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 am using scala 2.10's toolbox api to compile and construct classes from ASTs at runtime. I have an AST for a trait which I want to compile and mix in to future class definitions but am unable to get any handle with which to apply it to my class.

scala> import scala.reflect.runtime.universe._
import scala.reflect.runtime.universe._

scala> import scala.tools.reflect.ToolBox
import scala.tools.reflect.ToolBox

scala> val tb = scala.reflect.runtime.currentMirror.mkToolBox()
tb: scala.tools.reflect.ToolBox[reflect.runtime.universe.type] = scala.tools.reflect.ToolBoxFactory$ToolBoxImpl@7469d79a

scala> val ast_trait = tb.parse("trait T")//My AST is manually constructed starting with ClassDef
ast_trait: tb.u.Tree = abstract trait T extends scala.AnyRef

//compile and execute the tree
scala> tb.eval(ast_trait)
res0: Any = ()

//attempt to define a class that 
scala> tb.eval(tb.parse("class C extends T"))implements T. In my code this is a constructed AST
scala.tools.reflect.ToolBoxError: reflective compilation has failed:

not found: type T
/*stack trace*/

This fails as when classes/traits are compiled with a toolbox, they are wrapped and given a name like __wrapper$[wrapCount]$[uuid]$[name].

The problem arises of how to obtain a handle to the defined trait to be used with the class definition.

The apparent solution was to obtain a scala.reflect.runtime.universe.Type instance for the trait via typeOf[T].

//Obtain an AST via tb.parse
scala> val ast_type = tb.parse("scala.reflect.runtime.universe.typeOf[T]")
ast_type: tb.u.Tree = scala.reflect.runtime.universe.typeOf[T]

//eval the trait defintion and typeOf in the same block
scala> tb.eval(Block(ast_trait, ast_type))
warning: there were 1 deprecation warning(s); re-run with -deprecation for details
scala.tools.reflect.ToolBoxError: reflective compilation has failed:

No TypeTag available for T
not enough arguments for method typeOf: (implicit ttag: reflect.runtime.universe.TypeTag[T])reflect.runtime.universe.Type.
Unspecified value parameter ttag.
/*stack trace*/

I'm not entirely sure why this fails, but I have not succeded in working with implicit type tags and toolbox compilation in any form before.

//A simpler all in one example
scala> tb.eval(tb.parse("trait T; scala.reflect.runtime.universe.typeOf[T]"))
scala.tools.reflect.ToolBoxError: reflective compilation has failed:

No TypeTag available for T
not enough arguments for method typeOf: (implicit ttag: reflect.runtime.universe.TypeTag[T])reflect.runtime.universe.Type.
Unspecified value parameter ttag.
/*stack trace*/

Is there a way to disable the wrapping so that the trait will be defined with the name specified in the AST?

If not, how can the fullName of the trait be acquired?

Update: The suggestion of using classOf worked like a charm, until the trait was actually applied to a class.

scala> val mirror = scala.reflect.runtime.currentMirror

scala> val clazz = tb.eval(tb.parse("trait T{def m = 0}; classOf[T]")).asInstanceOf[Class[_]]
clazz: Class[_] = interface __wrapper$5$36e5027b48a44570a47be32d536aa67d.__wrapper$5$36e5027b48a44570a47be32d536aa67d$T$1
scala> val tpe = mirror.classSymbol(clazz)
tpe: reflect.runtime.universe.ClassSymbol = trait T$1

scala> val tree = ClassDef(Modifiers(), "C", List(), Template(
     | List(Ident(tpe)),
     | emptyValDef,
     | List()))
tree: reflect.runtime.universe.ClassDef = class C extends T$1

scala> tb.eval(tree)
scala.tools.reflect.ToolBoxError: reflective compilation has failed:

class C needs to be abstract, since method m in trait T$1 of type ()Int is not defined
/*stack trace*/

It appears that the implementation of the trait is being lost and it is being applied as just an interface (which is what the java class returned by classOf defines).

I hypothesise that toolbox's wrapper is renaming the java class for the implementation of the trait (normally with the same classname followed by '$') with a new uuid and the compiler is then unable to find it and assumes it is just an interface.

How can I apply the trait with implementation to a class?

share|improve this question
    
The typeOf thing looks like a bug. Could you please submit it to our JIRA? Have you tried classOf though? –  Eugene Burmako Jun 10 '13 at 13:26
    
Your second problem happens because the compiler wraps all code sent to eval into a wrapper. E.g. 2 gets transformed into object blahblah { def blah = 2 }. Therefore your trait ends up becoming a local trait, and for local types Scala doesn't preserve any metadata for reflection. Thus later on Scala treats T as a plain Java interface, not knowing that it has actually an implementation. This can be fixed by omitting the wrapping in some cases. –  Eugene Burmako Jun 11 '13 at 9:20
    
So now I have 2 questions: 1) Could you please submit a bug to JIRA, so that we have a point of reference? 2) Is this a blocker for you? –  Eugene Burmako Jun 11 '13 at 9:21

Your Answer

 
discard

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

Browse other questions tagged or ask your own question.