I have been looking into recursion and TCO. It seems that TCO can make the code verbose and also impact the performance. e.g. I have implemented the code which takes in 7 digit phone number and gives back all possible permutation of words e.g. 464-7328 can be "GMGPDAS ... IMGREAT ... IOIRFCU" Here is the code.
/*Generate the alphabet table*/
val alphabet = (for (ch <- 'a' to 'z') yield ch.toString).toList
/*Given the number, return the possible alphabet List of String(Instead of Char for convenience)*/
def getChars(num : Int) : List[String] = {
if (num > 1) return List[String](alphabet((num - 2) * 3), alphabet((num - 2) * 3 + 1), alphabet((num - 2) * 3 + 2))
List[String](num.toString)
}
/*Recursion without TCO*/
def getTelWords(input : List[Int]) : List[String] = {
if (input.length == 1) return getChars(input.head)
getChars(input.head).foldLeft(List[String]()) {
(l, ch) => getTelWords(input.tail).foldLeft(List[String]()) { (ll, x) => ch + x :: ll } ++ l
}
}
It is short and I don't have to spend too much time on this. However when I try to do that in tail call recursion to get it TCO'ed. I have to spend a considerable amount of time and The code become very verbose. I won't be posing the whole code to save space. Here is a link to git repo link. It is for sure that quite a lot of you can write better and concise tail recursive code than mine. I still believe that in general TCO is more verbose (e.g. Factorial and Fibonacci tail call recursion has extra parameter, accumulator.) Yet, TCO is needed to prevent the stack overflow. I would like to know how you would approach TCO and recursion. The Scheme implementation of Akermann with TCO in this thread epitomize my problem statement.