46

I'm trying to understand how java deals with ambiguities in function calls. In the following code, the call to method is ambiguous, but method2 is not!!!.

I feel both are ambiguous, but why does this compile when I comment out the call to method? Why is method2 not ambiguous as well?

public class A {
    public static <K> List<K> method(final K arg, final Object... otherArgs) {
        System.out.println("I'm in one");
        return new ArrayList<K>();
    }

    public static <K> List<K> method(final Object... otherArgs) {
        System.out.println("I'm in two");
        return new ArrayList<K>();
    }

    public static <K, V> Map<K, V> method2(final K k0, final V v0, final Object... keysAndValues) {
        System.out.println("I'm in one");
        return new HashMap<K,V> ();
    }

    public static <K, V> Map<K, V> method2(final Object... keysAndValues) {
        System.out.println("I'm in two");
        return new HashMap<K,V>();
    }

    public static void main(String[] args) {
        Map<String, Integer> c = A.method2( "ACD", new Integer(4), "DFAD" );
        //List<Integer> d = A.method(1, "2", 3  );
    }
}

EDIT: This came up in comments: A number of IDEs report both as ambiguous - IntelliJ and Netbeans so far. However, it compiles just fine from command-line/maven.

21
  • 13
    This is really going to hurt your head but, here's the rules from the spec: docs.oracle.com/javase/specs/jls/se5.0/html/… - What I suspect is that with the two generic parameters method2 can be said to be "strictly more specific" - I leave you to do the math there, I'm at lunch :-D May 17, 2012 at 19:47
  • 4
    With javac 1.7.0_02 it doesn't compile, even from command line, method2 is properly considered ambiguous. May 17, 2012 at 19:54
  • 2
    Interesting that the compilation behavior in Java 7 is different. The spec looks similar given a cursory glance. May 17, 2012 at 20:19
  • 4
    Thanks @alain.janinm I think there was a bug in JDK6. Some bugs related to ambiguous invocations have been solved in Java 7, according to oracle.com/technetwork/java/javase/…. I couldn't find this particular case.
    – Chip
    May 17, 2012 at 20:27
  • 1
    Probably, moreover according to varargs doc you should not overload a varargs method, or it will be difficult for programmers to figure out which overloading gets called. However it's interesting to understand how works the resolution of the "most specific method". If you need some help to understand the spec you can read stackoverflow.com/q/6023439/1140748 and also a well explained example forums.oracle.com/forums/message.jspa?messageID=9485871#9485871. May 17, 2012 at 20:44

1 Answer 1

14

An intuitive way to test whether method1 is more specific than method2 is to see whether method1 can be implemented by invoking method2 with the same parameters

method1(params1){
    method2(params1);   // if compiles, method1 is more specific than method2
}

If there are varargs, we may need to expand a vararg so that 2 methods have same number of params.

Let's check the first two method()s in your example

<K> void method_a(K arg, Object... otherArgs) {
    method_b(arg, otherArgs);   //ok L1
}
<K> void method_b(Object arg, Object... otherArgs) { // extract 1 arg from vararg
    method_a(arg, otherArgs);   //ok L2
}

(return types are not used in determining specificity, so they are omitted)

Both compile, therefore each is more specific than the other, hence the ambiguity. Same goes for your method2()s, they are more specific than each other. Therefore the call to method2() is ambiguous and shouldn't compile; otherwise it's a compiler bug.


So that's what the spec says; but is it proper? Certainly, method_a looks more specific than method_b. Actually if we have a concrete type instead of K

void method_a(Integer arg, Object... otherArgs) {
    method_b(arg, otherArgs);   // ok
}
void method_b(Object arg, Object... otherArgs) {
    method_a(arg, otherArgs);   // error
}

then only method_a is more specific than method_b, not vice versa.

The discrepancy arises from the magic of type inference. L1/L2 calls a generic method without explicit type arguments, so the compiler tries to infer the type arguments. The goal of type inference algorithm is to find type arguments such that the code compiles! No wonder L1 and L2 compile. L2 is actually infer to be this.<Object>method_a(arg, otherArgs)

Type inference tries to guess what the programmer wants, but the guess must be wrong sometimes. Our real intention is actually

<K> void method_a(K arg, Object... otherArgs) {
    this.<K>method_b(arg, otherArgs);   // ok
}
<K> void method_b(Object arg, Object... otherArgs) {
    this.<K>method_a(arg, otherArgs);   // error
}
2
  • Thank you for the intuitive test.. but it doesn't answer the question. The question is why does the invocation of method fail but method2 passes.
    – Chip
    May 18, 2012 at 18:11
  • 2
    from the analysis, call to method2 is ambiguous for lack of most specific method. therefore it is a compiler bug. May 18, 2012 at 18:39

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