Difference lists are a common programming technique - in languages with immutable data (so called "pure" functional languages, with implicitly set-once semantics, like Haskell), or in explicitly set-once languages (like non-backtracking subset of Prolog) - where initial segments of lists are represented as "difference" between the list's head pointer and its suffix (i.e. middle, or ending pointer).

In practice this amounts to explicitly maintaining an ending pointer along the list in addition to the list's head pointer, so that appending at the list's end becomes an O(1) operation. Whether instantiated or not, the portion of the list "above" the ending pointer is the "difference". These lists are also referred to as "open-ended".

In Haskell, where there's no explicit pointers, they are replaced with functions that, given a suffix list, will prepend a prefix to it. Appending is then just a function composition.

This is also closely related to corecursion. Whereas recursive procedure would build a list by first recursively calculating the rest of the list and then prepending a head element to it, corecursive procedure yields a head element before proceeding to define the yet-to-be-calculated rest of list. This is also the essence of tail-recursion modulo cons optimization. In Haskell this is modeled by guarded recursion.

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