///////////////////////////////////////////////////////////////////////////// // Name: zstream.h // Purpose: documentation for wxZlibOutputStream class // Author: wxWidgets team // RCS-ID: $Id$ // Licence: wxWindows license ///////////////////////////////////////////////////////////////////////////// /** @class wxZlibOutputStream @wxheader{zstream.h} This stream compresses all data written to it. The compressed output can be in zlib or gzip format. Note that writing the gzip format requires zlib version 1.2.1 or greater (the builtin version does support gzip format). The stream is not seekable, wxOutputStream::SeekO returns @e wxInvalidOffset. @library{wxbase} @category{streams} @seealso wxOutputStream, wxZlibInputStream */ class wxZlibOutputStream : public wxFilterOutputStream { public: //@{ /** Creates a new write-only compressed stream. @a level means level of compression. It is number between 0 and 9 (including these values) where 0 means no compression and 9 best but slowest compression. -1 is default value (currently equivalent to 6). If the parent stream is passed as a pointer then the new filter stream takes ownership of it. If it is passed by reference then it does not. The @a flags wxZLIB_ZLIB and wxZLIB_GZIP specify whether the output data will be in zlib or gzip format. wxZLIB_ZLIB is the default. If @a flags is wxZLIB_NO_HEADER, then a raw deflate stream is output without either zlib or gzip headers. This is a lower level mode, which is not usually used directly. It can be used to embed a raw deflate stream in a higher level protocol. The following symbols can be use for the compression level and flags: */ wxZlibOutputStream(wxOutputStream& stream, int level = -1, int flags = wxZLIB_ZLIB); wxZlibOutputStream(wxOutputStream* stream, int level = -1, int flags = wxZLIB_ZLIB); //@} /** Returns @true if zlib library in use can handle gzip compressed data. */ static bool CanHandleGZip(); }; /** @class wxZlibInputStream @wxheader{zstream.h} This filter stream decompresses a stream that is in zlib or gzip format. Note that reading the gzip format requires zlib version 1.2.1 or greater, (the builtin version does support gzip format). The stream is not seekable, wxInputStream::SeekI returns @e wxInvalidOffset. Also wxStreamBase::GetSize is not supported, it always returns 0. @library{wxbase} @category{streams} @seealso wxInputStream, wxZlibOutputStream. */ class wxZlibInputStream : public wxFilterInputStream { public: //@{ /** If the parent stream is passed as a pointer then the new filter stream takes ownership of it. If it is passed by reference then it does not. The @a flags wxZLIB_ZLIB and wxZLIB_GZIP specify whether the input data is in zlib or gzip format. If wxZLIB_AUTO is used, then zlib will autodetect the stream type, this is the default. If @a flags is wxZLIB_NO_HEADER, then the data is assumed to be a raw deflate stream without either zlib or gzip headers. This is a lower level mode, which is not usually used directly. It can be used to read a raw deflate stream embedded in a higher level protocol. This version is not by default compatible with the output produced by the version of @e wxZlibOutputStream in wxWidgets 2.4.x. However, there is a compatibility mode, which is switched on by passing wxZLIB_24COMPATIBLE for flags. Note that in when operating in compatibility mode error checking is very much reduced. The following symbols can be use for the flags: */ wxZlibInputStream(wxInputStream& stream, int flags = wxZLIB_AUTO); wxZlibInputStream(wxInputStream* stream, int flags = wxZLIB_AUTO); //@} /** Returns @true if zlib library in use can handle gzip compressed data. */ static bool CanHandleGZip(); };