First you probably want a full generic
Class<Callable<Integer>> classCI = ...;
Then the java type system has no problem with
Class<? extends Callable<Integer>> clazz =
How can we get
classCI? We can cheat by unchecked cast
Class<Callable<Integer>> classCI = (Class<Callable<Integer>>)Callable.class;
This is inherently unsafe. There must be external forces to make sure the
className really is a
Callable<Integer>. For example if it's a
Callable<String>, the program runs through all the casts without any problem, and it only blows up much later when
Integer call() is invoked, and the error message will be very misleading.
It's ok if a cast cannot be analyzed statically to succeed:
Object o = ...;
String s1 = (String)o; // may fail, no javac warning
String s2 = String.class.cast(o); // may fail, no javac warning
as long as an exception is immediately thrown when the cast fails at runtime.
To be type safe, we must proactively check the generic type of the
@SuppressWarning( "unchecked" )
Class<? Callable<Integer>> getClass(String className)
Class clazz = Class.forName(className);
via reflection, check generic super interfaces of clazz
if there's no Callable<Integer> super interface
throw "className is not a Callable<Integer>"
// we have *checked*, the following cast is safe
return (Class<? Callable<Integer>>)clazz;
We are justified to suppress "unchecked" here, because the implementation checks to make sure that if the
className doesn't really denote a class implementing
Callable<Integer>, it immediately throws an exception right there. Our cast is "checked", and the program is type safe.