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I have a class hierarchy of Items that each need a corresponding ItemTemplate instance as a constructor parameter. I'd like to write a generic function to instantiate any Item subclass by giving it Item and ItemTemplate as type parameters, using it like this:

val newItem = instantiateItem[ItemClass, TemplateClass](templateInstance)

After a bit of research I now have

def instantiateItem[I, T](implicit mf: Manifest[I], template: T): I = {
    val constructor = mf.erasure.getConstructor(classOf[T])
    constructor.newInstance(template).asInstanceOf[I]
}

But this doesn't compile, the classOf[T] gives the error

Class type required but T found

I tried replacing classOf[T] with classManifest[CM].erasure but this doesn't work as CM needs to be context bounded to ClassManifest, and apparently it's not possible to use bounded type parameters with implicit parameters.

Is it possible to do what I want here?

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2 Answers

up vote 1 down vote accepted

You can get the template class simply by calling template.getClass. It requires template to be a subtype of AnyRef, so either you cast it to AnyRef (forcing boxing of primitive types) or you add an upper bound for T:

def instantiateItem[I, T <: AnyRef](implicit mf: Manifest[I], template: T): I = {
  val constructor = mf.erasure.getConstructor(template.getClass)
  constructor.newInstance(template).asInstanceOf[I]
}

If you want to pass in template explicitly, as indicated by the code in your question, you need to separate implicit and explicit arguments, e.g.

def instantiateItem[I, T <: AnyRef](template: T)(implicit mf: Manifest[I]): I = {
  val constructor = mf.erasure.getConstructor(template.getClass)
  constructor.newInstance(template).asInstanceOf[I]
}

aka

def instantiateItem[I : Manifest, T <: AnyRef](template: T): I = {
  val mf = implicitly[Manifest[I]]
  val constructor = mf.erasure.getConstructor(template.getClass)
  constructor.newInstance(template).asInstanceOf[I]
}

In general if possible you could avoid having to use reflection at all with careful design:

trait ItemCompanion[I,T] {
   def instantiateItem(template: T): I
}

object TestItem extends ItemCompanion[TestItem, TestTemplate] {
   implicit def self: ItemCompanion[TestItem, TestTemplate] = this
   def instantiateItem(template: TestTemplate): TestItem = new TestItem(template)
}
class TestItem(template: TestTemplate)
trait TestTemplate

// try out
def instantiateItem[I, T](implicit ic: ItemCompanion[I, T], t: T): I =
   ic.instantiateItem(t)

implicit val temp: TestTemplate = new TestTemplate {}
instantiateItem[TestItem, TestTemplate]
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This compiles, but I have a problem calling it: not enough arguments for method instantiateItem: (implicit mf: Manifest[I], implicit template: T)I. Unspecified value parameter template. –  hezamu Aug 11 '12 at 15:57
    
How does your call look? It ought to be instantiateItem[TestItem, TestTemplate] –  0__ Aug 11 '12 at 16:05
    
In your question you pass the template parameter explicitly. Then you will have to pass in both parameters (first the manifest, then the template). If you want that, you should define the method with two argument lists, e.g. def instantiateItem[I, T <: AnyRef](template: T)(implicit mf: Manifest[I]): I –  0__ Aug 11 '12 at 16:08
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These corrections to your code should do the trick:

def instantiateItem[I : Manifest, T <: AnyRef : Manifest](template: T): I = {
    val constructor = manifest[I].erasure.getConstructor(manifest[T].erasure)
    constructor.newInstance(template).asInstanceOf[I]
}

The I : Manifest syntax is a preferred sugarred version of your implicit parameter.

Please note that since Scala 2.10 Manifest will be deprecated in favor of TypeTag

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@hezamu Right. The T had to be restricted to be of AnyRef subtype. Please see the update - it compiles. –  Nikita Volkov Aug 11 '12 at 16:04
    
Yes, now it compiles. I'm still a bit unclear how I should call it, the way I described in the question does not apply here. –  hezamu Aug 11 '12 at 16:07
    
@hezamu What you've described in the question is perfectly applicable here, but it is a bit superfluous since, the T type can be resolved from the template parameter, so there's no need to specify that. In other words, you can use it like so: instantiateItem[ItemClass](templateInstance) –  Nikita Volkov Aug 11 '12 at 18:28
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