ref: 41d1a883e53baf66918c35cb0e84eab899a16259
dir: /sys/src/cmd/spin/tl_lex.c/
/***** tl_spin: tl_lex.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 * * Based on the translation algorithm by Gerth, Peled, Vardi, and Wolper, * presented at the PSTV Conference, held in 1995, Warsaw, Poland 1995. */ #include <stdlib.h> #include <ctype.h> #include "tl.h" static Symbol *symtab[Nhash+1]; static int tl_lex(void); extern int tl_peek(int); extern YYSTYPE tl_yylval; extern char yytext[]; #define Token(y) tl_yylval = tl_nn(y,ZN,ZN); return y static void tl_getword(int first, int (*tst)(int)) { int i=0; int c; yytext[i++] = (char ) first; c = tl_Getchar(); while (c != -1 && tst(c)) { yytext[i++] = (char) c; c = tl_Getchar(); } /* while (tst(c = tl_Getchar())) * yytext[i++] = c; */ yytext[i] = '\0'; tl_UnGetchar(); } static int tl_follow(int tok, int ifyes, int ifno) { int c; char buf[32]; extern int tl_yychar; if ((c = tl_Getchar()) == tok) return ifyes; tl_UnGetchar(); tl_yychar = c; sprintf(buf, "expected '%c'", tok); tl_yyerror(buf); /* no return from here */ return ifno; } int tl_yylex(void) { int c = tl_lex(); #if 0 printf("c = %c (%d)\n", c, c); #endif return c; } static int is_predicate(int z) { char c, c_prev = z; char want = (z == '{') ? '}' : ')'; int i = 0, j, nesting = 0; char peek_buf[512]; c = tl_peek(i++); /* look ahead without changing position */ while ((c != want || nesting > 0) && c != -1 && i < 2047) { if (islower((int) c) || c == '_') { peek_buf[0] = c; j = 1; while (j < (int) sizeof(peek_buf) && (isalnum((int)(c = tl_peek(i))) || c == '_')) { peek_buf[j++] = c; i++; } c = 0; /* make sure we don't match on z or want on the peekahead */ if (j >= (int) sizeof(peek_buf)) { peek_buf[j-1] = '\0'; fatal("name '%s' in ltl formula too long", peek_buf); } peek_buf[j] = '\0'; if (strcmp(peek_buf, "always") == 0 || strcmp(peek_buf, "equivalent") == 0 || strcmp(peek_buf, "eventually") == 0 || strcmp(peek_buf, "until") == 0 || strcmp(peek_buf, "next") == 0 || strcmp(peek_buf, "c_expr") == 0) { return 0; } } else { int c_nxt = tl_peek(i); if (((c == 'U' || c == 'V' || c == 'X') && !isalnum_(c_prev) && (c_nxt == -1 || !isalnum_(c_nxt))) || (c == '<' && c_nxt == '>') || (c == '<' && c_nxt == '-') || (c == '-' && c_nxt == '>') || (c == '[' && c_nxt == ']')) { return 0; } } if (c == z) { nesting++; } if (c == want) { nesting--; } c_prev = c; c = tl_peek(i++); } return 1; } static void read_upto_closing(int z) { char c, want = (z == '{') ? '}' : ')'; int i = 0, nesting = 0; c = tl_Getchar(); while ((c != want || nesting > 0) && c != -1 && i < 2047) /* yytext is 2048 */ { yytext[i++] = c; if (c == z) { nesting++; } if (c == want) { nesting--; } c = tl_Getchar(); } yytext[i] = '\0'; } static int tl_lex(void) { int c; do { c = tl_Getchar(); yytext[0] = (char ) c; yytext[1] = '\0'; if (c <= 0) { Token(';'); } } while (c == ' '); /* '\t' is removed in tl_main.c */ if (c == '{' || c == '(') /* new 6.0.0 */ { if (is_predicate(c)) { read_upto_closing(c); tl_yylval = tl_nn(PREDICATE,ZN,ZN); if (!tl_yylval) { fatal("unexpected error 4", (char *) 0); } tl_yylval->sym = tl_lookup(yytext); return PREDICATE; } } if (c == '}') { tl_yyerror("unexpected '}'"); } if (islower(c)) { tl_getword(c, isalnum_); if (strcmp("true", yytext) == 0) { Token(TRUE); } if (strcmp("false", yytext) == 0) { Token(FALSE); } if (strcmp("always", yytext) == 0) { Token(ALWAYS); } if (strcmp("eventually", yytext) == 0) { Token(EVENTUALLY); } if (strcmp("until", yytext) == 0) { Token(U_OPER); } #ifdef NXT if (strcmp("next", yytext) == 0) { Token(NEXT); } #endif if (strcmp("c_expr", yytext) == 0) { Token(CEXPR); } if (strcmp("not", yytext) == 0) { Token(NOT); } tl_yylval = tl_nn(PREDICATE,ZN,ZN); if (!tl_yylval) { fatal("unexpected error 5", (char *) 0); } tl_yylval->sym = tl_lookup(yytext); return PREDICATE; } if (c == '<') { c = tl_Getchar(); if (c == '>') { Token(EVENTUALLY); } if (c != '-') { tl_UnGetchar(); tl_yyerror("expected '<>' or '<->'"); } c = tl_Getchar(); if (c == '>') { Token(EQUIV); } tl_UnGetchar(); tl_yyerror("expected '<->'"); } switch (c) { case '/' : c = tl_follow('\\', AND, '/'); break; case '\\': c = tl_follow('/', OR, '\\'); break; case '&' : c = tl_follow('&', AND, '&'); break; case '|' : c = tl_follow('|', OR, '|'); break; case '[' : c = tl_follow(']', ALWAYS, '['); break; case '-' : c = tl_follow('>', IMPLIES, '-'); break; case '!' : c = NOT; break; case 'U' : c = U_OPER; break; case 'V' : c = V_OPER; break; #ifdef NXT case 'X' : c = NEXT; break; #endif default : break; } Token(c); } Symbol * tl_lookup(char *s) { Symbol *sp; unsigned int h = hash(s); for (sp = symtab[h]; sp; sp = sp->next) if (strcmp(sp->name, s) == 0) return sp; sp = (Symbol *) tl_emalloc(sizeof(Symbol)); sp->name = (char *) tl_emalloc((int) strlen(s) + 1); strcpy(sp->name, s); sp->next = symtab[h]; symtab[h] = sp; return sp; } Symbol * getsym(Symbol *s) { Symbol *n = (Symbol *) tl_emalloc(sizeof(Symbol)); n->name = s->name; return n; }