I think one way to reduce boilerplate is to use type system rather than inheritance. For instance, if your handler is of type T => Unit
then any function that satisfies this type can be a handler, there is no need to officially declare HandlerTrait
and even someMethod
.
Whether to use a Map
or case
s to map from a key to a handler is up to you. Both can be extended to handle new cases.
Here is an example to sum up what I'm proposing:
val currentlyDefinedStrategies: PartialFunction[String, Unit] = {
case "1" => println(1)
case "2" => println(2)
}
val newStrategies: PartialFunction[String, Unit] = {
case "3" => println(3)
}
val defaultStrategy: PartialFunction[String, Unit] = {
case _ => println("default")
}
And usage:
scala> currentlyDefinedStrategies("1")
1
scala> currentlyDefinedStrategies("3")
scala.MatchError: 3 (of class java.lang.String) ...
scala> currentlyDefinedStrategies.orElse(newStrategies)("3")
3
scala> currentlyDefinedStrategies.orElse(newStrategies)("4")
scala.MatchError: 4 (of class java.lang.String)
scala> currentlyDefinedStrategies.orElse(newStrategies).orElse(defaultStrategy)("4")
default
You can achieve similar pattern with Map
or using other FP techniques. The main point is to keep the most relevant code and get rid of boilerplate. Of course, HandlerTrait
might be useful to you for structuring your code and thinking in terms of classes rather than functions, but the idea is the same.
See also: https://pavelfatin.com/design-patterns-in-scala/#strategy
The above example is a bit simplified and you actually want to pass parameters to handler (println
in our case). Here is how:
val currentlyDefinedStrategies: Int => PartialFunction[String, Unit] = (x) => {
case "1" => println("1: " + x)
case "2" => println("2: " + x)
case _ => println("default: " + x)
}
You can fix the argument without choosing a strategy:
scala> val noStrategy = currentlyDefinedStrategies(1)
noStrategy: PartialFunction[String,Unit] = <function1>
... and provide strategy afterwards:
scala> noStrategy("1")
1: 1
Or apply the strategy right away:
scala> currentlyDefinedStrategies(1)("1")
1: 1
You can also decide on your strategy first and then pass an argument:
val currentlyDefinedStrategies: PartialFunction[String, Int => Unit] = {
case "1" => x => println("1: " + x)
case "2" => x => println("2: " + x)
case _ => x => println("default: " + x)
}
scala> val handlerWithChosenStrategy = currentlyDefinedStrategies("1")
handlerWithChosenStrategy: Int => Unit = $anonfun$1$$Lambda$1374/666224848@59a9f3eb
scala> handlerWithChosenStrategy(1)
1: 1
I think the point is that FP is so rich and flexible that strategy pattern is really not a thing. It's basically just some function type that suits your convenience like type Strategy[T, -A, +B] = PartialFunction[T, A => B]
. Example:
scala> type Strategy[T, -A, +B] = PartialFunction[T, A => B]
defined type alias Strategy
val currentlyDefinedStrategies: Strategy[String, Int, Unit] = {
case "1" => x => println("1: " + x)
case "2" => x => println("2: " + x)
case _ => x => println("default: " + x)
}
currentlyDefinedStrategies: Strategy[String,Int,Unit] = <function1>
scala> currentlyDefinedStrategies("1")(1)
1: 1
A more advanced concept would be an Expression Problem (here) where you need to extend both the operations you can do on types as well as adding new types.