Is there any Java function or util class
which does rounding this way: func(3/2) = 2
Math.ceil()
doesn't help, which by name should have done so. I am aware of BigDecimal
, but don't need it.

What you would need to do to achieve the results you want is By doing the division by a double amount ( 


A bit of black magic, and you can do it all with integers:



You can always cast first:



To convert floor division to ceiling division:
To convert floor division to rounding division:



Aint this the usual case of integer division? Try Math.Ceil after casting either number to a floating point type. 


In Java, 3/2 = 1 because it uses integer division. There's no function that can "fix" this afterwards. What you have to do is to force a float divison and round up the result:



Many languages "think" like this. If you're dividing an int into an int, then you should get an int (so they truncate and you get 1 as a result). We all know this is not true, but that's how they work. You can "cheat" them, and do something like casting one of them to a double, or use a double representation: 


Math.ceil will help, provided you use floating point numbers. The problem is that 3/2, in integer division, is 1. By the time the value gets to whatever function, be it Math.ceil or something else, the value is simply 1. Any trailing decimal portion is gone. 


Exploits integer division to do what you want. I don't know of a math function that does this, but why not roll your own? 


below fragment works with negative integers as well:



I like Randy Proctor's answer the best. Here in more detail: If you want to do real rounding (i.e. 3/2 > 2, but 17 / 7 > 2) with integers > 0:
use If dividend can be any integer (i.e. negative allowed):
If dividend is any integer and divisor any integer but 0:
(Note that the addition and substraction can cause a wraparound that otherwise wouldn't occur, rendering the result incorrect.) 


Here is a method I created to handle int division without using Math Round and casting to float. This works for positive and negative numbers. It works by adding half of the denominator to offset the rounding down



Have you tried 

