On primitive vs reference types
int is a primitive type, which is distinct from a reference type. Only reference types can have the value
java.lang.Integer is in fact a reference type, the designated "box" type for the primitive type
int. Thus, an
Integer variable can have the value
With the introduction of autoboxing in Java, conversions from
Integer and vice versa can be done implicitly. But do keep in mind that they are very different types, and in fact an attempt to unbox
null will throw
On consequences of
Integer being a reference type
One consequence is already mentioned: an
Integer variable can have a
null value. Another one is that the
== operator on two
Integer is a reference identity comparison, not numerical equality.
System.out.println(new Integer(0) == new Integer(0)); // prints "false"
Whenever possible, you should prefer primitive types to boxed types. Here's a quote from Effective Java 2nd Edition, Item 49: Prefer primitive types to boxed primitives (emphasis by author):
In summary, use primitives in preference to boxed primitive whenever you have the choice. Primitive types are simpler and faster. If you must use boxed primitives, be careful! Autoboxing reduces the verbosity, but not the danger, of using boxed primitives. When your program compares two boxed primitives with the
== operator, it does an identity comparison, which is almost certainly not what you want. When your program does mixed-type computations involving boxed and unboxed primitives, it does unboxing, and when your program does unboxing, it can throw
NullPointerException. Finally, when your program boxes primitive values, it can result in costly and unnecessary object creations.
Integer must be used
There is one glaring exception where
Integer must be used over
int: generics. Type parameters in Java generics must be reference types. So you can NOT have a
List<int> in Java; you must use a
On using the appropriate data structure
If you must have an
int that permits
null values, then the quick answer is to use
Integer. Since you now have an array of reference types, some elements can be
null. Be aware of all the consequences of working with reference types, or you may come across surprises.
At this point, however, I'd seriously consider using a
List<Integer> instead (see Effective Java 2nd Edition: Prefer lists to arrays). Lists are much more feature-rich than arrays, and it interoperates well with the larger Java Collections Framework.