ref: 17f7f6be4e1a316c0f5f26ff70e047aece4de2bc
dir: /sys/src/cmd/spin/sched.c/
/***** spin: sched.c *****/ /* * This file is part of the public release of Spin. It is subject to the * terms in the LICENSE file that is included in this source directory. * Tool documentation is available at http://spinroot.com */ #include <stdlib.h> #include "spin.h" #include "y.tab.h" extern int verbose, s_trail, analyze, no_wrapup; extern char *claimproc, *eventmap, Buf[]; extern Ordered *all_names; extern Symbol *Fname, *context; extern int lineno, nr_errs, dumptab, xspin, jumpsteps, columns; extern int u_sync, Elcnt, interactive, TstOnly, cutoff; extern short has_enabled, has_priority, has_code, replay; extern int limited_vis, product, nclaims, old_priority_rules; extern int old_scope_rules, scope_seq[128], scope_level, has_stdin; extern int pc_highest(Lextok *n); RunList *X = (RunList *) 0; RunList *run = (RunList *) 0; RunList *LastX = (RunList *) 0; /* previous executing proc */ ProcList *rdy = (ProcList *) 0; Element *LastStep = ZE; int nproc=0, nstop=0, Tval=0, Priority_Sum = 0; int Rvous=0, depth=0, nrRdy=0, MadeChoice; short Have_claim=0, Skip_claim=0; static void setlocals(RunList *); static void setparams(RunList *, ProcList *, Lextok *); static void talk(RunList *); void runnable(ProcList *p, int weight, int noparams) { RunList *r = (RunList *) emalloc(sizeof(RunList)); r->n = p->n; r->tn = p->tn; r->b = p->b; r->pid = nproc++ - nstop + Skip_claim; r->priority = weight; p->priority = (unsigned char) weight; /* not quite the best place of course */ if (!noparams && ((verbose&4) || (verbose&32))) { printf("Starting %s with pid %d", p->n?p->n->name:"--", r->pid); if (has_priority) printf(" priority %d", r->priority); printf("\n"); } if (!p->s) fatal("parsing error, no sequence %s", p->n?p->n->name:"--"); r->pc = huntele(p->s->frst, p->s->frst->status, -1); r->ps = p->s; if (p->s->last) p->s->last->status |= ENDSTATE; /* normal end state */ r->nxt = run; r->prov = p->prov; if (weight < 1 || weight > 255) { fatal("bad process priority, valid range: 1..255", (char *) 0); } if (noparams) setlocals(r); Priority_Sum += weight; run = r; } ProcList * ready(Symbol *n, Lextok *p, Sequence *s, int det, Lextok *prov, enum btypes b) /* n=name, p=formals, s=body det=deterministic prov=provided */ { ProcList *r = (ProcList *) emalloc(sizeof(ProcList)); Lextok *fp, *fpt; int j; extern int Npars; r->n = n; r->p = p; r->s = s; r->b = b; r->prov = prov; r->tn = (short) nrRdy++; n->sc = scope_seq[scope_level]; /* scope_level should be 0 */ if (det != 0 && det != 1) { fprintf(stderr, "spin: bad value for det (cannot happen)\n"); } r->det = (unsigned char) det; r->nxt = rdy; rdy = r; for (fp = p, j = 0; fp; fp = fp->rgt) for (fpt = fp->lft; fpt; fpt = fpt->rgt) j++; /* count # of parameters */ Npars = max(Npars, j); return rdy; } int find_maxel(Symbol *s) { ProcList *p; for (p = rdy; p; p = p->nxt) if (p->n == s) return p->s->maxel++; return Elcnt++; } static void formdump(void) { ProcList *p; Lextok *f, *t; int cnt; for (p = rdy; p; p = p->nxt) { if (!p->p) continue; cnt = -1; for (f = p->p; f; f = f->rgt) /* types */ for (t = f->lft; t; t = t->rgt) /* formals */ { if (t->ntyp != ',') t->sym->Nid = cnt--; /* overload Nid */ else t->lft->sym->Nid = cnt--; } } } void announce(char *w) { if (columns) { extern char Buf[]; extern int firstrow; firstrow = 1; if (columns == 2) { sprintf(Buf, "%d:%s", run->pid - Have_claim, run->n->name); pstext(run->pid - Have_claim, Buf); } else { printf("proc %d = %s\n", run->pid - Have_claim, run->n->name); } return; } if (dumptab || analyze || product || s_trail || !(verbose&4)) return; if (w) printf(" 0: proc - (%s) ", w); else whoruns(1); printf("creates proc %2d (%s)", run->pid - Have_claim, run->n->name); if (run->priority > 1) printf(" priority %d", run->priority); printf("\n"); } #ifndef MAXP #define MAXP 255 /* matches max nr of processes in verifier */ #endif int enable(Lextok *m) { ProcList *p; Symbol *s = m->sym; /* proctype name */ Lextok *n = m->lft; /* actual parameters */ if (m->val < 1) { m->val = 1; /* minimum priority */ } for (p = rdy; p; p = p->nxt) { if (strcmp(s->name, p->n->name) == 0) { if (nproc-nstop >= MAXP) { printf("spin: too many processes (%d max)\n", MAXP); break; } runnable(p, m->val, 0); announce((char *) 0); setparams(run, p, n); setlocals(run); /* after setparams */ return run->pid - Have_claim + Skip_claim; /* effective simu pid */ } } return 0; /* process not found */ } void check_param_count(int i, Lextok *m) { ProcList *p; Symbol *s = m->sym; /* proctype name */ Lextok *f, *t; /* formal pars */ int cnt = 0; for (p = rdy; p; p = p->nxt) { if (strcmp(s->name, p->n->name) == 0) { if (m->lft) /* actual param list */ { lineno = m->lft->ln; Fname = m->lft->fn; } for (f = p->p; f; f = f->rgt) /* one type at a time */ for (t = f->lft; t; t = t->rgt) /* count formal params */ { cnt++; } if (i != cnt) { printf("spin: saw %d parameters, expected %d\n", i, cnt); non_fatal("wrong number of parameters", ""); } break; } } } void start_claim(int n) { ProcList *p; RunList *r, *q = (RunList *) 0; for (p = rdy; p; p = p->nxt) if (p->tn == n && p->b == N_CLAIM) { runnable(p, 1, 1); goto found; } printf("spin: couldn't find claim %d (ignored)\n", n); if (verbose&32) for (p = rdy; p; p = p->nxt) printf("\t%d = %s\n", p->tn, p->n->name); Skip_claim = 1; goto done; found: /* move claim to far end of runlist, and reassign it pid 0 */ if (columns == 2) { extern char Buf[]; depth = 0; sprintf(Buf, "%d:%s", 0, p->n->name); pstext(0, Buf); for (r = run; r; r = r->nxt) { if (r->b != N_CLAIM) { sprintf(Buf, "%d:%s", r->pid+1, r->n->name); pstext(r->pid+1, Buf); } } } if (run->pid == 0) return; /* it is the first process started */ q = run; run = run->nxt; q->pid = 0; q->nxt = (RunList *) 0; /* remove */ done: Have_claim = 1; for (r = run; r; r = r->nxt) { r->pid = r->pid+Have_claim; /* adjust */ if (!r->nxt) { r->nxt = q; break; } } } int f_pid(char *n) { RunList *r; int rval = -1; for (r = run; r; r = r->nxt) if (strcmp(n, r->n->name) == 0) { if (rval >= 0) { printf("spin: remote ref to proctype %s, ", n); printf("has more than one match: %d and %d\n", rval, r->pid); } else rval = r->pid; } return rval; } void wrapup(int fini) { limited_vis = 0; if (columns) { extern void putpostlude(void); if (columns == 2) putpostlude(); if (!no_wrapup) printf("-------------\nfinal state:\n-------------\n"); } if (no_wrapup) goto short_cut; if (nproc != nstop) { int ov = verbose; printf("#processes: %d\n", nproc-nstop - Have_claim + Skip_claim); verbose &= ~4; dumpglobals(); verbose = ov; verbose &= ~1; /* no more globals */ verbose |= 32; /* add process states */ for (X = run; X; X = X->nxt) talk(X); verbose = ov; /* restore */ } printf("%d process%s created\n", nproc - Have_claim + Skip_claim, (xspin || nproc!=1)?"es":""); short_cut: if (s_trail || xspin) alldone(0); /* avoid an abort from xspin */ if (fini) alldone(1); } static char is_blocked[256]; static int p_blocked(int p) { int i, j; is_blocked[p%256] = 1; for (i = j = 0; i < nproc - nstop; i++) j += is_blocked[i]; if (j >= nproc - nstop) { memset(is_blocked, 0, 256); return 1; } return 0; } static Element * silent_moves(Element *e) { Element *f; if (e->n) switch (e->n->ntyp) { case GOTO: if (Rvous) break; f = get_lab(e->n, 1); cross_dsteps(e->n, f->n); return f; /* guard against goto cycles */ case UNLESS: return silent_moves(e->sub->this->frst); case NON_ATOMIC: case ATOMIC: case D_STEP: e->n->sl->this->last->nxt = e->nxt; return silent_moves(e->n->sl->this->frst); case '.': return silent_moves(e->nxt); } return e; } static int x_can_run(void) /* the currently selected process in X can run */ { if (X->prov && !eval(X->prov)) { if (0) printf("pid %d cannot run: not provided\n", X->pid); return 0; } if (has_priority && !old_priority_rules) { Lextok *n = nn(ZN, CONST, ZN, ZN); n->val = X->pid; if (0) printf("pid %d %s run (priority)\n", X->pid, pc_highest(n)?"can":"cannot"); return pc_highest(n); } if (0) printf("pid %d can run\n", X->pid); return 1; } static RunList * pickproc(RunList *Y) { SeqList *z; Element *has_else; short Choices[256]; int j, k, nr_else = 0; if (nproc <= nstop+1) { X = run; return NULL; } if (!interactive || depth < jumpsteps) { if (has_priority && !old_priority_rules) /* new 6.3.2 */ { j = Rand()%(nproc-nstop); for (X = run; X; X = X->nxt) { if (j-- <= 0) break; } if (X == NULL) { fatal("unexpected, pickproc", (char *)0); } j = nproc - nstop; while (j-- > 0) { if (x_can_run()) { Y = X; break; } X = (X->nxt)?X->nxt:run; } return Y; } if (Priority_Sum < nproc-nstop) fatal("cannot happen - weights", (char *)0); j = (int) Rand()%Priority_Sum; while (j - X->priority >= 0) { j -= X->priority; Y = X; X = X->nxt; if (!X) { Y = NULL; X = run; } } } else { int only_choice = -1; int no_choice = 0, proc_no_ch, proc_k; Tval = 0; /* new 4.2.6 */ try_again: printf("Select a statement\n"); try_more: for (X = run, k = 1; X; X = X->nxt) { if (X->pid > 255) break; Choices[X->pid] = (short) k; if (!X->pc || !x_can_run()) { if (X == run) Choices[X->pid] = 0; continue; } X->pc = silent_moves(X->pc); if (!X->pc->sub && X->pc->n) { int unex; unex = !Enabled0(X->pc); if (unex) no_choice++; else only_choice = k; if (!xspin && unex && !(verbose&32)) { k++; continue; } printf("\tchoice %d: ", k++); p_talk(X->pc, 0); if (unex) printf(" unexecutable,"); printf(" ["); comment(stdout, X->pc->n, 0); if (X->pc->esc) printf(" + Escape"); printf("]\n"); } else { has_else = ZE; proc_no_ch = no_choice; proc_k = k; for (z = X->pc->sub, j=0; z; z = z->nxt) { Element *y = silent_moves(z->this->frst); int unex; if (!y) continue; if (y->n->ntyp == ELSE) { has_else = (Rvous)?ZE:y; nr_else = k++; continue; } unex = !Enabled0(y); if (unex) no_choice++; else only_choice = k; if (!xspin && unex && !(verbose&32)) { k++; continue; } printf("\tchoice %d: ", k++); p_talk(X->pc, 0); if (unex) printf(" unexecutable,"); printf(" ["); comment(stdout, y->n, 0); printf("]\n"); } if (has_else) { if (no_choice-proc_no_ch >= (k-proc_k)-1) { only_choice = nr_else; printf("\tchoice %d: ", nr_else); p_talk(X->pc, 0); printf(" [else]\n"); } else { no_choice++; printf("\tchoice %d: ", nr_else); p_talk(X->pc, 0); printf(" unexecutable, [else]\n"); } } } } X = run; if (k - no_choice < 2 && Tval == 0) { Tval = 1; no_choice = 0; only_choice = -1; goto try_more; } if (xspin) printf("Make Selection %d\n\n", k-1); else { if (k - no_choice < 2) { printf("no executable choices\n"); alldone(0); } printf("Select [1-%d]: ", k-1); } if (!xspin && k - no_choice == 2) { printf("%d\n", only_choice); j = only_choice; } else { char buf[256]; fflush(stdout); if (scanf("%64s", buf) == 0) { printf("\tno input\n"); goto try_again; } j = -1; if (isdigit((int) buf[0])) j = atoi(buf); else { if (buf[0] == 'q') alldone(0); } if (j < 1 || j >= k) { printf("\tchoice is outside range\n"); goto try_again; } } MadeChoice = 0; Y = NULL; for (X = run; X; Y = X, X = X->nxt) { if (!X->nxt || X->nxt->pid > 255 || j < Choices[X->nxt->pid]) { MadeChoice = 1+j-Choices[X->pid]; break; } } } return Y; } void multi_claims(void) { ProcList *p, *q = NULL; if (nclaims > 1) { printf(" the model contains %d never claims:", nclaims); for (p = rdy; p; p = p->nxt) { if (p->b == N_CLAIM) { printf("%s%s", q?", ":" ", p->n->name); q = p; } } printf("\n"); printf(" only one claim is used in a verification run\n"); printf(" choose which one with ./pan -a -N name (defaults to -N %s)\n", q?q->n->name:"--"); printf(" or use e.g.: spin -search -ltl %s %s\n", q?q->n->name:"--", Fname?Fname->name:"filename"); } } void sched(void) { Element *e; RunList *Y = NULL; /* previous process in run queue */ RunList *oX; int go, notbeyond = 0; #ifdef PC int bufmax = 100; #endif if (dumptab) { formdump(); symdump(); dumplabels(); return; } if (has_code && !analyze) { printf("spin: warning: c_code fragments remain uninterpreted\n"); printf(" in random simulations with spin; use ./pan -r instead\n"); } if (has_enabled && u_sync > 0) { printf("spin: error, cannot use 'enabled()' in "); printf("models with synchronous channels.\n"); nr_errs++; } if (product) { sync_product(); alldone(0); } if (analyze && (!replay || has_code)) { gensrc(); multi_claims(); return; } if (replay && !has_code) { return; } if (s_trail) { match_trail(); return; } if (claimproc) printf("warning: never claim not used in random simulation\n"); if (eventmap) printf("warning: trace assertion not used in random simulation\n"); X = run; Y = pickproc(Y); while (X) { context = X->n; if (X->pc && X->pc->n) { lineno = X->pc->n->ln; Fname = X->pc->n->fn; } if (cutoff > 0 && depth >= cutoff) { printf("-------------\n"); printf("depth-limit (-u%d steps) reached\n", cutoff); break; } #ifdef PC if (xspin && !interactive && --bufmax <= 0) { int c; /* avoid buffer overflow on pc's */ printf("spin: type return to proceed\n"); fflush(stdout); c = getc(stdin); if (c == 'q') wrapup(0); bufmax = 100; } #endif depth++; LastStep = ZE; oX = X; /* a rendezvous could change it */ go = 1; if (X->pc && !(X->pc->status & D_ATOM) && !x_can_run()) { if (!xspin && ((verbose&32) || (verbose&4))) { p_talk(X->pc, 1); printf("\t<<Not Enabled>>\n"); } go = 0; } if (go && (e = eval_sub(X->pc))) { if (depth >= jumpsteps && ((verbose&32) || (verbose&4))) { if (X == oX) if (!(e->status & D_ATOM) || (verbose&32)) /* no talking in d_steps */ { if (!LastStep) LastStep = X->pc; /* A. Tanaka, changed order */ p_talk(LastStep, 1); printf(" ["); comment(stdout, LastStep->n, 0); printf("]\n"); } if (verbose&1) dumpglobals(); if (verbose&2) dumplocal(X); if (!(e->status & D_ATOM)) if (xspin) printf("\n"); } if (oX != X || (X->pc->status & (ATOM|D_ATOM))) /* new 5.0 */ { e = silent_moves(e); notbeyond = 0; } oX->pc = e; LastX = X; if (!interactive) Tval = 0; memset(is_blocked, 0, 256); if (X->pc && (X->pc->status & (ATOM|L_ATOM)) && (notbeyond == 0 || oX != X)) { if ((X->pc->status & L_ATOM)) notbeyond = 1; continue; /* no process switch */ } } else { depth--; if (oX->pc && (oX->pc->status & D_ATOM)) { non_fatal("stmnt in d_step blocks", (char *)0); } if (X->pc && X->pc->n && X->pc->n->ntyp == '@' && X->pid == (nproc-nstop-1)) { if (X != run && Y != NULL) Y->nxt = X->nxt; else run = X->nxt; nstop++; Priority_Sum -= X->priority; if (verbose&4) { whoruns(1); dotag(stdout, "terminates\n"); } LastX = X; if (!interactive) Tval = 0; if (nproc == nstop) break; memset(is_blocked, 0, 256); /* proc X is no longer in runlist */ X = (X->nxt) ? X->nxt : run; } else { if (p_blocked(X->pid)) { if (Tval && !has_stdin) { break; } if (!Tval && depth >= jumpsteps) { oX = X; X = (RunList *) 0; /* to suppress indent */ dotag(stdout, "timeout\n"); X = oX; Tval = 1; } } } } if (!run || !X) break; /* new 5.0 */ Y = pickproc(X); notbeyond = 0; } context = ZS; wrapup(0); } int complete_rendez(void) { RunList *orun = X, *tmp; Element *s_was = LastStep; Element *e; int j, ointer = interactive; if (s_trail) return 1; if (orun->pc->status & D_ATOM) fatal("rv-attempt in d_step sequence", (char *)0); Rvous = 1; interactive = 0; j = (int) Rand()%Priority_Sum; /* randomize start point */ X = run; while (j - X->priority >= 0) { j -= X->priority; X = X->nxt; if (!X) X = run; } for (j = nproc - nstop; j > 0; j--) { if (X != orun && (!X->prov || eval(X->prov)) && (e = eval_sub(X->pc))) { if (TstOnly) { X = orun; Rvous = 0; goto out; } if ((verbose&32) || (verbose&4)) { tmp = orun; orun = X; X = tmp; if (!s_was) s_was = X->pc; p_talk(s_was, 1); printf(" ["); comment(stdout, s_was->n, 0); printf("]\n"); tmp = orun; /* orun = X; */ X = tmp; if (!LastStep) LastStep = X->pc; p_talk(LastStep, 1); printf(" ["); comment(stdout, LastStep->n, 0); printf("]\n"); } Rvous = 0; /* before silent_moves */ X->pc = silent_moves(e); out: interactive = ointer; return 1; } X = X->nxt; if (!X) X = run; } Rvous = 0; X = orun; interactive = ointer; return 0; } /***** Runtime - Local Variables *****/ static void addsymbol(RunList *r, Symbol *s) { Symbol *t; int i; for (t = r->symtab; t; t = t->next) if (strcmp(t->name, s->name) == 0 && (old_scope_rules || strcmp((const char *)t->bscp, (const char *)s->bscp) == 0)) return; /* it's already there */ t = (Symbol *) emalloc(sizeof(Symbol)); t->name = s->name; t->type = s->type; t->hidden = s->hidden; t->isarray = s->isarray; t->nbits = s->nbits; t->nel = s->nel; t->ini = s->ini; t->setat = depth; t->context = r->n; t->bscp = (unsigned char *) emalloc(strlen((const char *)s->bscp)+1); strcpy((char *)t->bscp, (const char *)s->bscp); if (s->type != STRUCT) { if (s->val) /* if already initialized, copy info */ { t->val = (int *) emalloc(s->nel*sizeof(int)); for (i = 0; i < s->nel; i++) t->val[i] = s->val[i]; } else { (void) checkvar(t, 0); /* initialize it */ } } else { if (s->Sval) fatal("saw preinitialized struct %s", s->name); t->Slst = s->Slst; t->Snm = s->Snm; t->owner = s->owner; /* t->context = r->n; */ } t->next = r->symtab; /* add it */ r->symtab = t; } static void setlocals(RunList *r) { Ordered *walk; Symbol *sp; RunList *oX = X; X = r; for (walk = all_names; walk; walk = walk->next) { sp = walk->entry; if (sp && sp->context && strcmp(sp->context->name, r->n->name) == 0 && sp->Nid >= 0 && (sp->type == UNSIGNED || sp->type == BIT || sp->type == MTYPE || sp->type == BYTE || sp->type == CHAN || sp->type == SHORT || sp->type == INT || sp->type == STRUCT)) { if (!findloc(sp)) non_fatal("setlocals: cannot happen '%s'", sp->name); } } X = oX; } static void oneparam(RunList *r, Lextok *t, Lextok *a, ProcList *p) { int k; int at, ft; RunList *oX = X; if (!a) fatal("missing actual parameters: '%s'", p->n->name); if (t->sym->nel > 1 || t->sym->isarray) fatal("array in parameter list, %s", t->sym->name); k = eval(a->lft); at = Sym_typ(a->lft); X = r; /* switch context */ ft = Sym_typ(t); if (at != ft && (at == CHAN || ft == CHAN)) { char buf[256], tag1[64], tag2[64]; (void) sputtype(tag1, ft); (void) sputtype(tag2, at); sprintf(buf, "type-clash in params of %s(..), (%s<-> %s)", p->n->name, tag1, tag2); non_fatal("%s", buf); } t->ntyp = NAME; addsymbol(r, t->sym); (void) setval(t, k); X = oX; } static void setparams(RunList *r, ProcList *p, Lextok *q) { Lextok *f, *a; /* formal and actual pars */ Lextok *t; /* list of pars of 1 type */ if (q) { lineno = q->ln; Fname = q->fn; } for (f = p->p, a = q; f; f = f->rgt) /* one type at a time */ for (t = f->lft; t; t = t->rgt, a = (a)?a->rgt:a) { if (t->ntyp != ',') oneparam(r, t, a, p); /* plain var */ else oneparam(r, t->lft, a, p); /* expanded struct */ } } Symbol * findloc(Symbol *s) { Symbol *r; if (!X) { /* fatal("error, cannot eval '%s' (no proc)", s->name); */ return ZS; } for (r = X->symtab; r; r = r->next) { if (strcmp(r->name, s->name) == 0 && (old_scope_rules || strcmp((const char *)r->bscp, (const char *)s->bscp) == 0)) { break; } } if (!r) { addsymbol(X, s); r = X->symtab; } return r; } int in_bound(Symbol *r, int n) { if (!r) return 0; if (n >= r->nel || n < 0) { printf("spin: indexing %s[%d] - size is %d\n", r->name, n, r->nel); non_fatal("indexing array \'%s\'", r->name); return 0; } return 1; } int getlocal(Lextok *sn) { Symbol *r, *s = sn->sym; int n = eval(sn->lft); r = findloc(s); if (r && r->type == STRUCT) return Rval_struct(sn, r, 1); /* 1 = check init */ if (in_bound(r, n)) return cast_val(r->type, r->val[n], r->nbits); return 0; } int setlocal(Lextok *p, int m) { Symbol *r = findloc(p->sym); int n = eval(p->lft); if (in_bound(r, n)) { if (r->type == STRUCT) (void) Lval_struct(p, r, 1, m); /* 1 = check init */ else { #if 0 if (r->nbits > 0) m = (m & ((1<<r->nbits)-1)); r->val[n] = m; #else r->val[n] = cast_val(r->type, m, r->nbits); #endif r->setat = depth; } } return 1; } void whoruns(int lnr) { if (!X) return; if (lnr) printf("%3d: ", depth); printf("proc "); if (Have_claim && X->pid == 0) printf(" -"); else printf("%2d", X->pid - Have_claim); if (old_priority_rules) { printf(" (%s) ", X->n->name); } else { printf(" (%s:%d) ", X->n->name, X->priority); } } static void talk(RunList *r) { if ((verbose&32) || (verbose&4)) { p_talk(r->pc, 1); printf("\n"); if (verbose&1) dumpglobals(); if (verbose&2) dumplocal(r); } } void p_talk(Element *e, int lnr) { static int lastnever = -1; static char nbuf[128]; int newnever = -1; if (e && e->n) newnever = e->n->ln; if (Have_claim && X && X->pid == 0 && lastnever != newnever && e) { if (xspin) { printf("MSC: ~G line %d\n", newnever); #if 0 printf("%3d: proc - (NEVER) line %d \"never\" ", depth, newnever); printf("(state 0)\t[printf('MSC: never\\\\n')]\n"); } else { printf("%3d: proc - (NEVER) line %d \"never\"\n", depth, newnever); #endif } lastnever = newnever; } whoruns(lnr); if (e) { if (e->n) { char *ptr = e->n->fn->name; char *qtr = nbuf; while (*ptr != '\0') { if (*ptr != '"') { *qtr++ = *ptr; } ptr++; } *qtr = '\0'; } else { strcpy(nbuf, "-"); } printf("%s:%d (state %d)", nbuf, e->n?e->n->ln:-1, e->seqno); if (!xspin && ((e->status&ENDSTATE) || has_lab(e, 2))) /* 2=end */ { printf(" <valid end state>"); } } } int remotelab(Lextok *n) { int i; lineno = n->ln; Fname = n->fn; if (n->sym->type != 0 && n->sym->type != LABEL) { printf("spin: error, type: %d\n", n->sym->type); fatal("not a labelname: '%s'", n->sym->name); } if (n->indstep >= 0) { fatal("remote ref to label '%s' inside d_step", n->sym->name); } if ((i = find_lab(n->sym, n->lft->sym, 1)) == 0) /* remotelab */ { fatal("unknown labelname: %s", n->sym->name); } return i; } int remotevar(Lextok *n) { int prno, i, added=0; RunList *Y, *oX; Lextok *onl; Symbol *os; lineno = n->ln; Fname = n->fn; if (!n->lft->lft) prno = f_pid(n->lft->sym->name); else { prno = eval(n->lft->lft); /* pid - can cause recursive call */ #if 0 if (n->lft->lft->ntyp == CONST) /* user-guessed pid */ #endif { prno += Have_claim; added = Have_claim; } } if (prno < 0) { return 0; /* non-existing process */ } #if 0 i = nproc - nstop; for (Y = run; Y; Y = Y->nxt) { --i; printf(" %s: i=%d, prno=%d, ->pid=%d\n", Y->n->name, i, prno, Y->pid); } #endif i = nproc - nstop + Skip_claim; /* 6.0: added Skip_claim */ for (Y = run; Y; Y = Y->nxt) if (--i == prno) { if (strcmp(Y->n->name, n->lft->sym->name) != 0) { printf("spin: remote reference error on '%s[%d]'\n", n->lft->sym->name, prno-added); non_fatal("refers to wrong proctype '%s'", Y->n->name); } if (strcmp(n->sym->name, "_p") == 0) { if (Y->pc) { return Y->pc->seqno; } /* harmless, can only happen with -t */ return 0; } /* check remote variables */ oX = X; X = Y; onl = n->lft; n->lft = n->rgt; os = n->sym; if (!n->sym->context) { n->sym->context = Y->n; } { int rs = old_scope_rules; old_scope_rules = 1; /* 6.4.0 */ n->sym = findloc(n->sym); old_scope_rules = rs; } i = getval(n); n->sym = os; n->lft = onl; X = oX; return i; } printf("remote ref: %s[%d] ", n->lft->sym->name, prno-added); non_fatal("%s not found", n->sym->name); printf("have only:\n"); i = nproc - nstop - 1; for (Y = run; Y; Y = Y->nxt, i--) if (!strcmp(Y->n->name, n->lft->sym->name)) printf("\t%d\t%s\n", i, Y->n->name); return 0; }