# Is there a Math API for Pow(decimal, decimal)

Is there a library for decimal calculation, especially the `Pow(decimal, decimal)` method? I can't find any.

It can be free or commercial, either way, as long as there is one.

Note: I can't do it myself, can't use for loops, can't use `Math.Pow`, `Math.Exp` or `Math.Log`, because they all take `double`s, and I can't use `double`s. I can't use a serie because it would be as precise as `double`s.

• why can't you use doubles? Try using ILSpy or Reflector and getting the code from Math.Pow and modifying it to use decimal as you need. – Dustin Davis Jun 21 '11 at 12:52
• There's some strange requirements. What's stopping you writing one? – spender Jun 21 '11 at 12:53
• This might help: Raising a decimal to a power of decimal ? – Paolo Moretti Jun 21 '11 at 12:56
• One of the multipliyers is a rate : 1 / someOtherDecimalRate^(nbDays/365). – Maxime ARNSTAMM Jun 21 '11 at 13:22
• @Maxime: You are going to lose precision there. Decimals are made for decimal numbers, and fractions of 365 are not exactly representable in base 10, so the result of `nbDays/365` is already inexact. – etarion Jun 21 '11 at 13:50

One of the multipliyers is a rate : 1/rate^(days/365).

The reason there is no decimal power function is because it would be pointless to use `decimal` for that calculation. Use `double`.

Remember, the point of decimal is to ensure that you get exact arithmetic on values that can be exactly represented as short decimal numbers. For reasonable values of `rate` and `days`, the values of any of the other subexpressions are clearly not going to be exactly represented as short decimal values. You're going to be dealing with inexact values, so use a type designed for fast calculations of slightly inexact values, like double.

The results when computed in doubles are going to be off by a few billionths of a penny one way or the other. Who cares? You'll round out the error later. Do the rate calculation in doubles. Once you have a result that needs to be turned back into a currency again, multiply the result by ten thousand, round it off to the nearest integer, convert that to a decimal, and then divide it out by ten thousand again, and you'll have a result accurate to four decimal places, which ought to be plenty for a financial calculation.

• that makes sense, thanks. i'll look into that. – Maxime ARNSTAMM Jun 21 '11 at 14:39
• Doesn't `decimal` provide more precision? The 64 extra bits it gets have to help a little... – configurator Jun 22 '11 at 12:24
• @configurator: The answer to your question is "yes". Your statement following the question does not follow logically from the answer to the question. Why does having twice the number of bits help in a financial problem that only has to be accurate to, say, the tenth of a penny? Clearly the question is about a compounded-daily interest calculation; are there compounded-daily banking problems that require more than 15 decimal digits of precision when working out today's interest? If today's interest is \$10.92857924858 in double and \$10.9285792485820968039468095 in decimal, does it matter? – Eric Lippert Jun 22 '11 at 14:11
• When I worked on compound daily interests we were required to be accurate to within 12 decimal digits, which I personally feel is dangerously close to `double`'s limits. (Never mind that the 12 digits were completely arbitrary and 'accurate' meant 'same value as the seriously flawed old VB3 implementation' so we needed to introduce calculation errors...) – configurator Jun 22 '11 at 14:47
• @colmde: Exactly my point. By rounding you are saying that you are willing to take on an error many, many orders of magnitude larger than the error induced by the computation process. If a large rounding introduces too much error after a small error is introduced then you should not be doing the large rounding in the first place. – Eric Lippert Jun 11 '15 at 20:04

Here is what I used.

``````output = (decimal)Math.Pow((double)var1, (double)var2);
``````

Now I'm just learning but this did work but I don't know if I can explain it correctly.

what I believe this does is take the input of var1 and var2 and cast them to doubles to use as the argument for the math.pow method. After that have (decimal) in front of math.pow take the value back to a decimal and place the value in the output variable.

I hope someone can correct me if my explination is wrong but all I know is that it worked for me.

• This is also what I always end up doing ;) – Squazz Dec 20 '17 at 10:17
• Yes I did that till the result was outside of the range of decimal and I ended up with an overflow exception – Bob Vale Mar 1 '18 at 13:55

Well, here is the Wikipedia page that lists current C# numerics libraries. But TBH I don't think there is a lot of support for decimals

http://en.wikipedia.org/wiki/List_of_numerical_libraries

It's kind of inappropriate to use decimals for this kind of calculation in general. It's high precision yes - but it's also low range. As the MSDN docs state it's for financial/monetary calculations - where there isn't much call for POW unfortunately!

Of course you might have a specific problem domain that needs super high precision and all numbers are within 10(28) - 10(-28). But in that case you will probably just need to write your own series calculator such as the one linked to in the comments to the question.

• The OP later mentioned that he is using `Decimals` because he is working with money. In that situation, I think he's better off following Eric Lippert's advice. – Brian Jun 21 '11 at 15:50
• Fair enough - that fact he was doing financial calculations was added at a later point. Obviously there is no need for the kind of accuracy he's talking about with financial calculations. – James Gaunt Jun 21 '11 at 18:18

Not using `decimal`. Use `double` instead. According to this thread, the Math.Pow(double, double) is called directly from CLR.

How is Math.Pow() implemented in .NET Framework?

Here is what .NET Framework 4 has (2 lines only)

``````[SecuritySafeCritical]
public static extern double Pow(double x, double y);
``````

64-bit decimal is not native in this 32-bit CLR yet. Maybe on 64-bit Framework in the future?

wait, huh? why can't you use doubles? you could always cast if you're using ints or something:

``````int a = 1;
int b = 2;
int result = (int)Math.Pow(a,b);
``````
• I assume the point here is to gain additional precision over that provided by double... otherwise why use decimals at all? – James Gaunt Jun 21 '11 at 12:55
• You could equally rephrase this answer as "What is the point of the Decimal type?" – spender Jun 21 '11 at 12:58
• i play with money, obviously i won't use integers. – Maxime ARNSTAMM Jun 21 '11 at 13:14