/* eslint-disable camelcase, no-return-assign, no-undef, */ // TODO: This file was created by bulk-decaffeinate. // Fix any style issues and re-enable lint. /* * decaffeinate suggestions: * DS101: Remove unnecessary use of Array.from * DS102: Remove unnecessary code created because of implicit returns * DS207: Consider shorter variations of null checks * Full docs: https://github.com/decaffeinate/decaffeinate/blob/master/docs/suggestions.md */ // A simple text implementation // // Operations are lists of components. // Each component either inserts or deletes at a specified position in the document. // // Components are either: // {i:'str', p:100}: Insert 'str' at position 100 in the document // {d:'str', p:100}: Delete 'str' at position 100 in the document // // Components in an operation are executed sequentially, so the position of components // assumes previous components have already executed. // // Eg: This op: // [{i:'abc', p:0}] // is equivalent to this op: // [{i:'a', p:0}, {i:'b', p:1}, {i:'c', p:2}] // NOTE: The global scope here is shared with other sharejs files when built with closure. // Be careful what ends up in your namespace. let append, transformComponent; const text = {}; text.name = 'text'; text.create = () => ''; const strInject = (s1, pos, s2) => s1.slice(0, pos) + s2 + s1.slice(pos); const checkValidComponent = function(c) { if (typeof c.p !== 'number') { throw new Error('component missing position field'); } const i_type = typeof c.i; const d_type = typeof c.d; if (!((i_type === 'string') ^ (d_type === 'string'))) { throw new Error('component needs an i or d field'); } if (!(c.p >= 0)) { throw new Error('position cannot be negative'); } }; const checkValidOp = function(op) { for (const c of Array.from(op)) { checkValidComponent(c); } return true; }; text.apply = function(snapshot, op) { checkValidOp(op); for (const component of Array.from(op)) { if (component.i != null) { snapshot = strInject(snapshot, component.p, component.i); } else { const deleted = snapshot.slice(component.p, (component.p + component.d.length)); if (component.d !== deleted) { throw new Error(`Delete component '${component.d}' does not match deleted text '${deleted}'`); } snapshot = snapshot.slice(0, component.p) + snapshot.slice((component.p + component.d.length)); } } return snapshot; }; // Exported for use by the random op generator. // // For simplicity, this version of append does not compress adjacent inserts and deletes of // the same text. It would be nice to change that at some stage. text._append = (append = function(newOp, c) { if ((c.i === '') || (c.d === '')) { return; } if (newOp.length === 0) { return newOp.push(c); } else { const last = newOp[newOp.length - 1]; // Compose the insert into the previous insert if possible if ((last.i != null) && (c.i != null) && (last.p <= c.p && c.p <= (last.p + last.i.length))) { return newOp[newOp.length - 1] = {i:strInject(last.i, c.p - last.p, c.i), p:last.p}; } else if ((last.d != null) && (c.d != null) && (c.p <= last.p && last.p <= (c.p + c.d.length))) { return newOp[newOp.length - 1] = {d:strInject(c.d, last.p - c.p, last.d), p:c.p}; } else { return newOp.push(c); } } }); text.compose = function(op1, op2) { checkValidOp(op1); checkValidOp(op2); const newOp = op1.slice(); for (const c of Array.from(op2)) { append(newOp, c); } return newOp; }; // Attempt to compress the op components together 'as much as possible'. // This implementation preserves order and preserves create/delete pairs. text.compress = op => text.compose([], op); text.normalize = function(op) { const newOp = []; // Normalize should allow ops which are a single (unwrapped) component: // {i:'asdf', p:23}. // There's no good way to test if something is an array: // http://perfectionkills.com/instanceof-considered-harmful-or-how-to-write-a-robust-isarray/ // so this is probably the least bad solution. if ((op.i != null) || (op.p != null)) { op = [op]; } for (const c of Array.from(op)) { if (c.p == null) { c.p = 0; } append(newOp, c); } return newOp; }; // This helper method transforms a position by an op component. // // If c is an insert, insertAfter specifies whether the transform // is pushed after the insert (true) or before it (false). // // insertAfter is optional for deletes. const transformPosition = function(pos, c, insertAfter) { if (c.i != null) { if ((c.p < pos) || ((c.p === pos) && insertAfter)) { return pos + c.i.length; } else { return pos; } } else { // I think this could also be written as: Math.min(c.p, Math.min(c.p - otherC.p, otherC.d.length)) // but I think its harder to read that way, and it compiles using ternary operators anyway // so its no slower written like this. if (pos <= c.p) { return pos; } else if (pos <= (c.p + c.d.length)) { return c.p; } else { return pos - c.d.length; } } }; // Helper method to transform a cursor position as a result of an op. // // Like transformPosition above, if c is an insert, insertAfter specifies whether the cursor position // is pushed after an insert (true) or before it (false). text.transformCursor = function(position, op, side) { const insertAfter = side === 'right'; for (const c of Array.from(op)) { position = transformPosition(position, c, insertAfter); } return position; }; // Transform an op component by another op component. Asymmetric. // The result will be appended to destination. // // exported for use in JSON type text._tc = (transformComponent = function(dest, c, otherC, side) { checkValidOp([c]); checkValidOp([otherC]); if (c.i != null) { append(dest, {i:c.i, p:transformPosition(c.p, otherC, side === 'right')}); } else { // Delete if (otherC.i != null) { // delete vs insert let s = c.d; if (c.p < otherC.p) { append(dest, {d:s.slice(0, otherC.p - c.p), p:c.p}); s = s.slice((otherC.p - c.p)); } if (s !== '') { append(dest, {d:s, p:c.p + otherC.i.length}); } } else { // Delete vs delete if (c.p >= (otherC.p + otherC.d.length)) { append(dest, {d:c.d, p:c.p - otherC.d.length}); } else if ((c.p + c.d.length) <= otherC.p) { append(dest, c); } else { // They overlap somewhere. const newC = {d:'', p:c.p}; if (c.p < otherC.p) { newC.d = c.d.slice(0, (otherC.p - c.p)); } if ((c.p + c.d.length) > (otherC.p + otherC.d.length)) { newC.d += c.d.slice(((otherC.p + otherC.d.length) - c.p)); } // This is entirely optional - just for a check that the deleted // text in the two ops matches const intersectStart = Math.max(c.p, otherC.p); const intersectEnd = Math.min(c.p + c.d.length, otherC.p + otherC.d.length); const cIntersect = c.d.slice(intersectStart - c.p, intersectEnd - c.p); const otherIntersect = otherC.d.slice(intersectStart - otherC.p, intersectEnd - otherC.p); if (cIntersect !== otherIntersect) { throw new Error('Delete ops delete different text in the same region of the document'); } if (newC.d !== '') { // This could be rewritten similarly to insert v delete, above. newC.p = transformPosition(newC.p, otherC); append(dest, newC); } } } } return dest; }); const invertComponent = function(c) { if (c.i != null) { return {d:c.i, p:c.p}; } else { return {i:c.d, p:c.p}; } }; // No need to use append for invert, because the components won't be able to // cancel with one another. text.invert = op => Array.from(op.slice().reverse()).map((c) => invertComponent(c)); if (typeof WEB !== 'undefined' && WEB !== null) { if (!exports.types) { exports.types = {}; } // This is kind of awful - come up with a better way to hook this helper code up. bootstrapTransform(text, transformComponent, checkValidOp, append); // [] is used to prevent closure from renaming types.text exports.types.text = text; } else { module.exports = text; // The text type really shouldn't need this - it should be possible to define // an efficient transform function by making a sort of transform map and passing each // op component through it. require('./helpers').bootstrapTransform(text, transformComponent, checkValidOp, append); }