/******************************************************************************* Key portions of code below was borrowed from: https://github.com/Swatinem/diff License is LGPL3 (thanks!) as per: https://github.com/Swatinem/diff/blob/b58391504759/README.md I chose to pick this implementation over https://github.com/google/diff-match-patch as suggested by CodeMirror because: - Code is clean and simple to read -- useful when unfamiliar with the diff algorithm, this makes changing the code easier if/when needed. - Smaller -- diff_match_patch comes with an extended API most of which is of no use to the current project. - diff_match_patch uncompressed: 74.7 KB - Swatinem's diff uncompressed: 3.66 KB - I can easily adapt Swatinem's diff to deal with arrays of strings, which is best suited for the current project -- it natively work with arrays. I removed portions of code which are of no use for the current project. I modified the diff script generator (Diff.prototype.editscript) since I need to generate a script which is compatible with the output of the diff_match_patch, as expected by CodeMirror. **/ 'use strict'; (function(context) { // CodeMirror expect these globals: context.DIFF_INSERT = 1; context.DIFF_DELETE = -1; context.DIFF_EQUAL = 0; context.diff_match_patch = function(){}; context.diff_match_patch.prototype.diff_main = function(a, b) { if ( a === b ) { return [ [ 0, a ] ]; } var aa = a.match(/\n|[^\n]+\n?/g) || []; var bb = b.match(/\n|[^\n]+\n?/g) || []; var d = new Diff(aa, bb, eqlDefault); return d.editscript(); }; function eqlDefault(a, b) { return a === b; } function Diff(a, b, eql) { this.a = a; this.b = b; this.eql = eql; this.moda = Array.apply(null, new Array(a.length)).map(true.valueOf, false); this.modb = Array.apply(null, new Array(b.length)).map(true.valueOf, false); // just to save some allocations: this.down = {}; this.up = {}; this.lcs(0, a.length, 0, b.length); } Diff.prototype.editscript = function Diff_editscript() { var moda = this.moda, modb = this.modb; var astart = 0, aend = moda.length; var bstart = 0, bend = modb.length; var result = []; while (astart < aend || bstart < bend) { if (astart < aend && bstart < bend) { if (!moda[astart] && !modb[bstart]) { result.push([ 0, this.a[astart] ]); astart++; bstart++; continue; } else if (moda[astart] && modb[bstart]) { result.push([ -1, this.a[astart] ]); result.push([ 1, this.b[bstart] ]); astart++; bstart++; continue; } } if (astart < aend && (bstart >= bend || moda[astart])) { result.push([ -1, this.a[astart] ]); astart++; } if (bstart < bend && (astart >= aend || modb[bstart])) { result.push([ 1, this.b[bstart] ]); bstart++; } } return result; }; Diff.prototype.lcs = function Diff_lcs(astart, aend, bstart, bend) { var a = this.a, b = this.b, eql = this.eql; // separate common head while (astart < aend && bstart < bend && eql(a[astart], b[bstart])) { astart++; bstart++; } // separate common tail while (astart < aend && bstart < bend && eql(a[aend - 1], b[bend - 1])) { aend--; bend--; } if (astart === aend) { // only insertions while (bstart < bend) { this.modb[bstart] = true; bstart++; } } else if (bend === bstart) { // only deletions while (astart < aend) { this.moda[astart] = true; astart++; } } else { var snake = this.snake(astart, aend, bstart, bend); this.lcs(astart, snake.x, bstart, snake.y); this.lcs(snake.u, aend, snake.v, bend); } }; Diff.prototype.snake = function Diff_snake(astart, aend, bstart, bend) { var a = this.a, b = this.b, eql = this.eql; var N = aend - astart, M = bend - bstart; var kdown = astart - bstart; var kup = aend - bend; var delta = N - M; var deltaOdd = delta & 1; var down = this.down; down[kdown + 1] = astart; var up = this.up; up[kup - 1] = aend; var Dmax = (N + M + 1) / 2; for (var D = 0; D <= Dmax; D++) { var k, x, y; // forward path for (k = kdown - D; k <= kdown + D; k += 2) { if (k === kdown - D) { x = down[k + 1]; // down } else { x = down[k - 1] + 1; // right if ((k < kdown + D) && (down[k + 1] >= x)) { x = down[k + 1]; // down } } y = x - k; while (x < aend && y < bend && eql(a[x], b[y])) { x++; y++; // diagonal } down[k] = x; if (deltaOdd && (kup - D < k) && (k < kup + D) && up[k] <= down[k]) { return { x: down[k], y: down[k] - k, u: up[k], v: up[k] - k, }; } } // reverse path for (k = kup - D; k <= kup + D; k += 2) { if (k === kup + D) { x = up[k - 1]; // up } else { x = up[k + 1] - 1; // left if ((k > kup - D) && (up[k - 1] < x)) { x = up[k - 1]; // up } } y = x - k; while (x > astart && y > bstart && eql(a[x - 1], b[y - 1])) { x--; y--; // diagonal } up[k] = x; if (!deltaOdd && (kdown - D <= k) && (k <= kdown + D) && up[k] <= down[k]) { return { x: down[k], y: down[k] - k, u: up[k], v: up[k] - k, }; } } } }; return Diff; })(self);