let rec f n =
match n with
 0  1  2 > 1
 _ > f (n  2) + f (n  3)
Without CPS or Memoization, how could it be made tail recursive?
Without CPS or Memoization, how could it be made tail recursive? 


Or even nicer:
To get what's going on here, refer this snippet. It defines Fibonacci algorithm, and yours is very similar. UPD There are three components here:
You have asked for a tailrecursive code, and there are actually two ways for that: make your own combinator, like @Tomas did, or utilize the existing one, 


The solution by @bytebuster is nice, but he does not explain how he created it, so it will only help if you're solving this specific problem. By the way, your formula looks a bit like Fibonacci (but not quite) which can be calculated analytically without any looping (even without looping hidden in You started with the following function:
The function calls We can write
This function is not tail recurisve, but it only calls itself recursively once, which means that we can use the accumulator parameter pattern:
We need to handle arguments So, there is a tailrecursive version of your function, but only because we could simply keep the past three values in a tuple. In general, this might not be possible if the code that calculates which previous values you need does something more complicated. 


Better even than a tail recursive approach, you can take advantage of matrix multiplication to reduce any recurrence like that to a solution that uses O(log n) operations. I leave the proof of correctness as an exercise for the reader.


