Boolean vs boolean in Java

Question

There are discussion around Integer vs int in Java. The default value of the former is null while in the later it's 0. How about Boolean vs boolean?

A variable in my application can have 0/1 values. I would like to use boolean/Boolean and prefer not to use int. Can I use Boolean/boolean instead?

Thanks.

Answer 1

yes you can use Boolean/boolean instead.

First one is Object and second one is primitive type

On first one, you will get more methods which will be useful

Second one is cheap considering memory expense.

Now choose your way

Answer 2

Boolean wraps the boolean primitive type. In JDK 5 and upwards, Oracle (or Sun before Oracle bought them) introduced autoboxing/unboxing, which essentially allows you to do this

boolean result = Boolean.TRUE;

or

Boolean result = true; 

Which essentially the compiler does,

Boolean result = Boolean.valueOf(true);

So, for your answer, it's YES.

Answer 3

You can use the Boolean constants - Boolean.TRUE and Boolean.FALSE instead of 0 and 1. You can create your variable as of type boolean if primitive is what you are after. This way you won't have to create new Boolean objects.

Answer 4

I am a bit extending provided answers (since so far they concentrate on the "own"/artificial terminology provided by language developers instead of taking concerns about the bigger picture of developing languages):

int is not boolean

Consider

    boolean bar = true;      
    System.out.printf("Bar is %b\n", bar);
    System.out.printf("Bar is %d\n", (bar)?1:0);
    int baz = 1;       
    System.out.printf("Baz is %d\n", baz);
    System.out.printf("Baz is %b\n", baz);

with output

    Bar is true
    Bar is 1
    Baz is 1
    Baz is true

Java code on 3rd line (bar)?1:0 illustrates that bar (boolean) cannot be implicitly converted (casted) into an int. I am bringing this up not to illustrate the details of implementation behind JVM, but to point out that in terms of low level considerations (as memory size) one does have to prefer values over type safety. Especially if that type safety is not truly/fully used as in boolean types where checks are done in form of

if value \in {0,1} than cast boolean type , otherwise throw an exception.

All just to state that {0,1} < {-2^31, .. , 2^31 -1}. Seems like an overkill, right? Type safety is truly important in user defined types, not in implicit casting of primitives (although last are included in the first).

Bytes are not types or bits

Note that in memory your variable from range of {0,1} will still occupy at least a byte or a word (xbits depending on the size of the register) unless specially taken care of (e.g. packed nicely in memory - 8 "boolean" bits into 1 byte - back and forth).

By preferring type safety (as in putting/wrapping value into a box of a particular type) over extra value packing (e.g. using bit shifts or arithmetic), one does effectively chooses writing less code over gaining more memory. (On the other hand one can always define a custom user type which will facilitate all the conversion not worth than Boolean).

keyword vs. type

Finally, your question is about comparing keyword vs. type. I believe it is important to explain why or how exactly you will get performance by using/preferring keywords ("marked" as primitive) over types (normal composite user-definable classes using another keyword class) or in other words

boolean foo = true;

vs.

Boolean foo = true;

The first "thing" (type) can not be extended (subclassed) and not without a reason. Effectively Java terminology of primitive and wrapping classes can be simply translated into inline value (a LITERAL or a constant that gets directly substituted by compiler whenever it is possible to infer the substitution or if not - still fallback into wrapping the value). that is why when the actual type inference is done it (may) result into instantiating of wrapping class information if necessary (or converting/casting into such).

So, the difference between boolean and Boolean is exactly in Compilation and Runtime (a bit far going but almost as instanceof vs. getClass()).