Lib.rs

#collaborative

operational-transform

A library for Operational Transformation

by bold

7 releases (4 breaking)

0.6.1 Feb 12, 2022
0.6.0 Jul 22, 2020
0.5.0 Jul 4, 2020
0.3.0 Apr 14, 2020
0.1.1 Apr 6, 2020

#9 in #collaborative

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Used in ethersync

MIT license

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operational-transform

Crates.io docs.rs docs ci

A library for Operational Transformation

Operational transformation (OT) is a technology for supporting a range of collaboration functionalities in advanced collaborative software systems. [1]

When working on the same document over the internet concurrent operations from multiple users might be in conflict. Operational Transform can help to resolve conflicts in such a way that documents stay in sync.

The basic operations that are supported are:

  • Retain(n): Move the cursor n positions forward
  • Delete(n): Delete n characters at the current position
  • Insert(s): Insert the string s at the current position

This library can be used to...

... compose sequences of operations:

use operational_transform::OperationSeq;

let mut a = OperationSeq::default();
a.insert("abc");
let mut b = OperationSeq::default();
b.retain(3);
b.insert("def");
let after_a = a.apply("").unwrap();
let after_b = b.apply(&after_a).unwrap();
let c = a.compose(&b).unwrap();
let after_ab = a.compose(&b).unwrap().apply("").unwrap();
assert_eq!(after_ab, after_b);

... transform sequences of operations

use operational_transform::OperationSeq;

let s = "abc";
let mut a = OperationSeq::default();
a.retain(3);
a.insert("def");
let mut b = OperationSeq::default();
b.retain(3);
b.insert("ghi");
let (a_prime, b_prime) = a.transform(&b).unwrap();
let ab_prime = a.compose(&b_prime).unwrap();
let ba_prime = b.compose(&a_prime).unwrap();
let after_ab_prime = ab_prime.apply(s).unwrap();
let after_ba_prime = ba_prime.apply(s).unwrap();
assert_eq!(ab_prime, ba_prime);
assert_eq!(after_ab_prime, after_ba_prime);

... invert sequences of operations

use operational_transform::OperationSeq;

let s = "abc";
let mut o = OperationSeq::default();
o.retain(3);
o.insert("def");
let p = o.invert(s);
assert_eq!(p.apply(&o.apply(s).unwrap()).unwrap(), s);

Features

Serialisation is supporeted by using the serde feature.

  • Delete(n) will be serialized to -n
  • Insert(s) will be serialized to "{s}"
  • Retain(n) will be serailized to n
use operational_transform::OperationSeq;
use serde_json;

let o: OperationSeq = serde_json::from_str("[1,-1,\"abc\"]").unwrap();
let mut o_exp = OperationSeq::default();
o_exp.retain(1);
o_exp.delete(1);
o_exp.insert("abc");
assert_eq!(o, o_exp);

Acknowledgement

In the current state the code is ported from here. It might change in the future as there is much room for optimisation and also usability.

Dependencies

~215KB