Reflection and Macros share a lot of the API because they are basically the same thing: Meta Programming. You can generate and execute code, you have to reflect types and so on. There are some differences of course: at compile-time you cannot reflect runtime instances and at runtime you do not get access to internal structure of methods, scope and other information that is deleted during compilation.
Both APIs are still experimental and will probably change in the future in some parts, but they are very usable and also quite well documented. Scala being such a versatile language they are just much more complex than the APIs in Java.
This documentation brings you very far:
http://www.scala-lang.org/api/2.11.7/scala-reflect/
http://www.scala-lang.org/api/2.11.7/scala-compiler/
http://docs.scala-lang.org/overviews/ (Bottom of the page)
This getClass[AnnotatedClass].getAnnotations gives you only Java Annotations, to get Scala Annotations you have to get the Scala Type instead of only the class.
It is possible to access reflections during runtime as well as during compile time, however there are three kinds of annotations:
Plain annotations that are only in the code: These can be accessed from macros in the compilation unit where the macro is called where the macro gets access to the AST
StaticAnnotations that are shared over compilation units: these can be accessed via scala reflection api
ClassfileAnnotations: these represent annotations stored as java annotations. If you want to access them via the Java Reflection API you have to define them in Java though.
Here is an example:
@SerialVersionUID(1) class Blub
Now, we can get the annotation this way:
import scala.reflect.runtime.universe._
val a = typeOf[Blub].typeSymbol.annotations.head
What we actually get is not an instance of an annotation. The runtime environment just gives us what is written in the byte code: the scala code generating the annotation. You can print out the AST that you get:
showRaw(a.tree)
Now, this is already a quite complicated structure, but we can decompose it using pattern matching:
val Apply(_, List(AssignOrNamedArg(_,Literal(Constant(value))))) = a.tree
val uid = value.asInstanceOf[Long]
This is OK for very simple annotations (but we could write those in Java and rely on the JVM creating instances for us). What if we actually want to evaluate that code and generate an instance of the annotation class? (For @SerialVersionUID this would not help us much as the class actually does not give as access to the id...) We can also do that:
case class MyAnnotation(name: String) extends annotation.ClassfileAnnotation
@MyAnnotation(name = "asd")
class MyClass
object MyApp extends App {
import reflect.runtime.universe._
import scala.reflect.runtime.currentMirror
import scala.tools.reflect.ToolBox
val toolbox = currentMirror.mkToolBox()
val annotation = typeOf[MyClass].typeSymbol.annotations.head
val instance = toolbox.eval(toolbox.untypecheck(annotation.tree))
.asInstanceOf[MyAnnotation]
println(instance.name)
}
Note, that this will call the compiler which takes a little time, especially if you do it for the first time. Sophisticated meta programming should really be done at compile time in Scala. A lot of stuff in Java is only done at runtime because you can only have runtime meta programming (Well, there are annotation processors, but they are more limited).
