#include #include #include #include #include #include #include #include #include #include #include #include #include extern void UseAccurateCaseForPaths(int); #include "zip.h" /*------------------------------------------------------------------ ** Global Variables */ #define skipspace( x ) while( isspace( *x ) ) ++x #define nextspace( x ) while( *x && !isspace( *x ) ) ++x #define CWS 0 #define CWV 1 #define CWP 2 #define ALL 99 /* Globals */ extern char *GetWorkArea(void); extern char *next_arg(char *); extern int NLM_exiting; char fid[100]; static breakkey = FALSE; #define MATCH shmatch extern char *label; local ulg label_time = 0; local ulg label_mode = 0; local time_t label_utim = 0; #define PAD 0 #define PATH_END '/' local char *readd(d) DIR *d; /* directory stream to read from */ /* Return a pointer to the next name in the directory stream d, or NULL if no more entries or an error occurs. */ { struct dirent *e; e = readdir(d); return e == NULL ? (char *) NULL : e->d_name; } void findzip(char *s) { dowhereis(s); } void dowhereis(char *s) { char dir[_MAX_PATH]; char fsv[_MAX_SERVER+_MAX_VOLUME+1]; char fdir[_MAX_PATH]; char fname[_MAX_FNAME],fext[_MAX_EXT], both[_MAX_FNAME+_MAX_EXT]; char *p = next_arg(s); /* point at argument */ if(!*p) { printf("No filename specified!"); return; } //setlocale (LC_ALL, "NORWAY"); NWLsetlocale (LC_ALL, "NORWAY"); strcpy(dir,GetWorkArea()); /* get the file name specification */ _splitpath(p,fsv,fdir,fname,fext); //printf ("p %s, fsv %s, fdir %s, fname %s, fext %s\n", p,fsv,fdir,fname,fext); //getch(); sprintf(both,"%s%s",strupr(fname),strupr(fext)); breakkey = FALSE; /* startup the recursive file find operation */ chdir(fsv); UseAccurateCaseForPaths(1); SetCurrentNameSpace (NW_NS_LONG); chdir(fdir); findit(both); } char *GetWorkArea(void) { static char cwd[_MAX_PATH]; static char serverName[_MAX_SERVER]; static char volumeName[_MAX_VOLUME + 1]; static char dirName[_MAX_DIR]; if(getcwd(cwd,_MAX_PATH) == NULL) return NULL; ParsePath(cwd,serverName,volumeName,dirName); /* shouldn't fail! */ return cwd; } char *next_arg(char *s) { char *p; skipspace(s); /* ignore white */ p = s; nextspace(s); /* find next blank */ *s = NULL; return(p); } static void findit(char *what) { char dir[_MAX_PATH]; char zipdir[_MAX_PATH]; char szzipfile[_MAX_PATH]; char *psz; DIR *dirStructPtr; DIR *dirStructPtrSave; int r; getcwd(dir,_MAX_PATH); psz = dir; while (*psz) { if (*psz == ':') { strcpy (zipdir, psz + 1); break; } psz++; } dirStructPtrSave = dirStructPtr = opendir(what); /* _A_NORMAL Normal file; read/write permitted _A_RDONLY Read-only file _A_HIDDEN Hidden file _A_SYSTEM System file _A_VOLID Volume ID entry _A_SUBDIR Subdirectory _A_ARCH Archive file */ if (hidden_files) SetReaddirAttribute (dirStructPtr, _A_NORMAL | _A_RDONLY | _A_HIDDEN | _A_SYSTEM | _A_ARCH); else SetReaddirAttribute (dirStructPtr, _A_NORMAL | _A_ARCH); //while(dirStructPtr && !breakkey) while(dirStructPtr && !NLM_exiting) { //printf ("\n NLM_exiting test Line 167.... \n"); dirStructPtr = readdir(dirStructPtr); if((dirStructPtr == NULL) || (dirStructPtr == -1)) break; /* Filen er funnet */ if(dirStructPtr->d_attr & _A_SUBDIR) continue; strcpy (szzipfile, zipdir); strcat (szzipfile, "/"); strcat (szzipfile, dirStructPtr->d_name); procnamehho (szzipfile); //ThreadSwitchWithDelay(); //if(kbhit() && getch() == 3) // printf("^C\n",breakkey = TRUE); } if(dirStructPtrSave) closedir(dirStructPtrSave); if (!recurse) return; /* Now traverse the directories in this path */ dirStructPtrSave = dirStructPtr = opendir("*.*"); if(dirStructPtr == NULL) return; if (hidden_files) SetReaddirAttribute (dirStructPtr, _A_NORMAL | _A_RDONLY | _A_HIDDEN | _A_SYSTEM | _A_ARCH | _A_SUBDIR); else SetReaddirAttribute (dirStructPtr, _A_NORMAL | _A_ARCH | _A_SUBDIR); //ThreadSwitchWithDelay(); while(!NLM_exiting) { //printf ("\n NLM_exiting test Line 204.... \n"); getch (); dirStructPtr = readdir(dirStructPtr); if((dirStructPtr == NULL) || (dirStructPtr == -1)) break; if(dirStructPtr->d_attr & _A_SUBDIR) { strcpy (szzipfile, zipdir); strcat (szzipfile, "/"); strcat (szzipfile, dirStructPtr->d_name); procnamehho (szzipfile); chdir(dirStructPtr->d_name); findit(what); chdir(".."); } //if(kbhit() && getch() == 3) // printf("^C\n",breakkey = TRUE); } if(dirStructPtrSave) closedir(dirStructPtrSave); } int wild(w) char *w; /* path/pattern to match */ /* If not in exclude mode, expand the pattern based on the contents of the file system. Return an error code in the ZE_ class. */ { DIR *d; /* stream for reading directory */ char *e; /* name found in directory */ int r; /* temporary variable */ char *n; /* constructed name from directory */ int f; /* true if there was a match */ char *a; /* alloc'ed space for name */ //char *p; /* path */ char *q; /* name */ char v[5]; /* space for device current directory */ char dir[_MAX_PATH]; char fsv[_MAX_SERVER+_MAX_VOLUME+1]; char fdir[_MAX_PATH]; char fname[_MAX_FNAME],fext[_MAX_EXT], both[_MAX_FNAME+_MAX_EXT]; char *p; /* point at argument */ p = w; /* Test HHO */ findzip(p); return ZE_OK; strcpy(dir,GetWorkArea()); /* get the file name specification */ _splitpath(p,fsv,fdir,fname,fext); sprintf(both,"%s%s",strupr(fname),strupr(fext)); /* startup the recursive file find operation */ chdir(fsv); /* Search that level for matching names */ if ((d = opendir(both)) == NULL) { free((zvoid *)a); return ZE_MISS; } f = 0; while ((e = readd(d)) != NULL) { if (strcmp(e, ".") && strcmp(e, "..") && MATCH(q, e)) { f = 1; if (strcmp(p, ".") == 0) { /* path is . */ r = procname(e); /* name is name */ if (r) { f = 0; break; } } else { if ((n = malloc(strlen(p) + strlen(e) + 2)) == NULL) { free((zvoid *)a); closedir(d); return ZE_MEM; } n = strcpy(n, p); if (n[r = strlen(n) - 1] != '/' && n[r] != ':') strcat(n, "/"); r = procname(strcat(n, e)); /* name is path/name */ free((zvoid *)n); if (r) { f = 0; break; } } } } closedir(d); /* Done */ free((zvoid *)a); return f ? ZE_OK : ZE_MISS; } int procnamehho (char *n) { int m; /* matched flag */ char *p; /* path for recursion */ struct stat s; /* result of stat() */ struct zlist far *z; /* steps through zfiles list */ char *a; if (n == NULL) /* volume_label request in freshen|delete mode ?? */ return ZE_OK; if (strcmp(n, "-") == 0) /* if compressing stdin */ return newname(n, 0); else if (stat(n, &s) #if defined(__TURBOC__) || defined(__WATCOMC__) /* For these 2 compilers, stat() succeeds on wild card names! */ || isshexp(n) #endif ) { /* Not a file or directory--search for shell expression in zip file */ p = ex2in(n, 0, (int *)NULL); /* shouldn't affect matching chars */ m = 1; for (z = zfiles; z != NULL; z = z->nxt) { if (MATCH(p, z->iname)) { z->mark = pcount ? filter(z->zname) : 1; if (verbose) fprintf(mesg, "zip diagnostic: %scluding %s\n", z->mark ? "in" : "ex", z->name); m = 0; } } free((zvoid *)p); return m ? ZE_MISS : ZE_OK; } /* Live name--use if file, recurse if directory */ for (p = n; *p; p++) /* use / consistently */ if (*p == '\\') *p = '/'; //printf ("\nHHO %s\n", n); if ((s.st_mode & S_IFDIR) == 0) { //printf ("\nHHO1 %s\n", n); /* add or remove name of file */ //printf ("\nAdding name %s to list.\n", n); if ((m = newname(n, 0)) != ZE_OK) return m; } else { /* Add trailing / to the directory name */ if ((p = malloc(strlen(n)+2)) == NULL) return ZE_MEM; if (strcmp(n, ".") == 0 || strcmp(n, "/.") == 0) { *p = '\0'; /* avoid "./" prefix and do not create zip entry */ } else { strcpy(p, n); a = p + strlen(p); if (a[-1] != '/') strcpy(a, "/"); //if (dirnames && (m = newname(p, 1)) != ZE_OK) { if ((m = newname(p, 1)) != ZE_OK) { free((zvoid *)p); return m; } free ((zvoid *)p); } return ZE_OK; } return ZE_OK; } int procname(n) char *n; /* name to process */ /* Process a name or sh expression to operate on (or exclude). Return an error code in the ZE_ class. */ { char *a; /* path and name for recursion */ DIR *d; /* directory stream from opendir() */ char *e; /* pointer to name from readd() */ int m; /* matched flag */ char *p; /* path for recursion */ struct stat s; /* result of stat() */ struct zlist far *z; /* steps through zfiles list */ if (n == NULL) /* volume_label request in freshen|delete mode ?? */ return ZE_OK; if (strcmp(n, "-") == 0) /* if compressing stdin */ return newname(n, 0); else if (stat(n, &s) #if defined(__TURBOC__) || defined(__WATCOMC__) /* For these 2 compilers, stat() succeeds on wild card names! */ || isshexp(n) #endif ) { /* Not a file or directory--search for shell expression in zip file */ p = ex2in(n, 0, (int *)NULL); /* shouldn't affect matching chars */ m = 1; for (z = zfiles; z != NULL; z = z->nxt) { if (MATCH(p, z->iname)) { z->mark = pcount ? filter(z->zname) : 1; if (verbose) fprintf(mesg, "zip diagnostic: %scluding %s\n", z->mark ? "in" : "ex", z->name); m = 0; } } free((zvoid *)p); return m ? ZE_MISS : ZE_OK; } /* Live name--use if file, recurse if directory */ for (p = n; *p; p++) /* use / consistently */ if (*p == '\\') *p = '/'; if ((s.st_mode & S_IFDIR) == 0) { /* add or remove name of file */ if ((m = newname(n, 0)) != ZE_OK) return m; } else { /* Add trailing / to the directory name */ if ((p = malloc(strlen(n)+2)) == NULL) return ZE_MEM; if (strcmp(n, ".") == 0 || strcmp(n, "/.") == 0) { *p = '\0'; /* avoid "./" prefix and do not create zip entry */ } else { strcpy(p, n); a = p + strlen(p); if (a[-1] != '/') strcpy(a, "/"); if (dirnames && (m = newname(p, 1)) != ZE_OK) { free((zvoid *)p); return m; } } /* recurse into directory */ if (recurse && (d = opendir(n)) != NULL) { while ((e = readd(d)) != NULL) { if (strcmp(e, ".") && strcmp(e, "..")) { if ((a = malloc(strlen(p) + strlen(e) + 1)) == NULL) { closedir(d); free((zvoid *)p); return ZE_MEM; } strcat(strcpy(a, p), e); if ((m = procname(a)) != ZE_OK) /* recurse on name */ { if (m == ZE_MISS) zipwarn("name not matched: ", a); else ziperr(m, a); } free((zvoid *)a); } } closedir(d); } free((zvoid *)p); } /* (s.st_mode & S_IFDIR) == 0) */ return ZE_OK; } char *szRelativParameter; char szRelativ[512]; int iRelativOK = FALSE; int iRelativPakking = FALSE; int fixRelativpath () { char *szp; szp = szRelativParameter; if (szRelativParameter[0] == '/' || szRelativParameter[0] == '\\') szp++; while (*szp) { if (*szp == '\\') *szp = '/'; szp++; } szp = szRelativParameter; if (szRelativParameter[0] == '/') szp++; strcpy (szRelativ, szp); if (strlen(szp) == 0) { szRelativ[0] = '\0'; return FALSE; } return TRUE; } char *ex2in(x, isdir, pdosflag) char *x; /* external file name */ int isdir; /* input: x is a directory */ int *pdosflag; /* output: force MSDOS file attributes? */ /* Convert the external file name to a zip file name, returning the malloc'ed string or NULL if not enough memory. */ { char *n; /* internal file name (malloc'ed) */ char *t; /* shortened name */ int dosflag; char *sztUpper; /* Find starting point in name before doing malloc */ t = *x && *(x + 1) == ':' ? x + 2 : x; while (*t == '/' || *t == '\\') t++; /* Make changes, if any, to the copied name (leave original intact) */ for (n = t; *n; n++) if (*n == '\\') *n = '/'; if (iRelativPakking) { //printf ("\n LINE 516 *ex2ex Internt navn %s external name %s.\n", t, x); getch (); if (!iRelativOK) { if (!fixRelativpath()) { iRelativOK = FALSE; iRelativPakking = FALSE; } else { sztUpper = malloc (strlen(t) + 10); strcpy (sztUpper, t); NWLstrupr (sztUpper); NWLstrupr (szRelativ); if (strncmp (sztUpper, szRelativ, strlen(szRelativ)) == 0) { t = t + strlen(szRelativ); iRelativPakking = TRUE; iRelativOK = TRUE; } else { iRelativOK = FALSE; iRelativPakking = FALSE; } free (sztUpper); } } else { t = t + strlen(szRelativ); } } if (!pathput) t = last(t, PATH_END); /* Malloc space for internal name and copy it */ if ((n = malloc(strlen(t) + 1)) == NULL) return NULL; strcpy(n, t); if (dosify) msname(n); /* Returned malloc'ed name */ if (pdosflag) *pdosflag = dosflag; return n; } char *in2ex(n) char *n; /* internal file name */ /* Convert the zip file name to an external file name, returning the malloc'ed string or NULL if not enough memory. */ { char *x; /* external file name */ if ((x = malloc(strlen(n) + 1 + PAD)) == NULL) return NULL; strcpy(x, n); //if ( !IsFileNameValid(x) ) //ChangeNameForFAT(x); //printf ("\n *in2ex Internt navn %s external name %s.\n", n, x); getch (); return x; } void stamp(f, d) char *f; /* name of file to change */ ulg d; /* dos-style time to change it to */ /* Set last updated and accessed time of file f to the DOS time d. */ { //SetFileTime(f, d); } ulg filetime(f, a, n, t) char *f; /* name of file to get info on */ ulg *a; /* return value: file attributes */ long *n; /* return value: file size */ iztimes *t; /* return value: access, modific. and creation times */ /* If file *f does not exist, return 0. Else, return the file's last modified date and time as an MSDOS date and time. The date and time is returned in a long with the date most significant to allow unsigned integer comparison of absolute times. Also, if a is not a NULL pointer, store the file attributes there, with the high two bytes being the Unix attributes, and the low byte being a mapping of that to DOS attributes. If n is not NULL, store the file size there. If t is not NULL, the file's access, modification and creation times are stored there as UNIX time_t values. If f is "-", use standard input as the file. If f is a device, return a file size of -1 */ { struct stat s; /* results of stat() */ /* convert FNMAX to malloc - 11/8/04 EG */ char *name; int len = strlen(f); if (f == label) { if (a != NULL) *a = label_mode; if (n != NULL) *n = -2L; /* convention for a label name */ if (t != NULL) t->atime = t->mtime = t->ctime = label_utim; return label_time; } if ((name = malloc(len + 1)) == NULL) { ZIPERR(ZE_MEM, "filetime"); } strcpy(name, f); if (name[len - 1] == '/') name[len - 1] = '\0'; /* not all systems allow stat'ing a file with / appended */ if (strcmp(f, "-") == 0) { if (fstat(fileno(stdin), &s) != 0) error("fstat(stdin)"); } else if (stat(name, &s) != 0) { /* Accept about any file kind including directories * (stored with trailing / with -r option) */ free(name); return 0; } free(name); if (a != NULL) { *a = s.st_attr; // << 16) | !(s.st_mode & S_IWRITE); //*a = ((ulg)s.st_mode << 16) | !(s.st_mode & S_IWRITE); //if ((s.st_mode & S_IFMT) == S_IFDIR) { //*a |= MSDOS_DIR_ATTR; //} } if (n != NULL) *n = (s.st_mode & S_IFMT) == S_IFREG ? s.st_size : -1L; if (t != NULL) { t->atime = s.st_atime; t->mtime = s.st_mtime; t->ctime = t->mtime; /* best guess, (s.st_ctime: last status change!!) */ } return unix2dostime(&s.st_mtime); } ulg filetimeHHO(f, a, n, t) char *f; /* name of file to get info on */ ulg *a; /* return value: file attributes */ long *n; /* return value: file size */ iztimes *t; /* return value: access, modific. and creation times */ /* If file *f does not exist, return 0. Else, return the file's last modified date and time as an MSDOS date and time. The date and time is returned in a long with the date most significant to allow unsigned integer comparison of absolute times. Also, if a is not a NULL pointer, store the file attributes there, with the high two bytes being the Unix attributes, and the low byte being a mapping of that to DOS attributes. If n is not NULL, store the file size there. If t is not NULL, the file's access, modification and creation times are stored there as UNIX time_t values. If f is "-", use standard input as the file. If f is a device, return a file size of -1 */ { struct stat s; /* results of stat() */ char *name; int len = strlen(f), isstdin = !strcmp(f, "-"); if (f == label) { if (a != NULL) *a = label_mode; if (n != NULL) *n = -2L; /* convention for a label name */ if (t != NULL) t->atime = t->mtime = t->ctime = label_utim; return label_time; } if ((name = malloc(len + 1)) == NULL) { ZIPERR(ZE_MEM, "filetimeHHO"); } strcpy(name, f); if (name[len - 1] == '/') name[len - 1] = '\0'; /* not all systems allow stat'ing a file with / appended */ if (isstdin) { /* it is common for some PC based compilers to fail with fstat() on devices or pipes */ if (fstat(fileno(stdin), &s) != 0) { s.st_mode = S_IFREG; s.st_size = -1L; } time(&s.st_ctime); s.st_atime = s.st_mtime = s.st_ctime; } else if (stat(name, &s) != 0) { /* Accept about any file kind including directories * (stored with trailing / with -r option) */ free(name); return 0; } if (a != NULL) { //*a = ((ulg)s.st_mode << 16) | (isstdin ? 0L : (ulg)GetFileMode(name)); //*a = (ulg)s.st_mode; *a = s.st_attr; } printf ("\nDette er en test LINE : 721 \n"); getch(); if (n != NULL) *n = (s.st_mode & S_IFMT) == S_IFREG ? s.st_size : -1L; #ifdef __WATCOMC__ /* of course, Watcom always has to make an exception */ if (s.st_atime == 312764400) s.st_atime = s.st_mtime; if (s.st_ctime == 312764400) s.st_ctime = s.st_mtime; #endif if (t != NULL) { t->atime = s.st_atime; t->mtime = s.st_mtime; t->ctime = s.st_ctime; } printf ("\nDette er en test LINE : 735 \n"); getch(); //return GetFileTime(name); free(name); return t->atime; } int deletedir(d) char *d; /* directory to delete */ /* Delete the directory *d if it is empty, do nothing otherwise. Return the result of rmdir(), delete(), or system(). */ { return rmdir(d); } int set_extra_field(z, z_utim) struct zlist far *z; iztimes *z_utim; /* create extra field and change z->att if desired */ { #ifdef USE_EF_UT_TIME if ((z->extra = (char *)malloc(EB_HEADSIZE+EB_UT_LEN(1))) == NULL) return ZE_MEM; z->extra[0] = 'U'; z->extra[1] = 'T'; z->extra[2] = EB_UT_LEN(1); /* length of data part of e.f. */ z->extra[3] = 0; z->extra[4] = EB_UT_FL_MTIME; z->extra[5] = (char)(z_utim->mtime); z->extra[6] = (char)(z_utim->mtime >> 8); z->extra[7] = (char)(z_utim->mtime >> 16); z->extra[8] = (char)(z_utim->mtime >> 24); z->cext = z->ext = (EB_HEADSIZE+EB_UT_LEN(1)); z->cextra = z->extra; return ZE_OK; #else /* !USE_EF_UT_TIME */ return (int)(z-z); #endif /* ?USE_EF_UT_TIME */ } /******************************/ /* Function version_local() */ /******************************/ static ZCONST char CompiledWith[] = "Compiled with %s%s for %s%s%s%s.\n\n"; /* At module level to keep Turbo C++ 1.0 happy !! */ void version_local() { #if defined(__DJGPP__) || defined(__WATCOMC__) || \ (defined(_MSC_VER) && (_MSC_VER != 800)) char buf[80]; #endif printf(CompiledWith, #ifdef __GNUC__ # if defined(__DJGPP__) (sprintf(buf, "djgpp v%d / gcc ", __DJGPP__), buf), # elif defined(__GO32__) "djgpp v1.x / gcc ", # elif defined(__EMX__) /* ...so is __EMX__ (double sigh) */ "emx+gcc ", # else "gcc ", # endif __VERSION__, #elif defined(__WATCOMC__) # if (__WATCOMC__ % 10 > 0) /* We do this silly test because __WATCOMC__ gives two digits for the */ /* minor version, but Watcom packaging prefers to show only one digit. */ (sprintf(buf, "Watcom C/C++ %d.%02d", __WATCOMC__ / 100, __WATCOMC__ % 100), buf), "", # else (sprintf(buf, "Watcom C/C++ %d.%d", __WATCOMC__ / 100, (__WATCOMC__ % 100) / 10), buf), "", # endif #elif defined(__TURBOC__) # ifdef __BORLANDC__ "Borland C++", # if (__BORLANDC__ < 0x0200) " 1.0", # elif (__BORLANDC__ == 0x0200) /* James: __TURBOC__ = 0x0297 */ " 2.0", # elif (__BORLANDC__ == 0x0400) " 3.0", # elif (__BORLANDC__ == 0x0410) /* __BCPLUSPLUS__ = 0x0310 */ " 3.1", # elif (__BORLANDC__ == 0x0452) /* __BCPLUSPLUS__ = 0x0320 */ " 4.0 or 4.02", # elif (__BORLANDC__ == 0x0460) /* __BCPLUSPLUS__ = 0x0340 */ " 4.5", # elif (__BORLANDC__ == 0x0500) /* __TURBOC__ = 0x0500 */ " 5.0", # else " later than 5.0", # endif # else "Turbo C", # if (__TURBOC__ > 0x0401) "++ later than 3.0" # elif (__TURBOC__ == 0x0401) /* Kevin: 3.0 -> 0x0401 */ "++ 3.0", # elif (__TURBOC__ == 0x0295) /* [661] vfy'd by Kevin */ "++ 1.0", # elif ((__TURBOC__ >= 0x018d) && (__TURBOC__ <= 0x0200)) /* James: 0x0200 */ " 2.0", # elif (__TURBOC__ > 0x0100) " 1.5", /* James: 0x0105? */ # else " 1.0", /* James: 0x0100 */ # endif # endif #elif defined(MSC) "Microsoft C ", # ifdef _MSC_VER # if (_MSC_VER == 800) "(Visual C++ v1.1)", # elif (_MSC_VER == 850) "(Windows NT v3.5 SDK)", # elif (_MSC_VER == 900) "(Visual C++ v2.0/v2.1)", # elif (_MSC_VER > 900) (sprintf(buf2, "(Visual C++ v%d.%d)", _MSC_VER/100 - 6, _MSC_VER%100/10), buf2), # else (sprintf(buf, "%d.%02d", _MSC_VER/100, _MSC_VER%100), buf), # endif # else "5.1 or earlier", # endif #else "unknown compiler", "", #endif "MS-DOS", #if (defined(__GNUC__) || (defined(__WATCOMC__) && defined(__386__))) " (32-bit)", #elif defined(M_I86HM) || defined(__HUGE__) " (16-bit, huge)", #elif defined(M_I86LM) || defined(__LARGE__) " (16-bit, large)", #elif defined(M_I86MM) || defined(__MEDIUM__) " (16-bit, medium)", #elif defined(M_I86CM) || defined(__COMPACT__) " (16-bit, compact)", #elif defined(M_I86SM) || defined(__SMALL__) " (16-bit, small)", #elif defined(M_I86TM) || defined(__TINY__) " (16-bit, tiny)", #else " (16-bit)", #endif #ifdef __DATE__ " on ", __DATE__ #else "", "" #endif ); } /* end function version_local() */ #ifdef __WATCOMC__ /* This papers over a bug in Watcom 10.6's standard library... sigh */ /* Apparently it applies to both the DOS and Win32 stat()s. */ int stat_bandaid(const char *path, struct stat *buf) { char newname[4]; if (!stat(path, buf)) return 0; else if (!strcmp(path, ".") || (path[0] && !strcmp(path + 1, ":."))) { strcpy(newname, path); newname[strlen(path) - 1] = '\\'; /* stat(".") fails for root! */ return stat(newname, buf); } else return -1; } #endif