Sets our main struct and passes it to the parent class
Open a file filename as a GIOChannel using mode mode. This channel will be closed when the last reference to it is dropped, so there is no need to call g_io_channel_close() (though doing so will not cause problems, as long as no attempt is made to access the channel after it is closed).
Warning g_io_channel_close has been deprecated since version 2.2 and should not be used in newly-written code. Use g_io_channel_shutdown() instead. Close an IO channel. Any pending data to be written will be flushed, ignoring errors. The channel will not be freed until the last reference is dropped using g_io_channel_unref().
Increments the reference count of a GIOChannel.
Flushes the write buffer for the GIOChannel.
Adds the GIOChannel into the default main loop context with the default priority.
Adds the GIOChannel into the default main loop context with the given priority. This internally creates a main loop source using g_io_create_watch() and attaches it to the main loop context with g_source_attach(). You can do these steps manually if you need greater control.
Creates a GSource that's dispatched when condition is met for the given channel. For example, if condition is G_IO_IN, the source will be dispatched when there's data available for reading. g_io_add_watch() is a simpler interface to this same functionality, for the case where you want to add the source to the default main loop context at the default priority. On Windows, polling a GSource created to watch a channel for a socket puts the socket in non-blocking mode. This is a side-effect of the implementation and unavoidable.
This function returns a GIOCondition depending on whether there is data to be read/space to write data in the internal buffers in the GIOChannel. Only the flags G_IO_IN and G_IO_OUT may be set.
Gets the buffer size.
Returns whether channel is buffered.
Returns whether the file/socket/whatever associated with channel will be closed when channel receives its final unref and is destroyed. The default value of this is TRUE for channels created by g_io_channel_new_file(), and FALSE for all other channels.
Gets the encoding for the input/output of the channel. The internal encoding is always UTF-8. The encoding NULL makes the channel safe for binary data.
Gets the current flags for a GIOChannel, including read-only flags such as G_IO_FLAG_IS_READABLE. The values of the flags G_IO_FLAG_IS_READABLE and G_IO_FLAG_IS_WRITABLE are cached for internal use by the channel when it is created. If they should change at some later point (e.g. partial shutdown of a socket with the UNIX shutdown() function), the user should immediately call g_io_channel_get_flags() to update the internal values of these flags.
Get the main Gtk struct
This returns the string that GIOChannel uses to determine where in the file a line break occurs. A value of NULL indicates autodetection.
the main Gtk struct as a void*
Initializes a GIOChannel struct. This is called by each of the above functions when creating a GIOChannel, and so is not often needed by the application programmer (unless you are creating a new type of GIOChannel).
Warning g_io_channel_read has been deprecated since version 2.2 and should not be used in newly-written code. Use g_io_channel_read_chars() instead. Reads data from a GIOChannel.
Replacement for g_io_channel_read() with the new API.
Reads a line, including the terminating character(s), from a GIOChannel into a newly-allocated string. str_return will contain allocated memory if the return is G_IO_STATUS_NORMAL.
Reads a line from a GIOChannel, using a GString as a buffer.
Reads all the remaining data from the file.
Reads a Unicode character from channel. This function cannot be called on a channel with NULL encoding.
Warning g_io_channel_seek has been deprecated since version 2.2 and should not be used in newly-written code. Use g_io_channel_seek_position() instead. Sets the current position in the GIOChannel, similar to the standard library function fseek().
Replacement for g_io_channel_seek() with the new API.
Sets the buffer size.
The buffering state can only be set if the channel's encoding is NULL. For any other encoding, the channel must be buffered. A buffered channel can only be set unbuffered if the channel's internal buffers have been flushed. Newly created channels or channels which have returned G_IO_STATUS_EOF not require such a flush. For write-only channels, a call to g_io_channel_flush() is sufficient. For all other channels, the buffers may be flushed by a call to g_io_channel_seek_position(). This includes the possibility of seeking with seek type G_SEEK_CUR and an offset of zero. Note that this means that socket-based channels cannot be set unbuffered once they have had data read from them. On unbuffered channels, it is safe to mix read and write calls from the new and old APIs, if this is necessary for maintaining old code. The default state of the channel is buffered.
Setting this flag to TRUE for a channel you have already closed can cause problems.
Sets the encoding for the input/output of the channel. The internal encoding is always UTF-8. The default encoding for the external file is UTF-8. The encoding NULL is safe to use with binary data. The encoding can only be set if one of the following conditions
Sets the (writeable) flags in channel to (flags G_IO_FLAG_SET_MASK).
This sets the string that GIOChannel uses to determine where in the file a line break occurs.
Close an IO channel. Any pending data to be written will be flushed if flush is TRUE. The channel will not be freed until the last reference is dropped using g_io_channel_unref().
Returns the file descriptor of the GIOChannel. On Windows this function returns the file descriptor or socket of the GIOChannel.
Decrements the reference count of a GIOChannel.
Warning g_io_channel_write has been deprecated since version 2.2 and should not be used in newly-written code. Use g_io_channel_write_chars() instead. Writes data to a GIOChannel.
Replacement for g_io_channel_write() with the new API. On seekable channels with encodings other than NULL or UTF-8, generic mixing of reading and writing is not allowed. A call to g_io_channel_write_chars() may only be made on a channel from which data has been read in the cases described in the documentation for g_io_channel_set_encoding().
Writes a Unicode character to channel. This function cannot be called on a channel with NULL encoding.
Converts an errno error number to a GIOChannelError.
Creates a new GIOChannel given a file descriptor. On UNIX systems this works for plain files, pipes, and sockets. The returned GIOChannel has a reference count of 1. The default encoding for GIOChannel is UTF-8. If your application is reading output from a command using via pipe, you may need to set the encoding to the encoding of the current locale (see g_get_charset()) with the g_io_channel_set_encoding() function. If you want to read raw binary data without interpretation, then call the g_io_channel_set_encoding() function with NULL for the encoding argument. This function is available in GLib on Windows, too, but you should avoid using it on Windows. The domain of file descriptors and sockets overlap. There is no way for GLib to know which one you mean in case the argument you pass to this function happens to be both a valid file descriptor and socket. If that happens a warning is issued, and GLib assumes that it is the file descriptor you mean.
Creates a new GIOChannel given a file descriptor on Windows. This works for file descriptors from the C runtime. This function works for file descriptors as returned by the open(), creat(), pipe() and fileno() calls in the Microsoft C runtime. In order to meaningfully use this function your code should use the same C runtime as GLib uses, which is msvcrt.dll. Note that in current Microsoft compilers it is near impossible to convince it to build code that would use msvcrt.dll. The last Microsoft compiler version that supported using msvcrt.dll as the C runtime was version 6. The GNU compiler and toolchain for Windows, also known as Mingw, fully supports msvcrt.dll. If you have created a GIOChannel for a file descriptor and started watching (polling) it, you shouldn't call read() on the file descriptor. This is because adding polling for a file descriptor is implemented in GLib on Windows by starting a thread that sits blocked in a read() from the file descriptor most of the time. All reads from the file descriptor should be done by this internal GLib thread. Your code should call only g_io_channel_read(). This function is available only in GLib on Windows.
Creates a new GIOChannel given a window handle on Windows. This function creates a GIOChannel that can be used to poll for Windows messages for the window in question.
Creates a new GIOChannel given a socket on Windows. This function works for sockets created by Winsock. It's available only in GLib on Windows. Polling a GSource created to watch a channel for a socket puts the socket in non-blocking mode. This is a side-effect of the implementation and unavoidable.
the main Gtk struct
The GIOChannel data type aims to provide a portable method for using file descriptors, pipes, and sockets, and integrating them into the main event loop. Currently full support is available on UNIX platforms, support for Windows is only partially complete.
To create a new GIOChannel on UNIX systems use g_io_channel_unix_new(). This works for plain file descriptors, pipes and sockets. Alternatively, a channel can be created for a file in a system independent manner using g_io_channel_new_file().
Once a GIOChannel has been created, it can be used in a generic manner with the functions g_io_channel_read_chars(), g_io_channel_write_chars(), g_io_channel_seek_position(), and g_io_channel_shutdown().
To add a GIOChannel to the main event loop use g_io_add_watch() or g_io_add_watch_full(). Here you specify which events you are interested in on the GIOChannel, and provide a function to be called whenever these events occur.
GIOChannel instances are created with an initial reference count of 1. g_io_channel_ref() and g_io_channel_unref() can be used to increment or decrement the reference count respectively. When the reference count falls to 0, the GIOChannel is freed. (Though it isn't closed automatically, unless it was created using g_io_channel_new_file().) Using g_io_add_watch() or g_io_add_watch_full() increments a channel's reference count.
The new functions g_io_channel_read_chars(), g_io_channel_read_line(), g_io_channel_read_line_string(), g_io_channel_read_to_end(), g_io_channel_write_chars(), g_io_channel_seek_position(), and g_io_channel_flush() should not be mixed with the deprecated functions g_io_channel_read(), g_io_channel_write(), and g_io_channel_seek() on the same channel.