ref: 57f8b3d1acf273a88568c49d0b83b6863485b9e0
dir: /sys/src/cmd/spin/spin.y/
/***** spin: spin.y *****/ /* * 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 "spin.h" #include <sys/types.h> #ifndef PC #include <unistd.h> #endif #include <stdarg.h> #define YYMAXDEPTH 20000 /* default is 10000 */ #define YYDEBUG 0 #define Stop nn(ZN,'@',ZN,ZN) #define PART0 "place initialized declaration of " #define PART1 "place initialized chan decl of " #define PART2 " at start of proctype " static Lextok *ltl_to_string(Lextok *); extern Symbol *context, *owner; extern Lextok *for_body(Lextok *, int); extern void for_setup(Lextok *, Lextok *, Lextok *); extern Lextok *for_index(Lextok *, Lextok *); extern Lextok *sel_index(Lextok *, Lextok *, Lextok *); extern void keep_track_off(Lextok *); extern void safe_break(void); extern void restore_break(void); extern int u_sync, u_async, dumptab, scope_level; extern int initialization_ok; extern short has_sorted, has_random, has_enabled, has_pcvalue, has_np, has_priority; extern short has_code, has_state, has_ltl, has_io; extern void count_runs(Lextok *); extern void no_internals(Lextok *); extern void any_runs(Lextok *); extern void explain(int); extern void ltl_list(char *, char *); extern void validref(Lextok *, Lextok *); extern void sanity_check(Lextok *); extern char yytext[]; int Mpars = 0; /* max nr of message parameters */ int nclaims = 0; /* nr of never claims */ int ltl_mode = 0; /* set when parsing an ltl formula */ int Expand_Ok = 0, realread = 1, IArgs = 0, NamesNotAdded = 0; int in_for = 0, in_seq = 0, par_cnt = 0; int dont_simplify = 0; char *claimproc = (char *) 0; char *eventmap = (char *) 0; static char *ltl_name; static int Embedded = 0, inEventMap = 0, has_ini = 0; %} %token ASSERT PRINT PRINTM PREPROC %token C_CODE C_DECL C_EXPR C_STATE C_TRACK %token RUN LEN ENABLED SET_P GET_P EVAL PC_VAL %token TYPEDEF MTYPE INLINE RETURN LABEL OF %token GOTO BREAK ELSE SEMI ARROW %token IF FI DO OD FOR SELECT IN SEP DOTDOT %token ATOMIC NON_ATOMIC D_STEP UNLESS %token TIMEOUT NONPROGRESS %token ACTIVE PROCTYPE D_PROCTYPE %token HIDDEN SHOW ISLOCAL %token PRIORITY PROVIDED %token FULL EMPTY NFULL NEMPTY %token CONST TYPE XU /* val */ %token NAME UNAME PNAME INAME /* sym */ %token STRING CLAIM TRACE INIT LTL /* sym */ %right ASGN %left SND O_SND RCV R_RCV /* SND doubles as boolean negation */ %left IMPLIES EQUIV /* ltl */ %left OR %left AND %left ALWAYS EVENTUALLY /* ltl */ %left UNTIL WEAK_UNTIL RELEASE /* ltl */ %right NEXT /* ltl */ %left '|' %left '^' %left '&' %left EQ NE %left GT LT GE LE %left LSHIFT RSHIFT %left '+' '-' %left '*' '/' '%' %left INCR DECR %right '~' UMIN NEG %left DOT %% /** PROMELA Grammar Rules **/ program : units { yytext[0] = '\0'; } ; units : unit | units unit ; unit : proc /* proctype { } */ | init /* init { } */ | claim /* never claim */ | ltl /* ltl formula */ | events /* event assertions */ | one_decl /* variables, chans */ | utype /* user defined types */ | c_fcts /* c functions etc. */ | ns /* named sequence */ | semi /* optional separator */ | error ; l_par : '(' { par_cnt++; } ; r_par : ')' { par_cnt--; } ; proc : inst /* optional instantiator */ proctype NAME { setptype($3, PROCTYPE, ZN); setpname($3); context = $3->sym; context->ini = $2; /* linenr and file */ Expand_Ok++; /* expand struct names in decl */ has_ini = 0; } l_par decl r_par { Expand_Ok--; if (has_ini) fatal("initializer in parameter list", (char *) 0); } Opt_priority Opt_enabler body { ProcList *rl; if ($1 != ZN && $1->val > 0) { int j; rl = ready($3->sym, $6, $11->sq, $2->val, $10, A_PROC); for (j = 0; j < $1->val; j++) { runnable(rl, $9?$9->val:1, 1); announce(":root:"); } if (dumptab) $3->sym->ini = $1; } else { rl = ready($3->sym, $6, $11->sq, $2->val, $10, P_PROC); } if (rl && has_ini == 1) /* global initializations, unsafe */ { /* printf("proctype %s has initialized data\n", $3->sym->name); */ rl->unsafe = 1; } context = ZS; } ; proctype: PROCTYPE { $$ = nn(ZN,CONST,ZN,ZN); $$->val = 0; } | D_PROCTYPE { $$ = nn(ZN,CONST,ZN,ZN); $$->val = 1; } ; inst : /* empty */ { $$ = ZN; } | ACTIVE { $$ = nn(ZN,CONST,ZN,ZN); $$->val = 1; } | ACTIVE '[' const_expr ']' { $$ = nn(ZN,CONST,ZN,ZN); $$->val = $3->val; if ($3->val > 255) non_fatal("max nr of processes is 255\n", ""); } | ACTIVE '[' NAME ']' { $$ = nn(ZN,CONST,ZN,ZN); $$->val = 0; if (!$3->sym->type) fatal("undeclared variable %s", $3->sym->name); else if ($3->sym->ini->ntyp != CONST) fatal("need constant initializer for %s\n", $3->sym->name); else $$->val = $3->sym->ini->val; } ; init : INIT { context = $1->sym; } Opt_priority body { ProcList *rl; rl = ready(context, ZN, $4->sq, 0, ZN, I_PROC); runnable(rl, $3?$3->val:1, 1); announce(":root:"); context = ZS; } ; ltl : LTL optname2 { ltl_mode = 1; ltl_name = $2->sym->name; } ltl_body { if ($4) ltl_list($2->sym->name, $4->sym->name); ltl_mode = 0; has_ltl = 1; } ; ltl_body: '{' full_expr OS '}' { $$ = ltl_to_string($2); } | error { $$ = NULL; } ; claim : CLAIM optname { if ($2 != ZN) { $1->sym = $2->sym; /* new 5.3.0 */ } nclaims++; context = $1->sym; if (claimproc && !strcmp(claimproc, $1->sym->name)) { fatal("claim %s redefined", claimproc); } claimproc = $1->sym->name; } body { (void) ready($1->sym, ZN, $4->sq, 0, ZN, N_CLAIM); context = ZS; } ; optname : /* empty */ { char tb[32]; memset(tb, 0, 32); sprintf(tb, "never_%d", nclaims); $$ = nn(ZN, NAME, ZN, ZN); $$->sym = lookup(tb); } | NAME { $$ = $1; } ; optname2 : /* empty */ { char tb[32]; static int nltl = 0; memset(tb, 0, 32); sprintf(tb, "ltl_%d", nltl++); $$ = nn(ZN, NAME, ZN, ZN); $$->sym = lookup(tb); } | NAME { $$ = $1; } ; events : TRACE { context = $1->sym; if (eventmap) non_fatal("trace %s redefined", eventmap); eventmap = $1->sym->name; inEventMap++; } body { if (strcmp($1->sym->name, ":trace:") == 0) { (void) ready($1->sym, ZN, $3->sq, 0, ZN, E_TRACE); } else { (void) ready($1->sym, ZN, $3->sq, 0, ZN, N_TRACE); } context = ZS; inEventMap--; } ; utype : TYPEDEF NAME '{' { if (context) { fatal("typedef %s must be global", $2->sym->name); } owner = $2->sym; in_seq = $1->ln; } decl_lst '}' { setuname($5); owner = ZS; in_seq = 0; } ; nm : NAME { $$ = $1; } | INAME { $$ = $1; if (IArgs) fatal("invalid use of '%s'", $1->sym->name); } ; ns : INLINE nm l_par { NamesNotAdded++; } args r_par { prep_inline($2->sym, $5); NamesNotAdded--; } ; c_fcts : ccode { /* leaves pseudo-inlines with sym of * type CODE_FRAG or CODE_DECL in global context */ } | cstate ; cstate : C_STATE STRING STRING { c_state($2->sym, $3->sym, ZS); has_code = has_state = 1; } | C_TRACK STRING STRING { c_track($2->sym, $3->sym, ZS); has_code = has_state = 1; } | C_STATE STRING STRING STRING { c_state($2->sym, $3->sym, $4->sym); has_code = has_state = 1; } | C_TRACK STRING STRING STRING { c_track($2->sym, $3->sym, $4->sym); has_code = has_state = 1; } ; ccode : C_CODE { Symbol *s; NamesNotAdded++; s = prep_inline(ZS, ZN); NamesNotAdded--; $$ = nn(ZN, C_CODE, ZN, ZN); $$->sym = s; $$->ln = $1->ln; $$->fn = $1->fn; has_code = 1; } | C_DECL { Symbol *s; NamesNotAdded++; s = prep_inline(ZS, ZN); NamesNotAdded--; s->type = CODE_DECL; $$ = nn(ZN, C_CODE, ZN, ZN); $$->sym = s; $$->ln = $1->ln; $$->fn = $1->fn; has_code = 1; } ; cexpr : C_EXPR { Symbol *s; NamesNotAdded++; s = prep_inline(ZS, ZN); /* if context is 0 this was inside an ltl formula mark the last inline added to seqnames */ if (!context) { mark_last(); } NamesNotAdded--; $$ = nn(ZN, C_EXPR, ZN, ZN); $$->sym = s; $$->ln = $1->ln; $$->fn = $1->fn; no_side_effects(s->name); has_code = 1; } ; body : '{' { open_seq(1); in_seq = $1->ln; } sequence OS { add_seq(Stop); } '}' { $$->sq = close_seq(0); in_seq = 0; if (scope_level != 0) { non_fatal("missing '}' ?", 0); scope_level = 0; } } ; sequence: step { if ($1) add_seq($1); } | sequence MS step { if ($3) add_seq($3); } ; step : one_decl { $$ = ZN; } | XU vref_lst { setxus($2, $1->val); $$ = ZN; } | NAME ':' one_decl { fatal("label preceding declaration,", (char *)0); } | NAME ':' XU { fatal("label predecing xr/xs claim,", 0); } | stmnt { $$ = $1; } | stmnt UNLESS { if ($1->ntyp == DO) { safe_break(); } } stmnt { if ($1->ntyp == DO) { restore_break(); } $$ = do_unless($1, $4); } | error { printf("Not a Step\n"); } ; vis : /* empty */ { $$ = ZN; } | HIDDEN { $$ = $1; } | SHOW { $$ = $1; } | ISLOCAL { $$ = $1; } ; asgn: /* empty */ | ASGN ; one_decl: vis TYPE var_list { setptype($3, $2->val, $1); $$ = $3; } | vis UNAME var_list { setutype($3, $2->sym, $1); $$ = expand($3, Expand_Ok); } | vis TYPE asgn '{' nlst '}' { if ($2->val != MTYPE) fatal("malformed declaration", 0); setmtype($5); if ($1) non_fatal("cannot %s mtype (ignored)", $1->sym->name); if (context != ZS) fatal("mtype declaration must be global", 0); } ; decl_lst: one_decl { $$ = nn(ZN, ',', $1, ZN); } | one_decl SEMI decl_lst { $$ = nn(ZN, ',', $1, $3); } ; decl : /* empty */ { $$ = ZN; } | decl_lst { $$ = $1; } ; vref_lst: varref { $$ = nn($1, XU, $1, ZN); } | varref ',' vref_lst { $$ = nn($1, XU, $1, $3); } ; var_list: ivar { $$ = nn($1, TYPE, ZN, ZN); } | ivar ',' var_list { $$ = nn($1, TYPE, ZN, $3); } ; c_list : CONST { $1->ntyp = CONST; $$ = $1; } | CONST ',' c_list { $1->ntyp = CONST; $$ = nn($1, ',', $1, $3); } ; ivar : vardcl { $$ = $1; $1->sym->ini = nn(ZN,CONST,ZN,ZN); $1->sym->ini->val = 0; if (!initialization_ok) { Lextok *zx, *xz; zx = nn(ZN, NAME, ZN, ZN); zx->sym = $1->sym; xz = nn(zx, ASGN, zx, $1->sym->ini); keep_track_off(xz); /* make sure zx doesnt turn out to be a STRUCT later */ add_seq(xz); } } | vardcl ASGN '{' c_list '}' { if (!$1->sym->isarray) fatal("%s must be an array", $1->sym->name); $$ = $1; $1->sym->ini = $4; has_ini = 1; $1->sym->hidden |= (4|8); /* conservative */ if (!initialization_ok) { Lextok *zx = nn(ZN, NAME, ZN, ZN); zx->sym = $1->sym; add_seq(nn(zx, ASGN, zx, $4)); } } | vardcl ASGN expr { $$ = $1; $1->sym->ini = $3; if ($3->ntyp == CONST || ($3->ntyp == NAME && $3->sym->context)) { has_ini = 2; /* local init */ } else { has_ini = 1; /* possibly global */ } trackvar($1, $3); if (any_oper($3, RUN)) { fatal("cannot use 'run' in var init, saw", (char *) 0); } nochan_manip($1, $3, 0); no_internals($1); if (!initialization_ok) { Lextok *zx = nn(ZN, NAME, ZN, ZN); zx->sym = $1->sym; add_seq(nn(zx, ASGN, zx, $3)); } } | vardcl ASGN ch_init { $1->sym->ini = $3; $$ = $1; has_ini = 1; if (!initialization_ok) { non_fatal(PART1 "'%s'" PART2, $1->sym->name); } } ; ch_init : '[' const_expr ']' OF '{' typ_list '}' { if ($2->val) u_async++; else u_sync++; { int i = cnt_mpars($6); Mpars = max(Mpars, i); } $$ = nn(ZN, CHAN, ZN, $6); $$->val = $2->val; $$->ln = $1->ln; $$->fn = $1->fn; } ; vardcl : NAME { $1->sym->nel = 1; $$ = $1; } | NAME ':' CONST { $1->sym->nbits = $3->val; if ($3->val >= 8*sizeof(long)) { non_fatal("width-field %s too large", $1->sym->name); $3->val = 8*sizeof(long)-1; } $1->sym->nel = 1; $$ = $1; } | NAME '[' const_expr ']' { $1->sym->nel = $3->val; $1->sym->isarray = 1; $$ = $1; } | NAME '[' NAME ']' { /* make an exception for an initialized scalars */ $$ = nn(ZN, CONST, ZN, ZN); fprintf(stderr, "spin: %s:%d, warning: '%s' in array bound ", $1->fn->name, $1->ln, $3->sym->name); if ($3->sym->ini->val > 0) { fprintf(stderr, "evaluated as %d\n", $3->sym->ini->val); $$->val = $3->sym->ini->val; } else { fprintf(stderr, "evaluated as 8 by default (to avoid zero)\n"); $$->val = 8; } $1->sym->nel = $$->val; $1->sym->isarray = 1; $$ = $1; } ; varref : cmpnd { $$ = mk_explicit($1, Expand_Ok, NAME); } ; pfld : NAME { $$ = nn($1, NAME, ZN, ZN); if ($1->sym->isarray && !in_for) { non_fatal("missing array index for '%s'", $1->sym->name); } } | NAME { owner = ZS; } '[' expr ']' { $$ = nn($1, NAME, $4, ZN); } ; cmpnd : pfld { Embedded++; if ($1->sym->type == STRUCT) owner = $1->sym->Snm; } sfld { $$ = $1; $$->rgt = $3; if ($3 && $1->sym->type != STRUCT) $1->sym->type = STRUCT; Embedded--; if (!Embedded && !NamesNotAdded && !$1->sym->type) fatal("undeclared variable: %s", $1->sym->name); if ($3) validref($1, $3->lft); owner = ZS; } ; sfld : /* empty */ { $$ = ZN; } | '.' cmpnd %prec DOT { $$ = nn(ZN, '.', $2, ZN); } ; stmnt : Special { $$ = $1; initialization_ok = 0; } | Stmnt { $$ = $1; initialization_ok = 0; if (inEventMap) non_fatal("not an event", (char *)0); } ; for_pre : FOR l_par { in_for = 1; } varref { trapwonly($4 /*, "for" */); pushbreak(); /* moved up */ $$ = $4; } ; for_post: '{' sequence OS '}' ; Special : varref RCV { Expand_Ok++; } rargs { Expand_Ok--; has_io++; $$ = nn($1, 'r', $1, $4); trackchanuse($4, ZN, 'R'); } | varref SND { Expand_Ok++; } margs { Expand_Ok--; has_io++; $$ = nn($1, 's', $1, $4); $$->val=0; trackchanuse($4, ZN, 'S'); any_runs($4); } | for_pre ':' expr DOTDOT expr r_par { for_setup($1, $3, $5); in_for = 0; } for_post { $$ = for_body($1, 1); } | for_pre IN varref r_par { $$ = for_index($1, $3); in_for = 0; } for_post { $$ = for_body($5, 1); } | SELECT l_par varref ':' expr DOTDOT expr r_par { trapwonly($3 /*, "select" */); $$ = sel_index($3, $5, $7); } | IF options FI { $$ = nn($1, IF, ZN, ZN); $$->sl = $2->sl; $$->ln = $1->ln; $$->fn = $1->fn; prune_opts($$); } | DO { pushbreak(); } options OD { $$ = nn($1, DO, ZN, ZN); $$->sl = $3->sl; $$->ln = $1->ln; $$->fn = $1->fn; prune_opts($$); } | BREAK { $$ = nn(ZN, GOTO, ZN, ZN); $$->sym = break_dest(); } | GOTO NAME { $$ = nn($2, GOTO, ZN, ZN); if ($2->sym->type != 0 && $2->sym->type != LABEL) { non_fatal("bad label-name %s", $2->sym->name); } $2->sym->type = LABEL; } | NAME ':' stmnt { $$ = nn($1, ':',$3, ZN); if ($1->sym->type != 0 && $1->sym->type != LABEL) { non_fatal("bad label-name %s", $1->sym->name); } $1->sym->type = LABEL; } | NAME ':' { $$ = nn($1, ':',ZN,ZN); if ($1->sym->type != 0 && $1->sym->type != LABEL) { non_fatal("bad label-name %s", $1->sym->name); } $$->lft = nn(ZN, 'c', nn(ZN,CONST,ZN,ZN), ZN); $$->lft->lft->val = 1; /* skip */ $1->sym->type = LABEL; } | error { $$ = nn(ZN, 'c', nn(ZN,CONST,ZN,ZN), ZN); $$->lft->val = 1; /* skip */ } ; Stmnt : varref ASGN full_expr { $$ = nn($1, ASGN, $1, $3); trackvar($1, $3); nochan_manip($1, $3, 0); no_internals($1); } | varref INCR { $$ = nn(ZN,CONST, ZN, ZN); $$->val = 1; $$ = nn(ZN, '+', $1, $$); $$ = nn($1, ASGN, $1, $$); trackvar($1, $1); no_internals($1); if ($1->sym->type == CHAN) fatal("arithmetic on chan", (char *)0); } | varref DECR { $$ = nn(ZN,CONST, ZN, ZN); $$->val = 1; $$ = nn(ZN, '-', $1, $$); $$ = nn($1, ASGN, $1, $$); trackvar($1, $1); no_internals($1); if ($1->sym->type == CHAN) fatal("arithmetic on chan id's", (char *)0); } | SET_P l_par two_args r_par { $$ = nn(ZN, SET_P, $3, ZN); has_priority++; } | PRINT l_par STRING { realread = 0; } prargs r_par { $$ = nn($3, PRINT, $5, ZN); realread = 1; } | PRINTM l_par varref r_par { $$ = nn(ZN, PRINTM, $3, ZN); } | PRINTM l_par CONST r_par { $$ = nn(ZN, PRINTM, $3, ZN); } | ASSERT full_expr { $$ = nn(ZN, ASSERT, $2, ZN); AST_track($2, 0); } | ccode { $$ = $1; } | varref R_RCV { Expand_Ok++; } rargs { Expand_Ok--; has_io++; $$ = nn($1, 'r', $1, $4); $$->val = has_random = 1; trackchanuse($4, ZN, 'R'); } | varref RCV { Expand_Ok++; } LT rargs GT { Expand_Ok--; has_io++; $$ = nn($1, 'r', $1, $5); $$->val = 2; /* fifo poll */ trackchanuse($5, ZN, 'R'); } | varref R_RCV { Expand_Ok++; } LT rargs GT { Expand_Ok--; has_io++; /* rrcv poll */ $$ = nn($1, 'r', $1, $5); $$->val = 3; has_random = 1; trackchanuse($5, ZN, 'R'); } | varref O_SND { Expand_Ok++; } margs { Expand_Ok--; has_io++; $$ = nn($1, 's', $1, $4); $$->val = has_sorted = 1; trackchanuse($4, ZN, 'S'); any_runs($4); } | full_expr { $$ = nn(ZN, 'c', $1, ZN); count_runs($$); } | ELSE { $$ = nn(ZN,ELSE,ZN,ZN); } | ATOMIC '{' { open_seq(0); } sequence OS '}' { $$ = nn($1, ATOMIC, ZN, ZN); $$->sl = seqlist(close_seq(3), 0); $$->ln = $1->ln; $$->fn = $1->fn; make_atomic($$->sl->this, 0); } | D_STEP '{' { open_seq(0); rem_Seq(); } sequence OS '}' { $$ = nn($1, D_STEP, ZN, ZN); $$->sl = seqlist(close_seq(4), 0); $$->ln = $1->ln; $$->fn = $1->fn; make_atomic($$->sl->this, D_ATOM); unrem_Seq(); } | '{' { open_seq(0); } sequence OS '}' { $$ = nn(ZN, NON_ATOMIC, ZN, ZN); $$->sl = seqlist(close_seq(5), 0); $$->ln = $1->ln; $$->fn = $1->fn; } | INAME { IArgs++; } l_par args r_par { initialization_ok = 0; pickup_inline($1->sym, $4, ZN); IArgs--; } Stmnt { $$ = $7; } | varref ASGN INAME { IArgs++; } l_par args r_par { initialization_ok = 0; pickup_inline($3->sym, $6, $1); IArgs--; } Stmnt { $$ = $9; } | RETURN full_expr { $$ = return_statement($2); } ; options : option { $$->sl = seqlist($1->sq, 0); } | option options { $$->sl = seqlist($1->sq, $2->sl); } ; option : SEP { open_seq(0); } sequence OS { $$ = nn(ZN,0,ZN,ZN); $$->sq = close_seq(6); $$->ln = $1->ln; $$->fn = $1->fn; } ; OS : /* empty */ | semi { /* redundant semi at end of sequence */ } ; semi : SEMI | ARROW ; MS : semi { /* at least one semi-colon */ } | MS semi { /* but more are okay too */ } ; aname : NAME { $$ = $1; } | PNAME { $$ = $1; } ; const_expr: CONST { $$ = $1; } | '-' const_expr %prec UMIN { $$ = $2; $$->val = -($2->val); } | l_par const_expr r_par { $$ = $2; } | const_expr '+' const_expr { $$ = $1; $$->val = $1->val + $3->val; } | const_expr '-' const_expr { $$ = $1; $$->val = $1->val - $3->val; } | const_expr '*' const_expr { $$ = $1; $$->val = $1->val * $3->val; } | const_expr '/' const_expr { $$ = $1; $$->val = $1->val / $3->val; } | const_expr '%' const_expr { $$ = $1; $$->val = $1->val % $3->val; } ; expr : l_par expr r_par { $$ = $2; } | expr '+' expr { $$ = nn(ZN, '+', $1, $3); } | expr '-' expr { $$ = nn(ZN, '-', $1, $3); } | expr '*' expr { $$ = nn(ZN, '*', $1, $3); } | expr '/' expr { $$ = nn(ZN, '/', $1, $3); } | expr '%' expr { $$ = nn(ZN, '%', $1, $3); } | expr '&' expr { $$ = nn(ZN, '&', $1, $3); } | expr '^' expr { $$ = nn(ZN, '^', $1, $3); } | expr '|' expr { $$ = nn(ZN, '|', $1, $3); } | expr GT expr { $$ = nn(ZN, GT, $1, $3); } | expr LT expr { $$ = nn(ZN, LT, $1, $3); } | expr GE expr { $$ = nn(ZN, GE, $1, $3); } | expr LE expr { $$ = nn(ZN, LE, $1, $3); } | expr EQ expr { $$ = nn(ZN, EQ, $1, $3); } | expr NE expr { $$ = nn(ZN, NE, $1, $3); } | expr AND expr { $$ = nn(ZN, AND, $1, $3); } | expr OR expr { $$ = nn(ZN, OR, $1, $3); } | expr LSHIFT expr { $$ = nn(ZN, LSHIFT,$1, $3); } | expr RSHIFT expr { $$ = nn(ZN, RSHIFT,$1, $3); } | '~' expr { $$ = nn(ZN, '~', $2, ZN); } | '-' expr %prec UMIN { $$ = nn(ZN, UMIN, $2, ZN); } | SND expr %prec NEG { $$ = nn(ZN, '!', $2, ZN); } | l_par expr ARROW expr ':' expr r_par { $$ = nn(ZN, OR, $4, $6); $$ = nn(ZN, '?', $2, $$); } | RUN aname { Expand_Ok++; if (!context) fatal("used 'run' outside proctype", (char *) 0); } l_par args r_par Opt_priority { Expand_Ok--; $$ = nn($2, RUN, $5, ZN); $$->val = ($7) ? $7->val : 0; trackchanuse($5, $2, 'A'); trackrun($$); } | LEN l_par varref r_par { $$ = nn($3, LEN, $3, ZN); } | ENABLED l_par expr r_par { $$ = nn(ZN, ENABLED, $3, ZN); has_enabled++; } | GET_P l_par expr r_par { $$ = nn(ZN, GET_P, $3, ZN); has_priority++; } | varref RCV { Expand_Ok++; } '[' rargs ']' { Expand_Ok--; has_io++; $$ = nn($1, 'R', $1, $5); } | varref R_RCV { Expand_Ok++; } '[' rargs ']' { Expand_Ok--; has_io++; $$ = nn($1, 'R', $1, $5); $$->val = has_random = 1; } | varref { $$ = $1; trapwonly($1 /*, "varref" */); } | cexpr { $$ = $1; } | CONST { $$ = nn(ZN,CONST,ZN,ZN); $$->ismtyp = $1->ismtyp; $$->val = $1->val; } | TIMEOUT { $$ = nn(ZN,TIMEOUT, ZN, ZN); } | NONPROGRESS { $$ = nn(ZN,NONPROGRESS, ZN, ZN); has_np++; } | PC_VAL l_par expr r_par { $$ = nn(ZN, PC_VAL, $3, ZN); has_pcvalue++; } | PNAME '[' expr ']' '@' NAME { $$ = rem_lab($1->sym, $3, $6->sym); } | PNAME '[' expr ']' ':' pfld { $$ = rem_var($1->sym, $3, $6->sym, $6->lft); } | PNAME '@' NAME { $$ = rem_lab($1->sym, ZN, $3->sym); } | PNAME ':' pfld { $$ = rem_var($1->sym, ZN, $3->sym, $3->lft); } | ltl_expr { $$ = $1; /* sanity_check($1); */ } ; Opt_priority: /* none */ { $$ = ZN; } | PRIORITY CONST { $$ = $2; has_priority++; } ; full_expr: expr { $$ = $1; } | Expr { $$ = $1; } ; ltl_expr: expr UNTIL expr { $$ = nn(ZN, UNTIL, $1, $3); } | expr RELEASE expr { $$ = nn(ZN, RELEASE, $1, $3); } | expr WEAK_UNTIL expr { $$ = nn(ZN, ALWAYS, $1, ZN); $$ = nn(ZN, OR, $$, nn(ZN, UNTIL, $1, $3)); } | expr IMPLIES expr { $$ = nn(ZN, '!', $1, ZN); $$ = nn(ZN, OR, $$, $3); } | expr EQUIV expr { $$ = nn(ZN, EQUIV, $1, $3); } | NEXT expr %prec NEG { $$ = nn(ZN, NEXT, $2, ZN); } | ALWAYS expr %prec NEG { $$ = nn(ZN, ALWAYS,$2, ZN); } | EVENTUALLY expr %prec NEG { $$ = nn(ZN, EVENTUALLY, $2, ZN); } ; /* an Expr cannot be negated - to protect Probe expressions */ Expr : Probe { $$ = $1; } | l_par Expr r_par { $$ = $2; } | Expr AND Expr { $$ = nn(ZN, AND, $1, $3); } | Expr AND expr { $$ = nn(ZN, AND, $1, $3); } | expr AND Expr { $$ = nn(ZN, AND, $1, $3); } | Expr OR Expr { $$ = nn(ZN, OR, $1, $3); } | Expr OR expr { $$ = nn(ZN, OR, $1, $3); } | expr OR Expr { $$ = nn(ZN, OR, $1, $3); } ; Probe : FULL l_par varref r_par { $$ = nn($3, FULL, $3, ZN); } | NFULL l_par varref r_par { $$ = nn($3, NFULL, $3, ZN); } | EMPTY l_par varref r_par { $$ = nn($3, EMPTY, $3, ZN); } | NEMPTY l_par varref r_par { $$ = nn($3,NEMPTY, $3, ZN); } ; Opt_enabler: /* none */ { $$ = ZN; } | PROVIDED l_par full_expr r_par { if (!proper_enabler($3)) { non_fatal("invalid PROVIDED clause", (char *)0); $$ = ZN; } else $$ = $3; } | PROVIDED error { $$ = ZN; non_fatal("usage: provided ( ..expr.. )", (char *)0); } ; basetype: TYPE { $$->sym = ZS; $$->val = $1->val; if ($$->val == UNSIGNED) fatal("unsigned cannot be used as mesg type", 0); } | UNAME { $$->sym = $1->sym; $$->val = STRUCT; } | error /* e.g., unsigned ':' const */ ; typ_list: basetype { $$ = nn($1, $1->val, ZN, ZN); } | basetype ',' typ_list { $$ = nn($1, $1->val, ZN, $3); } ; two_args: expr ',' expr { $$ = nn(ZN, ',', $1, $3); } ; args : /* empty */ { $$ = ZN; } | arg { $$ = $1; } ; prargs : /* empty */ { $$ = ZN; } | ',' arg { $$ = $2; } ; margs : arg { $$ = $1; } | expr l_par arg r_par { if ($1->ntyp == ',') $$ = tail_add($1, $3); else $$ = nn(ZN, ',', $1, $3); } ; arg : expr { if ($1->ntyp == ',') $$ = $1; else $$ = nn(ZN, ',', $1, ZN); } | expr ',' arg { if ($1->ntyp == ',') $$ = tail_add($1, $3); else $$ = nn(ZN, ',', $1, $3); } ; rarg : varref { $$ = $1; trackvar($1, $1); trapwonly($1 /*, "rarg" */); } | EVAL l_par expr r_par { $$ = nn(ZN,EVAL,$3,ZN); trapwonly($1 /*, "eval rarg" */); } | CONST { $$ = nn(ZN,CONST,ZN,ZN); $$->ismtyp = $1->ismtyp; $$->val = $1->val; } | '-' CONST %prec UMIN { $$ = nn(ZN,CONST,ZN,ZN); $$->val = - ($2->val); } ; rargs : rarg { if ($1->ntyp == ',') $$ = $1; else $$ = nn(ZN, ',', $1, ZN); } | rarg ',' rargs { if ($1->ntyp == ',') $$ = tail_add($1, $3); else $$ = nn(ZN, ',', $1, $3); } | rarg l_par rargs r_par { if ($1->ntyp == ',') $$ = tail_add($1, $3); else $$ = nn(ZN, ',', $1, $3); } | l_par rargs r_par { $$ = $2; } ; nlst : NAME { $$ = nn($1, NAME, ZN, ZN); $$ = nn(ZN, ',', $$, ZN); } | nlst NAME { $$ = nn($2, NAME, ZN, ZN); $$ = nn(ZN, ',', $$, $1); } | nlst ',' { $$ = $1; /* commas optional */ } ; %% #define binop(n, sop) fprintf(fd, "("); recursive(fd, n->lft); \ fprintf(fd, ") %s (", sop); recursive(fd, n->rgt); \ fprintf(fd, ")"); #define unop(n, sop) fprintf(fd, "%s (", sop); recursive(fd, n->lft); \ fprintf(fd, ")"); static void recursive(FILE *fd, Lextok *n) { if (n) switch (n->ntyp) { case NEXT: unop(n, "X"); break; case ALWAYS: unop(n, "[]"); break; case EVENTUALLY: unop(n, "<>"); break; case '!': unop(n, "!"); break; case UNTIL: binop(n, "U"); break; case WEAK_UNTIL: binop(n, "W"); break; case RELEASE: /* see http://en.wikipedia.org/wiki/Linear_temporal_logic */ binop(n, "V"); break; case OR: binop(n, "||"); break; case AND: binop(n, "&&"); break; case IMPLIES: binop(n, "->"); break; case EQUIV: binop(n, "<->"); break; case C_EXPR: fprintf(fd, "c_expr { %s }", put_inline(fd, n->sym->name)); break; default: comment(fd, n, 0); break; } } static Lextok * ltl_to_string(Lextok *n) { Lextok *m = nn(ZN, 0, ZN, ZN); char *retval; char ltl_formula[2048]; FILE *tf = fopen(TMP_FILE1, "w+"); /* tmpfile() fails on Windows 7 */ /* convert the parsed ltl to a string by writing into a file, using existing functions, and then passing it to the existing interface for conversion into a never claim (this means parsing everything twice, which is a little redundant, but adds only miniscule overhead) */ if (!tf) { fatal("cannot create temporary file", (char *) 0); } dont_simplify = 1; recursive(tf, n); dont_simplify = 0; (void) fseek(tf, 0L, SEEK_SET); memset(ltl_formula, 0, sizeof(ltl_formula)); retval = fgets(ltl_formula, sizeof(ltl_formula), tf); fclose(tf); (void) unlink(TMP_FILE1); if (!retval) { printf("%p\n", retval); fatal("could not translate ltl ltl_formula", 0); } if (1) printf("ltl %s: %s\n", ltl_name, ltl_formula); m->sym = lookup(ltl_formula); return m; } int is_temporal(int t) { return (t == EVENTUALLY || t == ALWAYS || t == UNTIL || t == WEAK_UNTIL || t == RELEASE); } int is_boolean(int t) { return (t == AND || t == OR || t == IMPLIES || t == EQUIV); } #if 0 /* flags correct formula like: ltl { true U (true U true) } */ void sanity_check(Lextok *t) /* check proper embedding of ltl_expr */ { if (!t) return; sanity_check(t->lft); sanity_check(t->rgt); if (t->lft && t->rgt) { if (!is_boolean(t->ntyp) && (is_temporal(t->lft->ntyp) || is_temporal(t->rgt->ntyp))) { printf("spin: attempt to apply '"); explain(t->ntyp); printf("' to '"); explain(t->lft->ntyp); printf("' and '"); explain(t->rgt->ntyp); printf("'\n"); /* non_fatal("missing parentheses?", (char *)0); */ } } } #endif void yyerror(char *fmt, ...) { non_fatal(fmt, (char *) 0); }