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.

I wrote a couple of functions that look like this:

def myWrite(os: OutputStream) = {}
def myWrite(w: Writer) = {}

Now both are very similar and I thought I would try to write a single parametrized version of the function.

I started with a type with the two methods that are common in the Java OutputStream and Writer:

type Writable[T] = {
    def close() : Unit
    def write(cbuf: Array[T], off: Int, len: Int): Unit
}

One issue is that OutputStream writes Byte and Writer writes Char, so I parametrized the type with T.

Then I write my function:

def myWrite[T, A[T] <: Writable[T]](out: A[T]) = {}

and try to use it:

val w = new java.io.StringWriter()
myWrite(w)                        

Result:

<console>:9: error: type mismatch;
 found   : java.io.StringWriter
 required: ?A[ ?T ]
Note that implicit conversions are not applicable because they are ambiguous:
 both method any2ArrowAssoc in object Predef of type [A](x: A)ArrowAssoc[A]
 and method any2Ensuring in object Predef of type [A](x: A)Ensuring[A]
 are possible conversion functions from java.io.StringWriter to ?A[ ?T ]
       myWrite(w)

I tried a few other combinations of types and parameters, to no avail so far.

My question is whether there is a way of achieving this at all, and if so how.

(Note that the implementation of myWrite will need, internally, to know the type T that parametrizes the write() method, because it needs to create a buffer as in new ArrayT.)

UPDATE: The "correct" solution doesn't work because a bug in the compiler: https://lampsvn.epfl.ch/trac/scala/ticket/2672

share|improve this question

2 Answers 2

First of all, you don't need to parameterize A in myWrite. Your target classes aren't generic! Second, you don't need to explicitly allow for subclasses--just let inheritance do the trick for you.

def myWrite[T](out: Writable[T]) = {}

Now the method can infer the type T. As long as you don't for some reason need the true type of A also, this will work for you:

myWrite(new StringWriter)

However, you're going to run into a problem:

def myWrite[T](out: Writable[T]) = new Array[T](0)  // Doesn't work!

The problem is that this is generic code. It doesn't know what T is--it could be anything! So you need to tell the compiler to pass in information that identifies T:

def myWrite[T : ClassManifest](out: Writable[T]) = new Array[T](0)

(Edit: simplified the answer to make it actually work.)


(Edit: actually, it doesn't quite work--see comments.)

share|improve this answer
    
This still doesn't work though: I get error: inferred type arguments [Nothing,java.io.FileWriter] do not conform to method myWrite's type parameter bounds [T,A <: Writable[T]]! –  ebruchez Jan 16 '11 at 1:00
    
BTW when you say "it doesn't know what T is": as I human I can perfectly infer the type: I notice that Writer corresponds to my Writable, which happens to have a write() method with an Array[Char]. So now I know that I have a Writable[Char]. It seems that at least in a case like this, the type system should be able to infer T. I don't know how the type system works deep down, and if this kind of inference is compatible or not, but as a human I can definitely infer. Anyway while it would be great if it worked out of the box, for now I could settle with implicits if they could be made to work! –  ebruchez Jan 16 '11 at 1:02
    
There's a complicated way and a simple way to fix the problem in my original post (I had too much implicit stuff in the REPL at once and got confused about why things worked). I went for the simple way, which is probably enough. You can add another wrapper to do it the complicated way if you need the actual type of A instead of its superclass Writable[Char] or Writable[Byte]. –  Rex Kerr Jan 16 '11 at 1:20
    
Thanks Rex, much better! Not sure why the "complicated" version didn't work though. –  ebruchez Jan 16 '11 at 1:31
    
I have closed this too early: this compiles but actually using the writer fails at runtime. Try e.g. def myWrite[T : ClassManifest](out: Writable[T]) = { val a = new Array[T](1); out.write(a, 0, 1)}; val w = new java.io.StringWriter(); myWrite(w) produces: java.lang.NoSuchMethodException: java.io.StringWriter.write(java.lang.Object, int, int) at java.lang.Class.getMethod(Class.java:1605) at .reflMethod$Method1(<console>:6) at .myWrite(<console>:6) –  ebruchez Jan 16 '11 at 8:55

This works:

myWrite(w.asInstanceOf[Writable[Char]])

...so you would think this would work:

implicit def wrToWr(w:java.io.Writer): Writable[Char] = w.asInstanceOf[Writable[Char]]

...but it doesn't. I have no idea why not:

scala> myWrite(w)
<console>:17: error: type mismatch;
 found   : java.io.StringWriter
 required: Nothing
       myWrite(w)
               ^

Where is Nothing coming from??

share|improve this answer
    
You don't need to force the cast using asInstanceOf; a simple myWrite(w: Writable[Char]) should do the trick, since formally Writable[Char] acts as a superclass of Writer given the type definitions. Also, Nothing comes from the type inference engine using the most specific type possible. Nothing is a subclass of every other class, so it uses that unless forced to do otherwise (and it doesn't realize that it's forced to do otherwise; it thinks it can resolve T independently of A). –  Rex Kerr Jan 16 '11 at 0:24
    
Ah, that explains a lot. Thanks. –  Eric Bowman - abstracto - Jan 16 '11 at 22:54

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.