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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};
use glib::{prelude::*, translate::*};
use std::{boxed::Box as Box_, pin::Pin};
glib::wrapper! {
/// `GAsyncInitable` is an interface for asynchronously initializable objects.
///
/// This is the asynchronous version of [`Initable`][crate::Initable]; it behaves the same
/// in all ways except that initialization is asynchronous. For more details
/// see the descriptions on `GInitable`.
///
/// A class may implement both the `GInitable` and `GAsyncInitable` interfaces.
///
/// Users of objects implementing this are not intended to use the interface
/// method directly; instead it will be used automatically in various ways.
/// For C applications you generally just call [`new_async()`][Self::new_async()]
/// directly, or indirectly via a foo_thing_new_async() wrapper. This will call
/// [`AsyncInitableExt::init_async()`][crate::prelude::AsyncInitableExt::init_async()] under the covers, calling back with `NULL`
/// and a set `GError` on failure.
///
/// A typical implementation might look something like this:
///
/// **⚠️ The following code is in c ⚠️**
///
/// ```c
/// enum {
/// NOT_INITIALIZED,
/// INITIALIZING,
/// INITIALIZED
/// };
///
/// static void
/// _foo_ready_cb (Foo *self)
/// {
/// GList *l;
///
/// self->priv->state = INITIALIZED;
///
/// for (l = self->priv->init_results; l != NULL; l = l->next)
/// {
/// GTask *task = l->data;
///
/// if (self->priv->success)
/// g_task_return_boolean (task, TRUE);
/// else
/// g_task_return_new_error (task, ...);
/// g_object_unref (task);
/// }
///
/// g_list_free (self->priv->init_results);
/// self->priv->init_results = NULL;
/// }
///
/// static void
/// foo_init_async (GAsyncInitable *initable,
/// int io_priority,
/// GCancellable *cancellable,
/// GAsyncReadyCallback callback,
/// gpointer user_data)
/// {
/// Foo *self = FOO (initable);
/// GTask *task;
///
/// task = g_task_new (initable, cancellable, callback, user_data);
/// g_task_set_name (task, G_STRFUNC);
///
/// switch (self->priv->state)
/// {
/// case NOT_INITIALIZED:
/// _foo_get_ready (self);
/// self->priv->init_results = g_list_append (self->priv->init_results,
/// task);
/// self->priv->state = INITIALIZING;
/// break;
/// case INITIALIZING:
/// self->priv->init_results = g_list_append (self->priv->init_results,
/// task);
/// break;
/// case INITIALIZED:
/// if (!self->priv->success)
/// g_task_return_new_error (task, ...);
/// else
/// g_task_return_boolean (task, TRUE);
/// g_object_unref (task);
/// break;
/// }
/// }
///
/// static gboolean
/// foo_init_finish (GAsyncInitable *initable,
/// GAsyncResult *result,
/// GError **error)
/// {
/// g_return_val_if_fail (g_task_is_valid (result, initable), FALSE);
///
/// return g_task_propagate_boolean (G_TASK (result), error);
/// }
///
/// static void
/// foo_async_initable_iface_init (gpointer g_iface,
/// gpointer data)
/// {
/// GAsyncInitableIface *iface = g_iface;
///
/// iface->init_async = foo_init_async;
/// iface->init_finish = foo_init_finish;
/// }
/// ```
///
/// # Implements
///
/// [`AsyncInitableExt`][trait@crate::prelude::AsyncInitableExt]
#[doc(alias = "GAsyncInitable")]
pub struct AsyncInitable(Interface<ffi::GAsyncInitable, ffi::GAsyncInitableIface>);
match fn {
type_ => || ffi::g_async_initable_get_type(),
}
}
impl AsyncInitable {
pub const NONE: Option<&'static AsyncInitable> = None;
}
mod sealed {
pub trait Sealed {}
impl<T: super::IsA<super::AsyncInitable>> Sealed for T {}
}
/// Trait containing all [`struct@AsyncInitable`] methods.
///
/// # Implementors
///
/// [`AsyncInitable`][struct@crate::AsyncInitable], [`DBusConnection`][struct@crate::DBusConnection], [`DBusProxy`][struct@crate::DBusProxy]
pub trait AsyncInitableExt: IsA<AsyncInitable> + sealed::Sealed + 'static {
/// Starts asynchronous initialization of the object implementing the
/// interface. This must be done before any real use of the object after
/// initial construction. If the object also implements #GInitable you can
/// optionally call g_initable_init() instead.
///
/// This method is intended for language bindings. If writing in C,
/// g_async_initable_new_async() should typically be used instead.
///
/// When the initialization is finished, @callback will be called. You can
/// then call g_async_initable_init_finish() to get the result of the
/// initialization.
///
/// Implementations may also support cancellation. If @cancellable is not
/// [`None`], then initialization 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. If @cancellable is not [`None`], and
/// the object doesn't support cancellable initialization, the error
/// [`IOErrorEnum::NotSupported`][crate::IOErrorEnum::NotSupported] will be returned.
///
/// As with #GInitable, if the object is not initialized, or initialization
/// returns with an error, then all operations on the object except
/// g_object_ref() and g_object_unref() are considered to be invalid, and
/// have undefined behaviour. They will often fail with g_critical() or
/// g_warning(), but this must not be relied on.
///
/// Callers should not assume that a class which implements #GAsyncInitable can
/// be initialized multiple times; for more information, see g_initable_init().
/// If a class explicitly supports being initialized multiple times,
/// implementation requires yielding all subsequent calls to init_async() on the
/// results of the first call.
///
/// For classes that also support the #GInitable interface, the default
/// implementation of this method will run the g_initable_init() function
/// in a thread, so if you want to support asynchronous initialization via
/// threads, just implement the #GAsyncInitable interface without overriding
/// any interface methods.
/// ## `io_priority`
/// the [I/O priority][io-priority] of the operation
/// ## `cancellable`
/// optional #GCancellable object, [`None`] to ignore.
/// ## `callback`
/// a #GAsyncReadyCallback to call when the request is satisfied
#[doc(alias = "g_async_initable_init_async")]
unsafe fn init_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 init_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 = std::ptr::null_mut();
let _ = ffi::g_async_initable_init_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 = init_async_trampoline::<P>;
ffi::g_async_initable_init_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 _,
);
}
unsafe fn init_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.init_async(io_priority, Some(cancellable), move |res| {
send.resolve(res);
});
},
))
}
}
impl<O: IsA<AsyncInitable>> AsyncInitableExt for O {}