/* SDIFF -- interactive merge front end to diff Copyright (C) 1992, 1993 Free Software Foundation, Inc. This file is part of GNU DIFF. GNU DIFF 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, or (at your option) any later version. GNU DIFF 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 GNU DIFF; see the file COPYING. If not, write to the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. */ /* GNU SDIFF was written by Thomas Lord. */ #include "system.h" #include #include #include #include "getopt.h" /* Size of chunks read from files which must be parsed into lines. */ #define SDIFF_BUFSIZE ((size_t) 65536) /* Default name of the diff program */ #ifndef DIFF_PROGRAM #define DIFF_PROGRAM "diff" #endif /* Users' editor of nonchoice */ #ifndef DEFAULT_EDITOR #define DEFAULT_EDITOR "ed" #endif extern char version_string[]; static char const *prog; static char const *diffbin = DIFF_PROGRAM; static char const *edbin = DEFAULT_EDITOR; static char *tmpname; static int volatile tmpmade; static pid_t volatile diffpid; struct line_filter; static FILE *ck_fdopen PARAMS((int, char const *)); static FILE *ck_fopen PARAMS((char const *, char const *)); static RETSIGTYPE catchsig PARAMS((int)); static VOID *xmalloc PARAMS((size_t)); static char const *expand_name PARAMS((char *, int, char const *)); static int edit PARAMS((struct line_filter *, int, struct line_filter *, int, FILE*)); static int interact PARAMS((struct line_filter *, struct line_filter *, struct line_filter *, FILE*)); static int lf_snarf PARAMS((struct line_filter *, char *, size_t)); static int skip_white PARAMS((void)); static size_t ck_fread PARAMS((char *, size_t, FILE *)); static size_t lf_refill PARAMS((struct line_filter *)); static void checksigs PARAMS((void)); static void ck_fclose PARAMS((FILE *)); static void ck_fflush PARAMS((FILE *)); static void ck_fwrite PARAMS((char const *, size_t, FILE *)); static void cleanup PARAMS((void)); static void diffarg PARAMS((char const *)); static void execdiff PARAMS((int, char const *, char const *, char const *)); static void exiterr PARAMS((void)); static void fatal PARAMS((char const *)); static void flush_line PARAMS((void)); static void give_help PARAMS((void)); static void lf_copy PARAMS((struct line_filter *, int, FILE *)); static void lf_init PARAMS((struct line_filter *, FILE *)); static void lf_skip PARAMS((struct line_filter *, int)); static void perror_fatal PARAMS((char const *)); static void trapsigs PARAMS((void)); static void untrapsig PARAMS((int)); static void usage PARAMS((int)); /* this lossage until the gnu libc conquers the universe */ #define PVT_tmpdir "/tmp" static char *private_tempnam PARAMS((char const *, char const *, int, size_t *)); static int diraccess PARAMS((char const *)); static int exists PARAMS((char const *)); /* Options: */ /* name of output file if -o spec'd */ static char *out_file; /* do not print common lines if true, set by -s option */ static int suppress_common_flag; static struct option const longopts[] = { {"ignore-blank-lines", 0, 0, 'B'}, {"speed-large-files", 0, 0, 'H'}, {"ignore-matching-lines", 1, 0, 'I'}, {"ignore-all-space", 0, 0, 'W'}, /* swap W and w for historical reasons */ {"text", 0, 0, 'a'}, {"ignore-space-change", 0, 0, 'b'}, {"minimal", 0, 0, 'd'}, {"ignore-case", 0, 0, 'i'}, {"left-column", 0, 0, 'l'}, {"output", 1, 0, 'o'}, {"suppress-common-lines", 0, 0, 's'}, {"expand-tabs", 0, 0, 't'}, {"width", 1, 0, 'w'}, {"version", 0, 0, 'v'}, {"help", 0, 0, 129}, {0, 0, 0, 0} }; /* prints usage message and quits */ static void usage (status) int status; { printf ("Usage: %s [options] from-file to-file\n", prog); printf ("Options:\n\ [-abBdHilstv] [-I regexp] [-o outfile] [-w columns]\n\ [--expand-tabs] [--help] [--ignore-all-space] [--ignore-blank-lines]\n\ [--ignore-case] [--ignore-matching-lines=regexp]\n\ [--ignore-space-change] [--left-column] [--minimal]\n\ [--output=outfile] [--speed-large-files] [--suppress-common-lines]\n\ [--text] [--version] [--width=columns]\n"); exit (status); } static void cleanup () { if (0 < diffpid) kill (diffpid, SIGPIPE); if (tmpmade) unlink (tmpname); } static void exiterr () { cleanup (); untrapsig (0); checksigs (); exit (2); } static void fatal (msg) char const *msg; { fprintf (stderr, "%s: %s\n", prog, msg); exiterr (); } static void perror_fatal (msg) char const *msg; { int e = errno; checksigs (); fprintf (stderr, "%s: ", prog); errno = e; perror (msg); exiterr (); } /* malloc freely or DIE! */ static VOID * xmalloc (size) size_t size; { VOID *r = (VOID *) malloc (size); if (!r) fatal ("memory exhausted"); return r; } static FILE * ck_fopen (fname, type) char const *fname, *type; { FILE *r = fopen (fname, type); if (!r) perror_fatal (fname); return r; } static FILE * ck_fdopen (fd, type) int fd; char const *type; { FILE *r = fdopen (fd, type); if (!r) perror_fatal ("fdopen"); return r; } static void ck_fclose (f) FILE *f; { if (fclose (f)) perror_fatal ("input/output error"); } static size_t ck_fread (buf, size, f) char *buf; size_t size; FILE *f; { size_t r = fread (buf, sizeof (char), size, f); if (r == 0 && ferror (f)) perror_fatal ("input error"); return r; } static void ck_fwrite (buf, size, f) char const *buf; size_t size; FILE *f; { if (fwrite (buf, sizeof (char), size, f) != size) perror_fatal ("output error"); } static void ck_fflush (f) FILE *f; { if (fflush (f) != 0) perror_fatal ("output error"); } #if !HAVE_MEMCHR char * memchr (s, c, n) char const *s; int c; size_t n; { unsigned char const *p = (unsigned char const *) s, *lim = p + n; for (; p < lim; p++) if (*p == c) return (char *) p; return 0; } #endif #ifndef HAVE_WAITPID /* Emulate waitpid well enough for sdiff, which has at most two children. */ static pid_t waitpid (pid, stat_loc, options) pid_t pid; int *stat_loc; int options; { static int ostatus; static pid_t opid; int npid, status; if (pid == opid) { opid = 0; status = ostatus; } else while ((npid = wait (&status)) != pid) { if (npid < 0) return npid; opid = npid; ostatus = status; } *stat_loc = status; return pid; } #endif static char const * expand_name (name, isdir, other_name) char *name; int isdir; char const *other_name; { if (strcmp (name, "-") == 0) fatal ("cannot interactively merge standard input"); if (!isdir) return name; else { /* Yield NAME/BASE, where BASE is OTHER_NAME's basename. */ char const *p = strrchr (other_name, '/'), *base = p ? p+1 : other_name; size_t namelen = strlen (name), baselen = strlen (base); char *r = xmalloc (namelen + baselen + 2); memcpy (r, name, namelen); r[namelen] = '/'; memcpy (r + namelen + 1, base, baselen + 1); return r; } } struct line_filter { FILE *infile; char *bufpos; char *buffer; char *buflim; }; static void lf_init (lf, infile) struct line_filter *lf; FILE *infile; { lf->infile = infile; lf->bufpos = lf->buffer = lf->buflim = xmalloc (SDIFF_BUFSIZE + 1); lf->buflim[0] = '\n'; } /* Fill an exhausted line_filter buffer from its INFILE */ static size_t lf_refill (lf) struct line_filter *lf; { size_t s = ck_fread (lf->buffer, SDIFF_BUFSIZE, lf->infile); lf->bufpos = lf->buffer; lf->buflim = lf->buffer + s; lf->buflim[0] = '\n'; checksigs (); return s; } /* Advance LINES on LF's infile, copying lines to OUTFILE */ static void lf_copy (lf, lines, outfile) struct line_filter *lf; int lines; FILE *outfile; { char *start = lf->bufpos; while (lines) { lf->bufpos = (char *) memchr (lf->bufpos, '\n', lf->buflim - lf->bufpos); if (! lf->bufpos) { ck_fwrite (start, lf->buflim - start, outfile); if (! lf_refill (lf)) return; start = lf->bufpos; } else { --lines; ++lf->bufpos; } } ck_fwrite (start, lf->bufpos - start, outfile); } /* Advance LINES on LF's infile without doing output */ static void lf_skip (lf, lines) struct line_filter *lf; int lines; { while (lines) { lf->bufpos = (char *) memchr (lf->bufpos, '\n', lf->buflim - lf->bufpos); if (! lf->bufpos) { if (! lf_refill (lf)) break; } else { --lines; ++lf->bufpos; } } } /* Snarf a line into a buffer. Return EOF if EOF, 0 if error, 1 if OK. */ static int lf_snarf (lf, buffer, bufsize) struct line_filter *lf; char *buffer; size_t bufsize; { char *start = lf->bufpos; for (;;) { char *next = (char *) memchr (start, '\n', lf->buflim + 1 - start); size_t s = next - start; if (bufsize <= s) return 0; memcpy (buffer, start, s); if (next < lf->buflim) { buffer[s] = 0; lf->bufpos = next + 1; return 1; } if (! lf_refill (lf)) return s ? 0 : EOF; buffer += s; bufsize -= s; start = next; } } int main (argc, argv) int argc; char *argv[]; { int opt; char *editor = getenv ("EDITOR"); char *differ = getenv ("DIFF"); prog = argv[0]; if (editor) edbin = editor; if (differ) diffbin = differ; diffarg ("diff"); /* parse command line args */ while ((opt = getopt_long (argc, argv, "abBdHiI:lo:stvw:W", longopts, 0)) != EOF) { switch (opt) { case 'a': diffarg ("-a"); break; case 'b': diffarg ("-b"); break; case 'B': diffarg ("-B"); break; case 'd': diffarg ("-d"); break; case 'H': diffarg ("-H"); break; case 'i': diffarg ("-i"); break; case 'I': diffarg ("-I"); diffarg (optarg); break; case 'l': diffarg ("--left-column"); break; case 'o': out_file = optarg; break; case 's': suppress_common_flag = 1; break; case 't': diffarg ("-t"); break; case 'v': printf ("GNU sdiff version %s\n", version_string); exit (0); case 'w': diffarg ("-W"); diffarg (optarg); break; case 'W': diffarg ("-w"); break; case 129: usage (0); default: usage (2); } } if (argc - optind != 2) usage (2); if (! out_file) /* easy case: diff does everything for us */ execdiff (suppress_common_flag, "-y", argv[optind], argv[optind + 1]); else { FILE *left, *right, *out, *diffout; int diff_fds[2]; int interact_ok; pid_t pid; struct line_filter lfilt; struct line_filter rfilt; struct line_filter diff_filt; int leftdir = diraccess (argv[optind]); int rightdir = diraccess (argv[optind + 1]); if (leftdir && rightdir) fatal ("both files to be compared are directories"); left = ck_fopen (expand_name (argv[optind], leftdir, argv[optind + 1]), "r"); ; right = ck_fopen (expand_name (argv[optind + 1], rightdir, argv[optind]), "r"); out = ck_fopen (out_file, "w"); if (pipe (diff_fds)) perror_fatal ("pipe"); trapsigs (); diffpid = pid = vfork (); if (pid == 0) { signal (SIGINT, SIG_IGN); /* in case user interrupts editor */ signal (SIGPIPE, SIG_DFL); close (diff_fds[0]); if (diff_fds[1] != STDOUT_FILENO) { dup2 (diff_fds[1], STDOUT_FILENO); close (diff_fds[1]); } execdiff (0, "--sdiff-merge-assist", argv[optind], argv[optind + 1]); } if (pid < 0) perror_fatal ("fork failed"); close (diff_fds[1]); diffout = ck_fdopen (diff_fds[0], "r"); lf_init (&diff_filt, diffout); lf_init (&lfilt, left); lf_init (&rfilt, right); interact_ok = interact (&diff_filt, &lfilt, &rfilt, out); ck_fclose (diffout); ck_fclose (left); ck_fclose (right); ck_fclose (out); { int wstatus; while (waitpid (pid, &wstatus, 0) < 0) if (errno == EINTR) checksigs (); else perror_fatal ("wait failed"); diffpid = 0; if (tmpmade) { unlink (tmpname); tmpmade = 0; } if (! interact_ok) exiterr (); if (! (WIFEXITED (wstatus) && WEXITSTATUS (wstatus) < 2)) fatal ("Subsidiary diff failed"); untrapsig (0); checksigs (); exit (WEXITSTATUS (wstatus)); } } return 0; /* Fool -Wall . . . */ } static char const **diffargv; static void diffarg (a) char const *a; { static unsigned diffargs, diffargsmax; if (diffargs == diffargsmax) { if (! diffargsmax) { diffargv = (char const **) xmalloc (sizeof (char)); diffargsmax = 8; } diffargsmax *= 2; diffargv = (char const **) realloc (diffargv, diffargsmax * sizeof (char const *)); if (! diffargv) fatal ("out of memory"); } diffargv[diffargs++] = a; } static void execdiff (differences_only, option, file1, file2) int differences_only; char const *option, *file1, *file2; { if (differences_only) diffarg ("--suppress-common-lines"); diffarg (option); diffarg ("--"); diffarg (file1); diffarg (file2); diffarg (0); execvp (diffbin, (char **) diffargv); write (STDERR_FILENO, diffbin, strlen (diffbin)); write (STDERR_FILENO, ": not found\n", 12); _exit (2); } /* Signal handling */ #define NUM_SIGS (sizeof (sigs) / sizeof (*sigs)) static int const sigs[] = { #ifdef SIGHUP SIGHUP, #endif #ifdef SIGQUIT SIGQUIT, #endif #ifdef SIGTERM SIGTERM, #endif #ifdef SIGXCPU SIGXCPU, #endif #ifdef SIGXFSZ SIGXFSZ, #endif SIGINT, SIGPIPE }; /* Prefer `sigaction' if it is available, since `signal' can lose signals. */ #if HAVE_SIGACTION static struct sigaction initial_action[NUM_SIGS]; #define initial_handler(i) (initial_action[i].sa_handler) #else static RETSIGTYPE (*initial_action[NUM_SIGS]) (); #define initial_handler(i) (initial_action[i]) #endif static int volatile ignore_SIGINT; static int volatile signal_received; static int sigs_trapped; static RETSIGTYPE catchsig (s) int s; { #if ! HAVE_SIGACTION signal (s, SIG_IGN); #endif if (! (s == SIGINT && ignore_SIGINT)) signal_received = s; } static void trapsigs () { int i; #if HAVE_SIGACTION struct sigaction catchaction; bzero (&catchaction, sizeof (catchaction)); catchaction.sa_handler = catchsig; #ifdef SA_INTERRUPT /* Non-Posix BSD-style systems like SunOS 4.1.x need this so that `read' calls are interrupted properly. */ catchaction.sa_flags = SA_INTERRUPT; #endif sigemptyset (&catchaction.sa_mask); for (i = 0; i < NUM_SIGS; i++) sigaddset (&catchaction.sa_mask, sigs[i]); for (i = 0; i < NUM_SIGS; i++) { sigaction (sigs[i], 0, &initial_action[i]); if (initial_handler (i) != SIG_IGN && sigaction (sigs[i], &catchaction, 0) != 0) fatal ("signal error"); } #else /* ! HAVE_SIGACTION */ for (i = 0; i < NUM_SIGS; i++) { initial_action[i] = signal (sigs[i], SIG_IGN); if (initial_handler (i) != SIG_IGN && signal (sigs[i], catchsig) != SIG_IGN) fatal ("signal error"); } #endif /* ! HAVE_SIGACTION */ sigs_trapped = 1; } /* Untrap signal S, or all trapped signals if S is zero. */ static void untrapsig (s) int s; { int i; if (sigs_trapped) for (i = 0; i < NUM_SIGS; i++) if ((!s || sigs[i] == s) && initial_handler (i) != SIG_IGN) #if HAVE_SIGACTION sigaction (sigs[i], &initial_action[i], 0); #else signal (sigs[i], initial_action[i]); #endif } /* Exit if a signal has been received. */ static void checksigs () { int s = signal_received; if (s) { cleanup (); /* Yield an exit status indicating that a signal was received. */ untrapsig (s); kill (getpid (), s); /* That didn't work, so exit with error status. */ exit (2); } } static void give_help () { fprintf (stderr,"l:\tuse the left version\n"); fprintf (stderr,"r:\tuse the right version\n"); fprintf (stderr,"e l:\tedit then use the left version\n"); fprintf (stderr,"e r:\tedit then use the right version\n"); fprintf (stderr,"e b:\tedit then use the left and right versions concatenated\n"); fprintf (stderr,"e:\tedit a new version\n"); fprintf (stderr,"s:\tsilently include common lines\n"); fprintf (stderr,"v:\tverbosely include common lines\n"); fprintf (stderr,"q:\tquit\n"); } static int skip_white () { int c; while (isspace (c = getchar ()) && c != '\n') checksigs (); if (ferror (stdin)) perror_fatal ("input error"); return c; } static void flush_line () { int c; while ((c = getchar ()) != '\n' && c != EOF) ; if (ferror (stdin)) perror_fatal ("input error"); } /* interpret an edit command */ static int edit (left, lenl, right, lenr, outfile) struct line_filter *left; int lenl; struct line_filter *right; int lenr; FILE *outfile; { for (;;) { int cmd0, cmd1; int gotcmd = 0; cmd1 = 0; /* Pacify `gcc -W'. */ while (!gotcmd) { if (putchar ('%') != '%') perror_fatal ("output error"); ck_fflush (stdout); cmd0 = skip_white (); switch (cmd0) { case 'l': case 'r': case 's': case 'v': case 'q': if (skip_white () != '\n') { give_help (); flush_line (); continue; } gotcmd = 1; break; case 'e': cmd1 = skip_white (); switch (cmd1) { case 'l': case 'r': case 'b': if (skip_white () != '\n') { give_help (); flush_line (); continue; } gotcmd = 1; break; case '\n': gotcmd = 1; break; default: give_help (); flush_line (); continue; } break; case EOF: if (feof (stdin)) { gotcmd = 1; cmd0 = 'q'; break; } /* falls through */ default: flush_line (); /* falls through */ case '\n': give_help (); continue; } } switch (cmd0) { case 'l': lf_copy (left, lenl, outfile); lf_skip (right, lenr); return 1; case 'r': lf_copy (right, lenr, outfile); lf_skip (left, lenl); return 1; case 's': suppress_common_flag = 1; break; case 'v': suppress_common_flag = 0; break; case 'q': return 0; case 'e': if (! tmpname && ! (tmpname = private_tempnam (0, "sdiff", 1, 0))) perror_fatal ("temporary file name"); tmpmade = 1; { FILE *tmp = ck_fopen (tmpname, "w+"); if (cmd1 == 'l' || cmd1 == 'b') lf_copy (left, lenl, tmp); else lf_skip (left, lenl); if (cmd1 == 'r' || cmd1 == 'b') lf_copy (right, lenr, tmp); else lf_skip (right, lenr); ck_fflush (tmp); { pid_t pid; int wstatus; ignore_SIGINT = 1; checksigs (); pid = vfork (); if (pid == 0) { char const *argv[3]; int i = 0; argv[i++] = edbin; argv[i++] = tmpname; argv[i++] = 0; execvp (edbin, (char **) argv); write (STDERR_FILENO, edbin, strlen (edbin)); write (STDERR_FILENO, ": not found\n", 12); _exit (1); } if (pid < 0) perror_fatal ("fork failed"); while (waitpid (pid, &wstatus, 0) < 0) if (errno == EINTR) checksigs (); else perror_fatal ("wait failed"); ignore_SIGINT = 0; if (! (WIFEXITED (wstatus) && WEXITSTATUS (wstatus) < 1)) fatal ("Subsidiary editor failed"); } if (fseek (tmp, 0L, SEEK_SET) != 0) perror_fatal ("fseek"); { /* SDIFF_BUFSIZE is too big for a local var in some compilers, so we allocate it dynamically. */ char *buf = xmalloc (SDIFF_BUFSIZE); size_t size; while ((size = ck_fread (buf, SDIFF_BUFSIZE, tmp)) != 0) { checksigs (); ck_fwrite (buf, size, outfile); } ck_fclose (tmp); free (buf); } return 1; } default: give_help (); break; } } } /* Alternately reveal bursts of diff output and handle user commands. */ static int interact (diff, left, right, outfile) struct line_filter *diff; struct line_filter *left; struct line_filter *right; FILE *outfile; { for (;;) { char diff_help[256]; int snarfed = lf_snarf (diff, diff_help, sizeof (diff_help)); if (snarfed <= 0) return snarfed; checksigs (); switch (diff_help[0]) { case ' ': puts (diff_help + 1); break; case 'i': { int lenl = atoi (diff_help + 1), lenr, lenmax; char *p = strchr (diff_help, ','); if (!p) fatal (diff_help); lenr = atoi (p + 1); lenmax = max (lenl, lenr); if (suppress_common_flag) lf_skip (diff, lenmax); else lf_copy (diff, lenmax, stdout); lf_copy (left, lenl, outfile); lf_skip (right, lenr); break; } case 'c': { int lenl = atoi (diff_help + 1), lenr; char *p = strchr (diff_help, ','); if (!p) fatal (diff_help); lenr = atoi (p + 1); lf_copy (diff, max (lenl, lenr), stdout); if (! edit (left, lenl, right, lenr, outfile)) return 0; break; } default: fatal (diff_help); break; } } } /* temporary lossage: this is torn from gnu libc */ /* Return nonzero if DIR is an existing directory. */ static int diraccess (dir) char const *dir; { struct stat buf; return stat (dir, &buf) == 0 && S_ISDIR (buf.st_mode); } /* Return nonzero if FILE exists. */ static int exists (file) char const *file; { struct stat buf; return stat (file, &buf) == 0; } /* These are the characters used in temporary filenames. */ static char const letters[] = "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789"; /* Generate a temporary filename. If DIR_SEARCH is nonzero, DIR and PFX are used as described for tempnam. If not, a temporary filename in P_tmpdir with no special prefix is generated. If LENPTR is not 0, *LENPTR is set the to length (including the terminating '\0') of the resultant filename, which is returned. This goes through a cyclic pattern of all possible filenames consisting of five decimal digits of the current pid and three of the characters in `letters'. Data for tempnam and tmpnam is kept separate, but when tempnam is using P_tmpdir and no prefix (i.e, it is identical to tmpnam), the same data is used. Each potential filename is tested for an already-existing file of the same name, and no name of an existing file will be returned. When the cycle reaches its end (12345ZZZ), 0 is returned. */ static char * private_tempnam (dir, pfx, dir_search, lenptr) char const *dir; char const *pfx; int dir_search; size_t *lenptr; { static char const tmpdir[] = PVT_tmpdir; static struct { char buf[3]; char *s; size_t i; } infos[2], *info; static char *buf; static size_t bufsize = 1; static pid_t oldpid = 0; pid_t pid = getpid (); register size_t len, plen; if (dir_search) { register char const *d = getenv ("TMPDIR"); if (d && !diraccess (d)) d = 0; if (!d && dir && diraccess (dir)) d = dir; if (!d && diraccess (tmpdir)) d = tmpdir; if (!d && diraccess ("/tmp")) d = "/tmp"; if (!d) { errno = ENOENT; return 0; } dir = d; } else dir = tmpdir; if (pfx && *pfx) { plen = strlen (pfx); if (plen > 5) plen = 5; } else plen = 0; if (dir != tmpdir && !strcmp (dir, tmpdir)) dir = tmpdir; info = &infos[(plen == 0 && dir == tmpdir) ? 1 : 0]; if (pid != oldpid) { oldpid = pid; info->buf[0] = info->buf[1] = info->buf[2] = '0'; info->s = &info->buf[0]; info->i = 0; } len = strlen (dir) + 1 + plen + 8; if (bufsize <= len) { do { bufsize *= 2; } while (bufsize <= len); if (buf) free (buf); buf = xmalloc (bufsize); } for (;;) { *info->s = letters[info->i]; sprintf (buf, "%s/%.*s%.5lu%.3s", dir, (int) plen, pfx, (unsigned long) pid % 100000, info->buf); if (!exists (buf)) break; ++info->i; if (info->i > sizeof (letters) - 1) { info->i = 0; if (info->s == &info->buf[2]) { errno = EEXIST; return 0; } ++info->s; } } if (lenptr) *lenptr = len; return buf; }