(0x1e27) EMITMBC(0x1e29) EMITMBC(0x1e96) + return OK; + + case 'i': case i_grave: case i_acute: case i_circumflex: + case i_diaeresis: CASEMBC(0x129) CASEMBC(0x12b) + CASEMBC(0x12d) CASEMBC(0x12f) CASEMBC(0x1d0) + CASEMBC(0x1ec9) + EMIT2('i'); EMIT2(i_grave); EMIT2(i_acute); + EMIT2(i_circumflex); EMIT2(i_diaeresis); + EMITMBC(0x129) EMITMBC(0x12b) + EMITMBC(0x12d) EMITMBC(0x12f) EMITMBC(0x1d0) + EMITMBC(0x1ec9) + return OK; + + case 'j': CASEMBC(0x135) CASEMBC(0x1f0) + EMIT2('j'); EMITMBC(0x135) EMITMBC(0x1f0) + return OK; + + case 'k': CASEMBC(0x137) CASEMBC(0x1e9) CASEMBC(0x1e31) + CASEMBC(0x1e35) + EMIT2('k'); EMITMBC(0x137) EMITMBC(0x1e9) EMITMBC(0x1e31) + EMITMBC(0x1e35) + return OK; + + case 'l': CASEMBC(0x13a) CASEMBC(0x13c) CASEMBC(0x13e) + CASEMBC(0x140) CASEMBC(0x142) CASEMBC(0x1e3b) + EMIT2('l'); EMITMBC(0x13a) EMITMBC(0x13c) EMITMBC(0x13e) + EMITMBC(0x140) EMITMBC(0x142) EMITMBC(0x1e3b) + return OK; + + case 'm': CASEMBC(0x1e3f) CASEMBC(0x1e41) + EMIT2('m'); EMITMBC(0x1e3f) EMITMBC(0x1e41) + return OK; + + case 'n': case n_virguilla: CASEMBC(0x144) CASEMBC(0x146) + CASEMBC(0x148) CASEMBC(0x149) CASEMBC(0x1e45) + CASEMBC(0x1e49) + EMIT2('n'); EMIT2(n_virguilla); + EMITMBC(0x144) EMITMBC(0x146) + EMITMBC(0x148) EMITMBC(0x149) EMITMBC(0x1e45) + EMITMBC(0x1e49) + return OK; + + case 'o': case o_grave: case o_acute: case o_circumflex: + case o_virguilla: case o_diaeresis: case o_slash: + CASEMBC(0x14d) CASEMBC(0x14f) CASEMBC(0x151) + CASEMBC(0x1a1) CASEMBC(0x1d2) CASEMBC(0x1eb) + CASEMBC(0x1ed) CASEMBC(0x1ecf) + EMIT2('o'); EMIT2(o_grave); EMIT2(o_acute); + EMIT2(o_circumflex); EMIT2(o_virguilla); + EMIT2(o_diaeresis); EMIT2(o_slash); + EMITMBC(0x14d) EMITMBC(0x14f) EMITMBC(0x151) + EMITMBC(0x1a1) EMITMBC(0x1d2) EMITMBC(0x1eb) + EMITMBC(0x1ed) EMITMBC(0x1ecf) + return OK; + + case 'p': CASEMBC(0x1e55) CASEMBC(0x1e57) + EMIT2('p'); EMITMBC(0x1e55) EMITMBC(0x1e57) + return OK; + + case 'r': CASEMBC(0x155) CASEMBC(0x157) CASEMBC(0x159) + CASEMBC(0x1e59) CASEMBC(0x1e5f) + EMIT2('r'); EMITMBC(0x155) EMITMBC(0x157) EMITMBC(0x159) + EMITMBC(0x1e59) EMITMBC(0x1e5f) + return OK; + + case 's': CASEMBC(0x15b) CASEMBC(0x15d) CASEMBC(0x15f) + CASEMBC(0x161) CASEMBC(0x1e61) + EMIT2('s'); EMITMBC(0x15b) EMITMBC(0x15d) EMITMBC(0x15f) + EMITMBC(0x161) EMITMBC(0x1e61) + return OK; + + case 't': CASEMBC(0x163) CASEMBC(0x165) CASEMBC(0x167) + CASEMBC(0x1e6b) CASEMBC(0x1e6f) CASEMBC(0x1e97) + EMIT2('t'); EMITMBC(0x163) EMITMBC(0x165) EMITMBC(0x167) + EMITMBC(0x1e6b) EMITMBC(0x1e6f) EMITMBC(0x1e97) + return OK; + + case 'u': case u_grave: case u_acute: case u_circumflex: + case u_diaeresis: CASEMBC(0x169) CASEMBC(0x16b) + CASEMBC(0x16d) CASEMBC(0x16f) CASEMBC(0x171) + CASEMBC(0x173) CASEMBC(0x1b0) CASEMBC(0x1d4) + CASEMBC(0x1ee7) + EMIT2('u'); EMIT2(u_grave); EMIT2(u_acute); + EMIT2(u_circumflex); EMIT2(u_diaeresis); + EMITMBC(0x169) EMITMBC(0x16b) + EMITMBC(0x16d) EMITMBC(0x16f) EMITMBC(0x171) + EMITMBC(0x173) EMITMBC(0x1b0) EMITMBC(0x1d4) + EMITMBC(0x1ee7) + return OK; + + case 'v': CASEMBC(0x1e7d) + EMIT2('v'); EMITMBC(0x1e7d) + return OK; + + case 'w': CASEMBC(0x175) CASEMBC(0x1e81) CASEMBC(0x1e83) + CASEMBC(0x1e85) CASEMBC(0x1e87) CASEMBC(0x1e98) + EMIT2('w'); EMITMBC(0x175) EMITMBC(0x1e81) EMITMBC(0x1e83) + EMITMBC(0x1e85) EMITMBC(0x1e87) EMITMBC(0x1e98) + return OK; + + case 'x': CASEMBC(0x1e8b) CASEMBC(0x1e8d) + EMIT2('x'); EMITMBC(0x1e8b) EMITMBC(0x1e8d) + return OK; + + case 'y': case y_acute: case y_diaeresis: CASEMBC(0x177) + CASEMBC(0x1e8f) CASEMBC(0x1e99) CASEMBC(0x1ef3) + CASEMBC(0x1ef7) CASEMBC(0x1ef9) + EMIT2('y'); EMIT2(y_acute); EMIT2(y_diaeresis); + EMITMBC(0x177) + EMITMBC(0x1e8f) EMITMBC(0x1e99) EMITMBC(0x1ef3) + EMITMBC(0x1ef7) EMITMBC(0x1ef9) + return OK; + + case 'z': CASEMBC(0x17a) CASEMBC(0x17c) CASEMBC(0x17e) + CASEMBC(0x1b6) CASEMBC(0x1e91) CASEMBC(0x1e95) + EMIT2('z'); EMITMBC(0x17a) EMITMBC(0x17c) EMITMBC(0x17e) + EMITMBC(0x1b6) EMITMBC(0x1e91) EMITMBC(0x1e95) + return OK; + + /* default: character itself */ + } + } + + EMIT2(c); + return OK; +#undef EMIT2 +#undef EMITMBC +} + +/* + * Code to parse regular expression. + * + * We try to reuse parsing functions in regexp.c to + * minimize surprise and keep the syntax consistent. + */ + +/* + * Parse the lowest level. + * + * An atom can be one of a long list of items. Many atoms match one character + * in the text. It is often an ordinary character or a character class. + * Braces can be used to make a pattern into an atom. The "\z(\)" construct + * is only for syntax highlighting. + * + * atom ::= ordinary-atom + * or \( pattern \) + * or \%( pattern \) + * or \z( pattern \) + */ + static int +nfa_regatom(void) +{ + int c; + int charclass; + int equiclass; + int collclass; + int got_coll_char; + char_u *p; + char_u *endp; + char_u *old_regparse = regparse; + int extra = 0; + int emit_range; + int negated; + int result; + int startc = -1; + int endc = -1; + int oldstartc = -1; + int save_prev_at_start = prev_at_start; + + c = getchr(); + switch (c) + { + case NUL: + EMSG_RET_FAIL(_(e_nul_found)); + + case Magic('^'): + EMIT(NFA_BOL); + break; + + case Magic('$'): + EMIT(NFA_EOL); +#if defined(FEAT_SYN_HL) || defined(PROTO) + had_eol = TRUE; +#endif + break; + + case Magic('<'): + EMIT(NFA_BOW); + break; + + case Magic('>'): + EMIT(NFA_EOW); + break; + + case Magic('_'): + c = no_Magic(getchr()); + if (c == NUL) + EMSG_RET_FAIL(_(e_nul_found)); + + if (c == '^') /* "\_^" is start-of-line */ + { + EMIT(NFA_BOL); + break; + } + if (c == '$') /* "\_$" is end-of-line */ + { + EMIT(NFA_EOL); +#if defined(FEAT_SYN_HL) || defined(PROTO) + had_eol = TRUE; +#endif + break; + } + + extra = NFA_ADD_NL; + + /* "\_[" is collection plus newline */ + if (c == '[') + goto collection; + + /* "\_x" is character class plus newline */ + /* FALLTHROUGH */ + + /* + * Character classes. + */ + case Magic('.'): + case Magic('i'): + case Magic('I'): + case Magic('k'): + case Magic('K'): + case Magic('f'): + case Magic('F'): + case Magic('p'): + case Magic('P'): + case Magic('s'): + case Magic('S'): + case Magic('d'): + case Magic('D'): + case Magic('x'): + case Magic('X'): + case Magic('o'): + case Magic('O'): + case Magic('w'): + case Magic('W'): + case Magic('h'): + case Magic('H'): + case Magic('a'): + case Magic('A'): + case Magic('l'): + case Magic('L'): + case Magic('u'): + case Magic('U'): + p = vim_strchr(classchars, no_Magic(c)); + if (p == NULL) + { + if (extra == NFA_ADD_NL) + { + semsg(_(e_ill_char_class), c); + rc_did_emsg = TRUE; + return FAIL; + } + siemsg("INTERNAL: Unknown character class char: %d", c); + return FAIL; + } + + /* When '.' is followed by a composing char ignore the dot, so that + * the composing char is matched here. */ + if (enc_utf8 && c == Magic('.') && utf_iscomposing(peekchr())) + { + old_regparse = regparse; + c = getchr(); + goto nfa_do_multibyte; + } + EMIT(nfa_classcodes[p - classchars]); + if (extra == NFA_ADD_NL) + { + EMIT(NFA_NEWL); + EMIT(NFA_OR); + regflags |= RF_HASNL; + } + break; + + case Magic('n'): + if (reg_string) + /* In a string "\n" matches a newline character. */ + EMIT(NL); + else + { + /* In buffer text "\n" matches the end of a line. */ + EMIT(NFA_NEWL); + regflags |= RF_HASNL; + } + break; + + case Magic('('): + if (nfa_reg(REG_PAREN) == FAIL) + return FAIL; /* cascaded error */ + break; + + case Magic('|'): + case Magic('&'): + case Magic(')'): + semsg(_(e_misplaced), no_Magic(c)); + return FAIL; + + case Magic('='): + case Magic('?'): + case Magic('+'): + case Magic('@'): + case Magic('*'): + case Magic('{'): + /* these should follow an atom, not form an atom */ + semsg(_(e_misplaced), no_Magic(c)); + return FAIL; + + case Magic('~'): + { + char_u *lp; + + /* Previous substitute pattern. + * Generated as "\%(pattern\)". */ + if (reg_prev_sub == NULL) + { + emsg(_(e_nopresub)); + return FAIL; + } + for (lp = reg_prev_sub; *lp != NUL; MB_CPTR_ADV(lp)) + { + EMIT(PTR2CHAR(lp)); + if (lp != reg_prev_sub) + EMIT(NFA_CONCAT); + } + EMIT(NFA_NOPEN); + break; + } + + case Magic('1'): + case Magic('2'): + case Magic('3'): + case Magic('4'): + case Magic('5'): + case Magic('6'): + case Magic('7'): + case Magic('8'): + case Magic('9'): + { + int refnum = no_Magic(c) - '1'; + + if (!seen_endbrace(refnum + 1)) + return FAIL; + EMIT(NFA_BACKREF1 + refnum); + rex.nfa_has_backref = TRUE; + } + break; + + case Magic('z'): + c = no_Magic(getchr()); + switch (c) + { + case 's': + EMIT(NFA_ZSTART); + if (re_mult_next("\\zs") == FAIL) + return FAIL; + break; + case 'e': + EMIT(NFA_ZEND); + rex.nfa_has_zend = TRUE; + if (re_mult_next("\\ze") == FAIL) + return FAIL; + break; +#ifdef FEAT_SYN_HL + case '1': + case '2': + case '3': + case '4': + case '5': + case '6': + case '7': + case '8': + case '9': + /* \z1...\z9 */ + if ((reg_do_extmatch & REX_USE) == 0) + EMSG_RET_FAIL(_(e_z1_not_allowed)); + EMIT(NFA_ZREF1 + (no_Magic(c) - '1')); + /* No need to set rex.nfa_has_backref, the sub-matches don't + * change when \z1 .. \z9 matches or not. */ + re_has_z = REX_USE; + break; + case '(': + /* \z( */ + if ((reg_do_extmatch & REX_SET) == 0) + EMSG_RET_FAIL(_(e_z_not_allowed)); + if (nfa_reg(REG_ZPAREN) == FAIL) + return FAIL; /* cascaded error */ + re_has_z = REX_SET; + break; +#endif + default: + semsg(_("E867: (NFA) Unknown operator '\\z%c'"), + no_Magic(c)); + return FAIL; + } + break; + + case Magic('%'): + c = no_Magic(getchr()); + switch (c) + { + /* () without a back reference */ + case '(': + if (nfa_reg(REG_NPAREN) == FAIL) + return FAIL; + EMIT(NFA_NOPEN); + break; + + case 'd': /* %d123 decimal */ + case 'o': /* %o123 octal */ + case 'x': /* %xab hex 2 */ + case 'u': /* %uabcd hex 4 */ + case 'U': /* %U1234abcd hex 8 */ + { + long nr; + + switch (c) + { + case 'd': nr = getdecchrs(); break; + case 'o': nr = getoctchrs(); break; + case 'x': nr = gethexchrs(2); break; + case 'u': nr = gethexchrs(4); break; + case 'U': nr = gethexchrs(8); break; + default: nr = -1; break; + } + + if (nr < 0) + EMSG2_RET_FAIL( + _("E678: Invalid character after %s%%[dxouU]"), + reg_magic == MAGIC_ALL); + /* A NUL is stored in the text as NL */ + /* TODO: what if a composing character follows? */ + EMIT(nr == 0 ? 0x0a : nr); + } + break; + + /* Catch \%^ and \%$ regardless of where they appear in the + * pattern -- regardless of whether or not it makes sense. */ + case '^': + EMIT(NFA_BOF); + break; + + case '$': + EMIT(NFA_EOF); + break; + + case '#': + EMIT(NFA_CURSOR); + break; + + case 'V': + EMIT(NFA_VISUAL); + break; + + case 'C': + EMIT(NFA_ANY_COMPOSING); + break; + + case '[': + { + int n; + + /* \%[abc] */ + for (n = 0; (c = peekchr()) != ']'; ++n) + { + if (c == NUL) + EMSG2_RET_FAIL(_(e_missing_sb), + reg_magic == MAGIC_ALL); + /* recursive call! */ + if (nfa_regatom() == FAIL) + return FAIL; + } + getchr(); /* get the ] */ + if (n == 0) + EMSG2_RET_FAIL(_(e_empty_sb), + reg_magic == MAGIC_ALL); + EMIT(NFA_OPT_CHARS); + EMIT(n); + + /* Emit as "\%(\%[abc]\)" to be able to handle + * "\%[abc]*" which would cause the empty string to be + * matched an unlimited number of times. NFA_NOPEN is + * added only once at a position, while NFA_SPLIT is + * added multiple times. This is more efficient than + * not allowing NFA_SPLIT multiple times, it is used + * a lot. */ + EMIT(NFA_NOPEN); + break; + } + + default: + { + long n = 0; + int cmp = c; + + if (c == '<' || c == '>') + c = getchr(); + while (VIM_ISDIGIT(c)) + { + n = n * 10 + (c - '0'); + c = getchr(); + } + if (c == 'l' || c == 'c' || c == 'v') + { + if (c == 'l') + { + /* \%{n}l \%{n}<l \%{n}>l */ + EMIT(cmp == '<' ? NFA_LNUM_LT : + cmp == '>' ? NFA_LNUM_GT : NFA_LNUM); + if (save_prev_at_start) + at_start = TRUE; + } + else if (c == 'c') + /* \%{n}c \%{n}<c \%{n}>c */ + EMIT(cmp == '<' ? NFA_COL_LT : + cmp == '>' ? NFA_COL_GT : NFA_COL); + else + /* \%{n}v \%{n}<v \%{n}>v */ + EMIT(cmp == '<' ? NFA_VCOL_LT : + cmp == '>' ? NFA_VCOL_GT : NFA_VCOL); +#if VIM_SIZEOF_INT < VIM_SIZEOF_LONG + if (n > INT_MAX) + { + emsg(_("E951: \\% value too large")); + return FAIL; + } +#endif + EMIT((int)n); + break; + } + else if (c == '\'' && n == 0) + { + /* \%'m \%<'m \%>'m */ + EMIT(cmp == '<' ? NFA_MARK_LT : + cmp == '>' ? NFA_MARK_GT : NFA_MARK); + EMIT(getchr()); + break; + } + } + semsg(_("E867: (NFA) Unknown operator '\\%%%c'"), + no_Magic(c)); + return FAIL; + } + break; + + case Magic('['): +collection: + /* + * [abc] uses NFA_START_COLL - NFA_END_COLL + * [^abc] uses NFA_START_NEG_COLL - NFA_END_NEG_COLL + * Each character is produced as a regular state, using + * NFA_CONCAT to bind them together. + * Besides normal characters there can be: + * - character classes NFA_CLASS_* + * - ranges, two characters followed by NFA_RANGE. + */ + + p = regparse; + endp = skip_anyof(p); + if (*endp == ']') + { + /* + * Try to reverse engineer character classes. For example, + * recognize that [0-9] stands for \d and [A-Za-z_] for \h, + * and perform the necessary substitutions in the NFA. + */ + result = nfa_recognize_char_class(regparse, endp, + extra == NFA_ADD_NL); + if (result != FAIL) + { + if (result >= NFA_FIRST_NL && result <= NFA_LAST_NL) + { + EMIT(result - NFA_ADD_NL); + EMIT(NFA_NEWL); + EMIT(NFA_OR); + } + else + EMIT(result); + regparse = endp; + MB_PTR_ADV(regparse); + return OK; + } + /* + * Failed to recognize a character class. Use the simple + * version that turns [abc] into 'a' OR 'b' OR 'c' + */ + startc = endc = oldstartc = -1; + negated = FALSE; + if (*regparse == '^') /* negated range */ + { + negated = TRUE; + MB_PTR_ADV(regparse); + EMIT(NFA_START_NEG_COLL); + } + else + EMIT(NFA_START_COLL); + if (*regparse == '-') + { + startc = '-'; + EMIT(startc); + EMIT(NFA_CONCAT); + MB_PTR_ADV(regparse); + } + /* Emit the OR branches for each character in the [] */ + emit_range = FALSE; + while (regparse < endp) + { + oldstartc = startc; + startc = -1; + got_coll_char = FALSE; + if (*regparse == '[') + { + /* Check for [: :], [= =], [. .] */ + equiclass = collclass = 0; + charclass = get_char_class(®parse); + if (charclass == CLASS_NONE) + { + equiclass = get_equi_class(®parse); + if (equiclass == 0) + collclass = get_coll_element(®parse); + } + + /* Character class like [:alpha:] */ + if (charclass != CLASS_NONE) + { + switch (charclass) + { + case CLASS_ALNUM: + EMIT(NFA_CLASS_ALNUM); + break; + case CLASS_ALPHA: + EMIT(NFA_CLASS_ALPHA); + break; + case CLASS_BLANK: + EMIT(NFA_CLASS_BLANK); + break; + case CLASS_CNTRL: + EMIT(NFA_CLASS_CNTRL); + break; + case CLASS_DIGIT: + EMIT(NFA_CLASS_DIGIT); + break; + case CLASS_GRAPH: + EMIT(NFA_CLASS_GRAPH); + break; + case CLASS_LOWER: + EMIT(NFA_CLASS_LOWER); + break; + case CLASS_PRINT: + EMIT(NFA_CLASS_PRINT); + break; + case CLASS_PUNCT: + EMIT(NFA_CLASS_PUNCT); + break; + case CLASS_SPACE: + EMIT(NFA_CLASS_SPACE); + break; + case CLASS_UPPER: + EMIT(NFA_CLASS_UPPER); + break; + case CLASS_XDIGIT: + EMIT(NFA_CLASS_XDIGIT); + break; + case CLASS_TAB: + EMIT(NFA_CLASS_TAB); + break; + case CLASS_RETURN: + EMIT(NFA_CLASS_RETURN); + break; + case CLASS_BACKSPACE: + EMIT(NFA_CLASS_BACKSPACE); + break; + case CLASS_ESCAPE: + EMIT(NFA_CLASS_ESCAPE); + break; + case CLASS_IDENT: + EMIT(NFA_CLASS_IDENT); + break; + case CLASS_KEYWORD: + EMIT(NFA_CLASS_KEYWORD); + break; + case CLASS_FNAME: + EMIT(NFA_CLASS_FNAME); + break; + } + EMIT(NFA_CONCAT); + continue; + } + /* Try equivalence class [=a=] and the like */ + if (equiclass != 0) + { + result = nfa_emit_equi_class(equiclass); + if (result == FAIL) + { + /* should never happen */ + EMSG_RET_FAIL(_("E868: Error building NFA with equivalence class!")); + } + continue; + } + /* Try collating class like [. .] */ + if (collclass != 0) + { + startc = collclass; /* allow [.a.]-x as a range */ + /* Will emit the proper atom at the end of the + * while loop. */ + } + } + /* Try a range like 'a-x' or '\t-z'. Also allows '-' as a + * start character. */ + if (*regparse == '-' && oldstartc != -1) + { + emit_range = TRUE; + startc = oldstartc; + MB_PTR_ADV(regparse); + continue; /* reading the end of the range */ + } + + /* Now handle simple and escaped characters. + * Only "\]", "\^", "\]" and "\\" are special in Vi. Vim + * accepts "\t", "\e", etc., but only when the 'l' flag in + * 'cpoptions' is not included. + * Posix doesn't recognize backslash at all. + */ + if (*regparse == '\\' + && !reg_cpo_bsl + && regparse + 1 <= endp + && (vim_strchr(REGEXP_INRANGE, regparse[1]) != NULL + || (!reg_cpo_lit + && vim_strchr(REGEXP_ABBR, regparse[1]) + != NULL) + ) + ) + { + MB_PTR_ADV(regparse); + + if (*regparse == 'n') + startc = reg_string ? NL : NFA_NEWL; + else + if (*regparse == 'd' + || *regparse == 'o' + || *regparse == 'x' + || *regparse == 'u' + || *regparse == 'U' + ) + { + /* TODO(RE) This needs more testing */ + startc = coll_get_char(); + got_coll_char = TRUE; + MB_PTR_BACK(old_regparse, regparse); + } + else + { + /* \r,\t,\e,\b */ + startc = backslash_trans(*regparse); + } + } + + /* Normal printable char */ + if (startc == -1) + startc = PTR2CHAR(regparse); + + /* Previous char was '-', so this char is end of range. */ + if (emit_range) + { + endc = startc; + startc = oldstartc; + if (startc > endc) + EMSG_RET_FAIL(_(e_reverse_range)); + + if (endc > startc + 2) + { + /* Emit a range instead of the sequence of + * individual characters. */ + if (startc == 0) + /* \x00 is translated to \x0a, start at \x01. */ + EMIT(1); + else + --post_ptr; /* remove NFA_CONCAT */ + EMIT(endc); + EMIT(NFA_RANGE); + EMIT(NFA_CONCAT); + } + else if (has_mbyte && ((*mb_char2len)(startc) > 1 + || (*mb_char2len)(endc) > 1)) + { + /* Emit the characters in the range. + * "startc" was already emitted, so skip it. + * */ + for (c = startc + 1; c <= endc; c++) + { + EMIT(c); + EMIT(NFA_CONCAT); + } + } + else + { +#ifdef EBCDIC + int alpha_only = FALSE; + + /* for alphabetical range skip the gaps + * 'i'-'j', 'r'-'s', 'I'-'J' and 'R'-'S'. */ + if (isalpha(startc) && isalpha(endc)) + alpha_only = TRUE; +#endif + /* Emit the range. "startc" was already emitted, so + * skip it. */ + for (c = startc + 1; c <= endc; c++) +#ifdef EBCDIC + if (!alpha_only || isalpha(startc)) +#endif + { + EMIT(c); + EMIT(NFA_CONCAT); + } + } + emit_range = FALSE; + startc = -1; + } + else + { + /* This char (startc) is not part of a range. Just + * emit it. + * Normally, simply emit startc. But if we get char + * code=0 from a collating char, then replace it with + * 0x0a. + * This is needed to completely mimic the behaviour of + * the backtracking engine. */ + if (startc == NFA_NEWL) + { + /* Line break can't be matched as part of the + * collection, add an OR below. But not for negated + * range. */ + if (!negated) + extra = NFA_ADD_NL; + } + else + { + if (got_coll_char == TRUE && startc == 0) + EMIT(0x0a); + else + EMIT(startc); + EMIT(NFA_CONCAT); + } + } + + MB_PTR_ADV(regparse); + } /* while (p < endp) */ + + MB_PTR_BACK(old_regparse, regparse); + if (*regparse == '-') /* if last, '-' is just a char */ + { + EMIT('-'); + EMIT(NFA_CONCAT); + } + + /* skip the trailing ] */ + regparse = endp; + MB_PTR_ADV(regparse); + + /* Mark end of the collection. */ + if (negated == TRUE) + EMIT(NFA_END_NEG_COLL); + else + EMIT(NFA_END_COLL); + + /* \_[] also matches \n but it's not negated */ + if (extra == NFA_ADD_NL) + { + EMIT(reg_string ? NL : NFA_NEWL); + EMIT(NFA_OR); + } + + return OK; + } /* if exists closing ] */ + + if (reg_strict) + EMSG_RET_FAIL(_(e_missingbracket)); + /* FALLTHROUGH */ + + default: + { + int plen; + +nfa_do_multibyte: + /* plen is length of current char with composing chars */ + if (enc_utf8 && ((*mb_char2len)(c) + != (plen = utfc_ptr2len(old_regparse)) + || utf_iscomposing(c))) + { + int i = 0; + + /* A base character plus composing characters, or just one + * or more composing characters. + * This requires creating a separate atom as if enclosing + * the characters in (), where NFA_COMPOSING is the ( and + * NFA_END_COMPOSING is the ). Note that right now we are + * building the postfix form, not the NFA itself; + * a composing char could be: a, b, c, NFA_COMPOSING + * where 'b' and 'c' are chars with codes > 256. */ + for (;;) + { + EMIT(c); + if (i > 0) + EMIT(NFA_CONCAT); + if ((i += utf_char2len(c)) >= plen) + break; + c = utf_ptr2char(old_regparse + i); + } + EMIT(NFA_COMPOSING); + regparse = old_regparse + plen; + } + else + { + c = no_Magic(c); + EMIT(c); + } + return OK; + } + } + + return OK; +} + +/* + * Parse something followed by possible [*+=]. + * + * A piece is an atom, possibly followed by a multi, an indication of how many + * times the atom can be matched. Example: "a*" matches any sequence of "a" + * characters: "", "a", "aa", etc. + * + * piece ::= atom + * or atom multi + */ + static int +nfa_regpiece(void) +{ + int i; + int op; + int ret; + long minval, maxval; + int greedy = TRUE; /* Braces are prefixed with '-' ? */ + parse_state_T old_state; + parse_state_T new_state; + long c2; + int old_post_pos; + int my_post_start; + int quest; + + /* Save the current parse state, so that we can use it if <atom>{m,n} is + * next. */ + save_parse_state(&old_state); + + /* store current pos in the postfix form, for \{m,n} involving 0s */ + my_post_start = (int)(post_ptr - post_start); + + ret = nfa_regatom(); + if (ret == FAIL) + return FAIL; /* cascaded error */ + + op = peekchr(); + if (re_multi_type(op) == NOT_MULTI) + return OK; + + skipchr(); + switch (op) + { + case Magic('*'): + EMIT(NFA_STAR); + break; + + case Magic('+'): + /* + * Trick: Normally, (a*)\+ would match the whole input "aaa". The + * first and only submatch would be "aaa". But the backtracking + * engine interprets the plus as "try matching one more time", and + * a* matches a second time at the end of the input, the empty + * string. + * The submatch will be the empty string. + * + * In order to be consistent with the old engine, we replace + * <atom>+ with <atom><atom>* + */ + restore_parse_state(&old_state); + curchr = -1; + if (nfa_regatom() == FAIL) + return FAIL; + EMIT(NFA_STAR); + EMIT(NFA_CONCAT); + skipchr(); /* skip the \+ */ + break; + + case Magic('@'): + c2 = getdecchrs(); + op = no_Magic(getchr()); + i = 0; + switch(op) + { + case '=': + /* \@= */ + i = NFA_PREV_ATOM_NO_WIDTH; + break; + case '!': + /* \@! */ + i = NFA_PREV_ATOM_NO_WIDTH_NEG; + break; + case '<': + op = no_Magic(getchr()); + if (op == '=') + /* \@<= */ + i = NFA_PREV_ATOM_JUST_BEFORE; + else if (op == '!') + /* \@<! */ + i = NFA_PREV_ATOM_JUST_BEFORE_NEG; + break; + case '>': + /* \@> */ + i = NFA_PREV_ATOM_LIKE_PATTERN; + break; + } + if (i == 0) + { + semsg(_("E869: (NFA) Unknown operator '\\@%c'"), op); + return FAIL; + } + EMIT(i); + if (i == NFA_PREV_ATOM_JUST_BEFORE + || i == NFA_PREV_ATOM_JUST_BEFORE_NEG) + EMIT(c2); + break; + + case Magic('?'): + case Magic('='): + EMIT(NFA_QUEST); + break; + + case Magic('{'): + /* a{2,5} will expand to 'aaa?a?a?' + * a{-1,3} will expand to 'aa??a??', where ?? is the nongreedy + * version of '?' + * \v(ab){2,3} will expand to '(ab)(ab)(ab)?', where all the + * parenthesis have the same id + */ + + greedy = TRUE; + c2 = peekchr(); + if (c2 == '-' || c2 == Magic('-')) + { + skipchr(); + greedy = FALSE; + } + if (!read_limits(&minval, &maxval)) + EMSG_RET_FAIL(_("E870: (NFA regexp) Error reading repetition limits")); + + /* <atom>{0,inf}, <atom>{0,} and <atom>{} are equivalent to + * <atom>* */ + if (minval == 0 && maxval == MAX_LIMIT) + { + if (greedy) /* { { (match the braces) */ + /* \{}, \{0,} */ + EMIT(NFA_STAR); + else /* { { (match the braces) */ + /* \{-}, \{-0,} */ + EMIT(NFA_STAR_NONGREEDY); + break; + } + + /* Special case: x{0} or x{-0} */ + if (maxval == 0) + { + /* Ignore result of previous call to nfa_regatom() */ + post_ptr = post_start + my_post_start; + /* NFA_EMPTY is 0-length and works everywhere */ + EMIT(NFA_EMPTY); + return OK; + } + + /* The engine is very inefficient (uses too many states) when the + * maximum is much larger than the minimum and when the maximum is + * large. Bail out if we can use the other engine. */ + if ((nfa_re_flags & RE_AUTO) + && (maxval > 500 || maxval > minval + 200)) + return FAIL; + + /* Ignore previous call to nfa_regatom() */ + post_ptr = post_start + my_post_start; + /* Save parse state after the repeated atom and the \{} */ + save_parse_state(&new_state); + + quest = (greedy == TRUE? NFA_QUEST : NFA_QUEST_NONGREEDY); + for (i = 0; i < maxval; i++) + { + /* Goto beginning of the repeated atom */ + restore_parse_state(&old_state); + old_post_pos = (int)(post_ptr - post_start); + if (nfa_regatom() == FAIL) + return FAIL; + /* after "minval" times, atoms are optional */ + if (i + 1 > minval) + { + if (maxval == MAX_LIMIT) + { + if (greedy) + EMIT(NFA_STAR); + else + EMIT(NFA_STAR_NONGREEDY); + } + else + EMIT(quest); + } + if (old_post_pos != my_post_start) + EMIT(NFA_CONCAT); + if (i + 1 > minval && maxval == MAX_LIMIT) + break; + } + + /* Go to just after the repeated atom and the \{} */ + restore_parse_state(&new_state); + curchr = -1; + + break; + + + default: + break; + } /* end switch */ + + if (re_multi_type(peekchr()) != NOT_MULTI) + /* Can't have a multi follow a multi. */ + EMSG_RET_FAIL(_("E871: (NFA regexp) Can't have a multi follow a multi")); + + return OK; +} + +/* + * Parse one or more pieces, concatenated. It matches a match for the + * first piece, followed by a match for the second piece, etc. Example: + * "f[0-9]b", first matches "f", then a digit and then "b". + * + * concat ::= piece + * or piece piece + * or piece piece piece + * etc. + */ + static int +nfa_regconcat(void) +{ + int cont = TRUE; + int first = TRUE; + + while (cont) + { + switch (peekchr()) + { + case NUL: + case Magic('|'): + case Magic('&'): + case Magic(')'): + cont = FALSE; + break; + + case Magic('Z'): + regflags |= RF_ICOMBINE; + skipchr_keepstart(); + break; + case Magic('c'): + regflags |= RF_ICASE; + skipchr_keepstart(); + break; + case Magic('C'): + regflags |= RF_NOICASE; + skipchr_keepstart(); + break; + case Magic('v'): + reg_magic = MAGIC_ALL; + skipchr_keepstart(); + curchr = -1; + break; + case Magic('m'): + reg_magic = MAGIC_ON; + skipchr_keepstart(); + curchr = -1; + break; + case Magic('M'): + reg_magic = MAGIC_OFF; + skipchr_keepstart(); + curchr = -1; + break; + case Magic('V'): + reg_magic = MAGIC_NONE; + skipchr_keepstart(); + curchr = -1; + break; + + default: + if (nfa_regpiece() == FAIL) + return FAIL; + if (first == FALSE) + EMIT(NFA_CONCAT); + else + first = FALSE; + break; + } + } + + return OK; +} + +/* + * Parse a branch, one or more concats, separated by "\&". It matches the + * last concat, but only if all the preceding concats also match at the same + * position. Examples: + * "foobeep\&..." matches "foo" in "foobeep". + * ".*Peter\&.*Bob" matches in a line containing both "Peter" and "Bob" + * + * branch ::= concat + * or concat \& concat + * or concat \& concat \& concat + * etc. + */ + static int +nfa_regbranch(void) +{ + int old_post_pos; + + old_post_pos = (int)(post_ptr - post_start); + + /* First branch, possibly the only one */ + if (nfa_regconcat() == FAIL) + return FAIL; + + /* Try next concats */ + while (peekchr() == Magic('&')) + { + skipchr(); + /* if concat is empty do emit a node */ + if (old_post_pos == (int)(post_ptr - post_start)) + EMIT(NFA_EMPTY); + EMIT(NFA_NOPEN); + EMIT(NFA_PREV_ATOM_NO_WIDTH); + old_post_pos = (int)(post_ptr - post_start); + if (nfa_regconcat() == FAIL) + return FAIL; + /* if concat is empty do emit a node */ + if (old_post_pos == (int)(post_ptr - post_start)) + EMIT(NFA_EMPTY); + EMIT(NFA_CONCAT); + } + + /* if a branch is empty, emit one node for it */ + if (old_post_pos == (int)(post_ptr - post_start)) + EMIT(NFA_EMPTY); + + return OK; +} + +/* + * Parse a pattern, one or more branches, separated by "\|". It matches + * anything that matches one of the branches. Example: "foo\|beep" matches + * "foo" and matches "beep". If more than one branch matches, the first one + * is used. + * + * pattern ::= branch + * or branch \| branch + * or branch \| branch \| branch + * etc. + */ + static int +nfa_reg( + int paren) /* REG_NOPAREN, REG_PAREN, REG_NPAREN or REG_ZPAREN */ +{ + int parno = 0; + + if (paren == REG_PAREN) + { + if (regnpar >= NSUBEXP) /* Too many `(' */ + EMSG_RET_FAIL(_("E872: (NFA regexp) Too many '('")); + parno = regnpar++; + } +#ifdef FEAT_SYN_HL + else if (paren == REG_ZPAREN) + { + /* Make a ZOPEN node. */ + if (regnzpar >= NSUBEXP) + EMSG_RET_FAIL(_("E879: (NFA regexp) Too many \\z(")); + parno = regnzpar++; + } +#endif + + if (nfa_regbranch() == FAIL) + return FAIL; /* cascaded error */ + + while (peekchr() == Magic('|')) + { + skipchr(); + if (nfa_regbranch() == FAIL) + return FAIL; /* cascaded error */ + EMIT(NFA_OR); + } + + /* Check for proper termination. */ + if (paren != REG_NOPAREN && getchr() != Magic(')')) + { + if (paren == REG_NPAREN) + EMSG2_RET_FAIL(_(e_unmatchedpp), reg_magic == MAGIC_ALL); + else + EMSG2_RET_FAIL(_(e_unmatchedp), reg_magic == MAGIC_ALL); + } + else if (paren == REG_NOPAREN && peekchr() != NUL) + { + if (peekchr() == Magic(')')) + EMSG2_RET_FAIL(_(e_unmatchedpar), reg_magic == MAGIC_ALL); + else + EMSG_RET_FAIL(_("E873: (NFA regexp) proper termination error")); + } + /* + * Here we set the flag allowing back references to this set of + * parentheses. + */ + if (paren == REG_PAREN) + { + had_endbrace[parno] = TRUE; /* have seen the close paren */ + EMIT(NFA_MOPEN + parno); + } +#ifdef FEAT_SYN_HL + else if (paren == REG_ZPAREN) + EMIT(NFA_ZOPEN + parno); +#endif + + return OK; +} + +#ifdef DEBUG +static char_u code[50]; + + static void +nfa_set_code(int c) +{ + int addnl = FALSE; + + if (c >= NFA_FIRST_NL && c <= NFA_LAST_NL) + { + addnl = TRUE; + c -= NFA_ADD_NL; + } + + STRCPY(code, ""); + switch (c) + { + case NFA_MATCH: STRCPY(code, "NFA_MATCH "); break; + case NFA_SPLIT: STRCPY(code, "NFA_SPLIT "); break; + case NFA_CONCAT: STRCPY(code, "NFA_CONCAT "); break; + case NFA_NEWL: STRCPY(code, "NFA_NEWL "); break; + case NFA_ZSTART: STRCPY(code, "NFA_ZSTART"); break; + case NFA_ZEND: STRCPY(code, "NFA_ZEND"); break; + + case NFA_BACKREF1: STRCPY(code, "NFA_BACKREF1"); break; + case NFA_BACKREF2: STRCPY(code, "NFA_BACKREF2"); break; + case NFA_BACKREF3: STRCPY(code, "NFA_BACKREF3"); break; + case NFA_BACKREF4: STRCPY(code, "NFA_BACKREF4"); break; + case NFA_BACKREF5: STRCPY(code, "NFA_BACKREF5"); break; + case NFA_BACKREF6: STRCPY(code, "NFA_BACKREF6"); break; + case NFA_BACKREF7: STRCPY(code, "NFA_BACKREF7"); break; + case NFA_BACKREF8: STRCPY(code, "NFA_BACKREF8"); break; + case NFA_BACKREF9: STRCPY(code, "NFA_BACKREF9"); break; +#ifdef FEAT_SYN_HL + case NFA_ZREF1: STRCPY(code, "NFA_ZREF1"); break; + case NFA_ZREF2: STRCPY(code, "NFA_ZREF2"); break; + case NFA_ZREF3: STRCPY(code, "NFA_ZREF3"); break; + case NFA_ZREF4: STRCPY(code, "NFA_ZREF4"); break; + case NFA_ZREF5: STRCPY(code, "NFA_ZREF5"); break; + case NFA_ZREF6: STRCPY(code, "NFA_ZREF6"); break; + case NFA_ZREF7: STRCPY(code, "NFA_ZREF7"); break; + case NFA_ZREF8: STRCPY(code, "NFA_ZREF8"); break; + case NFA_ZREF9: STRCPY(code, "NFA_ZREF9"); break; +#endif + case NFA_SKIP: STRCPY(code, "NFA_SKIP"); break; + + case NFA_PREV_ATOM_NO_WIDTH: + STRCPY(code, "NFA_PREV_ATOM_NO_WIDTH"); break; + case NFA_PREV_ATOM_NO_WIDTH_NEG: + STRCPY(code, "NFA_PREV_ATOM_NO_WIDTH_NEG"); break; + case NFA_PREV_ATOM_JUST_BEFORE: + STRCPY(code, "NFA_PREV_ATOM_JUST_BEFORE"); break; + case NFA_PREV_ATOM_JUST_BEFORE_NEG: + STRCPY(code, "NFA_PREV_ATOM_JUST_BEFORE_NEG"); break; + case NFA_PREV_ATOM_LIKE_PATTERN: + STRCPY(code, "NFA_PREV_ATOM_LIKE_PATTERN"); break; + + case NFA_NOPEN: STRCPY(code, "NFA_NOPEN"); break; + case NFA_NCLOSE: STRCPY(code, "NFA_NCLOSE"); break; + case NFA_START_INVISIBLE: STRCPY(code, "NFA_START_INVISIBLE"); break; + case NFA_START_INVISIBLE_FIRST: + STRCPY(code, "NFA_START_INVISIBLE_FIRST"); break; + case NFA_START_INVISIBLE_NEG: + STRCPY(code, "NFA_START_INVISIBLE_NEG"); break; + case NFA_START_INVISIBLE_NEG_FIRST: + STRCPY(code, "NFA_START_INVISIBLE_NEG_FIRST"); break; + case NFA_START_INVISIBLE_BEFORE: + STRCPY(code, "NFA_START_INVISIBLE_BEFORE"); break; + case NFA_START_INVISIBLE_BEFORE_FIRST: + STRCPY(code, "NFA_START_INVISIBLE_BEFORE_FIRST"); break; + case NFA_START_INVISIBLE_BEFORE_NEG: + STRCPY(code, "NFA_START_INVISIBLE_BEFORE_NEG"); break; + case NFA_START_INVISIBLE_BEFORE_NEG_FIRST: + STRCPY(code, "NFA_START_INVISIBLE_BEFORE_NEG_FIRST"); break; + case NFA_START_PATTERN: STRCPY(code, "NFA_START_PATTERN"); break; + case NFA_END_INVISIBLE: STRCPY(code, "NFA_END_INVISIBLE"); break; + case NFA_END_INVISIBLE_NEG: STRCPY(code, "NFA_END_INVISIBLE_NEG"); break; + case NFA_END_PATTERN: STRCPY(code, "NFA_END_PATTERN"); break; + + case NFA_COMPOSING: STRCPY(code, "NFA_COMPOSING"); break; + case NFA_END_COMPOSING: STRCPY(code, "NFA_END_COMPOSING"); break; + case NFA_OPT_CHARS: STRCPY(code, "NFA_OPT_CHARS"); break; + + case NFA_MOPEN: + case NFA_MOPEN1: + case NFA_MOPEN2: + case NFA_MOPEN3: + case NFA_MOPEN4: + case NFA_MOPEN5: + case NFA_MOPEN6: + case NFA_MOPEN7: + case NFA_MOPEN8: + case NFA_MOPEN9: + STRCPY(code, "NFA_MOPEN(x)"); + code[10] = c - NFA_MOPEN + '0'; + break; + case NFA_MCLOSE: + case NFA_MCLOSE1: + case NFA_MCLOSE2: + case NFA_MCLOSE3: + case NFA_MCLOSE4: + case NFA_MCLOSE5: + case NFA_MCLOSE6: + case NFA_MCLOSE7: + case NFA_MCLOSE8: + case NFA_MCLOSE9: + STRCPY(code, "NFA_MCLOSE(x)"); + code[11] = c - NFA_MCLOSE + '0'; + break; +#ifdef FEAT_SYN_HL + case NFA_ZOPEN: + case NFA_ZOPEN1: + case NFA_ZOPEN2: + case NFA_ZOPEN3: + case NFA_ZOPEN4: + case NFA_ZOPEN5: + case NFA_ZOPEN6: + case NFA_ZOPEN7: + case NFA_ZOPEN8: + case NFA_ZOPEN9: + STRCPY(code, "NFA_ZOPEN(x)"); + code[10] = c - NFA_ZOPEN + '0'; + break; + case NFA_ZCLOSE: + case NFA_ZCLOSE1: + case NFA_ZCLOSE2: + case NFA_ZCLOSE3: + case NFA_ZCLOSE4: + case NFA_ZCLOSE5: + case NFA_ZCLOSE6: + case NFA_ZCLOSE7: + case NFA_ZCLOSE8: + case NFA_ZCLOSE9: + STRCPY(code, "NFA_ZCLOSE(x)"); + code[11] = c - NFA_ZCLOSE + '0'; + break; +#endif + case NFA_EOL: STRCPY(code, "NFA_EOL "); break; + case NFA_BOL: STRCPY(code, "NFA_BOL "); break; + case NFA_EOW: STRCPY(code, "NFA_EOW "); break; + case NFA_BOW: STRCPY(code, "NFA_BOW "); break; + case NFA_EOF: STRCPY(code, "NFA_EOF "); break; + case NFA_BOF: STRCPY(code, "NFA_BOF "); break; + case NFA_LNUM: STRCPY(code, "NFA_LNUM "); break; + case NFA_LNUM_GT: STRCPY(code, "NFA_LNUM_GT "); break; + case NFA_LNUM_LT: STRCPY(code, "NFA_LNUM_LT "); break; + case NFA_COL: STRCPY(code, "NFA_COL "); break; + case NFA_COL_GT: STRCPY(code, "NFA_COL_GT "); break; + case NFA_COL_LT: STRCPY(code, "NFA_COL_LT "); break; + case NFA_VCOL: STRCPY(code, "NFA_VCOL "); break; + case NFA_VCOL_GT: STRCPY(code, "NFA_VCOL_GT "); break; + case NFA_VCOL_LT: STRCPY(code, "NFA_VCOL_LT "); break; + case NFA_MARK: STRCPY(code, "NFA_MARK "); break; + case NFA_MARK_GT: STRCPY(code, "NFA_MARK_GT "); break; + case NFA_MARK_LT: STRCPY(code, "NFA_MARK_LT "); break; + case NFA_CURSOR: STRCPY(code, "NFA_CURSOR "); break; + case NFA_VISUAL: STRCPY(code, "NFA_VISUAL "); break; + case NFA_ANY_COMPOSING: STRCPY(code, "NFA_ANY_COMPOSING "); break; + + case NFA_STAR: STRCPY(code, "NFA_STAR "); break; + case NFA_STAR_NONGREEDY: STRCPY(code, "NFA_STAR_NONGREEDY "); break; + case NFA_QUEST: STRCPY(code, "NFA_QUEST"); break; + case NFA_QUEST_NONGREEDY: STRCPY(code, "NFA_QUEST_NON_GREEDY"); break; + case NFA_EMPTY: STRCPY(code, "NFA_EMPTY"); break; + case NFA_OR: STRCPY(code, "NFA_OR"); break; + + case NFA_START_COLL: STRCPY(code, "NFA_START_COLL"); break; + case NFA_END_COLL: STRCPY(code, "NFA_END_COLL"); break; + case NFA_START_NEG_COLL: STRCPY(code, "NFA_START_NEG_COLL"); break; + case NFA_END_NEG_COLL: STRCPY(code, "NFA_END_NEG_COLL"); break; + case NFA_RANGE: STRCPY(code, "NFA_RANGE"); break; + case NFA_RANGE_MIN: STRCPY(code, "NFA_RANGE_MIN"); break; + case NFA_RANGE_MAX: STRCPY(code, "NFA_RANGE_MAX"); break; + + case NFA_CLASS_ALNUM: STRCPY(code, "NFA_CLASS_ALNUM"); break; + case NFA_CLASS_ALPHA: STRCPY(code, "NFA_CLASS_ALPHA"); break; + case NFA_CLASS_BLANK: STRCPY(code, "NFA_CLASS_BLANK"); break; + case NFA_CLASS_CNTRL: STRCPY(code, "NFA_CLASS_CNTRL"); break; + case NFA_CLASS_DIGIT: STRCPY(code, "NFA_CLASS_DIGIT"); break; + case NFA_CLASS_GRAPH: STRCPY(code, "NFA_CLASS_GRAPH"); break; + case NFA_CLASS_LOWER: STRCPY(code, "NFA_CLASS_LOWER"); break; + case NFA_CLASS_PRINT: STRCPY(code, "NFA_CLASS_PRINT"); break; + case NFA_CLASS_PUNCT: STRCPY(code, "NFA_CLASS_PUNCT"); break; + case NFA_CLASS_SPACE: STRCPY(code, "NFA_CLASS_SPACE"); break; + case NFA_CLASS_UPPER: STRCPY(code, "NFA_CLASS_UPPER"); break; + case NFA_CLASS_XDIGIT: STRCPY(code, "NFA_CLASS_XDIGIT"); break; + case NFA_CLASS_TAB: STRCPY(code, "NFA_CLASS_TAB"); break; + case NFA_CLASS_RETURN: STRCPY(code, "NFA_CLASS_RETURN"); break; + case NFA_CLASS_BACKSPACE: STRCPY(code, "NFA_CLASS_BACKSPACE"); break; + case NFA_CLASS_ESCAPE: STRCPY(code, "NFA_CLASS_ESCAPE"); break; + case NFA_CLASS_IDENT: STRCPY(code, "NFA_CLASS_IDENT"); break; + case NFA_CLASS_KEYWORD: STRCPY(code, "NFA_CLASS_KEYWORD"); break; + case NFA_CLASS_FNAME: STRCPY(code, "NFA_CLASS_FNAME"); break; + + case NFA_ANY: STRCPY(code, "NFA_ANY"); break; + case NFA_IDENT: STRCPY(code, "NFA_IDENT"); break; + case NFA_SIDENT:STRCPY(code, "NFA_SIDENT"); break; + case NFA_KWORD: STRCPY(code, "NFA_KWORD"); break; + case NFA_SKWORD:STRCPY(code, "NFA_SKWORD"); break; + case NFA_FNAME: STRCPY(code, "NFA_FNAME"); break; + case NFA_SFNAME:STRCPY(code, "NFA_SFNAME"); break; + case NFA_PRINT: STRCPY(code, "NFA_PRINT"); break; + case NFA_SPRINT:STRCPY(code, "NFA_SPRINT"); break; + case NFA_WHITE: STRCPY(code, "NFA_WHITE"); break; + case NFA_NWHITE:STRCPY(code, "NFA_NWHITE"); break; + case NFA_DIGIT: STRCPY(code, "NFA_DIGIT"); break; + case NFA_NDIGIT:STRCPY(code, "NFA_NDIGIT"); break; + case NFA_HEX: STRCPY(code, "NFA_HEX"); break; + case NFA_NHEX: STRCPY(code, "NFA_NHEX"); break; + case NFA_OCTAL: STRCPY(code, "NFA_OCTAL"); break; + case NFA_NOCTAL:STRCPY(code, "NFA_NOCTAL"); break; + case NFA_WORD: STRCPY(code, "NFA_WORD"); break; + case NFA_NWORD: STRCPY(code, "NFA_NWORD"); break; + case NFA_HEAD: STRCPY(code, "NFA_HEAD"); break; + case NFA_NHEAD: STRCPY(code, "NFA_NHEAD"); break; + case NFA_ALPHA: STRCPY(code, "NFA_ALPHA"); break; + case NFA_NALPHA:STRCPY(code, "NFA_NALPHA"); break; + case NFA_LOWER: STRCPY(code, "NFA_LOWER"); break; + case NFA_NLOWER:STRCPY(code, "NFA_NLOWER"); break; + case NFA_UPPER: STRCPY(code, "NFA_UPPER"); break; + case NFA_NUPPER:STRCPY(code, "NFA_NUPPER"); break; + case NFA_LOWER_IC: STRCPY(code, "NFA_LOWER_IC"); break; + case NFA_NLOWER_IC: STRCPY(code, "NFA_NLOWER_IC"); break; + case NFA_UPPER_IC: STRCPY(code, "NFA_UPPER_IC"); break; + case NFA_NUPPER_IC: STRCPY(code, "NFA_NUPPER_IC"); break; + + default: + STRCPY(code, "CHAR(x)"); + code[5] = c; + } + + if (addnl == TRUE) + STRCAT(code, " + NEWLINE "); + +} + +#ifdef ENABLE_LOG +static FILE *log_fd; +static char_u e_log_open_failed[] = N_("Could not open temporary log file for writing, displaying on stderr... "); + +/* + * Print the postfix notation of the current regexp. + */ + static void +nfa_postfix_dump(char_u *expr, int retval) +{ + int *p; + FILE *f; + + f = fopen(NFA_REGEXP_DUMP_LOG, "a"); + if (f != NULL) + { + fprintf(f, "\n-------------------------\n"); + if (retval == FAIL) + fprintf(f, ">>> NFA engine failed... \n"); + else if (retval == OK) + fprintf(f, ">>> NFA engine succeeded !\n"); + fprintf(f, "Regexp: \"%s\"\nPostfix notation (char): \"", expr); + for (p = post_start; *p && p < post_ptr; p++) + { + nfa_set_code(*p); + fprintf(f, "%s, ", code); + } + fprintf(f, "\"\nPostfix notation (int): "); + for (p = post_start; *p && p < post_ptr; p++) + fprintf(f, "%d ", *p); + fprintf(f, "\n\n"); + fclose(f); + } +} + +/* + * Print the NFA starting with a root node "state". + */ + static void +nfa_print_state(FILE *debugf, nfa_state_T *state) +{ + garray_T indent; + + ga_init2(&indent, 1, 64); + ga_append(&indent, '\0'); + nfa_print_state2(debugf, state, &indent); + ga_clear(&indent); +} + + static void +nfa_print_state2(FILE *debugf, nfa_state_T *state, garray_T *indent) +{ + char_u *p; + + if (state == NULL) + return; + + fprintf(debugf, "(%2d)", abs(state->id)); + + /* Output indent */ + p = (char_u *)indent->ga_data; + if (indent->ga_len >= 3) + { + int last = indent->ga_len - 3; + char_u save[2]; + + STRNCPY(save, &p[last], 2); + STRNCPY(&p[last], "+-", 2); + fprintf(debugf, " %s", p); + STRNCPY(&p[last], save, 2); + } + else + fprintf(debugf, " %s", p); + + nfa_set_code(state->c); + fprintf(debugf, "%s (%d) (id=%d) val=%d\n", + code, + state->c, + abs(state->id), + state->val); + if (state->id < 0) + return; + + state->id = abs(state->id) * -1; + + /* grow indent for state->out */ + indent->ga_len -= 1; + if (state->out1) + ga_concat(indent, (char_u *)"| "); + else + ga_concat(indent, (char_u *)" "); + ga_append(indent, '\0'); + + nfa_print_state2(debugf, state->out, indent); + + /* replace last part of indent for state->out1 */ + indent->ga_len -= 3; + ga_concat(indent, (char_u *)" "); + ga_append(indent, '\0'); + + nfa_print_state2(debugf, state->out1, indent); + + /* shrink indent */ + indent->ga_len -= 3; + ga_append(indent, '\0'); +} + +/* + * Print the NFA state machine. + */ + static void +nfa_dump(nfa_regprog_T *prog) +{ + FILE *debugf = fopen(NFA_REGEXP_DUMP_LOG, "a"); + + if (debugf != NULL) + { + nfa_print_state(debugf, prog->start); + + if (prog->reganch) + fprintf(debugf, "reganch: %d\n", prog->reganch); + if (prog->regstart != NUL) + fprintf(debugf, "regstart: %c (decimal: %d)\n", + prog->regstart, prog->regstart); + if (prog->match_text != NULL) + fprintf(debugf, "match_text: \"%s\"\n", prog->match_text); + + fclose(debugf); + } +} +#endif /* ENABLE_LOG */ +#endif /* DEBUG */ + +/* + * Parse r.e. @expr and convert it into postfix form. + * Return the postfix string on success, NULL otherwise. + */ + static int * +re2post(void) +{ + if (nfa_reg(REG_NOPAREN) == FAIL) + return NULL; + EMIT(NFA_MOPEN); + return post_start; +} + +/* NB. Some of the code below is inspired by Russ's. */ + +/* + * Represents an NFA state plus zero or one or two arrows exiting. + * if c == MATCH, no arrows out; matching state. + * If c == SPLIT, unlabeled arrows to out and out1 (if != NULL). + * If c < 256, labeled arrow with character c to out. + */ + +static nfa_state_T *state_ptr; /* points to nfa_prog->state */ + +/* + * Allocate and initialize nfa_state_T. + */ + static nfa_state_T * +alloc_state(int c, nfa_state_T *out, nfa_state_T *out1) +{ + nfa_state_T *s; + + if (istate >= nstate) + return NULL; + + s = &state_ptr[istate++]; + + s->c = c; + s->out = out; + s->out1 = out1; + s->val = 0; + + s->id = istate; + s->lastlist[0] = 0; + s->lastlist[1] = 0; + + return s; +} + +/* + * A partially built NFA without the matching state filled in. + * Frag_T.start points at the start state. + * Frag_T.out is a list of places that need to be set to the + * next state for this fragment. + */ + +/* Since the out pointers in the list are always + * uninitialized, we use the pointers themselves + * as storage for the Ptrlists. */ +typedef union Ptrlist Ptrlist; +union Ptrlist +{ + Ptrlist *next; + nfa_state_T *s; +}; + +struct Frag +{ + nfa_state_T *start; + Ptrlist *out; +}; +typedef struct Frag Frag_T; + +/* + * Initialize a Frag_T struct and return it. + */ + static Frag_T +frag(nfa_state_T *start, Ptrlist *out) +{ + Frag_T n; + + n.start = start; + n.out = out; + return n; +} + +/* + * Create singleton list containing just outp. + */ + static Ptrlist * +list1( + nfa_state_T **outp) +{ + Ptrlist *l; + + l = (Ptrlist *)outp; + l->next = NULL; + return l; +} + +/* + * Patch the list of states at out to point to start. + */ + static void +patch(Ptrlist *l, nfa_state_T *s) +{ + Ptrlist *next; + + for (; l; l = next) + { + next = l->next; + l->s = s; + } +} + + +/* + * Join the two lists l1 and l2, returning the combination. + */ + static Ptrlist * +append(Ptrlist *l1, Ptrlist *l2) +{ + Ptrlist *oldl1; + + oldl1 = l1; + while (l1->next) + l1 = l1->next; + l1->next = l2; + return oldl1; +} + +/* + * Stack used for transforming postfix form into NFA. + */ +static Frag_T empty; + + static void +st_error(int *postfix UNUSED, int *end UNUSED, int *p UNUSED) +{ +#ifdef NFA_REGEXP_ERROR_LOG + FILE *df; + int *p2; + + df = fopen(NFA_REGEXP_ERROR_LOG, "a"); + if (df) + { + fprintf(df, "Error popping the stack!\n"); +# ifdef DEBUG + fprintf(df, "Current regexp is \"%s\"\n", nfa_regengine.expr); +# endif + fprintf(df, "Postfix form is: "); +# ifdef DEBUG + for (p2 = postfix; p2 < end; p2++) + { + nfa_set_code(*p2); + fprintf(df, "%s, ", code); + } + nfa_set_code(*p); + fprintf(df, "\nCurrent position is: "); + for (p2 = postfix; p2 <= p; p2 ++) + { + nfa_set_code(*p2); + fprintf(df, "%s, ", code); + } +# else + for (p2 = postfix; p2 < end; p2++) + { + fprintf(df, "%d, ", *p2); + } + fprintf(df, "\nCurrent position is: "); + for (p2 = postfix; p2 <= p; p2 ++) + { + fprintf(df, "%d, ", *p2); + } +# endif + fprintf(df, "\n--------------------------\n"); + fclose(df); + } +#endif + emsg(_("E874: (NFA) Could not pop the stack!")); +} + +/* + * Push an item onto the stack. + */ + static void +st_push(Frag_T s, Frag_T **p, Frag_T *stack_end) +{ + Frag_T *stackp = *p; + + if (stackp >= stack_end) + return; + *stackp = s; + *p = *p + 1; +} + +/* + * Pop an item from the stack. + */ + static Frag_T +st_pop(Frag_T **p, Frag_T *stack) +{ + Frag_T *stackp; + + *p = *p - 1; + stackp = *p; + if (stackp < stack) + return empty; + return **p; +} + +/* + * Estimate the maximum byte length of anything matching "state". + * When unknown or unlimited return -1. + */ + static int +nfa_max_width(nfa_state_T *startstate, int depth) +{ + int l, r; + nfa_state_T *state = startstate; + int len = 0; + + /* detect looping in a NFA_SPLIT */ + if (depth > 4) + return -1; + + while (state != NULL) + { + switch (state->c) + { + case NFA_END_INVISIBLE: + case NFA_END_INVISIBLE_NEG: + /* the end, return what we have */ + return len; + + case NFA_SPLIT: + /* two alternatives, use the maximum */ + l = nfa_max_width(state->out, depth + 1); + r = nfa_max_width(state->out1, depth + 1); + if (l < 0 || r < 0) + return -1; + return len + (l > r ? l : r); + + case NFA_ANY: + case NFA_START_COLL: + case NFA_START_NEG_COLL: + /* matches some character, including composing chars */ + if (enc_utf8) + len += MB_MAXBYTES; + else if (has_mbyte) + len += 2; + else + ++len; + if (state->c != NFA_ANY) + { + /* skip over the characters */ + state = state->out1->out; + continue; + } + break; + + case NFA_DIGIT: + case NFA_WHITE: + case NFA_HEX: + case NFA_OCTAL: + /* ascii */ + ++len; + break; + + case NFA_IDENT: + case NFA_SIDENT: + case NFA_KWORD: + case NFA_SKWORD: + case NFA_FNAME: + case NFA_SFNAME: + case NFA_PRINT: + case NFA_SPRINT: + case NFA_NWHITE: + case NFA_NDIGIT: + case NFA_NHEX: + case NFA_NOCTAL: + case NFA_WORD: + case NFA_NWORD: + case NFA_HEAD: + case NFA_NHEAD: + case NFA_ALPHA: + case NFA_NALPHA: + case NFA_LOWER: + case NFA_NLOWER: + case NFA_UPPER: + case NFA_NUPPER: + case NFA_LOWER_IC: + case NFA_NLOWER_IC: + case NFA_UPPER_IC: + case NFA_NUPPER_IC: + case NFA_ANY_COMPOSING: + /* possibly non-ascii */ + if (has_mbyte) + len += 3; + else + ++len; + break; + + case NFA_START_INVISIBLE: + case NFA_START_INVISIBLE_NEG: + case NFA_START_INVISIBLE_BEFORE: + case NFA_START_INVISIBLE_BEFORE_NEG: + /* zero-width, out1 points to the END state */ + state = state->out1->out; + continue; + + case NFA_BACKREF1: + case NFA_BACKREF2: + case NFA_BACKREF3: + case NFA_BACKREF4: + case NFA_BACKREF5: + case NFA_BACKREF6: + case NFA_BACKREF7: + case NFA_BACKREF8: + case NFA_BACKREF9: +#ifdef FEAT_SYN_HL + case NFA_ZREF1: + case NFA_ZREF2: + case NFA_ZREF3: + case NFA_ZREF4: + case NFA_ZREF5: + case NFA_ZREF6: + case NFA_ZREF7: + case NFA_ZREF8: + case NFA_ZREF9: +#endif + case NFA_NEWL: + case NFA_SKIP: + /* unknown width */ + return -1; + + case NFA_BOL: + case NFA_EOL: + case NFA_BOF: + case NFA_EOF: + case NFA_BOW: + case NFA_EOW: + case NFA_MOPEN: + case NFA_MOPEN1: + case NFA_MOPEN2: + case NFA_MOPEN3: + case NFA_MOPEN4: + case NFA_MOPEN5: + case NFA_MOPEN6: + case NFA_MOPEN7: + case NFA_MOPEN8: + case NFA_MOPEN9: +#ifdef FEAT_SYN_HL + case NFA_ZOPEN: + case NFA_ZOPEN1: + case NFA_ZOPEN2: + case NFA_ZOPEN3: + case NFA_ZOPEN4: + case NFA_ZOPEN5: + case NFA_ZOPEN6: + case NFA_ZOPEN7: + case NFA_ZOPEN8: + case NFA_ZOPEN9: + case NFA_ZCLOSE: + case NFA_ZCLOSE1: + case NFA_ZCLOSE2: + case NFA_ZCLOSE3: + case NFA_ZCLOSE4: + case NFA_ZCLOSE5: + case NFA_ZCLOSE6: + case NFA_ZCLOSE7: + case NFA_ZCLOSE8: + case NFA_ZCLOSE9: +#endif + case NFA_MCLOSE: + case NFA_MCLOSE1: + case NFA_MCLOSE2: + case NFA_MCLOSE3: + case NFA_MCLOSE4: + case NFA_MCLOSE5: + case NFA_MCLOSE6: + case NFA_MCLOSE7: + case NFA_MCLOSE8: + case NFA_MCLOSE9: + case NFA_NOPEN: + case NFA_NCLOSE: + + case NFA_LNUM_GT: + case NFA_LNUM_LT: + case NFA_COL_GT: + case NFA_COL_LT: + case NFA_VCOL_GT: + case NFA_VCOL_LT: + case NFA_MARK_GT: + case NFA_MARK_LT: + case NFA_VISUAL: + case NFA_LNUM: + case NFA_CURSOR: + case NFA_COL: + case NFA_VCOL: + case NFA_MARK: + + case NFA_ZSTART: + case NFA_ZEND: + case NFA_OPT_CHARS: + case NFA_EMPTY: + case NFA_START_PATTERN: + case NFA_END_PATTERN: + case NFA_COMPOSING: + case NFA_END_COMPOSING: + /* zero-width */ + break; + + default: + if (state->c < 0) + /* don't know what this is */ + return -1; + /* normal character */ + len += MB_CHAR2LEN(state->c); + break; + } + + /* normal way to continue */ + state = state->out; + } + + /* unrecognized, "cannot happen" */ + return -1; +} + +/* + * Convert a postfix form into its equivalent NFA. + * Return the NFA start state on success, NULL otherwise. + */ + static nfa_state_T * +post2nfa(int *postfix, int *end, int nfa_calc_size) +{ + int *p; + int mopen; + int mclose; + Frag_T *stack = NULL; + Frag_T *stackp = NULL; + Frag_T *stack_end = NULL; + Frag_T e1; + Frag_T e2; + Frag_T e; + nfa_state_T *s; + nfa_state_T *s1; + nfa_state_T *matchstate; + nfa_state_T *ret = NULL; + + if (postfix == NULL) + return NULL; + +#define PUSH(s) st_push((s), &stackp, stack_end) +#define POP() st_pop(&stackp, stack); \ + if (stackp < stack) \ + { \ + st_error(postfix, end, p); \ + vim_free(stack); \ + return NULL; \ + } + + if (nfa_calc_size == FALSE) + { + // Allocate space for the stack. Max states on the stack: "nstate'. + stack = (Frag_T *)lalloc((nstate + 1) * sizeof(Frag_T), TRUE); + if (stack == NULL) + return NULL; + stackp = stack; + stack_end = stack + (nstate + 1); + } + + for (p = postfix; p < end; ++p) + { + switch (*p) + { + case NFA_CONCAT: + /* Concatenation. + * Pay attention: this operator does not exist in the r.e. itself + * (it is implicit, really). It is added when r.e. is translated + * to postfix form in re2post(). */ + if (nfa_calc_size == TRUE) + { + /* nstate += 0; */ + break; + } + e2 = POP(); + e1 = POP(); + patch(e1.out, e2.start); + PUSH(frag(e1.start, e2.out)); + break; + + case NFA_OR: + /* Alternation */ + if (nfa_calc_size == TRUE) + { + nstate++; + break; + } + e2 = POP(); + e1 = POP(); + s = alloc_state(NFA_SPLIT, e1.start, e2.start); + if (s == NULL) + goto theend; + PUSH(frag(s, append(e1.out, e2.out))); + break; + + case NFA_STAR: + /* Zero or more, prefer more */ + if (nfa_calc_size == TRUE) + { + nstate++; + break; + } + e = POP(); + s = alloc_state(NFA_SPLIT, e.start, NULL); + if (s == NULL) + goto theend; + patch(e.out, s); + PUSH(frag(s, list1(&s->out1))); + break; + + case NFA_STAR_NONGREEDY: + /* Zero or more, prefer zero */ + if (nfa_calc_size == TRUE) + { + nstate++; + break; + } + e = POP(); + s = alloc_state(NFA_SPLIT, NULL, e.start); + if (s == NULL) + goto theend; + patch(e.out, s); + PUSH(frag(s, list1(&s->out))); + break; + + case NFA_QUEST: + /* one or zero atoms=> greedy match */ + if (nfa_calc_size == TRUE) + { + nstate++; + break; + } + e = POP(); + s = alloc_state(NFA_SPLIT, e.start, NULL); + if (s == NULL) + goto theend; + PUSH(frag(s, append(e.out, list1(&s->out1)))); + break; + + case NFA_QUEST_NONGREEDY: + /* zero or one atoms => non-greedy match */ + if (nfa_calc_size == TRUE) + { + nstate++; + break; + } + e = POP(); + s = alloc_state(NFA_SPLIT, NULL, e.start); + if (s == NULL) + goto theend; + PUSH(frag(s, append(e.out, list1(&s->out)))); + break; + + case NFA_END_COLL: + case NFA_END_NEG_COLL: + /* On the stack is the sequence starting with NFA_START_COLL or + * NFA_START_NEG_COLL and all possible characters. Patch it to + * add the output to the start. */ + if (nfa_calc_size == TRUE) + { + nstate++; + break; + } + e = POP(); + s = alloc_state(NFA_END_COLL, NULL, NULL); + if (s == NULL) + goto theend; + patch(e.out, s); + e.start->out1 = s; + PUSH(frag(e.start, list1(&s->out))); + break; + + case NFA_RANGE: + /* Before this are two characters, the low and high end of a + * range. Turn them into two states with MIN and MAX. */ + if (nfa_calc_size == TRUE) + { + /* nstate += 0; */ + break; + } + e2 = POP(); + e1 = POP(); + e2.start->val = e2.start->c; + e2.start->c = NFA_RANGE_MAX; + e1.start->val = e1.start->c; + e1.start->c = NFA_RANGE_MIN; + patch(e1.out, e2.start); + PUSH(frag(e1.start, e2.out)); + break; + + case NFA_EMPTY: + /* 0-length, used in a repetition with max/min count of 0 */ + if (nfa_calc_size == TRUE) + { + nstate++; + break; + } + s = alloc_state(NFA_EMPTY, NULL, NULL); + if (s == NULL) + goto theend; + PUSH(frag(s, list1(&s->out))); + break; + + case NFA_OPT_CHARS: + { + int n; + + /* \%[abc] implemented as: + * NFA_SPLIT + * +-CHAR(a) + * | +-NFA_SPLIT + * | +-CHAR(b) + * | | +-NFA_SPLIT + * | | +-CHAR(c) + * | | | +-next + * | | +- next + * | +- next + * +- next + */ + n = *++p; /* get number of characters */ + if (nfa_calc_size == TRUE) + { + nstate += n; + break; + } + s = NULL; /* avoid compiler warning */ + e1.out = NULL; /* stores list with out1's */ + s1 = NULL; /* previous NFA_SPLIT to connect to */ + while (n-- > 0) + { + e = POP(); /* get character */ + s = alloc_state(NFA_SPLIT, e.start, NULL); + if (s == NULL) + goto theend; + if (e1.out == NULL) + e1 = e; + patch(e.out, s1); + append(e1.out, list1(&s->out1)); + s1 = s; + } + PUSH(frag(s, e1.out)); + break; + } + + case NFA_PREV_ATOM_NO_WIDTH: + case NFA_PREV_ATOM_NO_WIDTH_NEG: + case NFA_PREV_ATOM_JUST_BEFORE: + case NFA_PREV_ATOM_JUST_BEFORE_NEG: + case NFA_PREV_ATOM_LIKE_PATTERN: + { + int before = (*p == NFA_PREV_ATOM_JUST_BEFORE + || *p == NFA_PREV_ATOM_JUST_BEFORE_NEG); + int pattern = (*p == NFA_PREV_ATOM_LIKE_PATTERN); + int start_state; + int end_state; + int n = 0; + nfa_state_T *zend; + nfa_state_T *skip; + + switch (*p) + { + case NFA_PREV_ATOM_NO_WIDTH: + start_state = NFA_START_INVISIBLE; + end_state = NFA_END_INVISIBLE; + break; + case NFA_PREV_ATOM_NO_WIDTH_NEG: + start_state = NFA_START_INVISIBLE_NEG; + end_state = NFA_END_INVISIBLE_NEG; + break; + case NFA_PREV_ATOM_JUST_BEFORE: + start_state = NFA_START_INVISIBLE_BEFORE; + end_state = NFA_END_INVISIBLE; + break; + case NFA_PREV_ATOM_JUST_BEFORE_NEG: + start_state = NFA_START_INVISIBLE_BEFORE_NEG; + end_state = NFA_END_INVISIBLE_NEG; + break; + default: /* NFA_PREV_ATOM_LIKE_PATTERN: */ + start_state = NFA_START_PATTERN; + end_state = NFA_END_PATTERN; + break; + } + + if (before) + n = *++p; /* get the count */ + + /* The \@= operator: match the preceding atom with zero width. + * The \@! operator: no match for the preceding atom. + * The \@<= operator: match for the preceding atom. + * The \@<! operator: no match for the preceding atom. + * Surrounds the preceding atom with START_INVISIBLE and + * END_INVISIBLE, similarly to MOPEN. */ + + if (nfa_calc_size == TRUE) + { + nstate += pattern ? 4 : 2; + break; + } + e = POP(); + s1 = alloc_state(end_state, NULL, NULL); + if (s1 == NULL) + goto theend; + + s = alloc_state(start_state, e.start, s1); + if (s == NULL) + goto theend; + if (pattern) + { + /* NFA_ZEND -> NFA_END_PATTERN -> NFA_SKIP -> what follows. */ + skip = alloc_state(NFA_SKIP, NULL, NULL); + if (skip == NULL) + goto theend; + zend = alloc_state(NFA_ZEND, s1, NULL); + if (zend == NULL) + goto theend; + s1->out= skip; + patch(e.out, zend); + PUSH(frag(s, list1(&skip->out))); + } + else + { + patch(e.out, s1); + PUSH(frag(s, list1(&s1->out))); + if (before) + { + if (n <= 0) + /* See if we can guess the maximum width, it avoids a + * lot of pointless tries. */ + n = nfa_max_width(e.start, 0); + s->val = n; /* store the count */ + } + } + break; + } + + case NFA_COMPOSING: /* char with composing char */ +#if 0 + /* TODO */ + if (regflags & RF_ICOMBINE) + { + /* use the base character only */ + } +#endif + /* FALLTHROUGH */ + + case NFA_MOPEN: /* \( \) Submatch */ + case NFA_MOPEN1: + case NFA_MOPEN2: + case NFA_MOPEN3: + case NFA_MOPEN4: + case NFA_MOPEN5: + case NFA_MOPEN6: + case NFA_MOPEN7: + case NFA_MOPEN8: + case NFA_MOPEN9: +#ifdef FEAT_SYN_HL + case NFA_ZOPEN: /* \z( \) Submatch */ + case NFA_ZOPEN1: + case NFA_ZOPEN2: + case NFA_ZOPEN3: + case NFA_ZOPEN4: + case NFA_ZOPEN5: + case NFA_ZOPEN6: + case NFA_ZOPEN7: + case NFA_ZOPEN8: + case NFA_ZOPEN9: +#endif + case NFA_NOPEN: /* \%( \) "Invisible Submatch" */ + if (nfa_calc_size == TRUE) + { + nstate += 2; + break; + } + + mopen = *p; + switch (*p) + { + case NFA_NOPEN: mclose = NFA_NCLOSE; break; +#ifdef FEAT_SYN_HL + case NFA_ZOPEN: mclose = NFA_ZCLOSE; break; + case NFA_ZOPEN1: mclose = NFA_ZCLOSE1; break; + case NFA_ZOPEN2: mclose = NFA_ZCLOSE2; break; + case NFA_ZOPEN3: mclose = NFA_ZCLOSE3; break; + case NFA_ZOPEN4: mclose = NFA_ZCLOSE4; break; + case NFA_ZOPEN5: mclose = NFA_ZCLOSE5; break; + case NFA_ZOPEN6: mclose = NFA_ZCLOSE6; break; + case NFA_ZOPEN7: mclose = NFA_ZCLOSE7; break; + case NFA_ZOPEN8: mclose = NFA_ZCLOSE8; break; + case NFA_ZOPEN9: mclose = NFA_ZCLOSE9; break; +#endif + case NFA_COMPOSING: mclose = NFA_END_COMPOSING; break; + default: + /* NFA_MOPEN, NFA_MOPEN1 .. NFA_MOPEN9 */ + mclose = *p + NSUBEXP; + break; + } + + /* Allow "NFA_MOPEN" as a valid postfix representation for + * the empty regexp "". In this case, the NFA will be + * NFA_MOPEN -> NFA_MCLOSE. Note that this also allows + * empty groups of parenthesis, and empty mbyte chars */ + if (stackp == stack) + { + s = alloc_state(mopen, NULL, NULL); + if (s == NULL) + goto theend; + s1 = alloc_state(mclose, NULL, NULL); + if (s1 == NULL) + goto theend; + patch(list1(&s->out), s1); + PUSH(frag(s, list1(&s1->out))); + break; + } + + /* At least one node was emitted before NFA_MOPEN, so + * at least one node will be between NFA_MOPEN and NFA_MCLOSE */ + e = POP(); + s = alloc_state(mopen, e.start, NULL); /* `(' */ + if (s == NULL) + goto theend; + + s1 = alloc_state(mclose, NULL, NULL); /* `)' */ + if (s1 == NULL) + goto theend; + patch(e.out, s1); + + if (mopen == NFA_COMPOSING) + /* COMPOSING->out1 = END_COMPOSING */ + patch(list1(&s->out1), s1); + + PUSH(frag(s, list1(&s1->out))); + break; + + case NFA_BACKREF1: + case NFA_BACKREF2: + case NFA_BACKREF3: + case NFA_BACKREF4: + case NFA_BACKREF5: + case NFA_BACKREF6: + case NFA_BACKREF7: + case NFA_BACKREF8: + case NFA_BACKREF9: +#ifdef FEAT_SYN_HL + case NFA_ZREF1: + case NFA_ZREF2: + case NFA_ZREF3: + case NFA_ZREF4: + case NFA_ZREF5: + case NFA_ZREF6: + case NFA_ZREF7: + case NFA_ZREF8: + case NFA_ZREF9: +#endif + if (nfa_calc_size == TRUE) + { + nstate += 2; + break; + } + s = alloc_state(*p, NULL, NULL); + if (s == NULL) + goto theend; + s1 = alloc_state(NFA_SKIP, NULL, NULL); + if (s1 == NULL) + goto theend; + patch(list1(&s->out), s1); + PUSH(frag(s, list1(&s1->out))); + break; + + case NFA_LNUM: + case NFA_LNUM_GT: + case NFA_LNUM_LT: + case NFA_VCOL: + case NFA_VCOL_GT: + case NFA_VCOL_LT: + case NFA_COL: + case NFA_COL_GT: + case NFA_COL_LT: + case NFA_MARK: + case NFA_MARK_GT: + case NFA_MARK_LT: + { + int n = *++p; /* lnum, col or mark name */ + + if (nfa_calc_size == TRUE) + { + nstate += 1; + break; + } + s = alloc_state(p[-1], NULL, NULL); + if (s == NULL) + goto theend; + s->val = n; + PUSH(frag(s, list1(&s->out))); + break; + } + + case NFA_ZSTART: + case NFA_ZEND: + default: + /* Operands */ + if (nfa_calc_size == TRUE) + { + nstate++; + break; + } + s = alloc_state(*p, NULL, NULL); + if (s == NULL) + goto theend; + PUSH(frag(s, list1(&s->out))); + break; + + } /* switch(*p) */ + + } /* for(p = postfix; *p; ++p) */ + + if (nfa_calc_size == TRUE) + { + nstate++; + goto theend; /* Return value when counting size is ignored anyway */ + } + + e = POP(); + if (stackp != stack) + { + vim_free(stack); + EMSG_RET_NULL(_("E875: (NFA regexp) (While converting from postfix to NFA), too many states left on stack")); + } + + if (istate >= nstate) + { + vim_free(stack); + EMSG_RET_NULL(_("E876: (NFA regexp) Not enough space to store the whole NFA ")); + } + + matchstate = &state_ptr[istate++]; /* the match state */ + matchstate->c = NFA_MATCH; + matchstate->out = matchstate->out1 = NULL; + matchstate->id = 0; + + patch(e.out, matchstate); + ret = e.start; + +theend: + vim_free(stack); + return ret; + +#undef POP1 +#undef PUSH1 +#undef POP2 +#undef PUSH2 +#undef POP +#undef PUSH +} + +/* + * After building the NFA program, inspect it to add optimization hints. + */ + static void +nfa_postprocess(nfa_regprog_T *prog) +{ + int i; + int c; + + for (i = 0; i < prog->nstate; ++i) + { + c = prog->state[i].c; + if (c == NFA_START_INVISIBLE + || c == NFA_START_INVISIBLE_NEG + || c == NFA_START_INVISIBLE_BEFORE + || c == NFA_START_INVISIBLE_BEFORE_NEG) + { + int directly; + + /* Do it directly when what follows is possibly the end of the + * match. */ + if (match_follows(prog->state[i].out1->out, 0)) + directly = TRUE; + else + { + int ch_invisible = failure_chance(prog->state[i].out, 0); + int ch_follows = failure_chance(prog->state[i].out1->out, 0); + + /* Postpone when the invisible match is expensive or has a + * lower chance of failing. */ + if (c == NFA_START_INVISIBLE_BEFORE + || c == NFA_START_INVISIBLE_BEFORE_NEG) + { + /* "before" matches are very expensive when + * unbounded, always prefer what follows then, + * unless what follows will always match. + * Otherwise strongly prefer what follows. */ + if (prog->state[i].val <= 0 && ch_follows > 0) + directly = FALSE; + else + directly = ch_follows * 10 < ch_invisible; + } + else + { + /* normal invisible, first do the one with the + * highest failure chance */ + directly = ch_follows < ch_invisible; + } + } + if (directly) + /* switch to the _FIRST state */ + ++prog->state[i].c; + } + } +} + +/**************************************************************** + * NFA execution code. + ****************************************************************/ + +typedef struct +{ + int in_use; /* number of subexpr with useful info */ + + /* When REG_MULTI is TRUE list.multi is used, otherwise list.line. */ + union + { + struct multipos + { + linenr_T start_lnum; + linenr_T end_lnum; + colnr_T start_col; + colnr_T end_col; + } multi[NSUBEXP]; + struct linepos + { + char_u *start; + char_u *end; + } line[NSUBEXP]; + } list; +} regsub_T; + +typedef struct +{ + regsub_T norm; /* \( .. \) matches */ +#ifdef FEAT_SYN_HL + regsub_T synt; /* \z( .. \) matches */ +#endif +} regsubs_T; + +/* nfa_pim_T stores a Postponed Invisible Match. */ +typedef struct nfa_pim_S nfa_pim_T; +struct nfa_pim_S +{ + int result; /* NFA_PIM_*, see below */ + nfa_state_T *state; /* the invisible match start state */ + regsubs_T subs; /* submatch info, only party used */ + union + { + lpos_T pos; + char_u *ptr; + } end; /* where the match must end */ +}; + +/* Values for done in nfa_pim_T. */ +#define NFA_PIM_UNUSED 0 /* pim not used */ +#define NFA_PIM_TODO 1 /* pim not done yet */ +#define NFA_PIM_MATCH 2 /* pim executed, matches */ +#define NFA_PIM_NOMATCH 3 /* pim executed, no match */ + + +/* nfa_thread_T contains execution information of a NFA state */ +typedef struct +{ + nfa_state_T *state; + int count; + nfa_pim_T pim; /* if pim.result != NFA_PIM_UNUSED: postponed + * invisible match */ + regsubs_T subs; /* submatch info, only party used */ +} nfa_thread_T; + +/* nfa_list_T contains the alternative NFA execution states. */ +typedef struct +{ + nfa_thread_T *t; /* allocated array of states */ + int n; /* nr of states currently in "t" */ + int len; /* max nr of states in "t" */ + int id; /* ID of the list */ + int has_pim; /* TRUE when any state has a PIM */ +} nfa_list_T; + +#ifdef ENABLE_LOG +static void log_subexpr(regsub_T *sub); + + static void +log_subsexpr(regsubs_T *subs) +{ + log_subexpr(&subs->norm); +# ifdef FEAT_SYN_HL + if (rex.nfa_has_zsubexpr) + log_subexpr(&subs->synt); +# endif +} + + static void +log_subexpr(regsub_T *sub) +{ + int j; + + for (j = 0; j < sub->in_use; j++) + if (REG_MULTI) + fprintf(log_fd, "*** group %d, start: c=%d, l=%d, end: c=%d, l=%d\n", + j, + sub->list.multi[j].start_col, + (int)sub->list.multi[j].start_lnum, + sub->list.multi[j].end_col, + (int)sub->list.multi[j].end_lnum); + else + { + char *s = (char *)sub->list.line[j].start; + char *e = (char *)sub->list.line[j].end; + + fprintf(log_fd, "*** group %d, start: \"%s\", end: \"%s\"\n", + j, + s == NULL ? "NULL" : s, + e == NULL ? "NULL" : e); + } +} + + static char * +pim_info(nfa_pim_T *pim) +{ + static char buf[30]; + + if (pim == NULL || pim->result == NFA_PIM_UNUSED) + buf[0] = NUL; + else + { + sprintf(buf, " PIM col %d", REG_MULTI ? (int)pim->end.pos.col + : (int)(pim->end.ptr - rex.input)); + } + return buf; +} + +#endif + +/* Used during execution: whether a match has been found. */ +static int nfa_match; +#ifdef FEAT_RELTIME +static proftime_T *nfa_time_limit; +static int *nfa_timed_out; +static int nfa_time_count; +#endif + +static void copy_sub(regsub_T *to, regsub_T *from); +static int pim_equal(nfa_pim_T *one, nfa_pim_T *two); + +/* + * Copy postponed invisible match info from "from" to "to". + */ + static void +copy_pim(nfa_pim_T *to, nfa_pim_T *from) +{ + to->result = from->result; + to->state = from->state; + copy_sub(&to->subs.norm, &from->subs.norm); +#ifdef FEAT_SYN_HL + if (rex.nfa_has_zsubexpr) + copy_sub(&to->subs.synt, &from->subs.synt); +#endif + to->end = from->end; +} + + static void +clear_sub(regsub_T *sub) +{ + if (REG_MULTI) + /* Use 0xff to set lnum to -1 */ + vim_memset(sub->list.multi, 0xff, + sizeof(struct multipos) * rex.nfa_nsubexpr); + else + vim_memset(sub->list.line, 0, + sizeof(struct linepos) * rex.nfa_nsubexpr); + sub->in_use = 0; +} + +/* + * Copy the submatches from "from" to "to". + */ + static void +copy_sub(regsub_T *to, regsub_T *from) +{ + to->in_use = from->in_use; + if (from->in_use > 0) + { + /* Copy the match start and end positions. */ + if (REG_MULTI) + mch_memmove(&to->list.multi[0], + &from->list.multi[0], + sizeof(struct multipos) * from->in_use); + else + mch_memmove(&to->list.line[0], + &from->list.line[0], + sizeof(struct linepos) * from->in_use); + } +} + +/* + * Like copy_sub() but exclude the main match. + */ + static void +copy_sub_off(regsub_T *to, regsub_T *from) +{ + if (to->in_use < from->in_use) + to->in_use = from->in_use; + if (from->in_use > 1) + { + /* Copy the match start and end positions. */ + if (REG_MULTI) + mch_memmove(&to->list.multi[1], + &from->list.multi[1], + sizeof(struct multipos) * (from->in_use - 1)); + else + mch_memmove(&to->list.line[1], + &from->list.line[1], + sizeof(struct linepos) * (from->in_use - 1)); + } +} + +/* + * Like copy_sub() but only do the end of the main match if \ze is present. + */ + static void +copy_ze_off(regsub_T *to, regsub_T *from) +{ + if (rex.nfa_has_zend) + { + if (REG_MULTI) + { + if (from->list.multi[0].end_lnum >= 0) + { + to->list.multi[0].end_lnum = from->list.multi[0].end_lnum; + to->list.multi[0].end_col = from->list.multi[0].end_col; + } + } + else + { + if (from->list.line[0].end != NULL) + to->list.line[0].end = from->list.line[0].end; + } + } +} + +/* + * Return TRUE if "sub1" and "sub2" have the same start positions. + * When using back-references also check the end position. + */ + static int +sub_equal(regsub_T *sub1, regsub_T *sub2) +{ + int i; + int todo; + linenr_T s1; + linenr_T s2; + char_u *sp1; + char_u *sp2; + + todo = sub1->in_use > sub2->in_use ? sub1->in_use : sub2->in_use; + if (REG_MULTI) + { + for (i = 0; i < todo; ++i) + { + if (i < sub1->in_use) + s1 = sub1->list.multi[i].start_lnum; + else + s1 = -1; + if (i < sub2->in_use) + s2 = sub2->list.multi[i].start_lnum; + else + s2 = -1; + if (s1 != s2) + return FALSE; + if (s1 != -1 && sub1->list.multi[i].start_col + != sub2->list.multi[i].start_col) + return FALSE; + + if (rex.nfa_has_backref) + { + if (i < sub1->in_use) + s1 = sub1->list.multi[i].end_lnum; + else + s1 = -1; + if (i < sub2->in_use) + s2 = sub2->list.multi[i].end_lnum; + else + s2 = -1; + if (s1 != s2) + return FALSE; + if (s1 != -1 && sub1->list.multi[i].end_col + != sub2->list.multi[i].end_col) + return FALSE; + } + } + } + else + { + for (i = 0; i < todo; ++i) + { + if (i < sub1->in_use) + sp1 = sub1->list.line[i].start; + else + sp1 = NULL; + if (i < sub2->in_use) + sp2 = sub2->list.line[i].start; + else + sp2 = NULL; + if (sp1 != sp2) + return FALSE; + if (rex.nfa_has_backref) + { + if (i < sub1->in_use) + sp1 = sub1->list.line[i].end; + else + sp1 = NULL; + if (i < sub2->in_use) + sp2 = sub2->list.line[i].end; + else + sp2 = NULL; + if (sp1 != sp2) + return FALSE; + } + } + } + + return TRUE; +} + +#ifdef ENABLE_LOG + static void +report_state(char *action, + regsub_T *sub, + nfa_state_T *state, + int lid, + nfa_pim_T *pim) +{ + int col; + + if (sub->in_use <= 0) + col = -1; + else if (REG_MULTI) + col = sub->list.multi[0].start_col; + else + col = (int)(sub->list.line[0].start - rex.line); + nfa_set_code(state->c); + fprintf(log_fd, "> %s state %d to list %d. char %d: %s (start col %d)%s\n", + action, abs(state->id), lid, state->c, code, col, + pim_info(pim)); +} +#endif + +/* + * Return TRUE if the same state is already in list "l" with the same + * positions as "subs". + */ + static int +has_state_with_pos( + nfa_list_T *l, /* runtime state list */ + nfa_state_T *state, /* state to update */ + regsubs_T *subs, /* pointers to subexpressions */ + nfa_pim_T *pim) /* postponed match or NULL */ +{ + nfa_thread_T *thread; + int i; + + for (i = 0; i < l->n; ++i) + { + thread = &l->t[i]; + if (thread->state->id == state->id + && sub_equal(&thread->subs.norm, &subs->norm) +#ifdef FEAT_SYN_HL + && (!rex.nfa_has_zsubexpr + || sub_equal(&thread->subs.synt, &subs->synt)) +#endif + && pim_equal(&thread->pim, pim)) + return TRUE; + } + return FALSE; +} + +/* + * Return TRUE if "one" and "two" are equal. That includes when both are not + * set. + */ + static int +pim_equal(nfa_pim_T *one, nfa_pim_T *two) +{ + int one_unused = (one == NULL || one->result == NFA_PIM_UNUSED); + int two_unused = (two == NULL || two->result == NFA_PIM_UNUSED); + + if (one_unused) + /* one is unused: equal when two is also unused */ + return two_unused; + if (two_unused) + /* one is used and two is not: not equal */ + return FALSE; + /* compare the state id */ + if (one->state->id != two->state->id) + return FALSE; + /* compare the position */ + if (REG_MULTI) + return one->end.pos.lnum == two->end.pos.lnum + && one->end.pos.col == two->end.pos.col; + return one->end.ptr == two->end.ptr; +} + +/* + * Return TRUE if "state" leads to a NFA_MATCH without advancing the input. + */ + static int +match_follows(nfa_state_T *startstate, int depth) +{ + nfa_state_T *state = startstate; + + /* avoid too much recursion */ + if (depth > 10) + return FALSE; + + while (state != NULL) + { + switch (state->c) + { + case NFA_MATCH: + case NFA_MCLOSE: + case NFA_END_INVISIBLE: + case NFA_END_INVISIBLE_NEG: + case NFA_END_PATTERN: + return TRUE; + + case NFA_SPLIT: + return match_follows(state->out, depth + 1) + || match_follows(state->out1, depth + 1); + + case NFA_START_INVISIBLE: + case NFA_START_INVISIBLE_FIRST: + case NFA_START_INVISIBLE_BEFORE: + case NFA_START_INVISIBLE_BEFORE_FIRST: + case NFA_START_INVISIBLE_NEG: + case NFA_START_INVISIBLE_NEG_FIRST: + case NFA_START_INVISIBLE_BEFORE_NEG: + case NFA_START_INVISIBLE_BEFORE_NEG_FIRST: + case NFA_COMPOSING: + /* skip ahead to next state */ + state = state->out1->out; + continue; + + case NFA_ANY: + case NFA_ANY_COMPOSING: + case NFA_IDENT: + case NFA_SIDENT: + case NFA_KWORD: + case NFA_SKWORD: + case NFA_FNAME: + case NFA_SFNAME: + case NFA_PRINT: + case NFA_SPRINT: + case NFA_WHITE: + case NFA_NWHITE: + case NFA_DIGIT: + case NFA_NDIGIT: + case NFA_HEX: + case NFA_NHEX: + case NFA_OCTAL: + case NFA_NOCTAL: + case NFA_WORD: + case NFA_NWORD: + case NFA_HEAD: + case NFA_NHEAD: + case NFA_ALPHA: + case NFA_NALPHA: + case NFA_LOWER: + case NFA_NLOWER: + case NFA_UPPER: + case NFA_NUPPER: + case NFA_LOWER_IC: + case NFA_NLOWER_IC: + case NFA_UPPER_IC: + case NFA_NUPPER_IC: + case NFA_START_COLL: + case NFA_START_NEG_COLL: + case NFA_NEWL: + /* state will advance input */ + return FALSE; + + default: + if (state->c > 0) + /* state will advance input */ + return FALSE; + + /* Others: zero-width or possibly zero-width, might still find + * a match at the same position, keep looking. */ + break; + } + state = state->out; + } + return FALSE; +} + + +/* + * Return TRUE if "state" is already in list "l". + */ + static int +state_in_list( + nfa_list_T *l, /* runtime state list */ + nfa_state_T *state, /* state to update */ + regsubs_T *subs) /* pointers to subexpressions */ +{ + if (state->lastlist[nfa_ll_index] == l->id) + { + if (!rex.nfa_has_backref || has_state_with_pos(l, state, subs, NULL)) + return TRUE; + } + return FALSE; +} + +/* Offset used for "off" by addstate_here(). */ +#define ADDSTATE_HERE_OFFSET 10 + +/* + * Add "state" and possibly what follows to state list ".". + * Returns "subs_arg", possibly copied into temp_subs. + */ + static regsubs_T * +addstate( + nfa_list_T *l, /* runtime state list */ + nfa_state_T *state, /* state to update */ + regsubs_T *subs_arg, /* pointers to subexpressions */ + nfa_pim_T *pim, /* postponed look-behind match */ + int off_arg) /* byte offset, when -1 go to next line */ +{ + int subidx; + int off = off_arg; + int add_here = FALSE; + int listindex = 0; + int k; + int found = FALSE; + nfa_thread_T *thread; + struct multipos save_multipos; + int save_in_use; + char_u *save_ptr; + int i; + regsub_T *sub; + regsubs_T *subs = subs_arg; + static regsubs_T temp_subs; +#ifdef ENABLE_LOG + int did_print = FALSE; +#endif + + if (off_arg <= -ADDSTATE_HERE_OFFSET) + { + add_here = TRUE; + off = 0; + listindex = -(off_arg + ADDSTATE_HERE_OFFSET); + } + + switch (state->c) + { + case NFA_NCLOSE: + case NFA_MCLOSE: + case NFA_MCLOSE1: + case NFA_MCLOSE2: + case NFA_MCLOSE3: + case NFA_MCLOSE4: + case NFA_MCLOSE5: + case NFA_MCLOSE6: + case NFA_MCLOSE7: + case NFA_MCLOSE8: + case NFA_MCLOSE9: +#ifdef FEAT_SYN_HL + case NFA_ZCLOSE: + case NFA_ZCLOSE1: + case NFA_ZCLOSE2: + case NFA_ZCLOSE3: + case NFA_ZCLOSE4: + case NFA_ZCLOSE5: + case NFA_ZCLOSE6: + case NFA_ZCLOSE7: + case NFA_ZCLOSE8: + case NFA_ZCLOSE9: +#endif + case NFA_MOPEN: + case NFA_ZEND: + case NFA_SPLIT: + case NFA_EMPTY: + /* These nodes are not added themselves but their "out" and/or + * "out1" may be added below. */ + break; + + case NFA_BOL: + case NFA_BOF: + /* "^" won't match past end-of-line, don't bother trying. + * Except when at the end of the line, or when we are going to the + * next line for a look-behind match. */ + if (rex.input > rex.line + && *rex.input != NUL + && (nfa_endp == NULL + || !REG_MULTI + || rex.lnum == nfa_endp->se_u.pos.lnum)) + goto skip_add; + /* FALLTHROUGH */ + + case NFA_MOPEN1: + case NFA_MOPEN2: + case NFA_MOPEN3: + case NFA_MOPEN4: + case NFA_MOPEN5: + case NFA_MOPEN6: + case NFA_MOPEN7: + case NFA_MOPEN8: + case NFA_MOPEN9: +#ifdef FEAT_SYN_HL + case NFA_ZOPEN: + case NFA_ZOPEN1: + case NFA_ZOPEN2: + case NFA_ZOPEN3: + case NFA_ZOPEN4: + case NFA_ZOPEN5: + case NFA_ZOPEN6: + case NFA_ZOPEN7: + case NFA_ZOPEN8: + case NFA_ZOPEN9: +#endif + case NFA_NOPEN: + case NFA_ZSTART: + /* These nodes need to be added so that we can bail out when it + * was added to this list before at the same position to avoid an + * endless loop for "\(\)*" */ + + default: + if (state->lastlist[nfa_ll_index] == l->id && state->c != NFA_SKIP) + { + /* This state is already in the list, don't add it again, + * unless it is an MOPEN that is used for a backreference or + * when there is a PIM. For NFA_MATCH check the position, + * lower position is preferred. */ + if (!rex.nfa_has_backref && pim == NULL && !l->has_pim + && state->c != NFA_MATCH) + { + /* When called from addstate_here() do insert before + * existing states. */ + if (add_here) + { + for (k = 0; k < l->n && k < listindex; ++k) + if (l->t[k].state->id == state->id) + { + found = TRUE; + break; + } + } + if (!add_here || found) + { +skip_add: +#ifdef ENABLE_LOG + nfa_set_code(state->c); + fprintf(log_fd, "> Not adding state %d to list %d. char %d: %s pim: %s has_pim: %d found: %d\n", + abs(state->id), l->id, state->c, code, + pim == NULL ? "NULL" : "yes", l->has_pim, found); +#endif + return subs; + } + } + + /* Do not add the state again when it exists with the same + * positions. */ + if (has_state_with_pos(l, state, subs, pim)) + goto skip_add; + } + + /* When there are backreferences or PIMs the number of states may + * be (a lot) bigger than anticipated. */ + if (l->n == l->len) + { + int newlen = l->len * 3 / 2 + 50; + + if (subs != &temp_subs) + { + /* "subs" may point into the current array, need to make a + * copy before it becomes invalid. */ + copy_sub(&temp_subs.norm, &subs->norm); +#ifdef FEAT_SYN_HL + if (rex.nfa_has_zsubexpr) + copy_sub(&temp_subs.synt, &subs->synt); +#endif + subs = &temp_subs; + } + + /* TODO: check for vim_realloc() returning NULL. */ + l->t = vim_realloc(l->t, newlen * sizeof(nfa_thread_T)); + l->len = newlen; + } + + /* add the state to the list */ + state->lastlist[nfa_ll_index] = l->id; + thread = &l->t[l->n++]; + thread->state = state; + if (pim == NULL) + thread->pim.result = NFA_PIM_UNUSED; + else + { + copy_pim(&thread->pim, pim); + l->has_pim = TRUE; + } + copy_sub(&thread->subs.norm, &subs->norm); +#ifdef FEAT_SYN_HL + if (rex.nfa_has_zsubexpr) + copy_sub(&thread->subs.synt, &subs->synt); +#endif +#ifdef ENABLE_LOG + report_state("Adding", &thread->subs.norm, state, l->id, pim); + did_print = TRUE; +#endif + } + +#ifdef ENABLE_LOG + if (!did_print) + report_state("Processing", &subs->norm, state, l->id, pim); +#endif + switch (state->c) + { + case NFA_MATCH: + break; + + case NFA_SPLIT: + /* order matters here */ + subs = addstate(l, state->out, subs, pim, off_arg); + subs = addstate(l, state->out1, subs, pim, off_arg); + break; + + case NFA_EMPTY: + case NFA_NOPEN: + case NFA_NCLOSE: + subs = addstate(l, state->out, subs, pim, off_arg); + break; + + case NFA_MOPEN: + case NFA_MOPEN1: + case NFA_MOPEN2: + case NFA_MOPEN3: + case NFA_MOPEN4: + case NFA_MOPEN5: + case NFA_MOPEN6: + case NFA_MOPEN7: + case NFA_MOPEN8: + case NFA_MOPEN9: +#ifdef FEAT_SYN_HL + case NFA_ZOPEN: + case NFA_ZOPEN1: + case NFA_ZOPEN2: + case NFA_ZOPEN3: + case NFA_ZOPEN4: + case NFA_ZOPEN5: + case NFA_ZOPEN6: + case NFA_ZOPEN7: + case NFA_ZOPEN8: + case NFA_ZOPEN9: +#endif + case NFA_ZSTART: + if (state->c == NFA_ZSTART) + { + subidx = 0; + sub = &subs->norm; + } +#ifdef FEAT_SYN_HL + else if (state->c >= NFA_ZOPEN && state->c <= NFA_ZOPEN9) + { + subidx = state->c - NFA_ZOPEN; + sub = &subs->synt; + } +#endif + else + { + subidx = state->c - NFA_MOPEN; + sub = &subs->norm; + } + + /* avoid compiler warnings */ + save_ptr = NULL; + vim_memset(&save_multipos, 0, sizeof(save_multipos)); + + /* Set the position (with "off" added) in the subexpression. Save + * and restore it when it was in use. Otherwise fill any gap. */ + if (REG_MULTI) + { + if (subidx < sub->in_use) + { + save_multipos = sub->list.multi[subidx]; + save_in_use = -1; + } + else + { + save_in_use = sub->in_use; + for (i = sub->in_use; i < subidx; ++i) + { + sub->list.multi[i].start_lnum = -1; + sub->list.multi[i].end_lnum = -1; + } + sub->in_use = subidx + 1; + } + if (off == -1) + { + sub->list.multi[subidx].start_lnum = rex.lnum + 1; + sub->list.multi[subidx].start_col = 0; + } + else + { + sub->list.multi[subidx].start_lnum = rex.lnum; + sub->list.multi[subidx].start_col = + (colnr_T)(rex.input - rex.line + off); + } + sub->list.multi[subidx].end_lnum = -1; + } + else + { + if (subidx < sub->in_use) + { + save_ptr = sub->list.line[subidx].start; + save_in_use = -1; + } + else + { + save_in_use = sub->in_use; + for (i = sub->in_use; i < subidx; ++i) + { + sub->list.line[i].start = NULL; + sub->list.line[i].end = NULL; + } + sub->in_use = subidx + 1; + } + sub->list.line[subidx].start = rex.input + off; + } + + subs = addstate(l, state->out, subs, pim, off_arg); + /* "subs" may have changed, need to set "sub" again */ +#ifdef FEAT_SYN_HL + if (state->c >= NFA_ZOPEN && state->c <= NFA_ZOPEN9) + sub = &subs->synt; + else +#endif + sub = &subs->norm; + + if (save_in_use == -1) + { + if (REG_MULTI) + sub->list.multi[subidx] = save_multipos; + else + sub->list.line[subidx].start = save_ptr; + } + else + sub->in_use = save_in_use; + break; + + case NFA_MCLOSE: + if (rex.nfa_has_zend && (REG_MULTI + ? subs->norm.list.multi[0].end_lnum >= 0 + : subs->norm.list.line[0].end != NULL)) + { + /* Do not overwrite the position set by \ze. */ + subs = addstate(l, state->out, subs, pim, off_arg); + break; + } + /* FALLTHROUGH */ + case NFA_MCLOSE1: + case NFA_MCLOSE2: + case NFA_MCLOSE3: + case NFA_MCLOSE4: + case NFA_MCLOSE5: + case NFA_MCLOSE6: + case NFA_MCLOSE7: + case NFA_MCLOSE8: + case NFA_MCLOSE9: +#ifdef FEAT_SYN_HL + case NFA_ZCLOSE: + case NFA_ZCLOSE1: + case NFA_ZCLOSE2: + case NFA_ZCLOSE3: + case NFA_ZCLOSE4: + case NFA_ZCLOSE5: + case NFA_ZCLOSE6: + case NFA_ZCLOSE7: + case NFA_ZCLOSE8: + case NFA_ZCLOSE9: +#endif + case NFA_ZEND: + if (state->c == NFA_ZEND) + { + subidx = 0; + sub = &subs->norm; + } +#ifdef FEAT_SYN_HL + else if (state->c >= NFA_ZCLOSE && state->c <= NFA_ZCLOSE9) + { + subidx = state->c - NFA_ZCLOSE; + sub = &subs->synt; + } +#endif + else + { + subidx = state->c - NFA_MCLOSE; + sub = &subs->norm; + } + + /* We don't fill in gaps here, there must have been an MOPEN that + * has done that. */ + save_in_use = sub->in_use; + if (sub->in_use <= subidx) + sub->in_use = subidx + 1; + if (REG_MULTI) + { + save_multipos = sub->list.multi[subidx]; + if (off == -1) + { + sub->list.multi[subidx].end_lnum = rex.lnum + 1; + sub->list.multi[subidx].end_col = 0; + } + else + { + sub->list.multi[subidx].end_lnum = rex.lnum; + sub->list.multi[subidx].end_col = + (colnr_T)(rex.input - rex.line + off); + } + /* avoid compiler warnings */ + save_ptr = NULL; + } + else + { + save_ptr = sub->list.line[subidx].end; + sub->list.line[subidx].end = rex.input + off; + /* avoid compiler warnings */ + vim_memset(&save_multipos, 0, sizeof(save_multipos)); + } + + subs = addstate(l, state->out, subs, pim, off_arg); + /* "subs" may have changed, need to set "sub" again */ +#ifdef FEAT_SYN_HL + if (state->c >= NFA_ZCLOSE && state->c <= NFA_ZCLOSE9) + sub = &subs->synt; + else +#endif + sub = &subs->norm; + + if (REG_MULTI) + sub->list.multi[subidx] = save_multipos; + else + sub->list.line[subidx].end = save_ptr; + sub->in_use = save_in_use; + break; + } + return subs; +} + +/* + * Like addstate(), but the new state(s) are put at position "*ip". + * Used for zero-width matches, next state to use is the added one. + * This makes sure the order of states to be tried does not change, which + * matters for alternatives. + */ + static void +addstate_here( + nfa_list_T *l, /* runtime state list */ + nfa_state_T *state, /* state to update */ + regsubs_T *subs, /* pointers to subexpressions */ + nfa_pim_T *pim, /* postponed look-behind match */ + int *ip) +{ + int tlen = l->n; + int count; + int listidx = *ip; + + /* First add the state(s) at the end, so that we know how many there are. + * Pass the listidx as offset (avoids adding another argument to + * addstate(). */ + addstate(l, state, subs, pim, -listidx - ADDSTATE_HERE_OFFSET); + + /* when "*ip" was at the end of the list, nothing to do */ + if (listidx + 1 == tlen) + return; + + /* re-order to put the new state at the current position */ + count = l->n - tlen; + if (count == 0) + return; /* no state got added */ + if (count == 1) + { + /* overwrite the current state */ + l->t[listidx] = l->t[l->n - 1]; + } + else if (count > 1) + { + if (l->n + count - 1 >= l->len) + { + /* not enough space to move the new states, reallocate the list + * and move the states to the right position */ + nfa_thread_T *newl; + + l->len = l->len * 3 / 2 + 50; + newl = (nfa_thread_T *)alloc(l->len * sizeof(nfa_thread_T)); + if (newl == NULL) + return; + mch_memmove(&(newl[0]), + &(l->t[0]), + sizeof(nfa_thread_T) * listidx); + mch_memmove(&(newl[listidx]), + &(l->t[l->n - count]), + sizeof(nfa_thread_T) * count); + mch_memmove(&(newl[listidx + count]), + &(l->t[listidx + 1]), + sizeof(nfa_thread_T) * (l->n - count - listidx - 1)); + vim_free(l->t); + l->t = newl; + } + else + { + /* make space for new states, then move them from the + * end to the current position */ + mch_memmove(&(l->t[listidx + count]), + &(l->t[listidx + 1]), + sizeof(nfa_thread_T) * (l->n - listidx - 1)); + mch_memmove(&(l->t[listidx]), + &(l->t[l->n - 1]), + sizeof(nfa_thread_T) * count); + } + } + --l->n; + *ip = listidx - 1; +} + +/* + * Check character class "class" against current character c. + */ + static int +check_char_class(int class, int c) +{ + switch (class) + { + case NFA_CLASS_ALNUM: + if (c >= 1 && c < 128 && isalnum(c)) + return OK; + break; + case NFA_CLASS_ALPHA: + if (c >= 1 && c < 128 && isalpha(c)) + return OK; + break; + case NFA_CLASS_BLANK: + if (c == ' ' || c == '\t') + return OK; + break; + case NFA_CLASS_CNTRL: + if (c >= 1 && c <= 127 && iscntrl(c)) + return OK; + break; + case NFA_CLASS_DIGIT: + if (VIM_ISDIGIT(c)) + return OK; + break; + case NFA_CLASS_GRAPH: + if (c >= 1 && c <= 127 && isgraph(c)) + return OK; + break; + case NFA_CLASS_LOWER: + if (MB_ISLOWER(c) && c != 170 && c != 186) + return OK; + break; + case NFA_CLASS_PRINT: + if (vim_isprintc(c)) + return OK; + break; + case NFA_CLASS_PUNCT: + if (c >= 1 && c < 128 && ispunct(c)) + return OK; + break; + case NFA_CLASS_SPACE: + if ((c >= 9 && c <= 13) || (c == ' ')) + return OK; + break; + case NFA_CLASS_UPPER: + if (MB_ISUPPER(c)) + return OK; + break; + case NFA_CLASS_XDIGIT: + if (vim_isxdigit(c)) + return OK; + break; + case NFA_CLASS_TAB: + if (c == '\t') + return OK; + break; + case NFA_CLASS_RETURN: + if (c == '\r') + return OK; + break; + case NFA_CLASS_BACKSPACE: + if (c == '\b') + return OK; + break; + case NFA_CLASS_ESCAPE: + if (c == '\033') + return OK; + break; + case NFA_CLASS_IDENT: + if (vim_isIDc(c)) + return OK; + break; + case NFA_CLASS_KEYWORD: + if (reg_iswordc(c)) + return OK; + break; + case NFA_CLASS_FNAME: + if (vim_isfilec(c)) + return OK; + break; + + default: + /* should not be here :P */ + siemsg(_(e_ill_char_class), class); + return FAIL; + } + return FAIL; +} + +/* + * Check for a match with subexpression "subidx". + * Return TRUE if it matches. + */ + static int +match_backref( + regsub_T *sub, /* pointers to subexpressions */ + int subidx, + int *bytelen) /* out: length of match in bytes */ +{ + int len; + + if (sub->in_use <= subidx) + { +retempty: + /* backref was not set, match an empty string */ + *bytelen = 0; + return TRUE; + } + + if (REG_MULTI) + { + if (sub->list.multi[subidx].start_lnum < 0 + || sub->list.multi[subidx].end_lnum < 0) + goto retempty; + if (sub->list.multi[subidx].start_lnum == rex.lnum + && sub->list.multi[subidx].end_lnum == rex.lnum) + { + len = sub->list.multi[subidx].end_col + - sub->list.multi[subidx].start_col; + if (cstrncmp(rex.line + sub->list.multi[subidx].start_col, + rex.input, &len) == 0) + { + *bytelen = len; + return TRUE; + } + } + else + { + if (match_with_backref( + sub->list.multi[subidx].start_lnum, + sub->list.multi[subidx].start_col, + sub->list.multi[subidx].end_lnum, + sub->list.multi[subidx].end_col, + bytelen) == RA_MATCH) + return TRUE; + } + } + else + { + if (sub->list.line[subidx].start == NULL + || sub->list.line[subidx].end == NULL) + goto retempty; + len = (int)(sub->list.line[subidx].end - sub->list.line[subidx].start); + if (cstrncmp(sub->list.line[subidx].start, rex.input, &len) == 0) + { + *bytelen = len; + return TRUE; + } + } + return FALSE; +} + +#ifdef FEAT_SYN_HL + +/* + * Check for a match with \z subexpression "subidx". + * Return TRUE if it matches. + */ + static int +match_zref( + int subidx, + int *bytelen) /* out: length of match in bytes */ +{ + int len; + + cleanup_zsubexpr(); + if (re_extmatch_in == NULL || re_extmatch_in->matches[subidx] == NULL) + { + /* backref was not set, match an empty string */ + *bytelen = 0; + return TRUE; + } + + len = (int)STRLEN(re_extmatch_in->matches[subidx]); + if (cstrncmp(re_extmatch_in->matches[subidx], rex.input, &len) == 0) + { + *bytelen = len; + return TRUE; + } + return FALSE; +} +#endif + +/* + * Save list IDs for all NFA states of "prog" into "list". + * Also reset the IDs to zero. + * Only used for the recursive value lastlist[1]. + */ + static void +nfa_save_listids(nfa_regprog_T *prog, int *list) +{ + int i; + nfa_state_T *p; + + /* Order in the list is reverse, it's a bit faster that way. */ + p = &prog->state[0]; + for (i = prog->nstate; --i >= 0; ) + { + list[i] = p->lastlist[1]; + p->lastlist[1] = 0; + ++p; + } +} + +/* + * Restore list IDs from "list" to all NFA states. + */ + static void +nfa_restore_listids(nfa_regprog_T *prog, int *list) +{ + int i; + nfa_state_T *p; + + p = &prog->state[0]; + for (i = prog->nstate; --i >= 0; ) + { + p->lastlist[1] = list[i]; + ++p; + } +} + + static int +nfa_re_num_cmp(long_u val, int op, long_u pos) +{ + if (op == 1) return pos > val; + if (op == 2) return pos < val; + return val == pos; +} + +static int nfa_regmatch(nfa_regprog_T *prog, nfa_state_T *start, regsubs_T *submatch, regsubs_T *m); + +/* + * Recursively call nfa_regmatch() + * "pim" is NULL or contains info about a Postponed Invisible Match (start + * position). + */ + static int +recursive_regmatch( + nfa_state_T *state, + nfa_pim_T *pim, + nfa_regprog_T *prog, + regsubs_T *submatch, + regsubs_T *m, + int **listids, + int *listids_len) +{ + int save_reginput_col = (int)(rex.input - rex.line); + int save_reglnum = rex.lnum; + int save_nfa_match = nfa_match; + int save_nfa_listid = rex.nfa_listid; + save_se_T *save_nfa_endp = nfa_endp; + save_se_T endpos; + save_se_T *endposp = NULL; + int result; + int need_restore = FALSE; + + if (pim != NULL) + { + /* start at the position where the postponed match was */ + if (REG_MULTI) + rex.input = rex.line + pim->end.pos.col; + else + rex.input = pim->end.ptr; + } + + if (state->c == NFA_START_INVISIBLE_BEFORE + || state->c == NFA_START_INVISIBLE_BEFORE_FIRST + || state->c == NFA_START_INVISIBLE_BEFORE_NEG + || state->c == NFA_START_INVISIBLE_BEFORE_NEG_FIRST) + { + /* The recursive match must end at the current position. When "pim" is + * not NULL it specifies the current position. */ + endposp = &endpos; + if (REG_MULTI) + { + if (pim == NULL) + { + endpos.se_u.pos.col = (int)(rex.input - rex.line); + endpos.se_u.pos.lnum = rex.lnum; + } + else + endpos.se_u.pos = pim->end.pos; + } + else + { + if (pim == NULL) + endpos.se_u.ptr = rex.input; + else + endpos.se_u.ptr = pim->end.ptr; + } + + /* Go back the specified number of bytes, or as far as the + * start of the previous line, to try matching "\@<=" or + * not matching "\@<!". This is very inefficient, limit the number of + * bytes if possible. */ + if (state->val <= 0) + { + if (REG_MULTI) + { + rex.line = reg_getline(--rex.lnum); + if (rex.line == NULL) + /* can't go before the first line */ + rex.line = reg_getline(++rex.lnum); + } + rex.input = rex.line; + } + else + { + if (REG_MULTI && (int)(rex.input - rex.line) < state->val) + { + /* Not enough bytes in this line, go to end of + * previous line. */ + rex.line = reg_getline(--rex.lnum); + if (rex.line == NULL) + { + /* can't go before the first line */ + rex.line = reg_getline(++rex.lnum); + rex.input = rex.line; + } + else + rex.input = rex.line + STRLEN(rex.line); + } + if ((int)(rex.input - rex.line) >= state->val) + { + rex.input -= state->val; + if (has_mbyte) + rex.input -= mb_head_off(rex.line, rex.input); + } + else + rex.input = rex.line; + } + } + +#ifdef ENABLE_LOG + if (log_fd != stderr) + fclose(log_fd); + log_fd = NULL; +#endif + /* Have to clear the lastlist field of the NFA nodes, so that + * nfa_regmatch() and addstate() can run properly after recursion. */ + if (nfa_ll_index == 1) + { + /* Already calling nfa_regmatch() recursively. Save the lastlist[1] + * values and clear them. */ + if (*listids == NULL || *listids_len < prog->nstate) + { + vim_free(*listids); + *listids = (int *)lalloc(sizeof(int) * prog->nstate, TRUE); + if (*listids == NULL) + { + emsg(_("E878: (NFA) Could not allocate memory for branch traversal!")); + return 0; + } + *listids_len = prog->nstate; + } + nfa_save_listids(prog, *listids); + need_restore = TRUE; + /* any value of rex.nfa_listid will do */ + } + else + { + /* First recursive nfa_regmatch() call, switch to the second lastlist + * entry. Make sure rex.nfa_listid is different from a previous + * recursive call, because some states may still have this ID. */ + ++nfa_ll_index; + if (rex.nfa_listid <= rex.nfa_alt_listid) + rex.nfa_listid = rex.nfa_alt_listid; + } + + /* Call nfa_regmatch() to check if the current concat matches at this + * position. The concat ends with the node NFA_END_INVISIBLE */ + nfa_endp = endposp; + result = nfa_regmatch(prog, state->out, submatch, m); + + if (need_restore) + nfa_restore_listids(prog, *listids); + else + { + --nfa_ll_index; + rex.nfa_alt_listid = rex.nfa_listid; + } + + /* restore position in input text */ + rex.lnum = save_reglnum; + if (REG_MULTI) + rex.line = reg_getline(rex.lnum); + rex.input = rex.line + save_reginput_col; + if (result != NFA_TOO_EXPENSIVE) + { + nfa_match = save_nfa_match; + rex.nfa_listid = save_nfa_listid; + } + nfa_endp = save_nfa_endp; + +#ifdef ENABLE_LOG + log_fd = fopen(NFA_REGEXP_RUN_LOG, "a"); + if (log_fd != NULL) + { + fprintf(log_fd, "****************************\n"); + fprintf(log_fd, "FINISHED RUNNING nfa_regmatch() recursively\n"); + fprintf(log_fd, "MATCH = %s\n", result == TRUE ? "OK" : "FALSE"); + fprintf(log_fd, "****************************\n"); + } + else + { + emsg(_(e_log_open_failed)); + log_fd = stderr; + } +#endif + + return result; +} + +/* + * Estimate the chance of a match with "state" failing. + * empty match: 0 + * NFA_ANY: 1 + * specific character: 99 + */ + static int +failure_chance(nfa_state_T *state, int depth) +{ + int c = state->c; + int l, r; + + /* detect looping */ + if (depth > 4) + return 1; + + switch (c) + { + case NFA_SPLIT: + if (state->out->c == NFA_SPLIT || state->out1->c == NFA_SPLIT) + /* avoid recursive stuff */ + return 1; + /* two alternatives, use the lowest failure chance */ + l = failure_chance(state->out, depth + 1); + r = failure_chance(state->out1, depth + 1); + return l < r ? l : r; + + case NFA_ANY: + /* matches anything, unlikely to fail */ + return 1; + + case NFA_MATCH: + case NFA_MCLOSE: + case NFA_ANY_COMPOSING: + /* empty match works always */ + return 0; + + case NFA_START_INVISIBLE: + case NFA_START_INVISIBLE_FIRST: + case NFA_START_INVISIBLE_NEG: + case NFA_START_INVISIBLE_NEG_FIRST: + case NFA_START_INVISIBLE_BEFORE: + case NFA_START_INVISIBLE_BEFORE_FIRST: + case NFA_START_INVISIBLE_BEFORE_NEG: + case NFA_START_INVISIBLE_BEFORE_NEG_FIRST: + case NFA_START_PATTERN: + /* recursive regmatch is expensive, use low failure chance */ + return 5; + + case NFA_BOL: + case NFA_EOL: + case NFA_BOF: + case NFA_EOF: + case NFA_NEWL: + return 99; + + case NFA_BOW: + case NFA_EOW: + return 90; + + case NFA_MOPEN: + case NFA_MOPEN1: + case NFA_MOPEN2: + case NFA_MOPEN3: + case NFA_MOPEN4: + case NFA_MOPEN5: + case NFA_MOPEN6: + case NFA_MOPEN7: + case NFA_MOPEN8: + case NFA_MOPEN9: +#ifdef FEAT_SYN_HL + case NFA_ZOPEN: + case NFA_ZOPEN1: + case NFA_ZOPEN2: + case NFA_ZOPEN3: + case NFA_ZOPEN4: + case NFA_ZOPEN5: + case NFA_ZOPEN6: + case NFA_ZOPEN7: + case NFA_ZOPEN8: + case NFA_ZOPEN9: + case NFA_ZCLOSE: + case NFA_ZCLOSE1: + case NFA_ZCLOSE2: + case NFA_ZCLOSE3: + case NFA_ZCLOSE4: + case NFA_ZCLOSE5: + case NFA_ZCLOSE6: + case NFA_ZCLOSE7: + case NFA_ZCLOSE8: + case NFA_ZCLOSE9: +#endif + case NFA_NOPEN: + case NFA_MCLOSE1: + case NFA_MCLOSE2: + case NFA_MCLOSE3: + case NFA_MCLOSE4: + case NFA_MCLOSE5: + case NFA_MCLOSE6: + case NFA_MCLOSE7: + case NFA_MCLOSE8: + case NFA_MCLOSE9: + case NFA_NCLOSE: + return failure_chance(state->out, depth + 1); + + case NFA_BACKREF1: + case NFA_BACKREF2: + case NFA_BACKREF3: + case NFA_BACKREF4: + case NFA_BACKREF5: + case NFA_BACKREF6: + case NFA_BACKREF7: + case NFA_BACKREF8: + case NFA_BACKREF9: +#ifdef FEAT_SYN_HL + case NFA_ZREF1: + case NFA_ZREF2: + case NFA_ZREF3: + case NFA_ZREF4: + case NFA_ZREF5: + case NFA_ZREF6: + case NFA_ZREF7: + case NFA_ZREF8: + case NFA_ZREF9: +#endif + /* backreferences don't match in many places */ + return 94; + + case NFA_LNUM_GT: + case NFA_LNUM_LT: + case NFA_COL_GT: + case NFA_COL_LT: + case NFA_VCOL_GT: + case NFA_VCOL_LT: + case NFA_MARK_GT: + case NFA_MARK_LT: + case NFA_VISUAL: + /* before/after positions don't match very often */ + return 85; + + case NFA_LNUM: + return 90; + + case NFA_CURSOR: + case NFA_COL: + case NFA_VCOL: + case NFA_MARK: + /* specific positions rarely match */ + return 98; + + case NFA_COMPOSING: + return 95; + + default: + if (c > 0) + /* character match fails often */ + return 95; + } + + /* something else, includes character classes */ + return 50; +} + +/* + * Skip until the char "c" we know a match must start with. + */ + static int +skip_to_start(int c, colnr_T *colp) +{ + char_u *s; + + /* Used often, do some work to avoid call overhead. */ + if (!rex.reg_ic && !has_mbyte) + s = vim_strbyte(rex.line + *colp, c); + else + s = cstrchr(rex.line + *colp, c); + if (s == NULL) + return FAIL; + *colp = (int)(s - rex.line); + return OK; +} + +/* + * Check for a match with match_text. + * Called after skip_to_start() has found regstart. + * Returns zero for no match, 1 for a match. + */ + static long +find_match_text(colnr_T startcol, int regstart, char_u *match_text) +{ + colnr_T col = startcol; + int c1, c2; + int len1, len2; + int match; + + for (;;) + { + match = TRUE; + len2 = MB_CHAR2LEN(regstart); /* skip regstart */ + for (len1 = 0; match_text[len1] != NUL; len1 += MB_CHAR2LEN(c1)) + { + c1 = PTR2CHAR(match_text + len1); + c2 = PTR2CHAR(rex.line + col + len2); + if (c1 != c2 && (!rex.reg_ic || MB_TOLOWER(c1) != MB_TOLOWER(c2))) + { + match = FALSE; + break; + } + len2 += MB_CHAR2LEN(c2); + } + if (match + /* check that no composing char follows */ + && !(enc_utf8 + && utf_iscomposing(PTR2CHAR(rex.line + col + len2)))) + { + cleanup_subexpr(); + if (REG_MULTI) + { + rex.reg_startpos[0].lnum = rex.lnum; + rex.reg_startpos[0].col = col; + rex.reg_endpos[0].lnum = rex.lnum; + rex.reg_endpos[0].col = col + len2; + } + else + { + rex.reg_startp[0] = rex.line + col; + rex.reg_endp[0] = rex.line + col + len2; + } + return 1L; + } + + /* Try finding regstart after the current match. */ + col += MB_CHAR2LEN(regstart); /* skip regstart */ + if (skip_to_start(regstart, &col) == FAIL) + break; + } + return 0L; +} + +#ifdef FEAT_RELTIME + static int +nfa_did_time_out() +{ + if (nfa_time_limit != NULL && profile_passed_limit(nfa_time_limit)) + { + if (nfa_timed_out != NULL) + *nfa_timed_out = TRUE; + return TRUE; + } + return FALSE; +} +#endif + +/* + * Main matching routine. + * + * Run NFA to determine whether it matches rex.input. + * + * When "nfa_endp" is not NULL it is a required end-of-match position. + * + * Return TRUE if there is a match, FALSE otherwise. + * When there is a match "submatch" contains the positions. + * Note: Caller must ensure that: start != NULL. + */ + static int +nfa_regmatch( + nfa_regprog_T *prog, + nfa_state_T *start, + regsubs_T *submatch, + regsubs_T *m) +{ + int result; + size_t size = 0; + int flag = 0; + int go_to_nextline = FALSE; + nfa_thread_T *t; + nfa_list_T list[2]; + int listidx; + nfa_list_T *thislist; + nfa_list_T *nextlist; + int *listids = NULL; + int listids_len = 0; + nfa_state_T *add_state; + int add_here; + int add_count; + int add_off = 0; + int toplevel = start->c == NFA_MOPEN; +#ifdef NFA_REGEXP_DEBUG_LOG + FILE *debug; +#endif + + /* Some patterns may take a long time to match, especially when using + * recursive_regmatch(). Allow interrupting them with CTRL-C. */ + fast_breakcheck(); + if (got_int) + return FALSE; +#ifdef FEAT_RELTIME + if (nfa_did_time_out()) + return FALSE; +#endif + +#ifdef NFA_REGEXP_DEBUG_LOG + debug = fopen(NFA_REGEXP_DEBUG_LOG, "a"); + if (debug == NULL) + { + semsg("(NFA) COULD NOT OPEN %s!", NFA_REGEXP_DEBUG_LOG); + return FALSE; + } +#endif + nfa_match = FALSE; + + /* Allocate memory for the lists of nodes. */ + size = (prog->nstate + 1) * sizeof(nfa_thread_T); + + list[0].t = (nfa_thread_T *)lalloc(size, TRUE); + list[0].len = prog->nstate + 1; + list[1].t = (nfa_thread_T *)lalloc(size, TRUE); + list[1].len = prog->nstate + 1; + if (list[0].t == NULL || list[1].t == NULL) + goto theend; + +#ifdef ENABLE_LOG + log_fd = fopen(NFA_REGEXP_RUN_LOG, "a"); + if (log_fd != NULL) + { + fprintf(log_fd, "**********************************\n"); + nfa_set_code(start->c); + fprintf(log_fd, " RUNNING nfa_regmatch() starting with state %d, code %s\n", + abs(start->id), code); + fprintf(log_fd, "**********************************\n"); + } + else + { + emsg(_(e_log_open_failed)); + log_fd = stderr; + } +#endif + + thislist = &list[0]; + thislist->n = 0; + thislist->has_pim = FALSE; + nextlist = &list[1]; + nextlist->n = 0; + nextlist->has_pim = FALSE; +#ifdef ENABLE_LOG + fprintf(log_fd, "(---) STARTSTATE first\n"); +#endif + thislist->id = rex.nfa_listid + 1; + + /* Inline optimized code for addstate(thislist, start, m, 0) if we know + * it's the first MOPEN. */ + if (toplevel) + { + if (REG_MULTI) + { + m->norm.list.multi[0].start_lnum = rex.lnum; + m->norm.list.multi[0].start_col = (colnr_T)(rex.input - rex.line); + } + else + m->norm.list.line[0].start = rex.input; + m->norm.in_use = 1; + addstate(thislist, start->out, m, NULL, 0); + } + else + addstate(thislist, start, m, NULL, 0); + +#define ADD_STATE_IF_MATCH(state) \ + if (result) { \ + add_state = state->out; \ + add_off = clen; \ + } + + /* + * Run for each character. + */ + for (;;) + { + int curc; + int clen; + + if (has_mbyte) + { + curc = (*mb_ptr2char)(rex.input); + clen = (*mb_ptr2len)(rex.input); + } + else + { + curc = *rex.input; + clen = 1; + } + if (curc == NUL) + { + clen = 0; + go_to_nextline = FALSE; + } + + /* swap lists */ + thislist = &list[flag]; + nextlist = &list[flag ^= 1]; + nextlist->n = 0; /* clear nextlist */ + nextlist->has_pim = FALSE; + ++rex.nfa_listid; + if (prog->re_engine == AUTOMATIC_ENGINE + && (rex.nfa_listid >= NFA_MAX_STATES +# ifdef FEAT_EVAL + || nfa_fail_for_testing +# endif + )) + { + /* too many states, retry with old engine */ + nfa_match = NFA_TOO_EXPENSIVE; + goto theend; + } + + thislist->id = rex.nfa_listid; + nextlist->id = rex.nfa_listid + 1; + +#ifdef ENABLE_LOG + fprintf(log_fd, "------------------------------------------\n"); + fprintf(log_fd, ">>> Reginput is \"%s\"\n", rex.input); + fprintf(log_fd, ">>> Advanced one character... Current char is %c (code %d) \n", curc, (int)curc); + fprintf(log_fd, ">>> Thislist has %d states available: ", thislist->n); + { + int i; + + for (i = 0; i < thislist->n; i++) + fprintf(log_fd, "%d ", abs(thislist->t[i].state->id)); + } + fprintf(log_fd, "\n"); +#endif + +#ifdef NFA_REGEXP_DEBUG_LOG + fprintf(debug, "\n-------------------\n"); +#endif + /* + * If the state lists are empty we can stop. + */ + if (thislist->n == 0) + break; + + /* compute nextlist */ + for (listidx = 0; listidx < thislist->n; ++listidx) + { + /* If the list gets very long there probably is something wrong. + * At least allow interrupting with CTRL-C. */ + fast_breakcheck(); + if (got_int) + break; +#ifdef FEAT_RELTIME + if (nfa_time_limit != NULL && ++nfa_time_count == 20) + { + nfa_time_count = 0; + if (nfa_did_time_out()) + break; + } +#endif + t = &thislist->t[listidx]; + +#ifdef NFA_REGEXP_DEBUG_LOG + nfa_set_code(t->state->c); + fprintf(debug, "%s, ", code); +#endif +#ifdef ENABLE_LOG + { + int col; + + if (t->subs.norm.in_use <= 0) + col = -1; + else if (REG_MULTI) + col = t->subs.norm.list.multi[0].start_col; + else + col = (int)(t->subs.norm.list.line[0].start - rex.line); + nfa_set_code(t->state->c); + fprintf(log_fd, "(%d) char %d %s (start col %d)%s... \n", + abs(t->state->id), (int)t->state->c, code, col, + pim_info(&t->pim)); + } +#endif + + /* + * Handle the possible codes of the current state. + * The most important is NFA_MATCH. + */ + add_state = NULL; + add_here = FALSE; + add_count = 0; + switch (t->state->c) + { + case NFA_MATCH: + { + /* If the match ends before a composing characters and + * rex.reg_icombine is not set, that is not really a match. */ + if (enc_utf8 && !rex.reg_icombine && utf_iscomposing(curc)) + break; + + nfa_match = TRUE; + copy_sub(&submatch->norm, &t->subs.norm); +#ifdef FEAT_SYN_HL + if (rex.nfa_has_zsubexpr) + copy_sub(&submatch->synt, &t->subs.synt); +#endif +#ifdef ENABLE_LOG + log_subsexpr(&t->subs); +#endif + /* Found the left-most longest match, do not look at any other + * states at this position. When the list of states is going + * to be empty quit without advancing, so that "rex.input" is + * correct. */ + if (nextlist->n == 0) + clen = 0; + goto nextchar; + } + + case NFA_END_INVISIBLE: + case NFA_END_INVISIBLE_NEG: + case NFA_END_PATTERN: + /* + * This is only encountered after a NFA_START_INVISIBLE or + * NFA_START_INVISIBLE_BEFORE node. + * They surround a zero-width group, used with "\@=", "\&", + * "\@!", "\@<=" and "\@<!". + * If we got here, it means that the current "invisible" group + * finished successfully, so return control to the parent + * nfa_regmatch(). For a look-behind match only when it ends + * in the position in "nfa_endp". + * Submatches are stored in *m, and used in the parent call. + */ +#ifdef ENABLE_LOG + if (nfa_endp != NULL) + { + if (REG_MULTI) + fprintf(log_fd, "Current lnum: %d, endp lnum: %d; current col: %d, endp col: %d\n", + (int)rex.lnum, + (int)nfa_endp->se_u.pos.lnum, + (int)(rex.input - rex.line), + nfa_endp->se_u.pos.col); + else + fprintf(log_fd, "Current col: %d, endp col: %d\n", + (int)(rex.input - rex.line), + (int)(nfa_endp->se_u.ptr - rex.input)); + } +#endif + /* If "nfa_endp" is set it's only a match if it ends at + * "nfa_endp" */ + if (nfa_endp != NULL && (REG_MULTI + ? (rex.lnum != nfa_endp->se_u.pos.lnum + || (int)(rex.input - rex.line) + != nfa_endp->se_u.pos.col) + : rex.input != nfa_endp->se_u.ptr)) + break; + + /* do not set submatches for \@! */ + if (t->state->c != NFA_END_INVISIBLE_NEG) + { + copy_sub(&m->norm, &t->subs.norm); +#ifdef FEAT_SYN_HL + if (rex.nfa_has_zsubexpr) + copy_sub(&m->synt, &t->subs.synt); +#endif + } +#ifdef ENABLE_LOG + fprintf(log_fd, "Match found:\n"); + log_subsexpr(m); +#endif + nfa_match = TRUE; + /* See comment above at "goto nextchar". */ + if (nextlist->n == 0) + clen = 0; + goto nextchar; + + case NFA_START_INVISIBLE: + case NFA_START_INVISIBLE_FIRST: + case NFA_START_INVISIBLE_NEG: + case NFA_START_INVISIBLE_NEG_FIRST: + case NFA_START_INVISIBLE_BEFORE: + case NFA_START_INVISIBLE_BEFORE_FIRST: + case NFA_START_INVISIBLE_BEFORE_NEG: + case NFA_START_INVISIBLE_BEFORE_NEG_FIRST: + { +#ifdef ENABLE_LOG + fprintf(log_fd, "Failure chance invisible: %d, what follows: %d\n", + failure_chance(t->state->out, 0), + failure_chance(t->state->out1->out, 0)); +#endif + /* Do it directly if there already is a PIM or when + * nfa_postprocess() detected it will work better. */ + if (t->pim.result != NFA_PIM_UNUSED + || t->state->c == NFA_START_INVISIBLE_FIRST + || t->state->c == NFA_START_INVISIBLE_NEG_FIRST + || t->state->c == NFA_START_INVISIBLE_BEFORE_FIRST + || t->state->c == NFA_START_INVISIBLE_BEFORE_NEG_FIRST) + { + int in_use = m->norm.in_use; + + /* Copy submatch info for the recursive call, opposite + * of what happens on success below. */ + copy_sub_off(&m->norm, &t->subs.norm); +#ifdef FEAT_SYN_HL + if (rex.nfa_has_zsubexpr) + copy_sub_off(&m->synt, &t->subs.synt); +#endif + + /* + * First try matching the invisible match, then what + * follows. + */ + result = recursive_regmatch(t->state, NULL, prog, + submatch, m, &listids, &listids_len); + if (result == NFA_TOO_EXPENSIVE) + { + nfa_match = result; + goto theend; + } + + /* for \@! and \@<! it is a match when the result is + * FALSE */ + if (result != (t->state->c == NFA_START_INVISIBLE_NEG + || t->state->c == NFA_START_INVISIBLE_NEG_FIRST + || t->state->c + == NFA_START_INVISIBLE_BEFORE_NEG + || t->state->c + == NFA_START_INVISIBLE_BEFORE_NEG_FIRST)) + { + /* Copy submatch info from the recursive call */ + copy_sub_off(&t->subs.norm, &m->norm); +#ifdef FEAT_SYN_HL + if (rex.nfa_has_zsubexpr) + copy_sub_off(&t->subs.synt, &m->synt); +#endif + /* If the pattern has \ze and it matched in the + * sub pattern, use it. */ + copy_ze_off(&t->subs.norm, &m->norm); + + /* t->state->out1 is the corresponding + * END_INVISIBLE node; Add its out to the current + * list (zero-width match). */ + add_here = TRUE; + add_state = t->state->out1->out; + } + m->norm.in_use = in_use; + } + else + { + nfa_pim_T pim; + + /* + * First try matching what follows. Only if a match + * is found verify the invisible match matches. Add a + * nfa_pim_T to the following states, it contains info + * about the invisible match. + */ + pim.state = t->state; + pim.result = NFA_PIM_TODO; + pim.subs.norm.in_use = 0; +#ifdef FEAT_SYN_HL + pim.subs.synt.in_use = 0; +#endif + if (REG_MULTI) + { + pim.end.pos.col = (int)(rex.input - rex.line); + pim.end.pos.lnum = rex.lnum; + } + else + pim.end.ptr = rex.input; + + /* t->state->out1 is the corresponding END_INVISIBLE + * node; Add its out to the current list (zero-width + * match). */ + addstate_here(thislist, t->state->out1->out, &t->subs, + &pim, &listidx); + } + } + break; + + case NFA_START_PATTERN: + { + nfa_state_T *skip = NULL; +#ifdef ENABLE_LOG + int skip_lid = 0; +#endif + + /* There is no point in trying to match the pattern if the + * output state is not going to be added to the list. */ + if (state_in_list(nextlist, t->state->out1->out, &t->subs)) + { + skip = t->state->out1->out; +#ifdef ENABLE_LOG + skip_lid = nextlist->id; +#endif + } + else if (state_in_list(nextlist, + t->state->out1->out->out, &t->subs)) + { + skip = t->state->out1->out->out; +#ifdef ENABLE_LOG + skip_lid = nextlist->id; +#endif + } + else if (state_in_list(thislist, + t->state->out1->out->out, &t->subs)) + { + skip = t->state->out1->out->out; +#ifdef ENABLE_LOG + skip_lid = thislist->id; +#endif + } + if (skip != NULL) + { +#ifdef ENABLE_LOG + nfa_set_code(skip->c); + fprintf(log_fd, "> Not trying to match pattern, output state %d is already in list %d. char %d: %s\n", + abs(skip->id), skip_lid, skip->c, code); +#endif + break; + } + /* Copy submatch info to the recursive call, opposite of what + * happens afterwards. */ + copy_sub_off(&m->norm, &t->subs.norm); +#ifdef FEAT_SYN_HL + if (rex.nfa_has_zsubexpr) + copy_sub_off(&m->synt, &t->subs.synt); +#endif + + /* First try matching the pattern. */ + result = recursive_regmatch(t->state, NULL, prog, + submatch, m, &listids, &listids_len); + if (result == NFA_TOO_EXPENSIVE) + { + nfa_match = result; + goto theend; + } + if (result) + { + int bytelen; + +#ifdef ENABLE_LOG + fprintf(log_fd, "NFA_START_PATTERN matches:\n"); + log_subsexpr(m); +#endif + /* Copy submatch info from the recursive call */ + copy_sub_off(&t->subs.norm, &m->norm); +#ifdef FEAT_SYN_HL + if (rex.nfa_has_zsubexpr) + copy_sub_off(&t->subs.synt, &m->synt); +#endif + /* Now we need to skip over the matched text and then + * continue with what follows. */ + if (REG_MULTI) + /* TODO: multi-line match */ + bytelen = m->norm.list.multi[0].end_col + - (int)(rex.input - rex.line); + else + bytelen = (int)(m->norm.list.line[0].end - rex.input); + +#ifdef ENABLE_LOG + fprintf(log_fd, "NFA_START_PATTERN length: %d\n", bytelen); +#endif + if (bytelen == 0) + { + /* empty match, output of corresponding + * NFA_END_PATTERN/NFA_SKIP to be used at current + * position */ + add_here = TRUE; + add_state = t->state->out1->out->out; + } + else if (bytelen <= clen) + { + /* match current character, output of corresponding + * NFA_END_PATTERN to be used at next position. */ + add_state = t->state->out1->out->out; + add_off = clen; + } + else + { + /* skip over the matched characters, set character + * count in NFA_SKIP */ + add_state = t->state->out1->out; + add_off = bytelen; + add_count = bytelen - clen; + } + } + break; + } + + case NFA_BOL: + if (rex.input == rex.line) + { + add_here = TRUE; + add_state = t->state->out; + } + break; + + case NFA_EOL: + if (curc == NUL) + { + add_here = TRUE; + add_state = t->state->out; + } + break; + + case NFA_BOW: + result = TRUE; + + if (curc == NUL) + result = FALSE; + else if (has_mbyte) + { + int this_class; + + /* Get class of current and previous char (if it exists). */ + this_class = mb_get_class_buf(rex.input, rex.reg_buf); + if (this_class <= 1) + result = FALSE; + else if (reg_prev_class() == this_class) + result = FALSE; + } + else if (!vim_iswordc_buf(curc, rex.reg_buf) + || (rex.input > rex.line + && vim_iswordc_buf(rex.input[-1], rex.reg_buf))) + result = FALSE; + if (result) + { + add_here = TRUE; + add_state = t->state->out; + } + break; + + case NFA_EOW: + result = TRUE; + if (rex.input == rex.line) + result = FALSE; + else if (has_mbyte) + { + int this_class, prev_class; + + /* Get class of current and previous char (if it exists). */ + this_class = mb_get_class_buf(rex.input, rex.reg_buf); + prev_class = reg_prev_class(); + if (this_class == prev_class + || prev_class == 0 || prev_class == 1) + result = FALSE; + } + else if (!vim_iswordc_buf(rex.input[-1], rex.reg_buf) + || (rex.input[0] != NUL + && vim_iswordc_buf(curc, rex.reg_buf))) + result = FALSE; + if (result) + { + add_here = TRUE; + add_state = t->state->out; + } + break; + + case NFA_BOF: + if (rex.lnum == 0 && rex.input == rex.line + && (!REG_MULTI || rex.reg_firstlnum == 1)) + { + add_here = TRUE; + add_state = t->state->out; + } + break; + + case NFA_EOF: + if (rex.lnum == rex.reg_maxline && curc == NUL) + { + add_here = TRUE; + add_state = t->state->out; + } + break; + + case NFA_COMPOSING: + { + int mc = curc; + int len = 0; + nfa_state_T *end; + nfa_state_T *sta; + int cchars[MAX_MCO]; + int ccount = 0; + int j; + + sta = t->state->out; + len = 0; + if (utf_iscomposing(sta->c)) + { + /* Only match composing character(s), ignore base + * character. Used for ".{composing}" and "{composing}" + * (no preceding character). */ + len += mb_char2len(mc); + } + if (rex.reg_icombine && len == 0) + { + /* If \Z was present, then ignore composing characters. + * When ignoring the base character this always matches. */ + if (sta->c != curc) + result = FAIL; + else + result = OK; + while (sta->c != NFA_END_COMPOSING) + sta = sta->out; + } + + /* Check base character matches first, unless ignored. */ + else if (len > 0 || mc == sta->c) + { + if (len == 0) + { + len += mb_char2len(mc); + sta = sta->out; + } + + /* We don't care about the order of composing characters. + * Get them into cchars[] first. */ + while (len < clen) + { + mc = mb_ptr2char(rex.input + len); + cchars[ccount++] = mc; + len += mb_char2len(mc); + if (ccount == MAX_MCO) + break; + } + + /* Check that each composing char in the pattern matches a + * composing char in the text. We do not check if all + * composing chars are matched. */ + result = OK; + while (sta->c != NFA_END_COMPOSING) + { + for (j = 0; j < ccount; ++j) + if (cchars[j] == sta->c) + break; + if (j == ccount) + { + result = FAIL; + break; + } + sta = sta->out; + } + } + else + result = FAIL; + + end = t->state->out1; /* NFA_END_COMPOSING */ + ADD_STATE_IF_MATCH(end); + break; + } + + case NFA_NEWL: + if (curc == NUL && !rex.reg_line_lbr && REG_MULTI + && rex.lnum <= rex.reg_maxline) + { + go_to_nextline = TRUE; + /* Pass -1 for the offset, which means taking the position + * at the start of the next line. */ + add_state = t->state->out; + add_off = -1; + } + else if (curc == '\n' && rex.reg_line_lbr) + { + /* match \n as if it is an ordinary character */ + add_state = t->state->out; + add_off = 1; + } + break; + + case NFA_START_COLL: + case NFA_START_NEG_COLL: + { + /* What follows is a list of characters, until NFA_END_COLL. + * One of them must match or none of them must match. */ + nfa_state_T *state; + int result_if_matched; + int c1, c2; + + /* Never match EOL. If it's part of the collection it is added + * as a separate state with an OR. */ + if (curc == NUL) + break; + + state = t->state->out; + result_if_matched = (t->state->c == NFA_START_COLL); + for (;;) + { + if (state->c == NFA_END_COLL) + { + result = !result_if_matched; + break; + } + if (state->c == NFA_RANGE_MIN) + { + c1 = state->val; + state = state->out; /* advance to NFA_RANGE_MAX */ + c2 = state->val; +#ifdef ENABLE_LOG + fprintf(log_fd, "NFA_RANGE_MIN curc=%d c1=%d c2=%d\n", + curc, c1, c2); +#endif + if (curc >= c1 && curc <= c2) + { + result = result_if_matched; + break; + } + if (rex.reg_ic) + { + int curc_low = MB_TOLOWER(curc); + int done = FALSE; + + for ( ; c1 <= c2; ++c1) + if (MB_TOLOWER(c1) == curc_low) + { + result = result_if_matched; + done = TRUE; + break; + } + if (done) + break; + } + } + else if (state->c < 0 ? check_char_class(state->c, curc) + : (curc == state->c + || (rex.reg_ic && MB_TOLOWER(curc) + == MB_TOLOWER(state->c)))) + { + result = result_if_matched; + break; + } + state = state->out; + } + if (result) + { + /* next state is in out of the NFA_END_COLL, out1 of + * START points to the END state */ + add_state = t->state->out1->out; + add_off = clen; + } + break; + } + + case NFA_ANY: + /* Any char except '\0', (end of input) does not match. */ + if (curc > 0) + { + add_state = t->state->out; + add_off = clen; + } + break; + + case NFA_ANY_COMPOSING: + /* On a composing character skip over it. Otherwise do + * nothing. Always matches. */ + if (enc_utf8 && utf_iscomposing(curc)) + { + add_off = clen; + } + else + { + add_here = TRUE; + add_off = 0; + } + add_state = t->state->out; + break; + + /* + * Character classes like \a for alpha, \d for digit etc. + */ + case NFA_IDENT: /* \i */ + result = vim_isIDc(curc); + ADD_STATE_IF_MATCH(t->state); + break; + + case NFA_SIDENT: /* \I */ + result = !VIM_ISDIGIT(curc) && vim_isIDc(curc); + ADD_STATE_IF_MATCH(t->state); + break; + + case NFA_KWORD: /* \k */ + result = vim_iswordp_buf(rex.input, rex.reg_buf); + ADD_STATE_IF_MATCH(t->state); + break; + + case NFA_SKWORD: /* \K */ + result = !VIM_ISDIGIT(curc) + && vim_iswordp_buf(rex.input, rex.reg_buf); + ADD_STATE_IF_MATCH(t->state); + break; + + case NFA_FNAME: /* \f */ + result = vim_isfilec(curc); + ADD_STATE_IF_MATCH(t->state); + break; + + case NFA_SFNAME: /* \F */ + result = !VIM_ISDIGIT(curc) && vim_isfilec(curc); + ADD_STATE_IF_MATCH(t->state); + break; + + case NFA_PRINT: /* \p */ + result = vim_isprintc(PTR2CHAR(rex.input)); + ADD_STATE_IF_MATCH(t->state); + break; + + case NFA_SPRINT: /* \P */ + result = !VIM_ISDIGIT(curc) && vim_isprintc(PTR2CHAR(rex.input)); + ADD_STATE_IF_MATCH(t->state); + break; + + case NFA_WHITE: /* \s */ + result = VIM_ISWHITE(curc); + ADD_STATE_IF_MATCH(t->state); + break; + + case NFA_NWHITE: /* \S */ + result = curc != NUL && !VIM_ISWHITE(curc); + ADD_STATE_IF_MATCH(t->state); + break; + + case NFA_DIGIT: /* \d */ + result = ri_digit(curc); + ADD_STATE_IF_MATCH(t->state); + break; + + case NFA_NDIGIT: /* \D */ + result = curc != NUL && !ri_digit(curc); + ADD_STATE_IF_MATCH(t->state); + break; + + case NFA_HEX: /* \x */ + result = ri_hex(curc); + ADD_STATE_IF_MATCH(t->state); + break; + + case NFA_NHEX: /* \X */ + result = curc != NUL && !ri_hex(curc); + ADD_STATE_IF_MATCH(t->state); + break; + + case NFA_OCTAL: /* \o */ + result = ri_octal(curc); + ADD_STATE_IF_MATCH(t->state); + break; + + case NFA_NOCTAL: /* \O */ + result = curc != NUL && !ri_octal(curc); + ADD_STATE_IF_MATCH(t->state); + break; + + case NFA_WORD: /* \w */ + result = ri_word(curc); + ADD_STATE_IF_MATCH(t->state); + break; + + case NFA_NWORD: /* \W */ + result = curc != NUL && !ri_word(curc); + ADD_STATE_IF_MATCH(t->state); + break; + + case NFA_HEAD: /* \h */ + result = ri_head(curc); + ADD_STATE_IF_MATCH(t->state); + break; + + case NFA_NHEAD: /* \H */ + result = curc != NUL && !ri_head(curc); + ADD_STATE_IF_MATCH(t->state); + break; + + case NFA_ALPHA: /* \a */ + result = ri_alpha(curc); + ADD_STATE_IF_MATCH(t->state); + break; + + case NFA_NALPHA: /* \A */ + result = curc != NUL && !ri_alpha(curc); + ADD_STATE_IF_MATCH(t->state); + break; + + case NFA_LOWER: /* \l */ + result = ri_lower(curc); + ADD_STATE_IF_MATCH(t->state); + break; + + case NFA_NLOWER: /* \L */ + result = curc != NUL && !ri_lower(curc); + ADD_STATE_IF_MATCH(t->state); + break; + + case NFA_UPPER: /* \u */ + result = ri_upper(curc); + ADD_STATE_IF_MATCH(t->state); + break; + + case NFA_NUPPER: /* \U */ + result = curc != NUL && !ri_upper(curc); + ADD_STATE_IF_MATCH(t->state); + break; + + case NFA_LOWER_IC: /* [a-z] */ + result = ri_lower(curc) || (rex.reg_ic && ri_upper(curc)); + ADD_STATE_IF_MATCH(t->state); + break; + + case NFA_NLOWER_IC: /* [^a-z] */ + result = curc != NUL + && !(ri_lower(curc) || (rex.reg_ic && ri_upper(curc))); + ADD_STATE_IF_MATCH(t->state); + break; + + case NFA_UPPER_IC: /* [A-Z] */ + result = ri_upper(curc) || (rex.reg_ic && ri_lower(curc)); + ADD_STATE_IF_MATCH(t->state); + break; + + case NFA_NUPPER_IC: /* ^[A-Z] */ + result = curc != NUL + && !(ri_upper(curc) || (rex.reg_ic && ri_lower(curc))); + ADD_STATE_IF_MATCH(t->state); + break; + + case NFA_BACKREF1: + case NFA_BACKREF2: + case NFA_BACKREF3: + case NFA_BACKREF4: + case NFA_BACKREF5: + case NFA_BACKREF6: + case NFA_BACKREF7: + case NFA_BACKREF8: + case NFA_BACKREF9: +#ifdef FEAT_SYN_HL + case NFA_ZREF1: + case NFA_ZREF2: + case NFA_ZREF3: + case NFA_ZREF4: + case NFA_ZREF5: + case NFA_ZREF6: + case NFA_ZREF7: + case NFA_ZREF8: + case NFA_ZREF9: +#endif + /* \1 .. \9 \z1 .. \z9 */ + { + int subidx; + int bytelen; + + if (t->state->c <= NFA_BACKREF9) + { + subidx = t->state->c - NFA_BACKREF1 + 1; + result = match_backref(&t->subs.norm, subidx, &bytelen); + } +#ifdef FEAT_SYN_HL + else + { + subidx = t->state->c - NFA_ZREF1 + 1; + result = match_zref(subidx, &bytelen); + } +#endif + + if (result) + { + if (bytelen == 0) + { + /* empty match always works, output of NFA_SKIP to be + * used next */ + add_here = TRUE; + add_state = t->state->out->out; + } + else if (bytelen <= clen) + { + /* match current character, jump ahead to out of + * NFA_SKIP */ + add_state = t->state->out->out; + add_off = clen; + } + else + { + /* skip over the matched characters, set character + * count in NFA_SKIP */ + add_state = t->state->out; + add_off = bytelen; + add_count = bytelen - clen; + } + } + break; + } + case NFA_SKIP: + /* character of previous matching \1 .. \9 or \@> */ + if (t->count - clen <= 0) + { + /* end of match, go to what follows */ + add_state = t->state->out; + add_off = clen; + } + else + { + /* add state again with decremented count */ + add_state = t->state; + add_off = 0; + add_count = t->count - clen; + } + break; + + case NFA_LNUM: + case NFA_LNUM_GT: + case NFA_LNUM_LT: + result = (REG_MULTI && + nfa_re_num_cmp(t->state->val, t->state->c - NFA_LNUM, + (long_u)(rex.lnum + rex.reg_firstlnum))); + if (result) + { + add_here = TRUE; + add_state = t->state->out; + } + break; + + case NFA_COL: + case NFA_COL_GT: + case NFA_COL_LT: + result = nfa_re_num_cmp(t->state->val, t->state->c - NFA_COL, + (long_u)(rex.input - rex.line) + 1); + if (result) + { + add_here = TRUE; + add_state = t->state->out; + } + break; + + case NFA_VCOL: + case NFA_VCOL_GT: + case NFA_VCOL_LT: + { + int op = t->state->c - NFA_VCOL; + colnr_T col = (colnr_T)(rex.input - rex.line); + win_T *wp = rex.reg_win == NULL ? curwin : rex.reg_win; + + /* Bail out quickly when there can't be a match, avoid the + * overhead of win_linetabsize() on long lines. */ + if (op != 1 && col > t->state->val + * (has_mbyte ? MB_MAXBYTES : 1)) + break; + result = FALSE; + if (op == 1 && col - 1 > t->state->val && col > 100) + { + int ts = wp->w_buffer->b_p_ts; + + /* Guess that a character won't use more columns than + * 'tabstop', with a minimum of 4. */ + if (ts < 4) + ts = 4; + result = col > t->state->val * ts; + } + if (!result) + result = nfa_re_num_cmp(t->state->val, op, + (long_u)win_linetabsize(wp, rex.line, col) + 1); + if (result) + { + add_here = TRUE; + add_state = t->state->out; + } + } + break; + + case NFA_MARK: + case NFA_MARK_GT: + case NFA_MARK_LT: + { + pos_T *pos = getmark_buf(rex.reg_buf, t->state->val, FALSE); + + /* Compare the mark position to the match position. */ + result = (pos != NULL /* mark doesn't exist */ + && pos->lnum > 0 /* mark isn't set in reg_buf */ + && (pos->lnum == rex.lnum + rex.reg_firstlnum + ? (pos->col == (colnr_T)(rex.input - rex.line) + ? t->state->c == NFA_MARK + : (pos->col < (colnr_T)(rex.input - rex.line) + ? t->state->c == NFA_MARK_GT + : t->state->c == NFA_MARK_LT)) + : (pos->lnum < rex.lnum + rex.reg_firstlnum + ? t->state->c == NFA_MARK_GT + : t->state->c == NFA_MARK_LT))); + if (result) + { + add_here = TRUE; + add_state = t->state->out; + } + break; + } + + case NFA_CURSOR: + result = (rex.reg_win != NULL + && (rex.lnum + rex.reg_firstlnum + == rex.reg_win->w_cursor.lnum) + && ((colnr_T)(rex.input - rex.line) + == rex.reg_win->w_cursor.col)); + if (result) + { + add_here = TRUE; + add_state = t->state->out; + } + break; + + case NFA_VISUAL: + result = reg_match_visual(); + if (result) + { + add_here = TRUE; + add_state = t->state->out; + } + break; + + case NFA_MOPEN1: + case NFA_MOPEN2: + case NFA_MOPEN3: + case NFA_MOPEN4: + case NFA_MOPEN5: + case NFA_MOPEN6: + case NFA_MOPEN7: + case NFA_MOPEN8: + case NFA_MOPEN9: +#ifdef FEAT_SYN_HL + case NFA_ZOPEN: + case NFA_ZOPEN1: + case NFA_ZOPEN2: + case NFA_ZOPEN3: + case NFA_ZOPEN4: + case NFA_ZOPEN5: + case NFA_ZOPEN6: + case NFA_ZOPEN7: + case NFA_ZOPEN8: + case NFA_ZOPEN9: +#endif + case NFA_NOPEN: + case NFA_ZSTART: + /* These states are only added to be able to bail out when + * they are added again, nothing is to be done. */ + break; + + default: /* regular character */ + { + int c = t->state->c; + +#ifdef DEBUG + if (c < 0) + siemsg("INTERNAL: Negative state char: %ld", c); +#endif + result = (c == curc); + + if (!result && rex.reg_ic) + result = MB_TOLOWER(c) == MB_TOLOWER(curc); + /* If rex.reg_icombine is not set only skip over the character + * itself. When it is set skip over composing characters. */ + if (result && enc_utf8 && !rex.reg_icombine) + clen = utf_ptr2len(rex.input); + ADD_STATE_IF_MATCH(t->state); + break; + } + + } /* switch (t->state->c) */ + + if (add_state != NULL) + { + nfa_pim_T *pim; + nfa_pim_T pim_copy; + + if (t->pim.result == NFA_PIM_UNUSED) + pim = NULL; + else + pim = &t->pim; + + /* Handle the postponed invisible match if the match might end + * without advancing and before the end of the line. */ + if (pim != NULL && (clen == 0 || match_follows(add_state, 0))) + { + if (pim->result == NFA_PIM_TODO) + { +#ifdef ENABLE_LOG + fprintf(log_fd, "\n"); + fprintf(log_fd, "==================================\n"); + fprintf(log_fd, "Postponed recursive nfa_regmatch()\n"); + fprintf(log_fd, "\n"); +#endif + result = recursive_regmatch(pim->state, pim, + prog, submatch, m, &listids, &listids_len); + pim->result = result ? NFA_PIM_MATCH : NFA_PIM_NOMATCH; + /* for \@! and \@<! it is a match when the result is + * FALSE */ + if (result != (pim->state->c == NFA_START_INVISIBLE_NEG + || pim->state->c == NFA_START_INVISIBLE_NEG_FIRST + || pim->state->c + == NFA_START_INVISIBLE_BEFORE_NEG + || pim->state->c + == NFA_START_INVISIBLE_BEFORE_NEG_FIRST)) + { + /* Copy submatch info from the recursive call */ + copy_sub_off(&pim->subs.norm, &m->norm); +#ifdef FEAT_SYN_HL + if (rex.nfa_has_zsubexpr) + copy_sub_off(&pim->subs.synt, &m->synt); +#endif + } + } + else + { + result = (pim->result == NFA_PIM_MATCH); +#ifdef ENABLE_LOG + fprintf(log_fd, "\n"); + fprintf(log_fd, "Using previous recursive nfa_regmatch() result, result == %d\n", pim->result); + fprintf(log_fd, "MATCH = %s\n", result == TRUE ? "OK" : "FALSE"); + fprintf(log_fd, "\n"); +#endif + } + + /* for \@! and \@<! it is a match when result is FALSE */ + if (result != (pim->state->c == NFA_START_INVISIBLE_NEG + || pim->state->c == NFA_START_INVISIBLE_NEG_FIRST + || pim->state->c + == NFA_START_INVISIBLE_BEFORE_NEG + || pim->state->c + == NFA_START_INVISIBLE_BEFORE_NEG_FIRST)) + { + /* Copy submatch info from the recursive call */ + copy_sub_off(&t->subs.norm, &pim->subs.norm); +#ifdef FEAT_SYN_HL + if (rex.nfa_has_zsubexpr) + copy_sub_off(&t->subs.synt, &pim->subs.synt); +#endif + } + else + /* look-behind match failed, don't add the state */ + continue; + + /* Postponed invisible match was handled, don't add it to + * following states. */ + pim = NULL; + } + + /* If "pim" points into l->t it will become invalid when + * adding the state causes the list to be reallocated. Make a + * local copy to avoid that. */ + if (pim == &t->pim) + { + copy_pim(&pim_copy, pim); + pim = &pim_copy; + } + + if (add_here) + addstate_here(thislist, add_state, &t->subs, pim, &listidx); + else + { + addstate(nextlist, add_state, &t->subs, pim, add_off); + if (add_count > 0) + nextlist->t[nextlist->n - 1].count = add_count; + } + } + + } /* for (thislist = thislist; thislist->state; thislist++) */ + + /* Look for the start of a match in the current position by adding the + * start state to the list of states. + * The first found match is the leftmost one, thus the order of states + * matters! + * Do not add the start state in recursive calls of nfa_regmatch(), + * because recursive calls should only start in the first position. + * Unless "nfa_endp" is not NULL, then we match the end position. + * Also don't start a match past the first line. */ + if (nfa_match == FALSE + && ((toplevel + && rex.lnum == 0 + && clen != 0 + && (rex.reg_maxcol == 0 + || (colnr_T)(rex.input - rex.line) < rex.reg_maxcol)) + || (nfa_endp != NULL + && (REG_MULTI + ? (rex.lnum < nfa_endp->se_u.pos.lnum + || (rex.lnum == nfa_endp->se_u.pos.lnum + && (int)(rex.input - rex.line) + < nfa_endp->se_u.pos.col)) + : rex.input < nfa_endp->se_u.ptr)))) + { +#ifdef ENABLE_LOG + fprintf(log_fd, "(---) STARTSTATE\n"); +#endif + /* Inline optimized code for addstate() if we know the state is + * the first MOPEN. */ + if (toplevel) + { + int add = TRUE; + int c; + + if (prog->regstart != NUL && clen != 0) + { + if (nextlist->n == 0) + { + colnr_T col = (colnr_T)(rex.input - rex.line) + clen; + + /* Nextlist is empty, we can skip ahead to the + * character that must appear at the start. */ + if (skip_to_start(prog->regstart, &col) == FAIL) + break; +#ifdef ENABLE_LOG + fprintf(log_fd, " Skipping ahead %d bytes to regstart\n", + col - ((colnr_T)(rex.input - rex.line) + clen)); +#endif + rex.input = rex.line + col - clen; + } + else + { + /* Checking if the required start character matches is + * cheaper than adding a state that won't match. */ + c = PTR2CHAR(rex.input + clen); + if (c != prog->regstart && (!rex.reg_ic + || MB_TOLOWER(c) != MB_TOLOWER(prog->regstart))) + { +#ifdef ENABLE_LOG + fprintf(log_fd, " Skipping start state, regstart does not match\n"); +#endif + add = FALSE; + } + } + } + + if (add) + { + if (REG_MULTI) + m->norm.list.multi[0].start_col = + (colnr_T)(rex.input - rex.line) + clen; + else + m->norm.list.line[0].start = rex.input + clen; + addstate(nextlist, start->out, m, NULL, clen); + } + } + else + addstate(nextlist, start, m, NULL, clen); + } + +#ifdef ENABLE_LOG + fprintf(log_fd, ">>> Thislist had %d states available: ", thislist->n); + { + int i; + + for (i = 0; i < thislist->n; i++) + fprintf(log_fd, "%d ", abs(thislist->t[i].state->id)); + } + fprintf(log_fd, "\n"); +#endif + +nextchar: + /* Advance to the next character, or advance to the next line, or + * finish. */ + if (clen != 0) + rex.input += clen; + else if (go_to_nextline || (nfa_endp != NULL && REG_MULTI + && rex.lnum < nfa_endp->se_u.pos.lnum)) + reg_nextline(); + else + break; + + /* Allow interrupting with CTRL-C. */ + line_breakcheck(); + if (got_int) + break; +#ifdef FEAT_RELTIME + /* Check for timeout once in a twenty times to avoid overhead. */ + if (nfa_time_limit != NULL && ++nfa_time_count == 20) + { + nfa_time_count = 0; + if (nfa_did_time_out()) + break; + } +#endif + } + +#ifdef ENABLE_LOG + if (log_fd != stderr) + fclose(log_fd); + log_fd = NULL; +#endif + +theend: + /* Free memory */ + vim_free(list[0].t); + vim_free(list[1].t); + vim_free(listids); +#undef ADD_STATE_IF_MATCH +#ifdef NFA_REGEXP_DEBUG_LOG + fclose(debug); +#endif + + return nfa_match; +} + +/* + * Try match of "prog" with at rex.line["col"]. + * Returns <= 0 for failure, number of lines contained in the match otherwise. + */ + static long +nfa_regtry( + nfa_regprog_T *prog, + colnr_T col, + proftime_T *tm UNUSED, /* timeout limit or NULL */ + int *timed_out UNUSED) /* flag set on timeout or NULL */ +{ + int i; + regsubs_T subs, m; + nfa_state_T *start = prog->start; + int result; +#ifdef ENABLE_LOG + FILE *f; +#endif + + rex.input = rex.line + col; +#ifdef FEAT_RELTIME + nfa_time_limit = tm; + nfa_timed_out = timed_out; + nfa_time_count = 0; +#endif + +#ifdef ENABLE_LOG + f = fopen(NFA_REGEXP_RUN_LOG, "a"); + if (f != NULL) + { + fprintf(f, "\n\n\t=======================================================\n"); +#ifdef DEBUG + fprintf(f, "\tRegexp is \"%s\"\n", nfa_regengine.expr); +#endif + fprintf(f, "\tInput text is \"%s\" \n", rex.input); + fprintf(f, "\t=======================================================\n\n"); + nfa_print_state(f, start); + fprintf(f, "\n\n"); + fclose(f); + } + else + emsg("Could not open temporary log file for writing"); +#endif + + clear_sub(&subs.norm); + clear_sub(&m.norm); +#ifdef FEAT_SYN_HL + clear_sub(&subs.synt); + clear_sub(&m.synt); +#endif + + result = nfa_regmatch(prog, start, &subs, &m); + if (result == FALSE) + return 0; + else if (result == NFA_TOO_EXPENSIVE) + return result; + + cleanup_subexpr(); + if (REG_MULTI) + { + for (i = 0; i < subs.norm.in_use; i++) + { + rex.reg_startpos[i].lnum = subs.norm.list.multi[i].start_lnum; + rex.reg_startpos[i].col = subs.norm.list.multi[i].start_col; + + rex.reg_endpos[i].lnum = subs.norm.list.multi[i].end_lnum; + rex.reg_endpos[i].col = subs.norm.list.multi[i].end_col; + } + + if (rex.reg_startpos[0].lnum < 0) + { + rex.reg_startpos[0].lnum = 0; + rex.reg_startpos[0].col = col; + } + if (rex.reg_endpos[0].lnum < 0) + { + /* pattern has a \ze but it didn't match, use current end */ + rex.reg_endpos[0].lnum = rex.lnum; + rex.reg_endpos[0].col = (int)(rex.input - rex.line); + } + else + /* Use line number of "\ze". */ + rex.lnum = rex.reg_endpos[0].lnum; + } + else + { + for (i = 0; i < subs.norm.in_use; i++) + { + rex.reg_startp[i] = subs.norm.list.line[i].start; + rex.reg_endp[i] = subs.norm.list.line[i].end; + } + + if (rex.reg_startp[0] == NULL) + rex.reg_startp[0] = rex.line + col; + if (rex.reg_endp[0] == NULL) + rex.reg_endp[0] = rex.input; + } + +#ifdef FEAT_SYN_HL + /* Package any found \z(...\) matches for export. Default is none. */ + unref_extmatch(re_extmatch_out); + re_extmatch_out = NULL; + + if (prog->reghasz == REX_SET) + { + cleanup_zsubexpr(); + re_extmatch_out = make_extmatch(); + /* Loop over \z1, \z2, etc. There is no \z0. */ + for (i = 1; i < subs.synt.in_use; i++) + { + if (REG_MULTI) + { + struct multipos *mpos = &subs.synt.list.multi[i]; + + /* Only accept single line matches that are valid. */ + if (mpos->start_lnum >= 0 + && mpos->start_lnum == mpos->end_lnum + && mpos->end_col >= mpos->start_col) + re_extmatch_out->matches[i] = + vim_strnsave(reg_getline(mpos->start_lnum) + + mpos->start_col, + mpos->end_col - mpos->start_col); + } + else + { + struct linepos *lpos = &subs.synt.list.line[i]; + + if (lpos->start != NULL && lpos->end != NULL) + re_extmatch_out->matches[i] = + vim_strnsave(lpos->start, + (int)(lpos->end - lpos->start)); + } + } + } +#endif + + return 1 + rex.lnum; +} + +/* + * Match a regexp against a string ("line" points to the string) or multiple + * lines ("line" is NULL, use reg_getline()). + * + * Returns <= 0 for failure, number of lines contained in the match otherwise. + */ + static long +nfa_regexec_both( + char_u *line, + colnr_T startcol, /* column to start looking for match */ + proftime_T *tm, /* timeout limit or NULL */ + int *timed_out) /* flag set on timeout or NULL */ +{ + nfa_regprog_T *prog; + long retval = 0L; + int i; + colnr_T col = startcol; + + if (REG_MULTI) + { + prog = (nfa_regprog_T *)rex.reg_mmatch->regprog; + line = reg_getline((linenr_T)0); /* relative to the cursor */ + rex.reg_startpos = rex.reg_mmatch->startpos; + rex.reg_endpos = rex.reg_mmatch->endpos; + } + else + { + prog = (nfa_regprog_T *)rex.reg_match->regprog; + rex.reg_startp = rex.reg_match->startp; + rex.reg_endp = rex.reg_match->endp; + } + + /* Be paranoid... */ + if (prog == NULL || line == NULL) + { + emsg(_(e_null)); + goto theend; + } + + /* If pattern contains "\c" or "\C": overrule value of rex.reg_ic */ + if (prog->regflags & RF_ICASE) + rex.reg_ic = TRUE; + else if (prog->regflags & RF_NOICASE) + rex.reg_ic = FALSE; + + /* If pattern contains "\Z" overrule value of rex.reg_icombine */ + if (prog->regflags & RF_ICOMBINE) + rex.reg_icombine = TRUE; + + rex.line = line; + rex.lnum = 0; /* relative to line */ + + rex.nfa_has_zend = prog->has_zend; + rex.nfa_has_backref = prog->has_backref; + rex.nfa_nsubexpr = prog->nsubexp; + rex.nfa_listid = 1; + rex.nfa_alt_listid = 2; +#ifdef DEBUG + nfa_regengine.expr = prog->pattern; +#endif + + if (prog->reganch && col > 0) + return 0L; + + rex.need_clear_subexpr = TRUE; +#ifdef FEAT_SYN_HL + /* Clear the external match subpointers if necessary. */ + if (prog->reghasz == REX_SET) + { + rex.nfa_has_zsubexpr = TRUE; + rex.need_clear_zsubexpr = TRUE; + } + else + { + rex.nfa_has_zsubexpr = FALSE; + rex.need_clear_zsubexpr = FALSE; + } +#endif + + if (prog->regstart != NUL) + { + /* Skip ahead until a character we know the match must start with. + * When there is none there is no match. */ + if (skip_to_start(prog->regstart, &col) == FAIL) + return 0L; + + /* If match_text is set it contains the full text that must match. + * Nothing else to try. Doesn't handle combining chars well. */ + if (prog->match_text != NULL && !rex.reg_icombine) + return find_match_text(col, prog->regstart, prog->match_text); + } + + /* If the start column is past the maximum column: no need to try. */ + if (rex.reg_maxcol > 0 && col >= rex.reg_maxcol) + goto theend; + + // Set the "nstate" used by nfa_regcomp() to zero to trigger an error when + // it's accidentally used during execution. + nstate = 0; + for (i = 0; i < prog->nstate; ++i) + { + prog->state[i].id = i; + prog->state[i].lastlist[0] = 0; + prog->state[i].lastlist[1] = 0; + } + + retval = nfa_regtry(prog, col, tm, timed_out); + +#ifdef DEBUG + nfa_regengine.expr = NULL; +#endif + +theend: + return retval; +} + +/* + * Compile a regular expression into internal code for the NFA matcher. + * Returns the program in allocated space. Returns NULL for an error. + */ + static regprog_T * +nfa_regcomp(char_u *expr, int re_flags) +{ + nfa_regprog_T *prog = NULL; + size_t prog_size; + int *postfix; + + if (expr == NULL) + return NULL; + +#ifdef DEBUG + nfa_regengine.expr = expr; +#endif + nfa_re_flags = re_flags; + + init_class_tab(); + + if (nfa_regcomp_start(expr, re_flags) == FAIL) + return NULL; + + /* Build postfix form of the regexp. Needed to build the NFA + * (and count its size). */ + postfix = re2post(); + if (postfix == NULL) + { + /* TODO: only give this error for debugging? */ + if (post_ptr >= post_end) + siemsg("Internal error: estimated max number of states insufficient: %ld", post_end - post_start); + goto fail; /* Cascaded (syntax?) error */ + } + + /* + * In order to build the NFA, we parse the input regexp twice: + * 1. first pass to count size (so we can allocate space) + * 2. second to emit code + */ +#ifdef ENABLE_LOG + { + FILE *f = fopen(NFA_REGEXP_RUN_LOG, "a"); + + if (f != NULL) + { + fprintf(f, "\n*****************************\n\n\n\n\tCompiling regexp \"%s\"... hold on !\n", expr); + fclose(f); + } + } +#endif + + /* + * PASS 1 + * Count number of NFA states in "nstate". Do not build the NFA. + */ + post2nfa(postfix, post_ptr, TRUE); + + /* allocate the regprog with space for the compiled regexp */ + prog_size = sizeof(nfa_regprog_T) + sizeof(nfa_state_T) * (nstate - 1); + prog = (nfa_regprog_T *)lalloc(prog_size, TRUE); + if (prog == NULL) + goto fail; + state_ptr = prog->state; + prog->re_in_use = FALSE; + + /* + * PASS 2 + * Build the NFA + */ + prog->start = post2nfa(postfix, post_ptr, FALSE); + if (prog->start == NULL) + goto fail; + + prog->regflags = regflags; + prog->engine = &nfa_regengine; + prog->nstate = nstate; + prog->has_zend = rex.nfa_has_zend; + prog->has_backref = rex.nfa_has_backref; + prog->nsubexp = regnpar; + + nfa_postprocess(prog); + + prog->reganch = nfa_get_reganch(prog->start, 0); + prog->regstart = nfa_get_regstart(prog->start, 0); + prog->match_text = nfa_get_match_text(prog->start); + +#ifdef ENABLE_LOG + nfa_postfix_dump(expr, OK); + nfa_dump(prog); +#endif +#ifdef FEAT_SYN_HL + /* Remember whether this pattern has any \z specials in it. */ + prog->reghasz = re_has_z; +#endif + prog->pattern = vim_strsave(expr); +#ifdef DEBUG + nfa_regengine.expr = NULL; +#endif + +out: + VIM_CLEAR(post_start); + post_ptr = post_end = NULL; + state_ptr = NULL; + return (regprog_T *)prog; + +fail: + VIM_CLEAR(prog); +#ifdef ENABLE_LOG + nfa_postfix_dump(expr, FAIL); +#endif +#ifdef DEBUG + nfa_regengine.expr = NULL; +#endif + goto out; +} + +/* + * Free a compiled regexp program, returned by nfa_regcomp(). + */ + static void +nfa_regfree(regprog_T *prog) +{ + if (prog != NULL) + { + vim_free(((nfa_regprog_T *)prog)->match_text); + vim_free(((nfa_regprog_T *)prog)->pattern); + vim_free(prog); + } +} + +/* + * Match a regexp against a string. + * "rmp->regprog" is a compiled regexp as returned by nfa_regcomp(). + * Uses curbuf for line count and 'iskeyword'. + * If "line_lbr" is TRUE consider a "\n" in "line" to be a line break. + * + * Returns <= 0 for failure, number of lines contained in the match otherwise. + */ + static int +nfa_regexec_nl( + regmatch_T *rmp, + char_u *line, /* string to match against */ + colnr_T col, /* column to start looking for match */ + int line_lbr) +{ + rex.reg_match = rmp; + rex.reg_mmatch = NULL; + rex.reg_maxline = 0; + rex.reg_line_lbr = line_lbr; + rex.reg_buf = curbuf; + rex.reg_win = NULL; + rex.reg_ic = rmp->rm_ic; + rex.reg_icombine = FALSE; + rex.reg_maxcol = 0; + return nfa_regexec_both(line, col, NULL, NULL); +} + + +/* + * Match a regexp against multiple lines. + * "rmp->regprog" is a compiled regexp as returned by vim_regcomp(). + * Uses curbuf for line count and 'iskeyword'. + * + * Return <= 0 if there is no match. Return number of lines contained in the + * match otherwise. + * + * Note: the body is the same as bt_regexec() except for nfa_regexec_both() + * + * ! Also NOTE : match may actually be in another line. e.g.: + * when r.e. is \nc, cursor is at 'a' and the text buffer looks like + * + * +-------------------------+ + * |a | + * |b | + * |c | + * | | + * +-------------------------+ + * + * then nfa_regexec_multi() returns 3. while the original + * vim_regexec_multi() returns 0 and a second call at line 2 will return 2. + * + * FIXME if this behavior is not compatible. + */ + static long +nfa_regexec_multi( + regmmatch_T *rmp, + win_T *win, /* window in which to search or NULL */ + buf_T *buf, /* buffer in which to search */ + linenr_T lnum, /* nr of line to start looking for match */ + colnr_T col, /* column to start looking for match */ + proftime_T *tm, /* timeout limit or NULL */ + int *timed_out) /* flag set on timeout or NULL */ +{ + rex.reg_match = NULL; + rex.reg_mmatch = rmp; + rex.reg_buf = buf; + rex.reg_win = win; + rex.reg_firstlnum = lnum; + rex.reg_maxline = rex.reg_buf->b_ml.ml_line_count - lnum; + rex.reg_line_lbr = FALSE; + rex.reg_ic = rmp->rmm_ic; + rex.reg_icombine = FALSE; + rex.reg_maxcol = rmp->rmm_maxcol; + + return nfa_regexec_both(NULL, col, tm, timed_out); +} + +#ifdef DEBUG +# undef ENABLE_LOG +#endif |