# C++ Question on the pow function

I'm trying to get this expression to work, I'm pretty sure its not the parenthesis because I counted all of them. Perhaps there something I'm doing wrong involving the parameter pow (x,y).

double calculatePeriodicPayment()
{
periodicPaymentcalc = (loan * ((interestRate / yearlyPayment)))  / (1-((pow ((1+(interestRate / yearlyPayment)))),(-(yearlyPayment * numOfYearLoan))));

return periodicPaymentcalc;
}
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Perhaps it would be more readable if you split up the calculation into smaller steps? –  Mark Byers Mar 16 '10 at 20:48
Please provide the error/misbehavior you are getting. –  Björn Pollex Mar 16 '10 at 20:48
In what way is it not working? Compile error? Wrong result at runtime? Runtime error? If it's an error, post the error. Also, we may need to know the types of all those variables. –  Peter Alexander Mar 16 '10 at 20:49
I'm mostly concerned if im using the pow expression wrong. The only compiler error I am getting is:error C2661: 'pow' : no overloaded function takes 1 arguments –  Sagistic Mar 16 '10 at 20:49
I have to second the 'smaller steps' suggestion. There's no benefit to putting everything on one line, but as you've found there's ample room for mistakes. Internally, the compiler is going to make a bunch of temporary values anyhow, so why not make the function more readable? –  Dennis Zickefoose Mar 16 '10 at 21:14

## 3 Answers

Notice how much easier it is to figure out what the function is doing if you break each step up into pieces: (I find it even easier if your variables match the source material, so I'll name my variables after the ones Wikipedia uses.)

// amortization calculator
// uses annuity formula (http://en.wikipedia.org/wiki/Amortization_calculator)
// A = (P x i) / (1 - pow(1 + i,-n))
// Where:
//   A = periodic payment amount
//   P = amount of principal
//   i = periodic interest rate
//   n = total number of payments
double calculatePeriodicPayment()
{
const double P = loan;
const double i = interestRate / yearlyPayment;
const double n = yearlyPayment * numOfYearLoan;

const double A = (P * i) / (1 - pow(1.0 + i, -n));

return A;
}

It's much easier to confirm that the logic of this function does what it should this way.

If you're curious, substituting my variable names in, your parenthises problem is as follows:

const double A = (P * i) / (1 - pow(1 + i)), -n; // <- this is how you have it
const double A = (P * i) / (1 - pow(1 + i, -n)); // <- this is how it should be

With this grouping, you're only passing one argument to pow, which is why the compiler says no overloaded function takes 1 arguments.

Edit: You mentioned I used more variables. However, your compiler will use temporary variables much like I did. Your complex statement will be broken up into pieces, and may look something like this:

double calculatePeriodicPayment()
{
const double temp1 = interestRate / yearlyPayment;
const double temp2 = loan * temp1;
const double temp3 = interestRate / yearlyPayment;
const double temp4 = 1.0 + temp3;
const double temp5 = yearlyPayment * numOfYearLoan;
const double temp6 = -temp5;
const double temp7 = pow(temp4, temp5);
const double temp8 = 1 - temp7;
const double temp9 = temp2 / temp8;

periodicPaymentcalc = temp9;
return periodicPaymentcalc;
}

Mine will also be broken up, and will look like:

double calculatePeriodicPayment()
{
const double P = loan;
const double i = interestRate / yearlyPayment;
const double n = yearlyPayment * numOfYearLoan;

const double temp1 = P * i;
const double temp2 = 1.0 + i;
const double temp3 = -n;
const double temp4 = pow(temp2, temp3);
const double temp5 = 1 - temp4;
const double temp6 = temp1 / temp5;
const double A = temp6;

return A;
}

Perhaps there are some optimizations that the compiler will use, such as noticing that it uses interestRate / yearlyPayment twice in your function, and use the same temporary for both places, but there's no gurantee this will happen. Notice that we use pretty much the same number of variables in both of our functions. I just used more named variables, and fewer unnamed temporaries.

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+1: nice answer, with good guidance on how to write readable code –  Paul R Mar 16 '10 at 22:08
Thank you very much. I couldn't get it to run in a single line, so I have seperated into smaller steps, but with more variables. –  Sagistic Mar 18 '10 at 19:35
@Sagistic: Glad I could help! It's important to realize though that I'm not using any more variables than you were. Yours were just unnamed variables used by the compiler to computer intermidiate results. I'll edit my post to elaborate. –  Bill Mar 18 '10 at 19:42
@ Bill: Wow!! So nicely written. I ended up writing mine sort of hard to understand. MANY thanks to you! I sincerely appreciate you taking the time to fully explain it to me. –  Sagistic Mar 18 '10 at 20:15
i and n are always typed integer (with i being the loop variable). At least in my mind. ;) Still, a clean solution! –  Andreas Reiff Aug 14 '12 at 18:15

There's a misplaced bracket. Here's a fixed version:

periodicPaymentcalc = (loan * ((interestRate / yearlyPayment))) / (1 - ((pow ((1+(interestRate / yearlyPayment)),(-(yearlyPayment * numOfYearLoan))))));

Use an editor that highlights matching brackets to avoid this kind of errors. Or simply create temporary variables to hold intermediate values.

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Still same error –  Sagistic Mar 16 '10 at 20:51
Or writing out the calculation using more than one line of code, in the case that temporary variables are not an option for some reason. –  Brian Mar 16 '10 at 20:52
I guess, I'll just have to use temp values and simplify it –  Sagistic Mar 16 '10 at 20:52
@Sagistic: What do you mean "I guess"? It's completely ugly on a single line. There is no loss in splitting it up, only a gain in readability. –  GManNickG Mar 16 '10 at 21:43
periodicPaymentcalc = (loan * interestRate / yearlyPayment) /
(1.0 - pow (1.0 + interestRate / yearlyPayment, -yearlyPayment * numOfYearLoan));

Try that. I removed all the redundant parentheses too, as well as changing all literals to doubles, just for good measure.

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