overleaf/services/document-updater/app/js/sharejs/json.js

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/* 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]
}
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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
}
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if (typeof WEB !== 'undefined' && WEB !== null) {
if (!exports.types) {
exports.types = {}
}
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// 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)
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// [] 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
)
}