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.