Expand description
Asynchronous values.
Base Futures Concurrency
Often it’s desirable to await multiple futures as if it was a single
future. The join
family of operations converts multiple futures into a
single future that returns all of their outputs. The race
family of
operations converts multiple future into a single future that returns the
first output.
For operating on futures the following functions can be used:
Name | Return signature | When does it return? |
---|---|---|
Future::join | (T1, T2) | Wait for all to complete |
Future::race | T | Return on first value |
Fallible Futures Concurrency
For operating on futures that return Result
additional try_
variants of
the functions mentioned before can be used. These functions are aware of Result
,
and will behave slightly differently from their base variants.
In the case of try_join
, if any of the futures returns Err
all
futures are dropped and an error is returned. This is referred to as
“short-circuiting”.
In the case of try_race
, instead of returning the first future that
completes it returns the first future that successfully completes. This
means try_race
will keep going until any one of the futures returns
Ok
, or all futures have returned Err
.
However sometimes it can be useful to use the base variants of the functions
even on futures that return Result
. Here is an overview of operations that
work on Result
, and their respective semantics:
Name | Return signature | When does it return? |
---|---|---|
Future::join | (Result<T, E>, Result<T, E>) | Wait for all to complete |
Future::try_join | Result<(T1, T2), E> | Return on first Err , wait for all to complete |
Future::race | Result<T, E> | Return on first value |
Future::try_race | Result<T, E> | Return on first Ok , reject on last Err |
Structs
An error returned when a future times out.
Traits
unstable
Convert a type into a Future
.