Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Anyone have an idea of how to dynamically allocate a class in Scala (2.10)? I've got some class MyClass. I'm using Akka (2.0) and I'd REALLY like to be able to do something like:

classnames = List[String]("fqcn", "fqcn", fqcn"....]
for (name <- classnames) {
     val clazz = classLoader.load(name)
     val actRef = actorSystem.actorOf(Props[clazz])
}

However, there are other limits on Akka. So the best I can do (I think) is:

val activeClasses = HashMap([String, String, ActorRef]
     ("commonname" -> 
       "Fqcn", actorOf(Props[new classobject]])
  )

where classobject is the literal class, not a name reference for the class loader. I literally have to have the class compiled somewhere and do the

actorOf(Props[new classobject**])

This seems very ugly -- is there a nicer, more elegant way to do this?

share|improve this question
    
** it's not ugly, it's plain wrong –  pedrofurla Oct 31 '12 at 3:48

3 Answers 3

up vote 2 down vote accepted

Since clazz is from the classLoader, it 's not possible to use Props[] to create ActorRef

so use Props.apply instead

actorOf(Props(clazz.newInstance.asInstanceOf[Actor]))
share|improve this answer
    
Explain why it can solve the problem. –  toscho Oct 31 '12 at 2:48
    
@toscho at least it can pass compile. Since clazz is from the classLoader so is not possible to use Props[] to create ActorRef –  Tim Green Oct 31 '12 at 3:07
1  
Please do not hide valuable information in a comment, edit your answer instead. :) –  toscho Oct 31 '12 at 3:10
    
@toscho updated :) –  Tim Green Oct 31 '12 at 4:24
    
This will compile, but fail at runtime. You can't create instances of actors outside of the actor system. Use Props(clazz.newInstance.asInstanceOf[Actor]) instead. –  drexin Oct 31 '12 at 9:33

Fixing the first sample you provided, see the comments:

classnames = List[String]("fqcn", "fqcn", "fqcn"....) // close ( with ) not ]
for (name <- classnames) {
     val clazz = classLoader.forName(name) // forName is what loads a class
     //val actRef = actorSystem.actorOf(Props[clazz]) // still wrong I will explain later
}

The second sample has a few more issues.

First HashMap([String, String, ActorRef]("commonname" -> "Fqcn", someThing)), it's close to be right but with a few key syntactic mistakes.

In Scala the [] is used to declare or define type parameters, it seems our case in hand is a matter of definition, in other words, we want to state what type paramaters. There are only a few places Scala allows placing type parameters, it's right classes after class instanciation (e.g new HashMap[String, Int]) and in method call (e.g list.map[String](...).

So, placing the type parameter as in HashMap[String, String, ActorRef](...) would be valid Scala syntax and since HashMap is companion object it would end up after desugaring something like HashMap.apply[String, String, ActorRef](...).

But this expression still have a big problem, HashMap only take two type parameters, one for the keys and one for the values. Looking at your code it seems that the desired key is a tuple. So to make it work: HashMap[(String, String), ActorRef](...)

Now for the last fix Props[new classobject], again confusion regarding type parameters. Type parameters takes types not instances, any 'new something' would be creating a instance of something. You have to do Props[SomeClass]. As a quick side not the term "class object" usually refers to instance of a class, not the class itself.

A syntactic valid version of the second sample:

val activeClasses = HashMap[(String, String), ActorRef](
   ("commonname" ->  "Fqcn", actorOf(Props[SomeClass]))
)

Coming back to the first sample and this particular line:

val actRef = actorSystem.actorOf(Props[clazz])

clazz here is a instance of Class[_], again the above wouldn't even be valid code. It seems that Props.apply[T <: ActorRef]... requires a type and it will take care of instantiating it for you. But you only have Class[_]'s containing the classes. How to solve this? It happens there is another Props.apply that instead takes constructs for the actor classes that will take of the instantiation, look it's signature:

def apply(creator: ⇒ Actor)

Why not use this one?

classnames = List[String]("fqcn", "fqcn", "fqcn"....)
for (name <- classnames) {
     val clazz = classLoader.forName(name)
     val actRef = 
        actorSystem.actorOf(Props( clazz.newInstance.asInstanceOf[Actor] )) 
}

Assuming the second sample will somehow rely classes from the first:

val activeClasses = HashMap[(String, String), ActorRef](
   ("commonname" ->  "Fqcn", 
     actorOf(Props( clazz.newInstance.asInstanceOf[Actor] ) )
)

A few comments about these samples:

  • Both type parameters are unnecessary. The compiler can infer then for you.
  • Instead of using (a -> b, c) for defining a tuple whose first element is a tuple, you can use a -> b ->, which will result into ((a,b),c). The -> is left associative.
share|improve this answer

This is answered on the Akka Mailinglist: https://groups.google.com/group/akka-user/browse_thread/thread/6823203b3c8470be/8ad21fcfb39b0e25?lnk=gst&q=dynamicAccess

In short, Create an Akka Extension that deals with dynamic class loading and get the ExtendedActorSystem that is passed in, obtain its DynamicAccess through the "dynamicAccess" method and load the class using that. This will use the same ClassLoader that is used for all dynamic classloading inside Akka, which is the same ClassLoader as you pass to the ActorSystem.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.