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I'm sitting in front of a project about 10000 LoC. I have to update this Project from Scala 2.9 to 2.10. This was well done, but I got many deprecation warnings because of the manifests.

After using the search function of stackoverflow and many other sites, I have not so many questions. I want to summarize; the key points are:

  1. TypeTags and ClassTags are much better than Manifests and ClassManifest. Especially you can use these as synonyms (TypeTags <-> Manifests and ClassTags <-> ClassManifest)

  2. TypeTags are more powerfull than ClassTags, respectively ClassTags are more restricted TypeTags. My first question: In this project, the method manifest[T].erasure.getSimpleName is often used. Now I can't only switch this to typeTag[T].runtimeClass.getSimpleName because the code wouldn't compile, but with classTag[T].runtimeClass.getSimpleName it would compile. Would this influence the semantics? (Note: The method erasure is also deprecated; you have to use runtimeClass instead)

  3. The second question: Type checking of manifests in Scala 2.9 was kind of: manifest[T] <:< manifest[A]. In Scala 2.10, I would write this typeOf[T] <:< typeOf[A]. But <:< is deprecated?!

  4. Am I able to cast a TypeTag to a ClassTag? I.e.: If I only use manifests for type checking (Nr. 3) and name extracting (Nr. 2): Am I able to rename every Manifest/ClassManifest to ClassTag?

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1 Answer 1

up vote 5 down vote accepted
  1. Yes, you mostly have the equivalence TypeTag <-> Manifest and ClassTag <-> ClassManifest. Except that there are some things that used to be handled by Manifests that have no direct equivalent because those operations were moved deeper into the reflection API instead, like the factory methods on the Manifest object.

  2. ClassTag is now basically only used to get the runtime (erased) class of something. The main thing it is used for is array creation, but you can use it for other purposes without problem. So yes, classTag[T].runtimeClass is the new manifest[T].erasure and is completely equivalent to it.

  3. This is the place that has changed the most. 2.10 introduced the new reflection API, and you are supposed to use it when you want to answer specific questions about types (like "does A <:< B?"). And the entry point into the reflection API for a type is... its TypeTag.

    Assuming type tags for A and T are in scope, the new manifest[T] <:< manifest[A] would indeed be typeOf[T] <:< typeOf[A]. The method <:< is not deprecated here, see the scaladoc. There is however a deprecated <:< in ClassTag because ClassManifest used to have one, and ClassTag is the new ClassManifest.

    See the section about Common Operations on Types of the reflection guide, and the SO question What is a TypeTag and how do I use it.

  4. I do not think there is a direct way to go from a TypeTag to a ClassTag. Think of it this way:

    • if you need sub-typing or type equality checking, you cannot use a ClassTag, you need a TypeTag;

    • if you also need the name of that type, you can just get it from the TypeTag: typeOf[T].typeSymbol.name.decoded. This would give you the erased name, just like the class name you used to get (List for List[Int], or Map for Map[String, Int]). This is slightly different from getting the name of the actual Class though. If you need the fulll un-erased name (List[Int]), typeOf[T].normalize.toString is enough.

    • if you also absolutely need a Class instance, or a real class name that you can pass around and load later on with reflection, I think you have no choice but ask for a ClassTag too..

      Edit: I just found this SO question, so yes, it is possible to get a ClassTag from a TypeTag. It is just sad there is no helper method somewhere in the reflection library for this.

      Edit 2: as requested, here is how to convert from TypeTag to ClassTag:

      import reflect.runtime.universe._
      import reflect.ClassTag
      
      def classTag2[T: TypeTag]: ClassTag[T] = {
        ClassTag[T]( typeTag[T].mirror.runtimeClass( typeTag[T].tpe ) )
      }
      
      // example:
      
      def doSomething[T : TypeTag] = {
        val c = classTag2[T]
        c.runtimeClass.getName
      }
      
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I got another problem: How can I rewrite i.erasure where i is a implicit Manifest[T] –  funnyF Aug 25 '13 at 14:08
    
you should replace that implicit Manifest[T] with an implicit ClassTag[T] and call i.runtimeClass. –  gourlaysama Aug 25 '13 at 15:30
    
Thank you, everything is fixed exept of one thing: in one method I have a TypeTag T, but I need the pendant to manifest[T].erasure. Normally, I would use classTag[T].runtimeClass, but this time I connot rename TypeTag to ClassTag (because the method is a apply function and a lot of methods call this apply function) –  funnyF Aug 28 '13 at 16:01
    
@user2625693 you can get a ClassTag from a TypeTag, see my edit. –  gourlaysama Aug 30 '13 at 15:47
    
@gourlaysama, if you use runtimeMirror(getClass.getClassLoader) you are susceptible for class loading errors, because T (it is specified by the user, after all) can be loaded by any class loader, not only the one which have loaded the class with classTag2 method. You'd better use typeTag[T].mirror instead. –  Vladimir Matveev Aug 31 '13 at 6:29

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