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functional programming - Flattening a List of Lists

I'm new to Scheme and functional programming in general. Can someone explain this code — specifically what kons and knil are? The goal is to flatten a list of lists.

(define (fold1 kons knil lst)  
  (if (null? lst)  
      knil  
      (fold1 kons (kons (car lst) knil) (cdr lst))))

I'm fairly certain kons is a function as it's being applied to two arguments but still not totally sure about its functionality.

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This is a (weird) fold

This is a generalized folding procedure. In Lisps, lists are represented by cons cells and the empty list, where each (proper) list is either the empty list (), or a cons cell whose car is an element of the list and whose cdr is the rest of the list. E.g., a list (1 2 3 4 5) can be produced by

(cons 1 (cons 2 (cons 3 (cons 4 (cons 5 '())))))

The fold1 function that you've shown:

(define (fold1 kons knil lst)
  (if (null? lst)
      knil
      (fold1 kons (kons (car lst) knil) (cdr lst))))

is a a way of taking a list like the one shown above and transforming it to:

(kons 5 (kons 4 (kons 3 (kons 2 (kons 1 knil)))))

This is a fold. This is an efficient generalization of lots of operations. For instance, if you use 0 as knil and + as kons, you compute the sum of the elements in the list.

Usually folds are right or left associative. A proper left-associative fold would transform to

(kons (kons (kons (kons (kons knil 1) 2) 3) 4) 5)

which might be clearer when viewed with + and infix notation:

(((((0 + 1) + 2) + 3) + 4) + 5)

The right associative fold would become

(1 + (2 + (3 + (4 + (5 + 0)))))

The left associative fold can be more efficient because the natural implementation is tail recursive, and elements are consumed from the list in the order that they can be extracted from the list. E.g., in the proper left associatve example, (kons knil 1) can be evaluated first to produce some value v, and then, in the same stack space, (kons v 2) can be evaluated, and so on. The right associative method requires traversing to the end of the list first. A na?ve implementation requires stack space proportional to the length of the list.

This fold1 mixes things up a bit, because it's processing the elements of the list in a left associative manner, but the order of the arguments to the combining function is reversed.

This type of definition can be used any time that you have a algebraic datatype. Since a list in Lisps is either the empty list, or an element and a list combined with cons, you can write a function that handles each of these cases, and produces a new value by “replacing” cons with a combination function and the empty list with some designated value.

Flattening a list of lists

So, if you've got a list of lists, e.g., ((a b) (c d) (e f)), it's constructed by

(cons '(a b) (cons '(c d) (cons '(e f) '())))

With a right associative fold, you transform it to:

(append '(a b) (append '(c d) (append '(e f) '())))

by using append for kons, and '() for knil. However, in this slightly mixed up fold, your structure will be

(kons '(e f) (kons '(c d) (kons '(a b) knil)))

so knil can still be '(), but kons will need to be a function that calls append, but swaps the argument order:

(define (flatten lists)
  (fold1 (lambda (right left)
           (append left right))
         '()
         lists))

And so we have:

(flatten '((a b) (c d) (e f)))
;=> (a b c d e f)

Flattening deeper lists of lists

Given that this is a folding exercise, I expected that the list of lists are nested only one layer deep. However, since we've seen how to implement a simple flatten

(define (flatten lists)
  (fold1 (lambda (right left)
           (append left right))
         '()
         lists))

we can modify this to make sure that deeper lists are flattened, too. The kons function now

(lambda (right left)
  (append left right))

simply appends the two lists together. left is the already appended and flattened list that we've been building up. right is the new component that we're taking on now. If we make a call to flatten that, too, that should flatten arbitrarily nested lists:

(define (flatten lists)
  (fold1 (lambda (right left)
           (append left (flatten right)))  ; recursively flatten sublists
         '()
         lists))

This is almost right, except that now when we call (flatten '((a b) (c d))), we'll end up making a call to (flatten '(a b)), which will in turn make a call to (flatten 'a), but flatten is a wrapper for fold1, and fold1 expects its arguments to be lists. We need to decide what to do when flatten is called with a non-list. A simple approach is to have it return a list containing the non-list argument. That return value will mesh nicely with the append that's receiving the value.

(define (flatten lists)               ; lists is not necessarily a list of lists anymore, 
  (if (not (pair? lists))             ; perhaps a better name should be chosen
      (list lists)
      (fold1 (lambda (right left)
               (append left (flatten right)))
             '()
             lists)))

Now we have

(flatten '(a (b (c)) (((d)))))
;=> (a b c d)

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