/* * fileops.c Copyright (C) Codemist Ltd 1994-98 * * cross-platform support for filenames etc * * A C Norman */ /* Signature: 1d4fb657 04-Mar-1999 */ #include "sys.h" /* * datestamps that I store away have given me significant * trouble with regard to portability - so now I deal with times by * talking to the system in terms of broken down local time (struct tm). * I then pack things up for myself to get 32-bit timestamps. The * encoding I use aims at simplicity - it treats all months as 31 days * and thus does not have to worry about leap years etc. The effect will be * rather as if dates were stored as strings. And MAYBE I thereby avoid * some of the oddities that arise when data files containing packed dates * are transported across time-zones. * * NOTE: dates here are based from 1970, and this will lead to overflow * beyond 32-bit offsets in around 2099. At the time of writing that is over * 100 years ahead, and I intend not to worry. * * ANOTHER NOTE: I only allow the "seconds" field to run from 0 to 59. * In consequence I am quite possibly going to mess up when there are * leap seconds, and this confusion could make times processed here * disagree across systems by up to the number of leap seconds that * have been used to date. Well I have quite severe doubts about time * agreement closer than a few seconds anyway and so again I am going to * ignore this oddity! */ void unpack_date(unsigned long int r, int *year, int *mon, int *day, int *hour, int *min, int *sec) { *sec = r%60; r = r/60; *min = r%60; r = r/60; *hour = r%24; r = r/24; *day = r%32; r = r/32; *mon = r%12; r = r/12; /* * Please note that the Standard C "struct tm" structure specifies dates * in terms of years since 1900. Thus from the year 2000 on the year will * be a value of at least 100, but that is not supposed to be any special * cause of disaster. In particular the calculation involving "+70" * rather than "+1970" is NOT a bug here! */ *year = 70+r; } unsigned long int pack_date(int year, int mon, int day, int hour, int min, int sec) { unsigned long int r = (year-70)*12 + mon; r = r*32 + day; r = r*24 + hour; r = r*60 + min; return r*60 + sec; } #ifdef __arm /* * The following structure MUST match the layout of a FILE as used by * the library that is linked with. */ struct FILE_COPY { int icnt; /* two separate _cnt fields so we can police ... */ unsigned char *ptr; int ocnt; /* ... restrictions that read/write are fseek separated */ int flag; unsigned char *base; /* buffer base */ int file; /* RISCOS/Arthur/Brazil file handle */ long pos; /* position in file */ int bufsiz; /* maximum buffer size */ int signature; /* used with temporary files */ unsigned char lilbuf[2]; /* single byte buffer for them that want it */ /* plus an unget char is put in __lilbuf[1] */ long lspos; /* what __pos should be (set after lazy seek) */ unsigned char *extent; /* extent of writes into the current buffer */ int buflim; /* used size of buffer */ int icnt_save; /* after unget contains old icnt */ int ocnt_save; /* after unget contains old ocnt */ }; int truncate_file(FILE *f, long int where) { os_regset R; if (fflush(f) != 0) return 1; R.r[0] = 3; R.r[1] = (int)((struct FILE_COPY *)f)->file; R.r[2] = (int)where; os_args(&R); return 0; } int Cmkdir(char *name) { os_filestr osf; osf.action = 8; osf.name = name; osf.loadaddr = osf.execaddr = osf.start = osf.end = 0; os_file(&osf); /* create directory */ return 1; } /* * I would like archives produced by this program to be portable * from one machine to another - and to this end I convert filenames * into a (partially) standard form based on the conventions used by * Unix. */ static char *implicit_dirs[] = /* * If I find a directory with one of these names (when I am creating * an archive) I map files in it onto suffixed names in the archive - * thus for instance a file abc.xyz.lsp.pqr will be known as abc/xyz/pqr.lsp * in the archive. When unloading files from an archive this rule takes * precedence over the "leave_suffixes" one shown below. */ { "!", /* Used by ACN as a place for scratch files */ "c", /* C source code */ "f", /* Fortran source code */ "h", /* C header files */ "l", /* Listings generated by the C compiler */ "o", /* Object code */ "p", /* Pascal? */ "s", /* Assembly code */ "lsp", /* Used with CSL */ "sl", /* Used with CSL/REDUCE */ "red", /* REDUCE sources */ "fsl", /* CSL fast-load files */ "log", /* I guess this is the hardest case */ "tst", /* REDUCE test files */ "doc", /* Another hard case */ "cpp", /* C++ files */ "hpp", /* C++ header files */ "txt", /* to help me with som MSDOS transfers */ "bak", /* Ditto. */ NULL }; static char *leave_suffixes[] = /* * If one of these names appears as the leaf name of a file in a directory * when I am creating an archive the leaf name is left as a suffix. Thus * abc.xyz.pqr.tex gets stored as abc/xyz/pqr.tex */ { "300pk", /* Most of these arise with the Archimedes */ "aux", /* port of TeX, where files are clustered */ "bat", /* into a directory that relates to a single*/ "bbl", /* document. */ "bib", "blg", "doc", "dvi", "dvi-alw", "exe", /* Used when I store MSDOS images. */ "img", /* Used when I store MSDOS CSL checkpoints */ "log", /* "doc" and "log" are in both lists... */ "sty", /* The effect is that xxx.yyy.log will get */ "tex", /* inserted in the archive as xxx/yyy.log, */ "tfm", /* and re-loaded as xxx.log.yyy */ "toc", /* Some cases I can not win. */ "rof", /* for "doc/scope.rof" in Reduce! */ NULL }; static bool namematch(char *s, char *t) { int a, b; while ((a = *s++, b = *t++) != 0) { /* I make this a case-insensitive match */ if (isupper(a)) a = tolower(a); if (isupper(b)) b = tolower(b); if (a != b) return FALSE; } /* * Since I am matching a component of a file name I allow the string * I am looking at to terminate either at string-end (0), or at one * of the characters that might separate parts of a file-name. This extra * generality may help me when packing up Acorn names - I guess it can give * problems if a '/' or '\' appears embedded in a name... */ if (a == 0 || a == '.' || a == '/' || a == '\\') return TRUE; else return FALSE; } static bool member(char *s, char **table) { char *t; while ((t = *table++) != NULL) if (namematch(s, t)) return TRUE; return FALSE; } void make_local_style_filename(char *filename, const char *old) /* * This maps a filename that is in the Unix style into one suitable * for the Archimedes. In particular a name of the form ppp/qqq.r will * be mapped onto ppp.r.qqq where the directory r will be created * automatically. Also fully rooted Unix names, as in /aaa/bbb get * turned into $.aaa.bbb * I turn a name-component of the form ".." into "^", so that * parent-directory references work. */ { int j, k, n = strlen(old); bool suffix = FALSE; char *res = filename; if (*old == '/') *res++ = '$'; /* Fully rooted case */ for (j=n-1; j>=0; j--) if (old[j] == '/') break; /* only check last component for suffix */ else if (old[j] == '.') { suffix = TRUE; break; } /* * Maybe I found a name of the form xxxx.yyyy, and old[j] is the '.'. * If the suffix is in the implicit_dirs list I do a flip. */ if (suffix) { if (member(&old[j+1], implicit_dirs)) { int i; for (k=j-1; k>=0; k--) if (old[k] == '/') break; if (k>=0) memcpy(res, old, k+1); memcpy(&res[k+1], &old[j+1], n-j-1); for (i=0; i<k+n-j; i++) { int c = res[i]; if (c == '/') res[i] = '.'; else if (c == '.') res[i] = '/'; } res[k+n-j] = '.'; memcpy(&res[k+n-j+1], &old[k+1], j-k-1); res[n] = 0; } else if (member(&old[j+1], leave_suffixes)) { old[j] = '/'; suffix = FALSE; } else suffix = FALSE; } if (!suffix) { for (j=0; j<=n; j++) /* Remember to transfer the final '\0' */ { int c = old[j]; if (c == '/') c = '.'; else if (c == '.') c = '/'; res[j] = c; } } /* * Now if in the Unix world I had a component '..' in the file it will * appear something like //.aaa.bbb or aaa.//.bbb * Similarly I map an isolated '.' (now an isolated '/') into '@'. */ j = k = 0; for (;;) { int c = res[j]; if (c == '.' || c == 0) { if (j == k+1 && res[k] == '/') res[k] = '@'; else if (j == k + 2 && res[k] == '/' && res[k+1] == '/') { int c1; res[k++] = '^'; do { c1 = res[k+1]; res[k++] = c1; } while (c1 != 0); } k = j+1; } if (c == 0) break; j++; } /* * Now one more attempt to be helpful - I will truncate each component of the * resulting file name to be at most 10 characters long. */ j = 0; for (;;) { k = j; while (res[k] != 0 && res[k] != '.') k++; if (k - j > 10) { int p1 = j + 10, p2 = k; for (;;) { int c = res[p2++]; res[p1++] = c; if (c == 0) break; } } if (res[k] == 0) break; j = k + 1; } } static void unadjust1(char *filename, char *old, int n) /* * Convert '.' characters into '/' as part of the process of Unixifying * file-names. I also convert the other way ('/' -> '.') in case some * clown has filenames that contain '/'. */ { while (n-- >= 0) { int c = *old++; if (c == '.') c = '/'; else if (c == '/') c = '.'; *filename++ = c; } } static void unadjust2(char *filename) /* * This maps any '^' in a filename into '..', but does not bother to * look for context, or for any other special sorts of file-name. */ { int j=0, k, c, c1; while ((c = filename[j]) != 0) { if (c == '^') { filename[j] = '.'; k = j+1; c1 = '.'; do { c = filename[k]; filename[k++] = c1; c1 = c; } while (c != 0); } j++; } } void make_unix_style_filename(char *filename, const char *old) /* * This procedure maps filenames from Acorn format to Unix format, * allowing single-character directories to map onto extensions, * together with special cases for RED, LSP, LOG, FSL etc etc */ { int j, k, n = strlen(old); for (j=n-1; j>=0; j--) if (old[j] == '.') break; if (j < 0) { strcpy(filename, old); unadjust2(filename); return; /* No '.' found, so no conversion needed */ } /* Find the last '.' in the file name */ for (k=j-1; k>=0; k--) if (old[k] == '.') break; /* * Test to see if penultimate component of file-name is one of the * special "implicit-directory" names. */ if (member(&old[k+1], implicit_dirs)) /* * If so turn "." to "/" in the root part of the name, and flip the order * of the name and extension. */ { unadjust1(filename, old, k); memcpy(&filename[k+1], &old[j+1], n-j-1); filename[k+n-j] = '.'; memcpy(&filename[k+n-j+1], &old[k+1], j-k-1); } /* * If the leaf name is in the second list of special cases leave it in * the converted name as a suffix. */ else if (member(&old[j+1], leave_suffixes)) { old[j] = '/'; unadjust1(filename, old, n); old[j] = '.'; } /* Otherwise just map "." onto "/" throughout the name */ else unadjust1(filename, old, n); filename[n] = 0; /* * Files that started off as $.xxx now look like $/xxx, and should be * just "/xxx" - fix that case up. */ if (filename[0] == '$' && filename[1] == '/') memmove(&filename[0], &filename[1], n); unadjust2(filename); return; } /* Reinstate date and filetype... */ void set_filedate(char *name, unsigned long int datestamp, unsigned long int filetype) { os_filestr ctrl; time_t t0; unsigned32 high, low; struct tm st; unpack_date(datestamp, &st.tm_year, &st.tm_mon, &st.tm_mday, &st.tm_hour, &st.tm_min, &st.tm_sec); st.tm_isdst = -1; t0 = mktime(&st); low = t0 + (70*365+17)*24*60*60u; high = 100*(low >> 16); /* If the filetype looks odd I map it into a "text" file */ if (filetype <= 0xe00) filetype = 0xfff; low = 100*(unsigned32)(low & 0xffffU); high = high + (low >> 16); low = (high << 16) | (low & 0xffffU); high = (high >> 16) & 0xff; /* Now in Acorn format */ high |= 0xfff00000U | ((filetype & 0xfff) << 8); if (datestamp == 0) low = high = 0; ctrl.action = 1; ctrl.name = name; ctrl.loadaddr = (int)high; ctrl.execaddr = (int)low; ctrl.end = 3; /* Readable & writeable */ os_file(&ctrl); /* Reset date & type */ } void put_fileinfo(date_and_type *p, char *name) { unsigned long int datestamp, filetype; os_filestr parms; /* * Read file parameters... */ parms.action = 5; parms.name = name; os_file(&parms); /* load & exec -> type & datestamp */ if ((parms.loadaddr & 0xfff00000U) == 0xfff00000U) /* * Acorn keep datestamps accurate to 0.01 second - here I reduce it to * a resolution of just one second. */ { unsigned32 dhi = parms.loadaddr & 0xff; unsigned32 dlo = parms.execaddr; struct tm *st; dhi = (dhi << 16) | (dlo >> 16); dlo = ((dhi % 100) << 16) | (dlo & 0xffffU); dhi = dhi / 100; datestamp = (dhi << 16) | (dlo / 100U); datestamp -= ((70*(unsigned32)365 + 17)*24)*60*60; /* Base 1970 now */ filetype = ((int32)parms.loadaddr >> 8) & 0xfff; st = localtime(&datestamp); datestamp = pack_date(st->tm_year, st->tm_mon, st->tm_mday, st->tm_hour, st->tm_min, st->tm_sec); } else { datestamp = 0; filetype = 0; } p->date = datestamp; p->type = filetype; } #else /* __arm */ #ifdef WINDOWS_NT /* * This version is for Windows NT 3.1 with Microsoft VC++, Windows 95, 98, * NT 3.5, 4.0 etc etc, also with Watcom C etc. */ int Cmkdir(char *name) { SECURITY_ATTRIBUTES s; s.nLength = sizeof(s); s.lpSecurityDescriptor = NULL; s.bInheritHandle = FALSE; return CreateDirectory(name, &s); } int truncate_file(FILE *f, long int where) { if (fflush(f) != 0) return 1; #ifdef _MSC_VER return _chsize(_fileno(f), where); /* Returns zero if success */ #else return chsize(fileno(f), where); /* Returns zero if success */ #endif } /* * For NT all I do to normalise names is swop '/' and '\' characters. * Well actually that is not quite enough - the characters * * : / \ ? " < > and | * are not supported in Windows names, so I will perform a mapping * * * ~s * / ~f * \ ~b * ? ~q * : ~c * " ~d * < ~l * > ~g * | ~v * ~ ~~ * * so that "unix" names can still contain the funny characters (but I * have doubts about the sanity of people who exploit that!) while on * windows the names are longer and contain "~" signs at worst. */ void make_local_style_filename(char *filename, const char *old) { /* * This is FROM unix TO Windows */ int k; for (;;) { int c = *old++; switch (c) { case 0: *filename = 0; return; case '/': *filename++ = '\\'; continue; case '*': k = 's'; break; case '\\': k = 'b'; break; case ':': k = 'c'; break; case '?': k = 'q'; break; case '"': k = 'd'; break; case '<': k = 'l'; break; case '>': k = 'g'; break; case '|': k = 'v'; break; case '~': k = '~'; break; default: *filename++ = c; continue; } *filename++ = '~'; *filename++ = k; continue; } } void make_unix_style_filename(char *filename, const char *old) { /* * If the user had a file on Windows/DOS that "ordinarily" has an "~" * sign in it then this code will do funny things to it as the name is * converted for Unix use. Apologies. But this seems necessary if I am * to have any guarantee of ability to move files from unix to DOS. */ for (;;) { int c = *old++; switch (c) { case 0: *filename = 0; return; case '\\': *filename++ = '/'; continue; case '~': switch (c = *old++) { case 's': *filename++ = '*'; continue; case 'b': *filename++ = '\\'; continue; case 'c': *filename++ = ':'; continue; case 'q': *filename++ = '?'; continue; case 'd': *filename++ = '"'; continue; case 'l': *filename++ = '<'; continue; case 'g': *filename++ = '>'; continue; case 'v': *filename++ = '|'; continue; case '~': *filename++ = '~'; continue; case 0: *filename++ = '~'; *filename = 0; return; default: *filename++ = '~'; *filename++ = c; continue; } continue; default: *filename++ = c; continue; } } } void set_filedate(char *name, unsigned long int datestamp, unsigned long int filetype) { HANDLE h = CreateFile(name, GENERIC_WRITE, 0, NULL, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, NULL); SYSTEMTIME st; FILETIME ft; int yr, mon, day, hr, min, sec; /* * Here datestamp is a time expressed (sort of) in seconds since the start * of 1970. * I need to convert it into a broken-down SYSTEMTIME so that I * can then re-pack it as a Windows-NT FILETIME.... */ unpack_date(datestamp, &yr, &mon, &day, &hr, &min, &sec); st.wMilliseconds = 0; st.wYear = yr + 1900; /* Windows NT uses full dates since the year 0 */ st.wMonth = mon + 1; st.wDay = day; st.wHour = hr; st.wMinute = min; st.wSecond = sec; SystemTimeToFileTime(&st, &ft); SetFileTime(h, NULL, NULL, &ft); CloseHandle(h); } void put_fileinfo(date_and_type *p, char *name) { unsigned long int datestamp, filetype; #ifdef _MSC_VER struct _stat file_info; #else struct stat file_info; #endif struct tm *st; /* * Read file parameters... Maybe I should use a Windows-style not a Unix-style * call here? */ #ifdef _MSC_VER _stat(name, &file_info); #else stat(name, &file_info); #endif st = localtime(&(file_info.st_mtime)); datestamp = pack_date(st->tm_year, st->tm_mon, st->tm_mday, st->tm_hour, st->tm_min, st->tm_sec); filetype = 0xfff; p->date = datestamp; p->type = filetype; } #else /* WINDOWS_NT */ #ifdef MS_DOS int truncate_file(FILE *f, long int where) { if (fflush(f) != 0) return 1; #ifndef __WATCOMC__ #ifndef __BORLANDC__ #define fileno(fp) ((fp)->_file) /* see <stdio.h> */ #endif #endif #ifdef _MSC_VER #define fileno(fp) ((fp)->_file) /* see <stdio.h> */ return _chsize(_fileno(f), where); /* Returns zero if success */ #else #ifdef GCC386 return ftruncate(fileno(f), where); /* NB the file must be closed just after this call */ #else return chsize(fileno(f), where); /* Returns zero if success */ #endif #endif } int Cmkdir(char *s) { #if defined GCC386 || defined GCCWIN return mkdir(s, 0775); #else return mkdir(s); #endif } /* * For MSDOS all I do to normalise names is swop '/' and '\' characters. * Well actually that is not quite enough - the characters * * : / \ ? " < > and | * are not supported in Windows names, so I will perform a mapping * * * ~s * / ~f * \ ~b * ? ~q * : ~c * " ~d * < ~l * > ~g * | ~v * ~ ~~ * * so that "unix" names can still contain the funny characters (but I * have doubts about the sanity of people who exploit that!) while on * windows the names are longer and contain "~" signs at worst. */ void make_local_style_filename(char *filename, const char *old) { /* * This is FROM unix TO Windows */ int k; for (;;) { int c = *old++; switch (c) { case 0: *filename = 0; return; case '/': *filename++ = '\\'; continue; case '*': k = 's'; break; case '\\': k = 'b'; break; case ':': k = 'c'; break; case '?': k = 'q'; break; case '"': k = 'd'; break; case '<': k = 'l'; break; case '>': k = 'g'; break; case '|': k = 'v'; break; case '~': k = '~'; break; default: *filename++ = c; continue; } *filename++ = '~'; *filename++ = k; continue; } } void make_unix_style_filename(char *filename, const char *old) { /* * If the user had a file on Windows/DOS that "ordinarily" has an "~" * sign in it then this code will do funny things to it as the name is * converted for Unix use. Apologies. But this seems necessary if I am * to have any guarantee of ability to move files from unix to DOS. */ for (;;) { int c = *old++; switch (c) { case 0: *filename = 0; return; case '\\': *filename++ = '/'; continue; case '~': switch (c = *old++) { case 's': *filename++ = '*'; continue; case 'b': *filename++ = '\\'; continue; case 'c': *filename++ = ':'; continue; case 'q': *filename++ = '?'; continue; case 'd': *filename++ = '"'; continue; case 'l': *filename++ = '<'; continue; case 'g': *filename++ = '>'; continue; case 'v': *filename++ = '|'; continue; case '~': *filename++ = '~'; continue; case 0: *filename++ = '~'; *filename = 0; return; default: *filename++ = '~'; *filename++ = c; continue; } continue; default: *filename++ = c; continue; } } } #ifdef __WATCOMC__ #include <sys\utime.h> #endif void set_filedate(char *name, unsigned long int datestamp, unsigned long int filetype) { #ifdef __WATCOMC__ struct utimbuf tt; #else time_t tt[2]; #endif time_t t0; struct tm st; filetype = filetype; unpack_date(datestamp, &st.tm_year, &st.tm_mon, &st.tm_mday, &st.tm_hour, &st.tm_min, &st.tm_sec); st.tm_isdst = -1; t0 = mktime(&st); #ifdef __WATCOMC__ tt.actime = tt.modtime = t0; utime(name, &tt); #else tt[0] = tt[1] = t0; utime(name, tt); #endif } extern int stat(const char *, struct stat*); void put_fileinfo(date_and_type *p, char *name) { unsigned long int datestamp, filetype; struct stat file_info; struct tm *st; /* * Read file parameters... */ #ifdef _MSC_VER _stat(name, &file_info); #else stat(name, &file_info); #endif st = localtime(&(file_info.st_mtime)); datestamp = pack_date(st->tm_year, st->tm_mon, st->tm_mday, st->tm_hour, st->tm_min, st->tm_sec); filetype = 0xfff; p->date = datestamp; p->type = filetype; } #else /* MS_DOS */ #ifdef UNIX /* * On some Unix variants I may want this declaration inserted and on others * it would clash with a system-provided header file. Ugh! With luck the C * compiler will invent a suitable calling convention even if a declaration * is not present. * extern ftruncate(int, int); */ int truncate_file(FILE *f, long int where) { #ifdef NCC_LIB #define SYS_ftruncate (130) extern int _syscall2(int, int, int); extern int _fileno(FILE *); #endif if (fflush(f) != 0) return 1; #ifdef NCC_LIB /* Returns zero if success */ return _syscall2(SYS_ftruncate, _fileno(f), (int)where); #else return ftruncate(fileno(f), where); /* Returns zero if success */ #endif } /* extern void mkdir(const char *, unsigned short int); */ int Cmkdir(char *s) { mkdir(s, 0775); return 1; } void make_local_style_filename(char *filename, const char *old) { strcpy(filename, old); return; } void make_unix_style_filename(char *filename, const char *old) { strcpy(filename, old); return; } #include <utime.h> void set_filedate(char *name, unsigned long int datestamp, unsigned long int filetype) { #ifdef UTIME_TIME_T time_t tt[2]; #else struct utimbuf tt; #endif time_t t0; struct tm st; unpack_date(datestamp, &st.tm_year, &st.tm_mon, &st.tm_mday, &st.tm_hour, &st.tm_min, &st.tm_sec); st.tm_isdst = -1; t0 = mktime(&st); #ifdef UTIME_TIME_T tt[0] = tt[1] = t0; #else tt.actime = tt.modtime = t0; #endif utime(name, &tt); } void put_fileinfo(date_and_type *p, char *name) { unsigned long int datestamp, filetype; struct stat file_info; struct tm *st; /* * Read file parameters... */ stat(name, &file_info); st = localtime(&(file_info.st_mtime)); datestamp = pack_date(st->tm_year, st->tm_mon, st->tm_mday, st->tm_hour, st->tm_min, st->tm_sec); filetype = 0xfff; /* should get access status here? */ p->date = datestamp; p->type = filetype; } #else /* UNIX */ #ifdef ATARI int truncate_file(FILE *f, long int where) { if (fflush(f) != 0) return 1; #define fileno(fp) ((fp)->_file) /* see <stdio.h> */ return chsize(fileno(f), where); /* Returns zero if success */ } int Cmkdir(char *s) { mkdir(s); return 1; } /* * For TOS all I do to normalise names is swop '/' and '\' characters. */ void make_local_style_filename(char *filename, const char *old) { int j, n = strlen(old); strcpy(filename, old); for (j=0; j<n; j++) if (filename[j] == '/') filename[j] = '\\'; else if (filename[j] == '\\') filename[j] = '/'; return; } void make_unix_style_filename(char *filename, const char *old) { int j, n = strlen(old); strcpy(filename, old); for (j=0; j<n; j++) if (filename[j] == '/') filename[j] = '\\'; else if (filename[j] == '\\') filename[j] = '/'; return; } /* No file date support for ATARI yet */ #else /* ATARI */ #ifdef macintosh int Cmkdir(char *s) { mkdir(s); return 1; } /* * For the Macintosh I normalise names by swapping '/' and ':' characters. */ void make_local_style_filename(char *filename, const char *old) { int c, j, n = strlen(old); filename[0] = ':'; strcpy(filename+1, old); for (j=1; j<=n; j++) if (filename[j] == '/') filename[j] = ':'; else if (filename[j] == ':') filename[j] = '/'; /* * Now if I find a pattern :..: in the string I just squash it to read ::, * since that is how that Mac indicates a parent directory. Note that * I always have an initial : at the start of a name, so nothing special * is needed there. */ j = 0; while ((c = filename[j]) != 0) { if (c == ':' && filename[j+1] == '.' && filename[j+2] == '.' && filename[j+3] == ':') { int k = j+1; do { c = filename[k+2]; filename[k++] = c; } while (c != 0); } j++; } return; } void make_unix_style_filename(char *filename, const char *old) { int j, n = strlen(old); filename[0] = ':' strcpy(filename+1, old); for (j=1; j<=n; j++) if (filename[j] == '/') filename[j] = ':'; else if (filename[j] == ':') filename[j] = '/'; return; } /* No file date services on Macintosh yet */ #endif /* macintosh */ #endif /* ATARI */ #endif /* UNIX */ #endif /* MS_DOS */ #endif /* WINDOWS_NT */ #endif /* __arm */ /* End of fileops.c */