# How is the term 'single pass' defined?

Does implementing a procedure in a single pass mean non-recursive? Or does it mean that the procedure should never recur on the same information twice?

I ask this because I was under the impression that it was the first definition, but now I have stumbled across a homework problem that I can't figure out without using recursion but says "complete in a single pass".

-

A "single pass" means that each element in a collection of elements (be it: a list, an array, a set, a vector, a map, a tree, a graph, a string, etc.) is visited ("iterated over") once and only once - it doesn't matter if the procedure is recursive or iterative. For example, the following recursive procedure in Scheme adds all the elements in a list in a single pass:

``````(define (sum lst)
(if (null? lst)
0
(+ (car lst)
(sum (cdr lst)))))
``````

The same procedure can be written in a tail recursive fashion - meaning: when the recursive call happens inside another procedure, is its final action; it may produce a return value which is then immediately returned by the calling procedure. Anyway, only a single pass is executed over the elements in the list:

``````(define (sum lst)
(let loop ((lst lst)
(acc   0))
(if (null? lst)
acc
(loop (cdr lst) (+ (car lst) acc)))))
``````

Compare the above two examples with this code in Java: it's an iterative method, but once again a single pass is performed over the array:

``````int sum(int[] array) {
int acc = 0;
for (int x : array)
acc += x;
return acc;
}
``````
-

A single pass is when you only iterate once through the set (only touching each element once).

You can accomplish this with plain iteration like this

``````for n from 0 to set length
interact with set item n
``````

Or you could recurse (c#)

``````public int total(int[] numbers,int index)
{
if (index == numbers.Length - 1) return numbers[index];
return numbers[index] + total(numbers, index + 1);
}

int[] someInts = {1,2,3,4};
int intTotal = total(someInts,0);
``````
-
Note that there is no such thing as a "plain iteration" (that is an iteration construct that does not boil down to recursion) in Scheme. So any non-recursive solution would really be a zero-passes solution. –  sepp2k Oct 28 '12 at 23:08
@sepp2k - Thank you for the clarification. –  Travis J Oct 28 '12 at 23:19