/* eslint-disable no-return-assign, no-undef, no-useless-catch, */ // 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 */ // This is the implementation of the JSON OT type. // // Spec is here: https://github.com/josephg/ShareJS/wiki/JSON-Operations let text; if (typeof WEB !== 'undefined' && WEB !== null) { ({ text } = exports.types); } else { text = require('./text'); } const json = {}; json.name = 'json'; json.create = () => null; json.invertComponent = function(c) { const c_ = {p: c.p}; if (c.si !== undefined) { c_.sd = c.si; } if (c.sd !== undefined) { c_.si = c.sd; } if (c.oi !== undefined) { c_.od = c.oi; } if (c.od !== undefined) { c_.oi = c.od; } if (c.li !== undefined) { c_.ld = c.li; } if (c.ld !== undefined) { c_.li = c.ld; } if (c.na !== undefined) { c_.na = -c.na; } if (c.lm !== undefined) { c_.lm = c.p[c.p.length-1]; c_.p = c.p.slice(0, c.p.length - 1).concat([c.lm]); } return c_; }; json.invert = op => Array.from(op.slice().reverse()).map((c) => json.invertComponent(c)); json.checkValidOp = function(op) {}; const isArray = o => Object.prototype.toString.call(o) === '[object Array]'; json.checkList = function(elem) { if (!isArray(elem)) { throw new Error('Referenced element not a list'); } }; json.checkObj = function(elem) { if (elem.constructor !== Object) { throw new Error(`Referenced element not an object (it was ${JSON.stringify(elem)})`); } }; json.apply = function(snapshot, op) { json.checkValidOp(op); op = clone(op); const container = {data: clone(snapshot)}; try { for (let i = 0; i < op.length; i++) { const c = op[i]; let parent = null; let parentkey = null; let elem = container; let key = 'data'; for (const p of Array.from(c.p)) { parent = elem; parentkey = key; elem = elem[key]; key = p; if (parent == null) { throw new Error('Path invalid'); } } if (c.na !== undefined) { // Number add if (typeof elem[key] !== 'number') { throw new Error('Referenced element not a number'); } elem[key] += c.na; } else if (c.si !== undefined) { // String insert if (typeof elem !== 'string') { throw new Error(`Referenced element not a string (it was ${JSON.stringify(elem)})`); } parent[parentkey] = elem.slice(0, key) + c.si + elem.slice(key); } else if (c.sd !== undefined) { // String delete if (typeof elem !== 'string') { throw new Error('Referenced element not a string'); } if (elem.slice(key, key + c.sd.length) !== c.sd) { throw new Error('Deleted string does not match'); } parent[parentkey] = elem.slice(0, key) + elem.slice(key + c.sd.length); } else if ((c.li !== undefined) && (c.ld !== undefined)) { // List replace json.checkList(elem); // Should check the list element matches c.ld elem[key] = c.li; } else if (c.li !== undefined) { // List insert json.checkList(elem); elem.splice(key, 0, c.li); } else if (c.ld !== undefined) { // List delete json.checkList(elem); // Should check the list element matches c.ld here too. elem.splice(key, 1); } else if (c.lm !== undefined) { // List move json.checkList(elem); if (c.lm !== key) { const e = elem[key]; // Remove it... elem.splice(key, 1); // And insert it back. elem.splice(c.lm, 0, e); } } else if (c.oi !== undefined) { // Object insert / replace json.checkObj(elem); // Should check that elem[key] == c.od elem[key] = c.oi; } else if (c.od !== undefined) { // Object delete json.checkObj(elem); // Should check that elem[key] == c.od delete elem[key]; } else { throw new Error('invalid / missing instruction in op'); } } } catch (error) { // TODO: Roll back all already applied changes. Write tests before implementing this code. throw error; } return container.data; }; // Checks if two paths, p1 and p2 match. json.pathMatches = function(p1, p2, ignoreLast) { if (p1.length !== p2.length) { return false; } for (let i = 0; i < p1.length; i++) { const p = p1[i]; if ((p !== p2[i]) && (!ignoreLast || (i !== (p1.length - 1)))) { return false; } } return true; }; json.append = function(dest, c) { let last; c = clone(c); if ((dest.length !== 0) && json.pathMatches(c.p, (last = dest[dest.length - 1]).p)) { if ((last.na !== undefined) && (c.na !== undefined)) { return dest[dest.length - 1] = { p: last.p, na: last.na + c.na }; } else if ((last.li !== undefined) && (c.li === undefined) && (c.ld === last.li)) { // insert immediately followed by delete becomes a noop. if (last.ld !== undefined) { // leave the delete part of the replace return delete last.li; } else { return dest.pop(); } } else if ((last.od !== undefined) && (last.oi === undefined) && (c.oi !== undefined) && (c.od === undefined)) { return last.oi = c.oi; } else if ((c.lm !== undefined) && (c.p[c.p.length-1] === c.lm)) { return null; // don't do anything } else { return dest.push(c); } } else { return dest.push(c); } }; json.compose = function(op1, op2) { json.checkValidOp(op1); json.checkValidOp(op2); const newOp = clone(op1); for (const c of Array.from(op2)) { json.append(newOp, c); } return newOp; }; json.normalize = function(op) { const newOp = []; if (!isArray(op)) { op = [op]; } for (const c of Array.from(op)) { if (c.p == null) { c.p = []; } json.append(newOp, c); } return newOp; }; // hax, copied from test/types/json. Apparently this is still the fastest way to deep clone an object, assuming // we have browser support for JSON. // http://jsperf.com/cloning-an-object/12 var clone = o => JSON.parse(JSON.stringify(o)); json.commonPath = function(p1, p2) { p1 = p1.slice(); p2 = p2.slice(); p1.unshift('data'); p2.unshift('data'); p1 = p1.slice(0, p1.length-1); p2 = p2.slice(0, p2.length-1); if (p2.length === 0) { return -1; } let i = 0; while ((p1[i] === p2[i]) && (i < p1.length)) { i++; if (i === p2.length) { return i-1; } } }; // transform c so it applies to a document with otherC applied. json.transformComponent = function(dest, c, otherC, type) { let oc; c = clone(c); if (c.na !== undefined) { c.p.push(0); } if (otherC.na !== undefined) { otherC.p.push(0); } const common = json.commonPath(c.p, otherC.p); const common2 = json.commonPath(otherC.p, c.p); const cplength = c.p.length; const otherCplength = otherC.p.length; if (c.na !== undefined) { c.p.pop(); } // hax if (otherC.na !== undefined) { otherC.p.pop(); } if (otherC.na) { if ((common2 != null) && (otherCplength >= cplength) && (otherC.p[common2] === c.p[common2])) { if (c.ld !== undefined) { oc = clone(otherC); oc.p = oc.p.slice(cplength); c.ld = json.apply(clone(c.ld), [oc]); } else if (c.od !== undefined) { oc = clone(otherC); oc.p = oc.p.slice(cplength); c.od = json.apply(clone(c.od), [oc]); } } json.append(dest, c); return dest; } if ((common2 != null) && (otherCplength > cplength) && (c.p[common2] === otherC.p[common2])) { // transform based on c if (c.ld !== undefined) { oc = clone(otherC); oc.p = oc.p.slice(cplength); c.ld = json.apply(clone(c.ld), [oc]); } else if (c.od !== undefined) { oc = clone(otherC); oc.p = oc.p.slice(cplength); c.od = json.apply(clone(c.od), [oc]); } } if (common != null) { let from, p, to; const commonOperand = cplength === otherCplength; // transform based on otherC if (otherC.na !== undefined) { // this case is handled above due to icky path hax } else if ((otherC.si !== undefined) || (otherC.sd !== undefined)) { // String op vs string op - pass through to text type if ((c.si !== undefined) || (c.sd !== undefined)) { if (!commonOperand) { throw new Error("must be a string?"); } // Convert an op component to a text op component const convert = function(component) { const newC = {p:component.p[component.p.length - 1]}; if (component.si) { newC.i = component.si; } else { newC.d = component.sd; } return newC; }; const tc1 = convert(c); const tc2 = convert(otherC); const res = []; text._tc(res, tc1, tc2, type); for (const tc of Array.from(res)) { const jc = { p: c.p.slice(0, common) }; jc.p.push(tc.p); if (tc.i != null) { jc.si = tc.i; } if (tc.d != null) { jc.sd = tc.d; } json.append(dest, jc); } return dest; } } else if ((otherC.li !== undefined) && (otherC.ld !== undefined)) { if (otherC.p[common] === c.p[common]) { // noop if (!commonOperand) { // we're below the deleted element, so -> noop return dest; } else if (c.ld !== undefined) { // we're trying to delete the same element, -> noop if ((c.li !== undefined) && (type === 'left')) { // we're both replacing one element with another. only one can // survive! c.ld = clone(otherC.li); } else { return dest; } } } } else if (otherC.li !== undefined) { if ((c.li !== undefined) && (c.ld === undefined) && commonOperand && (c.p[common] === otherC.p[common])) { // in li vs. li, left wins. if (type === 'right') { c.p[common]++; } } else if (otherC.p[common] <= c.p[common]) { c.p[common]++; } if (c.lm !== undefined) { if (commonOperand) { // otherC edits the same list we edit if (otherC.p[common] <= c.lm) { c.lm++; } } } // changing c.from is handled above. } else if (otherC.ld !== undefined) { if (c.lm !== undefined) { if (commonOperand) { if (otherC.p[common] === c.p[common]) { // they deleted the thing we're trying to move return dest; } // otherC edits the same list we edit p = otherC.p[common]; from = c.p[common]; to = c.lm; if ((p < to) || ((p === to) && (from < to))) { c.lm--; } } } if (otherC.p[common] < c.p[common]) { c.p[common]--; } else if (otherC.p[common] === c.p[common]) { if (otherCplength < cplength) { // we're below the deleted element, so -> noop return dest; } else if (c.ld !== undefined) { if (c.li !== undefined) { // we're replacing, they're deleting. we become an insert. delete c.ld; } else { // we're trying to delete the same element, -> noop return dest; } } } } else if (otherC.lm !== undefined) { if ((c.lm !== undefined) && (cplength === otherCplength)) { // lm vs lm, here we go! from = c.p[common]; to = c.lm; const otherFrom = otherC.p[common]; const otherTo = otherC.lm; if (otherFrom !== otherTo) { // if otherFrom == otherTo, we don't need to change our op. // where did my thing go? if (from === otherFrom) { // they moved it! tie break. if (type === 'left') { c.p[common] = otherTo; if (from === to) { // ugh c.lm = otherTo; } } else { return dest; } } else { // they moved around it if (from > otherFrom) { c.p[common]--; } if (from > otherTo) { c.p[common]++; } else if (from === otherTo) { if (otherFrom > otherTo) { c.p[common]++; if (from === to) { // ugh, again c.lm++; } } } // step 2: where am i going to put it? if (to > otherFrom) { c.lm--; } else if (to === otherFrom) { if (to > from) { c.lm--; } } if (to > otherTo) { c.lm++; } else if (to === otherTo) { // if we're both moving in the same direction, tie break if (((otherTo > otherFrom) && (to > from)) || ((otherTo < otherFrom) && (to < from))) { if (type === 'right') { c.lm++; } } else { if (to > from) { c.lm++; } else if (to === otherFrom) { c.lm--; } } } } } } else if ((c.li !== undefined) && (c.ld === undefined) && commonOperand) { // li from = otherC.p[common]; to = otherC.lm; p = c.p[common]; if (p > from) { c.p[common]--; } if (p > to) { c.p[common]++; } } else { // ld, ld+li, si, sd, na, oi, od, oi+od, any li on an element beneath // the lm // // i.e. things care about where their item is after the move. from = otherC.p[common]; to = otherC.lm; p = c.p[common]; if (p === from) { c.p[common] = to; } else { if (p > from) { c.p[common]--; } if (p > to) { c.p[common]++; } else if (p === to) { if (from > to) { c.p[common]++; } } } } } else if ((otherC.oi !== undefined) && (otherC.od !== undefined)) { if (c.p[common] === otherC.p[common]) { if ((c.oi !== undefined) && commonOperand) { // we inserted where someone else replaced if (type === 'right') { // left wins return dest; } else { // we win, make our op replace what they inserted c.od = otherC.oi; } } else { // -> noop if the other component is deleting the same object (or any // parent) return dest; } } } else if (otherC.oi !== undefined) { if ((c.oi !== undefined) && (c.p[common] === otherC.p[common])) { // left wins if we try to insert at the same place if (type === 'left') { json.append(dest, {p:c.p, od:otherC.oi}); } else { return dest; } } } else if (otherC.od !== undefined) { if (c.p[common] === otherC.p[common]) { if (!commonOperand) { return dest; } if (c.oi !== undefined) { delete c.od; } else { return dest; } } } } json.append(dest, c); return dest; }; 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. exports._bt(json, json.transformComponent, json.checkValidOp, json.append); // [] is used to prevent closure from renaming types.text exports.types.json = json; } else { module.exports = json; require('./helpers').bootstrapTransform(json, json.transformComponent, json.checkValidOp, json.append); }