/* * 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 2005 Sun Microsystems, Inc. * All rights reserved. * Use is subject to license terms. */ /* Copyright (c) 1988 AT&T */ /* All Rights Reserved */ #pragma ident "%Z%%M% %I% %E% SMI" #include "ldefs.c" #include /* * return next line of input, throw away trailing '\n' * and also throw away trailing blanks (spaces and tabs) * returns 0 if eof is had immediately */ CHR * getl(CHR *p) { int c; CHR *s, *t, *u; int blank = 0; t = s = p; while (((c = gch()) != 0) && c != '\n') { if (t >= &p[BUF_SIZ]) error("definitions too long"); if (c == ' ' || c == '\t') { if (!blank) { blank = 1; u = t; } } else blank = 0; *t++ = c; } if (blank) *u = 0; else *t = 0; if (c == 0 && s == t) return ((CHR *) 0); prev = '\n'; pres = '\n'; return (s); } int space(int ch) { switch (ch) { case ' ': case '\t': case '\n': return (1); } return (0); } int digit(int c) { return (c >= '0' && c <= '9'); } /* VARARGS1 */ void error(s, p, d) char *s; int p, d; { /* if(!eof) */ if (!yyline) (void) fprintf(errorf, "Command line: "); else { (void) fprintf(errorf, !no_input ? "" : "\"%s\":", sargv[optind]); (void) fprintf(errorf, "line %d: ", yyline); } (void) fprintf(errorf, "Error: "); (void) fprintf(errorf, s, p, d); (void) putc('\n', errorf); if (fatal) error_tail(); } void error_tail(void) { #ifdef DEBUG if (debug && sect != ENDSECTION) { sect1dump(); sect2dump(); } #endif if (report == 1) statistics(); exit(1); /* NOTREACHED */ } /* VARARGS1 */ void warning(s, p, d) char *s; int p, d; { if (!eof) if (!yyline) (void) fprintf(errorf, "Command line: "); else { (void) fprintf(errorf, !no_input?"":"\"%s\":", sargv[optind]); (void) fprintf(errorf, "line %d: ", yyline); } (void) fprintf(errorf, "Warning: "); (void) fprintf(errorf, s, p, d); (void) putc('\n', errorf); (void) fflush(errorf); if (fout) (void) fflush(fout); (void) fflush(stdout); } int index(int a, CHR *s) { int k; for (k = 0; s[k]; k++) if (s[k] == a) return (k); return (-1); } int alpha(int c) { return ('a' <= c && c <= 'z' || 'A' <= c && c <= 'Z'); } int printable(int c) { return (c > 040 && c < 0177); } void lgate(void) { char fname[20]; if (lgatflg) return; lgatflg = 1; if (fout == NULL) { (void) sprintf(fname, "lex.yy.%c", ratfor ? 'r' : 'c'); fout = fopen(fname, "w"); } if (fout == NULL) error("Can't open %s", fname); if (ratfor) (void) fprintf(fout, "#\n"); phead1(); } /* * scopy(ptr to str, ptr to str) - copy first arg str to second * returns ptr to second arg */ void scopy(CHR *s, CHR *t) { CHR *i; i = t; while (*i++ = *s++); } /* * convert string t, return integer value */ int siconv(CHR *t) { int i, sw; CHR *s; s = t; while (space(*s)) s++; if (!digit(*s) && *s != '-') error("missing translation value"); sw = 0; if (*s == '-') { sw = 1; s++; } if (!digit(*s)) error("incomplete translation format"); i = 0; while ('0' <= *s && *s <= '9') i = i * 10 + (*(s++)-'0'); return (sw ? -i : i); } /* * slength(ptr to str) - return integer length of string arg * excludes '\0' terminator */ int slength(CHR *s) { int n; CHR *t; t = s; for (n = 0; *t++; n++); return (n); } /* * scomp(x,y) - return -1 if x < y, * 0 if x == y, * return 1 if x > y, all lexicographically */ int scomp(CHR *x, CHR *y) { CHR *a, *d; a = (CHR *) x; d = (CHR *) y; while (*a || *d) { if (*a > *d) return (1); if (*a < *d) return (-1); a++; d++; } return (0); } int ctrans(CHR **ss) { int c, k; if ((c = **ss) != '\\') return (c); switch (c = *++*ss) { case 'a': c = '\a'; warning("\\a is ANSI C \"alert\" character"); break; case 'v': c = '\v'; break; case 'n': c = '\n'; break; case 't': c = '\t'; break; case 'r': c = '\r'; break; case 'b': c = '\b'; break; case 'f': c = 014; break; /* form feed for ascii */ case '\\': c = '\\'; break; case 'x': { int dd; warning("\\x is ANSI C hex escape"); if (digit((dd = *++*ss)) || ('a' <= dd && dd <= 'f') || ('A' <= dd && dd <= 'F')) { c = 0; while (digit(dd) || ('A' <= dd && dd <= 'F') || ('a' <= dd && dd <= 'f')) { if (digit(dd)) c = c*16 + dd - '0'; else if (dd >= 'a') c = c*16 + 10 + dd - 'a'; else c = c*16 + 10 + dd - 'A'; dd = *++*ss; } } else c = 'x'; break; } case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': c -= '0'; while ((k = *(*ss+1)) >= '0' && k <= '7') { c = c*8 + k - '0'; (*ss)++; } break; } return (c); } void cclinter(int sw) { /* sw = 1 ==> ccl */ int i, j, k; int m; if (!sw) { /* is NCCL */ for (i = 1; i < ncg; i++) symbol[i] ^= 1; /* reverse value */ } for (i = 1; i < ncg; i++) if (symbol[i]) break; if (i >= ncg) return; i = cindex[i]; /* see if ccl is already in our table */ j = 0; if (i) { for (j = 1; j < ncg; j++) { if ((symbol[j] && cindex[j] != i) || (!symbol[j] && cindex[j] == i)) break; } } if (j >= ncg) return; /* already in */ m = 0; k = 0; for (i = 1; i < ncg; i++) { if (symbol[i]) { if (!cindex[i]) { cindex[i] = ccount; symbol[i] = 0; m = 1; } else k = 1; } } /* m == 1 implies last value of ccount has been used */ if (m) ccount++; if (k == 0) return; /* is now in as ccount wholly */ /* intersection must be computed */ for (i = 1; i < ncg; i++) { if (symbol[i]) { m = 0; j = cindex[i]; /* will be non-zero */ for (k = 1; k < ncg; k++) { if (cindex[k] == j) { if (symbol[k]) symbol[k] = 0; else { cindex[k] = ccount; m = 1; } } } if (m) ccount++; } } } int usescape(int c) { char d; switch (c) { case 'a': c = '\a'; warning("\\a is ANSI C \"alert\" character"); break; case 'v': c = '\v'; break; case 'n': c = '\n'; break; case 'r': c = '\r'; break; case 't': c = '\t'; break; case 'b': c = '\b'; break; case 'f': c = 014; break; /* form feed for ascii */ case 'x': { int dd; if (digit((dd = gch())) || ('A' <= dd && dd <= 'F') || ('a' <= dd && dd <= 'f')) { c = 0; while (digit(dd) || ('A' <= dd && dd <= 'F') || ('a' <= dd && dd <= 'f')) { if (digit(dd)) c = c*16 + dd - '0'; else if (dd >= 'a') c = c*16 + 10 + dd - 'a'; else c = c*16 + 10 + dd - 'A'; if (!digit(peek) && !('A' <= peek && peek <= 'F') && !('a' <= peek && peek <= 'f')) break; dd = gch(); } } else c = 'x'; break; } case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': c -= '0'; while ('0' <= (d = gch()) && d <= '7') { c = c * 8 + (d-'0'); if (!('0' <= peek && peek <= '7')) break; } break; } if (handleeuc && !isascii(c)) { char tmpchar = c & 0x00ff; mbtowc((wchar_t *)&c, &tmpchar, sizeof (tmpchar)); } return (c); } int lookup(CHR *s, CHR **t) { int i; i = 0; while (*t) { if (scomp(s, *t) == 0) return (i); i++; t++; } return (-1); } void cpycom(CHR *p) { static CHR *t; static int c; t = p; if (sargv[optind] == NULL) (void) fprintf(fout, "\n# line %d\n", yyline); else (void) fprintf(fout, "\n# line %d \"%s\"\n", yyline, sargv[optind]); (void) putc(*t++, fout); (void) putc(*t++, fout); while (*t) { while (*t == '*') { (void) putc(*t++, fout); if (*t == '/') goto backcall; } /* * FIX BUG #1058428, not parsing comments correctly * that span more than one line */ if (*t != NULL) (void) putc(*t++, fout); } (void) putc('\n', fout); while (c = gch()) { while (c == '*') { (void) putc((char)c, fout); if ((c = gch()) == '/') { while ((c = gch()) == ' ' || c == '\t'); if (!space(c)) error("unacceptable statement"); prev = '\n'; goto backcall; } } (void) putc((char)c, fout); } error("unexpected EOF inside comment"); backcall: (void) putc('/', fout); (void) putc('\n', fout); } /* * copy C action to the next ; or closing */ int cpyact(void) { int brac, c, mth; static int sw, savline; brac = 0; sw = TRUE; savline = yyline; if (sargv[optind] == NULL) (void) fprintf(fout, "\n# line %d\n", yyline); else (void) fprintf(fout, "\n# line %d \"%s\"\n", yyline, sargv[optind]); while (!eof) { c = gch(); swt: switch (c) { case '|': if (brac == 0 && sw == TRUE) { if (peek == '|') (void) gch(); /* eat up an extra '|' */ return (0); } break; case ';': if (brac == 0) { (void) putwc(c, fout); (void) putc('\n', fout); return (1); } break; case '{': brac++; savline = yyline; break; case '}': brac--; if (brac == 0) { (void) putwc(c, fout); (void) putc('\n', fout); return (1); } break; case '/': (void) putwc(c, fout); c = gch(); if (c != '*') goto swt; (void) putwc(c, fout); savline = yyline; while (c = gch()) { while (c == '*') { (void) putwc(c, fout); if ((c = gch()) == '/') { (void) putc('/', fout); while ((c = gch()) == ' ' || c == '\t' || c == '\n') (void) putwc(c, fout); goto swt; } } (void) putc((char)c, fout); } yyline = savline; error("EOF inside comment"); /* NOTREACHED */ break; case '\'': /* character constant */ case '"': /* character string */ mth = c; (void) putwc(c, fout); while (c = gch()) { if (c == '\\') { (void) putwc(c, fout); c = gch(); } else if (c == mth) goto loop; (void) putwc(c, fout); if (c == '\n') { yyline--; error( "Non-terminated string or character constant"); } } error("EOF in string or character constant"); /* NOTREACHED */ break; case '\0': yyline = savline; error("Action does not terminate"); /* NOTREACHED */ break; default: break; /* usual character */ } loop: if (c != ' ' && c != '\t' && c != '\n') sw = FALSE; (void) putwc(c, fout); if (peek == '\n' && !brac && copy_line) { (void) putc('\n', fout); return (1); } } error("Premature EOF"); return (0); } int gch(void) { int c; prev = pres; c = pres = peek; peek = pushptr > pushc ? *--pushptr : getwc(fin); while (peek == EOF) { if (no_input) { if (!yyline) error("Cannot read from -- %s", sargv[optind]); if (optind < sargc-1) { yyline = 0; if (fin != stdin) (void) fclose(fin); fin = fopen(sargv[++optind], "r"); if (fin == NULL) error("Cannot open file -- %s", sargv[optind]); peek = getwc(fin); } else break; } else { if (fin != stdin) (void) fclose(fin); if (!yyline) error("Cannot read from -- standard input"); else break; } } if (c == EOF) { eof = TRUE; return (0); } if (c == '\n') yyline++; return (c); } int mn2(int a, int d, int c) { if (tptr >= treesize) { tptr++; error("Parse tree too big %s", (treesize == TREESIZE ? "\nTry using %e num" : "")); } if (d >= treesize) { error("Parse error"); } name[tptr] = a; left[tptr] = d; right[tptr] = c; parent[tptr] = 0; nullstr[tptr] = 0; switch (a) { case RSTR: parent[d] = tptr; break; case BAR: case RNEWE: if (nullstr[d] || nullstr[c]) nullstr[tptr] = TRUE; parent[d] = parent[c] = tptr; break; case RCAT: case DIV: if (nullstr[d] && nullstr[c]) nullstr[tptr] = TRUE; parent[d] = parent[c] = tptr; break; /* XCU4: add RXSCON */ case RXSCON: case RSCON: parent[d] = tptr; nullstr[tptr] = nullstr[d]; break; #ifdef DEBUG default: warning("bad switch mn2 %d %d", a, d); break; #endif } return (tptr++); } int mn1(int a, int d) { if (tptr >= treesize) { tptr++; error("Parse tree too big %s", (treesize == TREESIZE ? "\nTry using %e num" : "")); } name[tptr] = a; left[tptr] = d; parent[tptr] = 0; nullstr[tptr] = 0; switch (a) { case RCCL: case RNCCL: if (slength((CHR *)d) == 0) nullstr[tptr] = TRUE; break; case STAR: case QUEST: nullstr[tptr] = TRUE; parent[d] = tptr; break; case PLUS: case CARAT: nullstr[tptr] = nullstr[d]; parent[d] = tptr; break; case S2FINAL: nullstr[tptr] = TRUE; break; #ifdef DEBUG case FINAL: case S1FINAL: break; default: warning("bad switch mn1 %d %d", a, d); break; #endif } return (tptr++); } int mn0(int a) { if (tptr >= treesize) { tptr++; error("Parse tree too big %s", (treesize == TREESIZE ? "\nTry using %e num" : "")); } name[tptr] = a; parent[tptr] = 0; nullstr[tptr] = 0; if (ISOPERATOR(a)) { switch (a) { case DOT: break; case RNULLS: nullstr[tptr] = TRUE; break; #ifdef DEBUG default: warning("bad switch mn0 %d", a); break; #endif } } return (tptr++); } void munput(int t, CHR *p) { int i, j; if (t == 'c') { *pushptr++ = peek; peek = *p; } else if (t == 's') { *pushptr++ = peek; peek = p[0]; i = slength(p); for (j = i - 1; j >= 1; j--) *pushptr++ = p[j]; } if (pushptr >= pushc + TOKENSIZE) error("Too many characters pushed"); } int dupl(int n) { /* duplicate the subtree whose root is n, return ptr to it */ int i; i = name[n]; if (!ISOPERATOR(i)) return (mn0(i)); switch (i) { case DOT: case RNULLS: return (mn0(i)); case RCCL: case RNCCL: case FINAL: case S1FINAL: case S2FINAL: return (mn1(i, left[n])); case STAR: case QUEST: case PLUS: case CARAT: return (mn1(i, dupl(left[n]))); /* XCU4: add RXSCON */ case RSTR: case RSCON: case RXSCON: return (mn2(i, dupl(left[n]), right[n])); case BAR: case RNEWE: case RCAT: case DIV: return (mn2(i, dupl(left[n]), dupl(right[n]))); } return (0); } #ifdef DEBUG void allprint(CHR c) { switch (c) { case 014: (void) printf("\\f"); charc++; break; case '\n': (void) printf("\\n"); charc++; break; case '\t': (void) printf("\\t"); charc++; break; case '\b': (void) printf("\\b"); charc++; break; case ' ': (void) printf("\\_"); break; default: if (!iswprint(c)) { printf("\\x%-2x", c); /* up to fashion. */ charc += 3; } else (void) putwc(c, stdout); break; } charc++; } void strpt(CHR *s) { charc = 0; while (*s) { allprint(*s++); if (charc > LINESIZE) { charc = 0; (void) printf("\n\t"); } } } void sect1dump(void) { int i; (void) printf("Sect 1:\n"); if (def[0]) { (void) printf("str trans\n"); i = -1; while (def[++i]) (void) printf("%ws\t%ws\n", def[i], subs[i]); } if (sname[0]) { (void) printf("start names\n"); i = -1; while (sname[++i]) (void) printf("%ws\n", sname[i]); } if (chset == TRUE) { (void) printf("char set changed\n"); for (i = 1; i < NCH; i++) { if (i != ctable[i]) { allprint(i); (void) putchar(' '); iswprint(ctable[i]) ? (void) putwc(ctable[i], stdout) : (void) printf("%d", ctable[i]); (void) putchar('\n'); } } } } void sect2dump(void) { (void) printf("Sect 2:\n"); treedump(); } void treedump(void) { int t; CHR *p; (void) printf("treedump %d nodes:\n", tptr); for (t = 0; t < tptr; t++) { (void) printf("%4d ", t); parent[t] ? (void) printf("p=%4d", parent[t]) : (void) printf(" "); (void) printf(" "); if (!ISOPERATOR(name[t])) { allprint(name[t]); } else switch (name[t]) { case RSTR: (void) printf("%d ", left[t]); allprint(right[t]); break; case RCCL: (void) printf("ccl "); strpt(left[t]); break; case RNCCL: (void) printf("nccl "); strpt(left[t]); break; case DIV: (void) printf("/ %d %d", left[t], right[t]); break; case BAR: (void) printf("| %d %d", left[t], right[t]); break; case RCAT: (void) printf("cat %d %d", left[t], right[t]); break; case PLUS: (void) printf("+ %d", left[t]); break; case STAR: (void) printf("* %d", left[t]); break; case CARAT: (void) printf("^ %d", left[t]); break; case QUEST: (void) printf("? %d", left[t]); break; case RNULLS: (void) printf("nullstring"); break; case FINAL: (void) printf("final %d", left[t]); break; case S1FINAL: (void) printf("s1final %d", left[t]); break; case S2FINAL: (void) printf("s2final %d", left[t]); break; case RNEWE: (void) printf("new %d %d", left[t], right[t]); break; /* XCU4: add RXSCON */ case RXSCON: p = (CHR *)right[t]; (void) printf("exstart %s", sname[*p++-1]); while (*p) (void) printf(", %ws", sname[*p++-1]); (void) printf(" %d", left[t]); break; case RSCON: p = (CHR *)right[t]; (void) printf("start %s", sname[*p++-1]); while (*p) (void) printf(", %ws", sname[*p++-1]); (void) printf(" %d", left[t]); break; case DOT: printf("dot"); break; default: (void) printf( "unknown %d %d %d", name[t], left[t], right[t]); break; } if (nullstr[t]) (void) printf("\t(null poss.)"); (void) putchar('\n'); } } #endif