There's not a whole lot here that is "functional". I would approach the problem like this:
var pennies = (totalAmountDue * 100) % installmentCount;
var monthlyPayment = totalAmountDue / installmentCount;
var installments = from installment in Enumerable.Range(1, installmentCount)
let amount = monthlyPayment + (Math.Max(pennies--, 0m) / 100)
select new Installment(installment, amount);
You might be able to work something out where you constantly subtract the previous payment from the total amount and do the division rounding up to the nearest penny. In F# (C# is too wordy for this) it might be something like:
let calculatePayments totalAmountDue installmentCount =
let rec getPayments l (amountLeft:decimal) = function
| 0 -> l
| count -> let paymentAmount =
(truncate (amountLeft / (decimal)count * 100m)) / 100m
getPayments (new Installment(count, paymentAmount)::l)
(amountLeft - paymentAmount)
(count - 1)
getPayments  totalAmountDue installmentCount
For those unfamiliar with F#, what that code is doing is setting up a recursive function (
getPayments) and bootstrapping it with some initial values (empty list, starting values). Using match expressions it sets up a terminator (if
installmentCount is 0) returning the list so far. Otherwise it calculates the payment amount and calls the recursive method adding the new installment to the front of the list, subtracting the payment amount from the amount left, and subtracting the count.
This is actually building the list in reverse (adding on to the front each time), so we throw away the extra pennies (the
truncate) and eventually it catches up with us so the penny rounding works as expected. This is obviously more math intensive than the add/subtract code above since we divide and multiply in every iteration. But it is fully recursive and takes advantage of tail recursion so we'll never run out of stack.
The trouble with C# here is that you want a sequence of installments and recursion and there's no idiomatic built-in structure for doing that in C#. Here I'm using F#'s list which is immutable and O(1) operation to prepend.
You could possibly build something using the
Scan() method in the Reactive Extensions to pass state from once instance to another.