pub trait WithSubscriber: Sized {
    fn with_subscriber<S>(self, subscriber: S) -> WithDispatch<Self>Notable traits for WithDispatch<T>impl<T: Future> Future for WithDispatch<T>    type Output = T::Output;
    where
        S: Into<Dispatch>
, { ... } fn with_current_subscriber(self) -> WithDispatch<Self>Notable traits for WithDispatch<T>impl<T: Future> Future for WithDispatch<T> type Output = T::Output; { ... } }
Expand description

Extension trait allowing futures to be instrumented with a tracing Subscriber.

Provided Methods

Attaches the provided Subscriber to this type, returning a WithDispatch wrapper.

The attached Subscriber will be set as the default when the returned Future is polled.

Examples
use tracing::instrument::WithSubscriber;

// Set the default `Subscriber`
let _default = tracing::subscriber::set_default(MySubscriber::default());

tracing::info!("this event will be recorded by the default `Subscriber`");

// Create a different `Subscriber` and attach it to a future.
let other_subscriber = MyOtherSubscriber::default();
let future = async {
    tracing::info!("this event will be recorded by the other `Subscriber`");
    // ...
};

future
    // Attach the other `Subscriber` to the future before awaiting it
    .with_subscriber(other_subscriber)
    .await;

// Once the future has completed, we return to the default `Subscriber`.
tracing::info!("this event will be recorded by the default `Subscriber`");

Attaches the current default Subscriber to this type, returning a WithDispatch wrapper.

The attached Subscriber will be set as the default when the returned Future is polled.

This can be used to propagate the current dispatcher context when spawning a new future that may run on a different thread.

Examples
use tracing::instrument::WithSubscriber;

// Using `set_default` (rather than `set_global_default`) sets the
// default `Subscriber` for *this* thread only.
let _default = tracing::subscriber::set_default(MySubscriber::default());

let future = async {
    // ...
};

// If a multi-threaded async runtime is in use, this spawned task may
// run on a different thread, in a different default `Subscriber`'s context.
tokio::spawn(future);

// However, calling `with_current_subscriber` on the future before
// spawning it, ensures that the current thread's default `Subscriber` is
// propagated to the spawned task, regardless of where it executes:
tokio::spawn(future.with_current_subscriber());

Implementors