/* * node.c -- routines for node management */ /* * Copyright (C) 1986, 1988, 1989, 1991-2000 the Free Software Foundation, Inc. * * This file is part of GAWK, the GNU implementation of the * AWK Programming Language. * * GAWK is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * GAWK is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA * * $FreeBSD: src/contrib/awk/node.c,v 1.4.2.1 2001/01/23 22:08:31 asmodai Exp $ * $DragonFly: src/contrib/awk/Attic/node.c,v 1.2 2003/06/17 04:23:58 dillon Exp $ */ #include "awk.h" /* r_force_number --- force a value to be numeric */ AWKNUM r_force_number(n) register NODE *n; { register char *cp; register char *cpend; char save; char *ptr; unsigned int newflags; extern double strtod(); #ifdef DEBUG if (n == NULL) cant_happen(); if (n->type != Node_val) cant_happen(); if(n->flags == 0) cant_happen(); if (n->flags & NUM) return n->numbr; #endif /* all the conditionals are an attempt to avoid the expensive strtod */ n->numbr = 0.0; n->flags |= NUM; if (n->stlen == 0) return 0.0; cp = n->stptr; if (ISALPHA(*cp)) return 0.0; cpend = cp + n->stlen; while (cp < cpend && isspace(*cp)) cp++; if (cp == cpend || isalpha(*cp)) return 0.0; if (n->flags & MAYBE_NUM) { newflags = NUMBER; n->flags &= ~MAYBE_NUM; } else newflags = 0; if (cpend - cp == 1) { if (ISDIGIT(*cp)) { n->numbr = (AWKNUM)(*cp - '0'); n->flags |= newflags; } return n->numbr; } #ifdef NONDECDATA errno = 0; if (! do_traditional && isnondecimal(cp)) { n->numbr = nondec2awknum(cp, cpend - cp); goto finish; } #endif /* NONDECDATA */ errno = 0; save = *cpend; *cpend = '\0'; n->numbr = (AWKNUM) strtod((const char *) cp, &ptr); /* POSIX says trailing space is OK for NUMBER */ while (ISSPACE(*ptr)) ptr++; *cpend = save; finish: /* the >= should be ==, but for SunOS 3.5 strtod() */ if (errno == 0 && ptr >= cpend) n->flags |= newflags; else errno = 0; return n->numbr; } /* * the following lookup table is used as an optimization in force_string * (more complicated) variations on this theme didn't seem to pay off, but * systematic testing might be in order at some point */ static const char *values[] = { "0", "1", "2", "3", "4", "5", "6", "7", "8", "9", }; #define NVAL (sizeof(values)/sizeof(values[0])) /* format_val --- format a numeric value based on format */ NODE * format_val(format, index, s) char *format; int index; register NODE *s; { char buf[128]; register char *sp = buf; double val; /* not an integral value, or out of range */ if ((val = double_to_int(s->numbr)) != s->numbr || val < LONG_MIN || val > LONG_MAX) { /* * Once upon a time, if GFMT_WORKAROUND wasn't defined, * we just blindly did this: * sprintf(sp, format, s->numbr); * s->stlen = strlen(sp); * s->stfmt = (char) index; * but that's no good if, e.g., OFMT is %s. So we punt, * and just always format the value ourselves. */ NODE *dummy, *r; unsigned short oflags; extern NODE *format_tree P((const char *, int, NODE *)); extern NODE **fmt_list; /* declared in eval.c */ /* create dummy node for a sole use of format_tree */ getnode(dummy); dummy->lnode = s; dummy->rnode = NULL; oflags = s->flags; s->flags |= PERM; /* prevent from freeing by format_tree() */ r = format_tree(format, fmt_list[index]->stlen, dummy); s->flags = oflags; s->stfmt = (char) index; s->stlen = r->stlen; s->stptr = r->stptr; freenode(r); /* Do not free_temp(r)! We want */ freenode(dummy); /* to keep s->stptr == r->stpr. */ goto no_malloc; } else { /* integral value */ /* force conversion to long only once */ register long num = (long) val; if (num < NVAL && num >= 0) { sp = (char *) values[num]; s->stlen = 1; } else { (void) sprintf(sp, "%ld", num); s->stlen = strlen(sp); } s->stfmt = -1; } emalloc(s->stptr, char *, s->stlen + 2, "format_val"); memcpy(s->stptr, sp, s->stlen+1); no_malloc: s->stref = 1; s->flags |= STR; return s; } /* r_force_string --- force a value to be a string */ NODE * r_force_string(s) register NODE *s; { #ifdef DEBUG if (s == NULL) cant_happen(); if (s->type != Node_val) cant_happen(); /* if ((s->flags & NUM) == 0) cant_happen(); */ if (s->stref <= 0) cant_happen(); if ((s->flags & STR) != 0 && (s->stfmt == -1 || s->stfmt == CONVFMTidx)) return s; #endif return format_val(CONVFMT, CONVFMTidx, s); } /* * dupnode: * Duplicate a node. (For strings, "duplicate" means crank up the * reference count.) */ NODE * dupnode(n) NODE *n; { register NODE *r; if ((n->flags & TEMP) != 0) { n->flags &= ~TEMP; n->flags |= MALLOC; return n; } if ((n->flags & (MALLOC|STR)) == (MALLOC|STR)) { if (n->stref < LONG_MAX) n->stref++; return n; } getnode(r); *r = *n; r->flags &= ~(PERM|TEMP|FIELD); r->flags |= MALLOC; if (n->type == Node_val && (n->flags & STR) != 0) { r->stref = 1; emalloc(r->stptr, char *, r->stlen + 2, "dupnode"); memcpy(r->stptr, n->stptr, r->stlen); r->stptr[r->stlen] = '\0'; } return r; } /* mk_number --- allocate a node with defined number */ NODE * mk_number(x, flags) AWKNUM x; unsigned int flags; { register NODE *r; getnode(r); r->type = Node_val; r->numbr = x; r->flags = flags | SCALAR; #ifdef DEBUG r->stref = 1; r->stptr = NULL; r->stlen = 0; #endif return r; } /* make_str_node --- make a string node */ NODE * make_str_node(s, len, flags) char *s; size_t len; int flags; { register NODE *r; getnode(r); r->type = Node_val; r->flags = (STRING|STR|MALLOC|SCALAR); if (flags & ALREADY_MALLOCED) r->stptr = s; else { emalloc(r->stptr, char *, len + 2, s); memcpy(r->stptr, s, len); } r->stptr[len] = '\0'; if ((flags & SCAN) != 0) { /* scan for escape sequences */ char *pf; register char *ptm; register int c; register char *end; end = &(r->stptr[len]); for (pf = ptm = r->stptr; pf < end;) { c = *pf++; if (c == '\\') { c = parse_escape(&pf); if (c < 0) { if (do_lint) warning("backslash at end of string"); c = '\\'; } *ptm++ = c; } else *ptm++ = c; } len = ptm - r->stptr; erealloc(r->stptr, char *, len + 1, "make_str_node"); r->stptr[len] = '\0'; r->flags |= PERM; } r->stlen = len; r->stref = 1; r->stfmt = -1; return r; } /* tmp_string --- allocate a temporary string */ NODE * tmp_string(s, len) char *s; size_t len; { register NODE *r; r = make_string(s, len); r->flags |= TEMP; return r; } /* more_nodes --- allocate more nodes */ #define NODECHUNK 100 NODE *nextfree = NULL; NODE * more_nodes() { register NODE *np; /* get more nodes and initialize list */ emalloc(nextfree, NODE *, NODECHUNK * sizeof(NODE), "newnode"); for (np = nextfree; np <= &nextfree[NODECHUNK - 1]; np++) { np->flags = 0; np->nextp = np + 1; } --np; np->nextp = NULL; np = nextfree; nextfree = nextfree->nextp; return np; } #ifdef DEBUG /* freenode --- release a node back to the pool */ void freenode(it) NODE *it; { it->flags &= ~SCALAR; #ifdef MPROF it->stref = 0; free((char *) it); #else /* not MPROF */ /* add it to head of freelist */ it->nextp = nextfree; nextfree = it; #endif /* not MPROF */ } #endif /* DEBUG */ /* unref --- remove reference to a particular node */ void unref(tmp) register NODE *tmp; { if (tmp == NULL) return; if ((tmp->flags & PERM) != 0) return; if ((tmp->flags & (MALLOC|TEMP)) != 0) { tmp->flags &= ~TEMP; if ((tmp->flags & STR) != 0) { if (tmp->stref > 1) { if (tmp->stref != LONG_MAX) tmp->stref--; return; } free(tmp->stptr); } freenode(tmp); return; } if ((tmp->flags & FIELD) != 0) { freenode(tmp); return; } } /* * parse_escape: * * Parse a C escape sequence. STRING_PTR points to a variable containing a * pointer to the string to parse. That pointer is updated past the * characters we use. The value of the escape sequence is returned. * * A negative value means the sequence \ newline was seen, which is supposed to * be equivalent to nothing at all. * * If \ is followed by a null character, we return a negative value and leave * the string pointer pointing at the null character. * * If \ is followed by 000, we return 0 and leave the string pointer after the * zeros. A value of 0 does not mean end of string. * * Posix doesn't allow \x. */ int parse_escape(string_ptr) char **string_ptr; { register int c = *(*string_ptr)++; register int i; register int count; switch (c) { case 'a': return BELL; case 'b': return '\b'; case 'f': return '\f'; case 'n': return '\n'; case 'r': return '\r'; case 't': return '\t'; case 'v': return '\v'; case '\n': return -2; case 0: (*string_ptr)--; return -1; case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': i = c - '0'; count = 0; while (++count < 3) { if ((c = *(*string_ptr)++) >= '0' && c <= '7') { i *= 8; i += c - '0'; } else { (*string_ptr)--; break; } } return i; case 'x': if (do_lint) { static int didwarn = FALSE; if (! didwarn) { didwarn = TRUE; warning("POSIX does not allow \"\\x\" escapes"); } } if (do_posix) return ('x'); if (! isxdigit((*string_ptr)[0])) { warning("no hex digits in \\x escape sequence"); return ('x'); } i = 0; for (;;) { /* do outside test to avoid multiple side effects */ c = *(*string_ptr)++; if (ISXDIGIT(c)) { i *= 16; if (ISDIGIT(c)) i += c - '0'; else if (ISUPPER(c)) i += c - 'A' + 10; else i += c - 'a' + 10; } else { (*string_ptr)--; break; } } return i; default: if (do_lint) { static short warned[256]; unsigned char uc = (unsigned char) c; /* N.B.: use unsigned char here to avoid Latin-1 problems */ if (! warned[uc]) { warned[uc] = TRUE; warning("escape sequence `\\%c' treated as plain `%c'", uc, uc); } } return c; } }