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I was examining some professionally written code and came across this fragment. (I hope this fragment is sufficient to answer my question - if not let me know)

...yada yada yada ....

private ITypedElement format(final ITypedElement elementToFormat) {
        try {
            if (elementToFormat instanceof IStreamContentAccessor) {
                final IStreamContentAccessor resNode = (IStreamContentAccessor) elementToFormat;
                final InputStream contentIs = resNode.getContents();
                final String contentsString = fromInputStreamToString(contentIs);
                final Map options = JavaCore.getOptions();
.... etc....

The if segment only runs if elementToFormat is an instance of IStreamContentAccessor. Why then did the program make the first statement after the if statement, "final IStreamContentAccessor resNode = (IStreamContentAccessor)elementToFormat;"?

What could possibly be the point of casting something to a type it must already be?

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2  
"Why recast a variable to a type if it already is that type?" -- but the variable isn't "that" type. The object is, but the variable that references it isn't, and that's a key distinction. If you need to use methods of that specific type, then you need to cast the variable to the object's type. –  Hovercraft Full Of Eels May 8 '13 at 20:34

5 Answers 5

The programmer may know that it's a IStreamContentAccessor, but without the cast the compiler doesn't know that it's a IStreamContentAccessor and so it won't let the programmer access any of the fields/methods specific to the IStreamContentAccessor class.

class ClassA {
    Object field1;
}

class ClassB extends ClassA
    Object field2;
}

ClassA obj = new ClassB();
obj.field1;  // This is fine, the compiler knows it's a ClassA
obj.field2;  // This isn't allowed - as far as the compiler knows it's a ClassA, not a ClassB
((ClassB)obj).field2;  // This is allowed - now the compiler knows it's a ClassB
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It's important to note that, in Java, the (ClassName) cast generates a checkcast bytecode that actually checks to be sure that the object is of the specified class (or is a subclass of the specified class). If the object is not the correct class then a ClassCastException is thrown. –  Hot Licks May 8 '13 at 20:34
    
And it's not just the compiler that requires this. The bytecode verifier in the JVM checks that types are consistent, and will refuse to load the class if they aren't. –  Hot Licks May 8 '13 at 20:35
    
Out of curiosity, is it the compiler compiling or the JVM running the bytecode that needs the cast? IE would obj.field2 fail to compile or throw an exception when run? –  dlp May 8 '13 at 21:09
    
It would fail to compile, or as Hot Licks pointed out the bytecode would fail to load if e.g. you tweaked the compiled bytecode by hand to remove the checkcast. On the other hand, if you perform an illegal cast, e.g. casting a ClassA to a ClassC that isn't a parent or child of ClassA, then the program would compile/load correctly but you'd then get a runtime ClassCastException –  Zim-Zam O'Pootertoot May 8 '13 at 21:12
    
...but in your example, obj instanceof ClassB would return true, even though the statement obj.field2 (which implies obj IS NOT an instance of ClassB) is not allowed?? –  Imray May 9 '13 at 17:29

The if statement guarantees that the object is an instance of that type. However, to the JVM, the object is still of type ITypedElement. Just because you now know that it's valid doesn't mean that the JVM knows.

The cast allows you to access the methods of IStreamContentAccessor. You will notice that without the cast, if you just refer to elementToFormat with methods that ITypedElement does not have but IStreamContentAccessor does, you will get an error.

For example:

Animal a;
a = new Dog();
// "a" contains a Dog in memory, but we only KNOW that it's an Animal
// because that is its declared type

a.bark(); // fails at compile time - not all Animals can bark

Dog d = (Dog) a;
// This is a valid cast, because Dog extends Animal, but it's potentially unsafe.
//
// Another "valid" cast is:
// Cat c = (Cat) a
// but this would fail at runtime (ClassCastException) because the actual
// object in memory (a Dog) cannot be cast to a Cat.

if (a instanceof Dog) {
    // Now we KNOW that it's a Dog and we can cast safely.
    Dog d2 = (Dog) a;
    d2.bark(); // this is valid because d2's declared type is Dog
}

So, to summarize,

  • the cast grants you access to the fields of the subclass
  • the if statement ensures that the cast is valid
  • the two statements are technically completely independent
  • you are smarter than the JRE
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If I would type System.out.println(a instanceof Dog) after the first two lines of comment, I would get False? –  Imray May 8 '13 at 20:42
    
No, you would get true, because a is an instance of Dog in memory; that's what instanceof is for. (By the way, Java uses true/false, not True/False.) –  WChargin May 8 '13 at 20:44
    
Huh? If a is in fact an instance of Dog, why do you say I can't bark() with it? –  Imray May 8 '13 at 20:48
    
Because, as Hovercraft Full of Eels points out, you don't know it's a Dog. Java wants to be sure that you can do something before you do it. –  WChargin May 8 '13 at 20:49
    
??? If the if statement is executing, and the condition was the a must be a Dog, then YOU DO know it's a Dog! I'm so confused –  Imray May 8 '13 at 21:17

This is annoying, but is required by the Java language.

The variable elementToFormat is of type ITypedElement. To use it as an IStreamContentAccessor requires casting.

In this specific case, we can see that the local parameter must be of the cast type. However, the right-hand side of the assignment could be something other than a local parameter -- for example, a member variable, or a function call. The same type-checking rules apply consistently to the right-hand value, regardless where it's coming from.

This idiom is annoying because we have to repeat the type three times. This means a little extra work for us. But -- since downcasting is sometimes a code smell -- we could consider this idiom to be a little syntactic salt.

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This final IStreamContentAccessor resNode = (IStreamContentAccessor) elementToFormat; is stated because elementToFormat is not of type IStreamContentAccessor but it can safely be cast into it.

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Consider the interfaces and class below:

interface ITypedElement
{
    //...
}

interface IStreamContentAccessor
{
    InputStream getContents();
}

class Demo implements ITypedElement, IStreamContentAccessor
{
    //
}

Demo class implements both the classes and can be sent as:

ITypedElement demoInstance = new Demo();

format(demoInstance);

now demoInstance can also be used an instance of IStreamContentAccessor.

Edit 1:

Okay, so let us say that Demo class can behave both like ITypedElement and IStreamContentAccessor. If we create an instance of Demo class, it can display behaviours of both the interfaces and a variable can be created that points to that instance such that it extracts only the behaviour we are interested in.

Demo d = new Demo();
//d is an instance that can perform everything that `Demo` class is supposed to perform which includes behaviour of the two interfaces as well.

ITypedElement iti = (ITypedElement)d;
// Is above valid? Yes, because Demo implements ITypedElement.
// and we just extracted the `ITypedElement` *behaviour* from `d`.

//similarly 
IStreamContentAccessor isa = (IStreamContentAccessor)d;
// Is above valid? Yes, because Demo implements IStreamContentAccessor.
// and we just extracted the `IStreamContentAccessor` *behaviour* from `d`.

//Can we do something like
IStreamContentAccessor isaTough = (IStreamContentAccessor)iti;
// Yes, of course, and this brings up something rather interesting
// Even if we create a variable (`iti`) that *points* to an instance `d`
// it doesn't lose its original nature, rather we only see the behaviour
// we are interested in i.e `ITypedElement`.

Essentially iti, isa, d and isaTough are all the same thing limited by the behaviour forced upon them by the design of their contracts viz: ITypedElement, IStreamContentAccessor, Demo and IStreamContentAccessor respectively.

I think I just made it a little more complicated than it should have been, prolly someone else might explain better?

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Aha ok. But what's confusing is we're saying in the format method that if demoInstance is an instance of IStreamContentAccessor then cast demoInstance to IStreamContentAccessor. I can understand if the action we take is something like cast demoInstance to ITypedElement, but why cast to something EXACTLY the same as the type it already is?? Your answer doesn't explain that clearly –  Imray May 8 '13 at 20:47
    
Updated response. –  Abhinav May 8 '13 at 21:12

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