/* $OpenBSD: pr.c,v 1.26 2008/04/18 20:18:21 tobias Exp $ */ /*- * Copyright (c) 1991 Keith Muller. * Copyright (c) 1993 * The Regents of the University of California. All rights reserved. * * This code is derived from software contributed to Berkeley by * Keith Muller of the University of California, San Diego. * * 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) 1993\n\ The Regents of the University of California. All rights reserved.\n"; #endif /* not lint */ #ifndef lint /* from: static char sccsid[] = "@(#)pr.c 8.1 (Berkeley) 6/6/93"; */ static char *rcsid = "$OpenBSD: pr.c,v 1.26 2008/04/18 20:18:21 tobias Exp $"; #endif /* not lint */ #include #include #include #include #include #include #include #include #include #include #include #include #include "pr.h" #include "extern.h" /* * pr: a printing and pagination filter. If multiple input files * are specified, each is read, formatted, and written to standard * output. By default, input is separated into 66-line pages, each * with a header that includes the page number, date, time and the * files pathname. * * Complies with posix P1003.2/D11 */ /* * pr: more boundary conditions than a four-legged porcupine * * the original version didn't support form-feeds, while many of the ad-hoc * pr implementations out there do. Addding this and making it work reasonably * in all four output modes required quite a bit of hacking and a few minor * bugs were noted and fixed in the process. Some implementations have this * as the as -f, some as -F so we accept either. * * The implementation of form feeds on top of the existing I/O structure is * a bit idiosyncratic. Basically they are treated as temporary end-of-file * conditions and an additional level of "loop on form feed" is added to each * of the output modes to continue after such a transient end-of-file's. This * has the general benefit of making the existing header/trailer logic work * and provides a usable framework for rational behavior in multi-column modes. * * The original "efficient" implementation of the "skip to page N" option was * bogus and I substituted the basic inhibit printing until page N approach. * This is still fairly bogus vis-a-vis numbering pages on multiple files * restarting at one, but at least lets you consistently reprint some large * document starting in the middle, in any of the output modes. * * Additional support for overprinting via or would * be nice, but is not trivial across tab interpretation, output formatting * and the different operating modes. Support for line-wrapping, either * strict or word-wrapped would be really useful and not all that hard to * kludge into the inln() implementation. The general notion is that -wc n * would specify width and wrapping with a marker character c and -Wc n * would add word wrapping with a minimum width n and delimiters c, defaulting * to tab, blank, and -, and column width. Word wrapping always involves * painful policy questions which are difficult to specify unless you just * hardwire in some fixed rules. Think quotes, punctuation and white-space * elimination and whether you'd do the same thing with a C program and * something like columninated newspaper text. * * George Robbins 4/22/97. */ /* * parameter variables */ int pgnm; /* starting page number */ int skipping; /* we're skipping to page pgnum */ int clcnt; /* number of columns */ int colwd; /* column data width - multiple columns */ int across; /* mult col flag; write across page */ int dspace; /* double space flag */ char inchar; /* expand input char */ int ingap; /* expand input gap */ int formfeed; /* use formfeed as trailer */ int inform; /* grok formfeeds in input */ char *header; /* header name instead of file name */ char ochar; /* contract output char */ int ogap; /* contract output gap */ int lines; /* number of lines per page */ int merge; /* merge multiple files in output */ char nmchar; /* line numbering append char */ int nmwd; /* width of line number field */ int offst; /* number of page offset spaces */ int nodiag; /* do not report file open errors */ char schar; /* text column separation character */ int sflag; /* -s option for multiple columns */ int nohead; /* do not write head and trailer */ int pgwd; /* page width with multiple col output */ char *timefrmt; /* time conversion string */ /* * misc globals */ volatile sig_atomic_t ferr; /* error message delayed */ int addone = 0; /* page length is odd with double space */ int errcnt = 0; /* error count on file processing */ int beheaded = 0; /* header / trailer link */ char digs[] = "0123456789"; /* page number translation map */ int main(int argc, char *argv[]) { int ret_val; if (signal(SIGINT, SIG_IGN) != SIG_IGN) (void)signal(SIGINT, terminate); ret_val = setup(argc, argv); if (!ret_val) { /* * select the output format based on options */ if (merge) ret_val = mulfile(argc, argv); else if (clcnt == 1) ret_val = onecol(argc, argv); else if (across) ret_val = horzcol(argc, argv); else ret_val = vertcol(argc, argv); } else usage(); flsh_errs(); if (errcnt || ret_val) exit(1); return(0); } /* * onecol: print files with only one column of output. * Line length is unlimited. */ int onecol(int argc, char *argv[]) { int off; int lrgln; int linecnt; int num; int cnt; int rc; int lncnt; int pagecnt; int ips; int ops; int cps; char *obuf; char *lbuf; char *nbuf; char *hbuf; char *ohbuf; FILE *inf; char *fname; int mor; if (nmwd) num = nmwd + 1; else num = 0; off = num + offst; /* * allocate line buffer */ if ((obuf = malloc((unsigned)LBUF + off)) == NULL) { mfail(); return(1); } /* * allocate header buffer */ if ((hbuf = malloc((unsigned)HDBUF + offst)) == NULL) { mfail(); return(1); } ohbuf = hbuf + offst; nbuf = obuf + offst; lbuf = nbuf + num; if (num) nbuf[--num] = nmchar; if (offst) { (void)memset(obuf, (int)' ', offst); (void)memset(hbuf, (int)' ', offst); } /* * loop by file */ while ((inf = nxtfile(argc, argv, &fname, ohbuf, 0)) != NULL) { pagecnt = 0; lncnt = 0; /* * loop by "form" */ for(;;) { /* * loop by page */ for(;;) { linecnt = 0; lrgln = 0; ops = 0; ips = 0; cps = 0; /* * loop by line */ while (linecnt < lines) { /* * input next line */ rc = inln(inf,lbuf,LBUF,&cnt,&cps,0,&mor); if (cnt >= 0) { if (!lrgln) if (!linecnt && prhead(hbuf, fname, ++pagecnt)) return(1); /* * start new line or continue a long one */ if (!lrgln) { if (num) addnum(nbuf, num, ++lncnt); if (otln(obuf,cnt+off, &ips, &ops, mor)) return(1); } else if (otln(lbuf, cnt, &ips, &ops, mor)) return(1); /* * if line bigger than buffer, get more */ if (mor) { lrgln = 1; } else { /* * whole line rcvd. reset tab proc. state */ ++linecnt; lrgln = 0; ops = 0; ips = 0; } } if (rc != NORMAL) break; } /* * fill to end of page */ if (prtail(lines - linecnt, lrgln)) return(1); /* * unless END continue */ if (rc == END) break; } /* * On EOF go to next file */ if (rc == END) break; } if (inf != stdin) (void)fclose(inf); } /* * If we didn't process all the files, return error */ if (eoptind < argc) return(1); else return(0); } /* * vertcol: print files with more than one column of output down a page * the general approach is to buffer a page of data, then print */ int vertcol(int argc, char *argv[]) { char *ptbf; char **lstdat; int i; int j; int pln; int *indy; int cnt; int rc; int cvc; int *lindy; int lncnt; int stp; int pagecnt; int col = colwd + 1; int mxlen = pgwd + offst + 1; int mclcnt = clcnt - 1; struct vcol *vc; int mvc; int tvc; int cw = nmwd + 1; int fullcol; char *buf; char *hbuf; char *ohbuf; char *fname; FILE *inf; int ips = 0; int cps = 0; int ops = 0; int mor = 0; /* * allocate page buffer */ if ((buf = malloc((unsigned)lines*mxlen)) == NULL) { mfail(); return(1); } /* * allocate page header */ if ((hbuf = malloc((unsigned)HDBUF + offst)) == NULL) { mfail(); return(1); } ohbuf = hbuf + offst; if (offst) (void)memset(hbuf, (int)' ', offst); /* * col pointers when no headers */ mvc = lines * clcnt; if ((vc=(struct vcol *)calloc((unsigned)mvc, sizeof(struct vcol))) == NULL) { mfail(); return(1); } /* * pointer into page where last data per line is located */ if ((lstdat = (char **)calloc((unsigned)lines, sizeof(char *))) == NULL){ mfail(); return(1); } /* * fast index lookups to locate start of lines */ if ((indy = (int *)calloc((unsigned)lines, sizeof(int))) == NULL) { mfail(); return(1); } if ((lindy = (int *)calloc((unsigned)lines, sizeof(int))) == NULL) { mfail(); return(1); } if (nmwd) fullcol = col + cw; else fullcol = col; /* * initialize buffer lookup indexes and offset area */ for (j = 0; j < lines; ++j) { lindy[j] = j * mxlen; indy[j] = lindy[j] + offst; if (offst) { ptbf = buf + lindy[j]; (void)memset(ptbf, (int)' ', offst); ptbf += offst; } else ptbf = buf + indy[j]; lstdat[j] = ptbf; } /* * loop by file */ while ((inf = nxtfile(argc, argv, &fname, ohbuf, 0)) != NULL) { pagecnt = 0; lncnt = 0; /* * loop by "form" */ for (;;) { /* * loop by page */ for(;;) { /* * loop by column */ cvc = 0; for (i = 0; i < clcnt; ++i) { j = 0; /* * if last column, do not pad */ if (i == mclcnt) stp = 1; else stp = 0; /* * loop by line */ for(;;) { /* * is this first column */ if (!i) { ptbf = buf + indy[j]; lstdat[j] = ptbf; } else ptbf = lstdat[j]; vc[cvc].pt = ptbf; /* * add number */ if (nmwd) { addnum(ptbf, nmwd, ++lncnt); ptbf += nmwd; *ptbf++ = nmchar; } /* * input next line */ rc = inln(inf,ptbf,colwd,&cnt,&cps,1,&mor); vc[cvc++].cnt = cnt; if (cnt >= 0) { ptbf += cnt; /* * pad all but last column on page */ if (!stp) { /* * pad to end of column */ if (sflag) *ptbf++ = schar; else if ((pln = col-cnt) > 0) { (void)memset(ptbf, (int)' ',pln); ptbf += pln; } } /* * remember last char in line */ lstdat[j] = ptbf; if (++j >= lines) break; } /* end of if cnt >= 0 */ if (rc != NORMAL) break; } /* end of for line */ if (rc != NORMAL) break; } /* end of for column */ /* * when -t (no header) is specified the spec requires * the min number of lines. The last page may not have * balanced length columns. To fix this we must reorder * the columns. This is a very slow technique so it is * only used under limited conditions. Without -t, the * balancing of text columns is unspecified. To NOT * balance the last page, add the global variable * nohead to the if statement below e.g. */ /* * print header iff we got anything on the first read */ if (vc[0].cnt >= 0) { if (prhead(hbuf, fname, ++pagecnt)) return(1); /* * check to see if "last" page needs to be reordered */ --cvc; if ((rc != NORMAL) && cvc && ((mvc-cvc) >= clcnt)){ pln = cvc/clcnt; if (cvc % clcnt) ++pln; for (i = 0; i < pln; ++i) { ips = 0; ops = 0; if (offst && otln(buf,offst,&ips,&ops,1)) return(1); tvc = i; for (j = 0; j < clcnt; ++j) { /* * determine column length */ if (j == mclcnt) { /* * last column */ cnt = vc[tvc].cnt; if (nmwd) cnt += cw; } else if (sflag) { /* * single ch between */ cnt = vc[tvc].cnt + 1; if (nmwd) cnt += cw; } else cnt = fullcol; if (otln(vc[tvc].pt, cnt, &ips, &ops, 1)) return(1); tvc += pln; if (tvc > cvc) break; } /* * terminate line */ if (otln(buf, 0, &ips, &ops, 0)) return(1); } } else { /* * just a normal page... * determine how many lines to output */ if (i > 0) pln = lines; else pln = j; /* * output each line */ for (i = 0; i < pln; ++i) { ptbf = buf + lindy[i]; if ((j = lstdat[i] - ptbf) <= offst) break; else { ips = 0; ops = 0; if (otln(ptbf, j, &ips, &ops, 0)) return(1); } } } } /* * pad to end of page */ if (prtail((lines - pln), 0)) return(1); /* * if FORM continue */ if (rc != NORMAL) break; } /* * if EOF go to next file */ if (rc == END) break; } if (inf != stdin) (void)fclose(inf); } if (eoptind < argc) return(1); else return(0); } /* * horzcol: print files with more than one column of output across a page */ int horzcol(int argc, char *argv[]) { char *ptbf; int pln; char *lstdat; int col = colwd + 1; int j; int i; int cnt; int rc; int lncnt; int pagecnt; char *buf; char *hbuf; char *ohbuf; char *fname; FILE *inf; int cps = 0; int mor = 0; int ips = 0; int ops = 0; if ((buf = malloc((unsigned)pgwd + offst + 1)) == NULL) { mfail(); return(1); } /* * page header */ if ((hbuf = malloc((unsigned)HDBUF + offst)) == NULL) { mfail(); return(1); } ohbuf = hbuf + offst; if (offst) { (void)memset(buf, (int)' ', offst); (void)memset(hbuf, (int)' ', offst); } /* * loop by file */ while ((inf = nxtfile(argc, argv, &fname, ohbuf, 0)) != NULL) { pagecnt = 0; lncnt = 0; /* * loop by form */ for (;;) { /* * loop by page */ for(;;) { /* * loop by line */ for (i = 0; i < lines; ++i) { ptbf = buf + offst; lstdat = ptbf; j = 0; /* * loop by col */ for(;;) { if (nmwd) { /* * add number to column */ addnum(ptbf, nmwd, ++lncnt); ptbf += nmwd; *ptbf++ = nmchar; } /* * input line */ rc = inln(inf,ptbf,colwd,&cnt,&cps,1, &mor); if (cnt >= 0) { if (!i && !j && prhead(hbuf, fname, ++pagecnt)) return(1); ptbf += cnt; lstdat = ptbf; /* * if last line skip padding */ if (++j >= clcnt) break; /* * pad to end of column */ if (sflag) *ptbf++ = schar; else if ((pln = col - cnt) > 0) { (void)memset(ptbf,(int)' ',pln); ptbf += pln; } } if (rc != NORMAL) break; } /* * output line if any columns on it */ if (j) { if (otln(buf, lstdat-buf, &ips, &ops, 0)) return(1); } if (rc != NORMAL) break; } /* * pad to end of page */ if (prtail(lines - i, 0)) return(1); /* * if FORM continue */ if (rc == END) break; } /* * if EOF go to next file */ if (rc == END) break; } if (inf != stdin) (void)fclose(inf); } if (eoptind < argc) return(1); return(0); } struct ferrlist { struct ferrlist *next; char *buf; }; struct ferrlist *ferrhead, *ferrtail; /* * flsh_errs(): output saved up diagnostic messages after all normal * processing has completed */ void flsh_errs(void) { struct ferrlist *f; if (ferr) { for (f = ferrhead; f; f = f->next) (void)write(STDERR_FILENO, f->buf, strlen(f->buf)); } } static void ferrout(char *fmt, ...) { sigset_t block, oblock; struct ferrlist *f; va_list ap; char *p; va_start(ap, fmt); if (ferr == 0) vfprintf(stderr, fmt, ap); else { sigemptyset(&block); sigaddset(&block, SIGINT); sigprocmask(SIG_BLOCK, &block, &oblock); if (vasprintf(&p, fmt, ap) == -1 || (f = malloc(sizeof(*f))) == NULL) { flsh_errs(); fprintf(stderr, fmt, ap); fputs("pr: memory allocation failed\n", stderr); exit(1); } f->next = NULL; f->buf = p; if (ferrhead == NULL) ferrhead = f; if (ferrtail) ferrtail->next = f; ferrtail = f; sigprocmask(SIG_SETMASK, &oblock, NULL); } va_end(ap); } /* * mulfile: print files with more than one column of output and * more than one file concurrently */ int mulfile(int argc, char *argv[]) { char *ptbf; int j; int pln; int *rc; int cnt; char *lstdat; int i; FILE **fbuf; int actf; int lncnt; int col; int pagecnt; int fproc; char *buf; char *hbuf; char *ohbuf; char *fname; int ips = 0; int cps = 0; int ops = 0; int mor = 0; /* * array of FILE *, one for each operand */ if ((fbuf = (FILE **)calloc((unsigned)clcnt, sizeof(FILE *))) == NULL) { mfail(); return(1); } /* * array of int *, one for each operand */ if ((rc = (int *)calloc((unsigned)clcnt, sizeof(int))) == NULL) { mfail(); return(1); } /* * page header */ if ((hbuf = malloc((unsigned)HDBUF + offst)) == NULL) { mfail(); return(1); } ohbuf = hbuf + offst; /* * do not know how many columns yet. The number of operands provide an * upper bound on the number of columns. We use the number of files * we can open successfully to set the number of columns. The operation * of the merge operation (-m) in relation to unsuccessful file opens * is unspecified by posix. * * XXX - this seems moderately bogus, you'd think that specifying * "pr -2 a b c d" would run though all the files in pairs, but * the existing code says up two files, or fewer if one is bogus. * fixing it would require modifying the looping structure, so be it. */ j = 0; while (j < clcnt) { if ((fbuf[j] = nxtfile(argc, argv, &fname, ohbuf, 1)) != NULL) { rc[j] = NORMAL; j++; } } /* * if no files, exit */ if (j) clcnt = j; else return(1); /* * calculate page boundaries based on open file count */ if (nmwd) { colwd = (pgwd - clcnt - nmwd)/clcnt; pgwd = ((colwd + 1) * clcnt) - nmwd - 2; } else { colwd = (pgwd + 1 - clcnt)/clcnt; pgwd = ((colwd + 1) * clcnt) - 1; } if (colwd < 1) { ferrout("pr: page width too small for %d columns\n", clcnt); return(1); } col = colwd + 1; /* * line buffer */ if ((buf = malloc((unsigned)pgwd + offst + 1)) == NULL) { mfail(); return(1); } if (offst) { (void)memset(buf, (int)' ', offst); (void)memset(hbuf, (int)' ', offst); } pagecnt = 0; lncnt = 0; actf = clcnt; /* * continue to loop while any file still has data */ while (actf > 0) { /* * loop on "form" */ for (;;) { /* * loop by line */ for (i = 0; i < lines; ++i) { ptbf = buf + offst; lstdat = ptbf; if (nmwd) { /* * add line number to line */ addnum(ptbf, nmwd, ++lncnt); ptbf += nmwd; *ptbf++ = nmchar; } fproc = 0; /* * loop by column */ for (j = 0; j < clcnt; ++j) { if (rc[j] == NORMAL ) { rc[j] = inln(fbuf[j], ptbf, colwd, &cnt, &cps, 1, &mor); if (cnt >= 0) { /* * process file data */ ptbf += cnt; lstdat = ptbf; fproc++; } else cnt = 0; if (rc[j] == END) { /* * EOF close file */ if (fbuf[j] != stdin) (void)fclose(fbuf[j]); --actf; } } else cnt = 0; /* * if last ACTIVE column, done with line */ if (fproc >= actf) break; /* * pad to end of column */ if (sflag) { *ptbf++ = schar; } else { if (cnt >= 0) pln = col - cnt; else pln = col; if (pln > 0) { (void)memset(ptbf, (int)' ', pln); ptbf += pln; } } } /* * if there was anything to do, print it */ if (fproc != 0) { if (!i && prhead(hbuf, fname, ++pagecnt)) return(1); /* * output line */ if (otln(buf, lstdat-buf, &ips, &ops, 0)) return(1); } else break; } /* * pad to end of page */ if (prtail(lines - i, 0)) return(1); for (j = 0; j < clcnt; ++j) if (rc[j] != END) rc[j] = NORMAL; if (actf <= 0) break; } if (actf <= 0) break; } if (eoptind < argc) return(1); return(0); } /* * inln(): input a line of data (unlimited length lines supported) * Input is optionally expanded to spaces * Returns 0 if normal LF, FORM on Formfeed, and END on EOF * * inf: file * buf: buffer * lim: buffer length * cnt: line length or -1 if no line (EOF for example) * cps: column position 1st char in buffer (large line support) * trnc: throw away data more than lim up to \n * mor: set if more data in line (not truncated) */ int inln(FILE *inf, char *buf, int lim, int *cnt, int *cps, int trnc, int *mor) { int col; int gap = ingap; int ch = -1; char *ptbuf; int chk = (int)inchar; ptbuf = buf; if (gap) { /* * expanding input option */ while ((--lim >= 0) && ((ch = getc(inf)) != EOF)) { /* * is this the input "tab" char */ if (ch == chk) { /* * expand to number of spaces */ col = (ptbuf - buf) + *cps; col = gap - (col % gap); /* * if more than this line, push back */ if ((col > lim) && (ungetc(ch, inf) == EOF)) { *cnt = -1; return(END); /* shouldn't happen */ } /* * expand to spaces */ while ((--col >= 0) && (--lim >= 0)) *ptbuf++ = ' '; continue; } if (ch == '\n' || (inform && ch == INFF)) break; *ptbuf++ = ch; } } else { /* * no expansion */ while ((--lim >= 0) && ((ch = getc(inf)) != EOF)) { if (ch == '\n' || (inform && ch == INFF)) break; *ptbuf++ = ch; } } col = ptbuf - buf; if (ch == EOF) { *mor = 0; *cps = 0; *cnt = col ? col : -1; return(END); } if (inform && ch == INFF) { *mor = 0; *cps = 0; *cnt = col; return(FORM); } if (ch == '\n') { /* * entire line processed */ *mor = 0; *cps = 0; *cnt = col; return(NORMAL); } /* * line was larger than limit */ if (trnc) { /* * throw away rest of line */ while ((ch = getc(inf)) != EOF) { if (ch == '\n') break; } *cps = 0; *mor = 0; } else { /* * save column offset if not truncated */ *cps += col; *mor = 1; } *cnt = col; return(NORMAL); } /* * otln(): output a line of data. (Supports unlimited length lines) * output is optionally contracted to tabs * * buf: output buffer with data * cnt: number of chars of valid data in buf * svips: buffer input column position (for large lines) * svops: buffer output column position (for large lines) * mor: output line not complete in this buf; more data to come. * 1 is more, 0 is complete, -1 is no \n's */ int otln(char *buf, int cnt, int *svips, int *svops, int mor) { int ops; /* last col output */ int ips; /* last col in buf examined */ int gap = ogap; int tbps; char *endbuf; /* skipping is only changed at header time not mid-line! */ if (skipping) return (0); if (ogap) { /* * contracting on output */ endbuf = buf + cnt; ops = *svops; ips = *svips; while (buf < endbuf) { /* * count number of spaces and ochar in buffer */ if (*buf == ' ') { ++ips; ++buf; continue; } /* * simulate ochar processing */ if (*buf == ochar) { ips += gap - (ips % gap); ++buf; continue; } /* * got a non space char; contract out spaces */ while (ops < ips) { /* * use one space if necessary */ if (ips - ops == 1) { putchar(' '); break; } /* * use as many ochar as will fit */ if ((tbps = ops + gap - (ops % gap)) > ips) break; if (putchar(ochar) == EOF) { pfail(); return(1); } ops = tbps; } while (ops < ips) { /* * finish off with spaces */ if (putchar(' ') == EOF) { pfail(); return(1); } ++ops; } /* * output non space char */ if (putchar(*buf++) == EOF) { pfail(); return(1); } ++ips; ++ops; } if (mor > 0) { /* * if incomplete line, save position counts */ *svops = ops; *svips = ips; return(0); } if (mor < 0) { while (ops < ips) { /* * use one space if necessary */ if (ips - ops == 1) { putchar(' '); break; } /* * use as many ochar as will fit */ if ((tbps = ops + gap - (ops % gap)) > ips) break; if (putchar(ochar) == EOF) { pfail(); return(1); } ops = tbps; } while (ops < ips) { /* * finish off with spaces */ if (putchar(' ') == EOF) { pfail(); return(1); } ++ops; } return(0); } } else { /* * output is not contracted */ if (cnt && (fwrite(buf, sizeof(char), cnt, stdout) < cnt)) { pfail(); return(1); } if (mor != 0) return(0); } /* * process line end and double space as required */ if ((putchar('\n') == EOF) || (dspace && (putchar('\n') == EOF))) { pfail(); return(1); } return(0); } #ifdef notused /* * inskip(): skip over pgcnt pages with lncnt lines per page * file is closed at EOF (if not stdin). * * inf FILE * to read from * pgcnt number of pages to skip * lncnt number of lines per page */ int inskip(FILE *inf, int pgcnt, int lncnt) { int c; int cnt; while(--pgcnt > 0) { cnt = lncnt; while ((c = getc(inf)) != EOF) { if ((c == '\n') && (--cnt == 0)) break; } if (c == EOF) { if (inf != stdin) (void)fclose(inf); return(1); } } return(0); } #endif /* * nxtfile: returns a FILE * to next file in arg list and sets the * time field for this file (or current date). * * buf array to store proper date for the header. * dt if set skips the date processing (used with -m) */ FILE * nxtfile(int argc, char *argv[], char **fname, char *buf, int dt) { FILE *inf = NULL; struct timeval tv; struct timezone tz; struct tm *timeptr = NULL; struct stat statbuf; time_t curtime; static int twice = -1; ++twice; if (eoptind >= argc) { /* * no file listed; default, use standard input */ if (twice) return(NULL); clearerr(stdin); inf = stdin; if (header != NULL) *fname = header; else *fname = FNAME; if (nohead) return(inf); if (gettimeofday(&tv, &tz) < 0) { ++errcnt; ferrout("pr: cannot get time of day, %s\n", strerror(errno)); eoptind = argc - 1; return(NULL); } curtime = tv.tv_sec; timeptr = localtime(&curtime); } for (; eoptind < argc; ++eoptind) { if (strcmp(argv[eoptind], "-") == 0) { /* * process a "-" for filename */ clearerr(stdin); inf = stdin; if (header != NULL) *fname = header; else *fname = FNAME; ++eoptind; if (nohead || (dt && twice)) return(inf); if (gettimeofday(&tv, &tz) < 0) { ++errcnt; ferrout("pr: cannot get time of day, %s\n", strerror(errno)); return(NULL); } curtime = tv.tv_sec; timeptr = localtime(&curtime); } else { /* * normal file processing */ if ((inf = fopen(argv[eoptind], "r")) == NULL) { ++errcnt; if (nodiag) continue; ferrout("pr: Cannot open %s, %s\n", argv[eoptind], strerror(errno)); continue; } if (header != NULL) *fname = header; else if (dt) *fname = FNAME; else *fname = argv[eoptind]; ++eoptind; if (nohead || (dt && twice)) return(inf); if (dt) { if (gettimeofday(&tv, &tz) < 0) { ++errcnt; ferrout("pr: cannot get time of day, %s\n", strerror(errno)); return(NULL); } curtime = tv.tv_sec; timeptr = localtime(&curtime); } else { if (fstat(fileno(inf), &statbuf) < 0) { ++errcnt; (void)fclose(inf); ferrout("pr: Cannot stat %s, %s\n", argv[eoptind], strerror(errno)); return(NULL); } timeptr = localtime(&(statbuf.st_mtime)); } } break; } if (inf == NULL) return(NULL); /* * set up time field used in header */ if (strftime(buf, HDBUF, timefrmt, timeptr) == 0) { ++errcnt; if (inf != stdin) (void)fclose(inf); ferrout("pr: time conversion failed\n"); return(NULL); } return(inf); } /* * addnum(): adds the line number to the column * Truncates from the front or pads with spaces as required. * Numbers are right justified. * * buf buffer to store the number * wdth width of buffer to fill * line line number * * NOTE: numbers occupy part of the column. The posix * spec does not specify if -i processing should or should not * occur on number padding. The spec does say it occupies * part of the column. The usage of addnum currently treats * numbers as part of the column so spaces may be replaced. */ void addnum(char *buf, int wdth, int line) { char *pt = buf + wdth; do { *--pt = digs[line % 10]; line /= 10; } while (line && (pt > buf)); /* * pad with space as required */ while (pt > buf) *--pt = ' '; } /* * prhead(): prints the top of page header * * buf buffer with time field (and offset) * cnt number of chars in buf * fname fname field for header * pagcnt page number * * prhead() should be used carefully, we don't want to print out headers * for null input files or orphan headers at the end of files, and also * trailer processing is typically conditional on whether you've called * prhead() at least once for a file and incremented pagecnt. Exactly * how to determine whether to print a header is a little different in * the context each output mode, but we let the caller figure that out. */ int prhead(char *buf, char *fname, int pagcnt) { int ips = 0; int ops = 0; beheaded = 1; if (skipping && pagcnt >= pgnm) skipping = 0; if (nohead || skipping) return (0); if ((putchar('\n') == EOF) || (putchar('\n') == EOF)) { pfail(); return(1); } /* * posix is not clear if the header is subject to line length * restrictions. The specification for header line format * in the spec clearly does not limit length. No pr currently * restricts header length. However if we need to truncate in * an reasonable way, adjust the length of the printf by * changing HDFMT to allow a length max as an argument printf. * buf (which contains the offset spaces and time field could * also be trimmed * * note only the offset (if any) is processed for tab expansion */ if (offst && otln(buf, offst, &ips, &ops, -1)) return(1); (void)printf(HDFMT,buf+offst, fname, pagcnt); return(0); } /* * prtail(): pad page with empty lines (if required) and print page trailer * if requested * * cnt number of lines of padding needed * incomp was a '\n' missing from last line output * * prtail() can now be invoked unconditionally, with the notion that if * we haven't printed a header, there is no need for a trailer */ int prtail(int cnt, int incomp) { /* * if were's skipping to page N or haven't put out anything yet just exit */ if (skipping || beheaded == 0) return (0); beheaded = 0; /* * if noheaders, only terminate an incomplete last line */ if (nohead) { if (incomp) { if (dspace) if (putchar('\n') == EOF) { pfail(); return(1); } if (putchar('\n') == EOF) { pfail(); return(1); } } /* * but honor the formfeed request */ if (formfeed) if (putchar(OUTFF) == EOF) { pfail(); return(1); } } else { /* * if double space output two \n * * XXX this all seems bogus, why are we doing it here??? * page length is in terms of output lines and only the input is * supposed to be double spaced... otln() users should be doing * something like linect+=(dspace ? 2:1). */ if (dspace) cnt *= 2; /* * if an odd number of lines per page, add an extra \n */ if (addone) ++cnt; /* * either put out a form-feed or pad page with blanks */ if (formfeed) { if (incomp) if (putchar('\n') == EOF) { pfail(); return(1); } if (putchar(OUTFF) == EOF) { pfail(); return(1); } } else { if (incomp) cnt++; cnt += TAILLEN; while (--cnt >= 0) { if (putchar('\n') == EOF) { pfail(); return(1); } } } } return(0); } /* * terminate(): when a SIGINT is recvd */ /*ARGSUSED*/ void terminate(int which_sig) { flsh_errs(); _exit(1); } void mfail(void) { ferrout("pr: memory allocation failed\n"); } void pfail(void) { ferrout("pr: write failure, %s\n", strerror(errno)); } void usage(void) { ferrout( "usage: pr [+page] [-column] [-adFfmrt] [-e [char] [gap]] [-h header]\n"); ferrout( "\t[-i [char] [gap]] [-l lines] [-n [char] [width]] [-o offset]\n"); ferrout( "\t[-s [char]] [-w width] [-] [file ...]\n"); } /* * setup: Validate command args, initialize and perform sanity * checks on options */ int setup(int argc, char *argv[]) { int c; int eflag = 0; int iflag = 0; int wflag = 0; int cflag = 0; const char *errstr; if (isatty(fileno(stdout))) ferr = 1; while ((c = egetopt(argc, argv, "#adfFmrte?h:i?l:n?o:s?w:")) != -1) { switch (c) { case '+': pgnm = strtonum(eoptarg, 1, INT_MAX, &errstr); if (errstr) { ferrout("pr: +page number is %s: %s\n", errstr, eoptarg); return(1); } ++skipping; break; case '-': clcnt = strtonum(eoptarg, 1, INT_MAX, &errstr); if (errstr) { ferrout("pr: -columns number is %s: %s\n", errstr, eoptarg); return(1); } if (clcnt > 1) ++cflag; break; case 'a': ++across; break; case 'd': ++dspace; break; case 'e': ++eflag; if ((eoptarg != NULL) && !isdigit(*eoptarg)) inchar = *eoptarg++; else inchar = INCHAR; if ((eoptarg != NULL) && isdigit(*eoptarg)) { ingap = strtonum(eoptarg, 0, INT_MAX, &errstr); if (errstr) { ferrout("pr: -e gap is %s: %s\n", errstr, eoptarg); return(1); } if (ingap == 0) ingap = INGAP; } else if ((eoptarg != NULL) && (*eoptarg != '\0')) { ferrout("pr: invalid value for -e %s\n", eoptarg); return(1); } else ingap = INGAP; break; case 'f': case 'F': ++formfeed; break; case 'h': header = eoptarg; break; case 'i': ++iflag; if ((eoptarg != NULL) && !isdigit(*eoptarg)) ochar = *eoptarg++; else ochar = OCHAR; if ((eoptarg != NULL) && isdigit(*eoptarg)) { ogap = strtonum(eoptarg, 0, INT_MAX, &errstr); if (errstr) { ferrout("pr: -i gap is %s: %s\n", errstr, eoptarg); return(1); } if (ogap == 0) ogap = OGAP; } else if ((eoptarg != NULL) && (*eoptarg != '\0')) { ferrout("pr: invalid value for -i %s\n", eoptarg); return(1); } else ogap = OGAP; break; case 'l': lines = strtonum(eoptarg, 1, INT_MAX, &errstr); if (errstr) { ferrout("pr: number of lines is %s: %s\n", errstr, eoptarg); return(1); } break; case 'm': ++merge; break; case 'n': if ((eoptarg != NULL) && !isdigit(*eoptarg)) nmchar = *eoptarg++; else nmchar = NMCHAR; if ((eoptarg != NULL) && isdigit(*eoptarg)) { nmwd = strtonum(eoptarg, 1, INT_MAX, &errstr); if (errstr) { ferrout("pr: -n width is %s: %s\n", errstr, eoptarg); return(1); } } else if ((eoptarg != NULL) && (*eoptarg != '\0')) { ferrout("pr: invalid value for -n %s\n", eoptarg); return(1); } else nmwd = NMWD; break; case 'o': offst = strtonum(eoptarg, 1, INT_MAX, &errstr); if (errstr) { ferrout("pr: -o offset is %s: %s\n", errstr, eoptarg); return(1); } break; case 'r': ++nodiag; break; case 's': ++sflag; if (eoptarg == NULL) schar = SCHAR; else { schar = *eoptarg++; if (*eoptarg != '\0') { ferrout("pr: invalid value for -s %s\n", eoptarg); return(1); } } break; case 't': ++nohead; break; case 'w': ++wflag; pgwd = strtonum(eoptarg, 1, INT_MAX, &errstr); if (errstr) { ferrout("pr: -w width is %s: %s\n", errstr, eoptarg); return(1); } break; default: return(1); } } /* * default and sanity checks */ inform++; if (!clcnt) { if (merge) { if ((clcnt = argc - eoptind) <= 1) { clcnt = CLCNT; #ifdef stupid merge = 0; #endif } } else clcnt = CLCNT; } if (across) { if (clcnt == 1) { ferrout("pr: -a flag requires multiple columns\n"); return(1); } if (merge) { ferrout("pr: -m cannot be used with -a\n"); return(1); } } if (!wflag) { if (sflag) pgwd = SPGWD; else pgwd = PGWD; } if (cflag || merge) { if (!eflag) { inchar = INCHAR; ingap = INGAP; } if (!iflag) { ochar = OCHAR; ogap = OGAP; } } if (cflag) { if (merge) { ferrout("pr: -m cannot be used with multiple columns\n"); return(1); } if (nmwd) { colwd = (pgwd + 1 - (clcnt * (nmwd + 2)))/clcnt; pgwd = ((colwd + nmwd + 2) * clcnt) - 1; } else { colwd = (pgwd + 1 - clcnt)/clcnt; pgwd = ((colwd + 1) * clcnt) - 1; } if (colwd < 1) { ferrout("pr: page width is too small for %d columns\n",clcnt); return(1); } } if (!lines) lines = LINES; /* * make sure long enough for headers. if not disable */ if (lines <= HEADLEN + TAILLEN) ++nohead; else if (!nohead) lines -= HEADLEN + TAILLEN; /* * adjust for double space on odd length pages */ if (dspace) { if (lines == 1) dspace = 0; else { if (lines & 1) ++addone; lines /= 2; } } if ((timefrmt = getenv("LC_TIME")) == NULL) timefrmt = TIMEFMT; return(0); }