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What would be good purely functional data structures for text editors? I want to be able to insert single characters into the text and delete single characters from the text with acceptable efficiency, and I would like to be able to hold on to old versions, so I can undo changes with ease.

Should I just use a list of strings and reuse the lines that don't change from version to version?

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13  
you can look into zippers .. –  Satvik Sep 10 '12 at 19:21
3  
You might be constrained by the GUI framework you're using (unless you're planning on a console based app) which might handle all the text editing for you straight out of the tin. –  AndrewC Sep 10 '12 at 19:28
1  
Look up list zipper. –  Tony Morris Sep 10 '12 at 23:30
    
to connect to Mysitc's comment, pigworker's answer is the one about zippers –  luqui Sep 11 '12 at 0:42
    
A zippered list is what I used for the Software Tools in Haskell editor. (Look for "Buffer representation".) Works nice. –  Tommy McGuire Sep 17 '12 at 16:01

8 Answers 8

up vote 10 down vote accepted

A Vector[Vector[Char]] would probably be a good bet. It is an IndexedSeq so has decent update / prepend / update performance, unlike the List you mention. If you look at Performance Characteristics, it's the only immutable collection mentioned that has effective constant-time update.

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2  
I tried it, and it works great! –  FredOverflow Sep 12 '12 at 15:21

I don't know whether this suggestion is "good" for sophisticated definitions of "good", but it's easy and fun. I often set an exercise to write the core of a text editor in Haskell, linking with rendering code that I provide. The data model is as follows.

First, I define what it is to be a cursor inside a list of x-elements, where the information available at the cursor has some type m. (The x will turn out to be Char or String.)

type Cursor x m = (Bwd x, m, [x])

This Bwd thing is just the backward "snoc-lists". I want to keep strong spatial intuitions, so I turn things around in my code, not in my head. The idea is that the stuff nearest the cursor is the most easily accessible. That's the spirit of The Zipper.

data Bwd x = B0 | Bwd x :< x deriving (Show, Eq)

I provide a gratuitous singleton type to act as a readable marker for the cursor...

data Here = Here deriving Show

...and I can thus say what it is to be somewhere in a String

type StringCursor = Cursor Char Here

Now, to represent a buffer of multiple lines, we need Strings above and below the line with the cursor, and a StringCursor in the middle, for the line we're currently editing.

type TextCursor = Cursor String StringCursor

This TextCursor type is all I use to represent the state of the edit buffer. It's a two layer zipper. I provide the students with code to render a viewport on the text in an ANSI-escape-enabled shell window, ensuring that the viewport contains the cursor. All they have to do is implement the code that updates the TextCursor in response to keystrokes.

handleKey :: Key -> TextCursor -> Maybe (Damage, TextCursor)

where handleKey should return Nothing if the keystroke is meaningless, but otherwise deliver Just an updated TextCursor and a "damage report", the latter being one of

data Damage
  = NoChange       -- use this if nothing at all happened
  | PointChanged   -- use this if you moved the cursor but kept the text
  | LineChanged    -- use this if you changed text only on the current line
  | LotsChanged    -- use this if you changed text off the current line
  deriving (Show, Eq, Ord)

(If you're wondering what the difference is between returning Nothing and returning Just (NoChange, ...), consider whether you also want the editor to go beep.) The damage report tells the renderer how much work it needs to do to bring the displayed image up to date.

The Key type just gives a readable dataype representation to the possible keystrokes, abstracting away from the raw ANSI escape sequences. It's unremarkable.

I provide the students with a big clue about to go up and down with this data model by offering these pieces of kit:

deactivate :: Cursor x Here -> (Int, [x])
deactivate c = outward 0 c where
  outward i (B0, Here, xs)       = (i, xs)
  outward i (xz :< x, Here, xs)  = outward (i + 1) (xz, Here, x : xs)

The deactivate function is used to shift focus out of a Cursor, giving you an ordinary list, but telling you where the cursor was. The corresponding activate function attempts to place the cursor at a given position in a list:

activate :: (Int, [x]) -> Cursor x Here
activate (i, xs) = inward i (B0, Here, xs) where
  inward _ c@(_, Here, [])     = c  -- we can go no further
  inward 0 c                   = c  -- we should go no further
  inward i (xz, Here, x : xs)  = inward (i - 1) (xz :< x, Here, xs)  -- and on!

I offer the students a deliberately incorrect and incomplete definition of handleKey

handleKey :: Key -> TextCursor -> Maybe (Damage, TextCursor)
handleKey (CharKey c)  (sz,
                        (cz, Here, cs),
                        ss)
  = Just (LineChanged, (sz,
                        (cz, Here, c : cs),
                        ss))
handleKey _ _ = Nothing

which just handles ordinary character keystrokes but makes the text come out backwards. It's easy to see that the character c appears right of Here. I invite them to fix the bug and add functionality for the arrow keys, backspace, delete, return, and so on.

It may not be the most efficient representation ever, but it's purely functional and enables the code to conform concretely to our spatial intuitions about the text that's being edited.

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Code can currently be got via darcs clone http://personal.cis.strath.ac.uk/conor.mcbride/CS410, according to reddit.com/r/haskell/comments/11pwh6. –  nobody Oct 19 '12 at 1:58

We use a text zipper in Yi, a serious text editor implementation in Haskell.

The implementation of the immutable state types is described in the following,

http://publications.lib.chalmers.se/records/fulltext/local_94979.pdf

http://publications.lib.chalmers.se/records/fulltext/local_72549.pdf

and other papers.

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I'd suggest to use zippers in combination with Data.Sequence.Seq which is based on finger trees. So you could represent the current state as

data Cursor = Cursor { upLines :: Seq Line
                     , curLine :: CurLine
                     , downLines :: Seq Line }

This gives you O(1) complexity for moving cursor up/down a single line, and since splitAt and (><) (union) have both O(log(min(n1,n2))) complexity, you'll get O(log(L)) complexity for skipping L lines up/down.

You could have a similar zipper structure for CurLine to keep a sequence of character before, at and after the cursor.

Line could be something space-efficient, such as ByteString.

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I've implemented a zipper for this purpose for my vty-ui library. You can take a look here:

https://github.com/jtdaugherty/vty-ui/blob/master/src/Graphics/Vty/Widgets/TextZipper.hs

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The possibilities that spring to mind are:

  1. The "Text" type with a numerical index. It keeps text in a linked list of buffers (internal representation is UTF16), so while in theory its computational complexity is usually that of a linked list (e.g. indexing is O(n)), in practice its so much faster than a conventional linked list that you could probably just forget about the impact of n unless you are storing the whole of Wikipedia in your buffer. Try some experiments on 1 million character text to see if I'm right (something I haven't actually done, BTW).

  2. A text zipper: store the text after the cursor in one text element, and the text before the cursor in another. To move the cursor transfer text from one side to the other.

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The Clojure community is looking at RRB Trees (Relaxed Radix Balanced) as a persistent data strcuture for vectors of data that can be efficiently concatenated / sliced / inserted etc.

It allows concatenation, insert-at-index and split operations in O(log N) time.

I imagine a RRB Tree specialised for character data would be perfectly suited for large "editable" text data structures.

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