/***** spin: pangen2.c *****/
/* Copyright (c) 1989-2003 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: bugs@spinroot.com */
#include "spin.h"
#include "version.h"
#ifdef PC
#include "y_tab.h"
#else
#include "y.tab.h"
#endif
#include "pangen2.h"
#include "pangen4.h"
#include "pangen5.h"
#define DELTA 500 /* sets an upperbound on nr of chan names */
#define blurb(fd, e) { fprintf(fd, "\n"); if (!merger) fprintf(fd, "\t\t/* %s:%d */\n", \
e->n->fn->name, e->n->ln); }
#define tr_map(m, e) { if (!merger) fprintf(tt, "\t\ttr_2_src(%d, %s, %d);\n", \
m, e->n->fn->name, e->n->ln); }
extern ProcList *rdy;
extern RunList *run;
extern Symbol *Fname, *oFname, *context;
extern char *claimproc, *eventmap;
extern int lineno, verbose, Npars, Mpars;
extern int m_loss, has_remote, has_remvar, merger, rvopt, separate;
extern int Ntimeouts, Etimeouts, deadvar;
extern int u_sync, u_async, nrRdy;
extern int GenCode, IsGuard, Level, TestOnly;
extern short has_stack;
extern char *NextLab[];
FILE *tc, *th, *tt, *tm, *tb;
int OkBreak = -1;
short nocast=0; /* to turn off casts in lvalues */
short terse=0; /* terse printing of varnames */
short no_arrays=0;
short has_last=0; /* spec refers to _last */
short has_badelse=0; /* spec contains else combined with chan refs */
short has_enabled=0; /* spec contains enabled() */
short has_pcvalue=0; /* spec contains pc_value() */
short has_np=0; /* spec contains np_ */
short has_sorted=0; /* spec contains `!!' (sorted-send) operator */
short has_random=0; /* spec contains `??' (random-recv) operator */
short has_xu=0; /* spec contains xr or xs assertions */
short has_unless=0; /* spec contains unless statements */
short has_provided=0; /* spec contains PROVIDED clauses on procs */
short has_code=0; /* spec contains c_code, c_expr, c_state */
short _isok=0; /* checks usage of predefined variable _ */
short evalindex=0; /* evaluate index of var names */
short withprocname=0; /* prefix local varnames with procname */
int mst=0; /* max nr of state/process */
int claimnr = -1; /* claim process, if any */
int eventmapnr = -1; /* event trace, if any */
int Pid; /* proc currently processed */
int multi_oval; /* set in merges, used also in pangen4.c */
#define MAXMERGE 256 /* max nr of bups per merge sequence */
static short CnT[MAXMERGE];
static Lextok XZ, YZ[MAXMERGE];
static int didcase, YZmax, YZcnt;
static Lextok *Nn[2];
static int Det; /* set if deterministic */
static int T_sum, T_mus, t_cyc;
static int TPE[2], EPT[2];
static int uniq=1;
static int multi_needed, multi_undo;
static short AllGlobal=0; /* set if process has provided clause */
int has_global(Lextok *);
static int getweight(Lextok *);
static int scan_seq(Sequence *);
static void genconditionals(void);
static void mark_seq(Sequence *);
static void patch_atomic(Sequence *);
static void put_seq(Sequence *, int, int);
static void putproc(ProcList *);
static void Tpe(Lextok *);
extern void spit_recvs(FILE *, FILE*);
static int
fproc(char *s)
{ ProcList *p;
for (p = rdy; p; p = p->nxt)
if (strcmp(p->n->name, s) == 0)
return p->tn;
fatal("proctype %s not found", s);
return -1;
}
static void
reverse_procs(RunList *q)
{
if (!q) return;
reverse_procs(q->nxt);
fprintf(tc, " Addproc(%d);\n", q->tn);
}
static void
tm_predef_np(void)
{
fprintf(th, "#define _T5 %d\n", uniq++);
fprintf(th, "#define _T2 %d\n", uniq++);
fprintf(tm, "\tcase _T5:\t/* np_ */\n");
if (separate == 2)
fprintf(tm, "\t\tif (!((!(o_pm&4) && !(tau&128))))\n");
else
fprintf(tm, "\t\tif (!((!(trpt->o_pm&4) && !(trpt->tau&128))))\n");
fprintf(tm, "\t\t\tcontinue;\n");
fprintf(tm, "\t\t/* else fall through */\n");
fprintf(tm, "\tcase _T2:\t/* true */\n");
fprintf(tm, "\t\t_m = 3; goto P999;\n");
}
static void
tt_predef_np(void)
{
fprintf(tt, "\t/* np_ demon: */\n");
fprintf(tt, "\ttrans[_NP_] = ");
fprintf(tt, "(Trans **) emalloc(2*sizeof(Trans *));\n");
fprintf(tt, "\tT = trans[_NP_][0] = ");
fprintf(tt, "settr(9997,0,1,_T5,0,\"(np_)\", 1,2,0);\n");
fprintf(tt, "\t T->nxt = ");
fprintf(tt, "settr(9998,0,0,_T2,0,\"(1)\", 0,2,0);\n");
fprintf(tt, "\tT = trans[_NP_][1] = ");
fprintf(tt, "settr(9999,0,1,_T5,0,\"(np_)\", 1,2,0);\n");
}
static struct {
char *nm[3];
} Cfile[] = {
{ { "pan.c", "pan_s.c", "pan_t.c" } },
{ { "pan.h", "pan_s.h", "pan_t.h" } },
{ { "pan.t", "pan_s.t", "pan_t.t" } },
{ { "pan.m", "pan_s.m", "pan_t.m" } },
{ { "pan.b", "pan_s.b", "pan_t.b" } }
};
void
gensrc(void)
{ ProcList *p;
if (!(tc = fopen(Cfile[0].nm[separate], "w")) /* main routines */
|| !(th = fopen(Cfile[1].nm[separate], "w")) /* header file */
|| !(tt = fopen(Cfile[2].nm[separate], "w")) /* transition matrix */
|| !(tm = fopen(Cfile[3].nm[separate], "w")) /* forward moves */
|| !(tb = fopen(Cfile[4].nm[separate], "w"))) /* backward moves */
{ printf("spin: cannot create pan.[chtmfb]\n");
alldone(1);
}
fprintf(th, "#define Version \"%s\"\n", Version);
fprintf(th, "#define Source \"%s\"\n\n", oFname->name);
if (separate != 2)
fprintf(th, "char *TrailFile = Source; /* default */\n");
fprintf(th, "#if defined(BFS)\n");
fprintf(th, "#ifndef SAFETY\n");
fprintf(th, "#define SAFETY\n");
fprintf(th, "#endif\n");
fprintf(th, "#ifndef XUSAFE\n");
fprintf(th, "#define XUSAFE\n");
fprintf(th, "#endif\n");
fprintf(th, "#endif\n");
fprintf(th, "#ifndef uchar\n");
fprintf(th, "#define uchar unsigned char\n");
fprintf(th, "#endif\n");
fprintf(th, "#ifndef uint\n");
fprintf(th, "#define uint unsigned int\n");
fprintf(th, "#endif\n");
if (sizeof(long) > 4) /* 64 bit machine */
{ fprintf(th, "#ifndef HASH32\n");
fprintf(th, "#define HASH64\n");
fprintf(th, "#endif\n");
}
if (sizeof(long)==sizeof(int))
fprintf(th, "#define long int\n");
if (separate == 1 && !claimproc)
{ Symbol *n = (Symbol *) emalloc(sizeof(Symbol));
Sequence *s = (Sequence *) emalloc(sizeof(Sequence));
claimproc = n->name = "_:never_template:_";
ready(n, ZN, s, 0, ZN);
}
if (separate == 2)
{ if (has_remote)
{ printf("spin: warning, make sure that the S1 model\n");
printf(" includes the same remote references\n");
}
fprintf(th, "#ifndef NFAIR\n");
fprintf(th, "#define NFAIR 2 /* must be >= 2 */\n");
fprintf(th, "#endif\n");
if (has_last)
fprintf(th, "#define HAS_LAST %d\n", has_last);
goto doless;
}
fprintf(th, "#define DELTA %d\n", DELTA);
fprintf(th, "#ifdef MA\n");
fprintf(th, "#if MA==1\n"); /* user typed -DMA without size */
fprintf(th, "#undef MA\n#define MA 100\n");
fprintf(th, "#endif\n#endif\n");
fprintf(th, "#ifdef W_XPT\n");
fprintf(th, "#if W_XPT==1\n"); /* user typed -DW_XPT without size */
fprintf(th, "#undef W_XPT\n#define W_XPT 1000000\n");
fprintf(th, "#endif\n#endif\n");
fprintf(th, "#ifndef NFAIR\n");
fprintf(th, "#define NFAIR 2 /* must be >= 2 */\n");
fprintf(th, "#endif\n");
if (Ntimeouts)
fprintf(th, "#define NTIM %d\n", Ntimeouts);
if (Etimeouts)
fprintf(th, "#define ETIM %d\n", Etimeouts);
if (has_remvar)
fprintf(th, "#define REM_VARS 1\n");
if (has_remote)
fprintf(th, "#define REM_REFS %d\n", has_remote); /* not yet used */
if (has_last)
fprintf(th, "#define HAS_LAST %d\n", has_last);
if (has_sorted)
fprintf(th, "#define HAS_SORTED %d\n", has_sorted);
if (m_loss)
fprintf(th, "#define M_LOSS\n");
if (has_random)
fprintf(th, "#define HAS_RANDOM %d\n", has_random);
fprintf(th, "#define HAS_CODE\n"); /* doesn't seem to cause measurable overhead */
if (has_stack)
fprintf(th, "#define HAS_STACK\n");
if (has_enabled)
fprintf(th, "#define HAS_ENABLED 1\n");
if (has_unless)
fprintf(th, "#define HAS_UNLESS %d\n", has_unless);
if (has_provided)
fprintf(th, "#define HAS_PROVIDED %d\n", has_provided);
if (has_pcvalue)
fprintf(th, "#define HAS_PCVALUE %d\n", has_pcvalue);
if (has_badelse)
fprintf(th, "#define HAS_BADELSE %d\n", has_badelse);
if (has_enabled
|| has_pcvalue
|| has_badelse
|| has_last)
{ fprintf(th, "#ifndef NOREDUCE\n");
fprintf(th, "#define NOREDUCE 1\n");
fprintf(th, "#endif\n");
}
if (has_np)
fprintf(th, "#define HAS_NP %d\n", has_np);
if (merger)
fprintf(th, "#define MERGED 1\n");
doless:
fprintf(th, "#ifdef NP /* includes np_ demon */\n");
if (!has_np)
fprintf(th, "#define HAS_NP 2\n");
fprintf(th, "#define VERI %d\n", nrRdy);
fprintf(th, "#define endclaim 3 /* none */\n");
fprintf(th, "#endif\n");
if (claimproc)
{ claimnr = fproc(claimproc);
/* NP overrides claimproc */
fprintf(th, "#if !defined(NOCLAIM) && !defined NP\n");
fprintf(th, "#define VERI %d\n", claimnr);
fprintf(th, "#define endclaim endstate%d\n", claimnr);
fprintf(th, "#endif\n");
}
if (eventmap)
{ eventmapnr = fproc(eventmap);
fprintf(th, "#define EVENT_TRACE %d\n", eventmapnr);
fprintf(th, "#define endevent endstate%d\n", eventmapnr);
if (eventmap[2] == 'o') /* ":notrace:" */
fprintf(th, "#define NEGATED_TRACE 1\n");
}
fprintf(th, "typedef struct S_F_MAP {\n");
fprintf(th, " char *fnm; int from; int upto;\n");
fprintf(th, "} S_F_MAP;\n");
fprintf(tc, "/*** Generated by %s ***/\n", Version);
fprintf(tc, "/*** From source: %s ***/\n\n", oFname->name);
ntimes(tc, 0, 1, Pre0);
plunk_c_decls(tc); /* types can be refered to in State */
switch (separate) {
case 0: fprintf(tc, "#include \"pan.h\"\n"); break;
case 1: fprintf(tc, "#include \"pan_s.h\"\n"); break;
case 2: fprintf(tc, "#include \"pan_t.h\"\n"); break;
}
fprintf(tc, "State A_Root; /* seed-state for cycles */\n");
fprintf(tc, "State now; /* the full state-vector */\n");
plunk_c_fcts(tc); /* State can be used in fcts */
if (separate != 2)
ntimes(tc, 0, 1, Preamble);
fprintf(tc, "#ifndef NOBOUNDCHECK\n");
fprintf(tc, "#define Index(x, y)\tBoundcheck(x, y, II, tt, t)\n");
fprintf(tc, "#else\n");
fprintf(tc, "#define Index(x, y)\tx\n");
fprintf(tc, "#endif\n");
c_preview(); /* sets hastrack */
for (p = rdy; p; p = p->nxt)
mst = max(p->s->maxel, mst);
if (separate != 2)
{ fprintf(tt, "#ifdef PEG\n");
fprintf(tt, "struct T_SRC {\n");
fprintf(tt, " char *fl; int ln;\n");
fprintf(tt, "} T_SRC[NTRANS];\n\n");
fprintf(tt, "void\ntr_2_src(int m, char *file, int ln)\n");
fprintf(tt, "{ T_SRC[m].fl = file;\n");
fprintf(tt, " T_SRC[m].ln = ln;\n");
fprintf(tt, "}\n\n");
fprintf(tt, "void\nputpeg(int n, int m)\n");
fprintf(tt, "{ printf(\"%%5d\ttrans %%4d \", m, n);\n");
fprintf(tt, " printf(\"file %%s line %%3d\\n\",\n");
fprintf(tt, " T_SRC[n].fl, T_SRC[n].ln);\n");
fprintf(tt, "}\n");
if (!merger)
{ fprintf(tt, "#else\n");
fprintf(tt, "#define tr_2_src(m,f,l)\n");
}
fprintf(tt, "#endif\n\n");
fprintf(tt, "void\nsettable(void)\n{\tTrans *T;\n");
fprintf(tt, "\tTrans *settr(int, int, int, int, int,");
fprintf(tt, " char *, int, int, int);\n\n");
fprintf(tt, "\ttrans = (Trans ***) ");
fprintf(tt, "emalloc(%d*sizeof(Trans **));\n", nrRdy+1);
/* +1 for np_ automaton */
if (separate == 1)
{
fprintf(tm, " if (II == 0)\n");
fprintf(tm, " { _m = step_claim(trpt->o_pm, trpt->tau, tt, ot, t);\n");
fprintf(tm, " if (_m) goto P999; else continue;\n");
fprintf(tm, " } else\n");
}
fprintf(tm, "#define rand pan_rand\n");
fprintf(tm, "#if defined(HAS_CODE) && defined(VERBOSE)\n");
fprintf(tm, " printf(\"Pr: %%d Tr: %%d\\n\", II, t->forw);\n");
fprintf(tm, "#endif\n");
fprintf(tm, " switch (t->forw) {\n");
} else
{ fprintf(tt, "#ifndef PEG\n");
fprintf(tt, "#define tr_2_src(m,f,l)\n");
fprintf(tt, "#endif\n");
fprintf(tt, "void\nset_claim(void)\n{\tTrans *T;\n");
fprintf(tt, "\textern Trans ***trans;\n");
fprintf(tt, "\textern Trans *settr(int, int, int, int, int,");
fprintf(tt, " char *, int, int, int);\n\n");
fprintf(tm, "#define rand pan_rand\n");
fprintf(tm, "#if defined(HAS_CODE) && defined(VERBOSE)\n");
fprintf(tm, " printf(\"Pr: %%d Tr: %%d\\n\", II, forw);\n");
fprintf(tm, "#endif\n");
fprintf(tm, " switch (forw) {\n");
}
fprintf(tm, " default: Uerror(\"bad forward move\");\n");
fprintf(tm, " case 0: /* if without executable clauses */\n");
fprintf(tm, " continue;\n");
fprintf(tm, " case 1: /* generic 'goto' or 'skip' */\n");
if (separate != 2)
fprintf(tm, " IfNotBlocked\n");
fprintf(tm, " _m = 3; goto P999;\n");
fprintf(tm, " case 2: /* generic 'else' */\n");
if (separate == 2)
fprintf(tm, " if (o_pm&1) continue;\n");
else
{ fprintf(tm, " IfNotBlocked\n");
fprintf(tm, " if (trpt->o_pm&1) continue;\n");
}
fprintf(tm, " _m = 3; goto P999;\n");
uniq = 3;
if (separate == 1)
fprintf(tb, " if (II == 0) goto R999;\n");
fprintf(tb, " switch (t->back) {\n");
fprintf(tb, " default: Uerror(\"bad return move\");\n");
fprintf(tb, " case 0: goto R999; /* nothing to undo */\n");
for (p = rdy; p; p = p->nxt)
putproc(p);
if (separate != 2)
{ fprintf(th, "struct {\n");
fprintf(th, " int tp; short *src;\n");
fprintf(th, "} src_all[] = {\n");
for (p = rdy; p; p = p->nxt)
fprintf(th, " { %d, &src_ln%d[0] },\n",
p->tn, p->tn);
fprintf(th, " { 0, (short *) 0 }\n");
fprintf(th, "};\n");
}
gencodetable(th);
if (separate != 1)
{ tm_predef_np();
tt_predef_np();
}
fprintf(tt, "}\n\n"); /* end of settable() */
fprintf(tm, "#undef rand\n");
fprintf(tm, " }\n\n");
fprintf(tb, " }\n\n");
if (separate != 2)
{ ntimes(tt, 0, 1, Tail);
genheader();
if (separate == 1)
{ fprintf(th, "#define FORWARD_MOVES\t\"pan_s.m\"\n");
fprintf(th, "#define REVERSE_MOVES\t\"pan_s.b\"\n");
fprintf(th, "#define SEPARATE\n");
fprintf(th, "#define TRANSITIONS\t\"pan_s.t\"\n");
fprintf(th, "extern void ini_claim(int, int);\n");
} else
{ fprintf(th, "#define FORWARD_MOVES\t\"pan.m\"\n");
fprintf(th, "#define REVERSE_MOVES\t\"pan.b\"\n");
fprintf(th, "#define TRANSITIONS\t\"pan.t\"\n");
}
genaddproc();
genother();
genaddqueue();
genunio();
genconditionals();
gensvmap();
if (!run) fatal("no runable process", (char *)0);
fprintf(tc, "void\n");
fprintf(tc, "active_procs(void)\n{\n");
reverse_procs(run);
fprintf(tc, "}\n");
ntimes(tc, 0, 1, Dfa);
ntimes(tc, 0, 1, Xpt);
fprintf(th, "#define NTRANS %d\n", uniq);
fprintf(th, "#ifdef PEG\n");
fprintf(th, "long peg[NTRANS];\n");
fprintf(th, "#endif\n");
if (u_sync && !u_async)
spit_recvs(th, tc);
} else
{ genheader();
fprintf(th, "#define FORWARD_MOVES\t\"pan_t.m\"\n");
fprintf(th, "#define REVERSE_MOVES\t\"pan_t.b\"\n");
fprintf(th, "#define TRANSITIONS\t\"pan_t.t\"\n");
fprintf(tc, "extern int Maxbody;\n");
fprintf(tc, "extern int proc_offset[];\n");
fprintf(tc, "extern int proc_skip[];\n");
fprintf(tc, "extern uchar *reached[];\n");
fprintf(tc, "extern uchar *accpstate[];\n");
fprintf(tc, "extern uchar *progstate[];\n");
fprintf(tc, "extern uchar *stopstate[];\n");
fprintf(tc, "extern uchar *visstate[];\n\n");
fprintf(tc, "extern short *mapstate[];\n");
fprintf(tc, "void\nini_claim(int n, int h)\n{");
fprintf(tc, "\textern State now;\n");
fprintf(tc, "\textern void set_claim(void);\n\n");
fprintf(tc, "#ifdef PROV\n");
fprintf(tc, "#include PROV\n");
fprintf(tc, "#endif\n");
fprintf(tc, "\tset_claim();\n");
genother();
fprintf(tc, "\n\tswitch (n) {\n");
genaddproc();
fprintf(tc, "\t}\n");
fprintf(tc, "\n}\n");
fprintf(tc, "int\nstep_claim(int o_pm, int tau, int tt, int ot, Trans *t)\n");
fprintf(tc, "{ int forw = t->forw; int _m = 0; extern char *noptr; int II=0;\n");
fprintf(tc, " extern State now;\n");
fprintf(tc, "#define continue return 0\n");
fprintf(tc, "#include \"pan_t.m\"\n");
fprintf(tc, "P999:\n\treturn _m;\n}\n");
fprintf(tc, "#undef continue\n");
fprintf(tc, "int\nrev_claim(int backw)\n{ return 0; }\n");
fprintf(tc, "#include TRANSITIONS\n");
}
if (separate != 1)
ntimes(tc, 0, 1, Nvr1);
if (separate != 2)
{ c_wrapper(tc);
c_chandump(tc);
}
}
static int
find_id(Symbol *s)
{ ProcList *p;
if (s)
for (p = rdy; p; p = p->nxt)
if (s == p->n)
return p->tn;
return 0;
}
static void
dolen(Symbol *s, char *pre, int pid, int ai, int qln)
{
if (ai > 0)
fprintf(tc, "\n\t\t\t || ");
fprintf(tc, "%s(", pre);
if (!(s->hidden&1))
{ if (s->context)
fprintf(tc, "((P%d *)this)->", pid);
else
fprintf(tc, "now.");
}
fprintf(tc, "%s", s->name);
if (qln > 1) fprintf(tc, "[%d]", ai);
fprintf(tc, ")");
}
struct AA { char TT[9]; char CC[8]; };
static struct AA BB[4] = {
{ "Q_FULL_F", " q_full" },
{ "Q_FULL_T", "!q_full" },
{ "Q_EMPT_F", " !q_len" },
{ "Q_EMPT_T", " q_len" }
};
static struct AA DD[4] = {
{ "Q_FULL_F", " q_e_f" }, /* empty or full */
{ "Q_FULL_T", "!q_full" },
{ "Q_EMPT_F", " q_e_f" },
{ "Q_EMPT_T", " q_len" }
};
/* this reduces the number of cases where 's' and 'r'
are considered conditionally safe under the
partial order reduction rules; as a price for
this simple implementation, it also affects the
cases where nfull and nempty can be considered
safe -- since these are labeled the same way as
's' and 'r' respectively
it only affects reduction, not functionality
*/
void
bb_or_dd(int j, int which)
{
if (which)
{ if (has_unless)
fprintf(tc, "%s", DD[j].CC);
else
fprintf(tc, "%s", BB[j].CC);
} else
{ if (has_unless)
fprintf(tc, "%s", DD[j].TT);
else
fprintf(tc, "%s", BB[j].TT);
}
}
void
Done_case(char *nm, Symbol *z)
{ int j, k;
int nid = z->Nid;
int qln = z->nel;
fprintf(tc, "\t\tcase %d: if (", nid);
for (j = 0; j < 4; j++)
{ fprintf(tc, "\t(t->ty[i] == ");
bb_or_dd(j, 0);
fprintf(tc, " && (");
for (k = 0; k < qln; k++)
{ if (k > 0)
fprintf(tc, "\n\t\t\t || ");
bb_or_dd(j, 1);
fprintf(tc, "(%s%s", nm, z->name);
if (qln > 1)
fprintf(tc, "[%d]", k);
fprintf(tc, ")");
}
fprintf(tc, "))\n\t\t\t ");
if (j < 3)
fprintf(tc, "|| ");
else
fprintf(tc, " ");
}
fprintf(tc, ") return 0; break;\n");
}
static void
Docase(Symbol *s, int pid, int nid)
{ int i, j;
fprintf(tc, "\t\tcase %d: if (", nid);
for (j = 0; j < 4; j++)
{ fprintf(tc, "\t(t->ty[i] == ");
bb_or_dd(j, 0);
fprintf(tc, " && (");
if (has_unless)
{ for (i = 0; i < s->nel; i++)
dolen(s, DD[j].CC, pid, i, s->nel);
} else
{ for (i = 0; i < s->nel; i++)
dolen(s, BB[j].CC, pid, i, s->nel);
}
fprintf(tc, "))\n\t\t\t ");
if (j < 3)
fprintf(tc, "|| ");
else
fprintf(tc, " ");
}
fprintf(tc, ") return 0; break;\n");
}
static void
genconditionals(void)
{ Symbol *s;
int last=0, j;
extern Ordered *all_names;
Ordered *walk;
fprintf(th, "#define LOCAL 1\n");
fprintf(th, "#define Q_FULL_F 2\n");
fprintf(th, "#define Q_EMPT_F 3\n");
fprintf(th, "#define Q_EMPT_T 4\n");
fprintf(th, "#define Q_FULL_T 5\n");
fprintf(th, "#define TIMEOUT_F 6\n");
fprintf(th, "#define GLOBAL 7\n");
fprintf(th, "#define BAD 8\n");
fprintf(th, "#define ALPHA_F 9\n");
fprintf(tc, "int\n");
fprintf(tc, "q_cond(short II, Trans *t)\n");
fprintf(tc, "{ int i = 0;\n");
fprintf(tc, " for (i = 0; i < 6; i++)\n");
fprintf(tc, " { if (t->ty[i] == TIMEOUT_F) return %s;\n",
(Etimeouts)?"(!(trpt->tau&1))":"1");
fprintf(tc, " if (t->ty[i] == ALPHA_F)\n");
fprintf(tc, "#ifdef GLOB_ALPHA\n");
fprintf(tc, " return 0;\n");
fprintf(tc, "#else\n\t\t\treturn ");
fprintf(tc, "(II+1 == (short) now._nr_pr && II+1 < MAXPROC);\n");
fprintf(tc, "#endif\n");
/* we switch on the chan name from the spec (as identified by
* the corresponding Nid number) rather than the actual qid
* because we cannot predict at compile time which specific qid
* will be accessed by the statement at runtime. that is:
* we do not know which qid to pass to q_cond at runtime
* but we do know which name is used. if it's a chan array, we
* must check all elements of the array for compliance (bummer)
*/
fprintf(tc, " switch (t->qu[i]) {\n");
fprintf(tc, " case 0: break;\n");
for (walk = all_names; walk; walk = walk->next)
{ s = walk->entry;
if (s->owner) continue;
j = find_id(s->context);
if (s->type == CHAN)
{ if (last == s->Nid) continue; /* chan array */
last = s->Nid;
Docase(s, j, last);
} else if (s->type == STRUCT)
{ /* struct may contain a chan */
char pregat[128];
extern void walk2_struct(char *, Symbol *);
strcpy(pregat, "");
if (!(s->hidden&1))
{ if (s->context)
sprintf(pregat, "((P%d *)this)->",j);
else
sprintf(pregat, "now.");
}
walk2_struct(pregat, s);
}
}
fprintf(tc, " \tdefault: Uerror(\"unknown qid - q_cond\");\n");
fprintf(tc, " \t\t\treturn 0;\n");
fprintf(tc, " \t}\n");
fprintf(tc, " }\n");
fprintf(tc, " return 1;\n");
fprintf(tc, "}\n");
}
static void
putproc(ProcList *p)
{ Pid = p->tn;
Det = p->det;
if (Pid == claimnr
&& separate == 1)
{ fprintf(th, "extern uchar reached%d[];\n", Pid);
fprintf(th, "extern short nstates%d;\n", Pid);
fprintf(th, "extern short src_ln%d[];\n", Pid);
fprintf(th, "extern S_F_MAP src_file%d[];\n", Pid);
fprintf(th, "#define endstate%d %d\n",
Pid, p->s->last?p->s->last->seqno:0);
fprintf(th, "#define src_claim src_ln%d\n", claimnr);
return;
}
if (Pid != claimnr
&& separate == 2)
{ fprintf(th, "extern short src_ln%d[];\n", Pid);
return;
}
AllGlobal = (p->prov)?1:0; /* process has provided clause */
fprintf(th, "\nshort nstates%d=%d;\t/* %s */\n",
Pid, p->s->maxel, p->n->name);
if (Pid == claimnr)
fprintf(th, "#define nstates_claim nstates%d\n", Pid);
if (Pid == eventmapnr)
fprintf(th, "#define nstates_event nstates%d\n", Pid);
fprintf(th, "#define endstate%d %d\n",
Pid, p->s->last->seqno);
fprintf(tm, "\n /* PROC %s */\n", p->n->name);
fprintf(tb, "\n /* PROC %s */\n", p->n->name);
fprintf(tt, "\n /* proctype %d: %s */\n", Pid, p->n->name);
fprintf(tt, "\n trans[%d] = (Trans **)", Pid);
fprintf(tt, " emalloc(%d*sizeof(Trans *));\n\n", p->s->maxel);
if (Pid == eventmapnr)
{ fprintf(th, "\n#define in_s_scope(x_y3_) 0");
fprintf(tc, "\n#define in_r_scope(x_y3_) 0");
}
put_seq(p->s, 2, 0);
if (Pid == eventmapnr)
{ fprintf(th, "\n\n");
fprintf(tc, "\n\n");
}
dumpsrc(p->s->maxel, Pid);
}
static void
addTpe(int x)
{ int i;
if (x <= 2) return;
for (i = 0; i < T_sum; i++)
if (TPE[i] == x)
return;
TPE[(T_sum++)%2] = x;
}
static void
cnt_seq(Sequence *s)
{ Element *f;
SeqList *h;
if (s)
for (f = s->frst; f; f = f->nxt)
{ Tpe(f->n); /* sets EPT */
addTpe(EPT[0]);
addTpe(EPT[1]);
for (h = f->sub; h; h = h->nxt)
cnt_seq(h->this);
if (f == s->last)
break;
}
}
static void
typ_seq(Sequence *s)
{
T_sum = 0;
TPE[0] = 2; TPE[1] = 0;
cnt_seq(s);
if (T_sum > 2) /* more than one type */
{ TPE[0] = 5*DELTA; /* non-mixing */
TPE[1] = 0;
}
}
static int
hidden(Lextok *n)
{
if (n)
switch (n->ntyp) {
case FULL: case EMPTY:
case NFULL: case NEMPTY: case TIMEOUT:
Nn[(T_mus++)%2] = n;
break;
case '!': case UMIN: case '~': case ASSERT: case 'c':
(void) hidden(n->lft);
break;
case '/': case '*': case '-': case '+':
case '%': case LT: case GT: case '&': case '^':
case '|': case LE: case GE: case NE: case '?':
case EQ: case OR: case AND: case LSHIFT: case RSHIFT:
(void) hidden(n->lft);
(void) hidden(n->rgt);
break;
}
return T_mus;
}
static int
getNid(Lextok *n)
{
if (n->sym->type == STRUCT
&& n->rgt && n->rgt->lft)
return getNid(n->rgt->lft);
if (!n->sym || n->sym->Nid == 0)
{ fatal("bad channel name '%s'",
(n->sym)?n->sym->name:"no name");
}
return n->sym->Nid;
}
static int
valTpe(Lextok *n)
{ int res = 2;
/*
2 = local
2+1 .. 2+1*DELTA = nfull, 's' - require q_full==false
2+1+1*DELTA .. 2+2*DELTA = nempty, 'r' - require q_len!=0
2+1+2*DELTA .. 2+3*DELTA = empty - require q_len==0
2+1+3*DELTA .. 2+4*DELTA = full - require q_full==true
5*DELTA = non-mixing (i.e., always makes the selection global)
6*DELTA = timeout (conditionally safe)
7*DELTA = @, process deletion (conditionally safe)
*/
switch (n->ntyp) { /* a series of fall-thru cases: */
case FULL: res += DELTA; /* add 3*DELTA + chan nr */
case EMPTY: res += DELTA; /* add 2*DELTA + chan nr */
case 'r':
case NEMPTY: res += DELTA; /* add 1*DELTA + chan nr */
case 's':
case NFULL: res += getNid(n->lft); /* add channel nr */
break;
case TIMEOUT: res = 6*DELTA; break;
case '@': res = 7*DELTA; break;
default: break;
}
return res;
}
static void
Tpe(Lextok *n) /* mixing in selections */
{
EPT[0] = 2; EPT[1] = 0;
if (!n) return;
T_mus = 0;
Nn[0] = Nn[1] = ZN;
if (n->ntyp == 'c')
{ if (hidden(n->lft) > 2)
{ EPT[0] = 5*DELTA; /* non-mixing */
EPT[1] = 0;
return;
}
} else
Nn[0] = n;
if (Nn[0]) EPT[0] = valTpe(Nn[0]);
if (Nn[1]) EPT[1] = valTpe(Nn[1]);
}
static void
put_escp(Element *e)
{ int n;
SeqList *x;
if (e->esc /* && e->n->ntyp != GOTO */ && e->n->ntyp != '.')
{ for (x = e->esc, n = 0; x; x = x->nxt, n++)
{ int i = huntele(x->this->frst, e->status, -1)->seqno;
fprintf(tt, "\ttrans[%d][%d]->escp[%d] = %d;\n",
Pid, e->seqno, n, i);
fprintf(tt, "\treached%d[%d] = 1;\n",
Pid, i);
}
for (x = e->esc, n=0; x; x = x->nxt, n++)
{ fprintf(tt, " /* escape #%d: %d */\n", n,
huntele(x->this->frst, e->status, -1)->seqno);
put_seq(x->this, 2, 0); /* args?? */
}
fprintf(tt, " /* end-escapes */\n");
}
}
static void
put_sub(Element *e, int Tt0, int Tt1)
{ Sequence *s = e->n->sl->this;
Element *g = ZE;
int a;
patch_atomic(s);
putskip(s->frst->seqno);
g = huntstart(s->frst);
a = g->seqno;
if (0) printf("put_sub %d -> %d -> %d\n", e->seqno, s->frst->seqno, a);
if ((e->n->ntyp == ATOMIC
|| e->n->ntyp == D_STEP)
&& scan_seq(s))
mark_seq(s);
s->last->nxt = e->nxt;
typ_seq(s); /* sets TPE */
if (e->n->ntyp == D_STEP)
{ int inherit = (e->status&(ATOM|L_ATOM));
fprintf(tm, "\tcase %d: ", uniq++);
fprintf(tm, "/* STATE %d - line %d %s - [",
e->seqno, e->n->ln, e->n->fn->name);
comment(tm, e->n, 0);
fprintf(tm, "] */\n\t\t");
if (s->last->n->ntyp == BREAK)
OkBreak = target(huntele(s->last->nxt,
s->last->status, -1))->Seqno;
else
OkBreak = -1;
if (!putcode(tm, s, e->nxt, 0, e->n->ln, e->seqno))
{
fprintf(tm, "\n#if defined(C_States) && (HAS_TRACK==1)\n");
fprintf(tm, "\t\tc_update((uchar *) &(now.c_state[0]));\n");
fprintf(tm, "#endif\n");
fprintf(tm, "\t\t_m = %d", getweight(s->frst->n));
if (m_loss && s->frst->n->ntyp == 's')
fprintf(tm, "+delta_m; delta_m = 0");
fprintf(tm, "; goto P999;\n\n");
}
fprintf(tb, "\tcase %d: ", uniq-1);
fprintf(tb, "/* STATE %d */\n", e->seqno);
fprintf(tb, "\t\tsv_restor();\n");
fprintf(tb, "\t\tgoto R999;\n");
if (e->nxt)
a = huntele(e->nxt, e->status, -1)->seqno;
else
a = 0;
tr_map(uniq-1, e);
fprintf(tt, "/*->*/\ttrans[%d][%d]\t= ",
Pid, e->seqno);
fprintf(tt, "settr(%d,%d,%d,%d,%d,\"",
e->Seqno, D_ATOM|inherit, a, uniq-1, uniq-1);
comment(tt, e->n, e->seqno);
fprintf(tt, "\", %d, ", (s->frst->status&I_GLOB)?1:0);
fprintf(tt, "%d, %d);\n", TPE[0], TPE[1]);
put_escp(e);
} else
{ /* ATOMIC or NON_ATOMIC */
fprintf(tt, "\tT = trans[ %d][%d] = ", Pid, e->seqno);
fprintf(tt, "settr(%d,%d,0,0,0,\"",
e->Seqno, (e->n->ntyp == ATOMIC)?ATOM:0);
comment(tt, e->n, e->seqno);
if ((e->status&CHECK2)
|| (g->status&CHECK2))
s->frst->status |= I_GLOB;
fprintf(tt, "\", %d, %d, %d);",
(s->frst->status&I_GLOB)?1:0, Tt0, Tt1);
blurb(tt, e);
fprintf(tt, "\tT->nxt\t= ");
fprintf(tt, "settr(%d,%d,%d,0,0,\"",
e->Seqno, (e->n->ntyp == ATOMIC)?ATOM:0, a);
comment(tt, e->n, e->seqno);
fprintf(tt, "\", %d, ", (s->frst->status&I_GLOB)?1:0);
if (e->n->ntyp == NON_ATOMIC)
{ fprintf(tt, "%d, %d);", Tt0, Tt1);
blurb(tt, e);
put_seq(s, Tt0, Tt1);
} else
{ fprintf(tt, "%d, %d);", TPE[0], TPE[1]);
blurb(tt, e);
put_seq(s, TPE[0], TPE[1]);
}
}
}
typedef struct CaseCache {
int m, b, owner;
Element *e;
Lextok *n;
FSM_use *u;
struct CaseCache *nxt;
} CaseCache;
CaseCache *casing[6];
static int
identical(Lextok *p, Lextok *q)
{
if ((!p && q) || (p && !q))
return 0;
if (!p)
return 1;
if (p->ntyp != q->ntyp
|| p->ismtyp != q->ismtyp
|| p->val != q->val
|| p->indstep != q->indstep
|| p->sym != q->sym
|| p->sq != q->sq
|| p->sl != q->sl)
return 0;
return identical(p->lft, q->lft)
&& identical(p->rgt, q->rgt);
}
static int
samedeads(FSM_use *a, FSM_use *b)
{ FSM_use *p, *q;
for (p = a, q = b; p && q; p = p->nxt, q = q->nxt)
if (p->var != q->var
|| p->special != q->special)
return 0;
return (!p && !q);
}
static Element *
findnext(Element *f)
{ Element *g;
if (f->n->ntyp == GOTO)
{ g = get_lab(f->n, 1);
return huntele(g, f->status, -1);
}
return f->nxt;
}
static Element *
advance(Element *e, int stopat)
{ Element *f = e;
if (stopat)
while (f && f->seqno != stopat)
{ f = findnext(f);
switch (f->n->ntyp) {
case GOTO:
case '.':
case PRINT:
case PRINTM:
break;
default:
return f;
}
}
return (Element *) 0;
}
static int
equiv_merges(Element *a, Element *b)
{ Element *f, *g;
int stopat_a, stopat_b;
if (a->merge_start)
stopat_a = a->merge_start;
else
stopat_a = a->merge;
if (b->merge_start)
stopat_b = b->merge_start;
else
stopat_b = b->merge;
if (!stopat_a && !stopat_b)
return 1;
for (;;)
{
f = advance(a, stopat_a);
g = advance(b, stopat_b);
if (!f && !g)
return 1;
if (f && g)
return identical(f->n, g->n);
else
return 0;
}
return 1;
}
static CaseCache *
prev_case(Element *e, int owner)
{ int j; CaseCache *nc;
switch (e->n->ntyp) {
case 'r': j = 0; break;
case 's': j = 1; break;
case 'c': j = 2; break;
case ASGN: j = 3; break;
case ASSERT: j = 4; break;
default: j = 5; break;
}
for (nc = casing[j]; nc; nc = nc->nxt)
if (identical(nc->n, e->n)
&& samedeads(nc->u, e->dead)
&& equiv_merges(nc->e, e)
&& nc->owner == owner)
return nc;
return (CaseCache *) 0;
}
static void
new_case(Element *e, int m, int b, int owner)
{ int j; CaseCache *nc;
switch (e->n->ntyp) {
case 'r': j = 0; break;
case 's': j = 1; break;
case 'c': j = 2; break;
case ASGN: j = 3; break;
case ASSERT: j = 4; break;
default: j = 5; break;
}
nc = (CaseCache *) emalloc(sizeof(CaseCache));
nc->owner = owner;
nc->m = m;
nc->b = b;
nc->e = e;
nc->n = e->n;
nc->u = e->dead;
nc->nxt = casing[j];
casing[j] = nc;
}
static int
nr_bup(Element *e)
{ FSM_use *u;
Lextok *v;
int nr = 0;
switch (e->n->ntyp) {
case ASGN:
nr++;
break;
case 'r':
if (e->n->val >= 1)
nr++; /* random recv */
for (v = e->n->rgt; v; v = v->rgt)
{ if ((v->lft->ntyp == CONST
|| v->lft->ntyp == EVAL))
continue;
nr++;
}
break;
default:
break;
}
for (u = e->dead; u; u = u->nxt)
{ switch (u->special) {
case 2: /* dead after write */
if (e->n->ntyp == ASGN
&& e->n->rgt->ntyp == CONST
&& e->n->rgt->val == 0)
break;
nr++;
break;
case 1: /* dead after read */
nr++;
break;
} }
return nr;
}
static int
nrhops(Element *e)
{ Element *f = e, *g;
int cnt = 0;
int stopat;
if (e->merge_start)
stopat = e->merge_start;
else
stopat = e->merge;
#if 0
printf("merge: %d merge_start %d - seqno %d\n",
e->merge, e->merge_start, e->seqno);
#endif
do {
cnt += nr_bup(f);
if (f->n->ntyp == GOTO)
{ g = get_lab(f->n, 1);
if (g->seqno == stopat)
f = g;
else
f = huntele(g, f->status, stopat);
} else
{
f = f->nxt;
}
if (f && !f->merge && !f->merge_single && f->seqno != stopat)
{ fprintf(tm, "\n\t\tbad hop %s:%d -- at %d, <",
f->n->fn->name,f->n->ln, f->seqno);
comment(tm, f->n, 0);
fprintf(tm, "> looking for %d -- merge %d:%d:%d\n\t\t",
stopat, f->merge, f->merge_start, f->merge_single);
break;
}
} while (f && f->seqno != stopat);
return cnt;
}
static void
check_needed(void)
{
if (multi_needed)
{ fprintf(tm, "(trpt+1)->bup.ovals = grab_ints(%d);\n\t\t",
multi_needed);
multi_undo = multi_needed;
multi_needed = 0;
}
}
static void
doforward(FILE *tm, Element *e)
{ FSM_use *u;
putstmnt(tm, e->n, e->seqno);
if (e->n->ntyp != ELSE && Det)
{ fprintf(tm, ";\n\t\tif (trpt->o_pm&1)\n\t\t");
fprintf(tm, "\tuerror(\"non-determinism in D_proctype\")");
}
if (deadvar && !has_code)
for (u = e->dead; u; u = u->nxt)
{ fprintf(tm, ";\n\t\t/* dead %d: %s */ ",
u->special, u->var->name);
switch (u->special) {
case 2: /* dead after write -- lval already bupped */
if (e->n->ntyp == ASGN) /* could be recv or asgn */
{ if (e->n->rgt->ntyp == CONST
&& e->n->rgt->val == 0)
continue; /* already set to 0 */
}
if (e->n->ntyp != 'r')
{ XZ.sym = u->var;
fprintf(tm, "\n#ifdef HAS_CODE\n");
fprintf(tm, "\t\tif (!readtrail)\n");
fprintf(tm, "#endif\n\t\t\t");
putname(tm, "", &XZ, 0, " = 0");
break;
} /* else fall through */
case 1: /* dead after read -- add asgn of rval -- needs bup */
YZ[YZmax].sym = u->var; /* store for pan.b */
CnT[YZcnt]++; /* this step added bups */
if (multi_oval)
{ check_needed();
fprintf(tm, "(trpt+1)->bup.ovals[%d] = ",
multi_oval-1);
multi_oval++;
} else
fprintf(tm, "(trpt+1)->bup.oval = ");
putname(tm, "", &YZ[YZmax], 0, ";\n");
fprintf(tm, "#ifdef HAS_CODE\n");
fprintf(tm, "\t\tif (!readtrail)\n");
fprintf(tm, "#endif\n\t\t\t");
putname(tm, "", &YZ[YZmax], 0, " = 0");
YZmax++;
break;
} }
fprintf(tm, ";\n\t\t");
}
static int
dobackward(Element *e, int casenr)
{
if (!any_undo(e->n) && CnT[YZcnt] == 0)
{ YZcnt--;
return 0;
}
if (!didcase)
{ fprintf(tb, "\n\tcase %d: ", casenr);
fprintf(tb, "/* STATE %d */\n\t\t", e->seqno);
didcase++;
}
_isok++;
while (CnT[YZcnt] > 0) /* undo dead variable resets */
{ CnT[YZcnt]--;
YZmax--;
if (YZmax < 0)
fatal("cannot happen, dobackward", (char *)0);
fprintf(tb, ";\n\t/* %d */\t", YZmax);
putname(tb, "", &YZ[YZmax], 0, " = trpt->bup.oval");
if (multi_oval > 0)
{ multi_oval--;
fprintf(tb, "s[%d]", multi_oval-1);
}
}
if (e->n->ntyp != '.')
{ fprintf(tb, ";\n\t\t");
undostmnt(e->n, e->seqno);
}
_isok--;
YZcnt--;
return 1;
}
static void
lastfirst(int stopat, Element *fin, int casenr)
{ Element *f = fin, *g;
if (f->n->ntyp == GOTO)
{ g = get_lab(f->n, 1);
if (g->seqno == stopat)
f = g;
else
f = huntele(g, f->status, stopat);
} else
f = f->nxt;
if (!f || f->seqno == stopat
|| (!f->merge && !f->merge_single))
return;
lastfirst(stopat, f, casenr);
#if 0
fprintf(tb, "\n\t/* merge %d -- %d:%d %d:%d:%d (casenr %d) ",
YZcnt,
f->merge_start, f->merge,
f->seqno, f?f->seqno:-1, stopat,
casenr);
comment(tb, f->n, 0);
fprintf(tb, " */\n");
fflush(tb);
#endif
dobackward(f, casenr);
}
static int modifier;
static void
lab_transfer(Element *to, Element *from)
{ Symbol *ns, *s = has_lab(from, (1|2|4));
Symbol *oc;
int ltp, usedit=0;
if (!s) return;
/* "from" could have all three labels -- rename
* to prevent jumps to the transfered copies
*/
oc = context; /* remember */
for (ltp = 1; ltp < 8; ltp *= 2) /* 1, 2, and 4 */
if ((s = has_lab(from, ltp)) != (Symbol *) 0)
{ ns = (Symbol *) emalloc(sizeof(Symbol));
ns->name = (char *) emalloc((int) strlen(s->name) + 4);
sprintf(ns->name, "%s%d", s->name, modifier);
context = s->context;
set_lab(ns, to);
usedit++;
}
context = oc; /* restore */
if (usedit)
{ if (modifier++ > 990)
fatal("modifier overflow error", (char *) 0);
}
}
static int
case_cache(Element *e, int a)
{ int bupcase = 0, casenr = uniq, fromcache = 0;
CaseCache *Cached = (CaseCache *) 0;
Element *f, *g;
int j, nrbups, mark, target;
extern int ccache;
mark = (e->status&ATOM); /* could lose atomicity in a merge chain */
if (e->merge_mark > 0
|| (merger && e->merge_in == 0))
{ /* state nominally unreachable (part of merge chains) */
if (e->n->ntyp != '.'
&& e->n->ntyp != GOTO)
{ fprintf(tt, "\ttrans[%d][%d]\t= ", Pid, e->seqno);
fprintf(tt, "settr(0,0,0,0,0,\"");
comment(tt, e->n, e->seqno);
fprintf(tt, "\",0,0,0);\n");
} else
{ fprintf(tt, "\ttrans[%d][%d]\t= ", Pid, e->seqno);
casenr = 1; /* mhs example */
j = a;
goto haveit; /* pakula's example */
}
return -1;
}
fprintf(tt, "\ttrans[%d][%d]\t= ", Pid, e->seqno);
if (ccache
&& Pid != claimnr
&& Pid != eventmapnr
&& (Cached = prev_case(e, Pid)))
{ bupcase = Cached->b;
casenr = Cached->m;
fromcache = 1;
fprintf(tm, "/* STATE %d - line %d %s - [",
e->seqno, e->n->ln, e->n->fn->name);
comment(tm, e->n, 0);
fprintf(tm, "] (%d:%d - %d) same as %d (%d:%d - %d) */\n",
e->merge_start, e->merge, e->merge_in,
casenr,
Cached->e->merge_start, Cached->e->merge, Cached->e->merge_in);
goto gotit;
}
fprintf(tm, "\tcase %d: /* STATE %d - line %d %s - [",
uniq++, e->seqno, e->n->ln, e->n->fn->name);
comment(tm, e->n, 0);
nrbups = (e->merge || e->merge_start) ? nrhops(e) : nr_bup(e);
fprintf(tm, "] (%d:%d:%d - %d) */\n\t\t",
e->merge_start, e->merge, nrbups, e->merge_in);
if (nrbups > MAXMERGE-1)
fatal("merge requires more than 256 bups", (char *)0);
if (e->n->ntyp != 'r' && Pid != claimnr && Pid != eventmapnr)
fprintf(tm, "IfNotBlocked\n\t\t");
if (multi_needed != 0 || multi_undo != 0)
fatal("cannot happen, case_cache", (char *) 0);
if (nrbups > 1)
{ multi_oval = 1;
multi_needed = nrbups; /* allocated after edge condition */
} else
multi_oval = 0;
memset(CnT, 0, sizeof(CnT));
YZmax = YZcnt = 0;
/* the src xrefs have the numbers in e->seqno builtin */
fprintf(tm, "reached[%d][%d] = 1;\n\t\t", Pid, e->seqno);
doforward(tm, e);
if (e->merge_start)
target = e->merge_start;
else
target = e->merge;
if (target)
{ f = e;
more: if (f->n->ntyp == GOTO)
{ g = get_lab(f->n, 1);
if (g->seqno == target)
f = g;
else
f = huntele(g, f->status, target);
} else
f = f->nxt;
if (f && f->seqno != target)
{ if (!f->merge && !f->merge_single)
{ fprintf(tm, "/* stop at bad hop %d, %d */\n\t\t",
f->seqno, target);
goto out;
}
fprintf(tm, "/* merge: ");
comment(tm, f->n, 0);
fprintf(tm, "(%d, %d, %d) */\n\t\t", f->merge, f->seqno, target);
fprintf(tm, "reached[%d][%d] = 1;\n\t\t", Pid, f->seqno);
YZcnt++;
lab_transfer(e, f);
mark = f->status&(ATOM|L_ATOM); /* last step wins */
doforward(tm, f);
if (f->merge_in == 1) f->merge_mark++;
goto more;
} }
out:
fprintf(tm, "_m = %d", getweight(e->n));
if (m_loss && e->n->ntyp == 's') fprintf(tm, "+delta_m; delta_m = 0");
fprintf(tm, "; goto P999; /* %d */\n", YZcnt);
multi_needed = 0;
didcase = 0;
if (target)
lastfirst(target, e, casenr); /* mergesteps only */
dobackward(e, casenr); /* the original step */
fprintf(tb, ";\n\t\t");
if (e->merge || e->merge_start)
{ if (!didcase)
{ fprintf(tb, "\n\tcase %d: ", casenr);
fprintf(tb, "/* STATE %d */", e->seqno);
didcase++;
} else
fprintf(tb, ";");
} else
fprintf(tb, ";");
fprintf(tb, "\n\t\t");
if (multi_undo)
{ fprintf(tb, "ungrab_ints(trpt->bup.ovals, %d);\n\t\t",
multi_undo);
multi_undo = 0;
}
if (didcase)
{ fprintf(tb, "goto R999;\n");
bupcase = casenr;
}
if (!e->merge && !e->merge_start)
new_case(e, casenr, bupcase, Pid);
gotit:
j = a;
if (e->merge_start)
j = e->merge_start;
else if (e->merge)
j = e->merge;
haveit:
fprintf(tt, "%ssettr(%d,%d,%d,%d,%d,\"", fromcache?"/* c */ ":"",
e->Seqno, mark, j, casenr, bupcase);
return (fromcache)?0:casenr;
}
static void
put_el(Element *e, int Tt0, int Tt1)
{ int a, casenr, Global_ref;
Element *g = ZE;
if (e->n->ntyp == GOTO)
{ g = get_lab(e->n, 1);
g = huntele(g, e->status, -1);
cross_dsteps(e->n, g->n);
a = g->seqno;
} else if (e->nxt)
{ g = huntele(e->nxt, e->status, -1);
a = g->seqno;
} else
a = 0;
if (g
&& (g->status&CHECK2 /* entering remotely ref'd state */
|| e->status&CHECK2)) /* leaving remotely ref'd state */
e->status |= I_GLOB;
/* don't remove dead edges in here, to preserve structure of fsm */
if (e->merge_start || e->merge)
goto non_generic;
/*** avoid duplicate or redundant cases in pan.m ***/
switch (e->n->ntyp) {
case ELSE:
casenr = 2; /* standard else */
putskip(e->seqno);
goto generic_case;
/* break; */
case '.':
case GOTO:
case BREAK:
putskip(e->seqno);
casenr = 1; /* standard goto */
generic_case: fprintf(tt, "\ttrans[%d][%d]\t= ", Pid, e->seqno);
fprintf(tt, "settr(%d,%d,%d,%d,0,\"",
e->Seqno, e->status&ATOM, a, casenr);
break;
#ifndef PRINTF
case PRINT:
goto non_generic;
case PRINTM:
goto non_generic;
#endif
case 'c':
if (e->n->lft->ntyp == CONST
&& e->n->lft->val == 1) /* skip or true */
{ casenr = 1;
putskip(e->seqno);
goto generic_case;
}
goto non_generic;
default:
non_generic:
casenr = case_cache(e, a);
if (casenr < 0) return; /* unreachable state */
break;
}
/* tailend of settr(...); */
Global_ref = (e->status&I_GLOB)?1:has_global(e->n);
comment(tt, e->n, e->seqno);
fprintf(tt, "\", %d, ", Global_ref);
if (Tt0 != 2)
{ fprintf(tt, "%d, %d);", Tt0, Tt1);
} else
{ Tpe(e->n); /* sets EPT */
fprintf(tt, "%d, %d);", EPT[0], EPT[1]);
}
if ((e->merge_start && e->merge_start != a)
|| (e->merge && e->merge != a))
{ fprintf(tt, " /* m: %d -> %d,%d */\n",
a, e->merge_start, e->merge);
fprintf(tt, " reached%d[%d] = 1;",
Pid, a); /* Sheinman's example */
}
fprintf(tt, "\n");
if (casenr > 2)
tr_map(casenr, e);
put_escp(e);
}
static void
nested_unless(Element *e, Element *g)
{ struct SeqList *y = e->esc, *z = g->esc;
for ( ; y && z; y = y->nxt, z = z->nxt)
if (z->this != y->this)
break;
if (!y && !z)
return;
if (g->n->ntyp != GOTO
&& g->n->ntyp != '.'
&& e->sub->nxt)
{ printf("error: (%s:%d) saw 'unless' on a guard:\n",
(e->n)?e->n->fn->name:"-",
(e->n)?e->n->ln:0);
printf("=====>instead of\n");
printf(" do (or if)\n");
printf(" :: ...\n");
printf(" :: stmnt1 unless stmnt2\n");
printf(" od (of fi)\n");
printf("=====>use\n");
printf(" do (or if)\n");
printf(" :: ...\n");
printf(" :: stmnt1\n");
printf(" od (or fi) unless stmnt2\n");
printf("=====>or rewrite\n");
}
}
static void
put_seq(Sequence *s, int Tt0, int Tt1)
{ SeqList *h;
Element *e, *g;
int a, deadlink;
if (0) printf("put_seq %d\n", s->frst->seqno);
for (e = s->frst; e; e = e->nxt)
{
if (0) printf(" step %d\n", e->seqno);
if (e->status & DONE)
{
if (0) printf(" done before\n");
goto checklast;
}
e->status |= DONE;
if (e->n->ln)
putsrc(e);
if (e->n->ntyp == UNLESS)
{
if (0) printf(" an unless\n");
put_seq(e->sub->this, Tt0, Tt1);
} else if (e->sub)
{
if (0) printf(" has sub\n");
fprintf(tt, "\tT = trans[%d][%d] = ",
Pid, e->seqno);
fprintf(tt, "settr(%d,%d,0,0,0,\"",
e->Seqno, e->status&ATOM);
comment(tt, e->n, e->seqno);
if (e->status&CHECK2)
e->status |= I_GLOB;
fprintf(tt, "\", %d, %d, %d);",
(e->status&I_GLOB)?1:0, Tt0, Tt1);
blurb(tt, e);
for (h = e->sub; h; h = h->nxt)
{ putskip(h->this->frst->seqno);
g = huntstart(h->this->frst);
if (g->esc)
nested_unless(e, g);
a = g->seqno;
if (g->n->ntyp == 'c'
&& g->n->lft->ntyp == CONST
&& g->n->lft->val == 0 /* 0 or false */
&& !g->esc)
{ fprintf(tt, "#if 0\n\t/* dead link: */\n");
deadlink = 1;
if (verbose&32)
printf("spin: line %3d %s, Warning: condition is always false\n",
g->n->ln, g->n->fn?g->n->fn->name:"");
} else
deadlink = 0;
if (0) printf(" settr %d %d\n", a, 0);
if (h->nxt)
fprintf(tt, "\tT = T->nxt\t= ");
else
fprintf(tt, "\t T->nxt\t= ");
fprintf(tt, "settr(%d,%d,%d,0,0,\"",
e->Seqno, e->status&ATOM, a);
comment(tt, e->n, e->seqno);
if (g->status&CHECK2)
h->this->frst->status |= I_GLOB;
fprintf(tt, "\", %d, %d, %d);",
(h->this->frst->status&I_GLOB)?1:0,
Tt0, Tt1);
blurb(tt, e);
if (deadlink)
fprintf(tt, "#endif\n");
}
for (h = e->sub; h; h = h->nxt)
put_seq(h->this, Tt0, Tt1);
} else
{
if (0) printf(" [non]atomic %d\n", e->n->ntyp);
if (e->n->ntyp == ATOMIC
|| e->n->ntyp == D_STEP
|| e->n->ntyp == NON_ATOMIC)
put_sub(e, Tt0, Tt1);
else
{
if (0) printf(" put_el %d\n", e->seqno);
put_el(e, Tt0, Tt1);
}
}
checklast: if (e == s->last)
break;
}
if (0) printf("put_seq done\n");
}
static void
patch_atomic(Sequence *s) /* catch goto's that break the chain */
{ Element *f, *g;
SeqList *h;
for (f = s->frst; f ; f = f->nxt)
{
if (f->n && f->n->ntyp == GOTO)
{ g = get_lab(f->n,1);
cross_dsteps(f->n, g->n);
if ((f->status & (ATOM|L_ATOM))
&& !(g->status & (ATOM|L_ATOM)))
{ f->status &= ~ATOM;
f->status |= L_ATOM;
}
/* bridge atomics */
if ((f->status & L_ATOM)
&& (g->status & (ATOM|L_ATOM)))
{ f->status &= ~L_ATOM;
f->status |= ATOM;
}
} else
for (h = f->sub; h; h = h->nxt)
patch_atomic(h->this);
if (f == s->extent)
break;
}
}
static void
mark_seq(Sequence *s)
{ Element *f;
SeqList *h;
for (f = s->frst; f; f = f->nxt)
{ f->status |= I_GLOB;
if (f->n->ntyp == ATOMIC
|| f->n->ntyp == NON_ATOMIC
|| f->n->ntyp == D_STEP)
mark_seq(f->n->sl->this);
for (h = f->sub; h; h = h->nxt)
mark_seq(h->this);
if (f == s->last)
return;
}
}
static Element *
find_target(Element *e)
{ Element *f;
if (!e) return e;
if (t_cyc++ > 32)
{ fatal("cycle of goto jumps", (char *) 0);
}
switch (e->n->ntyp) {
case GOTO:
f = get_lab(e->n,1);
cross_dsteps(e->n, f->n);
f = find_target(f);
break;
case BREAK:
if (e->nxt)
f = find_target(huntele(e->nxt, e->status, -1));
/* else fall through */
default:
f = e;
break;
}
return f;
}
Element *
target(Element *e)
{
if (!e) return e;
lineno = e->n->ln;
Fname = e->n->fn;
t_cyc = 0;
return find_target(e);
}
static int
scan_seq(Sequence *s)
{ Element *f, *g;
SeqList *h;
for (f = s->frst; f; f = f->nxt)
{ if ((f->status&CHECK2)
|| has_global(f->n))
return 1;
if (f->n->ntyp == GOTO) /* may reach other atomic */
{ g = target(f);
if (g
&& !(f->status & L_ATOM)
&& !(g->status & (ATOM|L_ATOM)))
{ fprintf(tt, " /* goto mark-down, ");
fprintf(tt, "line %d - %d */\n",
f->n->ln, (g->n)?g->n->ln:0);
return 1; /* assume worst case */
} }
for (h = f->sub; h; h = h->nxt)
if (scan_seq(h->this))
return 1;
if (f == s->last)
break;
}
return 0;
}
static int
glob_args(Lextok *n)
{ int result = 0;
Lextok *v;
for (v = n->rgt; v; v = v->rgt)
{ if (v->lft->ntyp == CONST)
continue;
if (v->lft->ntyp == EVAL)
result += has_global(v->lft->lft);
else
result += has_global(v->lft);
}
return result;
}
int
has_global(Lextok *n)
{ Lextok *v; extern int runsafe;
if (!n) return 0;
if (AllGlobal) return 1; /* global provided clause */
switch (n->ntyp) {
case ATOMIC:
case D_STEP:
case NON_ATOMIC:
return scan_seq(n->sl->this);
case '.':
case BREAK:
case GOTO:
case CONST:
return 0;
case ELSE: return n->val; /* true if combined with chan refs */
case 's': return glob_args(n)!=0 || ((n->sym->xu&(XS|XX)) != XS);
case 'r': return glob_args(n)!=0 || ((n->sym->xu&(XR|XX)) != XR);
case 'R': return glob_args(n)!=0 || (((n->sym->xu)&(XR|XS|XX)) != (XR|XS));
case NEMPTY: return ((n->sym->xu&(XR|XX)) != XR);
case NFULL: return ((n->sym->xu&(XS|XX)) != XS);
case FULL: return ((n->sym->xu&(XR|XX)) != XR);
case EMPTY: return ((n->sym->xu&(XS|XX)) != XS);
case LEN: return (((n->sym->xu)&(XR|XS|XX)) != (XR|XS));
case NAME:
if (n->sym->context
|| (n->sym->hidden&64)
|| strcmp(n->sym->name, "_pid") == 0
|| strcmp(n->sym->name, "_") == 0)
return 0;
return 1;
case RUN: return 1-runsafe;
case C_CODE: case C_EXPR:
return glob_inline(n->sym->name);
case ENABLED: case PC_VAL: case NONPROGRESS:
case 'p': case 'q':
case TIMEOUT:
return 1;
/* @ was 1 (global) since 2.8.5
in 3.0 it is considered local and
conditionally safe, provided:
II is the youngest process
and nrprocs < MAXPROCS
*/
case '@': return 0;
case '!': case UMIN: case '~': case ASSERT:
return has_global(n->lft);
case '/': case '*': case '-': case '+':
case '%': case LT: case GT: case '&': case '^':
case '|': case LE: case GE: case NE: case '?':
case EQ: case OR: case AND: case LSHIFT:
case RSHIFT: case 'c': case ASGN:
return has_global(n->lft) || has_global(n->rgt);
case PRINT:
for (v = n->lft; v; v = v->rgt)
if (has_global(v->lft)) return 1;
return 0;
case PRINTM:
return has_global(n->lft);
}
return 0;
}
static void
Bailout(FILE *fd, char *str)
{
if (!GenCode)
fprintf(fd, "continue%s", str);
else if (IsGuard)
fprintf(fd, "%s%s", NextLab[Level], str);
else
fprintf(fd, "Uerror(\"block in step seq\")%s", str);
}
#define cat0(x) putstmnt(fd,now->lft,m); fprintf(fd, x); \
putstmnt(fd,now->rgt,m)
#define cat1(x) fprintf(fd,"("); cat0(x); fprintf(fd,")")
#define cat2(x,y) fprintf(fd,x); putstmnt(fd,y,m)
#define cat3(x,y,z) fprintf(fd,x); putstmnt(fd,y,m); fprintf(fd,z)
void
putstmnt(FILE *fd, Lextok *now, int m)
{ Lextok *v;
int i, j;
if (!now) { fprintf(fd, "0"); return; }
lineno = now->ln;
Fname = now->fn;
switch (now->ntyp) {
case CONST: fprintf(fd, "%d", now->val); break;
case '!': cat3(" !(", now->lft, ")"); break;
case UMIN: cat3(" -(", now->lft, ")"); break;
case '~': cat3(" ~(", now->lft, ")"); break;
case '/': cat1("/"); break;
case '*': cat1("*"); break;
case '-': cat1("-"); break;
case '+': cat1("+"); break;
case '%': cat1("%%"); break;
case '&': cat1("&"); break;
case '^': cat1("^"); break;
case '|': cat1("|"); break;
case LT: cat1("<"); break;
case GT: cat1(">"); break;
case LE: cat1("<="); break;
case GE: cat1(">="); break;
case NE: cat1("!="); break;
case EQ: cat1("=="); break;
case OR: cat1("||"); break;
case AND: cat1("&&"); break;
case LSHIFT: cat1("<<"); break;
case RSHIFT: cat1(">>"); break;
case TIMEOUT:
if (separate == 2)
fprintf(fd, "((tau)&1)");
else
fprintf(fd, "((trpt->tau)&1)");
if (GenCode)
printf("spin: line %3d, warning: 'timeout' in d_step sequence\n",
lineno);
/* is okay as a guard */
break;
case RUN:
if (claimproc
&& strcmp(now->sym->name, claimproc) == 0)
fatal("claim %s, (not runnable)", claimproc);
if (eventmap
&& strcmp(now->sym->name, eventmap) == 0)
fatal("eventmap %s, (not runnable)", eventmap);
if (GenCode)
fatal("'run' in d_step sequence (use atomic)",
(char *)0);
fprintf(fd,"addproc(%d", fproc(now->sym->name));
for (v = now->lft, i = 0; v; v = v->rgt, i++)
{ cat2(", ", v->lft);
}
if (i > Npars)
{ printf(" %d parameters used, %d expected\n", i, Npars);
fatal("too many parameters in run %s(...)",
now->sym->name);
}
for ( ; i < Npars; i++)
fprintf(fd, ", 0");
fprintf(fd, ")");
break;
case ENABLED:
cat3("enabled(II, ", now->lft, ")");
break;
case NONPROGRESS:
/* o_pm&4=progress, tau&128=claim stutter */
if (separate == 2)
fprintf(fd, "(!(o_pm&4) && !(tau&128))");
else
fprintf(fd, "(!(trpt->o_pm&4) && !(trpt->tau&128))");
break;
case PC_VAL:
cat3("((P0 *) Pptr(", now->lft, "+BASE))->_p");
break;
case LEN:
if (!terse && !TestOnly && has_xu)
{ fprintf(fd, "\n#ifndef XUSAFE\n\t\t");
putname(fd, "(!(q_claim[", now->lft, m, "]&1) || ");
putname(fd, "q_R_check(", now->lft, m, "");
fprintf(fd, ", II)) &&\n\t\t");
putname(fd, "(!(q_claim[", now->lft, m, "]&2) || ");
putname(fd, "q_S_check(", now->lft, m, ", II)) &&");
fprintf(fd, "\n#endif\n\t\t");
}
putname(fd, "q_len(", now->lft, m, ")");
break;
case FULL:
if (!terse && !TestOnly && has_xu)
{ fprintf(fd, "\n#ifndef XUSAFE\n\t\t");
putname(fd, "(!(q_claim[", now->lft, m, "]&1) || ");
putname(fd, "q_R_check(", now->lft, m, "");
fprintf(fd, ", II)) &&\n\t\t");
putname(fd, "(!(q_claim[", now->lft, m, "]&2) || ");
putname(fd, "q_S_check(", now->lft, m, ", II)) &&");
fprintf(fd, "\n#endif\n\t\t");
}
putname(fd, "q_full(", now->lft, m, ")");
break;
case EMPTY:
if (!terse && !TestOnly && has_xu)
{ fprintf(fd, "\n#ifndef XUSAFE\n\t\t");
putname(fd, "(!(q_claim[", now->lft, m, "]&1) || ");
putname(fd, "q_R_check(", now->lft, m, "");
fprintf(fd, ", II)) &&\n\t\t");
putname(fd, "(!(q_claim[", now->lft, m, "]&2) || ");
putname(fd, "q_S_check(", now->lft, m, ", II)) &&");
fprintf(fd, "\n#endif\n\t\t");
}
putname(fd, "(q_len(", now->lft, m, ")==0)");
break;
case NFULL:
if (!terse && !TestOnly && has_xu)
{ fprintf(fd, "\n#ifndef XUSAFE\n\t\t");
putname(fd, "(!(q_claim[", now->lft, m, "]&2) || ");
putname(fd, "q_S_check(", now->lft, m, ", II)) &&");
fprintf(fd, "\n#endif\n\t\t");
}
putname(fd, "(!q_full(", now->lft, m, "))");
break;
case NEMPTY:
if (!terse && !TestOnly && has_xu)
{ fprintf(fd, "\n#ifndef XUSAFE\n\t\t");
putname(fd, "(!(q_claim[", now->lft, m, "]&1) || ");
putname(fd, "q_R_check(", now->lft, m, ", II)) &&");
fprintf(fd, "\n#endif\n\t\t");
}
putname(fd, "(q_len(", now->lft, m, ")>0)");
break;
case 's':
if (Pid == eventmapnr)
{ fprintf(fd, "if ((ot == EVENT_TRACE && _tp != 's') ");
putname(fd, "|| _qid+1 != ", now->lft, m, "");
for (v = now->rgt, i=0; v; v = v->rgt, i++)
{ if (v->lft->ntyp != CONST
&& v->lft->ntyp != EVAL)
continue;
fprintf(fd, " \\\n\t\t|| qrecv(");
putname(fd, "", now->lft, m, ", ");
putname(fd, "q_len(", now->lft, m, ")-1, ");
fprintf(fd, "%d, 0) != ", i);
if (v->lft->ntyp == CONST)
putstmnt(fd, v->lft, m);
else /* EVAL */
putstmnt(fd, v->lft->lft, m);
}
fprintf(fd, ")\n");
fprintf(fd, "\t\t continue");
putname(th, " || (x_y3_ == ", now->lft, m, ")");
break;
}
if (TestOnly)
{ if (m_loss)
fprintf(fd, "1");
else
putname(fd, "!q_full(", now->lft, m, ")");
break;
}
if (has_xu)
{ fprintf(fd, "\n#ifndef XUSAFE\n\t\t");
putname(fd, "if (q_claim[", now->lft, m, "]&2) ");
putname(fd, "q_S_check(", now->lft, m, ", II);");
fprintf(fd, "\n#endif\n\t\t");
}
fprintf(fd, "if (q_%s",
(u_sync > 0 && u_async == 0)?"len":"full");
putname(fd, "(", now->lft, m, "))\n");
if (m_loss)
fprintf(fd, "\t\t{ nlost++; delta_m = 1; } else {");
else
{ fprintf(fd, "\t\t\t");
Bailout(fd, ";");
}
if (has_enabled)
fprintf(fd, "\n\t\tif (TstOnly) return 1;");
if (u_sync && !u_async && rvopt)
fprintf(fd, "\n\n\t\tif (no_recvs(II)) continue;\n");
fprintf(fd, "\n#ifdef HAS_CODE\n");
fprintf(fd, "\t\tif (readtrail && gui) {\n");
fprintf(fd, "\t\t\tchar simtmp[32];\n");
putname(fd, "\t\t\tsprintf(simvals, \"%%d!\", ", now->lft, m, ");\n");
_isok++;
for (v = now->rgt, i = 0; v; v = v->rgt, i++)
{ cat3("\t\tsprintf(simtmp, \"%%d\", ", v->lft, "); strcat(simvals, simtmp);");
if (v->rgt)
fprintf(fd, "\t\tstrcat(simvals, \",\");\n");
}
_isok--;
fprintf(fd, "\t\t}\n");
fprintf(fd, "#endif\n\t\t");
putname(fd, "\n\t\tqsend(", now->lft, m, "");
fprintf(fd, ", %d", now->val);
for (v = now->rgt, i = 0; v; v = v->rgt, i++)
{ cat2(", ", v->lft);
}
if (i > Mpars)
{ terse++;
putname(stdout, "channel name: ", now->lft, m, "\n");
terse--;
printf(" %d msg parameters sent, %d expected\n", i, Mpars);
fatal("too many pars in send", "");
}
for ( ; i < Mpars; i++)
fprintf(fd, ", 0");
fprintf(fd, ")");
if (u_sync)
{ fprintf(fd, ";\n\t\t");
if (u_async)
putname(fd, "if (q_zero(", now->lft, m, ")) ");
putname(fd, "{ boq = ", now->lft, m, "");
if (GenCode)
fprintf(fd, "; Uerror(\"rv-attempt in d_step\")");
fprintf(fd, "; }");
}
if (m_loss)
fprintf(fd, ";\n\t\t}\n\t\t"); /* end of m_loss else */
break;
case 'r':
if (Pid == eventmapnr)
{ fprintf(fd, "if ((ot == EVENT_TRACE && _tp != 'r') ");
putname(fd, "|| _qid+1 != ", now->lft, m, "");
for (v = now->rgt, i=0; v; v = v->rgt, i++)
{ if (v->lft->ntyp != CONST
&& v->lft->ntyp != EVAL)
continue;
fprintf(fd, " \\\n\t\t|| qrecv(");
putname(fd, "", now->lft, m, ", ");
fprintf(fd, "0, %d, 0) != ", i);
if (v->lft->ntyp == CONST)
putstmnt(fd, v->lft, m);
else /* EVAL */
putstmnt(fd, v->lft->lft, m);
}
fprintf(fd, ")\n");
fprintf(fd, "\t\t continue");
putname(tc, " || (x_y3_ == ", now->lft, m, ")");
break;
}
if (TestOnly)
{ fprintf(fd, "((");
if (u_sync) fprintf(fd, "(boq == -1 && ");
putname(fd, "q_len(", now->lft, m, ")");
if (u_sync && now->val <= 1)
{ putname(fd, ") || (boq == ", now->lft,m," && ");
putname(fd, "q_zero(", now->lft,m,"))");
}
fprintf(fd, ")");
if (now->val == 0 || now->val == 2)
{ for (v = now->rgt, i=j=0; v; v = v->rgt, i++)
{ if (v->lft->ntyp == CONST)
{ cat3("\n\t\t&& (", v->lft, " == ");
putname(fd, "qrecv(", now->lft, m, ", ");
fprintf(fd, "0, %d, 0))", i);
} else if (v->lft->ntyp == EVAL)
{ cat3("\n\t\t&& (", v->lft->lft, " == ");
putname(fd, "qrecv(", now->lft, m, ", ");
fprintf(fd, "0, %d, 0))", i);
} else
{ j++; continue;
}
}
} else
{ fprintf(fd, "\n\t\t&& Q_has(");
putname(fd, "", now->lft, m, "");
for (v = now->rgt, i=0; v; v = v->rgt, i++)
{ if (v->lft->ntyp == CONST)
{ fprintf(fd, ", 1, ");
putstmnt(fd, v->lft, m);
} else if (v->lft->ntyp == EVAL)
{ fprintf(fd, ", 1, ");
putstmnt(fd, v->lft->lft, m);
} else
{ fprintf(fd, ", 0, 0");
} }
for ( ; i < Mpars; i++)
fprintf(fd, ", 0, 0");
fprintf(fd, ")");
}
fprintf(fd, ")");
break;
}
if (has_xu)
{ fprintf(fd, "\n#ifndef XUSAFE\n\t\t");
putname(fd, "if (q_claim[", now->lft, m, "]&1) ");
putname(fd, "q_R_check(", now->lft, m, ", II);");
fprintf(fd, "\n#endif\n\t\t");
}
if (u_sync)
{ if (now->val >= 2)
{ if (u_async)
{ fprintf(fd, "if (");
putname(fd, "q_zero(", now->lft,m,"))");
fprintf(fd, "\n\t\t{\t");
}
fprintf(fd, "uerror(\"polling ");
fprintf(fd, "rv chan\");\n\t\t");
if (u_async)
fprintf(fd, " continue;\n\t\t}\n\t\t");
fprintf(fd, "IfNotBlocked\n\t\t");
} else
{ fprintf(fd, "if (");
if (u_async == 0)
putname(fd, "boq != ", now->lft,m,") ");
else
{ putname(fd, "q_zero(", now->lft,m,"))");
fprintf(fd, "\n\t\t{\tif (boq != ");
putname(fd, "", now->lft,m,") ");
Bailout(fd, ";\n\t\t} else\n\t\t");
fprintf(fd, "{\tif (boq != -1) ");
}
Bailout(fd, ";\n\t\t");
if (u_async)
fprintf(fd, "}\n\t\t");
} }
putname(fd, "if (q_len(", now->lft, m, ") == 0) ");
Bailout(fd, "");
for (v = now->rgt, j=0; v; v = v->rgt)
{ if (v->lft->ntyp != CONST
&& v->lft->ntyp != EVAL)
j++; /* count settables */
}
fprintf(fd, ";\n\n\t\tXX=1");
/* test */ if (now->val == 0 || now->val == 2)
{ for (v = now->rgt, i=0; v; v = v->rgt, i++)
{ if (v->lft->ntyp == CONST)
{ fprintf(fd, ";\n\t\t");
cat3("if (", v->lft, " != ");
putname(fd, "qrecv(", now->lft, m, ", ");
fprintf(fd, "0, %d, 0)) ", i);
Bailout(fd, "");
} else if (v->lft->ntyp == EVAL)
{ fprintf(fd, ";\n\t\t");
cat3("if (", v->lft->lft, " != ");
putname(fd, "qrecv(", now->lft, m, ", ");
fprintf(fd, "0, %d, 0)) ", i);
Bailout(fd, "");
} }
} else /* random receive: val 1 or 3 */
{ fprintf(fd, ";\n\t\tif (!(XX = Q_has(");
putname(fd, "", now->lft, m, "");
for (v = now->rgt, i=0; v; v = v->rgt, i++)
{ if (v->lft->ntyp == CONST)
{ fprintf(fd, ", 1, ");
putstmnt(fd, v->lft, m);
} else if (v->lft->ntyp == EVAL)
{ fprintf(fd, ", 1, ");
putstmnt(fd, v->lft->lft, m);
} else
{ fprintf(fd, ", 0, 0");
} }
for ( ; i < Mpars; i++)
fprintf(fd, ", 0, 0");
fprintf(fd, "))) ");
Bailout(fd, "");
fprintf(fd, ";\n\t\t");
if (multi_oval)
{ check_needed();
fprintf(fd, "(trpt+1)->bup.ovals[%d] = ",
multi_oval-1);
multi_oval++;
} else
fprintf(fd, "(trpt+1)->bup.oval = ");
fprintf(fd, "XX");
}
if (has_enabled)
fprintf(fd, ";\n\t\tif (TstOnly) return 1");
if (j == 0 && now->val >= 2)
{ fprintf(fd, ";\n\t\t");
break; /* poll without side-effect */
}
if (!GenCode)
{ int jj = 0;
fprintf(fd, ";\n\t\t");
/* no variables modified */
if (j == 0 && now->val == 0)
{ fprintf(fd, "if (q_flds[((Q0 *)qptr(");
putname(fd, "", now->lft, m, "-1))->_t]");
fprintf(fd, " != %d)\n\t", i);
fprintf(fd, "\t\tUerror(\"wrong nr of msg fields in rcv\");\n\t\t");
}
for (v = now->rgt; v; v = v->rgt)
if ((v->lft->ntyp != CONST
&& v->lft->ntyp != EVAL))
jj++; /* nr of vars needing bup */
if (jj)
for (v = now->rgt, i = 0; v; v = v->rgt, i++)
{ char tempbuf[64];
if ((v->lft->ntyp == CONST
|| v->lft->ntyp == EVAL))
continue;
if (multi_oval)
{ check_needed();
sprintf(tempbuf, "(trpt+1)->bup.ovals[%d] = ",
multi_oval-1);
multi_oval++;
} else
sprintf(tempbuf, "(trpt+1)->bup.oval = ");
if (v->lft->sym && !strcmp(v->lft->sym->name, "_"))
{ fprintf(fd, tempbuf);
putname(fd, "qrecv(", now->lft, m, "");
fprintf(fd, ", XX-1, %d, 0);\n\t\t", i);
} else
{ _isok++;
cat3(tempbuf, v->lft, ";\n\t\t");
_isok--;
}
}
if (jj) /* check for double entries q?x,x */
{ Lextok *w;
for (v = now->rgt; v; v = v->rgt)
{ if (v->lft->ntyp != CONST
&& v->lft->ntyp != EVAL
&& v->lft->sym
&& v->lft->sym->type != STRUCT /* not a struct */
&& v->lft->sym->nel == 1 /* not an array */
&& strcmp(v->lft->sym->name, "_") != 0)
for (w = v->rgt; w; w = w->rgt)
if (v->lft->sym == w->lft->sym)
{ fatal("cannot use var ('%s') in multiple msg fields",
v->lft->sym->name);
} } }
}
/* set */ for (v = now->rgt, i = 0; v; v = v->rgt, i++)
{ if ((v->lft->ntyp == CONST
|| v->lft->ntyp == EVAL) && v->rgt)
continue;
fprintf(fd, ";\n\t\t");
if (v->lft->ntyp != CONST
&& v->lft->ntyp != EVAL
&& strcmp(v->lft->sym->name, "_") != 0)
{ nocast=1;
_isok++;
putstmnt(fd, v->lft, m);
_isok--;
nocast=0;
fprintf(fd, " = ");
}
putname(fd, "qrecv(", now->lft, m, ", ");
fprintf(fd, "XX-1, %d, ", i);
fprintf(fd, "%d)", (v->rgt || now->val >= 2)?0:1);
if (v->lft->ntyp != CONST
&& v->lft->ntyp != EVAL
&& strcmp(v->lft->sym->name, "_") != 0
&& (v->lft->ntyp != NAME
|| v->lft->sym->type != CHAN))
{ fprintf(fd, ";\n#ifdef VAR_RANGES");
fprintf(fd, "\n\t\tlogval(\"");
withprocname = terse = nocast = 1;
_isok++;
putstmnt(fd,v->lft,m);
withprocname = terse = nocast = 0;
fprintf(fd, "\", ");
putstmnt(fd,v->lft,m);
_isok--;
fprintf(fd, ");\n#endif\n");
fprintf(fd, "\t\t");
}
}
fprintf(fd, ";\n\t\t");
fprintf(fd, "\n#ifdef HAS_CODE\n");
fprintf(fd, "\t\tif (readtrail && gui) {\n");
fprintf(fd, "\t\t\tchar simtmp[32];\n");
putname(fd, "\t\t\tsprintf(simvals, \"%%d?\", ", now->lft, m, ");\n");
_isok++;
for (v = now->rgt, i = 0; v; v = v->rgt, i++)
{ if (v->lft->ntyp != EVAL)
{ cat3("\t\tsprintf(simtmp, \"%%d\", ", v->lft, "); strcat(simvals, simtmp);");
} else
{ cat3("\t\tsprintf(simtmp, \"%%d\", ", v->lft->lft, "); strcat(simvals, simtmp);");
}
if (v->rgt)
fprintf(fd, "\t\tstrcat(simvals, \",\");\n");
}
_isok--;
fprintf(fd, "\t\t}\n");
fprintf(fd, "#endif\n\t\t");
if (u_sync)
{ putname(fd, "if (q_zero(", now->lft, m, "))");
fprintf(fd, "\n\t\t{ boq = -1;\n");
fprintf(fd, "#ifndef NOFAIR\n"); /* NEW 3.0.8 */
fprintf(fd, "\t\t\tif (fairness\n");
fprintf(fd, "\t\t\t&& !(trpt->o_pm&32)\n");
fprintf(fd, "\t\t\t&& (now._a_t&2)\n");
fprintf(fd, "\t\t\t&& now._cnt[now._a_t&1] == II+2)\n");
fprintf(fd, "\t\t\t{ now._cnt[now._a_t&1] -= 1;\n");
fprintf(fd, "#ifdef VERI\n");
fprintf(fd, "\t\t\t if (II == 1)\n");
fprintf(fd, "\t\t\t now._cnt[now._a_t&1] = 1;\n");
fprintf(fd, "#endif\n");
fprintf(fd, "#ifdef DEBUG\n");
fprintf(fd, "\t\t\tprintf(\"%%3d: proc %%d fairness \", depth, II);\n");
fprintf(fd, "\t\t\tprintf(\"Rule 2: --cnt to %%d (%%d)\\n\",\n");
fprintf(fd, "\t\t\t now._cnt[now._a_t&1], now._a_t);\n");
fprintf(fd, "#endif\n");
fprintf(fd, "\t\t\t trpt->o_pm |= (32|64);\n");
fprintf(fd, "\t\t\t}\n");
fprintf(fd, "#endif\n");
fprintf(fd, "\n\t\t}");
}
break;
case 'R':
if (!terse && !TestOnly && has_xu)
{ fprintf(fd, "\n#ifndef XUSAFE\n\t\t");
putname(fd, "(!(q_claim[", now->lft, m, "]&1) || ");
fprintf(fd, "q_R_check(");
putname(fd, "", now->lft, m, ", II)) &&\n\t\t");
putname(fd, "(!(q_claim[", now->lft, m, "]&2) || ");
putname(fd, "q_S_check(", now->lft, m, ", II)) &&");
fprintf(fd, "\n#endif\n\t\t");
}
if (u_sync>0)
putname(fd, "not_RV(", now->lft, m, ") && \\\n\t\t");
for (v = now->rgt, i=j=0; v; v = v->rgt, i++)
if (v->lft->ntyp != CONST
&& v->lft->ntyp != EVAL)
{ j++; continue;
}
if (now->val == 0 || i == j)
{ putname(fd, "(q_len(", now->lft, m, ") > 0");
for (v = now->rgt, i=0; v; v = v->rgt, i++)
{ if (v->lft->ntyp != CONST
&& v->lft->ntyp != EVAL)
continue;
fprintf(fd, " \\\n\t\t&& qrecv(");
putname(fd, "", now->lft, m, ", ");
fprintf(fd, "0, %d, 0) == ", i);
if (v->lft->ntyp == CONST)
putstmnt(fd, v->lft, m);
else /* EVAL */
putstmnt(fd, v->lft->lft, m);
}
fprintf(fd, ")");
} else
{ putname(fd, "Q_has(", now->lft, m, "");
for (v = now->rgt, i=0; v; v = v->rgt, i++)
{ if (v->lft->ntyp == CONST)
{ fprintf(fd, ", 1, ");
putstmnt(fd, v->lft, m);
} else if (v->lft->ntyp == EVAL)
{ fprintf(fd, ", 1, ");
putstmnt(fd, v->lft->lft, m);
} else
fprintf(fd, ", 0, 0");
}
for ( ; i < Mpars; i++)
fprintf(fd, ", 0, 0");
fprintf(fd, ")");
}
break;
case 'c':
preruse(fd, now->lft); /* preconditions */
cat3("if (!(", now->lft, "))\n\t\t\t");
Bailout(fd, "");
break;
case ELSE:
if (!GenCode)
{ if (separate == 2)
fprintf(fd, "if (o_pm&1)\n\t\t\t");
else
fprintf(fd, "if (trpt->o_pm&1)\n\t\t\t");
Bailout(fd, "");
} else
{ fprintf(fd, "/* else */");
}
break;
case '?':
if (now->lft)
{ cat3("( (", now->lft, ") ? ");
}
if (now->rgt)
{ cat3("(", now->rgt->lft, ") : ");
cat3("(", now->rgt->rgt, ") )");
}
break;
case ASGN:
if (has_enabled)
fprintf(fd, "if (TstOnly) return 1;\n\t\t");
_isok++;
if (!GenCode)
{ if (multi_oval)
{ char tempbuf[64];
check_needed();
sprintf(tempbuf, "(trpt+1)->bup.ovals[%d] = ",
multi_oval-1);
multi_oval++;
cat3(tempbuf, now->lft, ";\n\t\t");
} else
{ cat3("(trpt+1)->bup.oval = ", now->lft, ";\n\t\t");
} }
nocast = 1; putstmnt(fd,now->lft,m); nocast = 0;
fprintf(fd," = ");
_isok--;
putstmnt(fd,now->rgt,m);
if (now->sym->type != CHAN
|| verbose > 0)
{ fprintf(fd, ";\n#ifdef VAR_RANGES");
fprintf(fd, "\n\t\tlogval(\"");
withprocname = terse = nocast = 1;
_isok++;
putstmnt(fd,now->lft,m);
withprocname = terse = nocast = 0;
fprintf(fd, "\", ");
putstmnt(fd,now->lft,m);
_isok--;
fprintf(fd, ");\n#endif\n");
fprintf(fd, "\t\t");
}
break;
case PRINT:
if (has_enabled)
fprintf(fd, "if (TstOnly) return 1;\n\t\t");
#ifdef PRINTF
fprintf(fd, "printf(%s", now->sym->name);
#else
fprintf(fd, "Printf(%s", now->sym->name);
#endif
for (v = now->lft; v; v = v->rgt)
{ cat2(", ", v->lft);
}
fprintf(fd, ")");
break;
case PRINTM:
if (has_enabled)
fprintf(fd, "if (TstOnly) return 1;\n\t\t");
fprintf(fd, "printm(");
if (now->lft && now->lft->ismtyp)
fprintf(fd, "%d", now->lft->val);
else
putstmnt(fd, now->lft, m);
fprintf(fd, ")");
break;
case NAME:
if (!nocast && now->sym && Sym_typ(now) < SHORT)
putname(fd, "((int)", now, m, ")");
else
putname(fd, "", now, m, "");
break;
case 'p':
putremote(fd, now, m);
break;
case 'q':
if (terse)
fprintf(fd, "%s", now->sym->name);
else
fprintf(fd, "%d", remotelab(now));
break;
case C_EXPR:
fprintf(fd, "(");
plunk_expr(fd, now->sym->name);
fprintf(fd, ") /* %s */ ", now->sym->name);
break;
case C_CODE:
fprintf(fd, "/* %s */\n\t\t", now->sym->name);
if (has_enabled)
fprintf(fd, "if (TstOnly) return 1;\n\t\t");
if (!GenCode) /* not in d_step */
{ fprintf(fd, "sv_save();\n\t\t");
/* store the old values for reverse moves */
}
plunk_inline(fd, now->sym->name, 1);
if (!GenCode)
{ fprintf(fd, "\n"); /* state changed, capture it */
fprintf(fd, "#if defined(C_States) && (HAS_TRACK==1)\n");
fprintf(fd, "\t\tc_update((uchar *) &(now.c_state[0]));\n");
fprintf(fd, "#endif\n");
}
break;
case ASSERT:
if (has_enabled)
fprintf(fd, "if (TstOnly) return 1;\n\t\t");
cat3("assert(", now->lft, ", ");
terse = nocast = 1;
cat3("\"", now->lft, "\", II, tt, t)");
terse = nocast = 0;
break;
case '.':
case BREAK:
case GOTO:
if (Pid == eventmapnr)
fprintf(fd, "Uerror(\"cannot get here\")");
putskip(m);
break;
case '@':
if (Pid == eventmapnr)
{ fprintf(fd, "return 0");
break;
}
if (has_enabled)
{ fprintf(fd, "if (TstOnly)\n\t\t\t");
fprintf(fd, "return (II+1 == now._nr_pr);\n\t\t");
}
fprintf(fd, "if (!delproc(1, II)) ");
Bailout(fd, "");
break;
default:
printf("spin: bad node type %d (.m) - line %d\n",
now->ntyp, now->ln);
fflush(tm);
alldone(1);
}
}
void
putname(FILE *fd, char *pre, Lextok *n, int m, char *suff) /* varref */
{ Symbol *s = n->sym;
lineno = n->ln; Fname = n->fn;
if (!s)
fatal("no name - putname", (char *) 0);
if (s->context && context && s->type)
s = findloc(s); /* it's a local var */
if (!s)
{ fprintf(fd, "%s%s%s", pre, n->sym->name, suff);
return;
}
if (!s->type) /* not a local name */
s = lookup(s->name); /* must be a global */
if (!s->type)
{ if (strcmp(pre, ".") != 0)
non_fatal("undeclared variable '%s'", s->name);
s->type = INT;
}
if (s->type == PROCTYPE)
fatal("proctype-name '%s' used as array-name", s->name);
fprintf(fd, pre);
if (!terse && !s->owner && evalindex != 1)
{ if (s->context
|| strcmp(s->name, "_p") == 0
|| strcmp(s->name, "_pid") == 0)
{ fprintf(fd, "((P%d *)this)->", Pid);
} else
{ int x = strcmp(s->name, "_");
if (!(s->hidden&1) && x != 0)
fprintf(fd, "now.");
if (x == 0 && _isok == 0)
fatal("attempt to read value of '_'", 0);
} }
if (withprocname
&& s->context
&& strcmp(pre, "."))
fprintf(fd, "%s:", s->context->name);
if (evalindex != 1)
fprintf(fd, "%s", s->name);
if (s->nel != 1)
{ if (no_arrays)
{
non_fatal("ref to array element invalid in this context",
(char *)0);
printf("\thint: instead of, e.g., x[rs] qu[3], use\n");
printf("\tchan nm_3 = qu[3]; x[rs] nm_3;\n");
printf("\tand use nm_3 in sends/recvs instead of qu[3]\n");
}
/* an xr or xs reference to an array element
* becomes an exclusion tag on the array itself -
* which could result in invalidly labeling
* operations on other elements of this array to
* be also safe under the partial order reduction
* (see procedure has_global())
*/
if (evalindex == 2)
{ fprintf(fd, "[%%d]");
} else if (evalindex == 1)
{ evalindex = 0; /* no good if index is indexed array */
fprintf(fd, ", ");
putstmnt(fd, n->lft, m);
evalindex = 1;
} else
{ if (terse
|| (n->lft
&& n->lft->ntyp == CONST
&& n->lft->val < s->nel)
|| (!n->lft && s->nel > 0))
{ cat3("[", n->lft, "]");
} else
{ cat3("[ Index(", n->lft, ", ");
fprintf(fd, "%d) ]", s->nel);
}
}
}
if (s->type == STRUCT && n->rgt && n->rgt->lft)
{ putname(fd, ".", n->rgt->lft, m, "");
}
fprintf(fd, suff);
}
void
putremote(FILE *fd, Lextok *n, int m) /* remote reference */
{ int promoted = 0;
int pt;
if (terse)
{ fprintf(fd, "%s", n->lft->sym->name); /* proctype name */
if (n->lft->lft)
{ fprintf(fd, "[");
putstmnt(fd, n->lft->lft, m); /* pid */
fprintf(fd, "]");
}
fprintf(fd, ".%s", n->sym->name);
} else
{ if (Sym_typ(n) < SHORT)
{ promoted = 1;
fprintf(fd, "((int)");
}
pt = fproc(n->lft->sym->name);
fprintf(fd, "((P%d *)Pptr(", pt);
if (n->lft->lft)
{ fprintf(fd, "BASE+");
putstmnt(fd, n->lft->lft, m);
} else
fprintf(fd, "f_pid(%d)", pt);
fprintf(fd, "))->%s", n->sym->name);
}
if (n->rgt)
{ fprintf(fd, "[");
putstmnt(fd, n->rgt, m); /* array var ref */
fprintf(fd, "]");
}
if (promoted) fprintf(fd, ")");
}
static int
getweight(Lextok *n)
{ /* this piece of code is a remnant of early versions
* of the verifier -- in the current version of Spin
* only non-zero values matter - so this could probably
* simply return 1 in all cases.
*/
switch (n->ntyp) {
case 'r': return 4;
case 's': return 2;
case TIMEOUT: return 1;
case 'c': if (has_typ(n->lft, TIMEOUT)) return 1;
}
return 3;
}
int
has_typ(Lextok *n, int m)
{
if (!n) return 0;
if (n->ntyp == m) return 1;
return (has_typ(n->lft, m) || has_typ(n->rgt, m));
}
static int runcount, opcount;
static void
do_count(Lextok *n, int checkop)
{
if (!n) return;
switch (n->ntyp) {
case RUN:
runcount++;
break;
default:
if (checkop) opcount++;
break;
}
do_count(n->lft, checkop && (n->ntyp != RUN));
do_count(n->rgt, checkop);
}
void
count_runs(Lextok *n)
{
runcount = opcount = 0;
do_count(n, 1);
if (runcount > 1)
fatal("more than one run operator in expression", "");
if (runcount == 1 && opcount > 1)
fatal("use of run operator in compound expression", "");
}
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