I am looking for way to handle a list of objects in a "polymorphic" way in the manner that you can for a single object. Just to recap what does work:
interface Animal{
fun sayHello(): String
}
class Dog: Animal{
override fun sayHello() = "Hello, I'm a dog"
}
class Cat: Animal{
override fun sayHello() = "Hello, I'm a cat
}
fun printGreeting(animal: Animal){
println(animal.sayHello())
}
Then of course I can do the following:
val cat = Cat()
val dog = Dog()
printGreeting(cat) // "Hello, I'm a cat"
printGreeting(dog) // "Hello, I'm a dog"
Now imagine I have a List<Animal> and want to handle that in a similar way. I know the following won't work:
fun List<Cat>.sayHello() = "Hello, we are a herd of cats"
fun List<Dog>.sayHello() = "Hello, we are a pack of dogs"
fun printGreeting(animals: List<Animal>){
println(animals.sayHello())
}
I understand that, due to JVM type erasure, the compiler won't even allow you to declare the above extension functions, since after the erasure it amounts to a redeclaration of the same function.
I am looking for a design pattern that allows me to get the the desired behavior. Any ideas?
List<Animal>could contain a mixture of Cats and Dogs. I don't think there's a way you can restrict your function to enforce a list of exclusively cats or dogs, so there's no way to create aprintGreeting()function the way you've described it. Maybe if you define some default greeting for when there's a mix of animals. You can create those extension functions by annotating them with different@JvmNames.