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scala> 86400000 * 150
res0: Int = 75098112

scala> val i : Long = 86400000 * 150
i: Long = 75098112  

val i  = 86400000 * 150.asInstanceOf[Long]
i: Long = 12960000000

val i  = 86400000 * 150L
i: Long = 12960000000

What in the world is going on here? I've been skydiving and I must say that this is the most dangerous thing I've ever seen. No compiler check for this? Obviously if I was substituting 150 for a variable that's different.


This was the actual code that got me worried.

val oneDay = 86400000
val days150 = oneDay * 150

days150 = 75098112

This was not Scala's fault or anyones fault except my own. Just got me worried.

share|improve this question
Please don't vote this question down. It's a legitimate question and integer overflow is very dangerous and does cause real problems with real programs. The fact that it's common across many languages and not just Scala doesn't it make it down-vote worthy. –  James Iry Dec 20 '11 at 18:28
When you need really, really big numbers, there's always BigInteger. It's a little clunky, but it works. –  Mike M Dec 20 '11 at 20:02
Voted to close; this is more of a rant than a question. The various examples illustrate that the questioner already knows exactly what is going on: integer overflow. –  Dan Burton Dec 20 '11 at 20:41
Interesting I've never thought of this issue in Java. I'm very particular about how I define variables in Java though. Scala's type inference makes me a little less particular(not that this is a type inference problem). Kind of just changes your programming style. I guess that can be a good thing though. –  Drew H Dec 20 '11 at 20:45
Also trust me, I wasn't trying to rant. I was more curious than anything. Sorry for the confusion/problems this has caused. –  Drew H Dec 20 '11 at 20:46

1 Answer 1

up vote 12 down vote accepted

There's nothing Scala-specific about this. It's just a matter of the target type of the assignment being irrelevant to the type in which an operation (multiplication in this case) is performed.

For example, in C#:

using System;

class Program
    static void Main(string[] args)
        int a = unchecked(86400000 * 150);
        long b = unchecked(86400000 * 150);
        long c = 86400000 * (long) 150;
        long d = 86400000 * 150L;
        Console.WriteLine(a); // 75098112
        Console.WriteLine(b); // 75098112
        Console.WriteLine(c); // 12960000000
        Console.WriteLine(d); // 12960000000

The unchecked part here is because the C# compiler is smart enough to realize that the operation overflows, but only because both operands are constants. If either operand had been a variable, it would have been fine without unchecked.

Likewise in Java:

public class Program
    public static void main(String[] args)
        int a = 86400000 * 150;
        long b = 86400000 * 150;
        long c = 86400000 * (long) 150;
        long d = 86400000 * 150L;
        System.out.println(a); // 75098112
        System.out.println(b); // 75098112
        System.out.println(c); // 12960000000
        System.out.println(d); // 12960000000
share|improve this answer
Thank for this. I've just never noticed this issue with Java for some reason. –  Drew H Dec 20 '11 at 17:56
Blame C. Both Scala and C# copied their fixed size integer rules from Java and Java basically copied its rules from C++ which in turn cloned them from C. –  James Iry Dec 20 '11 at 18:26
Which in turn got them from FORTRAN, which got them from ASM. Sad. We're in a profession that didn't exist when my father was born and we are like Talmudic scholars poring over ancient texts. –  Malvolio Dec 20 '11 at 23:03

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