What is the Zipper data structure and should I be using it?
https://stackoverflow.com/questions/380438
-
22-08-2019 - |
italiano
english
français
española
中国
日本の
العربية
Deutsch
한국어
Português
RussianQuestion
The question is simple: I cannot understand the Zipper data structure.
My question is related to its uses with a Tree.
I want to understand how can I change the tree node using zipper. And how not to copy the whole tree (or the most part of it).
Please, clarify if I'm wrong with zipper. Maybe it cannot help with the tree update?
Or, maybe, it is possible to update the tree and I just cannot see the way?
Solution
Let's start with the Zipper-analog for lists. If you'd like to modify the nth element of a list, it takes O(n) because you have to copy the n-1 first elements. Instead, you can keep the list as a structure ((first n-1 elements reversed) nth element (remaining elements)). For example, the list (1 2 3 4 5 6) modifiable at 3 would be represented as ((2 1) 3 (4 5 6)). Now, you can easily change the 3 to something else. You can also easily move the focus left ((1) 2 (3 4 5 6)) and right ((3 2 1) 4 (5 6)).
A zipper is the same idea applied to trees. You represent a certain focus in the tree plus a context (up to parents, down to children) which gives you the whole tree in a form where it's easily modifiable at the focus and it's easy to move the focus up and down.
OTHER TIPS
Here is a very nice article explaining using the zipper for a tiling window manager in Haskell. The Wikipedia article is not a good reference.
In short, the zipper is a pointer or handle to a particular node in a tree or list structure. The zipper gives a natural way of taking a tree structure and treating it as though the tree was "picked up" by the focused node - in effect, you get a second tree without requiring additional copies made of the original tree or affecting other users of the tree.
The example given shows how you have the windows originally sorted by location on the screen, and then to model focus you use a zipper pointed at the focus window. You get a nice set of O(1) operations such as insert and delete without having to special case the focus window or write additional code.
Learn You a Haskell also has a great chapter about zippers.
This article is related to Haskell, but it also explains zippers fairly well and it should be easy to abstract from the Haskell-specifics.
