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What is the difference between these two ways of casting in Java?

  1. (CastingClass) objectToCast;

  2. CastingClass.class.cast(objectToCast);

The source of Class#cast(Object) is as follows:

public T cast(Object obj) {
if (obj != null && !isInstance(obj))
    throw new ClassCastException();
return (T) obj;

So, cast is basically a generic wrapper of the cast operation, but I still don't understand why you would need a method for it.

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OK, so I just realized that you can use cast to cast to a primitive type's wrapper. E.g. Integer i = int.class.cast("1234"); – Ben Simmons Nov 12 '09 at 20:27
@simmbot: you can write this, but it won't do what you most likely think it does. Try it. – Pavel Minaev Nov 12 '09 at 20:27
This would throw a ClassCastException, since String is not of type Integer. You would need Integer.valueOf("1234") in that case. – Ben Simmons Nov 12 '09 at 20:31
up vote 7 down vote accepted

You can only use the first form for statically linked classes.

In many cases that's not enough - for example, you may have obtained class instance using reflection or it was passed to your method as parameter; hence the second form.

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Right. In the first form, you're "baking" the cast in the source code. You can't change it without recompiling. The second form allows you to try to cast to an arbitrary class. – Noel Ang Nov 12 '09 at 21:16

Because you cannot just write (T)objectToCast, when T is a generic type parameter (due to type erasure). Java compiler will let you do that, but T will be treated as Object there, so the cast will always succeed, even if the object you're casting isn't really an instance of T.

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Hi Pavel, would you mind explaining this a little more? cast appears to do just that: return (T) obj; – Ben Simmons Nov 12 '09 at 20:35
You can most certainly write that. It merely emits a compiler warning. – meriton Nov 12 '09 at 20:38
@meriton: good point, edited. What I wanted to say is that the cast still won't do what it should really do. – Pavel Minaev Nov 12 '09 at 21:23
@simmbot: it does, but it also does an explicit type check before doing that (since the cast itself won't do that). So it's just as typesafe as a normal (Type)object cast - it will only return a reference of type T if the object actually extends or implements T, and otherwise it will throw. – Pavel Minaev Nov 12 '09 at 21:25
@PavelMinaev but the same does "static" cast (Type)object. If the object isn't instance of Type then the ClassCastException will be thrown, right? Then what's the difference between these two ways? – Leonid Semyonov Dec 6 '14 at 14:28

This first is an ordinary cast. It requires that the type to cast to is known at compile time. It verifies at compile time that the cast can be correct, and checks (if the type to cast to is not generic) that the cast is correct at runtime.

The second uses the reflection api. It requires that the class to cast to is known at runtime. It doesn't verify anything at compile time, but always checks that the cast is correct at runtime.

Type parameters are only known at compile type, hence you can not use the second approach for a type parameter (the expression T.class does not compile).

Dynamically loaded classes (for instance with Class.forName(String)) are only known at runtime, hence the first approach can not be used.

Edit: However, as Pavel points out, it makes no sense to cast to a dynamically loaded class. I agree that the only real usefulness of Class.cast(Object) is to cast to a type parameter for which you happen to have a class object available.

If the type to cast to does not contain a type parameter, the first approach is better, as the additional compile time checking can catch bugs, you lose no type safety at runtime, and get a shorter syntax to boot.

share|improve this answer
For dynamically loaded classes, though, why would you need a cast at all? A cast is usually to force the expression to have some type, but you don't know the type in advance in case of dynamically loaded classes. After all, if you have a dynamically loaded class, you don't know what T is in the call to Class<T>.cast(), so you'd just use the raw version, and then the return type would be Object - not much of a cast. It would check for type, but surely Class.isInstance() is a better way to do the same. All in all, it really seems to me that this is intended for generics only. – Pavel Minaev Nov 12 '09 at 22:17
You're right. Have edited my answer accordingly. – meriton Nov 12 '09 at 22:58

In the first one you have to hardcode the casting class.

( ClassToCast ) objectToCast;

In the second one the casting class maybe a parameter:

Class toCast = getClassToCast();

toCast.cast( objectToCast );
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Here you can find an use example wherein Class#cast() is used. It may give new insights.

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