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regexp-lexer.c
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regexp-lexer.c
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#ifdef FAST
#define PARM_NO_FLEX 1
#endif
/*
This is a modification of the lightweight regexp package (copyright below)
which passes the data to be searched in via a global array rather than a string.
Access to the array is encapsulated in the procedure demandload_ch(int required_string_offset)
which fetches data into the array only when needed. This allows us to modify
the line reconstruction process on the fly under the control of the higher
level software - typically the grammar level of a parser guiding the lexing level.
When this code was added to my parser for parsing programming languages, the
input stream consisted of a struct containing the reconstructed character,
the original text, start and end pointers for the original text, and a type
field. At this point, when modifying the code to support Unicode, I've temporarily
removed that code and replaced with a quick hack where the input is a wchar_t string
terminating in a 0. This will be rationalised soon.
It appears that the malloc call here does not claim sufficient space for the
data needed. I've bodged it by adding a slop factor to the malloc call for now.
Most likely the reason is that Unicode characters now take 4 bytes compared to
the 1 per character that the original 'char' version needed. At some point I'll
go back and fix it properly, but since the absolute numbers are so small, it's
not a critical issue.
*/
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <wchar.h>
//#include "mnemosyne.h"
//#define REGEXP_DEBUG 1
int regexp_debug = 0;
#include "regexp-lexer.h"
#include "parser.h"
extern int *TP;
wchar_t demandload_ch(int offset) {
if (regexp_debug) fprintf(stderr, "demandload_ch(%d) -> '%lc'\n", offset+(*TP), source(offset+(*TP)));
return source(offset+(*TP));
}
// modified string routines based on simple implementation
// at https://android.googlesource.com/platform/bionic/+/ics-mr0/libc/string/
int STRINGlen(CHARINDEX p) {
int len = 0;
for (;;) {
int ch = demandload_ch(p);
//if (ch == '\n') ch = '\0';
if (ch == '\0') return len;
p++; len++;
}
}
CHARINDEX STRINGchr_STR_char(CHARINDEX p, int ch) {
for (;; ++p) {
int pch = demandload_ch(p);
//if (pch == '\n') pch = '\0';
if (pch == ch) return(p);
if (!pch) return(-1);
}
}
CHARINDEX STRINGchr_STR_CHAR(CHARINDEX p, CHAR ch) {
//if (ch == '\n') ch = '\0';
for (;; ++p) {
int pch = demandload_ch(p);
//if (pch == '\n') pch = '\0';
if (pch == ch) return(p);
if (pch == '\0') return(-1);
}
}
wchar_t *STRINGchr_str_CHAR(wchar_t *p, CHAR ch) {
//if (ch == '\n') ch = '\0';
for (;; ++p) {
if (*p == ch) return(p);
if (*p == '\0') return(NULL);
}
}
void STRINGncpy_str_STR(wchar_t *dst, CHARINDEX src, int n) {
if (n != 0) {
wchar_t *d = dst;
CHARINDEX s = src;
int ch;
do {
ch = demandload_ch(s++);
//if (ch == '\n') ch = '\0';
*d++ = ch;
if (ch == '\0') {
/* NUL pad the remaining n-1 bytes */
while (--n != 0) *d++ = '\0';
break;
}
} while (--n != 0);
}
// return (dst);
}
int STRINGncmp_STR_str(CHARINDEX s1, wchar_t *s2, int n) {
if (n != 0) do {
int s1ch = demandload_ch(s1);
//if (s1ch == '\n') s1ch = '\0';
if (s1ch != *(wchar_t *)s2) return (s1ch - *(wchar_t *)s2);
if (s1ch == '\0') break;
s1++;
s2++;
} while (--n != 0);
return (0);
}
int STRINGncmp_str_STR(wchar_t *s1, CHARINDEX s2, int n) {
if (n != 0) do {
int s2ch = demandload_ch(s2);
//if (s2ch == '\n') s2ch = '\0';
if (*s1 != s2ch) return (*(wchar_t *)s1 - s2ch);
if (*s1 == '\0') break;
s1++; s2++;
} while (--n != 0);
return 0;
}
/*
* regexp.c - regular expression matching
*
* DESCRIPTION
*
* This source was taken from the pax posting in comp.sources.unix.
*
* Underneath the reformatting and comment blocks which were added to
* make it consistent with the rest of the code, you will find a
* modified version of Henry Spencer's regular expression library.
* Henry's functions were modified to provide the minimal regular
* expression matching, as required by P1003. Henry's code was
* copyrighted, and copy of the copyright message and restrictions
* are provided, verbatim, below:
*
* Copyright (c) 1986 by University of Toronto.
* Written by Henry Spencer. Not derived from licensed software.
*
* Permission is granted to anyone to use this software for any
* purpose on any computer system, and to redistribute it freely,
* subject to the following restrictions:
*
* 1. The author is not responsible for the consequences of use of
* this software, no matter how awful, even if they arise
* from defects in it.
*
* 2. The origin of this software must not be misrepresented, either
* by explicit claim or by omission.
*
* 3. Altered versions must be plainly marked as such, and must not
* be misrepresented as being the original software.
*
* PLAIN MARKINGS:
* GA: 11th June 1992: removed regerror() function (void regerror(wchar_t *s))
* so that it can be provided by client (e.g., ED); and regsub() now
* returns 1 for success, 0 for failure, instead of returning void.
* There is already a test harness by G. Toal at the end.
*
* GT: Modified 1 Jul 2023 to convert all strings to wchar_t (UTF-32).
*
* Beware that some of this code is subtly aware of the way operator
* precedence is structured in regular expressions. Serious changes in
* regular-expression syntax might require a total rethink.
*
* AUTHORS
*
* Mark H. Colburn, NAPS International (mark@jhereg.mn.org)
* Henry Spencer, University of Toronto (henry@utzoo.edu)
*
* Sponsored by The USENIX Association for public distribution.
*
*/
// Note this is derived from an early version of Henry's code, before
// some tweaks were added by John Gilmore and James Wood.
// See https://opensource.apple.com/source/jam/jam-52/regexp.c.auto.html
// if you want to add those.
/* Headers */
/* Headers for regexp.c */
static wchar_t *reg(int paren, int *flagp);
static wchar_t *regbranch(int *flagp);
static wchar_t *regpiece(int *flagp);
static wchar_t *regatom(int *flagp);
static wchar_t *regnode(wchar_t op);
static void regc(wchar_t b);
static void reginsert(wchar_t op, wchar_t *opnd);
static void regtail(wchar_t *p, wchar_t *val);
static void regoptail(wchar_t *p, wchar_t *val);
static int regtry(regexp *prog, CHARINDEX string);
static int regmatch(wchar_t *prog);
static int regrepeat(wchar_t *p);
static wchar_t *regnext(register wchar_t *p);
/* End of headers for regexp.c */
static wchar_t *regprop(wchar_t *op); // Used in debug
/*
* The "internal use only" fields in regexp.h are present to pass info from
* compile to execute that permits the execute phase to run lots faster on
* simple cases. They are:
*
* regstart wchar_t that must begin a match; '\0' if none obvious
* reganch is the match anchored (at beginning-of-line only)?
* regmust string (pointer into program) that match must include, or NULL
* regmlen length of regmust string
*
* Regstart and reganch permit very fast decisions on suitable starting points
* for a match, cutting down the work a lot. Regmust permits fast rejection
* of lines that cannot possibly match. The regmust tests are costly enough
* that regcomp() supplies a regmust only if the r.e. contains something
* potentially expensive (at present, the only such thing detected is * or +
* at the start of the r.e., which can involve a lot of backup). Regmlen is
* supplied because the test in regexec() needs it and regcomp() is computing
* it anyway.
*/
/*
* Structure for regexp "program". This is essentially a linear encoding
* of a nondeterministic finite-state machine (aka syntax charts or
* "railroad normal form" in parsing technology). Each node is an opcode
* plus a "nxt" pointer, possibly plus an operand. "Nxt" pointers of
* all nodes except BRANCH implement concatenation; a "nxt" pointer with
* a BRANCH on both ends of it is connecting two alternatives. (Here we
* have one of the subtle syntax dependencies: an individual BRANCH (as
* opposed to a collection of them) is never concatenated with anything
* because of operator precedence.) The operand of some types of node is
* a literal string; for others, it is a node leading into a sub-FSM. In
* particular, the operand of a BRANCH node is the first node of the branch.
* (NB this is *not* a tree structure: the tail of the branch connects
* to the thing following the set of BRANCHes.) The opcodes are:
*/
/* definition number opnd? meaning */
#define END (wchar_t)0 /* no End of program. */
#define BOL (wchar_t)1 /* no Match "" at beginning of line. */
#define EOL (wchar_t)2 /* no Match "" at end of line. */
#define ANY (wchar_t)3 /* no Match any one character. */
#define ANYOF (wchar_t)4 /* str Match any character in this string. */
#define ANYBUT (wchar_t)5 /* str Match any character not in this string. */
#define BRANCH (wchar_t)6 /* node Match this alternative, or the nxt... */
#define BACK (wchar_t)7 /* no Match "", "nxt" ptr points backward. */
#define EXACTLY (wchar_t)8 /* str Match this string. */
#define NOTHING (wchar_t)9 /* no Match empty string. */
#define PLUS (wchar_t)11 /* node Match this (simple) thing 1 or more times. */
#define STAR (wchar_t)10 /* node Match this (simple) thing 0 or more times. */
#define OPEN (wchar_t)20 /* no Mark this point in input as start of #n. */
/* OPEN+1 is number 1, etc. */
#define CLOSE (wchar_t)30 /* no Analogous to OPEN. */
/*
* Opcode notes:
*
* BRANCH The set of branches constituting a single choice are hooked
* together with their "nxt" pointers, since precedence prevents
* anything being concatenated to any individual branch. The
* "nxt" pointer of the last BRANCH in a choice points to the
* thing following the whole choice. This is also where the
* final "nxt" pointer of each individual branch points; each
* branch starts with the operand node of a BRANCH node.
*
* BACK Normal "nxt" pointers all implicitly point forward; BACK
* exists to make loop structures possible.
*
* STAR,PLUS '?', and complex '*' and '+', are implemented as circular
* BRANCH structures using BACK. Simple cases (one character
* per match) are implemented with STAR and PLUS for speed
* and to minimize recursive plunges.
*
* OPEN,CLOSE ...are numbered at compile time.
*/
/*
* A node is one wchar_t of opcode followed by two chars of "nxt" pointer.
* "Nxt" pointers are stored as two 8-bit pieces, high order first. The
* value is a positive offset from the opcode of the node containing it.
* An operand, if any, simply follows the node. (Note that much of the
* code generation knows about this implicit relationship.)
*
* Using two bytes for the "nxt" pointer is vast overkill for most things,
* but allows patterns to get big without disasters.
*/
#define OP(p) (*(p))
#define NEXT(p) (((*((p)+1)&0377)<<8) + (*((p)+2)&0377))
#define OPERAND(p) ((p) + 3)
/*
* Utility definitions.
*/
#define FAIL(m) { regerror(m); return(NULL); }
#define ISMULT(c) ((c) == '*' || (c) == '+' || (c) == '?')
#define META L"^$.[()|*+?\\"
#ifndef CHARBITS
#define UCHARAT(p) ((wint_t) *((wchar_t *)(p)))
#else
#define UCHARAT(p) ((wint_t) (*(p))&CHARBITS)
#endif
/*
* Flags to be passed up and down.
*/
#define HASWIDTH 01 /* Known never to match null string. */
#define SIMPLE 02 /* Simple enough to be STAR operand. */
#define SPSTART 04 /* Starts with * */
#define WORST 0 /* Worst case. */
/*
* Global work variables for regcomp().
*/
static wchar_t *regparse; /* Input-scan pointer. */
static int regnpar; /* () count. */
static wchar_t regdummy;
static wchar_t *regcode; /* Code-emit pointer; ®dummy = don't. */
static long regsize; /* Code size. */
/*
* Forward declarations for regcomp()'s friends.
*/
#ifndef STATIC
#define STATIC static
#endif
/*
- regcomp - compile a regular expression into internal code
*
* We can't allocate space until we know how big the compiled form will be,
* but we can't compile it (and thus know how big it is) until we've got a
* place to put the code. So we cheat: we compile it twice, once with code
* generation turned off and size counting turned on, and once "for real".
* This also means that we don't allocate space until we are sure that the
* thing really will compile successfully, and we never have to move the
* code and thus invalidate pointers into it. (Note that it has to be in
* one piece because free() must be able to free it all.)
*
* Beware that the optimization-preparation code in here knows about some
* of the structure of the compiled regexp.
*/
regexp *regcomp(const wchar_t *uexp) {
wchar_t *exp = (wchar_t *)uexp;
register regexp *r;
register wchar_t *scan;
register wchar_t *longest;
register int len;
int flags;
if (exp == NULL)
FAIL(L"NULL argument");
/* First pass: determine size, legality. */
regparse = exp;
regnpar = 1;
regsize = 0L;
regcode = ®dummy;
regc(MAGIC);
if (reg(0, &flags) == NULL)
return (NULL);
/* Small enough for pointer-storage convention? */
if (regsize >= 32767L) /* Probably could be 65535L. */
FAIL(L"regexp too big");
/* Allocate space. */
r = (regexp *) malloc(sizeof(regexp) + (unsigned) regsize * 4 + 1024 /* BIG SLOPPY KISS courtesy of Valery Grind */);
if (r == NULL)
FAIL(L"out of space");
/* Second pass: emit code. */
regparse = exp;
regnpar = 1;
regcode = r->program;
regc(MAGIC);
if (reg(0, &flags) == NULL)
return (NULL);
/* Dig out information for optimizations. */
r->regstart = '\0'; /* Worst-case defaults. */
r->reganch = 0;
r->regmust = NULL;
r->regmlen = 0;
scan = r->program + 1; /* First BRANCH. */
if (OP(regnext(scan)) == END) { /* Only one top-level choice. */
scan = OPERAND(scan);
/* Starting-point info. */
if (OP(scan) == EXACTLY)
r->regstart = *OPERAND(scan);
else if (OP(scan) == BOL)
r->reganch++;
/*
* If there's something expensive in the r.e., find the longest
* literal string that must appear and make it the regmust. Resolve
* ties in favor of later strings, since the regstart check works
* with the beginning of the r.e. and avoiding duplication
* strengthens checking. Not a strong reason, but sufficient in the
* absence of others.
*/
if (flags & SPSTART) {
longest = NULL;
len = 0;
for (; scan != NULL; scan = regnext(scan))
if (OP(scan) == EXACTLY && wcslen((wchar_t *)OPERAND(scan)) >= len) {
longest = OPERAND(scan);
len = wcslen((wchar_t *)OPERAND(scan));
}
r->regmust = longest;
r->regmlen = len;
}
}
return (r);
}
/*
- reg - regular expression, i.e. main body or parenthesized thing
*
* Caller must absorb opening parenthesis.
*
* Combining parenthesis handling with the base level of regular expression
* is a trifle forced, but the need to tie the tails of the branches to what
* follows makes it hard to avoid.
*/
static wchar_t *reg(paren, flagp)
int paren; /* Parenthesized? */
int *flagp;
{
register wchar_t *ret;
register wchar_t *br;
register wchar_t *ender;
register int parno = 0; // suppress warning: ‘parno’ may be used uninitialized in this function [-Wmaybe-uninitialized]
int flags;
*flagp = HASWIDTH; /* Tentatively. */
/* Make an OPEN node, if parenthesized. */
if (paren) {
if (regnpar >= NSUBEXP)
FAIL(L"too many ()");
parno = regnpar;
regnpar++;
ret = regnode((wchar_t)(OPEN + parno));
} else
ret = NULL;
/* Pick up the branches, linking them together. */
br = regbranch(&flags);
if (br == NULL)
return (NULL);
if (ret != NULL)
regtail(ret, br); /* OPEN -> first. */
else
ret = br;
if (!(flags & HASWIDTH))
*flagp &= ~HASWIDTH;
*flagp |= flags & SPSTART;
while (*regparse == '|') {
regparse++;
br = regbranch(&flags);
if (br == NULL)
return (NULL);
regtail(ret, br); /* BRANCH -> BRANCH. */
if (!(flags & HASWIDTH))
*flagp &= ~HASWIDTH;
*flagp |= flags & SPSTART;
}
/* Make a closing node, and hook it on the end. */
ender = regnode((wchar_t)((paren) ? CLOSE + parno : END)); // warning: ‘parno’ may be used uninitialized in this function [-Wmaybe-uninitialized]
regtail(ret, ender);
/* Hook the tails of the branches to the closing node. */
for (br = ret; br != NULL; br = regnext(br))
regoptail(br, ender);
/* Check for proper termination. */
if (paren && *regparse++ != ')') {
FAIL(L"unmatched ()");
} else if (!paren && *regparse != '\0') {
if (*regparse == ')') {
FAIL(L"unmatched ()");
} else
FAIL(L"junk on end");/* "Can't happen". */
/* NOTREACHED */
}
return (ret);
}
/*
- regbranch - one alternative of an | operator
*
* Implements the concatenation operator.
*/
static wchar_t *regbranch(int *flagp)
{
register wchar_t *ret;
register wchar_t *chain;
register wchar_t *latest;
int flags;
*flagp = WORST; /* Tentatively. */
ret = regnode(BRANCH);
chain = NULL;
while (*regparse != '\0' && *regparse != '|' && *regparse != ')') {
latest = regpiece(&flags);
if (latest == NULL)
return (NULL);
*flagp |= flags & HASWIDTH;
if (chain == NULL) /* First piece. */
*flagp |= flags & SPSTART;
else
regtail(chain, latest);
chain = latest;
}
if (chain == NULL) /* Loop ran zero times. */
regnode(NOTHING);
return (ret);
}
/*
- regpiece - something followed by possible [*+?]
*
* Note that the branching code sequences used for ? and the general cases
* of * and + are somewhat optimized: they use the same NOTHING node as
* both the endmarker for their branch list and the body of the last branch.
* It might seem that this node could be dispensed with entirely, but the
* endmarker role is not redundant.
*/
static wchar_t *regpiece(int *flagp)
{
register wchar_t *ret;
register wchar_t op;
register wchar_t *next;
int flags;
ret = regatom(&flags);
if (ret == NULL)
return (NULL);
op = *regparse;
if (!ISMULT(op)) {
*flagp = flags;
return (ret);
}
if (!(flags&HASWIDTH) && op != '?')
FAIL(L"*+ operand could be empty");
*flagp = (op != '+') ? (WORST|SPSTART) : (WORST|HASWIDTH);
if (op == '*' && (flags & SIMPLE))
reginsert(STAR, ret);
else if (op == '*') {
/* Emit x* as (x&|), where & means "self". */
reginsert(BRANCH, ret); /* Either x */
regoptail(ret, regnode(BACK)); /* and loop */
regoptail(ret, ret); /* back */
regtail(ret, regnode(BRANCH)); /* or */
regtail(ret, regnode(NOTHING)); /* null. */
} else if (op == '+' && (flags&SIMPLE)) {
reginsert(PLUS, ret);
} else if (op == '+') {
/* Emit x+ as x(&|), where & means "self". */
next = regnode(BRANCH); /* Either */
regtail(ret, next);
regtail(regnode(BACK), ret); /* loop back */
regtail(next, regnode(BRANCH)); /* or */
regtail(ret, regnode(NOTHING)); /* null. */
} else if (op == '?') {
/* Emit x? as (x|) */
reginsert(BRANCH, ret); /* Either x */
regtail(ret, regnode(BRANCH)); /* or */
next = regnode(NOTHING); /* null. */
regtail(ret, next);
regoptail(ret, next);
}
regparse++;
if (ISMULT(*regparse))
FAIL(L"nested *?+");
return (ret);
}
/*
- regatom - the lowest level
*
* Optimization: gobbles an entire sequence of ordinary characters so that
* it can turn them into a single node, which is smaller to store and
* faster to run. Backslashed characters are exceptions, each becoming a
* separate node; the code is simpler that way and it's not worth fixing.
*/
static wchar_t *regatom(int *flagp)
{
register wchar_t *ret;
int flags;
*flagp = WORST; /* Tentatively. */
switch (*regparse++) {
case '^':
ret = regnode(BOL);
break;
case '$':
ret = regnode(EOL);
break;
case '.':
ret = regnode(ANY);
*flagp |= HASWIDTH | SIMPLE;
break;
case '[':{
register int class;
register int classend;
if (*regparse == '^') { /* Complement of range. */
ret = regnode(ANYBUT);
regparse++;
} else
ret = regnode(ANYOF);
if (*regparse == ']' || *regparse == '-')
regc(*regparse++);
while (*regparse != '\0' && *regparse != ']') {
if (*regparse == '-') {
regparse++;
if (*regparse == ']' || *regparse == '\0')
regc('-');
else {
class = UCHARAT(regparse - 2) + 1;
classend = UCHARAT(regparse);
if (class > classend + 1)
FAIL(L"invalid [] range");
for (; class <= classend; class++)
regc((wchar_t)class);
regparse++;
}
} else
regc(*regparse++);
}
regc('\0');
if (*regparse != ']')
FAIL(L"unmatched []");
regparse++;
*flagp |= HASWIDTH | SIMPLE;
}
break;
case '(':
ret = reg(1, &flags);
if (ret == NULL)
return (NULL);
*flagp |= flags & (HASWIDTH | SPSTART);
break;
case '\0':
case '|':
case ')':
FAIL(L"internal urp"); /* Supposed to be caught earlier. */
break;
case '?':
case '+':
case '*':
FAIL(L"?+* follows nothing");
break;
case '\\':
if (*regparse == '\0')
FAIL(L"trailing \\");
ret = regnode(EXACTLY);
regc(*regparse++);
regc('\0');
*flagp |= HASWIDTH | SIMPLE;
break;
default:{
#ifdef NEWCODE
char *regprev;
register char ch;
#else
register int len;
register wchar_t ender;
#endif
regparse--;
#ifdef NEWCODE
ret = regnode(EXACTLY);
for ( regprev = 0 ; ; ) {
ch = *regparse++; /* Get current char */
switch (*regparse) { /* look at next one */
default:
regc(ch); /* Add cur to string */
break;
case '.': case '[': case '(':
case ')': case '|': case '\n':
case '$': case '^':
case '\0':
/* FIXME, $ and ^ should not always be magic */
magic:
regc(ch); /* dump cur char */
goto done; /* and we are done */
case '?': case '+': case '*':
if (!regprev) /* If just ch in str, */
goto magic; /* use it */
/* End mult-char string one early */
regparse = regprev; /* Back up parse */
goto done;
case '\\':
regc(ch); /* Cur char OK */
switch (regparse[1]){ /* Look after \ */
case '\0':
case '<':
case '>':
/* FIXME: Someday handle \1, \2, ... */
goto done; /* Not quoted */
default:
/* Backup point is \, scan * point is after it. */
regprev = regparse;
regparse++;
continue; /* NOT break; */
}
}
regprev = regparse; /* Set backup point */
}
done:
regc('\0');
*flagp |= HASWIDTH;
if (!regprev) /* One char? */
*flagp |= SIMPLE;
#else
len = wcscspn((wchar_t *)regparse, META);
if (len <= 0)
FAIL(L"internal disaster");
ender = *(regparse + len);
if (len > 1 && ISMULT(ender))
len--; /* Back off clear of *+ operand. */
*flagp |= HASWIDTH;
if (len == 1)
*flagp |= SIMPLE;
ret = regnode(EXACTLY);
while (len > 0) {
regc(*regparse++);
len--;
}
regc('\0');
}
#endif
break;
}
return (ret);
}
/*
- regnode - emit a node
*/
static wchar_t *regnode(wchar_t op)
{
register wchar_t *ret;
register wchar_t *ptr;
ret = regcode;
if (ret == ®dummy) {
regsize += 3;
return (ret);
}
ptr = ret;
*ptr++ = op;
*ptr++ = '\0'; /* Null "nxt" pointer. */
*ptr++ = '\0';
regcode = ptr;
return (ret);
}
/*
- regc - emit (if appropriate) a byte of code
*/
static void regc(wchar_t b)
{
if (regcode != ®dummy)
*regcode++ = b;
else
regsize++;
}
/*
- reginsert - insert an operator in front of already-emitted operand
*
* Means relocating the operand.
*/
static void reginsert(wchar_t op, wchar_t *opnd)
{
register wchar_t *src;
register wchar_t *dst;
register wchar_t *place;
if (regcode == ®dummy) {
regsize += 3;
return;
}
src = regcode;
regcode += 3;
dst = regcode;
while (src > opnd)
*--dst = *--src;
place = opnd; /* Op node, where operand used to be. */
*place++ = op;
*place++ = '\0';
*place++ = '\0';
}
/*
- regtail - set the next-pointer at the end of a node chain
*/
static void regtail(p, val)
wchar_t *p;
wchar_t *val;
{
register wchar_t *scan;
register wchar_t *temp;
register int offset;
if (p == ®dummy)
return;
/* Find last node. */
scan = p;
for (;;) {
temp = regnext(scan);
if (temp == NULL)
break;
scan = temp;
}
if (OP(scan) == BACK)
offset = scan - val;
else
offset = val - scan;
*(scan + 1) = (offset >> 8) & 0377;
*(scan + 2) = offset & 0377;
}
/*
- regoptail - regtail on operand of first argument; nop if operandless
*/
static void regoptail(p, val)
wchar_t *p;
wchar_t *val;
{
/* "Operandless" and "op != BRANCH" are synonymous in practice. */
if (p == NULL || p == ®dummy || OP(p) != BRANCH)
return;
regtail(OPERAND(p), val);
}
/*
* regexec and friends
*/
/*
* Global work variables for regexec().
*/
static CHARINDEX reginput; /* String-input pointer. */
static CHARINDEX regbol; /* Beginning of input, for ^ check. */
static CHARINDEX *regstartp; /* Pointer to startp array. */
static CHARINDEX *regendp; /* Ditto for endp. */
int regnarrate = 1; // Used in debug
void regdump(regexp *r);
/*
- regexec - match a regexp against a string
*/
int regexec(regexp *prog, CHARINDEX string) {
CHARINDEX s;
/* Be paranoid... */
if (prog == NULL) {
regerror(L"NULL parameter");
return (0);
}
/* Check validity of program. */
if (UCHARAT(prog->program) != MAGIC) {
regerror(L"corrupted program");
return (0);
}
/* If there is a "must appear" string, look for it. */
if (prog->regmust != NULL) {
s = string;
while ((s = STRINGchr_STR_char(s, prog->regmust[0])) >= 0) {
if (STRINGncmp_STR_str(s, (wchar_t *)prog->regmust, prog->regmlen) == 0)
break; /* Found it. */
s++;
}
if (s < 0) /* Not present. */
return (0);
}
/* Mark beginning of line for ^ . */
regbol = string;
/* Simplest case: anchored match need be tried only once. */
if (prog->reganch)
return (regtry(prog, string));
/* Messy cases: unanchored match. */
s = string;
if (prog->regstart != '\0')
/* We know what wchar_t it must start with. */
while ((s = STRINGchr_STR_char(s, prog->regstart)) >= 0) {
if (regtry(prog, s)) return (1);
s++;
}
else
/* We don't -- general case. */
do {
if (regtry(prog, s)) return (1);
} while (demandload_ch(s++) != '\0'); // != '\0'
/* Failure. */
return (0);
}
/*
- regtry - try match at specific point
*/
static int regtry(regexp *prog, CHARINDEX string)
{
register int i;
CHARINDEX *sp;
CHARINDEX *ep;
reginput = string;
regstartp = prog->startp;
regendp = prog->endp;
sp = prog->startp;
ep = prog->endp;
for (i = NSUBEXP; i > 0; i--) {
*sp++ = -1; // NULL -> -1
*ep++ = -1;
}
if (regmatch(prog->program + 1)) {
prog->startp[0] = string;
prog->endp[0] = reginput;
return (1);
} else
return (0);
}
/*
- regmatch - main matching routine
*
* Conceptually the strategy is simple: check to see whether the current
* node matches, call self recursively to see whether the rest matches,
* and then act accordingly. In practice we make some effort to avoid
* recursion, in particular by going through "ordinary" nodes (that don't
* need to know whether the rest of the match failed) by a loop instead of
* by recursion.
*/
static int regmatch(wchar_t *prog)
{
register wchar_t *scan; /* Current node. */
wchar_t *nxt; /* nxt node. */
scan = prog;
if (regexp_debug && scan != NULL && regnarrate)
fprintf(stderr, "%ls(\n", regprop(scan));
while (scan != NULL) {
if (regexp_debug && regnarrate)
fprintf(stderr, "%ls...\n", regprop(scan));
nxt = regnext(scan);
switch (OP(scan)) {
case BOL:
if (reginput != regbol)
return (0);
break;
case EOL:
{
int ch = demandload_ch(reginput); //if (ch == '\n') ch = '\0';
if (ch != '\0') // '\0' -> '\n'
return (0);
}
break;
case ANY: