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// This file was generated by gir (https://github.com/gtk-rs/gir)
// from gir-files (https://github.com/gtk-rs/gir-files)
// DO NOT EDIT
use crate::{AsyncResult, Cancellable, InputStream, OutputStream};
use glib::{
prelude::*,
signal::{connect_raw, SignalHandlerId},
translate::*,
};
use std::{boxed::Box as Box_, fmt, mem::transmute, pin::Pin, ptr};
glib::wrapper! {
/// GIOStream represents an object that has both read and write streams.
/// Generally the two streams act as separate input and output streams,
/// but they share some common resources and state. For instance, for
/// seekable streams, both streams may use the same position.
///
/// Examples of [`IOStream`][crate::IOStream] objects are [`SocketConnection`][crate::SocketConnection], which represents
/// a two-way network connection; and [`FileIOStream`][crate::FileIOStream], which represents a
/// file handle opened in read-write mode.
///
/// To do the actual reading and writing you need to get the substreams
/// with [`IOStreamExt::input_stream()`][crate::prelude::IOStreamExt::input_stream()] and [`IOStreamExt::output_stream()`][crate::prelude::IOStreamExt::output_stream()].
///
/// The [`IOStream`][crate::IOStream] object owns the input and the output streams, not the other
/// way around, so keeping the substreams alive will not keep the [`IOStream`][crate::IOStream]
/// object alive. If the [`IOStream`][crate::IOStream] object is freed it will be closed, thus
/// closing the substreams, so even if the substreams stay alive they will
/// always return [`IOErrorEnum::Closed`][crate::IOErrorEnum::Closed] for all operations.
///
/// To close a stream use [`IOStreamExt::close()`][crate::prelude::IOStreamExt::close()] which will close the common
/// stream object and also the individual substreams. You can also close
/// the substreams themselves. In most cases this only marks the
/// substream as closed, so further I/O on it fails but common state in the
/// [`IOStream`][crate::IOStream] may still be open. However, some streams may support
/// "half-closed" states where one direction of the stream is actually shut down.
///
/// Operations on `GIOStreams` cannot be started while another operation on the
/// [`IOStream`][crate::IOStream] or its substreams is in progress. Specifically, an application can
/// read from the [`InputStream`][crate::InputStream] and write to the [`OutputStream`][crate::OutputStream] simultaneously
/// (either in separate threads, or as asynchronous operations in the same
/// thread), but an application cannot start any [`IOStream`][crate::IOStream] operation while there
/// is a [`IOStream`][crate::IOStream], [`InputStream`][crate::InputStream] or [`OutputStream`][crate::OutputStream] operation in progress, and
/// an application can’t start any [`InputStream`][crate::InputStream] or [`OutputStream`][crate::OutputStream] operation
/// while there is a [`IOStream`][crate::IOStream] operation in progress.
///
/// This is a product of individual stream operations being associated with a
/// given [`glib::MainContext`][crate::glib::MainContext] (the thread-default context at the time the operation was
/// started), rather than entire streams being associated with a single
/// [`glib::MainContext`][crate::glib::MainContext].
///
/// GIO may run operations on `GIOStreams` from other (worker) threads, and this
/// may be exposed to application code in the behaviour of wrapper streams, such
/// as [`BufferedInputStream`][crate::BufferedInputStream] or [`TlsConnection`][crate::TlsConnection]. With such wrapper APIs,
/// application code may only run operations on the base (wrapped) stream when
/// the wrapper stream is idle. Note that the semantics of such operations may
/// not be well-defined due to the state the wrapper stream leaves the base
/// stream in (though they are guaranteed not to crash).
///
/// This is an Abstract Base Class, you cannot instantiate it.
///
/// ## Properties
///
///
/// #### `closed`
/// Readable
///
///
/// #### `input-stream`
/// Readable
///
///
/// #### `output-stream`
/// Readable
///
/// # Implements
///
/// [`IOStreamExt`][trait@crate::prelude::IOStreamExt], [`trait@glib::ObjectExt`], [`IOStreamExtManual`][trait@crate::prelude::IOStreamExtManual]
#[doc(alias = "GIOStream")]
pub struct IOStream(Object<ffi::GIOStream, ffi::GIOStreamClass>);
match fn {
type_ => || ffi::g_io_stream_get_type(),
}
}
impl IOStream {
pub const NONE: Option<&'static IOStream> = None;
}
/// Trait containing all [`struct@IOStream`] methods.
///
/// # Implementors
///
/// [`FileIOStream`][struct@crate::FileIOStream], [`IOStream`][struct@crate::IOStream], [`SimpleIOStream`][struct@crate::SimpleIOStream], [`SocketConnection`][struct@crate::SocketConnection], [`TlsConnection`][struct@crate::TlsConnection]
pub trait IOStreamExt: 'static {
/// Clears the pending flag on `self`.
#[doc(alias = "g_io_stream_clear_pending")]
fn clear_pending(&self);
/// Closes the stream, releasing resources related to it. This will also
/// close the individual input and output streams, if they are not already
/// closed.
///
/// Once the stream is closed, all other operations will return
/// [`IOErrorEnum::Closed`][crate::IOErrorEnum::Closed]. Closing a stream multiple times will not
/// return an error.
///
/// Closing a stream will automatically flush any outstanding buffers
/// in the stream.
///
/// Streams will be automatically closed when the last reference
/// is dropped, but you might want to call this function to make sure
/// resources are released as early as possible.
///
/// Some streams might keep the backing store of the stream (e.g. a file
/// descriptor) open after the stream is closed. See the documentation for
/// the individual stream for details.
///
/// On failure the first error that happened will be reported, but the
/// close operation will finish as much as possible. A stream that failed
/// to close will still return [`IOErrorEnum::Closed`][crate::IOErrorEnum::Closed] for all operations.
/// Still, it is important to check and report the error to the user,
/// otherwise there might be a loss of data as all data might not be written.
///
/// If `cancellable` is not NULL, then the operation can be cancelled by
/// triggering the cancellable object from another thread. If the operation
/// was cancelled, the error [`IOErrorEnum::Cancelled`][crate::IOErrorEnum::Cancelled] will be returned.
/// Cancelling a close will still leave the stream closed, but some streams
/// can use a faster close that doesn't block to e.g. check errors.
///
/// The default implementation of this method just calls close on the
/// individual input/output streams.
/// ## `cancellable`
/// optional [`Cancellable`][crate::Cancellable] object, [`None`] to ignore
///
/// # Returns
///
/// [`true`] on success, [`false`] on failure
#[doc(alias = "g_io_stream_close")]
fn close(&self, cancellable: Option<&impl IsA<Cancellable>>) -> Result<(), glib::Error>;
/// Requests an asynchronous close of the stream, releasing resources
/// related to it. When the operation is finished `callback` will be
/// called. You can then call `g_io_stream_close_finish()` to get
/// the result of the operation.
///
/// For behaviour details see [`close()`][Self::close()].
///
/// The asynchronous methods have a default fallback that uses threads
/// to implement asynchronicity, so they are optional for inheriting
/// classes. However, if you override one you must override all.
/// ## `io_priority`
/// the io priority of the request
/// ## `cancellable`
/// optional cancellable object
/// ## `callback`
/// callback to call when the request is satisfied
#[doc(alias = "g_io_stream_close_async")]
fn close_async<P: FnOnce(Result<(), glib::Error>) + 'static>(
&self,
io_priority: glib::Priority,
cancellable: Option<&impl IsA<Cancellable>>,
callback: P,
);
fn close_future(
&self,
io_priority: glib::Priority,
) -> Pin<Box_<dyn std::future::Future<Output = Result<(), glib::Error>> + 'static>>;
/// Gets the input stream for this object. This is used
/// for reading.
///
/// # Returns
///
/// a [`InputStream`][crate::InputStream], owned by the [`IOStream`][crate::IOStream].
/// Do not free.
#[doc(alias = "g_io_stream_get_input_stream")]
#[doc(alias = "get_input_stream")]
fn input_stream(&self) -> InputStream;
/// Gets the output stream for this object. This is used for
/// writing.
///
/// # Returns
///
/// a [`OutputStream`][crate::OutputStream], owned by the [`IOStream`][crate::IOStream].
/// Do not free.
#[doc(alias = "g_io_stream_get_output_stream")]
#[doc(alias = "get_output_stream")]
fn output_stream(&self) -> OutputStream;
/// Checks if a stream has pending actions.
///
/// # Returns
///
/// [`true`] if `self` has pending actions.
#[doc(alias = "g_io_stream_has_pending")]
fn has_pending(&self) -> bool;
/// Checks if a stream is closed.
///
/// # Returns
///
/// [`true`] if the stream is closed.
#[doc(alias = "g_io_stream_is_closed")]
fn is_closed(&self) -> bool;
/// Sets `self` to have actions pending. If the pending flag is
/// already set or `self` is closed, it will return [`false`] and set
/// `error`.
///
/// # Returns
///
/// [`true`] if pending was previously unset and is now set.
#[doc(alias = "g_io_stream_set_pending")]
fn set_pending(&self) -> Result<(), glib::Error>;
#[doc(alias = "closed")]
fn connect_closed_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId;
}
impl<O: IsA<IOStream>> IOStreamExt for O {
fn clear_pending(&self) {
unsafe {
ffi::g_io_stream_clear_pending(self.as_ref().to_glib_none().0);
}
}
fn close(&self, cancellable: Option<&impl IsA<Cancellable>>) -> Result<(), glib::Error> {
unsafe {
let mut error = ptr::null_mut();
let is_ok = ffi::g_io_stream_close(
self.as_ref().to_glib_none().0,
cancellable.map(|p| p.as_ref()).to_glib_none().0,
&mut error,
);
debug_assert_eq!(is_ok == glib::ffi::GFALSE, !error.is_null());
if error.is_null() {
Ok(())
} else {
Err(from_glib_full(error))
}
}
}
fn close_async<P: FnOnce(Result<(), glib::Error>) + 'static>(
&self,
io_priority: glib::Priority,
cancellable: Option<&impl IsA<Cancellable>>,
callback: P,
) {
let main_context = glib::MainContext::ref_thread_default();
let is_main_context_owner = main_context.is_owner();
let has_acquired_main_context = (!is_main_context_owner)
.then(|| main_context.acquire().ok())
.flatten();
assert!(
is_main_context_owner || has_acquired_main_context.is_some(),
"Async operations only allowed if the thread is owning the MainContext"
);
let user_data: Box_<glib::thread_guard::ThreadGuard<P>> =
Box_::new(glib::thread_guard::ThreadGuard::new(callback));
unsafe extern "C" fn close_async_trampoline<
P: FnOnce(Result<(), glib::Error>) + 'static,
>(
_source_object: *mut glib::gobject_ffi::GObject,
res: *mut crate::ffi::GAsyncResult,
user_data: glib::ffi::gpointer,
) {
let mut error = ptr::null_mut();
let _ = ffi::g_io_stream_close_finish(_source_object as *mut _, res, &mut error);
let result = if error.is_null() {
Ok(())
} else {
Err(from_glib_full(error))
};
let callback: Box_<glib::thread_guard::ThreadGuard<P>> =
Box_::from_raw(user_data as *mut _);
let callback: P = callback.into_inner();
callback(result);
}
let callback = close_async_trampoline::<P>;
unsafe {
ffi::g_io_stream_close_async(
self.as_ref().to_glib_none().0,
io_priority.into_glib(),
cancellable.map(|p| p.as_ref()).to_glib_none().0,
Some(callback),
Box_::into_raw(user_data) as *mut _,
);
}
}
fn close_future(
&self,
io_priority: glib::Priority,
) -> Pin<Box_<dyn std::future::Future<Output = Result<(), glib::Error>> + 'static>> {
Box_::pin(crate::GioFuture::new(
self,
move |obj, cancellable, send| {
obj.close_async(io_priority, Some(cancellable), move |res| {
send.resolve(res);
});
},
))
}
fn input_stream(&self) -> InputStream {
unsafe {
from_glib_none(ffi::g_io_stream_get_input_stream(
self.as_ref().to_glib_none().0,
))
}
}
fn output_stream(&self) -> OutputStream {
unsafe {
from_glib_none(ffi::g_io_stream_get_output_stream(
self.as_ref().to_glib_none().0,
))
}
}
fn has_pending(&self) -> bool {
unsafe { from_glib(ffi::g_io_stream_has_pending(self.as_ref().to_glib_none().0)) }
}
fn is_closed(&self) -> bool {
unsafe { from_glib(ffi::g_io_stream_is_closed(self.as_ref().to_glib_none().0)) }
}
fn set_pending(&self) -> Result<(), glib::Error> {
unsafe {
let mut error = ptr::null_mut();
let is_ok = ffi::g_io_stream_set_pending(self.as_ref().to_glib_none().0, &mut error);
debug_assert_eq!(is_ok == glib::ffi::GFALSE, !error.is_null());
if error.is_null() {
Ok(())
} else {
Err(from_glib_full(error))
}
}
}
fn connect_closed_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_closed_trampoline<P: IsA<IOStream>, F: Fn(&P) + 'static>(
this: *mut ffi::GIOStream,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(IOStream::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::closed\0".as_ptr() as *const _,
Some(transmute::<_, unsafe extern "C" fn()>(
notify_closed_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
}
impl fmt::Display for IOStream {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.write_str("IOStream")
}
}