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authordgp <dgp@users.sourceforge.net>2015-09-21 19:25:20 (GMT)
committerdgp <dgp@users.sourceforge.net>2015-09-21 19:25:20 (GMT)
commit066e9abdc308995186dbc4d9bbc2fedc07674296 (patch)
treec218bc169f19075cbc1a3e813cccac59e791c5c5 /generic
parentd9db840088cdabd2863a7bd92ca051cda3f56c46 (diff)
downloadtcl-066e9abdc308995186dbc4d9bbc2fedc07674296.zip
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[187d7f499b] Sync the regexp engine to the Postgres version.
Diffstat (limited to 'generic')
-rw-r--r--generic/regc_color.c13
-rw-r--r--generic/regc_cvec.c1
-rw-r--r--generic/regc_lex.c18
-rw-r--r--generic/regc_nfa.c36
-rw-r--r--generic/regcomp.c75
-rw-r--r--generic/rege_dfa.c29
-rw-r--r--generic/regerror.c4
-rw-r--r--generic/regexec.c115
-rw-r--r--generic/regguts.h38
9 files changed, 182 insertions, 147 deletions
diff --git a/generic/regc_color.c b/generic/regc_color.c
index 2e167fe..92e0aad 100644
--- a/generic/regc_color.c
+++ b/generic/regc_color.c
@@ -777,18 +777,19 @@ dumpcolors(
}
/*
- * It's hard to do this more efficiently.
+ * Unfortunately, it's hard to do this next bit more efficiently.
+ *
+ * Spencer's original coding has the loop iterating from CHR_MIN
+ * to CHR_MAX, but that's utterly unusable for 32-bit chr, or
+ * even 16-bit. For debugging purposes it seems fine to print
+ * only chr codes up to 1000 or so.
*/
- for (c=CHR_MIN ; c<CHR_MAX ; c++) {
+ for (c=CHR_MIN ; c<1000 ; c++) {
if (GETCOLOR(cm, c) == co) {
dumpchr(c, f);
}
}
- assert(c == CHR_MAX);
- if (GETCOLOR(cm, c) == co) {
- dumpchr(c, f);
- }
fprintf(f, "\n");
}
}
diff --git a/generic/regc_cvec.c b/generic/regc_cvec.c
index 0247521..d450d3e 100644
--- a/generic/regc_cvec.c
+++ b/generic/regc_cvec.c
@@ -81,6 +81,7 @@ addchr(
struct cvec *cv, /* character vector */
pchr c) /* character to add */
{
+ assert(cv->nchrs < cv->chrspace);
cv->chrs[cv->nchrs++] = (chr)c;
}
diff --git a/generic/regc_lex.c b/generic/regc_lex.c
index 132e757..16e3ae9 100644
--- a/generic/regc_lex.c
+++ b/generic/regc_lex.c
@@ -1139,24 +1139,6 @@ newline(void)
}
/*
- - ch - return the chr sequence for regc_locale.c's fake collating element ch
- * This helps confine use of CHR to this source file. Beware that the caller
- * knows how long the sequence is.
- ^ #ifdef REG_DEBUG
- ^ static const chr *ch(NOPARMS);
- ^ #endif
- */
-#ifdef REG_DEBUG
-static const chr *
-ch(void)
-{
- static const chr chstr[] = { CHR('c'), CHR('h'), CHR('\0') };
-
- return chstr;
-}
-#endif
-
-/*
- chrnamed - return the chr known by a given (chr string) name
* The code is a bit clumsy, but this routine gets only such specialized
* use that it hardly matters.
diff --git a/generic/regc_nfa.c b/generic/regc_nfa.c
index 9361d34..1fad85f 100644
--- a/generic/regc_nfa.c
+++ b/generic/regc_nfa.c
@@ -1652,13 +1652,16 @@ compact(
narcs = 0;
for (s = nfa->states; s != NULL; s = s->next) {
nstates++;
- narcs += 1 + s->nouts + 1;
- /* 1 as a fake for flags, nouts for arcs, 1 as endmarker */
+ narcs += s->nouts + 1; /* need one extra for endmarker */
}
+ cnfa->stflags = (char *) MALLOC(nstates * sizeof(char));
cnfa->states = (struct carc **) MALLOC(nstates * sizeof(struct carc *));
cnfa->arcs = (struct carc *) MALLOC(narcs * sizeof(struct carc));
- if (cnfa->states == NULL || cnfa->arcs == NULL) {
+ if (cnfa->stflags == NULL || cnfa->states == NULL || cnfa->arcs == NULL) {
+ if (cnfa->stflags != NULL) {
+ FREE(cnfa->stflags);
+ }
if (cnfa->states != NULL) {
FREE(cnfa->states);
}
@@ -1681,9 +1684,8 @@ compact(
ca = cnfa->arcs;
for (s = nfa->states; s != NULL; s = s->next) {
assert((size_t) s->no < nstates);
+ cnfa->stflags[s->no] = 0;
cnfa->states[s->no] = ca;
- ca->co = 0; /* clear and skip flags "arc" */
- ca++;
first = ca;
for (a = s->outs; a != NULL; a = a->outchain) {
switch (a->type) {
@@ -1717,9 +1719,9 @@ compact(
*/
for (a = nfa->pre->outs; a != NULL; a = a->outchain) {
- cnfa->states[a->to->no]->co = 1;
+ cnfa->stflags[a->to->no] = CNFA_NOPROGRESS;
}
- cnfa->states[nfa->pre->no]->co = 1;
+ cnfa->stflags[nfa->pre->no] = CNFA_NOPROGRESS;
}
/*
@@ -1763,6 +1765,7 @@ freecnfa(
{
assert(cnfa->nstates != 0); /* not empty already */
cnfa->nstates = 0;
+ FREE(cnfa->stflags);
FREE(cnfa->states);
FREE(cnfa->arcs);
}
@@ -1985,7 +1988,7 @@ dumpcnfa(
}
fprintf(f, "\n");
for (st = 0; st < cnfa->nstates; st++) {
- dumpcstate(st, cnfa->states[st], cnfa, f);
+ dumpcstate(st, cnfa, f);
}
fflush(f);
#endif
@@ -1998,25 +2001,24 @@ dumpcnfa(
/*
- dumpcstate - dump a compacted-NFA state in human-readable form
- ^ static void dumpcstate(int, struct carc *, struct cnfa *, FILE *);
+ ^ static void dumpcstate(int, struct cnfa *, FILE *);
*/
static void
dumpcstate(
int st,
- struct carc *ca,
struct cnfa *cnfa,
FILE *f)
{
- int i;
+ struct carc *ca;
int pos;
- fprintf(f, "%d%s", st, (ca[0].co) ? ":" : ".");
+ fprintf(f, "%d%s", st, (cnfa->stflags[st] & CNFA_NOPROGRESS) ? ":" : ".");
pos = 1;
- for (i = 1; ca[i].co != COLORLESS; i++) {
- if (ca[i].co < cnfa->ncolors) {
- fprintf(f, "\t[%ld]->%d", (long) ca[i].co, ca[i].to);
+ for (ca = cnfa->states[st]; ca->co != COLORLESS; ca++) {
+ if (ca->co < cnfa->ncolors) {
+ fprintf(f, "\t[%ld]->%d", (long) ca->co, ca->to);
} else {
- fprintf(f, "\t:%ld:->%d", (long) ca[i].co-cnfa->ncolors,ca[i].to);
+ fprintf(f, "\t:%ld:->%d", (long) (ca->co - cnfa->ncolors), ca->to);
}
if (pos == 5) {
fprintf(f, "\n");
@@ -2025,7 +2027,7 @@ dumpcstate(
pos++;
}
}
- if (i == 1 || pos != 1) {
+ if (ca == cnfa->states[st] || pos != 1) {
fprintf(f, "\n");
}
fflush(f);
diff --git a/generic/regcomp.c b/generic/regcomp.c
index b8a5a87..11a389a 100644
--- a/generic/regcomp.c
+++ b/generic/regcomp.c
@@ -83,9 +83,6 @@ static int lexdigits(struct vars *, int, int, int);
static int brenext(struct vars *, pchr);
static void skip(struct vars *);
static chr newline(NOPARMS);
-#ifdef REG_DEBUG
-static const chr *ch(NOPARMS);
-#endif
static chr chrnamed(struct vars *, const chr *, const chr *, pchr);
/* === regc_color.c === */
static void initcm(struct vars *, struct colormap *);
@@ -165,7 +162,7 @@ static void dumparc(struct arc *, struct state *, FILE *);
#endif
static void dumpcnfa(struct cnfa *, FILE *);
#ifdef REG_DEBUG
-static void dumpcstate(int, struct carc *, struct cnfa *, FILE *);
+static void dumpcstate(int, struct cnfa *, FILE *);
#endif
/* === regc_cvec.c === */
static struct cvec *clearcvec(struct cvec *);
@@ -210,7 +207,7 @@ struct vars {
struct subre *tree; /* subexpression tree */
struct subre *treechain; /* all tree nodes allocated */
struct subre *treefree; /* any free tree nodes */
- int ntree; /* number of tree nodes */
+ int ntree; /* number of tree nodes, plus one */
struct cvec *cv; /* interface cvec */
struct cvec *cv2; /* utility cvec */
struct subre *lacons; /* lookahead-constraint vector */
@@ -223,13 +220,13 @@ struct vars {
#define EAT(t) (SEE(t) && next(v)) /* if next is this, swallow it */
#define VISERR(vv) ((vv)->err != 0)/* have we seen an error yet? */
#define ISERR() VISERR(v)
-#define VERR(vv,e) \
- ((vv)->nexttype = EOS, ((vv)->err) ? (vv)->err : ((vv)->err = (e)))
+#define VERR(vv,e) ((vv)->nexttype = EOS, \
+ (vv)->err = ((vv)->err ? (vv)->err : (e)))
#define ERR(e) VERR(v, e) /* record an error */
#define NOERR() {if (ISERR()) return;} /* if error seen, return */
#define NOERRN() {if (ISERR()) return NULL;} /* NOERR with retval */
#define NOERRZ() {if (ISERR()) return 0;} /* NOERR with retval */
-#define INSIST(c, e) ((c) ? 0 : ERR(e)) /* if condition false, error */
+#define INSIST(c, e) do { if (!(c)) ERR(e); } while (0) /* error if c false */
#define NOTE(b) (v->re->re_info |= (b)) /* note visible condition */
#define EMPTYARC(x, y) newarc(v->nfa, EMPTY, 0, x, y)
@@ -258,12 +255,14 @@ struct vars {
((a)->type == PLAIN || (a)->type == AHEAD || (a)->type == BEHIND)
/* static function list */
-static struct fns functions = {
+static const struct fns functions = {
rfree, /* regfree insides */
};
/*
- compile - compile regular expression
+ * Note: on failure, no resources remain allocated, so regfree()
+ * need not be applied to re.
^ int compile(regex_t *, const chr *, size_t, int);
*/
int
@@ -1788,7 +1787,8 @@ freesrnode(
}
sr->flags = 0;
- if (v != NULL) {
+ if (v != NULL && v->treechain != NULL) {
+ /* we're still parsing, maybe we can reuse the subre */
sr->left = v->treefree;
v->treefree = sr;
} else {
@@ -1841,6 +1841,19 @@ numst(
/*
- markst - mark tree nodes as INUSE
+ * Note: this is a great deal more subtle than it looks. During initial
+ * parsing of a regex, all subres are linked into the treechain list;
+ * discarded ones are also linked into the treefree list for possible reuse.
+ * After we are done creating all subres required for a regex, we run markst()
+ * then cleanst(), which results in discarding all subres not reachable from
+ * v->tree. We then clear v->treechain, indicating that subres must be found
+ * by descending from v->tree. This changes the behavior of freesubre(): it
+ * will henceforth FREE() unwanted subres rather than sticking them into the
+ * treefree list. (Doing that any earlier would result in dangling links in
+ * the treechain list.) This all means that freev() will clean up correctly
+ * if invoked before or after markst()+cleanst(); but it would not work if
+ * called partway through this state conversion, so we mustn't error out
+ * in or between these two functions.
^ static void markst(struct subre *);
*/
static void
@@ -1947,24 +1960,26 @@ newlacon(
struct state *end,
int pos)
{
- struct subre *sub;
int n;
+ struct subre *newlacons;
+ struct subre *sub;
if (v->nlacons == 0) {
- v->lacons = (struct subre *) MALLOC(2 * sizeof(struct subre));
n = 1; /* skip 0th */
- v->nlacons = 2;
+ newlacons = (struct subre *) MALLOC(2 * sizeof(struct subre));
} else {
- v->lacons = (struct subre *) REALLOC(v->lacons,
- (v->nlacons+1)*sizeof(struct subre));
- n = v->nlacons++;
+ n = v->nlacons;
+ newlacons = (struct subre *) REALLOC(v->lacons,
+ (n + 1) * sizeof(struct subre));
}
- if (v->lacons == NULL) {
+ if (newlacons == NULL) {
ERR(REG_ESPACE);
return 0;
}
+ v->lacons = newlacons;
+ v->nlacons = n + 1;
sub = &v->lacons[n];
sub->begin = begin;
sub->end = end;
@@ -2012,18 +2027,20 @@ rfree(
g = (struct guts *) re->re_guts;
re->re_guts = NULL;
re->re_fns = NULL;
- g->magic = 0;
- freecm(&g->cmap);
- if (g->tree != NULL) {
- freesubre(NULL, g->tree);
- }
- if (g->lacons != NULL) {
- freelacons(g->lacons, g->nlacons);
- }
- if (!NULLCNFA(g->search)) {
- freecnfa(&g->search);
+ if (g != NULL) {
+ g->magic = 0;
+ freecm(&g->cmap);
+ if (g->tree != NULL) {
+ freesubre(NULL, g->tree);
+ }
+ if (g->lacons != NULL) {
+ freelacons(g->lacons, g->nlacons);
+ }
+ if (!NULLCNFA(g->search)) {
+ freecnfa(&g->search);
+ }
+ FREE(g);
}
- FREE(g);
}
/*
@@ -2055,7 +2072,7 @@ dump(
fprintf(f, "\n\n\n========= DUMP ==========\n");
fprintf(f, "nsub %d, info 0%lo, csize %d, ntree %d\n",
- re->re_nsub, re->re_info, re->re_csize, g->ntree);
+ (int) re->re_nsub, re->re_info, re->re_csize, g->ntree);
dumpcolors(&g->cmap, f);
if (!NULLCNFA(g->search)) {
diff --git a/generic/rege_dfa.c b/generic/rege_dfa.c
index 920ea6c..e5f22c4 100644
--- a/generic/rege_dfa.c
+++ b/generic/rege_dfa.c
@@ -84,7 +84,7 @@ longest(
if (v->eflags&REG_FTRACE) {
while (cp < realstop) {
- FDEBUG(("+++ at c%d +++\n", css - d->ssets));
+ FDEBUG(("+++ at c%d +++\n", (int) (css - d->ssets)));
co = GETCOLOR(cm, *cp);
FDEBUG(("char %c, color %ld\n", (char)*cp, (long)co));
ss = css->outs[co];
@@ -118,7 +118,7 @@ longest(
* Shutdown.
*/
- FDEBUG(("+++ shutdown at c%d +++\n", css - d->ssets));
+ FDEBUG(("+++ shutdown at c%d +++\n", (int) (css - d->ssets)));
if (cp == v->stop && stop == v->stop) {
if (hitstopp != NULL) {
*hitstopp = 1;
@@ -213,7 +213,7 @@ shortest(
if (v->eflags&REG_FTRACE) {
while (cp < realmax) {
- FDEBUG(("--- at c%d ---\n", css - d->ssets));
+ FDEBUG(("--- at c%d ---\n", (int) (css - d->ssets)));
co = GETCOLOR(cm, *cp);
FDEBUG(("char %c, color %ld\n", (char)*cp, (long)co));
ss = css->outs[co];
@@ -516,14 +516,14 @@ miss(
gotState = 0;
for (i = 0; i < d->nstates; i++) {
if (ISBSET(css->states, i)) {
- for (ca = cnfa->states[i]+1; ca->co != COLORLESS; ca++) {
+ for (ca = cnfa->states[i]; ca->co != COLORLESS; ca++) {
if (ca->co == co) {
BSET(d->work, ca->to);
gotState = 1;
if (ca->to == cnfa->post) {
isPost = 1;
}
- if (!cnfa->states[ca->to]->co) {
+ if (!(cnfa->stflags[ca->to] & CNFA_NOPROGRESS)) {
noProgress = 0;
}
FDEBUG(("%d -> %d\n", i, ca->to));
@@ -537,8 +537,8 @@ miss(
doLAConstraints = 0;
for (i = 0; i < d->nstates; i++) {
if (ISBSET(d->work, i)) {
- for (ca = cnfa->states[i]+1; ca->co != COLORLESS; ca++) {
- if (ca->co <= cnfa->ncolors) {
+ for (ca = cnfa->states[i]; ca->co != COLORLESS; ca++) {
+ if (ca->co < cnfa->ncolors) {
continue; /* NOTE CONTINUE */
}
sawLAConstraints = 1;
@@ -553,7 +553,7 @@ miss(
if (ca->to == cnfa->post) {
isPost = 1;
}
- if (!cnfa->states[ca->to]->co) {
+ if (!(cnfa->stflags[ca->to] & CNFA_NOPROGRESS)) {
noProgress = 0;
}
FDEBUG(("%d :> %d\n", i, ca->to));
@@ -572,7 +572,7 @@ miss(
for (p = d->ssets, i = d->nssused; i > 0; p++, i--) {
if (HIT(h, d->work, p, d->wordsper)) {
- FDEBUG(("cached c%d\n", p - d->ssets));
+ FDEBUG(("cached c%d\n", (int) (p - d->ssets)));
break; /* NOTE BREAK OUT */
}
}
@@ -594,7 +594,8 @@ miss(
}
if (!sawLAConstraints) { /* lookahead conds. always cache miss */
- FDEBUG(("c%d[%d]->c%d\n", css - d->ssets, co, p - d->ssets));
+ FDEBUG(("c%d[%d]->c%d\n",
+ (int) (css - d->ssets), co, (int) (p - d->ssets)));
css->outs[co] = p;
css->inchain[co] = p->ins;
p->ins.ss = css;
@@ -663,7 +664,7 @@ getVacantSS(
ap = ss->ins;
while ((p = ap.ss) != NULL) {
co = ap.co;
- FDEBUG(("zapping c%d's %ld outarc\n", p - d->ssets, (long)co));
+ FDEBUG(("zapping c%d's %ld outarc\n", (int) (p - d->ssets), (long)co));
p->outs[co] = NULL;
ap = p->inchain[co];
p->inchain[co].ss = NULL; /* paranoia */
@@ -680,7 +681,7 @@ getVacantSS(
if (p == NULL) {
continue; /* NOTE CONTINUE */
}
- FDEBUG(("del outarc %d from c%d's in chn\n", i, p - d->ssets));
+ FDEBUG(("del outarc %d from c%d's in chn\n", i, (int) (p - d->ssets)));
if (p->ins.ss == ss && p->ins.co == i) {
p->ins = ss->inchain[i];
} else {
@@ -772,7 +773,7 @@ pickNextSS(
if ((ss->lastseen == NULL || ss->lastseen < ancient)
&& !(ss->flags&LOCKED)) {
d->search = ss + 1;
- FDEBUG(("replacing c%d\n", ss - d->ssets));
+ FDEBUG(("replacing c%d\n", (int) (ss - d->ssets)));
return ss;
}
}
@@ -780,7 +781,7 @@ pickNextSS(
if ((ss->lastseen == NULL || ss->lastseen < ancient)
&& !(ss->flags&LOCKED)) {
d->search = ss + 1;
- FDEBUG(("replacing c%d\n", ss - d->ssets));
+ FDEBUG(("replacing c%d\n", (int) (ss - d->ssets)));
return ss;
}
}
diff --git a/generic/regerror.c b/generic/regerror.c
index a1a0163..49d93ed 100644
--- a/generic/regerror.c
+++ b/generic/regerror.c
@@ -41,7 +41,7 @@ static const char unk[] = "*** unknown regex error code 0x%x ***";
* Struct to map among codes, code names, and explanations.
*/
-static struct rerr {
+static const struct rerr {
int code;
const char *name;
const char *explain;
@@ -62,7 +62,7 @@ regerror(
char *errbuf, /* Result buffer (unless errbuf_size==0) */
size_t errbuf_size) /* Available space in errbuf, can be 0 */
{
- struct rerr *r;
+ const struct rerr *r;
const char *msg;
char convbuf[sizeof(unk)+50]; /* 50 = plenty for int */
size_t len;
diff --git a/generic/regexec.c b/generic/regexec.c
index e502ca5..3030913 100644
--- a/generic/regexec.c
+++ b/generic/regexec.c
@@ -107,12 +107,13 @@ struct vars {
chr *start; /* start of string */
chr *stop; /* just past end of string */
int err; /* error code if any (0 none) */
+ struct dfa **subdfas; /* per-subre DFAs */
struct smalldfa dfa1;
struct smalldfa dfa2;
};
#define VISERR(vv) ((vv)->err != 0) /* have we seen an error yet? */
#define ISERR() VISERR(v)
-#define VERR(vv,e) (((vv)->err) ? (vv)->err : ((vv)->err = (e)))
+#define VERR(vv,e) ((vv)->err = ((vv)->err ? (vv)->err : (e)))
#define ERR(e) VERR(v, e) /* record an error */
#define NOERR() {if (ISERR()) return v->err;} /* if error seen, return it */
#define OFF(p) ((p) - v->start)
@@ -125,6 +126,7 @@ struct vars {
/* automatically gathered by fwd; do not hand-edit */
/* === regexec.c === */
int exec(regex_t *, const chr *, size_t, rm_detail_t *, size_t, regmatch_t [], int);
+static struct dfa *getsubdfa(struct vars *, struct subre *);
static int simpleFind(struct vars *const, struct cnfa *const, struct colormap *const);
static int complicatedFind(struct vars *const, struct cnfa *const, struct colormap *const);
static int complicatedFindLoop(struct vars *const, struct cnfa *const, struct colormap *const, struct dfa *const, struct dfa *const, chr **const);
@@ -171,8 +173,11 @@ exec(
AllocVars(v);
int st, backref;
size_t n;
+ size_t i;
#define LOCALMAT 20
regmatch_t mat[LOCALMAT];
+#define LOCALDFAS 40
+ struct dfa *subdfas[LOCALDFAS];
/*
* Sanity checks.
@@ -230,6 +235,20 @@ exec(
v->start = (chr *)string;
v->stop = (chr *)string + len;
v->err = 0;
+ assert(v->g->ntree >= 0);
+ n = (size_t) v->g->ntree;
+ if (n <= LOCALDFAS)
+ v->subdfas = subdfas;
+ else
+ v->subdfas = (struct dfa **) MALLOC(n * sizeof(struct dfa *));
+ if (v->subdfas == NULL) {
+ if (v->pmatch != pmatch && v->pmatch != mat)
+ FREE(v->pmatch);
+ FreeVars(v);
+ return REG_ESPACE;
+ }
+ for (i = 0; i < n; i++)
+ v->subdfas[i] = NULL;
/*
* Do it.
@@ -259,11 +278,35 @@ exec(
if (v->pmatch != pmatch && v->pmatch != mat) {
FREE(v->pmatch);
}
+ n = (size_t) v->g->ntree;
+ for (i = 0; i < n; i++) {
+ if (v->subdfas[i] != NULL)
+ freeDFA(v->subdfas[i]);
+ }
+ if (v->subdfas != subdfas)
+ FREE(v->subdfas);
FreeVars(v);
return st;
}
/*
+ - getsubdfa - create or re-fetch the DFA for a subre node
+ * We only need to create the DFA once per overall regex execution.
+ * The DFA will be freed by the cleanup step in exec().
+ */
+static struct dfa *
+getsubdfa(struct vars * v,
+ struct subre * t)
+{
+ if (v->subdfas[t->id] == NULL) {
+ v->subdfas[t->id] = newDFA(v, &t->cnfa, &v->g->cmap, DOMALLOC);
+ if (ISERR())
+ return NULL;
+ }
+ return v->subdfas[t->id];
+}
+
+/*
- simpleFind - find a match for the main NFA (no-complications case)
^ static int simpleFind(struct vars *, struct cnfa *, struct colormap *);
*/
@@ -327,7 +370,10 @@ simpleFind(
} else {
end = longest(v, d, begin, v->stop, &hitend);
}
- NOERR();
+ if (ISERR()) {
+ freeDFA(d);
+ return v->err;
+ }
if (hitend && cold == NULL) {
cold = begin;
}
@@ -470,6 +516,7 @@ complicatedFindLoop(
}
if (er != REG_NOMATCH) {
ERR(er);
+ *coldp = cold;
return er;
}
if ((shorter) ? end == estop : end == begin) {
@@ -636,7 +683,7 @@ cdissect(
}
/*
- - ccondissect - concatenation subexpression matches (with complications)
+ - ccondissect - dissect match for concatenation node
^ static int ccondissect(struct vars *, struct subre *, chr *, chr *);
*/
static int /* regexec return code */
@@ -654,15 +701,11 @@ ccondissect(
assert(t->right != NULL && t->right->cnfa.nstates > 0);
assert(!(t->left->flags & SHORTER));
- d = newDFA(v, &t->left->cnfa, &v->g->cmap, DOMALLOC);
- if (ISERR()) {
- return v->err;
- }
- d2 = newDFA(v, &t->right->cnfa, &v->g->cmap, DOMALLOC);
- if (ISERR()) {
- freeDFA(d);
- return v->err;
- }
+ d = getsubdfa(v, t->left);
+ NOERR();
+ d2 = getsubdfa(v, t->right);
+ NOERR();
+
MDEBUG(("cConcat %d\n", t->id));
/*
@@ -670,8 +713,6 @@ ccondissect(
*/
mid = longest(v, d, begin, end, (int *) NULL);
if (mid == NULL) {
- freeDFA(d);
- freeDFA(d2);
return REG_NOMATCH;
}
MDEBUG(("tentative midpoint %ld\n", LOFF(mid)));
@@ -696,14 +737,10 @@ ccondissect(
*/
MDEBUG(("successful\n"));
- freeDFA(d);
- freeDFA(d2);
return REG_OKAY;
}
}
if (er != REG_NOMATCH) {
- freeDFA(d);
- freeDFA(d2);
return er;
}
}
@@ -718,8 +755,6 @@ ccondissect(
*/
MDEBUG(("%d no midpoint\n", t->id));
- freeDFA(d);
- freeDFA(d2);
return REG_NOMATCH;
}
mid = longest(v, d, begin, mid-1, NULL);
@@ -729,8 +764,6 @@ ccondissect(
*/
MDEBUG(("%d failed midpoint\n", t->id));
- freeDFA(d);
- freeDFA(d2);
return REG_NOMATCH;
}
MDEBUG(("%d: new midpoint %ld\n", t->id, LOFF(mid)));
@@ -758,15 +791,11 @@ crevcondissect(
assert(t->right != NULL && t->right->cnfa.nstates > 0);
assert(t->left->flags&SHORTER);
- d = newDFA(v, &t->left->cnfa, &v->g->cmap, DOMALLOC);
- if (ISERR()) {
- return v->err;
- }
- d2 = newDFA(v, &t->right->cnfa, &v->g->cmap, DOMALLOC);
- if (ISERR()) {
- freeDFA(d);
- return v->err;
- }
+ d = getsubdfa(v, t->left);
+ NOERR();
+ d2 = getsubdfa(v, t->right);
+ NOERR();
+
MDEBUG(("crevcon %d\n", t->id));
/*
@@ -775,8 +804,6 @@ crevcondissect(
mid = shortest(v, d, begin, begin, end, (chr **) NULL, (int *) NULL);
if (mid == NULL) {
- freeDFA(d);
- freeDFA(d2);
return REG_NOMATCH;
}
MDEBUG(("tentative midpoint %ld\n", LOFF(mid)));
@@ -801,14 +828,10 @@ crevcondissect(
*/
MDEBUG(("successful\n"));
- freeDFA(d);
- freeDFA(d2);
return REG_OKAY;
}
}
if (er != REG_NOMATCH) {
- freeDFA(d);
- freeDFA(d2);
return er;
}
}
@@ -823,8 +846,6 @@ crevcondissect(
*/
MDEBUG(("%d no midpoint\n", t->id));
- freeDFA(d);
- freeDFA(d2);
return REG_NOMATCH;
}
mid = shortest(v, d, begin, mid+1, end, NULL, NULL);
@@ -834,8 +855,6 @@ crevcondissect(
*/
MDEBUG(("%d failed midpoint\n", t->id));
- freeDFA(d);
- freeDFA(d2);
return REG_NOMATCH;
}
MDEBUG(("%d: new midpoint %ld\n", t->id, LOFF(mid)));
@@ -943,17 +962,15 @@ caltdissect(
MDEBUG(("calt n%d\n", t->id));
- d = newDFA(v, &t->left->cnfa, &v->g->cmap, DOMALLOC);
+ d = getsubdfa(v, t->left);
NOERR();
if (longest(v, d, begin, end, (int *) NULL) == end) {
- freeDFA(d);
MDEBUG(("calt matched\n"));
er = cdissect(v, t->left, begin, end);
if (er != REG_NOMATCH) {
return er;
}
}
- freeDFA(d);
t = t->right;
}
@@ -1017,7 +1034,7 @@ citerdissect(struct vars * v,
return REG_ESPACE;
endpts[0] = begin;
- d = newDFA(v, &t->left->cnfa, &v->g->cmap, DOMALLOC);
+ d = getsubdfa(v, t->left);
if (ISERR()) {
FREE(endpts);
return v->err;
@@ -1094,7 +1111,6 @@ citerdissect(struct vars * v,
if (er == REG_NOMATCH)
break;
/* oops, something failed */
- freeDFA(d);
FREE(endpts);
return er;
}
@@ -1102,7 +1118,6 @@ citerdissect(struct vars * v,
if (i > k) {
/* satisfaction */
MDEBUG(("%d successful\n", t->id));
- freeDFA(d);
FREE(endpts);
return REG_OKAY;
}
@@ -1132,7 +1147,6 @@ citerdissect(struct vars * v,
/* all possibilities exhausted */
MDEBUG(("%d failed\n", t->id));
- freeDFA(d);
FREE(endpts);
return REG_NOMATCH;
}
@@ -1193,7 +1207,7 @@ creviterdissect(struct vars * v,
return REG_ESPACE;
endpts[0] = begin;
- d = newDFA(v, &t->left->cnfa, &v->g->cmap, DOMALLOC);
+ d = getsubdfa(v, t->left);
if (ISERR()) {
FREE(endpts);
return v->err;
@@ -1276,7 +1290,6 @@ creviterdissect(struct vars * v,
if (er == REG_NOMATCH)
break;
/* oops, something failed */
- freeDFA(d);
FREE(endpts);
return er;
}
@@ -1284,7 +1297,6 @@ creviterdissect(struct vars * v,
if (i > k) {
/* satisfaction */
MDEBUG(("%d successful\n", t->id));
- freeDFA(d);
FREE(endpts);
return REG_OKAY;
}
@@ -1308,7 +1320,6 @@ creviterdissect(struct vars * v,
/* all possibilities exhausted */
MDEBUG(("%d failed\n", t->id));
- freeDFA(d);
FREE(endpts);
return REG_NOMATCH;
}
diff --git a/generic/regguts.h b/generic/regguts.h
index e1c60ce..de760b0 100644
--- a/generic/regguts.h
+++ b/generic/regguts.h
@@ -186,7 +186,14 @@ struct colordesc {
union tree *block; /* block of solid color, if any */
};
-/* the color map itself */
+/*
+ * The color map itself
+ *
+ * Much of the data in the colormap struct is only used at compile time.
+ * However, the bulk of the space usage is in the "tree" structure, so it's
+ * not clear that there's much point in converting the rest to a more compact
+ * form when compilation is finished.
+ */
struct colormap {
int magic;
#define CMMAGIC 0x876
@@ -242,15 +249,14 @@ struct cvec {
struct state;
struct arc {
- int type;
-#define ARCFREE '\0'
+ int type; /* 0 if free, else an NFA arc type code */
color co;
struct state *from; /* where it's from (and contained within) */
struct state *to; /* where it's to */
- struct arc *outchain; /* *from's outs chain or free chain */
+ struct arc *outchain; /* link in *from's outs chain or free chain */
#define freechain outchain
- struct arc *inchain; /* *to's ins chain */
- struct arc *colorchain; /* color's arc chain */
+ struct arc *inchain; /* link in *to's ins chain */
+ struct arc *colorchain; /* link in color's arc chain */
struct arc *colorchainRev; /* back-link in color's arc chain */
};
@@ -297,11 +303,22 @@ struct nfa {
/*
* definitions for compacted NFA
+ *
+ * The main space savings in a compacted NFA is from making the arcs as small
+ * as possible. We store only the transition color and next-state number for
+ * each arc. The list of out arcs for each state is an array beginning at
+ * cnfa.states[statenumber], and terminated by a dummy carc struct with
+ * co == COLORLESS.
+ *
+ * The non-dummy carc structs are of two types: plain arcs and LACON arcs.
+ * Plain arcs just store the transition color number as "co". LACON arcs
+ * store the lookahead constraint number plus cnfa.ncolors as "co". LACON
+ * arcs can be distinguished from plain by testing for co >= cnfa.ncolors.
*/
struct carc {
color co; /* COLORLESS is list terminator */
- int to; /* state number */
+ int to; /* next-state number */
};
struct cnfa {
@@ -313,7 +330,10 @@ struct cnfa {
int post; /* teardown state number */
color bos[2]; /* colors, if any, assigned to BOS and BOL */
color eos[2]; /* colors, if any, assigned to EOS and EOL */
+ char *stflags; /* vector of per-state flags bytes */
+#define CNFA_NOPROGRESS 01 /* flag bit for a no-progress state */
struct carc **states; /* vector of pointers to outarc lists */
+ /* states[n] are pointers into a single malloc'd array of arcs */
struct carc *arcs; /* the area for the lists */
};
#define ZAPCNFA(cnfa) ((cnfa).nstates = 0)
@@ -366,7 +386,7 @@ struct subre {
#define PREF(f) ((f)&NOPROP)
#define PREF2(f1, f2) ((PREF(f1) != 0) ? PREF(f1) : PREF(f2))
#define COMBINE(f1, f2) (UP((f1)|(f2)) | PREF2(f1, f2))
- short id; /* ID of subre (1..ntree) */
+ short id; /* ID of subre (1..ntree-1) */
int subno; /* subexpression number (for 'b' and '(') */
short min; /* min repetitions for iteration or backref */
short max; /* max repetitions for iteration or backref */
@@ -399,7 +419,7 @@ struct guts {
size_t nsub; /* copy of re_nsub */
struct subre *tree;
struct cnfa search; /* for fast preliminary search */
- int ntree;
+ int ntree; /* number of subre's, plus one */
struct colormap cmap;
int FUNCPTR(compare, (const chr *, const chr *, size_t));
struct subre *lacons; /* lookahead-constraint vector */