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I'd like to implement a function with both generics and varargs.

public class Question {
    public static <A> void doNastyThingsToClasses(Class<A> parent, Class<? extends A>... classes) {
        /*** something here ***/
    }
    public static class NotQuestion {
    }
    public static class SomeQuestion extends Question {
    }
    public static void main(String[] args) {
        doNastyThingsToClasses(Object.class, Question.class, SomeQuestion.class); // OK
        doNastyThingsToClasses(Question.class, SomeQuestion.class); // OK
        doNastyThingsToClasses(Question.class, Object.class, SomeQuestion.class); // compilation failure
    }
}

The intension here is to assert that all parameters passed to this function are Class objects extending the Class given as the first parameter. So the two first lines of main method would compile and the 3rd one generates an error.

My question is: Why I get "Type safety : A generic array of Class is created for a varargs parameter" message for the first two lines?

Am I missing something here?

Additional question: how to redesign it to prevent this warning from being shown on every line calling "doNastyThingsToClasses" function? I can change it to "doNastyThingsToClasses(Class<A> parent, Class<?>... classes)" and get rid of the warnings but this also removes the compilation-time type checking --- not so good if I wanted to assure the right use of this function. Any better solution?

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6 Answers 6

up vote 23 down vote accepted

As almost always, Angelika Langer's Java generics FAQ explains it in great detail. (Scroll to "Why does the compiler sometimes issue an unchecked warning when I invoke a "varargs" method?" - the ID doesn't work well.)

Basically, you end up losing information in a worse way than normal. Yet another little pain point in Java generics :(

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8  
I suggest it's a pain point in varargs - they shouldn't have used arrays. In fact, the misfeature should have been replaced by immutable list (and others) literals. –  Tom Hawtin - tackline Jun 22 '10 at 20:19
    
OK the FAQ cleared it out to me. Great link. Thank you. –  Chris Jun 22 '10 at 20:34
    
@Tom: Yes, that would certainly have solved this particular one. Arrays and generics would still be a pain together, of course :) –  Jon Skeet Jun 22 '10 at 22:01
2  
at least a way to work around this particular piece of ugliness is coming, eventually (see my answer) –  Cowan Jun 23 '10 at 2:39

Jon Skeet's answer is (of course) correct; I'll expand on it a little by pointing out that you CAN get rid of this warning, with a big 'if'. You can avoid this warning IF you're willing to commit to having your project build using Java 7.

Bob Lee wrote a proposal to let this warning be suppressed at method-declaration site, rather than usage site, as part of Project Coin.

This proposal was accepted for JDK7 (though the syntax changed slightly, to @SuppressWarnings("varargs")); you can, if you're curious, look at the commit that added this support to the JDK.

Not necessarily helpful for you, but I thought I'd make this a separate answer so it lives on for future readers, who may be lucky enough to live in a post-Java-7 world.

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1  
See @Scott's answer about @SafeVarargs –  Brad Cupit Jun 10 '13 at 18:43

As an aside, the warning can now be suppressed using Java 7's new @SafeVarargs annotation.

@SafeVarargs
public static <A> void func( Class<A> parent, Class<? extends A>... classes ) {
    // Do func...
}
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My solution to this problem was to

  1. create a class Nastier
  2. remove ... from doNastyThingsToClasses
  3. make doNastyThingsToClasses none static method
  4. make the name short, like do
  5. return this
  6. move repetitive args to class properties

    class Nastier {
      private final Class<A> parent;
    
      public Nastier(Class<A> parent) {
         this.parent = parent;
      }
    
      public <A, C extends A> Nastier do(Class<? extends A> clazz) {
         System.out.println(clazz);
         return this;
      }
    }
    
    public static void main(String[] args) {   
      Nastier nastier = new Nastier(Object.class);
      nastier.do(Question.class).do(SomeQuestion.class).do(NotQuestion.class);
    }
    

I believe the code looks clean and I am happy.... :)

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I haven't thought about method chaining... this is a really nice workaround! –  Chris Oct 13 '11 at 21:29
1  
Nitpicking, but do is a keyword and can't be a method name :-) –  Brad Cupit Jun 10 '13 at 18:31

The second argument Class<? extends A>... that must extend the class that the first argument is (ex. argument one is a Question so the second argument be something that extends Question.

The Breakdown:
NastyThingsToClasses(Object.class, Question.class, SomeQuestion.class); // OK
Everything extends Object so the second argument is correct.

NastyThingsToClasses(Question.class, SomeQuestion.class); // OK
SomeQuestion extends Question so thats fair game.

NastyThingsToClasses(Question.class, Object.class, SomeQuestion.class);
Object does not extend Question hence error.


hopefully that cleared things up.

-Brett

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The OP was asking about the warnings of the first two lines, not about the error. –  True Soft Jun 22 '10 at 20:18

OK, so finally I end up throwing the varargs away:

public class Question {

    public static <A, C extends A> void doNastyThingsToClasses(Class<A> parent, List<Class<? extends A>> classes) {
        /******/
        for(Class<? extends A> clazz : classes) {
            System.out.println(clazz);
        }
    }

    public static class NotQuestion {
    }
    public static class SomeQuestion extends Question {
    }

    public static void main(String[] args) {

        ArrayList<Class<? extends Object>> classes = new ArrayList<Class<? extends Object>>();
        classes.add(Question.class);
        classes.add(SomeQuestion.class);
        classes.add(NotQuestion.class);
        doNastyThingsToClasses(Object.class, classes);

        ArrayList<Class<? extends Question>> clazzes = new ArrayList<Class<? extends Question>>();
        clazzes.add(Question.class);
        clazzes.add(SomeQuestion.class);
        clazzes.add(NotQuestion.class); // yes, this will _not_ compile
        doNastyThingsToClasses(Question.class, clazzes);

    }

}

The only flaw is the long code for populating the collection used to carry function's arguments.

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