I have a class that takes an implicit parameter which is used by functions called inside class methods. I want to be able to either override that implicit parameter, or alternatively, have the implicit argument be copied from its source. As an example:
def someMethod()(implicit p: List[Int]) {
// uses p
}
class A()(implicit x: List[Int]) {
implicit val other = List(3) // doesn't compile
def go() { // don't want to put implicit inside here since subclasses that override go() have to duplicate that
someMethod()
}
}
The behavior I want is that someMethod() gets an implicit parameter that is some changed version of x, which was the class's implicit parameter. I want to be able to either mutate x without changing it for whatever passed it into A's constructor, or otherwise override it to a new value of my choosing. Both approaches don't seem to work. That is, it doesn't copy the list in the former case, and the compiler f开发者_JS百科inds an ambiguous implicit value for the latter case. Is there a way to do this?
I realize that I can redefine the implicit value within go(), but this is not a good choice in my case because this class is subclassed numerous times, and I'd like to handle this implicit change in the base class only. So it doesn't necessarily need to go in the constructor, but it must be in a method other than go().
Introduce another wrapper type, simply to disambiguate:
// badly named, choose something domain-specific
case class ListHolder(theList: List[Int])
def someMethod()(implicit holder: ListHolder) {
val xs = holder.theList
// uses xs ...
}
class A()(implicit xs: List[Int]) {
implicit val other = ListHolder(42 :: xs) // compiles
def go() {
// xs is never considered for the implicit param to someMethod()
// because it's now the wrong type
}
}
This also makes the code more self-documenting, as it becomes blindingly obvious that the two implicits are not one and the same.
If you want to have zillions of implicits floating around that don't collide with each other, you can create a wrapper class that you can tag with marker traits for implicit usage. There are a variety of syntaxes you could use; here's one example:
object Example {
class Implication[A,B](val value: A) {
def apply[C](c: C) = new Implication[C,B](c)
}
object Implication {
def mark[B] = new Implication[Unit,B](())
implicit def implication_to_value[A,B](i: Implication[A,B]) = i.value
}
trait One {}
trait Two {}
implicit val x = Implication.mark[One]("Hello")
implicit val y = Implication.mark[Two]("Hi")
def testOne(implicit s: Implication[String,One]) = println(s: String)
def testTwo(implicit s: Implication[String,Two]) = println(s: String)
def testThree(s: String) = println("String is " + s)
def main(args: Array[String]) {
testOne
testTwo
testThree(x)
testThree(y)
}
}
Which works as you would hope:
scala> Example.main(Array())
Hello
Hi
String is Hello
String is Hi
Since you have to use a wrapper object, it's not super-efficient, but it can be very effective. (Or very confusing, given how much happens implicitly.)
This modification compiles. I changed x into a var:
class A()(implicit var x: List[Int]) {
def someMethod()(implicit p: List[Int]) {
// uses p
}
x = List(3)
def go() { // don't want to put implicit inside here since subclasses that override go() have to duplicate that
someMethod()
}
}
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