# Why is dividing by zero an unrecoverable issue?

Why can't java gracefully return some value with a division by zero and instead has to throw an Exception?

I am getting an `ArrayIndexOutOfBoundsException:0` This is because because damageTaken is actually an array of values that stores many different 'damages'.

In java I'm trying to create a progress bar. Our example: damage incurred, in a racing game, by setting the value for height as a percentage of maxmimum damage allowed before gameover.

At the start of the program `damageTaken = 0;`

``````(damageTaken / maximumDamage)
``````

will give numbers between 0 - 1.

Then I just multiply that by the height of the progress bar, to create a fill bar of the appropriate height.

The program crashes. I want the progress bar to be of zero height!

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It should 'crash' when maximumDamage is zero, not damageTaken. Right? –  Nikita Rybak Sep 28 '10 at 22:30
Check that maximumDamage (not damageTaken) isn't zero, that might be the source of your problem. –  Herman Schaaf Sep 28 '10 at 22:32
no maximumDamage is just some arbitrary value in my actual example it's 16 –  Arif Driessen Sep 28 '10 at 22:33
Then the division by null is happening somewhere else; mind to share some more code? –  poke Sep 28 '10 at 22:35
@Arif: in that case, your code will not cause a crash. 0/16 = 0. If you're seeing a crash, it's in some other code, or `maximumDamage` actually is 0. –  Michael Petrotta Sep 28 '10 at 22:35

You are not dividing by zero, you are dividing zero by something.

It is completely allowed to take two halves of zero. The answer is zero. Say you have zero apples. You split your zero apples between Alice and Bob. Alice and Bob now both have zero apples.

But, you cannot divide by zero. Say you have two apples. Now, you want to give these apples to zero people. How many apples does each person get? The answer is undefined, and so division by zero is impossible.

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Much simpler is, suppose if there existed an x such that 0*x = 1, then we have an immediate contradiction since 0 = 0*x = 1. –  ldog Sep 28 '10 at 22:51
Yes. If division by zero was allowed then a multiplicative inverse must exist. For example if you claim 6 divided by 2 equals 3, you can prove it because 3*2 = 6. But you cannot say 6 divided by 0 equals 3 because 3*0 = 6 is never true. In calculus you might regard the limit of 1/x as going to infinity but this doesn't work in the real world. –  Thomas O Sep 28 '10 at 23:00
Even in calculus it doesn't work unless you're very particular about the limit you take. Every direction of approach in the complex plane yields a different limit, assuming your topology can distinguish them. Which opens a whole new can of worms. –  mokus Sep 29 '10 at 1:49
``````(damageTaken / maximumDamage)
``````

This gives you a division by zero exception only if `maximumDamage` is zero.

If `damageTaken` is zero, there is no problem.

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congratulations on being the only answerer to know the difference between a numerator and a denominator. –  anthony Sep 28 '10 at 22:39
@anthony, congrats on not being able to read all of the answers.. –  jjnguy Sep 28 '10 at 22:40

Just add a special case for 0;

``````private int getProgress()
if (damageTaken == 0) {
return 0;
} else {
return (damageTaken / maximumDamage) * progress.getHeight();
}
}
``````

However, (and it's a big however) the reason you are getting divide by 0 is because `maximumDamage` is 0, not `damageTaken`. So, what you probably really want is:

``````private int getProgress()
if (maximumDamage== 0) {
return 0;
} else {
return (damageTaken / maximumDamage) * progress.getHeight();
}
}
``````
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Why are you multiplicating with the progress bar's height? I understood it the way that he wants to set the progress bar's height based on the percental value (so it's a vertical progress bar). –  poke Sep 28 '10 at 22:38
@poke, he wants to find out how far the progress needs to be based on the percent of damage and the current height of the entire bar. –  jjnguy Sep 28 '10 at 22:39
The first suggested technique 'special case for 0' adds nothing to what already happens if you just evaluate the expression. The result is zero in either case. –  EJP Jan 22 at 0:20

Let's stop talking about illegality, as though uniformed mathematics police were about to storm the room. ;) For the mathematical reasoning behind this, this related question is useful.

It is fair to ask why, after all this time, modern programming platforms don't handle division-by-zero errors for us in some standard way - but to answer the question: Java, like most any other platform, throws an error when division by zero occurs. In general, you can either:

• Handle before: check the variable to be used as your denominator for zero before doing the division
• Handle after: you can catch the exception thrown when the division by zero occurs and handle it gracefully.

Note that, as good practice, the second method is only appropriate when you wouldn't expect the variable to ever be zero under normal system operation.

So yes, you need a special case to handle this situation. Welcome to programming. ;)

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