# Math.Pow taking an integer value

``````int value = 2;
for (int power = 0; power <= 32; power++)
Console.WriteLine("{0}^{1} = {2:N0}",
value, power, (long) Math.Pow(value, power));
``````

Math.Pow takes doubles as arguments, yet here we are passing in ints.

Question: Is there any danger of floating point rounding errors if there is an implicit conversion to double happening?

If yes, it is better to use something like:

``````public static int IntPow(int x, uint pow)
{
int ret = 1;
while (pow != 0)
{
if ((pow & 1) == 1)
ret *= x;
x *= x;
pow >>= 1;
}
return ret;
}
``````

Yes, there is an implicit conversion to double happening, and yes there is a possibility of floating point rounding errors as a result.

As to whether it's worth using the alternate method you propose, that's specific to the application. Is a floating point rounding error entirely unacceptable? Will you be using numbers that fit within int32 (it doesn't take a whole lot for powers to overflow)?

• floating point rounding error when converting int to double? please write more on that. – Mare Infinitus Jun 25 '12 at 20:24
• It's not just converting an int to a double, it's converting an int to a double and then doing stuff with it. As soon as you start performing any operations (add/multiply/whatever) there is at least a possibility of rounding errors. Since raising to a power is likely to be broken up into a number of add/multiplies, it increases the probability and magnitude of floating point errors. – Servy Jun 25 '12 at 20:27
• you mean as they exist with any IEEE 754 number? – Mare Infinitus Jun 25 '12 at 20:40

No, there's no possibility of rounding error caused by the conversion to `double`. `double` can exactly represent all integers which fall in the domain of the power function.

In your special case, when you are calculating 2 to the power x, you can use a simple left shift. This would simplify your code to:

``````public static int TwoPowX(int power)
{
return (1<<power);
}
``````
• And in floating-point, powers of two can be trivially calculated with `ldexp`. Which .NET doesn't have, but is pretty easy to write using `BitConverter.Int64BitsToDouble`. – Ben Voigt Jul 15 '17 at 16:29
``````public static int IntPow(int number, uint power)
{
int result = 1;
for (int i = 0; i < power; i++)
{
result *= number;
}
return result;
}
``````

• There's a reason for the extra code -- this answer is `O(power)`, while the code in the question if `O(log(power))`. – Ben Voigt Jun 25 '12 at 21:03