6

I am using a heterogeneous container similar to this one. I can put and receive objects from the container with ease:

Favorites f = new Favorites();
f.putFavorite(String.class, "Java");
String someString = f.getFavorite(String.class);

But there seem to be no easy way to iterate over such container. I can add a keySet() method to the Favorites class and simply return the key set of the internal Map object:

public Set<Class<?>> keySet() {
  return favorites.keySet();
}

Now, I would like to iterate over the keys, use the keys to get the associated values, and call some methods on the received objects:

for (Class<?> klass : f.keySet()) {
   // f.getFavorite(klass).<SOME_METHOD_SPECIFIC_TO_THE_CLASS-KEY>
}

I thought that I could access the methods of the objects held in my container by calling klass.cast(f.getFavorite(klass)).SOME_METHOD(), but it doesn't work either (meaning, I cannot access any methods except for the Object-related methods).

Let's say, that in my use case I would like to inspect the interfaces of all these objects I iterate over and act accordingly to the detected interface. Let's also assume that I may have dozens of objects of various classes and all of them implement one of three interfaces.

The only solution I can think of is to stuff my code with dozens of isinstance checks, but I would prefer a less cumbersome approach (i.e. checking if a given object implements one of three interfaces).

  • Do you have an idea of the "less cumbersome approach" you're envisioning? I mean if you have three different pieces of code you want to run depending on whether it implements one of three different interfaces, it seems like whatever approach we can suggest will have to have three different branches. So it'd be good to have clarity on what precisely you're finding cumbersome. – Mark Peters Feb 24 '16 at 17:15
  • Sorry, maybe I wasn't clear enough. I consider the "checking if a given object implements one of three interfaces" approach to be less cumbersome. At least when compared to the scenario with dozens of "if" statements. – Wojciech Walczak Feb 24 '16 at 17:25
  • I'm not sure where we're going from 3 if statements to dozens...my answer would use 3 if statements, is that what you're looking for? The issue with checking three interfaces at once is that you're going then need to do something different depending on which of the three interface it matched anyway, so what does it gain you? – Mark Peters Feb 24 '16 at 17:27
  • I think my question boils down to this: in the foreach loop from my initial question, when I receive an object with f.getFavorite(klass), can I use reflection to list methods of the returned instance? I know that the object is of class klass so I think I should be able to list its methods. – Wojciech Walczak Feb 24 '16 at 17:32
  • 2
    Ah yes. Java (as a language) does not have any usable support for duck typing. Java's primary mechanism for contract-based invocation is through interface inheritance. Although it recently gained support for invokedynamic at the VM level, this is mostly for other JVM languages and not Java. – Mark Peters Feb 24 '16 at 18:23
5

By trying to call a specific method on each entry, you are basically saying that you know better than the compiler, and that you know each entry has a specific super class.

If you know that's the case, you can use Class#asSubclass to type klass as Class<? extends KnownSuper> so that getFavorite will then return a subclass of KnownSuper (and therefore expose the method):

Class<KnownSuper> superClass = KnownSuper.class; //class with callMethod()
for (Class<?> klass : f.keySet()) {
    f.getFavorite(klass.asSubClass(superClass)).callMethod()
}

However, this will obviously give a runtime exception if one of the key classes does not extend KnownSuper. So if the above would be safe, you should parameterize your heterogeneous container to only accept key classes that extend from KnownSuper in the first place.

If not all entries will be of this type, you could also check first if the key is suitable when iterating:

Class<KnownSuper> superClass = KnownSuper.class; //class with callMethod()
for (Class<?> klass : f.keySet()) {
    if (superClass.isAssignableFrom(klass)) {
        f.getFavorite(klass.asSubClass(superClass)).callMethod()
    }
}
0

Just go through this simple example

Say you have below Favorites class definition

public class Favorites  extends HashMap<String, String> {

}

Here is the test class

public class TestGeneric {

    public static void main(String[] args) {

        Favorites  f = new Favorites();
        f.put("test", "test");

        for (String test1 : f.keySet()) {

             f.get("").charAt(index)// you will see all string specific  method as compiler knows in advance what object map going to contain


    }

}

The moment you change Favorites extends HashMap<String, String> to Favorites extends HashMap you will just object specific methods as compiler does not know in advance which object Favorites is going to put in map

  • 1
    The point of using heterogenous container is to be able to put heterogeneous objects into it. For example: f.putFavorite(String.class, "Java"); f.putFavorite(Integer.class, 1);. – Wojciech Walczak Feb 24 '16 at 17:56

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