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As far as I understand it, Scala creates an anonymous class if I create a class using the new keyword and follow the class name with a constructor:

class MyClass {
  def doStuff() { 
    // ... 
  }
}

val mc = new MyClass {
  doStuff()
}

The nice thing being that all the code in the constructor is in the scope of the new object.

Is there a way I can reproduce this syntax where the class is created by a factory method rather than the new keyword? i.e. make the following code work:

val mf = new MyFactory

val mc = mf.MyClass { 
  doStuff() 
}

I can't find a way to do it but Scala has so much to it that this might be pretty easy!

Using an import as suggested by @Ricky below I can get:

val mf = MyFactory;
val mc = mf.MyClass

{
  import mc._
  doStuff()
}

(Where the blank line before the block is needed) but that code block is not a constructor.

share|improve this question
1  
Do you just want to be able to add statements to be run (like doStuff() in your example) or entire field definitions? The former is easy via passing a call-by-need block, the latter sounds very tricky... –  Owen Oct 2 '11 at 5:39
    
I want to be able to add code that is automagically within scope of the object being created, whether that is calling methods or accessing fields. –  Jay Daley Oct 2 '11 at 20:10

3 Answers 3

You can do this, but you still have to keep the new keyword, and create the nested class as a path-dependent type:

class Bippy(x: Int) {
  class Bop {
    def getIt = x
  }
}

val bip = new Bippy(7)
val bop = new bip.Bop

bop.getIt // yields 7

val bop2 = new bip.Bop{ override def getIt = 42 }

bop2.getIt // yields 42
share|improve this answer
    
Thanks. I haven't used path-dependent types so I need to think this through to see if it does what I want. –  Jay Daley Oct 2 '11 at 20:27
    
It allows you to create an anonymous subclass of some given type, but still within the surrounds of some outer context (call it a factory if you wish). That felt like it's what you were after :) –  Kevin Wright Oct 2 '11 at 20:29
    
That certainly does sound like it. Time for me to learn path-dependent types in earnest then. Thanks again. –  Jay Daley Oct 3 '11 at 0:29
    
Sorry, I was still thinking about it. The one problem I can see is when a factory generates a different class depending on the calling object. For example when you have a set of classes that extend a base class, each of which has a different delegate but there is a single factory that returns the delegates. –  Jay Daley Oct 5 '11 at 8:16

I don't think it's possible. However, a common pattern is to add a parameter to factory methods which takes a function modifying the created object:

trait MyClass {
  var name = ""
  def doStuff():Unit
}

class Foo extends MyClass {
  def doStuff() { println("FOO: " + name) }
}

trait MyClassFactory {
  def make: MyClass
  def apply( body: MyClass => Unit ) = {
    val mc = make
    body(mc)
    mc
  }
}

object FooFactory extends MyClassFactory {
  def make = new Foo
}

You can then create and modify instance with a syntax close to your example:

val foo = FooFactory { f=>
  f.name = "Joe"
  f.doStuff
}
share|improve this answer
    
Thanks, that's certainly further than I managed to get. –  Jay Daley Oct 2 '11 at 8:49

It sounds like you're just looking to mix in a trait. Instead of calling myFactoryMethod(classOf[Foo]] which ideally would do (if Scala permitted it):

new T {
  override def toString = "My implementation here."
}

you can instead write

trait MyImplementation {
  override def toString = "My implementation here."
}

new Foo with MyImplementation

However, if you are just looking to get the members of the new object accessible without qualification, remember you can import from any stable identifier:

val foo = new Bar
import foo._
println(baz) //where baz is a member of foo.
share|improve this answer
    
Thanks. If I understood you correctly, the problem I can see with using a trait is that the factory would need to know what trait to apply, but maybe I can tell it that? On your second point I found that I could use an import like this: val mf = MyFactory val mc = mf.MyClass { import mc._ doStuff() } (Where the blank line before the block is needed) but that code block is not a constructor. –  Jay Daley Oct 2 '11 at 20:49
    
The code got a bit mangled there so I've added something to my original question to explain where I got using import. Thanks again. –  Jay Daley Oct 2 '11 at 20:59
    
Regarding the factory knowing what trait to apply, I thought you could do without the factory and just write new Foo with MyImplementation. Mixing in a trait is not something that can be deferred until runtime, as it involves bytecode generation, and Scala does not provide a custom classloader. –  Ricky Clarkson Oct 3 '11 at 19:19

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