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I have found for self is very interesting a fact. For example i've wrote:

type A = { val st: Set[Any]
           val start: Set[Any]
           val Sigma : Set[Char]
           def tr(f: (Tuple2[Any, Any])=>Boolean): Set[Any]
             }
class Fon {
          val st: Set[Any]
          val start: Set[Any]
          val Sigma : Set[Char]
          def tr(f: (Tuple2[Any, Any])=>Boolean): Set[Any] = Set(out)
          def out: String = "is just example"
}
val a: A = new Fon
a.tr(f(Tuple2('a',0)))

But if i will try do call a.out - i get an error, that the type A have not exist 'out' What happening to this, how this to work? Thanks.

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3  
This code is incorrect. At the very least, Set[out] and Tuple['a',0] are incorrect, because [] is being used instead of (). Also, this does not have anything to do with structural types -- if you do val a: AnyRef = new Fon; a.out it will complain all the same. –  Daniel C. Sobral Jun 10 '11 at 20:53
    
Maybe i don't understand something but can you do following: type A = { def out: String }; class AA { def out: String = out2; def out2 = "out2"; val a: A = new AA; a.out - result String = out2 –  dvigal Jun 11 '11 at 5:04
    
@lisasha There's a } missing in your example. I assume after out2's definition. Anyway, is that a question or a statement? If a question, then yes. If a statement, then I do not understand the point you are trying to make. Did you expect it to fail? If so, why? –  Daniel C. Sobral Jun 11 '11 at 18:45
    
Yes, here is missing } after out2 and it's was a question. Now me is more clear how it working. Anyway, why You said that it does not have to do with structural type? Thanks. –  dvigal Jun 12 '11 at 5:11
    
@lisasha Because it doesn't. As I said, if you replace val a: A = new AA with val a: AnyRef = new AA, it will give you the same error. –  Daniel C. Sobral Jun 12 '11 at 18:59

3 Answers 3

up vote 5 down vote accepted

There is no such method as A.out, because of how you've defined the A type. Thus, when you try to call a method called out on an object of type A, the compiler correctly tells you that no such method exists.

This is not related to structural typing, by the way - if you had made A a trait and had Fon extend it, you'd run into exactly the same problems. Moreover, this is just how static typing systems work - the compiler can't guarantee that your code is typesafe so it won't compile it.

If you want to call the out method, then you'll need to refer to that object via a Fon variable:

val a: Fon = new Fon
println(a.out) // works fine, since a is guaranteed to be a Fon and thus have the method
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All humor in fact that we can have is formally defined type and class or singleton, in general - object which will be represent it the to implementation. May be it's and not very good... Me wonder how and why the compiler allow this - use method 'out' in the method tr and infer that class Fon it's the type A. –  dvigal Jun 10 '11 at 16:54

Basically it allows you to use one object ( Fon ) as it was another ( A ) granted they have the same features.

Since out is not a feature of A the compiler doesn't let you proceed.

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type A is an abstract class or trait. Its member variables and methods are abstract.

type A = {val st: Set[Any]
    val start: Set[Any]
    val Sigma: Set[Char]
    def tr(f: (Tuple2[Any, Any]) => Boolean): Set[Any]
  }

Fon is a concrete class, just implement type A all abstract member.

class Fon {
    val st: Set[Any] = null
    val start: Set[Any] = null
    val Sigma: Set[Char] = null

    def tr(f: (Tuple2[Any, Any]) => Boolean): Set[Any] = Set(out)

    def out: String = "is just example"
  }

So, you can define a variable, type is A ,and concrete instance is Fon

val a: A = new Fon
  println(a.tr(_ => false)) // Set(is just example)

extra: f: (Tuple2[Any, Any]) => Boolean is a abstract higher-order function as a parameter, so, if you want to call method tr, the a.tr(f(Tuple2('a',0))) calling mode can not resolve symbol f. f: (Tuple2[Any, Any]) => Boolean just getting a parameter, and return boolean. so (_ => false) is a concrete implement.

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