# Float/Double doesn't seem to be working. The result keeps coming out to be an integer [duplicate]

``````import java.util.Scanner;

public class Test {

public static void main(String[] args) {

Scanner userInput = new Scanner(System.in);

final double PI = Math.PI;
final double sphereVolumeConstant = (4/3);

System.out.println("Volume of a sphere.");

double volumeOfSphere = sphereVolumeConstant * PI * Math.pow(radius, 3);

System.out.println("Volume = " + sphereVolumeConstant);
}

}
``````

Terminal:

Volume of a sphere.
Volume = 1.0

I am trying to calculate the constant itself which keeps coming out to be an integer even though it shouldn't, or at least I don't think it should. Can someone please help/explain?

• What gives `(4/3)`? Jul 10, 2020 at 23:10
• 1.3 repeating. But it's not outputting that which is confusing because I made it a double. Jul 10, 2020 at 23:22
• Compare: (double) (4/3) with (double) (4.0/3). Integer division produces an integer. 4.0 / 3 is a double divided by an integer which produces a double. Jul 10, 2020 at 23:50

`sphereVolumeConstant` will always be `1.0`. writing `double` before variable doesn't make every operation on it double. If You want to make `sphereVolumeConstant` to be equal to `1.(3)` You have to write:

``````final double sphereVolumeConstant = (4.0/3);
``````

Or:

``````final double sphereVolumeConstant = ((double) 4 / 3);
``````

Now the operation will be made in double because `4.0` or `(double) 4` is double.

Because the value of `sphereVolumeConstant` is assigned as `(4/3)`, its value will always be `1.0` because of how integer division works. What you need to do is cast at least the `4` or the `3` to a double/float:

1. `final double sphereVolumeConstant = ((double)4/3);`
2. `final double sphereVolumeConstant = (4/(double)3);`
3. `final double sphereVolumeConstant = (4.0/3);`
4. `final double sphereVolumeConstant = (4/3.0);`

This thread explains why integer division behaves in this way.

# Default is `int` for your dividend & divisor

In your example `( 4 / 3 )`, the 4 and the 3 (your dividend & divisor) both default to being integers. So you are dividing one integer by another. You get a resulting integer as your quotient.

``````System.out.println( 4 / 3 ) ;
``````

1

Then you cast that resulting integer to be a `double`, `1.0`.

``````double a = ( 4 / 3 )
``````

1.0

If you mean `4` or `3` to be floating-point numbers, say so. Mark them with a `d` for `double` or `f` for float.

``````( 4d / 3d )
``````

1.3333333333333333

Or use decimal separator.

``````( 4.0 / 3.0 )
``````

1.3333333333333333

## `BigDecimal`

If you care about accuracy rather than speed-of-execution, use `BigDecimal`. Never use `float`/`Float` or `double`/`Double` for money or other matters demanding accuracy.

Pass a `MathContext` containing precision (total number of digits) and `RoundingMode`.

``````MathContext mc = new MathContext( 7 , RoundingMode.HALF_EVEN ) ;  // Banker's rounding.
BigDecimal d = new BigDecimal( "4" ).divide( new BigDecimal( "3" ) , mc ) ;
``````

1.333333

Alternatively, pass scale (number of digits to the right of the decimal separator) and `RoundingMode`.

``````BigDecimal e = new BigDecimal( "4" ).divide( new BigDecimal( "3" ) , 2 , RoundingMode.HALF_EVEN ) ;
``````

1.33

## Example code

See all that code run live at IdeOne.com.