%{ /* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ %} /* * Copyright 2004 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T */ /* All Rights Reserved */ %{ #include #include #include #include #include #include static void getout(int) __NORETURN; static int *bundle(int, ...); static void usage(void); int cpeek(char, int, char, int, char); void yyerror(char *); %} %union { int *iptr; char *cptr; int cc; } %start start; %type stat, def, slist, dlets, e %type slist, re, fprefix, cargs, eora, cons, constant, lora %right '=' %left '+' '-' %left '*' '/' '%' %right '^' %left UMINUS %token LETTER %type EQOP, CRS %token DIGIT, SQRT, LENGTH, _IF, FFF, EQ %token _WHILE _FOR NE LE GE INCR DECR %token _RETURN _BREAK _DEFINE BASE OBASE SCALE %token EQPL EQMI EQMUL EQDIV EQREM EQEXP %token _AUTO DOT %token QSTR %{ #define STRING_SIZE (BC_STRING_MAX + 3) /* string plus quotes */ /* plus NULL */ FILE *in; char cary[LINE_MAX+1]; char *cp = { cary }; char *cpend = &cary[LINE_MAX]; /* last address (not the null char) */ char string[STRING_SIZE]; char *str = { string }; int crs = '0'; int rcrs = '0'; /* reset crs */ int bindx = 0; int lev = 0; /* current scope level */ int ln; /* line number of current file */ int *ttp; char *ss; /* current input source */ int bstack[10] = { 0 }; char *numb[15] = { " 0", " 1", " 2", " 3", " 4", " 5", " 6", " 7", " 8", " 9", " 10", " 11", " 12", " 13", " 14" }; int *pre, *post; int interact = 0; /* talking to a tty? */ %} %% start : | start stat tail = { output($2); } | start def dargs ')' '{' dlist slist '}' = { ttp = bundle(6, pre, $7, post, "0", numb[lev], "Q"); conout(ttp, (char *)$2); rcrs = crs; output((int *)""); lev = bindx = 0; } ; dlist : tail | dlist _AUTO dlets tail ; stat : e = bundle(2, $1, "ps."); | = bundle(1, ""); | QSTR = bundle(3, "[", $1, "]P"); | LETTER '=' e = bundle(3, $3, "s", $1); | LETTER '[' e ']' '=' e = bundle(4, $6, $3, ":", geta($1)); | LETTER EQOP e = bundle(6, "l", $1, $3, $2, "s", $1); | LETTER '[' e ']' EQOP e = bundle(8, $3, ";", geta($1), $6, $5, $3, ":", geta($1)); | _BREAK = bundle(2, numb[lev-bstack[bindx-1]], "Q"); | _RETURN '(' e ')' = bundle(4, $3, post, numb[lev], "Q"); | _RETURN '(' ')' = bundle(4, "0", post, numb[lev], "Q"); | _RETURN = bundle(4, "0", post, numb[lev], "Q"); | SCALE '=' e = bundle(2, $3, "k"); | SCALE EQOP e = bundle(4, "K", $3, $2, "k"); | BASE '=' e = bundle(2, $3, "i"); | BASE EQOP e = bundle(4, "I", $3, $2, "i"); | OBASE '=' e = bundle(2, $3, "o"); | OBASE EQOP e = bundle(4, "O", $3, $2, "o"); | '{' slist '}' = { $$ = $2; } | FFF = bundle(1, "fY"); | error = bundle(1, "c"); | _IF CRS BLEV '(' re ')' stat = { conout($7, $2); bundle(3, $5, $2, " "); } | _WHILE CRS '(' re ')' stat BLEV = { bundle(3, $6, $4, $2); conout($$, $2); bundle(3, $4, $2, " "); } | fprefix CRS re ';' e ')' stat BLEV = { bundle(5, $7, $5, "s.", $3, $2); conout($$, $2); bundle(5, $1, "s.", $3, $2, " "); } | '~' LETTER '=' e = bundle(3, $4, "S", $2); ; EQOP : EQPL = { $$ = "+"; } | EQMI = { $$ = "-"; } | EQMUL = { $$ = "*"; } | EQDIV = { $$ = "/"; } | EQREM = { $$ = "%%"; } | EQEXP = { $$ = "^"; } ; fprefix : _FOR '(' e ';' = { $$ = $3; } ; BLEV : = --bindx; ; slist : stat | slist tail stat = bundle(2, $1, $3); ; tail : '\n' = { ln++; } | ';' ; re : e EQ e = { $$ = bundle(3, $1, $3, "="); } | e '<' e = bundle(3, $1, $3, ">"); | e '>' e = bundle(3, $1, $3, "<"); | e NE e = bundle(3, $1, $3, "!="); | e GE e = bundle(3, $1, $3, "!>"); | e LE e = bundle(3, $1, $3, "!<"); | e = bundle(2, $1, " 0!="); ; e : e '+' e = bundle(3, $1, $3, "+"); | e '-' e = bundle(3, $1, $3, "-"); | '-' e %prec UMINUS = bundle(3, " 0", $2, "-"); | e '*' e = bundle(3, $1, $3, "*"); | e '/' e = bundle(3, $1, $3, "/"); | e '%' e = bundle(3, $1, $3, "%%"); | e '^' e = bundle(3, $1, $3, "^"); | LETTER '[' e ']' = bundle(3, $3, ";", geta($1)); | LETTER INCR = bundle(4, "l", $1, "d1+s", $1); | INCR LETTER = bundle(4, "l", $2, "1+ds", $2); | DECR LETTER = bundle(4, "l", $2, "1-ds", $2); | LETTER DECR = bundle(4, "l", $1, "d1-s", $1); | LETTER '[' e ']' INCR = bundle(7, $3, ";", geta($1), "d1+", $3, ":", geta($1)); | INCR LETTER '[' e ']' = bundle(7, $4, ";", geta($2), "1+d", $4, ":", geta($2)); | LETTER '[' e ']' DECR = bundle(7, $3, ";", geta($1), "d1-", $3, ":", geta($1)); | DECR LETTER '[' e ']' = bundle(7, $4, ";", geta($2), "1-d", $4, ":", geta($2)); | SCALE INCR = bundle(1, "Kd1+k"); | INCR SCALE = bundle(1, "K1+dk"); | SCALE DECR = bundle(1, "Kd1-k"); | DECR SCALE = bundle(1, "K1-dk"); | BASE INCR = bundle(1, "Id1+i"); | INCR BASE = bundle(1, "I1+di"); | BASE DECR = bundle(1, "Id1-i"); | DECR BASE = bundle(1, "I1-di"); | OBASE INCR = bundle(1, "Od1+o"); | INCR OBASE = bundle(1, "O1+do"); | OBASE DECR = bundle(1, "Od1-o"); | DECR OBASE = bundle(1, "O1-do"); | LETTER '(' cargs ')' = bundle(4, $3, "l", getf($1), "x"); | LETTER '(' ')' = bundle(3, "l", getf($1), "x"); | cons = bundle(2, " ", $1); | DOT cons = bundle(2, " .", $2); | cons DOT cons = bundle(4, " ", $1, ".", $3); | cons DOT = bundle(3, " ", $1, "."); | DOT = { $$ = "l."; } | LETTER = bundle(2, "l", $1); | LETTER '=' e = bundle(3, $3, "ds", $1); | LETTER EQOP e %prec '=' = bundle(6, "l", $1, $3, $2, "ds", $1); | LETTER '[' e ']' '=' e = bundle(5, $6, "d", $3, ":", geta($1)); | LETTER '[' e ']' EQOP e = { bundle(9, $3, ";", geta($1), $6, $5, "d", $3, ":", geta($1)); } | LENGTH '(' e ')' = bundle(2, $3, "Z"); | SCALE '(' e ')' = bundle(2, $3, "X"); /* must be before '(' e ')' */ | '(' e ')' = { $$ = $2; } | '?' = bundle(1, "?"); | SQRT '(' e ')' = bundle(2, $3, "v"); | '~' LETTER = bundle(2, "L", $2); | SCALE '=' e = bundle(2, $3, "dk"); | SCALE EQOP e %prec '=' = bundle(4, "K", $3, $2, "dk"); | BASE '=' e = bundle(2, $3, "di"); | BASE EQOP e %prec '=' = bundle(4, "I", $3, $2, "di"); | OBASE '=' e = bundle(2, $3, "do"); | OBASE EQOP e %prec '=' = bundle(4, "O", $3, $2, "do"); | SCALE = bundle(1, "K"); | BASE = bundle(1, "I"); | OBASE = bundle(1, "O"); ; cargs : eora | cargs ',' eora = bundle(2, $1, $3); ; eora : e | LETTER '[' ']' = bundle(2, "l", geta($1)); ; cons : constant = { *cp++ = '\0'; } constant: '_' = { checkbuffer(); $$ = cp; *cp++ = '_'; } | DIGIT = { checkbuffer(); $$ = cp; *cp++ = $1; } | constant DIGIT = { checkbuffer(); *cp++ = $2; } ; CRS : = { checkbuffer(); $$ = cp; *cp++ = crs++; *cp++ = '\0'; if (crs == '[') crs += 3; if (crs == 'a') crs = '{'; if (crs >= 0241) { yyerror("program too big"); getout(1); } bstack[bindx++] = lev++; } ; def : _DEFINE LETTER '(' = { $$ = getf($2); pre = (int *)""; post = (int *)""; lev = 1; bstack[bindx = 0] = 0; } ; dargs : /* empty */ | lora = { pp($1); } | dargs ',' lora = { pp($3); } ; dlets : lora = tp($1); | dlets ',' lora = tp($3); ; lora : LETTER = { $$ = $1; } | LETTER '[' ']' = { $$ = geta($1); } ; %% #define error 256 int peekc = -1; int ifile; /* current index into sargv */ int sargc; /* size of sargv[] */ char **sargv; /* saved arg list without options */ char funtab[52] = { 01, 0, 02, 0, 03, 0, 04, 0, 05, 0, 06, 0, 07, 0, 010, 0, 011, 0, 012, 0, 013, 0, 014, 0, 015, 0, 016, 0, 017, 0, 020, 0, 021, 0, 022, 0, 023, 0, 024, 0, 025, 0, 026, 0, 027, 0, 030, 0, 031, 0, 032, 0 }; unsigned char atab[52] = { 0241, 0, 0242, 0, 0243, 0, 0244, 0, 0245, 0, 0246, 0, 0247, 0, 0250, 0, 0251, 0, 0252, 0, 0253, 0, 0254, 0, 0255, 0, 0256, 0, 0257, 0, 0260, 0, 0261, 0, 0262, 0, 0263, 0, 0264, 0, 0265, 0, 0266, 0, 0267, 0, 0270, 0, 0271, 0, 0272, 0 }; char *letr[26] = { "a", "b", "c", "d", "e", "f", "g", "h", "i", "j", "k", "l", "m", "n", "o", "p", "q", "r", "s", "t", "u", "v", "w", "x", "y", "z" }; int yylex(void) { int c, ch; restart: c = getch(); peekc = -1; while (c == ' ' || c == '\t') c = getch(); if (c == '\\') { (void) getch(); goto restart; } if (c <= 'z' && c >= 'a') { /* look ahead to look for reserved words */ peekc = getch(); if (peekc >= 'a' && peekc <= 'z') { /* must be reserved word */ if (c == 'i' && peekc == 'f') { c = _IF; goto skip; } if (c == 'w' && peekc == 'h') { c = _WHILE; goto skip; } if (c == 'f' && peekc == 'o') { c = _FOR; goto skip; } if (c == 's' && peekc == 'q') { c = SQRT; goto skip; } if (c == 'r' && peekc == 'e') { c = _RETURN; goto skip; } if (c == 'b' && peekc == 'r') { c = _BREAK; goto skip; } if (c == 'd' && peekc == 'e') { c = _DEFINE; goto skip; } if (c == 's' && peekc == 'c') { c = SCALE; goto skip; } if (c == 'b' && peekc == 'a') { c = BASE; goto skip; } if (c == 'i' && peekc == 'b') { c = BASE; goto skip; } if (c == 'o' && peekc == 'b') { c = OBASE; goto skip; } if (c == 'd' && peekc == 'i') { c = FFF; goto skip; } if (c == 'a' && peekc == 'u') { c = _AUTO; goto skip; } if (c == 'l' && peekc == 'e') { c = LENGTH; goto skip; } if (c == 'q' && peekc == 'u') { getout(0); } /* could not be found */ return (error); skip: /* skip over rest of word */ peekc = -1; while ((ch = getch()) >= 'a' && ch <= 'z') ; peekc = ch; return (c); } /* usual case; just one single letter */ yylval.cptr = letr[c-'a']; return (LETTER); } if (c >= '0' && c <= '9' || c >= 'A' && c <= 'F') { yylval.cc = c; return (DIGIT); } switch (c) { case '.': return (DOT); case '=': switch ((peekc = getch())) { case '=': c = EQ; goto gotit; case '+': c = EQPL; goto gotit; case '-': c = EQMI; goto gotit; case '*': c = EQMUL; goto gotit; case '/': c = EQDIV; goto gotit; case '%': c = EQREM; goto gotit; case '^': c = EQEXP; goto gotit; default: return ('='); gotit: peekc = -1; return (c); } case '+': return (cpeek('+', INCR, '=', EQPL, '+')); case '-': return (cpeek('-', DECR, '=', EQMI, '-')); case '*': return (cpeek('=', EQMUL, '\0', 0, '*')); case '%': return (cpeek('=', EQREM, '\0', 0, '%')); case '^': return (cpeek('=', EQEXP, '\0', 0, '^')); case '<': return (cpeek('=', LE, '\0', 0, '<')); case '>': return (cpeek('=', GE, '\0', 0, '>')); case '!': return (cpeek('=', NE, '\0', 0, '!')); case '/': if ((peekc = getch()) == '=') { peekc = -1; return (EQDIV); } if (peekc == '*') { peekc = -1; while ((getch() != '*') || ((peekc = getch()) != '/')) ; peekc = -1; goto restart; } else return (c); case '"': yylval.cptr = str; while ((c = getch()) != '"') { *str++ = c; if (str >= &string[STRING_SIZE-1]) { yyerror("string space exceeded"); getout(1); } } *str++ = '\0'; return (QSTR); default: return (c); } } int cpeek(char c1, int yes1, char c2, int yes2, char none) { int r; peekc = getch(); if (peekc == c1) r = yes1; else if (peekc == c2) r = yes2; else return (none); peekc = -1; return (r); } int getch(void) { int ch; char mbuf[LINE_MAX]; loop: ch = (peekc < 0) ? getc(in) : peekc; peekc = -1; if (ch != EOF) return (ch); if (++ifile >= sargc) { if (ifile >= sargc+1) getout(0); in = stdin; ln = 0; goto loop; } (void) fclose(in); if ((in = fopen(sargv[ifile], "r")) != NULL) { ln = 0; ss = sargv[ifile]; goto loop; } (void) snprintf(mbuf, sizeof (mbuf), "can't open input file %s", sargv[ifile]); ln = -1; ss = "command line"; yyerror(mbuf); getout(1); /*NOTREACHED*/ } #define b_sp_max 5000 int b_space[b_sp_max]; int *b_sp_nxt = { b_space }; int bdebug = 0; static int * bundle(int i, ...) { va_list ap; int *q; va_start(ap, i); q = b_sp_nxt; if (bdebug) printf("bundle %d elements at %o\n", i, q); while (i-- > 0) { if (b_sp_nxt >= & b_space[b_sp_max]) yyerror("bundling space exceeded"); *b_sp_nxt++ = va_arg(ap, int); } * b_sp_nxt++ = 0; yyval.iptr = q; va_end(ap); return (q); } void routput(int *p) { if (bdebug) printf("routput(%o)\n", p); if (p >= &b_space[0] && p < &b_space[b_sp_max]) { /* part of a bundle */ while (*p != 0) routput((int *)*p++); } else printf((char *)p); /* character string */ } void output(int *p) { routput(p); b_sp_nxt = & b_space[0]; printf("\n"); (void) fflush(stdout); cp = cary; crs = rcrs; } void conout(int *p, char *s) { printf("["); routput(p); printf("]s%s\n", s); (void) fflush(stdout); lev--; } void yyerror(char *s) { if (ifile >= sargc) ss = "teletype"; if (ss == 0 || *ss == 0) (void) fprintf(stderr, gettext("%s on line %d\n"), s, ln+1); else (void) fprintf(stderr, gettext("%s on line %d, %s\n"), s, ln+1, ss); (void) fflush(stderr); cp = cary; crs = rcrs; bindx = 0; lev = 0; b_sp_nxt = &b_space[0]; } void checkbuffer(void) { /* Do not exceed the last char in input line buffer */ if (cp >= cpend) { yyerror("line too long\n"); getout(1); } } void pp(int *s) { /* puts the relevant stuff on pre and post for the letter s */ (void) bundle(3, "S", s, pre); pre = yyval.iptr; (void) bundle(4, post, "L", s, "s."); post = yyval.iptr; } void tp(int *s) { /* same as pp, but for temps */ bundle(3, "0S", s, pre); pre = yyval.iptr; bundle(4, post, "L", s, "s."); post = yyval.iptr; } void yyinit(int argc, char **argv) { char mbuf[LINE_MAX]; (void) signal(SIGINT, SIG_IGN); /* ignore all interrupts */ sargv = argv; sargc = argc; if (sargc == 0) in = stdin; else if ((in = fopen(sargv[0], "r")) == NULL) { (void) snprintf(mbuf, sizeof (mbuf), "can't open input file %s", sargv[0]); ln = -1; ss = "command line"; yyerror(mbuf); getout(1); } ifile = 0; ln = 0; ss = sargv[0]; } static void getout(int code) { printf("q"); (void) fflush(stdout); exit(code); } int * getf(char *p) { return ((int *) &funtab[2*(*p -0141)]); } int * geta(char *p) { return ((int *) &atab[2*(*p - 0141)]); } int main(int argc, char **argv) { int p[2]; int cflag = 0; int lflag = 0; int flag = 0; char **av; int filecounter = 0; (void) setlocale(LC_ALL, ""); #if !defined(TEXT_DOMAIN) /* Should be defined by cc -D */ #define TEXT_DOMAIN "SYS_TEST" /* Use this only if it weren't */ #endif (void) textdomain(TEXT_DOMAIN); while ((flag = getopt(argc, argv, "dcl")) != EOF) { switch (flag) { case 'd': case 'c': cflag++; break; case 'l': lflag++; break; default: fflush(stdout); usage(); break; } } argc -= optind; av = &argv[optind]; /* * argc is the count of arguments, which should be filenames, * remaining in argv. av is a pointer to the first of the * remaining arguments. */ for (filecounter = 0; filecounter < argc; filecounter++) { if ((strlen(av[filecounter])) >= PATH_MAX) { (void) fprintf(stderr, gettext("File argument too long\n")); exit(2); } } if (lflag) { /* * if the user wants to include the math library, prepend * the math library filename to the argument list by * overwriting the last option (there must be at least one * supplied option if this is being done). */ av = &argv[optind-1]; av[0] = "/usr/lib/lib.b"; argc++; } if (cflag) { yyinit(argc, av); yyparse(); exit(0); } pipe(p); if (fork() == 0) { (void) close(1); dup(p[1]); (void) close(p[0]); (void) close(p[1]); yyinit(argc, av); yyparse(); exit(0); } (void) close(0); dup(p[0]); (void) close(p[0]); (void) close(p[1]); #ifdef XPG6 execl("/usr/xpg6/bin/dc", "dc", "-", 0); #else execl("/usr/bin/dc", "dc", "-", 0); #endif return (1); } static void usage(void) { (void) fprintf(stderr, gettext( "usage: bc [ -c ] [ -l ] [ file ... ]\n")); exit(2); }