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|
/* vi:set ts=8 sts=4 sw=4 noet:
*
* Handling of regular expressions: vim_regcomp(), vim_regexec(), vim_regsub()
*/
// By default: do not create debugging logs or files related to regular
// expressions, even when compiling with -DDEBUG.
// Uncomment the second line to get the regexp debugging.
#undef DEBUG
// #define DEBUG
#include "vim.h"
#ifdef DEBUG
// show/save debugging data when BT engine is used
# define BT_REGEXP_DUMP
// save the debugging data to a file instead of displaying it
# define BT_REGEXP_LOG
# define BT_REGEXP_DEBUG_LOG
# define BT_REGEXP_DEBUG_LOG_NAME "bt_regexp_debug.log"
#endif
/*
* Magic characters have a special meaning, they don't match literally.
* Magic characters are negative. This separates them from literal characters
* (possibly multi-byte). Only ASCII characters can be Magic.
*/
#define Magic(x) ((int)(x) - 256)
#define un_Magic(x) ((x) + 256)
#define is_Magic(x) ((x) < 0)
static int
no_Magic(int x)
{
if (is_Magic(x))
return un_Magic(x);
return x;
}
static int
toggle_Magic(int x)
{
if (is_Magic(x))
return un_Magic(x);
return Magic(x);
}
/*
* The first byte of the BT regexp internal "program" is actually this magic
* number; the start node begins in the second byte. It's used to catch the
* most severe mutilation of the program by the caller.
*/
#define REGMAGIC 0234
/*
* Utility definitions.
*/
#define UCHARAT(p) ((int)*(char_u *)(p))
// Used for an error (down from) vim_regcomp(): give the error message, set
// rc_did_emsg and return NULL
#define EMSG_RET_NULL(m) return (emsg((m)), rc_did_emsg = TRUE, (void *)NULL)
#define IEMSG_RET_NULL(m) return (iemsg((m)), rc_did_emsg = TRUE, (void *)NULL)
#define EMSG_RET_FAIL(m) return (emsg((m)), rc_did_emsg = TRUE, FAIL)
#define EMSG2_RET_NULL(m, c) return (semsg((const char *)(m), (c) ? "" : "\\"), rc_did_emsg = TRUE, (void *)NULL)
#define EMSG3_RET_NULL(m, c, a) return (semsg((const char *)(m), (c) ? "" : "\\", (a)), rc_did_emsg = TRUE, (void *)NULL)
#define EMSG2_RET_FAIL(m, c) return (semsg((const char *)(m), (c) ? "" : "\\"), rc_did_emsg = TRUE, FAIL)
#define EMSG_ONE_RET_NULL EMSG2_RET_NULL(_("E369: invalid item in %s%%[]"), reg_magic == MAGIC_ALL)
#define MAX_LIMIT (32767L << 16L)
static char_u e_missingbracket[] = N_("E769: Missing ] after %s[");
static char_u e_reverse_range[] = N_("E944: Reverse range in character class");
static char_u e_large_class[] = N_("E945: Range too large in character class");
static char_u e_unmatchedpp[] = N_("E53: Unmatched %s%%(");
static char_u e_unmatchedp[] = N_("E54: Unmatched %s(");
static char_u e_unmatchedpar[] = N_("E55: Unmatched %s)");
#ifdef FEAT_SYN_HL
static char_u e_z_not_allowed[] = N_("E66: \\z( not allowed here");
static char_u e_z1_not_allowed[] = N_("E67: \\z1 - \\z9 not allowed here");
#endif
static char_u e_missing_sb[] = N_("E69: Missing ] after %s%%[");
static char_u e_empty_sb[] = N_("E70: Empty %s%%[]");
static char_u e_recursive[] = N_("E956: Cannot use pattern recursively");
#define NOT_MULTI 0
#define MULTI_ONE 1
#define MULTI_MULT 2
// return values for regmatch()
#define RA_FAIL 1 // something failed, abort
#define RA_CONT 2 // continue in inner loop
#define RA_BREAK 3 // break inner loop
#define RA_MATCH 4 // successful match
#define RA_NOMATCH 5 // didn't match
/*
* Return NOT_MULTI if c is not a "multi" operator.
* Return MULTI_ONE if c is a single "multi" operator.
* Return MULTI_MULT if c is a multi "multi" operator.
*/
static int
re_multi_type(int c)
{
if (c == Magic('@') || c == Magic('=') || c == Magic('?'))
return MULTI_ONE;
if (c == Magic('*') || c == Magic('+') || c == Magic('{'))
return MULTI_MULT;
return NOT_MULTI;
}
static char_u *reg_prev_sub = NULL;
/*
* REGEXP_INRANGE contains all characters which are always special in a []
* range after '\'.
* REGEXP_ABBR contains all characters which act as abbreviations after '\'.
* These are:
* \n - New line (NL).
* \r - Carriage Return (CR).
* \t - Tab (TAB).
* \e - Escape (ESC).
* \b - Backspace (Ctrl_H).
* \d - Character code in decimal, eg \d123
* \o - Character code in octal, eg \o80
* \x - Character code in hex, eg \x4a
* \u - Multibyte character code, eg \u20ac
* \U - Long multibyte character code, eg \U12345678
*/
static char_u REGEXP_INRANGE[] = "]^-n\\";
static char_u REGEXP_ABBR[] = "nrtebdoxuU";
/*
* Translate '\x' to its control character, except "\n", which is Magic.
*/
static int
backslash_trans(int c)
{
switch (c)
{
case 'r': return CAR;
case 't': return TAB;
case 'e': return ESC;
case 'b': return BS;
}
return c;
}
/*
* Check for a character class name "[:name:]". "pp" points to the '['.
* Returns one of the CLASS_ items. CLASS_NONE means that no item was
* recognized. Otherwise "pp" is advanced to after the item.
*/
static int
get_char_class(char_u **pp)
{
static const char *(class_names[]) =
{
"alnum:]",
#define CLASS_ALNUM 0
"alpha:]",
#define CLASS_ALPHA 1
"blank:]",
#define CLASS_BLANK 2
"cntrl:]",
#define CLASS_CNTRL 3
"digit:]",
#define CLASS_DIGIT 4
"graph:]",
#define CLASS_GRAPH 5
"lower:]",
#define CLASS_LOWER 6
"print:]",
#define CLASS_PRINT 7
"punct:]",
#define CLASS_PUNCT 8
"space:]",
#define CLASS_SPACE 9
"upper:]",
#define CLASS_UPPER 10
"xdigit:]",
#define CLASS_XDIGIT 11
"tab:]",
#define CLASS_TAB 12
"return:]",
#define CLASS_RETURN 13
"backspace:]",
#define CLASS_BACKSPACE 14
"escape:]",
#define CLASS_ESCAPE 15
"ident:]",
#define CLASS_IDENT 16
"keyword:]",
#define CLASS_KEYWORD 17
"fname:]",
#define CLASS_FNAME 18
};
#define CLASS_NONE 99
int i;
if ((*pp)[1] == ':')
{
for (i = 0; i < (int)(sizeof(class_names) / sizeof(*class_names)); ++i)
if (STRNCMP(*pp + 2, class_names[i], STRLEN(class_names[i])) == 0)
{
*pp += STRLEN(class_names[i]) + 2;
return i;
}
}
return CLASS_NONE;
}
/*
* Specific version of character class functions.
* Using a table to keep this fast.
*/
static short class_tab[256];
#define RI_DIGIT 0x01
#define RI_HEX 0x02
#define RI_OCTAL 0x04
#define RI_WORD 0x08
#define RI_HEAD 0x10
#define RI_ALPHA 0x20
#define RI_LOWER 0x40
#define RI_UPPER 0x80
#define RI_WHITE 0x100
static void
init_class_tab(void)
{
int i;
static int done = FALSE;
if (done)
return;
for (i = 0; i < 256; ++i)
{
if (i >= '0' && i <= '7')
class_tab[i] = RI_DIGIT + RI_HEX + RI_OCTAL + RI_WORD;
else if (i >= '8' && i <= '9')
class_tab[i] = RI_DIGIT + RI_HEX + RI_WORD;
else if (i >= 'a' && i <= 'f')
class_tab[i] = RI_HEX + RI_WORD + RI_HEAD + RI_ALPHA + RI_LOWER;
#ifdef EBCDIC
else if ((i >= 'g' && i <= 'i') || (i >= 'j' && i <= 'r')
|| (i >= 's' && i <= 'z'))
#else
else if (i >= 'g' && i <= 'z')
#endif
class_tab[i] = RI_WORD + RI_HEAD + RI_ALPHA + RI_LOWER;
else if (i >= 'A' && i <= 'F')
class_tab[i] = RI_HEX + RI_WORD + RI_HEAD + RI_ALPHA + RI_UPPER;
#ifdef EBCDIC
else if ((i >= 'G' && i <= 'I') || ( i >= 'J' && i <= 'R')
|| (i >= 'S' && i <= 'Z'))
#else
else if (i >= 'G' && i <= 'Z')
#endif
class_tab[i] = RI_WORD + RI_HEAD + RI_ALPHA + RI_UPPER;
else if (i == '_')
class_tab[i] = RI_WORD + RI_HEAD;
else
class_tab[i] = 0;
}
class_tab[' '] |= RI_WHITE;
class_tab['\t'] |= RI_WHITE;
done = TRUE;
}
#define ri_digit(c) (c < 0x100 && (class_tab[c] & RI_DIGIT))
#define ri_hex(c) (c < 0x100 && (class_tab[c] & RI_HEX))
#define ri_octal(c) (c < 0x100 && (class_tab[c] & RI_OCTAL))
#define ri_word(c) (c < 0x100 && (class_tab[c] & RI_WORD))
#define ri_head(c) (c < 0x100 && (class_tab[c] & RI_HEAD))
#define ri_alpha(c) (c < 0x100 && (class_tab[c] & RI_ALPHA))
#define ri_lower(c) (c < 0x100 && (class_tab[c] & RI_LOWER))
#define ri_upper(c) (c < 0x100 && (class_tab[c] & RI_UPPER))
#define ri_white(c) (c < 0x100 && (class_tab[c] & RI_WHITE))
// flags for regflags
#define RF_ICASE 1 // ignore case
#define RF_NOICASE 2 // don't ignore case
#define RF_HASNL 4 // can match a NL
#define RF_ICOMBINE 8 // ignore combining characters
#define RF_LOOKBH 16 // uses "\@<=" or "\@<!"
/*
* Global work variables for vim_regcomp().
*/
static char_u *regparse; // Input-scan pointer.
static int regnpar; // () count.
#ifdef FEAT_SYN_HL
static int regnzpar; // \z() count.
static int re_has_z; // \z item detected
#endif
static unsigned regflags; // RF_ flags for prog
#if defined(FEAT_SYN_HL) || defined(PROTO)
static int had_eol; // TRUE when EOL found by vim_regcomp()
#endif
static int reg_magic; // magicness of the pattern:
#define MAGIC_NONE 1 // "\V" very unmagic
#define MAGIC_OFF 2 // "\M" or 'magic' off
#define MAGIC_ON 3 // "\m" or 'magic'
#define MAGIC_ALL 4 // "\v" very magic
static int reg_string; // matching with a string instead of a buffer
// line
static int reg_strict; // "[abc" is illegal
/*
* META contains all characters that may be magic, except '^' and '$'.
*/
#ifdef EBCDIC
static char_u META[] = "%&()*+.123456789<=>?@ACDFHIKLMOPSUVWX[_acdfhiklmnopsuvwxz{|~";
#else
// META[] is used often enough to justify turning it into a table.
static char_u META_flags[] = {
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
// % & ( ) * + .
0, 0, 0, 0, 0, 1, 1, 0, 1, 1, 1, 1, 0, 0, 1, 0,
// 1 2 3 4 5 6 7 8 9 < = > ?
0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 1, 1, 1, 1,
// @ A C D F H I K L M O
1, 1, 0, 1, 1, 0, 1, 0, 1, 1, 0, 1, 1, 1, 0, 1,
// P S U V W X Z [ _
1, 0, 0, 1, 0, 1, 1, 1, 1, 0, 1, 1, 0, 0, 0, 1,
// a c d f h i k l m n o
0, 1, 0, 1, 1, 0, 1, 0, 1, 1, 0, 1, 1, 1, 1, 1,
// p s u v w x z { | ~
1, 0, 0, 1, 0, 1, 1, 1, 1, 0, 1, 1, 1, 0, 1
};
#endif
static int curchr; // currently parsed character
// Previous character. Note: prevchr is sometimes -1 when we are not at the
// start, eg in /[ ^I]^ the pattern was never found even if it existed,
// because ^ was taken to be magic -- webb
static int prevchr;
static int prevprevchr; // previous-previous character
static int nextchr; // used for ungetchr()
// arguments for reg()
#define REG_NOPAREN 0 // toplevel reg()
#define REG_PAREN 1 // \(\)
#define REG_ZPAREN 2 // \z(\)
#define REG_NPAREN 3 // \%(\)
typedef struct
{
char_u *regparse;
int prevchr_len;
int curchr;
int prevchr;
int prevprevchr;
int nextchr;
int at_start;
int prev_at_start;
int regnpar;
} parse_state_T;
static void initchr(char_u *);
static int getchr(void);
static void skipchr_keepstart(void);
static int peekchr(void);
static void skipchr(void);
static void ungetchr(void);
static long gethexchrs(int maxinputlen);
static long getoctchrs(void);
static long getdecchrs(void);
static int coll_get_char(void);
static int prog_magic_wrong(void);
static int cstrncmp(char_u *s1, char_u *s2, int *n);
static char_u *cstrchr(char_u *, int);
static int re_mult_next(char *what);
static int reg_iswordc(int);
static regengine_T bt_regengine;
static regengine_T nfa_regengine;
/*
* Return TRUE if compiled regular expression "prog" can match a line break.
*/
int
re_multiline(regprog_T *prog)
{
return (prog->regflags & RF_HASNL);
}
/*
* Check for an equivalence class name "[=a=]". "pp" points to the '['.
* Returns a character representing the class. Zero means that no item was
* recognized. Otherwise "pp" is advanced to after the item.
*/
static int
get_equi_class(char_u **pp)
{
int c;
int l = 1;
char_u *p = *pp;
if (p[1] == '=' && p[2] != NUL)
{
if (has_mbyte)
l = (*mb_ptr2len)(p + 2);
if (p[l + 2] == '=' && p[l + 3] == ']')
{
if (has_mbyte)
c = mb_ptr2char(p + 2);
else
c = p[2];
*pp += l + 4;
return c;
}
}
return 0;
}
#ifdef EBCDIC
/*
* Table for equivalence class "c". (IBM-1047)
*/
static char *EQUIVAL_CLASS_C[16] = {
"A\x62\x63\x64\x65\x66\x67",
"C\x68",
"E\x71\x72\x73\x74",
"I\x75\x76\x77\x78",
"N\x69",
"O\xEB\xEC\xED\xEE\xEF\x80",
"U\xFB\xFC\xFD\xFE",
"Y\xBA",
"a\x42\x43\x44\x45\x46\x47",
"c\x48",
"e\x51\x52\x53\x54",
"i\x55\x56\x57\x58",
"n\x49",
"o\xCB\xCC\xCD\xCE\xCF\x70",
"u\xDB\xDC\xDD\xDE",
"y\x8D\xDF",
};
#endif
/*
* Check for a collating element "[.a.]". "pp" points to the '['.
* Returns a character. Zero means that no item was recognized. Otherwise
* "pp" is advanced to after the item.
* Currently only single characters are recognized!
*/
static int
get_coll_element(char_u **pp)
{
int c;
int l = 1;
char_u *p = *pp;
if (p[0] != NUL && p[1] == '.' && p[2] != NUL)
{
if (has_mbyte)
l = (*mb_ptr2len)(p + 2);
if (p[l + 2] == '.' && p[l + 3] == ']')
{
if (has_mbyte)
c = mb_ptr2char(p + 2);
else
c = p[2];
*pp += l + 4;
return c;
}
}
return 0;
}
static int reg_cpo_lit; // 'cpoptions' contains 'l' flag
static int reg_cpo_bsl; // 'cpoptions' contains '\' flag
static void
get_cpo_flags(void)
{
reg_cpo_lit = vim_strchr(p_cpo, CPO_LITERAL) != NULL;
reg_cpo_bsl = vim_strchr(p_cpo, CPO_BACKSL) != NULL;
}
/*
* Skip over a "[]" range.
* "p" must point to the character after the '['.
* The returned pointer is on the matching ']', or the terminating NUL.
*/
static char_u *
skip_anyof(char_u *p)
{
int l;
if (*p == '^') // Complement of range.
++p;
if (*p == ']' || *p == '-')
++p;
while (*p != NUL && *p != ']')
{
if (has_mbyte && (l = (*mb_ptr2len)(p)) > 1)
p += l;
else
if (*p == '-')
{
++p;
if (*p != ']' && *p != NUL)
MB_PTR_ADV(p);
}
else if (*p == '\\'
&& !reg_cpo_bsl
&& (vim_strchr(REGEXP_INRANGE, p[1]) != NULL
|| (!reg_cpo_lit && vim_strchr(REGEXP_ABBR, p[1]) != NULL)))
p += 2;
else if (*p == '[')
{
if (get_char_class(&p) == CLASS_NONE
&& get_equi_class(&p) == 0
&& get_coll_element(&p) == 0
&& *p != NUL)
++p; // it is not a class name and not NUL
}
else
++p;
}
return p;
}
/*
* Skip past regular expression.
* Stop at end of "startp" or where "dirc" is found ('/', '?', etc).
* Take care of characters with a backslash in front of it.
* Skip strings inside [ and ].
*/
char_u *
skip_regexp(
char_u *startp,
int dirc,
int magic)
{
return skip_regexp_ex(startp, dirc, magic, NULL, NULL);
}
/*
* skip_regexp() with extra arguments:
* When "newp" is not NULL and "dirc" is '?', make an allocated copy of the
* expression and change "\?" to "?". If "*newp" is not NULL the expression
* is changed in-place.
* If a "\?" is changed to "?" then "dropped" is incremented, unless NULL.
*/
char_u *
skip_regexp_ex(
char_u *startp,
int dirc,
int magic,
char_u **newp,
int *dropped)
{
int mymagic;
char_u *p = startp;
if (magic)
mymagic = MAGIC_ON;
else
mymagic = MAGIC_OFF;
get_cpo_flags();
for (; p[0] != NUL; MB_PTR_ADV(p))
{
if (p[0] == dirc) // found end of regexp
break;
if ((p[0] == '[' && mymagic >= MAGIC_ON)
|| (p[0] == '\\' && p[1] == '[' && mymagic <= MAGIC_OFF))
{
p = skip_anyof(p + 1);
if (p[0] == NUL)
break;
}
else if (p[0] == '\\' && p[1] != NUL)
{
if (dirc == '?' && newp != NULL && p[1] == '?')
{
// change "\?" to "?", make a copy first.
if (*newp == NULL)
{
*newp = vim_strsave(startp);
if (*newp != NULL)
p = *newp + (p - startp);
}
if (dropped != NULL)
++*dropped;
if (*newp != NULL)
STRMOVE(p, p + 1);
else
++p;
}
else
++p; // skip next character
if (*p == 'v')
mymagic = MAGIC_ALL;
else if (*p == 'V')
mymagic = MAGIC_NONE;
}
}
return p;
}
/*
* Functions for getting characters from the regexp input.
*/
static int prevchr_len; // byte length of previous char
static int at_start; // True when on the first character
static int prev_at_start; // True when on the second character
/*
* Start parsing at "str".
*/
static void
initchr(char_u *str)
{
regparse = str;
prevchr_len = 0;
curchr = prevprevchr = prevchr = nextchr = -1;
at_start = TRUE;
prev_at_start = FALSE;
}
/*
* Save the current parse state, so that it can be restored and parsing
* starts in the same state again.
*/
static void
save_parse_state(parse_state_T *ps)
{
ps->regparse = regparse;
ps->prevchr_len = prevchr_len;
ps->curchr = curchr;
ps->prevchr = prevchr;
ps->prevprevchr = prevprevchr;
ps->nextchr = nextchr;
ps->at_start = at_start;
ps->prev_at_start = prev_at_start;
ps->regnpar = regnpar;
}
/*
* Restore a previously saved parse state.
*/
static void
restore_parse_state(parse_state_T *ps)
{
regparse = ps->regparse;
prevchr_len = ps->prevchr_len;
curchr = ps->curchr;
prevchr = ps->prevchr;
prevprevchr = ps->prevprevchr;
nextchr = ps->nextchr;
at_start = ps->at_start;
prev_at_start = ps->prev_at_start;
regnpar = ps->regnpar;
}
/*
* Get the next character without advancing.
*/
static int
peekchr(void)
{
static int after_slash = FALSE;
if (curchr == -1)
{
switch (curchr = regparse[0])
{
case '.':
case '[':
case '~':
// magic when 'magic' is on
if (reg_magic >= MAGIC_ON)
curchr = Magic(curchr);
break;
case '(':
case ')':
case '{':
case '%':
case '+':
case '=':
case '?':
case '@':
case '!':
case '&':
case '|':
case '<':
case '>':
case '#': // future ext.
case '"': // future ext.
case '\'': // future ext.
case ',': // future ext.
case '-': // future ext.
case ':': // future ext.
case ';': // future ext.
case '`': // future ext.
case '/': // Can't be used in / command
// magic only after "\v"
if (reg_magic == MAGIC_ALL)
curchr = Magic(curchr);
break;
case '*':
// * is not magic as the very first character, eg "?*ptr", when
// after '^', eg "/^*ptr" and when after "\(", "\|", "\&". But
// "\(\*" is not magic, thus must be magic if "after_slash"
if (reg_magic >= MAGIC_ON
&& !at_start
&& !(prev_at_start && prevchr == Magic('^'))
&& (after_slash
|| (prevchr != Magic('(')
&& prevchr != Magic('&')
&& prevchr != Magic('|'))))
curchr = Magic('*');
break;
case '^':
// '^' is only magic as the very first character and if it's after
// "\(", "\|", "\&' or "\n"
if (reg_magic >= MAGIC_OFF
&& (at_start
|| reg_magic == MAGIC_ALL
|| prevchr == Magic('(')
|| prevchr == Magic('|')
|| prevchr == Magic('&')
|| prevchr == Magic('n')
|| (no_Magic(prevchr) == '('
&& prevprevchr == Magic('%'))))
{
curchr = Magic('^');
at_start = TRUE;
prev_at_start = FALSE;
}
break;
case '$':
// '$' is only magic as the very last char and if it's in front of
// either "\|", "\)", "\&", or "\n"
if (reg_magic >= MAGIC_OFF)
{
char_u *p = regparse + 1;
int is_magic_all = (reg_magic == MAGIC_ALL);
// ignore \c \C \m \M \v \V and \Z after '$'
while (p[0] == '\\' && (p[1] == 'c' || p[1] == 'C'
|| p[1] == 'm' || p[1] == 'M'
|| p[1] == 'v' || p[1] == 'V' || p[1] == 'Z'))
{
if (p[1] == 'v')
is_magic_all = TRUE;
else if (p[1] == 'm' || p[1] == 'M' || p[1] == 'V')
is_magic_all = FALSE;
p += 2;
}
if (p[0] == NUL
|| (p[0] == '\\'
&& (p[1] == '|' || p[1] == '&' || p[1] == ')'
|| p[1] == 'n'))
|| (is_magic_all
&& (p[0] == '|' || p[0] == '&' || p[0] == ')'))
|| reg_magic == MAGIC_ALL)
curchr = Magic('$');
}
break;
case '\\':
{
int c = regparse[1];
if (c == NUL)
curchr = '\\'; // trailing '\'
else if (
#ifdef EBCDIC
vim_strchr(META, c)
#else
c <= '~' && META_flags[c]
#endif
)
{
/*
* META contains everything that may be magic sometimes,
* except ^ and $ ("\^" and "\$" are only magic after
* "\V"). We now fetch the next character and toggle its
* magicness. Therefore, \ is so meta-magic that it is
* not in META.
*/
curchr = -1;
prev_at_start = at_start;
at_start = FALSE; // be able to say "/\*ptr"
++regparse;
++after_slash;
peekchr();
--regparse;
--after_slash;
curchr = toggle_Magic(curchr);
}
else if (vim_strchr(REGEXP_ABBR, c))
{
/*
* Handle abbreviations, like "\t" for TAB -- webb
*/
curchr = backslash_trans(c);
}
else if (reg_magic == MAGIC_NONE && (c == '$' || c == '^'))
curchr = toggle_Magic(c);
else
{
/*
* Next character can never be (made) magic?
* Then backslashing it won't do anything.
*/
if (has_mbyte)
curchr = (*mb_ptr2char)(regparse + 1);
else
curchr = c;
}
break;
}
default:
if (has_mbyte)
curchr = (*mb_ptr2char)(regparse);
}
}
return curchr;
}
/*
* Eat one lexed character. Do this in a way that we can undo it.
*/
static void
skipchr(void)
{
// peekchr() eats a backslash, do the same here
if (*regparse == '\\')
prevchr_len = 1;
else
prevchr_len = 0;
if (regparse[prevchr_len] != NUL)
{
if (enc_utf8)
// exclude composing chars that mb_ptr2len does include
prevchr_len += utf_ptr2len(regparse + prevchr_len);
else if (has_mbyte)
prevchr_len += (*mb_ptr2len)(regparse + prevchr_len);
else
++prevchr_len;
}
regparse += prevchr_len;
prev_at_start = at_start;
at_start = FALSE;
prevprevchr = prevchr;
prevchr = curchr;
curchr = nextchr; // use previously unget char, or -1
nextchr = -1;
}
/*
* Skip a character while keeping the value of prev_at_start for at_start.
* prevchr and prevprevchr are also kept.
*/
static void
skipchr_keepstart(void)
{
int as = prev_at_start;
int pr = prevchr;
int prpr = prevprevchr;
skipchr();
at_start = as;
prevchr = pr;
prevprevchr = prpr;
}
/*
* Get the next character from the pattern. We know about magic and such, so
* therefore we need a lexical analyzer.
*/
static int
getchr(void)
{
int chr = peekchr();
skipchr();
return chr;
}
/*
* put character back. Works only once!
*/
static void
ungetchr(void)
{
nextchr = curchr;
curchr = prevchr;
prevchr = prevprevchr;
at_start = prev_at_start;
prev_at_start = FALSE;
// Backup regparse, so that it's at the same position as before the
// getchr().
regparse -= prevchr_len;
}
/*
* Get and return the value of the hex string at the current position.
* Return -1 if there is no valid hex number.
* The position is updated:
* blahblah\%x20asdf
* before-^ ^-after
* The parameter controls the maximum number of input characters. This will be
* 2 when reading a \%x20 sequence and 4 when reading a \%u20AC sequence.
*/
static long
gethexchrs(int maxinputlen)
{
long_u nr = 0;
int c;
int i;
for (i = 0; i < maxinputlen; ++i)
{
c = regparse[0];
if (!vim_isxdigit(c))
break;
nr <<= 4;
nr |= hex2nr(c);
++regparse;
}
if (i == 0)
return -1;
return (long)nr;
}
/*
* Get and return the value of the decimal string immediately after the
* current position. Return -1 for invalid. Consumes all digits.
*/
static long
getdecchrs(void)
{
long_u nr = 0;
int c;
int i;
for (i = 0; ; ++i)
{
c = regparse[0];
if (c < '0' || c > '9')
break;
nr *= 10;
nr += c - '0';
++regparse;
curchr = -1; // no longer valid
}
if (i == 0)
return -1;
return (long)nr;
}
/*
* get and return the value of the octal string immediately after the current
* position. Return -1 for invalid, or 0-255 for valid. Smart enough to handle
* numbers > 377 correctly (for example, 400 is treated as 40) and doesn't
* treat 8 or 9 as recognised characters. Position is updated:
* blahblah\%o210asdf
* before-^ ^-after
*/
static long
getoctchrs(void)
{
long_u nr = 0;
int c;
int i;
for (i = 0; i < 3 && nr < 040; ++i)
{
c = regparse[0];
if (c < '0' || c > '7')
break;
nr <<= 3;
nr |= hex2nr(c);
++regparse;
}
if (i == 0)
return -1;
return (long)nr;
}
/*
* read_limits - Read two integers to be taken as a minimum and maximum.
* If the first character is '-', then the range is reversed.
* Should end with 'end'. If minval is missing, zero is default, if maxval is
* missing, a very big number is the default.
*/
static int
read_limits(long *minval, long *maxval)
{
int reverse = FALSE;
char_u *first_char;
long tmp;
if (*regparse == '-')
{
// Starts with '-', so reverse the range later
regparse++;
reverse = TRUE;
}
first_char = regparse;
*minval = getdigits(®parse);
if (*regparse == ',') // There is a comma
{
if (vim_isdigit(*++regparse))
*maxval = getdigits(®parse);
else
*maxval = MAX_LIMIT;
}
else if (VIM_ISDIGIT(*first_char))
*maxval = *minval; // It was \{n} or \{-n}
else
*maxval = MAX_LIMIT; // It was \{} or \{-}
if (*regparse == '\\')
regparse++; // Allow either \{...} or \{...\}
if (*regparse != '}')
EMSG2_RET_FAIL(_("E554: Syntax error in %s{...}"),
reg_magic == MAGIC_ALL);
/*
* Reverse the range if there was a '-', or make sure it is in the right
* order otherwise.
*/
if ((!reverse && *minval > *maxval) || (reverse && *minval < *maxval))
{
tmp = *minval;
*minval = *maxval;
*maxval = tmp;
}
skipchr(); // let's be friends with the lexer again
return OK;
}
/*
* vim_regexec and friends
*/
/*
* Global work variables for vim_regexec().
*/
static void cleanup_subexpr(void);
#ifdef FEAT_SYN_HL
static void cleanup_zsubexpr(void);
#endif
static void reg_nextline(void);
static int match_with_backref(linenr_T start_lnum, colnr_T start_col, linenr_T end_lnum, colnr_T end_col, int *bytelen);
/*
* Sometimes need to save a copy of a line. Since alloc()/free() is very
* slow, we keep one allocated piece of memory and only re-allocate it when
* it's too small. It's freed in bt_regexec_both() when finished.
*/
static char_u *reg_tofree = NULL;
static unsigned reg_tofreelen;
/*
* Structure used to store the execution state of the regex engine.
* Which ones are set depends on whether a single-line or multi-line match is
* done:
* single-line multi-line
* reg_match ®match_T NULL
* reg_mmatch NULL ®mmatch_T
* reg_startp reg_match->startp <invalid>
* reg_endp reg_match->endp <invalid>
* reg_startpos <invalid> reg_mmatch->startpos
* reg_endpos <invalid> reg_mmatch->endpos
* reg_win NULL window in which to search
* reg_buf curbuf buffer in which to search
* reg_firstlnum <invalid> first line in which to search
* reg_maxline 0 last line nr
* reg_line_lbr FALSE or TRUE FALSE
*/
typedef struct {
regmatch_T *reg_match;
regmmatch_T *reg_mmatch;
char_u **reg_startp;
char_u **reg_endp;
lpos_T *reg_startpos;
lpos_T *reg_endpos;
win_T *reg_win;
buf_T *reg_buf;
linenr_T reg_firstlnum;
linenr_T reg_maxline;
int reg_line_lbr; // "\n" in string is line break
// The current match-position is stord in these variables:
linenr_T lnum; // line number, relative to first line
char_u *line; // start of current line
char_u *input; // current input, points into "regline"
int need_clear_subexpr; // subexpressions still need to be cleared
#ifdef FEAT_SYN_HL
int need_clear_zsubexpr; // extmatch subexpressions still need to be
// cleared
#endif
// Internal copy of 'ignorecase'. It is set at each call to vim_regexec().
// Normally it gets the value of "rm_ic" or "rmm_ic", but when the pattern
// contains '\c' or '\C' the value is overruled.
int reg_ic;
// Similar to "reg_ic", but only for 'combining' characters. Set with \Z
// flag in the regexp. Defaults to false, always.
int reg_icombine;
// Copy of "rmm_maxcol": maximum column to search for a match. Zero when
// there is no maximum.
colnr_T reg_maxcol;
// State for the NFA engine regexec.
int nfa_has_zend; // NFA regexp \ze operator encountered.
int nfa_has_backref; // NFA regexp \1 .. \9 encountered.
int nfa_nsubexpr; // Number of sub expressions actually being used
// during execution. 1 if only the whole match
// (subexpr 0) is used.
// listid is global, so that it increases on recursive calls to
// nfa_regmatch(), which means we don't have to clear the lastlist field of
// all the states.
int nfa_listid;
int nfa_alt_listid;
#ifdef FEAT_SYN_HL
int nfa_has_zsubexpr; // NFA regexp has \z( ), set zsubexpr.
#endif
} regexec_T;
static regexec_T rex;
static int rex_in_use = FALSE;
/*
* Return TRUE if character 'c' is included in 'iskeyword' option for
* "reg_buf" buffer.
*/
static int
reg_iswordc(int c)
{
return vim_iswordc_buf(c, rex.reg_buf);
}
/*
* Get pointer to the line "lnum", which is relative to "reg_firstlnum".
*/
static char_u *
reg_getline(linenr_T lnum)
{
// when looking behind for a match/no-match lnum is negative. But we
// can't go before line 1
if (rex.reg_firstlnum + lnum < 1)
return NULL;
if (lnum > rex.reg_maxline)
// Must have matched the "\n" in the last line.
return (char_u *)"";
return ml_get_buf(rex.reg_buf, rex.reg_firstlnum + lnum, FALSE);
}
#ifdef FEAT_SYN_HL
static char_u *reg_startzp[NSUBEXP]; // Workspace to mark beginning
static char_u *reg_endzp[NSUBEXP]; // and end of \z(...\) matches
static lpos_T reg_startzpos[NSUBEXP]; // idem, beginning pos
static lpos_T reg_endzpos[NSUBEXP]; // idem, end pos
#endif
// TRUE if using multi-line regexp.
#define REG_MULTI (rex.reg_match == NULL)
#ifdef FEAT_SYN_HL
/*
* Create a new extmatch and mark it as referenced once.
*/
static reg_extmatch_T *
make_extmatch(void)
{
reg_extmatch_T *em;
em = ALLOC_CLEAR_ONE(reg_extmatch_T);
if (em != NULL)
em->refcnt = 1;
return em;
}
/*
* Add a reference to an extmatch.
*/
reg_extmatch_T *
ref_extmatch(reg_extmatch_T *em)
{
if (em != NULL)
em->refcnt++;
return em;
}
/*
* Remove a reference to an extmatch. If there are no references left, free
* the info.
*/
void
unref_extmatch(reg_extmatch_T *em)
{
int i;
if (em != NULL && --em->refcnt <= 0)
{
for (i = 0; i < NSUBEXP; ++i)
vim_free(em->matches[i]);
vim_free(em);
}
}
#endif
/*
* Get class of previous character.
*/
static int
reg_prev_class(void)
{
if (rex.input > rex.line)
return mb_get_class_buf(rex.input - 1
- (*mb_head_off)(rex.line, rex.input - 1), rex.reg_buf);
return -1;
}
/*
* Return TRUE if the current rex.input position matches the Visual area.
*/
static int
reg_match_visual(void)
{
pos_T top, bot;
linenr_T lnum;
colnr_T col;
win_T *wp = rex.reg_win == NULL ? curwin : rex.reg_win;
int mode;
colnr_T start, end;
colnr_T start2, end2;
colnr_T cols;
// Check if the buffer is the current buffer.
if (rex.reg_buf != curbuf || VIsual.lnum == 0)
return FALSE;
if (VIsual_active)
{
if (LT_POS(VIsual, wp->w_cursor))
{
top = VIsual;
bot = wp->w_cursor;
}
else
{
top = wp->w_cursor;
bot = VIsual;
}
mode = VIsual_mode;
}
else
{
if (LT_POS(curbuf->b_visual.vi_start, curbuf->b_visual.vi_end))
{
top = curbuf->b_visual.vi_start;
bot = curbuf->b_visual.vi_end;
}
else
{
top = curbuf->b_visual.vi_end;
bot = curbuf->b_visual.vi_start;
}
mode = curbuf->b_visual.vi_mode;
}
lnum = rex.lnum + rex.reg_firstlnum;
if (lnum < top.lnum || lnum > bot.lnum)
return FALSE;
if (mode == 'v')
{
col = (colnr_T)(rex.input - rex.line);
if ((lnum == top.lnum && col < top.col)
|| (lnum == bot.lnum && col >= bot.col + (*p_sel != 'e')))
return FALSE;
}
else if (mode == Ctrl_V)
{
getvvcol(wp, &top, &start, NULL, &end);
getvvcol(wp, &bot, &start2, NULL, &end2);
if (start2 < start)
start = start2;
if (end2 > end)
end = end2;
if (top.col == MAXCOL || bot.col == MAXCOL)
end = MAXCOL;
cols = win_linetabsize(wp, rex.line, (colnr_T)(rex.input - rex.line));
if (cols < start || cols > end - (*p_sel == 'e'))
return FALSE;
}
return TRUE;
}
/*
* Check the regexp program for its magic number.
* Return TRUE if it's wrong.
*/
static int
prog_magic_wrong(void)
{
regprog_T *prog;
prog = REG_MULTI ? rex.reg_mmatch->regprog : rex.reg_match->regprog;
if (prog->engine == &nfa_regengine)
// For NFA matcher we don't check the magic
return FALSE;
if (UCHARAT(((bt_regprog_T *)prog)->program) != REGMAGIC)
{
emsg(_(e_re_corr));
return TRUE;
}
return FALSE;
}
/*
* Cleanup the subexpressions, if this wasn't done yet.
* This construction is used to clear the subexpressions only when they are
* used (to increase speed).
*/
static void
cleanup_subexpr(void)
{
if (rex.need_clear_subexpr)
{
if (REG_MULTI)
{
// Use 0xff to set lnum to -1
vim_memset(rex.reg_startpos, 0xff, sizeof(lpos_T) * NSUBEXP);
vim_memset(rex.reg_endpos, 0xff, sizeof(lpos_T) * NSUBEXP);
}
else
{
vim_memset(rex.reg_startp, 0, sizeof(char_u *) * NSUBEXP);
vim_memset(rex.reg_endp, 0, sizeof(char_u *) * NSUBEXP);
}
rex.need_clear_subexpr = FALSE;
}
}
#ifdef FEAT_SYN_HL
static void
cleanup_zsubexpr(void)
{
if (rex.need_clear_zsubexpr)
{
if (REG_MULTI)
{
// Use 0xff to set lnum to -1
vim_memset(reg_startzpos, 0xff, sizeof(lpos_T) * NSUBEXP);
vim_memset(reg_endzpos, 0xff, sizeof(lpos_T) * NSUBEXP);
}
else
{
vim_memset(reg_startzp, 0, sizeof(char_u *) * NSUBEXP);
vim_memset(reg_endzp, 0, sizeof(char_u *) * NSUBEXP);
}
rex.need_clear_zsubexpr = FALSE;
}
}
#endif
/*
* Advance rex.lnum, rex.line and rex.input to the next line.
*/
static void
reg_nextline(void)
{
rex.line = reg_getline(++rex.lnum);
rex.input = rex.line;
fast_breakcheck();
}
/*
* Check whether a backreference matches.
* Returns RA_FAIL, RA_NOMATCH or RA_MATCH.
* If "bytelen" is not NULL, it is set to the byte length of the match in the
* last line.
*/
static int
match_with_backref(
linenr_T start_lnum,
colnr_T start_col,
linenr_T end_lnum,
colnr_T end_col,
int *bytelen)
{
linenr_T clnum = start_lnum;
colnr_T ccol = start_col;
int len;
char_u *p;
if (bytelen != NULL)
*bytelen = 0;
for (;;)
{
// Since getting one line may invalidate the other, need to make copy.
// Slow!
if (rex.line != reg_tofree)
{
len = (int)STRLEN(rex.line);
if (reg_tofree == NULL || len >= (int)reg_tofreelen)
{
len += 50; // get some extra
vim_free(reg_tofree);
reg_tofree = alloc(len);
if (reg_tofree == NULL)
return RA_FAIL; // out of memory!
reg_tofreelen = len;
}
STRCPY(reg_tofree, rex.line);
rex.input = reg_tofree + (rex.input - rex.line);
rex.line = reg_tofree;
}
// Get the line to compare with.
p = reg_getline(clnum);
if (clnum == end_lnum)
len = end_col - ccol;
else
len = (int)STRLEN(p + ccol);
if (cstrncmp(p + ccol, rex.input, &len) != 0)
return RA_NOMATCH; // doesn't match
if (bytelen != NULL)
*bytelen += len;
if (clnum == end_lnum)
break; // match and at end!
if (rex.lnum >= rex.reg_maxline)
return RA_NOMATCH; // text too short
// Advance to next line.
reg_nextline();
if (bytelen != NULL)
*bytelen = 0;
++clnum;
ccol = 0;
if (got_int)
return RA_FAIL;
}
// found a match! Note that rex.line may now point to a copy of the line,
// that should not matter.
return RA_MATCH;
}
/*
* Used in a place where no * or \+ can follow.
*/
static int
re_mult_next(char *what)
{
if (re_multi_type(peekchr()) == MULTI_MULT)
{
semsg(_("E888: (NFA regexp) cannot repeat %s"), what);
rc_did_emsg = TRUE;
return FAIL;
}
return OK;
}
typedef struct
{
int a, b, c;
} decomp_T;
// 0xfb20 - 0xfb4f
static decomp_T decomp_table[0xfb4f-0xfb20+1] =
{
{0x5e2,0,0}, // 0xfb20 alt ayin
{0x5d0,0,0}, // 0xfb21 alt alef
{0x5d3,0,0}, // 0xfb22 alt dalet
{0x5d4,0,0}, // 0xfb23 alt he
{0x5db,0,0}, // 0xfb24 alt kaf
{0x5dc,0,0}, // 0xfb25 alt lamed
{0x5dd,0,0}, // 0xfb26 alt mem-sofit
{0x5e8,0,0}, // 0xfb27 alt resh
{0x5ea,0,0}, // 0xfb28 alt tav
{'+', 0, 0}, // 0xfb29 alt plus
{0x5e9, 0x5c1, 0}, // 0xfb2a shin+shin-dot
{0x5e9, 0x5c2, 0}, // 0xfb2b shin+sin-dot
{0x5e9, 0x5c1, 0x5bc}, // 0xfb2c shin+shin-dot+dagesh
{0x5e9, 0x5c2, 0x5bc}, // 0xfb2d shin+sin-dot+dagesh
{0x5d0, 0x5b7, 0}, // 0xfb2e alef+patah
{0x5d0, 0x5b8, 0}, // 0xfb2f alef+qamats
{0x5d0, 0x5b4, 0}, // 0xfb30 alef+hiriq
{0x5d1, 0x5bc, 0}, // 0xfb31 bet+dagesh
{0x5d2, 0x5bc, 0}, // 0xfb32 gimel+dagesh
{0x5d3, 0x5bc, 0}, // 0xfb33 dalet+dagesh
{0x5d4, 0x5bc, 0}, // 0xfb34 he+dagesh
{0x5d5, 0x5bc, 0}, // 0xfb35 vav+dagesh
{0x5d6, 0x5bc, 0}, // 0xfb36 zayin+dagesh
{0xfb37, 0, 0}, // 0xfb37 -- UNUSED
{0x5d8, 0x5bc, 0}, // 0xfb38 tet+dagesh
{0x5d9, 0x5bc, 0}, // 0xfb39 yud+dagesh
{0x5da, 0x5bc, 0}, // 0xfb3a kaf sofit+dagesh
{0x5db, 0x5bc, 0}, // 0xfb3b kaf+dagesh
{0x5dc, 0x5bc, 0}, // 0xfb3c lamed+dagesh
{0xfb3d, 0, 0}, // 0xfb3d -- UNUSED
{0x5de, 0x5bc, 0}, // 0xfb3e mem+dagesh
{0xfb3f, 0, 0}, // 0xfb3f -- UNUSED
{0x5e0, 0x5bc, 0}, // 0xfb40 nun+dagesh
{0x5e1, 0x5bc, 0}, // 0xfb41 samech+dagesh
{0xfb42, 0, 0}, // 0xfb42 -- UNUSED
{0x5e3, 0x5bc, 0}, // 0xfb43 pe sofit+dagesh
{0x5e4, 0x5bc,0}, // 0xfb44 pe+dagesh
{0xfb45, 0, 0}, // 0xfb45 -- UNUSED
{0x5e6, 0x5bc, 0}, // 0xfb46 tsadi+dagesh
{0x5e7, 0x5bc, 0}, // 0xfb47 qof+dagesh
{0x5e8, 0x5bc, 0}, // 0xfb48 resh+dagesh
{0x5e9, 0x5bc, 0}, // 0xfb49 shin+dagesh
{0x5ea, 0x5bc, 0}, // 0xfb4a tav+dagesh
{0x5d5, 0x5b9, 0}, // 0xfb4b vav+holam
{0x5d1, 0x5bf, 0}, // 0xfb4c bet+rafe
{0x5db, 0x5bf, 0}, // 0xfb4d kaf+rafe
{0x5e4, 0x5bf, 0}, // 0xfb4e pe+rafe
{0x5d0, 0x5dc, 0} // 0xfb4f alef-lamed
};
static void
mb_decompose(int c, int *c1, int *c2, int *c3)
{
decomp_T d;
if (c >= 0xfb20 && c <= 0xfb4f)
{
d = decomp_table[c - 0xfb20];
*c1 = d.a;
*c2 = d.b;
*c3 = d.c;
}
else
{
*c1 = c;
*c2 = *c3 = 0;
}
}
/*
* Compare two strings, ignore case if rex.reg_ic set.
* Return 0 if strings match, non-zero otherwise.
* Correct the length "*n" when composing characters are ignored.
*/
static int
cstrncmp(char_u *s1, char_u *s2, int *n)
{
int result;
if (!rex.reg_ic)
result = STRNCMP(s1, s2, *n);
else
result = MB_STRNICMP(s1, s2, *n);
// if it failed and it's utf8 and we want to combineignore:
if (result != 0 && enc_utf8 && rex.reg_icombine)
{
char_u *str1, *str2;
int c1, c2, c11, c12;
int junk;
// we have to handle the strcmp ourselves, since it is necessary to
// deal with the composing characters by ignoring them:
str1 = s1;
str2 = s2;
c1 = c2 = 0;
while ((int)(str1 - s1) < *n)
{
c1 = mb_ptr2char_adv(&str1);
c2 = mb_ptr2char_adv(&str2);
// Decompose the character if necessary, into 'base' characters.
// Currently hard-coded for Hebrew, Arabic to be done...
if (c1 != c2 && (!rex.reg_ic || utf_fold(c1) != utf_fold(c2)))
{
// decomposition necessary?
mb_decompose(c1, &c11, &junk, &junk);
mb_decompose(c2, &c12, &junk, &junk);
c1 = c11;
c2 = c12;
if (c11 != c12
&& (!rex.reg_ic || utf_fold(c11) != utf_fold(c12)))
break;
}
}
result = c2 - c1;
if (result == 0)
*n = (int)(str2 - s2);
}
return result;
}
/*
* cstrchr: This function is used a lot for simple searches, keep it fast!
*/
static char_u *
cstrchr(char_u *s, int c)
{
char_u *p;
int cc;
if (!rex.reg_ic || (!enc_utf8 && mb_char2len(c) > 1))
return vim_strchr(s, c);
// tolower() and toupper() can be slow, comparing twice should be a lot
// faster (esp. when using MS Visual C++!).
// For UTF-8 need to use folded case.
if (enc_utf8 && c > 0x80)
cc = utf_fold(c);
else
if (MB_ISUPPER(c))
cc = MB_TOLOWER(c);
else if (MB_ISLOWER(c))
cc = MB_TOUPPER(c);
else
return vim_strchr(s, c);
if (has_mbyte)
{
for (p = s; *p != NUL; p += (*mb_ptr2len)(p))
{
if (enc_utf8 && c > 0x80)
{
if (utf_fold(utf_ptr2char(p)) == cc)
return p;
}
else if (*p == c || *p == cc)
return p;
}
}
else
// Faster version for when there are no multi-byte characters.
for (p = s; *p != NUL; ++p)
if (*p == c || *p == cc)
return p;
return NULL;
}
////////////////////////////////////////////////////////////////
// regsub stuff //
////////////////////////////////////////////////////////////////
/*
* We should define ftpr as a pointer to a function returning a pointer to
* a function returning a pointer to a function ...
* This is impossible, so we declare a pointer to a function returning a
* pointer to a function returning void. This should work for all compilers.
*/
typedef void (*(*fptr_T)(int *, int))();
static int vim_regsub_both(char_u *source, typval_T *expr, char_u *dest, int copy, int magic, int backslash);
static fptr_T
do_upper(int *d, int c)
{
*d = MB_TOUPPER(c);
return (fptr_T)NULL;
}
static fptr_T
do_Upper(int *d, int c)
{
*d = MB_TOUPPER(c);
return (fptr_T)do_Upper;
}
static fptr_T
do_lower(int *d, int c)
{
*d = MB_TOLOWER(c);
return (fptr_T)NULL;
}
static fptr_T
do_Lower(int *d, int c)
{
*d = MB_TOLOWER(c);
return (fptr_T)do_Lower;
}
/*
* regtilde(): Replace tildes in the pattern by the old pattern.
*
* Short explanation of the tilde: It stands for the previous replacement
* pattern. If that previous pattern also contains a ~ we should go back a
* step further... But we insert the previous pattern into the current one
* and remember that.
* This still does not handle the case where "magic" changes. So require the
* user to keep his hands off of "magic".
*
* The tildes are parsed once before the first call to vim_regsub().
*/
char_u *
regtilde(char_u *source, int magic)
{
char_u *newsub = source;
char_u *tmpsub;
char_u *p;
int len;
int prevlen;
for (p = newsub; *p; ++p)
{
if ((*p == '~' && magic) || (*p == '\\' && *(p + 1) == '~' && !magic))
{
if (reg_prev_sub != NULL)
{
// length = len(newsub) - 1 + len(prev_sub) + 1
prevlen = (int)STRLEN(reg_prev_sub);
tmpsub = alloc(STRLEN(newsub) + prevlen);
if (tmpsub != NULL)
{
// copy prefix
len = (int)(p - newsub); // not including ~
mch_memmove(tmpsub, newsub, (size_t)len);
// interpret tilde
mch_memmove(tmpsub + len, reg_prev_sub, (size_t)prevlen);
// copy postfix
if (!magic)
++p; // back off backslash
STRCPY(tmpsub + len + prevlen, p + 1);
if (newsub != source) // already allocated newsub
vim_free(newsub);
newsub = tmpsub;
p = newsub + len + prevlen;
}
}
else if (magic)
STRMOVE(p, p + 1); // remove '~'
else
STRMOVE(p, p + 2); // remove '\~'
--p;
}
else
{
if (*p == '\\' && p[1]) // skip escaped characters
++p;
if (has_mbyte)
p += (*mb_ptr2len)(p) - 1;
}
}
vim_free(reg_prev_sub);
if (newsub != source) // newsub was allocated, just keep it
reg_prev_sub = newsub;
else // no ~ found, need to save newsub
reg_prev_sub = vim_strsave(newsub);
return newsub;
}
#ifdef FEAT_EVAL
static int can_f_submatch = FALSE; // TRUE when submatch() can be used
// These pointers are used for reg_submatch(). Needed for when the
// substitution string is an expression that contains a call to substitute()
// and submatch().
typedef struct {
regmatch_T *sm_match;
regmmatch_T *sm_mmatch;
linenr_T sm_firstlnum;
linenr_T sm_maxline;
int sm_line_lbr;
} regsubmatch_T;
static regsubmatch_T rsm; // can only be used when can_f_submatch is TRUE
#endif
#ifdef FEAT_EVAL
/*
* Put the submatches in "argv[argskip]" which is a list passed into
* call_func() by vim_regsub_both().
*/
static int
fill_submatch_list(int argc UNUSED, typval_T *argv, int argskip, int argcount)
{
listitem_T *li;
int i;
char_u *s;
typval_T *listarg = argv + argskip;
if (argcount == argskip)
// called function doesn't take a submatches argument
return argskip;
// Relies on sl_list to be the first item in staticList10_T.
init_static_list((staticList10_T *)(listarg->vval.v_list));
// There are always 10 list items in staticList10_T.
li = listarg->vval.v_list->lv_first;
for (i = 0; i < 10; ++i)
{
s = rsm.sm_match->startp[i];
if (s == NULL || rsm.sm_match->endp[i] == NULL)
s = NULL;
else
s = vim_strnsave(s, (int)(rsm.sm_match->endp[i] - s));
li->li_tv.v_type = VAR_STRING;
li->li_tv.vval.v_string = s;
li = li->li_next;
}
return argskip + 1;
}
static void
clear_submatch_list(staticList10_T *sl)
{
int i;
for (i = 0; i < 10; ++i)
vim_free(sl->sl_items[i].li_tv.vval.v_string);
}
#endif
/*
* vim_regsub() - perform substitutions after a vim_regexec() or
* vim_regexec_multi() match.
*
* If "copy" is TRUE really copy into "dest".
* If "copy" is FALSE nothing is copied, this is just to find out the length
* of the result.
*
* If "backslash" is TRUE, a backslash will be removed later, need to double
* them to keep them, and insert a backslash before a CR to avoid it being
* replaced with a line break later.
*
* Note: The matched text must not change between the call of
* vim_regexec()/vim_regexec_multi() and vim_regsub()! It would make the back
* references invalid!
*
* Returns the size of the replacement, including terminating NUL.
*/
int
vim_regsub(
regmatch_T *rmp,
char_u *source,
typval_T *expr,
char_u *dest,
int copy,
int magic,
int backslash)
{
int result;
regexec_T rex_save;
int rex_in_use_save = rex_in_use;
if (rex_in_use)
// Being called recursively, save the state.
rex_save = rex;
rex_in_use = TRUE;
rex.reg_match = rmp;
rex.reg_mmatch = NULL;
rex.reg_maxline = 0;
rex.reg_buf = curbuf;
rex.reg_line_lbr = TRUE;
result = vim_regsub_both(source, expr, dest, copy, magic, backslash);
rex_in_use = rex_in_use_save;
if (rex_in_use)
rex = rex_save;
return result;
}
int
vim_regsub_multi(
regmmatch_T *rmp,
linenr_T lnum,
char_u *source,
char_u *dest,
int copy,
int magic,
int backslash)
{
int result;
regexec_T rex_save;
int rex_in_use_save = rex_in_use;
if (rex_in_use)
// Being called recursively, save the state.
rex_save = rex;
rex_in_use = TRUE;
rex.reg_match = NULL;
rex.reg_mmatch = rmp;
rex.reg_buf = curbuf; // always works on the current buffer!
rex.reg_firstlnum = lnum;
rex.reg_maxline = curbuf->b_ml.ml_line_count - lnum;
rex.reg_line_lbr = FALSE;
result = vim_regsub_both(source, NULL, dest, copy, magic, backslash);
rex_in_use = rex_in_use_save;
if (rex_in_use)
rex = rex_save;
return result;
}
static int
vim_regsub_both(
char_u *source,
typval_T *expr,
char_u *dest,
int copy,
int magic,
int backslash)
{
char_u *src;
char_u *dst;
char_u *s;
int c;
int cc;
int no = -1;
fptr_T func_all = (fptr_T)NULL;
fptr_T func_one = (fptr_T)NULL;
linenr_T clnum = 0; // init for GCC
int len = 0; // init for GCC
#ifdef FEAT_EVAL
static char_u *eval_result = NULL;
#endif
// Be paranoid...
if ((source == NULL && expr == NULL) || dest == NULL)
{
emsg(_(e_null));
return 0;
}
if (prog_magic_wrong())
return 0;
src = source;
dst = dest;
/*
* When the substitute part starts with "\=" evaluate it as an expression.
*/
if (expr != NULL || (source[0] == '\\' && source[1] == '='))
{
#ifdef FEAT_EVAL
// To make sure that the length doesn't change between checking the
// length and copying the string, and to speed up things, the
// resulting string is saved from the call with "copy" == FALSE to the
// call with "copy" == TRUE.
if (copy)
{
if (eval_result != NULL)
{
STRCPY(dest, eval_result);
dst += STRLEN(eval_result);
VIM_CLEAR(eval_result);
}
}
else
{
int prev_can_f_submatch = can_f_submatch;
regsubmatch_T rsm_save;
vim_free(eval_result);
// The expression may contain substitute(), which calls us
// recursively. Make sure submatch() gets the text from the first
// level.
if (can_f_submatch)
rsm_save = rsm;
can_f_submatch = TRUE;
rsm.sm_match = rex.reg_match;
rsm.sm_mmatch = rex.reg_mmatch;
rsm.sm_firstlnum = rex.reg_firstlnum;
rsm.sm_maxline = rex.reg_maxline;
rsm.sm_line_lbr = rex.reg_line_lbr;
if (expr != NULL)
{
typval_T argv[2];
char_u buf[NUMBUFLEN];
typval_T rettv;
staticList10_T matchList;
funcexe_T funcexe;
rettv.v_type = VAR_STRING;
rettv.vval.v_string = NULL;
argv[0].v_type = VAR_LIST;
argv[0].vval.v_list = &matchList.sl_list;
matchList.sl_list.lv_len = 0;
vim_memset(&funcexe, 0, sizeof(funcexe));
funcexe.argv_func = fill_submatch_list;
funcexe.evaluate = TRUE;
if (expr->v_type == VAR_FUNC)
{
s = expr->vval.v_string;
call_func(s, -1, &rettv, 1, argv, &funcexe);
}
else if (expr->v_type == VAR_PARTIAL)
{
partial_T *partial = expr->vval.v_partial;
s = partial_name(partial);
funcexe.partial = partial;
call_func(s, -1, &rettv, 1, argv, &funcexe);
}
if (matchList.sl_list.lv_len > 0)
// fill_submatch_list() was called
clear_submatch_list(&matchList);
if (rettv.v_type == VAR_UNKNOWN)
// something failed, no need to report another error
eval_result = NULL;
else
{
eval_result = tv_get_string_buf_chk(&rettv, buf);
if (eval_result != NULL)
eval_result = vim_strsave(eval_result);
}
clear_tv(&rettv);
}
else
eval_result = eval_to_string(source + 2, NULL, TRUE);
if (eval_result != NULL)
{
int had_backslash = FALSE;
for (s = eval_result; *s != NUL; MB_PTR_ADV(s))
{
// Change NL to CR, so that it becomes a line break,
// unless called from vim_regexec_nl().
// Skip over a backslashed character.
if (*s == NL && !rsm.sm_line_lbr)
*s = CAR;
else if (*s == '\\' && s[1] != NUL)
{
++s;
/* Change NL to CR here too, so that this works:
* :s/abc\\\ndef/\="aaa\\\nbbb"/ on text:
* abc\
* def
* Not when called from vim_regexec_nl().
*/
if (*s == NL && !rsm.sm_line_lbr)
*s = CAR;
had_backslash = TRUE;
}
}
if (had_backslash && backslash)
{
// Backslashes will be consumed, need to double them.
s = vim_strsave_escaped(eval_result, (char_u *)"\\");
if (s != NULL)
{
vim_free(eval_result);
eval_result = s;
}
}
dst += STRLEN(eval_result);
}
can_f_submatch = prev_can_f_submatch;
if (can_f_submatch)
rsm = rsm_save;
}
#endif
}
else
while ((c = *src++) != NUL)
{
if (c == '&' && magic)
no = 0;
else if (c == '\\' && *src != NUL)
{
if (*src == '&' && !magic)
{
++src;
no = 0;
}
else if ('0' <= *src && *src <= '9')
{
no = *src++ - '0';
}
else if (vim_strchr((char_u *)"uUlLeE", *src))
{
switch (*src++)
{
case 'u': func_one = (fptr_T)do_upper;
continue;
case 'U': func_all = (fptr_T)do_Upper;
continue;
case 'l': func_one = (fptr_T)do_lower;
continue;
case 'L': func_all = (fptr_T)do_Lower;
continue;
case 'e':
case 'E': func_one = func_all = (fptr_T)NULL;
continue;
}
}
}
if (no < 0) // Ordinary character.
{
if (c == K_SPECIAL && src[0] != NUL && src[1] != NUL)
{
// Copy a special key as-is.
if (copy)
{
*dst++ = c;
*dst++ = *src++;
*dst++ = *src++;
}
else
{
dst += 3;
src += 2;
}
continue;
}
if (c == '\\' && *src != NUL)
{
// Check for abbreviations -- webb
switch (*src)
{
case 'r': c = CAR; ++src; break;
case 'n': c = NL; ++src; break;
case 't': c = TAB; ++src; break;
// Oh no! \e already has meaning in subst pat :-(
// case 'e': c = ESC; ++src; break;
case 'b': c = Ctrl_H; ++src; break;
// If "backslash" is TRUE the backslash will be removed
// later. Used to insert a literal CR.
default: if (backslash)
{
if (copy)
*dst = '\\';
++dst;
}
c = *src++;
}
}
else if (has_mbyte)
c = mb_ptr2char(src - 1);
// Write to buffer, if copy is set.
if (func_one != (fptr_T)NULL)
// Turbo C complains without the typecast
func_one = (fptr_T)(func_one(&cc, c));
else if (func_all != (fptr_T)NULL)
// Turbo C complains without the typecast
func_all = (fptr_T)(func_all(&cc, c));
else // just copy
cc = c;
if (has_mbyte)
{
int totlen = mb_ptr2len(src - 1);
if (copy)
mb_char2bytes(cc, dst);
dst += mb_char2len(cc) - 1;
if (enc_utf8)
{
int clen = utf_ptr2len(src - 1);
// If the character length is shorter than "totlen", there
// are composing characters; copy them as-is.
if (clen < totlen)
{
if (copy)
mch_memmove(dst + 1, src - 1 + clen,
(size_t)(totlen - clen));
dst += totlen - clen;
}
}
src += totlen - 1;
}
else if (copy)
*dst = cc;
dst++;
}
else
{
if (REG_MULTI)
{
clnum = rex.reg_mmatch->startpos[no].lnum;
if (clnum < 0 || rex.reg_mmatch->endpos[no].lnum < 0)
s = NULL;
else
{
s = reg_getline(clnum) + rex.reg_mmatch->startpos[no].col;
if (rex.reg_mmatch->endpos[no].lnum == clnum)
len = rex.reg_mmatch->endpos[no].col
- rex.reg_mmatch->startpos[no].col;
else
len = (int)STRLEN(s);
}
}
else
{
s = rex.reg_match->startp[no];
if (rex.reg_match->endp[no] == NULL)
s = NULL;
else
len = (int)(rex.reg_match->endp[no] - s);
}
if (s != NULL)
{
for (;;)
{
if (len == 0)
{
if (REG_MULTI)
{
if (rex.reg_mmatch->endpos[no].lnum == clnum)
break;
if (copy)
*dst = CAR;
++dst;
s = reg_getline(++clnum);
if (rex.reg_mmatch->endpos[no].lnum == clnum)
len = rex.reg_mmatch->endpos[no].col;
else
len = (int)STRLEN(s);
}
else
break;
}
else if (*s == NUL) // we hit NUL.
{
if (copy)
emsg(_(e_re_damg));
goto exit;
}
else
{
if (backslash && (*s == CAR || *s == '\\'))
{
/*
* Insert a backslash in front of a CR, otherwise
* it will be replaced by a line break.
* Number of backslashes will be halved later,
* double them here.
*/
if (copy)
{
dst[0] = '\\';
dst[1] = *s;
}
dst += 2;
}
else
{
if (has_mbyte)
c = mb_ptr2char(s);
else
c = *s;
if (func_one != (fptr_T)NULL)
// Turbo C complains without the typecast
func_one = (fptr_T)(func_one(&cc, c));
else if (func_all != (fptr_T)NULL)
// Turbo C complains without the typecast
func_all = (fptr_T)(func_all(&cc, c));
else // just copy
cc = c;
if (has_mbyte)
{
int l;
// Copy composing characters separately, one
// at a time.
if (enc_utf8)
l = utf_ptr2len(s) - 1;
else
l = mb_ptr2len(s) - 1;
s += l;
len -= l;
if (copy)
mb_char2bytes(cc, dst);
dst += mb_char2len(cc) - 1;
}
else if (copy)
*dst = cc;
dst++;
}
++s;
--len;
}
}
}
no = -1;
}
}
if (copy)
*dst = NUL;
exit:
return (int)((dst - dest) + 1);
}
#ifdef FEAT_EVAL
/*
* Call reg_getline() with the line numbers from the submatch. If a
* substitute() was used the reg_maxline and other values have been
* overwritten.
*/
static char_u *
reg_getline_submatch(linenr_T lnum)
{
char_u *s;
linenr_T save_first = rex.reg_firstlnum;
linenr_T save_max = rex.reg_maxline;
rex.reg_firstlnum = rsm.sm_firstlnum;
rex.reg_maxline = rsm.sm_maxline;
s = reg_getline(lnum);
rex.reg_firstlnum = save_first;
rex.reg_maxline = save_max;
return s;
}
/*
* Used for the submatch() function: get the string from the n'th submatch in
* allocated memory.
* Returns NULL when not in a ":s" command and for a non-existing submatch.
*/
char_u *
reg_submatch(int no)
{
char_u *retval = NULL;
char_u *s;
int len;
int round;
linenr_T lnum;
if (!can_f_submatch || no < 0)
return NULL;
if (rsm.sm_match == NULL)
{
/*
* First round: compute the length and allocate memory.
* Second round: copy the text.
*/
for (round = 1; round <= 2; ++round)
{
lnum = rsm.sm_mmatch->startpos[no].lnum;
if (lnum < 0 || rsm.sm_mmatch->endpos[no].lnum < 0)
return NULL;
s = reg_getline_submatch(lnum);
if (s == NULL) // anti-crash check, cannot happen?
break;
s += rsm.sm_mmatch->startpos[no].col;
if (rsm.sm_mmatch->endpos[no].lnum == lnum)
{
// Within one line: take form start to end col.
len = rsm.sm_mmatch->endpos[no].col
- rsm.sm_mmatch->startpos[no].col;
if (round == 2)
vim_strncpy(retval, s, len);
++len;
}
else
{
// Multiple lines: take start line from start col, middle
// lines completely and end line up to end col.
len = (int)STRLEN(s);
if (round == 2)
{
STRCPY(retval, s);
retval[len] = '\n';
}
++len;
++lnum;
while (lnum < rsm.sm_mmatch->endpos[no].lnum)
{
s = reg_getline_submatch(lnum++);
if (round == 2)
STRCPY(retval + len, s);
len += (int)STRLEN(s);
if (round == 2)
retval[len] = '\n';
++len;
}
if (round == 2)
STRNCPY(retval + len, reg_getline_submatch(lnum),
rsm.sm_mmatch->endpos[no].col);
len += rsm.sm_mmatch->endpos[no].col;
if (round == 2)
retval[len] = NUL;
++len;
}
if (retval == NULL)
{
retval = alloc(len);
if (retval == NULL)
return NULL;
}
}
}
else
{
s = rsm.sm_match->startp[no];
if (s == NULL || rsm.sm_match->endp[no] == NULL)
retval = NULL;
else
retval = vim_strnsave(s, (int)(rsm.sm_match->endp[no] - s));
}
return retval;
}
/*
* Used for the submatch() function with the optional non-zero argument: get
* the list of strings from the n'th submatch in allocated memory with NULs
* represented in NLs.
* Returns a list of allocated strings. Returns NULL when not in a ":s"
* command, for a non-existing submatch and for any error.
*/
list_T *
reg_submatch_list(int no)
{
char_u *s;
linenr_T slnum;
linenr_T elnum;
colnr_T scol;
colnr_T ecol;
int i;
list_T *list;
int error = FALSE;
if (!can_f_submatch || no < 0)
return NULL;
if (rsm.sm_match == NULL)
{
slnum = rsm.sm_mmatch->startpos[no].lnum;
elnum = rsm.sm_mmatch->endpos[no].lnum;
if (slnum < 0 || elnum < 0)
return NULL;
scol = rsm.sm_mmatch->startpos[no].col;
ecol = rsm.sm_mmatch->endpos[no].col;
list = list_alloc();
if (list == NULL)
return NULL;
s = reg_getline_submatch(slnum) + scol;
if (slnum == elnum)
{
if (list_append_string(list, s, ecol - scol) == FAIL)
error = TRUE;
}
else
{
if (list_append_string(list, s, -1) == FAIL)
error = TRUE;
for (i = 1; i < elnum - slnum; i++)
{
s = reg_getline_submatch(slnum + i);
if (list_append_string(list, s, -1) == FAIL)
error = TRUE;
}
s = reg_getline_submatch(elnum);
if (list_append_string(list, s, ecol) == FAIL)
error = TRUE;
}
}
else
{
s = rsm.sm_match->startp[no];
if (s == NULL || rsm.sm_match->endp[no] == NULL)
return NULL;
list = list_alloc();
if (list == NULL)
return NULL;
if (list_append_string(list, s,
(int)(rsm.sm_match->endp[no] - s)) == FAIL)
error = TRUE;
}
if (error)
{
list_free(list);
return NULL;
}
return list;
}
#endif
/*
* Initialize the values used for matching against multiple lines
*/
static void
init_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
{
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;
}
#include "regexp_bt.c"
static regengine_T bt_regengine =
{
bt_regcomp,
bt_regfree,
bt_regexec_nl,
bt_regexec_multi,
(char_u *)""
};
#include "regexp_nfa.c"
static regengine_T nfa_regengine =
{
nfa_regcomp,
nfa_regfree,
nfa_regexec_nl,
nfa_regexec_multi,
(char_u *)""
};
// Which regexp engine to use? Needed for vim_regcomp().
// Must match with 'regexpengine'.
static int regexp_engine = 0;
#ifdef DEBUG
static char_u regname[][30] = {
"AUTOMATIC Regexp Engine",
"BACKTRACKING Regexp Engine",
"NFA Regexp Engine"
};
#endif
/*
* Compile a regular expression into internal code.
* Returns the program in allocated memory.
* Use vim_regfree() to free the memory.
* Returns NULL for an error.
*/
regprog_T *
vim_regcomp(char_u *expr_arg, int re_flags)
{
regprog_T *prog = NULL;
char_u *expr = expr_arg;
int called_emsg_before;
regexp_engine = p_re;
// Check for prefix "\%#=", that sets the regexp engine
if (STRNCMP(expr, "\\%#=", 4) == 0)
{
int newengine = expr[4] - '0';
if (newengine == AUTOMATIC_ENGINE
|| newengine == BACKTRACKING_ENGINE
|| newengine == NFA_ENGINE)
{
regexp_engine = expr[4] - '0';
expr += 5;
#ifdef DEBUG
smsg("New regexp mode selected (%d): %s",
regexp_engine, regname[newengine]);
#endif
}
else
{
emsg(_("E864: \\%#= can only be followed by 0, 1, or 2. The automatic engine will be used "));
regexp_engine = AUTOMATIC_ENGINE;
}
}
#ifdef DEBUG
bt_regengine.expr = expr;
nfa_regengine.expr = expr;
#endif
// reg_iswordc() uses rex.reg_buf
rex.reg_buf = curbuf;
/*
* First try the NFA engine, unless backtracking was requested.
*/
called_emsg_before = called_emsg;
if (regexp_engine != BACKTRACKING_ENGINE)
prog = nfa_regengine.regcomp(expr,
re_flags + (regexp_engine == AUTOMATIC_ENGINE ? RE_AUTO : 0));
else
prog = bt_regengine.regcomp(expr, re_flags);
// Check for error compiling regexp with initial engine.
if (prog == NULL)
{
#ifdef BT_REGEXP_DEBUG_LOG
if (regexp_engine != BACKTRACKING_ENGINE) // debugging log for NFA
{
FILE *f;
f = fopen(BT_REGEXP_DEBUG_LOG_NAME, "a");
if (f)
{
fprintf(f, "Syntax error in \"%s\"\n", expr);
fclose(f);
}
else
semsg("(NFA) Could not open \"%s\" to write !!!",
BT_REGEXP_DEBUG_LOG_NAME);
}
#endif
/*
* If the NFA engine failed, try the backtracking engine.
* The NFA engine also fails for patterns that it can't handle well
* but are still valid patterns, thus a retry should work.
* But don't try if an error message was given.
*/
if (regexp_engine == AUTOMATIC_ENGINE
&& called_emsg == called_emsg_before)
{
regexp_engine = BACKTRACKING_ENGINE;
prog = bt_regengine.regcomp(expr, re_flags);
}
}
if (prog != NULL)
{
// Store the info needed to call regcomp() again when the engine turns
// out to be very slow when executing it.
prog->re_engine = regexp_engine;
prog->re_flags = re_flags;
}
return prog;
}
/*
* Free a compiled regexp program, returned by vim_regcomp().
*/
void
vim_regfree(regprog_T *prog)
{
if (prog != NULL)
prog->engine->regfree(prog);
}
#if defined(EXITFREE) || defined(PROTO)
void
free_regexp_stuff(void)
{
ga_clear(®stack);
ga_clear(&backpos);
vim_free(reg_tofree);
vim_free(reg_prev_sub);
}
#endif
#ifdef FEAT_EVAL
static void
report_re_switch(char_u *pat)
{
if (p_verbose > 0)
{
verbose_enter();
msg_puts(_("Switching to backtracking RE engine for pattern: "));
msg_puts((char *)pat);
verbose_leave();
}
}
#endif
#if (defined(FEAT_X11) && (defined(FEAT_TITLE) || defined(FEAT_XCLIPBOARD))) \
|| defined(PROTO)
/*
* Return whether "prog" is currently being executed.
*/
int
regprog_in_use(regprog_T *prog)
{
return prog->re_in_use;
}
#endif
/*
* Match a regexp against a string.
* "rmp->regprog" is a compiled regexp as returned by vim_regcomp().
* Note: "rmp->regprog" may be freed and changed.
* Uses curbuf for line count and 'iskeyword'.
* When "nl" is TRUE consider a "\n" in "line" to be a line break.
*
* Return TRUE if there is a match, FALSE if not.
*/
static int
vim_regexec_string(
regmatch_T *rmp,
char_u *line, // string to match against
colnr_T col, // column to start looking for match
int nl)
{
int result;
regexec_T rex_save;
int rex_in_use_save = rex_in_use;
// Cannot use the same prog recursively, it contains state.
if (rmp->regprog->re_in_use)
{
emsg(_(e_recursive));
return FALSE;
}
rmp->regprog->re_in_use = TRUE;
if (rex_in_use)
// Being called recursively, save the state.
rex_save = rex;
rex_in_use = TRUE;
rex.reg_startp = NULL;
rex.reg_endp = NULL;
rex.reg_startpos = NULL;
rex.reg_endpos = NULL;
result = rmp->regprog->engine->regexec_nl(rmp, line, col, nl);
rmp->regprog->re_in_use = FALSE;
// NFA engine aborted because it's very slow.
if (rmp->regprog->re_engine == AUTOMATIC_ENGINE
&& result == NFA_TOO_EXPENSIVE)
{
int save_p_re = p_re;
int re_flags = rmp->regprog->re_flags;
char_u *pat = vim_strsave(((nfa_regprog_T *)rmp->regprog)->pattern);
p_re = BACKTRACKING_ENGINE;
vim_regfree(rmp->regprog);
if (pat != NULL)
{
#ifdef FEAT_EVAL
report_re_switch(pat);
#endif
rmp->regprog = vim_regcomp(pat, re_flags);
if (rmp->regprog != NULL)
{
rmp->regprog->re_in_use = TRUE;
result = rmp->regprog->engine->regexec_nl(rmp, line, col, nl);
rmp->regprog->re_in_use = FALSE;
}
vim_free(pat);
}
p_re = save_p_re;
}
rex_in_use = rex_in_use_save;
if (rex_in_use)
rex = rex_save;
return result > 0;
}
/*
* Note: "*prog" may be freed and changed.
* Return TRUE if there is a match, FALSE if not.
*/
int
vim_regexec_prog(
regprog_T **prog,
int ignore_case,
char_u *line,
colnr_T col)
{
int r;
regmatch_T regmatch;
regmatch.regprog = *prog;
regmatch.rm_ic = ignore_case;
r = vim_regexec_string(®match, line, col, FALSE);
*prog = regmatch.regprog;
return r;
}
/*
* Note: "rmp->regprog" may be freed and changed.
* Return TRUE if there is a match, FALSE if not.
*/
int
vim_regexec(regmatch_T *rmp, char_u *line, colnr_T col)
{
return vim_regexec_string(rmp, line, col, FALSE);
}
/*
* Like vim_regexec(), but consider a "\n" in "line" to be a line break.
* Note: "rmp->regprog" may be freed and changed.
* Return TRUE if there is a match, FALSE if not.
*/
int
vim_regexec_nl(regmatch_T *rmp, char_u *line, colnr_T col)
{
return vim_regexec_string(rmp, line, col, TRUE);
}
/*
* Match a regexp against multiple lines.
* "rmp->regprog" must be a compiled regexp as returned by vim_regcomp().
* Note: "rmp->regprog" may be freed and changed, even set to NULL.
* Uses curbuf for line count and 'iskeyword'.
*
* Return zero if there is no match. Return number of lines contained in the
* match otherwise.
*/
long
vim_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 is set when timeout limit reached
{
int result;
regexec_T rex_save;
int rex_in_use_save = rex_in_use;
// Cannot use the same prog recursively, it contains state.
if (rmp->regprog->re_in_use)
{
emsg(_(e_recursive));
return FALSE;
}
rmp->regprog->re_in_use = TRUE;
if (rex_in_use)
// Being called recursively, save the state.
rex_save = rex;
rex_in_use = TRUE;
result = rmp->regprog->engine->regexec_multi(
rmp, win, buf, lnum, col, tm, timed_out);
rmp->regprog->re_in_use = FALSE;
// NFA engine aborted because it's very slow.
if (rmp->regprog->re_engine == AUTOMATIC_ENGINE
&& result == NFA_TOO_EXPENSIVE)
{
int save_p_re = p_re;
int re_flags = rmp->regprog->re_flags;
char_u *pat = vim_strsave(((nfa_regprog_T *)rmp->regprog)->pattern);
p_re = BACKTRACKING_ENGINE;
vim_regfree(rmp->regprog);
if (pat != NULL)
{
#ifdef FEAT_EVAL
report_re_switch(pat);
#endif
#ifdef FEAT_SYN_HL
// checking for \z misuse was already done when compiling for NFA,
// allow all here
reg_do_extmatch = REX_ALL;
#endif
rmp->regprog = vim_regcomp(pat, re_flags);
#ifdef FEAT_SYN_HL
reg_do_extmatch = 0;
#endif
if (rmp->regprog != NULL)
{
rmp->regprog->re_in_use = TRUE;
result = rmp->regprog->engine->regexec_multi(
rmp, win, buf, lnum, col, tm, timed_out);
rmp->regprog->re_in_use = FALSE;
}
vim_free(pat);
}
p_re = save_p_re;
}
rex_in_use = rex_in_use_save;
if (rex_in_use)
rex = rex_save;
return result <= 0 ? 0 : result;
}
|