\section{Streams in wxWindows overview}\label{wxstreamoverview} Classes: \helpref{wxStreamBase}{wxstreambase}, \helpref{wxStreamBuffer}{wxstreambuffer}, \helpref{wxInputStream}{wxinputstream}, \helpref{wxOutputStream}{wxoutputstream}, \helpref{wxFilterInputStream}{wxfilterinputstream}, \helpref{wxFilterOutputStream}{wxfilteroutputstream} \wxheading{Purpose of wxStream} We had troubles with standard C++ streams on several platforms: they react quite well in most cases, but in the multi-threaded case, for example, they have many problems. Some Borland Compilers refuse to work at all with them and using iostreams on Linux makes writing programs, that are binary compatible across different Linux distributions, impossible. Therefore, wxStreams have been added to wxWindows because an application should compile and run on all supported platforms and we don't want users to depend on release X.XX of libg++ or some other compiler to run the program. wxStreams is divided in two main parts: \begin{enumerate}\itemsep=0pt \item the core: wxStreamBase, wxStreamBuffer, wxInputStream, wxOutputStream, wxFilterIn/OutputStream \item the "IO" classes: wxSocketIn/OutputStream, wxDataIn/OutputStream, wxFileIn/OutputStream, ... \end{enumerate} wxStreamBase is the base definition of a stream. It defines, for example, the API of OnSysRead, OnSysWrite, OnSysSeek and OnSysTell. These functions are are really implemented by the "IO" classes. wxInputStream and wxOutputStream inherit from it. wxStreamBuffer is a cache manager for wxStreamBase (it manages a stream buffer linked to a stream). One stream can have multiple stream buffers but one stream have always one autoinitialized stream buffer. wxInputStream is the base class for read-only streams. It implements Read, SeekI (I for Input), and all read or IO generic related functions. wxOutputStream does the same thing but it is for write-only streams. wxFilterIn/OutputStream is base class definition for stream filtering. I mean by stream filtering, a stream which does no syscall but filter datas which are passed to it and then pass them to another stream. For example, wxZLibInputStream is an inline stream decompressor. The "IO" classes implements the specific parts of the stream. This could be nothing in the case of wxMemoryIn/OutputStream which bases itself on wxStreamBuffer. This could also be a simple link to the a true syscall (for example read(...), write(...)). \wxheading{Generic usage: an example} Usage is simple. We can take the example of wxFileInputStream and here is some sample code: \begin{verbatim} ... // The constructor initializes the stream buffer and open the file descriptor // associated to the name of the file. wxFileInputStream in_stream("the_file_to_be_read"); // Ok, read some bytes ... nb_datas is expressed in bytes. in_stream.Read(data, nb_datas); if (in_stream.LastError() != wxStream_NOERROR) { // Oh oh, something bad happens. // For a complete list, look into the documentation at wxStreamBase. } // You can also inline all like this. if (in_stream.Read(data, nb_datas).LastError() != wxStream_NOERROR) { // Do something. } // You can also get the last number of bytes REALLY put into the buffer. size_t really_read = in_stream.LastRead(); // Ok, moves to the beginning of the stream. SeekI returns the last position // in the stream counted from the beginning. off_t old_position = in_stream.SeekI(0, wxFromBeginning); // What is my current position ? off_t position = in_stream.TellI(); // wxFileInputStream will close the file descriptor on the destruction. \end{verbatim} \wxheading{Compatibility with C++ streams} As I said previously, we could add a filter stream so it takes an istream argument and builds a wxInputStream from it: I don't think it should be difficult to implement it and it may be available in the fix of wxWindows 2.0.