overleaf/libraries/ranges-tracker/index.cjs

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// @ts-check
/**
* The purpose of this class is to track a set of inserts and deletes to a document, like
* track changes in Word. We store these as a set of ShareJs style ranges:
* {i: "foo", p: 42} # Insert 'foo' at offset 42
* {d: "bar", p: 37} # Delete 'bar' at offset 37
* We only track the inserts and deletes, not the whole document, but by being given all
* updates that are applied to a document, we can update these appropriately.
*
* Note that the set of inserts and deletes we store applies to the document as-is at the moment.
* So inserts correspond to text which is in the document, while deletes correspond to text which
* is no longer there, so their lengths do not affect the position of later offsets.
* E.g.
* this is the current text of the document
* |-----| |
* {i: "current ", p:12} -^ ^- {d: "old ", p: 31}
*
* Track changes rules (should be consistent with Word):
* * When text is inserted at a delete, the text goes to the left of the delete
* I.e. "foo|bar" -> "foobaz|bar", where | is the delete, and 'baz' is inserted
* * Deleting content flagged as 'inserted' does not create a new delete marker, it only
* removes the insert marker. E.g.
* * "abdefghijkl" -> "abfghijkl" when 'de' is deleted. No delete marker added
* |---| <- inserted |-| <- inserted
* * Deletes overlapping regular text and inserted text will insert a delete marker for the
* regular text:
* "abcdefghijkl" -> "abcdejkl" when 'fghi' is deleted
* |----| |--||
* ^- inserted 'bcdefg' \ ^- deleted 'hi'
* \--inserted 'bcde'
* * Deletes overlapping other deletes are merged. E.g.
* "abcghijkl" -> "ahijkl" when 'bcg is deleted'
* | <- delete 'def' | <- delete 'bcdefg'
* * Deletes by another user will consume deletes by the first user
* * Inserts by another user will not combine with inserts by the first user. If they are in the
* middle of a previous insert by the first user, the original insert will be split into two.
*/
class RangesTracker {
constructor(changes, comments) {
if (changes == null) {
changes = []
}
this.changes = changes
if (comments == null) {
comments = []
}
this.comments = comments
this.track_changes = false
this.id_seed = RangesTracker.generateIdSeed()
this.id_increment = 0
this._dirtyState = {
comment: {
moved: {},
removed: {},
added: {},
},
change: {
moved: {},
removed: {},
added: {},
},
}
}
getIdSeed() {
return this.id_seed
}
setIdSeed(seed) {
this.id_seed = seed
this.id_increment = 0
}
static generateIdSeed() {
// Generate a the first 18 characters of Mongo ObjectId, leaving 6 for the increment part
// Reference: https://github.com/dreampulse/ObjectId.js/blob/master/src/main/javascript/Objectid.js
const pid = Math.floor(Math.random() * 32767).toString(16)
const machine = Math.floor(Math.random() * 16777216).toString(16)
const timestamp = Math.floor(new Date().valueOf() / 1000).toString(16)
return (
'00000000'.substr(0, 8 - timestamp.length) +
timestamp +
'000000'.substr(0, 6 - machine.length) +
machine +
'0000'.substr(0, 4 - pid.length) +
pid
)
}
static generateId() {
return this.generateIdSeed() + '000001'
}
newId() {
this.id_increment++
const increment = this.id_increment.toString(16)
const id =
this.id_seed + '000000'.substr(0, 6 - increment.length) + increment
return id
}
getComment(commentId) {
let comment = null
for (const c of this.comments) {
if (c.id === commentId) {
comment = c
break
}
}
return comment
}
removeCommentId(commentId) {
const comment = this.getComment(commentId)
if (comment == null) {
return
}
this.comments = this.comments.filter(c => c.id !== commentId)
this._markAsDirty(comment, 'comment', 'removed')
}
moveCommentId(commentId, position, text) {
for (const comment of this.comments) {
if (comment.id === commentId) {
comment.op.p = position
comment.op.c = text
this._markAsDirty(comment, 'comment', 'moved')
}
}
}
getChange(changeId) {
let change = null
for (const c of this.changes) {
if (c.id === changeId) {
change = c
break
}
}
return change
}
getChanges(changeIds) {
const changesResponse = []
const idsMap = {}
for (const changeId of changeIds) {
idsMap[changeId] = true
}
for (const change of this.changes) {
if (idsMap[change.id]) {
delete idsMap[change.id]
changesResponse.push(change)
}
}
return changesResponse
}
removeChangeId(changeId) {
const change = this.getChange(changeId)
if (change == null) {
return
}
this._removeChange(change)
}
removeChangeIds(changeToRemoveIds) {
if (changeToRemoveIds == null || changeToRemoveIds.length === 0) {
return
}
const removeChangeId = {}
for (const changeId of changeToRemoveIds) {
removeChangeId[changeId] = true
}
const remainingChanges = []
for (const change of this.changes) {
if (removeChangeId[change.id]) {
delete removeChangeId[change.id]
this._markAsDirty(change, 'change', 'removed')
} else {
remainingChanges.push(change)
}
}
this.changes = remainingChanges
}
validate(text) {
let content
for (const change of this.changes) {
if (change.op.i != null) {
content = text.slice(change.op.p, change.op.p + change.op.i.length)
if (content !== change.op.i) {
throw new Error(
`Change (${JSON.stringify(
change
)}) doesn't match text (${JSON.stringify(content)})`
)
}
}
}
for (const comment of this.comments) {
content = text.slice(comment.op.p, comment.op.p + comment.op.c.length)
if (content !== comment.op.c) {
throw new Error(
`Comment (${JSON.stringify(
comment
)}) doesn't match text (${JSON.stringify(content)})`
)
}
}
}
applyOp(op, metadata) {
if (metadata == null) {
metadata = {}
}
if (metadata.ts == null) {
metadata.ts = new Date()
}
// Apply an op that has been applied to the document to our changes to keep them up to date
if (op.i != null) {
this.applyInsertToChanges(op, metadata)
this.applyInsertToComments(op)
} else if (op.d != null) {
this.applyDeleteToChanges(op, metadata)
this.applyDeleteToComments(op)
} else if (op.c != null) {
this.addComment(op, metadata)
} else {
throw new Error('unknown op type')
}
}
applyOps(ops, metadata) {
if (metadata == null) {
metadata = {}
}
for (const op of ops) {
this.applyOp(op, metadata)
}
}
addComment(op, metadata) {
const existing = this.getComment(op.t)
if (existing != null) {
this.moveCommentId(op.t, op.p, op.c)
} else {
let comment
this.comments.push(
(comment = {
id: op.t || this.newId(),
op: {
// Copy because we'll modify in place
c: op.c,
p: op.p,
t: op.t,
},
metadata,
})
)
this._markAsDirty(comment, 'comment', 'added')
}
}
applyInsertToComments(op) {
for (const comment of this.comments) {
if (op.p <= comment.op.p) {
comment.op.p += op.i.length
this._markAsDirty(comment, 'comment', 'moved')
} else if (op.p < comment.op.p + comment.op.c.length) {
const offset = op.p - comment.op.p
comment.op.c =
comment.op.c.slice(0, +(offset - 1) + 1 || undefined) +
op.i +
comment.op.c.slice(offset)
this._markAsDirty(comment, 'comment', 'moved')
}
}
}
applyDeleteToComments(op) {
const opStart = op.p
const opLength = op.d.length
const opEnd = op.p + opLength
for (const comment of this.comments) {
const commentStart = comment.op.p
const commentEnd = comment.op.p + comment.op.c.length
const commentLength = commentEnd - commentStart
if (opEnd <= commentStart) {
// delete is fully before comment
comment.op.p -= opLength
this._markAsDirty(comment, 'comment', 'moved')
} else if (opStart >= commentEnd) {
// delete is fully after comment, nothing to do
} else {
// delete and comment overlap
let remainingAfter, remainingBefore
if (opStart <= commentStart) {
remainingBefore = ''
} else {
remainingBefore = comment.op.c.slice(0, opStart - commentStart)
}
if (opEnd >= commentEnd) {
remainingAfter = ''
} else {
remainingAfter = comment.op.c.slice(opEnd - commentStart)
}
// Check deleted content matches delete op
const deletedComment = comment.op.c.slice(
remainingBefore.length,
commentLength - remainingAfter.length
)
const offset = Math.max(0, commentStart - opStart)
const deletedOpContent = op.d
.slice(offset)
.slice(0, deletedComment.length)
if (deletedComment !== deletedOpContent) {
throw new Error('deleted content does not match comment content')
}
comment.op.p = Math.min(commentStart, opStart)
comment.op.c = remainingBefore + remainingAfter
this._markAsDirty(comment, 'comment', 'moved')
}
}
}
applyInsertToChanges(op, metadata) {
let change
const opStart = op.p
const opLength = op.i.length
const opEnd = op.p + opLength
const undoing = !!op.u
let alreadyMerged = false
let previousChange = null
const movedChanges = []
const removeChanges = []
const newChanges = []
for (let i = 0; i < this.changes.length; i++) {
change = this.changes[i]
const changeStart = change.op.p
if (change.op.d != null) {
// Shift any deletes after this along by the length of this insert
if (opStart < changeStart) {
change.op.p += opLength
movedChanges.push(change)
} else if (opStart === changeStart) {
// If we are undoing, then we want to cancel any existing delete ranges if we can.
// Check if the insert matches the start of the delete, and just remove it from the delete instead if so.
if (
undoing &&
change.op.d.length >= op.i.length &&
change.op.d.slice(0, op.i.length) === op.i
) {
change.op.d = change.op.d.slice(op.i.length)
change.op.p += op.i.length
if (change.op.d === '') {
removeChanges.push(change)
} else {
movedChanges.push(change)
}
alreadyMerged = true
} else {
change.op.p += opLength
movedChanges.push(change)
}
}
} else if (change.op.i != null) {
let offset
const changeEnd = changeStart + change.op.i.length
const isChangeOverlapping =
opStart >= changeStart && opStart <= changeEnd
// Only merge inserts if they are from the same user
const isSameUser = metadata.user_id === change.metadata.user_id
// If we are undoing, then our changes will be removed from any delete ops just after. In that case, if there is also
// an insert op just before, then we shouldn't append it to this insert, but instead only cancel the following delete.
// E.g.
// foo|<--- about to insert 'b' here
// inserted 'foo' --^ ^-- deleted 'bar'
// should become just 'foo' not 'foob' (with the delete marker becoming just 'ar'), .
const nextChange = this.changes[i + 1]
const isOpAdjacentToNextDelete =
nextChange != null &&
nextChange.op.d != null &&
op.p === changeEnd &&
nextChange.op.p === op.p
const willOpCancelNextDelete =
undoing &&
isOpAdjacentToNextDelete &&
nextChange.op.d.slice(0, op.i.length) === op.i
// If there is a delete at the start of the insert, and we're inserting
// at the start, we SHOULDN'T merge since the delete acts as a partition.
// The previous op will be the delete, but it's already been shifted by this insert
//
// I.e.
// Originally: |-- existing insert --|
// | <- existing delete at same offset
//
// Now: |-- existing insert --| <- not shifted yet
// |-- this insert --|| <- existing delete shifted along to end of this op
//
// After: |-- existing insert --|
// |-- this insert --|| <- existing delete
//
// Without the delete, the inserts would be merged.
const isInsertBlockedByDelete =
previousChange != null &&
previousChange.op.d != null &&
previousChange.op.p === opEnd
// If the insert is overlapping another insert, either at the beginning in the middle or touching the end,
// then we merge them into one.
if (
this.track_changes &&
isChangeOverlapping &&
!isInsertBlockedByDelete &&
!alreadyMerged &&
!willOpCancelNextDelete &&
isSameUser
) {
offset = opStart - changeStart
change.op.i =
change.op.i.slice(0, offset) + op.i + change.op.i.slice(offset)
change.metadata.ts = metadata.ts
alreadyMerged = true
movedChanges.push(change)
} else if (opStart <= changeStart) {
// If we're fully before the other insert we can just shift the other insert by our length.
// If they are touching, and should have been merged, they will have been above.
// If not merged above, then it must be blocked by a delete, and will be after this insert, so we shift it along as well
change.op.p += opLength
movedChanges.push(change)
} else if (
(!isSameUser || !this.track_changes) &&
changeStart < opStart &&
opStart < changeEnd
) {
// This user is inserting inside a change by another user, so we need to split the
// other user's change into one before and after this one.
offset = opStart - changeStart
const beforeContent = change.op.i.slice(0, offset)
const afterContent = change.op.i.slice(offset)
// The existing change can become the 'before' change
change.op.i = beforeContent
movedChanges.push(change)
// Create a new op afterwards
const afterChange = {
op: {
i: afterContent,
p: changeStart + offset + opLength,
},
metadata: {},
}
for (const key in change.metadata) {
const value = change.metadata[key]
afterChange.metadata[key] = value
}
newChanges.push(afterChange)
}
}
previousChange = change
}
if (this.track_changes && !alreadyMerged) {
this._addOp(op, metadata)
}
for ({ op, metadata } of newChanges) {
this._addOp(op, metadata)
}
for (change of removeChanges) {
this._removeChange(change)
}
for (change of movedChanges) {
this._markAsDirty(change, 'change', 'moved')
}
}
applyDeleteToChanges(op, metadata) {
const opStart = op.p
const opLength = op.d.length
const opEnd = op.p + opLength
const removeChanges = []
let movedChanges = []
// We might end up modifying our delete op if it merges with existing deletes, or cancels out
// with an existing insert. Since we might do multiple modifications, we record them and do
// all the modifications after looping through the existing changes, so as not to mess up the
// offset indexes as we go.
const opModifications = []
for (const change of this.changes) {
let changeStart
if (change.op.i != null) {
changeStart = change.op.p
const changeEnd = changeStart + change.op.i.length
if (opEnd <= changeStart) {
// Shift ops after us back by our length
change.op.p -= opLength
movedChanges.push(change)
} else if (opStart >= changeEnd) {
// Delete is after insert, nothing to do
} else {
// When the new delete overlaps an insert, we should remove the part of the insert that
// is now deleted, and also remove the part of the new delete that overlapped. I.e.
// the two cancel out where they overlap.
let deleteRemainingAfter,
deleteRemainingBefore,
insertRemainingAfter,
insertRemainingBefore
if (opStart >= changeStart) {
// |-- existing insert --|
// insertRemainingBefore -> |.....||-- new delete --|
deleteRemainingBefore = ''
insertRemainingBefore = change.op.i.slice(0, opStart - changeStart)
} else {
// deleteRemainingBefore -> |.....||-- existing insert --|
// |-- new delete --|
deleteRemainingBefore = op.d.slice(0, changeStart - opStart)
insertRemainingBefore = ''
}
if (opEnd <= changeEnd) {
// |-- existing insert --|
// |-- new delete --||.....| <- insertRemainingAfter
deleteRemainingAfter = ''
insertRemainingAfter = change.op.i.slice(opEnd - changeStart)
} else {
// |-- existing insert --||.....| <- deleteRemainingAfter
// |-- new delete --|
deleteRemainingAfter = op.d.slice(changeEnd - opStart)
insertRemainingAfter = ''
}
const insertRemaining = insertRemainingBefore + insertRemainingAfter
if (insertRemaining.length > 0) {
change.op.i = insertRemaining
change.op.p = Math.min(changeStart, opStart)
movedChanges.push(change)
} else {
removeChanges.push(change)
}
// We know what we want to preserve of our delete op before (deleteRemainingBefore) and what we want to preserve
// afterwards (deleteRemainingBefore). Now we need to turn that into a modification which deletes the
// chunk in the middle not covered by these.
const deleteRemovedLength =
op.d.length -
deleteRemainingBefore.length -
deleteRemainingAfter.length
const deleteRemovedStart = deleteRemainingBefore.length
const modification = {
d: op.d.slice(
deleteRemovedStart,
deleteRemovedStart + deleteRemovedLength
),
p: deleteRemovedStart,
}
if (modification.d.length > 0) {
opModifications.push(modification)
}
}
} else if (change.op.d != null) {
changeStart = change.op.p
if (
opEnd < changeStart ||
(!this.track_changes && opEnd === changeStart)
) {
// Shift ops after us back by our length.
// If we're tracking changes, it must be strictly before, since we'll merge
// below if they are touching. Otherwise, touching is fine.
change.op.p -= opLength
movedChanges.push(change)
} else if (opStart <= changeStart && changeStart <= opEnd) {
if (this.track_changes) {
// If we overlap a delete, add it in our content, and delete the existing change.
// It's easier to do it this way, rather than modifying the existing delete in case
// we overlap many deletes and we'd need to track that. We have a workaround to
// update the delete in place if possible below.
const offset = changeStart - opStart
opModifications.push({ i: change.op.d, p: offset })
removeChanges.push(change)
} else {
change.op.p = opStart
movedChanges.push(change)
}
}
}
}
// Copy rather than modify because we still need to apply it to comments
op = {
p: op.p,
d: this._applyOpModifications(op.d, opModifications),
}
for (const change of removeChanges) {
// This is a bit of hack to avoid removing one delete and replacing it with another.
// If we don't do this, it causes the UI to flicker
if (
op.d.length > 0 &&
change.op.d != null &&
op.p <= change.op.p &&
change.op.p <= op.p + op.d.length
) {
change.op.p = op.p
change.op.d = op.d
change.metadata = metadata
movedChanges.push(change)
op.d = '' // stop it being added
} else {
this._removeChange(change)
}
}
if (this.track_changes && op.d.length > 0) {
this._addOp(op, metadata)
} else {
// It's possible that we deleted an insert between two other inserts. I.e.
// If we delete 'user_2 insert' in:
// |-- user_1 insert --||-- user_2 insert --||-- user_1 insert --|
// it becomes:
// |-- user_1 insert --||-- user_1 insert --|
// We need to merge these together again
const results = this._scanAndMergeAdjacentUpdates()
movedChanges = movedChanges.concat(results.movedChanges)
for (const change of results.removeChanges) {
this._removeChange(change)
movedChanges = movedChanges.filter(c => c !== change)
}
}
for (const change of movedChanges) {
this._markAsDirty(change, 'change', 'moved')
}
}
_addOp(op, metadata) {
const change = {
id: this.newId(),
op: this._clone(op), // Don't take a reference to the existing op since we'll modify this in place with future changes
metadata: this._clone(metadata),
}
this.changes.push(change)
// Keep ops in order of offset, with deletes before inserts
this.changes.sort(function (c1, c2) {
const result = c1.op.p - c2.op.p
if (result !== 0) {
return result
} else if (c1.op.i != null && c2.op.d != null) {
return 1
} else if (c1.op.d != null && c2.op.i != null) {
return -1
} else {
return 0
}
})
this._markAsDirty(change, 'change', 'added')
}
_removeChange(change) {
this.changes = this.changes.filter(c => c.id !== change.id)
this._markAsDirty(change, 'change', 'removed')
}
_applyOpModifications(content, opModifications) {
// Put in descending position order, with deleting first if at the same offset
// (Inserting first would modify the content that the delete will delete)
opModifications.sort(function (a, b) {
const result = b.p - a.p
if (result !== 0) {
return result
} else if (a.i != null && b.d != null) {
return 1
} else if (a.d != null && b.i != null) {
return -1
} else {
return 0
}
})
for (const modification of opModifications) {
if (modification.i != null) {
content =
content.slice(0, modification.p) +
modification.i +
content.slice(modification.p)
} else if (modification.d != null) {
if (
content.slice(
modification.p,
modification.p + modification.d.length
) !== modification.d
) {
throw new Error(
`deleted content does not match. content: ${JSON.stringify(
content
)}; modification: ${JSON.stringify(modification)}`
)
}
content =
content.slice(0, modification.p) +
content.slice(modification.p + modification.d.length)
}
}
return content
}
_scanAndMergeAdjacentUpdates() {
// This should only need calling when deleting an update between two
// other updates. There's no other way to get two adjacent updates from the
// same user, since they would be merged on insert.
let previousChange = null
const removeChanges = []
const movedChanges = []
for (const change of this.changes) {
if (previousChange?.op.i != null && change.op.i != null) {
const previousChangeEnd =
previousChange.op.p + previousChange.op.i.length
const previousChangeUserId = previousChange.metadata.user_id
const changeStart = change.op.p
const changeUserId = change.metadata.user_id
if (
previousChangeEnd === changeStart &&
previousChangeUserId === changeUserId
) {
removeChanges.push(change)
previousChange.op.i += change.op.i
movedChanges.push(previousChange)
}
} else if (
previousChange?.op.d != null &&
change.op.d != null &&
previousChange?.op.p === change.op.p
) {
// Merge adjacent deletes
previousChange.op.d += change.op.d
removeChanges.push(change)
movedChanges.push(previousChange)
} else {
// Only update to the current change if we haven't removed it.
previousChange = change
}
}
return { movedChanges, removeChanges }
}
resetDirtyState() {
this._dirtyState = {
comment: {
moved: {},
removed: {},
added: {},
},
change: {
moved: {},
removed: {},
added: {},
},
}
}
getDirtyState() {
return this._dirtyState
}
_markAsDirty(object, type, action) {
this._dirtyState[type][action][object.id] = object
}
_clone(object) {
const clone = {}
for (const k in object) {
const v = object[k]
clone[k] = v
}
return clone
}
}
module.exports = RangesTracker