# Java strange ceil convertion

I don't know why, but I'm getting two different result if I'm changing the parameter from a decimal to a fraction.

These methods would return the exact value. I'm trying to round up a number if it's a decimal, for example:

0.0 -> 0

0.1 -> 1

0.4 -> 1

0.5 -> 1

0.6 -> 1

1.0 -> 1

1.1 -> 2

``````// accepts Double
private void myRound(Double d){
int res = (int)Math.ceil(d);
return (res <= 0 ? 1 : res);
}

// acepts int
private void myRound(int i){
int res = (int)Math.ceil(i);
return (res <= 0 ? 1 : res);
}
``````

Example:

``````System.out.println(myRound(14 / 10));
``````

OUTPUT: 1

``````System.out.println(myRound(1.4);
``````

OUTPUT: 2

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You example output doesn't match your example code (not least because you're never calling `myRound`). –  T.J. Crowder Feb 12 '13 at 15:07
You could replace the version for ints with `Math.max(i, 1)` as the ceiling for an int is the int itself. –  Mark Rotteveel Feb 12 '13 at 15:10
I suppose your code is actually something like is: System.out.println( myRound(1.4) ); isn't it? –  Miguel Prz Feb 12 '13 at 15:10

The thing is that firstly the conversion goes to Integer, where (14/10) is 1, and then it ceils it to 1. 1.4 is a double, so it makes it ceil as a double number.

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To be more specific: 14/10 is exactly 1. Not 1.0, but 1. Converting either the 14 or the 10 to a float or a double (by adding a `d` or `f` after them, or `.0` for a double) makes the result of the division 1.4 as one might expect (or at least close enough). –  Michael Myers Feb 12 '13 at 15:08
Not just could, it is the cause. –  Mark Rotteveel Feb 12 '13 at 15:08
@MichaelMyers, yeah, my bad. It is 1. –  Constantine Novykov Feb 12 '13 at 15:08
This is correct. Because both 14 and 10 are int, the results of division will be an int. I bet if you did 14.0 and 10.0 it would work. –  David K Feb 12 '13 at 15:09
`14/10`, as you've written it, is `1`, because both `14` and `10` will be `int` and so the result is an `int`.
What you've listed as your output doesn't match your code (not least because the code you've shown never calls `myRound`), but I suspect that would be the explanation for whatever you're actually seeing.