ltl2ba-nix/mem.c

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/***** ltl2ba : mem.c *****/
/* Written by Denis Oddoux, LIAFA, France */
/* Copyright (c) 2001 Denis Oddoux */
/* Modified by Paul Gastin, LSV, France */
/* Copyright (c) 2007 Paul Gastin */
/* */
/* This program is free software; you can redistribute it and/or modify */
/* it under the terms of the GNU General Public License as published by */
/* the Free Software Foundation; either version 2 of the License, or */
/* (at your option) any later version. */
/* */
/* This program is distributed in the hope that it will be useful, */
/* but WITHOUT ANY WARRANTY; without even the implied warranty of */
/* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the */
/* GNU General Public License for more details. */
/* */
/* You should have received a copy of the GNU General Public License */
/* along with this program; if not, write to the Free Software */
/* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA*/
/* */
/* Based on the translation algorithm by Gastin and Oddoux, */
/* presented at the 13th International Conference on Computer Aided */
/* Verification, CAV 2001, Paris, France. */
/* Proceedings - LNCS 2102, pp. 53-65 */
/* */
/* Send bug-reports and/or questions to Paul Gastin */
/* http://www.lsv.ens-cachan.fr/~gastin */
/* */
/* Some of the code in this file was taken from the Spin software */
/* Written by Gerard J. Holzmann, Bell Laboratories, U.S.A. */
2018-08-09 10:46:27 +02:00
#include "config.h"
#include "ltl2ba.h"
#if 1
#define log(e, u, d) event[e][(int) u] += (long) d;
#else
#define log(e, u, d)
#endif
#define A_LARGE 80
#define A_USER 0x55000000
#define NOTOOBIG 32768
#define POOL 0
#define ALLOC 1
#define FREE 2
#define NREVENT 3
extern unsigned long All_Mem;
extern int tl_verbose;
ATrans *atrans_list = (ATrans *)0;
GTrans *gtrans_list = (GTrans *)0;
BTrans *btrans_list = (BTrans *)0;
int aallocs = 0, afrees = 0, apool = 0;
int gallocs = 0, gfrees = 0, gpool = 0;
int ballocs = 0, bfrees = 0, bpool = 0;
union M {
long size;
union M *link;
};
static union M *freelist[A_LARGE];
static long req[A_LARGE];
static long event[NREVENT][A_LARGE];
void *
tl_emalloc(int U)
{ union M *m;
long r, u;
void *rp;
u = (long) ((U-1)/sizeof(union M) + 2);
if (u >= A_LARGE)
{ log(ALLOC, 0, 1);
if (tl_verbose)
printf("tl_spin: memalloc %ld bytes\n", u);
m = (union M *) emalloc((int) u*sizeof(union M));
All_Mem += (unsigned long) u*sizeof(union M);
} else
{ if (!freelist[u])
{ r = req[u] += req[u] ? req[u] : 1;
if (r >= NOTOOBIG)
r = req[u] = NOTOOBIG;
log(POOL, u, r);
freelist[u] = (union M *)
emalloc((int) r*u*sizeof(union M));
All_Mem += (unsigned long) r*u*sizeof(union M);
m = freelist[u] + (r-2)*u;
for ( ; m >= freelist[u]; m -= u)
m->link = m+u;
}
log(ALLOC, u, 1);
m = freelist[u];
freelist[u] = m->link;
}
m->size = (u|A_USER);
for (r = 1; r < u; )
(&m->size)[r++] = 0;
rp = (void *) (m+1);
memset(rp, 0, U);
return rp;
}
void
tfree(void *v)
{ union M *m = (union M *) v;
long u;
--m;
if ((m->size&0xFF000000) != A_USER)
Fatal("releasing a free block", (char *)0);
u = (m->size &= 0xFFFFFF);
if (u >= A_LARGE)
{ log(FREE, 0, 1);
/* free(m); */
} else
{ log(FREE, u, 1);
m->link = freelist[u];
freelist[u] = m;
}
}
ATrans* emalloc_atrans() {
ATrans *result;
if(!atrans_list) {
result = (ATrans *)tl_emalloc(sizeof(GTrans));
result->pos = new_set(1);
result->neg = new_set(1);
result->to = new_set(0);
apool++;
}
else {
result = atrans_list;
atrans_list = atrans_list->nxt;
result->nxt = (ATrans *)0;
}
aallocs++;
return result;
}
void free_atrans(ATrans *t, int rec) {
if(!t) return;
if(rec) free_atrans(t->nxt, rec);
t->nxt = atrans_list;
atrans_list = t;
afrees++;
}
void free_all_atrans() {
ATrans *t;
while(atrans_list) {
t = atrans_list;
atrans_list = t->nxt;
tfree(t->to);
tfree(t->pos);
tfree(t->neg);
tfree(t);
}
}
GTrans* emalloc_gtrans() {
GTrans *result;
if(!gtrans_list) {
result = (GTrans *)tl_emalloc(sizeof(GTrans));
result->pos = new_set(1);
result->neg = new_set(1);
result->final = new_set(0);
gpool++;
}
else {
result = gtrans_list;
gtrans_list = gtrans_list->nxt;
}
gallocs++;
return result;
}
void free_gtrans(GTrans *t, GTrans *sentinel, int fly) {
gfrees++;
if(sentinel && (t != sentinel)) {
free_gtrans(t->nxt, sentinel, fly);
if(fly) t->to->incoming--;
}
t->nxt = gtrans_list;
gtrans_list = t;
}
BTrans* emalloc_btrans() {
BTrans *result;
if(!btrans_list) {
result = (BTrans *)tl_emalloc(sizeof(BTrans));
result->pos = new_set(1);
result->neg = new_set(1);
bpool++;
}
else {
result = btrans_list;
btrans_list = btrans_list->nxt;
}
ballocs++;
return result;
}
void free_btrans(BTrans *t, BTrans *sentinel, int fly) {
bfrees++;
if(sentinel && (t != sentinel)) {
free_btrans(t->nxt, sentinel, fly);
if(fly) t->to->incoming--;
}
t->nxt = btrans_list;
btrans_list = t;
}
void
a_stats(void)
{ long p, a, f;
int i;
printf(" size\t pool\tallocs\t frees\n");
for (i = 0; i < A_LARGE; i++)
{ p = event[POOL][i];
a = event[ALLOC][i];
f = event[FREE][i];
if(p|a|f)
printf("%5d\t%6ld\t%6ld\t%6ld\n",
i, p, a, f);
}
printf("atrans\t%6d\t%6d\t%6d\n",
apool, aallocs, afrees);
printf("gtrans\t%6d\t%6d\t%6d\n",
gpool, gallocs, gfrees);
printf("btrans\t%6d\t%6d\t%6d\n",
bpool, ballocs, bfrees);
}