/***** spin: spinlex.c *****/
/* Copyright (c) 1991-2000 by Lucent Technologies - Bell Laboratories */
/* All Rights Reserved. This software is for educational purposes only. */
/* Permission is given to distribute this code provided that this intro- */
/* ductory message is not removed and no monies are exchanged. */
/* No guarantee is expressed or implied by the distribution of this code. */
/* Software written by Gerard J. Holzmann as part of the book: */
/* `Design and Validation of Computer Protocols,' ISBN 0-13-539925-4, */
/* Prentice Hall, Englewood Cliffs, NJ, 07632. */
/* Send bug-reports and/or questions to: gerard@research.bell-labs.com */
#include <stdlib.h>
#include "spin.h"
#ifdef PC
#include "y_tab.h"
#else
#include "y.tab.h"
#endif
#define MAXINL 16 /* max recursion depth inline fcts */
#define MAXPAR 32 /* max params to an inline call */
#define MAXLEN 512 /* max len of an actual parameter text */
typedef struct IType {
Symbol *nm; /* name of the type */
Lextok *cn; /* contents */
Lextok *params; /* formal pars if any */
char **anms; /* literal text for actual pars */
int dln, cln; /* def and call linenr */
Symbol *dfn, *cfn; /* def and call filename */
struct IType *nxt; /* linked list */
} IType;
extern Symbol *Fname;
extern YYSTYPE yylval;
extern short has_last, terse;
extern int verbose, IArgs;
int lineno = 1, IArgno = 0;
int Inlining = -1;
char *Inliner[MAXINL], IArg_cont[MAXPAR][MAXLEN];
IType *Inline_stub[MAXINL];
char yytext[2048];
FILE *yyin, *yyout;
static unsigned char in_comment=0;
static char *ReDiRect;
static int check_name(char *);
#if 1
#define Token(y) { if (in_comment) goto again; \
yylval = nn(ZN,0,ZN,ZN); return y; }
#define ValToken(x, y) { if (in_comment) goto again; \
yylval = nn(ZN,0,ZN,ZN); yylval->val = x; return y; }
#define SymToken(x, y) { if (in_comment) goto again; \
yylval = nn(ZN,0,ZN,ZN); yylval->sym = x; return y; }
#else
#define Token(y) { yylval = nn(ZN,0,ZN,ZN); \
if (!in_comment) return y; else goto again; }
#define ValToken(x, y) { yylval = nn(ZN,0,ZN,ZN); yylval->val = x; \
if (!in_comment) return y; else goto again; }
#define SymToken(x, y) { yylval = nn(ZN,0,ZN,ZN); yylval->sym = x; \
if (!in_comment) return y; else goto again; }
#endif
#define Getchar() ((Inlining<0)?getc(yyin):getinline())
#define Ungetch(c) {if (Inlining<0) ungetc(c,yyin); else uninline(); }
static int getinline(void);
static void uninline(void);
static int
notquote(int c)
{ return (c != '\"' && c != '\n');
}
int
isalnum_(int c)
{ return (isalnum(c) || c == '_');
}
static int
isalpha_(int c)
{ return isalpha(c); /* could be macro */
}
static int
isdigit_(int c)
{ return isdigit(c); /* could be macro */
}
static void
getword(int first, int (*tst)(int))
{ int i=0; char c;
yytext[i++]= (char) first;
while (tst(c = Getchar()))
yytext[i++] = c;
yytext[i] = '\0';
Ungetch(c);
}
static int
follow(int tok, int ifyes, int ifno)
{ int c;
if ((c = Getchar()) == tok)
return ifyes;
Ungetch(c);
return ifno;
}
static IType *seqnames;
static void
def_inline(Symbol *s, int ln, char *ptr, Lextok *nms)
{ IType *tmp;
char *nw = (char *) emalloc(strlen(ptr)+1);
strcpy(nw, ptr);
for (tmp = seqnames; tmp; tmp = tmp->nxt)
if (!strcmp(s->name, tmp->nm->name))
{ non_fatal("procedure name %s redefined",
tmp->nm->name);
tmp->cn = (Lextok *) nw;
tmp->params = nms;
tmp->dln = ln;
tmp->dfn = Fname;
return;
}
tmp = (IType *) emalloc(sizeof(IType));
tmp->nm = s;
tmp->cn = (Lextok *) nw;
tmp->params = nms;
tmp->dln = ln;
tmp->dfn = Fname;
tmp->nxt = seqnames;
seqnames = tmp;
}
static int
iseqname(char *t)
{ IType *tmp;
for (tmp = seqnames; tmp; tmp = tmp->nxt)
{ if (!strcmp(t, tmp->nm->name))
return 1;
}
return 0;
}
static int
getinline(void)
{ int c;
if (ReDiRect)
{ c = *ReDiRect++;
if (c == '\0')
{ ReDiRect = (char *) 0;
c = *Inliner[Inlining]++;
}
} else
c = *Inliner[Inlining]++;
if (c == '\0')
{ lineno = Inline_stub[Inlining]->cln;
Fname = Inline_stub[Inlining]->cfn;
Inlining--;
#if 0
if (verbose&32)
printf("spin: line %d, done inlining %s\n",
lineno, Inline_stub[Inlining+1]->nm->name);
#endif
return Getchar();
}
return c;
}
static void
uninline(void)
{
if (ReDiRect)
ReDiRect--;
else
Inliner[Inlining]--;
}
void
pickup_inline(Symbol *t, Lextok *apars)
{ IType *tmp; Lextok *p, *q; int j;
for (tmp = seqnames; tmp; tmp = tmp->nxt)
if (!strcmp(t->name, tmp->nm->name))
break;
if (!tmp)
fatal("cannot happen, ns %s", t->name);
if (++Inlining >= MAXINL)
fatal("inline fcts too deeply nested", 0);
tmp->cln = lineno; /* remember calling point */
tmp->cfn = Fname; /* and filename */
for (p = apars, q = tmp->params, j = 0; p && q; p = p->rgt, q = q->rgt)
j++; /* count them */
if (p || q)
fatal("wrong nr of params on call of '%s'", t->name);
tmp->anms = (char **) emalloc(j * sizeof(char *));
for (p = apars, j = 0; p; p = p->rgt, j++)
{ tmp->anms[j] = (char *) emalloc(strlen(IArg_cont[j])+1);
strcpy(tmp->anms[j], IArg_cont[j]);
}
lineno = tmp->dln; /* linenr of def */
Fname = tmp->dfn; /* filename of same */
Inliner[Inlining] = (char *)tmp->cn;
Inline_stub[Inlining] = tmp;
#if 0
if (verbose&32)
printf("spin: line %d, file %s, inlining '%s' (from line %d, file %s)\n",
tmp->cln, tmp->cfn->name, t->name, tmp->dln, tmp->dfn->name);
#endif
for (j = 0; j < Inlining; j++)
if (Inline_stub[j] == Inline_stub[Inlining])
fatal("cyclic inline attempt on: %s", t->name);
}
static void
do_directive(int first, int fromwhere)
{ int c = first; /* handles lines starting with pound */
getword(c, isalpha_);
if ((c = Getchar()) != ' ')
fatal("malformed preprocessor directive - # .", 0);
if (!isdigit_(c = Getchar()))
fatal("malformed preprocessor directive - # .lineno", 0);
getword(c, isdigit_);
lineno = atoi(yytext); /* pickup the line number */
if ((c = Getchar()) == '\n')
return; /* no filename */
if (c != ' ')
fatal("malformed preprocessor directive - .fname", 0);
if ((c = Getchar()) != '\"')
fatal("malformed preprocessor directive - .fname", 0);
getword(c, notquote);
if (Getchar() != '\"')
fatal("malformed preprocessor directive - fname.", 0);
strcat(yytext, "\"");
Fname = lookup(yytext);
while (Getchar() != '\n')
;
}
#define SOMETHINGBIG 65536
void
prep_inline(Symbol *s, Lextok *nms)
{ int c, nest = 1, dln, firstchar, cnr;
char *p, buf[SOMETHINGBIG];
Lextok *t;
for (t = nms; t; t = t->rgt)
if (t->lft)
{ if (t->lft->ntyp != NAME)
fatal("bad param to inline %s", s->name);
t->lft->sym->hidden |= 32;
}
s->type = PREDEF;
p = &buf[0];
for (;;)
{ c = Getchar();
switch (c) {
case '{':
break;
case '\n':
lineno++;
/* fall through */
case ' ': case '\t': case '\f': case '\r':
continue;
default : fatal("bad inline: %s", s->name);
}
break;
}
dln = lineno;
sprintf(buf, "\n#line %d %s\n{", lineno, Fname->name);
p += strlen(buf);
firstchar = 1;
cnr = 1; /* not zero */
more:
*p++ = c = Getchar();
if (p - buf >= SOMETHINGBIG)
fatal("inline text too long", 0);
switch (c) {
case '\n':
lineno++;
cnr = 0;
break;
case '{':
cnr++;
nest++;
break;
case '}':
cnr++;
if (--nest <= 0)
{ *p = '\0';
def_inline(s, dln, &buf[0], nms);
if (firstchar)
fatal("empty inline definition '%s'", s->name);
return;
}
break;
case '#':
if (cnr == 0)
{ p--;
do_directive(c, 4); /* reads to newline */
break;
} /* else fall through */
default:
firstchar = 0;
case '\t':
case ' ':
case '\f':
cnr++;
break;
}
goto more;
}
static int
lex(void)
{ int c;
again:
c = Getchar();
yytext[0] = (char) c;
yytext[1] = '\0';
switch (c) {
case '\n': /* newline */
lineno++;
case '\r': /* carriage return */
goto again;
case ' ': case '\t': case '\f': /* white space */
goto again;
case '#': /* preprocessor directive */
if (in_comment) goto again;
do_directive(c, 5);
goto again;
case '\"':
getword(c, notquote);
if (Getchar() != '\"')
fatal("string not terminated", yytext);
strcat(yytext, "\"");
SymToken(lookup(yytext), STRING)
case '\'': /* new 3.0.9 */
c = Getchar();
if (c == '\\')
{ c = Getchar();
if (c == 'n') c = '\n';
else if (c == 'r') c = '\r';
else if (c == 't') c = '\t';
else if (c == 'f') c = '\f';
}
if (Getchar() != '\'')
fatal("character quote missing", yytext);
ValToken(c, CONST)
default:
break;
}
if (isdigit_(c))
{ getword(c, isdigit_);
ValToken(atoi(yytext), CONST)
}
if (isalpha_(c) || c == '_')
{ getword(c, isalnum_);
if (!in_comment)
{ c = check_name(yytext);
if (c) return c;
/* else fall through */
}
goto again;
}
switch (c) {
case '/': c = follow('*', 0, '/');
if (!c) { in_comment = 1; goto again; }
break;
case '*': c = follow('/', 0, '*');
if (!c) { in_comment = 0; goto again; }
break;
case ':': c = follow(':', SEP, ':'); break;
case '-': c = follow('>', SEMI, follow('-', DECR, '-')); break;
case '+': c = follow('+', INCR, '+'); break;
case '<': c = follow('<', LSHIFT, follow('=', LE, LT)); break;
case '>': c = follow('>', RSHIFT, follow('=', GE, GT)); break;
case '=': c = follow('=', EQ, ASGN); break;
case '!': c = follow('=', NE, follow('!', O_SND, SND)); break;
case '?': c = follow('?', R_RCV, RCV); break;
case '&': c = follow('&', AND, '&'); break;
case '|': c = follow('|', OR, '|'); break;
case ';': c = SEMI; break;
default : break;
}
Token(c)
}
static struct {
char *s; int tok; int val; char *sym;
} Names[] = {
{"active", ACTIVE, 0, 0},
{"assert", ASSERT, 0, 0},
{"atomic", ATOMIC, 0, 0},
{"bit", TYPE, BIT, 0},
{"bool", TYPE, BIT, 0},
{"break", BREAK, 0, 0},
{"byte", TYPE, BYTE, 0},
{"D_proctype", D_PROCTYPE, 0, 0},
{"do", DO, 0, 0},
{"chan", TYPE, CHAN, 0},
{"else", ELSE, 0, 0},
{"empty", EMPTY, 0, 0},
{"enabled", ENABLED, 0, 0},
{"eval", EVAL, 0, 0},
{"false", CONST, 0, 0},
{"fi", FI, 0, 0},
{"full", FULL, 0, 0},
{"goto", GOTO, 0, 0},
{"hidden", HIDDEN, 0, ":hide:"},
{"if", IF, 0, 0},
{"init", INIT, 0, ":init:"},
{"int", TYPE, INT, 0},
{"local", ISLOCAL, 0, ":local:"},
{"len", LEN, 0, 0},
{"mtype", TYPE, MTYPE, 0},
{"nempty", NEMPTY, 0, 0},
{"never", CLAIM, 0, ":never:"},
{"nfull", NFULL, 0, 0},
{"notrace", TRACE, 0, ":notrace:"},
{"np_", NONPROGRESS, 0, 0},
{"od", OD, 0, 0},
{"of", OF, 0, 0},
{"pc_value", PC_VAL, 0, 0},
{"printf", PRINT, 0, 0},
{"priority", PRIORITY, 0, 0},
{"proctype", PROCTYPE, 0, 0},
{"provided", PROVIDED, 0, 0},
{"run", RUN, 0, 0},
{"d_step", D_STEP, 0, 0},
{"inline", INLINE, 0, 0},
{"short", TYPE, SHORT, 0},
{"skip", CONST, 1, 0},
{"timeout", TIMEOUT, 0, 0},
{"trace", TRACE, 0, ":trace:"},
{"true", CONST, 1, 0},
{"show", SHOW, 0, ":show:"},
{"typedef", TYPEDEF, 0, 0},
{"unless", UNLESS, 0, 0},
{"unsigned", TYPE, UNSIGNED, 0},
{"xr", XU, XR, 0},
{"xs", XU, XS, 0},
{0, 0, 0, 0},
};
static int
check_name(char *s)
{ register int i;
yylval = nn(ZN, 0, ZN, ZN);
for (i = 0; Names[i].s; i++)
if (strcmp(s, Names[i].s) == 0)
{ yylval->val = Names[i].val;
if (Names[i].sym)
yylval->sym = lookup(Names[i].sym);
return Names[i].tok;
}
if (yylval->val = ismtype(s))
{ yylval->ismtyp = 1;
return CONST;
}
if (strcmp(s, "_last") == 0)
has_last++;
if (Inlining >= 0 && !ReDiRect)
{ Lextok *tt, *t = Inline_stub[Inlining]->params;
for (i = 0; t; t = t->rgt, i++)
if (!strcmp(s, t->lft->sym->name)
&& strcmp(s, Inline_stub[Inlining]->anms[i]) != 0)
{
#if 0
if (verbose&32)
printf("\tline %d, replace %s in call of '%s' with %s\n",
lineno, s,
Inline_stub[Inlining]->nm->name,
Inline_stub[Inlining]->anms[i]);
#endif
tt = Inline_stub[Inlining]->params;
for ( ; tt; tt = tt->rgt)
if (!strcmp(Inline_stub[Inlining]->anms[i],
tt->lft->sym->name))
{ /* would be cyclic if not caught */
yylval->ntyp = tt->lft->ntyp;
yylval->sym = lookup(tt->lft->sym->name);
return NAME;
}
ReDiRect = Inline_stub[Inlining]->anms[i];
return 0;
} }
yylval->sym = lookup(s); /* symbol table */
if (isutype(s))
return UNAME;
if (isproctype(s))
return PNAME;
if (iseqname(s))
return INAME;
return NAME;
}
int
yylex(void)
{ static int last = 0;
static int hold = 0;
int c;
/*
* repair two common syntax mistakes with
* semi-colons before or after a '}'
*/
if (hold)
{ c = hold;
hold = 0;
} else
{ c = lex();
if (last == ELSE
&& c != SEMI
&& c != FI)
{ hold = c;
last = 0;
return SEMI;
}
if (last == '}'
&& c != PROCTYPE
&& c != INIT
&& c != CLAIM
&& c != SEP
&& c != FI
&& c != OD
&& c != '}'
&& c != UNLESS
&& c != SEMI
&& c != EOF)
{ hold = c;
last = 0;
return SEMI; /* insert ';' */
}
if (c == SEMI)
{ extern Symbol *context, *owner;
/* if context, we're not in a typedef
* because they're global.
* if owner, we're at the end of a ref
* to a struct field -- prevent that the
* lookahead is interpreted as a field of
* the same struct...
*/
if (context) owner = ZS;
hold = lex(); /* look ahead */
if (hold == '}'
|| hold == SEMI)
{ c = hold; /* omit ';' */
hold = 0;
}
}
}
last = c;
if (IArgs)
{ static int IArg_nst = 0;
if (strcmp(yytext, ",") == 0)
{ IArg_cont[++IArgno][0] = '\0';
} else if (strcmp(yytext, "(") == 0)
{ if (IArg_nst++ == 0)
{ IArgno = 0;
IArg_cont[0][0] = '\0';
}
} else if (strcmp(yytext, ")") == 0)
{ IArg_nst--;
} else
strcat(IArg_cont[IArgno], yytext);
}
return c;
}
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