I have code to calculate the percentage difference between 2 numbers  (oldNum  newNum) / oldNum * 100;
 where both of the numbers are double
s. I expected to have to add some sort of checking / exception handling in case oldNum is 0. However, when I did a test run with values of 0.0 for both oldNum and newNum, execution continued as if nothing had happened and no error was thrown. Running this code with int
s would definitely cause an arithmetic divisionbyzero exception. Why does Java ignore it when it comes to double
s?

4Good question  the inconsistency between integer and double behavior adds confusion and hassle. – Steve B. Mar 4 '10 at 18:09

2possible duplicate of Why does division by zero with floating point (or double precision) numbers not throw java.lang.ArithmeticException: / by zero in Java – Raedwald Jan 21 '14 at 21:35

2@Raedwald  considering that this question was posted 2 1/2 years before the one you linked, I would say that question is a (possible) duplicate of this one :) – froadie Jan 22 '14 at 10:24
The result of division by zero is, mathematically speaking, undefined, which can be expressed with a float/double (as NaN
 not a number), it isn't, however, wrong in any fundamental sense.
As an integer must hold a specific numerical value, an error must be thrown on division by zero when dealing with them.

7Exactly. This is defined in the Java Language Spec here: java.sun.com/docs/books/jls/third_edition/html/… – Michael Myers♦ Mar 4 '10 at 18:02

6

14@trinithis: your explanation has nothing to do with the reason why there is no Integer.NaN. The reason is simply that the IEEE standard for floating point arithmetic mandates such special values whereas the quasistandard for integer arithmetic (two's complement) has no such special values, thus leaving it to implementors how to deal with division by zero (raising an interrupt or exception, designating a special value, or just leaving the result undefined). – Michael Borgwardt Mar 4 '10 at 19:29

2@Kris: Strictly speaking it can't be infinity because lim(1/x) is different as x > 0+ and x > 0. But that's a minor quibble. – eaolson Mar 6 '10 at 17:33

8x/0 is NOT infinity, the result is undefined. x/y tends to infinity when y tends to 0. Sorry for the thread necro. – So Many Goblins Nov 7 '13 at 18:48
Java's float
and double
types, like pretty much any other language out there (and pretty much any hardware FP unit), implement the IEEE 754 standard for floating point math, which mandates division by zero to return a special "infinity" value. Throwing an exception would actually violate that standard.
Integer arithmetic (implemented as two's complement representation by Java and most other languages and hardware) is different and has no special infinity or NaN values, thus throwing exceptions is a useful behaviour there.

4The proper answer to this question should be this. I needed to know why
float
anddouble
does not cause Exceptions. Thanks. – Cengiz Can Oct 21 '11 at 9:25 
1This should be the marked correct answer. The answer currently marked as correct does not answer the question, nor does it make it clear that Java is following IEEE 754. – Necrototem Oct 6 '16 at 16:14
When divided by zero ( 0 or 0.00 )
If you divide double by 0, JVM will show Infinity.
public static void main(String [] args){ double a=10.00; System.out.println(a/0); }
Console:
Infinity
If you divide int by 0, then JVM will throw Arithmetic Exception.
public static void main(String [] args){ int a=10; System.out.println(a/0); }
Console:
Exception in thread "main" java.lang.ArithmeticException: / by zero
But if we divide int by 0.0, then JVM will show Infinity:
public static void main(String [] args){ int a=10; System.out.println(a/0.0); }
Console:
Infinity
This is because JVM will automatically type cast int to double, so we get infinity instead of ArithmeticException.
The way a double is stored is quite different to an int. See http://firstclassthoughts.co.uk/java/traps/java_double_traps.html for a more detailed explanation on how Java handles double calculations. You should also read up on Floating Point numbers, in particular the concept of Not a Number (NaN).
If you're interested in learning more about floating point representation, I'd advise reading this document (Word format, sorry). It delves into the binary representation of numbers, which may be helpful to your understanding.
Though Java developers know about the double primitive type and Double
class, while doing floating point arithmetic they don't pay enough attention to Double.INFINITY
, NaN
, 0.0
and other rules that govern the arithmetic calculations involving them.
The simple answer to this question is that it will not throw ArithmeticException
and return Double.INFINITY
. Also, note that the comparison x == Double.NaN
always evaluates to false
, even if x
itself is a NaN
.
To test if x
is a NaN
, one should use the method call Double.isNaN(x)
to check if given number is NaN or not. This is very close to NULL
in SQL
.
It may helpful for you.