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1 /////////////////////////////////////////////////////////////////////////////
2 // Name: filename.h
3 // Purpose: interface of wxFileName
4 // Author: wxWidgets team
5 // RCS-ID: $Id$
6 // Licence: wxWindows licence
7 /////////////////////////////////////////////////////////////////////////////
8
9
10 /**
11 The various values for the path format: this mainly affects the path
12 separator but also whether or not the path has the drive part
13 (as under Windows).
14
15 See wxFileName for more info.
16 */
17 enum wxPathFormat
18 {
19 wxPATH_NATIVE = 0, //!< the path format for the current platform.
20 wxPATH_UNIX,
21 wxPATH_BEOS = wxPATH_UNIX,
22 wxPATH_MAC,
23 wxPATH_DOS,
24 wxPATH_WIN = wxPATH_DOS,
25 wxPATH_OS2 = wxPATH_DOS,
26 wxPATH_VMS,
27
28 wxPATH_MAX //!< Not a valid value for specifying path format
29 };
30
31 /**
32 Different conventions for human readable sizes.
33
34 @see wxFileName::GetHumanReadableSize().
35
36 @since 2.9.1
37 */
38 enum wxSizeConvention
39 {
40 /// 1024 bytes = 1KB.
41 wxSIZE_CONV_TRADITIONAL,
42
43 /// 1024 bytes = 1KiB.
44 wxSIZE_CONV_IEC,
45
46 /// 1000 bytes = 1KB.
47 wxSIZE_CONV_SI
48 };
49
50
51 /**
52 The kind of normalization to do with the file name: these values can be
53 or'd together to perform several operations at once.
54 See wxFileName::Normalize() for more info.
55 */
56 enum wxPathNormalize
57 {
58 //! Replace environment variables with their values.
59 //! wxFileName understands both Unix and Windows (but only under Windows) environment
60 //! variables expansion: i.e. @c "$var", @c "$(var)" and @c "${var}" are always understood
61 //! and in addition under Windows @c "%var%" is also.
62 wxPATH_NORM_ENV_VARS = 0x0001,
63
64 wxPATH_NORM_DOTS = 0x0002, //!< Squeeze all @c ".." and @c ".".
65 wxPATH_NORM_TILDE = 0x0004, //!< Replace @c "~" and @c "~user" (Unix only).
66 wxPATH_NORM_CASE = 0x0008, //!< If the platform is case insensitive, make lowercase the path.
67 wxPATH_NORM_ABSOLUTE = 0x0010, //!< Make the path absolute.
68 wxPATH_NORM_LONG = 0x0020, //!< Expand the path to the "long" form (Windows only).
69 wxPATH_NORM_SHORTCUT = 0x0040, //!< Resolve the shortcut, if it is a shortcut (Windows only).
70
71 //! A value indicating all normalization flags except for @c wxPATH_NORM_CASE.
72 wxPATH_NORM_ALL = 0x00ff & ~wxPATH_NORM_CASE
73 };
74
75 /**
76 Flags for wxFileName::Rmdir().
77 */
78 enum
79 {
80 /// Delete the specified directory and its subdirectories if they are empty.
81 wxPATH_RMDIR_FULL = 1,
82
83 /**
84 Delete the specified directory and all the files and subdirectories in it
85 recursively.
86
87 This flag is obviously @b dangerous and should be used with care and
88 after asking the user for confirmation.
89 */
90 wxPATH_RMDIR_RECURSIVE = 2
91 };
92
93 /**
94 The return value of wxFileName::GetSize() in case of error.
95 */
96 wxULongLong wxInvalidSize;
97
98
99 /**
100 @class wxFileName
101
102 wxFileName encapsulates a file name.
103
104 This class serves two purposes: first, it provides the functions to split the
105 file names into components and to recombine these components in the full file
106 name which can then be passed to the OS file functions
107 (and @ref group_funcmacro_file "wxWidgets functions" wrapping them).
108 Second, it includes the functions for working with the files itself. Note that
109 to change the file data you should use wxFile class instead.
110 wxFileName provides functions for working with the file attributes.
111
112 When working with directory names (i.e. without filename and extension)
113 make sure not to misuse the file name part of this class with the last
114 directory. Instead initialize the wxFileName instance like this:
115
116 @code
117 wxFileName dirname( "C:\mydir", "" );
118 MyMethod( dirname.GetPath() );
119 @endcode
120
121 The same can be done using the static method wxFileName::DirName():
122
123 @code
124 wxFileName dirname = wxFileName::DirName( "C:\mydir" );
125 MyMethod( dirname.GetPath() );
126 @endcode
127
128 Accordingly, methods dealing with directories or directory names like
129 wxFileName::IsDirReadable() use wxFileName::GetPath() whereas methods dealing
130 with file names like wxFileName::IsFileReadable() use wxFileName::GetFullPath().
131
132 If it is not known whether a string contains a directory name or a complete
133 file name (such as when interpreting user input) you need to use the static
134 function wxFileName::DirExists() (or its identical variants wxDir::Exists() and
135 wxDirExists()) and construct the wxFileName instance accordingly.
136 This will only work if the directory actually exists, of course:
137
138 @code
139 wxString user_input;
140 // get input from user
141
142 wxFileName fname;
143 if (wxDirExists(user_input))
144 fname.AssignDir( user_input );
145 else
146 fname.Assign( user_input );
147 @endcode
148
149 Please note that many wxFileName methods accept the path format argument
150 which is by @c wxPATH_NATIVE by default meaning to use the path format
151 native for the current platform.
152 The path format affects the operation of wxFileName functions in several ways:
153 first and foremost, it defines the path separator character to use, but it
154 also affects other things such as whether the path has the drive part or not.
155 See wxPathFormat for more info.
156
157
158 @section filename_format File name format
159
160 wxFileName currently supports the file names in the Unix, DOS/Windows,
161 Mac OS and VMS formats. Although these formats are quite different,
162 wxFileName tries to treat them all in the same generic way.
163 It supposes that all file names consist of the following parts: the volume
164 (also known as drive under Windows or device under VMS), the path which is
165 a sequence of directory names separated by the path separators and the full
166 filename itself which, in turn, is composed from the base file name and the
167 extension. All of the individual components of the file name may be empty
168 and, for example, the volume name is always empty under Unix, but if they
169 are all empty simultaneously, the filename object is considered to be in an
170 invalid state and wxFileName::IsOk() returns false for it.
171
172 File names can be case-sensitive or not, the function wxFileName::IsCaseSensitive()
173 allows to determine this. The rules for determining whether the file name is
174 absolute or relative also depend on the file name format and the only portable way
175 to answer this question is to use wxFileName::IsAbsolute() or wxFileName::IsRelative()
176 method.
177
178 Note that on Windows,"X:" refers to the current working directory on drive X.
179 Therefore, a wxFileName instance constructed from for example "X:dir/file.ext"
180 treats the portion beyond drive separator as being relative to that directory.
181 To ensure that the filename is absolute, you may use wxFileName::MakeAbsolute().
182 There is also an inverse function wxFileName::MakeRelativeTo() which undoes
183 what wxFileName::Normalize(wxPATH_NORM_DOTS) does.
184 Other functions returning information about the file format provided by this
185 class are wxFileName::GetVolumeSeparator(), wxFileName::IsPathSeparator().
186
187
188 @section filename_construction File name construction
189
190 You can initialize a wxFileName instance using one of the following functions:
191
192 @li wxFileName::wxFileName()
193 @li wxFileName::Assign()
194 @li wxFileName::AssignCwd()
195 @li wxFileName::AssignDir()
196 @li wxFileName::AssignHomeDir()
197 @li wxFileName::AssignTempFileName()
198 @li wxFileName::DirName()
199 @li wxFileName::FileName()
200 @li wxFileName::operator=()
201
202
203 @section filename_tests File name tests
204
205 Before doing other tests, you should use wxFileName::IsOk() to verify that
206 the filename is well defined. If it is, FileExists() can be used to test whether
207 a file with such name exists and wxFileName::DirExists() can be used to test
208 for directory existence.
209 File names should be compared using the wxFileName::SameAs() method or
210 wxFileName::operator==(). For testing basic access modes, you can use:
211
212 @li wxFileName::IsDirWritable()
213 @li wxFileName::IsDirReadable()
214 @li wxFileName::IsFileWritable()
215 @li wxFileName::IsFileReadable()
216 @li wxFileName::IsFileExecutable()
217
218
219 @section filename_components File name components
220
221 These functions allow to examine and modify the individual directories
222 of the path:
223
224 @li wxFileName::AppendDir()
225 @li wxFileName::InsertDir()
226 @li wxFileName::GetDirCount()
227 @li wxFileName::PrependDir()
228 @li wxFileName::RemoveDir()
229 @li wxFileName::RemoveLastDir()
230
231 To change the components of the file name individually you can use the
232 following functions:
233
234 @li wxFileName::GetExt()
235 @li wxFileName::GetName()
236 @li wxFileName::GetVolume()
237 @li wxFileName::HasExt()
238 @li wxFileName::HasName()
239 @li wxFileName::HasVolume()
240 @li wxFileName::SetExt()
241 @li wxFileName::ClearExt()
242 @li wxFileName::SetEmptyExt()
243 @li wxFileName::SetName()
244 @li wxFileName::SetVolume()
245
246 You can initialize a wxFileName instance using one of the following functions:
247
248
249 @section filename_operations File name operations
250
251 These methods allow to work with the file creation, access and modification
252 times. Note that not all filesystems under all platforms implement these times
253 in the same way. For example, the access time under Windows has a resolution of
254 one day (so it is really the access date and not time). The access time may be
255 updated when the file is executed or not depending on the platform.
256
257 @li wxFileName::GetModificationTime()
258 @li wxFileName::GetTimes()
259 @li wxFileName::SetTimes()
260 @li wxFileName::Touch()
261
262 Other file system operations functions are:
263
264 @li wxFileName::Mkdir()
265 @li wxFileName::Rmdir()
266
267
268 @library{wxbase}
269 @category{file}
270 */
271 class wxFileName
272 {
273 public:
274 /**
275 Default constructor.
276 */
277 wxFileName();
278
279 /**
280 Copy constructor.
281 */
282 wxFileName(const wxFileName& filename);
283
284 /**
285 Constructor taking a full filename.
286
287 If it terminates with a '/', a directory path is constructed
288 (the name will be empty), otherwise a file name and extension
289 are extracted from it.
290 */
291 wxFileName(const wxString& fullpath,
292 wxPathFormat format = wxPATH_NATIVE);
293
294 /**
295 Constructor a directory name and file name.
296 */
297 wxFileName(const wxString& path, const wxString& name,
298 wxPathFormat format = wxPATH_NATIVE);
299
300 /**
301 Constructor from a directory name, base file name and extension.
302 */
303 wxFileName(const wxString& path, const wxString& name,
304 const wxString& ext,
305 wxPathFormat format = wxPATH_NATIVE);
306
307 /**
308 Constructor from a volume name, a directory name, base file name and extension.
309 */
310 wxFileName(const wxString& volume, const wxString& path,
311 const wxString& name,
312 const wxString& ext,
313 wxPathFormat format = wxPATH_NATIVE);
314
315 /**
316 Appends a directory component to the path. This component should contain a
317 single directory name level, i.e. not contain any path or volume separators nor
318 should it be empty, otherwise the function does nothing (and generates an
319 assert failure in debug build).
320 */
321 void AppendDir(const wxString& dir);
322
323 /**
324 Creates the file name from another filename object.
325 */
326 void Assign(const wxFileName& filepath);
327
328 /**
329 Creates the file name from a full file name with a path.
330 */
331 void Assign(const wxString& fullpath,
332 wxPathFormat format = wxPATH_NATIVE);
333
334 /**
335 Creates the file name from volume, path, name and extension.
336 */
337 void Assign(const wxString& volume, const wxString& path,
338 const wxString& name,
339 const wxString& ext,
340 bool hasExt,
341 wxPathFormat format = wxPATH_NATIVE);
342
343 /**
344 Creates the file name from volume, path, name and extension.
345 */
346 void Assign(const wxString& volume, const wxString& path,
347 const wxString& name,
348 const wxString& ext,
349 wxPathFormat format = wxPATH_NATIVE);
350
351 /**
352 Creates the file name from file path and file name.
353 */
354 void Assign(const wxString& path, const wxString& name,
355 wxPathFormat format = wxPATH_NATIVE);
356
357 /**
358 Creates the file name from path, name and extension.
359 */
360 void Assign(const wxString& path, const wxString& name,
361 const wxString& ext,
362 wxPathFormat format = wxPATH_NATIVE);
363
364 /**
365 Makes this object refer to the current working directory on the specified
366 volume (or current volume if @a volume is empty).
367
368 @see GetCwd()
369 */
370 void AssignCwd(const wxString& volume = wxEmptyString);
371
372 /**
373 Sets this file name object to the given directory name.
374 The name and extension will be empty.
375 */
376 void AssignDir(const wxString& dir,
377 wxPathFormat format = wxPATH_NATIVE);
378
379 /**
380 Sets this file name object to the home directory.
381 */
382 void AssignHomeDir();
383
384 /**
385 The function calls CreateTempFileName() to create a temporary file
386 and sets this object to the name of the file.
387
388 If a temporary file couldn't be created, the object is put into
389 an invalid state (see IsOk()).
390 */
391 void AssignTempFileName(const wxString& prefix);
392
393 /**
394 The function calls CreateTempFileName() to create a temporary
395 file name and open @a fileTemp with it.
396
397 If the file couldn't be opened, the object is put into
398 an invalid state (see IsOk()).
399 */
400 void AssignTempFileName(const wxString& prefix, wxFile* fileTemp);
401
402 /**
403 The function calls CreateTempFileName() to create a temporary
404 file name and open @a fileTemp with it.
405
406 If the file couldn't be opened, the object is put into
407 an invalid state (see IsOk()).
408 */
409 void AssignTempFileName(const wxString& prefix, wxFFile* fileTemp);
410
411 /**
412 Reset all components to default, uninitialized state.
413 */
414 void Clear();
415
416 /**
417 Removes the extension from the file name resulting in a
418 file name with no trailing dot.
419
420 @see SetExt(), SetEmptyExt()
421 */
422 void ClearExt();
423
424 //@{
425 /**
426 Returns a temporary file name starting with the given @e prefix.
427 If the @a prefix is an absolute path, the temporary file is created in this
428 directory, otherwise it is created in the default system directory for the
429 temporary files or in the current directory.
430
431 If the function succeeds, the temporary file is actually created.
432 If @a fileTemp is not @NULL, this file will be opened using the name of
433 the temporary file. When possible, this is done in an atomic way ensuring that
434 no race condition occurs between the temporary file name generation and opening
435 it which could often lead to security compromise on the multiuser systems.
436 If @a fileTemp is @NULL, the file is only created, but not opened.
437 Under Unix, the temporary file will have read and write permissions for the
438 owner only to minimize the security problems.
439
440 @param prefix
441 Prefix to use for the temporary file name construction
442 @param fileTemp
443 The file to open or @NULL to just get the name
444
445 @return The full temporary file name or an empty string on error.
446 */
447 static wxString CreateTempFileName(const wxString& prefix,
448 wxFile* fileTemp = NULL);
449 static wxString CreateTempFileName(const wxString& prefix,
450 wxFFile* fileTemp = NULL);
451 //@}
452
453 /**
454 Returns @true if the directory with this name exists.
455
456 Notice that this function tests the directory part of this object,
457 i.e. the string returned by GetPath(), and not the full path returned
458 by GetFullPath().
459
460 @see FileExists(), Exists()
461 */
462 bool DirExists() const;
463
464 /**
465 Returns @true if the directory with name @a dir exists.
466
467 @see FileExists(), Exists()
468 */
469 static bool DirExists(const wxString& dir);
470
471 /**
472 Returns the object corresponding to the directory with the given name.
473 The @a dir parameter may have trailing path separator or not.
474 */
475 static wxFileName DirName(const wxString& dir,
476 wxPathFormat format = wxPATH_NATIVE);
477
478 /**
479 Calls the static overload of this function with the full path of this
480 object.
481
482 @since 2.9.4
483 */
484 bool Exists() const;
485
486 /**
487 Returns @true if either a file or a directory or something else with
488 this name exists in the file system.
489
490 This method is equivalent to @code FileExists() || DirExists() @endcode
491 under most systems but under Unix it also returns true if the file
492 identifies a special file system object such as a device, a socket or a
493 FIFO.
494
495 @since 2.9.4
496
497 @see FileExists(), DirExists()
498 */
499 static bool Exists(const wxString& path);
500
501 /**
502 Returns @true if the file with this name exists.
503
504 @see DirExists(), Exists()
505 */
506 bool FileExists() const;
507
508 /**
509 Returns @true if the file with name @a file exists.
510
511 @see DirExists(), Exists()
512 */
513 static bool FileExists(const wxString& file);
514
515 /**
516 Returns the file name object corresponding to the given @e file. This
517 function exists mainly for symmetry with DirName().
518 */
519 static wxFileName FileName(const wxString& file,
520 wxPathFormat format = wxPATH_NATIVE);
521
522 /**
523 Retrieves the value of the current working directory on the specified volume.
524 If the volume is empty, the program's current working directory is returned for
525 the current volume.
526
527 @return The string containing the current working directory or an empty
528 string on error.
529
530 @see AssignCwd()
531 */
532 static wxString GetCwd(const wxString& volume = wxEmptyString);
533
534 /**
535 Returns the number of directories in the file name.
536 */
537 size_t GetDirCount() const;
538
539 /**
540 Returns the directories in string array form.
541 */
542 const wxArrayString& GetDirs() const;
543
544 /**
545 Returns the file name extension.
546 */
547 wxString GetExt() const;
548
549 /**
550 Returns the characters that can't be used in filenames and directory names
551 for the specified format.
552 */
553 static wxString GetForbiddenChars(wxPathFormat format = wxPATH_NATIVE);
554
555 /**
556 Returns the canonical path format for this platform.
557 */
558 static wxPathFormat GetFormat(wxPathFormat format = wxPATH_NATIVE);
559
560 /**
561 Returns the full name (including extension but excluding directories).
562 */
563 wxString GetFullName() const;
564
565 /**
566 Returns the full path with name and extension.
567 */
568 wxString GetFullPath(wxPathFormat format = wxPATH_NATIVE) const;
569
570 /**
571 Returns the home directory.
572 */
573 static wxString GetHomeDir();
574
575 //@{
576 /**
577 Returns the representation of the file size in a human-readable form.
578
579 In the first version, the size of this file is used. In the second one,
580 the specified size @a bytes is used.
581
582 If the file size could not be retrieved or @a bytes is ::wxInvalidSize
583 or zero, the @c failmsg string is returned.
584
585 Otherwise the returned string is a floating-point number with @c
586 precision decimal digits followed by the abbreviation of the unit used.
587 By default the traditional, although incorrect, convention of using SI
588 units for multiples of 1024 is used, i.e. returned string will use
589 suffixes of B, KB, MB, GB, TB for bytes, kilobytes, megabytes,
590 gigabytes and terabytes respectively. With the IEC convention the names
591 of the units are changed to B, KiB, MiB, GiB and TiB for bytes,
592 kibibytes, mebibytes, gibibytes and tebibytes. Finally, with SI
593 convention the same B, KB, MB, GB and TB suffixes are used but in their
594 correct SI meaning, i.e. as multiples of 1000 and not 1024.
595
596 Support for the different size conventions is new in wxWidgets 2.9.1,
597 in previous versions only the traditional convention was implemented.
598 */
599 wxString
600 GetHumanReadableSize(const wxString& failmsg = _("Not available"),
601 int precision = 1,
602 wxSizeConvention conv = wxSIZE_CONV_TRADITIONAL) const;
603
604 static wxString
605 GetHumanReadableSize(const wxULongLong& bytes,
606 const wxString& nullsize = _("Not available"),
607 int precision = 1,
608 wxSizeConvention conv = wxSIZE_CONV_TRADITIONAL);
609 //@}
610
611 /**
612 Return the long form of the path (returns identity on non-Windows platforms).
613 */
614 wxString GetLongPath() const;
615
616 /**
617 Returns the last time the file was last modified.
618 */
619 wxDateTime GetModificationTime() const;
620
621 /**
622 Returns the name part of the filename (without extension).
623
624 @see GetFullName()
625 */
626 wxString GetName() const;
627
628 /**
629 Returns the path part of the filename (without the name or extension).
630
631 The possible flags values are:
632
633 - @b wxPATH_GET_VOLUME:
634 Return the path with the volume (does nothing for the filename formats
635 without volumes), otherwise the path without volume part is returned.
636
637 - @b wxPATH_GET_SEPARATOR:
638 Return the path with the trailing separator, if this flag is not given
639 there will be no separator at the end of the path.
640
641 - @b wxPATH_NO_SEPARATOR:
642 Don't include the trailing separator in the returned string. This is
643 the default (the value of this flag is 0) and exists only for symmetry
644 with wxPATH_GET_SEPARATOR.
645
646 @note If the path is a toplevel one (e.g. @c "/" on Unix or @c "C:\" on
647 Windows), then the returned path will contain trailing separator
648 even with @c wxPATH_NO_SEPARATOR.
649 */
650 wxString GetPath(int flags = wxPATH_GET_VOLUME,
651 wxPathFormat format = wxPATH_NATIVE) const;
652
653 /**
654 Returns the usually used path separator for this format.
655 For all formats but @c wxPATH_DOS there is only one path separator anyhow,
656 but for DOS there are two of them and the native one, i.e. the backslash
657 is returned by this method.
658
659 @see GetPathSeparators()
660 */
661 static wxUniChar GetPathSeparator(wxPathFormat format = wxPATH_NATIVE);
662
663 /**
664 Returns the string containing all the path separators for this format.
665 For all formats but @c wxPATH_DOS this string contains only one character
666 but for DOS and Windows both @c '/' and @c '\' may be used as separators.
667
668 @see GetPathSeparator()
669 */
670 static wxString GetPathSeparators(wxPathFormat format = wxPATH_NATIVE);
671
672 /**
673 Returns the string of characters which may terminate the path part.
674 This is the same as GetPathSeparators() except for VMS
675 path format where ] is used at the end of the path part.
676 */
677 static wxString GetPathTerminators(wxPathFormat format = wxPATH_NATIVE);
678
679 /**
680 Returns the path with the trailing separator, useful for appending the name
681 to the given path.
682
683 This is the same as calling
684 @code
685 GetPath(wxPATH_GET_VOLUME | wxPATH_GET_SEPARATOR, format)
686 @endcode
687 */
688 wxString GetPathWithSep(wxPathFormat format = wxPATH_NATIVE) const;
689
690 /**
691 Return the short form of the path (returns identity on non-Windows platforms).
692 */
693 wxString GetShortPath() const;
694
695 /**
696 Returns the size of the file If the file does not exist or its size could
697 not be read (because e.g. the file is locked by another process) the returned
698 value is ::wxInvalidSize.
699 */
700 wxULongLong GetSize() const;
701
702 /**
703 Returns the size of the file If the file does not exist or its size could
704 not be read (because e.g. the file is locked by another process) the returned
705 value is ::wxInvalidSize.
706 */
707 static wxULongLong GetSize(const wxString& filename);
708
709 /**
710 Returns the directory used for temporary files.
711 */
712 static wxString GetTempDir();
713
714 /**
715 Returns the last access, last modification and creation times.
716 The last access time is updated whenever the file is read or written
717 (or executed in the case of Windows), last modification time is only
718 changed when the file is written to.
719 Finally, the creation time is indeed the time when the file was created
720 under Windows and the inode change time under Unix (as it is impossible to
721 retrieve the real file creation time there anyhow) which can also be changed
722 by many operations after the file creation.
723
724 If no filename or extension is specified in this instance of wxFileName
725 (and therefore IsDir() returns @true) then this function will return the
726 directory times of the path specified by GetPath(), otherwise the file
727 times of the file specified by GetFullPath().
728 Any of the pointers may be @NULL if the corresponding time is not needed.
729
730 @return @true on success, @false if we failed to retrieve the times.
731 */
732 bool GetTimes(wxDateTime* dtAccess, wxDateTime* dtMod,
733 wxDateTime* dtCreate) const;
734
735 /**
736 Returns the string containing the volume for this file name, empty if it
737 doesn't have one or if the file system doesn't support volumes at all
738 (for example, Unix).
739 */
740 wxString GetVolume() const;
741
742 /**
743 Returns the string separating the volume from the path for this format.
744 */
745 static wxString GetVolumeSeparator(wxPathFormat format = wxPATH_NATIVE);
746
747 /**
748 This function builds a volume path string, for example "C:\\".
749
750 Implemented for the platforms which use drive letters, i.e. DOS, MSW
751 and OS/2 only.
752
753 @since 2.9.0
754
755 @param drive
756 The drive letter, 'A' through 'Z' or 'a' through 'z'.
757
758 @param flags
759 @c wxPATH_NO_SEPARATOR or @c wxPATH_GET_SEPARATOR to omit or include
760 the trailing path separator, the default is to include it.
761
762 @return Volume path string.
763 */
764 static wxString GetVolumeString(char drive, int flags = wxPATH_GET_SEPARATOR);
765
766 /**
767 Returns @true if an extension is present.
768 */
769 bool HasExt() const;
770
771 /**
772 Returns @true if a name is present.
773 */
774 bool HasName() const;
775
776 /**
777 Returns @true if a volume specifier is present.
778 */
779 bool HasVolume() const;
780
781 /**
782 Inserts a directory component before the zero-based position in the directory
783 list. Please see AppendDir() for important notes.
784 */
785 void InsertDir(size_t before, const wxString& dir);
786
787 /**
788 Returns @true if this filename is absolute.
789 */
790 bool IsAbsolute(wxPathFormat format = wxPATH_NATIVE) const;
791
792 /**
793 Returns @true if the file names of this type are case-sensitive.
794 */
795 static bool IsCaseSensitive(wxPathFormat format = wxPATH_NATIVE);
796
797 /**
798 Returns @true if this object represents a directory, @false otherwise
799 (i.e. if it is a file).
800
801 Note that this method doesn't test whether the directory or file really
802 exists, you should use DirExists() or FileExists() for this.
803 */
804 bool IsDir() const;
805
806 /**
807 Returns @true if the directory component of this instance is an existing
808 directory and this process has read permissions on it. Read permissions
809 on a directory mean that you can list the directory contents but it
810 doesn't imply that you have read permissions on the files contained.
811 */
812 bool IsDirReadable() const;
813
814 /**
815 Returns @true if the given @e dir is an existing directory and this process
816 has read permissions on it. Read permissions on a directory mean that you
817 can list the directory contents but it doesn't imply that you have read
818 permissions on the files contained.
819 */
820 static bool IsDirReadable(const wxString& dir);
821
822 /**
823 Returns @true if the directory component of this instance
824 is an existing directory and this process has write permissions on it.
825 Write permissions on a directory mean that you can create new files in the
826 directory.
827 */
828 bool IsDirWritable() const;
829
830 /**
831 Returns @true if the given @a dir is an existing directory and this
832 process has write permissions on it.
833 Write permissions on a directory mean that you can create new files in the
834 directory.
835 */
836 static bool IsDirWritable(const wxString& dir);
837
838 /**
839 Returns @true if a file with this name exists and if this process has execute
840 permissions on it.
841 */
842 bool IsFileExecutable() const;
843
844 /**
845 Returns @true if a file with this name exists and if this process has execute
846 permissions on it.
847 */
848 static bool IsFileExecutable(const wxString& file);
849
850 /**
851 Returns @true if a file with this name exists and if this process has read
852 permissions on it.
853 */
854 bool IsFileReadable() const;
855
856 /**
857 Returns @true if a file with this name exists and if this process has read
858 permissions on it.
859 */
860 static bool IsFileReadable(const wxString& file);
861
862 /**
863 Returns @true if a file with this name exists and if this process has write
864 permissions on it.
865 */
866 bool IsFileWritable() const;
867
868 /**
869 Returns @true if a file with this name exists and if this process has write
870 permissions on it.
871 */
872 static bool IsFileWritable(const wxString& file);
873
874 /**
875 Returns @true if the filename is valid, @false if it is not initialized yet.
876 The assignment functions and Clear() may reset the object to the uninitialized,
877 invalid state (the former only do it on failure).
878 */
879 bool IsOk() const;
880
881 /**
882 Returns @true if the char is a path separator for this format.
883 */
884 static bool IsPathSeparator(wxChar ch,
885 wxPathFormat format = wxPATH_NATIVE);
886
887 /**
888 Returns @true if the volume part of the path is a unique volume name.
889
890 This function will always return @false if the path format is not
891 wxPATH_DOS.
892
893 Unique volume names are Windows volume identifiers which remain the same
894 regardless of where the volume is actually mounted. Example of a path
895 using a volume name could be
896 @code
897 \\?\Volume{8089d7d7-d0ac-11db-9dd0-806d6172696f}\Program Files\setup.exe
898 @endcode
899
900 @since 2.9.1
901 */
902 static bool IsMSWUniqueVolumeNamePath(const wxString& path,
903 wxPathFormat format = wxPATH_NATIVE);
904
905 /**
906 Returns @true if this filename is not absolute.
907 */
908 bool IsRelative(wxPathFormat format = wxPATH_NATIVE) const;
909
910 /**
911 On Mac OS, gets the common type and creator for the given extension.
912
913 @onlyfor{wxosx}
914 */
915 static bool MacFindDefaultTypeAndCreator(const wxString& ext,
916 wxUint32* type,
917 wxUint32* creator);
918
919 /**
920 On Mac OS, registers application defined extensions and their default type
921 and creator.
922
923 @onlyfor{wxosx}
924 */
925 static void MacRegisterDefaultTypeAndCreator(const wxString& ext,
926 wxUint32 type,
927 wxUint32 creator);
928
929 /**
930 On Mac OS, looks up the appropriate type and creator from the registration
931 and then sets it.
932
933 @onlyfor{wxosx}
934 */
935 bool MacSetDefaultTypeAndCreator();
936
937 /**
938 Make the file name absolute.
939 This is a shortcut for
940 @code
941 wxFileName::Normalize(wxPATH_NORM_DOTS | wxPATH_NORM_ABSOLUTE |
942 wxPATH_NORM_TILDE, cwd, format)
943 @endcode
944
945 @see MakeRelativeTo(), Normalize(), IsAbsolute()
946 */
947 bool MakeAbsolute(const wxString& cwd = wxEmptyString,
948 wxPathFormat format = wxPATH_NATIVE);
949
950 /**
951 This function tries to put this file name in a form relative to
952 @a pathBase.
953 In other words, it returns the file name which should be used to access
954 this file if the current directory were pathBase.
955
956 @param pathBase
957 The directory to use as root, current directory is used by default
958 @param format
959 The file name format, native by default
960
961 @return @true if the file name has been changed, @false if we failed to do
962 anything with it (currently this only happens if the file name
963 is on a volume different from the volume specified by @a pathBase).
964
965 @see Normalize()
966 */
967 bool MakeRelativeTo(const wxString& pathBase = wxEmptyString,
968 wxPathFormat format = wxPATH_NATIVE);
969
970 /**
971 Creates a directory.
972
973 @param perm
974 The permissions for the newly created directory.
975 See the ::wxPosixPermissions enumeration for more info.
976 @param flags
977 If the flags contain @c wxPATH_MKDIR_FULL flag, try to create each
978 directory in the path and also don't return an error if the target
979 directory already exists.
980
981 @return Returns @true if the directory was successfully created, @false
982 otherwise.
983 */
984 bool Mkdir(int perm = wxS_DIR_DEFAULT, int flags = 0) const;
985
986 /**
987 Creates a directory.
988
989 @param dir
990 The directory to create
991 @param perm
992 The permissions for the newly created directory.
993 See the ::wxPosixPermissions enumeration for more info.
994 @param flags
995 If the flags contain @c wxPATH_MKDIR_FULL flag, try to create each
996 directory in the path and also don't return an error if the target
997 directory already exists.
998
999 @return Returns @true if the directory was successfully created, @false
1000 otherwise.
1001 */
1002 static bool Mkdir(const wxString& dir, int perm = wxS_DIR_DEFAULT,
1003 int flags = 0);
1004
1005 /**
1006 Normalize the path.
1007
1008 With the default flags value, the path will be made absolute, without
1009 any ".." and "." and all environment variables will be expanded in it.
1010
1011 Notice that in some rare cases normalizing a valid path may result in
1012 an invalid wxFileName object. E.g. normalizing "./" path using
1013 wxPATH_NORM_DOTS but not wxPATH_NORM_ABSOLUTE will result in a
1014 completely empty and thus invalid object. As long as there is a non
1015 empty file name the result of normalization will be valid however.
1016
1017 @param flags
1018 The kind of normalization to do with the file name. It can be
1019 any or-combination of the ::wxPathNormalize enumeration values.
1020 @param cwd
1021 If not empty, this directory will be used instead of current
1022 working directory in normalization (see @c wxPATH_NORM_ABSOLUTE).
1023 @param format
1024 The file name format to use when processing the paths, native by default.
1025
1026 @return @true if normalization was successfully or @false otherwise.
1027 */
1028 bool Normalize(int flags = wxPATH_NORM_ALL,
1029 const wxString& cwd = wxEmptyString,
1030 wxPathFormat format = wxPATH_NATIVE);
1031
1032 /**
1033 Prepends a directory to the file path.
1034 Please see AppendDir() for important notes.
1035 */
1036 void PrependDir(const wxString& dir);
1037
1038 /**
1039 Removes the specified directory component from the path.
1040
1041 @see GetDirCount()
1042 */
1043 void RemoveDir(size_t pos);
1044
1045 /**
1046 Removes last directory component from the path.
1047 */
1048 void RemoveLastDir();
1049
1050 /**
1051 If the path contains the value of the environment variable named @a envname
1052 then this function replaces it with the string obtained from
1053 wxString::Format(replacementFmtString, value_of_envname_variable).
1054
1055 This function is useful to make the path shorter or to make it dependent
1056 from a certain environment variable.
1057 Normalize() with @c wxPATH_NORM_ENV_VARS can perform the opposite of this
1058 function (depending on the value of @a replacementFmtString).
1059
1060 The name and extension of this filename are not modified.
1061
1062 Example:
1063 @code
1064 wxFileName fn("/usr/openwin/lib/someFile");
1065 fn.ReplaceEnvVariable("OPENWINHOME");
1066 // now fn.GetFullPath() == "$OPENWINHOME/lib/someFile"
1067 @endcode
1068
1069 @since 2.9.0
1070
1071 @return @true if the operation was successful (which doesn't mean
1072 that something was actually replaced, just that ::wxGetEnv
1073 didn't fail).
1074 */
1075 bool ReplaceEnvVariable(const wxString& envname,
1076 const wxString& replacementFmtString = "$%s",
1077 wxPathFormat format = wxPATH_NATIVE);
1078
1079 /**
1080 Replaces, if present in the path, the home directory for the given user
1081 (see ::wxGetHomeDir) with a tilde (~).
1082
1083 Normalize() with @c wxPATH_NORM_TILDE performs the opposite of this
1084 function.
1085
1086 The name and extension of this filename are not modified.
1087
1088 @since 2.9.0
1089
1090 @return @true if the operation was successful (which doesn't mean
1091 that something was actually replaced, just that ::wxGetHomeDir
1092 didn't fail).
1093 */
1094 bool ReplaceHomeDir(wxPathFormat format = wxPATH_NATIVE);
1095
1096
1097 /**
1098 Deletes the specified directory from the file system.
1099
1100 @param flags
1101 Can contain one of wxPATH_RMDIR_FULL or wxPATH_RMDIR_RECURSIVE. By
1102 default contains neither so the directory will not be removed
1103 unless it is empty.
1104
1105 @return Returns @true if the directory was successfully deleted, @false
1106 otherwise.
1107 */
1108 bool Rmdir(int flags = 0) const;
1109
1110 /**
1111 Deletes the specified directory from the file system.
1112
1113 @param dir
1114 The directory to delete
1115 @param flags
1116 Can contain one of wxPATH_RMDIR_FULL or wxPATH_RMDIR_RECURSIVE. By
1117 default contains neither so the directory will not be removed
1118 unless it is empty.
1119
1120 @return Returns @true if the directory was successfully deleted, @false
1121 otherwise.
1122 */
1123 static bool Rmdir(const wxString& dir, int flags = 0);
1124
1125 /**
1126 Compares the filename using the rules of this platform.
1127 */
1128 bool SameAs(const wxFileName& filepath,
1129 wxPathFormat format = wxPATH_NATIVE) const;
1130
1131 /**
1132 Changes the current working directory.
1133 */
1134 bool SetCwd() const;
1135
1136 /**
1137 Changes the current working directory.
1138 */
1139 static bool SetCwd(const wxString& cwd);
1140
1141 /**
1142 Sets the extension of the file name to be an empty extension.
1143 This is different from having no extension at all as the file
1144 name will have a trailing dot after a call to this method.
1145
1146 @see SetExt(), ClearExt()
1147 */
1148 void SetEmptyExt();
1149
1150 /**
1151 Sets the extension of the file name.
1152
1153 Setting an empty string as the extension will remove the extension
1154 resulting in a file name without a trailing dot, unlike a call to
1155 SetEmptyExt().
1156
1157 @see SetEmptyExt(), ClearExt()
1158 */
1159 void SetExt(const wxString& ext);
1160
1161 /**
1162 The full name is the file name and extension (but without the path).
1163 */
1164 void SetFullName(const wxString& fullname);
1165
1166 /**
1167 Sets the name part (without extension).
1168
1169 @see SetFullName()
1170 */
1171 void SetName(const wxString& name);
1172
1173 /**
1174 Sets the path.
1175
1176 The @a path argument includes both the path and the volume, if
1177 supported by @a format.
1178
1179 Calling this function doesn't affect the name and extension components,
1180 to change them as well you can use Assign() or just an assignment
1181 operator.
1182
1183 @see GetPath()
1184 */
1185 void SetPath(const wxString& path, wxPathFormat format = wxPATH_NATIVE);
1186
1187 /**
1188 Sets the file creation and last access/modification times (any of the pointers
1189 may be @NULL).
1190 */
1191 bool SetTimes(const wxDateTime* dtAccess,
1192 const wxDateTime* dtMod,
1193 const wxDateTime* dtCreate) const;
1194
1195 /**
1196 Sets the volume specifier.
1197 */
1198 void SetVolume(const wxString& volume);
1199
1200 //@{
1201 /**
1202 This function splits a full file name into components: the volume (with the
1203 first version) path (including the volume in the second version), the base name
1204 and the extension.
1205
1206 Any of the output parameters (@e volume, @e path, @a name or @e ext) may
1207 be @NULL if you are not interested in the value of a particular component.
1208 Also, @a fullpath may be empty on entry.
1209 On return, @a path contains the file path (without the trailing separator),
1210 @a name contains the file name and @a ext contains the file extension
1211 without leading dot. All three of them may be empty if the corresponding
1212 component is. The old contents of the strings pointed to by these parameters
1213 will be overwritten in any case (if the pointers are not @NULL).
1214
1215 Note that for a filename "foo." the extension is present, as indicated by the
1216 trailing dot, but empty. If you need to cope with such cases, you should use
1217 @a hasExt instead of relying on testing whether @a ext is empty or not.
1218 */
1219 static void SplitPath(const wxString& fullpath,
1220 wxString* volume,
1221 wxString* path,
1222 wxString* name,
1223 wxString* ext,
1224 bool* hasExt = NULL,
1225 wxPathFormat format = wxPATH_NATIVE);
1226 static void SplitPath(const wxString& fullpath,
1227 wxString* volume,
1228 wxString* path,
1229 wxString* name,
1230 wxString* ext,
1231 wxPathFormat format);
1232 static void SplitPath(const wxString& fullpath,
1233 wxString* path,
1234 wxString* name,
1235 wxString* ext,
1236 wxPathFormat format = wxPATH_NATIVE);
1237 //@}
1238
1239 /**
1240 Splits the given @a fullpath into the volume part (which may be empty) and
1241 the pure path part, not containing any volume.
1242
1243 @see SplitPath()
1244 */
1245 static void SplitVolume(const wxString& fullpath,
1246 wxString* volume,
1247 wxString* path,
1248 wxPathFormat format = wxPATH_NATIVE);
1249
1250
1251 /**
1252 Strip the file extension.
1253
1254 This function does more than just removing everything after the last
1255 period from the string, for example it will return the string ".vimrc"
1256 unchanged because the part after the period is not an extension but the
1257 file name in this case. You can use wxString::BeforeLast() to really
1258 get just the part before the last period (but notice that that function
1259 returns empty string if period is not present at all unlike this
1260 function which returns the @a fullname unchanged in this case).
1261
1262 @param fullname
1263 File path including name and, optionally, extension.
1264
1265 @return
1266 File path without extension
1267
1268 @since 2.9.0
1269 */
1270 static wxString StripExtension(const wxString& fullname);
1271
1272 /**
1273 Sets the access and modification times to the current moment.
1274 */
1275 bool Touch() const;
1276
1277 /**
1278 Returns @true if the filenames are different. The string @e filenames
1279 is interpreted as a path in the native filename format.
1280 */
1281 bool operator!=(const wxFileName& filename) const;
1282
1283 /**
1284 Returns @true if the filenames are different. The string @e filenames
1285 is interpreted as a path in the native filename format.
1286 */
1287 bool operator!=(const wxString& filename) const;
1288
1289 /**
1290 Returns @true if the filenames are equal. The string @e filenames is
1291 interpreted as a path in the native filename format.
1292 */
1293 bool operator==(const wxFileName& filename) const;
1294
1295 /**
1296 Returns @true if the filenames are equal. The string @e filenames is
1297 interpreted as a path in the native filename format.
1298 */
1299 bool operator==(const wxString& filename) const;
1300
1301 /**
1302 Assigns the new value to this filename object.
1303 */
1304 wxFileName& operator=(const wxFileName& filename);
1305
1306 /**
1307 Assigns the new value to this filename object.
1308 */
1309 wxFileName& operator=(const wxString& filename);
1310 };