///////////////////////////////////////////////////////////////////////////// // Name: archive.h // Purpose: interface of wxArchive* classes // Author: wxWidgets team // RCS-ID: $Id$ // Licence: wxWindows license ///////////////////////////////////////////////////////////////////////////// /** @class wxArchiveInputStream This is an abstract base class which serves as a common interface to archive input streams such as wxZipInputStream. wxArchiveInputStream::GetNextEntry returns an wxArchiveEntry object containing the meta-data for the next entry in the archive (and gives away ownership). Reading from the wxArchiveInputStream then returns the entry's data. Eof() becomes @true after an attempt has been made to read past the end of the entry's data. When there are no more entries, GetNextEntry() returns @NULL and sets Eof(). @library{wxbase} @category{archive} @see @ref overview_archive, wxArchiveEntry, wxArchiveOutputStream */ class wxArchiveInputStream : public wxFilterInputStream { public: /** Closes the current entry. On a non-seekable stream reads to the end of the current entry first. */ virtual bool CloseEntry() = 0; /** Closes the current entry if one is open, then reads the meta-data for the next entry and returns it in a wxArchiveEntry object, giving away ownership. Reading this wxArchiveInputStream then returns the entry's data. */ wxArchiveEntry* GetNextEntry(); /** Closes the current entry if one is open, then opens the entry specified by the wxArchiveEntry object. @a entry must be from the same archive file that this wxArchiveInputStream is reading, and it must be reading it from a seekable stream. */ virtual bool OpenEntry(wxArchiveEntry& entry) = 0; }; /** @class wxArchiveOutputStream This is an abstract base class which serves as a common interface to archive output streams such as wxZipOutputStream. wxArchiveOutputStream::PutNextEntry is used to create a new entry in the output archive, then the entry's data is written to the wxArchiveOutputStream. Another call to PutNextEntry() closes the current entry and begins the next. @library{wxbase} @category{archive} @see @ref overview_archive, wxArchiveEntry, wxArchiveInputStream */ class wxArchiveOutputStream : public wxFilterOutputStream { public: /** Calls Close() if it has not already been called. */ virtual ~wxArchiveOutputStream(); /** Closes the archive, returning @true if it was successfully written. Called by the destructor if not called explicitly. @see wxOutputStream::Close() */ virtual bool Close(); /** Close the current entry. It is called implicitly whenever another new entry is created with CopyEntry() or PutNextEntry(), or when the archive is closed. */ virtual bool CloseEntry() = 0; /** Some archive formats have additional meta-data that applies to the archive as a whole. For example in the case of zip there is a comment, which is stored at the end of the zip file. CopyArchiveMetaData() can be used to transfer such information when writing a modified copy of an archive. Since the position of the meta-data can vary between the various archive formats, it is best to call CopyArchiveMetaData() before transferring the entries. The wxArchiveOutputStream will then hold on to the meta-data and write it at the correct point in the output file. When the input archive is being read from a non-seekable stream, the meta-data may not be available when CopyArchiveMetaData() is called, in which case the two streams set up a link and transfer the data when it becomes available. */ virtual bool CopyArchiveMetaData(wxArchiveInputStream& stream) = 0; /** Takes ownership of @a entry and uses it to create a new entry in the archive. @a entry is then opened in the input stream @a stream and its contents copied to this stream. For archive types which compress entry data, CopyEntry() is likely to be much more efficient than transferring the data using Read() and Write() since it will copy them without decompressing and recompressing them. @a entry must be from the same archive file that @a stream is accessing. For non-seekable streams, @a entry must also be the last thing read from @a stream. */ virtual bool CopyEntry(wxArchiveEntry* entry, wxArchiveInputStream& stream) = 0; /** Create a new directory entry (see wxArchiveEntry::IsDir) with the given name and timestamp. PutNextEntry() can also be used to create directory entries, by supplying a name with a trailing path separator. */ virtual bool PutNextDirEntry(const wxString& name, const wxDateTime& dt = wxDateTime::Now()) = 0; /** Takes ownership of entry and uses it to create a new entry in the archive. The entry's data can then be written by writing to this wxArchiveOutputStream. */ virtual bool PutNextEntry(wxArchiveEntry* entry) = 0; /** Create a new entry with the given name, timestamp and size. The entry's data can then be written by writing to this wxArchiveOutputStream. */ virtual bool PutNextEntry(const wxString& name, const wxDateTime& dt = wxDateTime::Now(), wxFileOffset size = wxInvalidOffset) = 0; }; /** @class wxArchiveEntry This is an abstract base class which serves as a common interface to archive entry classes such as wxZipEntry. These hold the meta-data (filename, timestamp, etc.), for entries in archive files such as zips and tars. @section wxarchiveentry_nonseekable About non-seekable streams This information applies only when reading archives from non-seekable streams. When the stream is seekable GetNextEntry() returns a fully populated wxArchiveEntry. See @ref overview_archive_noseek for more information. For generic programming, when the worst case must be assumed, you can rely on all the fields of wxArchiveEntry being fully populated when wxArchiveInputStream::GetNextEntry() returns, with the the following exceptions: @li GetSize(): guaranteed to be available after the entry has been read to Eof(), or CloseEntry() has been called; @li IsReadOnly(): guaranteed to be available after the end of the archive has been reached, i.e. after GetNextEntry() returns NULL and Eof() is true. @library{wxbase} @category{archive} @see @ref overview_archive, @ref overview_archive_generic, wxArchiveInputStream, wxArchiveOutputStream, wxArchiveNotifier */ class wxArchiveEntry : public wxObject { public: /** Returns a copy of this entry object. */ wxArchiveEntry* Clone() const; /** Gets the entry's timestamp. */ virtual wxDateTime GetDateTime() const = 0; /** Sets the entry's timestamp. */ virtual void SetDateTime(const wxDateTime& dt) = 0; /** Returns the entry's name, by default in the native format. The name can include directory components, i.e. it can be a full path. If this is a directory entry, (i.e. if IsDir() is @true) then the returned string is the name with a trailing path separator. */ virtual wxString GetName(wxPathFormat format = wxPATH_NATIVE) const = 0; /** Sets the entry's name. Setting a name with a trailing path separator sets IsDir(). @see GetName() */ virtual void SetName(const wxString& name, wxPathFormat format = wxPATH_NATIVE) = 0; /** Returns the size of the entry's data in bytes. */ virtual wxFileOffset GetSize() const = 0; /** Sets the size of the entry's data in bytes. */ virtual void SetSize(wxFileOffset size) = 0; /** Returns the path format used internally within the archive to store filenames. */ virtual wxPathFormat GetInternalFormat() const = 0; /** Returns the entry's filename in the internal format used within the archive. The name can include directory components, i.e. it can be a full path. The names of directory entries are returned without any trailing path separator. This gives a canonical name that can be used in comparisons. @see @ref overview_archive_byname */ virtual wxString GetInternalName() const = 0; /** Returns a numeric value unique to the entry within the archive. */ virtual wxFileOffset GetOffset() const = 0; /** Returns @true if this is a directory entry. Directory entries are entries with no data, which are used to store the meta-data of directories. They also make it possible for completely empty directories to be stored. @note The names of entries within an archive can be complete paths, and unarchivers typically create whatever directories are necessary as they restore files, even if the archive contains no explicit directory entries. */ virtual bool IsDir() const = 0; /** Marks this entry as a directory if @a isDir is @true. See IsDir() for more info. */ virtual void SetIsDir(bool isDir = true) = 0; /** Returns @true if the entry is a read-only file. */ virtual bool IsReadOnly() const = 0; /** Sets this entry as a read-only file. */ virtual void SetIsReadOnly(bool isReadOnly = true) = 0; /** Sets the notifier (see wxArchiveNotifier) for this entry. Whenever the wxArchiveInputStream updates this entry, it will then invoke the associated notifier's wxArchiveNotifier::OnEntryUpdated method. Setting a notifier is not usually necessary. It is used to handle certain cases when modifying an archive in a pipeline (i.e. between non-seekable streams). */ void SetNotifier(wxArchiveNotifier& notifier); /** Unsets the notifier eventually attached to this entry. */ virtual void UnsetNotifier(); }; /** Type of stream enumeration; used by wxArchiveClassFactory methods. */ enum wxStreamProtocolType { wxSTREAM_PROTOCOL, //!< wxFileSystem protocol (should be only one) wxSTREAM_MIMETYPE, //!< MIME types the stream handles wxSTREAM_ENCODING, //!< Not used for archives wxSTREAM_FILEEXT //!< File extensions the stream handles }; /** @class wxArchiveClassFactory Allows the creation of streams to handle archive formats such as zip and tar. For example, given a filename you can search for a factory that will handle it and create a stream to read it: @code factory = wxArchiveClassFactory::Find(filename, wxSTREAM_FILEEXT); if (factory) stream = factory->NewStream(new wxFFileInputStream(filename)); @endcode wxArchiveClassFactory::Find can also search for a factory by MIME type or wxFileSystem protocol. The available factories can be enumerated using wxArchiveClassFactory::GetFirst() and wxArchiveClassFactory::GetNext(). @library{wxbase} @category{archive} @see @ref overview_archive, @ref overview_archive_generic, wxArchiveEntry, wxArchiveInputStream, wxArchiveOutputStream, wxFilterClassFactory */ class wxArchiveClassFactory : public wxObject { public: /** Returns @true if this factory can handle the given protocol, MIME type or file extension. When using wxSTREAM_FILEEXT for the second parameter, the first parameter can be a complete filename rather than just an extension. */ bool CanHandle(const wxChar* protocol, wxStreamProtocolType type = wxSTREAM_PROTOCOL) const; /** A static member that finds a factory that can handle a given protocol, MIME type or file extension. Returns a pointer to the class factory if found, or @NULL otherwise. It does not give away ownership of the factory. When using wxSTREAM_FILEEXT for the second parameter, the first parameter can be a complete filename rather than just an extension. */ static const wxArchiveClassFactory* Find(const wxChar* protocol, wxStreamProtocolType type = wxSTREAM_PROTOCOL); /** Returns the wxMBConv object that the created streams will use when translating meta-data. The initial default, set by the constructor, is wxConvLocal. */ wxMBConv GetConv() const; /** Sets the wxMBConv object that the created streams will use when translating meta-data. */ void SetConv(wxMBConv& conv); //@{ /** GetFirst and GetNext can be used to enumerate the available factories. For example, to list them: @code wxString list; const wxArchiveClassFactory *factory = wxArchiveClassFactory::GetFirst(); while (factory) { list << factory->GetProtocol() << _T("\n"); factory = factory->GetNext(); } @endcode GetFirst() and GetNext() return a pointer to a factory or @NULL if no more are available. They do not give away ownership of the factory. */ static const wxArchiveClassFactory* GetFirst() const; const wxArchiveClassFactory* GetNext() const; //@} /** Calls the static GetInternalName() function for the archive entry type, for example wxZipEntry::GetInternalName. */ wxString GetInternalName(const wxString& name, wxPathFormat format = wxPATH_NATIVE) const; /** Returns the wxFileSystem protocol supported by this factory. Equivalent to @code wxString(*GetProtocols()) @endcode. */ wxString GetProtocol() const; /** Returns the protocols, MIME types or file extensions supported by this factory, as an array of null terminated strings. It does not give away ownership of the array or strings. For example, to list the file extensions a factory supports: @code wxString list; const wxChar *const *p; for (p = factory->GetProtocols(wxSTREAM_FILEEXT); *p; p++) list << *p << _T("\n"); @encode */ const wxChar* const* GetProtocols(wxStreamProtocolType type = wxSTREAM_PROTOCOL) const; /** Create a new wxArchiveEntry object of the appropriate type. */ wxArchiveEntry* NewEntry() const; //@{ /** Create a new input or output stream to read or write an archive. If the parent stream is passed as a pointer then the new archive stream takes ownership of it. If it is passed by reference then it does not. */ wxArchiveInputStream* NewStream(wxInputStream& stream) const; wxArchiveOutputStream* NewStream(wxOutputStream& stream) const; wxArchiveInputStream* NewStream(wxInputStream* stream) const; wxArchiveOutputStream* NewStream(wxOutputStream* stream) const; //@} /** Adds this class factory to the list returned by GetFirst() or GetNext(). It is not necessary to do this to use the archive streams. It is usually used when implementing streams, typically the implementation will add a static instance of its factory class. It can also be used to change the order of a factory already in the list, bringing it to the front. This isn't a thread safe operation so can't be done when other threads are running that will be using the list. The list does not take ownership of the factory. */ void PushFront(); /** Removes this class factory from the list returned by GetFirst() and GetNext(). Removing from the list isn't a thread safe operation so can't be done when other threads are running that will be using the list. The list does not own the factories, so removing a factory does not delete it. */ void Remove(); }; /** @class wxArchiveNotifier If you need to know when a wxArchiveInputStream updates a wxArchiveEntry object, you can create a notifier by deriving from this abstract base class, overriding wxArchiveNotifier::OnEntryUpdated. An instance of your notifier class can then be assigned to the wxArchiveEntry object using wxArchiveEntry::SetNotifier. Your OnEntryUpdated() method will then be invoked whenever the input stream updates the entry. Setting a notifier is not usually necessary. It is used to handle certain cases when modifying an archive in a pipeline (i.e. between non-seekable streams). See @ref overview_archive_noseek. @library{wxbase} @category{archive} @see @ref overview_archive_noseek, wxArchiveEntry, wxArchiveInputStream, wxArchiveOutputStream */ class wxArchiveNotifier { public: /** This method must be overridden in your derived class. */ void OnEntryUpdated(class wxArchiveEntry& entry); }; /** @class wxArchiveIterator An input iterator template class that can be used to transfer an archive's catalogue to a container. It is only available if wxUSE_STL is set to 1 in setup.h, and the uses for it outlined below require a compiler which supports member templates. @code template class Arc, class T = typename Arc::entry_type* class wxArchiveIterator { // this constructor creates an 'end of sequence' object wxArchiveIterator(); // template parameter 'Arc' should be the type of an archive input stream wxArchiveIterator(Arc& arc) { // ... } }; @endcode The first template parameter should be the type of archive input stream (e.g. wxArchiveInputStream) and the second can either be a pointer to an entry (e.g. wxArchiveEntry*), or a string/pointer pair (e.g. std::pairwxString, wxArchiveEntry*). The @c wx/archive.h header defines the following typedefs: @code typedef wxArchiveIterator wxArchiveIter; typedef wxArchiveIterator > wxArchivePairIter; @endcode The header for any implementation of this interface should define similar typedefs for its types, for example in @c wx/zipstrm.h there is: @code typedef wxArchiveIterator wxZipIter; typedef wxArchiveIterator > wxZipPairIter; @endcode Transferring the catalogue of an archive @e arc to a vector @e cat, can then be done something like this: @code std::vector cat((wxArchiveIter)arc, wxArchiveIter()); @endcode When the iterator is dereferenced, it gives away ownership of an entry object. So in the above example, when you have finished with @e cat you must delete the pointers it contains. If you have smart pointers with normal copy semantics (i.e. not auto_ptr or wxScopedPtr), then you can create an iterator which uses them instead. For example, with a smart pointer class for zip entries @e ZipEntryPtr: @code typedef std::vector ZipCatalog; typedef wxArchiveIterator ZipIter; ZipCatalog cat((ZipIter)zip, ZipIter()); @endcode Iterators that return std::pair objects can be used to populate a std::multimap, to allow entries to be looked up by name. The string is initialised using the wxArchiveEntry object's wxArchiveEntry::GetInternalName function. @code typedef std::multimap ZipCatalog; ZipCatalog cat((wxZipPairIter)zip, wxZipPairIter()); @endcode Note that this iterator also gives away ownership of an entry object each time it is dereferenced. So in the above example, when you have finished with @e cat you must delete the pointers it contains. Or if you have them, a pair containing a smart pointer can be used (again @e ZipEntryPtr), no worries about ownership: @code typedef std::multimap ZipCatalog; typedef wxArchiveIterator > ZipPairIter; ZipCatalog cat((ZipPairIter)zip, ZipPairIter()); @endcode @library{wxbase} @category{archive} @see wxArchiveEntry, wxArchiveInputStream, wxArchiveOutputStream */ class wxArchiveIterator { public: /** Default constructor. */ wxArchiveIterator(); /** Construct the iterator that returns all the entries in the archive input stream @a arc. */ wxArchiveIterator(Arc& arc); /** Returns an entry object from the archive input stream, giving away ownership. */ const T operator*() const; //@{ /** Position the input iterator at the next entry in the archive input stream. */ wxArchiveIterator operator++(); wxArchiveIterator operator++(int); //@} };