# Why do we use `f` for float datatypes but not for byte and short? [closed]

If we use `float` data type in Java we have to add `f` at the end of floating point literal as Java assumes it to be `double` data type and gives an error why not do the same for `short` and `byte` as both have lower ranges than `int`.

• Because it doesn't really matter for common values for `short` and `byte`. But for precision, `float` differs from `double`. Commented Sep 14, 2014 at 9:07
• Possible duplicate:stackoverflow.com/questions/14102955/… Commented Sep 14, 2014 at 9:20
• Because that's the way they designed it. Commented Sep 14, 2014 at 9:59

You can't have this thing with a `byte` for example because a `byte` can always be treated the same. It is allways a byte. But real numbers can only be represented as approximations. The difference between `double` and `float` is that `double` uses 64 bits and `float` 32. I.e. float is of less percision.

It is a similar thing to the `int` and `long` for integers. The default type for integers is `int`. Similarly the default type for real numbers is `double`.

Now if you want to use a `float` precision instead. You need to somehow let the compiler know. That is precisely why the `f` is there. To tell the compiler how to treat the value.

Basically, when you do this `float x = 0.1f` you implicitly cast the `0.1` literal to a float.
This statement is equal to `float x = (float) 0.1`

Now lets try something:

``````float x = 0.1f;
double y = 0.1;
``````

`System.out.println(x == y)` will give you `false`. Why? Lets see the first 20 digits after the decimal point:

``````0.1f --> 1000000014901161200
0.1  --> 1000000000000000055
``````

I hope this helps.