"use strict";
var wp;
(wp ||= {}).sync = (() => {
var __create = Object.create;
var __defProp = Object.defineProperty;
var __getOwnPropDesc = Object.getOwnPropertyDescriptor;
var __getOwnPropNames = Object.getOwnPropertyNames;
var __getProtoOf = Object.getPrototypeOf;
var __hasOwnProp = Object.prototype.hasOwnProperty;
var __commonJS = (cb, mod) => function __require() {
return mod || (0, cb[__getOwnPropNames(cb)[0]])((mod = { exports: {} }).exports, mod), mod.exports;
};
var __export = (target, all2) => {
for (var name in all2)
__defProp(target, name, { get: all2[name], enumerable: true });
};
var __copyProps = (to, from2, except, desc) => {
if (from2 && typeof from2 === "object" || typeof from2 === "function") {
for (let key of __getOwnPropNames(from2))
if (!__hasOwnProp.call(to, key) && key !== except)
__defProp(to, key, { get: () => from2[key], enumerable: !(desc = __getOwnPropDesc(from2, key)) || desc.enumerable });
}
return to;
};
var __toESM = (mod, isNodeMode, target) => (target = mod != null ? __create(__getProtoOf(mod)) : {}, __copyProps(
// If the importer is in node compatibility mode or this is not an ESM
// file that has been converted to a CommonJS file using a Babel-
// compatible transform (i.e. "__esModule" has not been set), then set
// "default" to the CommonJS "module.exports" for node compatibility.
isNodeMode || !mod || !mod.__esModule ? __defProp(target, "default", { value: mod, enumerable: true }) : target,
mod
));
var __toCommonJS = (mod) => __copyProps(__defProp({}, "__esModule", { value: true }), mod);
// package-external:@wordpress/private-apis
var require_private_apis = __commonJS({
"package-external:@wordpress/private-apis"(exports, module) {
module.exports = window.wp.privateApis;
}
});
// package-external:@wordpress/hooks
var require_hooks = __commonJS({
"package-external:@wordpress/hooks"(exports, module) {
module.exports = window.wp.hooks;
}
});
// package-external:@wordpress/api-fetch
var require_api_fetch = __commonJS({
"package-external:@wordpress/api-fetch"(exports, module) {
module.exports = window.wp.apiFetch;
}
});
// node_modules/fast-deep-equal/es6/index.js
var require_es6 = __commonJS({
"node_modules/fast-deep-equal/es6/index.js"(exports, module) {
"use strict";
module.exports = function equal(a, b) {
if (a === b) return true;
if (a && b && typeof a == "object" && typeof b == "object") {
if (a.constructor !== b.constructor) return false;
var length3, i, keys2;
if (Array.isArray(a)) {
length3 = a.length;
if (length3 != b.length) return false;
for (i = length3; i-- !== 0; )
if (!equal(a[i], b[i])) return false;
return true;
}
if (a instanceof Map && b instanceof Map) {
if (a.size !== b.size) return false;
for (i of a.entries())
if (!b.has(i[0])) return false;
for (i of a.entries())
if (!equal(i[1], b.get(i[0]))) return false;
return true;
}
if (a instanceof Set && b instanceof Set) {
if (a.size !== b.size) return false;
for (i of a.entries())
if (!b.has(i[0])) return false;
return true;
}
if (ArrayBuffer.isView(a) && ArrayBuffer.isView(b)) {
length3 = a.length;
if (length3 != b.length) return false;
for (i = length3; i-- !== 0; )
if (a[i] !== b[i]) return false;
return true;
}
if (a.constructor === RegExp) return a.source === b.source && a.flags === b.flags;
if (a.valueOf !== Object.prototype.valueOf) return a.valueOf() === b.valueOf();
if (a.toString !== Object.prototype.toString) return a.toString() === b.toString();
keys2 = Object.keys(a);
length3 = keys2.length;
if (length3 !== Object.keys(b).length) return false;
for (i = length3; i-- !== 0; )
if (!Object.prototype.hasOwnProperty.call(b, keys2[i])) return false;
for (i = length3; i-- !== 0; ) {
var key = keys2[i];
if (!equal(a[key], b[key])) return false;
}
return true;
}
return a !== a && b !== b;
};
}
});
// packages/sync/build-module/index.mjs
var index_exports = {};
__export(index_exports, {
Awareness: () => Awareness,
Y: () => yjs_exports,
YJS_VERSION: () => YJS_VERSION,
privateApis: () => privateApis
});
// node_modules/yjs/dist/yjs.mjs
var yjs_exports = {};
__export(yjs_exports, {
AbsolutePosition: () => AbsolutePosition,
AbstractConnector: () => AbstractConnector,
AbstractStruct: () => AbstractStruct,
AbstractType: () => AbstractType,
Array: () => YArray,
ContentAny: () => ContentAny,
ContentBinary: () => ContentBinary,
ContentDeleted: () => ContentDeleted,
ContentDoc: () => ContentDoc,
ContentEmbed: () => ContentEmbed,
ContentFormat: () => ContentFormat,
ContentJSON: () => ContentJSON,
ContentString: () => ContentString,
ContentType: () => ContentType,
Doc: () => Doc,
GC: () => GC,
ID: () => ID,
Item: () => Item,
Map: () => YMap,
PermanentUserData: () => PermanentUserData,
RelativePosition: () => RelativePosition,
Skip: () => Skip,
Snapshot: () => Snapshot,
Text: () => YText,
Transaction: () => Transaction,
UndoManager: () => UndoManager,
UpdateDecoderV1: () => UpdateDecoderV1,
UpdateDecoderV2: () => UpdateDecoderV2,
UpdateEncoderV1: () => UpdateEncoderV1,
UpdateEncoderV2: () => UpdateEncoderV2,
XmlElement: () => YXmlElement,
XmlFragment: () => YXmlFragment,
XmlHook: () => YXmlHook,
XmlText: () => YXmlText,
YArrayEvent: () => YArrayEvent,
YEvent: () => YEvent,
YMapEvent: () => YMapEvent,
YTextEvent: () => YTextEvent,
YXmlEvent: () => YXmlEvent,
applyUpdate: () => applyUpdate,
applyUpdateV2: () => applyUpdateV2,
cleanupYTextFormatting: () => cleanupYTextFormatting,
compareIDs: () => compareIDs,
compareRelativePositions: () => compareRelativePositions,
convertUpdateFormatV1ToV2: () => convertUpdateFormatV1ToV2,
convertUpdateFormatV2ToV1: () => convertUpdateFormatV2ToV1,
createAbsolutePositionFromRelativePosition: () => createAbsolutePositionFromRelativePosition,
createDeleteSet: () => createDeleteSet,
createDeleteSetFromStructStore: () => createDeleteSetFromStructStore,
createDocFromSnapshot: () => createDocFromSnapshot,
createID: () => createID,
createRelativePositionFromJSON: () => createRelativePositionFromJSON,
createRelativePositionFromTypeIndex: () => createRelativePositionFromTypeIndex,
createSnapshot: () => createSnapshot,
decodeRelativePosition: () => decodeRelativePosition,
decodeSnapshot: () => decodeSnapshot,
decodeSnapshotV2: () => decodeSnapshotV2,
decodeStateVector: () => decodeStateVector,
decodeUpdate: () => decodeUpdate,
decodeUpdateV2: () => decodeUpdateV2,
diffUpdate: () => diffUpdate,
diffUpdateV2: () => diffUpdateV2,
emptySnapshot: () => emptySnapshot,
encodeRelativePosition: () => encodeRelativePosition,
encodeSnapshot: () => encodeSnapshot,
encodeSnapshotV2: () => encodeSnapshotV2,
encodeStateAsUpdate: () => encodeStateAsUpdate,
encodeStateAsUpdateV2: () => encodeStateAsUpdateV2,
encodeStateVector: () => encodeStateVector,
encodeStateVectorFromUpdate: () => encodeStateVectorFromUpdate,
encodeStateVectorFromUpdateV2: () => encodeStateVectorFromUpdateV2,
equalDeleteSets: () => equalDeleteSets,
equalSnapshots: () => equalSnapshots,
findIndexSS: () => findIndexSS,
findRootTypeKey: () => findRootTypeKey,
getItem: () => getItem,
getItemCleanEnd: () => getItemCleanEnd,
getItemCleanStart: () => getItemCleanStart,
getState: () => getState,
getTypeChildren: () => getTypeChildren,
isDeleted: () => isDeleted,
isParentOf: () => isParentOf,
iterateDeletedStructs: () => iterateDeletedStructs,
logType: () => logType,
logUpdate: () => logUpdate,
logUpdateV2: () => logUpdateV2,
mergeDeleteSets: () => mergeDeleteSets,
mergeUpdates: () => mergeUpdates,
mergeUpdatesV2: () => mergeUpdatesV2,
obfuscateUpdate: () => obfuscateUpdate,
obfuscateUpdateV2: () => obfuscateUpdateV2,
parseUpdateMeta: () => parseUpdateMeta,
parseUpdateMetaV2: () => parseUpdateMetaV2,
readUpdate: () => readUpdate,
readUpdateV2: () => readUpdateV2,
relativePositionToJSON: () => relativePositionToJSON,
snapshot: () => snapshot,
snapshotContainsUpdate: () => snapshotContainsUpdate,
transact: () => transact,
tryGc: () => tryGc,
typeListToArraySnapshot: () => typeListToArraySnapshot,
typeMapGetAllSnapshot: () => typeMapGetAllSnapshot,
typeMapGetSnapshot: () => typeMapGetSnapshot
});
// node_modules/lib0/map.js
var create = () => /* @__PURE__ */ new Map();
var copy = (m) => {
const r = create();
m.forEach((v, k) => {
r.set(k, v);
});
return r;
};
var setIfUndefined = (map2, key, createT) => {
let set = map2.get(key);
if (set === void 0) {
map2.set(key, set = createT());
}
return set;
};
var map = (m, f) => {
const res = [];
for (const [key, value] of m) {
res.push(f(value, key));
}
return res;
};
var any = (m, f) => {
for (const [key, value] of m) {
if (f(value, key)) {
return true;
}
}
return false;
};
// node_modules/lib0/set.js
var create2 = () => /* @__PURE__ */ new Set();
// node_modules/lib0/array.js
var last = (arr) => arr[arr.length - 1];
var appendTo = (dest, src) => {
for (let i = 0; i < src.length; i++) {
dest.push(src[i]);
}
};
var from = Array.from;
var some = (arr, f) => {
for (let i = 0; i < arr.length; i++) {
if (f(arr[i], i, arr)) {
return true;
}
}
return false;
};
var unfold = (len, f) => {
const array = new Array(len);
for (let i = 0; i < len; i++) {
array[i] = f(i, array);
}
return array;
};
var isArray = Array.isArray;
// node_modules/lib0/observable.js
var ObservableV2 = class {
constructor() {
this._observers = create();
}
/**
* @template {keyof EVENTS & string} NAME
* @param {NAME} name
* @param {EVENTS[NAME]} f
*/
on(name, f) {
setIfUndefined(
this._observers,
/** @type {string} */
name,
create2
).add(f);
return f;
}
/**
* @template {keyof EVENTS & string} NAME
* @param {NAME} name
* @param {EVENTS[NAME]} f
*/
once(name, f) {
const _f = (...args2) => {
this.off(
name,
/** @type {any} */
_f
);
f(...args2);
};
this.on(
name,
/** @type {any} */
_f
);
}
/**
* @template {keyof EVENTS & string} NAME
* @param {NAME} name
* @param {EVENTS[NAME]} f
*/
off(name, f) {
const observers = this._observers.get(name);
if (observers !== void 0) {
observers.delete(f);
if (observers.size === 0) {
this._observers.delete(name);
}
}
}
/**
* Emit a named event. All registered event listeners that listen to the
* specified name will receive the event.
*
* @todo This should catch exceptions
*
* @template {keyof EVENTS & string} NAME
* @param {NAME} name The event name.
* @param {Parameters<EVENTS[NAME]>} args The arguments that are applied to the event listener.
*/
emit(name, args2) {
return from((this._observers.get(name) || create()).values()).forEach((f) => f(...args2));
}
destroy() {
this._observers = create();
}
};
var Observable = class {
constructor() {
this._observers = create();
}
/**
* @param {N} name
* @param {function} f
*/
on(name, f) {
setIfUndefined(this._observers, name, create2).add(f);
}
/**
* @param {N} name
* @param {function} f
*/
once(name, f) {
const _f = (...args2) => {
this.off(name, _f);
f(...args2);
};
this.on(name, _f);
}
/**
* @param {N} name
* @param {function} f
*/
off(name, f) {
const observers = this._observers.get(name);
if (observers !== void 0) {
observers.delete(f);
if (observers.size === 0) {
this._observers.delete(name);
}
}
}
/**
* Emit a named event. All registered event listeners that listen to the
* specified name will receive the event.
*
* @todo This should catch exceptions
*
* @param {N} name The event name.
* @param {Array<any>} args The arguments that are applied to the event listener.
*/
emit(name, args2) {
return from((this._observers.get(name) || create()).values()).forEach((f) => f(...args2));
}
destroy() {
this._observers = create();
}
};
// node_modules/lib0/math.js
var floor = Math.floor;
var abs = Math.abs;
var min = (a, b) => a < b ? a : b;
var max = (a, b) => a > b ? a : b;
var isNaN2 = Number.isNaN;
var isNegativeZero = (n) => n !== 0 ? n < 0 : 1 / n < 0;
// node_modules/lib0/binary.js
var BIT1 = 1;
var BIT2 = 2;
var BIT3 = 4;
var BIT4 = 8;
var BIT6 = 32;
var BIT7 = 64;
var BIT8 = 128;
var BIT18 = 1 << 17;
var BIT19 = 1 << 18;
var BIT20 = 1 << 19;
var BIT21 = 1 << 20;
var BIT22 = 1 << 21;
var BIT23 = 1 << 22;
var BIT24 = 1 << 23;
var BIT25 = 1 << 24;
var BIT26 = 1 << 25;
var BIT27 = 1 << 26;
var BIT28 = 1 << 27;
var BIT29 = 1 << 28;
var BIT30 = 1 << 29;
var BIT31 = 1 << 30;
var BIT32 = 1 << 31;
var BITS5 = 31;
var BITS6 = 63;
var BITS7 = 127;
var BITS17 = BIT18 - 1;
var BITS18 = BIT19 - 1;
var BITS19 = BIT20 - 1;
var BITS20 = BIT21 - 1;
var BITS21 = BIT22 - 1;
var BITS22 = BIT23 - 1;
var BITS23 = BIT24 - 1;
var BITS24 = BIT25 - 1;
var BITS25 = BIT26 - 1;
var BITS26 = BIT27 - 1;
var BITS27 = BIT28 - 1;
var BITS28 = BIT29 - 1;
var BITS29 = BIT30 - 1;
var BITS30 = BIT31 - 1;
var BITS31 = 2147483647;
// node_modules/lib0/number.js
var MAX_SAFE_INTEGER = Number.MAX_SAFE_INTEGER;
var MIN_SAFE_INTEGER = Number.MIN_SAFE_INTEGER;
var LOWEST_INT32 = 1 << 31;
var isInteger = Number.isInteger || ((num) => typeof num === "number" && isFinite(num) && floor(num) === num);
var isNaN3 = Number.isNaN;
var parseInt2 = Number.parseInt;
// node_modules/lib0/string.js
var fromCharCode = String.fromCharCode;
var fromCodePoint = String.fromCodePoint;
var MAX_UTF16_CHARACTER = fromCharCode(65535);
var toLowerCase = (s) => s.toLowerCase();
var trimLeftRegex = /^\s*/g;
var trimLeft = (s) => s.replace(trimLeftRegex, "");
var fromCamelCaseRegex = /([A-Z])/g;
var fromCamelCase = (s, separator) => trimLeft(s.replace(fromCamelCaseRegex, (match) => `${separator}${toLowerCase(match)}`));
var _encodeUtf8Polyfill = (str) => {
const encodedString = unescape(encodeURIComponent(str));
const len = encodedString.length;
const buf = new Uint8Array(len);
for (let i = 0; i < len; i++) {
buf[i] = /** @type {number} */
encodedString.codePointAt(i);
}
return buf;
};
var utf8TextEncoder = (
/** @type {TextEncoder} */
typeof TextEncoder !== "undefined" ? new TextEncoder() : null
);
var _encodeUtf8Native = (str) => utf8TextEncoder.encode(str);
var encodeUtf8 = utf8TextEncoder ? _encodeUtf8Native : _encodeUtf8Polyfill;
var utf8TextDecoder = typeof TextDecoder === "undefined" ? null : new TextDecoder("utf-8", { fatal: true, ignoreBOM: true });
if (utf8TextDecoder && utf8TextDecoder.decode(new Uint8Array()).length === 1) {
utf8TextDecoder = null;
}
var repeat = (source, n) => unfold(n, () => source).join("");
// node_modules/lib0/encoding.js
var Encoder = class {
constructor() {
this.cpos = 0;
this.cbuf = new Uint8Array(100);
this.bufs = [];
}
};
var createEncoder = () => new Encoder();
var length = (encoder) => {
let len = encoder.cpos;
for (let i = 0; i < encoder.bufs.length; i++) {
len += encoder.bufs[i].length;
}
return len;
};
var toUint8Array = (encoder) => {
const uint8arr = new Uint8Array(length(encoder));
let curPos = 0;
for (let i = 0; i < encoder.bufs.length; i++) {
const d = encoder.bufs[i];
uint8arr.set(d, curPos);
curPos += d.length;
}
uint8arr.set(new Uint8Array(encoder.cbuf.buffer, 0, encoder.cpos), curPos);
return uint8arr;
};
var verifyLen = (encoder, len) => {
const bufferLen = encoder.cbuf.length;
if (bufferLen - encoder.cpos < len) {
encoder.bufs.push(new Uint8Array(encoder.cbuf.buffer, 0, encoder.cpos));
encoder.cbuf = new Uint8Array(max(bufferLen, len) * 2);
encoder.cpos = 0;
}
};
var write = (encoder, num) => {
const bufferLen = encoder.cbuf.length;
if (encoder.cpos === bufferLen) {
encoder.bufs.push(encoder.cbuf);
encoder.cbuf = new Uint8Array(bufferLen * 2);
encoder.cpos = 0;
}
encoder.cbuf[encoder.cpos++] = num;
};
var writeUint8 = write;
var writeVarUint = (encoder, num) => {
while (num > BITS7) {
write(encoder, BIT8 | BITS7 & num);
num = floor(num / 128);
}
write(encoder, BITS7 & num);
};
var writeVarInt = (encoder, num) => {
const isNegative = isNegativeZero(num);
if (isNegative) {
num = -num;
}
write(encoder, (num > BITS6 ? BIT8 : 0) | (isNegative ? BIT7 : 0) | BITS6 & num);
num = floor(num / 64);
while (num > 0) {
write(encoder, (num > BITS7 ? BIT8 : 0) | BITS7 & num);
num = floor(num / 128);
}
};
var _strBuffer = new Uint8Array(3e4);
var _maxStrBSize = _strBuffer.length / 3;
var _writeVarStringNative = (encoder, str) => {
if (str.length < _maxStrBSize) {
const written = utf8TextEncoder.encodeInto(str, _strBuffer).written || 0;
writeVarUint(encoder, written);
for (let i = 0; i < written; i++) {
write(encoder, _strBuffer[i]);
}
} else {
writeVarUint8Array(encoder, encodeUtf8(str));
}
};
var _writeVarStringPolyfill = (encoder, str) => {
const encodedString = unescape(encodeURIComponent(str));
const len = encodedString.length;
writeVarUint(encoder, len);
for (let i = 0; i < len; i++) {
write(
encoder,
/** @type {number} */
encodedString.codePointAt(i)
);
}
};
var writeVarString = utf8TextEncoder && /** @type {any} */
utf8TextEncoder.encodeInto ? _writeVarStringNative : _writeVarStringPolyfill;
var writeBinaryEncoder = (encoder, append2) => writeUint8Array(encoder, toUint8Array(append2));
var writeUint8Array = (encoder, uint8Array) => {
const bufferLen = encoder.cbuf.length;
const cpos = encoder.cpos;
const leftCopyLen = min(bufferLen - cpos, uint8Array.length);
const rightCopyLen = uint8Array.length - leftCopyLen;
encoder.cbuf.set(uint8Array.subarray(0, leftCopyLen), cpos);
encoder.cpos += leftCopyLen;
if (rightCopyLen > 0) {
encoder.bufs.push(encoder.cbuf);
encoder.cbuf = new Uint8Array(max(bufferLen * 2, rightCopyLen));
encoder.cbuf.set(uint8Array.subarray(leftCopyLen));
encoder.cpos = rightCopyLen;
}
};
var writeVarUint8Array = (encoder, uint8Array) => {
writeVarUint(encoder, uint8Array.byteLength);
writeUint8Array(encoder, uint8Array);
};
var writeOnDataView = (encoder, len) => {
verifyLen(encoder, len);
const dview = new DataView(encoder.cbuf.buffer, encoder.cpos, len);
encoder.cpos += len;
return dview;
};
var writeFloat32 = (encoder, num) => writeOnDataView(encoder, 4).setFloat32(0, num, false);
var writeFloat64 = (encoder, num) => writeOnDataView(encoder, 8).setFloat64(0, num, false);
var writeBigInt64 = (encoder, num) => (
/** @type {any} */
writeOnDataView(encoder, 8).setBigInt64(0, num, false)
);
var floatTestBed = new DataView(new ArrayBuffer(4));
var isFloat32 = (num) => {
floatTestBed.setFloat32(0, num);
return floatTestBed.getFloat32(0) === num;
};
var writeAny = (encoder, data) => {
switch (typeof data) {
case "string":
write(encoder, 119);
writeVarString(encoder, data);
break;
case "number":
if (isInteger(data) && abs(data) <= BITS31) {
write(encoder, 125);
writeVarInt(encoder, data);
} else if (isFloat32(data)) {
write(encoder, 124);
writeFloat32(encoder, data);
} else {
write(encoder, 123);
writeFloat64(encoder, data);
}
break;
case "bigint":
write(encoder, 122);
writeBigInt64(encoder, data);
break;
case "object":
if (data === null) {
write(encoder, 126);
} else if (isArray(data)) {
write(encoder, 117);
writeVarUint(encoder, data.length);
for (let i = 0; i < data.length; i++) {
writeAny(encoder, data[i]);
}
} else if (data instanceof Uint8Array) {
write(encoder, 116);
writeVarUint8Array(encoder, data);
} else {
write(encoder, 118);
const keys2 = Object.keys(data);
writeVarUint(encoder, keys2.length);
for (let i = 0; i < keys2.length; i++) {
const key = keys2[i];
writeVarString(encoder, key);
writeAny(encoder, data[key]);
}
}
break;
case "boolean":
write(encoder, data ? 120 : 121);
break;
default:
write(encoder, 127);
}
};
var RleEncoder = class extends Encoder {
/**
* @param {function(Encoder, T):void} writer
*/
constructor(writer) {
super();
this.w = writer;
this.s = null;
this.count = 0;
}
/**
* @param {T} v
*/
write(v) {
if (this.s === v) {
this.count++;
} else {
if (this.count > 0) {
writeVarUint(this, this.count - 1);
}
this.count = 1;
this.w(this, v);
this.s = v;
}
}
};
var flushUintOptRleEncoder = (encoder) => {
if (encoder.count > 0) {
writeVarInt(encoder.encoder, encoder.count === 1 ? encoder.s : -encoder.s);
if (encoder.count > 1) {
writeVarUint(encoder.encoder, encoder.count - 2);
}
}
};
var UintOptRleEncoder = class {
constructor() {
this.encoder = new Encoder();
this.s = 0;
this.count = 0;
}
/**
* @param {number} v
*/
write(v) {
if (this.s === v) {
this.count++;
} else {
flushUintOptRleEncoder(this);
this.count = 1;
this.s = v;
}
}
/**
* Flush the encoded state and transform this to a Uint8Array.
*
* Note that this should only be called once.
*/
toUint8Array() {
flushUintOptRleEncoder(this);
return toUint8Array(this.encoder);
}
};
var flushIntDiffOptRleEncoder = (encoder) => {
if (encoder.count > 0) {
const encodedDiff = encoder.diff * 2 + (encoder.count === 1 ? 0 : 1);
writeVarInt(encoder.encoder, encodedDiff);
if (encoder.count > 1) {
writeVarUint(encoder.encoder, encoder.count - 2);
}
}
};
var IntDiffOptRleEncoder = class {
constructor() {
this.encoder = new Encoder();
this.s = 0;
this.count = 0;
this.diff = 0;
}
/**
* @param {number} v
*/
write(v) {
if (this.diff === v - this.s) {
this.s = v;
this.count++;
} else {
flushIntDiffOptRleEncoder(this);
this.count = 1;
this.diff = v - this.s;
this.s = v;
}
}
/**
* Flush the encoded state and transform this to a Uint8Array.
*
* Note that this should only be called once.
*/
toUint8Array() {
flushIntDiffOptRleEncoder(this);
return toUint8Array(this.encoder);
}
};
var StringEncoder = class {
constructor() {
this.sarr = [];
this.s = "";
this.lensE = new UintOptRleEncoder();
}
/**
* @param {string} string
*/
write(string) {
this.s += string;
if (this.s.length > 19) {
this.sarr.push(this.s);
this.s = "";
}
this.lensE.write(string.length);
}
toUint8Array() {
const encoder = new Encoder();
this.sarr.push(this.s);
this.s = "";
writeVarString(encoder, this.sarr.join(""));
writeUint8Array(encoder, this.lensE.toUint8Array());
return toUint8Array(encoder);
}
};
// node_modules/lib0/error.js
var create3 = (s) => new Error(s);
var methodUnimplemented = () => {
throw create3("Method unimplemented");
};
var unexpectedCase = () => {
throw create3("Unexpected case");
};
// node_modules/lib0/decoding.js
var errorUnexpectedEndOfArray = create3("Unexpected end of array");
var errorIntegerOutOfRange = create3("Integer out of Range");
var Decoder = class {
/**
* @param {Uint8Array} uint8Array Binary data to decode
*/
constructor(uint8Array) {
this.arr = uint8Array;
this.pos = 0;
}
};
var createDecoder = (uint8Array) => new Decoder(uint8Array);
var hasContent = (decoder) => decoder.pos !== decoder.arr.length;
var readUint8Array = (decoder, len) => {
const view = new Uint8Array(decoder.arr.buffer, decoder.pos + decoder.arr.byteOffset, len);
decoder.pos += len;
return view;
};
var readVarUint8Array = (decoder) => readUint8Array(decoder, readVarUint(decoder));
var readUint8 = (decoder) => decoder.arr[decoder.pos++];
var readVarUint = (decoder) => {
let num = 0;
let mult = 1;
const len = decoder.arr.length;
while (decoder.pos < len) {
const r = decoder.arr[decoder.pos++];
num = num + (r & BITS7) * mult;
mult *= 128;
if (r < BIT8) {
return num;
}
if (num > MAX_SAFE_INTEGER) {
throw errorIntegerOutOfRange;
}
}
throw errorUnexpectedEndOfArray;
};
var readVarInt = (decoder) => {
let r = decoder.arr[decoder.pos++];
let num = r & BITS6;
let mult = 64;
const sign = (r & BIT7) > 0 ? -1 : 1;
if ((r & BIT8) === 0) {
return sign * num;
}
const len = decoder.arr.length;
while (decoder.pos < len) {
r = decoder.arr[decoder.pos++];
num = num + (r & BITS7) * mult;
mult *= 128;
if (r < BIT8) {
return sign * num;
}
if (num > MAX_SAFE_INTEGER) {
throw errorIntegerOutOfRange;
}
}
throw errorUnexpectedEndOfArray;
};
var _readVarStringPolyfill = (decoder) => {
let remainingLen = readVarUint(decoder);
if (remainingLen === 0) {
return "";
} else {
let encodedString = String.fromCodePoint(readUint8(decoder));
if (--remainingLen < 100) {
while (remainingLen--) {
encodedString += String.fromCodePoint(readUint8(decoder));
}
} else {
while (remainingLen > 0) {
const nextLen = remainingLen < 1e4 ? remainingLen : 1e4;
const bytes = decoder.arr.subarray(decoder.pos, decoder.pos + nextLen);
decoder.pos += nextLen;
encodedString += String.fromCodePoint.apply(
null,
/** @type {any} */
bytes
);
remainingLen -= nextLen;
}
}
return decodeURIComponent(escape(encodedString));
}
};
var _readVarStringNative = (decoder) => (
/** @type any */
utf8TextDecoder.decode(readVarUint8Array(decoder))
);
var readVarString = utf8TextDecoder ? _readVarStringNative : _readVarStringPolyfill;
var readFromDataView = (decoder, len) => {
const dv = new DataView(decoder.arr.buffer, decoder.arr.byteOffset + decoder.pos, len);
decoder.pos += len;
return dv;
};
var readFloat32 = (decoder) => readFromDataView(decoder, 4).getFloat32(0, false);
var readFloat64 = (decoder) => readFromDataView(decoder, 8).getFloat64(0, false);
var readBigInt64 = (decoder) => (
/** @type {any} */
readFromDataView(decoder, 8).getBigInt64(0, false)
);
var readAnyLookupTable = [
(decoder) => void 0,
// CASE 127: undefined
(decoder) => null,
// CASE 126: null
readVarInt,
// CASE 125: integer
readFloat32,
// CASE 124: float32
readFloat64,
// CASE 123: float64
readBigInt64,
// CASE 122: bigint
(decoder) => false,
// CASE 121: boolean (false)
(decoder) => true,
// CASE 120: boolean (true)
readVarString,
// CASE 119: string
(decoder) => {
const len = readVarUint(decoder);
const obj = {};
for (let i = 0; i < len; i++) {
const key = readVarString(decoder);
obj[key] = readAny(decoder);
}
return obj;
},
(decoder) => {
const len = readVarUint(decoder);
const arr = [];
for (let i = 0; i < len; i++) {
arr.push(readAny(decoder));
}
return arr;
},
readVarUint8Array
// CASE 116: Uint8Array
];
var readAny = (decoder) => readAnyLookupTable[127 - readUint8(decoder)](decoder);
var RleDecoder = class extends Decoder {
/**
* @param {Uint8Array} uint8Array
* @param {function(Decoder):T} reader
*/
constructor(uint8Array, reader) {
super(uint8Array);
this.reader = reader;
this.s = null;
this.count = 0;
}
read() {
if (this.count === 0) {
this.s = this.reader(this);
if (hasContent(this)) {
this.count = readVarUint(this) + 1;
} else {
this.count = -1;
}
}
this.count--;
return (
/** @type {T} */
this.s
);
}
};
var UintOptRleDecoder = class extends Decoder {
/**
* @param {Uint8Array} uint8Array
*/
constructor(uint8Array) {
super(uint8Array);
this.s = 0;
this.count = 0;
}
read() {
if (this.count === 0) {
this.s = readVarInt(this);
const isNegative = isNegativeZero(this.s);
this.count = 1;
if (isNegative) {
this.s = -this.s;
this.count = readVarUint(this) + 2;
}
}
this.count--;
return (
/** @type {number} */
this.s
);
}
};
var IntDiffOptRleDecoder = class extends Decoder {
/**
* @param {Uint8Array} uint8Array
*/
constructor(uint8Array) {
super(uint8Array);
this.s = 0;
this.count = 0;
this.diff = 0;
}
/**
* @return {number}
*/
read() {
if (this.count === 0) {
const diff = readVarInt(this);
const hasCount = diff & 1;
this.diff = floor(diff / 2);
this.count = 1;
if (hasCount) {
this.count = readVarUint(this) + 2;
}
}
this.s += this.diff;
this.count--;
return this.s;
}
};
var StringDecoder = class {
/**
* @param {Uint8Array} uint8Array
*/
constructor(uint8Array) {
this.decoder = new UintOptRleDecoder(uint8Array);
this.str = readVarString(this.decoder);
this.spos = 0;
}
/**
* @return {string}
*/
read() {
const end = this.spos + this.decoder.read();
const res = this.str.slice(this.spos, end);
this.spos = end;
return res;
}
};
// node_modules/lib0/webcrypto.js
var subtle = crypto.subtle;
var getRandomValues = crypto.getRandomValues.bind(crypto);
// node_modules/lib0/random.js
var uint32 = () => getRandomValues(new Uint32Array(1))[0];
var uuidv4Template = "10000000-1000-4000-8000" + -1e11;
var uuidv4 = () => uuidv4Template.replace(
/[018]/g,
/** @param {number} c */
(c) => (c ^ uint32() & 15 >> c / 4).toString(16)
);
// node_modules/lib0/time.js
var getUnixTime = Date.now;
// node_modules/lib0/promise.js
var create4 = (f) => (
/** @type {Promise<T>} */
new Promise(f)
);
var all = Promise.all.bind(Promise);
// node_modules/lib0/conditions.js
var undefinedToNull = (v) => v === void 0 ? null : v;
// node_modules/lib0/storage.js
var VarStoragePolyfill = class {
constructor() {
this.map = /* @__PURE__ */ new Map();
}
/**
* @param {string} key
* @param {any} newValue
*/
setItem(key, newValue) {
this.map.set(key, newValue);
}
/**
* @param {string} key
*/
getItem(key) {
return this.map.get(key);
}
};
var _localStorage = new VarStoragePolyfill();
var usePolyfill = true;
try {
if (typeof localStorage !== "undefined" && localStorage) {
_localStorage = localStorage;
usePolyfill = false;
}
} catch (e) {
}
var varStorage = _localStorage;
// node_modules/lib0/object.js
var assign = Object.assign;
var keys = Object.keys;
var forEach = (obj, f) => {
for (const key in obj) {
f(obj[key], key);
}
};
var length2 = (obj) => keys(obj).length;
var size = (obj) => keys(obj).length;
var isEmpty = (obj) => {
for (const _k in obj) {
return false;
}
return true;
};
var every = (obj, f) => {
for (const key in obj) {
if (!f(obj[key], key)) {
return false;
}
}
return true;
};
var hasProperty = (obj, key) => Object.prototype.hasOwnProperty.call(obj, key);
var equalFlat = (a, b) => a === b || size(a) === size(b) && every(a, (val, key) => (val !== void 0 || hasProperty(b, key)) && b[key] === val);
var freeze = Object.freeze;
var deepFreeze = (o) => {
for (const key in o) {
const c = o[key];
if (typeof c === "object" || typeof c === "function") {
deepFreeze(o[key]);
}
}
return freeze(o);
};
// node_modules/lib0/function.js
var callAll = (fs, args2, i = 0) => {
try {
for (; i < fs.length; i++) {
fs[i](...args2);
}
} finally {
if (i < fs.length) {
callAll(fs, args2, i + 1);
}
}
};
var id = (a) => a;
var equalityStrict = (a, b) => a === b;
var equalityDeep = (a, b) => {
if (a == null || b == null) {
return equalityStrict(a, b);
}
if (a.constructor !== b.constructor) {
return false;
}
if (a === b) {
return true;
}
switch (a.constructor) {
case ArrayBuffer:
a = new Uint8Array(a);
b = new Uint8Array(b);
// eslint-disable-next-line no-fallthrough
case Uint8Array: {
if (a.byteLength !== b.byteLength) {
return false;
}
for (let i = 0; i < a.length; i++) {
if (a[i] !== b[i]) {
return false;
}
}
break;
}
case Set: {
if (a.size !== b.size) {
return false;
}
for (const value of a) {
if (!b.has(value)) {
return false;
}
}
break;
}
case Map: {
if (a.size !== b.size) {
return false;
}
for (const key of a.keys()) {
if (!b.has(key) || !equalityDeep(a.get(key), b.get(key))) {
return false;
}
}
break;
}
case Object:
if (length2(a) !== length2(b)) {
return false;
}
for (const key in a) {
if (!hasProperty(a, key) || !equalityDeep(a[key], b[key])) {
return false;
}
}
break;
case Array:
if (a.length !== b.length) {
return false;
}
for (let i = 0; i < a.length; i++) {
if (!equalityDeep(a[i], b[i])) {
return false;
}
}
break;
default:
return false;
}
return true;
};
var isOneOf = (value, options) => options.includes(value);
// node_modules/lib0/environment.js
var isNode = typeof process !== "undefined" && process.release && /node|io\.js/.test(process.release.name) && Object.prototype.toString.call(typeof process !== "undefined" ? process : 0) === "[object process]";
var isBrowser = typeof window !== "undefined" && typeof document !== "undefined" && !isNode;
var isMac = typeof navigator !== "undefined" ? /Mac/.test(navigator.platform) : false;
var params;
var args = [];
var computeParams = () => {
if (params === void 0) {
if (isNode) {
params = create();
const pargs = process.argv;
let currParamName = null;
for (let i = 0; i < pargs.length; i++) {
const parg = pargs[i];
if (parg[0] === "-") {
if (currParamName !== null) {
params.set(currParamName, "");
}
currParamName = parg;
} else {
if (currParamName !== null) {
params.set(currParamName, parg);
currParamName = null;
} else {
args.push(parg);
}
}
}
if (currParamName !== null) {
params.set(currParamName, "");
}
} else if (typeof location === "object") {
params = create();
(location.search || "?").slice(1).split("&").forEach((kv) => {
if (kv.length !== 0) {
const [key, value] = kv.split("=");
params.set(`--${fromCamelCase(key, "-")}`, value);
params.set(`-${fromCamelCase(key, "-")}`, value);
}
});
} else {
params = create();
}
}
return params;
};
var hasParam = (name) => computeParams().has(name);
var getVariable = (name) => isNode ? undefinedToNull(process.env[name.toUpperCase().replaceAll("-", "_")]) : undefinedToNull(varStorage.getItem(name));
var hasConf = (name) => hasParam("--" + name) || getVariable(name) !== null;
var production = hasConf("production");
var forceColor = isNode && isOneOf(process.env.FORCE_COLOR, ["true", "1", "2"]);
var supportsColor = forceColor || !hasParam("--no-colors") && // @todo deprecate --no-colors
!hasConf("no-color") && (!isNode || process.stdout.isTTY) && (!isNode || hasParam("--color") || getVariable("COLORTERM") !== null || (getVariable("TERM") || "").includes("color"));
// node_modules/lib0/buffer.js
var createUint8ArrayFromLen = (len) => new Uint8Array(len);
var createUint8ArrayViewFromArrayBuffer = (buffer, byteOffset, length3) => new Uint8Array(buffer, byteOffset, length3);
var toBase64Browser = (bytes) => {
let s = "";
for (let i = 0; i < bytes.byteLength; i++) {
s += fromCharCode(bytes[i]);
}
return btoa(s);
};
var toBase64Node = (bytes) => Buffer.from(bytes.buffer, bytes.byteOffset, bytes.byteLength).toString("base64");
var fromBase64Browser = (s) => {
const a = atob(s);
const bytes = createUint8ArrayFromLen(a.length);
for (let i = 0; i < a.length; i++) {
bytes[i] = a.charCodeAt(i);
}
return bytes;
};
var fromBase64Node = (s) => {
const buf = Buffer.from(s, "base64");
return createUint8ArrayViewFromArrayBuffer(buf.buffer, buf.byteOffset, buf.byteLength);
};
var toBase64 = isBrowser ? toBase64Browser : toBase64Node;
var fromBase64 = isBrowser ? fromBase64Browser : fromBase64Node;
var copyUint8Array = (uint8Array) => {
const newBuf = createUint8ArrayFromLen(uint8Array.byteLength);
newBuf.set(uint8Array);
return newBuf;
};
// node_modules/lib0/pair.js
var Pair = class {
/**
* @param {L} left
* @param {R} right
*/
constructor(left, right) {
this.left = left;
this.right = right;
}
};
var create5 = (left, right) => new Pair(left, right);
// node_modules/lib0/dom.js
var doc = (
/** @type {Document} */
typeof document !== "undefined" ? document : {}
);
var domParser = (
/** @type {DOMParser} */
typeof DOMParser !== "undefined" ? new DOMParser() : null
);
var mapToStyleString = (m) => map(m, (value, key) => `${key}:${value};`).join("");
var ELEMENT_NODE = doc.ELEMENT_NODE;
var TEXT_NODE = doc.TEXT_NODE;
var CDATA_SECTION_NODE = doc.CDATA_SECTION_NODE;
var COMMENT_NODE = doc.COMMENT_NODE;
var DOCUMENT_NODE = doc.DOCUMENT_NODE;
var DOCUMENT_TYPE_NODE = doc.DOCUMENT_TYPE_NODE;
var DOCUMENT_FRAGMENT_NODE = doc.DOCUMENT_FRAGMENT_NODE;
// node_modules/lib0/symbol.js
var create6 = Symbol;
// node_modules/lib0/logging.common.js
var BOLD = create6();
var UNBOLD = create6();
var BLUE = create6();
var GREY = create6();
var GREEN = create6();
var RED = create6();
var PURPLE = create6();
var ORANGE = create6();
var UNCOLOR = create6();
var computeNoColorLoggingArgs = (args2) => {
if (args2.length === 1 && args2[0]?.constructor === Function) {
args2 = /** @type {Array<string|Symbol|Object|number>} */
/** @type {[function]} */
args2[0]();
}
const strBuilder = [];
const logArgs = [];
let i = 0;
for (; i < args2.length; i++) {
const arg = args2[i];
if (arg === void 0) {
break;
} else if (arg.constructor === String || arg.constructor === Number) {
strBuilder.push(arg);
} else if (arg.constructor === Object) {
break;
}
}
if (i > 0) {
logArgs.push(strBuilder.join(""));
}
for (; i < args2.length; i++) {
const arg = args2[i];
if (!(arg instanceof Symbol)) {
logArgs.push(arg);
}
}
return logArgs;
};
var lastLoggingTime = getUnixTime();
// node_modules/lib0/logging.js
var _browserStyleMap = {
[BOLD]: create5("font-weight", "bold"),
[UNBOLD]: create5("font-weight", "normal"),
[BLUE]: create5("color", "blue"),
[GREEN]: create5("color", "green"),
[GREY]: create5("color", "grey"),
[RED]: create5("color", "red"),
[PURPLE]: create5("color", "purple"),
[ORANGE]: create5("color", "orange"),
// not well supported in chrome when debugging node with inspector - TODO: deprecate
[UNCOLOR]: create5("color", "black")
};
var computeBrowserLoggingArgs = (args2) => {
if (args2.length === 1 && args2[0]?.constructor === Function) {
args2 = /** @type {Array<string|Symbol|Object|number>} */
/** @type {[function]} */
args2[0]();
}
const strBuilder = [];
const styles = [];
const currentStyle = create();
let logArgs = [];
let i = 0;
for (; i < args2.length; i++) {
const arg = args2[i];
const style = _browserStyleMap[arg];
if (style !== void 0) {
currentStyle.set(style.left, style.right);
} else {
if (arg === void 0) {
break;
}
if (arg.constructor === String || arg.constructor === Number) {
const style2 = mapToStyleString(currentStyle);
if (i > 0 || style2.length > 0) {
strBuilder.push("%c" + arg);
styles.push(style2);
} else {
strBuilder.push(arg);
}
} else {
break;
}
}
}
if (i > 0) {
logArgs = styles;
logArgs.unshift(strBuilder.join(""));
}
for (; i < args2.length; i++) {
const arg = args2[i];
if (!(arg instanceof Symbol)) {
logArgs.push(arg);
}
}
return logArgs;
};
var computeLoggingArgs = supportsColor ? computeBrowserLoggingArgs : computeNoColorLoggingArgs;
var print = (...args2) => {
console.log(...computeLoggingArgs(args2));
vconsoles.forEach((vc) => vc.print(args2));
};
var warn = (...args2) => {
console.warn(...computeLoggingArgs(args2));
args2.unshift(ORANGE);
vconsoles.forEach((vc) => vc.print(args2));
};
var vconsoles = create2();
// node_modules/lib0/iterator.js
var createIterator = (next) => ({
/**
* @return {IterableIterator<T>}
*/
[Symbol.iterator]() {
return this;
},
// @ts-ignore
next
});
var iteratorFilter = (iterator, filter) => createIterator(() => {
let res;
do {
res = iterator.next();
} while (!res.done && !filter(res.value));
return res;
});
var iteratorMap = (iterator, fmap) => createIterator(() => {
const { done, value } = iterator.next();
return { done, value: done ? void 0 : fmap(value) };
});
// node_modules/yjs/dist/yjs.mjs
var AbstractConnector = class extends ObservableV2 {
/**
* @param {Doc} ydoc
* @param {any} awareness
*/
constructor(ydoc, awareness) {
super();
this.doc = ydoc;
this.awareness = awareness;
}
};
var DeleteItem = class {
/**
* @param {number} clock
* @param {number} len
*/
constructor(clock, len) {
this.clock = clock;
this.len = len;
}
};
var DeleteSet = class {
constructor() {
this.clients = /* @__PURE__ */ new Map();
}
};
var iterateDeletedStructs = (transaction, ds, f) => ds.clients.forEach((deletes, clientid) => {
const structs = (
/** @type {Array<GC|Item>} */
transaction.doc.store.clients.get(clientid)
);
if (structs != null) {
const lastStruct = structs[structs.length - 1];
const clockState = lastStruct.id.clock + lastStruct.length;
for (let i = 0, del = deletes[i]; i < deletes.length && del.clock < clockState; del = deletes[++i]) {
iterateStructs(transaction, structs, del.clock, del.len, f);
}
}
});
var findIndexDS = (dis, clock) => {
let left = 0;
let right = dis.length - 1;
while (left <= right) {
const midindex = floor((left + right) / 2);
const mid = dis[midindex];
const midclock = mid.clock;
if (midclock <= clock) {
if (clock < midclock + mid.len) {
return midindex;
}
left = midindex + 1;
} else {
right = midindex - 1;
}
}
return null;
};
var isDeleted = (ds, id2) => {
const dis = ds.clients.get(id2.client);
return dis !== void 0 && findIndexDS(dis, id2.clock) !== null;
};
var sortAndMergeDeleteSet = (ds) => {
ds.clients.forEach((dels) => {
dels.sort((a, b) => a.clock - b.clock);
let i, j;
for (i = 1, j = 1; i < dels.length; i++) {
const left = dels[j - 1];
const right = dels[i];
if (left.clock + left.len >= right.clock) {
left.len = max(left.len, right.clock + right.len - left.clock);
} else {
if (j < i) {
dels[j] = right;
}
j++;
}
}
dels.length = j;
});
};
var mergeDeleteSets = (dss) => {
const merged = new DeleteSet();
for (let dssI = 0; dssI < dss.length; dssI++) {
dss[dssI].clients.forEach((delsLeft, client) => {
if (!merged.clients.has(client)) {
const dels = delsLeft.slice();
for (let i = dssI + 1; i < dss.length; i++) {
appendTo(dels, dss[i].clients.get(client) || []);
}
merged.clients.set(client, dels);
}
});
}
sortAndMergeDeleteSet(merged);
return merged;
};
var addToDeleteSet = (ds, client, clock, length3) => {
setIfUndefined(ds.clients, client, () => (
/** @type {Array<DeleteItem>} */
[]
)).push(new DeleteItem(clock, length3));
};
var createDeleteSet = () => new DeleteSet();
var createDeleteSetFromStructStore = (ss) => {
const ds = createDeleteSet();
ss.clients.forEach((structs, client) => {
const dsitems = [];
for (let i = 0; i < structs.length; i++) {
const struct = structs[i];
if (struct.deleted) {
const clock = struct.id.clock;
let len = struct.length;
if (i + 1 < structs.length) {
for (let next = structs[i + 1]; i + 1 < structs.length && next.deleted; next = structs[++i + 1]) {
len += next.length;
}
}
dsitems.push(new DeleteItem(clock, len));
}
}
if (dsitems.length > 0) {
ds.clients.set(client, dsitems);
}
});
return ds;
};
var writeDeleteSet = (encoder, ds) => {
writeVarUint(encoder.restEncoder, ds.clients.size);
from(ds.clients.entries()).sort((a, b) => b[0] - a[0]).forEach(([client, dsitems]) => {
encoder.resetDsCurVal();
writeVarUint(encoder.restEncoder, client);
const len = dsitems.length;
writeVarUint(encoder.restEncoder, len);
for (let i = 0; i < len; i++) {
const item = dsitems[i];
encoder.writeDsClock(item.clock);
encoder.writeDsLen(item.len);
}
});
};
var readDeleteSet = (decoder) => {
const ds = new DeleteSet();
const numClients = readVarUint(decoder.restDecoder);
for (let i = 0; i < numClients; i++) {
decoder.resetDsCurVal();
const client = readVarUint(decoder.restDecoder);
const numberOfDeletes = readVarUint(decoder.restDecoder);
if (numberOfDeletes > 0) {
const dsField = setIfUndefined(ds.clients, client, () => (
/** @type {Array<DeleteItem>} */
[]
));
for (let i2 = 0; i2 < numberOfDeletes; i2++) {
dsField.push(new DeleteItem(decoder.readDsClock(), decoder.readDsLen()));
}
}
}
return ds;
};
var readAndApplyDeleteSet = (decoder, transaction, store) => {
const unappliedDS = new DeleteSet();
const numClients = readVarUint(decoder.restDecoder);
for (let i = 0; i < numClients; i++) {
decoder.resetDsCurVal();
const client = readVarUint(decoder.restDecoder);
const numberOfDeletes = readVarUint(decoder.restDecoder);
const structs = store.clients.get(client) || [];
const state = getState(store, client);
for (let i2 = 0; i2 < numberOfDeletes; i2++) {
const clock = decoder.readDsClock();
const clockEnd = clock + decoder.readDsLen();
if (clock < state) {
if (state < clockEnd) {
addToDeleteSet(unappliedDS, client, state, clockEnd - state);
}
let index = findIndexSS(structs, clock);
let struct = structs[index];
if (!struct.deleted && struct.id.clock < clock) {
structs.splice(index + 1, 0, splitItem(transaction, struct, clock - struct.id.clock));
index++;
}
while (index < structs.length) {
struct = structs[index++];
if (struct.id.clock < clockEnd) {
if (!struct.deleted) {
if (clockEnd < struct.id.clock + struct.length) {
structs.splice(index, 0, splitItem(transaction, struct, clockEnd - struct.id.clock));
}
struct.delete(transaction);
}
} else {
break;
}
}
} else {
addToDeleteSet(unappliedDS, client, clock, clockEnd - clock);
}
}
}
if (unappliedDS.clients.size > 0) {
const ds = new UpdateEncoderV2();
writeVarUint(ds.restEncoder, 0);
writeDeleteSet(ds, unappliedDS);
return ds.toUint8Array();
}
return null;
};
var equalDeleteSets = (ds1, ds2) => {
if (ds1.clients.size !== ds2.clients.size) return false;
for (const [client, deleteItems1] of ds1.clients.entries()) {
const deleteItems2 = (
/** @type {Array<import('../internals.js').DeleteItem>} */
ds2.clients.get(client)
);
if (deleteItems2 === void 0 || deleteItems1.length !== deleteItems2.length) return false;
for (let i = 0; i < deleteItems1.length; i++) {
const di1 = deleteItems1[i];
const di2 = deleteItems2[i];
if (di1.clock !== di2.clock || di1.len !== di2.len) {
return false;
}
}
}
return true;
};
var generateNewClientId = uint32;
var Doc = class _Doc extends ObservableV2 {
/**
* @param {DocOpts} opts configuration
*/
constructor({ guid = uuidv4(), collectionid = null, gc = true, gcFilter = () => true, meta = null, autoLoad = false, shouldLoad = true } = {}) {
super();
this.gc = gc;
this.gcFilter = gcFilter;
this.clientID = generateNewClientId();
this.guid = guid;
this.collectionid = collectionid;
this.share = /* @__PURE__ */ new Map();
this.store = new StructStore();
this._transaction = null;
this._transactionCleanups = [];
this.subdocs = /* @__PURE__ */ new Set();
this._item = null;
this.shouldLoad = shouldLoad;
this.autoLoad = autoLoad;
this.meta = meta;
this.isLoaded = false;
this.isSynced = false;
this.isDestroyed = false;
this.whenLoaded = create4((resolve) => {
this.on("load", () => {
this.isLoaded = true;
resolve(this);
});
});
const provideSyncedPromise = () => create4((resolve) => {
const eventHandler = (isSynced) => {
if (isSynced === void 0 || isSynced === true) {
this.off("sync", eventHandler);
resolve();
}
};
this.on("sync", eventHandler);
});
this.on("sync", (isSynced) => {
if (isSynced === false && this.isSynced) {
this.whenSynced = provideSyncedPromise();
}
this.isSynced = isSynced === void 0 || isSynced === true;
if (this.isSynced && !this.isLoaded) {
this.emit("load", [this]);
}
});
this.whenSynced = provideSyncedPromise();
}
/**
* Notify the parent document that you request to load data into this subdocument (if it is a subdocument).
*
* `load()` might be used in the future to request any provider to load the most current data.
*
* It is safe to call `load()` multiple times.
*/
load() {
const item = this._item;
if (item !== null && !this.shouldLoad) {
transact(
/** @type {any} */
item.parent.doc,
(transaction) => {
transaction.subdocsLoaded.add(this);
},
null,
true
);
}
this.shouldLoad = true;
}
getSubdocs() {
return this.subdocs;
}
getSubdocGuids() {
return new Set(from(this.subdocs).map((doc2) => doc2.guid));
}
/**
* Changes that happen inside of a transaction are bundled. This means that
* the observer fires _after_ the transaction is finished and that all changes
* that happened inside of the transaction are sent as one message to the
* other peers.
*
* @template T
* @param {function(Transaction):T} f The function that should be executed as a transaction
* @param {any} [origin] Origin of who started the transaction. Will be stored on transaction.origin
* @return T
*
* @public
*/
transact(f, origin2 = null) {
return transact(this, f, origin2);
}
/**
* Define a shared data type.
*
* Multiple calls of `ydoc.get(name, TypeConstructor)` yield the same result
* and do not overwrite each other. I.e.
* `ydoc.get(name, Y.Array) === ydoc.get(name, Y.Array)`
*
* After this method is called, the type is also available on `ydoc.share.get(name)`.
*
* *Best Practices:*
* Define all types right after the Y.Doc instance is created and store them in a separate object.
* Also use the typed methods `getText(name)`, `getArray(name)`, ..
*
* @template {typeof AbstractType<any>} Type
* @example
* const ydoc = new Y.Doc(..)
* const appState = {
* document: ydoc.getText('document')
* comments: ydoc.getArray('comments')
* }
*
* @param {string} name
* @param {Type} TypeConstructor The constructor of the type definition. E.g. Y.Text, Y.Array, Y.Map, ...
* @return {InstanceType<Type>} The created type. Constructed with TypeConstructor
*
* @public
*/
get(name, TypeConstructor = (
/** @type {any} */
AbstractType
)) {
const type = setIfUndefined(this.share, name, () => {
const t = new TypeConstructor();
t._integrate(this, null);
return t;
});
const Constr = type.constructor;
if (TypeConstructor !== AbstractType && Constr !== TypeConstructor) {
if (Constr === AbstractType) {
const t = new TypeConstructor();
t._map = type._map;
type._map.forEach(
/** @param {Item?} n */
(n) => {
for (; n !== null; n = n.left) {
n.parent = t;
}
}
);
t._start = type._start;
for (let n = t._start; n !== null; n = n.right) {
n.parent = t;
}
t._length = type._length;
this.share.set(name, t);
t._integrate(this, null);
return (
/** @type {InstanceType<Type>} */
t
);
} else {
throw new Error(`Type with the name ${name} has already been defined with a different constructor`);
}
}
return (
/** @type {InstanceType<Type>} */
type
);
}
/**
* @template T
* @param {string} [name]
* @return {YArray<T>}
*
* @public
*/
getArray(name = "") {
return (
/** @type {YArray<T>} */
this.get(name, YArray)
);
}
/**
* @param {string} [name]
* @return {YText}
*
* @public
*/
getText(name = "") {
return this.get(name, YText);
}
/**
* @template T
* @param {string} [name]
* @return {YMap<T>}
*
* @public
*/
getMap(name = "") {
return (
/** @type {YMap<T>} */
this.get(name, YMap)
);
}
/**
* @param {string} [name]
* @return {YXmlElement}
*
* @public
*/
getXmlElement(name = "") {
return (
/** @type {YXmlElement<{[key:string]:string}>} */
this.get(name, YXmlElement)
);
}
/**
* @param {string} [name]
* @return {YXmlFragment}
*
* @public
*/
getXmlFragment(name = "") {
return this.get(name, YXmlFragment);
}
/**
* Converts the entire document into a js object, recursively traversing each yjs type
* Doesn't log types that have not been defined (using ydoc.getType(..)).
*
* @deprecated Do not use this method and rather call toJSON directly on the shared types.
*
* @return {Object<string, any>}
*/
toJSON() {
const doc2 = {};
this.share.forEach((value, key) => {
doc2[key] = value.toJSON();
});
return doc2;
}
/**
* Emit `destroy` event and unregister all event handlers.
*/
destroy() {
this.isDestroyed = true;
from(this.subdocs).forEach((subdoc) => subdoc.destroy());
const item = this._item;
if (item !== null) {
this._item = null;
const content = (
/** @type {ContentDoc} */
item.content
);
content.doc = new _Doc({ guid: this.guid, ...content.opts, shouldLoad: false });
content.doc._item = item;
transact(
/** @type {any} */
item.parent.doc,
(transaction) => {
const doc2 = content.doc;
if (!item.deleted) {
transaction.subdocsAdded.add(doc2);
}
transaction.subdocsRemoved.add(this);
},
null,
true
);
}
this.emit("destroyed", [true]);
this.emit("destroy", [this]);
super.destroy();
}
};
var DSDecoderV1 = class {
/**
* @param {decoding.Decoder} decoder
*/
constructor(decoder) {
this.restDecoder = decoder;
}
resetDsCurVal() {
}
/**
* @return {number}
*/
readDsClock() {
return readVarUint(this.restDecoder);
}
/**
* @return {number}
*/
readDsLen() {
return readVarUint(this.restDecoder);
}
};
var UpdateDecoderV1 = class extends DSDecoderV1 {
/**
* @return {ID}
*/
readLeftID() {
return createID(readVarUint(this.restDecoder), readVarUint(this.restDecoder));
}
/**
* @return {ID}
*/
readRightID() {
return createID(readVarUint(this.restDecoder), readVarUint(this.restDecoder));
}
/**
* Read the next client id.
* Use this in favor of readID whenever possible to reduce the number of objects created.
*/
readClient() {
return readVarUint(this.restDecoder);
}
/**
* @return {number} info An unsigned 8-bit integer
*/
readInfo() {
return readUint8(this.restDecoder);
}
/**
* @return {string}
*/
readString() {
return readVarString(this.restDecoder);
}
/**
* @return {boolean} isKey
*/
readParentInfo() {
return readVarUint(this.restDecoder) === 1;
}
/**
* @return {number} info An unsigned 8-bit integer
*/
readTypeRef() {
return readVarUint(this.restDecoder);
}
/**
* Write len of a struct - well suited for Opt RLE encoder.
*
* @return {number} len
*/
readLen() {
return readVarUint(this.restDecoder);
}
/**
* @return {any}
*/
readAny() {
return readAny(this.restDecoder);
}
/**
* @return {Uint8Array}
*/
readBuf() {
return copyUint8Array(readVarUint8Array(this.restDecoder));
}
/**
* Legacy implementation uses JSON parse. We use any-decoding in v2.
*
* @return {any}
*/
readJSON() {
return JSON.parse(readVarString(this.restDecoder));
}
/**
* @return {string}
*/
readKey() {
return readVarString(this.restDecoder);
}
};
var DSDecoderV2 = class {
/**
* @param {decoding.Decoder} decoder
*/
constructor(decoder) {
this.dsCurrVal = 0;
this.restDecoder = decoder;
}
resetDsCurVal() {
this.dsCurrVal = 0;
}
/**
* @return {number}
*/
readDsClock() {
this.dsCurrVal += readVarUint(this.restDecoder);
return this.dsCurrVal;
}
/**
* @return {number}
*/
readDsLen() {
const diff = readVarUint(this.restDecoder) + 1;
this.dsCurrVal += diff;
return diff;
}
};
var UpdateDecoderV2 = class extends DSDecoderV2 {
/**
* @param {decoding.Decoder} decoder
*/
constructor(decoder) {
super(decoder);
this.keys = [];
readVarUint(decoder);
this.keyClockDecoder = new IntDiffOptRleDecoder(readVarUint8Array(decoder));
this.clientDecoder = new UintOptRleDecoder(readVarUint8Array(decoder));
this.leftClockDecoder = new IntDiffOptRleDecoder(readVarUint8Array(decoder));
this.rightClockDecoder = new IntDiffOptRleDecoder(readVarUint8Array(decoder));
this.infoDecoder = new RleDecoder(readVarUint8Array(decoder), readUint8);
this.stringDecoder = new StringDecoder(readVarUint8Array(decoder));
this.parentInfoDecoder = new RleDecoder(readVarUint8Array(decoder), readUint8);
this.typeRefDecoder = new UintOptRleDecoder(readVarUint8Array(decoder));
this.lenDecoder = new UintOptRleDecoder(readVarUint8Array(decoder));
}
/**
* @return {ID}
*/
readLeftID() {
return new ID(this.clientDecoder.read(), this.leftClockDecoder.read());
}
/**
* @return {ID}
*/
readRightID() {
return new ID(this.clientDecoder.read(), this.rightClockDecoder.read());
}
/**
* Read the next client id.
* Use this in favor of readID whenever possible to reduce the number of objects created.
*/
readClient() {
return this.clientDecoder.read();
}
/**
* @return {number} info An unsigned 8-bit integer
*/
readInfo() {
return (
/** @type {number} */
this.infoDecoder.read()
);
}
/**
* @return {string}
*/
readString() {
return this.stringDecoder.read();
}
/**
* @return {boolean}
*/
readParentInfo() {
return this.parentInfoDecoder.read() === 1;
}
/**
* @return {number} An unsigned 8-bit integer
*/
readTypeRef() {
return this.typeRefDecoder.read();
}
/**
* Write len of a struct - well suited for Opt RLE encoder.
*
* @return {number}
*/
readLen() {
return this.lenDecoder.read();
}
/**
* @return {any}
*/
readAny() {
return readAny(this.restDecoder);
}
/**
* @return {Uint8Array}
*/
readBuf() {
return readVarUint8Array(this.restDecoder);
}
/**
* This is mainly here for legacy purposes.
*
* Initial we incoded objects using JSON. Now we use the much faster lib0/any-encoder. This method mainly exists for legacy purposes for the v1 encoder.
*
* @return {any}
*/
readJSON() {
return readAny(this.restDecoder);
}
/**
* @return {string}
*/
readKey() {
const keyClock = this.keyClockDecoder.read();
if (keyClock < this.keys.length) {
return this.keys[keyClock];
} else {
const key = this.stringDecoder.read();
this.keys.push(key);
return key;
}
}
};
var DSEncoderV1 = class {
constructor() {
this.restEncoder = createEncoder();
}
toUint8Array() {
return toUint8Array(this.restEncoder);
}
resetDsCurVal() {
}
/**
* @param {number} clock
*/
writeDsClock(clock) {
writeVarUint(this.restEncoder, clock);
}
/**
* @param {number} len
*/
writeDsLen(len) {
writeVarUint(this.restEncoder, len);
}
};
var UpdateEncoderV1 = class extends DSEncoderV1 {
/**
* @param {ID} id
*/
writeLeftID(id2) {
writeVarUint(this.restEncoder, id2.client);
writeVarUint(this.restEncoder, id2.clock);
}
/**
* @param {ID} id
*/
writeRightID(id2) {
writeVarUint(this.restEncoder, id2.client);
writeVarUint(this.restEncoder, id2.clock);
}
/**
* Use writeClient and writeClock instead of writeID if possible.
* @param {number} client
*/
writeClient(client) {
writeVarUint(this.restEncoder, client);
}
/**
* @param {number} info An unsigned 8-bit integer
*/
writeInfo(info) {
writeUint8(this.restEncoder, info);
}
/**
* @param {string} s
*/
writeString(s) {
writeVarString(this.restEncoder, s);
}
/**
* @param {boolean} isYKey
*/
writeParentInfo(isYKey) {
writeVarUint(this.restEncoder, isYKey ? 1 : 0);
}
/**
* @param {number} info An unsigned 8-bit integer
*/
writeTypeRef(info) {
writeVarUint(this.restEncoder, info);
}
/**
* Write len of a struct - well suited for Opt RLE encoder.
*
* @param {number} len
*/
writeLen(len) {
writeVarUint(this.restEncoder, len);
}
/**
* @param {any} any
*/
writeAny(any2) {
writeAny(this.restEncoder, any2);
}
/**
* @param {Uint8Array} buf
*/
writeBuf(buf) {
writeVarUint8Array(this.restEncoder, buf);
}
/**
* @param {any} embed
*/
writeJSON(embed) {
writeVarString(this.restEncoder, JSON.stringify(embed));
}
/**
* @param {string} key
*/
writeKey(key) {
writeVarString(this.restEncoder, key);
}
};
var DSEncoderV2 = class {
constructor() {
this.restEncoder = createEncoder();
this.dsCurrVal = 0;
}
toUint8Array() {
return toUint8Array(this.restEncoder);
}
resetDsCurVal() {
this.dsCurrVal = 0;
}
/**
* @param {number} clock
*/
writeDsClock(clock) {
const diff = clock - this.dsCurrVal;
this.dsCurrVal = clock;
writeVarUint(this.restEncoder, diff);
}
/**
* @param {number} len
*/
writeDsLen(len) {
if (len === 0) {
unexpectedCase();
}
writeVarUint(this.restEncoder, len - 1);
this.dsCurrVal += len;
}
};
var UpdateEncoderV2 = class extends DSEncoderV2 {
constructor() {
super();
this.keyMap = /* @__PURE__ */ new Map();
this.keyClock = 0;
this.keyClockEncoder = new IntDiffOptRleEncoder();
this.clientEncoder = new UintOptRleEncoder();
this.leftClockEncoder = new IntDiffOptRleEncoder();
this.rightClockEncoder = new IntDiffOptRleEncoder();
this.infoEncoder = new RleEncoder(writeUint8);
this.stringEncoder = new StringEncoder();
this.parentInfoEncoder = new RleEncoder(writeUint8);
this.typeRefEncoder = new UintOptRleEncoder();
this.lenEncoder = new UintOptRleEncoder();
}
toUint8Array() {
const encoder = createEncoder();
writeVarUint(encoder, 0);
writeVarUint8Array(encoder, this.keyClockEncoder.toUint8Array());
writeVarUint8Array(encoder, this.clientEncoder.toUint8Array());
writeVarUint8Array(encoder, this.leftClockEncoder.toUint8Array());
writeVarUint8Array(encoder, this.rightClockEncoder.toUint8Array());
writeVarUint8Array(encoder, toUint8Array(this.infoEncoder));
writeVarUint8Array(encoder, this.stringEncoder.toUint8Array());
writeVarUint8Array(encoder, toUint8Array(this.parentInfoEncoder));
writeVarUint8Array(encoder, this.typeRefEncoder.toUint8Array());
writeVarUint8Array(encoder, this.lenEncoder.toUint8Array());
writeUint8Array(encoder, toUint8Array(this.restEncoder));
return toUint8Array(encoder);
}
/**
* @param {ID} id
*/
writeLeftID(id2) {
this.clientEncoder.write(id2.client);
this.leftClockEncoder.write(id2.clock);
}
/**
* @param {ID} id
*/
writeRightID(id2) {
this.clientEncoder.write(id2.client);
this.rightClockEncoder.write(id2.clock);
}
/**
* @param {number} client
*/
writeClient(client) {
this.clientEncoder.write(client);
}
/**
* @param {number} info An unsigned 8-bit integer
*/
writeInfo(info) {
this.infoEncoder.write(info);
}
/**
* @param {string} s
*/
writeString(s) {
this.stringEncoder.write(s);
}
/**
* @param {boolean} isYKey
*/
writeParentInfo(isYKey) {
this.parentInfoEncoder.write(isYKey ? 1 : 0);
}
/**
* @param {number} info An unsigned 8-bit integer
*/
writeTypeRef(info) {
this.typeRefEncoder.write(info);
}
/**
* Write len of a struct - well suited for Opt RLE encoder.
*
* @param {number} len
*/
writeLen(len) {
this.lenEncoder.write(len);
}
/**
* @param {any} any
*/
writeAny(any2) {
writeAny(this.restEncoder, any2);
}
/**
* @param {Uint8Array} buf
*/
writeBuf(buf) {
writeVarUint8Array(this.restEncoder, buf);
}
/**
* This is mainly here for legacy purposes.
*
* Initial we incoded objects using JSON. Now we use the much faster lib0/any-encoder. This method mainly exists for legacy purposes for the v1 encoder.
*
* @param {any} embed
*/
writeJSON(embed) {
writeAny(this.restEncoder, embed);
}
/**
* Property keys are often reused. For example, in y-prosemirror the key `bold` might
* occur very often. For a 3d application, the key `position` might occur very often.
*
* We cache these keys in a Map and refer to them via a unique number.
*
* @param {string} key
*/
writeKey(key) {
const clock = this.keyMap.get(key);
if (clock === void 0) {
this.keyClockEncoder.write(this.keyClock++);
this.stringEncoder.write(key);
} else {
this.keyClockEncoder.write(clock);
}
}
};
var writeStructs = (encoder, structs, client, clock) => {
clock = max(clock, structs[0].id.clock);
const startNewStructs = findIndexSS(structs, clock);
writeVarUint(encoder.restEncoder, structs.length - startNewStructs);
encoder.writeClient(client);
writeVarUint(encoder.restEncoder, clock);
const firstStruct = structs[startNewStructs];
firstStruct.write(encoder, clock - firstStruct.id.clock);
for (let i = startNewStructs + 1; i < structs.length; i++) {
structs[i].write(encoder, 0);
}
};
var writeClientsStructs = (encoder, store, _sm) => {
const sm = /* @__PURE__ */ new Map();
_sm.forEach((clock, client) => {
if (getState(store, client) > clock) {
sm.set(client, clock);
}
});
getStateVector(store).forEach((_clock, client) => {
if (!_sm.has(client)) {
sm.set(client, 0);
}
});
writeVarUint(encoder.restEncoder, sm.size);
from(sm.entries()).sort((a, b) => b[0] - a[0]).forEach(([client, clock]) => {
writeStructs(
encoder,
/** @type {Array<GC|Item>} */
store.clients.get(client),
client,
clock
);
});
};
var readClientsStructRefs = (decoder, doc2) => {
const clientRefs = create();
const numOfStateUpdates = readVarUint(decoder.restDecoder);
for (let i = 0; i < numOfStateUpdates; i++) {
const numberOfStructs = readVarUint(decoder.restDecoder);
const refs = new Array(numberOfStructs);
const client = decoder.readClient();
let clock = readVarUint(decoder.restDecoder);
clientRefs.set(client, { i: 0, refs });
for (let i2 = 0; i2 < numberOfStructs; i2++) {
const info = decoder.readInfo();
switch (BITS5 & info) {
case 0: {
const len = decoder.readLen();
refs[i2] = new GC(createID(client, clock), len);
clock += len;
break;
}
case 10: {
const len = readVarUint(decoder.restDecoder);
refs[i2] = new Skip(createID(client, clock), len);
clock += len;
break;
}
default: {
const cantCopyParentInfo = (info & (BIT7 | BIT8)) === 0;
const struct = new Item(
createID(client, clock),
null,
// left
(info & BIT8) === BIT8 ? decoder.readLeftID() : null,
// origin
null,
// right
(info & BIT7) === BIT7 ? decoder.readRightID() : null,
// right origin
cantCopyParentInfo ? decoder.readParentInfo() ? doc2.get(decoder.readString()) : decoder.readLeftID() : null,
// parent
cantCopyParentInfo && (info & BIT6) === BIT6 ? decoder.readString() : null,
// parentSub
readItemContent(decoder, info)
// item content
);
refs[i2] = struct;
clock += struct.length;
}
}
}
}
return clientRefs;
};
var integrateStructs = (transaction, store, clientsStructRefs) => {
const stack = [];
let clientsStructRefsIds = from(clientsStructRefs.keys()).sort((a, b) => a - b);
if (clientsStructRefsIds.length === 0) {
return null;
}
const getNextStructTarget = () => {
if (clientsStructRefsIds.length === 0) {
return null;
}
let nextStructsTarget = (
/** @type {{i:number,refs:Array<GC|Item>}} */
clientsStructRefs.get(clientsStructRefsIds[clientsStructRefsIds.length - 1])
);
while (nextStructsTarget.refs.length === nextStructsTarget.i) {
clientsStructRefsIds.pop();
if (clientsStructRefsIds.length > 0) {
nextStructsTarget = /** @type {{i:number,refs:Array<GC|Item>}} */
clientsStructRefs.get(clientsStructRefsIds[clientsStructRefsIds.length - 1]);
} else {
return null;
}
}
return nextStructsTarget;
};
let curStructsTarget = getNextStructTarget();
if (curStructsTarget === null) {
return null;
}
const restStructs = new StructStore();
const missingSV = /* @__PURE__ */ new Map();
const updateMissingSv = (client, clock) => {
const mclock = missingSV.get(client);
if (mclock == null || mclock > clock) {
missingSV.set(client, clock);
}
};
let stackHead = (
/** @type {any} */
curStructsTarget.refs[
/** @type {any} */
curStructsTarget.i++
]
);
const state = /* @__PURE__ */ new Map();
const addStackToRestSS = () => {
for (const item of stack) {
const client = item.id.client;
const inapplicableItems = clientsStructRefs.get(client);
if (inapplicableItems) {
inapplicableItems.i--;
restStructs.clients.set(client, inapplicableItems.refs.slice(inapplicableItems.i));
clientsStructRefs.delete(client);
inapplicableItems.i = 0;
inapplicableItems.refs = [];
} else {
restStructs.clients.set(client, [item]);
}
clientsStructRefsIds = clientsStructRefsIds.filter((c) => c !== client);
}
stack.length = 0;
};
while (true) {
if (stackHead.constructor !== Skip) {
const localClock = setIfUndefined(state, stackHead.id.client, () => getState(store, stackHead.id.client));
const offset = localClock - stackHead.id.clock;
if (offset < 0) {
stack.push(stackHead);
updateMissingSv(stackHead.id.client, stackHead.id.clock - 1);
addStackToRestSS();
} else {
const missing = stackHead.getMissing(transaction, store);
if (missing !== null) {
stack.push(stackHead);
const structRefs = clientsStructRefs.get(
/** @type {number} */
missing
) || { refs: [], i: 0 };
if (structRefs.refs.length === structRefs.i) {
updateMissingSv(
/** @type {number} */
missing,
getState(store, missing)
);
addStackToRestSS();
} else {
stackHead = structRefs.refs[structRefs.i++];
continue;
}
} else if (offset === 0 || offset < stackHead.length) {
stackHead.integrate(transaction, offset);
state.set(stackHead.id.client, stackHead.id.clock + stackHead.length);
}
}
}
if (stack.length > 0) {
stackHead = /** @type {GC|Item} */
stack.pop();
} else if (curStructsTarget !== null && curStructsTarget.i < curStructsTarget.refs.length) {
stackHead = /** @type {GC|Item} */
curStructsTarget.refs[curStructsTarget.i++];
} else {
curStructsTarget = getNextStructTarget();
if (curStructsTarget === null) {
break;
} else {
stackHead = /** @type {GC|Item} */
curStructsTarget.refs[curStructsTarget.i++];
}
}
}
if (restStructs.clients.size > 0) {
const encoder = new UpdateEncoderV2();
writeClientsStructs(encoder, restStructs, /* @__PURE__ */ new Map());
writeVarUint(encoder.restEncoder, 0);
return { missing: missingSV, update: encoder.toUint8Array() };
}
return null;
};
var writeStructsFromTransaction = (encoder, transaction) => writeClientsStructs(encoder, transaction.doc.store, transaction.beforeState);
var readUpdateV2 = (decoder, ydoc, transactionOrigin, structDecoder = new UpdateDecoderV2(decoder)) => transact(ydoc, (transaction) => {
transaction.local = false;
let retry = false;
const doc2 = transaction.doc;
const store = doc2.store;
const ss = readClientsStructRefs(structDecoder, doc2);
const restStructs = integrateStructs(transaction, store, ss);
const pending = store.pendingStructs;
if (pending) {
for (const [client, clock] of pending.missing) {
if (clock < getState(store, client)) {
retry = true;
break;
}
}
if (restStructs) {
for (const [client, clock] of restStructs.missing) {
const mclock = pending.missing.get(client);
if (mclock == null || mclock > clock) {
pending.missing.set(client, clock);
}
}
pending.update = mergeUpdatesV2([pending.update, restStructs.update]);
}
} else {
store.pendingStructs = restStructs;
}
const dsRest = readAndApplyDeleteSet(structDecoder, transaction, store);
if (store.pendingDs) {
const pendingDSUpdate = new UpdateDecoderV2(createDecoder(store.pendingDs));
readVarUint(pendingDSUpdate.restDecoder);
const dsRest2 = readAndApplyDeleteSet(pendingDSUpdate, transaction, store);
if (dsRest && dsRest2) {
store.pendingDs = mergeUpdatesV2([dsRest, dsRest2]);
} else {
store.pendingDs = dsRest || dsRest2;
}
} else {
store.pendingDs = dsRest;
}
if (retry) {
const update = (
/** @type {{update: Uint8Array}} */
store.pendingStructs.update
);
store.pendingStructs = null;
applyUpdateV2(transaction.doc, update);
}
}, transactionOrigin, false);
var readUpdate = (decoder, ydoc, transactionOrigin) => readUpdateV2(decoder, ydoc, transactionOrigin, new UpdateDecoderV1(decoder));
var applyUpdateV2 = (ydoc, update, transactionOrigin, YDecoder = UpdateDecoderV2) => {
const decoder = createDecoder(update);
readUpdateV2(decoder, ydoc, transactionOrigin, new YDecoder(decoder));
};
var applyUpdate = (ydoc, update, transactionOrigin) => applyUpdateV2(ydoc, update, transactionOrigin, UpdateDecoderV1);
var writeStateAsUpdate = (encoder, doc2, targetStateVector = /* @__PURE__ */ new Map()) => {
writeClientsStructs(encoder, doc2.store, targetStateVector);
writeDeleteSet(encoder, createDeleteSetFromStructStore(doc2.store));
};
var encodeStateAsUpdateV2 = (doc2, encodedTargetStateVector = new Uint8Array([0]), encoder = new UpdateEncoderV2()) => {
const targetStateVector = decodeStateVector(encodedTargetStateVector);
writeStateAsUpdate(encoder, doc2, targetStateVector);
const updates = [encoder.toUint8Array()];
if (doc2.store.pendingDs) {
updates.push(doc2.store.pendingDs);
}
if (doc2.store.pendingStructs) {
updates.push(diffUpdateV2(doc2.store.pendingStructs.update, encodedTargetStateVector));
}
if (updates.length > 1) {
if (encoder.constructor === UpdateEncoderV1) {
return mergeUpdates(updates.map((update, i) => i === 0 ? update : convertUpdateFormatV2ToV1(update)));
} else if (encoder.constructor === UpdateEncoderV2) {
return mergeUpdatesV2(updates);
}
}
return updates[0];
};
var encodeStateAsUpdate = (doc2, encodedTargetStateVector) => encodeStateAsUpdateV2(doc2, encodedTargetStateVector, new UpdateEncoderV1());
var readStateVector = (decoder) => {
const ss = /* @__PURE__ */ new Map();
const ssLength = readVarUint(decoder.restDecoder);
for (let i = 0; i < ssLength; i++) {
const client = readVarUint(decoder.restDecoder);
const clock = readVarUint(decoder.restDecoder);
ss.set(client, clock);
}
return ss;
};
var decodeStateVector = (decodedState) => readStateVector(new DSDecoderV1(createDecoder(decodedState)));
var writeStateVector = (encoder, sv) => {
writeVarUint(encoder.restEncoder, sv.size);
from(sv.entries()).sort((a, b) => b[0] - a[0]).forEach(([client, clock]) => {
writeVarUint(encoder.restEncoder, client);
writeVarUint(encoder.restEncoder, clock);
});
return encoder;
};
var writeDocumentStateVector = (encoder, doc2) => writeStateVector(encoder, getStateVector(doc2.store));
var encodeStateVectorV2 = (doc2, encoder = new DSEncoderV2()) => {
if (doc2 instanceof Map) {
writeStateVector(encoder, doc2);
} else {
writeDocumentStateVector(encoder, doc2);
}
return encoder.toUint8Array();
};
var encodeStateVector = (doc2) => encodeStateVectorV2(doc2, new DSEncoderV1());
var EventHandler = class {
constructor() {
this.l = [];
}
};
var createEventHandler = () => new EventHandler();
var addEventHandlerListener = (eventHandler, f) => eventHandler.l.push(f);
var removeEventHandlerListener = (eventHandler, f) => {
const l = eventHandler.l;
const len = l.length;
eventHandler.l = l.filter((g) => f !== g);
if (len === eventHandler.l.length) {
console.error("[yjs] Tried to remove event handler that doesn't exist.");
}
};
var callEventHandlerListeners = (eventHandler, arg0, arg1) => callAll(eventHandler.l, [arg0, arg1]);
var ID = class {
/**
* @param {number} client client id
* @param {number} clock unique per client id, continuous number
*/
constructor(client, clock) {
this.client = client;
this.clock = clock;
}
};
var compareIDs = (a, b) => a === b || a !== null && b !== null && a.client === b.client && a.clock === b.clock;
var createID = (client, clock) => new ID(client, clock);
var writeID = (encoder, id2) => {
writeVarUint(encoder, id2.client);
writeVarUint(encoder, id2.clock);
};
var readID = (decoder) => createID(readVarUint(decoder), readVarUint(decoder));
var findRootTypeKey = (type) => {
for (const [key, value] of type.doc.share.entries()) {
if (value === type) {
return key;
}
}
throw unexpectedCase();
};
var isParentOf = (parent, child) => {
while (child !== null) {
if (child.parent === parent) {
return true;
}
child = /** @type {AbstractType<any>} */
child.parent._item;
}
return false;
};
var logType = (type) => {
const res = [];
let n = type._start;
while (n) {
res.push(n);
n = n.right;
}
console.log("Children: ", res);
console.log("Children content: ", res.filter((m) => !m.deleted).map((m) => m.content));
};
var PermanentUserData = class {
/**
* @param {Doc} doc
* @param {YMap<any>} [storeType]
*/
constructor(doc2, storeType = doc2.getMap("users")) {
const dss = /* @__PURE__ */ new Map();
this.yusers = storeType;
this.doc = doc2;
this.clients = /* @__PURE__ */ new Map();
this.dss = dss;
const initUser = (user, userDescription) => {
const ds = user.get("ds");
const ids = user.get("ids");
const addClientId = (
/** @param {number} clientid */
(clientid) => this.clients.set(clientid, userDescription)
);
ds.observe(
/** @param {YArrayEvent<any>} event */
(event) => {
event.changes.added.forEach((item) => {
item.content.getContent().forEach((encodedDs) => {
if (encodedDs instanceof Uint8Array) {
this.dss.set(userDescription, mergeDeleteSets([this.dss.get(userDescription) || createDeleteSet(), readDeleteSet(new DSDecoderV1(createDecoder(encodedDs)))]));
}
});
});
}
);
this.dss.set(userDescription, mergeDeleteSets(ds.map((encodedDs) => readDeleteSet(new DSDecoderV1(createDecoder(encodedDs))))));
ids.observe(
/** @param {YArrayEvent<any>} event */
(event) => event.changes.added.forEach((item) => item.content.getContent().forEach(addClientId))
);
ids.forEach(addClientId);
};
storeType.observe((event) => {
event.keysChanged.forEach(
(userDescription) => initUser(storeType.get(userDescription), userDescription)
);
});
storeType.forEach(initUser);
}
/**
* @param {Doc} doc
* @param {number} clientid
* @param {string} userDescription
* @param {Object} conf
* @param {function(Transaction, DeleteSet):boolean} [conf.filter]
*/
setUserMapping(doc2, clientid, userDescription, { filter = () => true } = {}) {
const users = this.yusers;
let user = users.get(userDescription);
if (!user) {
user = new YMap();
user.set("ids", new YArray());
user.set("ds", new YArray());
users.set(userDescription, user);
}
user.get("ids").push([clientid]);
users.observe((_event) => {
setTimeout(() => {
const userOverwrite = users.get(userDescription);
if (userOverwrite !== user) {
user = userOverwrite;
this.clients.forEach((_userDescription, clientid2) => {
if (userDescription === _userDescription) {
user.get("ids").push([clientid2]);
}
});
const encoder = new DSEncoderV1();
const ds = this.dss.get(userDescription);
if (ds) {
writeDeleteSet(encoder, ds);
user.get("ds").push([encoder.toUint8Array()]);
}
}
}, 0);
});
doc2.on(
"afterTransaction",
/** @param {Transaction} transaction */
(transaction) => {
setTimeout(() => {
const yds = user.get("ds");
const ds = transaction.deleteSet;
if (transaction.local && ds.clients.size > 0 && filter(transaction, ds)) {
const encoder = new DSEncoderV1();
writeDeleteSet(encoder, ds);
yds.push([encoder.toUint8Array()]);
}
});
}
);
}
/**
* @param {number} clientid
* @return {any}
*/
getUserByClientId(clientid) {
return this.clients.get(clientid) || null;
}
/**
* @param {ID} id
* @return {string | null}
*/
getUserByDeletedId(id2) {
for (const [userDescription, ds] of this.dss.entries()) {
if (isDeleted(ds, id2)) {
return userDescription;
}
}
return null;
}
};
var RelativePosition = class {
/**
* @param {ID|null} type
* @param {string|null} tname
* @param {ID|null} item
* @param {number} assoc
*/
constructor(type, tname, item, assoc = 0) {
this.type = type;
this.tname = tname;
this.item = item;
this.assoc = assoc;
}
};
var relativePositionToJSON = (rpos) => {
const json = {};
if (rpos.type) {
json.type = rpos.type;
}
if (rpos.tname) {
json.tname = rpos.tname;
}
if (rpos.item) {
json.item = rpos.item;
}
if (rpos.assoc != null) {
json.assoc = rpos.assoc;
}
return json;
};
var createRelativePositionFromJSON = (json) => new RelativePosition(json.type == null ? null : createID(json.type.client, json.type.clock), json.tname ?? null, json.item == null ? null : createID(json.item.client, json.item.clock), json.assoc == null ? 0 : json.assoc);
var AbsolutePosition = class {
/**
* @param {AbstractType<any>} type
* @param {number} index
* @param {number} [assoc]
*/
constructor(type, index, assoc = 0) {
this.type = type;
this.index = index;
this.assoc = assoc;
}
};
var createAbsolutePosition = (type, index, assoc = 0) => new AbsolutePosition(type, index, assoc);
var createRelativePosition = (type, item, assoc) => {
let typeid = null;
let tname = null;
if (type._item === null) {
tname = findRootTypeKey(type);
} else {
typeid = createID(type._item.id.client, type._item.id.clock);
}
return new RelativePosition(typeid, tname, item, assoc);
};
var createRelativePositionFromTypeIndex = (type, index, assoc = 0) => {
let t = type._start;
if (assoc < 0) {
if (index === 0) {
return createRelativePosition(type, null, assoc);
}
index--;
}
while (t !== null) {
if (!t.deleted && t.countable) {
if (t.length > index) {
return createRelativePosition(type, createID(t.id.client, t.id.clock + index), assoc);
}
index -= t.length;
}
if (t.right === null && assoc < 0) {
return createRelativePosition(type, t.lastId, assoc);
}
t = t.right;
}
return createRelativePosition(type, null, assoc);
};
var writeRelativePosition = (encoder, rpos) => {
const { type, tname, item, assoc } = rpos;
if (item !== null) {
writeVarUint(encoder, 0);
writeID(encoder, item);
} else if (tname !== null) {
writeUint8(encoder, 1);
writeVarString(encoder, tname);
} else if (type !== null) {
writeUint8(encoder, 2);
writeID(encoder, type);
} else {
throw unexpectedCase();
}
writeVarInt(encoder, assoc);
return encoder;
};
var encodeRelativePosition = (rpos) => {
const encoder = createEncoder();
writeRelativePosition(encoder, rpos);
return toUint8Array(encoder);
};
var readRelativePosition = (decoder) => {
let type = null;
let tname = null;
let itemID = null;
switch (readVarUint(decoder)) {
case 0:
itemID = readID(decoder);
break;
case 1:
tname = readVarString(decoder);
break;
case 2: {
type = readID(decoder);
}
}
const assoc = hasContent(decoder) ? readVarInt(decoder) : 0;
return new RelativePosition(type, tname, itemID, assoc);
};
var decodeRelativePosition = (uint8Array) => readRelativePosition(createDecoder(uint8Array));
var getItemWithOffset = (store, id2) => {
const item = getItem(store, id2);
const diff = id2.clock - item.id.clock;
return {
item,
diff
};
};
var createAbsolutePositionFromRelativePosition = (rpos, doc2, followUndoneDeletions = true) => {
const store = doc2.store;
const rightID = rpos.item;
const typeID = rpos.type;
const tname = rpos.tname;
const assoc = rpos.assoc;
let type = null;
let index = 0;
if (rightID !== null) {
if (getState(store, rightID.client) <= rightID.clock) {
return null;
}
const res = followUndoneDeletions ? followRedone(store, rightID) : getItemWithOffset(store, rightID);
const right = res.item;
if (!(right instanceof Item)) {
return null;
}
type = /** @type {AbstractType<any>} */
right.parent;
if (type._item === null || !type._item.deleted) {
index = right.deleted || !right.countable ? 0 : res.diff + (assoc >= 0 ? 0 : 1);
let n = right.left;
while (n !== null) {
if (!n.deleted && n.countable) {
index += n.length;
}
n = n.left;
}
}
} else {
if (tname !== null) {
type = doc2.get(tname);
} else if (typeID !== null) {
if (getState(store, typeID.client) <= typeID.clock) {
return null;
}
const { item } = followUndoneDeletions ? followRedone(store, typeID) : { item: getItem(store, typeID) };
if (item instanceof Item && item.content instanceof ContentType) {
type = item.content.type;
} else {
return null;
}
} else {
throw unexpectedCase();
}
if (assoc >= 0) {
index = type._length;
} else {
index = 0;
}
}
return createAbsolutePosition(type, index, rpos.assoc);
};
var compareRelativePositions = (a, b) => a === b || a !== null && b !== null && a.tname === b.tname && compareIDs(a.item, b.item) && compareIDs(a.type, b.type) && a.assoc === b.assoc;
var Snapshot = class {
/**
* @param {DeleteSet} ds
* @param {Map<number,number>} sv state map
*/
constructor(ds, sv) {
this.ds = ds;
this.sv = sv;
}
};
var equalSnapshots = (snap1, snap2) => {
const ds1 = snap1.ds.clients;
const ds2 = snap2.ds.clients;
const sv1 = snap1.sv;
const sv2 = snap2.sv;
if (sv1.size !== sv2.size || ds1.size !== ds2.size) {
return false;
}
for (const [key, value] of sv1.entries()) {
if (sv2.get(key) !== value) {
return false;
}
}
for (const [client, dsitems1] of ds1.entries()) {
const dsitems2 = ds2.get(client) || [];
if (dsitems1.length !== dsitems2.length) {
return false;
}
for (let i = 0; i < dsitems1.length; i++) {
const dsitem1 = dsitems1[i];
const dsitem2 = dsitems2[i];
if (dsitem1.clock !== dsitem2.clock || dsitem1.len !== dsitem2.len) {
return false;
}
}
}
return true;
};
var encodeSnapshotV2 = (snapshot2, encoder = new DSEncoderV2()) => {
writeDeleteSet(encoder, snapshot2.ds);
writeStateVector(encoder, snapshot2.sv);
return encoder.toUint8Array();
};
var encodeSnapshot = (snapshot2) => encodeSnapshotV2(snapshot2, new DSEncoderV1());
var decodeSnapshotV2 = (buf, decoder = new DSDecoderV2(createDecoder(buf))) => {
return new Snapshot(readDeleteSet(decoder), readStateVector(decoder));
};
var decodeSnapshot = (buf) => decodeSnapshotV2(buf, new DSDecoderV1(createDecoder(buf)));
var createSnapshot = (ds, sm) => new Snapshot(ds, sm);
var emptySnapshot = createSnapshot(createDeleteSet(), /* @__PURE__ */ new Map());
var snapshot = (doc2) => createSnapshot(createDeleteSetFromStructStore(doc2.store), getStateVector(doc2.store));
var isVisible = (item, snapshot2) => snapshot2 === void 0 ? !item.deleted : snapshot2.sv.has(item.id.client) && (snapshot2.sv.get(item.id.client) || 0) > item.id.clock && !isDeleted(snapshot2.ds, item.id);
var splitSnapshotAffectedStructs = (transaction, snapshot2) => {
const meta = setIfUndefined(transaction.meta, splitSnapshotAffectedStructs, create2);
const store = transaction.doc.store;
if (!meta.has(snapshot2)) {
snapshot2.sv.forEach((clock, client) => {
if (clock < getState(store, client)) {
getItemCleanStart(transaction, createID(client, clock));
}
});
iterateDeletedStructs(transaction, snapshot2.ds, (_item) => {
});
meta.add(snapshot2);
}
};
var createDocFromSnapshot = (originDoc, snapshot2, newDoc = new Doc()) => {
if (originDoc.gc) {
throw new Error("Garbage-collection must be disabled in `originDoc`!");
}
const { sv, ds } = snapshot2;
const encoder = new UpdateEncoderV2();
originDoc.transact((transaction) => {
let size2 = 0;
sv.forEach((clock) => {
if (clock > 0) {
size2++;
}
});
writeVarUint(encoder.restEncoder, size2);
for (const [client, clock] of sv) {
if (clock === 0) {
continue;
}
if (clock < getState(originDoc.store, client)) {
getItemCleanStart(transaction, createID(client, clock));
}
const structs = originDoc.store.clients.get(client) || [];
const lastStructIndex = findIndexSS(structs, clock - 1);
writeVarUint(encoder.restEncoder, lastStructIndex + 1);
encoder.writeClient(client);
writeVarUint(encoder.restEncoder, 0);
for (let i = 0; i <= lastStructIndex; i++) {
structs[i].write(encoder, 0);
}
}
writeDeleteSet(encoder, ds);
});
applyUpdateV2(newDoc, encoder.toUint8Array(), "snapshot");
return newDoc;
};
var snapshotContainsUpdateV2 = (snapshot2, update, YDecoder = UpdateDecoderV2) => {
const updateDecoder = new YDecoder(createDecoder(update));
const lazyDecoder = new LazyStructReader(updateDecoder, false);
for (let curr = lazyDecoder.curr; curr !== null; curr = lazyDecoder.next()) {
if ((snapshot2.sv.get(curr.id.client) || 0) < curr.id.clock + curr.length) {
return false;
}
}
const mergedDS = mergeDeleteSets([snapshot2.ds, readDeleteSet(updateDecoder)]);
return equalDeleteSets(snapshot2.ds, mergedDS);
};
var snapshotContainsUpdate = (snapshot2, update) => snapshotContainsUpdateV2(snapshot2, update, UpdateDecoderV1);
var StructStore = class {
constructor() {
this.clients = /* @__PURE__ */ new Map();
this.pendingStructs = null;
this.pendingDs = null;
}
};
var getStateVector = (store) => {
const sm = /* @__PURE__ */ new Map();
store.clients.forEach((structs, client) => {
const struct = structs[structs.length - 1];
sm.set(client, struct.id.clock + struct.length);
});
return sm;
};
var getState = (store, client) => {
const structs = store.clients.get(client);
if (structs === void 0) {
return 0;
}
const lastStruct = structs[structs.length - 1];
return lastStruct.id.clock + lastStruct.length;
};
var addStruct = (store, struct) => {
let structs = store.clients.get(struct.id.client);
if (structs === void 0) {
structs = [];
store.clients.set(struct.id.client, structs);
} else {
const lastStruct = structs[structs.length - 1];
if (lastStruct.id.clock + lastStruct.length !== struct.id.clock) {
throw unexpectedCase();
}
}
structs.push(struct);
};
var findIndexSS = (structs, clock) => {
let left = 0;
let right = structs.length - 1;
let mid = structs[right];
let midclock = mid.id.clock;
if (midclock === clock) {
return right;
}
let midindex = floor(clock / (midclock + mid.length - 1) * right);
while (left <= right) {
mid = structs[midindex];
midclock = mid.id.clock;
if (midclock <= clock) {
if (clock < midclock + mid.length) {
return midindex;
}
left = midindex + 1;
} else {
right = midindex - 1;
}
midindex = floor((left + right) / 2);
}
throw unexpectedCase();
};
var find = (store, id2) => {
const structs = store.clients.get(id2.client);
return structs[findIndexSS(structs, id2.clock)];
};
var getItem = (
/** @type {function(StructStore,ID):Item} */
find
);
var findIndexCleanStart = (transaction, structs, clock) => {
const index = findIndexSS(structs, clock);
const struct = structs[index];
if (struct.id.clock < clock && struct instanceof Item) {
structs.splice(index + 1, 0, splitItem(transaction, struct, clock - struct.id.clock));
return index + 1;
}
return index;
};
var getItemCleanStart = (transaction, id2) => {
const structs = (
/** @type {Array<Item>} */
transaction.doc.store.clients.get(id2.client)
);
return structs[findIndexCleanStart(transaction, structs, id2.clock)];
};
var getItemCleanEnd = (transaction, store, id2) => {
const structs = store.clients.get(id2.client);
const index = findIndexSS(structs, id2.clock);
const struct = structs[index];
if (id2.clock !== struct.id.clock + struct.length - 1 && struct.constructor !== GC) {
structs.splice(index + 1, 0, splitItem(transaction, struct, id2.clock - struct.id.clock + 1));
}
return struct;
};
var replaceStruct = (store, struct, newStruct) => {
const structs = (
/** @type {Array<GC|Item>} */
store.clients.get(struct.id.client)
);
structs[findIndexSS(structs, struct.id.clock)] = newStruct;
};
var iterateStructs = (transaction, structs, clockStart, len, f) => {
if (len === 0) {
return;
}
const clockEnd = clockStart + len;
let index = findIndexCleanStart(transaction, structs, clockStart);
let struct;
do {
struct = structs[index++];
if (clockEnd < struct.id.clock + struct.length) {
findIndexCleanStart(transaction, structs, clockEnd);
}
f(struct);
} while (index < structs.length && structs[index].id.clock < clockEnd);
};
var Transaction = class {
/**
* @param {Doc} doc
* @param {any} origin
* @param {boolean} local
*/
constructor(doc2, origin2, local) {
this.doc = doc2;
this.deleteSet = new DeleteSet();
this.beforeState = getStateVector(doc2.store);
this.afterState = /* @__PURE__ */ new Map();
this.changed = /* @__PURE__ */ new Map();
this.changedParentTypes = /* @__PURE__ */ new Map();
this._mergeStructs = [];
this.origin = origin2;
this.meta = /* @__PURE__ */ new Map();
this.local = local;
this.subdocsAdded = /* @__PURE__ */ new Set();
this.subdocsRemoved = /* @__PURE__ */ new Set();
this.subdocsLoaded = /* @__PURE__ */ new Set();
this._needFormattingCleanup = false;
}
};
var writeUpdateMessageFromTransaction = (encoder, transaction) => {
if (transaction.deleteSet.clients.size === 0 && !any(transaction.afterState, (clock, client) => transaction.beforeState.get(client) !== clock)) {
return false;
}
sortAndMergeDeleteSet(transaction.deleteSet);
writeStructsFromTransaction(encoder, transaction);
writeDeleteSet(encoder, transaction.deleteSet);
return true;
};
var addChangedTypeToTransaction = (transaction, type, parentSub) => {
const item = type._item;
if (item === null || item.id.clock < (transaction.beforeState.get(item.id.client) || 0) && !item.deleted) {
setIfUndefined(transaction.changed, type, create2).add(parentSub);
}
};
var tryToMergeWithLefts = (structs, pos) => {
let right = structs[pos];
let left = structs[pos - 1];
let i = pos;
for (; i > 0; right = left, left = structs[--i - 1]) {
if (left.deleted === right.deleted && left.constructor === right.constructor) {
if (left.mergeWith(right)) {
if (right instanceof Item && right.parentSub !== null && /** @type {AbstractType<any>} */
right.parent._map.get(right.parentSub) === right) {
right.parent._map.set(
right.parentSub,
/** @type {Item} */
left
);
}
continue;
}
}
break;
}
const merged = pos - i;
if (merged) {
structs.splice(pos + 1 - merged, merged);
}
return merged;
};
var tryGcDeleteSet = (ds, store, gcFilter) => {
for (const [client, deleteItems] of ds.clients.entries()) {
const structs = (
/** @type {Array<GC|Item>} */
store.clients.get(client)
);
for (let di = deleteItems.length - 1; di >= 0; di--) {
const deleteItem = deleteItems[di];
const endDeleteItemClock = deleteItem.clock + deleteItem.len;
for (let si = findIndexSS(structs, deleteItem.clock), struct = structs[si]; si < structs.length && struct.id.clock < endDeleteItemClock; struct = structs[++si]) {
const struct2 = structs[si];
if (deleteItem.clock + deleteItem.len <= struct2.id.clock) {
break;
}
if (struct2 instanceof Item && struct2.deleted && !struct2.keep && gcFilter(struct2)) {
struct2.gc(store, false);
}
}
}
}
};
var tryMergeDeleteSet = (ds, store) => {
ds.clients.forEach((deleteItems, client) => {
const structs = (
/** @type {Array<GC|Item>} */
store.clients.get(client)
);
for (let di = deleteItems.length - 1; di >= 0; di--) {
const deleteItem = deleteItems[di];
const mostRightIndexToCheck = min(structs.length - 1, 1 + findIndexSS(structs, deleteItem.clock + deleteItem.len - 1));
for (let si = mostRightIndexToCheck, struct = structs[si]; si > 0 && struct.id.clock >= deleteItem.clock; struct = structs[si]) {
si -= 1 + tryToMergeWithLefts(structs, si);
}
}
});
};
var tryGc = (ds, store, gcFilter) => {
tryGcDeleteSet(ds, store, gcFilter);
tryMergeDeleteSet(ds, store);
};
var cleanupTransactions = (transactionCleanups, i) => {
if (i < transactionCleanups.length) {
const transaction = transactionCleanups[i];
const doc2 = transaction.doc;
const store = doc2.store;
const ds = transaction.deleteSet;
const mergeStructs = transaction._mergeStructs;
try {
sortAndMergeDeleteSet(ds);
transaction.afterState = getStateVector(transaction.doc.store);
doc2.emit("beforeObserverCalls", [transaction, doc2]);
const fs = [];
transaction.changed.forEach(
(subs, itemtype) => fs.push(() => {
if (itemtype._item === null || !itemtype._item.deleted) {
itemtype._callObserver(transaction, subs);
}
})
);
fs.push(() => {
transaction.changedParentTypes.forEach((events, type) => {
if (type._dEH.l.length > 0 && (type._item === null || !type._item.deleted)) {
events = events.filter(
(event) => event.target._item === null || !event.target._item.deleted
);
events.forEach((event) => {
event.currentTarget = type;
event._path = null;
});
events.sort((event1, event2) => event1.path.length - event2.path.length);
fs.push(() => {
callEventHandlerListeners(type._dEH, events, transaction);
});
}
});
fs.push(() => doc2.emit("afterTransaction", [transaction, doc2]));
fs.push(() => {
if (transaction._needFormattingCleanup) {
cleanupYTextAfterTransaction(transaction);
}
});
});
callAll(fs, []);
} finally {
if (doc2.gc) {
tryGcDeleteSet(ds, store, doc2.gcFilter);
}
tryMergeDeleteSet(ds, store);
transaction.afterState.forEach((clock, client) => {
const beforeClock = transaction.beforeState.get(client) || 0;
if (beforeClock !== clock) {
const structs = (
/** @type {Array<GC|Item>} */
store.clients.get(client)
);
const firstChangePos = max(findIndexSS(structs, beforeClock), 1);
for (let i2 = structs.length - 1; i2 >= firstChangePos; ) {
i2 -= 1 + tryToMergeWithLefts(structs, i2);
}
}
});
for (let i2 = mergeStructs.length - 1; i2 >= 0; i2--) {
const { client, clock } = mergeStructs[i2].id;
const structs = (
/** @type {Array<GC|Item>} */
store.clients.get(client)
);
const replacedStructPos = findIndexSS(structs, clock);
if (replacedStructPos + 1 < structs.length) {
if (tryToMergeWithLefts(structs, replacedStructPos + 1) > 1) {
continue;
}
}
if (replacedStructPos > 0) {
tryToMergeWithLefts(structs, replacedStructPos);
}
}
if (!transaction.local && transaction.afterState.get(doc2.clientID) !== transaction.beforeState.get(doc2.clientID)) {
print(ORANGE, BOLD, "[yjs] ", UNBOLD, RED, "Changed the client-id because another client seems to be using it.");
doc2.clientID = generateNewClientId();
}
doc2.emit("afterTransactionCleanup", [transaction, doc2]);
if (doc2._observers.has("update")) {
const encoder = new UpdateEncoderV1();
const hasContent2 = writeUpdateMessageFromTransaction(encoder, transaction);
if (hasContent2) {
doc2.emit("update", [encoder.toUint8Array(), transaction.origin, doc2, transaction]);
}
}
if (doc2._observers.has("updateV2")) {
const encoder = new UpdateEncoderV2();
const hasContent2 = writeUpdateMessageFromTransaction(encoder, transaction);
if (hasContent2) {
doc2.emit("updateV2", [encoder.toUint8Array(), transaction.origin, doc2, transaction]);
}
}
const { subdocsAdded, subdocsLoaded, subdocsRemoved } = transaction;
if (subdocsAdded.size > 0 || subdocsRemoved.size > 0 || subdocsLoaded.size > 0) {
subdocsAdded.forEach((subdoc) => {
subdoc.clientID = doc2.clientID;
if (subdoc.collectionid == null) {
subdoc.collectionid = doc2.collectionid;
}
doc2.subdocs.add(subdoc);
});
subdocsRemoved.forEach((subdoc) => doc2.subdocs.delete(subdoc));
doc2.emit("subdocs", [{ loaded: subdocsLoaded, added: subdocsAdded, removed: subdocsRemoved }, doc2, transaction]);
subdocsRemoved.forEach((subdoc) => subdoc.destroy());
}
if (transactionCleanups.length <= i + 1) {
doc2._transactionCleanups = [];
doc2.emit("afterAllTransactions", [doc2, transactionCleanups]);
} else {
cleanupTransactions(transactionCleanups, i + 1);
}
}
}
};
var transact = (doc2, f, origin2 = null, local = true) => {
const transactionCleanups = doc2._transactionCleanups;
let initialCall = false;
let result = null;
if (doc2._transaction === null) {
initialCall = true;
doc2._transaction = new Transaction(doc2, origin2, local);
transactionCleanups.push(doc2._transaction);
if (transactionCleanups.length === 1) {
doc2.emit("beforeAllTransactions", [doc2]);
}
doc2.emit("beforeTransaction", [doc2._transaction, doc2]);
}
try {
result = f(doc2._transaction);
} finally {
if (initialCall) {
const finishCleanup = doc2._transaction === transactionCleanups[0];
doc2._transaction = null;
if (finishCleanup) {
cleanupTransactions(transactionCleanups, 0);
}
}
}
return result;
};
var StackItem = class {
/**
* @param {DeleteSet} deletions
* @param {DeleteSet} insertions
*/
constructor(deletions, insertions) {
this.insertions = insertions;
this.deletions = deletions;
this.meta = /* @__PURE__ */ new Map();
}
};
var clearUndoManagerStackItem = (tr, um, stackItem) => {
iterateDeletedStructs(tr, stackItem.deletions, (item) => {
if (item instanceof Item && um.scope.some((type) => type === tr.doc || isParentOf(
/** @type {AbstractType<any>} */
type,
item
))) {
keepItem(item, false);
}
});
};
var popStackItem = (undoManager, stack, eventType) => {
let _tr = null;
const doc2 = undoManager.doc;
const scope = undoManager.scope;
transact(doc2, (transaction) => {
while (stack.length > 0 && undoManager.currStackItem === null) {
const store = doc2.store;
const stackItem = (
/** @type {StackItem} */
stack.pop()
);
const itemsToRedo = /* @__PURE__ */ new Set();
const itemsToDelete = [];
let performedChange = false;
iterateDeletedStructs(transaction, stackItem.insertions, (struct) => {
if (struct instanceof Item) {
if (struct.redone !== null) {
let { item, diff } = followRedone(store, struct.id);
if (diff > 0) {
item = getItemCleanStart(transaction, createID(item.id.client, item.id.clock + diff));
}
struct = item;
}
if (!struct.deleted && scope.some((type) => type === transaction.doc || isParentOf(
/** @type {AbstractType<any>} */
type,
/** @type {Item} */
struct
))) {
itemsToDelete.push(struct);
}
}
});
iterateDeletedStructs(transaction, stackItem.deletions, (struct) => {
if (struct instanceof Item && scope.some((type) => type === transaction.doc || isParentOf(
/** @type {AbstractType<any>} */
type,
struct
)) && // Never redo structs in stackItem.insertions because they were created and deleted in the same capture interval.
!isDeleted(stackItem.insertions, struct.id)) {
itemsToRedo.add(struct);
}
});
itemsToRedo.forEach((struct) => {
performedChange = redoItem(transaction, struct, itemsToRedo, stackItem.insertions, undoManager.ignoreRemoteMapChanges, undoManager) !== null || performedChange;
});
for (let i = itemsToDelete.length - 1; i >= 0; i--) {
const item = itemsToDelete[i];
if (undoManager.deleteFilter(item)) {
item.delete(transaction);
performedChange = true;
}
}
undoManager.currStackItem = performedChange ? stackItem : null;
}
transaction.changed.forEach((subProps, type) => {
if (subProps.has(null) && type._searchMarker) {
type._searchMarker.length = 0;
}
});
_tr = transaction;
}, undoManager);
const res = undoManager.currStackItem;
if (res != null) {
const changedParentTypes = _tr.changedParentTypes;
undoManager.emit("stack-item-popped", [{ stackItem: res, type: eventType, changedParentTypes, origin: undoManager }, undoManager]);
undoManager.currStackItem = null;
}
return res;
};
var UndoManager = class extends ObservableV2 {
/**
* @param {Doc|AbstractType<any>|Array<AbstractType<any>>} typeScope Limits the scope of the UndoManager. If this is set to a ydoc instance, all changes on that ydoc will be undone. If set to a specific type, only changes on that type or its children will be undone. Also accepts an array of types.
* @param {UndoManagerOptions} options
*/
constructor(typeScope, {
captureTimeout = 500,
captureTransaction = (_tr) => true,
deleteFilter = () => true,
trackedOrigins = /* @__PURE__ */ new Set([null]),
ignoreRemoteMapChanges = false,
doc: doc2 = (
/** @type {Doc} */
isArray(typeScope) ? typeScope[0].doc : typeScope instanceof Doc ? typeScope : typeScope.doc
)
} = {}) {
super();
this.scope = [];
this.doc = doc2;
this.addToScope(typeScope);
this.deleteFilter = deleteFilter;
trackedOrigins.add(this);
this.trackedOrigins = trackedOrigins;
this.captureTransaction = captureTransaction;
this.undoStack = [];
this.redoStack = [];
this.undoing = false;
this.redoing = false;
this.currStackItem = null;
this.lastChange = 0;
this.ignoreRemoteMapChanges = ignoreRemoteMapChanges;
this.captureTimeout = captureTimeout;
this.afterTransactionHandler = (transaction) => {
if (!this.captureTransaction(transaction) || !this.scope.some((type) => transaction.changedParentTypes.has(
/** @type {AbstractType<any>} */
type
) || type === this.doc) || !this.trackedOrigins.has(transaction.origin) && (!transaction.origin || !this.trackedOrigins.has(transaction.origin.constructor))) {
return;
}
const undoing = this.undoing;
const redoing = this.redoing;
const stack = undoing ? this.redoStack : this.undoStack;
if (undoing) {
this.stopCapturing();
} else if (!redoing) {
this.clear(false, true);
}
const insertions = new DeleteSet();
transaction.afterState.forEach((endClock, client) => {
const startClock = transaction.beforeState.get(client) || 0;
const len = endClock - startClock;
if (len > 0) {
addToDeleteSet(insertions, client, startClock, len);
}
});
const now = getUnixTime();
let didAdd = false;
if (this.lastChange > 0 && now - this.lastChange < this.captureTimeout && stack.length > 0 && !undoing && !redoing) {
const lastOp = stack[stack.length - 1];
lastOp.deletions = mergeDeleteSets([lastOp.deletions, transaction.deleteSet]);
lastOp.insertions = mergeDeleteSets([lastOp.insertions, insertions]);
} else {
stack.push(new StackItem(transaction.deleteSet, insertions));
didAdd = true;
}
if (!undoing && !redoing) {
this.lastChange = now;
}
iterateDeletedStructs(
transaction,
transaction.deleteSet,
/** @param {Item|GC} item */
(item) => {
if (item instanceof Item && this.scope.some((type) => type === transaction.doc || isParentOf(
/** @type {AbstractType<any>} */
type,
item
))) {
keepItem(item, true);
}
}
);
const changeEvent = [{ stackItem: stack[stack.length - 1], origin: transaction.origin, type: undoing ? "redo" : "undo", changedParentTypes: transaction.changedParentTypes }, this];
if (didAdd) {
this.emit("stack-item-added", changeEvent);
} else {
this.emit("stack-item-updated", changeEvent);
}
};
this.doc.on("afterTransaction", this.afterTransactionHandler);
this.doc.on("destroy", () => {
this.destroy();
});
}
/**
* Extend the scope.
*
* @param {Array<AbstractType<any> | Doc> | AbstractType<any> | Doc} ytypes
*/
addToScope(ytypes) {
const tmpSet = new Set(this.scope);
ytypes = isArray(ytypes) ? ytypes : [ytypes];
ytypes.forEach((ytype) => {
if (!tmpSet.has(ytype)) {
tmpSet.add(ytype);
if (ytype instanceof AbstractType ? ytype.doc !== this.doc : ytype !== this.doc) warn("[yjs#509] Not same Y.Doc");
this.scope.push(ytype);
}
});
}
/**
* @param {any} origin
*/
addTrackedOrigin(origin2) {
this.trackedOrigins.add(origin2);
}
/**
* @param {any} origin
*/
removeTrackedOrigin(origin2) {
this.trackedOrigins.delete(origin2);
}
clear(clearUndoStack = true, clearRedoStack = true) {
if (clearUndoStack && this.canUndo() || clearRedoStack && this.canRedo()) {
this.doc.transact((tr) => {
if (clearUndoStack) {
this.undoStack.forEach((item) => clearUndoManagerStackItem(tr, this, item));
this.undoStack = [];
}
if (clearRedoStack) {
this.redoStack.forEach((item) => clearUndoManagerStackItem(tr, this, item));
this.redoStack = [];
}
this.emit("stack-cleared", [{ undoStackCleared: clearUndoStack, redoStackCleared: clearRedoStack }]);
});
}
}
/**
* UndoManager merges Undo-StackItem if they are created within time-gap
* smaller than `options.captureTimeout`. Call `um.stopCapturing()` so that the next
* StackItem won't be merged.
*
*
* @example
* // without stopCapturing
* ytext.insert(0, 'a')
* ytext.insert(1, 'b')
* um.undo()
* ytext.toString() // => '' (note that 'ab' was removed)
* // with stopCapturing
* ytext.insert(0, 'a')
* um.stopCapturing()
* ytext.insert(0, 'b')
* um.undo()
* ytext.toString() // => 'a' (note that only 'b' was removed)
*
*/
stopCapturing() {
this.lastChange = 0;
}
/**
* Undo last changes on type.
*
* @return {StackItem?} Returns StackItem if a change was applied
*/
undo() {
this.undoing = true;
let res;
try {
res = popStackItem(this, this.undoStack, "undo");
} finally {
this.undoing = false;
}
return res;
}
/**
* Redo last undo operation.
*
* @return {StackItem?} Returns StackItem if a change was applied
*/
redo() {
this.redoing = true;
let res;
try {
res = popStackItem(this, this.redoStack, "redo");
} finally {
this.redoing = false;
}
return res;
}
/**
* Are undo steps available?
*
* @return {boolean} `true` if undo is possible
*/
canUndo() {
return this.undoStack.length > 0;
}
/**
* Are redo steps available?
*
* @return {boolean} `true` if redo is possible
*/
canRedo() {
return this.redoStack.length > 0;
}
destroy() {
this.trackedOrigins.delete(this);
this.doc.off("afterTransaction", this.afterTransactionHandler);
super.destroy();
}
};
function* lazyStructReaderGenerator(decoder) {
const numOfStateUpdates = readVarUint(decoder.restDecoder);
for (let i = 0; i < numOfStateUpdates; i++) {
const numberOfStructs = readVarUint(decoder.restDecoder);
const client = decoder.readClient();
let clock = readVarUint(decoder.restDecoder);
for (let i2 = 0; i2 < numberOfStructs; i2++) {
const info = decoder.readInfo();
if (info === 10) {
const len = readVarUint(decoder.restDecoder);
yield new Skip(createID(client, clock), len);
clock += len;
} else if ((BITS5 & info) !== 0) {
const cantCopyParentInfo = (info & (BIT7 | BIT8)) === 0;
const struct = new Item(
createID(client, clock),
null,
// left
(info & BIT8) === BIT8 ? decoder.readLeftID() : null,
// origin
null,
// right
(info & BIT7) === BIT7 ? decoder.readRightID() : null,
// right origin
// @ts-ignore Force writing a string here.
cantCopyParentInfo ? decoder.readParentInfo() ? decoder.readString() : decoder.readLeftID() : null,
// parent
cantCopyParentInfo && (info & BIT6) === BIT6 ? decoder.readString() : null,
// parentSub
readItemContent(decoder, info)
// item content
);
yield struct;
clock += struct.length;
} else {
const len = decoder.readLen();
yield new GC(createID(client, clock), len);
clock += len;
}
}
}
}
var LazyStructReader = class {
/**
* @param {UpdateDecoderV1 | UpdateDecoderV2} decoder
* @param {boolean} filterSkips
*/
constructor(decoder, filterSkips) {
this.gen = lazyStructReaderGenerator(decoder);
this.curr = null;
this.done = false;
this.filterSkips = filterSkips;
this.next();
}
/**
* @return {Item | GC | Skip |null}
*/
next() {
do {
this.curr = this.gen.next().value || null;
} while (this.filterSkips && this.curr !== null && this.curr.constructor === Skip);
return this.curr;
}
};
var logUpdate = (update) => logUpdateV2(update, UpdateDecoderV1);
var logUpdateV2 = (update, YDecoder = UpdateDecoderV2) => {
const structs = [];
const updateDecoder = new YDecoder(createDecoder(update));
const lazyDecoder = new LazyStructReader(updateDecoder, false);
for (let curr = lazyDecoder.curr; curr !== null; curr = lazyDecoder.next()) {
structs.push(curr);
}
print("Structs: ", structs);
const ds = readDeleteSet(updateDecoder);
print("DeleteSet: ", ds);
};
var decodeUpdate = (update) => decodeUpdateV2(update, UpdateDecoderV1);
var decodeUpdateV2 = (update, YDecoder = UpdateDecoderV2) => {
const structs = [];
const updateDecoder = new YDecoder(createDecoder(update));
const lazyDecoder = new LazyStructReader(updateDecoder, false);
for (let curr = lazyDecoder.curr; curr !== null; curr = lazyDecoder.next()) {
structs.push(curr);
}
return {
structs,
ds: readDeleteSet(updateDecoder)
};
};
var LazyStructWriter = class {
/**
* @param {UpdateEncoderV1 | UpdateEncoderV2} encoder
*/
constructor(encoder) {
this.currClient = 0;
this.startClock = 0;
this.written = 0;
this.encoder = encoder;
this.clientStructs = [];
}
};
var mergeUpdates = (updates) => mergeUpdatesV2(updates, UpdateDecoderV1, UpdateEncoderV1);
var encodeStateVectorFromUpdateV2 = (update, YEncoder = DSEncoderV2, YDecoder = UpdateDecoderV2) => {
const encoder = new YEncoder();
const updateDecoder = new LazyStructReader(new YDecoder(createDecoder(update)), false);
let curr = updateDecoder.curr;
if (curr !== null) {
let size2 = 0;
let currClient = curr.id.client;
let stopCounting = curr.id.clock !== 0;
let currClock = stopCounting ? 0 : curr.id.clock + curr.length;
for (; curr !== null; curr = updateDecoder.next()) {
if (currClient !== curr.id.client) {
if (currClock !== 0) {
size2++;
writeVarUint(encoder.restEncoder, currClient);
writeVarUint(encoder.restEncoder, currClock);
}
currClient = curr.id.client;
currClock = 0;
stopCounting = curr.id.clock !== 0;
}
if (curr.constructor === Skip) {
stopCounting = true;
}
if (!stopCounting) {
currClock = curr.id.clock + curr.length;
}
}
if (currClock !== 0) {
size2++;
writeVarUint(encoder.restEncoder, currClient);
writeVarUint(encoder.restEncoder, currClock);
}
const enc = createEncoder();
writeVarUint(enc, size2);
writeBinaryEncoder(enc, encoder.restEncoder);
encoder.restEncoder = enc;
return encoder.toUint8Array();
} else {
writeVarUint(encoder.restEncoder, 0);
return encoder.toUint8Array();
}
};
var encodeStateVectorFromUpdate = (update) => encodeStateVectorFromUpdateV2(update, DSEncoderV1, UpdateDecoderV1);
var parseUpdateMetaV2 = (update, YDecoder = UpdateDecoderV2) => {
const from2 = /* @__PURE__ */ new Map();
const to = /* @__PURE__ */ new Map();
const updateDecoder = new LazyStructReader(new YDecoder(createDecoder(update)), false);
let curr = updateDecoder.curr;
if (curr !== null) {
let currClient = curr.id.client;
let currClock = curr.id.clock;
from2.set(currClient, currClock);
for (; curr !== null; curr = updateDecoder.next()) {
if (currClient !== curr.id.client) {
to.set(currClient, currClock);
from2.set(curr.id.client, curr.id.clock);
currClient = curr.id.client;
}
currClock = curr.id.clock + curr.length;
}
to.set(currClient, currClock);
}
return { from: from2, to };
};
var parseUpdateMeta = (update) => parseUpdateMetaV2(update, UpdateDecoderV1);
var sliceStruct = (left, diff) => {
if (left.constructor === GC) {
const { client, clock } = left.id;
return new GC(createID(client, clock + diff), left.length - diff);
} else if (left.constructor === Skip) {
const { client, clock } = left.id;
return new Skip(createID(client, clock + diff), left.length - diff);
} else {
const leftItem = (
/** @type {Item} */
left
);
const { client, clock } = leftItem.id;
return new Item(
createID(client, clock + diff),
null,
createID(client, clock + diff - 1),
null,
leftItem.rightOrigin,
leftItem.parent,
leftItem.parentSub,
leftItem.content.splice(diff)
);
}
};
var mergeUpdatesV2 = (updates, YDecoder = UpdateDecoderV2, YEncoder = UpdateEncoderV2) => {
if (updates.length === 1) {
return updates[0];
}
const updateDecoders = updates.map((update) => new YDecoder(createDecoder(update)));
let lazyStructDecoders = updateDecoders.map((decoder) => new LazyStructReader(decoder, true));
let currWrite = null;
const updateEncoder = new YEncoder();
const lazyStructEncoder = new LazyStructWriter(updateEncoder);
while (true) {
lazyStructDecoders = lazyStructDecoders.filter((dec) => dec.curr !== null);
lazyStructDecoders.sort(
/** @type {function(any,any):number} */
(dec1, dec2) => {
if (dec1.curr.id.client === dec2.curr.id.client) {
const clockDiff = dec1.curr.id.clock - dec2.curr.id.clock;
if (clockDiff === 0) {
return dec1.curr.constructor === dec2.curr.constructor ? 0 : dec1.curr.constructor === Skip ? 1 : -1;
} else {
return clockDiff;
}
} else {
return dec2.curr.id.client - dec1.curr.id.client;
}
}
);
if (lazyStructDecoders.length === 0) {
break;
}
const currDecoder = lazyStructDecoders[0];
const firstClient = (
/** @type {Item | GC} */
currDecoder.curr.id.client
);
if (currWrite !== null) {
let curr = (
/** @type {Item | GC | null} */
currDecoder.curr
);
let iterated = false;
while (curr !== null && curr.id.clock + curr.length <= currWrite.struct.id.clock + currWrite.struct.length && curr.id.client >= currWrite.struct.id.client) {
curr = currDecoder.next();
iterated = true;
}
if (curr === null || // current decoder is empty
curr.id.client !== firstClient || // check whether there is another decoder that has has updates from `firstClient`
iterated && curr.id.clock > currWrite.struct.id.clock + currWrite.struct.length) {
continue;
}
if (firstClient !== currWrite.struct.id.client) {
writeStructToLazyStructWriter(lazyStructEncoder, currWrite.struct, currWrite.offset);
currWrite = { struct: curr, offset: 0 };
currDecoder.next();
} else {
if (currWrite.struct.id.clock + currWrite.struct.length < curr.id.clock) {
if (currWrite.struct.constructor === Skip) {
currWrite.struct.length = curr.id.clock + curr.length - currWrite.struct.id.clock;
} else {
writeStructToLazyStructWriter(lazyStructEncoder, currWrite.struct, currWrite.offset);
const diff = curr.id.clock - currWrite.struct.id.clock - currWrite.struct.length;
const struct = new Skip(createID(firstClient, currWrite.struct.id.clock + currWrite.struct.length), diff);
currWrite = { struct, offset: 0 };
}
} else {
const diff = currWrite.struct.id.clock + currWrite.struct.length - curr.id.clock;
if (diff > 0) {
if (currWrite.struct.constructor === Skip) {
currWrite.struct.length -= diff;
} else {
curr = sliceStruct(curr, diff);
}
}
if (!currWrite.struct.mergeWith(
/** @type {any} */
curr
)) {
writeStructToLazyStructWriter(lazyStructEncoder, currWrite.struct, currWrite.offset);
currWrite = { struct: curr, offset: 0 };
currDecoder.next();
}
}
}
} else {
currWrite = { struct: (
/** @type {Item | GC} */
currDecoder.curr
), offset: 0 };
currDecoder.next();
}
for (let next = currDecoder.curr; next !== null && next.id.client === firstClient && next.id.clock === currWrite.struct.id.clock + currWrite.struct.length && next.constructor !== Skip; next = currDecoder.next()) {
writeStructToLazyStructWriter(lazyStructEncoder, currWrite.struct, currWrite.offset);
currWrite = { struct: next, offset: 0 };
}
}
if (currWrite !== null) {
writeStructToLazyStructWriter(lazyStructEncoder, currWrite.struct, currWrite.offset);
currWrite = null;
}
finishLazyStructWriting(lazyStructEncoder);
const dss = updateDecoders.map((decoder) => readDeleteSet(decoder));
const ds = mergeDeleteSets(dss);
writeDeleteSet(updateEncoder, ds);
return updateEncoder.toUint8Array();
};
var diffUpdateV2 = (update, sv, YDecoder = UpdateDecoderV2, YEncoder = UpdateEncoderV2) => {
const state = decodeStateVector(sv);
const encoder = new YEncoder();
const lazyStructWriter = new LazyStructWriter(encoder);
const decoder = new YDecoder(createDecoder(update));
const reader = new LazyStructReader(decoder, false);
while (reader.curr) {
const curr = reader.curr;
const currClient = curr.id.client;
const svClock = state.get(currClient) || 0;
if (reader.curr.constructor === Skip) {
reader.next();
continue;
}
if (curr.id.clock + curr.length > svClock) {
writeStructToLazyStructWriter(lazyStructWriter, curr, max(svClock - curr.id.clock, 0));
reader.next();
while (reader.curr && reader.curr.id.client === currClient) {
writeStructToLazyStructWriter(lazyStructWriter, reader.curr, 0);
reader.next();
}
} else {
while (reader.curr && reader.curr.id.client === currClient && reader.curr.id.clock + reader.curr.length <= svClock) {
reader.next();
}
}
}
finishLazyStructWriting(lazyStructWriter);
const ds = readDeleteSet(decoder);
writeDeleteSet(encoder, ds);
return encoder.toUint8Array();
};
var diffUpdate = (update, sv) => diffUpdateV2(update, sv, UpdateDecoderV1, UpdateEncoderV1);
var flushLazyStructWriter = (lazyWriter) => {
if (lazyWriter.written > 0) {
lazyWriter.clientStructs.push({ written: lazyWriter.written, restEncoder: toUint8Array(lazyWriter.encoder.restEncoder) });
lazyWriter.encoder.restEncoder = createEncoder();
lazyWriter.written = 0;
}
};
var writeStructToLazyStructWriter = (lazyWriter, struct, offset) => {
if (lazyWriter.written > 0 && lazyWriter.currClient !== struct.id.client) {
flushLazyStructWriter(lazyWriter);
}
if (lazyWriter.written === 0) {
lazyWriter.currClient = struct.id.client;
lazyWriter.encoder.writeClient(struct.id.client);
writeVarUint(lazyWriter.encoder.restEncoder, struct.id.clock + offset);
}
struct.write(lazyWriter.encoder, offset);
lazyWriter.written++;
};
var finishLazyStructWriting = (lazyWriter) => {
flushLazyStructWriter(lazyWriter);
const restEncoder = lazyWriter.encoder.restEncoder;
writeVarUint(restEncoder, lazyWriter.clientStructs.length);
for (let i = 0; i < lazyWriter.clientStructs.length; i++) {
const partStructs = lazyWriter.clientStructs[i];
writeVarUint(restEncoder, partStructs.written);
writeUint8Array(restEncoder, partStructs.restEncoder);
}
};
var convertUpdateFormat = (update, blockTransformer, YDecoder, YEncoder) => {
const updateDecoder = new YDecoder(createDecoder(update));
const lazyDecoder = new LazyStructReader(updateDecoder, false);
const updateEncoder = new YEncoder();
const lazyWriter = new LazyStructWriter(updateEncoder);
for (let curr = lazyDecoder.curr; curr !== null; curr = lazyDecoder.next()) {
writeStructToLazyStructWriter(lazyWriter, blockTransformer(curr), 0);
}
finishLazyStructWriting(lazyWriter);
const ds = readDeleteSet(updateDecoder);
writeDeleteSet(updateEncoder, ds);
return updateEncoder.toUint8Array();
};
var createObfuscator = ({ formatting = true, subdocs = true, yxml = true } = {}) => {
let i = 0;
const mapKeyCache = create();
const nodeNameCache = create();
const formattingKeyCache = create();
const formattingValueCache = create();
formattingValueCache.set(null, null);
return (block) => {
switch (block.constructor) {
case GC:
case Skip:
return block;
case Item: {
const item = (
/** @type {Item} */
block
);
const content = item.content;
switch (content.constructor) {
case ContentDeleted:
break;
case ContentType: {
if (yxml) {
const type = (
/** @type {ContentType} */
content.type
);
if (type instanceof YXmlElement) {
type.nodeName = setIfUndefined(nodeNameCache, type.nodeName, () => "node-" + i);
}
if (type instanceof YXmlHook) {
type.hookName = setIfUndefined(nodeNameCache, type.hookName, () => "hook-" + i);
}
}
break;
}
case ContentAny: {
const c = (
/** @type {ContentAny} */
content
);
c.arr = c.arr.map(() => i);
break;
}
case ContentBinary: {
const c = (
/** @type {ContentBinary} */
content
);
c.content = new Uint8Array([i]);
break;
}
case ContentDoc: {
const c = (
/** @type {ContentDoc} */
content
);
if (subdocs) {
c.opts = {};
c.doc.guid = i + "";
}
break;
}
case ContentEmbed: {
const c = (
/** @type {ContentEmbed} */
content
);
c.embed = {};
break;
}
case ContentFormat: {
const c = (
/** @type {ContentFormat} */
content
);
if (formatting) {
c.key = setIfUndefined(formattingKeyCache, c.key, () => i + "");
c.value = setIfUndefined(formattingValueCache, c.value, () => ({ i }));
}
break;
}
case ContentJSON: {
const c = (
/** @type {ContentJSON} */
content
);
c.arr = c.arr.map(() => i);
break;
}
case ContentString: {
const c = (
/** @type {ContentString} */
content
);
c.str = repeat(i % 10 + "", c.str.length);
break;
}
default:
unexpectedCase();
}
if (item.parentSub) {
item.parentSub = setIfUndefined(mapKeyCache, item.parentSub, () => i + "");
}
i++;
return block;
}
default:
unexpectedCase();
}
};
};
var obfuscateUpdate = (update, opts) => convertUpdateFormat(update, createObfuscator(opts), UpdateDecoderV1, UpdateEncoderV1);
var obfuscateUpdateV2 = (update, opts) => convertUpdateFormat(update, createObfuscator(opts), UpdateDecoderV2, UpdateEncoderV2);
var convertUpdateFormatV1ToV2 = (update) => convertUpdateFormat(update, id, UpdateDecoderV1, UpdateEncoderV2);
var convertUpdateFormatV2ToV1 = (update) => convertUpdateFormat(update, id, UpdateDecoderV2, UpdateEncoderV1);
var errorComputeChanges = "You must not compute changes after the event-handler fired.";
var YEvent = class {
/**
* @param {T} target The changed type.
* @param {Transaction} transaction
*/
constructor(target, transaction) {
this.target = target;
this.currentTarget = target;
this.transaction = transaction;
this._changes = null;
this._keys = null;
this._delta = null;
this._path = null;
}
/**
* Computes the path from `y` to the changed type.
*
* @todo v14 should standardize on path: Array<{parent, index}> because that is easier to work with.
*
* The following property holds:
* @example
* let type = y
* event.path.forEach(dir => {
* type = type.get(dir)
* })
* type === event.target // => true
*/
get path() {
return this._path || (this._path = getPathTo(this.currentTarget, this.target));
}
/**
* Check if a struct is deleted by this event.
*
* In contrast to change.deleted, this method also returns true if the struct was added and then deleted.
*
* @param {AbstractStruct} struct
* @return {boolean}
*/
deletes(struct) {
return isDeleted(this.transaction.deleteSet, struct.id);
}
/**
* @type {Map<string, { action: 'add' | 'update' | 'delete', oldValue: any }>}
*/
get keys() {
if (this._keys === null) {
if (this.transaction.doc._transactionCleanups.length === 0) {
throw create3(errorComputeChanges);
}
const keys2 = /* @__PURE__ */ new Map();
const target = this.target;
const changed = (
/** @type Set<string|null> */
this.transaction.changed.get(target)
);
changed.forEach((key) => {
if (key !== null) {
const item = (
/** @type {Item} */
target._map.get(key)
);
let action;
let oldValue;
if (this.adds(item)) {
let prev = item.left;
while (prev !== null && this.adds(prev)) {
prev = prev.left;
}
if (this.deletes(item)) {
if (prev !== null && this.deletes(prev)) {
action = "delete";
oldValue = last(prev.content.getContent());
} else {
return;
}
} else {
if (prev !== null && this.deletes(prev)) {
action = "update";
oldValue = last(prev.content.getContent());
} else {
action = "add";
oldValue = void 0;
}
}
} else {
if (this.deletes(item)) {
action = "delete";
oldValue = last(
/** @type {Item} */
item.content.getContent()
);
} else {
return;
}
}
keys2.set(key, { action, oldValue });
}
});
this._keys = keys2;
}
return this._keys;
}
/**
* This is a computed property. Note that this can only be safely computed during the
* event call. Computing this property after other changes happened might result in
* unexpected behavior (incorrect computation of deltas). A safe way to collect changes
* is to store the `changes` or the `delta` object. Avoid storing the `transaction` object.
*
* @type {Array<{insert?: string | Array<any> | object | AbstractType<any>, retain?: number, delete?: number, attributes?: Object<string, any>}>}
*/
get delta() {
return this.changes.delta;
}
/**
* Check if a struct is added by this event.
*
* In contrast to change.deleted, this method also returns true if the struct was added and then deleted.
*
* @param {AbstractStruct} struct
* @return {boolean}
*/
adds(struct) {
return struct.id.clock >= (this.transaction.beforeState.get(struct.id.client) || 0);
}
/**
* This is a computed property. Note that this can only be safely computed during the
* event call. Computing this property after other changes happened might result in
* unexpected behavior (incorrect computation of deltas). A safe way to collect changes
* is to store the `changes` or the `delta` object. Avoid storing the `transaction` object.
*
* @type {{added:Set<Item>,deleted:Set<Item>,keys:Map<string,{action:'add'|'update'|'delete',oldValue:any}>,delta:Array<{insert?:Array<any>|string, delete?:number, retain?:number}>}}
*/
get changes() {
let changes = this._changes;
if (changes === null) {
if (this.transaction.doc._transactionCleanups.length === 0) {
throw create3(errorComputeChanges);
}
const target = this.target;
const added = create2();
const deleted = create2();
const delta = [];
changes = {
added,
deleted,
delta,
keys: this.keys
};
const changed = (
/** @type Set<string|null> */
this.transaction.changed.get(target)
);
if (changed.has(null)) {
let lastOp = null;
const packOp = () => {
if (lastOp) {
delta.push(lastOp);
}
};
for (let item = target._start; item !== null; item = item.right) {
if (item.deleted) {
if (this.deletes(item) && !this.adds(item)) {
if (lastOp === null || lastOp.delete === void 0) {
packOp();
lastOp = { delete: 0 };
}
lastOp.delete += item.length;
deleted.add(item);
}
} else {
if (this.adds(item)) {
if (lastOp === null || lastOp.insert === void 0) {
packOp();
lastOp = { insert: [] };
}
lastOp.insert = lastOp.insert.concat(item.content.getContent());
added.add(item);
} else {
if (lastOp === null || lastOp.retain === void 0) {
packOp();
lastOp = { retain: 0 };
}
lastOp.retain += item.length;
}
}
}
if (lastOp !== null && lastOp.retain === void 0) {
packOp();
}
}
this._changes = changes;
}
return (
/** @type {any} */
changes
);
}
};
var getPathTo = (parent, child) => {
const path = [];
while (child._item !== null && child !== parent) {
if (child._item.parentSub !== null) {
path.unshift(child._item.parentSub);
} else {
let i = 0;
let c = (
/** @type {AbstractType<any>} */
child._item.parent._start
);
while (c !== child._item && c !== null) {
if (!c.deleted && c.countable) {
i += c.length;
}
c = c.right;
}
path.unshift(i);
}
child = /** @type {AbstractType<any>} */
child._item.parent;
}
return path;
};
var warnPrematureAccess = () => {
warn("Invalid access: Add Yjs type to a document before reading data.");
};
var maxSearchMarker = 80;
var globalSearchMarkerTimestamp = 0;
var ArraySearchMarker = class {
/**
* @param {Item} p
* @param {number} index
*/
constructor(p, index) {
p.marker = true;
this.p = p;
this.index = index;
this.timestamp = globalSearchMarkerTimestamp++;
}
};
var refreshMarkerTimestamp = (marker) => {
marker.timestamp = globalSearchMarkerTimestamp++;
};
var overwriteMarker = (marker, p, index) => {
marker.p.marker = false;
marker.p = p;
p.marker = true;
marker.index = index;
marker.timestamp = globalSearchMarkerTimestamp++;
};
var markPosition = (searchMarker, p, index) => {
if (searchMarker.length >= maxSearchMarker) {
const marker = searchMarker.reduce((a, b) => a.timestamp < b.timestamp ? a : b);
overwriteMarker(marker, p, index);
return marker;
} else {
const pm = new ArraySearchMarker(p, index);
searchMarker.push(pm);
return pm;
}
};
var findMarker = (yarray, index) => {
if (yarray._start === null || index === 0 || yarray._searchMarker === null) {
return null;
}
const marker = yarray._searchMarker.length === 0 ? null : yarray._searchMarker.reduce((a, b) => abs(index - a.index) < abs(index - b.index) ? a : b);
let p = yarray._start;
let pindex = 0;
if (marker !== null) {
p = marker.p;
pindex = marker.index;
refreshMarkerTimestamp(marker);
}
while (p.right !== null && pindex < index) {
if (!p.deleted && p.countable) {
if (index < pindex + p.length) {
break;
}
pindex += p.length;
}
p = p.right;
}
while (p.left !== null && pindex > index) {
p = p.left;
if (!p.deleted && p.countable) {
pindex -= p.length;
}
}
while (p.left !== null && p.left.id.client === p.id.client && p.left.id.clock + p.left.length === p.id.clock) {
p = p.left;
if (!p.deleted && p.countable) {
pindex -= p.length;
}
}
if (marker !== null && abs(marker.index - pindex) < /** @type {YText|YArray<any>} */
p.parent.length / maxSearchMarker) {
overwriteMarker(marker, p, pindex);
return marker;
} else {
return markPosition(yarray._searchMarker, p, pindex);
}
};
var updateMarkerChanges = (searchMarker, index, len) => {
for (let i = searchMarker.length - 1; i >= 0; i--) {
const m = searchMarker[i];
if (len > 0) {
let p = m.p;
p.marker = false;
while (p && (p.deleted || !p.countable)) {
p = p.left;
if (p && !p.deleted && p.countable) {
m.index -= p.length;
}
}
if (p === null || p.marker === true) {
searchMarker.splice(i, 1);
continue;
}
m.p = p;
p.marker = true;
}
if (index < m.index || len > 0 && index === m.index) {
m.index = max(index, m.index + len);
}
}
};
var getTypeChildren = (t) => {
t.doc ?? warnPrematureAccess();
let s = t._start;
const arr = [];
while (s) {
arr.push(s);
s = s.right;
}
return arr;
};
var callTypeObservers = (type, transaction, event) => {
const changedType = type;
const changedParentTypes = transaction.changedParentTypes;
while (true) {
setIfUndefined(changedParentTypes, type, () => []).push(event);
if (type._item === null) {
break;
}
type = /** @type {AbstractType<any>} */
type._item.parent;
}
callEventHandlerListeners(changedType._eH, event, transaction);
};
var AbstractType = class {
constructor() {
this._item = null;
this._map = /* @__PURE__ */ new Map();
this._start = null;
this.doc = null;
this._length = 0;
this._eH = createEventHandler();
this._dEH = createEventHandler();
this._searchMarker = null;
}
/**
* @return {AbstractType<any>|null}
*/
get parent() {
return this._item ? (
/** @type {AbstractType<any>} */
this._item.parent
) : null;
}
/**
* Integrate this type into the Yjs instance.
*
* * Save this struct in the os
* * This type is sent to other client
* * Observer functions are fired
*
* @param {Doc} y The Yjs instance
* @param {Item|null} item
*/
_integrate(y, item) {
this.doc = y;
this._item = item;
}
/**
* @return {AbstractType<EventType>}
*/
_copy() {
throw methodUnimplemented();
}
/**
* Makes a copy of this data type that can be included somewhere else.
*
* Note that the content is only readable _after_ it has been included somewhere in the Ydoc.
*
* @return {AbstractType<EventType>}
*/
clone() {
throw methodUnimplemented();
}
/**
* @param {UpdateEncoderV1 | UpdateEncoderV2} _encoder
*/
_write(_encoder) {
}
/**
* The first non-deleted item
*/
get _first() {
let n = this._start;
while (n !== null && n.deleted) {
n = n.right;
}
return n;
}
/**
* Creates YEvent and calls all type observers.
* Must be implemented by each type.
*
* @param {Transaction} transaction
* @param {Set<null|string>} _parentSubs Keys changed on this type. `null` if list was modified.
*/
_callObserver(transaction, _parentSubs) {
if (!transaction.local && this._searchMarker) {
this._searchMarker.length = 0;
}
}
/**
* Observe all events that are created on this type.
*
* @param {function(EventType, Transaction):void} f Observer function
*/
observe(f) {
addEventHandlerListener(this._eH, f);
}
/**
* Observe all events that are created by this type and its children.
*
* @param {function(Array<YEvent<any>>,Transaction):void} f Observer function
*/
observeDeep(f) {
addEventHandlerListener(this._dEH, f);
}
/**
* Unregister an observer function.
*
* @param {function(EventType,Transaction):void} f Observer function
*/
unobserve(f) {
removeEventHandlerListener(this._eH, f);
}
/**
* Unregister an observer function.
*
* @param {function(Array<YEvent<any>>,Transaction):void} f Observer function
*/
unobserveDeep(f) {
removeEventHandlerListener(this._dEH, f);
}
/**
* @abstract
* @return {any}
*/
toJSON() {
}
};
var typeListSlice = (type, start, end) => {
type.doc ?? warnPrematureAccess();
if (start < 0) {
start = type._length + start;
}
if (end < 0) {
end = type._length + end;
}
let len = end - start;
const cs = [];
let n = type._start;
while (n !== null && len > 0) {
if (n.countable && !n.deleted) {
const c = n.content.getContent();
if (c.length <= start) {
start -= c.length;
} else {
for (let i = start; i < c.length && len > 0; i++) {
cs.push(c[i]);
len--;
}
start = 0;
}
}
n = n.right;
}
return cs;
};
var typeListToArray = (type) => {
type.doc ?? warnPrematureAccess();
const cs = [];
let n = type._start;
while (n !== null) {
if (n.countable && !n.deleted) {
const c = n.content.getContent();
for (let i = 0; i < c.length; i++) {
cs.push(c[i]);
}
}
n = n.right;
}
return cs;
};
var typeListToArraySnapshot = (type, snapshot2) => {
const cs = [];
let n = type._start;
while (n !== null) {
if (n.countable && isVisible(n, snapshot2)) {
const c = n.content.getContent();
for (let i = 0; i < c.length; i++) {
cs.push(c[i]);
}
}
n = n.right;
}
return cs;
};
var typeListForEach = (type, f) => {
let index = 0;
let n = type._start;
type.doc ?? warnPrematureAccess();
while (n !== null) {
if (n.countable && !n.deleted) {
const c = n.content.getContent();
for (let i = 0; i < c.length; i++) {
f(c[i], index++, type);
}
}
n = n.right;
}
};
var typeListMap = (type, f) => {
const result = [];
typeListForEach(type, (c, i) => {
result.push(f(c, i, type));
});
return result;
};
var typeListCreateIterator = (type) => {
let n = type._start;
let currentContent = null;
let currentContentIndex = 0;
return {
[Symbol.iterator]() {
return this;
},
next: () => {
if (currentContent === null) {
while (n !== null && n.deleted) {
n = n.right;
}
if (n === null) {
return {
done: true,
value: void 0
};
}
currentContent = n.content.getContent();
currentContentIndex = 0;
n = n.right;
}
const value = currentContent[currentContentIndex++];
if (currentContent.length <= currentContentIndex) {
currentContent = null;
}
return {
done: false,
value
};
}
};
};
var typeListGet = (type, index) => {
type.doc ?? warnPrematureAccess();
const marker = findMarker(type, index);
let n = type._start;
if (marker !== null) {
n = marker.p;
index -= marker.index;
}
for (; n !== null; n = n.right) {
if (!n.deleted && n.countable) {
if (index < n.length) {
return n.content.getContent()[index];
}
index -= n.length;
}
}
};
var typeListInsertGenericsAfter = (transaction, parent, referenceItem, content) => {
let left = referenceItem;
const doc2 = transaction.doc;
const ownClientId = doc2.clientID;
const store = doc2.store;
const right = referenceItem === null ? parent._start : referenceItem.right;
let jsonContent = [];
const packJsonContent = () => {
if (jsonContent.length > 0) {
left = new Item(createID(ownClientId, getState(store, ownClientId)), left, left && left.lastId, right, right && right.id, parent, null, new ContentAny(jsonContent));
left.integrate(transaction, 0);
jsonContent = [];
}
};
content.forEach((c) => {
if (c === null) {
jsonContent.push(c);
} else {
switch (c.constructor) {
case Number:
case Object:
case Boolean:
case Array:
case String:
jsonContent.push(c);
break;
default:
packJsonContent();
switch (c.constructor) {
case Uint8Array:
case ArrayBuffer:
left = new Item(createID(ownClientId, getState(store, ownClientId)), left, left && left.lastId, right, right && right.id, parent, null, new ContentBinary(new Uint8Array(
/** @type {Uint8Array} */
c
)));
left.integrate(transaction, 0);
break;
case Doc:
left = new Item(createID(ownClientId, getState(store, ownClientId)), left, left && left.lastId, right, right && right.id, parent, null, new ContentDoc(
/** @type {Doc} */
c
));
left.integrate(transaction, 0);
break;
default:
if (c instanceof AbstractType) {
left = new Item(createID(ownClientId, getState(store, ownClientId)), left, left && left.lastId, right, right && right.id, parent, null, new ContentType(c));
left.integrate(transaction, 0);
} else {
throw new Error("Unexpected content type in insert operation");
}
}
}
}
});
packJsonContent();
};
var lengthExceeded = () => create3("Length exceeded!");
var typeListInsertGenerics = (transaction, parent, index, content) => {
if (index > parent._length) {
throw lengthExceeded();
}
if (index === 0) {
if (parent._searchMarker) {
updateMarkerChanges(parent._searchMarker, index, content.length);
}
return typeListInsertGenericsAfter(transaction, parent, null, content);
}
const startIndex = index;
const marker = findMarker(parent, index);
let n = parent._start;
if (marker !== null) {
n = marker.p;
index -= marker.index;
if (index === 0) {
n = n.prev;
index += n && n.countable && !n.deleted ? n.length : 0;
}
}
for (; n !== null; n = n.right) {
if (!n.deleted && n.countable) {
if (index <= n.length) {
if (index < n.length) {
getItemCleanStart(transaction, createID(n.id.client, n.id.clock + index));
}
break;
}
index -= n.length;
}
}
if (parent._searchMarker) {
updateMarkerChanges(parent._searchMarker, startIndex, content.length);
}
return typeListInsertGenericsAfter(transaction, parent, n, content);
};
var typeListPushGenerics = (transaction, parent, content) => {
const marker = (parent._searchMarker || []).reduce((maxMarker, currMarker) => currMarker.index > maxMarker.index ? currMarker : maxMarker, { index: 0, p: parent._start });
let n = marker.p;
if (n) {
while (n.right) {
n = n.right;
}
}
return typeListInsertGenericsAfter(transaction, parent, n, content);
};
var typeListDelete = (transaction, parent, index, length3) => {
if (length3 === 0) {
return;
}
const startIndex = index;
const startLength = length3;
const marker = findMarker(parent, index);
let n = parent._start;
if (marker !== null) {
n = marker.p;
index -= marker.index;
}
for (; n !== null && index > 0; n = n.right) {
if (!n.deleted && n.countable) {
if (index < n.length) {
getItemCleanStart(transaction, createID(n.id.client, n.id.clock + index));
}
index -= n.length;
}
}
while (length3 > 0 && n !== null) {
if (!n.deleted) {
if (length3 < n.length) {
getItemCleanStart(transaction, createID(n.id.client, n.id.clock + length3));
}
n.delete(transaction);
length3 -= n.length;
}
n = n.right;
}
if (length3 > 0) {
throw lengthExceeded();
}
if (parent._searchMarker) {
updateMarkerChanges(
parent._searchMarker,
startIndex,
-startLength + length3
/* in case we remove the above exception */
);
}
};
var typeMapDelete = (transaction, parent, key) => {
const c = parent._map.get(key);
if (c !== void 0) {
c.delete(transaction);
}
};
var typeMapSet = (transaction, parent, key, value) => {
const left = parent._map.get(key) || null;
const doc2 = transaction.doc;
const ownClientId = doc2.clientID;
let content;
if (value == null) {
content = new ContentAny([value]);
} else {
switch (value.constructor) {
case Number:
case Object:
case Boolean:
case Array:
case String:
case Date:
case BigInt:
content = new ContentAny([value]);
break;
case Uint8Array:
content = new ContentBinary(
/** @type {Uint8Array} */
value
);
break;
case Doc:
content = new ContentDoc(
/** @type {Doc} */
value
);
break;
default:
if (value instanceof AbstractType) {
content = new ContentType(value);
} else {
throw new Error("Unexpected content type");
}
}
}
new Item(createID(ownClientId, getState(doc2.store, ownClientId)), left, left && left.lastId, null, null, parent, key, content).integrate(transaction, 0);
};
var typeMapGet = (parent, key) => {
parent.doc ?? warnPrematureAccess();
const val = parent._map.get(key);
return val !== void 0 && !val.deleted ? val.content.getContent()[val.length - 1] : void 0;
};
var typeMapGetAll = (parent) => {
const res = {};
parent.doc ?? warnPrematureAccess();
parent._map.forEach((value, key) => {
if (!value.deleted) {
res[key] = value.content.getContent()[value.length - 1];
}
});
return res;
};
var typeMapHas = (parent, key) => {
parent.doc ?? warnPrematureAccess();
const val = parent._map.get(key);
return val !== void 0 && !val.deleted;
};
var typeMapGetSnapshot = (parent, key, snapshot2) => {
let v = parent._map.get(key) || null;
while (v !== null && (!snapshot2.sv.has(v.id.client) || v.id.clock >= (snapshot2.sv.get(v.id.client) || 0))) {
v = v.left;
}
return v !== null && isVisible(v, snapshot2) ? v.content.getContent()[v.length - 1] : void 0;
};
var typeMapGetAllSnapshot = (parent, snapshot2) => {
const res = {};
parent._map.forEach((value, key) => {
let v = value;
while (v !== null && (!snapshot2.sv.has(v.id.client) || v.id.clock >= (snapshot2.sv.get(v.id.client) || 0))) {
v = v.left;
}
if (v !== null && isVisible(v, snapshot2)) {
res[key] = v.content.getContent()[v.length - 1];
}
});
return res;
};
var createMapIterator = (type) => {
type.doc ?? warnPrematureAccess();
return iteratorFilter(
type._map.entries(),
/** @param {any} entry */
(entry) => !entry[1].deleted
);
};
var YArrayEvent = class extends YEvent {
};
var YArray = class _YArray extends AbstractType {
constructor() {
super();
this._prelimContent = [];
this._searchMarker = [];
}
/**
* Construct a new YArray containing the specified items.
* @template {Object<string,any>|Array<any>|number|null|string|Uint8Array} T
* @param {Array<T>} items
* @return {YArray<T>}
*/
static from(items) {
const a = new _YArray();
a.push(items);
return a;
}
/**
* Integrate this type into the Yjs instance.
*
* * Save this struct in the os
* * This type is sent to other client
* * Observer functions are fired
*
* @param {Doc} y The Yjs instance
* @param {Item} item
*/
_integrate(y, item) {
super._integrate(y, item);
this.insert(
0,
/** @type {Array<any>} */
this._prelimContent
);
this._prelimContent = null;
}
/**
* @return {YArray<T>}
*/
_copy() {
return new _YArray();
}
/**
* Makes a copy of this data type that can be included somewhere else.
*
* Note that the content is only readable _after_ it has been included somewhere in the Ydoc.
*
* @return {YArray<T>}
*/
clone() {
const arr = new _YArray();
arr.insert(0, this.toArray().map(
(el) => el instanceof AbstractType ? (
/** @type {typeof el} */
el.clone()
) : el
));
return arr;
}
get length() {
this.doc ?? warnPrematureAccess();
return this._length;
}
/**
* Creates YArrayEvent and calls observers.
*
* @param {Transaction} transaction
* @param {Set<null|string>} parentSubs Keys changed on this type. `null` if list was modified.
*/
_callObserver(transaction, parentSubs) {
super._callObserver(transaction, parentSubs);
callTypeObservers(this, transaction, new YArrayEvent(this, transaction));
}
/**
* Inserts new content at an index.
*
* Important: This function expects an array of content. Not just a content
* object. The reason for this "weirdness" is that inserting several elements
* is very efficient when it is done as a single operation.
*
* @example
* // Insert character 'a' at position 0
* yarray.insert(0, ['a'])
* // Insert numbers 1, 2 at position 1
* yarray.insert(1, [1, 2])
*
* @param {number} index The index to insert content at.
* @param {Array<T>} content The array of content
*/
insert(index, content) {
if (this.doc !== null) {
transact(this.doc, (transaction) => {
typeListInsertGenerics(
transaction,
this,
index,
/** @type {any} */
content
);
});
} else {
this._prelimContent.splice(index, 0, ...content);
}
}
/**
* Appends content to this YArray.
*
* @param {Array<T>} content Array of content to append.
*
* @todo Use the following implementation in all types.
*/
push(content) {
if (this.doc !== null) {
transact(this.doc, (transaction) => {
typeListPushGenerics(
transaction,
this,
/** @type {any} */
content
);
});
} else {
this._prelimContent.push(...content);
}
}
/**
* Prepends content to this YArray.
*
* @param {Array<T>} content Array of content to prepend.
*/
unshift(content) {
this.insert(0, content);
}
/**
* Deletes elements starting from an index.
*
* @param {number} index Index at which to start deleting elements
* @param {number} length The number of elements to remove. Defaults to 1.
*/
delete(index, length3 = 1) {
if (this.doc !== null) {
transact(this.doc, (transaction) => {
typeListDelete(transaction, this, index, length3);
});
} else {
this._prelimContent.splice(index, length3);
}
}
/**
* Returns the i-th element from a YArray.
*
* @param {number} index The index of the element to return from the YArray
* @return {T}
*/
get(index) {
return typeListGet(this, index);
}
/**
* Transforms this YArray to a JavaScript Array.
*
* @return {Array<T>}
*/
toArray() {
return typeListToArray(this);
}
/**
* Returns a portion of this YArray into a JavaScript Array selected
* from start to end (end not included).
*
* @param {number} [start]
* @param {number} [end]
* @return {Array<T>}
*/
slice(start = 0, end = this.length) {
return typeListSlice(this, start, end);
}
/**
* Transforms this Shared Type to a JSON object.
*
* @return {Array<any>}
*/
toJSON() {
return this.map((c) => c instanceof AbstractType ? c.toJSON() : c);
}
/**
* Returns an Array with the result of calling a provided function on every
* element of this YArray.
*
* @template M
* @param {function(T,number,YArray<T>):M} f Function that produces an element of the new Array
* @return {Array<M>} A new array with each element being the result of the
* callback function
*/
map(f) {
return typeListMap(
this,
/** @type {any} */
f
);
}
/**
* Executes a provided function once on every element of this YArray.
*
* @param {function(T,number,YArray<T>):void} f A function to execute on every element of this YArray.
*/
forEach(f) {
typeListForEach(this, f);
}
/**
* @return {IterableIterator<T>}
*/
[Symbol.iterator]() {
return typeListCreateIterator(this);
}
/**
* @param {UpdateEncoderV1 | UpdateEncoderV2} encoder
*/
_write(encoder) {
encoder.writeTypeRef(YArrayRefID);
}
};
var readYArray = (_decoder) => new YArray();
var YMapEvent = class extends YEvent {
/**
* @param {YMap<T>} ymap The YArray that changed.
* @param {Transaction} transaction
* @param {Set<any>} subs The keys that changed.
*/
constructor(ymap, transaction, subs) {
super(ymap, transaction);
this.keysChanged = subs;
}
};
var YMap = class _YMap extends AbstractType {
/**
*
* @param {Iterable<readonly [string, any]>=} entries - an optional iterable to initialize the YMap
*/
constructor(entries) {
super();
this._prelimContent = null;
if (entries === void 0) {
this._prelimContent = /* @__PURE__ */ new Map();
} else {
this._prelimContent = new Map(entries);
}
}
/**
* Integrate this type into the Yjs instance.
*
* * Save this struct in the os
* * This type is sent to other client
* * Observer functions are fired
*
* @param {Doc} y The Yjs instance
* @param {Item} item
*/
_integrate(y, item) {
super._integrate(y, item);
this._prelimContent.forEach((value, key) => {
this.set(key, value);
});
this._prelimContent = null;
}
/**
* @return {YMap<MapType>}
*/
_copy() {
return new _YMap();
}
/**
* Makes a copy of this data type that can be included somewhere else.
*
* Note that the content is only readable _after_ it has been included somewhere in the Ydoc.
*
* @return {YMap<MapType>}
*/
clone() {
const map2 = new _YMap();
this.forEach((value, key) => {
map2.set(key, value instanceof AbstractType ? (
/** @type {typeof value} */
value.clone()
) : value);
});
return map2;
}
/**
* Creates YMapEvent and calls observers.
*
* @param {Transaction} transaction
* @param {Set<null|string>} parentSubs Keys changed on this type. `null` if list was modified.
*/
_callObserver(transaction, parentSubs) {
callTypeObservers(this, transaction, new YMapEvent(this, transaction, parentSubs));
}
/**
* Transforms this Shared Type to a JSON object.
*
* @return {Object<string,any>}
*/
toJSON() {
this.doc ?? warnPrematureAccess();
const map2 = {};
this._map.forEach((item, key) => {
if (!item.deleted) {
const v = item.content.getContent()[item.length - 1];
map2[key] = v instanceof AbstractType ? v.toJSON() : v;
}
});
return map2;
}
/**
* Returns the size of the YMap (count of key/value pairs)
*
* @return {number}
*/
get size() {
return [...createMapIterator(this)].length;
}
/**
* Returns the keys for each element in the YMap Type.
*
* @return {IterableIterator<string>}
*/
keys() {
return iteratorMap(
createMapIterator(this),
/** @param {any} v */
(v) => v[0]
);
}
/**
* Returns the values for each element in the YMap Type.
*
* @return {IterableIterator<MapType>}
*/
values() {
return iteratorMap(
createMapIterator(this),
/** @param {any} v */
(v) => v[1].content.getContent()[v[1].length - 1]
);
}
/**
* Returns an Iterator of [key, value] pairs
*
* @return {IterableIterator<[string, MapType]>}
*/
entries() {
return iteratorMap(
createMapIterator(this),
/** @param {any} v */
(v) => (
/** @type {any} */
[v[0], v[1].content.getContent()[v[1].length - 1]]
)
);
}
/**
* Executes a provided function on once on every key-value pair.
*
* @param {function(MapType,string,YMap<MapType>):void} f A function to execute on every element of this YArray.
*/
forEach(f) {
this.doc ?? warnPrematureAccess();
this._map.forEach((item, key) => {
if (!item.deleted) {
f(item.content.getContent()[item.length - 1], key, this);
}
});
}
/**
* Returns an Iterator of [key, value] pairs
*
* @return {IterableIterator<[string, MapType]>}
*/
[Symbol.iterator]() {
return this.entries();
}
/**
* Remove a specified element from this YMap.
*
* @param {string} key The key of the element to remove.
*/
delete(key) {
if (this.doc !== null) {
transact(this.doc, (transaction) => {
typeMapDelete(transaction, this, key);
});
} else {
this._prelimContent.delete(key);
}
}
/**
* Adds or updates an element with a specified key and value.
* @template {MapType} VAL
*
* @param {string} key The key of the element to add to this YMap
* @param {VAL} value The value of the element to add
* @return {VAL}
*/
set(key, value) {
if (this.doc !== null) {
transact(this.doc, (transaction) => {
typeMapSet(
transaction,
this,
key,
/** @type {any} */
value
);
});
} else {
this._prelimContent.set(key, value);
}
return value;
}
/**
* Returns a specified element from this YMap.
*
* @param {string} key
* @return {MapType|undefined}
*/
get(key) {
return (
/** @type {any} */
typeMapGet(this, key)
);
}
/**
* Returns a boolean indicating whether the specified key exists or not.
*
* @param {string} key The key to test.
* @return {boolean}
*/
has(key) {
return typeMapHas(this, key);
}
/**
* Removes all elements from this YMap.
*/
clear() {
if (this.doc !== null) {
transact(this.doc, (transaction) => {
this.forEach(function(_value, key, map2) {
typeMapDelete(transaction, map2, key);
});
});
} else {
this._prelimContent.clear();
}
}
/**
* @param {UpdateEncoderV1 | UpdateEncoderV2} encoder
*/
_write(encoder) {
encoder.writeTypeRef(YMapRefID);
}
};
var readYMap = (_decoder) => new YMap();
var equalAttrs = (a, b) => a === b || typeof a === "object" && typeof b === "object" && a && b && equalFlat(a, b);
var ItemTextListPosition = class {
/**
* @param {Item|null} left
* @param {Item|null} right
* @param {number} index
* @param {Map<string,any>} currentAttributes
*/
constructor(left, right, index, currentAttributes) {
this.left = left;
this.right = right;
this.index = index;
this.currentAttributes = currentAttributes;
}
/**
* Only call this if you know that this.right is defined
*/
forward() {
if (this.right === null) {
unexpectedCase();
}
switch (this.right.content.constructor) {
case ContentFormat:
if (!this.right.deleted) {
updateCurrentAttributes(
this.currentAttributes,
/** @type {ContentFormat} */
this.right.content
);
}
break;
default:
if (!this.right.deleted) {
this.index += this.right.length;
}
break;
}
this.left = this.right;
this.right = this.right.right;
}
};
var findNextPosition = (transaction, pos, count) => {
while (pos.right !== null && count > 0) {
switch (pos.right.content.constructor) {
case ContentFormat:
if (!pos.right.deleted) {
updateCurrentAttributes(
pos.currentAttributes,
/** @type {ContentFormat} */
pos.right.content
);
}
break;
default:
if (!pos.right.deleted) {
if (count < pos.right.length) {
getItemCleanStart(transaction, createID(pos.right.id.client, pos.right.id.clock + count));
}
pos.index += pos.right.length;
count -= pos.right.length;
}
break;
}
pos.left = pos.right;
pos.right = pos.right.right;
}
return pos;
};
var findPosition = (transaction, parent, index, useSearchMarker) => {
const currentAttributes = /* @__PURE__ */ new Map();
const marker = useSearchMarker ? findMarker(parent, index) : null;
if (marker) {
const pos = new ItemTextListPosition(marker.p.left, marker.p, marker.index, currentAttributes);
return findNextPosition(transaction, pos, index - marker.index);
} else {
const pos = new ItemTextListPosition(null, parent._start, 0, currentAttributes);
return findNextPosition(transaction, pos, index);
}
};
var insertNegatedAttributes = (transaction, parent, currPos, negatedAttributes) => {
while (currPos.right !== null && (currPos.right.deleted === true || currPos.right.content.constructor === ContentFormat && equalAttrs(
negatedAttributes.get(
/** @type {ContentFormat} */
currPos.right.content.key
),
/** @type {ContentFormat} */
currPos.right.content.value
))) {
if (!currPos.right.deleted) {
negatedAttributes.delete(
/** @type {ContentFormat} */
currPos.right.content.key
);
}
currPos.forward();
}
const doc2 = transaction.doc;
const ownClientId = doc2.clientID;
negatedAttributes.forEach((val, key) => {
const left = currPos.left;
const right = currPos.right;
const nextFormat = new Item(createID(ownClientId, getState(doc2.store, ownClientId)), left, left && left.lastId, right, right && right.id, parent, null, new ContentFormat(key, val));
nextFormat.integrate(transaction, 0);
currPos.right = nextFormat;
currPos.forward();
});
};
var updateCurrentAttributes = (currentAttributes, format) => {
const { key, value } = format;
if (value === null) {
currentAttributes.delete(key);
} else {
currentAttributes.set(key, value);
}
};
var minimizeAttributeChanges = (currPos, attributes) => {
while (true) {
if (currPos.right === null) {
break;
} else if (currPos.right.deleted || currPos.right.content.constructor === ContentFormat && equalAttrs(
attributes[
/** @type {ContentFormat} */
currPos.right.content.key
] ?? null,
/** @type {ContentFormat} */
currPos.right.content.value
)) ;
else {
break;
}
currPos.forward();
}
};
var insertAttributes = (transaction, parent, currPos, attributes) => {
const doc2 = transaction.doc;
const ownClientId = doc2.clientID;
const negatedAttributes = /* @__PURE__ */ new Map();
for (const key in attributes) {
const val = attributes[key];
const currentVal = currPos.currentAttributes.get(key) ?? null;
if (!equalAttrs(currentVal, val)) {
negatedAttributes.set(key, currentVal);
const { left, right } = currPos;
currPos.right = new Item(createID(ownClientId, getState(doc2.store, ownClientId)), left, left && left.lastId, right, right && right.id, parent, null, new ContentFormat(key, val));
currPos.right.integrate(transaction, 0);
currPos.forward();
}
}
return negatedAttributes;
};
var insertText = (transaction, parent, currPos, text2, attributes) => {
currPos.currentAttributes.forEach((_val, key) => {
if (attributes[key] === void 0) {
attributes[key] = null;
}
});
const doc2 = transaction.doc;
const ownClientId = doc2.clientID;
minimizeAttributeChanges(currPos, attributes);
const negatedAttributes = insertAttributes(transaction, parent, currPos, attributes);
const content = text2.constructor === String ? new ContentString(
/** @type {string} */
text2
) : text2 instanceof AbstractType ? new ContentType(text2) : new ContentEmbed(text2);
let { left, right, index } = currPos;
if (parent._searchMarker) {
updateMarkerChanges(parent._searchMarker, currPos.index, content.getLength());
}
right = new Item(createID(ownClientId, getState(doc2.store, ownClientId)), left, left && left.lastId, right, right && right.id, parent, null, content);
right.integrate(transaction, 0);
currPos.right = right;
currPos.index = index;
currPos.forward();
insertNegatedAttributes(transaction, parent, currPos, negatedAttributes);
};
var formatText = (transaction, parent, currPos, length3, attributes) => {
const doc2 = transaction.doc;
const ownClientId = doc2.clientID;
minimizeAttributeChanges(currPos, attributes);
const negatedAttributes = insertAttributes(transaction, parent, currPos, attributes);
iterationLoop: while (currPos.right !== null && (length3 > 0 || negatedAttributes.size > 0 && (currPos.right.deleted || currPos.right.content.constructor === ContentFormat))) {
if (!currPos.right.deleted) {
switch (currPos.right.content.constructor) {
case ContentFormat: {
const { key, value } = (
/** @type {ContentFormat} */
currPos.right.content
);
const attr = attributes[key];
if (attr !== void 0) {
if (equalAttrs(attr, value)) {
negatedAttributes.delete(key);
} else {
if (length3 === 0) {
break iterationLoop;
}
negatedAttributes.set(key, value);
}
currPos.right.delete(transaction);
} else {
currPos.currentAttributes.set(key, value);
}
break;
}
default:
if (length3 < currPos.right.length) {
getItemCleanStart(transaction, createID(currPos.right.id.client, currPos.right.id.clock + length3));
}
length3 -= currPos.right.length;
break;
}
}
currPos.forward();
}
if (length3 > 0) {
let newlines = "";
for (; length3 > 0; length3--) {
newlines += "\n";
}
currPos.right = new Item(createID(ownClientId, getState(doc2.store, ownClientId)), currPos.left, currPos.left && currPos.left.lastId, currPos.right, currPos.right && currPos.right.id, parent, null, new ContentString(newlines));
currPos.right.integrate(transaction, 0);
currPos.forward();
}
insertNegatedAttributes(transaction, parent, currPos, negatedAttributes);
};
var cleanupFormattingGap = (transaction, start, curr, startAttributes, currAttributes) => {
let end = start;
const endFormats = create();
while (end && (!end.countable || end.deleted)) {
if (!end.deleted && end.content.constructor === ContentFormat) {
const cf = (
/** @type {ContentFormat} */
end.content
);
endFormats.set(cf.key, cf);
}
end = end.right;
}
let cleanups = 0;
let reachedCurr = false;
while (start !== end) {
if (curr === start) {
reachedCurr = true;
}
if (!start.deleted) {
const content = start.content;
switch (content.constructor) {
case ContentFormat: {
const { key, value } = (
/** @type {ContentFormat} */
content
);
const startAttrValue = startAttributes.get(key) ?? null;
if (endFormats.get(key) !== content || startAttrValue === value) {
start.delete(transaction);
cleanups++;
if (!reachedCurr && (currAttributes.get(key) ?? null) === value && startAttrValue !== value) {
if (startAttrValue === null) {
currAttributes.delete(key);
} else {
currAttributes.set(key, startAttrValue);
}
}
}
if (!reachedCurr && !start.deleted) {
updateCurrentAttributes(
currAttributes,
/** @type {ContentFormat} */
content
);
}
break;
}
}
}
start = /** @type {Item} */
start.right;
}
return cleanups;
};
var cleanupContextlessFormattingGap = (transaction, item) => {
while (item && item.right && (item.right.deleted || !item.right.countable)) {
item = item.right;
}
const attrs = /* @__PURE__ */ new Set();
while (item && (item.deleted || !item.countable)) {
if (!item.deleted && item.content.constructor === ContentFormat) {
const key = (
/** @type {ContentFormat} */
item.content.key
);
if (attrs.has(key)) {
item.delete(transaction);
} else {
attrs.add(key);
}
}
item = item.left;
}
};
var cleanupYTextFormatting = (type) => {
let res = 0;
transact(
/** @type {Doc} */
type.doc,
(transaction) => {
let start = (
/** @type {Item} */
type._start
);
let end = type._start;
let startAttributes = create();
const currentAttributes = copy(startAttributes);
while (end) {
if (end.deleted === false) {
switch (end.content.constructor) {
case ContentFormat:
updateCurrentAttributes(
currentAttributes,
/** @type {ContentFormat} */
end.content
);
break;
default:
res += cleanupFormattingGap(transaction, start, end, startAttributes, currentAttributes);
startAttributes = copy(currentAttributes);
start = end;
break;
}
}
end = end.right;
}
}
);
return res;
};
var cleanupYTextAfterTransaction = (transaction) => {
const needFullCleanup = /* @__PURE__ */ new Set();
const doc2 = transaction.doc;
for (const [client, afterClock] of transaction.afterState.entries()) {
const clock = transaction.beforeState.get(client) || 0;
if (afterClock === clock) {
continue;
}
iterateStructs(
transaction,
/** @type {Array<Item|GC>} */
doc2.store.clients.get(client),
clock,
afterClock,
(item) => {
if (!item.deleted && /** @type {Item} */
item.content.constructor === ContentFormat && item.constructor !== GC) {
needFullCleanup.add(
/** @type {any} */
item.parent
);
}
}
);
}
transact(doc2, (t) => {
iterateDeletedStructs(transaction, transaction.deleteSet, (item) => {
if (item instanceof GC || !/** @type {YText} */
item.parent._hasFormatting || needFullCleanup.has(
/** @type {YText} */
item.parent
)) {
return;
}
const parent = (
/** @type {YText} */
item.parent
);
if (item.content.constructor === ContentFormat) {
needFullCleanup.add(parent);
} else {
cleanupContextlessFormattingGap(t, item);
}
});
for (const yText of needFullCleanup) {
cleanupYTextFormatting(yText);
}
});
};
var deleteText = (transaction, currPos, length3) => {
const startLength = length3;
const startAttrs = copy(currPos.currentAttributes);
const start = currPos.right;
while (length3 > 0 && currPos.right !== null) {
if (currPos.right.deleted === false) {
switch (currPos.right.content.constructor) {
case ContentType:
case ContentEmbed:
case ContentString:
if (length3 < currPos.right.length) {
getItemCleanStart(transaction, createID(currPos.right.id.client, currPos.right.id.clock + length3));
}
length3 -= currPos.right.length;
currPos.right.delete(transaction);
break;
}
}
currPos.forward();
}
if (start) {
cleanupFormattingGap(transaction, start, currPos.right, startAttrs, currPos.currentAttributes);
}
const parent = (
/** @type {AbstractType<any>} */
/** @type {Item} */
(currPos.left || currPos.right).parent
);
if (parent._searchMarker) {
updateMarkerChanges(parent._searchMarker, currPos.index, -startLength + length3);
}
return currPos;
};
var YTextEvent = class extends YEvent {
/**
* @param {YText} ytext
* @param {Transaction} transaction
* @param {Set<any>} subs The keys that changed
*/
constructor(ytext, transaction, subs) {
super(ytext, transaction);
this.childListChanged = false;
this.keysChanged = /* @__PURE__ */ new Set();
subs.forEach((sub) => {
if (sub === null) {
this.childListChanged = true;
} else {
this.keysChanged.add(sub);
}
});
}
/**
* @type {{added:Set<Item>,deleted:Set<Item>,keys:Map<string,{action:'add'|'update'|'delete',oldValue:any}>,delta:Array<{insert?:Array<any>|string, delete?:number, retain?:number}>}}
*/
get changes() {
if (this._changes === null) {
const changes = {
keys: this.keys,
delta: this.delta,
added: /* @__PURE__ */ new Set(),
deleted: /* @__PURE__ */ new Set()
};
this._changes = changes;
}
return (
/** @type {any} */
this._changes
);
}
/**
* Compute the changes in the delta format.
* A {@link https://quilljs.com/docs/delta/|Quill Delta}) that represents the changes on the document.
*
* @type {Array<{insert?:string|object|AbstractType<any>, delete?:number, retain?:number, attributes?: Object<string,any>}>}
*
* @public
*/
get delta() {
if (this._delta === null) {
const y = (
/** @type {Doc} */
this.target.doc
);
const delta = [];
transact(y, (transaction) => {
const currentAttributes = /* @__PURE__ */ new Map();
const oldAttributes = /* @__PURE__ */ new Map();
let item = this.target._start;
let action = null;
const attributes = {};
let insert = "";
let retain = 0;
let deleteLen = 0;
const addOp = () => {
if (action !== null) {
let op = null;
switch (action) {
case "delete":
if (deleteLen > 0) {
op = { delete: deleteLen };
}
deleteLen = 0;
break;
case "insert":
if (typeof insert === "object" || insert.length > 0) {
op = { insert };
if (currentAttributes.size > 0) {
op.attributes = {};
currentAttributes.forEach((value, key) => {
if (value !== null) {
op.attributes[key] = value;
}
});
}
}
insert = "";
break;
case "retain":
if (retain > 0) {
op = { retain };
if (!isEmpty(attributes)) {
op.attributes = assign({}, attributes);
}
}
retain = 0;
break;
}
if (op) delta.push(op);
action = null;
}
};
while (item !== null) {
switch (item.content.constructor) {
case ContentType:
case ContentEmbed:
if (this.adds(item)) {
if (!this.deletes(item)) {
addOp();
action = "insert";
insert = item.content.getContent()[0];
addOp();
}
} else if (this.deletes(item)) {
if (action !== "delete") {
addOp();
action = "delete";
}
deleteLen += 1;
} else if (!item.deleted) {
if (action !== "retain") {
addOp();
action = "retain";
}
retain += 1;
}
break;
case ContentString:
if (this.adds(item)) {
if (!this.deletes(item)) {
if (action !== "insert") {
addOp();
action = "insert";
}
insert += /** @type {ContentString} */
item.content.str;
}
} else if (this.deletes(item)) {
if (action !== "delete") {
addOp();
action = "delete";
}
deleteLen += item.length;
} else if (!item.deleted) {
if (action !== "retain") {
addOp();
action = "retain";
}
retain += item.length;
}
break;
case ContentFormat: {
const { key, value } = (
/** @type {ContentFormat} */
item.content
);
if (this.adds(item)) {
if (!this.deletes(item)) {
const curVal = currentAttributes.get(key) ?? null;
if (!equalAttrs(curVal, value)) {
if (action === "retain") {
addOp();
}
if (equalAttrs(value, oldAttributes.get(key) ?? null)) {
delete attributes[key];
} else {
attributes[key] = value;
}
} else if (value !== null) {
item.delete(transaction);
}
}
} else if (this.deletes(item)) {
oldAttributes.set(key, value);
const curVal = currentAttributes.get(key) ?? null;
if (!equalAttrs(curVal, value)) {
if (action === "retain") {
addOp();
}
attributes[key] = curVal;
}
} else if (!item.deleted) {
oldAttributes.set(key, value);
const attr = attributes[key];
if (attr !== void 0) {
if (!equalAttrs(attr, value)) {
if (action === "retain") {
addOp();
}
if (value === null) {
delete attributes[key];
} else {
attributes[key] = value;
}
} else if (attr !== null) {
item.delete(transaction);
}
}
}
if (!item.deleted) {
if (action === "insert") {
addOp();
}
updateCurrentAttributes(
currentAttributes,
/** @type {ContentFormat} */
item.content
);
}
break;
}
}
item = item.right;
}
addOp();
while (delta.length > 0) {
const lastOp = delta[delta.length - 1];
if (lastOp.retain !== void 0 && lastOp.attributes === void 0) {
delta.pop();
} else {
break;
}
}
});
this._delta = delta;
}
return (
/** @type {any} */
this._delta
);
}
};
var YText = class _YText extends AbstractType {
/**
* @param {String} [string] The initial value of the YText.
*/
constructor(string) {
super();
this._pending = string !== void 0 ? [() => this.insert(0, string)] : [];
this._searchMarker = [];
this._hasFormatting = false;
}
/**
* Number of characters of this text type.
*
* @type {number}
*/
get length() {
this.doc ?? warnPrematureAccess();
return this._length;
}
/**
* @param {Doc} y
* @param {Item} item
*/
_integrate(y, item) {
super._integrate(y, item);
try {
this._pending.forEach((f) => f());
} catch (e) {
console.error(e);
}
this._pending = null;
}
_copy() {
return new _YText();
}
/**
* Makes a copy of this data type that can be included somewhere else.
*
* Note that the content is only readable _after_ it has been included somewhere in the Ydoc.
*
* @return {YText}
*/
clone() {
const text2 = new _YText();
text2.applyDelta(this.toDelta());
return text2;
}
/**
* Creates YTextEvent and calls observers.
*
* @param {Transaction} transaction
* @param {Set<null|string>} parentSubs Keys changed on this type. `null` if list was modified.
*/
_callObserver(transaction, parentSubs) {
super._callObserver(transaction, parentSubs);
const event = new YTextEvent(this, transaction, parentSubs);
callTypeObservers(this, transaction, event);
if (!transaction.local && this._hasFormatting) {
transaction._needFormattingCleanup = true;
}
}
/**
* Returns the unformatted string representation of this YText type.
*
* @public
*/
toString() {
this.doc ?? warnPrematureAccess();
let str = "";
let n = this._start;
while (n !== null) {
if (!n.deleted && n.countable && n.content.constructor === ContentString) {
str += /** @type {ContentString} */
n.content.str;
}
n = n.right;
}
return str;
}
/**
* Returns the unformatted string representation of this YText type.
*
* @return {string}
* @public
*/
toJSON() {
return this.toString();
}
/**
* Apply a {@link Delta} on this shared YText type.
*
* @param {Array<any>} delta The changes to apply on this element.
* @param {object} opts
* @param {boolean} [opts.sanitize] Sanitize input delta. Removes ending newlines if set to true.
*
*
* @public
*/
applyDelta(delta, { sanitize = true } = {}) {
if (this.doc !== null) {
transact(this.doc, (transaction) => {
const currPos = new ItemTextListPosition(null, this._start, 0, /* @__PURE__ */ new Map());
for (let i = 0; i < delta.length; i++) {
const op = delta[i];
if (op.insert !== void 0) {
const ins = !sanitize && typeof op.insert === "string" && i === delta.length - 1 && currPos.right === null && op.insert.slice(-1) === "\n" ? op.insert.slice(0, -1) : op.insert;
if (typeof ins !== "string" || ins.length > 0) {
insertText(transaction, this, currPos, ins, op.attributes || {});
}
} else if (op.retain !== void 0) {
formatText(transaction, this, currPos, op.retain, op.attributes || {});
} else if (op.delete !== void 0) {
deleteText(transaction, currPos, op.delete);
}
}
});
} else {
this._pending.push(() => this.applyDelta(delta));
}
}
/**
* Returns the Delta representation of this YText type.
*
* @param {Snapshot} [snapshot]
* @param {Snapshot} [prevSnapshot]
* @param {function('removed' | 'added', ID):any} [computeYChange]
* @return {any} The Delta representation of this type.
*
* @public
*/
toDelta(snapshot2, prevSnapshot, computeYChange) {
this.doc ?? warnPrematureAccess();
const ops = [];
const currentAttributes = /* @__PURE__ */ new Map();
const doc2 = (
/** @type {Doc} */
this.doc
);
let str = "";
let n = this._start;
function packStr() {
if (str.length > 0) {
const attributes = {};
let addAttributes = false;
currentAttributes.forEach((value, key) => {
addAttributes = true;
attributes[key] = value;
});
const op = { insert: str };
if (addAttributes) {
op.attributes = attributes;
}
ops.push(op);
str = "";
}
}
const computeDelta = () => {
while (n !== null) {
if (isVisible(n, snapshot2) || prevSnapshot !== void 0 && isVisible(n, prevSnapshot)) {
switch (n.content.constructor) {
case ContentString: {
const cur = currentAttributes.get("ychange");
if (snapshot2 !== void 0 && !isVisible(n, snapshot2)) {
if (cur === void 0 || cur.user !== n.id.client || cur.type !== "removed") {
packStr();
currentAttributes.set("ychange", computeYChange ? computeYChange("removed", n.id) : { type: "removed" });
}
} else if (prevSnapshot !== void 0 && !isVisible(n, prevSnapshot)) {
if (cur === void 0 || cur.user !== n.id.client || cur.type !== "added") {
packStr();
currentAttributes.set("ychange", computeYChange ? computeYChange("added", n.id) : { type: "added" });
}
} else if (cur !== void 0) {
packStr();
currentAttributes.delete("ychange");
}
str += /** @type {ContentString} */
n.content.str;
break;
}
case ContentType:
case ContentEmbed: {
packStr();
const op = {
insert: n.content.getContent()[0]
};
if (currentAttributes.size > 0) {
const attrs = (
/** @type {Object<string,any>} */
{}
);
op.attributes = attrs;
currentAttributes.forEach((value, key) => {
attrs[key] = value;
});
}
ops.push(op);
break;
}
case ContentFormat:
if (isVisible(n, snapshot2)) {
packStr();
updateCurrentAttributes(
currentAttributes,
/** @type {ContentFormat} */
n.content
);
}
break;
}
}
n = n.right;
}
packStr();
};
if (snapshot2 || prevSnapshot) {
transact(doc2, (transaction) => {
if (snapshot2) {
splitSnapshotAffectedStructs(transaction, snapshot2);
}
if (prevSnapshot) {
splitSnapshotAffectedStructs(transaction, prevSnapshot);
}
computeDelta();
}, "cleanup");
} else {
computeDelta();
}
return ops;
}
/**
* Insert text at a given index.
*
* @param {number} index The index at which to start inserting.
* @param {String} text The text to insert at the specified position.
* @param {TextAttributes} [attributes] Optionally define some formatting
* information to apply on the inserted
* Text.
* @public
*/
insert(index, text2, attributes) {
if (text2.length <= 0) {
return;
}
const y = this.doc;
if (y !== null) {
transact(y, (transaction) => {
const pos = findPosition(transaction, this, index, !attributes);
if (!attributes) {
attributes = {};
pos.currentAttributes.forEach((v, k) => {
attributes[k] = v;
});
}
insertText(transaction, this, pos, text2, attributes);
});
} else {
this._pending.push(() => this.insert(index, text2, attributes));
}
}
/**
* Inserts an embed at a index.
*
* @param {number} index The index to insert the embed at.
* @param {Object | AbstractType<any>} embed The Object that represents the embed.
* @param {TextAttributes} [attributes] Attribute information to apply on the
* embed
*
* @public
*/
insertEmbed(index, embed, attributes) {
const y = this.doc;
if (y !== null) {
transact(y, (transaction) => {
const pos = findPosition(transaction, this, index, !attributes);
insertText(transaction, this, pos, embed, attributes || {});
});
} else {
this._pending.push(() => this.insertEmbed(index, embed, attributes || {}));
}
}
/**
* Deletes text starting from an index.
*
* @param {number} index Index at which to start deleting.
* @param {number} length The number of characters to remove. Defaults to 1.
*
* @public
*/
delete(index, length3) {
if (length3 === 0) {
return;
}
const y = this.doc;
if (y !== null) {
transact(y, (transaction) => {
deleteText(transaction, findPosition(transaction, this, index, true), length3);
});
} else {
this._pending.push(() => this.delete(index, length3));
}
}
/**
* Assigns properties to a range of text.
*
* @param {number} index The position where to start formatting.
* @param {number} length The amount of characters to assign properties to.
* @param {TextAttributes} attributes Attribute information to apply on the
* text.
*
* @public
*/
format(index, length3, attributes) {
if (length3 === 0) {
return;
}
const y = this.doc;
if (y !== null) {
transact(y, (transaction) => {
const pos = findPosition(transaction, this, index, false);
if (pos.right === null) {
return;
}
formatText(transaction, this, pos, length3, attributes);
});
} else {
this._pending.push(() => this.format(index, length3, attributes));
}
}
/**
* Removes an attribute.
*
* @note Xml-Text nodes don't have attributes. You can use this feature to assign properties to complete text-blocks.
*
* @param {String} attributeName The attribute name that is to be removed.
*
* @public
*/
removeAttribute(attributeName) {
if (this.doc !== null) {
transact(this.doc, (transaction) => {
typeMapDelete(transaction, this, attributeName);
});
} else {
this._pending.push(() => this.removeAttribute(attributeName));
}
}
/**
* Sets or updates an attribute.
*
* @note Xml-Text nodes don't have attributes. You can use this feature to assign properties to complete text-blocks.
*
* @param {String} attributeName The attribute name that is to be set.
* @param {any} attributeValue The attribute value that is to be set.
*
* @public
*/
setAttribute(attributeName, attributeValue) {
if (this.doc !== null) {
transact(this.doc, (transaction) => {
typeMapSet(transaction, this, attributeName, attributeValue);
});
} else {
this._pending.push(() => this.setAttribute(attributeName, attributeValue));
}
}
/**
* Returns an attribute value that belongs to the attribute name.
*
* @note Xml-Text nodes don't have attributes. You can use this feature to assign properties to complete text-blocks.
*
* @param {String} attributeName The attribute name that identifies the
* queried value.
* @return {any} The queried attribute value.
*
* @public
*/
getAttribute(attributeName) {
return (
/** @type {any} */
typeMapGet(this, attributeName)
);
}
/**
* Returns all attribute name/value pairs in a JSON Object.
*
* @note Xml-Text nodes don't have attributes. You can use this feature to assign properties to complete text-blocks.
*
* @return {Object<string, any>} A JSON Object that describes the attributes.
*
* @public
*/
getAttributes() {
return typeMapGetAll(this);
}
/**
* @param {UpdateEncoderV1 | UpdateEncoderV2} encoder
*/
_write(encoder) {
encoder.writeTypeRef(YTextRefID);
}
};
var readYText = (_decoder) => new YText();
var YXmlTreeWalker = class {
/**
* @param {YXmlFragment | YXmlElement} root
* @param {function(AbstractType<any>):boolean} [f]
*/
constructor(root, f = () => true) {
this._filter = f;
this._root = root;
this._currentNode = /** @type {Item} */
root._start;
this._firstCall = true;
root.doc ?? warnPrematureAccess();
}
[Symbol.iterator]() {
return this;
}
/**
* Get the next node.
*
* @return {IteratorResult<YXmlElement|YXmlText|YXmlHook>} The next node.
*
* @public
*/
next() {
let n = this._currentNode;
let type = n && n.content && /** @type {any} */
n.content.type;
if (n !== null && (!this._firstCall || n.deleted || !this._filter(type))) {
do {
type = /** @type {any} */
n.content.type;
if (!n.deleted && (type.constructor === YXmlElement || type.constructor === YXmlFragment) && type._start !== null) {
n = type._start;
} else {
while (n !== null) {
const nxt = n.next;
if (nxt !== null) {
n = nxt;
break;
} else if (n.parent === this._root) {
n = null;
} else {
n = /** @type {AbstractType<any>} */
n.parent._item;
}
}
}
} while (n !== null && (n.deleted || !this._filter(
/** @type {ContentType} */
n.content.type
)));
}
this._firstCall = false;
if (n === null) {
return { value: void 0, done: true };
}
this._currentNode = n;
return { value: (
/** @type {any} */
n.content.type
), done: false };
}
};
var YXmlFragment = class _YXmlFragment extends AbstractType {
constructor() {
super();
this._prelimContent = [];
}
/**
* @type {YXmlElement|YXmlText|null}
*/
get firstChild() {
const first = this._first;
return first ? first.content.getContent()[0] : null;
}
/**
* Integrate this type into the Yjs instance.
*
* * Save this struct in the os
* * This type is sent to other client
* * Observer functions are fired
*
* @param {Doc} y The Yjs instance
* @param {Item} item
*/
_integrate(y, item) {
super._integrate(y, item);
this.insert(
0,
/** @type {Array<any>} */
this._prelimContent
);
this._prelimContent = null;
}
_copy() {
return new _YXmlFragment();
}
/**
* Makes a copy of this data type that can be included somewhere else.
*
* Note that the content is only readable _after_ it has been included somewhere in the Ydoc.
*
* @return {YXmlFragment}
*/
clone() {
const el = new _YXmlFragment();
el.insert(0, this.toArray().map((item) => item instanceof AbstractType ? item.clone() : item));
return el;
}
get length() {
this.doc ?? warnPrematureAccess();
return this._prelimContent === null ? this._length : this._prelimContent.length;
}
/**
* Create a subtree of childNodes.
*
* @example
* const walker = elem.createTreeWalker(dom => dom.nodeName === 'div')
* for (let node in walker) {
* // `node` is a div node
* nop(node)
* }
*
* @param {function(AbstractType<any>):boolean} filter Function that is called on each child element and
* returns a Boolean indicating whether the child
* is to be included in the subtree.
* @return {YXmlTreeWalker} A subtree and a position within it.
*
* @public
*/
createTreeWalker(filter) {
return new YXmlTreeWalker(this, filter);
}
/**
* Returns the first YXmlElement that matches the query.
* Similar to DOM's {@link querySelector}.
*
* Query support:
* - tagname
* TODO:
* - id
* - attribute
*
* @param {CSS_Selector} query The query on the children.
* @return {YXmlElement|YXmlText|YXmlHook|null} The first element that matches the query or null.
*
* @public
*/
querySelector(query) {
query = query.toUpperCase();
const iterator = new YXmlTreeWalker(this, (element2) => element2.nodeName && element2.nodeName.toUpperCase() === query);
const next = iterator.next();
if (next.done) {
return null;
} else {
return next.value;
}
}
/**
* Returns all YXmlElements that match the query.
* Similar to Dom's {@link querySelectorAll}.
*
* @todo Does not yet support all queries. Currently only query by tagName.
*
* @param {CSS_Selector} query The query on the children
* @return {Array<YXmlElement|YXmlText|YXmlHook|null>} The elements that match this query.
*
* @public
*/
querySelectorAll(query) {
query = query.toUpperCase();
return from(new YXmlTreeWalker(this, (element2) => element2.nodeName && element2.nodeName.toUpperCase() === query));
}
/**
* Creates YXmlEvent and calls observers.
*
* @param {Transaction} transaction
* @param {Set<null|string>} parentSubs Keys changed on this type. `null` if list was modified.
*/
_callObserver(transaction, parentSubs) {
callTypeObservers(this, transaction, new YXmlEvent(this, parentSubs, transaction));
}
/**
* Get the string representation of all the children of this YXmlFragment.
*
* @return {string} The string representation of all children.
*/
toString() {
return typeListMap(this, (xml) => xml.toString()).join("");
}
/**
* @return {string}
*/
toJSON() {
return this.toString();
}
/**
* Creates a Dom Element that mirrors this YXmlElement.
*
* @param {Document} [_document=document] The document object (you must define
* this when calling this method in
* nodejs)
* @param {Object<string, any>} [hooks={}] Optional property to customize how hooks
* are presented in the DOM
* @param {any} [binding] You should not set this property. This is
* used if DomBinding wants to create a
* association to the created DOM type.
* @return {Node} The {@link https://developer.mozilla.org/en-US/docs/Web/API/Element|Dom Element}
*
* @public
*/
toDOM(_document = document, hooks = {}, binding) {
const fragment = _document.createDocumentFragment();
if (binding !== void 0) {
binding._createAssociation(fragment, this);
}
typeListForEach(this, (xmlType) => {
fragment.insertBefore(xmlType.toDOM(_document, hooks, binding), null);
});
return fragment;
}
/**
* Inserts new content at an index.
*
* @example
* // Insert character 'a' at position 0
* xml.insert(0, [new Y.XmlText('text')])
*
* @param {number} index The index to insert content at
* @param {Array<YXmlElement|YXmlText>} content The array of content
*/
insert(index, content) {
if (this.doc !== null) {
transact(this.doc, (transaction) => {
typeListInsertGenerics(transaction, this, index, content);
});
} else {
this._prelimContent.splice(index, 0, ...content);
}
}
/**
* Inserts new content at an index.
*
* @example
* // Insert character 'a' at position 0
* xml.insert(0, [new Y.XmlText('text')])
*
* @param {null|Item|YXmlElement|YXmlText} ref The index to insert content at
* @param {Array<YXmlElement|YXmlText>} content The array of content
*/
insertAfter(ref, content) {
if (this.doc !== null) {
transact(this.doc, (transaction) => {
const refItem = ref && ref instanceof AbstractType ? ref._item : ref;
typeListInsertGenericsAfter(transaction, this, refItem, content);
});
} else {
const pc = (
/** @type {Array<any>} */
this._prelimContent
);
const index = ref === null ? 0 : pc.findIndex((el) => el === ref) + 1;
if (index === 0 && ref !== null) {
throw create3("Reference item not found");
}
pc.splice(index, 0, ...content);
}
}
/**
* Deletes elements starting from an index.
*
* @param {number} index Index at which to start deleting elements
* @param {number} [length=1] The number of elements to remove. Defaults to 1.
*/
delete(index, length3 = 1) {
if (this.doc !== null) {
transact(this.doc, (transaction) => {
typeListDelete(transaction, this, index, length3);
});
} else {
this._prelimContent.splice(index, length3);
}
}
/**
* Transforms this YArray to a JavaScript Array.
*
* @return {Array<YXmlElement|YXmlText|YXmlHook>}
*/
toArray() {
return typeListToArray(this);
}
/**
* Appends content to this YArray.
*
* @param {Array<YXmlElement|YXmlText>} content Array of content to append.
*/
push(content) {
this.insert(this.length, content);
}
/**
* Prepends content to this YArray.
*
* @param {Array<YXmlElement|YXmlText>} content Array of content to prepend.
*/
unshift(content) {
this.insert(0, content);
}
/**
* Returns the i-th element from a YArray.
*
* @param {number} index The index of the element to return from the YArray
* @return {YXmlElement|YXmlText}
*/
get(index) {
return typeListGet(this, index);
}
/**
* Returns a portion of this YXmlFragment into a JavaScript Array selected
* from start to end (end not included).
*
* @param {number} [start]
* @param {number} [end]
* @return {Array<YXmlElement|YXmlText>}
*/
slice(start = 0, end = this.length) {
return typeListSlice(this, start, end);
}
/**
* Executes a provided function on once on every child element.
*
* @param {function(YXmlElement|YXmlText,number, typeof self):void} f A function to execute on every element of this YArray.
*/
forEach(f) {
typeListForEach(this, f);
}
/**
* Transform the properties of this type to binary and write it to an
* BinaryEncoder.
*
* This is called when this Item is sent to a remote peer.
*
* @param {UpdateEncoderV1 | UpdateEncoderV2} encoder The encoder to write data to.
*/
_write(encoder) {
encoder.writeTypeRef(YXmlFragmentRefID);
}
};
var readYXmlFragment = (_decoder) => new YXmlFragment();
var YXmlElement = class _YXmlElement extends YXmlFragment {
constructor(nodeName = "UNDEFINED") {
super();
this.nodeName = nodeName;
this._prelimAttrs = /* @__PURE__ */ new Map();
}
/**
* @type {YXmlElement|YXmlText|null}
*/
get nextSibling() {
const n = this._item ? this._item.next : null;
return n ? (
/** @type {YXmlElement|YXmlText} */
/** @type {ContentType} */
n.content.type
) : null;
}
/**
* @type {YXmlElement|YXmlText|null}
*/
get prevSibling() {
const n = this._item ? this._item.prev : null;
return n ? (
/** @type {YXmlElement|YXmlText} */
/** @type {ContentType} */
n.content.type
) : null;
}
/**
* Integrate this type into the Yjs instance.
*
* * Save this struct in the os
* * This type is sent to other client
* * Observer functions are fired
*
* @param {Doc} y The Yjs instance
* @param {Item} item
*/
_integrate(y, item) {
super._integrate(y, item);
/** @type {Map<string, any>} */
this._prelimAttrs.forEach((value, key) => {
this.setAttribute(key, value);
});
this._prelimAttrs = null;
}
/**
* Creates an Item with the same effect as this Item (without position effect)
*
* @return {YXmlElement}
*/
_copy() {
return new _YXmlElement(this.nodeName);
}
/**
* Makes a copy of this data type that can be included somewhere else.
*
* Note that the content is only readable _after_ it has been included somewhere in the Ydoc.
*
* @return {YXmlElement<KV>}
*/
clone() {
const el = new _YXmlElement(this.nodeName);
const attrs = this.getAttributes();
forEach(attrs, (value, key) => {
el.setAttribute(
key,
/** @type {any} */
value
);
});
el.insert(0, this.toArray().map((v) => v instanceof AbstractType ? v.clone() : v));
return el;
}
/**
* Returns the XML serialization of this YXmlElement.
* The attributes are ordered by attribute-name, so you can easily use this
* method to compare YXmlElements
*
* @return {string} The string representation of this type.
*
* @public
*/
toString() {
const attrs = this.getAttributes();
const stringBuilder = [];
const keys2 = [];
for (const key in attrs) {
keys2.push(key);
}
keys2.sort();
const keysLen = keys2.length;
for (let i = 0; i < keysLen; i++) {
const key = keys2[i];
stringBuilder.push(key + '="' + attrs[key] + '"');
}
const nodeName = this.nodeName.toLocaleLowerCase();
const attrsString = stringBuilder.length > 0 ? " " + stringBuilder.join(" ") : "";
return `<${nodeName}${attrsString}>${super.toString()}</${nodeName}>`;
}
/**
* Removes an attribute from this YXmlElement.
*
* @param {string} attributeName The attribute name that is to be removed.
*
* @public
*/
removeAttribute(attributeName) {
if (this.doc !== null) {
transact(this.doc, (transaction) => {
typeMapDelete(transaction, this, attributeName);
});
} else {
this._prelimAttrs.delete(attributeName);
}
}
/**
* Sets or updates an attribute.
*
* @template {keyof KV & string} KEY
*
* @param {KEY} attributeName The attribute name that is to be set.
* @param {KV[KEY]} attributeValue The attribute value that is to be set.
*
* @public
*/
setAttribute(attributeName, attributeValue) {
if (this.doc !== null) {
transact(this.doc, (transaction) => {
typeMapSet(transaction, this, attributeName, attributeValue);
});
} else {
this._prelimAttrs.set(attributeName, attributeValue);
}
}
/**
* Returns an attribute value that belongs to the attribute name.
*
* @template {keyof KV & string} KEY
*
* @param {KEY} attributeName The attribute name that identifies the
* queried value.
* @return {KV[KEY]|undefined} The queried attribute value.
*
* @public
*/
getAttribute(attributeName) {
return (
/** @type {any} */
typeMapGet(this, attributeName)
);
}
/**
* Returns whether an attribute exists
*
* @param {string} attributeName The attribute name to check for existence.
* @return {boolean} whether the attribute exists.
*
* @public
*/
hasAttribute(attributeName) {
return (
/** @type {any} */
typeMapHas(this, attributeName)
);
}
/**
* Returns all attribute name/value pairs in a JSON Object.
*
* @param {Snapshot} [snapshot]
* @return {{ [Key in Extract<keyof KV,string>]?: KV[Key]}} A JSON Object that describes the attributes.
*
* @public
*/
getAttributes(snapshot2) {
return (
/** @type {any} */
snapshot2 ? typeMapGetAllSnapshot(this, snapshot2) : typeMapGetAll(this)
);
}
/**
* Creates a Dom Element that mirrors this YXmlElement.
*
* @param {Document} [_document=document] The document object (you must define
* this when calling this method in
* nodejs)
* @param {Object<string, any>} [hooks={}] Optional property to customize how hooks
* are presented in the DOM
* @param {any} [binding] You should not set this property. This is
* used if DomBinding wants to create a
* association to the created DOM type.
* @return {Node} The {@link https://developer.mozilla.org/en-US/docs/Web/API/Element|Dom Element}
*
* @public
*/
toDOM(_document = document, hooks = {}, binding) {
const dom = _document.createElement(this.nodeName);
const attrs = this.getAttributes();
for (const key in attrs) {
const value = attrs[key];
if (typeof value === "string") {
dom.setAttribute(key, value);
}
}
typeListForEach(this, (yxml) => {
dom.appendChild(yxml.toDOM(_document, hooks, binding));
});
if (binding !== void 0) {
binding._createAssociation(dom, this);
}
return dom;
}
/**
* Transform the properties of this type to binary and write it to an
* BinaryEncoder.
*
* This is called when this Item is sent to a remote peer.
*
* @param {UpdateEncoderV1 | UpdateEncoderV2} encoder The encoder to write data to.
*/
_write(encoder) {
encoder.writeTypeRef(YXmlElementRefID);
encoder.writeKey(this.nodeName);
}
};
var readYXmlElement = (decoder) => new YXmlElement(decoder.readKey());
var YXmlEvent = class extends YEvent {
/**
* @param {YXmlElement|YXmlText|YXmlFragment} target The target on which the event is created.
* @param {Set<string|null>} subs The set of changed attributes. `null` is included if the
* child list changed.
* @param {Transaction} transaction The transaction instance with which the
* change was created.
*/
constructor(target, subs, transaction) {
super(target, transaction);
this.childListChanged = false;
this.attributesChanged = /* @__PURE__ */ new Set();
subs.forEach((sub) => {
if (sub === null) {
this.childListChanged = true;
} else {
this.attributesChanged.add(sub);
}
});
}
};
var YXmlHook = class _YXmlHook extends YMap {
/**
* @param {string} hookName nodeName of the Dom Node.
*/
constructor(hookName) {
super();
this.hookName = hookName;
}
/**
* Creates an Item with the same effect as this Item (without position effect)
*/
_copy() {
return new _YXmlHook(this.hookName);
}
/**
* Makes a copy of this data type that can be included somewhere else.
*
* Note that the content is only readable _after_ it has been included somewhere in the Ydoc.
*
* @return {YXmlHook}
*/
clone() {
const el = new _YXmlHook(this.hookName);
this.forEach((value, key) => {
el.set(key, value);
});
return el;
}
/**
* Creates a Dom Element that mirrors this YXmlElement.
*
* @param {Document} [_document=document] The document object (you must define
* this when calling this method in
* nodejs)
* @param {Object.<string, any>} [hooks] Optional property to customize how hooks
* are presented in the DOM
* @param {any} [binding] You should not set this property. This is
* used if DomBinding wants to create a
* association to the created DOM type
* @return {Element} The {@link https://developer.mozilla.org/en-US/docs/Web/API/Element|Dom Element}
*
* @public
*/
toDOM(_document = document, hooks = {}, binding) {
const hook = hooks[this.hookName];
let dom;
if (hook !== void 0) {
dom = hook.createDom(this);
} else {
dom = document.createElement(this.hookName);
}
dom.setAttribute("data-yjs-hook", this.hookName);
if (binding !== void 0) {
binding._createAssociation(dom, this);
}
return dom;
}
/**
* Transform the properties of this type to binary and write it to an
* BinaryEncoder.
*
* This is called when this Item is sent to a remote peer.
*
* @param {UpdateEncoderV1 | UpdateEncoderV2} encoder The encoder to write data to.
*/
_write(encoder) {
encoder.writeTypeRef(YXmlHookRefID);
encoder.writeKey(this.hookName);
}
};
var readYXmlHook = (decoder) => new YXmlHook(decoder.readKey());
var YXmlText = class _YXmlText extends YText {
/**
* @type {YXmlElement|YXmlText|null}
*/
get nextSibling() {
const n = this._item ? this._item.next : null;
return n ? (
/** @type {YXmlElement|YXmlText} */
/** @type {ContentType} */
n.content.type
) : null;
}
/**
* @type {YXmlElement|YXmlText|null}
*/
get prevSibling() {
const n = this._item ? this._item.prev : null;
return n ? (
/** @type {YXmlElement|YXmlText} */
/** @type {ContentType} */
n.content.type
) : null;
}
_copy() {
return new _YXmlText();
}
/**
* Makes a copy of this data type that can be included somewhere else.
*
* Note that the content is only readable _after_ it has been included somewhere in the Ydoc.
*
* @return {YXmlText}
*/
clone() {
const text2 = new _YXmlText();
text2.applyDelta(this.toDelta());
return text2;
}
/**
* Creates a Dom Element that mirrors this YXmlText.
*
* @param {Document} [_document=document] The document object (you must define
* this when calling this method in
* nodejs)
* @param {Object<string, any>} [hooks] Optional property to customize how hooks
* are presented in the DOM
* @param {any} [binding] You should not set this property. This is
* used if DomBinding wants to create a
* association to the created DOM type.
* @return {Text} The {@link https://developer.mozilla.org/en-US/docs/Web/API/Element|Dom Element}
*
* @public
*/
toDOM(_document = document, hooks, binding) {
const dom = _document.createTextNode(this.toString());
if (binding !== void 0) {
binding._createAssociation(dom, this);
}
return dom;
}
toString() {
return this.toDelta().map((delta) => {
const nestedNodes = [];
for (const nodeName in delta.attributes) {
const attrs = [];
for (const key in delta.attributes[nodeName]) {
attrs.push({ key, value: delta.attributes[nodeName][key] });
}
attrs.sort((a, b) => a.key < b.key ? -1 : 1);
nestedNodes.push({ nodeName, attrs });
}
nestedNodes.sort((a, b) => a.nodeName < b.nodeName ? -1 : 1);
let str = "";
for (let i = 0; i < nestedNodes.length; i++) {
const node = nestedNodes[i];
str += `<${node.nodeName}`;
for (let j = 0; j < node.attrs.length; j++) {
const attr = node.attrs[j];
str += ` ${attr.key}="${attr.value}"`;
}
str += ">";
}
str += delta.insert;
for (let i = nestedNodes.length - 1; i >= 0; i--) {
str += `</${nestedNodes[i].nodeName}>`;
}
return str;
}).join("");
}
/**
* @return {string}
*/
toJSON() {
return this.toString();
}
/**
* @param {UpdateEncoderV1 | UpdateEncoderV2} encoder
*/
_write(encoder) {
encoder.writeTypeRef(YXmlTextRefID);
}
};
var readYXmlText = (decoder) => new YXmlText();
var AbstractStruct = class {
/**
* @param {ID} id
* @param {number} length
*/
constructor(id2, length3) {
this.id = id2;
this.length = length3;
}
/**
* @type {boolean}
*/
get deleted() {
throw methodUnimplemented();
}
/**
* Merge this struct with the item to the right.
* This method is already assuming that `this.id.clock + this.length === this.id.clock`.
* Also this method does *not* remove right from StructStore!
* @param {AbstractStruct} right
* @return {boolean} whether this merged with right
*/
mergeWith(right) {
return false;
}
/**
* @param {UpdateEncoderV1 | UpdateEncoderV2} encoder The encoder to write data to.
* @param {number} offset
* @param {number} encodingRef
*/
write(encoder, offset, encodingRef) {
throw methodUnimplemented();
}
/**
* @param {Transaction} transaction
* @param {number} offset
*/
integrate(transaction, offset) {
throw methodUnimplemented();
}
};
var structGCRefNumber = 0;
var GC = class extends AbstractStruct {
get deleted() {
return true;
}
delete() {
}
/**
* @param {GC} right
* @return {boolean}
*/
mergeWith(right) {
if (this.constructor !== right.constructor) {
return false;
}
this.length += right.length;
return true;
}
/**
* @param {Transaction} transaction
* @param {number} offset
*/
integrate(transaction, offset) {
if (offset > 0) {
this.id.clock += offset;
this.length -= offset;
}
addStruct(transaction.doc.store, this);
}
/**
* @param {UpdateEncoderV1 | UpdateEncoderV2} encoder
* @param {number} offset
*/
write(encoder, offset) {
encoder.writeInfo(structGCRefNumber);
encoder.writeLen(this.length - offset);
}
/**
* @param {Transaction} transaction
* @param {StructStore} store
* @return {null | number}
*/
getMissing(transaction, store) {
return null;
}
};
var ContentBinary = class _ContentBinary {
/**
* @param {Uint8Array} content
*/
constructor(content) {
this.content = content;
}
/**
* @return {number}
*/
getLength() {
return 1;
}
/**
* @return {Array<any>}
*/
getContent() {
return [this.content];
}
/**
* @return {boolean}
*/
isCountable() {
return true;
}
/**
* @return {ContentBinary}
*/
copy() {
return new _ContentBinary(this.content);
}
/**
* @param {number} offset
* @return {ContentBinary}
*/
splice(offset) {
throw methodUnimplemented();
}
/**
* @param {ContentBinary} right
* @return {boolean}
*/
mergeWith(right) {
return false;
}
/**
* @param {Transaction} transaction
* @param {Item} item
*/
integrate(transaction, item) {
}
/**
* @param {Transaction} transaction
*/
delete(transaction) {
}
/**
* @param {StructStore} store
*/
gc(store) {
}
/**
* @param {UpdateEncoderV1 | UpdateEncoderV2} encoder
* @param {number} offset
*/
write(encoder, offset) {
encoder.writeBuf(this.content);
}
/**
* @return {number}
*/
getRef() {
return 3;
}
};
var readContentBinary = (decoder) => new ContentBinary(decoder.readBuf());
var ContentDeleted = class _ContentDeleted {
/**
* @param {number} len
*/
constructor(len) {
this.len = len;
}
/**
* @return {number}
*/
getLength() {
return this.len;
}
/**
* @return {Array<any>}
*/
getContent() {
return [];
}
/**
* @return {boolean}
*/
isCountable() {
return false;
}
/**
* @return {ContentDeleted}
*/
copy() {
return new _ContentDeleted(this.len);
}
/**
* @param {number} offset
* @return {ContentDeleted}
*/
splice(offset) {
const right = new _ContentDeleted(this.len - offset);
this.len = offset;
return right;
}
/**
* @param {ContentDeleted} right
* @return {boolean}
*/
mergeWith(right) {
this.len += right.len;
return true;
}
/**
* @param {Transaction} transaction
* @param {Item} item
*/
integrate(transaction, item) {
addToDeleteSet(transaction.deleteSet, item.id.client, item.id.clock, this.len);
item.markDeleted();
}
/**
* @param {Transaction} transaction
*/
delete(transaction) {
}
/**
* @param {StructStore} store
*/
gc(store) {
}
/**
* @param {UpdateEncoderV1 | UpdateEncoderV2} encoder
* @param {number} offset
*/
write(encoder, offset) {
encoder.writeLen(this.len - offset);
}
/**
* @return {number}
*/
getRef() {
return 1;
}
};
var readContentDeleted = (decoder) => new ContentDeleted(decoder.readLen());
var createDocFromOpts = (guid, opts) => new Doc({ guid, ...opts, shouldLoad: opts.shouldLoad || opts.autoLoad || false });
var ContentDoc = class _ContentDoc {
/**
* @param {Doc} doc
*/
constructor(doc2) {
if (doc2._item) {
console.error("This document was already integrated as a sub-document. You should create a second instance instead with the same guid.");
}
this.doc = doc2;
const opts = {};
this.opts = opts;
if (!doc2.gc) {
opts.gc = false;
}
if (doc2.autoLoad) {
opts.autoLoad = true;
}
if (doc2.meta !== null) {
opts.meta = doc2.meta;
}
}
/**
* @return {number}
*/
getLength() {
return 1;
}
/**
* @return {Array<any>}
*/
getContent() {
return [this.doc];
}
/**
* @return {boolean}
*/
isCountable() {
return true;
}
/**
* @return {ContentDoc}
*/
copy() {
return new _ContentDoc(createDocFromOpts(this.doc.guid, this.opts));
}
/**
* @param {number} offset
* @return {ContentDoc}
*/
splice(offset) {
throw methodUnimplemented();
}
/**
* @param {ContentDoc} right
* @return {boolean}
*/
mergeWith(right) {
return false;
}
/**
* @param {Transaction} transaction
* @param {Item} item
*/
integrate(transaction, item) {
this.doc._item = item;
transaction.subdocsAdded.add(this.doc);
if (this.doc.shouldLoad) {
transaction.subdocsLoaded.add(this.doc);
}
}
/**
* @param {Transaction} transaction
*/
delete(transaction) {
if (transaction.subdocsAdded.has(this.doc)) {
transaction.subdocsAdded.delete(this.doc);
} else {
transaction.subdocsRemoved.add(this.doc);
}
}
/**
* @param {StructStore} store
*/
gc(store) {
}
/**
* @param {UpdateEncoderV1 | UpdateEncoderV2} encoder
* @param {number} offset
*/
write(encoder, offset) {
encoder.writeString(this.doc.guid);
encoder.writeAny(this.opts);
}
/**
* @return {number}
*/
getRef() {
return 9;
}
};
var readContentDoc = (decoder) => new ContentDoc(createDocFromOpts(decoder.readString(), decoder.readAny()));
var ContentEmbed = class _ContentEmbed {
/**
* @param {Object} embed
*/
constructor(embed) {
this.embed = embed;
}
/**
* @return {number}
*/
getLength() {
return 1;
}
/**
* @return {Array<any>}
*/
getContent() {
return [this.embed];
}
/**
* @return {boolean}
*/
isCountable() {
return true;
}
/**
* @return {ContentEmbed}
*/
copy() {
return new _ContentEmbed(this.embed);
}
/**
* @param {number} offset
* @return {ContentEmbed}
*/
splice(offset) {
throw methodUnimplemented();
}
/**
* @param {ContentEmbed} right
* @return {boolean}
*/
mergeWith(right) {
return false;
}
/**
* @param {Transaction} transaction
* @param {Item} item
*/
integrate(transaction, item) {
}
/**
* @param {Transaction} transaction
*/
delete(transaction) {
}
/**
* @param {StructStore} store
*/
gc(store) {
}
/**
* @param {UpdateEncoderV1 | UpdateEncoderV2} encoder
* @param {number} offset
*/
write(encoder, offset) {
encoder.writeJSON(this.embed);
}
/**
* @return {number}
*/
getRef() {
return 5;
}
};
var readContentEmbed = (decoder) => new ContentEmbed(decoder.readJSON());
var ContentFormat = class _ContentFormat {
/**
* @param {string} key
* @param {Object} value
*/
constructor(key, value) {
this.key = key;
this.value = value;
}
/**
* @return {number}
*/
getLength() {
return 1;
}
/**
* @return {Array<any>}
*/
getContent() {
return [];
}
/**
* @return {boolean}
*/
isCountable() {
return false;
}
/**
* @return {ContentFormat}
*/
copy() {
return new _ContentFormat(this.key, this.value);
}
/**
* @param {number} _offset
* @return {ContentFormat}
*/
splice(_offset) {
throw methodUnimplemented();
}
/**
* @param {ContentFormat} _right
* @return {boolean}
*/
mergeWith(_right) {
return false;
}
/**
* @param {Transaction} _transaction
* @param {Item} item
*/
integrate(_transaction, item) {
const p = (
/** @type {YText} */
item.parent
);
p._searchMarker = null;
p._hasFormatting = true;
}
/**
* @param {Transaction} transaction
*/
delete(transaction) {
}
/**
* @param {StructStore} store
*/
gc(store) {
}
/**
* @param {UpdateEncoderV1 | UpdateEncoderV2} encoder
* @param {number} offset
*/
write(encoder, offset) {
encoder.writeKey(this.key);
encoder.writeJSON(this.value);
}
/**
* @return {number}
*/
getRef() {
return 6;
}
};
var readContentFormat = (decoder) => new ContentFormat(decoder.readKey(), decoder.readJSON());
var ContentJSON = class _ContentJSON {
/**
* @param {Array<any>} arr
*/
constructor(arr) {
this.arr = arr;
}
/**
* @return {number}
*/
getLength() {
return this.arr.length;
}
/**
* @return {Array<any>}
*/
getContent() {
return this.arr;
}
/**
* @return {boolean}
*/
isCountable() {
return true;
}
/**
* @return {ContentJSON}
*/
copy() {
return new _ContentJSON(this.arr);
}
/**
* @param {number} offset
* @return {ContentJSON}
*/
splice(offset) {
const right = new _ContentJSON(this.arr.slice(offset));
this.arr = this.arr.slice(0, offset);
return right;
}
/**
* @param {ContentJSON} right
* @return {boolean}
*/
mergeWith(right) {
this.arr = this.arr.concat(right.arr);
return true;
}
/**
* @param {Transaction} transaction
* @param {Item} item
*/
integrate(transaction, item) {
}
/**
* @param {Transaction} transaction
*/
delete(transaction) {
}
/**
* @param {StructStore} store
*/
gc(store) {
}
/**
* @param {UpdateEncoderV1 | UpdateEncoderV2} encoder
* @param {number} offset
*/
write(encoder, offset) {
const len = this.arr.length;
encoder.writeLen(len - offset);
for (let i = offset; i < len; i++) {
const c = this.arr[i];
encoder.writeString(c === void 0 ? "undefined" : JSON.stringify(c));
}
}
/**
* @return {number}
*/
getRef() {
return 2;
}
};
var readContentJSON = (decoder) => {
const len = decoder.readLen();
const cs = [];
for (let i = 0; i < len; i++) {
const c = decoder.readString();
if (c === "undefined") {
cs.push(void 0);
} else {
cs.push(JSON.parse(c));
}
}
return new ContentJSON(cs);
};
var isDevMode = getVariable("node_env") === "development";
var ContentAny = class _ContentAny {
/**
* @param {Array<any>} arr
*/
constructor(arr) {
this.arr = arr;
isDevMode && deepFreeze(arr);
}
/**
* @return {number}
*/
getLength() {
return this.arr.length;
}
/**
* @return {Array<any>}
*/
getContent() {
return this.arr;
}
/**
* @return {boolean}
*/
isCountable() {
return true;
}
/**
* @return {ContentAny}
*/
copy() {
return new _ContentAny(this.arr);
}
/**
* @param {number} offset
* @return {ContentAny}
*/
splice(offset) {
const right = new _ContentAny(this.arr.slice(offset));
this.arr = this.arr.slice(0, offset);
return right;
}
/**
* @param {ContentAny} right
* @return {boolean}
*/
mergeWith(right) {
this.arr = this.arr.concat(right.arr);
return true;
}
/**
* @param {Transaction} transaction
* @param {Item} item
*/
integrate(transaction, item) {
}
/**
* @param {Transaction} transaction
*/
delete(transaction) {
}
/**
* @param {StructStore} store
*/
gc(store) {
}
/**
* @param {UpdateEncoderV1 | UpdateEncoderV2} encoder
* @param {number} offset
*/
write(encoder, offset) {
const len = this.arr.length;
encoder.writeLen(len - offset);
for (let i = offset; i < len; i++) {
const c = this.arr[i];
encoder.writeAny(c);
}
}
/**
* @return {number}
*/
getRef() {
return 8;
}
};
var readContentAny = (decoder) => {
const len = decoder.readLen();
const cs = [];
for (let i = 0; i < len; i++) {
cs.push(decoder.readAny());
}
return new ContentAny(cs);
};
var ContentString = class _ContentString {
/**
* @param {string} str
*/
constructor(str) {
this.str = str;
}
/**
* @return {number}
*/
getLength() {
return this.str.length;
}
/**
* @return {Array<any>}
*/
getContent() {
return this.str.split("");
}
/**
* @return {boolean}
*/
isCountable() {
return true;
}
/**
* @return {ContentString}
*/
copy() {
return new _ContentString(this.str);
}
/**
* @param {number} offset
* @return {ContentString}
*/
splice(offset) {
const right = new _ContentString(this.str.slice(offset));
this.str = this.str.slice(0, offset);
const firstCharCode = this.str.charCodeAt(offset - 1);
if (firstCharCode >= 55296 && firstCharCode <= 56319) {
this.str = this.str.slice(0, offset - 1) + "\uFFFD";
right.str = "\uFFFD" + right.str.slice(1);
}
return right;
}
/**
* @param {ContentString} right
* @return {boolean}
*/
mergeWith(right) {
this.str += right.str;
return true;
}
/**
* @param {Transaction} transaction
* @param {Item} item
*/
integrate(transaction, item) {
}
/**
* @param {Transaction} transaction
*/
delete(transaction) {
}
/**
* @param {StructStore} store
*/
gc(store) {
}
/**
* @param {UpdateEncoderV1 | UpdateEncoderV2} encoder
* @param {number} offset
*/
write(encoder, offset) {
encoder.writeString(offset === 0 ? this.str : this.str.slice(offset));
}
/**
* @return {number}
*/
getRef() {
return 4;
}
};
var readContentString = (decoder) => new ContentString(decoder.readString());
var typeRefs = [
readYArray,
readYMap,
readYText,
readYXmlElement,
readYXmlFragment,
readYXmlHook,
readYXmlText
];
var YArrayRefID = 0;
var YMapRefID = 1;
var YTextRefID = 2;
var YXmlElementRefID = 3;
var YXmlFragmentRefID = 4;
var YXmlHookRefID = 5;
var YXmlTextRefID = 6;
var ContentType = class _ContentType {
/**
* @param {AbstractType<any>} type
*/
constructor(type) {
this.type = type;
}
/**
* @return {number}
*/
getLength() {
return 1;
}
/**
* @return {Array<any>}
*/
getContent() {
return [this.type];
}
/**
* @return {boolean}
*/
isCountable() {
return true;
}
/**
* @return {ContentType}
*/
copy() {
return new _ContentType(this.type._copy());
}
/**
* @param {number} offset
* @return {ContentType}
*/
splice(offset) {
throw methodUnimplemented();
}
/**
* @param {ContentType} right
* @return {boolean}
*/
mergeWith(right) {
return false;
}
/**
* @param {Transaction} transaction
* @param {Item} item
*/
integrate(transaction, item) {
this.type._integrate(transaction.doc, item);
}
/**
* @param {Transaction} transaction
*/
delete(transaction) {
let item = this.type._start;
while (item !== null) {
if (!item.deleted) {
item.delete(transaction);
} else if (item.id.clock < (transaction.beforeState.get(item.id.client) || 0)) {
transaction._mergeStructs.push(item);
}
item = item.right;
}
this.type._map.forEach((item2) => {
if (!item2.deleted) {
item2.delete(transaction);
} else if (item2.id.clock < (transaction.beforeState.get(item2.id.client) || 0)) {
transaction._mergeStructs.push(item2);
}
});
transaction.changed.delete(this.type);
}
/**
* @param {StructStore} store
*/
gc(store) {
let item = this.type._start;
while (item !== null) {
item.gc(store, true);
item = item.right;
}
this.type._start = null;
this.type._map.forEach(
/** @param {Item | null} item */
(item2) => {
while (item2 !== null) {
item2.gc(store, true);
item2 = item2.left;
}
}
);
this.type._map = /* @__PURE__ */ new Map();
}
/**
* @param {UpdateEncoderV1 | UpdateEncoderV2} encoder
* @param {number} offset
*/
write(encoder, offset) {
this.type._write(encoder);
}
/**
* @return {number}
*/
getRef() {
return 7;
}
};
var readContentType = (decoder) => new ContentType(typeRefs[decoder.readTypeRef()](decoder));
var followRedone = (store, id2) => {
let nextID = id2;
let diff = 0;
let item;
do {
if (diff > 0) {
nextID = createID(nextID.client, nextID.clock + diff);
}
item = getItem(store, nextID);
diff = nextID.clock - item.id.clock;
nextID = item.redone;
} while (nextID !== null && item instanceof Item);
return {
item,
diff
};
};
var keepItem = (item, keep) => {
while (item !== null && item.keep !== keep) {
item.keep = keep;
item = /** @type {AbstractType<any>} */
item.parent._item;
}
};
var splitItem = (transaction, leftItem, diff) => {
const { client, clock } = leftItem.id;
const rightItem = new Item(
createID(client, clock + diff),
leftItem,
createID(client, clock + diff - 1),
leftItem.right,
leftItem.rightOrigin,
leftItem.parent,
leftItem.parentSub,
leftItem.content.splice(diff)
);
if (leftItem.deleted) {
rightItem.markDeleted();
}
if (leftItem.keep) {
rightItem.keep = true;
}
if (leftItem.redone !== null) {
rightItem.redone = createID(leftItem.redone.client, leftItem.redone.clock + diff);
}
leftItem.right = rightItem;
if (rightItem.right !== null) {
rightItem.right.left = rightItem;
}
transaction._mergeStructs.push(rightItem);
if (rightItem.parentSub !== null && rightItem.right === null) {
rightItem.parent._map.set(rightItem.parentSub, rightItem);
}
leftItem.length = diff;
return rightItem;
};
var isDeletedByUndoStack = (stack, id2) => some(
stack,
/** @param {StackItem} s */
(s) => isDeleted(s.deletions, id2)
);
var redoItem = (transaction, item, redoitems, itemsToDelete, ignoreRemoteMapChanges, um) => {
const doc2 = transaction.doc;
const store = doc2.store;
const ownClientID = doc2.clientID;
const redone = item.redone;
if (redone !== null) {
return getItemCleanStart(transaction, redone);
}
let parentItem = (
/** @type {AbstractType<any>} */
item.parent._item
);
let left = null;
let right;
if (parentItem !== null && parentItem.deleted === true) {
if (parentItem.redone === null && (!redoitems.has(parentItem) || redoItem(transaction, parentItem, redoitems, itemsToDelete, ignoreRemoteMapChanges, um) === null)) {
return null;
}
while (parentItem.redone !== null) {
parentItem = getItemCleanStart(transaction, parentItem.redone);
}
}
const parentType = parentItem === null ? (
/** @type {AbstractType<any>} */
item.parent
) : (
/** @type {ContentType} */
parentItem.content.type
);
if (item.parentSub === null) {
left = item.left;
right = item;
while (left !== null) {
let leftTrace = left;
while (leftTrace !== null && /** @type {AbstractType<any>} */
leftTrace.parent._item !== parentItem) {
leftTrace = leftTrace.redone === null ? null : getItemCleanStart(transaction, leftTrace.redone);
}
if (leftTrace !== null && /** @type {AbstractType<any>} */
leftTrace.parent._item === parentItem) {
left = leftTrace;
break;
}
left = left.left;
}
while (right !== null) {
let rightTrace = right;
while (rightTrace !== null && /** @type {AbstractType<any>} */
rightTrace.parent._item !== parentItem) {
rightTrace = rightTrace.redone === null ? null : getItemCleanStart(transaction, rightTrace.redone);
}
if (rightTrace !== null && /** @type {AbstractType<any>} */
rightTrace.parent._item === parentItem) {
right = rightTrace;
break;
}
right = right.right;
}
} else {
right = null;
if (item.right && !ignoreRemoteMapChanges) {
left = item;
while (left !== null && left.right !== null && (left.right.redone || isDeleted(itemsToDelete, left.right.id) || isDeletedByUndoStack(um.undoStack, left.right.id) || isDeletedByUndoStack(um.redoStack, left.right.id))) {
left = left.right;
while (left.redone) left = getItemCleanStart(transaction, left.redone);
}
if (left && left.right !== null) {
return null;
}
} else {
left = parentType._map.get(item.parentSub) || null;
}
}
const nextClock = getState(store, ownClientID);
const nextId = createID(ownClientID, nextClock);
const redoneItem = new Item(
nextId,
left,
left && left.lastId,
right,
right && right.id,
parentType,
item.parentSub,
item.content.copy()
);
item.redone = nextId;
keepItem(redoneItem, true);
redoneItem.integrate(transaction, 0);
return redoneItem;
};
var Item = class _Item extends AbstractStruct {
/**
* @param {ID} id
* @param {Item | null} left
* @param {ID | null} origin
* @param {Item | null} right
* @param {ID | null} rightOrigin
* @param {AbstractType<any>|ID|null} parent Is a type if integrated, is null if it is possible to copy parent from left or right, is ID before integration to search for it.
* @param {string | null} parentSub
* @param {AbstractContent} content
*/
constructor(id2, left, origin2, right, rightOrigin, parent, parentSub, content) {
super(id2, content.getLength());
this.origin = origin2;
this.left = left;
this.right = right;
this.rightOrigin = rightOrigin;
this.parent = parent;
this.parentSub = parentSub;
this.redone = null;
this.content = content;
this.info = this.content.isCountable() ? BIT2 : 0;
}
/**
* This is used to mark the item as an indexed fast-search marker
*
* @type {boolean}
*/
set marker(isMarked) {
if ((this.info & BIT4) > 0 !== isMarked) {
this.info ^= BIT4;
}
}
get marker() {
return (this.info & BIT4) > 0;
}
/**
* If true, do not garbage collect this Item.
*/
get keep() {
return (this.info & BIT1) > 0;
}
set keep(doKeep) {
if (this.keep !== doKeep) {
this.info ^= BIT1;
}
}
get countable() {
return (this.info & BIT2) > 0;
}
/**
* Whether this item was deleted or not.
* @type {Boolean}
*/
get deleted() {
return (this.info & BIT3) > 0;
}
set deleted(doDelete) {
if (this.deleted !== doDelete) {
this.info ^= BIT3;
}
}
markDeleted() {
this.info |= BIT3;
}
/**
* Return the creator clientID of the missing op or define missing items and return null.
*
* @param {Transaction} transaction
* @param {StructStore} store
* @return {null | number}
*/
getMissing(transaction, store) {
if (this.origin && this.origin.client !== this.id.client && this.origin.clock >= getState(store, this.origin.client)) {
return this.origin.client;
}
if (this.rightOrigin && this.rightOrigin.client !== this.id.client && this.rightOrigin.clock >= getState(store, this.rightOrigin.client)) {
return this.rightOrigin.client;
}
if (this.parent && this.parent.constructor === ID && this.id.client !== this.parent.client && this.parent.clock >= getState(store, this.parent.client)) {
return this.parent.client;
}
if (this.origin) {
this.left = getItemCleanEnd(transaction, store, this.origin);
this.origin = this.left.lastId;
}
if (this.rightOrigin) {
this.right = getItemCleanStart(transaction, this.rightOrigin);
this.rightOrigin = this.right.id;
}
if (this.left && this.left.constructor === GC || this.right && this.right.constructor === GC) {
this.parent = null;
} else if (!this.parent) {
if (this.left && this.left.constructor === _Item) {
this.parent = this.left.parent;
this.parentSub = this.left.parentSub;
} else if (this.right && this.right.constructor === _Item) {
this.parent = this.right.parent;
this.parentSub = this.right.parentSub;
}
} else if (this.parent.constructor === ID) {
const parentItem = getItem(store, this.parent);
if (parentItem.constructor === GC) {
this.parent = null;
} else {
this.parent = /** @type {ContentType} */
parentItem.content.type;
}
}
return null;
}
/**
* @param {Transaction} transaction
* @param {number} offset
*/
integrate(transaction, offset) {
if (offset > 0) {
this.id.clock += offset;
this.left = getItemCleanEnd(transaction, transaction.doc.store, createID(this.id.client, this.id.clock - 1));
this.origin = this.left.lastId;
this.content = this.content.splice(offset);
this.length -= offset;
}
if (this.parent) {
if (!this.left && (!this.right || this.right.left !== null) || this.left && this.left.right !== this.right) {
let left = this.left;
let o;
if (left !== null) {
o = left.right;
} else if (this.parentSub !== null) {
o = /** @type {AbstractType<any>} */
this.parent._map.get(this.parentSub) || null;
while (o !== null && o.left !== null) {
o = o.left;
}
} else {
o = /** @type {AbstractType<any>} */
this.parent._start;
}
const conflictingItems = /* @__PURE__ */ new Set();
const itemsBeforeOrigin = /* @__PURE__ */ new Set();
while (o !== null && o !== this.right) {
itemsBeforeOrigin.add(o);
conflictingItems.add(o);
if (compareIDs(this.origin, o.origin)) {
if (o.id.client < this.id.client) {
left = o;
conflictingItems.clear();
} else if (compareIDs(this.rightOrigin, o.rightOrigin)) {
break;
}
} else if (o.origin !== null && itemsBeforeOrigin.has(getItem(transaction.doc.store, o.origin))) {
if (!conflictingItems.has(getItem(transaction.doc.store, o.origin))) {
left = o;
conflictingItems.clear();
}
} else {
break;
}
o = o.right;
}
this.left = left;
}
if (this.left !== null) {
const right = this.left.right;
this.right = right;
this.left.right = this;
} else {
let r;
if (this.parentSub !== null) {
r = /** @type {AbstractType<any>} */
this.parent._map.get(this.parentSub) || null;
while (r !== null && r.left !== null) {
r = r.left;
}
} else {
r = /** @type {AbstractType<any>} */
this.parent._start;
this.parent._start = this;
}
this.right = r;
}
if (this.right !== null) {
this.right.left = this;
} else if (this.parentSub !== null) {
this.parent._map.set(this.parentSub, this);
if (this.left !== null) {
this.left.delete(transaction);
}
}
if (this.parentSub === null && this.countable && !this.deleted) {
this.parent._length += this.length;
}
addStruct(transaction.doc.store, this);
this.content.integrate(transaction, this);
addChangedTypeToTransaction(
transaction,
/** @type {AbstractType<any>} */
this.parent,
this.parentSub
);
if (
/** @type {AbstractType<any>} */
this.parent._item !== null && /** @type {AbstractType<any>} */
this.parent._item.deleted || this.parentSub !== null && this.right !== null
) {
this.delete(transaction);
}
} else {
new GC(this.id, this.length).integrate(transaction, 0);
}
}
/**
* Returns the next non-deleted item
*/
get next() {
let n = this.right;
while (n !== null && n.deleted) {
n = n.right;
}
return n;
}
/**
* Returns the previous non-deleted item
*/
get prev() {
let n = this.left;
while (n !== null && n.deleted) {
n = n.left;
}
return n;
}
/**
* Computes the last content address of this Item.
*/
get lastId() {
return this.length === 1 ? this.id : createID(this.id.client, this.id.clock + this.length - 1);
}
/**
* Try to merge two items
*
* @param {Item} right
* @return {boolean}
*/
mergeWith(right) {
if (this.constructor === right.constructor && compareIDs(right.origin, this.lastId) && this.right === right && compareIDs(this.rightOrigin, right.rightOrigin) && this.id.client === right.id.client && this.id.clock + this.length === right.id.clock && this.deleted === right.deleted && this.redone === null && right.redone === null && this.content.constructor === right.content.constructor && this.content.mergeWith(right.content)) {
const searchMarker = (
/** @type {AbstractType<any>} */
this.parent._searchMarker
);
if (searchMarker) {
searchMarker.forEach((marker) => {
if (marker.p === right) {
marker.p = this;
if (!this.deleted && this.countable) {
marker.index -= this.length;
}
}
});
}
if (right.keep) {
this.keep = true;
}
this.right = right.right;
if (this.right !== null) {
this.right.left = this;
}
this.length += right.length;
return true;
}
return false;
}
/**
* Mark this Item as deleted.
*
* @param {Transaction} transaction
*/
delete(transaction) {
if (!this.deleted) {
const parent = (
/** @type {AbstractType<any>} */
this.parent
);
if (this.countable && this.parentSub === null) {
parent._length -= this.length;
}
this.markDeleted();
addToDeleteSet(transaction.deleteSet, this.id.client, this.id.clock, this.length);
addChangedTypeToTransaction(transaction, parent, this.parentSub);
this.content.delete(transaction);
}
}
/**
* @param {StructStore} store
* @param {boolean} parentGCd
*/
gc(store, parentGCd) {
if (!this.deleted) {
throw unexpectedCase();
}
this.content.gc(store);
if (parentGCd) {
replaceStruct(store, this, new GC(this.id, this.length));
} else {
this.content = new ContentDeleted(this.length);
}
}
/**
* Transform the properties of this type to binary and write it to an
* BinaryEncoder.
*
* This is called when this Item is sent to a remote peer.
*
* @param {UpdateEncoderV1 | UpdateEncoderV2} encoder The encoder to write data to.
* @param {number} offset
*/
write(encoder, offset) {
const origin2 = offset > 0 ? createID(this.id.client, this.id.clock + offset - 1) : this.origin;
const rightOrigin = this.rightOrigin;
const parentSub = this.parentSub;
const info = this.content.getRef() & BITS5 | (origin2 === null ? 0 : BIT8) | // origin is defined
(rightOrigin === null ? 0 : BIT7) | // right origin is defined
(parentSub === null ? 0 : BIT6);
encoder.writeInfo(info);
if (origin2 !== null) {
encoder.writeLeftID(origin2);
}
if (rightOrigin !== null) {
encoder.writeRightID(rightOrigin);
}
if (origin2 === null && rightOrigin === null) {
const parent = (
/** @type {AbstractType<any>} */
this.parent
);
if (parent._item !== void 0) {
const parentItem = parent._item;
if (parentItem === null) {
const ykey = findRootTypeKey(parent);
encoder.writeParentInfo(true);
encoder.writeString(ykey);
} else {
encoder.writeParentInfo(false);
encoder.writeLeftID(parentItem.id);
}
} else if (parent.constructor === String) {
encoder.writeParentInfo(true);
encoder.writeString(parent);
} else if (parent.constructor === ID) {
encoder.writeParentInfo(false);
encoder.writeLeftID(parent);
} else {
unexpectedCase();
}
if (parentSub !== null) {
encoder.writeString(parentSub);
}
}
this.content.write(encoder, offset);
}
};
var readItemContent = (decoder, info) => contentRefs[info & BITS5](decoder);
var contentRefs = [
() => {
unexpectedCase();
},
// GC is not ItemContent
readContentDeleted,
// 1
readContentJSON,
// 2
readContentBinary,
// 3
readContentString,
// 4
readContentEmbed,
// 5
readContentFormat,
// 6
readContentType,
// 7
readContentAny,
// 8
readContentDoc,
// 9
() => {
unexpectedCase();
}
// 10 - Skip is not ItemContent
];
var structSkipRefNumber = 10;
var Skip = class extends AbstractStruct {
get deleted() {
return true;
}
delete() {
}
/**
* @param {Skip} right
* @return {boolean}
*/
mergeWith(right) {
if (this.constructor !== right.constructor) {
return false;
}
this.length += right.length;
return true;
}
/**
* @param {Transaction} transaction
* @param {number} offset
*/
integrate(transaction, offset) {
unexpectedCase();
}
/**
* @param {UpdateEncoderV1 | UpdateEncoderV2} encoder
* @param {number} offset
*/
write(encoder, offset) {
encoder.writeInfo(structSkipRefNumber);
writeVarUint(encoder.restEncoder, this.length - offset);
}
/**
* @param {Transaction} transaction
* @param {StructStore} store
* @return {null | number}
*/
getMissing(transaction, store) {
return null;
}
};
var glo = (
/** @type {any} */
typeof globalThis !== "undefined" ? globalThis : typeof window !== "undefined" ? window : typeof global !== "undefined" ? global : {}
);
var importIdentifier = "__ $YJS$ __";
if (glo[importIdentifier] === true) {
console.error("Yjs was already imported. This breaks constructor checks and will lead to issues! - https://github.com/yjs/yjs/issues/438");
}
glo[importIdentifier] = true;
// packages/sync/node_modules/y-protocols/awareness.js
var outdatedTimeout = 3e4;
var Awareness = class extends Observable {
/**
* @param {Y.Doc} doc
*/
constructor(doc2) {
super();
this.doc = doc2;
this.clientID = doc2.clientID;
this.states = /* @__PURE__ */ new Map();
this.meta = /* @__PURE__ */ new Map();
this._checkInterval = /** @type {any} */
setInterval(() => {
const now = getUnixTime();
if (this.getLocalState() !== null && outdatedTimeout / 2 <= now - /** @type {{lastUpdated:number}} */
this.meta.get(this.clientID).lastUpdated) {
this.setLocalState(this.getLocalState());
}
const remove = [];
this.meta.forEach((meta, clientid) => {
if (clientid !== this.clientID && outdatedTimeout <= now - meta.lastUpdated && this.states.has(clientid)) {
remove.push(clientid);
}
});
if (remove.length > 0) {
removeAwarenessStates(this, remove, "timeout");
}
}, floor(outdatedTimeout / 10));
doc2.on("destroy", () => {
this.destroy();
});
this.setLocalState({});
}
destroy() {
this.emit("destroy", [this]);
this.setLocalState(null);
super.destroy();
clearInterval(this._checkInterval);
}
/**
* @return {Object<string,any>|null}
*/
getLocalState() {
return this.states.get(this.clientID) || null;
}
/**
* @param {Object<string,any>|null} state
*/
setLocalState(state) {
const clientID = this.clientID;
const currLocalMeta = this.meta.get(clientID);
const clock = currLocalMeta === void 0 ? 0 : currLocalMeta.clock + 1;
const prevState = this.states.get(clientID);
if (state === null) {
this.states.delete(clientID);
} else {
this.states.set(clientID, state);
}
this.meta.set(clientID, {
clock,
lastUpdated: getUnixTime()
});
const added = [];
const updated = [];
const filteredUpdated = [];
const removed = [];
if (state === null) {
removed.push(clientID);
} else if (prevState == null) {
if (state != null) {
added.push(clientID);
}
} else {
updated.push(clientID);
if (!equalityDeep(prevState, state)) {
filteredUpdated.push(clientID);
}
}
if (added.length > 0 || filteredUpdated.length > 0 || removed.length > 0) {
this.emit("change", [{ added, updated: filteredUpdated, removed }, "local"]);
}
this.emit("update", [{ added, updated, removed }, "local"]);
}
/**
* @param {string} field
* @param {any} value
*/
setLocalStateField(field, value) {
const state = this.getLocalState();
if (state !== null) {
this.setLocalState({
...state,
[field]: value
});
}
}
/**
* @return {Map<number,Object<string,any>>}
*/
getStates() {
return this.states;
}
};
var removeAwarenessStates = (awareness, clients, origin2) => {
const removed = [];
for (let i = 0; i < clients.length; i++) {
const clientID = clients[i];
if (awareness.states.has(clientID)) {
awareness.states.delete(clientID);
if (clientID === awareness.clientID) {
const curMeta = (
/** @type {MetaClientState} */
awareness.meta.get(clientID)
);
awareness.meta.set(clientID, {
clock: curMeta.clock + 1,
lastUpdated: getUnixTime()
});
}
removed.push(clientID);
}
}
if (removed.length > 0) {
awareness.emit("change", [{ added: [], updated: [], removed }, origin2]);
awareness.emit("update", [{ added: [], updated: [], removed }, origin2]);
}
};
// packages/sync/build-module/config.mjs
var CRDT_DOC_VERSION = 1;
var CRDT_DOC_META_PERSISTENCE_KEY = "fromPersistence";
var CRDT_RECORD_MAP_KEY = "document";
var CRDT_STATE_MAP_KEY = "state";
var CRDT_STATE_MAP_SAVED_AT_KEY = "savedAt";
var CRDT_STATE_MAP_SAVED_BY_KEY = "savedBy";
var CRDT_STATE_MAP_VERSION_KEY = "version";
var LOCAL_EDITOR_ORIGIN = "gutenberg";
var LOCAL_SYNC_MANAGER_ORIGIN = "syncManager";
var LOCAL_UNDO_IGNORED_ORIGIN = "gutenberg-undo-ignored";
// packages/sync/build-module/errors.mjs
var ConnectionErrorCode = /* @__PURE__ */ ((ConnectionErrorCode2) => {
ConnectionErrorCode2["AUTHENTICATION_FAILED"] = "authentication-failed";
ConnectionErrorCode2["CONNECTION_EXPIRED"] = "connection-expired";
ConnectionErrorCode2["CONNECTION_LIMIT_EXCEEDED"] = "connection-limit-exceeded";
ConnectionErrorCode2["DOCUMENT_SIZE_LIMIT_EXCEEDED"] = "document-size-limit-exceeded";
ConnectionErrorCode2["UNKNOWN_ERROR"] = "unknown-error";
return ConnectionErrorCode2;
})(ConnectionErrorCode || {});
var ConnectionError = class extends Error {
constructor(code = "unknown-error", message) {
super(message);
this.code = code;
this.name = "ConnectionError";
}
};
// packages/sync/build-module/lock-unlock.mjs
var import_private_apis = __toESM(require_private_apis(), 1);
var { lock, unlock } = (0, import_private_apis.__dangerousOptInToUnstableAPIsOnlyForCoreModules)(
"I acknowledge private features are not for use in themes or plugins and doing so will break in the next version of WordPress.",
"@wordpress/sync"
);
// packages/sync/build-module/performance.mjs
function logPerformanceTiming(fn) {
return function(...args2) {
const start = performance.now();
const result = fn.apply(this, args2);
const end = performance.now();
console.log(
`[SyncManager][performance]: ${fn.name} took ${(end - start).toFixed(2)} ms`
);
return result;
};
}
function passThru(fn) {
return ((...args2) => fn(...args2));
}
function yieldToEventLoop(fn) {
return function(...args2) {
setTimeout(() => {
fn.apply(this, args2);
}, 0);
};
}
// packages/sync/build-module/providers/index.mjs
var import_hooks3 = __toESM(require_hooks(), 1);
// packages/sync/build-module/providers/http-polling/polling-manager.mjs
var import_hooks2 = __toESM(require_hooks(), 1);
// packages/sync/node_modules/y-protocols/sync.js
var messageYjsSyncStep1 = 0;
var messageYjsSyncStep2 = 1;
var messageYjsUpdate = 2;
var writeSyncStep1 = (encoder, doc2) => {
writeVarUint(encoder, messageYjsSyncStep1);
const sv = encodeStateVector(doc2);
writeVarUint8Array(encoder, sv);
};
var writeSyncStep2 = (encoder, doc2, encodedStateVector) => {
writeVarUint(encoder, messageYjsSyncStep2);
writeVarUint8Array(encoder, encodeStateAsUpdate(doc2, encodedStateVector));
};
var readSyncStep1 = (decoder, encoder, doc2) => writeSyncStep2(encoder, doc2, readVarUint8Array(decoder));
var readSyncStep2 = (decoder, doc2, transactionOrigin, errorHandler) => {
try {
applyUpdate(doc2, readVarUint8Array(decoder), transactionOrigin);
} catch (error) {
if (errorHandler != null) errorHandler(
/** @type {Error} */
error
);
console.error("Caught error while handling a Yjs update", error);
}
};
var readUpdate2 = readSyncStep2;
var readSyncMessage = (decoder, encoder, doc2, transactionOrigin, errorHandler) => {
const messageType = readVarUint(decoder);
switch (messageType) {
case messageYjsSyncStep1:
readSyncStep1(decoder, encoder, doc2);
break;
case messageYjsSyncStep2:
readSyncStep2(decoder, doc2, transactionOrigin, errorHandler);
break;
case messageYjsUpdate:
readUpdate2(decoder, doc2, transactionOrigin, errorHandler);
break;
default:
throw new Error("Unknown message type");
}
return messageType;
};
// packages/sync/build-module/providers/http-polling/config.mjs
var import_hooks = __toESM(require_hooks(), 1);
var DEFAULT_CLIENT_LIMIT_PER_ROOM = 3;
var MAX_ERROR_BACKOFF_IN_MS = 30 * 1e3;
var MAX_UPDATE_SIZE_IN_BYTES = 1 * 1024 * 1024;
var POLLING_INTERVAL_IN_MS = (0, import_hooks.applyFilters)(
"sync.pollingManager.pollingInterval",
4e3
// 4 seconds
);
var POLLING_INTERVAL_WITH_COLLABORATORS_IN_MS = (0, import_hooks.applyFilters)(
"sync.pollingManager.pollingIntervalWithCollaborators",
1e3
// 1 second
);
var POLLING_INTERVAL_BACKGROUND_TAB_IN_MS = 25 * 1e3;
// packages/sync/build-module/providers/http-polling/types.mjs
var SyncUpdateType = /* @__PURE__ */ ((SyncUpdateType2) => {
SyncUpdateType2["COMPACTION"] = "compaction";
SyncUpdateType2["SYNC_STEP_1"] = "sync_step1";
SyncUpdateType2["SYNC_STEP_2"] = "sync_step2";
SyncUpdateType2["UPDATE"] = "update";
return SyncUpdateType2;
})(SyncUpdateType || {});
// packages/sync/build-module/providers/http-polling/utils.mjs
var import_api_fetch = __toESM(require_api_fetch(), 1);
var SYNC_API_PATH = "/wp-sync/v1/updates";
function uint8ArrayToBase64(data) {
let binary = "";
const len = data.byteLength;
for (let i = 0; i < len; i++) {
binary += String.fromCharCode(data[i]);
}
return globalThis.btoa(binary);
}
function base64ToUint8Array(base64) {
const binaryString = globalThis.atob(base64);
const len = binaryString.length;
const bytes = new Uint8Array(len);
for (let i = 0; i < len; i++) {
bytes[i] = binaryString.charCodeAt(i);
}
return bytes;
}
function createSyncUpdate(data, type) {
return {
data: uint8ArrayToBase64(data),
type
};
}
function createUpdateQueue(initial = [], paused = true) {
let isPaused = paused;
const updates = [...initial];
return {
add(update) {
updates.push(update);
},
addBulk(bulkUpdates) {
if (0 === bulkUpdates.length) {
return;
}
updates.push(...bulkUpdates);
},
clear() {
updates.splice(0, updates.length);
},
get() {
if (isPaused) {
return [];
}
return updates.splice(0, updates.length);
},
pause() {
isPaused = true;
},
restore(restoredUpdates) {
const filtered = restoredUpdates.filter(
(u) => u.type !== SyncUpdateType.COMPACTION
);
if (0 === filtered.length) {
return;
}
updates.unshift(...filtered);
},
resume() {
isPaused = false;
},
size() {
return updates.length;
}
};
}
async function postSyncUpdate(payload) {
const response = await (0, import_api_fetch.default)({
body: JSON.stringify(payload),
headers: {
"Content-Type": "application/json"
},
method: "POST",
parse: false,
path: SYNC_API_PATH
});
if (!response.ok) {
throw new Error(
`Sync update failed with status ${response.status}`
);
}
return await response.json();
}
function postSyncUpdateNonBlocking(payload) {
if (payload.rooms.length === 0) {
return;
}
(0, import_api_fetch.default)({
body: JSON.stringify(payload),
headers: { "Content-Type": "application/json" },
keepalive: true,
method: "POST",
parse: false,
path: SYNC_API_PATH
}).catch(() => {
});
}
function intValueOrDefault(value, defaultValue) {
const intValue = parseInt(String(value), 10);
return isNaN(intValue) ? defaultValue : intValue;
}
// packages/sync/build-module/providers/http-polling/polling-manager.mjs
var POLLING_MANAGER_ORIGIN = "polling-manager";
var roomStates = /* @__PURE__ */ new Map();
function createDeprecatedCompactionUpdate(updates) {
const mergeable = updates.filter(
(u) => [SyncUpdateType.COMPACTION, SyncUpdateType.UPDATE].includes(
u.type
)
).map((u) => base64ToUint8Array(u.data));
return createSyncUpdate(
mergeUpdatesV2(mergeable),
SyncUpdateType.COMPACTION
);
}
function createSyncStep1Update(doc2) {
const encoder = createEncoder();
writeSyncStep1(encoder, doc2);
return createSyncUpdate(
toUint8Array(encoder),
SyncUpdateType.SYNC_STEP_1
);
}
function createSyncStep2Update(doc2, step1) {
const decoder = createDecoder(step1);
const encoder = createEncoder();
readSyncMessage(
decoder,
encoder,
doc2,
POLLING_MANAGER_ORIGIN
);
return createSyncUpdate(
toUint8Array(encoder),
SyncUpdateType.SYNC_STEP_2
);
}
function processAwarenessUpdate(state, awareness) {
const currentStates = awareness.getStates();
const added = /* @__PURE__ */ new Set();
const updated = /* @__PURE__ */ new Set();
const removed = new Set(
Array.from(currentStates.keys()).filter(
(clientId) => !state[clientId]
)
);
Object.entries(state).forEach(([clientIdString, awarenessState]) => {
const clientId = Number(clientIdString);
if (clientId === awareness.clientID) {
return;
}
if (null === awarenessState) {
currentStates.delete(clientId);
removed.add(clientId);
return;
}
if (!currentStates.has(clientId)) {
currentStates.set(clientId, awarenessState);
added.add(clientId);
return;
}
const currentState = currentStates.get(clientId);
if (JSON.stringify(currentState) !== JSON.stringify(awarenessState)) {
currentStates.set(clientId, awarenessState);
updated.add(clientId);
}
});
if (added.size + updated.size > 0) {
awareness.emit("change", [
{
added: Array.from(added),
updated: Array.from(updated),
// Left blank on purpose, as the removal of clients is handled in the if condition below.
removed: []
}
]);
}
if (removed.size > 0) {
removeAwarenessStates(
awareness,
Array.from(removed),
POLLING_MANAGER_ORIGIN
);
}
}
function processDocUpdate(update, doc2, onSync) {
const data = base64ToUint8Array(update.data);
switch (update.type) {
case SyncUpdateType.SYNC_STEP_1: {
return createSyncStep2Update(doc2, data);
}
case SyncUpdateType.SYNC_STEP_2: {
const decoder = createDecoder(data);
const encoder = createEncoder();
readSyncMessage(
decoder,
encoder,
doc2,
POLLING_MANAGER_ORIGIN
);
onSync();
return;
}
case SyncUpdateType.COMPACTION:
case SyncUpdateType.UPDATE: {
applyUpdateV2(doc2, data, POLLING_MANAGER_ORIGIN);
}
}
}
function checkConnectionLimit(awareness, roomState) {
if (!roomState.isPrimaryRoom || hasCheckedConnectionLimit) {
return false;
}
hasCheckedConnectionLimit = true;
const maxClientsPerRoom = (0, import_hooks2.applyFilters)(
"sync.pollingProvider.maxClientsPerRoom",
DEFAULT_CLIENT_LIMIT_PER_ROOM,
roomState.room
);
const clientCount = Object.keys(awareness).length;
const validatedLimit = intValueOrDefault(
maxClientsPerRoom,
DEFAULT_CLIENT_LIMIT_PER_ROOM
);
if (clientCount > validatedLimit) {
roomState.log("Connection limit exceeded", {
clientCount,
maxClientsPerRoom: validatedLimit,
room: roomState.room
});
return true;
}
return false;
}
var areListenersRegistered = false;
var hasCheckedConnectionLimit = false;
var hasCollaborators = false;
var isActiveBrowser = "visible" === document.visibilityState;
var isPolling = false;
var isUnloadPending = false;
var pollInterval = POLLING_INTERVAL_IN_MS;
var pollingTimeoutId = null;
function handleBeforeUnload() {
isUnloadPending = true;
}
function handlePageHide() {
const rooms = Array.from(roomStates.entries()).map(
([room, state]) => ({
after: 0,
awareness: null,
client_id: state.clientId,
room,
updates: []
})
);
postSyncUpdateNonBlocking({ rooms });
}
function handleVisibilityChange() {
const wasActive = isActiveBrowser;
isActiveBrowser = document.visibilityState === "visible";
if (isActiveBrowser && !wasActive) {
if (pollingTimeoutId) {
clearTimeout(pollingTimeoutId);
pollingTimeoutId = null;
poll();
}
}
}
function poll() {
isPolling = true;
pollingTimeoutId = null;
async function start() {
if (0 === roomStates.size) {
isPolling = false;
return;
}
isUnloadPending = false;
roomStates.forEach((state) => {
state.onStatusChange({ status: "connecting" });
});
const payload = {
rooms: Array.from(roomStates.entries()).map(
([room, state]) => ({
after: state.endCursor ?? 0,
awareness: state.localAwarenessState,
client_id: state.clientId,
room,
updates: state.updateQueue.get()
})
)
};
try {
const { rooms } = await postSyncUpdate(payload);
roomStates.forEach((state) => {
state.onStatusChange({ status: "connected" });
});
hasCollaborators = false;
rooms.forEach((room) => {
if (!roomStates.has(room.room)) {
return;
}
const roomState = roomStates.get(room.room);
roomState.endCursor = room.end_cursor;
if (checkConnectionLimit(room.awareness, roomState)) {
roomState.onStatusChange({
status: "disconnected",
error: new ConnectionError(
ConnectionErrorCode.CONNECTION_LIMIT_EXCEEDED,
"Connection limit exceeded"
)
});
unregisterRoom(room.room);
return;
}
roomState.processAwarenessUpdate(room.awareness);
if (roomState.isPrimaryRoom && Object.keys(room.awareness).length > 1) {
hasCollaborators = true;
roomStates.forEach((state) => {
state.updateQueue.resume();
});
}
const responseUpdates = [];
for (const update of room.updates) {
try {
const response = roomState.processDocUpdate(update);
if (response) {
responseUpdates.push(response);
}
} catch (error) {
roomState.log(
"Failed to apply sync update",
{ error, update },
"error",
true
// force
);
}
}
roomState.updateQueue.addBulk(responseUpdates);
if (room.should_compact) {
roomState.log("Server requested compaction update");
roomState.updateQueue.clear();
roomState.updateQueue.add(
roomState.createCompactionUpdate()
);
} else if (room.compaction_request) {
roomState.log("Server requested (old) compaction update");
roomState.updateQueue.add(
createDeprecatedCompactionUpdate(
room.compaction_request
)
);
}
});
if (isActiveBrowser && hasCollaborators) {
pollInterval = POLLING_INTERVAL_WITH_COLLABORATORS_IN_MS;
} else if (isActiveBrowser) {
pollInterval = POLLING_INTERVAL_IN_MS;
} else {
pollInterval = POLLING_INTERVAL_BACKGROUND_TAB_IN_MS;
}
} catch (error) {
pollInterval = Math.min(
pollInterval * 2,
MAX_ERROR_BACKOFF_IN_MS
);
for (const room of payload.rooms) {
if (!roomStates.has(room.room)) {
continue;
}
const state = roomStates.get(room.room);
if (room.updates.length > 0 && state.endCursor > 0) {
state.updateQueue.clear();
state.updateQueue.add(state.createCompactionUpdate());
} else if (room.updates.length > 0) {
state.updateQueue.restore(room.updates);
}
state.log(
"Error posting sync update, will retry with backoff",
{ error, nextPoll: pollInterval },
"error",
true
// force
);
}
if (!isUnloadPending) {
roomStates.forEach((state) => {
state.onStatusChange({
status: "disconnected",
canManuallyRetry: true,
willAutoRetryInMs: pollInterval
});
});
}
}
pollingTimeoutId = setTimeout(poll, pollInterval);
}
void start();
}
function registerRoom({
room,
doc: doc2,
awareness,
log,
onSync,
onStatusChange
}) {
if (roomStates.has(room)) {
return;
}
const updateQueue = createUpdateQueue([createSyncStep1Update(doc2)]);
const isPrimaryRoom = 0 === roomStates.size;
function onAwarenessUpdate() {
roomState.localAwarenessState = awareness.getLocalState() ?? {};
}
function onDocUpdate(update, origin2) {
if (POLLING_MANAGER_ORIGIN === origin2) {
return;
}
if (update.byteLength > MAX_UPDATE_SIZE_IN_BYTES) {
const state = roomStates.get(room);
if (!state) {
return;
}
state.log("Document size limit exceeded", {
maxUpdateSizeInBytes: MAX_UPDATE_SIZE_IN_BYTES,
updateSizeInBytes: update.byteLength
});
state.onStatusChange({
status: "disconnected",
error: new ConnectionError(
ConnectionErrorCode.DOCUMENT_SIZE_LIMIT_EXCEEDED,
"Document size limit exceeded"
)
});
unregisterRoom(room);
}
updateQueue.add(createSyncUpdate(update, SyncUpdateType.UPDATE));
}
function unregister() {
doc2.off("updateV2", onDocUpdate);
awareness.off("change", onAwarenessUpdate);
updateQueue.clear();
}
const roomState = {
clientId: doc2.clientID,
createCompactionUpdate: () => createSyncUpdate(
encodeStateAsUpdateV2(doc2),
SyncUpdateType.COMPACTION
),
endCursor: 0,
isPrimaryRoom,
localAwarenessState: awareness.getLocalState() ?? {},
log,
onStatusChange,
processAwarenessUpdate: (state) => processAwarenessUpdate(state, awareness),
processDocUpdate: (update) => processDocUpdate(update, doc2, onSync),
room,
unregister,
updateQueue
};
doc2.on("updateV2", onDocUpdate);
awareness.on("change", onAwarenessUpdate);
roomStates.set(room, roomState);
if (!areListenersRegistered) {
window.addEventListener("beforeunload", handleBeforeUnload);
window.addEventListener("pagehide", handlePageHide);
document.addEventListener("visibilitychange", handleVisibilityChange);
areListenersRegistered = true;
}
if (!isPolling) {
poll();
}
}
function unregisterRoom(room) {
const state = roomStates.get(room);
if (state) {
const rooms = [
{
after: 0,
awareness: null,
client_id: state.clientId,
room,
updates: []
}
];
postSyncUpdateNonBlocking({ rooms });
state.unregister();
roomStates.delete(room);
}
if (0 === roomStates.size && areListenersRegistered) {
window.removeEventListener("beforeunload", handleBeforeUnload);
window.removeEventListener("pagehide", handlePageHide);
document.removeEventListener(
"visibilitychange",
handleVisibilityChange
);
areListenersRegistered = false;
hasCheckedConnectionLimit = false;
}
}
function retryNow() {
pollInterval = POLLING_INTERVAL_IN_MS * 2;
if (pollingTimeoutId) {
clearTimeout(pollingTimeoutId);
pollingTimeoutId = null;
poll();
}
}
var pollingManager = {
registerRoom,
retryNow,
unregisterRoom
};
// packages/sync/build-module/providers/http-polling/http-polling-provider.mjs
var HttpPollingProvider = class extends ObservableV2 {
constructor(options) {
super();
this.options = options;
this.log("Initializing", { room: options.room });
this.awareness = options.awareness ?? new Awareness(options.ydoc);
this.connect();
}
awareness;
status = "disconnected";
synced = false;
/**
* Connect to the endpoint and initialize sync.
*/
connect() {
this.log("Connecting");
pollingManager.registerRoom({
room: this.options.room,
doc: this.options.ydoc,
awareness: this.awareness,
log: this.log,
onStatusChange: this.emitStatus,
onSync: this.onSync
});
}
/**
* Destroy the provider and cleanup resources.
*/
destroy() {
this.disconnect();
super.destroy();
}
/**
* Disconnect the provider and allow reconnection later.
*/
disconnect() {
this.log("Disconnecting");
pollingManager.unregisterRoom(this.options.room);
this.emitStatus({ status: "disconnected" });
}
/**
* Emit connection status, passing the full object through so that
* additional fields (e.g. `willAutoRetryInMs`) are preserved for consumers.
*
* @param connectionStatus The connection status object
*/
emitStatus = (connectionStatus) => {
const { status } = connectionStatus;
const error = status === "disconnected" ? connectionStatus.error : void 0;
if (this.status === status && !error) {
return;
}
if (status === "connecting" && this.status !== "disconnected") {
return;
}
this.log("Status change", { status, error });
this.status = status;
this.emit("status", [connectionStatus]);
};
/**
* Log debug messages if debugging is enabled.
*
* @param message The debug message
* @param debug Additional debug information
* @param errorLevel The console method to use for logging
* @param force Whether to force logging regardless of debug setting
*/
log = (message, debug = {}, errorLevel = "log", force = false) => {
if (!this.options.debug && !force) {
return;
}
const logFn = console[errorLevel] || console.log;
logFn(`[${this.constructor.name}]: ${message}`, {
room: this.options.room,
...debug
});
};
/**
* Handle synchronization events from the polling manager.
*/
onSync = () => {
if (!this.synced) {
this.synced = true;
this.log("Synced");
}
};
};
function createHttpPollingProvider() {
return async ({
awareness,
objectType,
objectId,
ydoc
}) => {
const room = objectId ? `${objectType}:${objectId}` : objectType;
const provider = new HttpPollingProvider({
awareness,
// debug: true,
room,
ydoc
});
return {
destroy: () => provider.destroy(),
// Adapter: ObservableV2.on is compatible with ProviderOn
// The callback receives data as the first parameter
on: (event, callback) => {
provider.on(event, callback);
}
};
};
}
// packages/sync/build-module/providers/index.mjs
var providerCreators = null;
function getDefaultProviderCreators() {
return [createHttpPollingProvider()];
}
function isProviderCreator(creator) {
return "function" === typeof creator;
}
function getProviderCreators() {
if (providerCreators) {
return providerCreators;
}
if (!window._wpCollaborationEnabled) {
return [];
}
const filteredProviderCreators = (0, import_hooks3.applyFilters)(
"sync.providers",
getDefaultProviderCreators()
);
if (!Array.isArray(filteredProviderCreators)) {
providerCreators = [];
return providerCreators;
}
providerCreators = filteredProviderCreators.filter(isProviderCreator);
return providerCreators;
}
// packages/sync/build-module/y-utilities/y-multidoc-undomanager.mjs
var popStackItem2 = (mum, type) => {
const stack = type === "undo" ? mum.undoStack : mum.redoStack;
while (stack.length > 0) {
const um = (
/** @type {Y.UndoManager} */
stack.pop()
);
const prevUmStack = type === "undo" ? um.undoStack : um.redoStack;
const stackItem = (
/** @type {any} */
prevUmStack.pop()
);
let actionPerformed = false;
if (type === "undo") {
um.undoStack = [stackItem];
actionPerformed = um.undo() !== null;
um.undoStack = prevUmStack;
} else {
um.redoStack = [stackItem];
actionPerformed = um.redo() !== null;
um.redoStack = prevUmStack;
}
if (actionPerformed) {
return stackItem;
}
}
return null;
};
var YMultiDocUndoManager = class extends Observable {
/**
* @param {Y.AbstractType<any>|Array<Y.AbstractType<any>>} typeScope Accepts either a single type, or an array of types
* @param {ConstructorParameters<typeof Y.UndoManager>[1]} opts
*/
constructor(typeScope = [], opts = {}) {
super();
this.docs = /* @__PURE__ */ new Map();
this.trackedOrigins = opts.trackedOrigins || /* @__PURE__ */ new Set([null]);
opts.trackedOrigins = this.trackedOrigins;
this._defaultOpts = opts;
this.undoStack = [];
this.redoStack = [];
this.addToScope(typeScope);
}
/**
* @param {Array<Y.AbstractType<any>> | Y.AbstractType<any>} ytypes
*/
addToScope(ytypes) {
ytypes = isArray(ytypes) ? ytypes : [ytypes];
ytypes.forEach((ytype) => {
const ydoc = (
/** @type {Y.Doc} */
ytype.doc
);
const um = setIfUndefined(this.docs, ydoc, () => {
const um2 = new UndoManager([ytype], this._defaultOpts);
um2.on(
"stack-cleared",
/** @param {any} opts */
({
undoStackCleared,
redoStackCleared
}) => {
this.clear(undoStackCleared, redoStackCleared);
}
);
ydoc.on("destroy", () => {
this.docs.delete(ydoc);
this.undoStack = this.undoStack.filter(
(um3) => um3.doc !== ydoc
);
this.redoStack = this.redoStack.filter(
(um3) => um3.doc !== ydoc
);
});
um2.on(
"stack-item-added",
/** @param {any} change */
(change) => {
const stack = change.type === "undo" ? this.undoStack : this.redoStack;
stack.push(um2);
this.emit("stack-item-added", [
{ ...change, ydoc },
this
]);
}
);
um2.on(
"stack-item-updated",
/** @param {any} change */
(change) => {
this.emit("stack-item-updated", [
{ ...change, ydoc },
this
]);
}
);
um2.on(
"stack-item-popped",
/** @param {any} change */
(change) => {
this.emit("stack-item-popped", [
{ ...change, ydoc },
this
]);
}
);
return um2;
});
if (um.scope.every((yt) => yt !== ytype)) {
um.scope.push(ytype);
}
});
}
/**
* @param {any} origin
*/
/* c8 ignore next 3 */
addTrackedOrigin(origin2) {
this.trackedOrigins.add(origin2);
}
/**
* @param {any} origin
*/
/* c8 ignore next 3 */
removeTrackedOrigin(origin2) {
this.trackedOrigins.delete(origin2);
}
/**
* Undo last changes on type.
*
* @return {any?} Returns StackItem if a change was applied
*/
undo() {
return popStackItem2(this, "undo");
}
/**
* Redo last undo operation.
*
* @return {any?} Returns StackItem if a change was applied
*/
redo() {
return popStackItem2(this, "redo");
}
clear(clearUndoStack = true, clearRedoStack = true) {
if (clearUndoStack && this.canUndo() || clearRedoStack && this.canRedo()) {
this.docs.forEach((um) => {
clearUndoStack && (this.undoStack = []);
clearRedoStack && (this.redoStack = []);
um.clear(clearUndoStack, clearRedoStack);
});
this.emit("stack-cleared", [
{
undoStackCleared: clearUndoStack,
redoStackCleared: clearRedoStack
}
]);
}
}
/* c8 ignore next 5 */
stopCapturing() {
this.docs.forEach((um) => {
um.stopCapturing();
});
}
/**
* Are undo steps available?
*
* @return {boolean} `true` if undo is possible
*/
canUndo() {
return this.undoStack.length > 0;
}
/**
* Are redo steps available?
*
* @return {boolean} `true` if redo is possible
*/
canRedo() {
return this.redoStack.length > 0;
}
destroy() {
this.docs.forEach((um) => um.destroy());
super.destroy();
}
};
// packages/sync/build-module/undo-manager.mjs
function createUndoManager() {
const yUndoManager = new YMultiDocUndoManager([], {
// Throttle undo/redo captures after 500ms of inactivity.
// 500 was selected from subjective local UX testing, shorter timeouts
// may cause mid-word undo stack items.
captureTimeout: 500,
// Ensure that we only scope the undo/redo to the current editor.
// The yjs document's clientID is added once it's available.
trackedOrigins: /* @__PURE__ */ new Set([LOCAL_EDITOR_ORIGIN])
});
return {
/**
* Record changes into the history.
* Since Yjs automatically tracks changes, this method translates the WordPress
* HistoryRecord format into Yjs operations.
*
* @param _record A record of changes to record.
* @param _isStaged Whether to immediately create an undo point or not.
*/
addRecord(_record, _isStaged = false) {
},
/**
* Add a Yjs map to the scope of the undo manager.
*
* @param {Y.Map< any >} ymap The Yjs map to add to the scope.
* @param handlers
* @param handlers.addUndoMeta
* @param handlers.restoreUndoMeta
*/
addToScope(ymap, handlers) {
if (ymap.doc === null) {
return;
}
const ydoc = ymap.doc;
yUndoManager.addToScope(ymap);
const { addUndoMeta, restoreUndoMeta } = handlers;
yUndoManager.on("stack-item-added", (event) => {
addUndoMeta(ydoc, event.stackItem.meta);
});
yUndoManager.on("stack-item-popped", (event) => {
restoreUndoMeta(ydoc, event.stackItem.meta);
});
},
/**
* Undo the last recorded changes.
*
*/
undo() {
if (!yUndoManager.canUndo()) {
return;
}
yUndoManager.undo();
return [];
},
/**
* Redo the last undone changes.
*/
redo() {
if (!yUndoManager.canRedo()) {
return;
}
yUndoManager.redo();
return [];
},
/**
* Check if there are changes that can be undone.
*
* @return {boolean} Whether there are changes to undo.
*/
hasUndo() {
return yUndoManager.canUndo();
},
/**
* Check if there are changes that can be redone.
*
* @return {boolean} Whether there are changes to redo.
*/
hasRedo() {
return yUndoManager.canRedo();
},
/**
* Stop capturing changes into the current undo item.
* The next change will create a new undo item.
*/
stopCapturing() {
yUndoManager.stopCapturing();
}
};
}
// packages/sync/build-module/utils.mjs
function createYjsDoc(documentMeta = {}) {
const metaMap = new Map(
Object.entries(documentMeta)
);
return new Doc({ meta: metaMap });
}
function initializeYjsDoc(ydoc) {
const stateMap = ydoc.getMap(CRDT_STATE_MAP_KEY);
stateMap.set(CRDT_STATE_MAP_VERSION_KEY, CRDT_DOC_VERSION);
}
function markEntityAsSaved(ydoc) {
const recordMeta = ydoc.getMap(CRDT_STATE_MAP_KEY);
recordMeta.set(CRDT_STATE_MAP_SAVED_AT_KEY, Date.now());
recordMeta.set(CRDT_STATE_MAP_SAVED_BY_KEY, ydoc.clientID);
}
function pseudoRandomID() {
return Math.floor(Math.random() * 1e9);
}
function serializeCrdtDoc(crdtDoc) {
return JSON.stringify({
document: toBase64(encodeStateAsUpdateV2(crdtDoc)),
updateId: pseudoRandomID()
// helps with debugging
});
}
function deserializeCrdtDoc(serializedCrdtDoc) {
try {
const { document: document2 } = JSON.parse(serializedCrdtDoc);
const docMeta = {
[CRDT_DOC_META_PERSISTENCE_KEY]: true
};
const ydoc = createYjsDoc(docMeta);
const yupdate = fromBase64(document2);
applyUpdateV2(ydoc, yupdate);
ydoc.clientID = pseudoRandomID();
return ydoc;
} catch (e) {
return null;
}
}
// packages/sync/build-module/manager.mjs
function getEntityId(objectType, objectId) {
return `${objectType}_${objectId}`;
}
function createSyncManager(debug = false) {
const debugWrap = debug ? logPerformanceTiming : passThru;
const collectionStates = /* @__PURE__ */ new Map();
const entityStates = /* @__PURE__ */ new Map();
let undoManager;
function log(component, message, entityId, context = {}) {
if (!debug) {
return;
}
console.log(`[SyncManager][${component}]: ${message}`, {
...context,
entityId
});
}
async function loadEntity(syncConfig, objectType, objectId, record, handlers) {
const providerCreators2 = getProviderCreators();
const entityId = getEntityId(objectType, objectId);
if (0 === providerCreators2.length) {
log("loadEntity", "no providers, skipping", entityId);
return;
}
if (entityStates.has(entityId)) {
log("loadEntity", "already loaded", entityId);
return;
}
log("loadEntity", "loading", entityId);
handlers = {
addUndoMeta: debugWrap(handlers.addUndoMeta),
editRecord: debugWrap(handlers.editRecord),
getEditedRecord: debugWrap(handlers.getEditedRecord),
onStatusChange: debugWrap(handlers.onStatusChange),
persistCRDTDoc: debugWrap(handlers.persistCRDTDoc),
refetchRecord: debugWrap(handlers.refetchRecord),
restoreUndoMeta: debugWrap(handlers.restoreUndoMeta)
};
const ydoc = createYjsDoc({ objectType });
const recordMap = ydoc.getMap(CRDT_RECORD_MAP_KEY);
const stateMap = ydoc.getMap(CRDT_STATE_MAP_KEY);
const now = Date.now();
const unload = () => {
log("loadEntity", "unloading", entityId);
providerResults.forEach((result) => result.destroy());
handlers.onStatusChange(null);
recordMap.unobserveDeep(onRecordUpdate);
stateMap.unobserve(onStateMapUpdate);
ydoc.destroy();
entityStates.delete(entityId);
};
const awareness = syncConfig.createAwareness?.(ydoc, objectId);
const onRecordUpdate = (_events, transaction) => {
if (transaction.local && !(transaction.origin instanceof UndoManager)) {
return;
}
void internal.updateEntityRecord(objectType, objectId);
};
const onStateMapUpdate = (event, transaction) => {
if (transaction.local) {
return;
}
event.keysChanged.forEach((key) => {
switch (key) {
case CRDT_STATE_MAP_SAVED_AT_KEY:
const newValue = stateMap.get(CRDT_STATE_MAP_SAVED_AT_KEY);
if ("number" === typeof newValue && newValue > now) {
log("loadEntity", "refetching record", entityId);
void handlers.refetchRecord().catch(() => {
});
}
break;
}
});
};
if (!undoManager) {
undoManager = createUndoManager();
}
const { addUndoMeta, restoreUndoMeta } = handlers;
undoManager.addToScope(recordMap, {
addUndoMeta,
restoreUndoMeta
});
const entityState = {
awareness,
handlers,
objectId,
objectType,
syncConfig,
unload,
ydoc
};
entityStates.set(entityId, entityState);
log("loadEntity", "connecting", entityId);
const providerResults = await Promise.all(
providerCreators2.map(async (create7) => {
const provider = await create7({
objectType,
objectId,
ydoc,
awareness
});
provider.on("status", handlers.onStatusChange);
return provider;
})
);
recordMap.observeDeep(onRecordUpdate);
stateMap.observe(onStateMapUpdate);
initializeYjsDoc(ydoc);
internal.applyPersistedCrdtDoc(objectType, objectId, record);
}
async function loadCollection(syncConfig, objectType, handlers) {
const providerCreators2 = getProviderCreators();
const entityId = getEntityId(objectType, null);
if (0 === providerCreators2.length) {
log("loadCollection", "no providers, skipping", entityId);
return;
}
if (collectionStates.has(objectType)) {
log("loadCollection", "already loaded", entityId);
return;
}
log("loadCollection", "loading", entityId);
const ydoc = createYjsDoc({ collection: true, objectType });
const stateMap = ydoc.getMap(CRDT_STATE_MAP_KEY);
const now = Date.now();
const unload = () => {
log("loadCollection", "unloading", entityId);
providerResults.forEach((result) => result.destroy());
handlers.onStatusChange(null);
stateMap.unobserve(onStateMapUpdate);
ydoc.destroy();
collectionStates.delete(objectType);
};
const onStateMapUpdate = (event, transaction) => {
if (transaction.local) {
return;
}
event.keysChanged.forEach((key) => {
switch (key) {
case CRDT_STATE_MAP_SAVED_AT_KEY:
const newValue = stateMap.get(CRDT_STATE_MAP_SAVED_AT_KEY);
if ("number" === typeof newValue && newValue > now) {
void handlers.refetchRecords().catch(() => {
});
}
break;
}
});
};
const awareness = syncConfig.createAwareness?.(ydoc);
const collectionState = {
awareness,
handlers,
syncConfig,
unload,
ydoc
};
collectionStates.set(objectType, collectionState);
log("loadCollection", "connecting", entityId);
const providerResults = await Promise.all(
providerCreators2.map(async (create7) => {
const provider = await create7({
awareness,
objectType,
objectId: null,
ydoc
});
provider.on("status", handlers.onStatusChange);
return provider;
})
);
stateMap.observe(onStateMapUpdate);
initializeYjsDoc(ydoc);
}
function unloadEntity(objectType, objectId) {
const entityId = getEntityId(objectType, objectId);
log("unloadEntity", "unloading", entityId);
entityStates.get(entityId)?.unload();
updateCRDTDoc(objectType, null, {}, origin, { isSave: true });
}
function getAwareness(objectType, objectId) {
const entityId = getEntityId(objectType, objectId);
const entityState = entityStates.get(entityId);
if (!entityState || !entityState.awareness) {
return void 0;
}
return entityState.awareness;
}
function _applyPersistedCrdtDoc(objectType, objectId, record) {
const entityId = getEntityId(objectType, objectId);
const entityState = entityStates.get(entityId);
if (!entityState) {
log("applyPersistedCrdtDoc", "no entity state", entityId);
return;
}
const {
handlers,
syncConfig: {
applyChangesToCRDTDoc,
getChangesFromCRDTDoc,
getPersistedCRDTDoc
},
ydoc: targetDoc
} = entityState;
const serialized = getPersistedCRDTDoc?.(record);
const tempDoc = serialized ? deserializeCrdtDoc(serialized) : null;
if (!tempDoc) {
log("applyPersistedCrdtDoc", "no persisted doc", entityId);
targetDoc.transact(() => {
applyChangesToCRDTDoc(targetDoc, record);
handlers.persistCRDTDoc();
}, LOCAL_SYNC_MANAGER_ORIGIN);
return;
}
const update = encodeStateAsUpdateV2(tempDoc);
applyUpdateV2(targetDoc, update);
const invalidations = getChangesFromCRDTDoc(tempDoc, record);
const invalidatedKeys = Object.keys(invalidations);
tempDoc.destroy();
if (0 === invalidatedKeys.length) {
log("applyPersistedCrdtDoc", "valid persisted doc", entityId);
return;
}
log("applyPersistedCrdtDoc", "invalidated keys", entityId, {
invalidatedKeys
});
const changes = invalidatedKeys.reduce(
(acc, key) => Object.assign(acc, {
[key]: record[key]
}),
{}
);
targetDoc.transact(() => {
applyChangesToCRDTDoc(targetDoc, changes);
handlers.persistCRDTDoc();
}, LOCAL_SYNC_MANAGER_ORIGIN);
}
function updateCRDTDoc(objectType, objectId, changes, origin2, options = {}) {
const { isSave = false, isNewUndoLevel = false } = options;
const entityId = getEntityId(objectType, objectId);
const entityState = entityStates.get(entityId);
const collectionState = collectionStates.get(objectType);
if (entityState) {
const { syncConfig, ydoc } = entityState;
if (isNewUndoLevel && undoManager) {
undoManager.stopCapturing?.();
}
ydoc.transact(() => {
log("updateCRDTDoc", "applying changes", entityId, {
changedKeys: Object.keys(changes)
});
syncConfig.applyChangesToCRDTDoc(ydoc, changes);
if (isSave) {
markEntityAsSaved(ydoc);
}
}, origin2);
}
if (collectionState && isSave) {
collectionState.ydoc.transact(() => {
markEntityAsSaved(collectionState.ydoc);
}, origin2);
}
}
async function _updateEntityRecord(objectType, objectId) {
const entityId = getEntityId(objectType, objectId);
const entityState = entityStates.get(entityId);
if (!entityState) {
log("updateEntityRecord", "no entity state", entityId);
return;
}
const { handlers, syncConfig, ydoc } = entityState;
const changes = syncConfig.getChangesFromCRDTDoc(
ydoc,
await handlers.getEditedRecord()
);
const changedKeys = Object.keys(changes);
if (0 === changedKeys.length) {
return;
}
log("updateEntityRecord", "changes", entityId, {
changedKeys
});
handlers.editRecord(changes);
}
async function createPersistedCRDTDoc(objectType, objectId) {
const entityId = getEntityId(objectType, objectId);
const entityState = entityStates.get(entityId);
if (!entityState?.ydoc) {
return null;
}
await new Promise((resolve) => setTimeout(resolve, 0));
return serializeCrdtDoc(entityState.ydoc);
}
const internal = {
applyPersistedCrdtDoc: debugWrap(_applyPersistedCrdtDoc),
updateEntityRecord: debugWrap(_updateEntityRecord)
};
return {
createPersistedCRDTDoc: debugWrap(createPersistedCRDTDoc),
getAwareness,
load: debugWrap(loadEntity),
loadCollection: debugWrap(loadCollection),
// Use getter to ensure we always return the current value of `undoManager`.
get undoManager() {
return undoManager;
},
unload: debugWrap(unloadEntity),
update: debugWrap(yieldToEventLoop(updateCRDTDoc))
};
}
// packages/sync/node_modules/diff/libesm/diff/base.js
var Diff = class {
diff(oldStr, newStr, options = {}) {
let callback;
if (typeof options === "function") {
callback = options;
options = {};
} else if ("callback" in options) {
callback = options.callback;
}
const oldString = this.castInput(oldStr, options);
const newString = this.castInput(newStr, options);
const oldTokens = this.removeEmpty(this.tokenize(oldString, options));
const newTokens = this.removeEmpty(this.tokenize(newString, options));
return this.diffWithOptionsObj(oldTokens, newTokens, options, callback);
}
diffWithOptionsObj(oldTokens, newTokens, options, callback) {
var _a;
const done = (value) => {
value = this.postProcess(value, options);
if (callback) {
setTimeout(function() {
callback(value);
}, 0);
return void 0;
} else {
return value;
}
};
const newLen = newTokens.length, oldLen = oldTokens.length;
let editLength = 1;
let maxEditLength = newLen + oldLen;
if (options.maxEditLength != null) {
maxEditLength = Math.min(maxEditLength, options.maxEditLength);
}
const maxExecutionTime = (_a = options.timeout) !== null && _a !== void 0 ? _a : Infinity;
const abortAfterTimestamp = Date.now() + maxExecutionTime;
const bestPath = [{ oldPos: -1, lastComponent: void 0 }];
let newPos = this.extractCommon(bestPath[0], newTokens, oldTokens, 0, options);
if (bestPath[0].oldPos + 1 >= oldLen && newPos + 1 >= newLen) {
return done(this.buildValues(bestPath[0].lastComponent, newTokens, oldTokens));
}
let minDiagonalToConsider = -Infinity, maxDiagonalToConsider = Infinity;
const execEditLength = () => {
for (let diagonalPath = Math.max(minDiagonalToConsider, -editLength); diagonalPath <= Math.min(maxDiagonalToConsider, editLength); diagonalPath += 2) {
let basePath;
const removePath = bestPath[diagonalPath - 1], addPath = bestPath[diagonalPath + 1];
if (removePath) {
bestPath[diagonalPath - 1] = void 0;
}
let canAdd = false;
if (addPath) {
const addPathNewPos = addPath.oldPos - diagonalPath;
canAdd = addPath && 0 <= addPathNewPos && addPathNewPos < newLen;
}
const canRemove = removePath && removePath.oldPos + 1 < oldLen;
if (!canAdd && !canRemove) {
bestPath[diagonalPath] = void 0;
continue;
}
if (!canRemove || canAdd && removePath.oldPos < addPath.oldPos) {
basePath = this.addToPath(addPath, true, false, 0, options);
} else {
basePath = this.addToPath(removePath, false, true, 1, options);
}
newPos = this.extractCommon(basePath, newTokens, oldTokens, diagonalPath, options);
if (basePath.oldPos + 1 >= oldLen && newPos + 1 >= newLen) {
return done(this.buildValues(basePath.lastComponent, newTokens, oldTokens)) || true;
} else {
bestPath[diagonalPath] = basePath;
if (basePath.oldPos + 1 >= oldLen) {
maxDiagonalToConsider = Math.min(maxDiagonalToConsider, diagonalPath - 1);
}
if (newPos + 1 >= newLen) {
minDiagonalToConsider = Math.max(minDiagonalToConsider, diagonalPath + 1);
}
}
}
editLength++;
};
if (callback) {
(function exec() {
setTimeout(function() {
if (editLength > maxEditLength || Date.now() > abortAfterTimestamp) {
return callback(void 0);
}
if (!execEditLength()) {
exec();
}
}, 0);
})();
} else {
while (editLength <= maxEditLength && Date.now() <= abortAfterTimestamp) {
const ret = execEditLength();
if (ret) {
return ret;
}
}
}
}
addToPath(path, added, removed, oldPosInc, options) {
const last2 = path.lastComponent;
if (last2 && !options.oneChangePerToken && last2.added === added && last2.removed === removed) {
return {
oldPos: path.oldPos + oldPosInc,
lastComponent: { count: last2.count + 1, added, removed, previousComponent: last2.previousComponent }
};
} else {
return {
oldPos: path.oldPos + oldPosInc,
lastComponent: { count: 1, added, removed, previousComponent: last2 }
};
}
}
extractCommon(basePath, newTokens, oldTokens, diagonalPath, options) {
const newLen = newTokens.length, oldLen = oldTokens.length;
let oldPos = basePath.oldPos, newPos = oldPos - diagonalPath, commonCount = 0;
while (newPos + 1 < newLen && oldPos + 1 < oldLen && this.equals(oldTokens[oldPos + 1], newTokens[newPos + 1], options)) {
newPos++;
oldPos++;
commonCount++;
if (options.oneChangePerToken) {
basePath.lastComponent = { count: 1, previousComponent: basePath.lastComponent, added: false, removed: false };
}
}
if (commonCount && !options.oneChangePerToken) {
basePath.lastComponent = { count: commonCount, previousComponent: basePath.lastComponent, added: false, removed: false };
}
basePath.oldPos = oldPos;
return newPos;
}
equals(left, right, options) {
if (options.comparator) {
return options.comparator(left, right);
} else {
return left === right || !!options.ignoreCase && left.toLowerCase() === right.toLowerCase();
}
}
removeEmpty(array) {
const ret = [];
for (let i = 0; i < array.length; i++) {
if (array[i]) {
ret.push(array[i]);
}
}
return ret;
}
// eslint-disable-next-line @typescript-eslint/no-unused-vars
castInput(value, options) {
return value;
}
// eslint-disable-next-line @typescript-eslint/no-unused-vars
tokenize(value, options) {
return Array.from(value);
}
join(chars) {
return chars.join("");
}
postProcess(changeObjects, options) {
return changeObjects;
}
get useLongestToken() {
return false;
}
buildValues(lastComponent, newTokens, oldTokens) {
const components = [];
let nextComponent;
while (lastComponent) {
components.push(lastComponent);
nextComponent = lastComponent.previousComponent;
delete lastComponent.previousComponent;
lastComponent = nextComponent;
}
components.reverse();
const componentLen = components.length;
let componentPos = 0, newPos = 0, oldPos = 0;
for (; componentPos < componentLen; componentPos++) {
const component = components[componentPos];
if (!component.removed) {
if (!component.added && this.useLongestToken) {
let value = newTokens.slice(newPos, newPos + component.count);
value = value.map(function(value2, i) {
const oldValue = oldTokens[oldPos + i];
return oldValue.length > value2.length ? oldValue : value2;
});
component.value = this.join(value);
} else {
component.value = this.join(newTokens.slice(newPos, newPos + component.count));
}
newPos += component.count;
if (!component.added) {
oldPos += component.count;
}
} else {
component.value = this.join(oldTokens.slice(oldPos, oldPos + component.count));
oldPos += component.count;
}
}
return components;
}
};
// packages/sync/node_modules/diff/libesm/diff/character.js
var CharacterDiff = class extends Diff {
};
var characterDiff = new CharacterDiff();
function diffChars(oldStr, newStr, options) {
return characterDiff.diff(oldStr, newStr, options);
}
// packages/sync/node_modules/diff/libesm/diff/line.js
var LineDiff = class extends Diff {
constructor() {
super(...arguments);
this.tokenize = tokenize;
}
equals(left, right, options) {
if (options.ignoreWhitespace) {
if (!options.newlineIsToken || !left.includes("\n")) {
left = left.trim();
}
if (!options.newlineIsToken || !right.includes("\n")) {
right = right.trim();
}
} else if (options.ignoreNewlineAtEof && !options.newlineIsToken) {
if (left.endsWith("\n")) {
left = left.slice(0, -1);
}
if (right.endsWith("\n")) {
right = right.slice(0, -1);
}
}
return super.equals(left, right, options);
}
};
var lineDiff = new LineDiff();
function diffLines(oldStr, newStr, options) {
return lineDiff.diff(oldStr, newStr, options);
}
function tokenize(value, options) {
if (options.stripTrailingCr) {
value = value.replace(/\r\n/g, "\n");
}
const retLines = [], linesAndNewlines = value.split(/(\n|\r\n)/);
if (!linesAndNewlines[linesAndNewlines.length - 1]) {
linesAndNewlines.pop();
}
for (let i = 0; i < linesAndNewlines.length; i++) {
const line = linesAndNewlines[i];
if (i % 2 && !options.newlineIsToken) {
retLines[retLines.length - 1] += line;
} else {
retLines.push(line);
}
}
return retLines;
}
// packages/sync/build-module/quill-delta/Delta.mjs
var import_es62 = __toESM(require_es6(), 1);
// packages/sync/build-module/quill-delta/AttributeMap.mjs
var import_es6 = __toESM(require_es6(), 1);
function cloneDeep(value) {
return JSON.parse(JSON.stringify(value));
}
var AttributeMap;
((AttributeMap2) => {
function compose(a = {}, b = {}, keepNull = false) {
if (typeof a !== "object") {
a = {};
}
if (typeof b !== "object") {
b = {};
}
let attributes = cloneDeep(b);
if (!keepNull) {
attributes = Object.keys(attributes).reduce(
(copy2, key) => {
if (attributes[key] !== null || attributes[key] !== void 0) {
copy2[key] = attributes[key];
}
return copy2;
},
{}
);
}
for (const key in a) {
if (a[key] !== void 0 && b[key] === void 0) {
attributes[key] = a[key];
}
}
return Object.keys(attributes).length > 0 ? attributes : void 0;
}
AttributeMap2.compose = compose;
function diff(a = {}, b = {}) {
if (typeof a !== "object") {
a = {};
}
if (typeof b !== "object") {
b = {};
}
const attributes = Object.keys(a).concat(Object.keys(b)).reduce((attrs, key) => {
if (!(0, import_es6.default)(a[key], b[key])) {
attrs[key] = b[key] === void 0 ? null : b[key];
}
return attrs;
}, {});
return Object.keys(attributes).length > 0 ? attributes : void 0;
}
AttributeMap2.diff = diff;
function invert(attr = {}, base = {}) {
attr = attr || {};
const baseInverted = Object.keys(base).reduce(
(memo, key) => {
if (base[key] !== attr[key] && attr[key] !== void 0) {
memo[key] = base[key];
}
return memo;
},
{}
);
return Object.keys(attr).reduce((memo, key) => {
if (attr[key] !== base[key] && base[key] === void 0) {
memo[key] = null;
}
return memo;
}, baseInverted);
}
AttributeMap2.invert = invert;
function transform(a, b, priority = false) {
if (typeof a !== "object") {
return b;
}
if (typeof b !== "object") {
return void 0;
}
if (!priority) {
return b;
}
const attributes = Object.keys(b).reduce(
(attrs, key) => {
if (a[key] === void 0) {
attrs[key] = b[key];
}
return attrs;
},
{}
);
return Object.keys(attributes).length > 0 ? attributes : void 0;
}
AttributeMap2.transform = transform;
})(AttributeMap || (AttributeMap = {}));
var AttributeMap_default = AttributeMap;
// packages/sync/build-module/quill-delta/Op.mjs
var Op;
((Op2) => {
function length3(op) {
if (typeof op.delete === "number") {
return op.delete;
} else if (typeof op.retain === "number") {
return op.retain;
} else if (typeof op.retain === "object" && op.retain !== null) {
return 1;
}
return typeof op.insert === "string" ? op.insert.length : 1;
}
Op2.length = length3;
})(Op || (Op = {}));
var Op_default = Op;
// packages/sync/build-module/quill-delta/OpIterator.mjs
var Iterator = class {
ops;
index;
offset;
constructor(ops) {
this.ops = ops;
this.index = 0;
this.offset = 0;
}
hasNext() {
return this.peekLength() < Infinity;
}
next(length3) {
if (!length3) {
length3 = Infinity;
}
const nextOp = this.ops[this.index];
if (nextOp) {
const offset = this.offset;
const opLength = Op_default.length(nextOp);
if (length3 >= opLength - offset) {
length3 = opLength - offset;
this.index += 1;
this.offset = 0;
} else {
this.offset += length3;
}
if (typeof nextOp.delete === "number") {
return { delete: length3 };
}
const retOp = {};
if (nextOp.attributes) {
retOp.attributes = nextOp.attributes;
}
if (typeof nextOp.retain === "number") {
retOp.retain = length3;
} else if (typeof nextOp.retain === "object" && nextOp.retain !== null) {
retOp.retain = nextOp.retain;
} else if (typeof nextOp.insert === "string") {
retOp.insert = nextOp.insert.substr(offset, length3);
} else {
retOp.insert = nextOp.insert;
}
return retOp;
}
return { retain: Infinity };
}
peek() {
return this.ops[this.index];
}
peekLength() {
if (this.ops[this.index]) {
return Op_default.length(this.ops[this.index]) - this.offset;
}
return Infinity;
}
peekType() {
const op = this.ops[this.index];
if (op) {
if (typeof op.delete === "number") {
return "delete";
} else if (typeof op.retain === "number" || typeof op.retain === "object" && op.retain !== null) {
return "retain";
}
return "insert";
}
return "retain";
}
rest() {
if (!this.hasNext()) {
return [];
} else if (this.offset === 0) {
return this.ops.slice(this.index);
}
const offset = this.offset;
const index = this.index;
const next = this.next();
const rest = this.ops.slice(this.index);
this.offset = offset;
this.index = index;
return [next].concat(rest);
}
};
// packages/sync/build-module/quill-delta/Delta.mjs
function cloneDeep2(value) {
return JSON.parse(JSON.stringify(value));
}
var NULL_CHARACTER = String.fromCharCode(0);
var STRING_TOO_LARGE_THRESHOLD = 1e4;
function normalizeChangeCounts(changes) {
return changes.map((change) => ({
...change,
count: change.value.length
}));
}
var getEmbedTypeAndData = (a, b) => {
if (typeof a !== "object" || a === null) {
throw new Error(`cannot retain a ${typeof a}`);
}
if (typeof b !== "object" || b === null) {
throw new Error(`cannot retain a ${typeof b}`);
}
const embedType = Object.keys(a)[0];
if (!embedType || embedType !== Object.keys(b)[0]) {
throw new Error(
`embed types not matched: ${embedType} != ${Object.keys(b)[0]}`
);
}
return [embedType, a[embedType], b[embedType]];
};
var Delta = class _Delta {
static Op = Op_default;
static OpIterator = Iterator;
static AttributeMap = AttributeMap_default;
static handlers = {};
static registerEmbed(embedType, handler) {
this.handlers[embedType] = handler;
}
static unregisterEmbed(embedType) {
delete this.handlers[embedType];
}
static getHandler(embedType) {
const handler = this.handlers[embedType];
if (!handler) {
throw new Error(`no handlers for embed type "${embedType}"`);
}
return handler;
}
ops;
constructor(ops) {
if (Array.isArray(ops)) {
this.ops = ops;
} else if (ops !== null && ops !== void 0 && Array.isArray(ops.ops)) {
this.ops = ops.ops;
} else {
this.ops = [];
}
}
insert(arg, attributes) {
const newOp = {};
if (typeof arg === "string" && arg.length === 0) {
return this;
}
newOp.insert = arg;
if (attributes !== null && attributes !== void 0 && typeof attributes === "object" && Object.keys(attributes).length > 0) {
newOp.attributes = attributes;
}
return this.push(newOp);
}
delete(length3) {
if (length3 <= 0) {
return this;
}
return this.push({ delete: length3 });
}
retain(length3, attributes) {
if (typeof length3 === "number" && length3 <= 0) {
return this;
}
const newOp = { retain: length3 };
if (attributes !== null && attributes !== void 0 && typeof attributes === "object" && Object.keys(attributes).length > 0) {
newOp.attributes = attributes;
}
return this.push(newOp);
}
push(newOp) {
let index = this.ops.length;
let lastOp = this.ops[index - 1];
newOp = cloneDeep2(newOp);
if (typeof lastOp === "object") {
if (typeof newOp.delete === "number" && typeof lastOp.delete === "number") {
this.ops[index - 1] = {
delete: lastOp.delete + newOp.delete
};
return this;
}
if (typeof lastOp.delete === "number" && newOp.insert !== null && newOp.insert !== void 0) {
index -= 1;
lastOp = this.ops[index - 1];
if (typeof lastOp !== "object") {
this.ops.unshift(newOp);
return this;
}
}
if ((0, import_es62.default)(newOp.attributes, lastOp.attributes)) {
if (typeof newOp.insert === "string" && typeof lastOp.insert === "string") {
this.ops[index - 1] = {
insert: lastOp.insert + newOp.insert
};
if (typeof newOp.attributes === "object") {
this.ops[index - 1].attributes = newOp.attributes;
}
return this;
} else if (typeof newOp.retain === "number" && typeof lastOp.retain === "number") {
this.ops[index - 1] = {
retain: lastOp.retain + newOp.retain
};
if (typeof newOp.attributes === "object") {
this.ops[index - 1].attributes = newOp.attributes;
}
return this;
}
}
}
if (index === this.ops.length) {
this.ops.push(newOp);
} else {
this.ops.splice(index, 0, newOp);
}
return this;
}
chop() {
const lastOp = this.ops[this.ops.length - 1];
if (lastOp && typeof lastOp.retain === "number" && !lastOp.attributes) {
this.ops.pop();
}
return this;
}
filter(predicate) {
return this.ops.filter(predicate);
}
forEach(predicate) {
this.ops.forEach(predicate);
}
map(predicate) {
return this.ops.map(predicate);
}
partition(predicate) {
const passed = [];
const failed = [];
this.forEach((op) => {
const target = predicate(op) ? passed : failed;
target.push(op);
});
return [passed, failed];
}
reduce(predicate, initialValue) {
return this.ops.reduce(predicate, initialValue);
}
changeLength() {
return this.reduce((length3, elem) => {
if (elem.insert) {
return length3 + Op_default.length(elem);
} else if (elem.delete) {
return length3 - elem.delete;
}
return length3;
}, 0);
}
length() {
return this.reduce((length3, elem) => {
return length3 + Op_default.length(elem);
}, 0);
}
slice(start = 0, end = Infinity) {
const ops = [];
const iter = new Iterator(this.ops);
let index = 0;
while (index < end && iter.hasNext()) {
let nextOp;
if (index < start) {
nextOp = iter.next(start - index);
} else {
nextOp = iter.next(end - index);
ops.push(nextOp);
}
index += Op_default.length(nextOp);
}
return new _Delta(ops);
}
compose(other) {
const thisIter = new Iterator(this.ops);
const otherIter = new Iterator(other.ops);
const ops = [];
const firstOther = otherIter.peek();
if (firstOther !== null && firstOther !== void 0 && typeof firstOther.retain === "number" && (firstOther.attributes === null || firstOther.attributes === void 0)) {
let firstLeft = firstOther.retain;
while (thisIter.peekType() === "insert" && thisIter.peekLength() <= firstLeft) {
firstLeft -= thisIter.peekLength();
ops.push(thisIter.next());
}
if (firstOther.retain - firstLeft > 0) {
otherIter.next(firstOther.retain - firstLeft);
}
}
const delta = new _Delta(ops);
while (thisIter.hasNext() || otherIter.hasNext()) {
if (otherIter.peekType() === "insert") {
delta.push(otherIter.next());
} else if (thisIter.peekType() === "delete") {
delta.push(thisIter.next());
} else {
const length3 = Math.min(
thisIter.peekLength(),
otherIter.peekLength()
);
const thisOp = thisIter.next(length3);
const otherOp = otherIter.next(length3);
if (otherOp.retain) {
const newOp = {};
if (typeof thisOp.retain === "number") {
newOp.retain = typeof otherOp.retain === "number" ? length3 : otherOp.retain;
} else if (typeof otherOp.retain === "number") {
if (thisOp.retain === null || thisOp.retain === void 0) {
newOp.insert = thisOp.insert;
} else {
newOp.retain = thisOp.retain;
}
} else {
const action = thisOp.retain === null || thisOp.retain === void 0 ? "insert" : "retain";
const [embedType, thisData, otherData] = getEmbedTypeAndData(
thisOp[action],
otherOp.retain
);
const handler = _Delta.getHandler(embedType);
newOp[action] = {
[embedType]: handler.compose(
thisData,
otherData,
action === "retain"
)
};
}
const attributes = AttributeMap_default.compose(
thisOp.attributes,
otherOp.attributes,
typeof thisOp.retain === "number"
);
if (attributes) {
newOp.attributes = attributes;
}
delta.push(newOp);
if (!otherIter.hasNext() && (0, import_es62.default)(delta.ops[delta.ops.length - 1], newOp)) {
const rest = new _Delta(thisIter.rest());
return delta.concat(rest).chop();
}
} else if (typeof otherOp.delete === "number" && (typeof thisOp.retain === "number" || typeof thisOp.retain === "object" && thisOp.retain !== null)) {
delta.push(otherOp);
}
}
}
return delta.chop();
}
concat(other) {
const delta = new _Delta(this.ops.slice());
if (other.ops.length > 0) {
delta.push(other.ops[0]);
delta.ops = delta.ops.concat(other.ops.slice(1));
}
return delta;
}
diff(other) {
if (this.ops === other.ops) {
return new _Delta();
}
const strings = this.deltasToStrings(other);
const diffResult = normalizeChangeCounts(
diffChars(strings[0], strings[1])
);
const thisIter = new Iterator(this.ops);
const otherIter = new Iterator(other.ops);
const retDelta = this.convertChangesToDelta(
diffResult,
thisIter,
otherIter
);
return retDelta.chop();
}
eachLine(predicate, newline = "\n") {
const iter = new Iterator(this.ops);
let line = new _Delta();
let i = 0;
while (iter.hasNext()) {
if (iter.peekType() !== "insert") {
return;
}
const thisOp = iter.peek();
const start = Op_default.length(thisOp) - iter.peekLength();
const index = typeof thisOp.insert === "string" ? thisOp.insert.indexOf(newline, start) - start : -1;
if (index < 0) {
line.push(iter.next());
} else if (index > 0) {
line.push(iter.next(index));
} else {
if (predicate(line, iter.next(1).attributes || {}, i) === false) {
return;
}
i += 1;
line = new _Delta();
}
}
if (line.length() > 0) {
predicate(line, {}, i);
}
}
invert(base) {
const inverted = new _Delta();
this.reduce((baseIndex, op) => {
if (op.insert) {
inverted.delete(Op_default.length(op));
} else if (typeof op.retain === "number" && (op.attributes === null || op.attributes === void 0)) {
inverted.retain(op.retain);
return baseIndex + op.retain;
} else if (op.delete || typeof op.retain === "number") {
const length3 = op.delete || op.retain;
const slice = base.slice(baseIndex, baseIndex + length3);
slice.forEach((baseOp) => {
if (op.delete) {
inverted.push(baseOp);
} else if (op.retain && op.attributes) {
inverted.retain(
Op_default.length(baseOp),
AttributeMap_default.invert(
op.attributes,
baseOp.attributes
)
);
}
});
return baseIndex + length3;
} else if (typeof op.retain === "object" && op.retain !== null) {
const slice = base.slice(baseIndex, baseIndex + 1);
const baseOp = new Iterator(slice.ops).next();
const [embedType, opData, baseOpData] = getEmbedTypeAndData(
op.retain,
baseOp.insert
);
const handler = _Delta.getHandler(embedType);
inverted.retain(
{ [embedType]: handler.invert(opData, baseOpData) },
AttributeMap_default.invert(op.attributes, baseOp.attributes)
);
return baseIndex + 1;
}
return baseIndex;
}, 0);
return inverted.chop();
}
transform(arg, priority = false) {
priority = !!priority;
if (typeof arg === "number") {
return this.transformPosition(arg, priority);
}
const other = arg;
const thisIter = new Iterator(this.ops);
const otherIter = new Iterator(other.ops);
const delta = new _Delta();
while (thisIter.hasNext() || otherIter.hasNext()) {
if (thisIter.peekType() === "insert" && (priority || otherIter.peekType() !== "insert")) {
delta.retain(Op_default.length(thisIter.next()));
} else if (otherIter.peekType() === "insert") {
delta.push(otherIter.next());
} else {
const length3 = Math.min(
thisIter.peekLength(),
otherIter.peekLength()
);
const thisOp = thisIter.next(length3);
const otherOp = otherIter.next(length3);
if (thisOp.delete) {
continue;
} else if (otherOp.delete) {
delta.push(otherOp);
} else {
const thisData = thisOp.retain;
const otherData = otherOp.retain;
let transformedData = typeof otherData === "object" && otherData !== null ? otherData : length3;
if (typeof thisData === "object" && thisData !== null && typeof otherData === "object" && otherData !== null) {
const embedType = Object.keys(thisData)[0];
if (embedType === Object.keys(otherData)[0]) {
const handler = _Delta.getHandler(embedType);
if (handler) {
transformedData = {
[embedType]: handler.transform(
thisData[embedType],
otherData[embedType],
priority
)
};
}
}
}
delta.retain(
transformedData,
AttributeMap_default.transform(
thisOp.attributes,
otherOp.attributes,
priority
)
);
}
}
}
return delta.chop();
}
transformPosition(index, priority = false) {
priority = !!priority;
const thisIter = new Iterator(this.ops);
let offset = 0;
while (thisIter.hasNext() && offset <= index) {
const length3 = thisIter.peekLength();
const nextType = thisIter.peekType();
thisIter.next();
if (nextType === "delete") {
index -= Math.min(length3, index - offset);
continue;
} else if (nextType === "insert" && (offset < index || !priority)) {
index += length3;
}
offset += length3;
}
return index;
}
/**
* Given a Delta and a cursor position, do a diff and attempt to adjust
* the diff to place insertions or deletions at the cursor position.
*
* @param other - The other Delta to diff against.
* @param cursorAfterChange - The cursor position index after the change.
* @return A Delta that attempts to place insertions or deletions at the cursor position.
*/
diffWithCursor(other, cursorAfterChange) {
if (this.ops === other.ops) {
return new _Delta();
}
const strings = this.deltasToStrings(other);
const maxStringLength = Math.max(
...strings.map((str) => str.length)
);
if (maxStringLength > STRING_TOO_LARGE_THRESHOLD) {
const diffResult = normalizeChangeCounts(
diffLines(strings[0], strings[1])
);
const thisIterLarge = new Iterator(this.ops);
const otherIterLarge = new Iterator(other.ops);
return this.convertChangesToDelta(
diffResult,
thisIterLarge,
otherIterLarge
).chop();
} else if (cursorAfterChange === null) {
return this.diff(other);
}
let diffs = normalizeChangeCounts(
diffChars(strings[0], strings[1])
);
let lastDiffPosition = 0;
const adjustedDiffs = [];
for (let i = 0; i < diffs.length; i++) {
const diff = diffs[i];
const segmentStart = lastDiffPosition;
const segmentEnd = lastDiffPosition + (diff.count ?? 0);
const isCursorInSegment = cursorAfterChange > segmentStart && cursorAfterChange <= segmentEnd;
const isUnchangedSegment = !diff.added && !diff.removed;
const isRemovalSegment = diff.removed && !diff.added;
const nextDiff = diffs[i + 1];
const isNextDiffAnInsert = nextDiff && nextDiff.added && !nextDiff.removed;
if (isUnchangedSegment && isCursorInSegment && isNextDiffAnInsert) {
const movedSegments = this.tryMoveInsertionToCursor(
diff,
nextDiff,
cursorAfterChange,
segmentStart
);
if (movedSegments) {
adjustedDiffs.push(...movedSegments);
i++;
lastDiffPosition = segmentEnd;
continue;
}
}
if (isRemovalSegment) {
const movedSegments = this.tryMoveDeletionToCursor(
diff,
adjustedDiffs,
cursorAfterChange,
lastDiffPosition
);
if (movedSegments) {
adjustedDiffs.pop();
adjustedDiffs.push(...movedSegments);
lastDiffPosition += diff.count ?? 0;
continue;
}
}
adjustedDiffs.push(diff);
if (!diff.added) {
lastDiffPosition += diff.count ?? 0;
}
}
diffs = adjustedDiffs;
const thisIter = new Iterator(this.ops);
const otherIter = new Iterator(other.ops);
const retDelta = this.convertChangesToDelta(
diffs,
thisIter,
otherIter
);
return retDelta.chop();
}
/**
* Try to move an insertion operation from after an unchanged segment to the cursor position within it.
* This is a "look-ahead" strategy.
*
* @param diff - The current unchanged diff segment.
* @param nextDiff - The next diff segment (expected to be an insertion).
* @param cursorAfterChange - The cursor position after the change.
* @param segmentStart - The start position of the current segment.
* @return An array of adjusted diff segments if the insertion was successfully moved, null otherwise.
*/
tryMoveInsertionToCursor(diff, nextDiff, cursorAfterChange, segmentStart) {
const nextDiffInsert = nextDiff.value;
const insertLength = nextDiffInsert.length;
const insertOffset = cursorAfterChange - segmentStart - insertLength;
const textAtCursor = diff.value.substring(
insertOffset,
insertOffset + nextDiffInsert.length
);
const isInsertMoveable = textAtCursor === nextDiffInsert;
if (!isInsertMoveable) {
return null;
}
const beforeCursor = diff.value.substring(0, insertOffset);
const afterCursor = diff.value.substring(insertOffset);
const result = [];
if (beforeCursor.length > 0) {
result.push({
value: beforeCursor,
count: beforeCursor.length,
added: false,
removed: false
});
}
result.push(nextDiff);
if (afterCursor.length > 0) {
result.push({
value: afterCursor,
count: afterCursor.length,
added: false,
removed: false
});
}
return result;
}
/**
* Try to move a deletion operation to the cursor position by looking back at the previous unchanged segment.
* This is a "look-back" strategy.
*
* @param diff - The current deletion diff segment.
* @param adjustedDiffs - The array of previously processed diff segments.
* @param cursorAfterChange - The cursor position after the change.
* @param lastDiffPosition - The position in the document up to (but not including) the current diff.
* @return An array of adjusted diff segments if the deletion was successfully moved, null otherwise.
*/
tryMoveDeletionToCursor(diff, adjustedDiffs, cursorAfterChange, lastDiffPosition) {
const prevDiff = adjustedDiffs[adjustedDiffs.length - 1];
if (!prevDiff || prevDiff.added || prevDiff.removed) {
return null;
}
const prevSegmentStart = lastDiffPosition - (prevDiff.count ?? 0);
const prevSegmentEnd = lastDiffPosition;
if (cursorAfterChange < prevSegmentStart || cursorAfterChange >= prevSegmentEnd) {
return null;
}
const deletedChars = diff.value;
const deleteOffset = cursorAfterChange - prevSegmentStart;
const textAtCursor = prevDiff.value.substring(
deleteOffset,
deleteOffset + deletedChars.length
);
const canBePlacedHere = textAtCursor === deletedChars;
if (!canBePlacedHere) {
return null;
}
const beforeCursor = prevDiff.value.substring(0, deleteOffset);
const atAndAfterCursor = prevDiff.value.substring(deleteOffset);
const deletionLength = diff.count ?? 0;
const afterDeletion = atAndAfterCursor.substring(deletionLength);
const result = [];
if (beforeCursor.length > 0) {
result.push({
value: beforeCursor,
count: beforeCursor.length,
added: false,
removed: false
});
}
result.push(diff);
if (afterDeletion.length > 0) {
result.push({
value: afterDeletion,
count: afterDeletion.length,
added: false,
removed: false
});
}
return result;
}
/**
* Convert two Deltas to string representations for diffing.
*
* @param other - The other Delta to convert.
* @return A tuple of [thisString, otherString].
*/
deltasToStrings(other) {
return [this, other].map((delta) => {
return delta.map((op) => {
if (op.insert !== null || op.insert !== void 0) {
return typeof op.insert === "string" ? op.insert : NULL_CHARACTER;
}
const prep = delta === other ? "on" : "with";
throw new Error(
"diff() called " + prep + " non-document"
);
}).join("");
});
}
/**
* Process diff changes and convert them to Delta operations.
*
* @param changes - The array of changes from the diff algorithm.
* @param thisIter - Iterator for this Delta's operations.
* @param otherIter - Iterator for the other Delta's operations.
* @return A Delta containing the processed diff operations.
*/
convertChangesToDelta(changes, thisIter, otherIter) {
const retDelta = new _Delta();
changes.forEach((component) => {
let length3 = component.count ?? 0;
while (length3 > 0) {
let opLength = 0;
if (component.added) {
opLength = Math.min(otherIter.peekLength(), length3);
retDelta.push(otherIter.next(opLength));
} else if (component.removed) {
opLength = Math.min(length3, thisIter.peekLength());
thisIter.next(opLength);
retDelta.delete(opLength);
} else {
opLength = Math.min(
thisIter.peekLength(),
otherIter.peekLength(),
length3
);
const thisOp = thisIter.next(opLength);
const otherOp = otherIter.next(opLength);
if ((0, import_es62.default)(thisOp.insert, otherOp.insert)) {
retDelta.retain(
opLength,
AttributeMap_default.diff(
thisOp.attributes,
otherOp.attributes
)
);
} else {
retDelta.push(otherOp).delete(opLength);
}
}
length3 -= opLength;
}
});
return retDelta;
}
};
var Delta_default = Delta;
// packages/sync/build-module/private-apis.mjs
var privateApis = {};
lock(privateApis, {
ConnectionErrorCode,
createSyncManager,
Delta: Delta_default,
CRDT_DOC_META_PERSISTENCE_KEY,
CRDT_RECORD_MAP_KEY,
LOCAL_EDITOR_ORIGIN,
LOCAL_UNDO_IGNORED_ORIGIN,
retrySyncConnection: () => pollingManager.retryNow()
});
// packages/sync/build-module/index.mjs
var YJS_VERSION = "13";
return __toCommonJS(index_exports);
})();
