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This is a follow-up to the answer to my previous question.

Suppose I need to map each item a:A of List[A] to b:B = f(a, leftNeighbors(a)) (see function f below) and generate List[B].

f(a:A, leftNeighbors:List[A]): B = ...

Obviously I cannot just call map on the list but I can use the list zipper. The zipper is a cursor to move around a list; it provides access to the current element (focus) and its neighbors.

Now I can modify my function f as follows:

f'(z:Zipper[A]):B = f(z.focus, z.left)

and pass this new function f' to cobind method of the Zipper[A]. The cobind works as follows:

it calls the f' with the zipper, then moves the zipper, callsf' with the new "moved" zipper, moves the zipper again etc. etc. ... until the zipper gets to the end of the list.

Finally the cobind returns a new zipper of type Zipper[B], which can be transformed to the list and so the problem is solved.

Now note the symmetry between cobind[A](f:Zipper[A] => B):Zipper[B] and bind[A](f:A => List[B]):List[B] That is why List is a Monad and Zipper is Comonad.

Does this understanding make sense ?

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I'm not an expert, but that makes sense to me. I had an epiphany while reading your explanation. Thanks! –  acjay Jun 3 at 18:11

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