# By design, why does the C# compiler allows any float or double values to be divided by zero?

By design, why does the C# compiler allows any float or double values to be divided by zero?

class Program
{
static void Main(string[] args)
{
double x = 0.0 / 0;

float y = 1f / 0;

}
}

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Please provide an example of what you're talking about. –  John Saunders Jul 28 '10 at 10:04
@John Saunders: Console.WriteLine(1/0) will cause a compiler error, while Console.WriteLine(1.1/0) will cause a runtime exception. –  David Hedlund Jul 28 '10 at 10:06
@David: There is no runtime exception in that case; the result is simply double.PositiveInfinity. –  Joey Jul 28 '10 at 10:08
@John Saunders, an example has been added. –  xport Jul 28 '10 at 10:12
@Johannes Rössel: indeed! my mistake entirely –  David Hedlund Jul 28 '10 at 10:20

Because IEEE 754 floating-point values have special non-numeric values to deal with this:

PS Home:\> 1.0/0
Infinity
PS Home:\> 0.0/0
NaN


whereas dividing an integer by zero is always an exception (in the C# sense1), so you could just throw the exception directly.

1 Dividing a floating-point number by zero is also an exception but at a completely different level and many programming languages abstract this away.

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Btw. 1/0 == Infinity is mathematical nonsense. –  Nordic Mainframe Jul 28 '10 at 12:12
@Luther: lim_(n->\infty) 1/n goes towards it, though. Of course, it's not an actual number in mathematics as well. –  Joey Jul 28 '10 at 12:19
1/x has a left and a right limit: lim_(x->0+) 1/x = inf but lim_(x->0-) 1/x = -inf. If the division behavior was defined using limits, then 0/0 should be 0 (not nan), because lim_(x->0) 0/x = 0. Never trust your FPU –  Nordic Mainframe Jul 28 '10 at 12:29

Because floating point values have a valid (and genuinely useful) representation of infinity, whereas integers of any type do not.

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The reason the compiler allows you to divide a float or a double by zero, is that float and double have representations on the notion of positive infinity and negative infinity (and "not a number"), so it is a meaningful thing to allow.

One oddity is that the compiler fails spot

 decimal d = 2;
decimal d2 = d/0M


as a divide by zero, even though it does spot it if you write the equivalent code for an integer.

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That's not true, division by zero on a decimal throws a DivideByZeroException, and the code decimal d = 1.0M / 0.0M will not even compile ("Division by constant 0").-. –  0xA3 Jul 28 '10 at 10:15
@0xa3, excluding decimal. –  xport Jul 28 '10 at 10:21
@0xA3 - maybe, and yet decimal d = 2; decimal d2 = d/0M; does compile, even though the equivalent with integers does not. –  Rob Levine Jul 28 '10 at 10:37
@Rob Levine: My point was that your last paragraph doesn't make sense because division by zero is not a valid operation on the decimal type. It either does not compile or throws a runtime exception. –  0xA3 Jul 28 '10 at 12:16
@Rob: That's likely an artifact of what the compiler optimizes immediately. –  Joey Jul 28 '10 at 12:23