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/* match.c -- pattern matching routines ($Revision: 1.1.1.1 $) */
#include "es.h"
enum { RANGE_FAIL = -1, RANGE_ERROR = -2 };
/*
From the ed(1) man pages (on ranges):
The `-' is treated as an ordinary character if it occurs first
(or first after an initial ^) or last in the string.
The right square bracket does not terminate the enclosed string
if it is the first character (after an initial `^', if any), in
the bracketed string.
rangematch() matches a single character against a class, and returns
an integer offset to the end of the range on success, or -1 on
failure.
*/
#define ISQUOTED(q, n) ((q) == QUOTED || ((q) != UNQUOTED && (q)[n] == 'q'))
#define TAILQUOTE(q, n) ((q) == UNQUOTED ? UNQUOTED : ((q) + (n)))
/* rangematch -- match a character against a character class */
static int rangematch(const char *p, const char *q, char c) {
const char *orig = p;
Boolean neg;
Boolean matched = FALSE;
if (*p == '~' && !ISQUOTED(q, 0)) {
p++, q++;
neg = TRUE;
} else
neg = FALSE;
if (*p == ']' && !ISQUOTED(q, 0)) {
p++, q++;
matched = (c == ']');
}
for (; *p != ']' || ISQUOTED(q, 0); p++, q++) {
if (*p == '\0')
return RANGE_ERROR; /* bad syntax */
if (p[1] == '-' && !ISQUOTED(q, 1) && ((p[2] != ']' && p[2] != '\0') || ISQUOTED(q, 2))) {
/* check for [..-..] but ignore [..-] */
if (c >= *p && c <= p[2])
matched = TRUE;
p += 2;
q += 2;
} else if (*p == c)
matched = TRUE;
}
if (matched ^ neg)
return p - orig + 1; /* skip the right-bracket */
else
return RANGE_FAIL;
}
/* match -- match a single pattern against a single string. */
extern Boolean match(const char *s, const char *p, const char *q) {
int i;
if (q == QUOTED)
return streq(s, p);
for (i = 0;;) {
int c = p[i++];
if (c == '\0')
return *s == '\0';
else if (q == UNQUOTED || q[i - 1] == 'r') {
switch (c) {
case '?':
if (*s++ == '\0')
return FALSE;
break;
case '*':
while (p[i] == '*' && (q == UNQUOTED || q[i] == 'r')) /* collapse multiple stars */
i++;
if (p[i] == '\0') /* star at end of pattern? */
return TRUE;
while (*s != '\0')
if (match(s++, p + i, TAILQUOTE(q, i)))
return TRUE;
return FALSE;
case '[': {
int j;
if (*s == '\0')
return FALSE;
switch (j = rangematch(p + i, TAILQUOTE(q, i), *s)) {
default:
i += j;
break;
case RANGE_FAIL:
return FALSE;
case RANGE_ERROR:
if (*s != '[')
return FALSE;
}
s++;
break;
}
default:
if (c != *s++)
return FALSE;
}
} else if (c != *s++)
return FALSE;
}
}
/*
* listmatch
*
* Matches a list of words s against a list of patterns p.
* Returns true iff a pattern in p matches a word in s.
* () matches (), but otherwise null patterns match nothing.
*/
extern Boolean listmatch(List *subject, List *pattern, StrList *quote) {
if (subject == NULL) {
if (pattern == NULL)
return TRUE;
Ref(List *, p, pattern);
Ref(StrList *, q, quote);
for (; p != NULL; p = p->next, q = q->next) {
/* one or more stars match null */
char *pw = getstr(p->term), *qw = q->str;
if (*pw != '\0' && qw != QUOTED) {
int i;
Boolean matched = TRUE;
for (i = 0; pw[i] != '\0'; i++)
if (pw[i] != '*'
|| (qw != UNQUOTED && qw[i] != 'r')) {
matched = FALSE;
break;
}
if (matched) {
RefPop2(q, p);
return TRUE;
}
}
}
RefEnd2(q, p);
return FALSE;
}
Ref(List *, s, subject);
Ref(List *, p, pattern);
Ref(StrList *, q, quote);
for (; p != NULL; p = p->next, q = q->next) {
assert(q != NULL);
assert(p->term != NULL);
assert(q->str != NULL);
Ref(char *, pw, getstr(p->term));
Ref(char *, qw, q->str);
Ref(List *, t, s);
for (; t != NULL; t = t->next) {
char *tw = getstr(t->term);
if (match(tw, pw, qw)) {
RefPop3(t, qw, pw);
RefPop3(q, p, s);
return TRUE;
}
}
RefEnd3(t, qw, pw);
}
RefEnd3(q, p, s);
return FALSE;
}
/*
* extractsinglematch -- extract matching parts of a single subject and a
* single pattern, returning it backwards
*/
static List *extractsinglematch(const char *subject, const char *pattern,
const char *quoting, List *result) {
int i;
const char *s;
if (!haswild(pattern, quoting) /* no wildcards, so no matches */
|| !match(subject, pattern, quoting))
return NULL;
for (s = subject, i = 0; pattern[i] != '\0'; s++) {
if (ISQUOTED(quoting, i))
i++;
else {
int c = pattern[i++];
switch (c) {
case '*': {
const char *begin;
if (pattern[i] == '\0')
return mklist(mkstr(gcdup(s)), result);
for (begin = s;; s++) {
const char *q = TAILQUOTE(quoting, i);
assert(*s != '\0');
if (match(s, pattern + i, q)) {
result = mklist(mkstr(gcndup(begin, s - begin)), result);
return haswild(pattern + i, q)
? extractsinglematch(s, pattern + i, q, result)
: result;
}
}
}
case '[': {
int j = rangematch(pattern + i, TAILQUOTE(quoting, i), *s);
assert(j != RANGE_FAIL);
if (j == RANGE_ERROR) {
assert(*s == '[');
break;
}
i += j;
}
/* FALLTHROUGH */
case '?':
result = mklist(mkstr(str("%c", *s)), result);
break;
default:
break;
}
}
}
return result;
}
/*
* extractmatches
*
* Compare subject and patterns like listmatch(). For all subjects
* that match a pattern, return the wildcarded portions of the
* subjects as the result.
*/
extern List *extractmatches(List *subjects, List *patterns, StrList *quotes) {
List **prevp;
List *subject;
Ref(List *, result, NULL);
prevp = &result;
gcdisable();
for (subject = subjects; subject != NULL; subject = subject->next) {
List *pattern;
StrList *quote;
for (pattern = patterns, quote = quotes;
pattern != NULL;
pattern = pattern->next, quote = quote->next) {
List *match;
char *pat = getstr(pattern->term);
match = extractsinglematch(getstr(subject->term),
pat, quote->str, NULL);
if (match != NULL) {
/* match is returned backwards, so reverse it */
match = reverse(match);
for (*prevp = match; match != NULL; match = *prevp)
prevp = &match->next;
break;
}
}
}
gcenable();
RefReturn(result);
}
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