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I'm currently tutoring a high school student in AP Java and she asked me a question about "double casting". I did not ever hear of this term before, but apparently her teacher expects her to know it for their upcoming final.

The example her teacher provided was if you wanted to cast an Integer into a String, you would have to do the following to not get a compiler error:

Integer i = new Integer(5);
String s = (String)(Object) i;

The question is: when would you want to do this in real life?

The teacher only provided examples which result in a run time error. Also, I never really knew there was a term for this, but it just seems like a bad idea to do it because there's only an error when the two types are incompatible.

Thanks!

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7  
That code would certainly lead to a ClassCastException, while Integer can be "upcast" to Object, the object still knows it is an Integer... The second casting will fail. What does her teacher smoke? :p –  fge Jan 21 '13 at 2:56
    
@fge yeah.. I couldn't think of any example that made sense when she asked me this today, so I told her I'd get back to her.. good to know it's just a bad idea and that I'm not crazy. =] –  Kirsten Koa Jan 21 '13 at 3:01
    
there is no reason why you would write a code like that. If you know the final type of object needed after cast, thats what you would cast the object into. Are you sure the teacher didnt mean like (String)((Object)i).doSomething()) ? –  aishwarya Jan 21 '13 at 3:04
    
@aishwarya Your example would make more sense, but the example I provided is straight from the notes my student got from class. –  Kirsten Koa Jan 21 '13 at 3:08
1  
Actually, double casting can be useful when dealing with primitive types. Suppose Object get() returns an Integer/int. Now consider int i = (int) (Integer) get(). Of course, this can be circumvented with int i = ((Integer)get()).intValue(), which is slightly more cumbersome. –  Ryan Amos Jan 21 '13 at 6:31

5 Answers 5

up vote 8 down vote accepted

Yeah, I'm pretty sure that's not a thing. There's no reason that double casting would ever be necessary - it's possible it might get rid of a compile warning about unsafe casting (in which case you're probably doing it wrong), but otherwise that's just not right.

I mean, there's auto toString calling e.g. println("" + i), but even then you don't need to cast to an object first...

Edit: After reading Tom's answer I'm suddenly unsure about this answer - primitives and (particularly) generics can actually use this. I don't have the ability to test anything right now, but anyone reading this answer should definitely take a look at his (and probably upvote it).

I'm going to stick to the line that there are no (or at least extremely few and far between) good reasons to do this, however, and the provided example certainly has nothing to do with it.

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1  
+1 for calling shenanigans –  Mikhail Jan 21 '13 at 3:07
    
@Jeff I think it'll add warnings about unsafe casting if anything. What it may do is allow it to compile at all (although that isn't necessarily a good thing). –  Tom Hawtin - tackline Jan 21 '13 at 3:21
    
@TomHawtin-tackline Possibly - I don't have any way of experimenting right now. You're right about it not being a good thing though - any time it allows the code to compile when it wouldn't otherwise is a time that it will throw a runtime exception (barring bugs in the compiler etc. of course) –  Jeff Jan 21 '13 at 3:24

Whilst "double casting" certainly isn't a common term and you shouldn't seem any sort of casting of references much, you ought to know what happens (a ClassCastException).

For completeness, there are some cases where it wouldn't CCE:

  • If the value is actually null.
  • Stuff involving primitives. (er, Object to Integer to [unboxing] int, or int to [lossy] byte to [positive] char)
  • Change generic type arguments. List<String> to Object to List<Integer>.
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Ooooooh, good point about the int-byte-char - that's actually an example that will do something (potentially) useful, even if it can be done other ways. In addition, with the generic type option, does that allow you to use a single List<Object> for multiple types without a cast every time you get()? –  Jeff Jan 21 '13 at 3:29
    
@Jeff Please don't! Although something similar is used by the Collection.emptyXyz() family of methods. –  Tom Hawtin - tackline Jan 21 '13 at 3:37
    
Oh believe me I won't, but my answer is currently woefully incorrect, and I don't like having an incorrect accepted answer. –  Jeff Jan 21 '13 at 3:39

Definitely, though this just avoids compiler errors, run time errors are bound to occur. Also if two classes are in an inheritance hierarchy, there is no need to downcast to the base class and again upcast.

Even in the above question, there is finally a need of an API method to convert the objects.

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As I learned it, in good code you should never have a need for casting unless there is no other option, and this explicit casting is introducing overhead. toString() is the ideal solution:

Integer i = new Integer(5);
String s = i.toString();
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Maybe this question is logic? I mean, there is method that calculate something (working with Integers) and returns Object, and usage of method where result casting to String, generaly this metod can be overridden a few times, functionality like this was used before Java 1.5 Were you define Generic calss (but without Generics) and returns of each method is Object becasue there are a few childs and each can return own type, I do not know but can be answer, and double casting like this

public class Main {
    public static void main(String[] args) {

        AbstractToDO abstractToDO2 = new SomeToDoTwo();
        String result2 = (String) abstractToDO2.toDo(); // here is second, all is good

        System.out.println(result2);

        AbstractToDO abstractToDO1 = new SomeToDoOne();
        String result1 = (String) abstractToDO1.toDo(); // here is second, Runtime error

        System.out.println(result1);

    }

    Object onePlusOne(){

        return 1+1 +" ";
    }
}

interface AbstractToDO{
     Object toDo();
}

class SomeToDoOne implements AbstractToDO{
    @Override
    public Object toDo() {
        return (Object)(1+1); // here is first casting, // we can use without (Object) casting
    }
}class SomeToDoTwo implements AbstractToDO{
    @Override
    public Object toDo() {
        return (Object)"1+1"; // here is first casting, // we can use without (Object) casting
    }
}
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