/* $OpenBSD: col.c,v 1.10 2007/05/01 01:26:19 jdixon Exp $ */ /* $NetBSD: col.c,v 1.7 1995/09/02 05:48:50 jtc Exp $ */ /*- * Copyright (c) 1990, 1993, 1994 * The Regents of the University of California. All rights reserved. * * This code is derived from software contributed to Berkeley by * Michael Rendell of the Memorial University of Newfoundland. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #ifndef lint static char copyright[] = "@(#) Copyright (c) 1990, 1993, 1994\n\ The Regents of the University of California. All rights reserved.\n"; #endif /* not lint */ #ifndef lint #if 0 static char sccsid[] = "@(#)col.c 8.5 (Berkeley) 5/4/95"; #endif static char rcsid[] = "$OpenBSD: col.c,v 1.10 2007/05/01 01:26:19 jdixon Exp $"; #endif /* not lint */ #include #include #include #include #include #include #include #define BS '\b' /* backspace */ #define TAB '\t' /* tab */ #define SPACE ' ' /* space */ #define NL '\n' /* newline */ #define CR '\r' /* carriage return */ #define ESC '\033' /* escape */ #define SI '\017' /* shift in to normal character set */ #define SO '\016' /* shift out to alternate character set */ #define VT '\013' /* vertical tab (aka reverse line feed) */ #define RLF '\007' /* ESC-07 reverse line feed */ #define RHLF '\010' /* ESC-010 reverse half-line feed */ #define FHLF '\011' /* ESC-011 forward half-line feed */ /* build up at least this many lines before flushing them out */ #define BUFFER_MARGIN 32 typedef char CSET; typedef struct char_str { #define CS_NORMAL 1 #define CS_ALTERNATE 2 short c_column; /* column character is in */ CSET c_set; /* character set (currently only 2) */ char c_char; /* character in question */ } CHAR; typedef struct line_str LINE; struct line_str { CHAR *l_line; /* characters on the line */ LINE *l_prev; /* previous line */ LINE *l_next; /* next line */ int l_lsize; /* allocated sizeof l_line */ int l_line_len; /* strlen(l_line) */ int l_needs_sort; /* set if chars went in out of order */ int l_max_col; /* max column in the line */ }; LINE *alloc_line(void); void dowarn(int); void flush_line(LINE *); void flush_lines(int); void flush_blanks(void); void free_line(LINE *); void usage(void); void *xmalloc(void *, size_t); CSET last_set; /* char_set of last char printed */ LINE *lines; int compress_spaces; /* if doing space -> tab conversion */ int fine; /* if `fine' resolution (half lines) */ int max_bufd_lines; /* max # lines to keep in memory */ int nblank_lines; /* # blanks after last flushed line */ int no_backspaces; /* if not to output any backspaces */ #define PUTC(ch) \ if (putchar(ch) == EOF) \ err(1, "stdout"); int main(int argc, char *argv[]) { int ch; CHAR *c; CSET cur_set; /* current character set */ LINE *l; /* current line */ int extra_lines; /* # of lines above first line */ int cur_col; /* current column */ int cur_line; /* line number of current position */ int max_line; /* max value of cur_line */ int this_line; /* line l points to */ int nflushd_lines; /* number of lines that were flushed */ int adjust, opt, warned; const char *errstr; max_bufd_lines = 128; compress_spaces = 1; /* compress spaces into tabs */ while ((opt = getopt(argc, argv, "bfhl:x")) != -1) switch (opt) { case 'b': /* do not output backspaces */ no_backspaces = 1; break; case 'f': /* allow half forward line feeds */ fine = 1; break; case 'h': /* compress spaces into tabs */ compress_spaces = 1; break; case 'l': /* buffered line count */ max_bufd_lines = strtonum(optarg, 1, INT_MAX, &errstr); if (errstr != NULL) errx(1, "bad -l argument, %s: %s", errstr, optarg); break; case 'x': /* do not compress spaces into tabs */ compress_spaces = 0; break; case '?': default: usage(); } if (optind != argc) usage(); /* this value is in half lines */ max_bufd_lines *= 2; adjust = cur_col = extra_lines = warned = 0; cur_line = max_line = nflushd_lines = this_line = 0; cur_set = last_set = CS_NORMAL; lines = l = alloc_line(); while ((ch = getchar()) != EOF) { if (!isgraph(ch)) { switch (ch) { case BS: /* can't go back further */ if (cur_col == 0) continue; --cur_col; continue; case CR: cur_col = 0; continue; case ESC: /* just ignore EOF */ switch(getchar()) { case RLF: cur_line -= 2; break; case RHLF: cur_line--; break; case FHLF: cur_line++; if (cur_line > max_line) max_line = cur_line; } continue; case NL: cur_line += 2; if (cur_line > max_line) max_line = cur_line; cur_col = 0; continue; case SPACE: ++cur_col; continue; case SI: cur_set = CS_NORMAL; continue; case SO: cur_set = CS_ALTERNATE; continue; case TAB: /* adjust column */ cur_col |= 7; ++cur_col; continue; case VT: cur_line -= 2; continue; } continue; } /* Must stuff ch in a line - are we at the right one? */ if (cur_line != this_line - adjust) { LINE *lnew; int nmove; adjust = 0; nmove = cur_line - this_line; if (!fine) { /* round up to next line */ if (cur_line & 1) { adjust = 1; nmove++; } } if (nmove < 0) { for (; nmove < 0 && l->l_prev; nmove++) l = l->l_prev; if (nmove) { if (nflushd_lines == 0) { /* * Allow backup past first * line if nothing has been * flushed yet. */ for (; nmove < 0; nmove++) { lnew = alloc_line(); l->l_prev = lnew; lnew->l_next = l; l = lines = lnew; extra_lines++; } } else { if (!warned++) dowarn(cur_line); cur_line -= nmove; } } } else { /* may need to allocate here */ for (; nmove > 0 && l->l_next; nmove--) l = l->l_next; for (; nmove > 0; nmove--) { lnew = alloc_line(); lnew->l_prev = l; l->l_next = lnew; l = lnew; } } this_line = cur_line + adjust; nmove = this_line - nflushd_lines; if (nmove >= max_bufd_lines + BUFFER_MARGIN) { nflushd_lines += nmove - max_bufd_lines; flush_lines(nmove - max_bufd_lines); } } /* grow line's buffer? */ if (l->l_line_len + 1 >= l->l_lsize) { int need; need = l->l_lsize ? l->l_lsize * 2 : 90; l->l_line = (CHAR *)xmalloc((void *) l->l_line, (unsigned) need * sizeof(CHAR)); l->l_lsize = need; } c = &l->l_line[l->l_line_len++]; c->c_char = ch; c->c_set = cur_set; c->c_column = cur_col; /* * If things are put in out of order, they will need sorting * when it is flushed. */ if (cur_col < l->l_max_col) l->l_needs_sort = 1; else l->l_max_col = cur_col; cur_col++; } if (max_line == 0) exit(0); /* no lines, so just exit */ /* goto the last line that had a character on it */ for (; l->l_next; l = l->l_next) this_line++; flush_lines(this_line - nflushd_lines + extra_lines + 1); /* make sure we leave things in a sane state */ if (last_set != CS_NORMAL) PUTC('\017'); /* flush out the last few blank lines */ nblank_lines = max_line - this_line; if (max_line & 1) nblank_lines++; else if (!nblank_lines) /* missing a \n on the last line? */ nblank_lines = 2; flush_blanks(); exit(0); } void flush_lines(int nflush) { LINE *l; while (--nflush >= 0) { l = lines; lines = l->l_next; if (l->l_line) { flush_blanks(); flush_line(l); } nblank_lines++; if (l->l_line) (void)free((void *)l->l_line); free_line(l); } if (lines) lines->l_prev = NULL; } /* * Print a number of newline/half newlines. If fine flag is set, nblank_lines * is the number of half line feeds, otherwise it is the number of whole line * feeds. */ void flush_blanks(void) { int half, i, nb; half = 0; nb = nblank_lines; if (nb & 1) { if (fine) half = 1; else nb++; } nb /= 2; for (i = nb; --i >= 0;) PUTC('\n'); if (half) { PUTC('\033'); PUTC('9'); if (!nb) PUTC('\r'); } nblank_lines = 0; } /* * Write a line to stdout taking care of space to tab conversion (-h flag) * and character set shifts. */ void flush_line(LINE *l) { CHAR *c, *endc; int nchars, last_col, this_col; last_col = 0; nchars = l->l_line_len; if (l->l_needs_sort) { static CHAR *sorted; static int count_size, *count, i, save, sorted_size, tot; /* * Do an O(n) sort on l->l_line by column being careful to * preserve the order of characters in the same column. */ if (l->l_lsize > sorted_size) { sorted_size = l->l_lsize; sorted = (CHAR *)xmalloc((void *)sorted, (unsigned)sizeof(CHAR) * sorted_size); } if (l->l_max_col >= count_size) { count_size = l->l_max_col + 1; count = (int *)xmalloc((void *)count, (unsigned)sizeof(int) * count_size); } memset((char *)count, 0, sizeof(int) * l->l_max_col + 1); for (i = nchars, c = l->l_line; --i >= 0; c++) count[c->c_column]++; /* * calculate running total (shifted down by 1) to use as * indices into new line. */ for (tot = 0, i = 0; i <= l->l_max_col; i++) { save = count[i]; count[i] = tot; tot += save; } for (i = nchars, c = l->l_line; --i >= 0; c++) sorted[count[c->c_column]++] = *c; c = sorted; } else c = l->l_line; while (nchars > 0) { this_col = c->c_column; endc = c; do { ++endc; } while (--nchars > 0 && this_col == endc->c_column); /* if -b only print last character */ if (no_backspaces) c = endc - 1; if (this_col > last_col) { int nspace = this_col - last_col; if (compress_spaces && nspace > 1) { int ntabs; ntabs = ((last_col % 8) + nspace) / 8; if (ntabs) { nspace -= (ntabs * 8) - (last_col % 8); while (--ntabs >= 0) PUTC('\t'); } } while (--nspace >= 0) PUTC(' '); last_col = this_col; } last_col++; for (;;) { if (c->c_set != last_set) { switch (c->c_set) { case CS_NORMAL: PUTC('\017'); break; case CS_ALTERNATE: PUTC('\016'); } last_set = c->c_set; } PUTC(c->c_char); if (++c >= endc) break; PUTC('\b'); } } } #define NALLOC 64 static LINE *line_freelist; LINE * alloc_line(void) { LINE *l; int i; if (!line_freelist) { l = (LINE *)xmalloc(NULL, sizeof(LINE) * NALLOC); line_freelist = l; for (i = 1; i < NALLOC; i++, l++) l->l_next = l + 1; l->l_next = NULL; } l = line_freelist; line_freelist = l->l_next; memset(l, 0, sizeof(LINE)); return (l); } void free_line(LINE *l) { l->l_next = line_freelist; line_freelist = l; } void * xmalloc(void *p, size_t size) { if (!(p = (void *)realloc(p, size))) err(1, "realloc failed"); return (p); } void usage(void) { (void)fprintf(stderr, "usage: col [-bfhx] [-l num]\n"); exit(1); } void dowarn(int line) { warnx("warning: can't back up %s", line < 0 ? "past first line" : "-- line already flushed"); }