vote up 1 vote down star

Say I have this code - 

public interface ParentInterface1 {
    public List<? extends ChildInterface1> getChildren();
    public void setChildren(List<? extends ChildInterface1> children);
}
public interface ParentInterface2 {
    public List<? extends ChildInterface2> getChildren();
    public void setChildren(List<? extends ChildInterface2> children);
}
public interface ChildInterface1 {
    public String getField();
    public void setField(String field);
}
public interface ChildInterface2 {
    public String getField();
    public void setField(String field);
}
public class LParentImpl implements ParentInterface1, ParentInterface2 {
    private List<ChildImpl> list;
    public List<ChildImpl> getChildren() {
        return list;
    }
    public void setChildren(List<... wants to accept ChildImpl, which 
                                   implements ChildInterface1 & ChildInterface2> children) {
        throw new UnsupportedOperationException("Not supported yet.");
    }
}
public class ChildImpl implements ChildInterface1, ChildInterface2 {
    private String field;
    public String getField() {
        return field;
    }
    public void setField(String field) {
        this.field = field;
    }
}

Is there a way to make the setChildren() in the ParentImpl class work, without removing the Generic typing completely from the interfaces and implementation?

I'd like to do something like - 

public void setChildren(List<? extends ChildInterface1 & ChildInterface2> children)

This sort of interface/implementation structure is valid for non Generic types, but it seems some aspect of the run-time erasure of Generics might make this impossible? Or am I missing some magic syntax?

Edit: Using the List<? extends ChildInterface1 & ChildInterface2> yields this compile error - 

...\ParentImpl.java:20: > expected
    public void setChildren(List<? extends ChildInterface1 & ChildInterface2> children) {
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3 Answers

vote up 4 vote down check

Your problem doesn't makes sense.

ParentInterface1.setChildren accepts List<ChildInterface1>. Therefore so much LParentImpl.setChildern, but you are trying to constrain it so that it does not.

You might want to say, parameterise ParentInterface1/2, but I'd suggest avoiding multiple inheritance of interface wherever possible (not just where generics are involved).

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You are correct. I was trying to work around the fact you can't satisfy both interfaces with - public void setChildren(List<ChildInteface1>) public void setChildren(List<ChildInteface2>) because of erasure - but I think what I'm trying to do here isn't possible given the mechanics of the language. – Richard Nichols Jul 17 at 1:53
You can't have both methods overloaded, because of the language spec (overloading is a static issue, so it would be possible despite erasure). The most restrictive parameter type of the method would be something like List<? extends ChildInterface1 | ChildInterface2> (not valid Java) which isn't useful. Not sure if you can declare it as just List<?>. – Tom Hawtin - tackline Jul 17 at 2:03
vote up 0 vote down

You can specify a method that takes an object that implements those two interfaces like this:

public <T extends IFirst & ISecond> void doSomething(T obj) {}

However, it won't matter much in your example, since both your child interfaces specify the same methods.

link|flag
vote up 1 vote down

You can do this:

List<T extends ChildInterface1 & ChildInterface2

Take a look at Java Generics Wildcarding With Multiple Classes

link|flag
That is not valid syntax. – newacct Jul 17 at 5:36
It's almost valid. See my answer. – Jorn Jul 17 at 8:29

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