/***** spin: dstep.c *****/
/* Copyright (c) 1991-2000 by Lucent Technologies - Bell Laboratories */
/* All Rights Reserved. This software is for educational purposes only. */
/* Permission is given to distribute this code provided that this intro- */
/* ductory message is not removed and no monies are exchanged. */
/* No guarantee is expressed or implied by the distribution of this code. */
/* Software written by Gerard J. Holzmann as part of the book: */
/* `Design and Validation of Computer Protocols,' ISBN 0-13-539925-4, */
/* Prentice Hall, Englewood Cliffs, NJ, 07632. */
/* Send bug-reports and/or questions to: gerard@research.bell-labs.com */
#include "spin.h"
#ifdef PC
#include "y_tab.h"
#else
#include "y.tab.h"
#endif
#define MAXDSTEP 1024 /* was 512 */
char *NextLab[64];
int Level=0, GenCode=0, IsGuard=0, TestOnly=0;
static int Tj=0, Jt=0, LastGoto=0;
static int Tojump[MAXDSTEP], Jumpto[MAXDSTEP], Special[MAXDSTEP];
static void putCode(FILE *, Element *, Element *, Element *, int);
extern int Pid, claimnr;
static void
Sourced(int n, int special)
{ int i;
for (i = 0; i < Tj; i++)
if (Tojump[i] == n)
return;
if (Tj >= MAXDSTEP)
fatal("d_step sequence too long", (char *)0);
Special[Tj] = special;
Tojump[Tj++] = n;
}
static void
Dested(int n)
{ int i;
for (i = 0; i < Tj; i++)
if (Tojump[i] == n)
return;
for (i = 0; i < Jt; i++)
if (Jumpto[i] == n)
return;
if (Jt >= MAXDSTEP)
fatal("d_step sequence too long", (char *)0);
Jumpto[Jt++] = n;
LastGoto = 1;
}
static void
Mopup(FILE *fd)
{ int i, j; extern int OkBreak;
for (i = 0; i < Jt; i++)
{ for (j = 0; j < Tj; j++)
if (Tojump[j] == Jumpto[i])
break;
if (j == Tj)
{ char buf[12];
if (Jumpto[i] == OkBreak)
{ if (!LastGoto)
fprintf(fd, "S_%.3d_0: /* break-dest */\n",
OkBreak);
} else {
sprintf(buf, "S_%.3d_0", Jumpto[i]);
non_fatal("goto %s breaks from d_step seq", buf);
} } }
for (j = 0; j < Tj; j++)
{ for (i = 0; i < Jt; i++)
if (Tojump[j] == Jumpto[i])
break;
#ifdef DEBUG
if (i == Jt && !Special[i])
fprintf(fd, "\t\t/* no goto's to S_%.3d_0 */\n",
Tojump[j]);
#endif
}
for (j = i = 0; j < Tj; j++)
if (Special[j])
{ Tojump[i] = Tojump[j];
Special[i] = 2;
if (i >= MAXDSTEP)
fatal("cannot happen (dstep.c)", (char *)0);
i++;
}
Tj = i; /* keep only the global exit-labels */
Jt = 0;
}
static int
FirstTime(int n)
{ int i;
for (i = 0; i < Tj; i++)
if (Tojump[i] == n)
return (Special[i] <= 1);
return 1;
}
static void
illegal(Element *e, char *str)
{
printf("illegal operator in 'd_step:' '");
comment(stdout, e->n, 0);
printf("'\n");
fatal("'%s'", str);
}
static void
filterbad(Element *e)
{
switch (e->n->ntyp) {
case ASSERT:
case PRINT:
case 'c':
/* run cannot be completely undone
* with sv_save-sv_restor
*/
if (any_oper(e->n->lft, RUN))
illegal(e, "run operator in d_step");
/* remote refs inside d_step sequences
* would be okay, but they cannot always
* be interpreted by the simulator the
* same as by the verifier (e.g., for an
* error trail)
*/
if (any_oper(e->n->lft, 'p'))
illegal(e, "remote reference in d_step");
break;
case '@':
illegal(e, "process termination");
break;
case D_STEP:
illegal(e, "nested d_step sequence");
break;
case ATOMIC:
illegal(e, "nested atomic sequence");
break;
default:
break;
}
}
static int
CollectGuards(FILE *fd, Element *e, int inh)
{ SeqList *h; Element *ee;
for (h = e->sub; h; h = h->nxt)
{ ee = huntstart(h->this->frst);
filterbad(ee);
switch (ee->n->ntyp) {
case NON_ATOMIC:
inh += CollectGuards(fd, ee->n->sl->this->frst, inh);
break;
case IF:
inh += CollectGuards(fd, ee, inh);
break;
case '.':
if (ee->nxt->n->ntyp == DO)
inh += CollectGuards(fd, ee->nxt, inh);
break;
case ELSE:
if (inh++ > 0) fprintf(fd, " || ");
fprintf(fd, "(1 /* else */)");
break;
case 'R':
case 'r':
case 's':
if (inh++ > 0) fprintf(fd, " || ");
fprintf(fd, "("); TestOnly=1;
putstmnt(fd, ee->n, ee->seqno);
fprintf(fd, ")"); TestOnly=0;
break;
case 'c':
if (inh++ > 0) fprintf(fd, " || ");
fprintf(fd, "("); TestOnly=1;
if (Pid != claimnr)
fprintf(fd, "(boq == -1 && ");
putstmnt(fd, ee->n->lft, e->seqno);
if (Pid != claimnr)
fprintf(fd, ")");
fprintf(fd, ")"); TestOnly=0;
break;
} }
return inh;
}
int
putcode(FILE *fd, Sequence *s, Element *nxt, int justguards, int ln)
{ int isg=0; char buf[64];
NextLab[0] = "continue";
filterbad(s->frst);
switch (s->frst->n->ntyp) {
case UNLESS:
non_fatal("'unless' inside d_step - ignored", (char *) 0);
return putcode(fd, s->frst->n->sl->this, nxt, 0, ln);
case NON_ATOMIC:
(void) putcode(fd, s->frst->n->sl->this, ZE, 1, ln);
break;
case IF:
fprintf(fd, "if (!(");
if (!CollectGuards(fd, s->frst, 0))
fprintf(fd, "1");
fprintf(fd, "))\n\t\t\tcontinue;");
isg = 1;
break;
case '.':
if (s->frst->nxt->n->ntyp == DO)
{ fprintf(fd, "if (!(");
if (!CollectGuards(fd, s->frst->nxt, 0))
fprintf(fd, "1");
fprintf(fd, "))\n\t\t\tcontinue;");
isg = 1;
}
break;
case 'R': /* <- can't really happen (it's part of a 'c') */
case 'r':
case 's':
fprintf(fd, "if (!("); TestOnly=1;
putstmnt(fd, s->frst->n, s->frst->seqno);
fprintf(fd, "))\n\t\t\tcontinue;"); TestOnly=0;
break;
case 'c':
fprintf(fd, "if (!(");
if (Pid != claimnr) fprintf(fd, "boq == -1 && ");
TestOnly=1;
putstmnt(fd, s->frst->n->lft, s->frst->seqno);
fprintf(fd, "))\n\t\t\tcontinue;"); TestOnly=0;
break;
case ASGN: /* new 3.0.8 */
fprintf(fd, "IfNotBlocked");
break;
}
if (justguards) return 0;
fprintf(fd, "\n\t\tsv_save((char *)&now);\n");
sprintf(buf, "Uerror(\"block in d_step seq, line %d\")", ln);
NextLab[0] = buf;
putCode(fd, s->frst, s->extent, nxt, isg);
if (nxt)
{ if (FirstTime(nxt->Seqno)
&& (!(nxt->status & DONE2) || !(nxt->status & D_ATOM)))
{ fprintf(fd, "S_%.3d_0: /* 1 */\n", nxt->Seqno);
nxt->status |= DONE2;
LastGoto = 0;
}
Sourced(nxt->Seqno, 1);
Mopup(fd);
}
unskip(s->frst->seqno);
return LastGoto;
}
static void
putCode(FILE *fd, Element *f, Element *last, Element *next, int isguard)
{ Element *e, *N;
SeqList *h; int i;
char NextOpt[64];
static int bno = 0;
for (e = f; e; e = e->nxt)
{ if (e->status & DONE2)
continue;
e->status |= DONE2;
if (!(e->status & D_ATOM))
{ if (!LastGoto)
{ fprintf(fd, "\t\tgoto S_%.3d_0;\n",
e->Seqno);
Dested(e->Seqno);
}
break;
}
fprintf(fd, "S_%.3d_0: /* 2 */\n", e->Seqno);
LastGoto = 0;
Sourced(e->Seqno, 0);
if (!e->sub)
{ filterbad(e);
switch (e->n->ntyp) {
case NON_ATOMIC:
h = e->n->sl;
putCode(fd, h->this->frst,
h->this->extent, e->nxt, 0);
break;
case BREAK:
if (LastGoto) break;
if (e->nxt)
{ i = target( huntele(e->nxt,
e->status))->Seqno;
fprintf(fd, "\t\tgoto S_%.3d_0; ", i);
fprintf(fd, "/* 'break' */\n");
Dested(i);
} else
{ if (next)
{ fprintf(fd, "\t\tgoto S_%.3d_0;",
next->Seqno);
fprintf(fd, " /* NEXT */\n");
Dested(next->Seqno);
} else
fatal("cannot interpret d_step", 0);
}
break;
case GOTO:
if (LastGoto) break;
i = huntele( get_lab(e->n,1),
e->status)->Seqno;
fprintf(fd, "\t\tgoto S_%.3d_0; ", i);
fprintf(fd, "/* 'goto' */\n");
Dested(i);
break;
case '.':
if (LastGoto) break;
if (e->nxt && (e->nxt->status & DONE2))
{ i = e->nxt?e->nxt->Seqno:0;
fprintf(fd, "\t\tgoto S_%.3d_0;", i);
fprintf(fd, " /* '.' */\n");
Dested(i);
}
break;
default:
putskip(e->seqno);
GenCode = 1; IsGuard = isguard;
fprintf(fd, "\t\t");
putstmnt(fd, e->n, e->seqno);
fprintf(fd, ";\n");
GenCode = IsGuard = isguard = LastGoto = 0;
break;
}
i = e->nxt?e->nxt->Seqno:0;
if (e->nxt && e->nxt->status & DONE2 && !LastGoto)
{ fprintf(fd, "\t\tgoto S_%.3d_0; ", i);
fprintf(fd, "/* ';' */\n");
Dested(i);
break;
}
} else
{ for (h = e->sub, i=1; h; h = h->nxt, i++)
{ sprintf(NextOpt, "goto S_%.3d_%d",
e->Seqno, i);
NextLab[++Level] = NextOpt;
N = (e->n->ntyp == DO) ? e : e->nxt;
putCode(fd, h->this->frst,
h->this->extent, N, 1);
Level--;
fprintf(fd, "%s: /* 3 */\n", &NextOpt[5]);
LastGoto = 0;
}
if (!LastGoto)
{ fprintf(fd, "\t\tUerror(\"blocking sel ");
fprintf(fd, "in d_step (nr.%d, near line %d)\");\n",
bno++, (e->n)?e->n->ln:0);
LastGoto = 0;
}
}
if (e == last)
{ if (!LastGoto && next)
{ fprintf(fd, "\t\tgoto S_%.3d_0;\n",
next->Seqno);
Dested(next->Seqno);
}
break;
} }
}
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