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For a small project (Problem 10 Project Euler) i tried to sum up all prime numbers below 2 millions. So I used a brute force method and iterated from 0 to 2'000'000 and checked if the number is a prime. If it is I added it to the sum:

private int sum = 0;

private void calculate() {
   for (int i = 0; i < 2000000; i++) {
      if (i.isPrime()) {
         sum = sum + i;

The result of this calculation is 1179908154, but this is incorrect. So i changed int to BigInteger and now i get the correct sum 142913828922. Obviously the range of int was overflowed. But why can't Java tell me that? (e.g. by an exception)

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As an aside, BigInteger is overkill and long would have worked just fine. –  DJClayworth May 14 '10 at 13:38
Why aren't you using Sieve of Eratosthenes instead of brute forcing it? –  CoolBeans May 14 '10 at 14:21
@DJClayworth: ill try @CoolBeans: brute forcing is fast enough, it takes only a fraction of a second –  RoflcoptrException May 14 '10 at 14:24
As a general rule, iterative numerical calculations must be analyzed for overflow, underflow, precision loss, etc. It is a non-trivial problem in mathematics, so compilers are not going to solve it for you anytime soon. –  JamesKPolk May 15 '10 at 14:13
thanks. Learned something new! –  RoflcoptrException May 18 '10 at 9:21

5 Answers 5

up vote 13 down vote accepted

Because it's conceivable that you might want it to behave in the traditional Integer fashion. Exceptions are reserved for things that are definitely and irrevocably wrong.

ETA: From the language spec:

"The built-in integer operators do not indicate overflow or underflow in any way. The only numeric operators that can throw an exception (§11) are the integer divide operator / (§15.17.2) and the integer remainder operator % (§15.17.3), which throw an ArithmeticException if the right-hand operand is zero."


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then i should always test before adding a number if rhe range is exceeded? –  RoflcoptrException May 14 '10 at 12:58
If you know you number can be big you should use a 'bigger' class to handle it. –  Felipe Cypriano May 14 '10 at 13:02
I agree with Felipe. If you need a guarantee that x + 1 > x for values above Integer's range, use BigInteger. If you're using an int for another reason, Integer should be OK. –  Jim Kiley May 14 '10 at 13:10
@Jim Kiley - or a Long/long, for numbers above Integer's range but definitely always within the range of longs (Long.MAX_LONG ~= 2^63), would be a more natural replacement. That's not to say that BigIntegers aren't useful, but they're a bit more specialised. –  Andrzej Doyle May 14 '10 at 13:23
Because it's conceivable that you might want it to behave in the traditional Integer fashion. It's conceivable that you'd want just about any of the convenience features to behave in the traditional methods (eg. overstepping array bounds). The reason we DON'T is that making the common case the default is much more important than absolute power. –  BlueRaja - Danny Pflughoeft May 14 '10 at 14:58

Besides what Jim says, checking for conditions such as overflow would add a performance penalty to any calculation done with integers, which would make programs that do a lot of calculations a lot slower.

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And that is the real reason why it's done that way. It's also why we have primitives! –  naiad May 14 '10 at 14:03
@Vuntic I don't think that's the real reason why we have primitives - in other languages (Scala for example) the compiler is smart enough to make use of native integers when you use for example the Int class. In other words, if the Java compiler would have been made smarter, primitive data types would not need to have been exposed in the programming language. –  Jesper May 14 '10 at 14:06
1) You are comparing 2 languages whose origins are 15+ years apart. 2) A Java compiler is not allowed to be "smart" and replace one type with another ... unless the JLS sanctions this. (The rules for definite assignment are another example where the Java compiler is not allowed to be "smart".) –  Stephen C May 14 '10 at 14:27

The other reason is that you can do this check yourself very easily and quickly.

if (sum+i < sum) {
  throw new AritchmeticException();

should do the trick nicely, given that you know i is always positive and less than Integer.MAX_VALUE.

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Being aware of Integer.MAX_VALUE is always useful :)

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Because our profession values performance over correctness. ;(

Using BigInteger by default, and only reasoning whether it is acceptable, to use long or int if performance is a real problem, would help to avoid such problems.

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Actually because the Java language designers want to give programmers the option to value performance over correctness. –  DJClayworth May 18 '10 at 18:31

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