I am trying to find a way to programmatically calculate APR based on

  • Total Loan Amount
  • Payment Amount
  • Number of payments
  • Repayment frequency

There is no need to take any fees into account.

It's ok to assume a fixed interest rate, and any remaining amounts can be rolled into the last payment.

The formula below is based on a credit agreement for a total amount of credit of €6000 repayable in 24 equal monthly instalments of €274.11.

enter image description here

(The APR for the above example is 9.4%)

I am looking for an algorithm in any programming language that I can adapt to C.

  • I am going to be implementing it in objective c, but I will be happy with an answer in any language. – Ben Sep 28 '11 at 15:00
  • Another question: APR methodologies can vary wildly depending on the full requirements. A simple thing is whether or not you need to take balloon payments into account. Also, what happens with the left over pennies? Are they folded into the final payment or somehow spread across the last couple? Do you have to take a variable interest rate into account (like ARM loans)? How are various fees handled? In short, what are your full requirements and what have you tried? – NotMe Sep 28 '11 at 15:02
  • 2
  • Another helpful tidbit is what APR would you expect for the example you provided? – Jeff Lambert Sep 28 '11 at 15:06
  • pmg's reference is the best place to get started. – NotMe Sep 28 '11 at 15:07

I suppose you want to compute X from your equation. This equation can be written as

f(y) = y + y**2 + y**3 + ... + y**N - L/P = 0


L = Loan (6000)
P = Individual Payment (274.11)
N = Number of payments (24)
F = Frequency (12 per year)
y = 1 / ((1 + X)**(1/F))   (substitution to simplify the equation)

Now, you need to solve the equation f(y) = 0 to get y. This can be done e.g. using the Newton's iteration (pseudo-code):

y = 1  (some plausible initial value)
    dy = - f(y) / f'(y)
    y += dy
until abs(dy) < eps 

The derivative is:

f'(y) = 1 + 2*y + 3*y**2 + ... + N*y**(N-1)

You would compute f(y) and f'(y) using the Horner rule for polynomials to avoid the exponentiation. The derivative can be likely approximated by some few first terms. After you find y, you get x:

x = y**(-F) - 1
  • That looks great - what does eps represent? – Ben Sep 28 '11 at 17:00
  • eps is a small quantity, e.g. 1e-6. The solution is approximated with the maximal absolute error eps. You would need to try out what is a suitable eps in your case. – Jiri Kriz Sep 28 '11 at 17:06

Here is the Objective C code snippet I came up with (which seems to be correct) if anybody is interested:

float x = 1;
    fx = initialPaymentAmt+paymentAmt *(pow(x, numPayments+1)-x)/(x-1)+0*pow(x,numPayments)-totalLoanAmt;
    dx = paymentAmt *(numPayments * pow( x , numPayments + 1 ) - ( numPayments + 1 )* pow(x,numPayments)+1) / pow(x-1,2)+numPayments * 0 * pow(x,numPayments-1);
    z = fx / dx;
} while (fabs(z)>1e-9 ); 

  • Hi Ben I am looking for the same formula. What is ppa here? – Nilesh Tupe Jul 21 '12 at 5:46
  • Hi Nilesh, it's been a while since I wrote this! but I think ppa was number of payments per annum. – Ben Jul 23 '12 at 13:07

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.