///////////////////////////////////////////////////////////////////////////// // Name: src/common/filename.cpp // Purpose: wxFileName - encapsulates a file path // Author: Robert Roebling, Vadim Zeitlin // Modified by: // Created: 28.12.2000 // Copyright: (c) 2000 Robert Roebling // Licence: wxWindows licence ///////////////////////////////////////////////////////////////////////////// /* Here are brief descriptions of the filename formats supported by this class: wxPATH_UNIX: standard Unix format, used under Darwin as well, absolute file names have the form: /dir1/dir2/.../dirN/filename, "." and ".." stand for the current and parent directory respectively, "~" is parsed as the user HOME and "~username" as the HOME of that user wxPATH_DOS: DOS/Windows format, absolute file names have the form: drive:\dir1\dir2\...\dirN\filename.ext where drive is a single letter. "." and ".." as for Unix but no "~". There are also UNC names of the form \\share\fullpath and MSW unique volume names of the form \\?\Volume{GUID}\fullpath. The latter provide a uniform way to access a volume regardless of its current mount point, i.e. you can change a volume's mount point from D: to E:, or even remove it, and still be able to access it through its unique volume name. More on the subject can be found in MSDN's article "Naming a Volume" that is currently at http://msdn.microsoft.com/en-us/library/aa365248(VS.85).aspx. wxPATH_MAC: Mac OS 8/9 only, not used any longer, absolute file names have the form volume:dir1:...:dirN:filename and the relative file names are either :dir1:...:dirN:filename or just filename (although :filename works as well). Since the volume is just part of the file path, it is not treated like a separate entity as it is done under DOS and VMS, it is just treated as another dir. wxPATH_VMS: VMS native format, absolute file names have the form :[dir1.dir2.dir3]file.txt or :[000000.dir1.dir2.dir3]file.txt the is the physical device (i.e. disk). 000000 is the root directory on the device which can be omitted. Note that VMS uses different separators unlike Unix: : always after the device. If the path does not contain : than the default (the device of the current directory) is assumed. [ start of directory specification . separator between directory and subdirectory ] between directory and file */ // ============================================================================ // declarations // ============================================================================ // ---------------------------------------------------------------------------- // headers // ---------------------------------------------------------------------------- // For compilers that support precompilation, includes "wx.h". #include "wx/wxprec.h" #ifdef __BORLANDC__ #pragma hdrstop #endif #ifndef WX_PRECOMP #ifdef __WINDOWS__ #include "wx/msw/wrapwin.h" // For GetShort/LongPathName #endif #include "wx/dynarray.h" #include "wx/intl.h" #include "wx/log.h" #include "wx/utils.h" #include "wx/crt.h" #endif #include "wx/filename.h" #include "wx/private/filename.h" #include "wx/tokenzr.h" #include "wx/config.h" // for wxExpandEnvVars #include "wx/dynlib.h" #include "wx/dir.h" #include "wx/longlong.h" #if defined(__WIN32__) && defined(__MINGW32__) #include "wx/msw/gccpriv.h" #endif #ifdef __WINDOWS__ #include "wx/msw/private.h" #include "wx/msw/wrapshl.h" // for CLSID_ShellLink #include "wx/msw/missing.h" #include "wx/msw/ole/oleutils.h" #endif #if defined(__WXMAC__) #include "wx/osx/private.h" // includes mac headers #endif // utime() is POSIX so should normally be available on all Unices #ifdef __UNIX_LIKE__ #include #include #include #include #endif #ifdef __DJGPP__ #include #endif #ifdef __WATCOMC__ #include #include #include #endif #ifdef __VISAGECPP__ #ifndef MAX_PATH #define MAX_PATH 256 #endif #endif #ifdef __EMX__ #include #define MAX_PATH _MAX_PATH #endif #ifndef S_ISREG #define S_ISREG(mode) ((mode) & S_IFREG) #endif #ifndef S_ISDIR #define S_ISDIR(mode) ((mode) & S_IFDIR) #endif #if wxUSE_LONGLONG extern const wxULongLong wxInvalidSize = (unsigned)-1; #endif // wxUSE_LONGLONG namespace { // ---------------------------------------------------------------------------- // private classes // ---------------------------------------------------------------------------- // small helper class which opens and closes the file - we use it just to get // a file handle for the given file name to pass it to some Win32 API function #if defined(__WIN32__) && !defined(__WXMICROWIN__) class wxFileHandle { public: enum OpenMode { ReadAttr, WriteAttr }; wxFileHandle(const wxString& filename, OpenMode mode, int flags = 0) { // be careful and use FILE_{READ,WRITE}_ATTRIBUTES here instead of the // usual GENERIC_{READ,WRITE} as we don't want the file access time to // be changed when we open it because this class is used for setting // access time (see #10567) m_hFile = ::CreateFile ( filename.t_str(), // name mode == ReadAttr ? FILE_READ_ATTRIBUTES // access mask : FILE_WRITE_ATTRIBUTES, FILE_SHARE_READ | // sharing mode FILE_SHARE_WRITE, // (allow everything) NULL, // no secutity attr OPEN_EXISTING, // creation disposition flags, // flags NULL // no template file ); if ( m_hFile == INVALID_HANDLE_VALUE ) { if ( mode == ReadAttr ) { wxLogSysError(_("Failed to open '%s' for reading"), filename.c_str()); } else { wxLogSysError(_("Failed to open '%s' for writing"), filename.c_str()); } } } ~wxFileHandle() { if ( m_hFile != INVALID_HANDLE_VALUE ) { if ( !::CloseHandle(m_hFile) ) { wxLogSysError(_("Failed to close file handle")); } } } // return true only if the file could be opened successfully bool IsOk() const { return m_hFile != INVALID_HANDLE_VALUE; } // get the handle operator HANDLE() const { return m_hFile; } private: HANDLE m_hFile; }; #endif // __WIN32__ // ---------------------------------------------------------------------------- // private functions // ---------------------------------------------------------------------------- #if wxUSE_DATETIME && defined(__WIN32__) && !defined(__WXMICROWIN__) // Convert between wxDateTime and FILETIME which is a 64-bit value representing // the number of 100-nanosecond intervals since January 1, 1601 UTC. // // This is the offset between FILETIME epoch and the Unix/wxDateTime Epoch. static wxInt64 EPOCH_OFFSET_IN_MSEC = wxLL(11644473600000); static void ConvertFileTimeToWx(wxDateTime *dt, const FILETIME &ft) { wxLongLong t(ft.dwHighDateTime, ft.dwLowDateTime); t /= 10000; // Convert hundreds of nanoseconds to milliseconds. t -= EPOCH_OFFSET_IN_MSEC; *dt = wxDateTime(t); } static void ConvertWxToFileTime(FILETIME *ft, const wxDateTime& dt) { // Undo the conversions above. wxLongLong t(dt.GetValue()); t += EPOCH_OFFSET_IN_MSEC; t *= 10000; ft->dwHighDateTime = t.GetHi(); ft->dwLowDateTime = t.GetLo(); } #endif // wxUSE_DATETIME && __WIN32__ // return a string with the volume par static wxString wxGetVolumeString(const wxString& volume, wxPathFormat format) { wxString path; if ( !volume.empty() ) { format = wxFileName::GetFormat(format); // Special Windows UNC paths hack, part 2: undo what we did in // SplitPath() and make an UNC path if we have a drive which is not a // single letter (hopefully the network shares can't be one letter only // although I didn't find any authoritative docs on this) if ( format == wxPATH_DOS && volume.length() > 1 ) { // We also have to check for Windows unique volume names here and // return it with '\\?\' prepended to it if ( wxFileName::IsMSWUniqueVolumeNamePath("\\\\?\\" + volume + "\\", format) ) { path << "\\\\?\\" << volume; } else { // it must be a UNC path path << wxFILE_SEP_PATH_DOS << wxFILE_SEP_PATH_DOS << volume; } } else if ( format == wxPATH_DOS || format == wxPATH_VMS ) { path << volume << wxFileName::GetVolumeSeparator(format); } // else ignore } return path; } // return true if the character is a DOS path separator i.e. either a slash or // a backslash inline bool IsDOSPathSep(wxUniChar ch) { return ch == wxFILE_SEP_PATH_DOS || ch == wxFILE_SEP_PATH_UNIX; } // return true if the format used is the DOS/Windows one and the string looks // like a UNC path static bool IsUNCPath(const wxString& path, wxPathFormat format) { return format == wxPATH_DOS && path.length() >= 4 && // "\\a" can't be a UNC path IsDOSPathSep(path[0u]) && IsDOSPathSep(path[1u]) && !IsDOSPathSep(path[2u]); } // Under Unix-ish systems (basically everything except Windows but we can't // just test for non-__WIN32__ because Cygwin defines it, yet we want to use // lstat() under it, so test for all the rest explicitly) we may work either // with the file itself or its target if it's a symbolic link and we should // dereference it, as determined by wxFileName::ShouldFollowLink() and the // absence of the wxFILE_EXISTS_NO_FOLLOW flag. StatAny() can be used to stat // the appropriate file with an extra twist that it also works when there is no // wxFileName object at all, as is the case in static methods. #if defined(__UNIX_LIKE__) || defined(__WXMAC__) || defined(__OS2__) || (defined(__DOS__) && defined(__WATCOMC__)) #define wxHAVE_LSTAT #endif #ifdef wxHAVE_LSTAT // Private implementation, don't call directly, use one of the overloads below. bool DoStatAny(wxStructStat& st, wxString path, bool dereference) { // We need to remove any trailing slashes from the path because they could // interfere with the symlink following decision: even if we use lstat(), // it would still follow the symlink if we pass it a path with a slash at // the end because the symlink resolution would happen while following the // path and not for the last path element itself. while ( wxEndsWithPathSeparator(path) ) { const size_t posLast = path.length() - 1; if ( !posLast ) { // Don't turn "/" into empty string. break; } path.erase(posLast); } int ret = dereference ? wxStat(path, &st) : wxLstat(path, &st); return ret == 0; } // Overloads to use for a case when we don't have wxFileName object and when we // do have one. inline bool StatAny(wxStructStat& st, const wxString& path, int flags) { return DoStatAny(st, path, !(flags & wxFILE_EXISTS_NO_FOLLOW)); } inline bool StatAny(wxStructStat& st, const wxFileName& fn) { return DoStatAny(st, fn.GetFullPath(), fn.ShouldFollowLink()); } #endif // wxHAVE_LSTAT // ---------------------------------------------------------------------------- // private constants // ---------------------------------------------------------------------------- // length of \\?\Volume{xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx}\ string static const size_t wxMSWUniqueVolumePrefixLength = 49; } // anonymous namespace // ============================================================================ // implementation // ============================================================================ // ---------------------------------------------------------------------------- // wxFileName construction // ---------------------------------------------------------------------------- void wxFileName::Assign( const wxFileName &filepath ) { m_volume = filepath.GetVolume(); m_dirs = filepath.GetDirs(); m_name = filepath.GetName(); m_ext = filepath.GetExt(); m_relative = filepath.m_relative; m_hasExt = filepath.m_hasExt; m_dontFollowLinks = filepath.m_dontFollowLinks; } void wxFileName::Assign(const wxString& volume, const wxString& path, const wxString& name, const wxString& ext, bool hasExt, wxPathFormat format) { // we should ignore paths which look like UNC shares because we already // have the volume here and the UNC notation (\\server\path) is only valid // for paths which don't start with a volume, so prevent SetPath() from // recognizing "\\foo\bar" in "c:\\foo\bar" as an UNC path // // note also that this is a rather ugly way to do what we want (passing // some kind of flag telling to ignore UNC paths to SetPath() would be // better) but this is the safest thing to do to avoid breaking backwards // compatibility in 2.8 if ( IsUNCPath(path, format) ) { // remove one of the 2 leading backslashes to ensure that it's not // recognized as an UNC path by SetPath() wxString pathNonUNC(path, 1, wxString::npos); SetPath(pathNonUNC, format); } else // no UNC complications { SetPath(path, format); } m_volume = volume; m_ext = ext; m_name = name; m_hasExt = hasExt; } void wxFileName::SetPath( const wxString& pathOrig, wxPathFormat format ) { m_dirs.Clear(); if ( pathOrig.empty() ) { // no path at all m_relative = true; return; } format = GetFormat( format ); // 0) deal with possible volume part first wxString volume, path; SplitVolume(pathOrig, &volume, &path, format); if ( !volume.empty() ) { m_relative = false; SetVolume(volume); } // 1) Determine if the path is relative or absolute. if ( path.empty() ) { // we had only the volume return; } wxChar leadingChar = path[0u]; switch (format) { case wxPATH_MAC: m_relative = leadingChar == wxT(':'); // We then remove a leading ":". The reason is in our // storage form for relative paths: // ":dir:file.txt" actually means "./dir/file.txt" in // DOS notation and should get stored as // (relative) (dir) (file.txt) // "::dir:file.txt" actually means "../dir/file.txt" // stored as (relative) (..) (dir) (file.txt) // This is important only for the Mac as an empty dir // actually means , whereas under DOS, double // slashes can be ignored: "\\\\" is the same as "\\". if (m_relative) path.erase( 0, 1 ); break; case wxPATH_VMS: // TODO: what is the relative path format here? m_relative = false; break; default: wxFAIL_MSG( wxT("Unknown path format") ); // !! Fall through !! case wxPATH_UNIX: m_relative = leadingChar != wxT('/'); break; case wxPATH_DOS: m_relative = !IsPathSeparator(leadingChar, format); break; } // 2) Break up the path into its members. If the original path // was just "/" or "\\", m_dirs will be empty. We know from // the m_relative field, if this means "nothing" or "root dir". wxStringTokenizer tn( path, GetPathSeparators(format) ); while ( tn.HasMoreTokens() ) { wxString token = tn.GetNextToken(); // Remove empty token under DOS and Unix, interpret them // as .. under Mac. if (token.empty()) { if (format == wxPATH_MAC) m_dirs.Add( wxT("..") ); // else ignore } else { m_dirs.Add( token ); } } } void wxFileName::Assign(const wxString& fullpath, wxPathFormat format) { wxString volume, path, name, ext; bool hasExt; SplitPath(fullpath, &volume, &path, &name, &ext, &hasExt, format); Assign(volume, path, name, ext, hasExt, format); } void wxFileName::Assign(const wxString& fullpathOrig, const wxString& fullname, wxPathFormat format) { // always recognize fullpath as directory, even if it doesn't end with a // slash wxString fullpath = fullpathOrig; if ( !fullpath.empty() && !wxEndsWithPathSeparator(fullpath) ) { fullpath += GetPathSeparator(format); } wxString volume, path, name, ext; bool hasExt; // do some consistency checks: the name should be really just the filename // and the path should be really just a path wxString volDummy, pathDummy, nameDummy, extDummy; SplitPath(fullname, &volDummy, &pathDummy, &name, &ext, &hasExt, format); wxASSERT_MSG( volDummy.empty() && pathDummy.empty(), wxT("the file name shouldn't contain the path") ); SplitPath(fullpath, &volume, &path, &nameDummy, &extDummy, format); #ifndef __VMS // This test makes no sense on an OpenVMS system. wxASSERT_MSG( nameDummy.empty() && extDummy.empty(), wxT("the path shouldn't contain file name nor extension") ); #endif Assign(volume, path, name, ext, hasExt, format); } void wxFileName::Assign(const wxString& pathOrig, const wxString& name, const wxString& ext, wxPathFormat format) { wxString volume, path; SplitVolume(pathOrig, &volume, &path, format); Assign(volume, path, name, ext, format); } void wxFileName::AssignDir(const wxString& dir, wxPathFormat format) { Assign(dir, wxEmptyString, format); } void wxFileName::Clear() { m_dirs.clear(); m_volume.clear(); m_name.clear(); m_ext.clear(); // we don't have any absolute path for now m_relative = true; // nor any extension m_hasExt = false; // follow symlinks by default m_dontFollowLinks = false; } /* static */ wxFileName wxFileName::FileName(const wxString& file, wxPathFormat format) { return wxFileName(file, format); } /* static */ wxFileName wxFileName::DirName(const wxString& dir, wxPathFormat format) { wxFileName fn; fn.AssignDir(dir, format); return fn; } // ---------------------------------------------------------------------------- // existence tests // ---------------------------------------------------------------------------- namespace { #if defined(__WINDOWS__) && !defined(__WXMICROWIN__) void RemoveTrailingSeparatorsFromPath(wxString& strPath) { // Windows fails to find directory named "c:\dir\" even if "c:\dir" exists, // so remove all trailing backslashes from the path - but don't do this for // the paths "d:\" (which are different from "d:"), for just "\" or for // windows unique volume names ("\\?\Volume{GUID}\") while ( wxEndsWithPathSeparator( strPath ) ) { size_t len = strPath.length(); if ( len == 1 || (len == 3 && strPath[len - 2] == wxT(':')) || (len == wxMSWUniqueVolumePrefixLength && wxFileName::IsMSWUniqueVolumeNamePath(strPath))) { break; } strPath.Truncate(len - 1); } } #endif // __WINDOWS__ || __OS2__ bool wxFileSystemObjectExists(const wxString& path, int flags) { // Should the existence of file/directory with this name be accepted, i.e. // result in the true return value from this function? const bool acceptFile = (flags & wxFILE_EXISTS_REGULAR) != 0; const bool acceptDir = (flags & wxFILE_EXISTS_DIR) != 0; wxString strPath(path); #if defined(__WINDOWS__) && !defined(__WXMICROWIN__) if ( acceptDir ) { // Ensure that the path doesn't have any trailing separators when // checking for directories. RemoveTrailingSeparatorsFromPath(strPath); } // we must use GetFileAttributes() instead of the ANSI C functions because // it can cope with network (UNC) paths unlike them DWORD ret = ::GetFileAttributes(strPath.t_str()); if ( ret == INVALID_FILE_ATTRIBUTES ) return false; if ( ret & FILE_ATTRIBUTE_DIRECTORY ) return acceptDir; // Anything else must be a file (perhaps we should check for // FILE_ATTRIBUTE_REPARSE_POINT?) return acceptFile; #elif defined(__OS2__) if ( acceptDir ) { // OS/2 can't handle "d:", it wants either "d:\" or "d:." if (strPath.length() == 2 && strPath[1u] == wxT(':')) strPath << wxT('.'); } FILESTATUS3 Info = {{0}}; APIRET rc = ::DosQueryPathInfo((PSZ)(WXSTRINGCAST strPath), FIL_STANDARD, (void*) &Info, sizeof(FILESTATUS3)); if ( rc == NO_ERROR ) { if ( Info.attrFile & FILE_DIRECTORY ) return acceptDir; else return acceptFile; } // We consider that the path must exist if we get a sharing violation for // it but we don't know what is it in this case. if ( rc == ERROR_SHARING_VIOLATION ) return flags & wxFILE_EXISTS_ANY; // Any other error (usually ERROR_PATH_NOT_FOUND), means there is nothing // there. return false; #else // Non-MSW, non-OS/2 wxStructStat st; if ( !StatAny(st, strPath, flags) ) return false; if ( S_ISREG(st.st_mode) ) return acceptFile; if ( S_ISDIR(st.st_mode) ) return acceptDir; if ( S_ISLNK(st.st_mode) ) { // Take care to not test for "!= 0" here as this would erroneously // return true if only wxFILE_EXISTS_NO_FOLLOW, which is part of // wxFILE_EXISTS_SYMLINK, is set too. return (flags & wxFILE_EXISTS_SYMLINK) == wxFILE_EXISTS_SYMLINK; } if ( S_ISBLK(st.st_mode) || S_ISCHR(st.st_mode) ) return (flags & wxFILE_EXISTS_DEVICE) != 0; if ( S_ISFIFO(st.st_mode) ) return (flags & wxFILE_EXISTS_FIFO) != 0; if ( S_ISSOCK(st.st_mode) ) return (flags & wxFILE_EXISTS_SOCKET) != 0; return flags & wxFILE_EXISTS_ANY; #endif // Platforms } } // anonymous namespace bool wxFileName::FileExists() const { int flags = wxFILE_EXISTS_REGULAR; if ( !ShouldFollowLink() ) flags |= wxFILE_EXISTS_NO_FOLLOW; return wxFileSystemObjectExists(GetFullPath(), flags); } /* static */ bool wxFileName::FileExists( const wxString &filePath ) { return wxFileSystemObjectExists(filePath, wxFILE_EXISTS_REGULAR); } bool wxFileName::DirExists() const { int flags = wxFILE_EXISTS_DIR; if ( !ShouldFollowLink() ) flags |= wxFILE_EXISTS_NO_FOLLOW; return Exists(GetPath(), flags); } /* static */ bool wxFileName::DirExists( const wxString &dirPath ) { return wxFileSystemObjectExists(dirPath, wxFILE_EXISTS_DIR); } bool wxFileName::Exists(int flags) const { // Notice that wxFILE_EXISTS_NO_FOLLOW may be specified in the flags even // if our DontFollowLink() hadn't been called and we do honour it then. But // if the user took the care of calling DontFollowLink(), it is always // taken into account. if ( !ShouldFollowLink() ) flags |= wxFILE_EXISTS_NO_FOLLOW; return wxFileSystemObjectExists(GetFullPath(), flags); } /* static */ bool wxFileName::Exists(const wxString& path, int flags) { return wxFileSystemObjectExists(path, flags); } // ---------------------------------------------------------------------------- // CWD and HOME stuff // ---------------------------------------------------------------------------- void wxFileName::AssignCwd(const wxString& volume) { AssignDir(wxFileName::GetCwd(volume)); } /* static */ wxString wxFileName::GetCwd(const wxString& volume) { // if we have the volume, we must get the current directory on this drive // and to do this we have to chdir to this volume - at least under Windows, // I don't know how to get the current drive on another volume elsewhere // (TODO) wxString cwdOld; if ( !volume.empty() ) { cwdOld = wxGetCwd(); SetCwd(volume + GetVolumeSeparator()); } wxString cwd = ::wxGetCwd(); if ( !volume.empty() ) { SetCwd(cwdOld); } return cwd; } bool wxFileName::SetCwd() const { return wxFileName::SetCwd( GetPath() ); } bool wxFileName::SetCwd( const wxString &cwd ) { return ::wxSetWorkingDirectory( cwd ); } void wxFileName::AssignHomeDir() { AssignDir(wxFileName::GetHomeDir()); } wxString wxFileName::GetHomeDir() { return ::wxGetHomeDir(); } // ---------------------------------------------------------------------------- // CreateTempFileName // ---------------------------------------------------------------------------- #if wxUSE_FILE || wxUSE_FFILE #if !defined wx_fdopen && defined HAVE_FDOPEN #define wx_fdopen fdopen #endif // NB: GetTempFileName() under Windows creates the file, so using // O_EXCL there would fail #ifdef __WINDOWS__ #define wxOPEN_EXCL 0 #else #define wxOPEN_EXCL O_EXCL #endif #ifdef wxOpenOSFHandle #define WX_HAVE_DELETE_ON_CLOSE // On Windows create a file with the FILE_FLAGS_DELETE_ON_CLOSE flags. // static int wxOpenWithDeleteOnClose(const wxString& filename) { DWORD access = GENERIC_READ | GENERIC_WRITE; DWORD disposition = OPEN_ALWAYS; DWORD attributes = FILE_ATTRIBUTE_TEMPORARY | FILE_FLAG_DELETE_ON_CLOSE; HANDLE h = ::CreateFile(filename.t_str(), access, 0, NULL, disposition, attributes, NULL); return wxOpenOSFHandle(h, wxO_BINARY); } #endif // wxOpenOSFHandle // Helper to open the file // static int wxTempOpen(const wxString& path, bool *deleteOnClose) { #ifdef WX_HAVE_DELETE_ON_CLOSE if (*deleteOnClose) return wxOpenWithDeleteOnClose(path); #endif *deleteOnClose = false; return wxOpen(path, wxO_BINARY | O_RDWR | O_CREAT | wxOPEN_EXCL, 0600); } #if wxUSE_FFILE // Helper to open the file and attach it to the wxFFile // static bool wxTempOpen(wxFFile *file, const wxString& path, bool *deleteOnClose) { #ifndef wx_fdopen *deleteOnClose = false; return file->Open(path, wxT("w+b")); #else // wx_fdopen int fd = wxTempOpen(path, deleteOnClose); if (fd == -1) return false; file->Attach(wx_fdopen(fd, "w+b"), path); return file->IsOpened(); #endif // wx_fdopen } #endif // wxUSE_FFILE #if !wxUSE_FILE #define WXFILEARGS(x, y) y #elif !wxUSE_FFILE #define WXFILEARGS(x, y) x #else #define WXFILEARGS(x, y) x, y #endif // Implementation of wxFileName::CreateTempFileName(). // static wxString wxCreateTempImpl( const wxString& prefix, WXFILEARGS(wxFile *fileTemp, wxFFile *ffileTemp), bool *deleteOnClose = NULL) { #if wxUSE_FILE && wxUSE_FFILE wxASSERT(fileTemp == NULL || ffileTemp == NULL); #endif wxString path, dir, name; bool wantDeleteOnClose = false; if (deleteOnClose) { // set the result to false initially wantDeleteOnClose = *deleteOnClose; *deleteOnClose = false; } else { // easier if it alwasys points to something deleteOnClose = &wantDeleteOnClose; } // use the directory specified by the prefix wxFileName::SplitPath(prefix, &dir, &name, NULL /* extension */); if (dir.empty()) { dir = wxFileName::GetTempDir(); } #if defined(__WXWINCE__) path = dir + wxT("\\") + name; int i = 1; while (wxFileName::FileExists(path)) { path = dir + wxT("\\") + name ; path << i; i ++; } #elif defined(__WINDOWS__) && !defined(__WXMICROWIN__) if (!::GetTempFileName(dir.t_str(), name.t_str(), 0, wxStringBuffer(path, MAX_PATH + 1))) { wxLogLastError(wxT("GetTempFileName")); path.clear(); } #else // !Windows path = dir; if ( !wxEndsWithPathSeparator(dir) && (name.empty() || !wxIsPathSeparator(name[0u])) ) { path += wxFILE_SEP_PATH; } path += name; #if defined(HAVE_MKSTEMP) // scratch space for mkstemp() path += wxT("XXXXXX"); // we need to copy the path to the buffer in which mkstemp() can modify it wxCharBuffer buf(path.fn_str()); // cast is safe because the string length doesn't change int fdTemp = mkstemp( (char*)(const char*) buf ); if ( fdTemp == -1 ) { // this might be not necessary as mkstemp() on most systems should have // already done it but it doesn't hurt neither... path.clear(); } else // mkstemp() succeeded { path = wxConvFile.cMB2WX( (const char*) buf ); #if wxUSE_FILE // avoid leaking the fd if ( fileTemp ) { fileTemp->Attach(fdTemp); } else #endif #if wxUSE_FFILE if ( ffileTemp ) { #ifdef wx_fdopen ffileTemp->Attach(wx_fdopen(fdTemp, "r+b"), path); #else ffileTemp->Open(path, wxT("r+b")); close(fdTemp); #endif } else #endif { close(fdTemp); } } #else // !HAVE_MKSTEMP #ifdef HAVE_MKTEMP // same as above path += wxT("XXXXXX"); wxCharBuffer buf = wxConvFile.cWX2MB( path ); if ( !mktemp( (char*)(const char*) buf ) ) { path.clear(); } else { path = wxConvFile.cMB2WX( (const char*) buf ); } #else // !HAVE_MKTEMP (includes __DOS__) // generate the unique file name ourselves #if !defined(__DOS__) path << (unsigned int)getpid(); #endif wxString pathTry; static const size_t numTries = 1000; for ( size_t n = 0; n < numTries; n++ ) { // 3 hex digits is enough for numTries == 1000 < 4096 pathTry = path + wxString::Format(wxT("%.03x"), (unsigned int) n); if ( !wxFileName::FileExists(pathTry) ) { break; } pathTry.clear(); } path = pathTry; #endif // HAVE_MKTEMP/!HAVE_MKTEMP #endif // HAVE_MKSTEMP/!HAVE_MKSTEMP #endif // Windows/!Windows if ( path.empty() ) { wxLogSysError(_("Failed to create a temporary file name")); } else { bool ok = true; // open the file - of course, there is a race condition here, this is // why we always prefer using mkstemp()... #if wxUSE_FILE if ( fileTemp && !fileTemp->IsOpened() ) { *deleteOnClose = wantDeleteOnClose; int fd = wxTempOpen(path, deleteOnClose); if (fd != -1) fileTemp->Attach(fd); else ok = false; } #endif #if wxUSE_FFILE if ( ffileTemp && !ffileTemp->IsOpened() ) { *deleteOnClose = wantDeleteOnClose; ok = wxTempOpen(ffileTemp, path, deleteOnClose); } #endif if ( !ok ) { // FIXME: If !ok here should we loop and try again with another // file name? That is the standard recourse if open(O_EXCL) // fails, though of course it should be protected against // possible infinite looping too. wxLogError(_("Failed to open temporary file.")); path.clear(); } } return path; } static bool wxCreateTempImpl( const wxString& prefix, WXFILEARGS(wxFile *fileTemp, wxFFile *ffileTemp), wxString *name) { bool deleteOnClose = true; *name = wxCreateTempImpl(prefix, WXFILEARGS(fileTemp, ffileTemp), &deleteOnClose); bool ok = !name->empty(); if (deleteOnClose) name->clear(); #ifdef __UNIX__ else if (ok && wxRemoveFile(*name)) name->clear(); #endif return ok; } static void wxAssignTempImpl( wxFileName *fn, const wxString& prefix, WXFILEARGS(wxFile *fileTemp, wxFFile *ffileTemp)) { wxString tempname; tempname = wxCreateTempImpl(prefix, WXFILEARGS(fileTemp, ffileTemp)); if ( tempname.empty() ) { // error, failed to get temp file name fn->Clear(); } else // ok { fn->Assign(tempname); } } void wxFileName::AssignTempFileName(const wxString& prefix) { wxAssignTempImpl(this, prefix, WXFILEARGS(NULL, NULL)); } /* static */ wxString wxFileName::CreateTempFileName(const wxString& prefix) { return wxCreateTempImpl(prefix, WXFILEARGS(NULL, NULL)); } #endif // wxUSE_FILE || wxUSE_FFILE #if wxUSE_FILE wxString wxCreateTempFileName(const wxString& prefix, wxFile *fileTemp, bool *deleteOnClose) { return wxCreateTempImpl(prefix, WXFILEARGS(fileTemp, NULL), deleteOnClose); } bool wxCreateTempFile(const wxString& prefix, wxFile *fileTemp, wxString *name) { return wxCreateTempImpl(prefix, WXFILEARGS(fileTemp, NULL), name); } void wxFileName::AssignTempFileName(const wxString& prefix, wxFile *fileTemp) { wxAssignTempImpl(this, prefix, WXFILEARGS(fileTemp, NULL)); } /* static */ wxString wxFileName::CreateTempFileName(const wxString& prefix, wxFile *fileTemp) { return wxCreateTempFileName(prefix, fileTemp); } #endif // wxUSE_FILE #if wxUSE_FFILE wxString wxCreateTempFileName(const wxString& prefix, wxFFile *fileTemp, bool *deleteOnClose) { return wxCreateTempImpl(prefix, WXFILEARGS(NULL, fileTemp), deleteOnClose); } bool wxCreateTempFile(const wxString& prefix, wxFFile *fileTemp, wxString *name) { return wxCreateTempImpl(prefix, WXFILEARGS(NULL, fileTemp), name); } void wxFileName::AssignTempFileName(const wxString& prefix, wxFFile *fileTemp) { wxAssignTempImpl(this, prefix, WXFILEARGS(NULL, fileTemp)); } /* static */ wxString wxFileName::CreateTempFileName(const wxString& prefix, wxFFile *fileTemp) { return wxCreateTempFileName(prefix, fileTemp); } #endif // wxUSE_FFILE // ---------------------------------------------------------------------------- // directory operations // ---------------------------------------------------------------------------- // helper of GetTempDir(): check if the given directory exists and return it if // it does or an empty string otherwise namespace { wxString CheckIfDirExists(const wxString& dir) { return wxFileName::DirExists(dir) ? dir : wxString(); } } // anonymous namespace wxString wxFileName::GetTempDir() { // first try getting it from environment: this allows overriding the values // used by default if the user wants to create temporary files in another // directory wxString dir = CheckIfDirExists(wxGetenv("TMPDIR")); if ( dir.empty() ) { dir = CheckIfDirExists(wxGetenv("TMP")); if ( dir.empty() ) dir = CheckIfDirExists(wxGetenv("TEMP")); } // if no environment variables are set, use the system default if ( dir.empty() ) { #if defined(__WXWINCE__) dir = CheckIfDirExists(wxT("\\temp")); #elif defined(__WINDOWS__) && !defined(__WXMICROWIN__) if ( !::GetTempPath(MAX_PATH, wxStringBuffer(dir, MAX_PATH + 1)) ) { wxLogLastError(wxT("GetTempPath")); } #elif defined(__WXMAC__) && wxOSX_USE_CARBON dir = wxMacFindFolderNoSeparator(short(kOnSystemDisk), kTemporaryFolderType, kCreateFolder); #endif // systems with native way } else // we got directory from an environment variable { // remove any trailing path separators, we don't want to ever return // them from this function for consistency const size_t lastNonSep = dir.find_last_not_of(GetPathSeparators()); if ( lastNonSep == wxString::npos ) { // the string consists entirely of separators, leave only one dir = GetPathSeparator(); } else { dir.erase(lastNonSep + 1); } } // fall back to hard coded value if ( dir.empty() ) { #ifdef __UNIX_LIKE__ dir = CheckIfDirExists("/tmp"); if ( dir.empty() ) #endif // __UNIX_LIKE__ dir = "."; } return dir; } bool wxFileName::Mkdir( int perm, int flags ) const { return wxFileName::Mkdir(GetPath(), perm, flags); } bool wxFileName::Mkdir( const wxString& dir, int perm, int flags ) { if ( flags & wxPATH_MKDIR_FULL ) { // split the path in components wxFileName filename; filename.AssignDir(dir); wxString currPath; if ( filename.HasVolume()) { currPath << wxGetVolumeString(filename.GetVolume(), wxPATH_NATIVE); } wxArrayString dirs = filename.GetDirs(); size_t count = dirs.GetCount(); for ( size_t i = 0; i < count; i++ ) { if ( i > 0 || filename.IsAbsolute() ) currPath += wxFILE_SEP_PATH; currPath += dirs[i]; if (!DirExists(currPath)) { if (!wxMkdir(currPath, perm)) { // no need to try creating further directories return false; } } } return true; } return ::wxMkdir( dir, perm ); } bool wxFileName::Rmdir(int flags) const { return wxFileName::Rmdir( GetPath(), flags ); } bool wxFileName::Rmdir(const wxString& dir, int flags) { #ifdef __WINDOWS__ if ( flags & wxPATH_RMDIR_RECURSIVE ) { // SHFileOperation needs double null termination string // but without separator at the end of the path wxString path(dir); if ( path.Last() == wxFILE_SEP_PATH ) path.RemoveLast(); path += wxT('\0'); SHFILEOPSTRUCT fileop; wxZeroMemory(fileop); fileop.wFunc = FO_DELETE; fileop.pFrom = path.t_str(); fileop.fFlags = FOF_SILENT | FOF_NOCONFIRMATION; #ifndef __WXWINCE__ // FOF_NOERRORUI is not defined in WinCE fileop.fFlags |= FOF_NOERRORUI; #endif int ret = SHFileOperation(&fileop); if ( ret != 0 ) { // SHFileOperation may return non-Win32 error codes, so the error // message can be incorrect wxLogApiError(wxT("SHFileOperation"), ret); return false; } return true; } else if ( flags & wxPATH_RMDIR_FULL ) #else // !__WINDOWS__ if ( flags != 0 ) // wxPATH_RMDIR_FULL or wxPATH_RMDIR_RECURSIVE #endif // !__WINDOWS__ { #ifndef __WINDOWS__ if ( flags & wxPATH_RMDIR_RECURSIVE ) { // When deleting the tree recursively, we are supposed to delete // this directory itself even when it is a symlink -- but without // following it. Do it here as wxRmdir() would simply follow if // called for a symlink. if ( wxFileName::Exists(dir, wxFILE_EXISTS_SYMLINK) ) { return wxRemoveFile(dir); } } #endif // !__WINDOWS__ wxString path(dir); if ( path.Last() != wxFILE_SEP_PATH ) path += wxFILE_SEP_PATH; wxDir d(path); if ( !d.IsOpened() ) return false; wxString filename; // First delete all subdirectories: notice that we don't follow // symbolic links, potentially leading outside this directory, to avoid // unpleasant surprises. bool cont = d.GetFirst(&filename, wxString(), wxDIR_DIRS | wxDIR_HIDDEN | wxDIR_NO_FOLLOW); while ( cont ) { wxFileName::Rmdir(path + filename, flags); cont = d.GetNext(&filename); } #ifndef __WINDOWS__ if ( flags & wxPATH_RMDIR_RECURSIVE ) { // Delete all files too and, for the same reasons as above, don't // follow symlinks which could refer to the files outside of this // directory and just delete the symlinks themselves. cont = d.GetFirst(&filename, wxString(), wxDIR_FILES | wxDIR_HIDDEN | wxDIR_NO_FOLLOW); while ( cont ) { ::wxRemoveFile(path + filename); cont = d.GetNext(&filename); } } #endif // !__WINDOWS__ } return ::wxRmdir(dir); } // ---------------------------------------------------------------------------- // path normalization // ---------------------------------------------------------------------------- bool wxFileName::Normalize(int flags, const wxString& cwd, wxPathFormat format) { // deal with env vars renaming first as this may seriously change the path if ( flags & wxPATH_NORM_ENV_VARS ) { wxString pathOrig = GetFullPath(format); wxString path = wxExpandEnvVars(pathOrig); if ( path != pathOrig ) { Assign(path); } } // the existing path components wxArrayString dirs = GetDirs(); // the path to prepend in front to make the path absolute wxFileName curDir; format = GetFormat(format); // set up the directory to use for making the path absolute later if ( (flags & wxPATH_NORM_ABSOLUTE) && !IsAbsolute(format) ) { if ( cwd.empty() ) { curDir.AssignCwd(GetVolume()); } else // cwd provided { curDir.AssignDir(cwd); } } // handle ~ stuff under Unix only if ( (format == wxPATH_UNIX) && (flags & wxPATH_NORM_TILDE) && m_relative ) { if ( !dirs.IsEmpty() ) { wxString dir = dirs[0u]; if ( !dir.empty() && dir[0u] == wxT('~') ) { // to make the path absolute use the home directory curDir.AssignDir(wxGetUserHome(dir.c_str() + 1)); dirs.RemoveAt(0u); } } } // transform relative path into abs one if ( curDir.IsOk() ) { // this path may be relative because it doesn't have the volume name // and still have m_relative=true; in this case we shouldn't modify // our directory components but just set the current volume if ( !HasVolume() && curDir.HasVolume() ) { SetVolume(curDir.GetVolume()); if ( !m_relative ) { // yes, it was the case - we don't need curDir then curDir.Clear(); } } // finally, prepend curDir to the dirs array wxArrayString dirsNew = curDir.GetDirs(); WX_PREPEND_ARRAY(dirs, dirsNew); // if we used e.g. tilde expansion previously and wxGetUserHome didn't // return for some reason an absolute path, then curDir maybe not be absolute! if ( !curDir.m_relative ) { // we have prepended an absolute path and thus we are now an absolute // file name too m_relative = false; } // else if (flags & wxPATH_NORM_ABSOLUTE): // should we warn the user that we didn't manage to make the path absolute? } // now deal with ".", ".." and the rest m_dirs.Empty(); size_t count = dirs.GetCount(); for ( size_t n = 0; n < count; n++ ) { wxString dir = dirs[n]; if ( flags & wxPATH_NORM_DOTS ) { if ( dir == wxT(".") ) { // just ignore continue; } if ( dir == wxT("..") ) { if ( m_dirs.empty() ) { // We have more ".." than directory components so far. // Don't treat this as an error as the path could have been // entered by user so try to handle it reasonably: if the // path is absolute, just ignore the extra ".." because // "/.." is the same as "/". Otherwise, i.e. for relative // paths, keep ".." unchanged because removing it would // modify the file a relative path refers to. if ( !m_relative ) continue; } else // Normal case, go one step up. { m_dirs.pop_back(); continue; } } } m_dirs.Add(dir); } #if defined(__WIN32__) && !defined(__WXWINCE__) && wxUSE_OLE if ( (flags & wxPATH_NORM_SHORTCUT) ) { wxString filename; if (GetShortcutTarget(GetFullPath(format), filename)) { m_relative = false; Assign(filename); } } #endif #if defined(__WIN32__) if ( (flags & wxPATH_NORM_LONG) && (format == wxPATH_DOS) ) { Assign(GetLongPath()); } #endif // Win32 // Change case (this should be kept at the end of the function, to ensure // that the path doesn't change any more after we normalize its case) if ( (flags & wxPATH_NORM_CASE) && !IsCaseSensitive(format) ) { m_volume.MakeLower(); m_name.MakeLower(); m_ext.MakeLower(); // directory entries must be made lower case as well count = m_dirs.GetCount(); for ( size_t i = 0; i < count; i++ ) { m_dirs[i].MakeLower(); } } return true; } #ifndef __WXWINCE__ bool wxFileName::ReplaceEnvVariable(const wxString& envname, const wxString& replacementFmtString, wxPathFormat format) { // look into stringForm for the contents of the given environment variable wxString val; if (envname.empty() || !wxGetEnv(envname, &val)) return false; if (val.empty()) return false; wxString stringForm = GetPath(wxPATH_GET_VOLUME, format); // do not touch the file name and the extension wxString replacement = wxString::Format(replacementFmtString, envname); stringForm.Replace(val, replacement); // Now assign ourselves the modified path: Assign(stringForm, GetFullName(), format); return true; } #endif bool wxFileName::ReplaceHomeDir(wxPathFormat format) { wxString homedir = wxGetHomeDir(); if (homedir.empty()) return false; wxString stringForm = GetPath(wxPATH_GET_VOLUME, format); // do not touch the file name and the extension stringForm.Replace(homedir, "~"); // Now assign ourselves the modified path: Assign(stringForm, GetFullName(), format); return true; } // ---------------------------------------------------------------------------- // get the shortcut target // ---------------------------------------------------------------------------- // WinCE (3) doesn't have CLSID_ShellLink, IID_IShellLink definitions. // The .lnk file is a plain text file so it should be easy to // make it work. Hint from Google Groups: // "If you open up a lnk file, you'll see a // number, followed by a pound sign (#), followed by more text. The // number is the number of characters that follows the pound sign. The // characters after the pound sign are the command line (which _can_ // include arguments) to be executed. Any path (e.g. \windows\program // files\myapp.exe) that includes spaces needs to be enclosed in // quotation marks." #if defined(__WIN32__) && !defined(__WXWINCE__) && wxUSE_OLE bool wxFileName::GetShortcutTarget(const wxString& shortcutPath, wxString& targetFilename, wxString* arguments) const { wxString path, file, ext; wxFileName::SplitPath(shortcutPath, & path, & file, & ext); HRESULT hres; IShellLink* psl; bool success = false; // Assume it's not a shortcut if it doesn't end with lnk if (ext.CmpNoCase(wxT("lnk"))!=0) return false; // Ensure OLE is initialized. wxOleInitializer oleInit; // create a ShellLink object hres = CoCreateInstance(CLSID_ShellLink, NULL, CLSCTX_INPROC_SERVER, IID_IShellLink, (LPVOID*) &psl); if (SUCCEEDED(hres)) { IPersistFile* ppf; hres = psl->QueryInterface( IID_IPersistFile, (LPVOID *) &ppf); if (SUCCEEDED(hres)) { WCHAR wsz[MAX_PATH]; MultiByteToWideChar(CP_ACP, MB_PRECOMPOSED, shortcutPath.mb_str(), -1, wsz, MAX_PATH); hres = ppf->Load(wsz, 0); ppf->Release(); if (SUCCEEDED(hres)) { wxChar buf[2048]; // Wrong prototype in early versions #if defined(__MINGW32__) && !wxCHECK_W32API_VERSION(2, 2) psl->GetPath((CHAR*) buf, 2048, NULL, SLGP_UNCPRIORITY); #else psl->GetPath(buf, 2048, NULL, SLGP_UNCPRIORITY); #endif targetFilename = wxString(buf); success = (shortcutPath != targetFilename); psl->GetArguments(buf, 2048); wxString args(buf); if (!args.empty() && arguments) { *arguments = args; } } } psl->Release(); } return success; } #endif // __WIN32__ && !__WXWINCE__ // ---------------------------------------------------------------------------- // absolute/relative paths // ---------------------------------------------------------------------------- bool wxFileName::IsAbsolute(wxPathFormat format) const { // unix paths beginning with ~ are reported as being absolute if ( format == wxPATH_UNIX ) { if ( !m_dirs.IsEmpty() ) { wxString dir = m_dirs[0u]; if (!dir.empty() && dir[0u] == wxT('~')) return true; } } // if our path doesn't start with a path separator, it's not an absolute // path if ( m_relative ) return false; if ( !GetVolumeSeparator(format).empty() ) { // this format has volumes and an absolute path must have one, it's not // enough to have the full path to be an absolute file under Windows if ( GetVolume().empty() ) return false; } return true; } bool wxFileName::MakeRelativeTo(const wxString& pathBase, wxPathFormat format) { wxFileName fnBase = wxFileName::DirName(pathBase, format); // get cwd only once - small time saving wxString cwd = wxGetCwd(); // Normalize the paths but avoid changing the case or turning a shortcut // into a file that it points to. const int normFlags = wxPATH_NORM_ALL & ~(wxPATH_NORM_CASE | wxPATH_NORM_SHORTCUT); Normalize(normFlags, cwd, format); fnBase.Normalize(normFlags, cwd, format); bool withCase = IsCaseSensitive(format); // we can't do anything if the files live on different volumes if ( !GetVolume().IsSameAs(fnBase.GetVolume(), withCase) ) { // nothing done return false; } // same drive, so we don't need our volume m_volume.clear(); // remove common directories starting at the top while ( !m_dirs.IsEmpty() && !fnBase.m_dirs.IsEmpty() && m_dirs[0u].IsSameAs(fnBase.m_dirs[0u], withCase) ) { m_dirs.RemoveAt(0); fnBase.m_dirs.RemoveAt(0); } // add as many ".." as needed size_t count = fnBase.m_dirs.GetCount(); for ( size_t i = 0; i < count; i++ ) { m_dirs.Insert(wxT(".."), 0u); } switch ( GetFormat(format) ) { case wxPATH_NATIVE: case wxPATH_MAX: wxFAIL_MSG( wxS("unreachable") ); // fall through case wxPATH_UNIX: case wxPATH_DOS: // a directory made relative with respect to itself is '.' under // Unix and DOS, by definition (but we don't have to insert "./" // for the files) if ( m_dirs.IsEmpty() && IsDir() ) { m_dirs.Add(wxT('.')); } break; case wxPATH_MAC: case wxPATH_VMS: break; } m_relative = true; // we were modified return true; } // ---------------------------------------------------------------------------- // filename kind tests // ---------------------------------------------------------------------------- bool wxFileName::SameAs(const wxFileName& filepath, wxPathFormat format) const { wxFileName fn1 = *this, fn2 = filepath; // get cwd only once - small time saving wxString cwd = wxGetCwd(); fn1.Normalize(wxPATH_NORM_ALL | wxPATH_NORM_CASE, cwd, format); fn2.Normalize(wxPATH_NORM_ALL | wxPATH_NORM_CASE, cwd, format); if ( fn1.GetFullPath() == fn2.GetFullPath() ) return true; #ifdef wxHAVE_LSTAT wxStructStat st1, st2; if ( StatAny(st1, fn1) && StatAny(st2, fn2) ) { if ( st1.st_ino == st2.st_ino && st1.st_dev == st2.st_dev ) return true; } //else: It's not an error if one or both files don't exist. #endif // wxHAVE_LSTAT return false; } /* static */ bool wxFileName::IsCaseSensitive( wxPathFormat format ) { // only Unix filenames are truly case-sensitive return GetFormat(format) == wxPATH_UNIX; } /* static */ wxString wxFileName::GetForbiddenChars(wxPathFormat format) { // Inits to forbidden characters that are common to (almost) all platforms. wxString strForbiddenChars = wxT("*?"); // If asserts, wxPathFormat has been changed. In case of a new path format // addition, the following code might have to be updated. wxCOMPILE_TIME_ASSERT(wxPATH_MAX == 5, wxPathFormatChanged); switch ( GetFormat(format) ) { default : wxFAIL_MSG( wxT("Unknown path format") ); // !! Fall through !! case wxPATH_UNIX: break; case wxPATH_MAC: // On a Mac even names with * and ? are allowed (Tested with OS // 9.2.1 and OS X 10.2.5) strForbiddenChars.clear(); break; case wxPATH_DOS: strForbiddenChars += wxT("\\/:\"<>|"); break; case wxPATH_VMS: break; } return strForbiddenChars; } /* static */ wxString wxFileName::GetVolumeSeparator(wxPathFormat WXUNUSED_IN_WINCE(format)) { #ifdef __WXWINCE__ return wxEmptyString; #else wxString sepVol; if ( (GetFormat(format) == wxPATH_DOS) || (GetFormat(format) == wxPATH_VMS) ) { sepVol = wxFILE_SEP_DSK; } //else: leave empty return sepVol; #endif } /* static */ wxString wxFileName::GetPathSeparators(wxPathFormat format) { wxString seps; switch ( GetFormat(format) ) { case wxPATH_DOS: // accept both as native APIs do but put the native one first as // this is the one we use in GetFullPath() seps << wxFILE_SEP_PATH_DOS << wxFILE_SEP_PATH_UNIX; break; default: wxFAIL_MSG( wxT("Unknown wxPATH_XXX style") ); // fall through case wxPATH_UNIX: seps = wxFILE_SEP_PATH_UNIX; break; case wxPATH_MAC: seps = wxFILE_SEP_PATH_MAC; break; case wxPATH_VMS: seps = wxFILE_SEP_PATH_VMS; break; } return seps; } /* static */ wxString wxFileName::GetPathTerminators(wxPathFormat format) { format = GetFormat(format); // under VMS the end of the path is ']', not the path separator used to // separate the components return format == wxPATH_VMS ? wxString(wxT(']')) : GetPathSeparators(format); } /* static */ bool wxFileName::IsPathSeparator(wxChar ch, wxPathFormat format) { // wxString::Find() doesn't work as expected with NUL - it will always find // it, so test for it separately return ch != wxT('\0') && GetPathSeparators(format).Find(ch) != wxNOT_FOUND; } /* static */ bool wxFileName::IsMSWUniqueVolumeNamePath(const wxString& path, wxPathFormat format) { // return true if the format used is the DOS/Windows one and the string begins // with a Windows unique volume name ("\\?\Volume{guid}\") return format == wxPATH_DOS && path.length() >= wxMSWUniqueVolumePrefixLength && path.StartsWith(wxS("\\\\?\\Volume{")) && path[wxMSWUniqueVolumePrefixLength - 1] == wxFILE_SEP_PATH_DOS; } // ---------------------------------------------------------------------------- // path components manipulation // ---------------------------------------------------------------------------- /* static */ bool wxFileName::IsValidDirComponent(const wxString& dir) { if ( dir.empty() ) { wxFAIL_MSG( wxT("empty directory passed to wxFileName::InsertDir()") ); return false; } const size_t len = dir.length(); for ( size_t n = 0; n < len; n++ ) { if ( dir[n] == GetVolumeSeparator() || IsPathSeparator(dir[n]) ) { wxFAIL_MSG( wxT("invalid directory component in wxFileName") ); return false; } } return true; } bool wxFileName::AppendDir( const wxString& dir ) { if (!IsValidDirComponent(dir)) return false; m_dirs.Add(dir); return true; } void wxFileName::PrependDir( const wxString& dir ) { InsertDir(0, dir); } bool wxFileName::InsertDir(size_t before, const wxString& dir) { if (!IsValidDirComponent(dir)) return false; m_dirs.Insert(dir, before); return true; } void wxFileName::RemoveDir(size_t pos) { m_dirs.RemoveAt(pos); } // ---------------------------------------------------------------------------- // accessors // ---------------------------------------------------------------------------- void wxFileName::SetFullName(const wxString& fullname) { SplitPath(fullname, NULL /* no volume */, NULL /* no path */, &m_name, &m_ext, &m_hasExt); } wxString wxFileName::GetFullName() const { wxString fullname = m_name; if ( m_hasExt ) { fullname << wxFILE_SEP_EXT << m_ext; } return fullname; } wxString wxFileName::GetPath( int flags, wxPathFormat format ) const { format = GetFormat( format ); wxString fullpath; // return the volume with the path as well if requested if ( flags & wxPATH_GET_VOLUME ) { fullpath += wxGetVolumeString(GetVolume(), format); } // the leading character switch ( format ) { case wxPATH_MAC: if ( m_relative ) fullpath += wxFILE_SEP_PATH_MAC; break; case wxPATH_DOS: if ( !m_relative ) fullpath += wxFILE_SEP_PATH_DOS; break; default: wxFAIL_MSG( wxT("Unknown path format") ); // fall through case wxPATH_UNIX: if ( !m_relative ) { fullpath += wxFILE_SEP_PATH_UNIX; } break; case wxPATH_VMS: // no leading character here but use this place to unset // wxPATH_GET_SEPARATOR flag: under VMS it doesn't make sense // as, if I understand correctly, there should never be a dot // before the closing bracket flags &= ~wxPATH_GET_SEPARATOR; } if ( m_dirs.empty() ) { // there is nothing more return fullpath; } // then concatenate all the path components using the path separator if ( format == wxPATH_VMS ) { fullpath += wxT('['); } const size_t dirCount = m_dirs.GetCount(); for ( size_t i = 0; i < dirCount; i++ ) { switch (format) { case wxPATH_MAC: if ( m_dirs[i] == wxT(".") ) { // skip appending ':', this shouldn't be done in this // case as "::" is interpreted as ".." under Unix continue; } // convert back from ".." to nothing if ( !m_dirs[i].IsSameAs(wxT("..")) ) fullpath += m_dirs[i]; break; default: wxFAIL_MSG( wxT("Unexpected path format") ); // still fall through case wxPATH_DOS: case wxPATH_UNIX: fullpath += m_dirs[i]; break; case wxPATH_VMS: // TODO: What to do with ".." under VMS // convert back from ".." to nothing if ( !m_dirs[i].IsSameAs(wxT("..")) ) fullpath += m_dirs[i]; break; } if ( (flags & wxPATH_GET_SEPARATOR) || (i != dirCount - 1) ) fullpath += GetPathSeparator(format); } if ( format == wxPATH_VMS ) { fullpath += wxT(']'); } return fullpath; } wxString wxFileName::GetFullPath( wxPathFormat format ) const { // we already have a function to get the path wxString fullpath = GetPath(wxPATH_GET_VOLUME | wxPATH_GET_SEPARATOR, format); // now just add the file name and extension to it fullpath += GetFullName(); return fullpath; } // Return the short form of the path (returns identity on non-Windows platforms) wxString wxFileName::GetShortPath() const { wxString path(GetFullPath()); #if defined(__WINDOWS__) && defined(__WIN32__) && !defined(__WXMICROWIN__) && !defined(__WXWINCE__) DWORD sz = ::GetShortPathName(path.t_str(), NULL, 0); if ( sz != 0 ) { wxString pathOut; if ( ::GetShortPathName ( path.t_str(), wxStringBuffer(pathOut, sz), sz ) != 0 ) { return pathOut; } } #endif // Windows return path; } // Return the long form of the path (returns identity on non-Windows platforms) wxString wxFileName::GetLongPath() const { wxString pathOut, path = GetFullPath(); #if defined(__WIN32__) && !defined(__WXWINCE__) && !defined(__WXMICROWIN__) #if wxUSE_DYNLIB_CLASS typedef DWORD (WINAPI *GET_LONG_PATH_NAME)(const wxChar *, wxChar *, DWORD); // this is MT-safe as in the worst case we're going to resolve the function // twice -- but as the result is the same in both threads, it's ok static GET_LONG_PATH_NAME s_pfnGetLongPathName = NULL; if ( !s_pfnGetLongPathName ) { static bool s_triedToLoad = false; if ( !s_triedToLoad ) { s_triedToLoad = true; wxDynamicLibrary dllKernel(wxT("kernel32")); const wxChar* GetLongPathName = wxT("GetLongPathName") #if wxUSE_UNICODE wxT("W"); #else // ANSI wxT("A"); #endif // Unicode/ANSI if ( dllKernel.HasSymbol(GetLongPathName) ) { s_pfnGetLongPathName = (GET_LONG_PATH_NAME) dllKernel.GetSymbol(GetLongPathName); } // note that kernel32.dll can be unloaded, it stays in memory // anyhow as all Win32 programs link to it and so it's safe to call // GetLongPathName() even after unloading it } } if ( s_pfnGetLongPathName ) { DWORD dwSize = (*s_pfnGetLongPathName)(path.t_str(), NULL, 0); if ( dwSize > 0 ) { if ( (*s_pfnGetLongPathName) ( path.t_str(), wxStringBuffer(pathOut, dwSize), dwSize ) != 0 ) { return pathOut; } } } #endif // wxUSE_DYNLIB_CLASS // The OS didn't support GetLongPathName, or some other error. // We need to call FindFirstFile on each component in turn. WIN32_FIND_DATA findFileData; HANDLE hFind; if ( HasVolume() ) pathOut = GetVolume() + GetVolumeSeparator(wxPATH_DOS) + GetPathSeparator(wxPATH_DOS); else pathOut.clear(); wxArrayString dirs = GetDirs(); dirs.Add(GetFullName()); wxString tmpPath; size_t count = dirs.GetCount(); for ( size_t i = 0; i < count; i++ ) { const wxString& dir = dirs[i]; // We're using pathOut to collect the long-name path, but using a // temporary for appending the last path component which may be // short-name tmpPath = pathOut + dir; // We must not process "." or ".." here as they would be (unexpectedly) // replaced by the corresponding directory names so just leave them // alone // // And we can't pass a drive and root dir to FindFirstFile (VZ: why?) if ( tmpPath.empty() || dir == '.' || dir == ".." || tmpPath.Last() == GetVolumeSeparator(wxPATH_DOS) ) { tmpPath += wxFILE_SEP_PATH; pathOut = tmpPath; continue; } hFind = ::FindFirstFile(tmpPath.t_str(), &findFileData); if (hFind == INVALID_HANDLE_VALUE) { // Error: most likely reason is that path doesn't exist, so // append any unprocessed parts and return for ( i += 1; i < count; i++ ) tmpPath += wxFILE_SEP_PATH + dirs[i]; return tmpPath; } pathOut += findFileData.cFileName; if ( (i < (count-1)) ) pathOut += wxFILE_SEP_PATH; ::FindClose(hFind); } #else // !Win32 pathOut = path; #endif // Win32/!Win32 return pathOut; } wxPathFormat wxFileName::GetFormat( wxPathFormat format ) { if (format == wxPATH_NATIVE) { #if defined(__WINDOWS__) || defined(__OS2__) || defined(__DOS__) format = wxPATH_DOS; #elif defined(__VMS) format = wxPATH_VMS; #else format = wxPATH_UNIX; #endif } return format; } #ifdef wxHAS_FILESYSTEM_VOLUMES /* static */ wxString wxFileName::GetVolumeString(char drive, int flags) { wxASSERT_MSG( !(flags & ~wxPATH_GET_SEPARATOR), "invalid flag specified" ); wxString vol(drive); vol += wxFILE_SEP_DSK; if ( flags & wxPATH_GET_SEPARATOR ) vol += wxFILE_SEP_PATH; return vol; } #endif // wxHAS_FILESYSTEM_VOLUMES // ---------------------------------------------------------------------------- // path splitting function // ---------------------------------------------------------------------------- /* static */ void wxFileName::SplitVolume(const wxString& fullpathWithVolume, wxString *pstrVolume, wxString *pstrPath, wxPathFormat format) { format = GetFormat(format); wxString fullpath = fullpathWithVolume; if ( IsMSWUniqueVolumeNamePath(fullpath, format) ) { // special Windows unique volume names hack: transform // \\?\Volume{guid}\path into Volume{guid}:path // note: this check must be done before the check for UNC path // we know the last backslash from the unique volume name is located // there from IsMSWUniqueVolumeNamePath fullpath[wxMSWUniqueVolumePrefixLength - 1] = wxFILE_SEP_DSK; // paths starting with a unique volume name should always be absolute fullpath.insert(wxMSWUniqueVolumePrefixLength, 1, wxFILE_SEP_PATH_DOS); // remove the leading "\\?\" part fullpath.erase(0, 4); } else if ( IsUNCPath(fullpath, format) ) { // special Windows UNC paths hack: transform \\share\path into share:path fullpath.erase(0, 2); size_t posFirstSlash = fullpath.find_first_of(GetPathTerminators(format)); if ( posFirstSlash != wxString::npos ) { fullpath[posFirstSlash] = wxFILE_SEP_DSK; // UNC paths are always absolute, right? (FIXME) fullpath.insert(posFirstSlash + 1, 1, wxFILE_SEP_PATH_DOS); } } // We separate the volume here if ( format == wxPATH_DOS || format == wxPATH_VMS ) { wxString sepVol = GetVolumeSeparator(format); // we have to exclude the case of a colon in the very beginning of the // string as it can't be a volume separator (nor can this be a valid // DOS file name at all but we'll leave dealing with this to our caller) size_t posFirstColon = fullpath.find_first_of(sepVol); if ( posFirstColon && posFirstColon != wxString::npos ) { if ( pstrVolume ) { *pstrVolume = fullpath.Left(posFirstColon); } // remove the volume name and the separator from the full path fullpath.erase(0, posFirstColon + sepVol.length()); } } if ( pstrPath ) *pstrPath = fullpath; } /* static */ void wxFileName::SplitPath(const wxString& fullpathWithVolume, wxString *pstrVolume, wxString *pstrPath, wxString *pstrName, wxString *pstrExt, bool *hasExt, wxPathFormat format) { format = GetFormat(format); wxString fullpath; SplitVolume(fullpathWithVolume, pstrVolume, &fullpath, format); // find the positions of the last dot and last path separator in the path size_t posLastDot = fullpath.find_last_of(wxFILE_SEP_EXT); size_t posLastSlash = fullpath.find_last_of(GetPathTerminators(format)); // check whether this dot occurs at the very beginning of a path component if ( (posLastDot != wxString::npos) && (posLastDot == 0 || IsPathSeparator(fullpath[posLastDot - 1]) || (format == wxPATH_VMS && fullpath[posLastDot - 1] == wxT(']'))) ) { // dot may be (and commonly -- at least under Unix -- is) the first // character of the filename, don't treat the entire filename as // extension in this case posLastDot = wxString::npos; } // if we do have a dot and a slash, check that the dot is in the name part if ( (posLastDot != wxString::npos) && (posLastSlash != wxString::npos) && (posLastDot < posLastSlash) ) { // the dot is part of the path, not the start of the extension posLastDot = wxString::npos; } // now fill in the variables provided by user if ( pstrPath ) { if ( posLastSlash == wxString::npos ) { // no path at all pstrPath->Empty(); } else { // take everything up to the path separator but take care to make // the path equal to something like '/', not empty, for the files // immediately under root directory size_t len = posLastSlash; // this rule does not apply to mac since we do not start with colons (sep) // except for relative paths if ( !len && format != wxPATH_MAC) len++; *pstrPath = fullpath.Left(len); // special VMS hack: remove the initial bracket if ( format == wxPATH_VMS ) { if ( (*pstrPath)[0u] == wxT('[') ) pstrPath->erase(0, 1); } } } if ( pstrName ) { // take all characters starting from the one after the last slash and // up to, but excluding, the last dot size_t nStart = posLastSlash == wxString::npos ? 0 : posLastSlash + 1; size_t count; if ( posLastDot == wxString::npos ) { // take all until the end count = wxString::npos; } else if ( posLastSlash == wxString::npos ) { count = posLastDot; } else // have both dot and slash { count = posLastDot - posLastSlash - 1; } *pstrName = fullpath.Mid(nStart, count); } // finally deal with the extension here: we have an added complication that // extension may be empty (but present) as in "foo." where trailing dot // indicates the empty extension at the end -- and hence we must remember // that we have it independently of pstrExt if ( posLastDot == wxString::npos ) { // no extension if ( pstrExt ) pstrExt->clear(); if ( hasExt ) *hasExt = false; } else { // take everything after the dot if ( pstrExt ) *pstrExt = fullpath.Mid(posLastDot + 1); if ( hasExt ) *hasExt = true; } } /* static */ void wxFileName::SplitPath(const wxString& fullpath, wxString *path, wxString *name, wxString *ext, wxPathFormat format) { wxString volume; SplitPath(fullpath, &volume, path, name, ext, format); if ( path ) { path->Prepend(wxGetVolumeString(volume, format)); } } /* static */ wxString wxFileName::StripExtension(const wxString& fullpath) { wxFileName fn(fullpath); fn.SetExt(""); return fn.GetFullPath(); } // ---------------------------------------------------------------------------- // file permissions functions // ---------------------------------------------------------------------------- bool wxFileName::SetPermissions(int permissions) { // Don't do anything for a symlink but first make sure it is one. if ( m_dontFollowLinks && Exists(GetFullPath(), wxFILE_EXISTS_SYMLINK|wxFILE_EXISTS_NO_FOLLOW) ) { // Looks like changing permissions for a symlinc is only supported // on BSD where lchmod is present and correctly implemented. // http://lists.gnu.org/archive/html/bug-coreutils/2009-09/msg00268.html return false; } #ifdef __WINDOWS__ int accMode = 0; if ( permissions & (wxS_IRUSR|wxS_IRGRP|wxS_IROTH) ) accMode = _S_IREAD; if ( permissions & (wxS_IWUSR|wxS_IWGRP|wxS_IWOTH) ) accMode |= _S_IWRITE; permissions = accMode; #endif // __WINDOWS__ return wxChmod(GetFullPath(), permissions) == 0; } // ---------------------------------------------------------------------------- // time functions // ---------------------------------------------------------------------------- #if wxUSE_DATETIME bool wxFileName::SetTimes(const wxDateTime *dtAccess, const wxDateTime *dtMod, const wxDateTime *dtCreate) const { #if defined(__WIN32__) FILETIME ftAccess, ftCreate, ftWrite; if ( dtCreate ) ConvertWxToFileTime(&ftCreate, *dtCreate); if ( dtAccess ) ConvertWxToFileTime(&ftAccess, *dtAccess); if ( dtMod ) ConvertWxToFileTime(&ftWrite, *dtMod); wxString path; int flags; if ( IsDir() ) { if ( wxGetOsVersion() == wxOS_WINDOWS_9X ) { wxLogError(_("Setting directory access times is not supported " "under this OS version")); return false; } path = GetPath(); flags = FILE_FLAG_BACKUP_SEMANTICS; } else // file { path = GetFullPath(); flags = 0; } wxFileHandle fh(path, wxFileHandle::WriteAttr, flags); if ( fh.IsOk() ) { if ( ::SetFileTime(fh, dtCreate ? &ftCreate : NULL, dtAccess ? &ftAccess : NULL, dtMod ? &ftWrite : NULL) ) { return true; } } #elif defined(__UNIX_LIKE__) || (defined(__DOS__) && defined(__WATCOMC__)) wxUnusedVar(dtCreate); if ( !dtAccess && !dtMod ) { // can't modify the creation time anyhow, don't try return true; } // if dtAccess or dtMod is not specified, use the other one (which must be // non NULL because of the test above) for both times utimbuf utm; utm.actime = dtAccess ? dtAccess->GetTicks() : dtMod->GetTicks(); utm.modtime = dtMod ? dtMod->GetTicks() : dtAccess->GetTicks(); if ( utime(GetFullPath().fn_str(), &utm) == 0 ) { return true; } #else // other platform wxUnusedVar(dtAccess); wxUnusedVar(dtMod); wxUnusedVar(dtCreate); #endif // platforms wxLogSysError(_("Failed to modify file times for '%s'"), GetFullPath().c_str()); return false; } bool wxFileName::Touch() const { #if defined(__UNIX_LIKE__) // under Unix touching file is simple: just pass NULL to utime() if ( utime(GetFullPath().fn_str(), NULL) == 0 ) { return true; } wxLogSysError(_("Failed to touch the file '%s'"), GetFullPath().c_str()); return false; #else // other platform wxDateTime dtNow = wxDateTime::Now(); return SetTimes(&dtNow, &dtNow, NULL /* don't change create time */); #endif // platforms } bool wxFileName::GetTimes(wxDateTime *dtAccess, wxDateTime *dtMod, wxDateTime *dtCreate) const { #if defined(__WIN32__) // we must use different methods for the files and directories under // Windows as CreateFile(GENERIC_READ) doesn't work for the directories and // CreateFile(FILE_FLAG_BACKUP_SEMANTICS) works -- but only under NT and // not 9x bool ok; FILETIME ftAccess, ftCreate, ftWrite; if ( IsDir() ) { // implemented in msw/dir.cpp extern bool wxGetDirectoryTimes(const wxString& dirname, FILETIME *, FILETIME *, FILETIME *); // we should pass the path without the trailing separator to // wxGetDirectoryTimes() ok = wxGetDirectoryTimes(GetPath(wxPATH_GET_VOLUME), &ftAccess, &ftCreate, &ftWrite); } else // file { wxFileHandle fh(GetFullPath(), wxFileHandle::ReadAttr); if ( fh.IsOk() ) { ok = ::GetFileTime(fh, dtCreate ? &ftCreate : NULL, dtAccess ? &ftAccess : NULL, dtMod ? &ftWrite : NULL) != 0; } else { ok = false; } } if ( ok ) { if ( dtCreate ) ConvertFileTimeToWx(dtCreate, ftCreate); if ( dtAccess ) ConvertFileTimeToWx(dtAccess, ftAccess); if ( dtMod ) ConvertFileTimeToWx(dtMod, ftWrite); return true; } #elif defined(wxHAVE_LSTAT) // no need to test for IsDir() here wxStructStat stBuf; if ( StatAny(stBuf, *this) ) { // Android defines st_*time fields as unsigned long, but time_t as long, // hence the static_casts. if ( dtAccess ) dtAccess->Set(static_cast(stBuf.st_atime)); if ( dtMod ) dtMod->Set(static_cast(stBuf.st_mtime)); if ( dtCreate ) dtCreate->Set(static_cast(stBuf.st_ctime)); return true; } #else // other platform wxUnusedVar(dtAccess); wxUnusedVar(dtMod); wxUnusedVar(dtCreate); #endif // platforms wxLogSysError(_("Failed to retrieve file times for '%s'"), GetFullPath().c_str()); return false; } #endif // wxUSE_DATETIME // ---------------------------------------------------------------------------- // file size functions // ---------------------------------------------------------------------------- #if wxUSE_LONGLONG /* static */ wxULongLong wxFileName::GetSize(const wxString &filename) { if (!wxFileExists(filename)) return wxInvalidSize; #if defined(__WIN32__) wxFileHandle f(filename, wxFileHandle::ReadAttr); if (!f.IsOk()) return wxInvalidSize; DWORD lpFileSizeHigh; DWORD ret = GetFileSize(f, &lpFileSizeHigh); if ( ret == INVALID_FILE_SIZE && ::GetLastError() != NO_ERROR ) return wxInvalidSize; return wxULongLong(lpFileSizeHigh, ret); #else // ! __WIN32__ wxStructStat st; if (wxStat( filename, &st) != 0) return wxInvalidSize; return wxULongLong(st.st_size); #endif } /* static */ wxString wxFileName::GetHumanReadableSize(const wxULongLong &bs, const wxString &nullsize, int precision, wxSizeConvention conv) { // deal with trivial case first if ( bs == 0 || bs == wxInvalidSize ) return nullsize; // depending on the convention used the multiplier may be either 1000 or // 1024 and the binary infix may be empty (for "KB") or "i" (for "KiB") double multiplier = 1024.; wxString biInfix; switch ( conv ) { case wxSIZE_CONV_TRADITIONAL: // nothing to do, this corresponds to the default values of both // the multiplier and infix string break; case wxSIZE_CONV_IEC: biInfix = "i"; break; case wxSIZE_CONV_SI: multiplier = 1000; break; } const double kiloByteSize = multiplier; const double megaByteSize = multiplier * kiloByteSize; const double gigaByteSize = multiplier * megaByteSize; const double teraByteSize = multiplier * gigaByteSize; const double bytesize = bs.ToDouble(); wxString result; if ( bytesize < kiloByteSize ) result.Printf("%s B", bs.ToString()); else if ( bytesize < megaByteSize ) result.Printf("%.*f K%sB", precision, bytesize/kiloByteSize, biInfix); else if (bytesize < gigaByteSize) result.Printf("%.*f M%sB", precision, bytesize/megaByteSize, biInfix); else if (bytesize < teraByteSize) result.Printf("%.*f G%sB", precision, bytesize/gigaByteSize, biInfix); else result.Printf("%.*f T%sB", precision, bytesize/teraByteSize, biInfix); return result; } wxULongLong wxFileName::GetSize() const { return GetSize(GetFullPath()); } wxString wxFileName::GetHumanReadableSize(const wxString& failmsg, int precision, wxSizeConvention conv) const { return GetHumanReadableSize(GetSize(), failmsg, precision, conv); } #endif // wxUSE_LONGLONG // ---------------------------------------------------------------------------- // Mac-specific functions // ---------------------------------------------------------------------------- #if defined( __WXOSX_MAC__ ) && wxOSX_USE_CARBON namespace { class MacDefaultExtensionRecord { public: MacDefaultExtensionRecord() { m_type = m_creator = 0 ; } // default copy ctor, assignment operator and dtor are ok MacDefaultExtensionRecord(const wxString& ext, OSType type, OSType creator) : m_ext(ext) { m_type = type; m_creator = creator; } wxString m_ext; OSType m_type; OSType m_creator; }; WX_DECLARE_OBJARRAY(MacDefaultExtensionRecord, MacDefaultExtensionArray); bool gMacDefaultExtensionsInited = false; #include "wx/arrimpl.cpp" WX_DEFINE_EXPORTED_OBJARRAY(MacDefaultExtensionArray); MacDefaultExtensionArray gMacDefaultExtensions; // load the default extensions const MacDefaultExtensionRecord gDefaults[] = { MacDefaultExtensionRecord( "txt", 'TEXT', 'ttxt' ), MacDefaultExtensionRecord( "tif", 'TIFF', '****' ), MacDefaultExtensionRecord( "jpg", 'JPEG', '****' ), }; void MacEnsureDefaultExtensionsLoaded() { if ( !gMacDefaultExtensionsInited ) { // we could load the pc exchange prefs here too for ( size_t i = 0 ; i < WXSIZEOF( gDefaults ) ; ++i ) { gMacDefaultExtensions.Add( gDefaults[i] ) ; } gMacDefaultExtensionsInited = true; } } } // anonymous namespace bool wxFileName::MacSetTypeAndCreator( wxUint32 type , wxUint32 creator ) { FSRef fsRef ; FSCatalogInfo catInfo; FileInfo *finfo ; if ( wxMacPathToFSRef( GetFullPath() , &fsRef ) == noErr ) { if ( FSGetCatalogInfo (&fsRef, kFSCatInfoFinderInfo, &catInfo, NULL, NULL, NULL) == noErr ) { finfo = (FileInfo*)&catInfo.finderInfo; finfo->fileType = type ; finfo->fileCreator = creator ; FSSetCatalogInfo( &fsRef, kFSCatInfoFinderInfo, &catInfo ) ; return true ; } } return false ; } bool wxFileName::MacGetTypeAndCreator( wxUint32 *type , wxUint32 *creator ) const { FSRef fsRef ; FSCatalogInfo catInfo; FileInfo *finfo ; if ( wxMacPathToFSRef( GetFullPath() , &fsRef ) == noErr ) { if ( FSGetCatalogInfo (&fsRef, kFSCatInfoFinderInfo, &catInfo, NULL, NULL, NULL) == noErr ) { finfo = (FileInfo*)&catInfo.finderInfo; *type = finfo->fileType ; *creator = finfo->fileCreator ; return true ; } } return false ; } bool wxFileName::MacSetDefaultTypeAndCreator() { wxUint32 type , creator ; if ( wxFileName::MacFindDefaultTypeAndCreator(GetExt() , &type , &creator ) ) { return MacSetTypeAndCreator( type , creator ) ; } return false; } bool wxFileName::MacFindDefaultTypeAndCreator( const wxString& ext , wxUint32 *type , wxUint32 *creator ) { MacEnsureDefaultExtensionsLoaded() ; wxString extl = ext.Lower() ; for( int i = gMacDefaultExtensions.Count() - 1 ; i >= 0 ; --i ) { if ( gMacDefaultExtensions.Item(i).m_ext == extl ) { *type = gMacDefaultExtensions.Item(i).m_type ; *creator = gMacDefaultExtensions.Item(i).m_creator ; return true ; } } return false ; } void wxFileName::MacRegisterDefaultTypeAndCreator( const wxString& ext , wxUint32 type , wxUint32 creator ) { MacEnsureDefaultExtensionsLoaded(); MacDefaultExtensionRecord rec(ext.Lower(), type, creator); gMacDefaultExtensions.Add( rec ); } #endif // defined( __WXOSX_MAC__ ) && wxOSX_USE_CARBON