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// Take a look at the license at the top of the repository in the LICENSE file.
use crate::AsyncResult;
use crate::Cancellable;
use glib::object::IsA;
use glib::object::ObjectType as ObjectType_;
use glib::signal::connect_raw;
use glib::signal::SignalHandlerId;
use glib::translate::*;
use glib::value::ValueType;
use glib::Cast;
use std::boxed::Box as Box_;
use std::mem::transmute;
use std::ptr;
glib::wrapper! {
// rustdoc-stripper-ignore-next
/// `LocalTask` provides idiomatic access to gio's `GTask` API, for
/// instance by being generic over their value type, while not completely departing
/// from the underlying C API. `LocalTask` does not require its value to be `Send`
/// and `Sync` and thus is useful to to implement gio style asynchronous
/// tasks that run in the glib main loop. If you need to run tasks in threads
/// see the `Task` type.
///
/// The constructors of `LocalTask` and `Task` is marked as unsafe because this API does
/// not allow to automatically enforce all the invariants required to be a completely
/// safe abstraction. See the `Task` type for more details.
#[doc(alias = "GTask")]
pub struct LocalTask<V: ValueType>(Object<ffi::GTask, ffi::GTaskClass>) @implements AsyncResult;
match fn {
type_ => || ffi::g_task_get_type(),
}
}
glib::wrapper! {
// rustdoc-stripper-ignore-next
/// `Task` provides idiomatic access to gio's `GTask` API, for
/// instance by being generic over their value type, while not completely departing
/// from the underlying C API. `Task` is `Send` and `Sync` and requires its value to
/// also be `Send` and `Sync`, thus is useful to to implement gio style asynchronous
/// tasks that run in threads. If you need to only run tasks in glib main loop
/// see the `LocalTask` type.
///
/// The constructors of `LocalTask` and `Task` is marked as unsafe because this API does
/// not allow to automatically enforce all the invariants required to be a completely
/// safe abstraction. The caller is responsible to ensure the following requirements
/// are satisfied
///
/// * You should not create a `LocalTask`, upcast it to a `glib::Object` and then
/// downcast it to a `Task`, as this will bypass the thread safety requirements
/// * You should ensure that the `return_result`, `return_error_if_cancelled` and
/// `propagate()` methods are only called once.
// rustdoc-stripper-ignore-next-stop
/// A [`Task`][crate::Task] represents and manages a cancellable "task".
///
/// ## Asynchronous operations
///
/// The most common usage of [`Task`][crate::Task] is as a [`AsyncResult`][crate::AsyncResult], to
/// manage data during an asynchronous operation. You call
/// [`new()`][Self::new()] in the "start" method, followed by
/// [`set_task_data()`][Self::set_task_data()] and the like if you need to keep some
/// additional data associated with the task, and then pass the
/// task object around through your asynchronous operation.
/// Eventually, you will call a method such as
/// [`return_pointer()`][Self::return_pointer()] or [`return_error()`][Self::return_error()], which will
/// save the value you give it and then invoke the task's callback
/// function in the
/// [thread-default main context][g-main-context-push-thread-default]
/// where it was created (waiting until the next iteration of the main
/// loop first, if necessary). The caller will pass the [`Task`][crate::Task] back to
/// the operation's finish function (as a [`AsyncResult`][crate::AsyncResult]), and you can
/// use [`propagate_pointer()`][Self::propagate_pointer()] or the like to extract the
/// return value.
///
/// Using [`Task`][crate::Task] requires the thread-default [`glib::MainContext`][crate::glib::MainContext] from when the
/// [`Task`][crate::Task] was constructed to be running at least until the task has completed
/// and its data has been freed.
///
/// Here is an example for using GTask as a GAsyncResult:
///
///
/// **⚠️ The following code is in C ⚠️**
///
/// ```C
/// typedef struct {
/// CakeFrostingType frosting;
/// char *message;
/// } DecorationData;
///
/// static void
/// decoration_data_free (DecorationData *decoration)
/// {
/// g_free (decoration->message);
/// g_slice_free (DecorationData, decoration);
/// }
///
/// static void
/// baked_cb (Cake *cake,
/// gpointer user_data)
/// {
/// GTask *task = user_data;
/// DecorationData *decoration = g_task_get_task_data (task);
/// GError *error = NULL;
///
/// if (cake == NULL)
/// {
/// g_task_return_new_error (task, BAKER_ERROR, BAKER_ERROR_NO_FLOUR,
/// "Go to the supermarket");
/// g_object_unref (task);
/// return;
/// }
///
/// if (!cake_decorate (cake, decoration->frosting, decoration->message, &error))
/// {
/// g_object_unref (cake);
/// // g_task_return_error() takes ownership of error
/// g_task_return_error (task, error);
/// g_object_unref (task);
/// return;
/// }
///
/// g_task_return_pointer (task, cake, g_object_unref);
/// g_object_unref (task);
/// }
///
/// void
/// baker_bake_cake_async (Baker *self,
/// guint radius,
/// CakeFlavor flavor,
/// CakeFrostingType frosting,
/// const char *message,
/// GCancellable *cancellable,
/// GAsyncReadyCallback callback,
/// gpointer user_data)
/// {
/// GTask *task;
/// DecorationData *decoration;
/// Cake *cake;
///
/// task = g_task_new (self, cancellable, callback, user_data);
/// if (radius < 3)
/// {
/// g_task_return_new_error (task, BAKER_ERROR, BAKER_ERROR_TOO_SMALL,
/// "%ucm radius cakes are silly",
/// radius);
/// g_object_unref (task);
/// return;
/// }
///
/// cake = _baker_get_cached_cake (self, radius, flavor, frosting, message);
/// if (cake != NULL)
/// {
/// // _baker_get_cached_cake() returns a reffed cake
/// g_task_return_pointer (task, cake, g_object_unref);
/// g_object_unref (task);
/// return;
/// }
///
/// decoration = g_slice_new (DecorationData);
/// decoration->frosting = frosting;
/// decoration->message = g_strdup (message);
/// g_task_set_task_data (task, decoration, (GDestroyNotify) decoration_data_free);
///
/// _baker_begin_cake (self, radius, flavor, cancellable, baked_cb, task);
/// }
///
/// Cake *
/// baker_bake_cake_finish (Baker *self,
/// GAsyncResult *result,
/// GError **error)
/// {
/// g_return_val_if_fail (g_task_is_valid (result, self), NULL);
///
/// return g_task_propagate_pointer (G_TASK (result), error);
/// }
/// ```
///
/// ## Chained asynchronous operations
///
/// [`Task`][crate::Task] also tries to simplify asynchronous operations that
/// internally chain together several smaller asynchronous
/// operations. [`cancellable()`][Self::cancellable()], [`context()`][Self::context()],
/// and [`priority()`][Self::priority()] allow you to get back the task's
/// [`Cancellable`][crate::Cancellable], [`glib::MainContext`][crate::glib::MainContext], and [I/O priority][io-priority]
/// when starting a new subtask, so you don't have to keep track
/// of them yourself. [`attach_source()`][Self::attach_source()] simplifies the case
/// of waiting for a source to fire (automatically using the correct
/// [`glib::MainContext`][crate::glib::MainContext] and priority).
///
/// Here is an example for chained asynchronous operations:
///
///
/// **⚠️ The following code is in C ⚠️**
///
/// ```C
/// typedef struct {
/// Cake *cake;
/// CakeFrostingType frosting;
/// char *message;
/// } BakingData;
///
/// static void
/// decoration_data_free (BakingData *bd)
/// {
/// if (bd->cake)
/// g_object_unref (bd->cake);
/// g_free (bd->message);
/// g_slice_free (BakingData, bd);
/// }
///
/// static void
/// decorated_cb (Cake *cake,
/// GAsyncResult *result,
/// gpointer user_data)
/// {
/// GTask *task = user_data;
/// GError *error = NULL;
///
/// if (!cake_decorate_finish (cake, result, &error))
/// {
/// g_object_unref (cake);
/// g_task_return_error (task, error);
/// g_object_unref (task);
/// return;
/// }
///
/// // baking_data_free() will drop its ref on the cake, so we have to
/// // take another here to give to the caller.
/// g_task_return_pointer (task, g_object_ref (cake), g_object_unref);
/// g_object_unref (task);
/// }
///
/// static gboolean
/// decorator_ready (gpointer user_data)
/// {
/// GTask *task = user_data;
/// BakingData *bd = g_task_get_task_data (task);
///
/// cake_decorate_async (bd->cake, bd->frosting, bd->message,
/// g_task_get_cancellable (task),
/// decorated_cb, task);
///
/// return G_SOURCE_REMOVE;
/// }
///
/// static void
/// baked_cb (Cake *cake,
/// gpointer user_data)
/// {
/// GTask *task = user_data;
/// BakingData *bd = g_task_get_task_data (task);
/// GError *error = NULL;
///
/// if (cake == NULL)
/// {
/// g_task_return_new_error (task, BAKER_ERROR, BAKER_ERROR_NO_FLOUR,
/// "Go to the supermarket");
/// g_object_unref (task);
/// return;
/// }
///
/// bd->cake = cake;
///
/// // Bail out now if the user has already cancelled
/// if (g_task_return_error_if_cancelled (task))
/// {
/// g_object_unref (task);
/// return;
/// }
///
/// if (cake_decorator_available (cake))
/// decorator_ready (task);
/// else
/// {
/// GSource *source;
///
/// source = cake_decorator_wait_source_new (cake);
/// // Attach @source to @task's GMainContext and have it call
/// // decorator_ready() when it is ready.
/// g_task_attach_source (task, source, decorator_ready);
/// g_source_unref (source);
/// }
/// }
///
/// void
/// baker_bake_cake_async (Baker *self,
/// guint radius,
/// CakeFlavor flavor,
/// CakeFrostingType frosting,
/// const char *message,
/// gint priority,
/// GCancellable *cancellable,
/// GAsyncReadyCallback callback,
/// gpointer user_data)
/// {
/// GTask *task;
/// BakingData *bd;
///
/// task = g_task_new (self, cancellable, callback, user_data);
/// g_task_set_priority (task, priority);
///
/// bd = g_slice_new0 (BakingData);
/// bd->frosting = frosting;
/// bd->message = g_strdup (message);
/// g_task_set_task_data (task, bd, (GDestroyNotify) baking_data_free);
///
/// _baker_begin_cake (self, radius, flavor, cancellable, baked_cb, task);
/// }
///
/// Cake *
/// baker_bake_cake_finish (Baker *self,
/// GAsyncResult *result,
/// GError **error)
/// {
/// g_return_val_if_fail (g_task_is_valid (result, self), NULL);
///
/// return g_task_propagate_pointer (G_TASK (result), error);
/// }
/// ```
///
/// ## Asynchronous operations from synchronous ones
///
/// You can use [`run_in_thread()`][Self::run_in_thread()] to turn a synchronous
/// operation into an asynchronous one, by running it in a thread.
/// When it completes, the result will be dispatched to the
/// [thread-default main context][g-main-context-push-thread-default]
/// where the [`Task`][crate::Task] was created.
///
/// Running a task in a thread:
///
///
/// **⚠️ The following code is in C ⚠️**
///
/// ```C
/// typedef struct {
/// guint radius;
/// CakeFlavor flavor;
/// CakeFrostingType frosting;
/// char *message;
/// } CakeData;
///
/// static void
/// cake_data_free (CakeData *cake_data)
/// {
/// g_free (cake_data->message);
/// g_slice_free (CakeData, cake_data);
/// }
///
/// static void
/// bake_cake_thread (GTask *task,
/// gpointer source_object,
/// gpointer task_data,
/// GCancellable *cancellable)
/// {
/// Baker *self = source_object;
/// CakeData *cake_data = task_data;
/// Cake *cake;
/// GError *error = NULL;
///
/// cake = bake_cake (baker, cake_data->radius, cake_data->flavor,
/// cake_data->frosting, cake_data->message,
/// cancellable, &error);
/// if (cake)
/// g_task_return_pointer (task, cake, g_object_unref);
/// else
/// g_task_return_error (task, error);
/// }
///
/// void
/// baker_bake_cake_async (Baker *self,
/// guint radius,
/// CakeFlavor flavor,
/// CakeFrostingType frosting,
/// const char *message,
/// GCancellable *cancellable,
/// GAsyncReadyCallback callback,
/// gpointer user_data)
/// {
/// CakeData *cake_data;
/// GTask *task;
///
/// cake_data = g_slice_new (CakeData);
/// cake_data->radius = radius;
/// cake_data->flavor = flavor;
/// cake_data->frosting = frosting;
/// cake_data->message = g_strdup (message);
/// task = g_task_new (self, cancellable, callback, user_data);
/// g_task_set_task_data (task, cake_data, (GDestroyNotify) cake_data_free);
/// g_task_run_in_thread (task, bake_cake_thread);
/// g_object_unref (task);
/// }
///
/// Cake *
/// baker_bake_cake_finish (Baker *self,
/// GAsyncResult *result,
/// GError **error)
/// {
/// g_return_val_if_fail (g_task_is_valid (result, self), NULL);
///
/// return g_task_propagate_pointer (G_TASK (result), error);
/// }
/// ```
///
/// ## Adding cancellability to uncancellable tasks
///
/// Finally, [`run_in_thread()`][Self::run_in_thread()] and [`run_in_thread_sync()`][Self::run_in_thread_sync()]
/// can be used to turn an uncancellable operation into a
/// cancellable one. If you call [`set_return_on_cancel()`][Self::set_return_on_cancel()],
/// passing [`true`], then if the task's [`Cancellable`][crate::Cancellable] is cancelled,
/// it will return control back to the caller immediately, while
/// allowing the task thread to continue running in the background
/// (and simply discarding its result when it finally does finish).
/// Provided that the task thread is careful about how it uses
/// locks and other externally-visible resources, this allows you
/// to make "GLib-friendly" asynchronous and cancellable
/// synchronous variants of blocking APIs.
///
/// Cancelling a task:
///
///
/// **⚠️ The following code is in C ⚠️**
///
/// ```C
/// static void
/// bake_cake_thread (GTask *task,
/// gpointer source_object,
/// gpointer task_data,
/// GCancellable *cancellable)
/// {
/// Baker *self = source_object;
/// CakeData *cake_data = task_data;
/// Cake *cake;
/// GError *error = NULL;
///
/// cake = bake_cake (baker, cake_data->radius, cake_data->flavor,
/// cake_data->frosting, cake_data->message,
/// &error);
/// if (error)
/// {
/// g_task_return_error (task, error);
/// return;
/// }
///
/// // If the task has already been cancelled, then we don't want to add
/// // the cake to the cake cache. Likewise, we don't want to have the
/// // task get cancelled in the middle of updating the cache.
/// // g_task_set_return_on_cancel() will return %TRUE here if it managed
/// // to disable return-on-cancel, or %FALSE if the task was cancelled
/// // before it could.
/// if (g_task_set_return_on_cancel (task, FALSE))
/// {
/// // If the caller cancels at this point, their
/// // GAsyncReadyCallback won't be invoked until we return,
/// // so we don't have to worry that this code will run at
/// // the same time as that code does. But if there were
/// // other functions that might look at the cake cache,
/// // then we'd probably need a GMutex here as well.
/// baker_add_cake_to_cache (baker, cake);
/// g_task_return_pointer (task, cake, g_object_unref);
/// }
/// }
///
/// void
/// baker_bake_cake_async (Baker *self,
/// guint radius,
/// CakeFlavor flavor,
/// CakeFrostingType frosting,
/// const char *message,
/// GCancellable *cancellable,
/// GAsyncReadyCallback callback,
/// gpointer user_data)
/// {
/// CakeData *cake_data;
/// GTask *task;
///
/// cake_data = g_slice_new (CakeData);
///
/// ...
///
/// task = g_task_new (self, cancellable, callback, user_data);
/// g_task_set_task_data (task, cake_data, (GDestroyNotify) cake_data_free);
/// g_task_set_return_on_cancel (task, TRUE);
/// g_task_run_in_thread (task, bake_cake_thread);
/// }
///
/// Cake *
/// baker_bake_cake_sync (Baker *self,
/// guint radius,
/// CakeFlavor flavor,
/// CakeFrostingType frosting,
/// const char *message,
/// GCancellable *cancellable,
/// GError **error)
/// {
/// CakeData *cake_data;
/// GTask *task;
/// Cake *cake;
///
/// cake_data = g_slice_new (CakeData);
///
/// ...
///
/// task = g_task_new (self, cancellable, NULL, NULL);
/// g_task_set_task_data (task, cake_data, (GDestroyNotify) cake_data_free);
/// g_task_set_return_on_cancel (task, TRUE);
/// g_task_run_in_thread_sync (task, bake_cake_thread);
///
/// cake = g_task_propagate_pointer (task, error);
/// g_object_unref (task);
/// return cake;
/// }
/// ```
///
/// ## Porting from GSimpleAsyncResult
///
/// [`Task`][crate::Task]'s API attempts to be simpler than `GSimpleAsyncResult`'s
/// in several ways:
/// - You can save task-specific data with [`set_task_data()`][Self::set_task_data()], and
/// retrieve it later with [`task_data()`][Self::task_data()]. This replaces the
/// abuse of `g_simple_async_result_set_op_res_gpointer()` for the same
/// purpose with `GSimpleAsyncResult`.
/// - In addition to the task data, [`Task`][crate::Task] also keeps track of the
/// [priority][io-priority], [`Cancellable`][crate::Cancellable], and
/// [`glib::MainContext`][crate::glib::MainContext] associated with the task, so tasks that consist of
/// a chain of simpler asynchronous operations will have easy access
/// to those values when starting each sub-task.
/// - [`return_error_if_cancelled()`][Self::return_error_if_cancelled()] provides simplified
/// handling for cancellation. In addition, cancellation
/// overrides any other [`Task`][crate::Task] return value by default, like
/// `GSimpleAsyncResult` does when
/// `g_simple_async_result_set_check_cancellable()` is called.
/// (You can use [`set_check_cancellable()`][Self::set_check_cancellable()] to turn off that
/// behavior.) On the other hand, [`run_in_thread()`][Self::run_in_thread()]
/// guarantees that it will always run your
/// `task_func`, even if the task's [`Cancellable`][crate::Cancellable]
/// is already cancelled before the task gets a chance to run;
/// you can start your `task_func` with a
/// [`return_error_if_cancelled()`][Self::return_error_if_cancelled()] check if you need the
/// old behavior.
/// - The "return" methods (eg, [`return_pointer()`][Self::return_pointer()])
/// automatically cause the task to be "completed" as well, and
/// there is no need to worry about the "complete" vs "complete
/// in idle" distinction. ([`Task`][crate::Task] automatically figures out
/// whether the task's callback can be invoked directly, or
/// if it needs to be sent to another [`glib::MainContext`][crate::glib::MainContext], or delayed
/// until the next iteration of the current [`glib::MainContext`][crate::glib::MainContext].)
/// - The "finish" functions for [`Task`][crate::Task] based operations are generally
/// much simpler than `GSimpleAsyncResult` ones, normally consisting
/// of only a single call to [`propagate_pointer()`][Self::propagate_pointer()] or the like.
/// Since [`propagate_pointer()`][Self::propagate_pointer()] "steals" the return value from
/// the [`Task`][crate::Task], it is not necessary to juggle pointers around to
/// prevent it from being freed twice.
/// - With `GSimpleAsyncResult`, it was common to call
/// `g_simple_async_result_propagate_error()` from the
/// ``_finish()`` wrapper function, and have
/// virtual method implementations only deal with successful
/// returns. This behavior is deprecated, because it makes it
/// difficult for a subclass to chain to a parent class's async
/// methods. Instead, the wrapper function should just be a
/// simple wrapper, and the virtual method should call an
/// appropriate `g_task_propagate_` function.
/// Note that wrapper methods can now use
/// [`AsyncResultExt::legacy_propagate_error()`][crate::prelude::AsyncResultExt::legacy_propagate_error()] to do old-style
/// `GSimpleAsyncResult` error-returning behavior, and
/// `g_async_result_is_tagged()` to check if a result is tagged as
/// having come from the ``_async()`` wrapper
/// function (for "short-circuit" results, such as when passing
/// 0 to [`InputStreamExtManual::read_async()`][crate::prelude::InputStreamExtManual::read_async()]).
///
/// # Implements
///
/// [`trait@glib::ObjectExt`], [`AsyncResultExt`][trait@crate::prelude::AsyncResultExt]
#[doc(alias = "GTask")]
pub struct Task<V: ValueType + Send>(Object<ffi::GTask, ffi::GTaskClass>) @implements AsyncResult;
match fn {
type_ => || ffi::g_task_get_type(),
}
}
macro_rules! task_impl {
($name:ident $(, @bound: $bound:tt)? $(, @safety: $safety:tt)?) => {
impl <V: ValueType $(+ $bound)?> $name<V> {
#[doc(alias = "g_task_new")]
#[allow(unused_unsafe)]
pub unsafe fn new<S, P, Q>(
source_object: Option<&S>,
cancellable: Option<&P>,
callback: Q,
) -> Self
where
S: IsA<glib::Object> $(+ $bound)?,
P: IsA<Cancellable>,
Q: FnOnce($name<V>, Option<&S>) $(+ $bound)? + 'static,
{
let callback_data = Box_::new(callback);
unsafe extern "C" fn trampoline<
S: IsA<glib::Object> $(+ $bound)?,
V: ValueType $(+ $bound)?,
Q: FnOnce($name<V>, Option<&S>) $(+ $bound)? + 'static,
>(
source_object: *mut glib::gobject_ffi::GObject,
res: *mut ffi::GAsyncResult,
user_data: glib::ffi::gpointer,
) {
let callback: Box_<Q> = Box::from_raw(user_data as *mut _);
let task = AsyncResult::from_glib_none(res)
.downcast::<$name<V>>()
.unwrap();
let source_object = Option::<glib::Object>::from_glib_borrow(source_object);
callback(
task,
source_object.as_ref().as_ref().map(|s| s.unsafe_cast_ref()),
);
}
let callback = trampoline::<S, V, Q>;
unsafe {
from_glib_full(ffi::g_task_new(
source_object.map(|p| p.as_ref()).to_glib_none().0,
cancellable.map(|p| p.as_ref()).to_glib_none().0,
Some(callback),
Box_::into_raw(callback_data) as *mut _,
))
}
}
#[doc(alias = "g_task_get_cancellable")]
#[doc(alias = "get_cancellable")]
pub fn cancellable(&self) -> Cancellable {
unsafe { from_glib_none(ffi::g_task_get_cancellable(self.to_glib_none().0)) }
}
#[doc(alias = "g_task_get_check_cancellable")]
#[doc(alias = "get_check_cancellable")]
pub fn is_check_cancellable(&self) -> bool {
unsafe { from_glib(ffi::g_task_get_check_cancellable(self.to_glib_none().0)) }
}
#[doc(alias = "g_task_set_check_cancellable")]
pub fn set_check_cancellable(&self, check_cancellable: bool) {
unsafe {
ffi::g_task_set_check_cancellable(self.to_glib_none().0, check_cancellable.into_glib());
}
}
#[cfg(any(feature = "v2_60", feature = "dox"))]
#[cfg_attr(feature = "dox", doc(cfg(feature = "v2_60")))]
#[doc(alias = "g_task_set_name")]
pub fn set_name(&self, name: Option<&str>) {
unsafe {
ffi::g_task_set_name(self.to_glib_none().0, name.to_glib_none().0);
}
}
#[doc(alias = "g_task_set_return_on_cancel")]
pub fn set_return_on_cancel(&self, return_on_cancel: bool) -> bool {
unsafe {
from_glib(ffi::g_task_set_return_on_cancel(
self.to_glib_none().0,
return_on_cancel.into_glib(),
))
}
}
#[doc(alias = "g_task_is_valid")]
pub fn is_valid(
result: &impl IsA<AsyncResult>,
source_object: Option<&impl IsA<glib::Object>>,
) -> bool {
unsafe {
from_glib(ffi::g_task_is_valid(
result.as_ref().to_glib_none().0,
source_object.map(|p| p.as_ref()).to_glib_none().0,
))
}
}
#[doc(alias = "get_priority")]
#[doc(alias = "g_task_get_priority")]
pub fn priority(&self) -> glib::source::Priority {
unsafe { FromGlib::from_glib(ffi::g_task_get_priority(self.to_glib_none().0)) }
}
#[doc(alias = "g_task_set_priority")]
pub fn set_priority(&self, priority: glib::source::Priority) {
unsafe {
ffi::g_task_set_priority(self.to_glib_none().0, priority.into_glib());
}
}
#[doc(alias = "g_task_get_completed")]
#[doc(alias = "get_completed")]
pub fn is_completed(&self) -> bool {
unsafe { from_glib(ffi::g_task_get_completed(self.to_glib_none().0)) }
}
#[doc(alias = "g_task_get_context")]
#[doc(alias = "get_context")]
pub fn context(&self) -> glib::MainContext {
unsafe { from_glib_none(ffi::g_task_get_context(self.to_glib_none().0)) }
}
#[cfg(any(feature = "v2_60", feature = "dox"))]
#[cfg_attr(feature = "dox", doc(cfg(feature = "v2_60")))]
#[doc(alias = "g_task_get_name")]
#[doc(alias = "get_name")]
pub fn name(&self) -> Option<glib::GString> {
unsafe { from_glib_none(ffi::g_task_get_name(self.to_glib_none().0)) }
}
#[doc(alias = "g_task_get_return_on_cancel")]
#[doc(alias = "get_return_on_cancel")]
pub fn is_return_on_cancel(&self) -> bool {
unsafe { from_glib(ffi::g_task_get_return_on_cancel(self.to_glib_none().0)) }
}
#[doc(alias = "g_task_had_error")]
pub fn had_error(&self) -> bool {
unsafe { from_glib(ffi::g_task_had_error(self.to_glib_none().0)) }
}
#[doc(alias = "completed")]
pub fn connect_completed_notify<F>(&self, f: F) -> SignalHandlerId
where
F: Fn(&$name<V>) $(+ $bound)? + 'static,
{
unsafe extern "C" fn notify_completed_trampoline<V, F>(
this: *mut ffi::GTask,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) where
V: ValueType $(+ $bound)?,
F: Fn(&$name<V>) + 'static,
{
let f: &F = &*(f as *const F);
f(&from_glib_borrow(this))
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::completed\0".as_ptr() as *const _,
Some(transmute::<_, unsafe extern "C" fn()>(
notify_completed_trampoline::<V, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
// the following functions are marked unsafe since they cannot be called
// more than once, but we have no way to enforce that since the task can be cloned
#[doc(alias = "g_task_return_error_if_cancelled")]
#[allow(unused_unsafe)]
pub $($safety)? fn return_error_if_cancelled(&self) -> bool {
unsafe { from_glib(ffi::g_task_return_error_if_cancelled(self.to_glib_none().0)) }
}
#[doc(alias = "g_task_return_value")]
#[doc(alias = "g_task_return_boolean")]
#[doc(alias = "g_task_return_int")]
#[doc(alias = "g_task_return_pointer")]
#[doc(alias = "g_task_return_error")]
#[allow(unused_unsafe)]
pub $($safety)? fn return_result(self, result: Result<V, glib::Error>) {
#[cfg(not(feature = "v2_64"))]
unsafe extern "C" fn value_free(value: *mut libc::c_void) {
let _: glib::Value = from_glib_full(value as *mut glib::gobject_ffi::GValue);
}
match result {
#[cfg(feature = "v2_64")]
Ok(v) => unsafe {
ffi::g_task_return_value(
self.to_glib_none().0,
v.to_value().to_glib_none().0 as *mut _,
)
},
#[cfg(not(feature = "v2_64"))]
Ok(v) => unsafe {
ffi::g_task_return_pointer(
self.to_glib_none().0,
v.to_value().to_glib_full() as *mut _,
Some(value_free),
)
},
Err(e) => unsafe {
ffi::g_task_return_error(self.to_glib_none().0, e.to_glib_full() as *mut _);
},
}
}
#[doc(alias = "g_task_propagate_value")]
#[doc(alias = "g_task_propagate_boolean")]
#[doc(alias = "g_task_propagate_int")]
#[doc(alias = "g_task_propagate_pointer")]
#[allow(unused_unsafe)]
pub $($safety)? fn propagate(self) -> Result<V, glib::Error> {
let mut error = ptr::null_mut();
unsafe {
#[cfg(feature = "v2_64")]
{
let mut value = glib::Value::uninitialized();
ffi::g_task_propagate_value(
self.to_glib_none().0,
value.to_glib_none_mut().0,
&mut error,
);
if error.is_null() {
Ok(V::from_value(&value))
} else {
Err(from_glib_full(error))
}
}
#[cfg(not(feature = "v2_64"))]
{
let value = ffi::g_task_propagate_pointer(self.to_glib_none().0, &mut error);
if error.is_null() {
let value = Option::<glib::Value>::from_glib_full(
value as *mut glib::gobject_ffi::GValue,
)
.expect("Task::propagate() called before Task::return_result()");
Ok(V::from_value(&value))
} else {
Err(from_glib_full(error))
}
}
}
}
}
impl <V: ValueType $(+ $bound)?> std::fmt::Display for $name<V> {
fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result {
f.write_str(stringify!($name))
}
}
}
}
task_impl!(LocalTask);
task_impl!(Task, @bound: Send, @safety: unsafe);
impl<V: ValueType + Send> Task<V> {
#[doc(alias = "g_task_run_in_thread")]
pub fn run_in_thread<S, Q>(&self, task_func: Q)
where
S: IsA<glib::Object> + Send,
Q: FnOnce(Self, Option<&S>, Option<&Cancellable>) + Send + 'static,
{
let task_func_data = Box_::new(task_func);
// We store the func pointer into the task data.
// We intentionally do not expose a way to set the task data in the bindings.
// If we detect that the task data is set, there is not much we can do, so we panic.
unsafe {
assert!(
ffi::g_task_get_task_data(self.to_glib_none().0).is_null(),
"Task data was manually set or the task was run thread multiple times"
);
ffi::g_task_set_task_data(
self.to_glib_none().0,
Box_::into_raw(task_func_data) as *mut _,
None,
);
}
unsafe extern "C" fn trampoline<V, S, Q>(
task: *mut ffi::GTask,
source_object: *mut glib::gobject_ffi::GObject,
user_data: glib::ffi::gpointer,
cancellable: *mut ffi::GCancellable,
) where
V: ValueType + Send,
S: IsA<glib::Object> + Send,
Q: FnOnce(Task<V>, Option<&S>, Option<&Cancellable>) + Send + 'static,
{
let task = Task::from_glib_none(task);
let source_object = Option::<glib::Object>::from_glib_borrow(source_object);
let cancellable = Option::<Cancellable>::from_glib_borrow(cancellable);
let task_func: Box_<Q> = Box::from_raw(user_data as *mut _);
task_func(
task,
source_object.as_ref().as_ref().map(|s| s.unsafe_cast_ref()),
cancellable.as_ref().as_ref(),
);
}
let task_func = trampoline::<V, S, Q>;
unsafe {
ffi::g_task_run_in_thread(self.to_glib_none().0, Some(task_func));
}
}
}
unsafe impl<V: ValueType + Send> Send for Task<V> {}
unsafe impl<V: ValueType + Send> Sync for Task<V> {}
#[cfg(test)]
mod test {
use super::*;
use crate::prelude::*;
use crate::test_util::run_async_local;
#[test]
fn test_int_async_result() {
match run_async_local(|tx, l| {
let cancellable = crate::Cancellable::new();
let task = unsafe {
crate::LocalTask::new(
None,
Some(&cancellable),
move |t: LocalTask<i32>, _b: Option<&glib::Object>| {
tx.send(t.propagate()).unwrap();
l.quit();
},
)
};
task.return_result(Ok(100_i32));
}) {
Err(_) => panic!(),
Ok(i) => assert_eq!(i, 100),
}
}
#[test]
fn test_object_async_result() {
use glib::subclass::prelude::*;
pub struct MySimpleObjectPrivate {
pub size: std::cell::RefCell<Option<i64>>,
}
#[glib::object_subclass]
impl ObjectSubclass for MySimpleObjectPrivate {
const NAME: &'static str = "MySimpleObjectPrivate";
type Type = MySimpleObject;
fn new() -> Self {
Self {
size: std::cell::RefCell::new(Some(100)),
}
}
}
impl ObjectImpl for MySimpleObjectPrivate {}
glib::wrapper! {
pub struct MySimpleObject(ObjectSubclass<MySimpleObjectPrivate>);
}
impl MySimpleObject {
pub fn new() -> Self {
glib::Object::new(&[]).expect("Failed to create MySimpleObject")
}
#[doc(alias = "get_size")]
pub fn size(&self) -> Option<i64> {
*self.imp().size.borrow()
}
pub fn set_size(&self, size: i64) {
self.imp().size.borrow_mut().replace(size);
}
}
impl Default for MySimpleObject {
fn default() -> Self {
Self::new()
}
}
match run_async_local(|tx, l| {
let cancellable = crate::Cancellable::new();
let task = unsafe {
crate::LocalTask::new(
None,
Some(&cancellable),
move |t: LocalTask<glib::Object>, _b: Option<&glib::Object>| {
tx.send(t.propagate()).unwrap();
l.quit();
},
)
};
let my_object = MySimpleObject::new();
my_object.set_size(100);
task.return_result(Ok(my_object.upcast::<glib::Object>()));
}) {
Err(_) => panic!(),
Ok(o) => {
let o = o.downcast::<MySimpleObject>().unwrap();
assert_eq!(o.size(), Some(100));
}
}
}
#[test]
fn test_error() {
match run_async_local(|tx, l| {
let cancellable = crate::Cancellable::new();
let task = unsafe {
crate::LocalTask::new(
None,
Some(&cancellable),
move |t: LocalTask<i32>, _b: Option<&glib::Object>| {
tx.send(t.propagate()).unwrap();
l.quit();
},
)
};
task.return_result(Err(glib::Error::new(
crate::IOErrorEnum::WouldBlock,
"WouldBlock",
)));
}) {
Err(e) => match e.kind().unwrap() {
crate::IOErrorEnum::WouldBlock => {}
_ => panic!(),
},
Ok(_) => panic!(),
}
}
#[test]
fn test_cancelled() {
match run_async_local(|tx, l| {
let cancellable = crate::Cancellable::new();
let task = unsafe {
crate::LocalTask::new(
None,
Some(&cancellable),
move |t: LocalTask<i32>, _b: Option<&glib::Object>| {
tx.send(t.propagate()).unwrap();
l.quit();
},
)
};
cancellable.cancel();
task.return_error_if_cancelled();
}) {
Err(e) => match e.kind().unwrap() {
crate::IOErrorEnum::Cancelled => {}
_ => panic!(),
},
Ok(_) => panic!(),
}
}
}