Futiles
The missing utils for working with Scala Futures
About
Throughout a few different Scala projects I have written these utility functions for working with futures over and over again.
License: Apache Licence v2.
Quick start
The artifact is on maven central and can be used by adding it to your project dependencies in sbt:
libraryDependencies += "com.markatta" %% "futiles" % "2.0.2"
Latest stable version:
Examples
markatta.futiles.Sequencing
Sequencing futures -The utilities inside of markatta.futiles.Sequencing
allows
you to sequence other functor types than collections, just like the built in
scala.concurrent.Future.sequence
function does.
Options
Make a future option value out of an option future value:
import scala.concurrent.Future
import scala.concurrent.Future.successful
import markatta.futiles.Sequencing.sequenceOpt
val optionFuture: Option[Future[String]] = Some(successful("woho!"))
val futureOption: Future[Option[String]] = sequenceOpt(optionFuture)
Eithers
The either sequencing allows you to go from one or two futures inside of an Either
to
a future with an either inside of it:
sequenceEither
allows you to go fromEither[Future[L], Future[R]]
toFuture[Either[L, R]]
sequenceL
allows you to go fromEither[Future[L], R]
toFuture[Either[L, R]]
sequenceR
allows you to go fromEither[L, Future[R]]
toFuture[Either[L, R]]
Tries
sequenceTries
takes a collection of Future[A]
and turn them into a future collection of
each succeeded of failed future. So compared to the build in sequence it will not fail with the first
failed future but rather collect all those and let you handle them when all has arrived.
import scala.concurrent.ExecutionContext.Implicits.global
import scala.concurrent.Future
import scala.concurrent.Future.{successful, failed}
import scala.util.Try
import markatta.futiles.Sequencing.sequenceTries
val futures: Seq[Future[String]] = Seq(successful("woho"), failed(new RuntimeException("bork")))
val allOfEm: Future[Seq[Try[String]]] = sequenceTries(futures)
markatta.futiles.Traversal
Traversal -Sequential traverse
scala.concurrent.Future.traverse
allows you to have a collection of A
s,
apply a function A => Future[B]
to each of them and then sequence the resulting collection
into a future collection of B
.
Futiles contains one addition to that concept which basically does the same, but applies the function sequentially, so that at any time only one future is executing and the next one will not be done until it completes. If any future fails, it will stop and return a failed future with that exception.
Example:
import scala.concurrent.ExecutionContext.Implicits.global
import scala.concurrent.Future.{successful, failed}
import markatta.futiles.Traversal.traverseSequentially
import java.util.concurrent.CountDownLatch
val latch = new CountDownLatch(3)
val result = traverseSequentially(List(1,2,3)) { n =>
Future {
latch.countDown()
(n , latch.getCount)
}
}
// result will always be Future(List((1, 2L), (2, 1L), (3, 0L)))
Sequential fold left
A more general case of traversal, lets you build any kind of object asynchronously but sequentially:
Example
val latch = new CountDownLatch(3)
val result = foldLeftSequentially(List(1,2,3))(Seq.empty[Int]) { (acc, n) =>
Future {
latch.countDown()
val l = latch.getCount.toInt
acc :+ l
}
}
// result will always be Future(List(2, 1, 0)))
markatta.futiles.Combining
Combining futures -multiple futures into one future tuple
Combine up to 6 futures into a tuple with the value of each future using product
. If either fails the result
will be a failed future. Or apply a function using mapN
or flatMapN
while you are at it
Example:
import scala.concurrent.Future
import scala.concurrent.Future.successful
import markatta.futiles.Combining._
val fTuple: Future[(Int, String)] = product(successful(1), successful("woho"))
val mapped: Future[String] =
map2(successful(1), successful("woho"))((a, b) => a.toString + b)
val flatMapped: Future[String] =
flatMap2(successful(1), successful("woho"))((a, b) => successful(a.toString + b))
markatta.futiles.Lifting
Lifting and unlifting container types inside of futures -Lift the implicit try into the future
If you want to lift a failed future into a successful future with a failed try inside, you
can do that with markatta.futiles.Lifting.liftTry
. This is probably not very interesting
except for in the context of sequenceTries
which is described above.
Options
A common problem when working with futures is that you have a nested option, and this
makes it impossible to do clean for comprehensions, since you need to handle both Some(value)
and None
somehow.
val result =
for {
user <- userDao.findById(id): Future[Option[User]]
cart <- shoppingCartDao.findByUserId(...oh noes, user is an option...)
} yield (...oh noes, so is cart, what to do!? ...)
One easy way out is to "unlift" the value if it is a None
into a failed future, but using
unapply in the for comprehension gives us a MatchError
with little info about what went wrong.
val result =
for {
Some(user) <- userDao.findById(id): Future[Option[User]]
Some(cart) <- shoppingCartDao.findByUserId(user.id)
} yield (user, cart)
// hard to know that it wasn't some other MatchError here
Futiles contains two methods Lifting.unliftOption
and Lifting.unliftOptionEx
for dealing with this, one where you decide what exception to fail the future with and
one where you just provide a text, and an UnliftException
is used.
To make it really concise an implicit class is provided that
will decorate Future[Option[A]]
with corresponding methods called unlift
Example:
import scala.concurrent.ExecutionContext.Implicits.global
import markatta.futiles.UnliftException
import markatta.futiles.Lifting.Implicits._
val result =
for {
user <- userDao.findById(id).unlift(s"No user with $id")
cart <- shoppingCartDao.findByUserId(user.id).unlift(s"No cart for user $user")
} yield (user, cart)
result.recover {
case UnliftException(msg) if msg.startsWith("No user") => ...
case UnliftException(msg) if msg.startsWith("No cart") => ...
}
Eithers
Much like the option unlifting above unliftL
and unliftLEx
will fail the future if the value is a Right
and succeed
with the value inside of a Left
while unliftR
and unliftREx
does the exact opposite.
There is also implicit decoration for the two:
import scala.concurrent.Future
import markatta.futiles.Lifting.Implicits._
val futureEither: Future[Either[String, Int]] = ???
val result: Future[Int] = futureEither.unliftR("Danger Danger!")
markatta.futiles.Boolean
Booleans -Boolean &&
and ||
for Future[Boolean]
s. Operations are short circuited just like regular boolean expressions. Important: this affects failures, if the operation is short circuited the second Future[Boolean]
might not be evaluated at all. If it is created before the boolean op it might be outright ignored even if it fails.
import scala.concurrent.ExecutionContext.Implicits.global
import scala.concurrent.Future
import markatta.futiles.Boolean.Implicits._
// short circuit will only happen if we do not create
// the futures before hand
def a: Future[Boolean] = ???
def b: Future[Boolean] = ???
val both: Future[Boolean] = a && b
val either: Future[Boolean] = a || b
val negated: Future[Boolean] = !a
There is an idea to be able to short circuit for the first arrived future, but this makes failure handling racey (see #5).
markatta.futiles.Timeouts
Timeouts -Some times you want to wait a specific amount of time before triggering a future, or you want it to complete at a specific timeout with a value you already have. This is available for example in the play framework future libraries, but maybe you would want to do that without depending on play.
If an exception is thrown by the by-name-parameter the future will be failed instead of completed when the timeout is reached.
Example:
import scala.concurrent.ExecutionContext.Implicits.global
import scala.concurrent.Future
import scala.concurrent.duration._
import markatta.futiles.Timeouts.timeout
val timeoutF = timeout(1.seconds)("It was too slow, you get default instead")
val result = Future.firstCompletedOf(Seq(doItForReals(), timeoutF))
Implicit timeout methods
Timeouts is such a common concept that there also is implicit decorations for futures. Note that the original future will always complete at some point, so this does in no way cancel the future if it times out.
Example:
import Timeouts.Implicits._
val future: Future[String] = ???
val willFailIfNotCompletedWithin2s = future.withTimeoutError(2.seconds)
val willDefaultIfNotCompletedInTime = future.withTimeoutDefault(2.seconds, "Sensible default")
markatta.futiles.Retry
Retrying failed futures -A common scenario is that you use Futures to interact with remote systems, but what if the remote system is down exactly when the request is done, or the network cable was disconnected by your little brother.
Futiles contains two flavours of retry for futures:
- Retry right away with
markatta.futiles.Retry.retry
- Retry with an exponential back off, waiting longer and longer before each retry
Both methods allows you to specify the maximum number of retries to perform and a predicate function
Throwable => Boolean
that will be given any exception and decides if it should lead to a retry or not.
By default all throwables lead to retry.
Example of the simple retry
import scala.concurrent.Future
import scala.concurrent.ExecutionContext.Implicits.global
import markatta.futiles.Retry._
val result: Future[Int] = retry(5) {
callThatService(): Future[Int]
}
Exponential back off additionally takes a back off time unit, which decides a base for the calculation
(2 ^ tries) * jitter * timeUnit
, where jitter
will be a random value between 0.5
and 1.5
.
this means that a time unit of 1 second the first retry will back off between 1
and 3
seconds, the
second try between 2
and 6
seconds, the third try between 4
and 12
and so on until the maximum number
of retries is reached and at that time the future will be failed.
Example with exponential back off
import scala.concurrent.Future
import scala.concurrent.ExecutionContext.Implicits.global
import scala.concurrent.duration._
import markatta.futiles.Retry._
val result: Future[Int] = retryWithBackOff(5, 5.seconds) {
callThatService(): Future[Int]
}
markatta.futiles.CancellableFuture
Cancelling Future's -If you need to create a Future
that you want to cancel at a later point in time then
you can use a CancelableFuture
.
import markatta.futiles.CancellableFuture
val cancellableFuture = CancellableFuture {
someLongOperation()
}
cancellableFuture.cancel()
Note that the .cancel
method on CancelableFuture
is a best effort implementation and
it also does not handle cleaning up of resources (such as file handles) since further
computations deriving from .map
/.flatMap
/onComplete
may not execute. If a
CancelableFuture
was cancelled this way it will fail with a CancellationException
exception.
Note that CancellableFuture
implements the scala.concurrent.Future
interface which
means you can also use it as a standard Future
.