ot-text-unicode
v4.0.0
Published
OT type for plaintext
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The Plaintext OT Type, with proper unicode positions
This OT type can be used to edit plaintext documents, like sourcecode or markdown. It allows invertible or non-invertible text operations.
For documentation on the API spec this type implements, see ottypes/docs.
There's also compatible versions of this library in C, rust and swift.
This type is almost identical to the original text type. The difference is that text-unicode counts positions based on the number of unicode codepoints instead of javascript string length (UCS2 2-byte offsets). For example, "😭" is a single unicode codepoint but "😭".length === 2
in javascript. In text, this is 2 characters (which propogates what I consider a bug in javascript). In text-unicode, this is counted as just 1 character. Considering it as 1 character is slightly less performant in javascript, but makes interop with other languages much easier.
Usage
# npm add ot-text-unicode
then use it like any other OT type:
const {type} = require('ot-text-unicode')
type.apply('hi there', [3, {d:5}, '🤖👻💃']) // -> 'hi 🤖👻💃'
There are helper methods for simple insert and remove operations:
const {type, insert, remove} = require('ot-text-unicode')
const op1 = insert(2, "hi there") // returns [2, "hi there"]
// Operations which delete characters can optionally specify which characters were deleted:
const op2inv = remove(2, "hi there") // returns [2, {d:"hi there"}]
const op2noinv = remove(2, 8) // returns [2, {d:8}]
const addThenRemove = type.compose(op1, op2inv) // Returns [], aka no-op!
Using a rope with text-unicode
This library has also been extended to allow you to specify your own fancy rope type, and apply operations efficiently. Neato 🌯! To use it, you'll need to implement your own rope type, or use a rope library on npm:
const myRopeFns = {
create(str) { return new Rope(str) },
toString(rope) { return rope.toString() },
builder(rope) {
// Used for applying operations
let pos = 0 // character position in unicode code points
return {
skip(n) { pos += n },
append(s) { // Insert s at the current position
rope.insert(pos, s)
pos += unicodeLength(s)
},
del(n) { // Delete n characters at the current position
rope.del(pos, n)
},
build() { // Finish!
return rope
},
}
}
}
Then use it:
const type = require('ot-text-unicode').makeType(myRopeFns)
let doc = type.create('hi there')
doc = type.apply(doc, [3, {d:5}, '🤖👻💃']) // -> 'hi 🤖👻💃'
// If your rope functions modify doc in-place, so will apply.
Inverting operations
Its often useful to be able to invert an operation to support undo. To invert an operation either:
- The operation needs to contain a copy of all deleted characters instead of simply specifying how many characters are deleted. Eg,
[{d:'hi'}]
instead of[{d:2}]
. - Or when inverting an operation you can use
type.invertWithDoc(op, doc)
, providing a copy of what the document looked like before the operation was applied.
Note invert support has been added recently, and may not be supported by text-unicode implementations in other languages.
const {type} = require('ot-text-unicode')
const op1 = [2, {d: 5}] // Delete 5 characters at position 2
type.invert(op1) // ERROR: Will throw because the operation doesn't contain deleted characters
// Option 1: add all deleted characters into the operation:
const op2 = [2, {d: 'hello'}] // Delete 5 characters ('hello') at position 2
type.invert(op2) // Ok - returns `[2, 'hello']`
// Option 2: Use invertWithDoc to generate an operation's inverse
type.invertWithDoc(op1, 'a hello') // Ok - returns `[2, 'hello']`.
Invertibility information will be preserved through calls to transform and compose, if all provided operations are invertible. Note this is not the case for some other types, like json1.
Transforming cursor positions
If you have another user's cursor position, you can transform that cursor using type.transformPosition
or type.transformSelection
:
const {type} = require('ot-text-unicode')
let doc = '...'
let cursors = [{user: 'jane', pos: 5}, {user: 'fred', pos: 100}]
function onRemoteOp(op) {
for (let user of cursors) {
// Update user positions based on the incoming operation
user.pos = type.transformPosition(user.pos, op)
}
doc = type.apply(doc, op)
}
Note For consistency, just like other methods, transformPosition
operates on unicode cursor positions, not raw JS string positions. If you're using this with JS string positions, you have two options:
- (Recommended) Convert your positions to unicode codepoint positions before calling
transformPosition
. The simplest way is to callcursor = require('unicount').strPosToUni(doc_contents, jsPosition)
. - Use the older version of
transformPosition
which operates on raw JS offsets. Code to do that is in this github gist.
Spec
The plaintext OT type thinks of the document as a giant unicode string, and edits index unicode characters in the string. This is different from most text editors, which break up a document into an array of lines. For small documents on modern computers, the conversion isn't particularly expensive. However, if you have giant documents you should be using a rope library like jumprope or librope.
Each operation describes a traversal over the document. The traveral can edit the document as it goes.
For example, given the document:
"ABCDEFG"
You could apply the operation
[1, ' hi ', 2, {d:3}]
This operation will skip (retain) the first character (1), insert ' hi ', skip 2 more characters then delete the next 3 characters. The result would be:
"A hi BCG"
Operation components
Each operation is a list of components. The components describe a traversal of the document, modifying the document along the way. Each component is one of:
- Number N: Skip (retain) the next N characters in the document
- "str": Insert "str" at the current position in the document
- {d:N}: Delete N characters at the current position in the document
- {d:"str"}: Delete the string "str" at the current position in the document. This is functionally identical to {d:N} but allows an operation to be inverted, which is useful for undo support.
The operation does not have to skip the last characters in the document.
Selections
The text type also has methods for manipulating selections.
Selection ranges are either a single number (the cursor position) or a pair of [anchor, focus] numbers (aka [start, end]) of the selection range. Be aware that end can be before start.
Other implementations
I have compatible implementations of this OT type in:
- C. This implementation is insanely fast (~20M transforms / second on my old laptop, not that that will ever be a bottleneck.)
- Rust. This code is much less mature, but far more concise and beautiful than the C or JS implementations.
- Swift
Commentary
This is the 4th iteration of ShareJS's plaintext type.
The first iteration was similar, except it forces all operations to be invertable. Invertability is nice, but I want to eventually build an arbitrary P2P OT system, and in a p2p setting invertibility becomes impractical to achieve. I don't want systems to depend on it.
The second iteration made each component specify a location and an edit there. Operations were lists of these edits. Because the components were not sorted, if you transform two big operations by one another it requires M*N time to transform. The components could be sorted to fix this, but if you're going to do that you may as well just make them sorted by design - which is what the current text implementation does. I thought the individual edits style was better because I expected it to be simpler, but when I implemented it I found the implementation of each method was almost identical in size.
The 3rd iteration is 99% identical to this
codebase, except it used UTF16 word offsets instead of unicode codepoints.
This implementation considers emoji 🤸🏼♀️ as 1 character. ottypes/text
considers that as 2 characters instead, because it takes a pair of UTF16
values to store ("🤓".length === 2
in javascript). This makes it awkward to
build cross-platform OT systems spanning platforms which don't accept use JS's
awkward unicode encoding.
License
All code contributed to this repository is licensed under the standard MIT license:
Copyright 2011 ottypes library contributors
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following condition:
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.