/***** tl_spin: tl_cache.c *****/
/* Copyright (c) 1995-2003 by Lucent Technologies, Bell Laboratories. */
/* All Rights Reserved. This software is for educational purposes only. */
/* No guarantee whatsoever is expressed or implied by the distribution of */
/* this code. Permission is given to distribute this code provided that */
/* this introductory message is not removed and no monies are exchanged. */
/* Software written by Gerard J. Holzmann. For tool documentation see: */
/* http://spinroot.com/ */
/* Send all bug-reports and/or questions to: [email protected] */
/* Based on the translation algorithm by Gerth, Peled, Vardi, and Wolper, */
/* presented at the PSTV Conference, held in 1995, Warsaw, Poland 1995. */
#include "tl.h"
typedef struct Cache {
Node *before;
Node *after;
int same;
struct Cache *nxt;
} Cache;
static Cache *stored = (Cache *) 0;
static unsigned long Caches, CacheHits;
static int ismatch(Node *, Node *);
extern void fatal(char *, char *);
int sameform(Node *, Node *);
void
ini_cache(void)
{
stored = (Cache *) 0;
Caches = 0;
CacheHits = 0;
}
#if 0
void
cache_dump(void)
{ Cache *d; int nr=0;
printf("\nCACHE DUMP:\n");
for (d = stored; d; d = d->nxt, nr++)
{ if (d->same) continue;
printf("B%3d: ", nr); dump(d->before); printf("\n");
printf("A%3d: ", nr); dump(d->after); printf("\n");
}
printf("============\n");
}
#endif
Node *
in_cache(Node *n)
{ Cache *d; int nr=0;
for (d = stored; d; d = d->nxt, nr++)
if (isequal(d->before, n))
{ CacheHits++;
if (d->same && ismatch(n, d->before)) return n;
return dupnode(d->after);
}
return ZN;
}
Node *
cached(Node *n)
{ Cache *d;
Node *m;
if (!n) return n;
if ((m = in_cache(n)) != ZN)
return m;
Caches++;
d = (Cache *) tl_emalloc(sizeof(Cache));
d->before = dupnode(n);
d->after = Canonical(n); /* n is released */
if (ismatch(d->before, d->after))
{ d->same = 1;
releasenode(1, d->after);
d->after = d->before;
}
d->nxt = stored;
stored = d;
return dupnode(d->after);
}
void
cache_stats(void)
{
printf("cache stores : %9ld\n", Caches);
printf("cache hits : %9ld\n", CacheHits);
}
void
releasenode(int all_levels, Node *n)
{
if (!n) return;
if (all_levels)
{ releasenode(1, n->lft);
n->lft = ZN;
releasenode(1, n->rgt);
n->rgt = ZN;
}
tfree((void *) n);
}
Node *
tl_nn(int t, Node *ll, Node *rl)
{ Node *n = (Node *) tl_emalloc(sizeof(Node));
n->ntyp = (short) t;
n->lft = ll;
n->rgt = rl;
return n;
}
Node *
getnode(Node *p)
{ Node *n;
if (!p) return p;
n = (Node *) tl_emalloc(sizeof(Node));
n->ntyp = p->ntyp;
n->sym = p->sym; /* same name */
n->lft = p->lft;
n->rgt = p->rgt;
return n;
}
Node *
dupnode(Node *n)
{ Node *d;
if (!n) return n;
d = getnode(n);
d->lft = dupnode(n->lft);
d->rgt = dupnode(n->rgt);
return d;
}
int
one_lft(int ntyp, Node *x, Node *in)
{
if (!x) return 1;
if (!in) return 0;
if (sameform(x, in))
return 1;
if (in->ntyp != ntyp)
return 0;
if (one_lft(ntyp, x, in->lft))
return 1;
return one_lft(ntyp, x, in->rgt);
}
int
all_lfts(int ntyp, Node *from, Node *in)
{
if (!from) return 1;
if (from->ntyp != ntyp)
return one_lft(ntyp, from, in);
if (!one_lft(ntyp, from->lft, in))
return 0;
return all_lfts(ntyp, from->rgt, in);
}
int
sametrees(int ntyp, Node *a, Node *b)
{ /* toplevel is an AND or OR */
/* both trees are right-linked, but the leafs */
/* can be in different places in the two trees */
if (!all_lfts(ntyp, a, b))
return 0;
return all_lfts(ntyp, b, a);
}
int /* a better isequal() */
sameform(Node *a, Node *b)
{
if (!a && !b) return 1;
if (!a || !b) return 0;
if (a->ntyp != b->ntyp) return 0;
if (a->sym
&& b->sym
&& strcmp(a->sym->name, b->sym->name) != 0)
return 0;
switch (a->ntyp) {
case TRUE:
case FALSE:
return 1;
case PREDICATE:
if (!a->sym || !b->sym) fatal("sameform...", (char *) 0);
return !strcmp(a->sym->name, b->sym->name);
case NOT:
#ifdef NXT
case NEXT:
#endif
return sameform(a->lft, b->lft);
case U_OPER:
case V_OPER:
if (!sameform(a->lft, b->lft))
return 0;
if (!sameform(a->rgt, b->rgt))
return 0;
return 1;
case AND:
case OR: /* the hard case */
return sametrees(a->ntyp, a, b);
default:
printf("type: %d\n", a->ntyp);
fatal("cannot happen, sameform", (char *) 0);
}
return 0;
}
int
isequal(Node *a, Node *b)
{
if (!a && !b)
return 1;
if (!a || !b)
{ if (!a)
{ if (b->ntyp == TRUE)
return 1;
} else
{ if (a->ntyp == TRUE)
return 1;
}
return 0;
}
if (a->ntyp != b->ntyp)
return 0;
if (a->sym
&& b->sym
&& strcmp(a->sym->name, b->sym->name) != 0)
return 0;
if (isequal(a->lft, b->lft)
&& isequal(a->rgt, b->rgt))
return 1;
return sameform(a, b);
}
static int
ismatch(Node *a, Node *b)
{
if (!a && !b) return 1;
if (!a || !b) return 0;
if (a->ntyp != b->ntyp) return 0;
if (a->sym
&& b->sym
&& strcmp(a->sym->name, b->sym->name) != 0)
return 0;
if (ismatch(a->lft, b->lft)
&& ismatch(a->rgt, b->rgt))
return 1;
return 0;
}
int
any_term(Node *srch, Node *in)
{
if (!in) return 0;
if (in->ntyp == AND)
return any_term(srch, in->lft) ||
any_term(srch, in->rgt);
return isequal(in, srch);
}
int
any_and(Node *srch, Node *in)
{
if (!in) return 0;
if (srch->ntyp == AND)
return any_and(srch->lft, in) &&
any_and(srch->rgt, in);
return any_term(srch, in);
}
int
any_lor(Node *srch, Node *in)
{
if (!in) return 0;
if (in->ntyp == OR)
return any_lor(srch, in->lft) ||
any_lor(srch, in->rgt);
return isequal(in, srch);
}
int
anywhere(int tok, Node *srch, Node *in)
{
if (!in) return 0;
switch (tok) {
case AND: return any_and(srch, in);
case OR: return any_lor(srch, in);
case 0: return any_term(srch, in);
}
fatal("cannot happen, anywhere", (char *) 0);
return 0;
}
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